aboutsummaryrefslogtreecommitdiff
diff options
context:
space:
mode:
-rw-r--r--gdb/ChangeLog8
-rw-r--r--gdb/MAINTAINERS4
-rw-r--r--gdb/config/d30v/d30v.mt10
-rw-r--r--gdb/config/d30v/tm-d30v.h646
-rw-r--r--gdb/configure.tgt2
-rw-r--r--gdb/d30v-tdep.c2730
-rw-r--r--sim/ChangeLog5
-rw-r--r--sim/common/ChangeLog5
-rw-r--r--sim/common/gennltvals.sh6
-rw-r--r--sim/common/nltvals.def24
-rwxr-xr-xsim/configure10
-rw-r--r--sim/configure.in10
-rw-r--r--sim/d30v/ChangeLog6
-rw-r--r--sim/d30v/Makefile.in434
-rw-r--r--sim/d30v/alu.h212
-rw-r--r--sim/d30v/cpu.c344
-rw-r--r--sim/d30v/cpu.h498
-rw-r--r--sim/d30v/d30v-insns4845
-rw-r--r--sim/d30v/dc-short44
-rw-r--r--sim/d30v/engine.c992
-rw-r--r--sim/d30v/ic-d30v160
-rw-r--r--sim/d30v/sim-calls.c728
-rw-r--r--sim/d30v/sim-main.h164
23 files changed, 5941 insertions, 5946 deletions
diff --git a/gdb/ChangeLog b/gdb/ChangeLog
index dda63f5..bd5b860 100644
--- a/gdb/ChangeLog
+++ b/gdb/ChangeLog
@@ -1,3 +1,11 @@
+2002-07-13 Andrew Cagney <ac131313@redhat.com>
+
+ * MAINTAINERS: Note that d30v / d30v-elf has been made obsolete.
+ * configure.tgt: Mark d30v-*-* as obsolete.
+ * d30v-tdep.c: Mark file as obsolete.
+ * config/d30v/d30v.mt: Ditto.
+ * config/d30v/tm-d30v.h: Ditto.
+
2002-07-13 Aidan Skinner <aidan@velvet.net>
* ada-tasks.c (add_task_entry): replace calls to
diff --git a/gdb/MAINTAINERS b/gdb/MAINTAINERS
index f2e4485..a6582a2 100644
--- a/gdb/MAINTAINERS
+++ b/gdb/MAINTAINERS
@@ -78,9 +78,7 @@ maintainer works with the native maintainer when resolving API issues.
d10v --target=d10v-elf ,-Werror
Maintenance only
- d30v --target=d30v-elf ,-Werror
- Maintenance only
- OBSOLETE candidate, not multi-arch
+ d30v (--target=d30v-elf OBSOLETE)
djgpp --target=i586-pc-msdosdjgpp ,-Werror
(See native and host)
diff --git a/gdb/config/d30v/d30v.mt b/gdb/config/d30v/d30v.mt
index da0af2f..49bd83b 100644
--- a/gdb/config/d30v/d30v.mt
+++ b/gdb/config/d30v/d30v.mt
@@ -1,5 +1,5 @@
-# Target: Mitsubishi D30V processor
-TDEPFILES= d30v-tdep.o
-TM_FILE= tm-d30v.h
-SIM_OBS= remote-sim.o
-SIM= ../sim/d30v/libsim.a
+# OBSOLETE # Target: Mitsubishi D30V processor
+# OBSOLETE TDEPFILES= d30v-tdep.o
+# OBSOLETE TM_FILE= tm-d30v.h
+# OBSOLETE SIM_OBS= remote-sim.o
+# OBSOLETE SIM= ../sim/d30v/libsim.a
diff --git a/gdb/config/d30v/tm-d30v.h b/gdb/config/d30v/tm-d30v.h
index e233630..3e1ea3f 100644
--- a/gdb/config/d30v/tm-d30v.h
+++ b/gdb/config/d30v/tm-d30v.h
@@ -1,323 +1,323 @@
-/* Target-specific definition for the Mitsubishi D30V
- Copyright 1997, 1998, 1999, 2000 Free Software Foundation, Inc.
-
- This file is part of GDB.
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330,
- Boston, MA 02111-1307, USA. */
-
-#ifndef TM_D30V_H
-#define TM_D30V_H
-
-#include "regcache.h"
-
-/* Offset from address of function to start of its code.
- Zero on most machines. */
-
-#define FUNCTION_START_OFFSET 0
-
-/* these are the addresses the D30V-EVA board maps data */
-/* and instruction memory to. */
-
-#define DMEM_START 0x20000000
-#define IMEM_START 0x00000000 /* was 0x10000000 */
-#define STACK_START 0x20007ffe
-
-/* Forward decls for prototypes */
-struct frame_info;
-struct frame_saved_regs;
-struct type;
-struct value;
-
-/* Advance PC across any function entry prologue instructions
- to reach some "real" code. */
-
-extern CORE_ADDR d30v_skip_prologue (CORE_ADDR);
-#define SKIP_PROLOGUE(ip) (d30v_skip_prologue (ip))
-
-
-/* Stack grows downward. */
-#define INNER_THAN(lhs,rhs) ((lhs) < (rhs))
-
-/* for a breakpoint, use "dbt || nop" */
-#define BREAKPOINT {0x00, 0xb0, 0x00, 0x00,\
- 0x00, 0xf0, 0x00, 0x00}
-
-/* If your kernel resets the pc after the trap happens you may need to
- define this before including this file. */
-#define DECR_PC_AFTER_BREAK 0
-
-#define REGISTER_NAMES \
-{ "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", \
- "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", \
- "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", \
- "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31", \
- "r32", "r33", "r34", "r35", "r36", "r37", "r38", "r39", \
- "r40", "r41", "r42", "r43", "r44", "r45", "r46", "r47", \
- "r48", "r49", "r50", "r51", "r52", "r53", "r54", "r55", \
- "r56", "r57", "r58", "r59", "r60", "r61", "r62", "r63", \
- "spi", "spu", \
- "psw", "bpsw", "pc", "bpc", "dpsw", "dpc", "cr6", "rpt_c", \
- "rpt_s", "rpt_e", "mod_s", "mod_e", "cr12", "cr13", "iba", "eit_vb",\
- "int_s", "int_m", "a0", "a1" \
- }
-
-#define NUM_REGS 86
-
-/* Register numbers of various important registers.
- Note that some of these values are "real" register numbers,
- and correspond to the general registers of the machine,
- and some are "phony" register numbers which are too large
- to be actual register numbers as far as the user is concerned
- but do serve to get the desired values when passed to read_register. */
-
-#define R0_REGNUM 0
-#define FP_REGNUM 61
-#define LR_REGNUM 62
-#define SP_REGNUM 63
-#define SPI_REGNUM 64 /* Interrupt stack pointer */
-#define SPU_REGNUM 65 /* User stack pointer */
-#define CREGS_START 66
-
-#define PSW_REGNUM (CREGS_START + 0) /* psw, bpsw, or dpsw??? */
-#define PSW_SM (((unsigned long)0x80000000) >> 0) /* Stack mode: 0/SPI */
- /* 1/SPU */
-#define PSW_EA (((unsigned long)0x80000000) >> 2) /* Execution status */
-#define PSW_DB (((unsigned long)0x80000000) >> 3) /* Debug mode */
-#define PSW_DS (((unsigned long)0x80000000) >> 4) /* Debug EIT status */
-#define PSW_IE (((unsigned long)0x80000000) >> 5) /* Interrupt enable */
-#define PSW_RP (((unsigned long)0x80000000) >> 6) /* Repeat enable */
-#define PSW_MD (((unsigned long)0x80000000) >> 7) /* Modulo enable */
-#define PSW_F0 (((unsigned long)0x80000000) >> 17) /* F0 flag */
-#define PSW_F1 (((unsigned long)0x80000000) >> 19) /* F1 flag */
-#define PSW_F2 (((unsigned long)0x80000000) >> 21) /* F2 flag */
-#define PSW_F3 (((unsigned long)0x80000000) >> 23) /* F3 flag */
-#define PSW_S (((unsigned long)0x80000000) >> 25) /* Saturation flag */
-#define PSW_V (((unsigned long)0x80000000) >> 27) /* Overflow flag */
-#define PSW_VA (((unsigned long)0x80000000) >> 29) /* Accum. overflow */
-#define PSW_C (((unsigned long)0x80000000) >> 31) /* Carry/Borrow flag */
-
-#define BPSW_REGNUM (CREGS_START + 1) /* Backup PSW (on interrupt) */
-#define PC_REGNUM (CREGS_START + 2) /* pc, bpc, or dpc??? */
-#define BPC_REGNUM (CREGS_START + 3) /* Backup PC (on interrupt) */
-#define DPSW_REGNUM (CREGS_START + 4) /* Backup PSW (on debug trap) */
-#define DPC_REGNUM (CREGS_START + 5) /* Backup PC (on debug trap) */
-#define RPT_C_REGNUM (CREGS_START + 7) /* Loop count */
-#define RPT_S_REGNUM (CREGS_START + 8) /* Loop start address */
-#define RPT_E_REGNUM (CREGS_START + 9) /* Loop end address */
-#define MOD_S_REGNUM (CREGS_START + 10)
-#define MOD_E_REGNUM (CREGS_START + 11)
-#define IBA_REGNUM (CREGS_START + 14) /* Instruction break address */
-#define EIT_VB_REGNUM (CREGS_START + 15) /* Vector base address */
-#define INT_S_REGNUM (CREGS_START + 16) /* Interrupt status */
-#define INT_M_REGNUM (CREGS_START + 17) /* Interrupt mask */
-#define A0_REGNUM 84
-#define A1_REGNUM 85
-
-/* Say how much memory is needed to store a copy of the register set */
-#define REGISTER_BYTES ((NUM_REGS - 2) * 4 + 2 * 8)
-
-/* Index within `registers' of the first byte of the space for
- register N. */
-
-#define REGISTER_BYTE(N) \
-( ((N) >= A0_REGNUM) ? ( ((N) - A0_REGNUM) * 8 + A0_REGNUM * 4 ) : ((N) * 4) )
-
-/* Number of bytes of storage in the actual machine representation
- for register N. */
-
-#define REGISTER_RAW_SIZE(N) ( ((N) >= A0_REGNUM) ? 8 : 4 )
-
-/* Number of bytes of storage in the program's representation
- for register N. */
-#define REGISTER_VIRTUAL_SIZE(N) REGISTER_RAW_SIZE(N)
-
-/* Largest value REGISTER_RAW_SIZE can have. */
-
-#define MAX_REGISTER_RAW_SIZE 8
-
-/* Largest value REGISTER_VIRTUAL_SIZE can have. */
-
-#define MAX_REGISTER_VIRTUAL_SIZE 8
-
-/* Return the GDB type object for the "standard" data type
- of data in register N. */
-
-#define REGISTER_VIRTUAL_TYPE(N) \
-( ((N) < A0_REGNUM ) ? builtin_type_long : builtin_type_long_long)
-
-/* Writing to r0 is a noop (not an error or exception or anything like
- that, however). */
-
-#define CANNOT_STORE_REGISTER(regno) ((regno) == R0_REGNUM)
-
-void d30v_do_registers_info (int regnum, int fpregs);
-
-#define DO_REGISTERS_INFO d30v_do_registers_info
-
-/* Store the address of the place in which to copy the structure the
- subroutine will return. This is called from call_function.
-
- We store structs through a pointer passed in R2 */
-
-#define STORE_STRUCT_RETURN(ADDR, SP) \
- { write_register (2, (ADDR)); }
-
-
-/* Write into appropriate registers a function return value
- of type TYPE, given in virtual format.
-
- Things always get returned in R2/R3 */
-
-#define STORE_RETURN_VALUE(TYPE,VALBUF) \
- write_register_bytes (REGISTER_BYTE(2), VALBUF, TYPE_LENGTH (TYPE))
-
-
-/* Extract from an array REGBUF containing the (raw) register state
- the address in which a function should return its structure value,
- as a CORE_ADDR (or an expression that can be used as one). */
-#define DEPRECATED_EXTRACT_STRUCT_VALUE_ADDRESS(REGBUF) (((CORE_ADDR *)(REGBUF))[2])
-
-
-/* Define other aspects of the stack frame.
- we keep a copy of the worked out return pc lying around, since it
- is a useful bit of info */
-
-#define EXTRA_FRAME_INFO \
- CORE_ADDR return_pc; \
- CORE_ADDR dummy; \
- int frameless; \
- int size;
-
-#define INIT_EXTRA_FRAME_INFO(fromleaf, fi) \
- d30v_init_extra_frame_info(fromleaf, fi)
-
-extern void d30v_init_extra_frame_info (int fromleaf, struct frame_info *fi);
-
-/* A macro that tells us whether the function invocation represented
- by FI does not have a frame on the stack associated with it. If it
- does not, FRAMELESS is set to 1, else 0. */
-
-#define FRAMELESS_FUNCTION_INVOCATION(FI) \
- (frameless_look_for_prologue (FI))
-
-CORE_ADDR d30v_frame_chain (struct frame_info *frame);
-#define FRAME_CHAIN(FRAME) d30v_frame_chain(FRAME)
-extern int d30v_frame_chain_valid (CORE_ADDR, struct frame_info *);
-#define FRAME_CHAIN_VALID(chain, thisframe) d30v_frame_chain_valid (chain, thisframe)
-#define FRAME_SAVED_PC(FRAME) ((FRAME)->return_pc)
-#define FRAME_ARGS_ADDRESS(fi) (fi)->frame
-#define FRAME_LOCALS_ADDRESS(fi) (fi)->frame
-
-void d30v_init_frame_pc (int fromleaf, struct frame_info *prev);
-#define INIT_FRAME_PC_FIRST(fromleaf, prev) d30v_init_frame_pc(fromleaf, prev)
-#define INIT_FRAME_PC(fromleaf, prev) /* nada */
-
-/* Immediately after a function call, return the saved pc. We can't */
-/* use frame->return_pc beause that is determined by reading R62 off the */
-/* stack and that may not be written yet. */
-
-#define SAVED_PC_AFTER_CALL(frame) (read_register(LR_REGNUM))
-
-/* Set VAL to the number of args passed to frame described by FI.
- Can set VAL to -1, meaning no way to tell. */
-/* We can't tell how many args there are */
-
-#define FRAME_NUM_ARGS(fi) (-1)
-
-/* Return number of bytes at start of arglist that are not really args. */
-
-#define FRAME_ARGS_SKIP 0
-
-
-/* Put here the code to store, into a struct frame_saved_regs,
- the addresses of the saved registers of frame described by FRAME_INFO.
- This includes special registers such as pc and fp saved in special
- ways in the stack frame. sp is even more special:
- the address we return for it IS the sp for the next frame. */
-
-#define FRAME_FIND_SAVED_REGS(frame_info, frame_saved_regs) \
- d30v_frame_find_saved_regs(frame_info, &(frame_saved_regs))
-
-extern void d30v_frame_find_saved_regs (struct frame_info *,
- struct frame_saved_regs *);
-
-/* DUMMY FRAMES. Need these to support inferior function calls.
- They work like this on D30V:
- First we set a breakpoint at 0 or __start.
- Then we push all the registers onto the stack.
- Then put the function arguments in the proper registers and set r13
- to our breakpoint address.
- Finally call the function directly.
- When it hits the breakpoint, clear the break point and pop the old
- register contents off the stack. */
-
-#define CALL_DUMMY { 0 }
-#define PUSH_DUMMY_FRAME
-#define CALL_DUMMY_START_OFFSET 0
-#define CALL_DUMMY_LOCATION AT_ENTRY_POINT
-#define CALL_DUMMY_BREAKPOINT_OFFSET (0)
-
-extern CORE_ADDR d30v_call_dummy_address (void);
-#define CALL_DUMMY_ADDRESS() d30v_call_dummy_address()
-
-#define FIX_CALL_DUMMY(dummyname, pc, fun, nargs, args, type, gcc_p) \
-sp = d30v_fix_call_dummy (dummyname, pc, fun, nargs, args, type, gcc_p)
-
-#define PC_IN_CALL_DUMMY(pc, sp, frame_address) ( pc == IMEM_START + 4 )
-
-extern CORE_ADDR d30v_fix_call_dummy (char *, CORE_ADDR, CORE_ADDR,
- int, struct value **,
- struct type *, int);
-#define PUSH_ARGUMENTS(nargs, args, sp, struct_return, struct_addr) \
- (d30v_push_arguments((nargs), (args), (sp), (struct_return), (struct_addr)))
-extern CORE_ADDR d30v_push_arguments (int, struct value **, CORE_ADDR, int,
- CORE_ADDR);
-
-
-/* Extract from an array REGBUF containing the (raw) register state
- a function return value of type TYPE, and copy that, in virtual format,
- into VALBUF. */
-
-#define DEPRECATED_EXTRACT_RETURN_VALUE(TYPE,REGBUF,VALBUF) \
-d30v_extract_return_value(TYPE, REGBUF, VALBUF)
-extern void d30v_extract_return_value (struct type *, char *, char *);
-
-
-/* Discard from the stack the innermost frame,
- restoring all saved registers. */
-#define POP_FRAME d30v_pop_frame();
-extern void d30v_pop_frame (void);
-
-#define REGISTER_SIZE 4
-
-/* Need to handle SP special, as we need to select between spu and spi. */
-#if 0 /* XXX until the simulator is fixed */
-#define TARGET_READ_SP() ((read_register (PSW_REGNUM) & PSW_SM) \
- ? read_register (SPU_REGNUM) \
- : read_register (SPI_REGNUM))
-
-#define TARGET_WRITE_SP(val) ((read_register (PSW_REGNUM) & PSW_SM) \
- ? write_register (SPU_REGNUM, (val)) \
- : write_register (SPI_REGNUM, (val)))
-#endif
-
-#define STACK_ALIGN(len) (((len) + 7 ) & ~7)
-
-/* Turn this on to cause remote-sim.c to use sim_set/clear_breakpoint. */
-
-#define SIM_HAS_BREAKPOINTS
-
-#endif /* TM_D30V_H */
+/* OBSOLETE /* Target-specific definition for the Mitsubishi D30V */
+/* OBSOLETE Copyright 1997, 1998, 1999, 2000 Free Software Foundation, Inc. */
+/* OBSOLETE */
+/* OBSOLETE This file is part of GDB. */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
+/* OBSOLETE (at your option) any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License */
+/* OBSOLETE along with this program; if not, write to the Free Software */
+/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, */
+/* OBSOLETE Boston, MA 02111-1307, USA. */ */
+/* OBSOLETE */
+/* OBSOLETE #ifndef TM_D30V_H */
+/* OBSOLETE #define TM_D30V_H */
+/* OBSOLETE */
+/* OBSOLETE #include "regcache.h" */
+/* OBSOLETE */
+/* OBSOLETE /* Offset from address of function to start of its code. */
+/* OBSOLETE Zero on most machines. */ */
+/* OBSOLETE */
+/* OBSOLETE #define FUNCTION_START_OFFSET 0 */
+/* OBSOLETE */
+/* OBSOLETE /* these are the addresses the D30V-EVA board maps data */ */
+/* OBSOLETE /* and instruction memory to. */ */
+/* OBSOLETE */
+/* OBSOLETE #define DMEM_START 0x20000000 */
+/* OBSOLETE #define IMEM_START 0x00000000 /* was 0x10000000 */ */
+/* OBSOLETE #define STACK_START 0x20007ffe */
+/* OBSOLETE */
+/* OBSOLETE /* Forward decls for prototypes */ */
+/* OBSOLETE struct frame_info; */
+/* OBSOLETE struct frame_saved_regs; */
+/* OBSOLETE struct type; */
+/* OBSOLETE struct value; */
+/* OBSOLETE */
+/* OBSOLETE /* Advance PC across any function entry prologue instructions */
+/* OBSOLETE to reach some "real" code. */ */
+/* OBSOLETE */
+/* OBSOLETE extern CORE_ADDR d30v_skip_prologue (CORE_ADDR); */
+/* OBSOLETE #define SKIP_PROLOGUE(ip) (d30v_skip_prologue (ip)) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Stack grows downward. */ */
+/* OBSOLETE #define INNER_THAN(lhs,rhs) ((lhs) < (rhs)) */
+/* OBSOLETE */
+/* OBSOLETE /* for a breakpoint, use "dbt || nop" */ */
+/* OBSOLETE #define BREAKPOINT {0x00, 0xb0, 0x00, 0x00,\ */
+/* OBSOLETE 0x00, 0xf0, 0x00, 0x00} */
+/* OBSOLETE */
+/* OBSOLETE /* If your kernel resets the pc after the trap happens you may need to */
+/* OBSOLETE define this before including this file. */ */
+/* OBSOLETE #define DECR_PC_AFTER_BREAK 0 */
+/* OBSOLETE */
+/* OBSOLETE #define REGISTER_NAMES \ */
+/* OBSOLETE { "r0", "r1", "r2", "r3", "r4", "r5", "r6", "r7", \ */
+/* OBSOLETE "r8", "r9", "r10", "r11", "r12", "r13", "r14", "r15", \ */
+/* OBSOLETE "r16", "r17", "r18", "r19", "r20", "r21", "r22", "r23", \ */
+/* OBSOLETE "r24", "r25", "r26", "r27", "r28", "r29", "r30", "r31", \ */
+/* OBSOLETE "r32", "r33", "r34", "r35", "r36", "r37", "r38", "r39", \ */
+/* OBSOLETE "r40", "r41", "r42", "r43", "r44", "r45", "r46", "r47", \ */
+/* OBSOLETE "r48", "r49", "r50", "r51", "r52", "r53", "r54", "r55", \ */
+/* OBSOLETE "r56", "r57", "r58", "r59", "r60", "r61", "r62", "r63", \ */
+/* OBSOLETE "spi", "spu", \ */
+/* OBSOLETE "psw", "bpsw", "pc", "bpc", "dpsw", "dpc", "cr6", "rpt_c", \ */
+/* OBSOLETE "rpt_s", "rpt_e", "mod_s", "mod_e", "cr12", "cr13", "iba", "eit_vb",\ */
+/* OBSOLETE "int_s", "int_m", "a0", "a1" \ */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #define NUM_REGS 86 */
+/* OBSOLETE */
+/* OBSOLETE /* Register numbers of various important registers. */
+/* OBSOLETE Note that some of these values are "real" register numbers, */
+/* OBSOLETE and correspond to the general registers of the machine, */
+/* OBSOLETE and some are "phony" register numbers which are too large */
+/* OBSOLETE to be actual register numbers as far as the user is concerned */
+/* OBSOLETE but do serve to get the desired values when passed to read_register. */ */
+/* OBSOLETE */
+/* OBSOLETE #define R0_REGNUM 0 */
+/* OBSOLETE #define FP_REGNUM 61 */
+/* OBSOLETE #define LR_REGNUM 62 */
+/* OBSOLETE #define SP_REGNUM 63 */
+/* OBSOLETE #define SPI_REGNUM 64 /* Interrupt stack pointer */ */
+/* OBSOLETE #define SPU_REGNUM 65 /* User stack pointer */ */
+/* OBSOLETE #define CREGS_START 66 */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_REGNUM (CREGS_START + 0) /* psw, bpsw, or dpsw??? */ */
+/* OBSOLETE #define PSW_SM (((unsigned long)0x80000000) >> 0) /* Stack mode: 0/SPI */ */
+/* OBSOLETE /* 1/SPU */ */
+/* OBSOLETE #define PSW_EA (((unsigned long)0x80000000) >> 2) /* Execution status */ */
+/* OBSOLETE #define PSW_DB (((unsigned long)0x80000000) >> 3) /* Debug mode */ */
+/* OBSOLETE #define PSW_DS (((unsigned long)0x80000000) >> 4) /* Debug EIT status */ */
+/* OBSOLETE #define PSW_IE (((unsigned long)0x80000000) >> 5) /* Interrupt enable */ */
+/* OBSOLETE #define PSW_RP (((unsigned long)0x80000000) >> 6) /* Repeat enable */ */
+/* OBSOLETE #define PSW_MD (((unsigned long)0x80000000) >> 7) /* Modulo enable */ */
+/* OBSOLETE #define PSW_F0 (((unsigned long)0x80000000) >> 17) /* F0 flag */ */
+/* OBSOLETE #define PSW_F1 (((unsigned long)0x80000000) >> 19) /* F1 flag */ */
+/* OBSOLETE #define PSW_F2 (((unsigned long)0x80000000) >> 21) /* F2 flag */ */
+/* OBSOLETE #define PSW_F3 (((unsigned long)0x80000000) >> 23) /* F3 flag */ */
+/* OBSOLETE #define PSW_S (((unsigned long)0x80000000) >> 25) /* Saturation flag */ */
+/* OBSOLETE #define PSW_V (((unsigned long)0x80000000) >> 27) /* Overflow flag */ */
+/* OBSOLETE #define PSW_VA (((unsigned long)0x80000000) >> 29) /* Accum. overflow */ */
+/* OBSOLETE #define PSW_C (((unsigned long)0x80000000) >> 31) /* Carry/Borrow flag */ */
+/* OBSOLETE */
+/* OBSOLETE #define BPSW_REGNUM (CREGS_START + 1) /* Backup PSW (on interrupt) */ */
+/* OBSOLETE #define PC_REGNUM (CREGS_START + 2) /* pc, bpc, or dpc??? */ */
+/* OBSOLETE #define BPC_REGNUM (CREGS_START + 3) /* Backup PC (on interrupt) */ */
+/* OBSOLETE #define DPSW_REGNUM (CREGS_START + 4) /* Backup PSW (on debug trap) */ */
+/* OBSOLETE #define DPC_REGNUM (CREGS_START + 5) /* Backup PC (on debug trap) */ */
+/* OBSOLETE #define RPT_C_REGNUM (CREGS_START + 7) /* Loop count */ */
+/* OBSOLETE #define RPT_S_REGNUM (CREGS_START + 8) /* Loop start address */ */
+/* OBSOLETE #define RPT_E_REGNUM (CREGS_START + 9) /* Loop end address */ */
+/* OBSOLETE #define MOD_S_REGNUM (CREGS_START + 10) */
+/* OBSOLETE #define MOD_E_REGNUM (CREGS_START + 11) */
+/* OBSOLETE #define IBA_REGNUM (CREGS_START + 14) /* Instruction break address */ */
+/* OBSOLETE #define EIT_VB_REGNUM (CREGS_START + 15) /* Vector base address */ */
+/* OBSOLETE #define INT_S_REGNUM (CREGS_START + 16) /* Interrupt status */ */
+/* OBSOLETE #define INT_M_REGNUM (CREGS_START + 17) /* Interrupt mask */ */
+/* OBSOLETE #define A0_REGNUM 84 */
+/* OBSOLETE #define A1_REGNUM 85 */
+/* OBSOLETE */
+/* OBSOLETE /* Say how much memory is needed to store a copy of the register set */ */
+/* OBSOLETE #define REGISTER_BYTES ((NUM_REGS - 2) * 4 + 2 * 8) */
+/* OBSOLETE */
+/* OBSOLETE /* Index within `registers' of the first byte of the space for */
+/* OBSOLETE register N. */ */
+/* OBSOLETE */
+/* OBSOLETE #define REGISTER_BYTE(N) \ */
+/* OBSOLETE ( ((N) >= A0_REGNUM) ? ( ((N) - A0_REGNUM) * 8 + A0_REGNUM * 4 ) : ((N) * 4) ) */
+/* OBSOLETE */
+/* OBSOLETE /* Number of bytes of storage in the actual machine representation */
+/* OBSOLETE for register N. */ */
+/* OBSOLETE */
+/* OBSOLETE #define REGISTER_RAW_SIZE(N) ( ((N) >= A0_REGNUM) ? 8 : 4 ) */
+/* OBSOLETE */
+/* OBSOLETE /* Number of bytes of storage in the program's representation */
+/* OBSOLETE for register N. */ */
+/* OBSOLETE #define REGISTER_VIRTUAL_SIZE(N) REGISTER_RAW_SIZE(N) */
+/* OBSOLETE */
+/* OBSOLETE /* Largest value REGISTER_RAW_SIZE can have. */ */
+/* OBSOLETE */
+/* OBSOLETE #define MAX_REGISTER_RAW_SIZE 8 */
+/* OBSOLETE */
+/* OBSOLETE /* Largest value REGISTER_VIRTUAL_SIZE can have. */ */
+/* OBSOLETE */
+/* OBSOLETE #define MAX_REGISTER_VIRTUAL_SIZE 8 */
+/* OBSOLETE */
+/* OBSOLETE /* Return the GDB type object for the "standard" data type */
+/* OBSOLETE of data in register N. */ */
+/* OBSOLETE */
+/* OBSOLETE #define REGISTER_VIRTUAL_TYPE(N) \ */
+/* OBSOLETE ( ((N) < A0_REGNUM ) ? builtin_type_long : builtin_type_long_long) */
+/* OBSOLETE */
+/* OBSOLETE /* Writing to r0 is a noop (not an error or exception or anything like */
+/* OBSOLETE that, however). */ */
+/* OBSOLETE */
+/* OBSOLETE #define CANNOT_STORE_REGISTER(regno) ((regno) == R0_REGNUM) */
+/* OBSOLETE */
+/* OBSOLETE void d30v_do_registers_info (int regnum, int fpregs); */
+/* OBSOLETE */
+/* OBSOLETE #define DO_REGISTERS_INFO d30v_do_registers_info */
+/* OBSOLETE */
+/* OBSOLETE /* Store the address of the place in which to copy the structure the */
+/* OBSOLETE subroutine will return. This is called from call_function. */
+/* OBSOLETE */
+/* OBSOLETE We store structs through a pointer passed in R2 */ */
+/* OBSOLETE */
+/* OBSOLETE #define STORE_STRUCT_RETURN(ADDR, SP) \ */
+/* OBSOLETE { write_register (2, (ADDR)); } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Write into appropriate registers a function return value */
+/* OBSOLETE of type TYPE, given in virtual format. */
+/* OBSOLETE */
+/* OBSOLETE Things always get returned in R2/R3 */ */
+/* OBSOLETE */
+/* OBSOLETE #define STORE_RETURN_VALUE(TYPE,VALBUF) \ */
+/* OBSOLETE write_register_bytes (REGISTER_BYTE(2), VALBUF, TYPE_LENGTH (TYPE)) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Extract from an array REGBUF containing the (raw) register state */
+/* OBSOLETE the address in which a function should return its structure value, */
+/* OBSOLETE as a CORE_ADDR (or an expression that can be used as one). */ */
+/* OBSOLETE #define DEPRECATED_EXTRACT_STRUCT_VALUE_ADDRESS(REGBUF) (((CORE_ADDR *)(REGBUF))[2]) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Define other aspects of the stack frame. */
+/* OBSOLETE we keep a copy of the worked out return pc lying around, since it */
+/* OBSOLETE is a useful bit of info */ */
+/* OBSOLETE */
+/* OBSOLETE #define EXTRA_FRAME_INFO \ */
+/* OBSOLETE CORE_ADDR return_pc; \ */
+/* OBSOLETE CORE_ADDR dummy; \ */
+/* OBSOLETE int frameless; \ */
+/* OBSOLETE int size; */
+/* OBSOLETE */
+/* OBSOLETE #define INIT_EXTRA_FRAME_INFO(fromleaf, fi) \ */
+/* OBSOLETE d30v_init_extra_frame_info(fromleaf, fi) */
+/* OBSOLETE */
+/* OBSOLETE extern void d30v_init_extra_frame_info (int fromleaf, struct frame_info *fi); */
+/* OBSOLETE */
+/* OBSOLETE /* A macro that tells us whether the function invocation represented */
+/* OBSOLETE by FI does not have a frame on the stack associated with it. If it */
+/* OBSOLETE does not, FRAMELESS is set to 1, else 0. */ */
+/* OBSOLETE */
+/* OBSOLETE #define FRAMELESS_FUNCTION_INVOCATION(FI) \ */
+/* OBSOLETE (frameless_look_for_prologue (FI)) */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR d30v_frame_chain (struct frame_info *frame); */
+/* OBSOLETE #define FRAME_CHAIN(FRAME) d30v_frame_chain(FRAME) */
+/* OBSOLETE extern int d30v_frame_chain_valid (CORE_ADDR, struct frame_info *); */
+/* OBSOLETE #define FRAME_CHAIN_VALID(chain, thisframe) d30v_frame_chain_valid (chain, thisframe) */
+/* OBSOLETE #define FRAME_SAVED_PC(FRAME) ((FRAME)->return_pc) */
+/* OBSOLETE #define FRAME_ARGS_ADDRESS(fi) (fi)->frame */
+/* OBSOLETE #define FRAME_LOCALS_ADDRESS(fi) (fi)->frame */
+/* OBSOLETE */
+/* OBSOLETE void d30v_init_frame_pc (int fromleaf, struct frame_info *prev); */
+/* OBSOLETE #define INIT_FRAME_PC_FIRST(fromleaf, prev) d30v_init_frame_pc(fromleaf, prev) */
+/* OBSOLETE #define INIT_FRAME_PC(fromleaf, prev) /* nada */ */
+/* OBSOLETE */
+/* OBSOLETE /* Immediately after a function call, return the saved pc. We can't */ */
+/* OBSOLETE /* use frame->return_pc beause that is determined by reading R62 off the */ */
+/* OBSOLETE /* stack and that may not be written yet. */ */
+/* OBSOLETE */
+/* OBSOLETE #define SAVED_PC_AFTER_CALL(frame) (read_register(LR_REGNUM)) */
+/* OBSOLETE */
+/* OBSOLETE /* Set VAL to the number of args passed to frame described by FI. */
+/* OBSOLETE Can set VAL to -1, meaning no way to tell. */ */
+/* OBSOLETE /* We can't tell how many args there are */ */
+/* OBSOLETE */
+/* OBSOLETE #define FRAME_NUM_ARGS(fi) (-1) */
+/* OBSOLETE */
+/* OBSOLETE /* Return number of bytes at start of arglist that are not really args. */ */
+/* OBSOLETE */
+/* OBSOLETE #define FRAME_ARGS_SKIP 0 */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Put here the code to store, into a struct frame_saved_regs, */
+/* OBSOLETE the addresses of the saved registers of frame described by FRAME_INFO. */
+/* OBSOLETE This includes special registers such as pc and fp saved in special */
+/* OBSOLETE ways in the stack frame. sp is even more special: */
+/* OBSOLETE the address we return for it IS the sp for the next frame. */ */
+/* OBSOLETE */
+/* OBSOLETE #define FRAME_FIND_SAVED_REGS(frame_info, frame_saved_regs) \ */
+/* OBSOLETE d30v_frame_find_saved_regs(frame_info, &(frame_saved_regs)) */
+/* OBSOLETE */
+/* OBSOLETE extern void d30v_frame_find_saved_regs (struct frame_info *, */
+/* OBSOLETE struct frame_saved_regs *); */
+/* OBSOLETE */
+/* OBSOLETE /* DUMMY FRAMES. Need these to support inferior function calls. */
+/* OBSOLETE They work like this on D30V: */
+/* OBSOLETE First we set a breakpoint at 0 or __start. */
+/* OBSOLETE Then we push all the registers onto the stack. */
+/* OBSOLETE Then put the function arguments in the proper registers and set r13 */
+/* OBSOLETE to our breakpoint address. */
+/* OBSOLETE Finally call the function directly. */
+/* OBSOLETE When it hits the breakpoint, clear the break point and pop the old */
+/* OBSOLETE register contents off the stack. */ */
+/* OBSOLETE */
+/* OBSOLETE #define CALL_DUMMY { 0 } */
+/* OBSOLETE #define PUSH_DUMMY_FRAME */
+/* OBSOLETE #define CALL_DUMMY_START_OFFSET 0 */
+/* OBSOLETE #define CALL_DUMMY_LOCATION AT_ENTRY_POINT */
+/* OBSOLETE #define CALL_DUMMY_BREAKPOINT_OFFSET (0) */
+/* OBSOLETE */
+/* OBSOLETE extern CORE_ADDR d30v_call_dummy_address (void); */
+/* OBSOLETE #define CALL_DUMMY_ADDRESS() d30v_call_dummy_address() */
+/* OBSOLETE */
+/* OBSOLETE #define FIX_CALL_DUMMY(dummyname, pc, fun, nargs, args, type, gcc_p) \ */
+/* OBSOLETE sp = d30v_fix_call_dummy (dummyname, pc, fun, nargs, args, type, gcc_p) */
+/* OBSOLETE */
+/* OBSOLETE #define PC_IN_CALL_DUMMY(pc, sp, frame_address) ( pc == IMEM_START + 4 ) */
+/* OBSOLETE */
+/* OBSOLETE extern CORE_ADDR d30v_fix_call_dummy (char *, CORE_ADDR, CORE_ADDR, */
+/* OBSOLETE int, struct value **, */
+/* OBSOLETE struct type *, int); */
+/* OBSOLETE #define PUSH_ARGUMENTS(nargs, args, sp, struct_return, struct_addr) \ */
+/* OBSOLETE (d30v_push_arguments((nargs), (args), (sp), (struct_return), (struct_addr))) */
+/* OBSOLETE extern CORE_ADDR d30v_push_arguments (int, struct value **, CORE_ADDR, int, */
+/* OBSOLETE CORE_ADDR); */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Extract from an array REGBUF containing the (raw) register state */
+/* OBSOLETE a function return value of type TYPE, and copy that, in virtual format, */
+/* OBSOLETE into VALBUF. */ */
+/* OBSOLETE */
+/* OBSOLETE #define DEPRECATED_EXTRACT_RETURN_VALUE(TYPE,REGBUF,VALBUF) \ */
+/* OBSOLETE d30v_extract_return_value(TYPE, REGBUF, VALBUF) */
+/* OBSOLETE extern void d30v_extract_return_value (struct type *, char *, char *); */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Discard from the stack the innermost frame, */
+/* OBSOLETE restoring all saved registers. */ */
+/* OBSOLETE #define POP_FRAME d30v_pop_frame(); */
+/* OBSOLETE extern void d30v_pop_frame (void); */
+/* OBSOLETE */
+/* OBSOLETE #define REGISTER_SIZE 4 */
+/* OBSOLETE */
+/* OBSOLETE /* Need to handle SP special, as we need to select between spu and spi. */ */
+/* OBSOLETE #if 0 /* XXX until the simulator is fixed */ */
+/* OBSOLETE #define TARGET_READ_SP() ((read_register (PSW_REGNUM) & PSW_SM) \ */
+/* OBSOLETE ? read_register (SPU_REGNUM) \ */
+/* OBSOLETE : read_register (SPI_REGNUM)) */
+/* OBSOLETE */
+/* OBSOLETE #define TARGET_WRITE_SP(val) ((read_register (PSW_REGNUM) & PSW_SM) \ */
+/* OBSOLETE ? write_register (SPU_REGNUM, (val)) \ */
+/* OBSOLETE : write_register (SPI_REGNUM, (val))) */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE #define STACK_ALIGN(len) (((len) + 7 ) & ~7) */
+/* OBSOLETE */
+/* OBSOLETE /* Turn this on to cause remote-sim.c to use sim_set/clear_breakpoint. */ */
+/* OBSOLETE */
+/* OBSOLETE #define SIM_HAS_BREAKPOINTS */
+/* OBSOLETE */
+/* OBSOLETE #endif /* TM_D30V_H */ */
diff --git a/gdb/configure.tgt b/gdb/configure.tgt
index 1217d10..dd48ae5 100644
--- a/gdb/configure.tgt
+++ b/gdb/configure.tgt
@@ -66,7 +66,7 @@ avr-*-*) gdb_target=avr
cris*) gdb_target=cris ;;
d10v-*-*) gdb_target=d10v ;;
-d30v-*-*) gdb_target=d30v ;;
+# OBSOLETE d30v-*-*) gdb_target=d30v ;;
h8300-*-*) gdb_target=h8300 ;;
h8500-*-*) gdb_target=h8500 ;;
diff --git a/gdb/d30v-tdep.c b/gdb/d30v-tdep.c
index b5d3a3b..0891370 100644
--- a/gdb/d30v-tdep.c
+++ b/gdb/d30v-tdep.c
@@ -1,1365 +1,1365 @@
-/* Target-dependent code for Mitsubishi D30V, for GDB.
-
- Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002 Free Software
- Foundation, Inc.
-
- This file is part of GDB.
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330,
- Boston, MA 02111-1307, USA. */
-
-/* Contributed by Martin Hunt, hunt@cygnus.com */
-
-#include "defs.h"
-#include "frame.h"
-#include "obstack.h"
-#include "symtab.h"
-#include "gdbtypes.h"
-#include "gdbcmd.h"
-#include "gdbcore.h"
-#include "gdb_string.h"
-#include "value.h"
-#include "inferior.h"
-#include "dis-asm.h"
-#include "symfile.h"
-#include "objfiles.h"
-#include "regcache.h"
-
-#include "language.h" /* For local_hex_string() */
-
-void d30v_frame_find_saved_regs (struct frame_info *fi,
- struct frame_saved_regs *fsr);
-void d30v_frame_find_saved_regs_offsets (struct frame_info *fi,
- struct frame_saved_regs *fsr);
-static void d30v_pop_dummy_frame (struct frame_info *fi);
-static void d30v_print_flags (void);
-static void print_flags_command (char *, int);
-
-/* the following defines assume:
- fp is r61, lr is r62, sp is r63, and ?? is r22
- if that changes, they will need to be updated */
-
-#define OP_MASK_ALL_BUT_RA 0x0ffc0fff /* throw away Ra, keep the rest */
-
-#define OP_STW_SPM 0x054c0fc0 /* stw Ra, @(sp-) */
-#define OP_STW_SP_R0 0x05400fc0 /* stw Ra, @(sp,r0) */
-#define OP_STW_SP_IMM0 0x05480fc0 /* st Ra, @(sp, 0x0) */
-#define OP_STW_R22P_R0 0x05440580 /* stw Ra, @(r22+,r0) */
-
-#define OP_ST2W_SPM 0x056c0fc0 /* st2w Ra, @(sp-) */
-#define OP_ST2W_SP_R0 0x05600fc0 /* st2w Ra, @(sp, r0) */
-#define OP_ST2W_SP_IMM0 0x05680fc0 /* st2w Ra, @(sp, 0x0) */
-#define OP_ST2W_R22P_R0 0x05640580 /* st2w Ra, @(r22+, r0) */
-
-#define OP_MASK_OPCODE 0x0ffc0000 /* just the opcode, ign operands */
-#define OP_NOP 0x00f00000 /* nop */
-
-#define OP_MASK_ALL_BUT_IMM 0x0fffffc0 /* throw away imm, keep the rest */
-#define OP_SUB_SP_IMM 0x082bffc0 /* sub sp,sp,imm */
-#define OP_ADD_SP_IMM 0x080bffc0 /* add sp,sp,imm */
-#define OP_ADD_R22_SP_IMM 0x08096fc0 /* add r22,sp,imm */
-#define OP_STW_FP_SP_IMM 0x054bdfc0 /* stw fp,@(sp,imm) */
-#define OP_OR_SP_R0_IMM 0x03abf000 /* or sp,r0,imm */
-
-/* no mask */
-#define OP_OR_FP_R0_SP 0x03a3d03f /* or fp,r0,sp */
-#define OP_OR_FP_SP_R0 0x03a3dfc0 /* or fp,sp,r0 */
-#define OP_OR_FP_IMM0_SP 0x03abd03f /* or fp,0x0,sp */
-#define OP_STW_FP_R22P_R0 0x0547d580 /* stw fp,@(r22+,r0) */
-#define OP_STW_LR_R22P_R0 0x0547e580 /* stw lr,@(r22+,r0) */
-
-#define OP_MASK_OP_AND_RB 0x0ff80fc0 /* keep op and rb,throw away rest */
-#define OP_STW_SP_IMM 0x05480fc0 /* stw Ra,@(sp,imm) */
-#define OP_ST2W_SP_IMM 0x05680fc0 /* st2w Ra,@(sp,imm) */
-#define OP_STW_FP_IMM 0x05480f40 /* stw Ra,@(fp,imm) */
-#define OP_STW_FP_R0 0x05400f40 /* stw Ra,@(fp,r0) */
-
-#define OP_MASK_FM_BIT 0x80000000
-#define OP_MASK_CC_BITS 0x70000000
-#define OP_MASK_SUB_INST 0x0fffffff
-
-#define EXTRACT_RA(op) (((op) >> 12) & 0x3f)
-#define EXTRACT_RB(op) (((op) >> 6) & 0x3f)
-#define EXTRACT_RC(op) (((op) & 0x3f)
-#define EXTRACT_UIMM6(op) ((op) & 0x3f)
-#define EXTRACT_IMM6(op) ((((int)EXTRACT_UIMM6(op)) << 26) >> 26)
-#define EXTRACT_IMM26(op) ((((op)&0x0ff00000) >> 2) | ((op)&0x0003ffff))
-#define EXTRACT_IMM32(opl, opr) ((EXTRACT_UIMM6(opl) << 26)|EXTRACT_IMM26(opr))
-
-
-int
-d30v_frame_chain_valid (CORE_ADDR chain, struct frame_info *fi)
-{
-#if 0
- return ((chain) != 0 && (fi) != 0 && (fi)->return_pc != 0);
-#else
- return ((chain) != 0 && (fi) != 0 && (fi)->frame <= chain);
-#endif
-}
-
-/* Discard from the stack the innermost frame, restoring all saved
- registers. */
-
-void
-d30v_pop_frame (void)
-{
- struct frame_info *frame = get_current_frame ();
- CORE_ADDR fp;
- int regnum;
- struct frame_saved_regs fsr;
- char raw_buffer[8];
-
- fp = FRAME_FP (frame);
- if (frame->dummy)
- {
- d30v_pop_dummy_frame (frame);
- return;
- }
-
- /* fill out fsr with the address of where each */
- /* register was stored in the frame */
- get_frame_saved_regs (frame, &fsr);
-
- /* now update the current registers with the old values */
- for (regnum = A0_REGNUM; regnum < A0_REGNUM + 2; regnum++)
- {
- if (fsr.regs[regnum])
- {
- read_memory (fsr.regs[regnum], raw_buffer, 8);
- write_register_bytes (REGISTER_BYTE (regnum), raw_buffer, 8);
- }
- }
- for (regnum = 0; regnum < SP_REGNUM; regnum++)
- {
- if (fsr.regs[regnum])
- {
- write_register (regnum, read_memory_unsigned_integer (fsr.regs[regnum], 4));
- }
- }
- if (fsr.regs[PSW_REGNUM])
- {
- write_register (PSW_REGNUM, read_memory_unsigned_integer (fsr.regs[PSW_REGNUM], 4));
- }
-
- write_register (PC_REGNUM, read_register (LR_REGNUM));
- write_register (SP_REGNUM, fp + frame->size);
- target_store_registers (-1);
- flush_cached_frames ();
-}
-
-static int
-check_prologue (unsigned long op)
-{
- /* add sp,sp,imm -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM)
- return 1;
-
- /* add r22,sp,imm -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM)
- return 1;
-
- /* or fp,r0,sp -- observed */
- if (op == OP_OR_FP_R0_SP)
- return 1;
-
- /* nop */
- if ((op & OP_MASK_OPCODE) == OP_NOP)
- return 1;
-
- /* stw Ra,@(sp,r0) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_R0)
- return 1;
-
- /* stw Ra,@(sp,0x0) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_IMM0)
- return 1;
-
- /* st2w Ra,@(sp,r0) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_R0)
- return 1;
-
- /* st2w Ra,@(sp,0x0) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_IMM0)
- return 1;
-
- /* stw fp, @(r22+,r0) -- observed */
- if (op == OP_STW_FP_R22P_R0)
- return 1;
-
- /* stw r62, @(r22+,r0) -- observed */
- if (op == OP_STW_LR_R22P_R0)
- return 1;
-
- /* stw Ra, @(fp,r0) -- observed */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_FP_R0)
- return 1; /* first arg */
-
- /* stw Ra, @(fp,imm) -- observed */
- if ((op & OP_MASK_OP_AND_RB) == OP_STW_FP_IMM)
- return 1; /* second and subsequent args */
-
- /* stw fp,@(sp,imm) -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_STW_FP_SP_IMM)
- return 1;
-
- /* st2w Ra,@(r22+,r0) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_R22P_R0)
- return 1;
-
- /* stw Ra, @(sp-) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SPM)
- return 1;
-
- /* st2w Ra, @(sp-) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SPM)
- return 1;
-
- /* sub.? sp,sp,imm */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_SUB_SP_IMM)
- return 1;
-
- return 0;
-}
-
-CORE_ADDR
-d30v_skip_prologue (CORE_ADDR pc)
-{
- unsigned long op[2];
- unsigned long opl, opr; /* left / right sub operations */
- unsigned long fm0, fm1; /* left / right mode bits */
- unsigned long cc0, cc1;
- unsigned long op1, op2;
- CORE_ADDR func_addr, func_end;
- struct symtab_and_line sal;
-
- /* If we have line debugging information, then the end of the */
- /* prologue should the first assembly instruction of the first source line */
- if (find_pc_partial_function (pc, NULL, &func_addr, &func_end))
- {
- sal = find_pc_line (func_addr, 0);
- if (sal.end && sal.end < func_end)
- return sal.end;
- }
-
- if (target_read_memory (pc, (char *) &op[0], 8))
- return pc; /* Can't access it -- assume no prologue. */
-
- while (1)
- {
- opl = (unsigned long) read_memory_integer (pc, 4);
- opr = (unsigned long) read_memory_integer (pc + 4, 4);
-
- fm0 = (opl & OP_MASK_FM_BIT);
- fm1 = (opr & OP_MASK_FM_BIT);
-
- cc0 = (opl & OP_MASK_CC_BITS);
- cc1 = (opr & OP_MASK_CC_BITS);
-
- opl = (opl & OP_MASK_SUB_INST);
- opr = (opr & OP_MASK_SUB_INST);
-
- if (fm0 && fm1)
- {
- /* long instruction (opl contains the opcode) */
- if (((opl & OP_MASK_ALL_BUT_IMM) != OP_ADD_SP_IMM) && /* add sp,sp,imm */
- ((opl & OP_MASK_ALL_BUT_IMM) != OP_ADD_R22_SP_IMM) && /* add r22,sp,imm */
- ((opl & OP_MASK_OP_AND_RB) != OP_STW_SP_IMM) && /* stw Ra, @(sp,imm) */
- ((opl & OP_MASK_OP_AND_RB) != OP_ST2W_SP_IMM)) /* st2w Ra, @(sp,imm) */
- break;
- }
- else
- {
- /* short instructions */
- if (fm0 && !fm1)
- {
- op1 = opr;
- op2 = opl;
- }
- else
- {
- op1 = opl;
- op2 = opr;
- }
- if (check_prologue (op1))
- {
- if (!check_prologue (op2))
- {
- /* if the previous opcode was really part of the prologue */
- /* and not just a NOP, then we want to break after both instructions */
- if ((op1 & OP_MASK_OPCODE) != OP_NOP)
- pc += 8;
- break;
- }
- }
- else
- break;
- }
- pc += 8;
- }
- return pc;
-}
-
-static int end_of_stack;
-
-/* Given a GDB frame, determine the address of the calling function's frame.
- This will be used to create a new GDB frame struct, and then
- INIT_EXTRA_FRAME_INFO and INIT_FRAME_PC will be called for the new frame.
- */
-
-CORE_ADDR
-d30v_frame_chain (struct frame_info *frame)
-{
- struct frame_saved_regs fsr;
-
- d30v_frame_find_saved_regs (frame, &fsr);
-
- if (end_of_stack)
- return (CORE_ADDR) 0;
-
- if (frame->return_pc == IMEM_START)
- return (CORE_ADDR) 0;
-
- if (!fsr.regs[FP_REGNUM])
- {
- if (!fsr.regs[SP_REGNUM] || fsr.regs[SP_REGNUM] == STACK_START)
- return (CORE_ADDR) 0;
-
- return fsr.regs[SP_REGNUM];
- }
-
- if (!read_memory_unsigned_integer (fsr.regs[FP_REGNUM], 4))
- return (CORE_ADDR) 0;
-
- return read_memory_unsigned_integer (fsr.regs[FP_REGNUM], 4);
-}
-
-static int next_addr, uses_frame;
-static int frame_size;
-
-static int
-prologue_find_regs (unsigned long op, struct frame_saved_regs *fsr,
- CORE_ADDR addr)
-{
- int n;
- int offset;
-
- /* add sp,sp,imm -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM)
- {
- offset = EXTRACT_IMM6 (op);
- /*next_addr += offset; */
- frame_size += -offset;
- return 1;
- }
-
- /* add r22,sp,imm -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM)
- {
- offset = EXTRACT_IMM6 (op);
- next_addr = (offset - frame_size);
- return 1;
- }
-
- /* stw Ra, @(fp, offset) -- observed */
- if ((op & OP_MASK_OP_AND_RB) == OP_STW_FP_IMM)
- {
- n = EXTRACT_RA (op);
- offset = EXTRACT_IMM6 (op);
- fsr->regs[n] = (offset - frame_size);
- return 1;
- }
-
- /* stw Ra, @(fp, r0) -- observed */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_FP_R0)
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = (-frame_size);
- return 1;
- }
-
- /* or fp,0,sp -- observed */
- if ((op == OP_OR_FP_R0_SP) ||
- (op == OP_OR_FP_SP_R0) ||
- (op == OP_OR_FP_IMM0_SP))
- {
- uses_frame = 1;
- return 1;
- }
-
- /* nop */
- if ((op & OP_MASK_OPCODE) == OP_NOP)
- return 1;
-
- /* stw Ra,@(r22+,r0) -- observed */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_R22P_R0)
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = next_addr;
- next_addr += 4;
- return 1;
- }
-#if 0 /* subsumed in pattern above */
- /* stw fp,@(r22+,r0) -- observed */
- if (op == OP_STW_FP_R22P_R0)
- {
- fsr->regs[FP_REGNUM] = next_addr; /* XXX */
- next_addr += 4;
- return 1;
- }
-
- /* stw r62,@(r22+,r0) -- observed */
- if (op == OP_STW_LR_R22P_R0)
- {
- fsr->regs[LR_REGNUM] = next_addr;
- next_addr += 4;
- return 1;
- }
-#endif
- /* st2w Ra,@(r22+,r0) -- observed */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_R22P_R0)
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = next_addr;
- fsr->regs[n + 1] = next_addr + 4;
- next_addr += 8;
- return 1;
- }
-
- /* stw rn, @(sp-) */
- if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SPM)
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = next_addr;
- next_addr -= 4;
- return 1;
- }
-
- /* st2w Ra, @(sp-) */
- else if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SPM)
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = next_addr;
- fsr->regs[n + 1] = next_addr + 4;
- next_addr -= 8;
- return 1;
- }
-
- /* sub sp,sp,imm */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_SUB_SP_IMM)
- {
- offset = EXTRACT_IMM6 (op);
- frame_size += -offset;
- return 1;
- }
-
- /* st rn, @(sp,0) -- observed */
- if (((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_R0) ||
- ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_IMM0))
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = (-frame_size);
- return 1;
- }
-
- /* st2w rn, @(sp,0) */
- if (((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_R0) ||
- ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_IMM0))
- {
- n = EXTRACT_RA (op);
- fsr->regs[n] = (-frame_size);
- fsr->regs[n + 1] = (-frame_size) + 4;
- return 1;
- }
-
- /* stw fp,@(sp,imm) -- observed */
- if ((op & OP_MASK_ALL_BUT_IMM) == OP_STW_FP_SP_IMM)
- {
- offset = EXTRACT_IMM6 (op);
- fsr->regs[FP_REGNUM] = (offset - frame_size);
- return 1;
- }
- return 0;
-}
-
-/* Put here the code to store, into a struct frame_saved_regs, the
- addresses of the saved registers of frame described by FRAME_INFO.
- This includes special registers such as pc and fp saved in special
- ways in the stack frame. sp is even more special: the address we
- return for it IS the sp for the next frame. */
-void
-d30v_frame_find_saved_regs (struct frame_info *fi, struct frame_saved_regs *fsr)
-{
- CORE_ADDR fp, pc;
- unsigned long opl, opr;
- unsigned long op1, op2;
- unsigned long fm0, fm1;
- int i;
-
- fp = fi->frame;
- memset (fsr, 0, sizeof (*fsr));
- next_addr = 0;
- frame_size = 0;
- end_of_stack = 0;
-
- uses_frame = 0;
-
- d30v_frame_find_saved_regs_offsets (fi, fsr);
-
- fi->size = frame_size;
-
- if (!fp)
- fp = read_register (SP_REGNUM);
-
- for (i = 0; i < NUM_REGS - 1; i++)
- if (fsr->regs[i])
- {
- fsr->regs[i] = fsr->regs[i] + fp + frame_size;
- }
-
- if (fsr->regs[LR_REGNUM])
- fi->return_pc = read_memory_unsigned_integer (fsr->regs[LR_REGNUM], 4);
- else
- fi->return_pc = read_register (LR_REGNUM);
-
- /* the SP is not normally (ever?) saved, but check anyway */
- if (!fsr->regs[SP_REGNUM])
- {
- /* if the FP was saved, that means the current FP is valid, */
- /* otherwise, it isn't being used, so we use the SP instead */
- if (uses_frame)
- fsr->regs[SP_REGNUM] = read_register (FP_REGNUM) + fi->size;
- else
- {
- fsr->regs[SP_REGNUM] = fp + fi->size;
- fi->frameless = 1;
- fsr->regs[FP_REGNUM] = 0;
- }
- }
-}
-
-void
-d30v_frame_find_saved_regs_offsets (struct frame_info *fi,
- struct frame_saved_regs *fsr)
-{
- CORE_ADDR fp, pc;
- unsigned long opl, opr;
- unsigned long op1, op2;
- unsigned long fm0, fm1;
- int i;
-
- fp = fi->frame;
- memset (fsr, 0, sizeof (*fsr));
- next_addr = 0;
- frame_size = 0;
- end_of_stack = 0;
-
- pc = get_pc_function_start (fi->pc);
-
- uses_frame = 0;
- while (pc < fi->pc)
- {
- opl = (unsigned long) read_memory_integer (pc, 4);
- opr = (unsigned long) read_memory_integer (pc + 4, 4);
-
- fm0 = (opl & OP_MASK_FM_BIT);
- fm1 = (opr & OP_MASK_FM_BIT);
-
- opl = (opl & OP_MASK_SUB_INST);
- opr = (opr & OP_MASK_SUB_INST);
-
- if (fm0 && fm1)
- {
- /* long instruction */
- if ((opl & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM)
- {
- /* add sp,sp,n */
- long offset = EXTRACT_IMM32 (opl, opr);
- frame_size += -offset;
- }
- else if ((opl & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM)
- {
- /* add r22,sp,offset */
- long offset = EXTRACT_IMM32 (opl, opr);
- next_addr = (offset - frame_size);
- }
- else if ((opl & OP_MASK_OP_AND_RB) == OP_STW_SP_IMM)
- {
- /* st Ra, @(sp,imm) */
- long offset = EXTRACT_IMM32 (opl, opr);
- short n = EXTRACT_RA (opl);
- fsr->regs[n] = (offset - frame_size);
- }
- else if ((opl & OP_MASK_OP_AND_RB) == OP_ST2W_SP_IMM)
- {
- /* st2w Ra, @(sp,offset) */
- long offset = EXTRACT_IMM32 (opl, opr);
- short n = EXTRACT_RA (opl);
- fsr->regs[n] = (offset - frame_size);
- fsr->regs[n + 1] = (offset - frame_size) + 4;
- }
- else if ((opl & OP_MASK_ALL_BUT_IMM) == OP_OR_SP_R0_IMM)
- {
- end_of_stack = 1;
- }
- else
- break;
- }
- else
- {
- /* short instructions */
- if (fm0 && !fm1)
- {
- op2 = opl;
- op1 = opr;
- }
- else
- {
- op1 = opl;
- op2 = opr;
- }
- if (!prologue_find_regs (op1, fsr, pc) || !prologue_find_regs (op2, fsr, pc))
- break;
- }
- pc += 8;
- }
-
-#if 0
- fi->size = frame_size;
-
- if (!fp)
- fp = read_register (SP_REGNUM);
-
- for (i = 0; i < NUM_REGS - 1; i++)
- if (fsr->regs[i])
- {
- fsr->regs[i] = fsr->regs[i] + fp + frame_size;
- }
-
- if (fsr->regs[LR_REGNUM])
- fi->return_pc = read_memory_unsigned_integer (fsr->regs[LR_REGNUM], 4);
- else
- fi->return_pc = read_register (LR_REGNUM);
-
- /* the SP is not normally (ever?) saved, but check anyway */
- if (!fsr->regs[SP_REGNUM])
- {
- /* if the FP was saved, that means the current FP is valid, */
- /* otherwise, it isn't being used, so we use the SP instead */
- if (uses_frame)
- fsr->regs[SP_REGNUM] = read_register (FP_REGNUM) + fi->size;
- else
- {
- fsr->regs[SP_REGNUM] = fp + fi->size;
- fi->frameless = 1;
- fsr->regs[FP_REGNUM] = 0;
- }
- }
-#endif
-}
-
-void
-d30v_init_extra_frame_info (int fromleaf, struct frame_info *fi)
-{
- struct frame_saved_regs dummy;
-
- if (fi->next && (fi->pc == 0))
- fi->pc = fi->next->return_pc;
-
- d30v_frame_find_saved_regs_offsets (fi, &dummy);
-
- if (uses_frame == 0)
- fi->frameless = 1;
- else
- fi->frameless = 0;
-
- if ((fi->next == 0) && (uses_frame == 0))
- /* innermost frame and it's "frameless",
- so the fi->frame field is wrong, fix it! */
- fi->frame = read_sp ();
-
- if (dummy.regs[LR_REGNUM])
- {
- /* it was saved, grab it! */
- dummy.regs[LR_REGNUM] += (fi->frame + frame_size);
- fi->return_pc = read_memory_unsigned_integer (dummy.regs[LR_REGNUM], 4);
- }
- else
- fi->return_pc = read_register (LR_REGNUM);
-}
-
-void
-d30v_init_frame_pc (int fromleaf, struct frame_info *prev)
-{
- /* default value, put here so we can breakpoint on it and
- see if the default value is really the right thing to use */
- prev->pc = (fromleaf ? SAVED_PC_AFTER_CALL (prev->next) : \
- prev->next ? FRAME_SAVED_PC (prev->next) : read_pc ());
-}
-
-static void d30v_print_register (int regnum, int tabular);
-
-static void
-d30v_print_register (int regnum, int tabular)
-{
- if (regnum < A0_REGNUM)
- {
- if (tabular)
- printf_filtered ("%08lx", (long) read_register (regnum));
- else
- printf_filtered ("0x%lx %ld",
- (long) read_register (regnum),
- (long) read_register (regnum));
- }
- else
- {
- char regbuf[MAX_REGISTER_RAW_SIZE];
-
- frame_register_read (selected_frame, regnum, regbuf);
-
- val_print (REGISTER_VIRTUAL_TYPE (regnum), regbuf, 0, 0,
- gdb_stdout, 'x', 1, 0, Val_pretty_default);
-
- if (!tabular)
- {
- printf_filtered (" ");
- val_print (REGISTER_VIRTUAL_TYPE (regnum), regbuf, 0, 0,
- gdb_stdout, 'd', 1, 0, Val_pretty_default);
- }
- }
-}
-
-static void
-d30v_print_flags (void)
-{
- long psw = read_register (PSW_REGNUM);
- printf_filtered ("flags #1");
- printf_filtered (" (sm) %d", (psw & PSW_SM) != 0);
- printf_filtered (" (ea) %d", (psw & PSW_EA) != 0);
- printf_filtered (" (db) %d", (psw & PSW_DB) != 0);
- printf_filtered (" (ds) %d", (psw & PSW_DS) != 0);
- printf_filtered (" (ie) %d", (psw & PSW_IE) != 0);
- printf_filtered (" (rp) %d", (psw & PSW_RP) != 0);
- printf_filtered (" (md) %d\n", (psw & PSW_MD) != 0);
-
- printf_filtered ("flags #2");
- printf_filtered (" (f0) %d", (psw & PSW_F0) != 0);
- printf_filtered (" (f1) %d", (psw & PSW_F1) != 0);
- printf_filtered (" (f2) %d", (psw & PSW_F2) != 0);
- printf_filtered (" (f3) %d", (psw & PSW_F3) != 0);
- printf_filtered (" (s) %d", (psw & PSW_S) != 0);
- printf_filtered (" (v) %d", (psw & PSW_V) != 0);
- printf_filtered (" (va) %d", (psw & PSW_VA) != 0);
- printf_filtered (" (c) %d\n", (psw & PSW_C) != 0);
-}
-
-static void
-print_flags_command (char *args, int from_tty)
-{
- d30v_print_flags ();
-}
-
-void
-d30v_do_registers_info (int regnum, int fpregs)
-{
- long long num1, num2;
- long psw;
-
- if (regnum != -1)
- {
- if (REGISTER_NAME (0) == NULL || REGISTER_NAME (0)[0] == '\000')
- return;
-
- printf_filtered ("%s ", REGISTER_NAME (regnum));
- d30v_print_register (regnum, 0);
-
- printf_filtered ("\n");
- return;
- }
-
- /* Have to print all the registers. Format them nicely. */
-
- printf_filtered ("PC=");
- print_address (read_pc (), gdb_stdout);
-
- printf_filtered (" PSW=");
- d30v_print_register (PSW_REGNUM, 1);
-
- printf_filtered (" BPC=");
- print_address (read_register (BPC_REGNUM), gdb_stdout);
-
- printf_filtered (" BPSW=");
- d30v_print_register (BPSW_REGNUM, 1);
- printf_filtered ("\n");
-
- printf_filtered ("DPC=");
- print_address (read_register (DPC_REGNUM), gdb_stdout);
-
- printf_filtered (" DPSW=");
- d30v_print_register (DPSW_REGNUM, 1);
-
- printf_filtered (" IBA=");
- print_address (read_register (IBA_REGNUM), gdb_stdout);
- printf_filtered ("\n");
-
- printf_filtered ("RPT_C=");
- d30v_print_register (RPT_C_REGNUM, 1);
-
- printf_filtered (" RPT_S=");
- print_address (read_register (RPT_S_REGNUM), gdb_stdout);
-
- printf_filtered (" RPT_E=");
- print_address (read_register (RPT_E_REGNUM), gdb_stdout);
- printf_filtered ("\n");
-
- printf_filtered ("MOD_S=");
- print_address (read_register (MOD_S_REGNUM), gdb_stdout);
-
- printf_filtered (" MOD_E=");
- print_address (read_register (MOD_E_REGNUM), gdb_stdout);
- printf_filtered ("\n");
-
- printf_filtered ("EIT_VB=");
- print_address (read_register (EIT_VB_REGNUM), gdb_stdout);
-
- printf_filtered (" INT_S=");
- d30v_print_register (INT_S_REGNUM, 1);
-
- printf_filtered (" INT_M=");
- d30v_print_register (INT_M_REGNUM, 1);
- printf_filtered ("\n");
-
- d30v_print_flags ();
- for (regnum = 0; regnum <= 63;)
- {
- int i;
-
- printf_filtered ("R%d-R%d ", regnum, regnum + 7);
- if (regnum < 10)
- printf_filtered (" ");
- if (regnum + 7 < 10)
- printf_filtered (" ");
-
- for (i = 0; i < 8; i++)
- {
- printf_filtered (" ");
- d30v_print_register (regnum++, 1);
- }
-
- printf_filtered ("\n");
- }
-
- printf_filtered ("A0-A1 ");
-
- d30v_print_register (A0_REGNUM, 1);
- printf_filtered (" ");
- d30v_print_register (A1_REGNUM, 1);
- printf_filtered ("\n");
-}
-
-CORE_ADDR
-d30v_fix_call_dummy (char *dummyname, CORE_ADDR start_sp, CORE_ADDR fun,
- int nargs, struct value **args,
- struct type *type, int gcc_p)
-{
- int regnum;
- CORE_ADDR sp;
- char buffer[MAX_REGISTER_RAW_SIZE];
- struct frame_info *frame = get_current_frame ();
- frame->dummy = start_sp;
- /*start_sp |= DMEM_START; */
-
- sp = start_sp;
- for (regnum = 0; regnum < NUM_REGS; regnum++)
- {
- sp -= REGISTER_RAW_SIZE (regnum);
- store_address (buffer, REGISTER_RAW_SIZE (regnum), read_register (regnum));
- write_memory (sp, buffer, REGISTER_RAW_SIZE (regnum));
- }
- write_register (SP_REGNUM, (LONGEST) sp);
- /* now we need to load LR with the return address */
- write_register (LR_REGNUM, (LONGEST) d30v_call_dummy_address ());
- return sp;
-}
-
-static void
-d30v_pop_dummy_frame (struct frame_info *fi)
-{
- CORE_ADDR sp = fi->dummy;
- int regnum;
-
- for (regnum = 0; regnum < NUM_REGS; regnum++)
- {
- sp -= REGISTER_RAW_SIZE (regnum);
- write_register (regnum, read_memory_unsigned_integer (sp, REGISTER_RAW_SIZE (regnum)));
- }
- flush_cached_frames (); /* needed? */
-}
-
-
-CORE_ADDR
-d30v_push_arguments (int nargs, struct value **args, CORE_ADDR sp,
- int struct_return, CORE_ADDR struct_addr)
-{
- int i, len, index = 0, regnum = 2;
- char buffer[4], *contents;
- LONGEST val;
- CORE_ADDR ptrs[10];
-
-#if 0
- /* Pass 1. Put all large args on stack */
- for (i = 0; i < nargs; i++)
- {
- struct value *arg = args[i];
- struct type *arg_type = check_typedef (VALUE_TYPE (arg));
- len = TYPE_LENGTH (arg_type);
- contents = VALUE_CONTENTS (arg);
- val = extract_signed_integer (contents, len);
- if (len > 4)
- {
- /* put on stack and pass pointers */
- sp -= len;
- write_memory (sp, contents, len);
- ptrs[index++] = sp;
- }
- }
-#endif
- index = 0;
-
- for (i = 0; i < nargs; i++)
- {
- struct value *arg = args[i];
- struct type *arg_type = check_typedef (VALUE_TYPE (arg));
- len = TYPE_LENGTH (arg_type);
- contents = VALUE_CONTENTS (arg);
- if (len > 4)
- {
- /* we need multiple registers */
- int ndx;
-
- for (ndx = 0; len > 0; ndx += 8, len -= 8)
- {
- if (regnum & 1)
- regnum++; /* all args > 4 bytes start in even register */
-
- if (regnum < 18)
- {
- val = extract_signed_integer (&contents[ndx], 4);
- write_register (regnum++, val);
-
- if (len >= 8)
- val = extract_signed_integer (&contents[ndx + 4], 4);
- else
- val = extract_signed_integer (&contents[ndx + 4], len - 4);
- write_register (regnum++, val);
- }
- else
- {
- /* no more registers available. put it on the stack */
-
- /* all args > 4 bytes are padded to a multiple of 8 bytes
- and start on an 8 byte boundary */
- if (sp & 7)
- sp -= (sp & 7); /* align it */
-
- sp -= ((len + 7) & ~7); /* allocate space */
- write_memory (sp, &contents[ndx], len);
- break;
- }
- }
- }
- else
- {
- if (regnum < 18)
- {
- val = extract_signed_integer (contents, len);
- write_register (regnum++, val);
- }
- else
- {
- /* all args are padded to a multiple of 4 bytes (at least) */
- sp -= ((len + 3) & ~3);
- write_memory (sp, contents, len);
- }
- }
- }
- if (sp & 7)
- /* stack pointer is not on an 8 byte boundary -- align it */
- sp -= (sp & 7);
- return sp;
-}
-
-
-/* pick an out-of-the-way place to set the return value */
-/* for an inferior function call. The link register is set to this */
-/* value and a momentary breakpoint is set there. When the breakpoint */
-/* is hit, the dummy frame is popped and the previous environment is */
-/* restored. */
-
-CORE_ADDR
-d30v_call_dummy_address (void)
-{
- CORE_ADDR entry;
- struct minimal_symbol *sym;
-
- entry = entry_point_address ();
-
- if (entry != 0)
- return entry;
-
- sym = lookup_minimal_symbol ("_start", NULL, symfile_objfile);
-
- if (!sym || MSYMBOL_TYPE (sym) != mst_text)
- return 0;
- else
- return SYMBOL_VALUE_ADDRESS (sym);
-}
-
-/* Given a return value in `regbuf' with a type `valtype',
- extract and copy its value into `valbuf'. */
-
-void
-d30v_extract_return_value (struct type *valtype, char regbuf[REGISTER_BYTES],
- char *valbuf)
-{
- memcpy (valbuf, regbuf + REGISTER_BYTE (2), TYPE_LENGTH (valtype));
-}
-
-/* The following code implements access to, and display of, the D30V's
- instruction trace buffer. The buffer consists of 64K or more
- 4-byte words of data, of which each words includes an 8-bit count,
- an 8-bit segment number, and a 16-bit instruction address.
-
- In theory, the trace buffer is continuously capturing instruction
- data that the CPU presents on its "debug bus", but in practice, the
- ROMified GDB stub only enables tracing when it continues or steps
- the program, and stops tracing when the program stops; so it
- actually works for GDB to read the buffer counter out of memory and
- then read each trace word. The counter records where the tracing
- stops, but there is no record of where it started, so we remember
- the PC when we resumed and then search backwards in the trace
- buffer for a word that includes that address. This is not perfect,
- because you will miss trace data if the resumption PC is the target
- of a branch. (The value of the buffer counter is semi-random, any
- trace data from a previous program stop is gone.) */
-
-/* The address of the last word recorded in the trace buffer. */
-
-#define DBBC_ADDR (0xd80000)
-
-/* The base of the trace buffer, at least for the "Board_0". */
-
-#define TRACE_BUFFER_BASE (0xf40000)
-
-static void trace_command (char *, int);
-
-static void untrace_command (char *, int);
-
-static void trace_info (char *, int);
-
-static void tdisassemble_command (char *, int);
-
-static void display_trace (int, int);
-
-/* True when instruction traces are being collected. */
-
-static int tracing;
-
-/* Remembered PC. */
-
-static CORE_ADDR last_pc;
-
-/* True when trace output should be displayed whenever program stops. */
-
-static int trace_display;
-
-/* True when trace listing should include source lines. */
-
-static int default_trace_show_source = 1;
-
-struct trace_buffer
- {
- int size;
- short *counts;
- CORE_ADDR *addrs;
- }
-trace_data;
-
-static void
-trace_command (char *args, int from_tty)
-{
- /* Clear the host-side trace buffer, allocating space if needed. */
- trace_data.size = 0;
- if (trace_data.counts == NULL)
- trace_data.counts = (short *) xmalloc (65536 * sizeof (short));
- if (trace_data.addrs == NULL)
- trace_data.addrs = (CORE_ADDR *) xmalloc (65536 * sizeof (CORE_ADDR));
-
- tracing = 1;
-
- printf_filtered ("Tracing is now on.\n");
-}
-
-static void
-untrace_command (char *args, int from_tty)
-{
- tracing = 0;
-
- printf_filtered ("Tracing is now off.\n");
-}
-
-static void
-trace_info (char *args, int from_tty)
-{
- int i;
-
- if (trace_data.size)
- {
- printf_filtered ("%d entries in trace buffer:\n", trace_data.size);
-
- for (i = 0; i < trace_data.size; ++i)
- {
- printf_filtered ("%d: %d instruction%s at 0x%s\n",
- i, trace_data.counts[i],
- (trace_data.counts[i] == 1 ? "" : "s"),
- paddr_nz (trace_data.addrs[i]));
- }
- }
- else
- printf_filtered ("No entries in trace buffer.\n");
-
- printf_filtered ("Tracing is currently %s.\n", (tracing ? "on" : "off"));
-}
-
-/* Print the instruction at address MEMADDR in debugged memory,
- on STREAM. Returns length of the instruction, in bytes. */
-
-static int
-print_insn (CORE_ADDR memaddr, struct ui_file *stream)
-{
- /* If there's no disassembler, something is very wrong. */
- if (tm_print_insn == NULL)
- internal_error (__FILE__, __LINE__,
- "print_insn: no disassembler");
-
- if (TARGET_BYTE_ORDER == BFD_ENDIAN_BIG)
- tm_print_insn_info.endian = BFD_ENDIAN_BIG;
- else
- tm_print_insn_info.endian = BFD_ENDIAN_LITTLE;
- return TARGET_PRINT_INSN (memaddr, &tm_print_insn_info);
-}
-
-void
-d30v_eva_prepare_to_trace (void)
-{
- if (!tracing)
- return;
-
- last_pc = read_register (PC_REGNUM);
-}
-
-/* Collect trace data from the target board and format it into a form
- more useful for display. */
-
-void
-d30v_eva_get_trace_data (void)
-{
- int count, i, j, oldsize;
- int trace_addr, trace_seg, trace_cnt, next_cnt;
- unsigned int last_trace, trace_word, next_word;
- unsigned int *tmpspace;
-
- if (!tracing)
- return;
-
- tmpspace = xmalloc (65536 * sizeof (unsigned int));
-
- last_trace = read_memory_unsigned_integer (DBBC_ADDR, 2) << 2;
-
- /* Collect buffer contents from the target, stopping when we reach
- the word recorded when execution resumed. */
-
- count = 0;
- while (last_trace > 0)
- {
- QUIT;
- trace_word =
- read_memory_unsigned_integer (TRACE_BUFFER_BASE + last_trace, 4);
- trace_addr = trace_word & 0xffff;
- last_trace -= 4;
- /* Ignore an apparently nonsensical entry. */
- if (trace_addr == 0xffd5)
- continue;
- tmpspace[count++] = trace_word;
- if (trace_addr == last_pc)
- break;
- if (count > 65535)
- break;
- }
-
- /* Move the data to the host-side trace buffer, adjusting counts to
- include the last instruction executed and transforming the address
- into something that GDB likes. */
-
- for (i = 0; i < count; ++i)
- {
- trace_word = tmpspace[i];
- next_word = ((i == 0) ? 0 : tmpspace[i - 1]);
- trace_addr = trace_word & 0xffff;
- next_cnt = (next_word >> 24) & 0xff;
- j = trace_data.size + count - i - 1;
- trace_data.addrs[j] = (trace_addr << 2) + 0x1000000;
- trace_data.counts[j] = next_cnt + 1;
- }
-
- oldsize = trace_data.size;
- trace_data.size += count;
-
- xfree (tmpspace);
-
- if (trace_display)
- display_trace (oldsize, trace_data.size);
-}
-
-static void
-tdisassemble_command (char *arg, int from_tty)
-{
- int i, count;
- CORE_ADDR low, high;
- char *space_index;
-
- if (!arg)
- {
- low = 0;
- high = trace_data.size;
- }
- else if (!(space_index = (char *) strchr (arg, ' ')))
- {
- low = parse_and_eval_address (arg);
- high = low + 5;
- }
- else
- {
- /* Two arguments. */
- *space_index = '\0';
- low = parse_and_eval_address (arg);
- high = parse_and_eval_address (space_index + 1);
- if (high < low)
- high = low;
- }
-
- printf_filtered ("Dump of trace from %s to %s:\n",
- paddr_u (low),
- paddr_u (high));
-
- display_trace (low, high);
-
- printf_filtered ("End of trace dump.\n");
- gdb_flush (gdb_stdout);
-}
-
-static void
-display_trace (int low, int high)
-{
- int i, count, trace_show_source, first, suppress;
- CORE_ADDR next_address;
-
- trace_show_source = default_trace_show_source;
- if (!have_full_symbols () && !have_partial_symbols ())
- {
- trace_show_source = 0;
- printf_filtered ("No symbol table is loaded. Use the \"file\" command.\n");
- printf_filtered ("Trace will not display any source.\n");
- }
-
- first = 1;
- suppress = 0;
- for (i = low; i < high; ++i)
- {
- next_address = trace_data.addrs[i];
- count = trace_data.counts[i];
- while (count-- > 0)
- {
- QUIT;
- if (trace_show_source)
- {
- struct symtab_and_line sal, sal_prev;
-
- sal_prev = find_pc_line (next_address - 4, 0);
- sal = find_pc_line (next_address, 0);
-
- if (sal.symtab)
- {
- if (first || sal.line != sal_prev.line)
- print_source_lines (sal.symtab, sal.line, sal.line + 1, 0);
- suppress = 0;
- }
- else
- {
- if (!suppress)
- /* FIXME-32x64--assumes sal.pc fits in long. */
- printf_filtered ("No source file for address %s.\n",
- local_hex_string ((unsigned long) sal.pc));
- suppress = 1;
- }
- }
- first = 0;
- print_address (next_address, gdb_stdout);
- printf_filtered (":");
- printf_filtered ("\t");
- wrap_here (" ");
- next_address = next_address + print_insn (next_address, gdb_stdout);
- printf_filtered ("\n");
- gdb_flush (gdb_stdout);
- }
- }
-}
-
-extern void (*target_resume_hook) (void);
-extern void (*target_wait_loop_hook) (void);
-
-void
-_initialize_d30v_tdep (void)
-{
- tm_print_insn = print_insn_d30v;
-
- target_resume_hook = d30v_eva_prepare_to_trace;
- target_wait_loop_hook = d30v_eva_get_trace_data;
-
- add_info ("flags", print_flags_command, "Print d30v flags.");
-
- add_com ("trace", class_support, trace_command,
- "Enable tracing of instruction execution.");
-
- add_com ("untrace", class_support, untrace_command,
- "Disable tracing of instruction execution.");
-
- add_com ("tdisassemble", class_vars, tdisassemble_command,
- "Disassemble the trace buffer.\n\
-Two optional arguments specify a range of trace buffer entries\n\
-as reported by info trace (NOT addresses!).");
-
- add_info ("trace", trace_info,
- "Display info about the trace data buffer.");
-
- add_show_from_set (add_set_cmd ("tracedisplay", no_class,
- var_integer, (char *) &trace_display,
- "Set automatic display of trace.\n", &setlist),
- &showlist);
- add_show_from_set (add_set_cmd ("tracesource", no_class,
- var_integer, (char *) &default_trace_show_source,
- "Set display of source code with trace.\n", &setlist),
- &showlist);
-
-}
+/* OBSOLETE /* Target-dependent code for Mitsubishi D30V, for GDB. */
+/* OBSOLETE */
+/* OBSOLETE Copyright 1996, 1997, 1998, 1999, 2000, 2001, 2002 Free Software */
+/* OBSOLETE Foundation, Inc. */
+/* OBSOLETE */
+/* OBSOLETE This file is part of GDB. */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
+/* OBSOLETE (at your option) any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License */
+/* OBSOLETE along with this program; if not, write to the Free Software */
+/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, */
+/* OBSOLETE Boston, MA 02111-1307, USA. */ */
+/* OBSOLETE */
+/* OBSOLETE /* Contributed by Martin Hunt, hunt@cygnus.com */ */
+/* OBSOLETE */
+/* OBSOLETE #include "defs.h" */
+/* OBSOLETE #include "frame.h" */
+/* OBSOLETE #include "obstack.h" */
+/* OBSOLETE #include "symtab.h" */
+/* OBSOLETE #include "gdbtypes.h" */
+/* OBSOLETE #include "gdbcmd.h" */
+/* OBSOLETE #include "gdbcore.h" */
+/* OBSOLETE #include "gdb_string.h" */
+/* OBSOLETE #include "value.h" */
+/* OBSOLETE #include "inferior.h" */
+/* OBSOLETE #include "dis-asm.h" */
+/* OBSOLETE #include "symfile.h" */
+/* OBSOLETE #include "objfiles.h" */
+/* OBSOLETE #include "regcache.h" */
+/* OBSOLETE */
+/* OBSOLETE #include "language.h" /* For local_hex_string() */ */
+/* OBSOLETE */
+/* OBSOLETE void d30v_frame_find_saved_regs (struct frame_info *fi, */
+/* OBSOLETE struct frame_saved_regs *fsr); */
+/* OBSOLETE void d30v_frame_find_saved_regs_offsets (struct frame_info *fi, */
+/* OBSOLETE struct frame_saved_regs *fsr); */
+/* OBSOLETE static void d30v_pop_dummy_frame (struct frame_info *fi); */
+/* OBSOLETE static void d30v_print_flags (void); */
+/* OBSOLETE static void print_flags_command (char *, int); */
+/* OBSOLETE */
+/* OBSOLETE /* the following defines assume: */
+/* OBSOLETE fp is r61, lr is r62, sp is r63, and ?? is r22 */
+/* OBSOLETE if that changes, they will need to be updated */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_MASK_ALL_BUT_RA 0x0ffc0fff /* throw away Ra, keep the rest */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_STW_SPM 0x054c0fc0 /* stw Ra, @(sp-) */ */
+/* OBSOLETE #define OP_STW_SP_R0 0x05400fc0 /* stw Ra, @(sp,r0) */ */
+/* OBSOLETE #define OP_STW_SP_IMM0 0x05480fc0 /* st Ra, @(sp, 0x0) */ */
+/* OBSOLETE #define OP_STW_R22P_R0 0x05440580 /* stw Ra, @(r22+,r0) */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_ST2W_SPM 0x056c0fc0 /* st2w Ra, @(sp-) */ */
+/* OBSOLETE #define OP_ST2W_SP_R0 0x05600fc0 /* st2w Ra, @(sp, r0) */ */
+/* OBSOLETE #define OP_ST2W_SP_IMM0 0x05680fc0 /* st2w Ra, @(sp, 0x0) */ */
+/* OBSOLETE #define OP_ST2W_R22P_R0 0x05640580 /* st2w Ra, @(r22+, r0) */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_MASK_OPCODE 0x0ffc0000 /* just the opcode, ign operands */ */
+/* OBSOLETE #define OP_NOP 0x00f00000 /* nop */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_MASK_ALL_BUT_IMM 0x0fffffc0 /* throw away imm, keep the rest */ */
+/* OBSOLETE #define OP_SUB_SP_IMM 0x082bffc0 /* sub sp,sp,imm */ */
+/* OBSOLETE #define OP_ADD_SP_IMM 0x080bffc0 /* add sp,sp,imm */ */
+/* OBSOLETE #define OP_ADD_R22_SP_IMM 0x08096fc0 /* add r22,sp,imm */ */
+/* OBSOLETE #define OP_STW_FP_SP_IMM 0x054bdfc0 /* stw fp,@(sp,imm) */ */
+/* OBSOLETE #define OP_OR_SP_R0_IMM 0x03abf000 /* or sp,r0,imm */ */
+/* OBSOLETE */
+/* OBSOLETE /* no mask */ */
+/* OBSOLETE #define OP_OR_FP_R0_SP 0x03a3d03f /* or fp,r0,sp */ */
+/* OBSOLETE #define OP_OR_FP_SP_R0 0x03a3dfc0 /* or fp,sp,r0 */ */
+/* OBSOLETE #define OP_OR_FP_IMM0_SP 0x03abd03f /* or fp,0x0,sp */ */
+/* OBSOLETE #define OP_STW_FP_R22P_R0 0x0547d580 /* stw fp,@(r22+,r0) */ */
+/* OBSOLETE #define OP_STW_LR_R22P_R0 0x0547e580 /* stw lr,@(r22+,r0) */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_MASK_OP_AND_RB 0x0ff80fc0 /* keep op and rb,throw away rest */ */
+/* OBSOLETE #define OP_STW_SP_IMM 0x05480fc0 /* stw Ra,@(sp,imm) */ */
+/* OBSOLETE #define OP_ST2W_SP_IMM 0x05680fc0 /* st2w Ra,@(sp,imm) */ */
+/* OBSOLETE #define OP_STW_FP_IMM 0x05480f40 /* stw Ra,@(fp,imm) */ */
+/* OBSOLETE #define OP_STW_FP_R0 0x05400f40 /* stw Ra,@(fp,r0) */ */
+/* OBSOLETE */
+/* OBSOLETE #define OP_MASK_FM_BIT 0x80000000 */
+/* OBSOLETE #define OP_MASK_CC_BITS 0x70000000 */
+/* OBSOLETE #define OP_MASK_SUB_INST 0x0fffffff */
+/* OBSOLETE */
+/* OBSOLETE #define EXTRACT_RA(op) (((op) >> 12) & 0x3f) */
+/* OBSOLETE #define EXTRACT_RB(op) (((op) >> 6) & 0x3f) */
+/* OBSOLETE #define EXTRACT_RC(op) (((op) & 0x3f) */
+/* OBSOLETE #define EXTRACT_UIMM6(op) ((op) & 0x3f) */
+/* OBSOLETE #define EXTRACT_IMM6(op) ((((int)EXTRACT_UIMM6(op)) << 26) >> 26) */
+/* OBSOLETE #define EXTRACT_IMM26(op) ((((op)&0x0ff00000) >> 2) | ((op)&0x0003ffff)) */
+/* OBSOLETE #define EXTRACT_IMM32(opl, opr) ((EXTRACT_UIMM6(opl) << 26)|EXTRACT_IMM26(opr)) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE d30v_frame_chain_valid (CORE_ADDR chain, struct frame_info *fi) */
+/* OBSOLETE { */
+/* OBSOLETE #if 0 */
+/* OBSOLETE return ((chain) != 0 && (fi) != 0 && (fi)->return_pc != 0); */
+/* OBSOLETE #else */
+/* OBSOLETE return ((chain) != 0 && (fi) != 0 && (fi)->frame <= chain); */
+/* OBSOLETE #endif */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Discard from the stack the innermost frame, restoring all saved */
+/* OBSOLETE registers. */ */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_pop_frame (void) */
+/* OBSOLETE { */
+/* OBSOLETE struct frame_info *frame = get_current_frame (); */
+/* OBSOLETE CORE_ADDR fp; */
+/* OBSOLETE int regnum; */
+/* OBSOLETE struct frame_saved_regs fsr; */
+/* OBSOLETE char raw_buffer[8]; */
+/* OBSOLETE */
+/* OBSOLETE fp = FRAME_FP (frame); */
+/* OBSOLETE if (frame->dummy) */
+/* OBSOLETE { */
+/* OBSOLETE d30v_pop_dummy_frame (frame); */
+/* OBSOLETE return; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* fill out fsr with the address of where each */ */
+/* OBSOLETE /* register was stored in the frame */ */
+/* OBSOLETE get_frame_saved_regs (frame, &fsr); */
+/* OBSOLETE */
+/* OBSOLETE /* now update the current registers with the old values */ */
+/* OBSOLETE for (regnum = A0_REGNUM; regnum < A0_REGNUM + 2; regnum++) */
+/* OBSOLETE { */
+/* OBSOLETE if (fsr.regs[regnum]) */
+/* OBSOLETE { */
+/* OBSOLETE read_memory (fsr.regs[regnum], raw_buffer, 8); */
+/* OBSOLETE write_register_bytes (REGISTER_BYTE (regnum), raw_buffer, 8); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE for (regnum = 0; regnum < SP_REGNUM; regnum++) */
+/* OBSOLETE { */
+/* OBSOLETE if (fsr.regs[regnum]) */
+/* OBSOLETE { */
+/* OBSOLETE write_register (regnum, read_memory_unsigned_integer (fsr.regs[regnum], 4)); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE if (fsr.regs[PSW_REGNUM]) */
+/* OBSOLETE { */
+/* OBSOLETE write_register (PSW_REGNUM, read_memory_unsigned_integer (fsr.regs[PSW_REGNUM], 4)); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE write_register (PC_REGNUM, read_register (LR_REGNUM)); */
+/* OBSOLETE write_register (SP_REGNUM, fp + frame->size); */
+/* OBSOLETE target_store_registers (-1); */
+/* OBSOLETE flush_cached_frames (); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static int */
+/* OBSOLETE check_prologue (unsigned long op) */
+/* OBSOLETE { */
+/* OBSOLETE /* add sp,sp,imm -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* add r22,sp,imm -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* or fp,r0,sp -- observed */ */
+/* OBSOLETE if (op == OP_OR_FP_R0_SP) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* nop */ */
+/* OBSOLETE if ((op & OP_MASK_OPCODE) == OP_NOP) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra,@(sp,r0) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_R0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra,@(sp,0x0) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_IMM0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* st2w Ra,@(sp,r0) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_R0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* st2w Ra,@(sp,0x0) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_IMM0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw fp, @(r22+,r0) -- observed */ */
+/* OBSOLETE if (op == OP_STW_FP_R22P_R0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw r62, @(r22+,r0) -- observed */ */
+/* OBSOLETE if (op == OP_STW_LR_R22P_R0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra, @(fp,r0) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_FP_R0) */
+/* OBSOLETE return 1; /* first arg */ */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra, @(fp,imm) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_OP_AND_RB) == OP_STW_FP_IMM) */
+/* OBSOLETE return 1; /* second and subsequent args */ */
+/* OBSOLETE */
+/* OBSOLETE /* stw fp,@(sp,imm) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_STW_FP_SP_IMM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* st2w Ra,@(r22+,r0) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_R22P_R0) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra, @(sp-) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SPM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* st2w Ra, @(sp-) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SPM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* sub.? sp,sp,imm */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_SUB_SP_IMM) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR */
+/* OBSOLETE d30v_skip_prologue (CORE_ADDR pc) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned long op[2]; */
+/* OBSOLETE unsigned long opl, opr; /* left / right sub operations */ */
+/* OBSOLETE unsigned long fm0, fm1; /* left / right mode bits */ */
+/* OBSOLETE unsigned long cc0, cc1; */
+/* OBSOLETE unsigned long op1, op2; */
+/* OBSOLETE CORE_ADDR func_addr, func_end; */
+/* OBSOLETE struct symtab_and_line sal; */
+/* OBSOLETE */
+/* OBSOLETE /* If we have line debugging information, then the end of the */ */
+/* OBSOLETE /* prologue should the first assembly instruction of the first source line */ */
+/* OBSOLETE if (find_pc_partial_function (pc, NULL, &func_addr, &func_end)) */
+/* OBSOLETE { */
+/* OBSOLETE sal = find_pc_line (func_addr, 0); */
+/* OBSOLETE if (sal.end && sal.end < func_end) */
+/* OBSOLETE return sal.end; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (target_read_memory (pc, (char *) &op[0], 8)) */
+/* OBSOLETE return pc; /* Can't access it -- assume no prologue. */ */
+/* OBSOLETE */
+/* OBSOLETE while (1) */
+/* OBSOLETE { */
+/* OBSOLETE opl = (unsigned long) read_memory_integer (pc, 4); */
+/* OBSOLETE opr = (unsigned long) read_memory_integer (pc + 4, 4); */
+/* OBSOLETE */
+/* OBSOLETE fm0 = (opl & OP_MASK_FM_BIT); */
+/* OBSOLETE fm1 = (opr & OP_MASK_FM_BIT); */
+/* OBSOLETE */
+/* OBSOLETE cc0 = (opl & OP_MASK_CC_BITS); */
+/* OBSOLETE cc1 = (opr & OP_MASK_CC_BITS); */
+/* OBSOLETE */
+/* OBSOLETE opl = (opl & OP_MASK_SUB_INST); */
+/* OBSOLETE opr = (opr & OP_MASK_SUB_INST); */
+/* OBSOLETE */
+/* OBSOLETE if (fm0 && fm1) */
+/* OBSOLETE { */
+/* OBSOLETE /* long instruction (opl contains the opcode) */ */
+/* OBSOLETE if (((opl & OP_MASK_ALL_BUT_IMM) != OP_ADD_SP_IMM) && /* add sp,sp,imm */ */
+/* OBSOLETE ((opl & OP_MASK_ALL_BUT_IMM) != OP_ADD_R22_SP_IMM) && /* add r22,sp,imm */ */
+/* OBSOLETE ((opl & OP_MASK_OP_AND_RB) != OP_STW_SP_IMM) && /* stw Ra, @(sp,imm) */ */
+/* OBSOLETE ((opl & OP_MASK_OP_AND_RB) != OP_ST2W_SP_IMM)) /* st2w Ra, @(sp,imm) */ */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE /* short instructions */ */
+/* OBSOLETE if (fm0 && !fm1) */
+/* OBSOLETE { */
+/* OBSOLETE op1 = opr; */
+/* OBSOLETE op2 = opl; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE op1 = opl; */
+/* OBSOLETE op2 = opr; */
+/* OBSOLETE } */
+/* OBSOLETE if (check_prologue (op1)) */
+/* OBSOLETE { */
+/* OBSOLETE if (!check_prologue (op2)) */
+/* OBSOLETE { */
+/* OBSOLETE /* if the previous opcode was really part of the prologue */ */
+/* OBSOLETE /* and not just a NOP, then we want to break after both instructions */ */
+/* OBSOLETE if ((op1 & OP_MASK_OPCODE) != OP_NOP) */
+/* OBSOLETE pc += 8; */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE pc += 8; */
+/* OBSOLETE } */
+/* OBSOLETE return pc; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static int end_of_stack; */
+/* OBSOLETE */
+/* OBSOLETE /* Given a GDB frame, determine the address of the calling function's frame. */
+/* OBSOLETE This will be used to create a new GDB frame struct, and then */
+/* OBSOLETE INIT_EXTRA_FRAME_INFO and INIT_FRAME_PC will be called for the new frame. */
+/* OBSOLETE */ */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR */
+/* OBSOLETE d30v_frame_chain (struct frame_info *frame) */
+/* OBSOLETE { */
+/* OBSOLETE struct frame_saved_regs fsr; */
+/* OBSOLETE */
+/* OBSOLETE d30v_frame_find_saved_regs (frame, &fsr); */
+/* OBSOLETE */
+/* OBSOLETE if (end_of_stack) */
+/* OBSOLETE return (CORE_ADDR) 0; */
+/* OBSOLETE */
+/* OBSOLETE if (frame->return_pc == IMEM_START) */
+/* OBSOLETE return (CORE_ADDR) 0; */
+/* OBSOLETE */
+/* OBSOLETE if (!fsr.regs[FP_REGNUM]) */
+/* OBSOLETE { */
+/* OBSOLETE if (!fsr.regs[SP_REGNUM] || fsr.regs[SP_REGNUM] == STACK_START) */
+/* OBSOLETE return (CORE_ADDR) 0; */
+/* OBSOLETE */
+/* OBSOLETE return fsr.regs[SP_REGNUM]; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (!read_memory_unsigned_integer (fsr.regs[FP_REGNUM], 4)) */
+/* OBSOLETE return (CORE_ADDR) 0; */
+/* OBSOLETE */
+/* OBSOLETE return read_memory_unsigned_integer (fsr.regs[FP_REGNUM], 4); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static int next_addr, uses_frame; */
+/* OBSOLETE static int frame_size; */
+/* OBSOLETE */
+/* OBSOLETE static int */
+/* OBSOLETE prologue_find_regs (unsigned long op, struct frame_saved_regs *fsr, */
+/* OBSOLETE CORE_ADDR addr) */
+/* OBSOLETE { */
+/* OBSOLETE int n; */
+/* OBSOLETE int offset; */
+/* OBSOLETE */
+/* OBSOLETE /* add sp,sp,imm -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE offset = EXTRACT_IMM6 (op); */
+/* OBSOLETE /*next_addr += offset; */ */
+/* OBSOLETE frame_size += -offset; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* add r22,sp,imm -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE offset = EXTRACT_IMM6 (op); */
+/* OBSOLETE next_addr = (offset - frame_size); */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra, @(fp, offset) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_OP_AND_RB) == OP_STW_FP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE offset = EXTRACT_IMM6 (op); */
+/* OBSOLETE fsr->regs[n] = (offset - frame_size); */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra, @(fp, r0) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_FP_R0) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = (-frame_size); */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* or fp,0,sp -- observed */ */
+/* OBSOLETE if ((op == OP_OR_FP_R0_SP) || */
+/* OBSOLETE (op == OP_OR_FP_SP_R0) || */
+/* OBSOLETE (op == OP_OR_FP_IMM0_SP)) */
+/* OBSOLETE { */
+/* OBSOLETE uses_frame = 1; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* nop */ */
+/* OBSOLETE if ((op & OP_MASK_OPCODE) == OP_NOP) */
+/* OBSOLETE return 1; */
+/* OBSOLETE */
+/* OBSOLETE /* stw Ra,@(r22+,r0) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_R22P_R0) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = next_addr; */
+/* OBSOLETE next_addr += 4; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE #if 0 /* subsumed in pattern above */ */
+/* OBSOLETE /* stw fp,@(r22+,r0) -- observed */ */
+/* OBSOLETE if (op == OP_STW_FP_R22P_R0) */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[FP_REGNUM] = next_addr; /* XXX */ */
+/* OBSOLETE next_addr += 4; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* stw r62,@(r22+,r0) -- observed */ */
+/* OBSOLETE if (op == OP_STW_LR_R22P_R0) */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[LR_REGNUM] = next_addr; */
+/* OBSOLETE next_addr += 4; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE #endif */
+/* OBSOLETE /* st2w Ra,@(r22+,r0) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_R22P_R0) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = next_addr; */
+/* OBSOLETE fsr->regs[n + 1] = next_addr + 4; */
+/* OBSOLETE next_addr += 8; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* stw rn, @(sp-) */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SPM) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = next_addr; */
+/* OBSOLETE next_addr -= 4; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* st2w Ra, @(sp-) */ */
+/* OBSOLETE else if ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SPM) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = next_addr; */
+/* OBSOLETE fsr->regs[n + 1] = next_addr + 4; */
+/* OBSOLETE next_addr -= 8; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* sub sp,sp,imm */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_SUB_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE offset = EXTRACT_IMM6 (op); */
+/* OBSOLETE frame_size += -offset; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* st rn, @(sp,0) -- observed */ */
+/* OBSOLETE if (((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_R0) || */
+/* OBSOLETE ((op & OP_MASK_ALL_BUT_RA) == OP_STW_SP_IMM0)) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = (-frame_size); */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* st2w rn, @(sp,0) */ */
+/* OBSOLETE if (((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_R0) || */
+/* OBSOLETE ((op & OP_MASK_ALL_BUT_RA) == OP_ST2W_SP_IMM0)) */
+/* OBSOLETE { */
+/* OBSOLETE n = EXTRACT_RA (op); */
+/* OBSOLETE fsr->regs[n] = (-frame_size); */
+/* OBSOLETE fsr->regs[n + 1] = (-frame_size) + 4; */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* stw fp,@(sp,imm) -- observed */ */
+/* OBSOLETE if ((op & OP_MASK_ALL_BUT_IMM) == OP_STW_FP_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE offset = EXTRACT_IMM6 (op); */
+/* OBSOLETE fsr->regs[FP_REGNUM] = (offset - frame_size); */
+/* OBSOLETE return 1; */
+/* OBSOLETE } */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Put here the code to store, into a struct frame_saved_regs, the */
+/* OBSOLETE addresses of the saved registers of frame described by FRAME_INFO. */
+/* OBSOLETE This includes special registers such as pc and fp saved in special */
+/* OBSOLETE ways in the stack frame. sp is even more special: the address we */
+/* OBSOLETE return for it IS the sp for the next frame. */ */
+/* OBSOLETE void */
+/* OBSOLETE d30v_frame_find_saved_regs (struct frame_info *fi, struct frame_saved_regs *fsr) */
+/* OBSOLETE { */
+/* OBSOLETE CORE_ADDR fp, pc; */
+/* OBSOLETE unsigned long opl, opr; */
+/* OBSOLETE unsigned long op1, op2; */
+/* OBSOLETE unsigned long fm0, fm1; */
+/* OBSOLETE int i; */
+/* OBSOLETE */
+/* OBSOLETE fp = fi->frame; */
+/* OBSOLETE memset (fsr, 0, sizeof (*fsr)); */
+/* OBSOLETE next_addr = 0; */
+/* OBSOLETE frame_size = 0; */
+/* OBSOLETE end_of_stack = 0; */
+/* OBSOLETE */
+/* OBSOLETE uses_frame = 0; */
+/* OBSOLETE */
+/* OBSOLETE d30v_frame_find_saved_regs_offsets (fi, fsr); */
+/* OBSOLETE */
+/* OBSOLETE fi->size = frame_size; */
+/* OBSOLETE */
+/* OBSOLETE if (!fp) */
+/* OBSOLETE fp = read_register (SP_REGNUM); */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < NUM_REGS - 1; i++) */
+/* OBSOLETE if (fsr->regs[i]) */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[i] = fsr->regs[i] + fp + frame_size; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (fsr->regs[LR_REGNUM]) */
+/* OBSOLETE fi->return_pc = read_memory_unsigned_integer (fsr->regs[LR_REGNUM], 4); */
+/* OBSOLETE else */
+/* OBSOLETE fi->return_pc = read_register (LR_REGNUM); */
+/* OBSOLETE */
+/* OBSOLETE /* the SP is not normally (ever?) saved, but check anyway */ */
+/* OBSOLETE if (!fsr->regs[SP_REGNUM]) */
+/* OBSOLETE { */
+/* OBSOLETE /* if the FP was saved, that means the current FP is valid, */ */
+/* OBSOLETE /* otherwise, it isn't being used, so we use the SP instead */ */
+/* OBSOLETE if (uses_frame) */
+/* OBSOLETE fsr->regs[SP_REGNUM] = read_register (FP_REGNUM) + fi->size; */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[SP_REGNUM] = fp + fi->size; */
+/* OBSOLETE fi->frameless = 1; */
+/* OBSOLETE fsr->regs[FP_REGNUM] = 0; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_frame_find_saved_regs_offsets (struct frame_info *fi, */
+/* OBSOLETE struct frame_saved_regs *fsr) */
+/* OBSOLETE { */
+/* OBSOLETE CORE_ADDR fp, pc; */
+/* OBSOLETE unsigned long opl, opr; */
+/* OBSOLETE unsigned long op1, op2; */
+/* OBSOLETE unsigned long fm0, fm1; */
+/* OBSOLETE int i; */
+/* OBSOLETE */
+/* OBSOLETE fp = fi->frame; */
+/* OBSOLETE memset (fsr, 0, sizeof (*fsr)); */
+/* OBSOLETE next_addr = 0; */
+/* OBSOLETE frame_size = 0; */
+/* OBSOLETE end_of_stack = 0; */
+/* OBSOLETE */
+/* OBSOLETE pc = get_pc_function_start (fi->pc); */
+/* OBSOLETE */
+/* OBSOLETE uses_frame = 0; */
+/* OBSOLETE while (pc < fi->pc) */
+/* OBSOLETE { */
+/* OBSOLETE opl = (unsigned long) read_memory_integer (pc, 4); */
+/* OBSOLETE opr = (unsigned long) read_memory_integer (pc + 4, 4); */
+/* OBSOLETE */
+/* OBSOLETE fm0 = (opl & OP_MASK_FM_BIT); */
+/* OBSOLETE fm1 = (opr & OP_MASK_FM_BIT); */
+/* OBSOLETE */
+/* OBSOLETE opl = (opl & OP_MASK_SUB_INST); */
+/* OBSOLETE opr = (opr & OP_MASK_SUB_INST); */
+/* OBSOLETE */
+/* OBSOLETE if (fm0 && fm1) */
+/* OBSOLETE { */
+/* OBSOLETE /* long instruction */ */
+/* OBSOLETE if ((opl & OP_MASK_ALL_BUT_IMM) == OP_ADD_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE /* add sp,sp,n */ */
+/* OBSOLETE long offset = EXTRACT_IMM32 (opl, opr); */
+/* OBSOLETE frame_size += -offset; */
+/* OBSOLETE } */
+/* OBSOLETE else if ((opl & OP_MASK_ALL_BUT_IMM) == OP_ADD_R22_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE /* add r22,sp,offset */ */
+/* OBSOLETE long offset = EXTRACT_IMM32 (opl, opr); */
+/* OBSOLETE next_addr = (offset - frame_size); */
+/* OBSOLETE } */
+/* OBSOLETE else if ((opl & OP_MASK_OP_AND_RB) == OP_STW_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE /* st Ra, @(sp,imm) */ */
+/* OBSOLETE long offset = EXTRACT_IMM32 (opl, opr); */
+/* OBSOLETE short n = EXTRACT_RA (opl); */
+/* OBSOLETE fsr->regs[n] = (offset - frame_size); */
+/* OBSOLETE } */
+/* OBSOLETE else if ((opl & OP_MASK_OP_AND_RB) == OP_ST2W_SP_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE /* st2w Ra, @(sp,offset) */ */
+/* OBSOLETE long offset = EXTRACT_IMM32 (opl, opr); */
+/* OBSOLETE short n = EXTRACT_RA (opl); */
+/* OBSOLETE fsr->regs[n] = (offset - frame_size); */
+/* OBSOLETE fsr->regs[n + 1] = (offset - frame_size) + 4; */
+/* OBSOLETE } */
+/* OBSOLETE else if ((opl & OP_MASK_ALL_BUT_IMM) == OP_OR_SP_R0_IMM) */
+/* OBSOLETE { */
+/* OBSOLETE end_of_stack = 1; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE /* short instructions */ */
+/* OBSOLETE if (fm0 && !fm1) */
+/* OBSOLETE { */
+/* OBSOLETE op2 = opl; */
+/* OBSOLETE op1 = opr; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE op1 = opl; */
+/* OBSOLETE op2 = opr; */
+/* OBSOLETE } */
+/* OBSOLETE if (!prologue_find_regs (op1, fsr, pc) || !prologue_find_regs (op2, fsr, pc)) */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE pc += 8; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #if 0 */
+/* OBSOLETE fi->size = frame_size; */
+/* OBSOLETE */
+/* OBSOLETE if (!fp) */
+/* OBSOLETE fp = read_register (SP_REGNUM); */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < NUM_REGS - 1; i++) */
+/* OBSOLETE if (fsr->regs[i]) */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[i] = fsr->regs[i] + fp + frame_size; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (fsr->regs[LR_REGNUM]) */
+/* OBSOLETE fi->return_pc = read_memory_unsigned_integer (fsr->regs[LR_REGNUM], 4); */
+/* OBSOLETE else */
+/* OBSOLETE fi->return_pc = read_register (LR_REGNUM); */
+/* OBSOLETE */
+/* OBSOLETE /* the SP is not normally (ever?) saved, but check anyway */ */
+/* OBSOLETE if (!fsr->regs[SP_REGNUM]) */
+/* OBSOLETE { */
+/* OBSOLETE /* if the FP was saved, that means the current FP is valid, */ */
+/* OBSOLETE /* otherwise, it isn't being used, so we use the SP instead */ */
+/* OBSOLETE if (uses_frame) */
+/* OBSOLETE fsr->regs[SP_REGNUM] = read_register (FP_REGNUM) + fi->size; */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE fsr->regs[SP_REGNUM] = fp + fi->size; */
+/* OBSOLETE fi->frameless = 1; */
+/* OBSOLETE fsr->regs[FP_REGNUM] = 0; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE #endif */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_init_extra_frame_info (int fromleaf, struct frame_info *fi) */
+/* OBSOLETE { */
+/* OBSOLETE struct frame_saved_regs dummy; */
+/* OBSOLETE */
+/* OBSOLETE if (fi->next && (fi->pc == 0)) */
+/* OBSOLETE fi->pc = fi->next->return_pc; */
+/* OBSOLETE */
+/* OBSOLETE d30v_frame_find_saved_regs_offsets (fi, &dummy); */
+/* OBSOLETE */
+/* OBSOLETE if (uses_frame == 0) */
+/* OBSOLETE fi->frameless = 1; */
+/* OBSOLETE else */
+/* OBSOLETE fi->frameless = 0; */
+/* OBSOLETE */
+/* OBSOLETE if ((fi->next == 0) && (uses_frame == 0)) */
+/* OBSOLETE /* innermost frame and it's "frameless", */
+/* OBSOLETE so the fi->frame field is wrong, fix it! */ */
+/* OBSOLETE fi->frame = read_sp (); */
+/* OBSOLETE */
+/* OBSOLETE if (dummy.regs[LR_REGNUM]) */
+/* OBSOLETE { */
+/* OBSOLETE /* it was saved, grab it! */ */
+/* OBSOLETE dummy.regs[LR_REGNUM] += (fi->frame + frame_size); */
+/* OBSOLETE fi->return_pc = read_memory_unsigned_integer (dummy.regs[LR_REGNUM], 4); */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE fi->return_pc = read_register (LR_REGNUM); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_init_frame_pc (int fromleaf, struct frame_info *prev) */
+/* OBSOLETE { */
+/* OBSOLETE /* default value, put here so we can breakpoint on it and */
+/* OBSOLETE see if the default value is really the right thing to use */ */
+/* OBSOLETE prev->pc = (fromleaf ? SAVED_PC_AFTER_CALL (prev->next) : \ */
+/* OBSOLETE prev->next ? FRAME_SAVED_PC (prev->next) : read_pc ()); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void d30v_print_register (int regnum, int tabular); */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE d30v_print_register (int regnum, int tabular) */
+/* OBSOLETE { */
+/* OBSOLETE if (regnum < A0_REGNUM) */
+/* OBSOLETE { */
+/* OBSOLETE if (tabular) */
+/* OBSOLETE printf_filtered ("%08lx", (long) read_register (regnum)); */
+/* OBSOLETE else */
+/* OBSOLETE printf_filtered ("0x%lx %ld", */
+/* OBSOLETE (long) read_register (regnum), */
+/* OBSOLETE (long) read_register (regnum)); */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE char regbuf[MAX_REGISTER_RAW_SIZE]; */
+/* OBSOLETE */
+/* OBSOLETE frame_register_read (selected_frame, regnum, regbuf); */
+/* OBSOLETE */
+/* OBSOLETE val_print (REGISTER_VIRTUAL_TYPE (regnum), regbuf, 0, 0, */
+/* OBSOLETE gdb_stdout, 'x', 1, 0, Val_pretty_default); */
+/* OBSOLETE */
+/* OBSOLETE if (!tabular) */
+/* OBSOLETE { */
+/* OBSOLETE printf_filtered (" "); */
+/* OBSOLETE val_print (REGISTER_VIRTUAL_TYPE (regnum), regbuf, 0, 0, */
+/* OBSOLETE gdb_stdout, 'd', 1, 0, Val_pretty_default); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE d30v_print_flags (void) */
+/* OBSOLETE { */
+/* OBSOLETE long psw = read_register (PSW_REGNUM); */
+/* OBSOLETE printf_filtered ("flags #1"); */
+/* OBSOLETE printf_filtered (" (sm) %d", (psw & PSW_SM) != 0); */
+/* OBSOLETE printf_filtered (" (ea) %d", (psw & PSW_EA) != 0); */
+/* OBSOLETE printf_filtered (" (db) %d", (psw & PSW_DB) != 0); */
+/* OBSOLETE printf_filtered (" (ds) %d", (psw & PSW_DS) != 0); */
+/* OBSOLETE printf_filtered (" (ie) %d", (psw & PSW_IE) != 0); */
+/* OBSOLETE printf_filtered (" (rp) %d", (psw & PSW_RP) != 0); */
+/* OBSOLETE printf_filtered (" (md) %d\n", (psw & PSW_MD) != 0); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("flags #2"); */
+/* OBSOLETE printf_filtered (" (f0) %d", (psw & PSW_F0) != 0); */
+/* OBSOLETE printf_filtered (" (f1) %d", (psw & PSW_F1) != 0); */
+/* OBSOLETE printf_filtered (" (f2) %d", (psw & PSW_F2) != 0); */
+/* OBSOLETE printf_filtered (" (f3) %d", (psw & PSW_F3) != 0); */
+/* OBSOLETE printf_filtered (" (s) %d", (psw & PSW_S) != 0); */
+/* OBSOLETE printf_filtered (" (v) %d", (psw & PSW_V) != 0); */
+/* OBSOLETE printf_filtered (" (va) %d", (psw & PSW_VA) != 0); */
+/* OBSOLETE printf_filtered (" (c) %d\n", (psw & PSW_C) != 0); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE print_flags_command (char *args, int from_tty) */
+/* OBSOLETE { */
+/* OBSOLETE d30v_print_flags (); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_do_registers_info (int regnum, int fpregs) */
+/* OBSOLETE { */
+/* OBSOLETE long long num1, num2; */
+/* OBSOLETE long psw; */
+/* OBSOLETE */
+/* OBSOLETE if (regnum != -1) */
+/* OBSOLETE { */
+/* OBSOLETE if (REGISTER_NAME (0) == NULL || REGISTER_NAME (0)[0] == '\000') */
+/* OBSOLETE return; */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("%s ", REGISTER_NAME (regnum)); */
+/* OBSOLETE d30v_print_register (regnum, 0); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE return; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Have to print all the registers. Format them nicely. */ */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("PC="); */
+/* OBSOLETE print_address (read_pc (), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" PSW="); */
+/* OBSOLETE d30v_print_register (PSW_REGNUM, 1); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" BPC="); */
+/* OBSOLETE print_address (read_register (BPC_REGNUM), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" BPSW="); */
+/* OBSOLETE d30v_print_register (BPSW_REGNUM, 1); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("DPC="); */
+/* OBSOLETE print_address (read_register (DPC_REGNUM), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" DPSW="); */
+/* OBSOLETE d30v_print_register (DPSW_REGNUM, 1); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" IBA="); */
+/* OBSOLETE print_address (read_register (IBA_REGNUM), gdb_stdout); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("RPT_C="); */
+/* OBSOLETE d30v_print_register (RPT_C_REGNUM, 1); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" RPT_S="); */
+/* OBSOLETE print_address (read_register (RPT_S_REGNUM), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" RPT_E="); */
+/* OBSOLETE print_address (read_register (RPT_E_REGNUM), gdb_stdout); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("MOD_S="); */
+/* OBSOLETE print_address (read_register (MOD_S_REGNUM), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" MOD_E="); */
+/* OBSOLETE print_address (read_register (MOD_E_REGNUM), gdb_stdout); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("EIT_VB="); */
+/* OBSOLETE print_address (read_register (EIT_VB_REGNUM), gdb_stdout); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" INT_S="); */
+/* OBSOLETE d30v_print_register (INT_S_REGNUM, 1); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered (" INT_M="); */
+/* OBSOLETE d30v_print_register (INT_M_REGNUM, 1); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE */
+/* OBSOLETE d30v_print_flags (); */
+/* OBSOLETE for (regnum = 0; regnum <= 63;) */
+/* OBSOLETE { */
+/* OBSOLETE int i; */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("R%d-R%d ", regnum, regnum + 7); */
+/* OBSOLETE if (regnum < 10) */
+/* OBSOLETE printf_filtered (" "); */
+/* OBSOLETE if (regnum + 7 < 10) */
+/* OBSOLETE printf_filtered (" "); */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < 8; i++) */
+/* OBSOLETE { */
+/* OBSOLETE printf_filtered (" "); */
+/* OBSOLETE d30v_print_register (regnum++, 1); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("A0-A1 "); */
+/* OBSOLETE */
+/* OBSOLETE d30v_print_register (A0_REGNUM, 1); */
+/* OBSOLETE printf_filtered (" "); */
+/* OBSOLETE d30v_print_register (A1_REGNUM, 1); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR */
+/* OBSOLETE d30v_fix_call_dummy (char *dummyname, CORE_ADDR start_sp, CORE_ADDR fun, */
+/* OBSOLETE int nargs, struct value **args, */
+/* OBSOLETE struct type *type, int gcc_p) */
+/* OBSOLETE { */
+/* OBSOLETE int regnum; */
+/* OBSOLETE CORE_ADDR sp; */
+/* OBSOLETE char buffer[MAX_REGISTER_RAW_SIZE]; */
+/* OBSOLETE struct frame_info *frame = get_current_frame (); */
+/* OBSOLETE frame->dummy = start_sp; */
+/* OBSOLETE /*start_sp |= DMEM_START; */ */
+/* OBSOLETE */
+/* OBSOLETE sp = start_sp; */
+/* OBSOLETE for (regnum = 0; regnum < NUM_REGS; regnum++) */
+/* OBSOLETE { */
+/* OBSOLETE sp -= REGISTER_RAW_SIZE (regnum); */
+/* OBSOLETE store_address (buffer, REGISTER_RAW_SIZE (regnum), read_register (regnum)); */
+/* OBSOLETE write_memory (sp, buffer, REGISTER_RAW_SIZE (regnum)); */
+/* OBSOLETE } */
+/* OBSOLETE write_register (SP_REGNUM, (LONGEST) sp); */
+/* OBSOLETE /* now we need to load LR with the return address */ */
+/* OBSOLETE write_register (LR_REGNUM, (LONGEST) d30v_call_dummy_address ()); */
+/* OBSOLETE return sp; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE d30v_pop_dummy_frame (struct frame_info *fi) */
+/* OBSOLETE { */
+/* OBSOLETE CORE_ADDR sp = fi->dummy; */
+/* OBSOLETE int regnum; */
+/* OBSOLETE */
+/* OBSOLETE for (regnum = 0; regnum < NUM_REGS; regnum++) */
+/* OBSOLETE { */
+/* OBSOLETE sp -= REGISTER_RAW_SIZE (regnum); */
+/* OBSOLETE write_register (regnum, read_memory_unsigned_integer (sp, REGISTER_RAW_SIZE (regnum))); */
+/* OBSOLETE } */
+/* OBSOLETE flush_cached_frames (); /* needed? */ */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR */
+/* OBSOLETE d30v_push_arguments (int nargs, struct value **args, CORE_ADDR sp, */
+/* OBSOLETE int struct_return, CORE_ADDR struct_addr) */
+/* OBSOLETE { */
+/* OBSOLETE int i, len, index = 0, regnum = 2; */
+/* OBSOLETE char buffer[4], *contents; */
+/* OBSOLETE LONGEST val; */
+/* OBSOLETE CORE_ADDR ptrs[10]; */
+/* OBSOLETE */
+/* OBSOLETE #if 0 */
+/* OBSOLETE /* Pass 1. Put all large args on stack */ */
+/* OBSOLETE for (i = 0; i < nargs; i++) */
+/* OBSOLETE { */
+/* OBSOLETE struct value *arg = args[i]; */
+/* OBSOLETE struct type *arg_type = check_typedef (VALUE_TYPE (arg)); */
+/* OBSOLETE len = TYPE_LENGTH (arg_type); */
+/* OBSOLETE contents = VALUE_CONTENTS (arg); */
+/* OBSOLETE val = extract_signed_integer (contents, len); */
+/* OBSOLETE if (len > 4) */
+/* OBSOLETE { */
+/* OBSOLETE /* put on stack and pass pointers */ */
+/* OBSOLETE sp -= len; */
+/* OBSOLETE write_memory (sp, contents, len); */
+/* OBSOLETE ptrs[index++] = sp; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE #endif */
+/* OBSOLETE index = 0; */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < nargs; i++) */
+/* OBSOLETE { */
+/* OBSOLETE struct value *arg = args[i]; */
+/* OBSOLETE struct type *arg_type = check_typedef (VALUE_TYPE (arg)); */
+/* OBSOLETE len = TYPE_LENGTH (arg_type); */
+/* OBSOLETE contents = VALUE_CONTENTS (arg); */
+/* OBSOLETE if (len > 4) */
+/* OBSOLETE { */
+/* OBSOLETE /* we need multiple registers */ */
+/* OBSOLETE int ndx; */
+/* OBSOLETE */
+/* OBSOLETE for (ndx = 0; len > 0; ndx += 8, len -= 8) */
+/* OBSOLETE { */
+/* OBSOLETE if (regnum & 1) */
+/* OBSOLETE regnum++; /* all args > 4 bytes start in even register */ */
+/* OBSOLETE */
+/* OBSOLETE if (regnum < 18) */
+/* OBSOLETE { */
+/* OBSOLETE val = extract_signed_integer (&contents[ndx], 4); */
+/* OBSOLETE write_register (regnum++, val); */
+/* OBSOLETE */
+/* OBSOLETE if (len >= 8) */
+/* OBSOLETE val = extract_signed_integer (&contents[ndx + 4], 4); */
+/* OBSOLETE else */
+/* OBSOLETE val = extract_signed_integer (&contents[ndx + 4], len - 4); */
+/* OBSOLETE write_register (regnum++, val); */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE /* no more registers available. put it on the stack */ */
+/* OBSOLETE */
+/* OBSOLETE /* all args > 4 bytes are padded to a multiple of 8 bytes */
+/* OBSOLETE and start on an 8 byte boundary */ */
+/* OBSOLETE if (sp & 7) */
+/* OBSOLETE sp -= (sp & 7); /* align it */ */
+/* OBSOLETE */
+/* OBSOLETE sp -= ((len + 7) & ~7); /* allocate space */ */
+/* OBSOLETE write_memory (sp, &contents[ndx], len); */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE if (regnum < 18) */
+/* OBSOLETE { */
+/* OBSOLETE val = extract_signed_integer (contents, len); */
+/* OBSOLETE write_register (regnum++, val); */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE /* all args are padded to a multiple of 4 bytes (at least) */ */
+/* OBSOLETE sp -= ((len + 3) & ~3); */
+/* OBSOLETE write_memory (sp, contents, len); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE if (sp & 7) */
+/* OBSOLETE /* stack pointer is not on an 8 byte boundary -- align it */ */
+/* OBSOLETE sp -= (sp & 7); */
+/* OBSOLETE return sp; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* pick an out-of-the-way place to set the return value */ */
+/* OBSOLETE /* for an inferior function call. The link register is set to this */ */
+/* OBSOLETE /* value and a momentary breakpoint is set there. When the breakpoint */ */
+/* OBSOLETE /* is hit, the dummy frame is popped and the previous environment is */ */
+/* OBSOLETE /* restored. */ */
+/* OBSOLETE */
+/* OBSOLETE CORE_ADDR */
+/* OBSOLETE d30v_call_dummy_address (void) */
+/* OBSOLETE { */
+/* OBSOLETE CORE_ADDR entry; */
+/* OBSOLETE struct minimal_symbol *sym; */
+/* OBSOLETE */
+/* OBSOLETE entry = entry_point_address (); */
+/* OBSOLETE */
+/* OBSOLETE if (entry != 0) */
+/* OBSOLETE return entry; */
+/* OBSOLETE */
+/* OBSOLETE sym = lookup_minimal_symbol ("_start", NULL, symfile_objfile); */
+/* OBSOLETE */
+/* OBSOLETE if (!sym || MSYMBOL_TYPE (sym) != mst_text) */
+/* OBSOLETE return 0; */
+/* OBSOLETE else */
+/* OBSOLETE return SYMBOL_VALUE_ADDRESS (sym); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Given a return value in `regbuf' with a type `valtype', */
+/* OBSOLETE extract and copy its value into `valbuf'. */ */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_extract_return_value (struct type *valtype, char regbuf[REGISTER_BYTES], */
+/* OBSOLETE char *valbuf) */
+/* OBSOLETE { */
+/* OBSOLETE memcpy (valbuf, regbuf + REGISTER_BYTE (2), TYPE_LENGTH (valtype)); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* The following code implements access to, and display of, the D30V's */
+/* OBSOLETE instruction trace buffer. The buffer consists of 64K or more */
+/* OBSOLETE 4-byte words of data, of which each words includes an 8-bit count, */
+/* OBSOLETE an 8-bit segment number, and a 16-bit instruction address. */
+/* OBSOLETE */
+/* OBSOLETE In theory, the trace buffer is continuously capturing instruction */
+/* OBSOLETE data that the CPU presents on its "debug bus", but in practice, the */
+/* OBSOLETE ROMified GDB stub only enables tracing when it continues or steps */
+/* OBSOLETE the program, and stops tracing when the program stops; so it */
+/* OBSOLETE actually works for GDB to read the buffer counter out of memory and */
+/* OBSOLETE then read each trace word. The counter records where the tracing */
+/* OBSOLETE stops, but there is no record of where it started, so we remember */
+/* OBSOLETE the PC when we resumed and then search backwards in the trace */
+/* OBSOLETE buffer for a word that includes that address. This is not perfect, */
+/* OBSOLETE because you will miss trace data if the resumption PC is the target */
+/* OBSOLETE of a branch. (The value of the buffer counter is semi-random, any */
+/* OBSOLETE trace data from a previous program stop is gone.) */ */
+/* OBSOLETE */
+/* OBSOLETE /* The address of the last word recorded in the trace buffer. */ */
+/* OBSOLETE */
+/* OBSOLETE #define DBBC_ADDR (0xd80000) */
+/* OBSOLETE */
+/* OBSOLETE /* The base of the trace buffer, at least for the "Board_0". */ */
+/* OBSOLETE */
+/* OBSOLETE #define TRACE_BUFFER_BASE (0xf40000) */
+/* OBSOLETE */
+/* OBSOLETE static void trace_command (char *, int); */
+/* OBSOLETE */
+/* OBSOLETE static void untrace_command (char *, int); */
+/* OBSOLETE */
+/* OBSOLETE static void trace_info (char *, int); */
+/* OBSOLETE */
+/* OBSOLETE static void tdisassemble_command (char *, int); */
+/* OBSOLETE */
+/* OBSOLETE static void display_trace (int, int); */
+/* OBSOLETE */
+/* OBSOLETE /* True when instruction traces are being collected. */ */
+/* OBSOLETE */
+/* OBSOLETE static int tracing; */
+/* OBSOLETE */
+/* OBSOLETE /* Remembered PC. */ */
+/* OBSOLETE */
+/* OBSOLETE static CORE_ADDR last_pc; */
+/* OBSOLETE */
+/* OBSOLETE /* True when trace output should be displayed whenever program stops. */ */
+/* OBSOLETE */
+/* OBSOLETE static int trace_display; */
+/* OBSOLETE */
+/* OBSOLETE /* True when trace listing should include source lines. */ */
+/* OBSOLETE */
+/* OBSOLETE static int default_trace_show_source = 1; */
+/* OBSOLETE */
+/* OBSOLETE struct trace_buffer */
+/* OBSOLETE { */
+/* OBSOLETE int size; */
+/* OBSOLETE short *counts; */
+/* OBSOLETE CORE_ADDR *addrs; */
+/* OBSOLETE } */
+/* OBSOLETE trace_data; */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE trace_command (char *args, int from_tty) */
+/* OBSOLETE { */
+/* OBSOLETE /* Clear the host-side trace buffer, allocating space if needed. */ */
+/* OBSOLETE trace_data.size = 0; */
+/* OBSOLETE if (trace_data.counts == NULL) */
+/* OBSOLETE trace_data.counts = (short *) xmalloc (65536 * sizeof (short)); */
+/* OBSOLETE if (trace_data.addrs == NULL) */
+/* OBSOLETE trace_data.addrs = (CORE_ADDR *) xmalloc (65536 * sizeof (CORE_ADDR)); */
+/* OBSOLETE */
+/* OBSOLETE tracing = 1; */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("Tracing is now on.\n"); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE untrace_command (char *args, int from_tty) */
+/* OBSOLETE { */
+/* OBSOLETE tracing = 0; */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("Tracing is now off.\n"); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE trace_info (char *args, int from_tty) */
+/* OBSOLETE { */
+/* OBSOLETE int i; */
+/* OBSOLETE */
+/* OBSOLETE if (trace_data.size) */
+/* OBSOLETE { */
+/* OBSOLETE printf_filtered ("%d entries in trace buffer:\n", trace_data.size); */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < trace_data.size; ++i) */
+/* OBSOLETE { */
+/* OBSOLETE printf_filtered ("%d: %d instruction%s at 0x%s\n", */
+/* OBSOLETE i, trace_data.counts[i], */
+/* OBSOLETE (trace_data.counts[i] == 1 ? "" : "s"), */
+/* OBSOLETE paddr_nz (trace_data.addrs[i])); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE printf_filtered ("No entries in trace buffer.\n"); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("Tracing is currently %s.\n", (tracing ? "on" : "off")); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Print the instruction at address MEMADDR in debugged memory, */
+/* OBSOLETE on STREAM. Returns length of the instruction, in bytes. */ */
+/* OBSOLETE */
+/* OBSOLETE static int */
+/* OBSOLETE print_insn (CORE_ADDR memaddr, struct ui_file *stream) */
+/* OBSOLETE { */
+/* OBSOLETE /* If there's no disassembler, something is very wrong. */ */
+/* OBSOLETE if (tm_print_insn == NULL) */
+/* OBSOLETE internal_error (__FILE__, __LINE__, */
+/* OBSOLETE "print_insn: no disassembler"); */
+/* OBSOLETE */
+/* OBSOLETE if (TARGET_BYTE_ORDER == BFD_ENDIAN_BIG) */
+/* OBSOLETE tm_print_insn_info.endian = BFD_ENDIAN_BIG; */
+/* OBSOLETE else */
+/* OBSOLETE tm_print_insn_info.endian = BFD_ENDIAN_LITTLE; */
+/* OBSOLETE return TARGET_PRINT_INSN (memaddr, &tm_print_insn_info); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_eva_prepare_to_trace (void) */
+/* OBSOLETE { */
+/* OBSOLETE if (!tracing) */
+/* OBSOLETE return; */
+/* OBSOLETE */
+/* OBSOLETE last_pc = read_register (PC_REGNUM); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Collect trace data from the target board and format it into a form */
+/* OBSOLETE more useful for display. */ */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_eva_get_trace_data (void) */
+/* OBSOLETE { */
+/* OBSOLETE int count, i, j, oldsize; */
+/* OBSOLETE int trace_addr, trace_seg, trace_cnt, next_cnt; */
+/* OBSOLETE unsigned int last_trace, trace_word, next_word; */
+/* OBSOLETE unsigned int *tmpspace; */
+/* OBSOLETE */
+/* OBSOLETE if (!tracing) */
+/* OBSOLETE return; */
+/* OBSOLETE */
+/* OBSOLETE tmpspace = xmalloc (65536 * sizeof (unsigned int)); */
+/* OBSOLETE */
+/* OBSOLETE last_trace = read_memory_unsigned_integer (DBBC_ADDR, 2) << 2; */
+/* OBSOLETE */
+/* OBSOLETE /* Collect buffer contents from the target, stopping when we reach */
+/* OBSOLETE the word recorded when execution resumed. */ */
+/* OBSOLETE */
+/* OBSOLETE count = 0; */
+/* OBSOLETE while (last_trace > 0) */
+/* OBSOLETE { */
+/* OBSOLETE QUIT; */
+/* OBSOLETE trace_word = */
+/* OBSOLETE read_memory_unsigned_integer (TRACE_BUFFER_BASE + last_trace, 4); */
+/* OBSOLETE trace_addr = trace_word & 0xffff; */
+/* OBSOLETE last_trace -= 4; */
+/* OBSOLETE /* Ignore an apparently nonsensical entry. */ */
+/* OBSOLETE if (trace_addr == 0xffd5) */
+/* OBSOLETE continue; */
+/* OBSOLETE tmpspace[count++] = trace_word; */
+/* OBSOLETE if (trace_addr == last_pc) */
+/* OBSOLETE break; */
+/* OBSOLETE if (count > 65535) */
+/* OBSOLETE break; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Move the data to the host-side trace buffer, adjusting counts to */
+/* OBSOLETE include the last instruction executed and transforming the address */
+/* OBSOLETE into something that GDB likes. */ */
+/* OBSOLETE */
+/* OBSOLETE for (i = 0; i < count; ++i) */
+/* OBSOLETE { */
+/* OBSOLETE trace_word = tmpspace[i]; */
+/* OBSOLETE next_word = ((i == 0) ? 0 : tmpspace[i - 1]); */
+/* OBSOLETE trace_addr = trace_word & 0xffff; */
+/* OBSOLETE next_cnt = (next_word >> 24) & 0xff; */
+/* OBSOLETE j = trace_data.size + count - i - 1; */
+/* OBSOLETE trace_data.addrs[j] = (trace_addr << 2) + 0x1000000; */
+/* OBSOLETE trace_data.counts[j] = next_cnt + 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE oldsize = trace_data.size; */
+/* OBSOLETE trace_data.size += count; */
+/* OBSOLETE */
+/* OBSOLETE xfree (tmpspace); */
+/* OBSOLETE */
+/* OBSOLETE if (trace_display) */
+/* OBSOLETE display_trace (oldsize, trace_data.size); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE tdisassemble_command (char *arg, int from_tty) */
+/* OBSOLETE { */
+/* OBSOLETE int i, count; */
+/* OBSOLETE CORE_ADDR low, high; */
+/* OBSOLETE char *space_index; */
+/* OBSOLETE */
+/* OBSOLETE if (!arg) */
+/* OBSOLETE { */
+/* OBSOLETE low = 0; */
+/* OBSOLETE high = trace_data.size; */
+/* OBSOLETE } */
+/* OBSOLETE else if (!(space_index = (char *) strchr (arg, ' '))) */
+/* OBSOLETE { */
+/* OBSOLETE low = parse_and_eval_address (arg); */
+/* OBSOLETE high = low + 5; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE /* Two arguments. */ */
+/* OBSOLETE *space_index = '\0'; */
+/* OBSOLETE low = parse_and_eval_address (arg); */
+/* OBSOLETE high = parse_and_eval_address (space_index + 1); */
+/* OBSOLETE if (high < low) */
+/* OBSOLETE high = low; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("Dump of trace from %s to %s:\n", */
+/* OBSOLETE paddr_u (low), */
+/* OBSOLETE paddr_u (high)); */
+/* OBSOLETE */
+/* OBSOLETE display_trace (low, high); */
+/* OBSOLETE */
+/* OBSOLETE printf_filtered ("End of trace dump.\n"); */
+/* OBSOLETE gdb_flush (gdb_stdout); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE display_trace (int low, int high) */
+/* OBSOLETE { */
+/* OBSOLETE int i, count, trace_show_source, first, suppress; */
+/* OBSOLETE CORE_ADDR next_address; */
+/* OBSOLETE */
+/* OBSOLETE trace_show_source = default_trace_show_source; */
+/* OBSOLETE if (!have_full_symbols () && !have_partial_symbols ()) */
+/* OBSOLETE { */
+/* OBSOLETE trace_show_source = 0; */
+/* OBSOLETE printf_filtered ("No symbol table is loaded. Use the \"file\" command.\n"); */
+/* OBSOLETE printf_filtered ("Trace will not display any source.\n"); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE first = 1; */
+/* OBSOLETE suppress = 0; */
+/* OBSOLETE for (i = low; i < high; ++i) */
+/* OBSOLETE { */
+/* OBSOLETE next_address = trace_data.addrs[i]; */
+/* OBSOLETE count = trace_data.counts[i]; */
+/* OBSOLETE while (count-- > 0) */
+/* OBSOLETE { */
+/* OBSOLETE QUIT; */
+/* OBSOLETE if (trace_show_source) */
+/* OBSOLETE { */
+/* OBSOLETE struct symtab_and_line sal, sal_prev; */
+/* OBSOLETE */
+/* OBSOLETE sal_prev = find_pc_line (next_address - 4, 0); */
+/* OBSOLETE sal = find_pc_line (next_address, 0); */
+/* OBSOLETE */
+/* OBSOLETE if (sal.symtab) */
+/* OBSOLETE { */
+/* OBSOLETE if (first || sal.line != sal_prev.line) */
+/* OBSOLETE print_source_lines (sal.symtab, sal.line, sal.line + 1, 0); */
+/* OBSOLETE suppress = 0; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE if (!suppress) */
+/* OBSOLETE /* FIXME-32x64--assumes sal.pc fits in long. */ */
+/* OBSOLETE printf_filtered ("No source file for address %s.\n", */
+/* OBSOLETE local_hex_string ((unsigned long) sal.pc)); */
+/* OBSOLETE suppress = 1; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE first = 0; */
+/* OBSOLETE print_address (next_address, gdb_stdout); */
+/* OBSOLETE printf_filtered (":"); */
+/* OBSOLETE printf_filtered ("\t"); */
+/* OBSOLETE wrap_here (" "); */
+/* OBSOLETE next_address = next_address + print_insn (next_address, gdb_stdout); */
+/* OBSOLETE printf_filtered ("\n"); */
+/* OBSOLETE gdb_flush (gdb_stdout); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE extern void (*target_resume_hook) (void); */
+/* OBSOLETE extern void (*target_wait_loop_hook) (void); */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE _initialize_d30v_tdep (void) */
+/* OBSOLETE { */
+/* OBSOLETE tm_print_insn = print_insn_d30v; */
+/* OBSOLETE */
+/* OBSOLETE target_resume_hook = d30v_eva_prepare_to_trace; */
+/* OBSOLETE target_wait_loop_hook = d30v_eva_get_trace_data; */
+/* OBSOLETE */
+/* OBSOLETE add_info ("flags", print_flags_command, "Print d30v flags."); */
+/* OBSOLETE */
+/* OBSOLETE add_com ("trace", class_support, trace_command, */
+/* OBSOLETE "Enable tracing of instruction execution."); */
+/* OBSOLETE */
+/* OBSOLETE add_com ("untrace", class_support, untrace_command, */
+/* OBSOLETE "Disable tracing of instruction execution."); */
+/* OBSOLETE */
+/* OBSOLETE add_com ("tdisassemble", class_vars, tdisassemble_command, */
+/* OBSOLETE "Disassemble the trace buffer.\n\ */
+/* OBSOLETE Two optional arguments specify a range of trace buffer entries\n\ */
+/* OBSOLETE as reported by info trace (NOT addresses!)."); */
+/* OBSOLETE */
+/* OBSOLETE add_info ("trace", trace_info, */
+/* OBSOLETE "Display info about the trace data buffer."); */
+/* OBSOLETE */
+/* OBSOLETE add_show_from_set (add_set_cmd ("tracedisplay", no_class, */
+/* OBSOLETE var_integer, (char *) &trace_display, */
+/* OBSOLETE "Set automatic display of trace.\n", &setlist), */
+/* OBSOLETE &showlist); */
+/* OBSOLETE add_show_from_set (add_set_cmd ("tracesource", no_class, */
+/* OBSOLETE var_integer, (char *) &default_trace_show_source, */
+/* OBSOLETE "Set display of source code with trace.\n", &setlist), */
+/* OBSOLETE &showlist); */
+/* OBSOLETE */
+/* OBSOLETE } */
diff --git a/sim/ChangeLog b/sim/ChangeLog
index a9f73ae..2a01ae9 100644
--- a/sim/ChangeLog
+++ b/sim/ChangeLog
@@ -1,3 +1,8 @@
+2002-07-13 Andrew Cagney <ac131313@redhat.com>
+
+ * configure.in (extra_subdirs): Mark d30v-*-* as obsolete.
+ * configure: Re-generate.
+
2002-06-16 Andrew Cagney <ac131313@redhat.com>
* Makefile.in (autoconf-changelog autoheader-changelog): Let name,
diff --git a/sim/common/ChangeLog b/sim/common/ChangeLog
index 84db793..d8a597d 100644
--- a/sim/common/ChangeLog
+++ b/sim/common/ChangeLog
@@ -1,3 +1,8 @@
+2002-07-13 Andrew Cagney <ac131313@redhat.com>
+
+ * gennltvals.sh (dir): Mark d30v as obsolete.
+ * nltvals.def: Remove d30v.
+
2002-06-17 Andrew Cagney <cagney@redhat.com>
* hw-events.c (hw_event_queue_schedule): Initialize `dummy'.
diff --git a/sim/common/gennltvals.sh b/sim/common/gennltvals.sh
index 40ca5c7..fefd880 100644
--- a/sim/common/gennltvals.sh
+++ b/sim/common/gennltvals.sh
@@ -33,9 +33,9 @@ dir=newlib/libc/sys/d10v/sys target=d10v
$shell ${srccom}/gentvals.sh $target sys ${srcroot}/$dir \
"syscall.h" 'SYS_[_A-Za-z0-9]*' "${cpp}"
-dir=libgloss target=d30v
-$shell ${srccom}/gentvals.sh $target sys ${srcroot}/$dir \
- "syscall.h" 'SYS_[_A-Za-z0-9]*' "${cpp}"
+# OBSOLETE dir=libgloss target=d30v
+# OBSOLETE $shell ${srccom}/gentvals.sh $target sys ${srcroot}/$dir \
+# OBSOLETE "syscall.h" 'SYS_[_A-Za-z0-9]*' "${cpp}"
dir=libgloss target=fr30
$shell ${srccom}/gentvals.sh $target sys ${srcroot}/$dir \
diff --git a/sim/common/nltvals.def b/sim/common/nltvals.def
index b5e82fc..14093ae 100644
--- a/sim/common/nltvals.def
+++ b/sim/common/nltvals.def
@@ -214,30 +214,6 @@
/* end d10v sys target macros */
#endif
#endif
-#ifdef NL_TARGET_d30v
-#ifdef sys_defs
-/* from syscall.h */
-/* begin d30v sys target macros */
- { "SYS_argv", 13 },
- { "SYS_argvlen", 12 },
- { "SYS_chdir", 14 },
- { "SYS_chmod", 16 },
- { "SYS_close", 3 },
- { "SYS_exit", 1 },
- { "SYS_fstat", 10 },
- { "SYS_getpid", 8 },
- { "SYS_kill", 9 },
- { "SYS_lseek", 6 },
- { "SYS_open", 2 },
- { "SYS_read", 4 },
- { "SYS_stat", 15 },
- { "SYS_time", 18 },
- { "SYS_unlink", 7 },
- { "SYS_utime", 17 },
- { "SYS_write", 5 },
-/* end d30v sys target macros */
-#endif
-#endif
#ifdef NL_TARGET_fr30
#ifdef sys_defs
/* from syscall.h */
diff --git a/sim/configure b/sim/configure
index b8029dd..f26af8b 100755
--- a/sim/configure
+++ b/sim/configure
@@ -1420,11 +1420,11 @@ case "${target}" in
extra_subdirs="${extra_subdirs} testsuite"
;;
d10v-*-*) sim_target=d10v ;;
- d30v-*-*)
- sim_target=d30v
- only_if_gcc=yes
- extra_subdirs="${extra_subdirs} igen"
- ;;
+# OBSOLETE d30v-*-*)
+# OBSOLETE sim_target=d30v
+# OBSOLETE only_if_gcc=yes
+# OBSOLETE extra_subdirs="${extra_subdirs} igen"
+# OBSOLETE ;;
fr30-*-*) sim_target=fr30 ;;
h8300*-*-*) sim_target=h8300 ;;
h8500-*-*) sim_target=h8500 ;;
diff --git a/sim/configure.in b/sim/configure.in
index e48ae36..854ee63 100644
--- a/sim/configure.in
+++ b/sim/configure.in
@@ -59,11 +59,11 @@ case "${target}" in
extra_subdirs="${extra_subdirs} testsuite"
;;
d10v-*-*) sim_target=d10v ;;
- d30v-*-*)
- sim_target=d30v
- only_if_gcc=yes
- extra_subdirs="${extra_subdirs} igen"
- ;;
+# OBSOLETE d30v-*-*)
+# OBSOLETE sim_target=d30v
+# OBSOLETE only_if_gcc=yes
+# OBSOLETE extra_subdirs="${extra_subdirs} igen"
+# OBSOLETE ;;
fr30-*-*) sim_target=fr30 ;;
h8300*-*-*) sim_target=h8300 ;;
h8500-*-*) sim_target=h8500 ;;
diff --git a/sim/d30v/ChangeLog b/sim/d30v/ChangeLog
index 2c3e1c4..d1c1df5 100644
--- a/sim/d30v/ChangeLog
+++ b/sim/d30v/ChangeLog
@@ -1,3 +1,9 @@
+2002-07-13 Andrew Cagney <ac131313@redhat.com>
+
+ * cpu.h: Mark file obsolete.
+ * sim-main.h, sim-calls.c, engine.c, cpu.c, alu.h: Ditto.
+ * dc-short, ic-d30v, d30v-insns, Makefile.in: Ditto.
+
2002-06-16 Andrew Cagney <ac131313@redhat.com>
* configure: Regenerated to track ../common/aclocal.m4 changes.
diff --git a/sim/d30v/Makefile.in b/sim/d30v/Makefile.in
index d563be8..76afe20 100644
--- a/sim/d30v/Makefile.in
+++ b/sim/d30v/Makefile.in
@@ -1,217 +1,217 @@
-# Mitsubishi Electric Corp. D30V Simulator.
-# Copyright (C) 1997, Free Software Foundation, Inc.
-# Contributed by Cygnus Support.
-#
-# This file is part of GDB, the GNU debugger.
-#
-# This program is free software; you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation; either version 2, or (at your option)
-# any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License along
-# with this program; if not, write to the Free Software Foundation, Inc.,
-# 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
-
-M4= @M4@
-
-
-## COMMON_PRE_CONFIG_FRAG
-
-# These variables are given default values in COMMON_PRE_CONFIG_FRAG.
-# We override the ones we need to here.
-# Not all of these need to be mentioned, only the necessary ones.
-
-# List of object files, less common parts.
-SIM_OBJS = \
- $(SIM_NEW_COMMON_OBJS) \
- engine.o cpu.o \
- s_support.o l_support.o \
- s_idecode.o l_idecode.o \
- s_semantics.o l_semantics.o \
- sim-calls.o itable.o \
- sim-hload.o \
- sim-hrw.o \
- sim-engine.o \
- sim-stop.o \
- sim-reason.o \
- sim-resume.o
-
-# List of extra dependencies.
-# Generally this consists of simulator specific files included by sim-main.h.
-SIM_EXTRA_DEPS = itable.h s_idecode.h l_idecode.h cpu.h alu.h
-
-# List of generators
-SIM_GEN=tmp-igen
-
-# List of extra flags to always pass to $(CC).
-SIM_EXTRA_CFLAGS = @sim_trapdump@
-
-# List of main object files for `run'.
-SIM_RUN_OBJS = nrun.o
-
-# Dependency of `clean' to clean any extra files.
-SIM_EXTRA_CLEAN = clean-igen
-
-# This selects the d30v newlib/libgloss syscall definitions.
-NL_TARGET=-DNL_TARGET_d30v
-
-## COMMON_POST_CONFIG_FRAG
-
-MAIN_INCLUDE_DEPS = tconfig.h
-INCLUDE_DEPS = $(MAIN_INCLUDE_DEPS) $(SIM_EXTRA_DEPS)
-
-# Rules need to build $(SIM_OBJS), plus whatever else the target wants.
-
-# ... target specific rules ...
-
-# Filter to eliminate known warnings
-FILTER = 2>&1 | egrep -v "Discarding instruction|instruction field of type \`compute\' changed to \`cache\'|Instruction format is not 64 bits wide"
-
-BUILT_SRC_FROM_IGEN = \
- s_icache.h \
- s_icache.c \
- s_idecode.h \
- s_idecode.c \
- s_semantics.h \
- s_semantics.c \
- s_model.h \
- s_model.c \
- s_support.h \
- s_support.c \
- l_icache.h \
- l_icache.c \
- l_idecode.h \
- l_idecode.c \
- l_semantics.h \
- l_semantics.c \
- l_model.h \
- l_model.c \
- l_support.h \
- l_support.c \
- itable.h itable.c
-$(BUILT_SRC_FROM_IGEN): tmp-igen
-#
-
-.PHONY: clean-igen
-clean-igen:
- rm -f $(BUILT_SRC_FROM_IGEN)
- rm -f tmp-igen tmp-insns
-
-../igen/igen:
- cd ../igen && $(MAKE)
-
-tmp-igen: $(srcdir)/dc-short $(srcdir)/d30v-insns $(srcdir)/ic-d30v ../igen/igen
- cd ../igen && $(MAKE)
- echo "# 1 \"$(srcdir)/d30v-insns\"" > tmp-insns
- $(M4) < $(srcdir)/d30v-insns >> tmp-insns
- @echo "Generating short version ..."
- ../igen/igen \
- -G gen-zero-r0 \
- -G direct-access \
- -G default-nia-minus-one \
- -G conditional-issue \
- -G verify-slot \
- -G field-widths \
- -F short,emul \
- -B 32 \
- -P "s_" \
- -o $(srcdir)/dc-short \
- -k $(srcdir)/ic-d30v \
- -n $(srcdir)/d30v-insns -i tmp-insns \
- -n s_icache.h -hc tmp-icache.h \
- -n s_icache.c -c tmp-icache.c \
- -n s_semantics.h -hs tmp-semantics.h \
- -n s_semantics.c -s tmp-semantics.c \
- -n s_idecode.h -hd tmp-idecode.h \
- -n s_idecode.c -d tmp-idecode.c \
- -n s_model.h -hm tmp-model.h \
- -n s_model.c -m tmp-model.c \
- -n s_support.h -hf tmp-support.h \
- -n s_support.c -f tmp-support.c $(FILTER)
- $(srcdir)/../../move-if-change tmp-icache.h s_icache.h
- $(srcdir)/../../move-if-change tmp-icache.c s_icache.c
- $(srcdir)/../../move-if-change tmp-idecode.h s_idecode.h
- $(srcdir)/../../move-if-change tmp-idecode.c s_idecode.c
- $(srcdir)/../../move-if-change tmp-semantics.h s_semantics.h
- $(srcdir)/../../move-if-change tmp-semantics.c s_semantics.c
- $(srcdir)/../../move-if-change tmp-model.h s_model.h
- $(srcdir)/../../move-if-change tmp-model.c s_model.c
- $(srcdir)/../../move-if-change tmp-support.h s_support.h
- $(srcdir)/../../move-if-change tmp-support.c s_support.c
- @echo "Generating long version ..."
- ../igen/igen \
- -G gen-zero-r0 \
- -G direct-access \
- -G default-nia-minus-one \
- -G conditional-issue \
- -G field-widths \
- -F long,emul \
- -B 64 \
- -P "l_" \
- -o $(srcdir)/dc-short \
- -k $(srcdir)/ic-d30v \
- -i tmp-insns \
- -n l_icache.h -hc tmp-icache.h \
- -n l_icache.c -c tmp-icache.c \
- -n l_semantics.h -hs tmp-semantics.h \
- -n l_semantics.c -s tmp-semantics.c \
- -n l_idecode.h -hd tmp-idecode.h \
- -n l_idecode.c -d tmp-idecode.c \
- -n l_model.h -hm tmp-model.h \
- -n l_model.c -m tmp-model.c \
- -n l_support.h -hf tmp-support.h \
- -n l_support.c -f tmp-support.c $(FILTER)
- $(srcdir)/../../move-if-change tmp-icache.h l_icache.h
- $(srcdir)/../../move-if-change tmp-icache.c l_icache.c
- $(srcdir)/../../move-if-change tmp-idecode.h l_idecode.h
- $(srcdir)/../../move-if-change tmp-idecode.c l_idecode.c
- $(srcdir)/../../move-if-change tmp-semantics.h l_semantics.h
- $(srcdir)/../../move-if-change tmp-semantics.c l_semantics.c
- $(srcdir)/../../move-if-change tmp-model.h l_model.h
- $(srcdir)/../../move-if-change tmp-model.c l_model.c
- $(srcdir)/../../move-if-change tmp-support.h l_support.h
- $(srcdir)/../../move-if-change tmp-support.c l_support.c
- @echo "Generating instruction database ..."
- ../igen/igen \
- -G field-widths \
- -F short,long,emul \
- -B 64 \
- -o $(srcdir)/dc-short \
- -k $(srcdir)/ic-d30v \
- -i tmp-insns \
- -n itable.h -ht tmp-itable.h \
- -n itable.c -t tmp-itable.c $(FILTER)
- $(srcdir)/../../move-if-change tmp-itable.h itable.h
- $(srcdir)/../../move-if-change tmp-itable.c itable.c
- touch tmp-igen
-
-ENGINE_H = \
- sim-main.h \
- $(srcdir)/../common/sim-basics.h \
- config.h \
- $(srcdir)/../common/sim-config.h \
- $(srcdir)/../common/sim-inline.h \
- $(srcdir)/../common/sim-types.h \
- $(srcdir)/../common/sim-bits.h \
- $(srcdir)/../common/sim-endian.h \
- itable.h \
- l_idecode.h s_idecode.h \
- cpu.h \
- alu.h \
- $(srcdir)/../common/sim-alu.h \
- $(srcdir)/../common/sim-core.h \
- $(srcdir)/../common/sim-events.h \
-
-engine.o: engine.c $(ENGINE_H)
-sim-calls.o: sim-calls.c $(ENGINE_H) $(srcdir)/../common/sim-utils.h $(srcdir)/../common/sim-options.h
-cpu.o: cpu.c $(ENGINE_H)
-s_support.o: s_support.c $(ENGINE_H)
-l_support.o: l_support.c $(ENGINE_H)
-s_semantics.o: s_semantics.c $(ENGINE_H)
-l_semantics.o: l_semantics.c $(ENGINE_H)
+# OBSOLETE # Mitsubishi Electric Corp. D30V Simulator.
+# OBSOLETE # Copyright (C) 1997, Free Software Foundation, Inc.
+# OBSOLETE # Contributed by Cygnus Support.
+# OBSOLETE #
+# OBSOLETE # This file is part of GDB, the GNU debugger.
+# OBSOLETE #
+# OBSOLETE # This program is free software; you can redistribute it and/or modify
+# OBSOLETE # it under the terms of the GNU General Public License as published by
+# OBSOLETE # the Free Software Foundation; either version 2, or (at your option)
+# OBSOLETE # any later version.
+# OBSOLETE #
+# OBSOLETE # This program is distributed in the hope that it will be useful,
+# OBSOLETE # but WITHOUT ANY WARRANTY; without even the implied warranty of
+# OBSOLETE # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# OBSOLETE # GNU General Public License for more details.
+# OBSOLETE #
+# OBSOLETE # You should have received a copy of the GNU General Public License along
+# OBSOLETE # with this program; if not, write to the Free Software Foundation, Inc.,
+# OBSOLETE # 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
+# OBSOLETE
+# OBSOLETE M4= @M4@
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE ## COMMON_PRE_CONFIG_FRAG
+# OBSOLETE
+# OBSOLETE # These variables are given default values in COMMON_PRE_CONFIG_FRAG.
+# OBSOLETE # We override the ones we need to here.
+# OBSOLETE # Not all of these need to be mentioned, only the necessary ones.
+# OBSOLETE
+# OBSOLETE # List of object files, less common parts.
+# OBSOLETE SIM_OBJS = \
+# OBSOLETE $(SIM_NEW_COMMON_OBJS) \
+# OBSOLETE engine.o cpu.o \
+# OBSOLETE s_support.o l_support.o \
+# OBSOLETE s_idecode.o l_idecode.o \
+# OBSOLETE s_semantics.o l_semantics.o \
+# OBSOLETE sim-calls.o itable.o \
+# OBSOLETE sim-hload.o \
+# OBSOLETE sim-hrw.o \
+# OBSOLETE sim-engine.o \
+# OBSOLETE sim-stop.o \
+# OBSOLETE sim-reason.o \
+# OBSOLETE sim-resume.o
+# OBSOLETE
+# OBSOLETE # List of extra dependencies.
+# OBSOLETE # Generally this consists of simulator specific files included by sim-main.h.
+# OBSOLETE SIM_EXTRA_DEPS = itable.h s_idecode.h l_idecode.h cpu.h alu.h
+# OBSOLETE
+# OBSOLETE # List of generators
+# OBSOLETE SIM_GEN=tmp-igen
+# OBSOLETE
+# OBSOLETE # List of extra flags to always pass to $(CC).
+# OBSOLETE SIM_EXTRA_CFLAGS = @sim_trapdump@
+# OBSOLETE
+# OBSOLETE # List of main object files for `run'.
+# OBSOLETE SIM_RUN_OBJS = nrun.o
+# OBSOLETE
+# OBSOLETE # Dependency of `clean' to clean any extra files.
+# OBSOLETE SIM_EXTRA_CLEAN = clean-igen
+# OBSOLETE
+# OBSOLETE # This selects the d30v newlib/libgloss syscall definitions.
+# OBSOLETE NL_TARGET=-DNL_TARGET_d30v
+# OBSOLETE
+# OBSOLETE ## COMMON_POST_CONFIG_FRAG
+# OBSOLETE
+# OBSOLETE MAIN_INCLUDE_DEPS = tconfig.h
+# OBSOLETE INCLUDE_DEPS = $(MAIN_INCLUDE_DEPS) $(SIM_EXTRA_DEPS)
+# OBSOLETE
+# OBSOLETE # Rules need to build $(SIM_OBJS), plus whatever else the target wants.
+# OBSOLETE
+# OBSOLETE # ... target specific rules ...
+# OBSOLETE
+# OBSOLETE # Filter to eliminate known warnings
+# OBSOLETE FILTER = 2>&1 | egrep -v "Discarding instruction|instruction field of type \`compute\' changed to \`cache\'|Instruction format is not 64 bits wide"
+# OBSOLETE
+# OBSOLETE BUILT_SRC_FROM_IGEN = \
+# OBSOLETE s_icache.h \
+# OBSOLETE s_icache.c \
+# OBSOLETE s_idecode.h \
+# OBSOLETE s_idecode.c \
+# OBSOLETE s_semantics.h \
+# OBSOLETE s_semantics.c \
+# OBSOLETE s_model.h \
+# OBSOLETE s_model.c \
+# OBSOLETE s_support.h \
+# OBSOLETE s_support.c \
+# OBSOLETE l_icache.h \
+# OBSOLETE l_icache.c \
+# OBSOLETE l_idecode.h \
+# OBSOLETE l_idecode.c \
+# OBSOLETE l_semantics.h \
+# OBSOLETE l_semantics.c \
+# OBSOLETE l_model.h \
+# OBSOLETE l_model.c \
+# OBSOLETE l_support.h \
+# OBSOLETE l_support.c \
+# OBSOLETE itable.h itable.c
+# OBSOLETE $(BUILT_SRC_FROM_IGEN): tmp-igen
+# OBSOLETE #
+# OBSOLETE
+# OBSOLETE .PHONY: clean-igen
+# OBSOLETE clean-igen:
+# OBSOLETE rm -f $(BUILT_SRC_FROM_IGEN)
+# OBSOLETE rm -f tmp-igen tmp-insns
+# OBSOLETE
+# OBSOLETE ../igen/igen:
+# OBSOLETE cd ../igen && $(MAKE)
+# OBSOLETE
+# OBSOLETE tmp-igen: $(srcdir)/dc-short $(srcdir)/d30v-insns $(srcdir)/ic-d30v ../igen/igen
+# OBSOLETE cd ../igen && $(MAKE)
+# OBSOLETE echo "# 1 \"$(srcdir)/d30v-insns\"" > tmp-insns
+# OBSOLETE $(M4) < $(srcdir)/d30v-insns >> tmp-insns
+# OBSOLETE @echo "Generating short version ..."
+# OBSOLETE ../igen/igen \
+# OBSOLETE -G gen-zero-r0 \
+# OBSOLETE -G direct-access \
+# OBSOLETE -G default-nia-minus-one \
+# OBSOLETE -G conditional-issue \
+# OBSOLETE -G verify-slot \
+# OBSOLETE -G field-widths \
+# OBSOLETE -F short,emul \
+# OBSOLETE -B 32 \
+# OBSOLETE -P "s_" \
+# OBSOLETE -o $(srcdir)/dc-short \
+# OBSOLETE -k $(srcdir)/ic-d30v \
+# OBSOLETE -n $(srcdir)/d30v-insns -i tmp-insns \
+# OBSOLETE -n s_icache.h -hc tmp-icache.h \
+# OBSOLETE -n s_icache.c -c tmp-icache.c \
+# OBSOLETE -n s_semantics.h -hs tmp-semantics.h \
+# OBSOLETE -n s_semantics.c -s tmp-semantics.c \
+# OBSOLETE -n s_idecode.h -hd tmp-idecode.h \
+# OBSOLETE -n s_idecode.c -d tmp-idecode.c \
+# OBSOLETE -n s_model.h -hm tmp-model.h \
+# OBSOLETE -n s_model.c -m tmp-model.c \
+# OBSOLETE -n s_support.h -hf tmp-support.h \
+# OBSOLETE -n s_support.c -f tmp-support.c $(FILTER)
+# OBSOLETE $(srcdir)/../../move-if-change tmp-icache.h s_icache.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-icache.c s_icache.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-idecode.h s_idecode.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-idecode.c s_idecode.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-semantics.h s_semantics.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-semantics.c s_semantics.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-model.h s_model.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-model.c s_model.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-support.h s_support.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-support.c s_support.c
+# OBSOLETE @echo "Generating long version ..."
+# OBSOLETE ../igen/igen \
+# OBSOLETE -G gen-zero-r0 \
+# OBSOLETE -G direct-access \
+# OBSOLETE -G default-nia-minus-one \
+# OBSOLETE -G conditional-issue \
+# OBSOLETE -G field-widths \
+# OBSOLETE -F long,emul \
+# OBSOLETE -B 64 \
+# OBSOLETE -P "l_" \
+# OBSOLETE -o $(srcdir)/dc-short \
+# OBSOLETE -k $(srcdir)/ic-d30v \
+# OBSOLETE -i tmp-insns \
+# OBSOLETE -n l_icache.h -hc tmp-icache.h \
+# OBSOLETE -n l_icache.c -c tmp-icache.c \
+# OBSOLETE -n l_semantics.h -hs tmp-semantics.h \
+# OBSOLETE -n l_semantics.c -s tmp-semantics.c \
+# OBSOLETE -n l_idecode.h -hd tmp-idecode.h \
+# OBSOLETE -n l_idecode.c -d tmp-idecode.c \
+# OBSOLETE -n l_model.h -hm tmp-model.h \
+# OBSOLETE -n l_model.c -m tmp-model.c \
+# OBSOLETE -n l_support.h -hf tmp-support.h \
+# OBSOLETE -n l_support.c -f tmp-support.c $(FILTER)
+# OBSOLETE $(srcdir)/../../move-if-change tmp-icache.h l_icache.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-icache.c l_icache.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-idecode.h l_idecode.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-idecode.c l_idecode.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-semantics.h l_semantics.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-semantics.c l_semantics.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-model.h l_model.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-model.c l_model.c
+# OBSOLETE $(srcdir)/../../move-if-change tmp-support.h l_support.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-support.c l_support.c
+# OBSOLETE @echo "Generating instruction database ..."
+# OBSOLETE ../igen/igen \
+# OBSOLETE -G field-widths \
+# OBSOLETE -F short,long,emul \
+# OBSOLETE -B 64 \
+# OBSOLETE -o $(srcdir)/dc-short \
+# OBSOLETE -k $(srcdir)/ic-d30v \
+# OBSOLETE -i tmp-insns \
+# OBSOLETE -n itable.h -ht tmp-itable.h \
+# OBSOLETE -n itable.c -t tmp-itable.c $(FILTER)
+# OBSOLETE $(srcdir)/../../move-if-change tmp-itable.h itable.h
+# OBSOLETE $(srcdir)/../../move-if-change tmp-itable.c itable.c
+# OBSOLETE touch tmp-igen
+# OBSOLETE
+# OBSOLETE ENGINE_H = \
+# OBSOLETE sim-main.h \
+# OBSOLETE $(srcdir)/../common/sim-basics.h \
+# OBSOLETE config.h \
+# OBSOLETE $(srcdir)/../common/sim-config.h \
+# OBSOLETE $(srcdir)/../common/sim-inline.h \
+# OBSOLETE $(srcdir)/../common/sim-types.h \
+# OBSOLETE $(srcdir)/../common/sim-bits.h \
+# OBSOLETE $(srcdir)/../common/sim-endian.h \
+# OBSOLETE itable.h \
+# OBSOLETE l_idecode.h s_idecode.h \
+# OBSOLETE cpu.h \
+# OBSOLETE alu.h \
+# OBSOLETE $(srcdir)/../common/sim-alu.h \
+# OBSOLETE $(srcdir)/../common/sim-core.h \
+# OBSOLETE $(srcdir)/../common/sim-events.h \
+# OBSOLETE
+# OBSOLETE engine.o: engine.c $(ENGINE_H)
+# OBSOLETE sim-calls.o: sim-calls.c $(ENGINE_H) $(srcdir)/../common/sim-utils.h $(srcdir)/../common/sim-options.h
+# OBSOLETE cpu.o: cpu.c $(ENGINE_H)
+# OBSOLETE s_support.o: s_support.c $(ENGINE_H)
+# OBSOLETE l_support.o: l_support.c $(ENGINE_H)
+# OBSOLETE s_semantics.o: s_semantics.c $(ENGINE_H)
+# OBSOLETE l_semantics.o: l_semantics.c $(ENGINE_H)
diff --git a/sim/d30v/alu.h b/sim/d30v/alu.h
index d39ee3f..5605ce2 100644
--- a/sim/d30v/alu.h
+++ b/sim/d30v/alu.h
@@ -1,106 +1,106 @@
-/* Mitsubishi Electric Corp. D30V Simulator.
- Copyright (C) 1997, Free Software Foundation, Inc.
- Contributed by Cygnus Support.
-
-This file is part of GDB, the GNU debugger.
-
-This program is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2, or (at your option)
-any later version.
-
-This program is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License along
-with this program; if not, write to the Free Software Foundation, Inc.,
-59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
-
-
-#ifndef _D30V_ALU_H_
-#define _D30V_ALU_H_
-
-#define ALU_CARRY (PSW_VAL(PSW_C) != 0)
-
-#include "sim-alu.h"
-
-#define ALU16_END(TARG, HIGH) \
-{ \
- unsigned32 mask, value; \
- if (ALU16_HAD_OVERFLOW) { \
- mask = BIT32 (PSW_V) | BIT32 (PSW_VA) | BIT32 (PSW_C); \
- value = BIT32 (PSW_V) | BIT32 (PSW_VA); \
- } \
- else { \
- mask = BIT32 (PSW_V) | BIT32 (PSW_C); \
- value = 0; \
- } \
- if (ALU16_HAD_CARRY_BORROW) \
- value |= BIT32 (PSW_C); \
- if (HIGH) \
- WRITE32_QUEUE_MASK (TARG, ALU16_OVERFLOW_RESULT<<16, 0xffff0000); \
- else \
- WRITE32_QUEUE_MASK (TARG, ALU16_OVERFLOW_RESULT, 0x0000ffff); \
- WRITE32_QUEUE_MASK (&PSW, value, mask); \
-}
-
-#define ALU32_END(TARG) \
-{ \
- unsigned32 mask, value; \
- if (ALU32_HAD_OVERFLOW) { \
- mask = BIT32 (PSW_V) | BIT32 (PSW_VA) | BIT32 (PSW_C); \
- value = BIT32 (PSW_V) | BIT32 (PSW_VA); \
- } \
- else { \
- mask = BIT32 (PSW_V) | BIT32 (PSW_C); \
- value = 0; \
- } \
- if (ALU32_HAD_CARRY_BORROW) \
- value |= BIT32 (PSW_C); \
- WRITE32_QUEUE (TARG, ALU32_OVERFLOW_RESULT); \
- WRITE32_QUEUE_MASK (&PSW, value, mask); \
-}
-
-#define ALU_END(TARG) ALU32_END(TARG)
-
-
-/* PSW & Flag manipulation */
-
-#define PSW_SET(BIT,VAL) BLIT32(PSW, (BIT), (VAL))
-#define PSW_VAL(BIT) EXTRACTED32(PSW, (BIT), (BIT))
-
-#define PSW_F(FLAG) (17 + ((FLAG) % 8) * 2)
-#define PSW_FLAG_SET(FLAG,VAL) PSW_SET(PSW_F(FLAG), VAL)
-#define PSW_FLAG_VAL(FLAG) PSW_VAL(PSW_F(FLAG))
-
-#define PSW_SET_QUEUE(BIT,VAL) \
-do { \
- unsigned32 mask = BIT32 (BIT); \
- unsigned32 bitval = (VAL) ? mask : 0; \
- WRITE32_QUEUE_MASK (&PSW, bitval, mask); \
-} while (0)
-
-#define PSW_FLAG_SET_QUEUE(FLAG,VAL) \
-do { \
- unsigned32 mask = BIT32 (PSW_F (FLAG)); \
- unsigned32 bitval = (VAL) ? mask : 0; \
- WRITE32_QUEUE_MASK (&PSW, bitval, mask); \
-} while (0)
-
-/* Bring data in from the cold */
-
-#define IMEM(EA) \
-(sim_core_read_8(STATE_CPU (sd, 0), cia, exec_map, (EA)))
-
-#define MEM(SIGN, EA, NR_BYTES) \
-((SIGN##_##NR_BYTES) sim_core_read_unaligned_##NR_BYTES(STATE_CPU (sd, 0), cia, read_map, (EA)))
-
-#define STORE(EA, NR_BYTES, VAL) \
-do { \
- sim_core_write_unaligned_##NR_BYTES(STATE_CPU (sd, 0), cia, write_map, (EA), (VAL)); \
-} while (0)
-
-
-#endif
+/* OBSOLETE /* Mitsubishi Electric Corp. D30V Simulator. */
+/* OBSOLETE Copyright (C) 1997, Free Software Foundation, Inc. */
+/* OBSOLETE Contributed by Cygnus Support. */
+/* OBSOLETE */
+/* OBSOLETE This file is part of GDB, the GNU debugger. */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2, or (at your option) */
+/* OBSOLETE any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License along */
+/* OBSOLETE with this program; if not, write to the Free Software Foundation, Inc., */
+/* OBSOLETE 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifndef _D30V_ALU_H_ */
+/* OBSOLETE #define _D30V_ALU_H_ */
+/* OBSOLETE */
+/* OBSOLETE #define ALU_CARRY (PSW_VAL(PSW_C) != 0) */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-alu.h" */
+/* OBSOLETE */
+/* OBSOLETE #define ALU16_END(TARG, HIGH) \ */
+/* OBSOLETE { \ */
+/* OBSOLETE unsigned32 mask, value; \ */
+/* OBSOLETE if (ALU16_HAD_OVERFLOW) { \ */
+/* OBSOLETE mask = BIT32 (PSW_V) | BIT32 (PSW_VA) | BIT32 (PSW_C); \ */
+/* OBSOLETE value = BIT32 (PSW_V) | BIT32 (PSW_VA); \ */
+/* OBSOLETE } \ */
+/* OBSOLETE else { \ */
+/* OBSOLETE mask = BIT32 (PSW_V) | BIT32 (PSW_C); \ */
+/* OBSOLETE value = 0; \ */
+/* OBSOLETE } \ */
+/* OBSOLETE if (ALU16_HAD_CARRY_BORROW) \ */
+/* OBSOLETE value |= BIT32 (PSW_C); \ */
+/* OBSOLETE if (HIGH) \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (TARG, ALU16_OVERFLOW_RESULT<<16, 0xffff0000); \ */
+/* OBSOLETE else \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (TARG, ALU16_OVERFLOW_RESULT, 0x0000ffff); \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (&PSW, value, mask); \ */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #define ALU32_END(TARG) \ */
+/* OBSOLETE { \ */
+/* OBSOLETE unsigned32 mask, value; \ */
+/* OBSOLETE if (ALU32_HAD_OVERFLOW) { \ */
+/* OBSOLETE mask = BIT32 (PSW_V) | BIT32 (PSW_VA) | BIT32 (PSW_C); \ */
+/* OBSOLETE value = BIT32 (PSW_V) | BIT32 (PSW_VA); \ */
+/* OBSOLETE } \ */
+/* OBSOLETE else { \ */
+/* OBSOLETE mask = BIT32 (PSW_V) | BIT32 (PSW_C); \ */
+/* OBSOLETE value = 0; \ */
+/* OBSOLETE } \ */
+/* OBSOLETE if (ALU32_HAD_CARRY_BORROW) \ */
+/* OBSOLETE value |= BIT32 (PSW_C); \ */
+/* OBSOLETE WRITE32_QUEUE (TARG, ALU32_OVERFLOW_RESULT); \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (&PSW, value, mask); \ */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #define ALU_END(TARG) ALU32_END(TARG) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* PSW & Flag manipulation */ */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_SET(BIT,VAL) BLIT32(PSW, (BIT), (VAL)) */
+/* OBSOLETE #define PSW_VAL(BIT) EXTRACTED32(PSW, (BIT), (BIT)) */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_F(FLAG) (17 + ((FLAG) % 8) * 2) */
+/* OBSOLETE #define PSW_FLAG_SET(FLAG,VAL) PSW_SET(PSW_F(FLAG), VAL) */
+/* OBSOLETE #define PSW_FLAG_VAL(FLAG) PSW_VAL(PSW_F(FLAG)) */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_SET_QUEUE(BIT,VAL) \ */
+/* OBSOLETE do { \ */
+/* OBSOLETE unsigned32 mask = BIT32 (BIT); \ */
+/* OBSOLETE unsigned32 bitval = (VAL) ? mask : 0; \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (&PSW, bitval, mask); \ */
+/* OBSOLETE } while (0) */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_FLAG_SET_QUEUE(FLAG,VAL) \ */
+/* OBSOLETE do { \ */
+/* OBSOLETE unsigned32 mask = BIT32 (PSW_F (FLAG)); \ */
+/* OBSOLETE unsigned32 bitval = (VAL) ? mask : 0; \ */
+/* OBSOLETE WRITE32_QUEUE_MASK (&PSW, bitval, mask); \ */
+/* OBSOLETE } while (0) */
+/* OBSOLETE */
+/* OBSOLETE /* Bring data in from the cold */ */
+/* OBSOLETE */
+/* OBSOLETE #define IMEM(EA) \ */
+/* OBSOLETE (sim_core_read_8(STATE_CPU (sd, 0), cia, exec_map, (EA))) */
+/* OBSOLETE */
+/* OBSOLETE #define MEM(SIGN, EA, NR_BYTES) \ */
+/* OBSOLETE ((SIGN##_##NR_BYTES) sim_core_read_unaligned_##NR_BYTES(STATE_CPU (sd, 0), cia, read_map, (EA))) */
+/* OBSOLETE */
+/* OBSOLETE #define STORE(EA, NR_BYTES, VAL) \ */
+/* OBSOLETE do { \ */
+/* OBSOLETE sim_core_write_unaligned_##NR_BYTES(STATE_CPU (sd, 0), cia, write_map, (EA), (VAL)); \ */
+/* OBSOLETE } while (0) */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #endif */
diff --git a/sim/d30v/cpu.c b/sim/d30v/cpu.c
index c14a951..32d8829 100644
--- a/sim/d30v/cpu.c
+++ b/sim/d30v/cpu.c
@@ -1,172 +1,172 @@
-/* Mitsubishi Electric Corp. D30V Simulator.
- Copyright (C) 1997, Free Software Foundation, Inc.
- Contributed by Cygnus Support.
-
-This file is part of GDB, the GNU debugger.
-
-This program is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2, or (at your option)
-any later version.
-
-This program is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License along
-with this program; if not, write to the Free Software Foundation, Inc.,
-59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
-
-
-#ifndef _CPU_C_
-#define _CPU_C_
-
-#include "sim-main.h"
-
-
-int
-is_wrong_slot (SIM_DESC sd,
- address_word cia,
- itable_index index)
-{
- switch (STATE_CPU (sd, 0)->unit)
- {
- case memory_unit:
- return !itable[index].option[itable_option_mu];
- case integer_unit:
- return !itable[index].option[itable_option_iu];
- case any_unit:
- return 0;
- default:
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia,
- "internal error - is_wrong_slot - bad switch");
- return -1;
- }
-}
-
-int
-is_condition_ok (SIM_DESC sd,
- address_word cia,
- int cond)
-{
- switch (cond)
- {
- case 0x0:
- return 1;
- case 0x1:
- return PSW_VAL(PSW_F0);
- case 0x2:
- return !PSW_VAL(PSW_F0);
- case 0x3:
- return PSW_VAL(PSW_F1);
- case 0x4:
- return !PSW_VAL(PSW_F1);
- case 0x5:
- return PSW_VAL(PSW_F0) && PSW_VAL(PSW_F1);
- case 0x6:
- return PSW_VAL(PSW_F0) && !PSW_VAL(PSW_F1);
- case 0x7:
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia,
- "is_condition_ok - bad instruction condition bits");
- return 0;
- default:
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia,
- "internal error - is_condition_ok - bad switch");
- return -1;
- }
-}
-
-/* If --trace-call, trace calls, remembering the current state of
- registers. */
-
-typedef struct _call_stack {
- struct _call_stack *prev;
- registers regs;
-} call_stack;
-
-static call_stack *call_stack_head = (call_stack *)0;
-static int call_depth = 0;
-
-void call_occurred (SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- address_word nia)
-{
- call_stack *ptr = ZALLOC (call_stack);
- ptr->regs = cpu->regs;
- ptr->prev = call_stack_head;
- call_stack_head = ptr;
-
- trace_one_insn (sd, cpu, nia, 1, "", 0, "call",
- "Depth %3d, Return 0x%.8lx, Args 0x%.8lx 0x%.8lx",
- ++call_depth, (unsigned long)cia+8, (unsigned long)GPR[2],
- (unsigned long)GPR[3]);
-}
-
-/* If --trace-call, trace returns, checking if any saved register was changed. */
-
-void return_occurred (SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- address_word nia)
-{
- char buffer[1024];
- char *buf_ptr = buffer;
- call_stack *ptr = call_stack_head;
- int regno;
- char *prefix = ", Registers that differ: ";
-
- *buf_ptr = '\0';
- for (regno = 34; regno <= 63; regno++) {
- if (cpu->regs.general_purpose[regno] != ptr->regs.general_purpose[regno]) {
- sprintf (buf_ptr, "%sr%d", prefix, regno);
- buf_ptr += strlen (buf_ptr);
- prefix = " ";
- }
- }
-
- if (cpu->regs.accumulator[1] != ptr->regs.accumulator[1]) {
- sprintf (buf_ptr, "%sa1", prefix);
- buf_ptr += strlen (buf_ptr);
- prefix = " ";
- }
-
- trace_one_insn (sd, cpu, cia, 1, "", 0, "return",
- "Depth %3d, Return 0x%.8lx, Ret. 0x%.8lx 0x%.8lx%s",
- call_depth--, (unsigned long)nia, (unsigned long)GPR[2],
- (unsigned long)GPR[3], buffer);
-
- call_stack_head = ptr->prev;
- zfree (ptr);
-}
-
-
-/* Read/write functions for system call interface. */
-int
-d30v_read_mem (host_callback *cb,
- struct cb_syscall *sc,
- unsigned long taddr,
- char *buf,
- int bytes)
-{
- SIM_DESC sd = (SIM_DESC) sc->p1;
- sim_cpu *cpu = STATE_CPU (sd, 0);
-
- return sim_core_read_buffer (sd, cpu, read_map, buf, taddr, bytes);
-}
-
-int
-d30v_write_mem (host_callback *cb,
- struct cb_syscall *sc,
- unsigned long taddr,
- const char *buf,
- int bytes)
-{
- SIM_DESC sd = (SIM_DESC) sc->p1;
- sim_cpu *cpu = STATE_CPU (sd, 0);
-
- return sim_core_write_buffer (sd, cpu, write_map, buf, taddr, bytes);
-}
-
-#endif /* _CPU_C_ */
+/* OBSOLETE /* Mitsubishi Electric Corp. D30V Simulator. */
+/* OBSOLETE Copyright (C) 1997, Free Software Foundation, Inc. */
+/* OBSOLETE Contributed by Cygnus Support. */
+/* OBSOLETE */
+/* OBSOLETE This file is part of GDB, the GNU debugger. */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2, or (at your option) */
+/* OBSOLETE any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License along */
+/* OBSOLETE with this program; if not, write to the Free Software Foundation, Inc., */
+/* OBSOLETE 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifndef _CPU_C_ */
+/* OBSOLETE #define _CPU_C_ */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-main.h" */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE is_wrong_slot (SIM_DESC sd, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE itable_index index) */
+/* OBSOLETE { */
+/* OBSOLETE switch (STATE_CPU (sd, 0)->unit) */
+/* OBSOLETE { */
+/* OBSOLETE case memory_unit: */
+/* OBSOLETE return !itable[index].option[itable_option_mu]; */
+/* OBSOLETE case integer_unit: */
+/* OBSOLETE return !itable[index].option[itable_option_iu]; */
+/* OBSOLETE case any_unit: */
+/* OBSOLETE return 0; */
+/* OBSOLETE default: */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, */
+/* OBSOLETE "internal error - is_wrong_slot - bad switch"); */
+/* OBSOLETE return -1; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE is_condition_ok (SIM_DESC sd, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE int cond) */
+/* OBSOLETE { */
+/* OBSOLETE switch (cond) */
+/* OBSOLETE { */
+/* OBSOLETE case 0x0: */
+/* OBSOLETE return 1; */
+/* OBSOLETE case 0x1: */
+/* OBSOLETE return PSW_VAL(PSW_F0); */
+/* OBSOLETE case 0x2: */
+/* OBSOLETE return !PSW_VAL(PSW_F0); */
+/* OBSOLETE case 0x3: */
+/* OBSOLETE return PSW_VAL(PSW_F1); */
+/* OBSOLETE case 0x4: */
+/* OBSOLETE return !PSW_VAL(PSW_F1); */
+/* OBSOLETE case 0x5: */
+/* OBSOLETE return PSW_VAL(PSW_F0) && PSW_VAL(PSW_F1); */
+/* OBSOLETE case 0x6: */
+/* OBSOLETE return PSW_VAL(PSW_F0) && !PSW_VAL(PSW_F1); */
+/* OBSOLETE case 0x7: */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, */
+/* OBSOLETE "is_condition_ok - bad instruction condition bits"); */
+/* OBSOLETE return 0; */
+/* OBSOLETE default: */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, */
+/* OBSOLETE "internal error - is_condition_ok - bad switch"); */
+/* OBSOLETE return -1; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* If --trace-call, trace calls, remembering the current state of */
+/* OBSOLETE registers. */ */
+/* OBSOLETE */
+/* OBSOLETE typedef struct _call_stack { */
+/* OBSOLETE struct _call_stack *prev; */
+/* OBSOLETE registers regs; */
+/* OBSOLETE } call_stack; */
+/* OBSOLETE */
+/* OBSOLETE static call_stack *call_stack_head = (call_stack *)0; */
+/* OBSOLETE static int call_depth = 0; */
+/* OBSOLETE */
+/* OBSOLETE void call_occurred (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE address_word nia) */
+/* OBSOLETE { */
+/* OBSOLETE call_stack *ptr = ZALLOC (call_stack); */
+/* OBSOLETE ptr->regs = cpu->regs; */
+/* OBSOLETE ptr->prev = call_stack_head; */
+/* OBSOLETE call_stack_head = ptr; */
+/* OBSOLETE */
+/* OBSOLETE trace_one_insn (sd, cpu, nia, 1, "", 0, "call", */
+/* OBSOLETE "Depth %3d, Return 0x%.8lx, Args 0x%.8lx 0x%.8lx", */
+/* OBSOLETE ++call_depth, (unsigned long)cia+8, (unsigned long)GPR[2], */
+/* OBSOLETE (unsigned long)GPR[3]); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* If --trace-call, trace returns, checking if any saved register was changed. */ */
+/* OBSOLETE */
+/* OBSOLETE void return_occurred (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE address_word nia) */
+/* OBSOLETE { */
+/* OBSOLETE char buffer[1024]; */
+/* OBSOLETE char *buf_ptr = buffer; */
+/* OBSOLETE call_stack *ptr = call_stack_head; */
+/* OBSOLETE int regno; */
+/* OBSOLETE char *prefix = ", Registers that differ: "; */
+/* OBSOLETE */
+/* OBSOLETE *buf_ptr = '\0'; */
+/* OBSOLETE for (regno = 34; regno <= 63; regno++) { */
+/* OBSOLETE if (cpu->regs.general_purpose[regno] != ptr->regs.general_purpose[regno]) { */
+/* OBSOLETE sprintf (buf_ptr, "%sr%d", prefix, regno); */
+/* OBSOLETE buf_ptr += strlen (buf_ptr); */
+/* OBSOLETE prefix = " "; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (cpu->regs.accumulator[1] != ptr->regs.accumulator[1]) { */
+/* OBSOLETE sprintf (buf_ptr, "%sa1", prefix); */
+/* OBSOLETE buf_ptr += strlen (buf_ptr); */
+/* OBSOLETE prefix = " "; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE trace_one_insn (sd, cpu, cia, 1, "", 0, "return", */
+/* OBSOLETE "Depth %3d, Return 0x%.8lx, Ret. 0x%.8lx 0x%.8lx%s", */
+/* OBSOLETE call_depth--, (unsigned long)nia, (unsigned long)GPR[2], */
+/* OBSOLETE (unsigned long)GPR[3], buffer); */
+/* OBSOLETE */
+/* OBSOLETE call_stack_head = ptr->prev; */
+/* OBSOLETE zfree (ptr); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* Read/write functions for system call interface. */ */
+/* OBSOLETE int */
+/* OBSOLETE d30v_read_mem (host_callback *cb, */
+/* OBSOLETE struct cb_syscall *sc, */
+/* OBSOLETE unsigned long taddr, */
+/* OBSOLETE char *buf, */
+/* OBSOLETE int bytes) */
+/* OBSOLETE { */
+/* OBSOLETE SIM_DESC sd = (SIM_DESC) sc->p1; */
+/* OBSOLETE sim_cpu *cpu = STATE_CPU (sd, 0); */
+/* OBSOLETE */
+/* OBSOLETE return sim_core_read_buffer (sd, cpu, read_map, buf, taddr, bytes); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE d30v_write_mem (host_callback *cb, */
+/* OBSOLETE struct cb_syscall *sc, */
+/* OBSOLETE unsigned long taddr, */
+/* OBSOLETE const char *buf, */
+/* OBSOLETE int bytes) */
+/* OBSOLETE { */
+/* OBSOLETE SIM_DESC sd = (SIM_DESC) sc->p1; */
+/* OBSOLETE sim_cpu *cpu = STATE_CPU (sd, 0); */
+/* OBSOLETE */
+/* OBSOLETE return sim_core_write_buffer (sd, cpu, write_map, buf, taddr, bytes); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #endif /* _CPU_C_ */ */
diff --git a/sim/d30v/cpu.h b/sim/d30v/cpu.h
index 56f749c..1e9f3d8 100644
--- a/sim/d30v/cpu.h
+++ b/sim/d30v/cpu.h
@@ -1,249 +1,249 @@
-/* Mitsubishi Electric Corp. D30V Simulator.
- Copyright (C) 1997, Free Software Foundation, Inc.
- Contributed by Cygnus Support.
-
-This file is part of GDB, the GNU debugger.
-
-This program is free software; you can redistribute it and/or modify
-it under the terms of the GNU General Public License as published by
-the Free Software Foundation; either version 2, or (at your option)
-any later version.
-
-This program is distributed in the hope that it will be useful,
-but WITHOUT ANY WARRANTY; without even the implied warranty of
-MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-GNU General Public License for more details.
-
-You should have received a copy of the GNU General Public License along
-with this program; if not, write to the Free Software Foundation, Inc.,
-59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
-
-
-#ifndef _CPU_H_
-#define _CPU_H_
-
-enum {
- NR_GENERAL_PURPOSE_REGISTERS = 64,
- NR_CONTROL_REGISTERS = 64,
- NR_ACCUMULATORS = 2,
- STACK_POINTER_GPR = 63,
- NR_STACK_POINTERS = 2,
-};
-
-enum {
- processor_status_word_cr = 0,
- backup_processor_status_word_cr = 1,
- program_counter_cr = 2,
- backup_program_counter_cr = 3,
- debug_backup_processor_status_word_cr = 4,
- debug_backup_program_counter_cr = 5,
- reserved_6_cr = 6,
- repeat_count_cr = 7,
- repeat_start_address_cr = 8,
- repeat_end_address_cr = 9,
- modulo_start_address_cr = 10,
- modulo_end_address_cr = 11,
- instruction_break_address_cr = 14,
- eit_vector_base_cr = 15,
-};
-
-
-enum {
- PSW_SM = 0,
- PSW_EA = 2,
- PSW_DB = 3,
- PSW_DS = 4,
- PSW_IE = 5,
- PSW_RP = 6,
- PSW_MD = 7,
- PSW_F0 = 17,
- PSW_F1 = 19,
- PSW_F2 = 21,
- PSW_F3 = 23,
- PSW_S = 25,
- PSW_V = 27,
- PSW_VA = 29,
- PSW_C = 31,
-};
-
-/* aliases for PSW flag numbers (F0..F7) */
-enum
-{
- PSW_S_FLAG = 4,
-};
-
-typedef struct _registers {
- unsigned32 general_purpose[NR_GENERAL_PURPOSE_REGISTERS];
- /* keep track of the stack pointer */
- unsigned32 sp[NR_STACK_POINTERS]; /* swap with SP */
- unsigned32 current_sp;
- unsigned32 control[NR_CONTROL_REGISTERS];
- unsigned64 accumulator[NR_ACCUMULATORS];
-} registers;
-
-typedef enum _cpu_units {
- memory_unit,
- integer_unit,
- any_unit,
-} cpu_units;
-
-/* In order to support parallel instructions, which one instruction can be
- writing to a register that is used as input to another, queue up the
- writes to the end of the instruction boundaries. */
-
-#define MAX_WRITE32 16
-#define MAX_WRITE64 2
-
-struct _write32 {
- int num; /* # of 32-bit writes queued up */
- unsigned32 value[MAX_WRITE32]; /* value to write */
- unsigned32 mask[MAX_WRITE32]; /* mask to use */
- unsigned32 *ptr[MAX_WRITE32]; /* address to write to */
-};
-
-struct _write64 {
- int num; /* # of 64-bit writes queued up */
- unsigned64 value[MAX_WRITE64]; /* value to write */
- unsigned64 *ptr[MAX_WRITE64]; /* address to write to */
-};
-
-struct _sim_cpu {
- cpu_units unit;
- registers regs;
- sim_cpu_base base;
- int trace_call_p; /* Whether to do call tracing. */
- int trace_trap_p; /* If unknown traps dump out the regs */
- int trace_action; /* trace bits at end of instructions */
- int left_kills_right_p; /* left insn kills insn in right slot of -> */
- int mvtsys_left_p; /* left insn was mvtsys */
- int did_trap; /* we did a trap & need to finish it */
- struct _write32 write32; /* queued up 32-bit writes */
- struct _write64 write64; /* queued up 64-bit writes */
-};
-
-#define PC (STATE_CPU (sd, 0)->regs.control[program_counter_cr])
-#define PSW (STATE_CPU (sd, 0)->regs.control[processor_status_word_cr])
-#define PSWL (*AL2_4(&PSW))
-#define PSWH (*AH2_4(&PSW))
-#define DPSW (STATE_CPU (sd, 0)->regs.control[debug_backup_processor_status_word_cr])
-#define DPC (STATE_CPU (sd, 0)->regs.control[debug_backup_program_counter_cr])
-#define bPC (STATE_CPU (sd, 0)->regs.control[backup_program_counter_cr])
-#define bPSW (STATE_CPU (sd, 0)->regs.control[backup_processor_status_word_cr])
-#define RPT_C (STATE_CPU (sd, 0)->regs.control[repeat_count_cr])
-#define RPT_S (STATE_CPU (sd, 0)->regs.control[repeat_start_address_cr])
-#define RPT_E (STATE_CPU (sd, 0)->regs.control[repeat_end_address_cr])
-#define MOD_S (STATE_CPU (sd, 0)->regs.control[modulo_start_address_cr])
-#define MOD_E (STATE_CPU (sd, 0)->regs.control[modulo_end_address_cr])
-#define IBA (STATE_CPU (sd, 0)->regs.control[instruction_break_address_cr])
-#define EIT_VB (STATE_CPU (sd, 0)->regs.control[eit_vector_base_cr])
-#define GPR (STATE_CPU (sd, 0)->regs.general_purpose)
-#define GPR_CLEAR(N) (GPR[(N)] = 0)
-#define ACC (STATE_CPU (sd, 0)->regs.accumulator)
-#define CREG (STATE_CPU (sd, 0)->regs.control)
-#define SP (GPR[STACK_POINTER_GPR])
-#define TRACE_CALL_P (STATE_CPU (sd, 0)->trace_call_p)
-#define TRACE_TRAP_P (STATE_CPU (sd, 0)->trace_trap_p)
-#define TRACE_ACTION (STATE_CPU (sd, 0)->trace_action)
-#define TRACE_ACTION_CALL 0x00000001 /* call occurred */
-#define TRACE_ACTION_RETURN 0x00000002 /* return occurred */
-
-#define WRITE32 (STATE_CPU (sd, 0)->write32)
-#define WRITE32_NUM (WRITE32.num)
-#define WRITE32_PTR(N) (WRITE32.ptr[N])
-#define WRITE32_MASK(N) (WRITE32.mask[N])
-#define WRITE32_VALUE(N) (WRITE32.value[N])
-#define WRITE32_QUEUE(PTR, VALUE) WRITE32_QUEUE_MASK (PTR, VALUE, 0xffffffff)
-
-#define WRITE32_QUEUE_MASK(PTR, VALUE, MASK) \
-do { \
- int _num = WRITE32_NUM; \
- if (_num >= MAX_WRITE32) \
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia, \
- "Too many queued 32-bit writes"); \
- WRITE32_PTR(_num) = PTR; \
- WRITE32_VALUE(_num) = VALUE; \
- WRITE32_MASK(_num) = MASK; \
- WRITE32_NUM = _num+1; \
-} while (0)
-
-#define DID_TRAP (STATE_CPU (sd, 0)->did_trap)
-
-#define WRITE64 (STATE_CPU (sd, 0)->write64)
-#define WRITE64_NUM (WRITE64.num)
-#define WRITE64_PTR(N) (WRITE64.ptr[N])
-#define WRITE64_VALUE(N) (WRITE64.value[N])
-#define WRITE64_QUEUE(PTR, VALUE) \
-do { \
- int _num = WRITE64_NUM; \
- if (_num >= MAX_WRITE64) \
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia, \
- "Too many queued 64-bit writes"); \
- WRITE64_PTR(_num) = PTR; \
- WRITE64_VALUE(_num) = VALUE; \
- WRITE64_NUM = _num+1; \
-} while (0)
-
-#define DPSW_VALID 0xbf005555
-#define PSW_VALID 0xb7005555
-#define EIT_VALID 0xfffff000 /* From page 7-4 of D30V/MPEG arch. manual */
-#define EIT_VB_DEFAULT 0xfffff000 /* Value of the EIT_VB register after reset */
-
-/* Verify that the instruction is in the correct slot */
-
-#define IS_WRONG_SLOT is_wrong_slot(sd, cia, MY_INDEX)
-extern int is_wrong_slot
-(SIM_DESC sd,
- address_word cia,
- itable_index index);
-
-#define IS_CONDITION_OK is_condition_ok(sd, cia, CCC)
-extern int is_condition_ok
-(SIM_DESC sd,
- address_word cia,
- int cond);
-
-#define SIM_HAVE_BREAKPOINTS /* Turn on internal breakpoint module */
-
-/* Internal breakpoint instruction is syscall 5 */
-#define SIM_BREAKPOINT {0x0e, 0x00, 0x00, 0x05}
-#define SIM_BREAKPOINT_SIZE (4)
-
-/* Call occurred */
-extern void call_occurred
-(SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- address_word nia);
-
-/* Return occurred */
-extern void return_occurred
-(SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- address_word nia);
-
-/* Whether to do call tracing. */
-extern int d30v_call_trace_p;
-
-/* Read/write functions for system call interface. */
-extern int d30v_read_mem
-(host_callback *cb,
- struct cb_syscall *sc,
- unsigned long taddr,
- char *buf,
- int bytes);
-
-extern int d30v_write_mem
-(host_callback *cb,
- struct cb_syscall *sc,
- unsigned long taddr,
- const char *buf,
- int bytes);
-
-/* Process all of the queued up writes in order now */
-void unqueue_writes
-(SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia);
-
-#endif /* _CPU_H_ */
+/* OBSOLETE /* Mitsubishi Electric Corp. D30V Simulator. */
+/* OBSOLETE Copyright (C) 1997, Free Software Foundation, Inc. */
+/* OBSOLETE Contributed by Cygnus Support. */
+/* OBSOLETE */
+/* OBSOLETE This file is part of GDB, the GNU debugger. */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2, or (at your option) */
+/* OBSOLETE any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License along */
+/* OBSOLETE with this program; if not, write to the Free Software Foundation, Inc., */
+/* OBSOLETE 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifndef _CPU_H_ */
+/* OBSOLETE #define _CPU_H_ */
+/* OBSOLETE */
+/* OBSOLETE enum { */
+/* OBSOLETE NR_GENERAL_PURPOSE_REGISTERS = 64, */
+/* OBSOLETE NR_CONTROL_REGISTERS = 64, */
+/* OBSOLETE NR_ACCUMULATORS = 2, */
+/* OBSOLETE STACK_POINTER_GPR = 63, */
+/* OBSOLETE NR_STACK_POINTERS = 2, */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE enum { */
+/* OBSOLETE processor_status_word_cr = 0, */
+/* OBSOLETE backup_processor_status_word_cr = 1, */
+/* OBSOLETE program_counter_cr = 2, */
+/* OBSOLETE backup_program_counter_cr = 3, */
+/* OBSOLETE debug_backup_processor_status_word_cr = 4, */
+/* OBSOLETE debug_backup_program_counter_cr = 5, */
+/* OBSOLETE reserved_6_cr = 6, */
+/* OBSOLETE repeat_count_cr = 7, */
+/* OBSOLETE repeat_start_address_cr = 8, */
+/* OBSOLETE repeat_end_address_cr = 9, */
+/* OBSOLETE modulo_start_address_cr = 10, */
+/* OBSOLETE modulo_end_address_cr = 11, */
+/* OBSOLETE instruction_break_address_cr = 14, */
+/* OBSOLETE eit_vector_base_cr = 15, */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE enum { */
+/* OBSOLETE PSW_SM = 0, */
+/* OBSOLETE PSW_EA = 2, */
+/* OBSOLETE PSW_DB = 3, */
+/* OBSOLETE PSW_DS = 4, */
+/* OBSOLETE PSW_IE = 5, */
+/* OBSOLETE PSW_RP = 6, */
+/* OBSOLETE PSW_MD = 7, */
+/* OBSOLETE PSW_F0 = 17, */
+/* OBSOLETE PSW_F1 = 19, */
+/* OBSOLETE PSW_F2 = 21, */
+/* OBSOLETE PSW_F3 = 23, */
+/* OBSOLETE PSW_S = 25, */
+/* OBSOLETE PSW_V = 27, */
+/* OBSOLETE PSW_VA = 29, */
+/* OBSOLETE PSW_C = 31, */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE /* aliases for PSW flag numbers (F0..F7) */ */
+/* OBSOLETE enum */
+/* OBSOLETE { */
+/* OBSOLETE PSW_S_FLAG = 4, */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE typedef struct _registers { */
+/* OBSOLETE unsigned32 general_purpose[NR_GENERAL_PURPOSE_REGISTERS]; */
+/* OBSOLETE /* keep track of the stack pointer */ */
+/* OBSOLETE unsigned32 sp[NR_STACK_POINTERS]; /* swap with SP */ */
+/* OBSOLETE unsigned32 current_sp; */
+/* OBSOLETE unsigned32 control[NR_CONTROL_REGISTERS]; */
+/* OBSOLETE unsigned64 accumulator[NR_ACCUMULATORS]; */
+/* OBSOLETE } registers; */
+/* OBSOLETE */
+/* OBSOLETE typedef enum _cpu_units { */
+/* OBSOLETE memory_unit, */
+/* OBSOLETE integer_unit, */
+/* OBSOLETE any_unit, */
+/* OBSOLETE } cpu_units; */
+/* OBSOLETE */
+/* OBSOLETE /* In order to support parallel instructions, which one instruction can be */
+/* OBSOLETE writing to a register that is used as input to another, queue up the */
+/* OBSOLETE writes to the end of the instruction boundaries. */ */
+/* OBSOLETE */
+/* OBSOLETE #define MAX_WRITE32 16 */
+/* OBSOLETE #define MAX_WRITE64 2 */
+/* OBSOLETE */
+/* OBSOLETE struct _write32 { */
+/* OBSOLETE int num; /* # of 32-bit writes queued up */ */
+/* OBSOLETE unsigned32 value[MAX_WRITE32]; /* value to write */ */
+/* OBSOLETE unsigned32 mask[MAX_WRITE32]; /* mask to use */ */
+/* OBSOLETE unsigned32 *ptr[MAX_WRITE32]; /* address to write to */ */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE struct _write64 { */
+/* OBSOLETE int num; /* # of 64-bit writes queued up */ */
+/* OBSOLETE unsigned64 value[MAX_WRITE64]; /* value to write */ */
+/* OBSOLETE unsigned64 *ptr[MAX_WRITE64]; /* address to write to */ */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE struct _sim_cpu { */
+/* OBSOLETE cpu_units unit; */
+/* OBSOLETE registers regs; */
+/* OBSOLETE sim_cpu_base base; */
+/* OBSOLETE int trace_call_p; /* Whether to do call tracing. */ */
+/* OBSOLETE int trace_trap_p; /* If unknown traps dump out the regs */ */
+/* OBSOLETE int trace_action; /* trace bits at end of instructions */ */
+/* OBSOLETE int left_kills_right_p; /* left insn kills insn in right slot of -> */ */
+/* OBSOLETE int mvtsys_left_p; /* left insn was mvtsys */ */
+/* OBSOLETE int did_trap; /* we did a trap & need to finish it */ */
+/* OBSOLETE struct _write32 write32; /* queued up 32-bit writes */ */
+/* OBSOLETE struct _write64 write64; /* queued up 64-bit writes */ */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE #define PC (STATE_CPU (sd, 0)->regs.control[program_counter_cr]) */
+/* OBSOLETE #define PSW (STATE_CPU (sd, 0)->regs.control[processor_status_word_cr]) */
+/* OBSOLETE #define PSWL (*AL2_4(&PSW)) */
+/* OBSOLETE #define PSWH (*AH2_4(&PSW)) */
+/* OBSOLETE #define DPSW (STATE_CPU (sd, 0)->regs.control[debug_backup_processor_status_word_cr]) */
+/* OBSOLETE #define DPC (STATE_CPU (sd, 0)->regs.control[debug_backup_program_counter_cr]) */
+/* OBSOLETE #define bPC (STATE_CPU (sd, 0)->regs.control[backup_program_counter_cr]) */
+/* OBSOLETE #define bPSW (STATE_CPU (sd, 0)->regs.control[backup_processor_status_word_cr]) */
+/* OBSOLETE #define RPT_C (STATE_CPU (sd, 0)->regs.control[repeat_count_cr]) */
+/* OBSOLETE #define RPT_S (STATE_CPU (sd, 0)->regs.control[repeat_start_address_cr]) */
+/* OBSOLETE #define RPT_E (STATE_CPU (sd, 0)->regs.control[repeat_end_address_cr]) */
+/* OBSOLETE #define MOD_S (STATE_CPU (sd, 0)->regs.control[modulo_start_address_cr]) */
+/* OBSOLETE #define MOD_E (STATE_CPU (sd, 0)->regs.control[modulo_end_address_cr]) */
+/* OBSOLETE #define IBA (STATE_CPU (sd, 0)->regs.control[instruction_break_address_cr]) */
+/* OBSOLETE #define EIT_VB (STATE_CPU (sd, 0)->regs.control[eit_vector_base_cr]) */
+/* OBSOLETE #define GPR (STATE_CPU (sd, 0)->regs.general_purpose) */
+/* OBSOLETE #define GPR_CLEAR(N) (GPR[(N)] = 0) */
+/* OBSOLETE #define ACC (STATE_CPU (sd, 0)->regs.accumulator) */
+/* OBSOLETE #define CREG (STATE_CPU (sd, 0)->regs.control) */
+/* OBSOLETE #define SP (GPR[STACK_POINTER_GPR]) */
+/* OBSOLETE #define TRACE_CALL_P (STATE_CPU (sd, 0)->trace_call_p) */
+/* OBSOLETE #define TRACE_TRAP_P (STATE_CPU (sd, 0)->trace_trap_p) */
+/* OBSOLETE #define TRACE_ACTION (STATE_CPU (sd, 0)->trace_action) */
+/* OBSOLETE #define TRACE_ACTION_CALL 0x00000001 /* call occurred */ */
+/* OBSOLETE #define TRACE_ACTION_RETURN 0x00000002 /* return occurred */ */
+/* OBSOLETE */
+/* OBSOLETE #define WRITE32 (STATE_CPU (sd, 0)->write32) */
+/* OBSOLETE #define WRITE32_NUM (WRITE32.num) */
+/* OBSOLETE #define WRITE32_PTR(N) (WRITE32.ptr[N]) */
+/* OBSOLETE #define WRITE32_MASK(N) (WRITE32.mask[N]) */
+/* OBSOLETE #define WRITE32_VALUE(N) (WRITE32.value[N]) */
+/* OBSOLETE #define WRITE32_QUEUE(PTR, VALUE) WRITE32_QUEUE_MASK (PTR, VALUE, 0xffffffff) */
+/* OBSOLETE */
+/* OBSOLETE #define WRITE32_QUEUE_MASK(PTR, VALUE, MASK) \ */
+/* OBSOLETE do { \ */
+/* OBSOLETE int _num = WRITE32_NUM; \ */
+/* OBSOLETE if (_num >= MAX_WRITE32) \ */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, \ */
+/* OBSOLETE "Too many queued 32-bit writes"); \ */
+/* OBSOLETE WRITE32_PTR(_num) = PTR; \ */
+/* OBSOLETE WRITE32_VALUE(_num) = VALUE; \ */
+/* OBSOLETE WRITE32_MASK(_num) = MASK; \ */
+/* OBSOLETE WRITE32_NUM = _num+1; \ */
+/* OBSOLETE } while (0) */
+/* OBSOLETE */
+/* OBSOLETE #define DID_TRAP (STATE_CPU (sd, 0)->did_trap) */
+/* OBSOLETE */
+/* OBSOLETE #define WRITE64 (STATE_CPU (sd, 0)->write64) */
+/* OBSOLETE #define WRITE64_NUM (WRITE64.num) */
+/* OBSOLETE #define WRITE64_PTR(N) (WRITE64.ptr[N]) */
+/* OBSOLETE #define WRITE64_VALUE(N) (WRITE64.value[N]) */
+/* OBSOLETE #define WRITE64_QUEUE(PTR, VALUE) \ */
+/* OBSOLETE do { \ */
+/* OBSOLETE int _num = WRITE64_NUM; \ */
+/* OBSOLETE if (_num >= MAX_WRITE64) \ */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, \ */
+/* OBSOLETE "Too many queued 64-bit writes"); \ */
+/* OBSOLETE WRITE64_PTR(_num) = PTR; \ */
+/* OBSOLETE WRITE64_VALUE(_num) = VALUE; \ */
+/* OBSOLETE WRITE64_NUM = _num+1; \ */
+/* OBSOLETE } while (0) */
+/* OBSOLETE */
+/* OBSOLETE #define DPSW_VALID 0xbf005555 */
+/* OBSOLETE #define PSW_VALID 0xb7005555 */
+/* OBSOLETE #define EIT_VALID 0xfffff000 /* From page 7-4 of D30V/MPEG arch. manual */ */
+/* OBSOLETE #define EIT_VB_DEFAULT 0xfffff000 /* Value of the EIT_VB register after reset */ */
+/* OBSOLETE */
+/* OBSOLETE /* Verify that the instruction is in the correct slot */ */
+/* OBSOLETE */
+/* OBSOLETE #define IS_WRONG_SLOT is_wrong_slot(sd, cia, MY_INDEX) */
+/* OBSOLETE extern int is_wrong_slot */
+/* OBSOLETE (SIM_DESC sd, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE itable_index index); */
+/* OBSOLETE */
+/* OBSOLETE #define IS_CONDITION_OK is_condition_ok(sd, cia, CCC) */
+/* OBSOLETE extern int is_condition_ok */
+/* OBSOLETE (SIM_DESC sd, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE int cond); */
+/* OBSOLETE */
+/* OBSOLETE #define SIM_HAVE_BREAKPOINTS /* Turn on internal breakpoint module */ */
+/* OBSOLETE */
+/* OBSOLETE /* Internal breakpoint instruction is syscall 5 */ */
+/* OBSOLETE #define SIM_BREAKPOINT {0x0e, 0x00, 0x00, 0x05} */
+/* OBSOLETE #define SIM_BREAKPOINT_SIZE (4) */
+/* OBSOLETE */
+/* OBSOLETE /* Call occurred */ */
+/* OBSOLETE extern void call_occurred */
+/* OBSOLETE (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE address_word nia); */
+/* OBSOLETE */
+/* OBSOLETE /* Return occurred */ */
+/* OBSOLETE extern void return_occurred */
+/* OBSOLETE (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE address_word nia); */
+/* OBSOLETE */
+/* OBSOLETE /* Whether to do call tracing. */ */
+/* OBSOLETE extern int d30v_call_trace_p; */
+/* OBSOLETE */
+/* OBSOLETE /* Read/write functions for system call interface. */ */
+/* OBSOLETE extern int d30v_read_mem */
+/* OBSOLETE (host_callback *cb, */
+/* OBSOLETE struct cb_syscall *sc, */
+/* OBSOLETE unsigned long taddr, */
+/* OBSOLETE char *buf, */
+/* OBSOLETE int bytes); */
+/* OBSOLETE */
+/* OBSOLETE extern int d30v_write_mem */
+/* OBSOLETE (host_callback *cb, */
+/* OBSOLETE struct cb_syscall *sc, */
+/* OBSOLETE unsigned long taddr, */
+/* OBSOLETE const char *buf, */
+/* OBSOLETE int bytes); */
+/* OBSOLETE */
+/* OBSOLETE /* Process all of the queued up writes in order now */ */
+/* OBSOLETE void unqueue_writes */
+/* OBSOLETE (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia); */
+/* OBSOLETE */
+/* OBSOLETE #endif /* _CPU_H_ */ */
diff --git a/sim/d30v/d30v-insns b/sim/d30v/d30v-insns
index 7b7c3c8..10ce868 100644
--- a/sim/d30v/d30v-insns
+++ b/sim/d30v/d30v-insns
@@ -1,2424 +1,2421 @@
-// -*- C -*-
-// Mitsubishi Electric Corp. D30V Simulator.
-// Copyright (C) 1997, Free Software Foundation, Inc.
-// Contributed by Cygnus Solutions Inc.
-//
-// This file is part of GDB, the GNU debugger.
-//
-// This program is free software; you can redistribute it and/or modify
-// it under the terms of the GNU General Public License as published by
-// the Free Software Foundation; either version 2 of the License, or
-// (at your option) any later version.
-//
-// This program is distributed in the hope that it will be useful,
-// but WITHOUT ANY WARRANTY; without even the implied warranty of
-// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-// GNU General Public License for more details.
-//
-// You should have received a copy of the GNU General Public License
-// along with this program; if not, write to the Free Software
-// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-//
-
-
-define( _BRA, `1.*,CCC,000')
-define( _LOGIC, `1.*,CCC,001')
-define( _IMEM, `1.*,CCC,010')
-define( _IALU1, `1.*,CCC,100')
-define(_IALU2, `1.*,CCC,101')
-
-
-
-define(_IMM6, `6.IMM_6S')
-define(_IMM12, `12.IMM_12S')
-define(_IMM18, `18.IMM_18S')
-define(_IMM32, `6.IMM_6L,*,000,8.IMM_8L,00,18.IMM_18L')
-
-
-
-// The following is called when ever an illegal instruction is
-// encountered
-::internal::illegal
- sim_io_eprintf (sd, "illegal instruction at 0x%lx\n", (long) cia);
- sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL);
-
-// The following is called when ever an instruction in the wrong
-// slot is encountered.
-::internal::wrong_slot
- sim_io_eprintf (sd, "wrong slot at 0x%lx\n", (long) cia);
- sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL);
-
-
-
-// Something illegal that can be used to contact the simulator emul
-// library.
-define(_EMUL, `1.*,CCC,111')
-
-void::function::do_emul:int imm
- /* temp hack - later replace with real interface */
- enum {
- param1 = 2, param2, param3, param4
- };
- switch (imm) {
- case 0:
- {
- sim_engine_abort (SD, CPU, cia, "UNIX call emulation unsupported");
- break;
- }
- case 1:
- /* Trap 1 - prints a string */
- {
- address_word str = GPR[param1];
- char chr;
- while (1) {
- chr = MEM (unsigned, str, 1);
- if (chr == '\0') break;
- sim_io_write_stdout (sd, &chr, sizeof chr);
- str++;
- }
- break;
- }
- case 3:
- /* Trap 3 - writes a character */
- {
- char chr = GPR[param1];
- sim_io_write_stdout (sd, &chr, sizeof chr);
- break;
- }
- case 4:
- /* Trap 4 exits with status in [param1] */
- {
- sim_engine_halt (SD, CPU, NULL, cia, sim_exited, GPR[param1]);
- break;
- }
- case 5:
- /* Trap 5 breakpoints. If the breakpoint system knows about this, it
- won't return. Otherwise, we fall through to treat this as an
- unknown instruction. */
- {
- sim_handle_breakpoint (SD, CPU, cia);
- /* Fall through to default case.*/
- }
- default:
- sim_engine_abort (SD, CPU, cia, "Unknown monitor call %d", imm);
- }
-
-_EMUL,00000,00,6.*,6.*,IMM_6S:EMUL:short,emul:iu,mu:EMUL
-"syscall <imm>"
- do_emul (_SD, imm);
-_BRA,00000,00,6.**,6.**,_IMM32:BRA:long:iu,mu:EMUL long
-"syscall <imm>"
- do_emul (_SD, imm);
-
-// ABS
-
-_IALU1,01000,00,6.RA,6.RB,6.**:IALU1:short:iu,mu:ABS
-"abs r<RA>, r<RB>"
- WRITE32_QUEUE (Ra, abs(Rb));
-
-
-
-// ADD
-
-void::function::do_add:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- ALU_BEGIN(rb);
- ALU_ADDC(imm);
- ALU_END(ra);
-
-_IALU1,00000,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADD
-"add r<RA>, r<RB>, r<RC>"
- do_add (_SD, Ra, Rb, Rc);
-_IALU1,00000,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADD imm
-"add r<RA>, r<RB>, <imm>"
- do_add (_SD, Ra, Rb, imm);
-_IALU1,00000,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADD imm long
-"add r<RA>, r<RB>, <imm>"
- do_add (_SD, Ra, Rb, imm);
-
-
-
-// ADD2H
-
-void::function::do_add2h:signed32 *ra, signed32 rb, signed32 imm
- unsigned16 ah2 = VH2_4(rb) + VH2_4(imm);
- unsigned16 al2 = VL2_4(rb) + VL2_4(imm);
- WRITE32_QUEUE (ra, (ah2 << 16) | al2);
-
-_IALU1,00001,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADD2H
-"add2h r<RA>, r<RB>, r<RC>"
- do_add2h (_SD, Ra, Rb, Rc);
-_IALU1,00001,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADD2H imm
-"add2h r<RA>, r<RB>, <imm>"
- do_add2h (_SD, Ra, Rb, immHL);
-_IALU1,00001,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADD2H imm long
-"add2h r<RA>, r<RB>, <imm>"
- do_add2h (_SD, Ra, Rb, imm);
-
-
-
-// ADDC
-
-void::function::do_addc:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- ALU_BEGIN(rb);
- ALU_ADDC_C(imm, ALU_CARRY);
- ALU_END(ra);
-
-_IALU1,00100,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDC
-"addc r<RA>, r<RB>, r<RC>"
- do_addc (_SD, Ra, Rb, Rc);
-_IALU1,00100,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDC imm
-"addc r<RA>, r<RB>, <imm>"
- do_addc (_SD, Ra, Rb, imm);
-_IALU1,00100,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDC imm long
-"addc r<RA>, r<RB>, <imm>"
- do_addc (_SD, Ra, Rb, imm);
-
-
-
-// ADDHppp
-
-void::function::do_addh_ppp:int ppp, unsigned32 *ra, unsigned32 rb, unsigned32 src
- switch (ppp) {
- case 0x0: /* LLL */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_ADDC(VL2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x1: /* LLH */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_ADDC(VH2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x2: /* LHL */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_ADDC(VL2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x3: /* LHH */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_ADDC(VH2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x4: /* HLL */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_ADDC(VL2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x5: /* HLH */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_ADDC(VH2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x6: /* HHL */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_ADDC(VL2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x7: /* HHH */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_ADDC(VH2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "do_addh_ppp - internal error - bad switch");
- }
-::%s::ppp:int ppp
- switch (ppp)
- {
- case 0x0: return "lll";
- case 0x1: return "llh";
- case 0x2: return "lhl";
- case 0x3: return "lhh";
- case 0x4: return "hll";
- case 0x5: return "hlh";
- case 0x6: return "hhl";
- case 0x7: return "hhh";
- default: return "?";
- }
-
-_IALU1,10,ppp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDHppp
-"addh%s<ppp> r<RA>, r<RB>, r<RC>"
- do_addh_ppp(_SD, ppp, Ra, Rb, Rc);
-_IALU1,10,ppp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDHppp imm
-"addh%s<ppp> r<RA>, r<RB>, <imm>"
- do_addh_ppp(_SD, ppp, Ra, Rb, immHL);
-_IALU1,10,ppp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDHppp imm long
-"addh%s<ppp> r<RA>, r<RB>, <imm>"
- do_addh_ppp(_SD, ppp, Ra, Rb, imm);
-
-
-
-// ADDS
-
-void::function::do_adds:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- ALU_BEGIN(rb);
- ALU_ADDC(EXTRACTED32(imm, 0, 0));
- ALU_END(ra);
-
-_IALU1,00110,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDS
-"adds r<RA>, r<RB>, r<RC>"
- do_adds (_SD, Ra, Rb, Rc);
-_IALU1,00110,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDS imm
-"adds r<RA>, r<RB>, <imm>"
- do_adds (_SD, Ra, Rb, imm);
-_IALU1,00110,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDS imm long
-"adds r<RA>, r<RB>, <imm>"
- do_adds (_SD, Ra, Rb, imm);
-
-
-
-// ADDS2H
-
-void::function::do_adds2h:unsigned32 *ra, unsigned32 rb, unsigned32 immHL
- unsigned16 high = VH2_4(rb) + EXTRACTED32(immHL, 0, 0);
- unsigned16 low = VL2_4(rb) + EXTRACTED32(immHL, 16, 16);
- WRITE32_QUEUE (ra, (high << 16) | low);
-
-_IALU1,00111,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDS2H
-"adds2h r<RA>, r<RB>, r<RC>"
- do_adds2h (_SD, Ra, Rb, Rc);
-_IALU1,00111,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDS2H imm
-"adds2h r<RA>, r<RB>, <imm>"
- do_adds2h (_SD, Ra, Rb, immHL);
-_IALU1,00111,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDS2H imm long
-"adds2h r<RA>, r<RB>, <imm>"
- do_adds2h (_SD, Ra, Rb, imm);
-
-
-
-// AND
-
-_LOGIC,11000,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:AND
-"and r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, Rb & Rc);
-_LOGIC,11000,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:AND imm
-"and r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb & imm);
-_LOGIC,11000,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:AND imm long
-"and r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb & imm);
-
-
-// ANDFG
-
-_LOGIC,01000,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:Logical AND Flags
-"andfg f<FA>, f<FB>, f<FC>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) & PSW_FLAG_VAL(FC));
-_LOGIC,01000,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:Logical AND Flags imm
-"andfg f<FA>, f<FB>, <imm_6>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) & (imm_6 & 1));
-
-
-
-// AVG
-
-void::function::do_avg:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- WRITE32_QUEUE (ra, ((signed64)(signed32)rb + (signed64)(signed32)imm + 1) >> 1);
-
-_IALU1,01010,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:AVG
-"avg r<RA>, r<RB>, r<RC>"
- do_avg (_SD, Ra, Rb, Rc);
-_IALU1,01010,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:AVG imm
-"avg r<RA>, r<RB>, <imm>"
- do_avg (_SD, Ra, Rb, imm);
-_IALU1,01010,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:AVG imm long
-"avg r<RA>, r<RB>, <imm>"
- do_avg (_SD, Ra, Rb, imm);
-
-
-
-// AVG2H
-
-void::function::do_avg2h:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- unsigned16 high = ((signed32)(signed16)VH2_4(rb) + (signed32)(signed16)VH2_4(imm) + 1) >> 1;
- unsigned16 low = ((signed32)(signed16)VL2_4(rb) + (signed32)(signed16)VL2_4(imm) + 1) >> 1;
- WRITE32_QUEUE (ra, (high << 16) | low);
-
-_IALU1,01011,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:AVG2H
-"avg2h r<RA>, r<RB>, r<RC>"
- do_avg2h (_SD, Ra, Rb, Rc);
-_IALU1,01011,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:AVG2H imm
-"avg2h r<RA>, r<RB>, <imm>"
- do_avg2h (_SD, Ra, Rb, immHL);
-_IALU1,01011,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:AVG2H imm long
-"avg2h r<RA>, r<RB>, <imm>"
- do_avg2h (_SD, Ra, Rb, imm);
-
-
-
-// BCLR
-
-_LOGIC,00011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BCLR
-"bclr r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE(Ra, Rb & ~BIT32((Rc) % 32));
-_LOGIC,00011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BCLR imm
-"bclr r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE(Ra, Rb & ~BIT32((imm) % 32));
-
-
-
-// BNOT
-
-_LOGIC,00001,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BNOT
-"bnot r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, Rb ^ BIT32((Rc) % 32));
-_LOGIC,00001,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BNOT imm
-"bnot r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb ^ BIT32((imm) % 32));
-
-
-
-// BRA
-
-_BRA,00000,00,6.**,6.**,6.RC:BRA:short:mu:BRA
-"bra r<RC>"
- nia = cia + pcdisp;
-_BRA,00000,10,_IMM18:BRA:short:mu:BRA imm
-"bra <pcdisp>"
- nia = cia + pcdisp;
-_BRA,00000,10,6.**,6.**,_IMM32:BRA:long:mu:BRA imm long
-"bra <pcdisp>"
- nia = cia + pcdisp;
-
-
-
-// BRATNZ
-
-_BRA,00100,01,6.RA,6.**,6.RC:BRA:short:mu:BRATNZ
-"bratnz r<RC>"
- if (*Ra != 0)
- nia = cia + pcdisp;
-_BRA,00100,11,6.RA,_IMM12:BRA:short:mu:BRATNZ imm
-"bratnz <pcdisp>"
- if (*Ra != 0)
- nia = cia + pcdisp;
-_BRA,00100,11,6.RA,6.**,_IMM32:BRA:long:mu:BRATNZ imm long
-"bratnz <pcdisp>"
- if (*Ra != 0)
- nia = cia + pcdisp;
-
-
-
-// BRATZR
-
-_BRA,00100,00,6.RA,6.**,6.RC:BRA:short:mu:BRATZR
-"bratzr r<RC>"
- if (val_Ra == 0)
- nia = cia + pcdisp;
-_BRA,00100,10,6.RA,_IMM12:BRA:short:mu:BRATZR imm
-"bratzr <pcdisp>"
- if (val_Ra == 0)
- nia = cia + pcdisp;
-_BRA,00100,10,6.RA,6.**,_IMM32:BRA:long:mu:BRATZR imm long
-"bratzr <pcdisp>"
- if (val_Ra == 0)
- nia = cia + pcdisp;
-
-
-
-// BSET
-
-_LOGIC,00010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BSET
-"bset r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, Rb | BIT32((Rc) % 32));
-_LOGIC,00010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BSET imm
-"bset r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb | BIT32((imm) % 32));
-
-
-
-// BSR
-
-_BRA,00010,00,6.**,6.**,6.RC:BRA:short:mu:BSR
-"bsr r<RC>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
-_BRA,00010,10,_IMM18:BRA:short:mu:BSR imm
-"bsr <pcdisp>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
-_BRA,00010,10,6.**,6.**,_IMM32:BRA:long:mu:BSR imm long
-"bsr <pcdisp>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
-
-
-// BSRTNZ
-
-_BRA,00110,01,6.RA,6.**,6.RC:BRA:short:mu:BSRTNZ
-"bsrtnz r<RC>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-_BRA,00110,11,6.RA,_IMM12:BRA:short:mu:BSRTNZ imm
-"bsrtnz <pcdisp>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-_BRA,00110,11,6.RA,6.**,_IMM32:BRA:long:mu:BSRTNZ imm long
-"bsrtnz <pcdisp>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-
-// BSRTZR
-
-_BRA,00110,00,6.RA,6.**,6.RC:BRA:short:mu:BSRTZR
-"bsrtzr r<RC>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-_BRA,00110,10,6.RA,_IMM12:BRA:short:mu:BSRTZR imm
-"bsrtzr <pcdisp>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-_BRA,00110,10,6.RA,6.**,_IMM32:BRA:long:mu:BSRTZR imm long
-"bsrtzr <pcdisp>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = cia + pcdisp;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-
-// BTST
-
-_LOGIC,00000,00,***,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:BTST
-"btst f<FA>, r<RB>, r<RC>"
- int bit = (Rc) % 32;
- PSW_FLAG_SET_QUEUE(FA, MASKED32(Rb, bit, bit));
-_LOGIC,00000,10,***,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:BTST imm
-"btst f<FA>, r<RB>, <imm>"
- int bit = imm % 32;
- PSW_FLAG_SET_QUEUE(FA, MASKED32(Rb, bit, bit));
-
-
-
-// CMPcc
-
-void::function::do_cmp_cc:int cc, int fa, signed32 rb, signed32 rc
- int value = 0;
- switch (cc) {
- case 0: /* EQ */
- value = (rb == rc);
- break;
- case 1: /* NE */
- value = (rb != rc);
- break;
- case 2: /* GT */
- value = (rb > rc);
- break;
- case 3: /* GE */
- value = (rb >= rc);
- break;
- case 4: /* LT */
- value = (rb < rc);
- break;
- case 5: /* LE */
- value = (rb <= rc);
- break;
- case 6: /* PS */
- value = ((rb >= 0) && (rc >= 0));
- break;
- case 7: /* NG */
- value = ((rb < 0) && (rc < 0));
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "do_cmp_cc - internal error - bad switch (%d)", cc);
- }
- PSW_FLAG_SET_QUEUE(fa, value);
-
-::%s::ccc:int ccc
- switch (ccc)
- {
- case 0: return "eq";
- case 1: return "ne";
- case 2: return "gt";
- case 3: return "ge";
- case 4: return "lt";
- case 5: return "le";
- case 6: return "ps";
- case 7: return "ng";
- default: return "?";
- }
-
-_LOGIC,01100,00,ccc,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:CMPcc
-"cmp%s<ccc> f<FA>, r<RB>, r<RC>"
- do_cmp_cc(_SD, ccc, FA, Rb, Rc);
-_LOGIC,01100,10,ccc,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:CMPcc imm
-"cmp%s<ccc> f<FA>, r<RB>, <imm>"
- do_cmp_cc(_SD, ccc, FA, Rb, imm);
-_LOGIC,01100,10,ccc,3.FA,6.RB,_IMM32:LOGIC:long:iu,mu:CMPcc imm long
-"cmp%s<ccc> f<FA>, r<RB>, <imm>"
- do_cmp_cc(_SD, ccc, FA, Rb, imm);
-
-
-
-// CMPUcc
-
-void::function::do_cmpu_cc:int cc, int fa, unsigned32 rb, unsigned32 rc
- int value = 0;
- switch (cc) {
- case 2: /* GT */
- value = (rb > rc);
- break;
- case 3: /* GE */
- value = (rb >= rc);
- break;
- case 4: /* LT */
- value = (rb < rc);
- break;
- case 5: /* LE */
- value = (rb <= rc);
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "do_cmpu_cc - internal error - bad switch (%d)", cc);
- }
- PSW_FLAG_SET_QUEUE(fa, value);
-
-_LOGIC,01101,00,ccc,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:CMPUcc
-"cmpu%s<ccc> f<FA>, r<RB>, r<RC>"
- do_cmpu_cc(_SD, ccc, FA, Rb, Rc);
-_LOGIC,01101,10,ccc,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:CMPUcc imm
-"cmpu%s<ccc> f<FA>, r<RB>, <imm>"
- do_cmpu_cc(_SD, ccc, FA, Rb, imm_6u);
-_LOGIC,01101,10,ccc,3.FA,6.RB,_IMM32:LOGIC:long:iu,mu:CMPUcc imm long
-"cmpu%s<ccc> f<FA>, r<RB>, <imm>"
- do_cmpu_cc(_SD, ccc, FA, Rb, imm);
-
-
-
-// DBRA
-
-void::function::do_dbra:address_word pcdisp, unsigned32 ra
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, cia + pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
-
-_BRA,10000,00,6.RA,6.**,6.RC:BRA:short:mu:DBRA
-"dbra r<RA>, r<RC>"
- do_dbra(_SD, pcdisp, val_Ra);
-_BRA,10000,10,6.RA,_IMM12:BRA:short:mu:DBRA imm
-"dbra r<RA>, <pcdisp>"
- do_dbra(_SD, pcdisp, val_Ra);
-_BRA,10000,10,6.RA,6.**,_IMM32:BRA:long:mu:DBRA imm long
-"dbra r<RA>, <pcdisp>"
- do_dbra(_SD, pcdisp, val_Ra);
-
-
-
-// DBRAI
-
-void::function::do_dbrai:address_word pcdisp, unsigned32 imm
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, cia + pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
-
-_BRA,10100,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DBRAI
-"dbrai <IMM_6>, r<RC>"
- do_dbrai(_SD, pcdisp, IMM_6);
-_BRA,10100,10,6.IMM_6,_IMM12:BRA:short:mu:DBRAI imm
-"dbrai <IMM_6>, <pcdisp>"
- do_dbrai(_SD, pcdisp, IMM_6);
-_BRA,10100,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DBRAI imm long
-"dbrai <IMM_6>, <pcdisp>"
- do_dbrai(_SD, pcdisp, IMM_6);
-
-
-
-// DBSR
-
-void::function::do_dbsr:address_word pcdisp, unsigned32 ra
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, cia + pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + ra);
- WRITE32_QUEUE (&GPR[62], cia + ra + 8);
-
-_BRA,10010,00,6.RA,6.**,6.RC:BRA:short:mu:DBSR
-"dbsr r<RA>, r<RC>"
- do_dbsr(_SD, pcdisp, val_Ra);
-_BRA,10010,10,6.RA,_IMM12:BRA:short:mu:DBSR imm
-"dbsr r<RA>, <pcdisp>"
- do_dbsr(_SD, pcdisp, val_Ra);
-_BRA,10010,10,6.RA,6.**,_IMM32:BRA:long:mu:DBSR imm long
-"dbsr r<RA>, <pcdisp>"
- do_dbsr(_SD, pcdisp, val_Ra);
-
-
-
-// DBSRI
-
-void::function::do_dbsri:address_word pcdisp, unsigned32 imm
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, cia + pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
- WRITE32_QUEUE (&GPR[62], cia + (imm << 3) + 8);
-
-_BRA,10110,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DBSRI
-"dbsri <IMM_6>, r<RC>"
- do_dbsri(_SD, pcdisp, IMM_6);
-_BRA,10110,10,6.IMM_6,_IMM12:BRA:short:mu:DBSRI imm
-"dbsri <IMM_6>, <pcdisp>"
- do_dbsri(_SD, pcdisp, IMM_6);
-_BRA,10110,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DBSRI imm long
-"dbsri <IMM_6>, <pcdisp>"
- do_dbsri(_SD, pcdisp, IMM_6);
-
-
-
-// DBT
-
-
-_BRA,01011,00,6.**,6.**,6.**:BRA:short:mu:DBT
-"dbt"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- {
- WRITE32_QUEUE (&DPC, RPT_S);
- if (RPT_C == 0)
- PSW_SET (PSW_RP, 0);
- }
- else
- WRITE32_QUEUE (&DPC, cia + 8);
- DID_TRAP = 2;
- nia = 0xfffff120; /* debug_trap_address */
-
-// DJMP
-
-void::function::do_djmp:address_word pcdisp, unsigned32 ra
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
-
-_BRA,10001,00,6.RA,6.**,6.RC:BRA:short:mu:DJMP
-"djmp r<RA>, r<RC>"
- do_djmp(_SD, pcdisp, val_Ra);
-_BRA,10001,10,6.RA,_IMM12:BRA:short:mu:DJMP imm
-"djmp r<RA>, <pcdisp>"
- do_djmp(_SD, pcdisp, val_Ra);
-_BRA,10001,10,6.RA,6.**,_IMM32:BRA:long:mu:DJMP imm long
-"djmp r<RA>, <pcdisp>"
- do_djmp(_SD, pcdisp, val_Ra);
-
-
-
-// DJMPI
-
-void::function::do_djmpi:address_word pcdisp, unsigned32 imm
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
-
-_BRA,10101,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DJMPI
-"djmpi <IMM_6>, r<RC>"
- do_djmpi(_SD, pcdisp, IMM_6);
-_BRA,10101,10,6.IMM_6,_IMM12:BRA:short:mu:DJMPI imm
-"djmpi <IMM_6>, <pcdisp>"
- do_djmpi(_SD, pcdisp, IMM_6);
-_BRA,10101,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DJMPI imm long
-"djmpi <IMM_6>, <pcdisp>"
- do_djmpi(_SD, pcdisp, IMM_6);
-
-
-
-// DJSR
-
-void::function::do_djsr:address_word pcdisp, unsigned32 ra
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
- WRITE32_QUEUE (&GPR[62], cia + (ra & ~0x7) + 8);
-
-_BRA,10011,00,6.RA,6.**,6.RC:BRA:short:mu:DJSR
-"djsr r<RA>, r<RC>"
- do_djsr(_SD, pcdisp, val_Ra);
-_BRA,10011,10,6.RA,_IMM12:BRA:short:mu:DJSR imm
-"djsr r<RA>, <pcdisp>"
- do_djsr(_SD, pcdisp, val_Ra);
-_BRA,10011,10,6.RA,6.**,_IMM32:BRA:long:mu:DJSR imm long
-"djsr r<RA>, <pcdisp>"
- do_djsr(_SD, pcdisp, val_Ra);
-
-
-
-// DJSRI
-
-void::function::do_djsri:address_word pcdisp, unsigned32 imm
- PSW_SET_QUEUE (PSW_RP, 1);
- WRITE32_QUEUE (&RPT_C, 1);
- WRITE32_QUEUE (&RPT_S, pcdisp);
- WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
- WRITE32_QUEUE (&GPR[62], cia + (imm << 3) + 8);
-
-_BRA,10111,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DJSRI
-"djsri <IMM_6>, r<RC>"
- do_djsri(_SD, pcdisp, IMM_6);
-_BRA,10111,10,6.IMM_6,_IMM12:BRA:short:mu:DJSRI imm
-"djsri <IMM_6>, <pcdisp>"
- do_djsri(_SD, pcdisp, IMM_6);
-_BRA,10111,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DJSRI imm long
-"djsri <IMM_6>, <pcdisp>"
- do_djsri(_SD, pcdisp, IMM_6);
-
-
-
-// JMP
-
-_BRA,00001,00,6.**,6.**,6.RC:BRA:short:mu:JMP
-"jmp r<RC>"
- nia = pcaddr;
- if (RC == 62 && TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_RETURN;
-_BRA,00001,10,_IMM18:BRA:short:mu:JMP imm
-"jmp <pcdisp>"
- nia = pcaddr;
-_BRA,00001,10,6.**,6.**,_IMM32:BRA:long:mu:JMP imm long
-"jmp <pcdisp>"
- nia = pcaddr;
-
-
-
-// JMPTNZ
-
-_BRA,00101,01,6.RA,6.**,6.RC:BRA:short:mu:JMPTNZ
-"jmptnz r<RC>"
- if (val_Ra != 0)
- nia = pcaddr;
-_BRA,00101,11,6.RA,_IMM12:BRA:short:mu:JMPTNZ imm
-"jmptnz <pcdisp>"
- if (val_Ra != 0)
- nia = pcaddr;
-_BRA,00101,11,6.RA,6.**,_IMM32:BRA:long:mu:JMPTNZ imm long
-"jmptnz <pcdisp>"
- if (val_Ra != 0)
- nia = pcaddr;
-
-
-
-// JMPTZR
-
-_BRA,00101,00,6.RA,6.**,6.RC:BRA:short:mu:JMPTZR
-"jmptzr r<RC>"
- if (val_Ra == 0)
- nia = pcaddr;
-_BRA,00101,10,6.RA,_IMM12:BRA:short:mu:JMPTZR imm
-"jmptzr <pcdisp>"
- if (val_Ra == 0)
- nia = pcaddr;
-_BRA,00101,10,6.RA,6.**,_IMM32:BRA:long:mu:JMPTZR imm long
-"jmptzr <pcdisp>"
- if (val_Ra == 0)
- nia = pcaddr;
-
-
-
-// JOINpp
-
-void::function::do_join_pp:int pp, unsigned32 *ra, unsigned32 rb, unsigned32 src
- switch (pp) {
- case 0x0: /* LL */
- WRITE32_QUEUE (ra, ((unsigned32)VL2_4(rb) << 16) | VL2_4(src));
- break;
- case 0x1: /* LH */
- WRITE32_QUEUE (ra, ((unsigned32)VL2_4(rb) << 16) | VH2_4(src));
- break;
- case 0x2: /* HL */
- WRITE32_QUEUE (ra, ((unsigned32)VH2_4(rb) << 16) | VL2_4(src));
- break;
- case 0x3: /* HH */
- WRITE32_QUEUE (ra, ((unsigned32)VH2_4(rb) << 16) | VH2_4(src));
- break;
- }
-
-::%s::pp:int pp
- switch (pp)
- {
- case 0x0: return "ll";
- case 0x1: return "lh";
- case 0x2: return "hl";
- case 0x3: return "hh";
- default: return "?";
- }
-
-_IALU1,011,pp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:JOINpp
-"join%s<pp> r<RA>, r<RB>, r<RC>"
- do_join_pp(_SD, pp, Ra, Rb, Rc);
-_IALU1,011,pp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:JOINpp imm
-"join%s<pp> r<RA>, r<RB>, <imm>"
- do_join_pp(_SD, pp, Ra, Rb, immHL);
-_IALU1,011,pp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:JOINpp imm long
-"join%s<pp> r<RA>, r<RB>, <imm>"
- do_join_pp(_SD, pp, Ra, Rb, immHL);
-
-
-
-// JSR
-
-_BRA,00011,00,6.**,6.**,6.RC:BRA:short:mu:JSR
-"jsr r<RC>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- return pcaddr;
-_BRA,00011,10,_IMM18:BRA:short:mu:JSR imm
-"jsr <pcdisp>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- return pcaddr;
-_BRA,00011,10,6.**,6.**,_IMM32:BRA:long:mu:JSR imm long
-"jsr <pcdisp>"
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- return pcaddr;
-
-
-// JSRTNZ
-
-_BRA,00111,01,6.RA,6.**,6.RC:BRA:short:mu:JSRTNZ
-"jsrtnz r<RC>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-_BRA,00111,11,6.RA,_IMM12:BRA:short:mu:JSRTNZ imm
-"jsrtnz <pcdisp>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-_BRA,00111,11,6.RA,6.**,_IMM32:BRA:long:mu:JSRTNZ imm long
-"jsrtnz <pcdisp>"
- if (val_Ra != 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-
-
-// JSRTZR
-
-_BRA,00111,00,6.RA,6.**,6.RC:BRA:short:mu:JSRTZR
-"jsrtzr r<RC>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-_BRA,00111,10,6.RA,_IMM12:BRA:short:mu:JSRTZR imm
-"jsrtzr <pcdisp>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-_BRA,00111,10,6.RA,6.**,_IMM32:BRA:long:mu:JSRTZR imm long
-"jsrtzr <pcdisp>"
- if (val_Ra == 0) {
- if (cia == RPT_E && PSW_VAL (PSW_RP))
- WRITE32_QUEUE (&GPR[62], RPT_S);
- else
- WRITE32_QUEUE (&GPR[62], cia + 8);
- nia = pcaddr;
- if (TRACE_CALL_P)
- TRACE_ACTION |= TRACE_ACTION_CALL;
- }
-
-
-
-// Post increment
-
-void::function::do_incr:int x, unsigned32 *rb, int delta
- unsigned32 next_rb;
- if (x == 1)
- next_rb = *rb + delta;
- else if (x == 3)
- next_rb = *rb - delta;
- else
- next_rb = *rb; /* value not used */
- /* HW erratum: check value after incrementing */
- if (next_rb == MOD_E
- && (x == 1 || x == 3)
- && (PSW_VAL(PSW_MD))) {
- WRITE32_QUEUE (rb, MOD_S);
- }
- else if (x == 1 || x == 3)
- WRITE32_QUEUE (rb, next_rb);
-
-// LD2H
-
-int::function::make_even_reg:int reg, const char *name
- if (reg & 1)
- sim_engine_abort (SD, CPU, cia,
- "0x%lx:%s odd register (r%d) used in multi-word load/mulx2h",
- (long) cia, name, reg);
- return reg;
-
-void::function::do_ld2h:int ra, unsigned32 rb, unsigned32 src
- signed32 mem;
- ra = make_even_reg(_SD, ra, "LD2H");
- mem = MEM(signed, rb + src, 4);
- if (ra != 0)
- {
- WRITE32_QUEUE (&GPR[ra + 0], SEXT32(EXTRACTED32(mem, 0, 15), 16));
- WRITE32_QUEUE (&GPR[ra + 1], SEXT32(EXTRACTED32(mem, 16, 31), 16));
- }
-
-::%s::XX:int XX
- switch (XX)
- {
- case 0: return "";
- case 1: return "+";
- case 3: return "-";
- default: return "?";
- }
-
-_IMEM,00011,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD2H
-"ld2h r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ld2h r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ld2h(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,00011,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD2H long
-"ld2h r<RA>, @(r<RB>, <imm>)"
- do_ld2h(_SD, RA, Rb, imm);
-
-
-
-// LD2W
-
-void::function::do_ld2w:int ra, unsigned32 rb, unsigned32 src
- unsigned64 mem;
- ra = make_even_reg(_SD, ra, "LD2W");
- mem = MEM(unsigned, rb + src, 8);
- if (ra != 0)
- {
- WRITE32_QUEUE (&GPR[ra + 0], EXTRACTED64 (mem, 0, 31));
- WRITE32_QUEUE (&GPR[ra + 1], EXTRACTED64 (mem, 32, 63));
- }
-
-_IMEM,00110,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:L2W
-"ld2w r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ld2w r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ld2w(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 8);
-_IMEM,00110,10,6.RA,6.RB,_IMM32:IMEM:long:mu:L2W long
-"ld2w r<RA>, @(r<RB>, <imm>)"
- do_ld2w(_SD, RA, Rb, imm);
-
-
-
-// LD4BH
-
-void::function::do_ld4bh:unsigned32 ra, unsigned32 rb, unsigned32 src
- unsigned16 l1, l2, h1, h2;
- unsigned32 mem;
- ra = make_even_reg(_SD, ra, "LD4BH");
- mem = MEM(unsigned, rb + src, 4);
- h1 = SEXT16(EXTRACTED32(mem, 0, 7), 8);
- l1 = SEXT16(EXTRACTED32(mem, 8, 15), 8);
- h2 = SEXT16(EXTRACTED32(mem, 16, 23), 8);
- l2 = SEXT16(EXTRACTED32(mem, 24, 31), 8);
- if (ra != 0)
- {
- WRITE32_QUEUE (&GPR[ra + 0], (h1 << 16) | l1);
- WRITE32_QUEUE (&GPR[ra + 1], (h2 << 16) | l2);
- }
-
-_IMEM,00101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD4BH
-"ld4bh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ld4bh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ld4bh(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,00101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD4BH long
-"ld4bh r<RA>, @(r<RB>, <imm>)"
- do_ld4bh(_SD, RA, Rb, imm);
-
-
-
-// LD4BHU
-
-void::function::do_ld4bhu:unsigned32 ra, unsigned32 rb, unsigned32 src
- unsigned16 l1, l2, h1, h2;
- unsigned32 mem;
- ra = make_even_reg(_SD, ra, "LD4BH");
- mem = MEM(signed, rb + src, 4);
- h1 = EXTRACTED32(mem, 0, 7);
- l1 = EXTRACTED32(mem, 8, 15);
- h2 = EXTRACTED32(mem, 16, 23);
- l2 = EXTRACTED32(mem, 24, 31);
- if (ra != 0)
- {
- WRITE32_QUEUE (&GPR[ra + 0], (h1 << 16) | l1);
- WRITE32_QUEUE (&GPR[ra + 1], (h2 << 16) | l2);
- }
-
-_IMEM,01101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD4BHU
-"ld4hbu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ld4hbu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ld4bhu(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,01101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD4BHU long
-"ld4hbu r<RA>, @(r<RB>, <imm>)"
- do_ld4bhu(_SD, RA, Rb, imm);
-
-
-
-// LDB
-
-void::function::do_ldb:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(signed, rb + src, 1));
-
-_IMEM,00000,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDB
-"ldb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldb(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 1);
-_IMEM,00000,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDB long
-"ldb r<RA>, @(r<RB>, <imm>)"
- do_ldb(_SD, Ra, Rb, imm);
-
-
-
-// LDBU
-
-void::function::do_ldbu:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(unsigned, rb + src, 1));
-
-_IMEM,01001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDBU
-"ldbu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldbu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldbu(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 1);
-_IMEM,01001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDBU long
-"ldbu r<RA>, @(r<RB>, <imm>)"
- do_ldbu(_SD, Ra, Rb, imm);
-
-
-
-// LDH
-
-void::function::do_ldh:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(signed, rb + src, 2));
-
-_IMEM,00010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDH
-"ldh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldh(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 2);
-_IMEM,00010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDH long
-"ldh r<RA>, @(r<RB>, <imm>)"
- do_ldh(_SD, Ra, Rb, imm);
-
-
-
-// LDHH
-
-void::function::do_ldhh:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(signed, rb + src, 2) << 16);
-
-_IMEM,00001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDHH
-"ldhh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldhh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldhh(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 2);
-_IMEM,00001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDHH long
-"ldhh r<RA>, @(r<RB>, <imm>)"
- do_ldhh(_SD, Ra, Rb, imm);
-
-
-
-// LDHU
-
-void::function::do_ldhu:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(unsigned, rb + src, 2));
-
-_IMEM,01010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDHU
-"ldhu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldhu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldhu(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 2);
-_IMEM,01010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDHU long
-"ldhu r<RA>, @(r<RB>, <imm>)"
- do_ldhu(_SD, Ra, Rb, imm);
-
-
-
-// LDW
-
-void::function::do_ldw:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, MEM(signed, rb + src, 4));
-
-_IMEM,00100,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDW
-"ldw r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"ldw r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_ldw(_SD, Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,00100,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDW long
-"ldw r<RA>, @(r<RB>, <imm>)"
- do_ldw(_SD, Ra, Rb, imm);
-
-
-
-// MACa
-
-void::function::do_mac:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
- unsigned64 accum = *aa;
- accum += (signed64) (rb) * (signed64) (src);
- WRITE64_QUEUE (aa, accum);
- WRITE32_QUEUE (ra, EXTRACTED64(accum, 32, 63));
-
-_IALU2,10100,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MACa
-"mac<AA> r<RA>, r<RB>, r<RC>"
- do_mac(_SD, Aa, Ra, Rb, Rc);
-_IALU2,10100,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MACa imm
-"mac<AA> r<RA>, r<RB>, <imm>"
- do_mac(_SD, Aa, Ra, Rb, imm);
-
-
-
-// MACSa
-
-void::function::do_macs:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
- unsigned64 accum = *aa;
- accum += ((signed64) (rb) * (signed64) (src)) << 1;
- WRITE64_QUEUE (aa, accum);
- WRITE32_QUEUE (ra, EXTRACTED64(accum, 0, 31));
-
-_IALU2,10101,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MACSa
-"macs<AA> r<RA>, r<RB>, r<RC>"
- do_macs(_SD, Aa, Ra, Rb, Rc);
-_IALU2,10101,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MACSa imm
-"macs<AA> r<RA>, r<RB>, <imm>"
- do_macs(_SD, Aa, Ra, Rb, imm);
-
-
-
-// MODDEC | MODINC
-
-_IMEM,00111,11,6.**,6.RB,_IMM6:IMEM:short:mu:MODDEC
-"moddec r<RB>, <imm>"
- do_incr(_SD, 3/*0b11*/, &GPR[RB], imm_5);
-_IMEM,00111,01,6.**,6.RB,_IMM6:IMEM:short:mu:MODINC
-"modinc r<RB>, <imm>"
- do_incr(_SD, 1/*0b01*/, &GPR[RB], imm_5);
-
-
-
-// MSUBa
-
-void::function::do_msub:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
- unsigned64 accum = *aa;
- accum -= (signed64) (rb) * (signed64) (src);
- WRITE64_QUEUE (aa, accum);
- WRITE32_QUEUE (ra, EXTRACTED64(accum, 32, 63));
-
-_IALU2,10110,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MSUBa
-"msub<AA> r<RA>, r<RB>, r<RC>"
- do_msub(_SD, Aa, Ra, Rb, Rc);
-_IALU2,10110,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MSUBa imm
-"msub<AA> r<RA>, r<RB>, <imm>"
- do_msub(_SD, Aa, Ra, Rb, imm);
-
-
-
-// MSUBSa
-
-void::function::do_msubs:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
- unsigned64 accum = *aa;
- accum -= ((signed64) (rb) * (signed64) (src)) << 1;
- WRITE64_QUEUE (aa, accum);
- WRITE32_QUEUE (ra, EXTRACTED64(accum, 0, 31));
-
-_IALU2,10111,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MSUBSa
-"msubs<AA> r<RA>, r<RB>, r<RC>"
- do_msubs(_SD, Aa, Ra, Rb, Rc);
-_IALU2,10111,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MSUBSa imm
-"msubs<AA> r<RA>, r<RB>, <imm>"
- do_msubs(_SD, Aa, Ra, Rb, imm);
-
-
-
-// MUL
-
-void::function::do_mul:unsigned32 *ra, unsigned32 rb, unsigned32 src
- WRITE32_QUEUE (ra, rb * src);
-
-_IALU2,10000,00,6.RA,6.RB,6.RC:IALU2:short:iu:MUL
-"mul r<RA>, r<RB>, r<RC>"
- do_mul(_SD, Ra, Rb, Rc);
-_IALU2,10000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MUL imm
-"mul r<RA>, r<RB>, <imm>"
- do_mul(_SD, Ra, Rb, imm);
-
-
-
-// MUL2H
-
-void::function::do_mul2h:unsigned32 *ra, unsigned32 rb, unsigned32 src
- unsigned16 high = VH2_4(rb) * VH2_4(src);
- unsigned16 low = VL2_4(rb) * VL2_4(src);
- WRITE32_QUEUE (ra, (high << 16) | low);
-
-_IALU2,00000,00,6.RA,6.RB,6.RC:IALU2:short:iu:MUL2H
-"mul2h r<RA>, r<RB>, r<RC>"
- do_mul2h(_SD, Ra, Rb, Rc);
-_IALU2,00000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MUL2H imm
-"mul2h r<RA>, r<RB>, <imm>"
- do_mul2h(_SD, Ra, Rb, immHL);
-
-
-
-// MULX
-
-void::function::do_mulx:unsigned64 *aa, signed32 rb, signed32 src
- WRITE64_QUEUE (aa, (signed64) (rb) * (signed64) (src));
-
-_IALU2,11000,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MULX
-"mulx a<AA>, r<RB>, r<RC>"
- do_mulx(_SD, Aa, Rb, Rc);
-_IALU2,11000,10,5.*,1.AA,6.RB,_IMM6:IALU2:short:iu:MULX imm
-"mulx a<AA>, r<RB>, <imm>"
- do_mulx(_SD, Aa, Rb, imm);
-
-
-// MULX2H
-
-void::function::do_mulx2h:int ra, signed32 rb, signed32 src, int high
- signed32 result = rb * src;
- if (!high)
- {
- ra = make_even_reg(_SD, ra, "MULX2H");
- if (ra != 0)
- WRITE32_QUEUE (&GPR[ra+1], result);
- }
- else if (ra != 0)
- {
- WRITE32_QUEUE (&GPR[ra+0], result);
- }
-
-_IALU2,00001,00,6.RA,6.RB,6.RC:IALU2:short:iu:MULX2H
-"mul2h r<RA>, r<RB>, r<RC>"
- do_mulx2h(_SD, RA, RbH, RcH, 1);
- do_mulx2h(_SD, RA, RbL, RcL, 0);
-_IALU2,00001,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MULX2H imm
-"mul2h r<RA>, r<RB>, <imm>"
- do_mulx2h(_SD, RA, RbH, imm, 1);
- do_mulx2h(_SD, RA, RbL, imm, 0);
-
-// MULHXpp
-
-void::function::do_mulhx:int pp, unsigned32 *ra, unsigned32 rb, unsigned32 src
- signed32 value = 0;
- switch (pp) {
- case 0: /* LL */
- value = SEXT32(VL2_4(rb), 16) * SEXT32(VL2_4(src), 16);
- break;
- case 1: /* LH */
- value = SEXT32(VL2_4(rb), 16) * SEXT32(VH2_4(src), 16);
- break;
- case 2: /* HL */
- value = SEXT32(VH2_4(rb), 16) * SEXT32(VL2_4(src), 16);
- break;
- case 3: /* HH */
- value = SEXT32(VH2_4(rb), 16) * SEXT32(VH2_4(src), 16);
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "do_mulhx - internal error - bad switch");
- }
- WRITE32_QUEUE (ra, value);
-
-_IALU2,001,pp,00,6.RA,6.RB,6.RC:IALU2:short:iu:MULHXpp
-"mulhx%s<pp> r<RA>, r<RB>, r<RC>"
- do_mulhx(_SD, pp, Ra, Rb, Rc);
-_IALU2,001,pp,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MULHXpp imm
-"mulhx%s<pp> r<RA>, r<RB>, <imm>"
- do_mulhx(_SD, pp, Ra, Rb, immHL);
-
-
-
-// MULXS
-
-void::function::do_mulxs:unsigned64 *aa, signed32 rb, signed32 src
- WRITE64_QUEUE (aa, ((signed64) (rb) * (signed64) (src)) << 1);
-
-_IALU2,11001,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MULXS
-"mulxs a<AA>, r<RB>, r<RC>"
- do_mulxs(_SD, Aa, Rb, Rc);
-_IALU2,11001,10,5.*,1.AA,6.RB,_IMM6:IALU2:short:iu:MULXS imm
-"mulxs a<AA>, r<RB>, <imm>"
- do_mulxs(_SD, Aa, Rb, imm);
-
-
-
-// MVFACC
-
-void::function::do_mvfacc:unsigned32 *ra, unsigned64 ab, unsigned32 src
- while (src > 63) src -= 64;
- WRITE32_QUEUE (ra, ((signed64)ab) >> src);
-
-_IALU2,11111,00,6.RA,5.*,1.AB,6.RC:IALU2:short:iu:MVFACC
-"mvfacc r<RA>, a<AB>, r<RC>"
- do_mvfacc(_SD, Ra, *Ab, Rc);
-_IALU2,11111,10,6.RA,5.*,1.AB,_IMM6:IALU2:short:iu:MVFACC imm
-"mvfacc r<RA>, a<AB>, <imm>"
- do_mvfacc(_SD, Ra, *Ab, imm_6u);
-
-
-
-// MVFSYS
-
-_BRA,11110,00,6.RA,6.CR,6.ID:BRA:short:mu:MVFSYS
-"mvfsys r<RA>, cr<CR>"
- switch (ID) {
- case 0:
- if (CR >= NR_CONTROL_REGISTERS)
- sim_engine_abort (SD, CPU, cia, "FIXME - illegal CR");
- else
- WRITE32_QUEUE (Ra, (CPU)->regs.control[CR]);
- break;
- case 1:
- WRITE32_QUEUE (Ra, PSWL);
- break;
- case 2:
- WRITE32_QUEUE (Ra, EXTRACTED32(PSWH, 16, 31));
- break;
- case 3:
- WRITE32_QUEUE (Ra, PSW_FLAG_VAL(CR));
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "FIXME - illegal ID");
- }
-
-
-
-// MVTACC
-
-_IALU2,01111,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MVTACC
-"mvtacc a<AA>, r<RB>, r<RC>"
- WRITE64_QUEUE (Aa, INSERTED64(RbU, 0, 31) | (RcU));
-
-
-
-// MVTSYS
-
-_BRA,01110,00,6.CR,6.RB,6.ID:BRA:short:mu:MVTSYS
-"mvtsys cr<CR>, r<RB>"
- switch (ID) {
- case 0: /* control register */
- if (CR >= NR_CONTROL_REGISTERS)
- sim_engine_abort (SD, CPU, cia, "FIXME - illegal CR");
- else
- {
- unsigned32 value = Rb;
- CPU->mvtsys_left_p = 1;
- if (CR == processor_status_word_cr)
- {
- unsigned32 ds = PSW & BIT32 (PSW_DS); /* preserve ds */
- value = ds | (value & PSW_VALID);
- }
- else if (CR == backup_processor_status_word_cr
- || CR == debug_backup_processor_status_word_cr)
- value &= DPSW_VALID;
- else if (CR == eit_vector_base_cr)
- value &= EIT_VALID;
- WRITE32_QUEUE (&(CPU)->regs.control[CR], value);
- }
- break;
- case 1: /* PSWL */
- WRITE32_QUEUE_MASK (&PSW, EXTRACTED32(Rb, 16, 31),
- PSW_VALID & 0x0000ffff);
- break;
- case 2: /* PSWH */
- {
- unsigned32 ds = PSW & BIT32 (PSW_DS); /* preserve ds */
- WRITE32_QUEUE_MASK (&PSW, (EXTRACTED32(Rb, 16, 31) << 16) | ds,
- (PSW_VALID | ds) & 0xffff0000);
- }
- break;
- case 3: /* FLAG */
- PSW_FLAG_SET_QUEUE(CR, Rb & 1);
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "FIXME - illegal ID");
- }
-
-
-
-// NOP
-
-_BRA,01111,00,6.**,6.**,6.**:BRA:short:iu,mu:NOP
-"nop"
- /* NOP */;
-
-
-// NOT
-
-_LOGIC,11001,00,6.RA,6.RB,6.*:LOGIC:short:iu,mu:NOT
-"not r<RA>, r<RB>"
- WRITE32_QUEUE (Ra, ~Rb);
-
-
-
-// NOTFG
-
-_LOGIC,01001,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:NOTFG
-"notfg f<FA>, f<FB>"
- PSW_FLAG_SET_QUEUE(FA, !PSW_FLAG_VAL(FB));
-
-
-// OR
-
-_LOGIC,11010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:OR
-"or r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, Rb | Rc);
-_LOGIC,11010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:OR imm
-"or r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb | imm);
-_LOGIC,11010,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:OR imm long
-"or r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb | imm);
-
-
-
-// ORFG
-
-_LOGIC,01010,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:ORFG
-"orfg f<FA>, f<FB>, f<FC>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) | PSW_FLAG_VAL(FC));
-_LOGIC,01010,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:ORFG imm
-"orfg f<FA>, f<FB>, <imm>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) | (imm_6 & 1));
-
-
-
-// REIT
-
-_BRA,01000,00,6.**,6.**,6.**:BRA:short:mu:REIT
-"reit"
- WRITE32_QUEUE (&PSW, bPSW);
- nia = bPC;
-
-
-
-
-// REPEAT
-
-void::function::do_repeat:unsigned32 count, address_word pcaddr
- address_word rpt_s = cia + 8;
- address_word rpt_e = cia + pcaddr;
-
- if (count == 0)
- sim_engine_abort (SD, CPU, cia, "REPEAT with ra=0 and REPEATI with imm = 0 is forbidden.");
- if (count > 1)
- PSW_SET_QUEUE (PSW_RP, 1);
- if (rpt_e < rpt_s + 0x10)
- sim_io_eprintf (sd, "warning: 0x%lx: REPEAT or REPEATI loop is too small\n", (long) cia);
- WRITE32_QUEUE (&RPT_C, count - 1);
- WRITE32_QUEUE (&RPT_S, rpt_s);
- WRITE32_QUEUE (&RPT_E, rpt_e);
-
-_BRA,11000,00,6.RA,6.**,6.RC:BRA:short:mu:REPEAT
-"repeat r<RA>, r<RC>"
- do_repeat(_SD, val_Ra, pcaddr);
-_BRA,11000,10,6.RA,_IMM12:BRA:short:mu:REPEAT imm
-"repeat r<RA>, <pcaddr>"
- do_repeat(_SD, val_Ra, pcaddr);
-_BRA,11000,10,6.RA,6.**,_IMM32:BRA:long:mu:REPEAT imm long
-"repeat r<RA>, <pcaddr>"
- do_repeat(_SD, val_Ra, pcaddr);
-
-
-
-
-// REPEATI
-
-_BRA,11010,00,6.IMM_6,6.**,6.RC:BRA:short:mu:REPEATI
-"repeati <IMM_6>, r<RC>"
- do_repeat(_SD, IMM_6, pcaddr);
-_BRA,11010,10,6.IMM_6,_IMM12:BRA:short:mu:REPEATI imm
-"repeati <IMM_6>, <pcaddr>"
- do_repeat(_SD, IMM_6, pcaddr);
-_BRA,11010,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:REPEATI imm long
-"repeati <IMM_6>, <pcaddr>"
- do_repeat(_SD, IMM_6, pcaddr);
-
-
-
-
-// RTD
-
-_BRA,01010,00,6.*,6.*,6.*:BRA:short:mu:RTD
-"rtd"
- WRITE32_QUEUE (&PSW, DPSW);
- nia = DPC;
-
-
-
-
-// ROT
-
-_LOGIC,10100,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:ROT
-"rot r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, ROT32(Rb, Rc & 0x1f));
-_LOGIC,10100,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:ROT imm
-"rot r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, ROT32(Rb, imm & 0x1f));
-
-
-
-
-// ROT2H
-
-void::function::do_rot2h:unsigned32 *ra, unsigned32 rb, signed32 src
- unsigned16 high = ROTR16(VH2_4(rb), VH2_4(src) & 0xf);
- unsigned16 low = ROTR16(VL2_4(rb), VL2_4(src) & 0xf);
- WRITE32_QUEUE (ra, (high << 16) | low);
-
-_LOGIC,10101,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:ROT2H
-"rot2h r<RA>, r<RB>, r<RC>"
- do_rot2h(_SD, Ra, Rb, Rc);
-_LOGIC,10101,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:ROT2H imm
-"rot2h r<RA>, r<RB>, <imm>"
- do_rot2h(_SD, Ra, Rb, immHL);
-
-
-
-
-// SAT
-
-void::function::do_sat:signed32 *ra, signed32 rb, signed32 src
- int bits = LSMASKED32(src, 4, 0); /* 5 */
- signed32 sat = LSMASK32(bits, 0) >> 2;
- signed32 nsat = ~sat;
- signed32 value;
- if (bits != src)
- sim_io_eprintf (sd, "warning: 0x%lx:SAT bit overflow\n", (long) cia);
- if (bits == 0)
- value = rb;
- else if (rb >= sat)
- value = sat;
- else if (rb <= nsat)
- value = nsat;
- else
- value = rb;
- WRITE32_QUEUE (ra, value);
-
-_IALU2,01000,00,6.RA,6.RB,6.RC:IALU2:short:iu:SAT
-"sat r<RA>, r<RB>, r<RC>"
- do_sat(_SD, Ra, Rb, Rc);
-_IALU2,01000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SAT imm
-"sat r<RA>, r<RB>, <imm>"
- do_sat(_SD, Ra, Rb, imm_5);
-
-
-
-
-// SAT2H
-
-void::function::do_sath:signed32 *ra, signed32 rb, signed32 src, int high, int updates_f4
- int bits = LSMASKED32(src, 4, 0); /* 5 */
- signed32 sat = LSMASK32(bits, 0) >> 2;
- signed32 nsat = ~sat;
- signed32 value;
- if (bits != src)
- sim_io_eprintf (sd, "warning: 0x%lx:SAT bit overflow\n", (long) cia);
- if (bits == 0)
- value = rb;
- else if (rb >= sat)
- value = sat;
- else if (rb <= nsat)
- value = nsat;
- else
- value = rb;
- if (high)
- WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
- else
- WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
- if (updates_f4)
- {
- /* if MU instruction was a MVTSYS (lkr), unqueue register writes now */
- if(STATE_CPU (sd, 0)->mvtsys_left_p)
- unqueue_writes (sd, STATE_CPU (sd, 0), cia);
- PSW_FLAG_SET_QUEUE(PSW_S_FLAG, PSW_FLAG_VAL(PSW_S_FLAG) ^ (value & 1));
- }
-
-_IALU2,01001,00,6.RA,6.RB,6.RC:IALU2:short:iu:SAT2H
-"sat2h r<RA>, r<RB>, r<RC>"
- do_sath(_SD, Ra, RbH, RcH, 1, 0);
- do_sath(_SD, Ra, RbL, RcL, 0, 0);
-_IALU2,01001,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SAT2H imm
-"sat2h r<RA>, r<RB>, <imm>"
- do_sath(_SD, Ra, RbH, imm_5, 1, 0);
- do_sath(_SD, Ra, RbL, imm_5, 0, 0);
-
-
-
-
-// SATHp
-
-::%s::p:int p
- switch (p)
- {
- case 0: return "l";
- case 1: return "h";
- default: return "?";
- }
-
-_IALU2,1110,p,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATHP
-"sath%s<p> r<RA>, r<RB>, r<RC>"
- do_sath(_SD, Ra, Rb, Rc, p, 1);
-_IALU2,1110,p,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATHP imm
-"sath%s<p> r<RA>, r<RB>, <imm>"
- do_sath(_SD, Ra, Rb, imm_5, p, 1);
-
-
-
-// SATZ
-
-void::function::do_satz:signed32 *ra, signed32 rb, signed32 src
- if (rb < 0)
- WRITE32_QUEUE (ra, 0);
- else
- do_sat (_SD, ra, rb, src);
-
-_IALU2,01010,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATZ
-"satz r<RA>, r<RB>, r<RC>"
- do_satz(_SD, Ra, Rb, Rc);
-_IALU2,01010,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATZ imm
-"satz r<RA>, r<RB>, <imm>"
- do_satz(_SD, Ra, Rb, imm_5);
-
-
-
-
-// SATZ2H
-
-void::function::do_satzh:signed32 *ra, signed16 rb, signed32 src, int high
- int bits = LSMASKED32(src, 3, 0); /*4*/
- signed16 sat = LSMASK16(bits, 0) >> 2;
- signed16 nsat = 0;
- signed16 value;
- if (bits != src)
- sim_io_eprintf (sd, "warning: 0x%lx:SATZ2H bit overflow\n", (long) cia);
- if (bits == 0 && rb > sat)
- value = rb;
- else if (rb > sat)
- value = sat;
- else if (rb < nsat)
- value = nsat;
- else
- value = rb;
- if (high)
- WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
- else
- WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
-
-
-_IALU2,01011,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATZ2H
-"satz2h r<RA>, r<RB>, r<RC>"
- do_satzh(_SD, Ra, RbH, RcH, 1);
- do_satzh(_SD, Ra, RbL, RcL, 0);
-_IALU2,01011,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATZ2H imm
-"satz2h r<RA>, r<RB>, <imm>"
- do_satzh(_SD, Ra, RbH, imm, 1);
- do_satzh(_SD, Ra, RbL, imm, 0);
-
-
-
-
-// SRA
-
-void::function::do_sra:unsigned32 *ra, unsigned32 rb, signed32 src
- unsigned32 value;
- while (src > 31) src -= 32;
- while (src < -32) src += 32;
- if (src >= 0)
- value = (signed32)rb >> src;
- else if (src == -32)
- value = 0;
- else
- value = rb << -src;
- WRITE32_QUEUE (ra, value);
-
-_LOGIC,10000,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRA
-"sra r<RA>, r<RB>, r<RC>"
- do_sra(_SD, Ra, Rb, Rc);
-_LOGIC,10000,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRA imm
-"sra r<RA>, r<RB>, <imm>"
- do_sra(_SD, Ra, Rb, imm);
-
-
-
-
-// SRAHp
-
-void::function::do_srah:unsigned32 *ra, unsigned32 rb, int src, int high
- unsigned32 value;
- while (src > 31) src -= 32;
- while (src < -32) src += 32;
- if (src >= 0)
- value = (signed32)rb >> src;
- else if (src == -32)
- value = 0;
- else
- value = rb << -src;
- if (high)
- WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
- else
- WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
-
-_LOGIC,0010,p,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRAHP
-"srah%s<p> r<RA>, r<RB>, r<RC>"
- do_srah(_SD, Ra, Rb, Rc, p);
-_LOGIC,0010,p,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRAHP imm
-"srah%s<p> r<RA>, r<RB>, <imm>"
- do_srah(_SD, Ra, Rb, imm, p);
-
-
-
-
-// SRA2H
-
-_LOGIC,10001,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRA2H
-"sra2h r<RA>, r<RB>, r<RC>"
- signed32 srcH = RcH;
- signed32 srcL = RcL;
- while (srcH > 15) srcH -= 16;
- while (srcH < -16) srcH += 16;
- while (srcL > 15) srcL -= 16;
- while (srcL < -16) srcL += 16;
- do_srah(_SD, Ra, RbH, srcH, 1);
- do_srah(_SD, Ra, RbL, srcL, 0);
-_LOGIC,10001,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRA2H imm
-"sra2h r<RA>, r<RB>, <imm>"
- signed32 src = imm;
- while (src > 15) src -= 16;
- while (src < -16) src += 16;
- do_srah(_SD, Ra, RbH, src, 1);
- do_srah(_SD, Ra, RbL, src, 0);
-
-
-
-
-// SRC
-
-void::function::do_src:unsigned32 *ra, unsigned32 rb, int src
- unsigned32 value;
- unsigned64 operand;
- unsigned64 shifted;
- while (src > 31) src -= 32;
- while (src < -32) src += 32;
- if (src >= 0)
- {
- operand = (INSERTED64(rb, 0, 31) | INSERTED64(*ra, 32, 63));
- shifted = operand >> src;
- value = EXTRACTED64(shifted, 32, 63);
- }
- else
- {
- operand = (INSERTED64(*ra, 0, 31) | INSERTED64(rb, 32, 63));
- shifted = operand << -src;
- value = EXTRACTED64(shifted, 0, 31);
- }
- WRITE32_QUEUE (ra, value);
-
-_LOGIC,10110,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRC
-"src r<RA>, r<RB>, r<RC>"
- do_src(_SD, Ra, Rb, Rc);
-_LOGIC,10110,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRC imm
-"src r<RA>, r<RB>, <imm>"
- do_src(_SD, Ra, Rb, imm);
-
-
-
-
-// SRL
-
-void::function::do_srl:unsigned32 *ra, unsigned32 rb, int src
- unsigned32 value;
- while (src > 31) src -= 32;
- while (src < -32) src += 32;
- if (src >= 0)
- value = (unsigned32)rb >> src;
- else if (src == -32)
- value = 0;
- else
- value = (unsigned32)rb << -src;
- WRITE32_QUEUE (ra, value);
-
-_LOGIC,10010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRL
-"srl r<RA>, r<RB>, r<RC>"
- do_srl(_SD, Ra, Rb, Rc);
-_LOGIC,10010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRL imm
-"srl r<RA>, r<RB>, <imm>"
- do_srl(_SD, Ra, Rb, imm);
-
-
-
-
-// SRLHp
-
-void::function::do_srlh:unsigned32 *ra, unsigned32 rb, int src, int high
- unsigned32 value;
- while (src > 31) src -= 32;
- while (src < -32) src += 32;
- if (src >= 0)
- value = rb >> src;
- else if (src == -32)
- value = 0;
- else
- value = rb << -src;
- if (high)
- WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
- else
- WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
-
-_LOGIC,0011,p,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRLHP
-"srlh%s<p> r<RA>, r<RB>, r<RC>"
- do_srlh(_SD, Ra, Rb, Rc, p);
-_LOGIC,0011,p,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRLHP imm
-"srlh%s<p> r<RA>, r<RB>, <imm>"
- do_srlh(_SD, Ra, Rb, imm, p);
-
-
-// SRL2H
-
-_LOGIC,10011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRL2H
-"srl2h r<RA>, r<RB>, r<RC>"
- signed32 srcH = RcH;
- signed32 srcL = RcL;
- while (srcH > 15) srcH -= 16;
- while (srcH < -16) srcH += 16;
- while (srcL > 15) srcL -= 16;
- while (srcL < -16) srcL += 16;
- do_srlh(_SD, Ra, RbHU, srcH, 1);
- do_srlh(_SD, Ra, RbLU, srcL, 0);
-_LOGIC,10011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRL2H imm
-"srl2h r<RA>, r<RB>, <imm>"
- signed32 src = imm;
- while (src > 15) src -= 16;
- while (src < -16) src += 16;
- do_srlh(_SD, Ra, RbHU, src, 1);
- do_srlh(_SD, Ra, RbLU, src, 0);
-
-
-
-
-// ST2H
-
-void::function::get_even_reg:int *reg, unsigned32 *r0, const char *name
- if (*reg & 1)
- sim_engine_abort (SD, CPU, cia,
- "0x%lx:%s odd register (r%d) used in multi-word store",
- (long) cia, name, *reg);
- if (*reg == 0)
- *r0 = 0;
- else
- *r0 = GPR[*reg];
-
-void::function::do_st2h:int ra, unsigned32 rb, unsigned32 src
- unsigned32 val_ra;
- unsigned32 mem;
- get_even_reg(_SD, &ra, &val_ra, "ST2H");
- mem = INSERTED32(val_ra, 0, 15) |
- INSERTED32(GPR[ra + 1], 16, 31);
- STORE(rb + src, 4, mem);
-
-_IMEM,10011,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST2H
-"st2h r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"st2h r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_st2h(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,10011,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST2H long
-"st2h r<RA>, @(r<RB>, <imm>)"
- do_st2h(_SD, RA, Rb, imm);
-
-
-
-// ST2W
-
-void::function::do_st2w:int ra, unsigned32 rb, unsigned32 src
- unsigned32 val_ra;
- unsigned64 mem;
- get_even_reg(_SD, &ra, &val_ra, "ST2W");
- mem = INSERTED64(val_ra, 0, 31) | INSERTED64(GPR[ra + 1], 32, 63);
- STORE(rb + src, 8, mem);
-
-_IMEM,10110,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST2W
-"st2w r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"st2w r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_st2w(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 8);
-_IMEM,10110,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST2W long
-"st2w r<RA>, @(r<RB>, <imm>)"
- do_st2w(_SD, RA, Rb, imm);
-
-
-
-// ST4HB
-
-void::function::do_st4hb:int ra, unsigned32 rb, unsigned32 src
- unsigned32 val_ra;
- unsigned32 mem;
- get_even_reg(_SD, &ra, &val_ra, "ST4HB");
- mem = INSERTED32(EXTRACTED32(val_ra, 8, 15), 0, 7) |
- INSERTED32(EXTRACTED32(val_ra, 24, 31), 8, 15) |
- INSERTED32(EXTRACTED32(GPR[ra + 1], 8, 15), 16, 23) |
- INSERTED32(EXTRACTED32(GPR[ra + 1], 24, 31), 24, 31);
- STORE(rb + src, 4, mem);
-
-_IMEM,10101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST4HB
-"st4hb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"st4hb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_st4hb(_SD, RA, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,10101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST4HB long
-"st4hb r<RA>, @(r<RB>, <imm>)"
- do_st4hb(_SD, RA, Rb, imm);
-
-
-
-// STB
-
-void::function::do_stb:unsigned32 ra, unsigned32 rb, unsigned32 src
- STORE(rb + src, 1, EXTRACTED32(ra, 24, 31));
-
-_IMEM,10000,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STB
-"stb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"stb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_stb(_SD, val_Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 1);
-_IMEM,10000,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STB long
-"stb r<RA>, @(r<RB>, <imm>)"
- do_stb(_SD, val_Ra, Rb, imm);
-
-
-
-// STH
-
-void::function::do_sth:unsigned32 ra, unsigned32 rb, unsigned32 src
- STORE(rb + src, 2, EXTRACTED32(ra, 16, 31));
-
-_IMEM,10010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STH
-"sth r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"sth r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_sth(_SD, val_Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 2);
-_IMEM,10010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STH long
-"sth r<RA>, @(r<RB>, <imm>)"
- do_sth(_SD, val_Ra, Rb, imm);
-
-
-
-// STHH
-
-void::function::do_sthh:unsigned32 ra, unsigned32 rb, unsigned32 src
- STORE(rb + src, 2, EXTRACTED32(ra, 0, 15));
-
-_IMEM,10001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STHH
-"sthh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"sthh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_sthh(_SD, val_Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 2);
-_IMEM,10001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STHH long
-"sthh r<RA>, @(r<RB>, <imm>)"
- do_sthh(_SD, val_Ra, Rb, imm);
-
-
-
-// STW
-
-void::function::do_stw:unsigned32 ra, unsigned32 rb, unsigned32 src
- STORE(rb + src, 4, ra);
-
-_IMEM,10100,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STW
-"stw r<RA>, @(r<RB>, <SRC_6>)":XX == 0
-"stw r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
- do_stw(_SD, val_Ra, Rb, src);
- do_incr(_SD, XX, &GPR[RB], 4);
-_IMEM,10100,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STW long
-"stw r<RA>, @(r<RB>, <imm>)"
- do_stw(_SD, val_Ra, Rb, imm);
-
-
-
-// SUB
-
-void::function::do_sub:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- ALU_BEGIN(rb);
- ALU_SUBB(imm);
- ALU_END(ra);
-
-_IALU1,00010,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUB
-"sub r<RA>, r<RB>, r<RC>"
- do_sub (_SD, Ra, Rb, Rc);
-_IALU1,00010,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUB imm
-"sub r<RA>, r<RB>, <imm>"
- do_sub (_SD, Ra, Rb, imm);
-_IALU1,00010,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUB imm long
-"sub r<RA>, r<RB>, <imm>"
- do_sub (_SD, Ra, Rb, imm);
-
-
-
-// SUB2H
-
-void::function::do_sub2h:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- unsigned16 high = VH2_4(rb) - VH2_4(imm);
- unsigned16 low = VL2_4(rb) - VL2_4(imm);
- WRITE32_QUEUE (ra, (high << 16) | low);
-
-_IALU1,00011,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUB2H
-"sub2h r<RA>, r<RB>, r<RC>"
- do_sub2h (_SD, Ra, Rb, Rc);
-_IALU1,00011,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUB2H imm
-"sub2h r<RA>, r<RB>, <imm>"
- do_sub2h (_SD, Ra, Rb, immHL);
-_IALU1,00011,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUB2H imm long
-"sub2h r<RA>, r<RB>, <imm>"
- do_sub2h (_SD, Ra, Rb, imm);
-
-
-
-// SUBB
-
-void::function::do_subb:unsigned32 *ra, unsigned32 rb, unsigned32 imm
- ALU_BEGIN(rb);
- ALU_SUBB_B(imm, ALU_CARRY);
- ALU_END(ra);
-
-_IALU1,00101,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUBB
-"subb r<RA>, r<RB>, r<RC>"
- do_subb (_SD, Ra, Rb, Rc);
-_IALU1,00101,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUBB imm
-"subb r<RA>, r<RB>, <imm>"
- do_subb (_SD, Ra, Rb, imm);
-_IALU1,00101,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUBB imm long
-"subb r<RA>, r<RB>, <imm>"
- do_subb (_SD, Ra, Rb, imm);
-
-
-
-// SUBHppp
-
-void::function::do_subh_ppp:int ppp, unsigned32 *ra, unsigned32 rb, unsigned32 src
- switch (ppp) {
- case 0x0: /* LLL */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_SUBB(VL2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x1: /* LLH */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_SUBB(VH2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x2: /* LHL */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_SUBB(VL2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x3: /* LHH */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_SUBB(VH2_4(src));
- ALU16_END(ra, 0);
- }
- break;
- case 0x4: /* HLL */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_SUBB(VL2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x5: /* HLH */
- {
- ALU16_BEGIN(VL2_4(rb));
- ALU16_SUBB(VH2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x6: /* HHL */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_SUBB(VL2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- case 0x7: /* HHH */
- {
- ALU16_BEGIN(VH2_4(rb));
- ALU16_SUBB(VH2_4(src));
- ALU16_END(ra, 1);
- }
- break;
- default:
- sim_engine_abort (SD, CPU, cia, "do_subh_ppp - internal error - bad switch");
- }
-
-_IALU1,11,ppp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUBHppp
-"subh%s<ppp> r<RA>, r<RB>, r<RC>"
- do_subh_ppp(_SD, ppp, Ra, Rb, Rc);
-_IALU1,11,ppp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUBHppp imm
-"subh%s<ppp> r<RA>, r<RB>, <imm>"
- do_subh_ppp(_SD, ppp, Ra, Rb, immHL);
-_IALU1,11,ppp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUBHppp imm long
-"subh%s<ppp> r<RA>, r<RB>, <imm>"
- do_subh_ppp(_SD, ppp, Ra, Rb, imm);
-
-
-
-// TRAP
-
-address_word::function::do_trap:address_word trap_vector, address_word nia
- /* Steal trap 31 for doing system calls */
- /* System calls are defined in libgloss/d30v/syscall.h. */
- if (trap_vector == EIT_VB + 0x20 + (31 << 3))
- {
- enum { PARM1 = 2, PARM2, PARM3, PARM4, FUNC };
- if (GPR[FUNC] == 1) /* exit */
- {
- sim_engine_halt (sd, STATE_CPU (sd, 0), NULL, cia, sim_exited,
- GPR[PARM1]);
- return -1; /* dummy */
- }
- else
- {
- CB_SYSCALL syscall;
-
- CB_SYSCALL_INIT (&syscall);
- syscall.arg1 = GPR[PARM1];
- syscall.arg2 = GPR[PARM2];
- syscall.arg3 = GPR[PARM3];
- syscall.arg4 = GPR[PARM4];
- syscall.func = GPR[FUNC];
- syscall.p1 = (PTR) SD;
- syscall.read_mem = d30v_read_mem;
- syscall.write_mem = d30v_write_mem;
-
- WRITE32_QUEUE (&GPR[PARM1],
- ((cb_syscall (STATE_CALLBACK (SD), &syscall)
- == CB_RC_OK)
- ? syscall.result
- : -syscall.errcode));
- return nia;
- }
- }
- else if (TRACE_TRAP_P)
- {
- int reg, i;
- sim_io_eprintf (sd, "\nTrap %ld:\n", (long) ((trap_vector - (EIT_VB + 0x20)) >> 3));
- for (reg = 0; reg < NR_GENERAL_PURPOSE_REGISTERS; reg += 8)
- {
- sim_io_eprintf (sd, "r%.2d - r%.2d: ", reg, reg+7);
- for (i = 0; i < 8; i++)
- sim_io_eprintf (sd, " 0x%.8lx", (long) GPR[reg+i]);
- sim_io_eprintf (sd, "\n");
- }
-
- for (reg = 0; reg < 16; reg += 8)
- {
- sim_io_eprintf (sd, "cr%.2d - cr%.2d:", reg, reg+7);
- for (i = 0; i < 8; i++)
- sim_io_eprintf (sd, " 0x%.8lx", (long) CREG[reg+i]);
- sim_io_eprintf (sd, "\n");
- }
-
- sim_io_eprintf (sd, "a0 - a1: ");
- for (reg = 0; reg < NR_ACCUMULATORS; reg++)
- sim_io_eprintf (sd, " 0x%.8lx 0x%.8lx",
- (long)EXTRACTED64(ACC[reg], 0, 31),
- (long)EXTRACTED64(ACC[reg], 32, 63));
- sim_io_eprintf (sd, "\n");
-
- sim_io_eprintf (sd, "f0 - f7: ");
- sim_io_eprintf (sd, " (f0) %d", (int) PSW_VAL(PSW_F0));
- sim_io_eprintf (sd, " (f1) %d", (int) PSW_VAL(PSW_F1));
- sim_io_eprintf (sd, " (f2) %d", (int) PSW_VAL(PSW_F2));
- sim_io_eprintf (sd, " (f3) %d", (int) PSW_VAL(PSW_F3));
- sim_io_eprintf (sd, " (s) %d", (int) PSW_VAL(PSW_S));
- sim_io_eprintf (sd, " (v) %d", (int) PSW_VAL(PSW_V));
- sim_io_eprintf (sd, " (va) %d", (int) PSW_VAL(PSW_VA));
- sim_io_eprintf (sd, " (c) %d\n", (int) PSW_VAL(PSW_C));
-
- sim_io_eprintf (sd, "pswh: ");
- sim_io_eprintf (sd, " (sm) %d", (int) PSW_VAL(PSW_SM));
- sim_io_eprintf (sd, " (ea) %d", (int) PSW_VAL(PSW_EA));
- sim_io_eprintf (sd, " (ie) %d", (int) PSW_VAL(PSW_IE));
- sim_io_eprintf (sd, " (rp) %d", (int) PSW_VAL(PSW_RP));
- sim_io_eprintf (sd, " (md) %d", (int) PSW_VAL(PSW_MD));
-
- if (PSW_VAL(PSW_DB))
- sim_io_eprintf (sd, " (db) %d", (int) PSW_VAL(PSW_DB));
-
- if (PSW_VAL(PSW_DS))
- sim_io_eprintf (sd, " (ds) %d", (int) PSW_VAL(PSW_DS));
-
- sim_io_eprintf (sd, "\n");
- return nia;
- }
- else
- {
- if(PSW_VAL(PSW_RP) && RPT_E == cia)
- {
- WRITE32_QUEUE (&bPC, RPT_S);
- if (RPT_C == 0)
- PSW_SET (PSW_RP, 0);
- }
- else
- WRITE32_QUEUE (&bPC, cia + 8);
- DID_TRAP = 1;
- return trap_vector;
- }
-
-_BRA,01001,00,6.**,6.**,6.RC:BRA:short:mu:TRAP
-"trap r<RC>"
- nia = do_trap (_SD, EIT_VB + 0x20 + MASKED32(Rc, 24, 28), nia);
-_BRA,01001,10,6.**,6.**,_IMM6:BRA:short:mu:TRAP imm
-"trap <imm>"
- nia = do_trap (_SD, EIT_VB + 0x20 + (imm_5 << 3), nia);
-
-
-
-// XOR
-
-_LOGIC,11011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:XOR
-"xor r<RA>, r<RB>, r<RC>"
- WRITE32_QUEUE (Ra, Rb ^ Rc);
-_LOGIC,11011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:XOR imm
-"xor r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb ^ imm);
-_LOGIC,11011,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:XOR imm long
-"xor r<RA>, r<RB>, <imm>"
- WRITE32_QUEUE (Ra, Rb ^ imm);
-
-
-
-// XORFG
-
-_LOGIC,01011,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:XORFG
-"xorfg f<FA>, f<FB>, f<FC>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) ^ PSW_FLAG_VAL(FC));
-_LOGIC,01011,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:XORFG imm
-"xorfg f<FA>, f<FB>, <imm_6>"
- PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) ^ (imm_6 & 1));
-
-
-
+# OBSOLETE // -*- C -*-
+# OBSOLETE // Mitsubishi Electric Corp. D30V Simulator.
+# OBSOLETE // Copyright (C) 1997, Free Software Foundation, Inc.
+# OBSOLETE // Contributed by Cygnus Solutions Inc.
+# OBSOLETE //
+# OBSOLETE // This file is part of GDB, the GNU debugger.
+# OBSOLETE //
+# OBSOLETE // This program is free software; you can redistribute it and/or modify
+# OBSOLETE // it under the terms of the GNU General Public License as published by
+# OBSOLETE // the Free Software Foundation; either version 2 of the License, or
+# OBSOLETE // (at your option) any later version.
+# OBSOLETE //
+# OBSOLETE // This program is distributed in the hope that it will be useful,
+# OBSOLETE // but WITHOUT ANY WARRANTY; without even the implied warranty of
+# OBSOLETE // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# OBSOLETE // GNU General Public License for more details.
+# OBSOLETE //
+# OBSOLETE // You should have received a copy of the GNU General Public License
+# OBSOLETE // along with this program; if not, write to the Free Software
+# OBSOLETE // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+# OBSOLETE //
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE define( _BRA, `1.*,CCC,000')
+# OBSOLETE define( _LOGIC, `1.*,CCC,001')
+# OBSOLETE define( _IMEM, `1.*,CCC,010')
+# OBSOLETE define( _IALU1, `1.*,CCC,100')
+# OBSOLETE define(_IALU2, `1.*,CCC,101')
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE define(_IMM6, `6.IMM_6S')
+# OBSOLETE define(_IMM12, `12.IMM_12S')
+# OBSOLETE define(_IMM18, `18.IMM_18S')
+# OBSOLETE define(_IMM32, `6.IMM_6L,*,000,8.IMM_8L,00,18.IMM_18L')
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // The following is called when ever an illegal instruction is
+# OBSOLETE // encountered
+# OBSOLETE ::internal::illegal
+# OBSOLETE sim_io_eprintf (sd, "illegal instruction at 0x%lx\n", (long) cia);
+# OBSOLETE sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL);
+# OBSOLETE
+# OBSOLETE // The following is called when ever an instruction in the wrong
+# OBSOLETE // slot is encountered.
+# OBSOLETE ::internal::wrong_slot
+# OBSOLETE sim_io_eprintf (sd, "wrong slot at 0x%lx\n", (long) cia);
+# OBSOLETE sim_engine_halt (SD, CPU, NULL, cia, sim_signalled, SIM_SIGILL);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // Something illegal that can be used to contact the simulator emul
+# OBSOLETE // library.
+# OBSOLETE define(_EMUL, `1.*,CCC,111')
+# OBSOLETE
+# OBSOLETE void::function::do_emul:int imm
+# OBSOLETE /* temp hack - later replace with real interface */
+# OBSOLETE enum {
+# OBSOLETE param1 = 2, param2, param3, param4
+# OBSOLETE };
+# OBSOLETE switch (imm) {
+# OBSOLETE case 0:
+# OBSOLETE {
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "UNIX call emulation unsupported");
+# OBSOLETE break;
+# OBSOLETE }
+# OBSOLETE case 1:
+# OBSOLETE /* Trap 1 - prints a string */
+# OBSOLETE {
+# OBSOLETE address_word str = GPR[param1];
+# OBSOLETE char chr;
+# OBSOLETE while (1) {
+# OBSOLETE chr = MEM (unsigned, str, 1);
+# OBSOLETE if (chr == '\0') break;
+# OBSOLETE sim_io_write_stdout (sd, &chr, sizeof chr);
+# OBSOLETE str++;
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE }
+# OBSOLETE case 3:
+# OBSOLETE /* Trap 3 - writes a character */
+# OBSOLETE {
+# OBSOLETE char chr = GPR[param1];
+# OBSOLETE sim_io_write_stdout (sd, &chr, sizeof chr);
+# OBSOLETE break;
+# OBSOLETE }
+# OBSOLETE case 4:
+# OBSOLETE /* Trap 4 exits with status in [param1] */
+# OBSOLETE {
+# OBSOLETE sim_engine_halt (SD, CPU, NULL, cia, sim_exited, GPR[param1]);
+# OBSOLETE break;
+# OBSOLETE }
+# OBSOLETE case 5:
+# OBSOLETE /* Trap 5 breakpoints. If the breakpoint system knows about this, it
+# OBSOLETE won't return. Otherwise, we fall through to treat this as an
+# OBSOLETE unknown instruction. */
+# OBSOLETE {
+# OBSOLETE sim_handle_breakpoint (SD, CPU, cia);
+# OBSOLETE /* Fall through to default case.*/
+# OBSOLETE }
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "Unknown monitor call %d", imm);
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _EMUL,00000,00,6.*,6.*,IMM_6S:EMUL:short,emul:iu,mu:EMUL
+# OBSOLETE "syscall <imm>"
+# OBSOLETE do_emul (_SD, imm);
+# OBSOLETE _BRA,00000,00,6.**,6.**,_IMM32:BRA:long:iu,mu:EMUL long
+# OBSOLETE "syscall <imm>"
+# OBSOLETE do_emul (_SD, imm);
+# OBSOLETE
+# OBSOLETE // ABS
+# OBSOLETE
+# OBSOLETE _IALU1,01000,00,6.RA,6.RB,6.**:IALU1:short:iu,mu:ABS
+# OBSOLETE "abs r<RA>, r<RB>"
+# OBSOLETE WRITE32_QUEUE (Ra, abs(Rb));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADD
+# OBSOLETE
+# OBSOLETE void::function::do_add:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE ALU_BEGIN(rb);
+# OBSOLETE ALU_ADDC(imm);
+# OBSOLETE ALU_END(ra);
+# OBSOLETE
+# OBSOLETE _IALU1,00000,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADD
+# OBSOLETE "add r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_add (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00000,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADD imm
+# OBSOLETE "add r<RA>, r<RB>, <imm>"
+# OBSOLETE do_add (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,00000,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADD imm long
+# OBSOLETE "add r<RA>, r<RB>, <imm>"
+# OBSOLETE do_add (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADD2H
+# OBSOLETE
+# OBSOLETE void::function::do_add2h:signed32 *ra, signed32 rb, signed32 imm
+# OBSOLETE unsigned16 ah2 = VH2_4(rb) + VH2_4(imm);
+# OBSOLETE unsigned16 al2 = VL2_4(rb) + VL2_4(imm);
+# OBSOLETE WRITE32_QUEUE (ra, (ah2 << 16) | al2);
+# OBSOLETE
+# OBSOLETE _IALU1,00001,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADD2H
+# OBSOLETE "add2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_add2h (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00001,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADD2H imm
+# OBSOLETE "add2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_add2h (_SD, Ra, Rb, immHL);
+# OBSOLETE _IALU1,00001,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADD2H imm long
+# OBSOLETE "add2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_add2h (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADDC
+# OBSOLETE
+# OBSOLETE void::function::do_addc:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE ALU_BEGIN(rb);
+# OBSOLETE ALU_ADDC_C(imm, ALU_CARRY);
+# OBSOLETE ALU_END(ra);
+# OBSOLETE
+# OBSOLETE _IALU1,00100,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDC
+# OBSOLETE "addc r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_addc (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00100,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDC imm
+# OBSOLETE "addc r<RA>, r<RB>, <imm>"
+# OBSOLETE do_addc (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,00100,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDC imm long
+# OBSOLETE "addc r<RA>, r<RB>, <imm>"
+# OBSOLETE do_addc (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADDHppp
+# OBSOLETE
+# OBSOLETE void::function::do_addh_ppp:int ppp, unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE switch (ppp) {
+# OBSOLETE case 0x0: /* LLL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_ADDC(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x1: /* LLH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_ADDC(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x2: /* LHL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_ADDC(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x3: /* LHH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_ADDC(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x4: /* HLL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_ADDC(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x5: /* HLH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_ADDC(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x6: /* HHL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_ADDC(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x7: /* HHH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_ADDC(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "do_addh_ppp - internal error - bad switch");
+# OBSOLETE }
+# OBSOLETE ::%s::ppp:int ppp
+# OBSOLETE switch (ppp)
+# OBSOLETE {
+# OBSOLETE case 0x0: return "lll";
+# OBSOLETE case 0x1: return "llh";
+# OBSOLETE case 0x2: return "lhl";
+# OBSOLETE case 0x3: return "lhh";
+# OBSOLETE case 0x4: return "hll";
+# OBSOLETE case 0x5: return "hlh";
+# OBSOLETE case 0x6: return "hhl";
+# OBSOLETE case 0x7: return "hhh";
+# OBSOLETE default: return "?";
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU1,10,ppp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDHppp
+# OBSOLETE "addh%s<ppp> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_addh_ppp(_SD, ppp, Ra, Rb, Rc);
+# OBSOLETE _IALU1,10,ppp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDHppp imm
+# OBSOLETE "addh%s<ppp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_addh_ppp(_SD, ppp, Ra, Rb, immHL);
+# OBSOLETE _IALU1,10,ppp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDHppp imm long
+# OBSOLETE "addh%s<ppp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_addh_ppp(_SD, ppp, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADDS
+# OBSOLETE
+# OBSOLETE void::function::do_adds:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE ALU_BEGIN(rb);
+# OBSOLETE ALU_ADDC(EXTRACTED32(imm, 0, 0));
+# OBSOLETE ALU_END(ra);
+# OBSOLETE
+# OBSOLETE _IALU1,00110,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDS
+# OBSOLETE "adds r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_adds (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00110,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDS imm
+# OBSOLETE "adds r<RA>, r<RB>, <imm>"
+# OBSOLETE do_adds (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,00110,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDS imm long
+# OBSOLETE "adds r<RA>, r<RB>, <imm>"
+# OBSOLETE do_adds (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ADDS2H
+# OBSOLETE
+# OBSOLETE void::function::do_adds2h:unsigned32 *ra, unsigned32 rb, unsigned32 immHL
+# OBSOLETE unsigned16 high = VH2_4(rb) + EXTRACTED32(immHL, 0, 0);
+# OBSOLETE unsigned16 low = VL2_4(rb) + EXTRACTED32(immHL, 16, 16);
+# OBSOLETE WRITE32_QUEUE (ra, (high << 16) | low);
+# OBSOLETE
+# OBSOLETE _IALU1,00111,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:ADDS2H
+# OBSOLETE "adds2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_adds2h (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00111,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:ADDS2H imm
+# OBSOLETE "adds2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_adds2h (_SD, Ra, Rb, immHL);
+# OBSOLETE _IALU1,00111,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:ADDS2H imm long
+# OBSOLETE "adds2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_adds2h (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // AND
+# OBSOLETE
+# OBSOLETE _LOGIC,11000,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:AND
+# OBSOLETE "and r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb & Rc);
+# OBSOLETE _LOGIC,11000,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:AND imm
+# OBSOLETE "and r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb & imm);
+# OBSOLETE _LOGIC,11000,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:AND imm long
+# OBSOLETE "and r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb & imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ANDFG
+# OBSOLETE
+# OBSOLETE _LOGIC,01000,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:Logical AND Flags
+# OBSOLETE "andfg f<FA>, f<FB>, f<FC>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) & PSW_FLAG_VAL(FC));
+# OBSOLETE _LOGIC,01000,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:Logical AND Flags imm
+# OBSOLETE "andfg f<FA>, f<FB>, <imm_6>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) & (imm_6 & 1));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // AVG
+# OBSOLETE
+# OBSOLETE void::function::do_avg:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE WRITE32_QUEUE (ra, ((signed64)(signed32)rb + (signed64)(signed32)imm + 1) >> 1);
+# OBSOLETE
+# OBSOLETE _IALU1,01010,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:AVG
+# OBSOLETE "avg r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_avg (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,01010,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:AVG imm
+# OBSOLETE "avg r<RA>, r<RB>, <imm>"
+# OBSOLETE do_avg (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,01010,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:AVG imm long
+# OBSOLETE "avg r<RA>, r<RB>, <imm>"
+# OBSOLETE do_avg (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // AVG2H
+# OBSOLETE
+# OBSOLETE void::function::do_avg2h:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE unsigned16 high = ((signed32)(signed16)VH2_4(rb) + (signed32)(signed16)VH2_4(imm) + 1) >> 1;
+# OBSOLETE unsigned16 low = ((signed32)(signed16)VL2_4(rb) + (signed32)(signed16)VL2_4(imm) + 1) >> 1;
+# OBSOLETE WRITE32_QUEUE (ra, (high << 16) | low);
+# OBSOLETE
+# OBSOLETE _IALU1,01011,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:AVG2H
+# OBSOLETE "avg2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_avg2h (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,01011,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:AVG2H imm
+# OBSOLETE "avg2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_avg2h (_SD, Ra, Rb, immHL);
+# OBSOLETE _IALU1,01011,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:AVG2H imm long
+# OBSOLETE "avg2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_avg2h (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BCLR
+# OBSOLETE
+# OBSOLETE _LOGIC,00011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BCLR
+# OBSOLETE "bclr r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE(Ra, Rb & ~BIT32((Rc) % 32));
+# OBSOLETE _LOGIC,00011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BCLR imm
+# OBSOLETE "bclr r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE(Ra, Rb & ~BIT32((imm) % 32));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BNOT
+# OBSOLETE
+# OBSOLETE _LOGIC,00001,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BNOT
+# OBSOLETE "bnot r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb ^ BIT32((Rc) % 32));
+# OBSOLETE _LOGIC,00001,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BNOT imm
+# OBSOLETE "bnot r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb ^ BIT32((imm) % 32));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BRA
+# OBSOLETE
+# OBSOLETE _BRA,00000,00,6.**,6.**,6.RC:BRA:short:mu:BRA
+# OBSOLETE "bra r<RC>"
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00000,10,_IMM18:BRA:short:mu:BRA imm
+# OBSOLETE "bra <pcdisp>"
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00000,10,6.**,6.**,_IMM32:BRA:long:mu:BRA imm long
+# OBSOLETE "bra <pcdisp>"
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BRATNZ
+# OBSOLETE
+# OBSOLETE _BRA,00100,01,6.RA,6.**,6.RC:BRA:short:mu:BRATNZ
+# OBSOLETE "bratnz r<RC>"
+# OBSOLETE if (*Ra != 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00100,11,6.RA,_IMM12:BRA:short:mu:BRATNZ imm
+# OBSOLETE "bratnz <pcdisp>"
+# OBSOLETE if (*Ra != 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00100,11,6.RA,6.**,_IMM32:BRA:long:mu:BRATNZ imm long
+# OBSOLETE "bratnz <pcdisp>"
+# OBSOLETE if (*Ra != 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BRATZR
+# OBSOLETE
+# OBSOLETE _BRA,00100,00,6.RA,6.**,6.RC:BRA:short:mu:BRATZR
+# OBSOLETE "bratzr r<RC>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00100,10,6.RA,_IMM12:BRA:short:mu:BRATZR imm
+# OBSOLETE "bratzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE _BRA,00100,10,6.RA,6.**,_IMM32:BRA:long:mu:BRATZR imm long
+# OBSOLETE "bratzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BSET
+# OBSOLETE
+# OBSOLETE _LOGIC,00010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:BSET
+# OBSOLETE "bset r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb | BIT32((Rc) % 32));
+# OBSOLETE _LOGIC,00010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:BSET imm
+# OBSOLETE "bset r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb | BIT32((imm) % 32));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BSR
+# OBSOLETE
+# OBSOLETE _BRA,00010,00,6.**,6.**,6.RC:BRA:short:mu:BSR
+# OBSOLETE "bsr r<RC>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE _BRA,00010,10,_IMM18:BRA:short:mu:BSR imm
+# OBSOLETE "bsr <pcdisp>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE _BRA,00010,10,6.**,6.**,_IMM32:BRA:long:mu:BSR imm long
+# OBSOLETE "bsr <pcdisp>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BSRTNZ
+# OBSOLETE
+# OBSOLETE _BRA,00110,01,6.RA,6.**,6.RC:BRA:short:mu:BSRTNZ
+# OBSOLETE "bsrtnz r<RC>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _BRA,00110,11,6.RA,_IMM12:BRA:short:mu:BSRTNZ imm
+# OBSOLETE "bsrtnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _BRA,00110,11,6.RA,6.**,_IMM32:BRA:long:mu:BSRTNZ imm long
+# OBSOLETE "bsrtnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BSRTZR
+# OBSOLETE
+# OBSOLETE _BRA,00110,00,6.RA,6.**,6.RC:BRA:short:mu:BSRTZR
+# OBSOLETE "bsrtzr r<RC>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _BRA,00110,10,6.RA,_IMM12:BRA:short:mu:BSRTZR imm
+# OBSOLETE "bsrtzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _BRA,00110,10,6.RA,6.**,_IMM32:BRA:long:mu:BSRTZR imm long
+# OBSOLETE "bsrtzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = cia + pcdisp;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // BTST
+# OBSOLETE
+# OBSOLETE _LOGIC,00000,00,***,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:BTST
+# OBSOLETE "btst f<FA>, r<RB>, r<RC>"
+# OBSOLETE int bit = (Rc) % 32;
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, MASKED32(Rb, bit, bit));
+# OBSOLETE _LOGIC,00000,10,***,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:BTST imm
+# OBSOLETE "btst f<FA>, r<RB>, <imm>"
+# OBSOLETE int bit = imm % 32;
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, MASKED32(Rb, bit, bit));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // CMPcc
+# OBSOLETE
+# OBSOLETE void::function::do_cmp_cc:int cc, int fa, signed32 rb, signed32 rc
+# OBSOLETE int value = 0;
+# OBSOLETE switch (cc) {
+# OBSOLETE case 0: /* EQ */
+# OBSOLETE value = (rb == rc);
+# OBSOLETE break;
+# OBSOLETE case 1: /* NE */
+# OBSOLETE value = (rb != rc);
+# OBSOLETE break;
+# OBSOLETE case 2: /* GT */
+# OBSOLETE value = (rb > rc);
+# OBSOLETE break;
+# OBSOLETE case 3: /* GE */
+# OBSOLETE value = (rb >= rc);
+# OBSOLETE break;
+# OBSOLETE case 4: /* LT */
+# OBSOLETE value = (rb < rc);
+# OBSOLETE break;
+# OBSOLETE case 5: /* LE */
+# OBSOLETE value = (rb <= rc);
+# OBSOLETE break;
+# OBSOLETE case 6: /* PS */
+# OBSOLETE value = ((rb >= 0) && (rc >= 0));
+# OBSOLETE break;
+# OBSOLETE case 7: /* NG */
+# OBSOLETE value = ((rb < 0) && (rc < 0));
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "do_cmp_cc - internal error - bad switch (%d)", cc);
+# OBSOLETE }
+# OBSOLETE PSW_FLAG_SET_QUEUE(fa, value);
+# OBSOLETE
+# OBSOLETE ::%s::ccc:int ccc
+# OBSOLETE switch (ccc)
+# OBSOLETE {
+# OBSOLETE case 0: return "eq";
+# OBSOLETE case 1: return "ne";
+# OBSOLETE case 2: return "gt";
+# OBSOLETE case 3: return "ge";
+# OBSOLETE case 4: return "lt";
+# OBSOLETE case 5: return "le";
+# OBSOLETE case 6: return "ps";
+# OBSOLETE case 7: return "ng";
+# OBSOLETE default: return "?";
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _LOGIC,01100,00,ccc,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:CMPcc
+# OBSOLETE "cmp%s<ccc> f<FA>, r<RB>, r<RC>"
+# OBSOLETE do_cmp_cc(_SD, ccc, FA, Rb, Rc);
+# OBSOLETE _LOGIC,01100,10,ccc,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:CMPcc imm
+# OBSOLETE "cmp%s<ccc> f<FA>, r<RB>, <imm>"
+# OBSOLETE do_cmp_cc(_SD, ccc, FA, Rb, imm);
+# OBSOLETE _LOGIC,01100,10,ccc,3.FA,6.RB,_IMM32:LOGIC:long:iu,mu:CMPcc imm long
+# OBSOLETE "cmp%s<ccc> f<FA>, r<RB>, <imm>"
+# OBSOLETE do_cmp_cc(_SD, ccc, FA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // CMPUcc
+# OBSOLETE
+# OBSOLETE void::function::do_cmpu_cc:int cc, int fa, unsigned32 rb, unsigned32 rc
+# OBSOLETE int value = 0;
+# OBSOLETE switch (cc) {
+# OBSOLETE case 2: /* GT */
+# OBSOLETE value = (rb > rc);
+# OBSOLETE break;
+# OBSOLETE case 3: /* GE */
+# OBSOLETE value = (rb >= rc);
+# OBSOLETE break;
+# OBSOLETE case 4: /* LT */
+# OBSOLETE value = (rb < rc);
+# OBSOLETE break;
+# OBSOLETE case 5: /* LE */
+# OBSOLETE value = (rb <= rc);
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "do_cmpu_cc - internal error - bad switch (%d)", cc);
+# OBSOLETE }
+# OBSOLETE PSW_FLAG_SET_QUEUE(fa, value);
+# OBSOLETE
+# OBSOLETE _LOGIC,01101,00,ccc,3.FA,6.RB,6.RC:LOGIC:short:iu,mu:CMPUcc
+# OBSOLETE "cmpu%s<ccc> f<FA>, r<RB>, r<RC>"
+# OBSOLETE do_cmpu_cc(_SD, ccc, FA, Rb, Rc);
+# OBSOLETE _LOGIC,01101,10,ccc,3.FA,6.RB,_IMM6:LOGIC:short:iu,mu:CMPUcc imm
+# OBSOLETE "cmpu%s<ccc> f<FA>, r<RB>, <imm>"
+# OBSOLETE do_cmpu_cc(_SD, ccc, FA, Rb, imm_6u);
+# OBSOLETE _LOGIC,01101,10,ccc,3.FA,6.RB,_IMM32:LOGIC:long:iu,mu:CMPUcc imm long
+# OBSOLETE "cmpu%s<ccc> f<FA>, r<RB>, <imm>"
+# OBSOLETE do_cmpu_cc(_SD, ccc, FA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DBRA
+# OBSOLETE
+# OBSOLETE void::function::do_dbra:address_word pcdisp, unsigned32 ra
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, cia + pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
+# OBSOLETE
+# OBSOLETE _BRA,10000,00,6.RA,6.**,6.RC:BRA:short:mu:DBRA
+# OBSOLETE "dbra r<RA>, r<RC>"
+# OBSOLETE do_dbra(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10000,10,6.RA,_IMM12:BRA:short:mu:DBRA imm
+# OBSOLETE "dbra r<RA>, <pcdisp>"
+# OBSOLETE do_dbra(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10000,10,6.RA,6.**,_IMM32:BRA:long:mu:DBRA imm long
+# OBSOLETE "dbra r<RA>, <pcdisp>"
+# OBSOLETE do_dbra(_SD, pcdisp, val_Ra);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DBRAI
+# OBSOLETE
+# OBSOLETE void::function::do_dbrai:address_word pcdisp, unsigned32 imm
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, cia + pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
+# OBSOLETE
+# OBSOLETE _BRA,10100,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DBRAI
+# OBSOLETE "dbrai <IMM_6>, r<RC>"
+# OBSOLETE do_dbrai(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10100,10,6.IMM_6,_IMM12:BRA:short:mu:DBRAI imm
+# OBSOLETE "dbrai <IMM_6>, <pcdisp>"
+# OBSOLETE do_dbrai(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10100,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DBRAI imm long
+# OBSOLETE "dbrai <IMM_6>, <pcdisp>"
+# OBSOLETE do_dbrai(_SD, pcdisp, IMM_6);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DBSR
+# OBSOLETE
+# OBSOLETE void::function::do_dbsr:address_word pcdisp, unsigned32 ra
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, cia + pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + ra);
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + ra + 8);
+# OBSOLETE
+# OBSOLETE _BRA,10010,00,6.RA,6.**,6.RC:BRA:short:mu:DBSR
+# OBSOLETE "dbsr r<RA>, r<RC>"
+# OBSOLETE do_dbsr(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10010,10,6.RA,_IMM12:BRA:short:mu:DBSR imm
+# OBSOLETE "dbsr r<RA>, <pcdisp>"
+# OBSOLETE do_dbsr(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10010,10,6.RA,6.**,_IMM32:BRA:long:mu:DBSR imm long
+# OBSOLETE "dbsr r<RA>, <pcdisp>"
+# OBSOLETE do_dbsr(_SD, pcdisp, val_Ra);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DBSRI
+# OBSOLETE
+# OBSOLETE void::function::do_dbsri:address_word pcdisp, unsigned32 imm
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, cia + pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + (imm << 3) + 8);
+# OBSOLETE
+# OBSOLETE _BRA,10110,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DBSRI
+# OBSOLETE "dbsri <IMM_6>, r<RC>"
+# OBSOLETE do_dbsri(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10110,10,6.IMM_6,_IMM12:BRA:short:mu:DBSRI imm
+# OBSOLETE "dbsri <IMM_6>, <pcdisp>"
+# OBSOLETE do_dbsri(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10110,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DBSRI imm long
+# OBSOLETE "dbsri <IMM_6>, <pcdisp>"
+# OBSOLETE do_dbsri(_SD, pcdisp, IMM_6);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DBT
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE _BRA,01011,00,6.**,6.**,6.**:BRA:short:mu:DBT
+# OBSOLETE "dbt"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&DPC, RPT_S);
+# OBSOLETE if (RPT_C == 0)
+# OBSOLETE PSW_SET (PSW_RP, 0);
+# OBSOLETE }
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&DPC, cia + 8);
+# OBSOLETE DID_TRAP = 2;
+# OBSOLETE nia = 0xfffff120; /* debug_trap_address */
+# OBSOLETE
+# OBSOLETE // DJMP
+# OBSOLETE
+# OBSOLETE void::function::do_djmp:address_word pcdisp, unsigned32 ra
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
+# OBSOLETE
+# OBSOLETE _BRA,10001,00,6.RA,6.**,6.RC:BRA:short:mu:DJMP
+# OBSOLETE "djmp r<RA>, r<RC>"
+# OBSOLETE do_djmp(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10001,10,6.RA,_IMM12:BRA:short:mu:DJMP imm
+# OBSOLETE "djmp r<RA>, <pcdisp>"
+# OBSOLETE do_djmp(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10001,10,6.RA,6.**,_IMM32:BRA:long:mu:DJMP imm long
+# OBSOLETE "djmp r<RA>, <pcdisp>"
+# OBSOLETE do_djmp(_SD, pcdisp, val_Ra);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DJMPI
+# OBSOLETE
+# OBSOLETE void::function::do_djmpi:address_word pcdisp, unsigned32 imm
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
+# OBSOLETE
+# OBSOLETE _BRA,10101,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DJMPI
+# OBSOLETE "djmpi <IMM_6>, r<RC>"
+# OBSOLETE do_djmpi(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10101,10,6.IMM_6,_IMM12:BRA:short:mu:DJMPI imm
+# OBSOLETE "djmpi <IMM_6>, <pcdisp>"
+# OBSOLETE do_djmpi(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10101,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DJMPI imm long
+# OBSOLETE "djmpi <IMM_6>, <pcdisp>"
+# OBSOLETE do_djmpi(_SD, pcdisp, IMM_6);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DJSR
+# OBSOLETE
+# OBSOLETE void::function::do_djsr:address_word pcdisp, unsigned32 ra
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (ra & ~0x7));
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + (ra & ~0x7) + 8);
+# OBSOLETE
+# OBSOLETE _BRA,10011,00,6.RA,6.**,6.RC:BRA:short:mu:DJSR
+# OBSOLETE "djsr r<RA>, r<RC>"
+# OBSOLETE do_djsr(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10011,10,6.RA,_IMM12:BRA:short:mu:DJSR imm
+# OBSOLETE "djsr r<RA>, <pcdisp>"
+# OBSOLETE do_djsr(_SD, pcdisp, val_Ra);
+# OBSOLETE _BRA,10011,10,6.RA,6.**,_IMM32:BRA:long:mu:DJSR imm long
+# OBSOLETE "djsr r<RA>, <pcdisp>"
+# OBSOLETE do_djsr(_SD, pcdisp, val_Ra);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // DJSRI
+# OBSOLETE
+# OBSOLETE void::function::do_djsri:address_word pcdisp, unsigned32 imm
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, pcdisp);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, cia + (imm << 3));
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + (imm << 3) + 8);
+# OBSOLETE
+# OBSOLETE _BRA,10111,00,6.IMM_6,6.**,6.RC:BRA:short:mu:DJSRI
+# OBSOLETE "djsri <IMM_6>, r<RC>"
+# OBSOLETE do_djsri(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10111,10,6.IMM_6,_IMM12:BRA:short:mu:DJSRI imm
+# OBSOLETE "djsri <IMM_6>, <pcdisp>"
+# OBSOLETE do_djsri(_SD, pcdisp, IMM_6);
+# OBSOLETE _BRA,10111,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:DJSRI imm long
+# OBSOLETE "djsri <IMM_6>, <pcdisp>"
+# OBSOLETE do_djsri(_SD, pcdisp, IMM_6);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JMP
+# OBSOLETE
+# OBSOLETE _BRA,00001,00,6.**,6.**,6.RC:BRA:short:mu:JMP
+# OBSOLETE "jmp r<RC>"
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (RC == 62 && TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_RETURN;
+# OBSOLETE _BRA,00001,10,_IMM18:BRA:short:mu:JMP imm
+# OBSOLETE "jmp <pcdisp>"
+# OBSOLETE nia = pcaddr;
+# OBSOLETE _BRA,00001,10,6.**,6.**,_IMM32:BRA:long:mu:JMP imm long
+# OBSOLETE "jmp <pcdisp>"
+# OBSOLETE nia = pcaddr;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JMPTNZ
+# OBSOLETE
+# OBSOLETE _BRA,00101,01,6.RA,6.**,6.RC:BRA:short:mu:JMPTNZ
+# OBSOLETE "jmptnz r<RC>"
+# OBSOLETE if (val_Ra != 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE _BRA,00101,11,6.RA,_IMM12:BRA:short:mu:JMPTNZ imm
+# OBSOLETE "jmptnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE _BRA,00101,11,6.RA,6.**,_IMM32:BRA:long:mu:JMPTNZ imm long
+# OBSOLETE "jmptnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JMPTZR
+# OBSOLETE
+# OBSOLETE _BRA,00101,00,6.RA,6.**,6.RC:BRA:short:mu:JMPTZR
+# OBSOLETE "jmptzr r<RC>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE _BRA,00101,10,6.RA,_IMM12:BRA:short:mu:JMPTZR imm
+# OBSOLETE "jmptzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE _BRA,00101,10,6.RA,6.**,_IMM32:BRA:long:mu:JMPTZR imm long
+# OBSOLETE "jmptzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0)
+# OBSOLETE nia = pcaddr;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JOINpp
+# OBSOLETE
+# OBSOLETE void::function::do_join_pp:int pp, unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE switch (pp) {
+# OBSOLETE case 0x0: /* LL */
+# OBSOLETE WRITE32_QUEUE (ra, ((unsigned32)VL2_4(rb) << 16) | VL2_4(src));
+# OBSOLETE break;
+# OBSOLETE case 0x1: /* LH */
+# OBSOLETE WRITE32_QUEUE (ra, ((unsigned32)VL2_4(rb) << 16) | VH2_4(src));
+# OBSOLETE break;
+# OBSOLETE case 0x2: /* HL */
+# OBSOLETE WRITE32_QUEUE (ra, ((unsigned32)VH2_4(rb) << 16) | VL2_4(src));
+# OBSOLETE break;
+# OBSOLETE case 0x3: /* HH */
+# OBSOLETE WRITE32_QUEUE (ra, ((unsigned32)VH2_4(rb) << 16) | VH2_4(src));
+# OBSOLETE break;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE ::%s::pp:int pp
+# OBSOLETE switch (pp)
+# OBSOLETE {
+# OBSOLETE case 0x0: return "ll";
+# OBSOLETE case 0x1: return "lh";
+# OBSOLETE case 0x2: return "hl";
+# OBSOLETE case 0x3: return "hh";
+# OBSOLETE default: return "?";
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU1,011,pp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:JOINpp
+# OBSOLETE "join%s<pp> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_join_pp(_SD, pp, Ra, Rb, Rc);
+# OBSOLETE _IALU1,011,pp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:JOINpp imm
+# OBSOLETE "join%s<pp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_join_pp(_SD, pp, Ra, Rb, immHL);
+# OBSOLETE _IALU1,011,pp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:JOINpp imm long
+# OBSOLETE "join%s<pp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_join_pp(_SD, pp, Ra, Rb, immHL);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JSR
+# OBSOLETE
+# OBSOLETE _BRA,00011,00,6.**,6.**,6.RC:BRA:short:mu:JSR
+# OBSOLETE "jsr r<RC>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE return pcaddr;
+# OBSOLETE _BRA,00011,10,_IMM18:BRA:short:mu:JSR imm
+# OBSOLETE "jsr <pcdisp>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE return pcaddr;
+# OBSOLETE _BRA,00011,10,6.**,6.**,_IMM32:BRA:long:mu:JSR imm long
+# OBSOLETE "jsr <pcdisp>"
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE return pcaddr;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JSRTNZ
+# OBSOLETE
+# OBSOLETE _BRA,00111,01,6.RA,6.**,6.RC:BRA:short:mu:JSRTNZ
+# OBSOLETE "jsrtnz r<RC>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE _BRA,00111,11,6.RA,_IMM12:BRA:short:mu:JSRTNZ imm
+# OBSOLETE "jsrtnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE _BRA,00111,11,6.RA,6.**,_IMM32:BRA:long:mu:JSRTNZ imm long
+# OBSOLETE "jsrtnz <pcdisp>"
+# OBSOLETE if (val_Ra != 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // JSRTZR
+# OBSOLETE
+# OBSOLETE _BRA,00111,00,6.RA,6.**,6.RC:BRA:short:mu:JSRTZR
+# OBSOLETE "jsrtzr r<RC>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE _BRA,00111,10,6.RA,_IMM12:BRA:short:mu:JSRTZR imm
+# OBSOLETE "jsrtzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE _BRA,00111,10,6.RA,6.**,_IMM32:BRA:long:mu:JSRTZR imm long
+# OBSOLETE "jsrtzr <pcdisp>"
+# OBSOLETE if (val_Ra == 0) {
+# OBSOLETE if (cia == RPT_E && PSW_VAL (PSW_RP))
+# OBSOLETE WRITE32_QUEUE (&GPR[62], RPT_S);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&GPR[62], cia + 8);
+# OBSOLETE nia = pcaddr;
+# OBSOLETE if (TRACE_CALL_P)
+# OBSOLETE TRACE_ACTION |= TRACE_ACTION_CALL;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // Post increment
+# OBSOLETE
+# OBSOLETE void::function::do_incr:int x, unsigned32 *rb, int delta
+# OBSOLETE unsigned32 next_rb;
+# OBSOLETE if (x == 1)
+# OBSOLETE next_rb = *rb + delta;
+# OBSOLETE else if (x == 3)
+# OBSOLETE next_rb = *rb - delta;
+# OBSOLETE else
+# OBSOLETE next_rb = *rb; /* value not used */
+# OBSOLETE /* HW erratum: check value after incrementing */
+# OBSOLETE if (next_rb == MOD_E
+# OBSOLETE && (x == 1 || x == 3)
+# OBSOLETE && (PSW_VAL(PSW_MD))) {
+# OBSOLETE WRITE32_QUEUE (rb, MOD_S);
+# OBSOLETE }
+# OBSOLETE else if (x == 1 || x == 3)
+# OBSOLETE WRITE32_QUEUE (rb, next_rb);
+# OBSOLETE
+# OBSOLETE // LD2H
+# OBSOLETE
+# OBSOLETE int::function::make_even_reg:int reg, const char *name
+# OBSOLETE if (reg & 1)
+# OBSOLETE sim_engine_abort (SD, CPU, cia,
+# OBSOLETE "0x%lx:%s odd register (r%d) used in multi-word load/mulx2h",
+# OBSOLETE (long) cia, name, reg);
+# OBSOLETE return reg;
+# OBSOLETE
+# OBSOLETE void::function::do_ld2h:int ra, unsigned32 rb, unsigned32 src
+# OBSOLETE signed32 mem;
+# OBSOLETE ra = make_even_reg(_SD, ra, "LD2H");
+# OBSOLETE mem = MEM(signed, rb + src, 4);
+# OBSOLETE if (ra != 0)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 0], SEXT32(EXTRACTED32(mem, 0, 15), 16));
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 1], SEXT32(EXTRACTED32(mem, 16, 31), 16));
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE ::%s::XX:int XX
+# OBSOLETE switch (XX)
+# OBSOLETE {
+# OBSOLETE case 0: return "";
+# OBSOLETE case 1: return "+";
+# OBSOLETE case 3: return "-";
+# OBSOLETE default: return "?";
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IMEM,00011,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD2H
+# OBSOLETE "ld2h r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ld2h r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ld2h(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,00011,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD2H long
+# OBSOLETE "ld2h r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ld2h(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LD2W
+# OBSOLETE
+# OBSOLETE void::function::do_ld2w:int ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned64 mem;
+# OBSOLETE ra = make_even_reg(_SD, ra, "LD2W");
+# OBSOLETE mem = MEM(unsigned, rb + src, 8);
+# OBSOLETE if (ra != 0)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 0], EXTRACTED64 (mem, 0, 31));
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 1], EXTRACTED64 (mem, 32, 63));
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IMEM,00110,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:L2W
+# OBSOLETE "ld2w r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ld2w r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ld2w(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 8);
+# OBSOLETE _IMEM,00110,10,6.RA,6.RB,_IMM32:IMEM:long:mu:L2W long
+# OBSOLETE "ld2w r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ld2w(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LD4BH
+# OBSOLETE
+# OBSOLETE void::function::do_ld4bh:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned16 l1, l2, h1, h2;
+# OBSOLETE unsigned32 mem;
+# OBSOLETE ra = make_even_reg(_SD, ra, "LD4BH");
+# OBSOLETE mem = MEM(unsigned, rb + src, 4);
+# OBSOLETE h1 = SEXT16(EXTRACTED32(mem, 0, 7), 8);
+# OBSOLETE l1 = SEXT16(EXTRACTED32(mem, 8, 15), 8);
+# OBSOLETE h2 = SEXT16(EXTRACTED32(mem, 16, 23), 8);
+# OBSOLETE l2 = SEXT16(EXTRACTED32(mem, 24, 31), 8);
+# OBSOLETE if (ra != 0)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 0], (h1 << 16) | l1);
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 1], (h2 << 16) | l2);
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IMEM,00101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD4BH
+# OBSOLETE "ld4bh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ld4bh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ld4bh(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,00101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD4BH long
+# OBSOLETE "ld4bh r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ld4bh(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LD4BHU
+# OBSOLETE
+# OBSOLETE void::function::do_ld4bhu:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned16 l1, l2, h1, h2;
+# OBSOLETE unsigned32 mem;
+# OBSOLETE ra = make_even_reg(_SD, ra, "LD4BH");
+# OBSOLETE mem = MEM(signed, rb + src, 4);
+# OBSOLETE h1 = EXTRACTED32(mem, 0, 7);
+# OBSOLETE l1 = EXTRACTED32(mem, 8, 15);
+# OBSOLETE h2 = EXTRACTED32(mem, 16, 23);
+# OBSOLETE l2 = EXTRACTED32(mem, 24, 31);
+# OBSOLETE if (ra != 0)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 0], (h1 << 16) | l1);
+# OBSOLETE WRITE32_QUEUE (&GPR[ra + 1], (h2 << 16) | l2);
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IMEM,01101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LD4BHU
+# OBSOLETE "ld4hbu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ld4hbu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ld4bhu(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,01101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LD4BHU long
+# OBSOLETE "ld4hbu r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ld4bhu(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDB
+# OBSOLETE
+# OBSOLETE void::function::do_ldb:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(signed, rb + src, 1));
+# OBSOLETE
+# OBSOLETE _IMEM,00000,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDB
+# OBSOLETE "ldb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldb(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 1);
+# OBSOLETE _IMEM,00000,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDB long
+# OBSOLETE "ldb r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldb(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDBU
+# OBSOLETE
+# OBSOLETE void::function::do_ldbu:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(unsigned, rb + src, 1));
+# OBSOLETE
+# OBSOLETE _IMEM,01001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDBU
+# OBSOLETE "ldbu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldbu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldbu(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 1);
+# OBSOLETE _IMEM,01001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDBU long
+# OBSOLETE "ldbu r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldbu(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDH
+# OBSOLETE
+# OBSOLETE void::function::do_ldh:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(signed, rb + src, 2));
+# OBSOLETE
+# OBSOLETE _IMEM,00010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDH
+# OBSOLETE "ldh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldh(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 2);
+# OBSOLETE _IMEM,00010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDH long
+# OBSOLETE "ldh r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldh(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDHH
+# OBSOLETE
+# OBSOLETE void::function::do_ldhh:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(signed, rb + src, 2) << 16);
+# OBSOLETE
+# OBSOLETE _IMEM,00001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDHH
+# OBSOLETE "ldhh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldhh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldhh(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 2);
+# OBSOLETE _IMEM,00001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDHH long
+# OBSOLETE "ldhh r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldhh(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDHU
+# OBSOLETE
+# OBSOLETE void::function::do_ldhu:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(unsigned, rb + src, 2));
+# OBSOLETE
+# OBSOLETE _IMEM,01010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDHU
+# OBSOLETE "ldhu r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldhu r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldhu(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 2);
+# OBSOLETE _IMEM,01010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDHU long
+# OBSOLETE "ldhu r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldhu(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // LDW
+# OBSOLETE
+# OBSOLETE void::function::do_ldw:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, MEM(signed, rb + src, 4));
+# OBSOLETE
+# OBSOLETE _IMEM,00100,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:LDW
+# OBSOLETE "ldw r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "ldw r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_ldw(_SD, Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,00100,10,6.RA,6.RB,_IMM32:IMEM:long:mu:LDW long
+# OBSOLETE "ldw r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_ldw(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MACa
+# OBSOLETE
+# OBSOLETE void::function::do_mac:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
+# OBSOLETE unsigned64 accum = *aa;
+# OBSOLETE accum += (signed64) (rb) * (signed64) (src);
+# OBSOLETE WRITE64_QUEUE (aa, accum);
+# OBSOLETE WRITE32_QUEUE (ra, EXTRACTED64(accum, 32, 63));
+# OBSOLETE
+# OBSOLETE _IALU2,10100,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MACa
+# OBSOLETE "mac<AA> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_mac(_SD, Aa, Ra, Rb, Rc);
+# OBSOLETE _IALU2,10100,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MACa imm
+# OBSOLETE "mac<AA> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_mac(_SD, Aa, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MACSa
+# OBSOLETE
+# OBSOLETE void::function::do_macs:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
+# OBSOLETE unsigned64 accum = *aa;
+# OBSOLETE accum += ((signed64) (rb) * (signed64) (src)) << 1;
+# OBSOLETE WRITE64_QUEUE (aa, accum);
+# OBSOLETE WRITE32_QUEUE (ra, EXTRACTED64(accum, 0, 31));
+# OBSOLETE
+# OBSOLETE _IALU2,10101,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MACSa
+# OBSOLETE "macs<AA> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_macs(_SD, Aa, Ra, Rb, Rc);
+# OBSOLETE _IALU2,10101,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MACSa imm
+# OBSOLETE "macs<AA> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_macs(_SD, Aa, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MODDEC | MODINC
+# OBSOLETE
+# OBSOLETE _IMEM,00111,11,6.**,6.RB,_IMM6:IMEM:short:mu:MODDEC
+# OBSOLETE "moddec r<RB>, <imm>"
+# OBSOLETE do_incr(_SD, 3/*0b11*/, &GPR[RB], imm_5);
+# OBSOLETE _IMEM,00111,01,6.**,6.RB,_IMM6:IMEM:short:mu:MODINC
+# OBSOLETE "modinc r<RB>, <imm>"
+# OBSOLETE do_incr(_SD, 1/*0b01*/, &GPR[RB], imm_5);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MSUBa
+# OBSOLETE
+# OBSOLETE void::function::do_msub:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
+# OBSOLETE unsigned64 accum = *aa;
+# OBSOLETE accum -= (signed64) (rb) * (signed64) (src);
+# OBSOLETE WRITE64_QUEUE (aa, accum);
+# OBSOLETE WRITE32_QUEUE (ra, EXTRACTED64(accum, 32, 63));
+# OBSOLETE
+# OBSOLETE _IALU2,10110,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MSUBa
+# OBSOLETE "msub<AA> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_msub(_SD, Aa, Ra, Rb, Rc);
+# OBSOLETE _IALU2,10110,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MSUBa imm
+# OBSOLETE "msub<AA> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_msub(_SD, Aa, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MSUBSa
+# OBSOLETE
+# OBSOLETE void::function::do_msubs:unsigned64 *aa, unsigned32 *ra, signed32 rb, signed32 src
+# OBSOLETE unsigned64 accum = *aa;
+# OBSOLETE accum -= ((signed64) (rb) * (signed64) (src)) << 1;
+# OBSOLETE WRITE64_QUEUE (aa, accum);
+# OBSOLETE WRITE32_QUEUE (ra, EXTRACTED64(accum, 0, 31));
+# OBSOLETE
+# OBSOLETE _IALU2,10111,0,1.AA,6.RA,6.RB,6.RC:IALU2:short:iu:MSUBSa
+# OBSOLETE "msubs<AA> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_msubs(_SD, Aa, Ra, Rb, Rc);
+# OBSOLETE _IALU2,10111,1,1.AA,6.RA,6.RB,_IMM6:IALU2:short:iu:MSUBSa imm
+# OBSOLETE "msubs<AA> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_msubs(_SD, Aa, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MUL
+# OBSOLETE
+# OBSOLETE void::function::do_mul:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE WRITE32_QUEUE (ra, rb * src);
+# OBSOLETE
+# OBSOLETE _IALU2,10000,00,6.RA,6.RB,6.RC:IALU2:short:iu:MUL
+# OBSOLETE "mul r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_mul(_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU2,10000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MUL imm
+# OBSOLETE "mul r<RA>, r<RB>, <imm>"
+# OBSOLETE do_mul(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MUL2H
+# OBSOLETE
+# OBSOLETE void::function::do_mul2h:unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned16 high = VH2_4(rb) * VH2_4(src);
+# OBSOLETE unsigned16 low = VL2_4(rb) * VL2_4(src);
+# OBSOLETE WRITE32_QUEUE (ra, (high << 16) | low);
+# OBSOLETE
+# OBSOLETE _IALU2,00000,00,6.RA,6.RB,6.RC:IALU2:short:iu:MUL2H
+# OBSOLETE "mul2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_mul2h(_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU2,00000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MUL2H imm
+# OBSOLETE "mul2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_mul2h(_SD, Ra, Rb, immHL);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MULX
+# OBSOLETE
+# OBSOLETE void::function::do_mulx:unsigned64 *aa, signed32 rb, signed32 src
+# OBSOLETE WRITE64_QUEUE (aa, (signed64) (rb) * (signed64) (src));
+# OBSOLETE
+# OBSOLETE _IALU2,11000,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MULX
+# OBSOLETE "mulx a<AA>, r<RB>, r<RC>"
+# OBSOLETE do_mulx(_SD, Aa, Rb, Rc);
+# OBSOLETE _IALU2,11000,10,5.*,1.AA,6.RB,_IMM6:IALU2:short:iu:MULX imm
+# OBSOLETE "mulx a<AA>, r<RB>, <imm>"
+# OBSOLETE do_mulx(_SD, Aa, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MULX2H
+# OBSOLETE
+# OBSOLETE void::function::do_mulx2h:int ra, signed32 rb, signed32 src, int high
+# OBSOLETE signed32 result = rb * src;
+# OBSOLETE if (!high)
+# OBSOLETE {
+# OBSOLETE ra = make_even_reg(_SD, ra, "MULX2H");
+# OBSOLETE if (ra != 0)
+# OBSOLETE WRITE32_QUEUE (&GPR[ra+1], result);
+# OBSOLETE }
+# OBSOLETE else if (ra != 0)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&GPR[ra+0], result);
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU2,00001,00,6.RA,6.RB,6.RC:IALU2:short:iu:MULX2H
+# OBSOLETE "mul2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_mulx2h(_SD, RA, RbH, RcH, 1);
+# OBSOLETE do_mulx2h(_SD, RA, RbL, RcL, 0);
+# OBSOLETE _IALU2,00001,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MULX2H imm
+# OBSOLETE "mul2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_mulx2h(_SD, RA, RbH, imm, 1);
+# OBSOLETE do_mulx2h(_SD, RA, RbL, imm, 0);
+# OBSOLETE
+# OBSOLETE // MULHXpp
+# OBSOLETE
+# OBSOLETE void::function::do_mulhx:int pp, unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE signed32 value = 0;
+# OBSOLETE switch (pp) {
+# OBSOLETE case 0: /* LL */
+# OBSOLETE value = SEXT32(VL2_4(rb), 16) * SEXT32(VL2_4(src), 16);
+# OBSOLETE break;
+# OBSOLETE case 1: /* LH */
+# OBSOLETE value = SEXT32(VL2_4(rb), 16) * SEXT32(VH2_4(src), 16);
+# OBSOLETE break;
+# OBSOLETE case 2: /* HL */
+# OBSOLETE value = SEXT32(VH2_4(rb), 16) * SEXT32(VL2_4(src), 16);
+# OBSOLETE break;
+# OBSOLETE case 3: /* HH */
+# OBSOLETE value = SEXT32(VH2_4(rb), 16) * SEXT32(VH2_4(src), 16);
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "do_mulhx - internal error - bad switch");
+# OBSOLETE }
+# OBSOLETE WRITE32_QUEUE (ra, value);
+# OBSOLETE
+# OBSOLETE _IALU2,001,pp,00,6.RA,6.RB,6.RC:IALU2:short:iu:MULHXpp
+# OBSOLETE "mulhx%s<pp> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_mulhx(_SD, pp, Ra, Rb, Rc);
+# OBSOLETE _IALU2,001,pp,10,6.RA,6.RB,_IMM6:IALU2:short:iu:MULHXpp imm
+# OBSOLETE "mulhx%s<pp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_mulhx(_SD, pp, Ra, Rb, immHL);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MULXS
+# OBSOLETE
+# OBSOLETE void::function::do_mulxs:unsigned64 *aa, signed32 rb, signed32 src
+# OBSOLETE WRITE64_QUEUE (aa, ((signed64) (rb) * (signed64) (src)) << 1);
+# OBSOLETE
+# OBSOLETE _IALU2,11001,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MULXS
+# OBSOLETE "mulxs a<AA>, r<RB>, r<RC>"
+# OBSOLETE do_mulxs(_SD, Aa, Rb, Rc);
+# OBSOLETE _IALU2,11001,10,5.*,1.AA,6.RB,_IMM6:IALU2:short:iu:MULXS imm
+# OBSOLETE "mulxs a<AA>, r<RB>, <imm>"
+# OBSOLETE do_mulxs(_SD, Aa, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MVFACC
+# OBSOLETE
+# OBSOLETE void::function::do_mvfacc:unsigned32 *ra, unsigned64 ab, unsigned32 src
+# OBSOLETE while (src > 63) src -= 64;
+# OBSOLETE WRITE32_QUEUE (ra, ((signed64)ab) >> src);
+# OBSOLETE
+# OBSOLETE _IALU2,11111,00,6.RA,5.*,1.AB,6.RC:IALU2:short:iu:MVFACC
+# OBSOLETE "mvfacc r<RA>, a<AB>, r<RC>"
+# OBSOLETE do_mvfacc(_SD, Ra, *Ab, Rc);
+# OBSOLETE _IALU2,11111,10,6.RA,5.*,1.AB,_IMM6:IALU2:short:iu:MVFACC imm
+# OBSOLETE "mvfacc r<RA>, a<AB>, <imm>"
+# OBSOLETE do_mvfacc(_SD, Ra, *Ab, imm_6u);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MVFSYS
+# OBSOLETE
+# OBSOLETE _BRA,11110,00,6.RA,6.CR,6.ID:BRA:short:mu:MVFSYS
+# OBSOLETE "mvfsys r<RA>, cr<CR>"
+# OBSOLETE switch (ID) {
+# OBSOLETE case 0:
+# OBSOLETE if (CR >= NR_CONTROL_REGISTERS)
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "FIXME - illegal CR");
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (Ra, (CPU)->regs.control[CR]);
+# OBSOLETE break;
+# OBSOLETE case 1:
+# OBSOLETE WRITE32_QUEUE (Ra, PSWL);
+# OBSOLETE break;
+# OBSOLETE case 2:
+# OBSOLETE WRITE32_QUEUE (Ra, EXTRACTED32(PSWH, 16, 31));
+# OBSOLETE break;
+# OBSOLETE case 3:
+# OBSOLETE WRITE32_QUEUE (Ra, PSW_FLAG_VAL(CR));
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "FIXME - illegal ID");
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MVTACC
+# OBSOLETE
+# OBSOLETE _IALU2,01111,00,5.*,1.AA,6.RB,6.RC:IALU2:short:iu:MVTACC
+# OBSOLETE "mvtacc a<AA>, r<RB>, r<RC>"
+# OBSOLETE WRITE64_QUEUE (Aa, INSERTED64(RbU, 0, 31) | (RcU));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // MVTSYS
+# OBSOLETE
+# OBSOLETE _BRA,01110,00,6.CR,6.RB,6.ID:BRA:short:mu:MVTSYS
+# OBSOLETE "mvtsys cr<CR>, r<RB>"
+# OBSOLETE switch (ID) {
+# OBSOLETE case 0: /* control register */
+# OBSOLETE if (CR >= NR_CONTROL_REGISTERS)
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "FIXME - illegal CR");
+# OBSOLETE else
+# OBSOLETE {
+# OBSOLETE unsigned32 value = Rb;
+# OBSOLETE CPU->mvtsys_left_p = 1;
+# OBSOLETE if (CR == processor_status_word_cr)
+# OBSOLETE {
+# OBSOLETE unsigned32 ds = PSW & BIT32 (PSW_DS); /* preserve ds */
+# OBSOLETE value = ds | (value & PSW_VALID);
+# OBSOLETE }
+# OBSOLETE else if (CR == backup_processor_status_word_cr
+# OBSOLETE || CR == debug_backup_processor_status_word_cr)
+# OBSOLETE value &= DPSW_VALID;
+# OBSOLETE else if (CR == eit_vector_base_cr)
+# OBSOLETE value &= EIT_VALID;
+# OBSOLETE WRITE32_QUEUE (&(CPU)->regs.control[CR], value);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 1: /* PSWL */
+# OBSOLETE WRITE32_QUEUE_MASK (&PSW, EXTRACTED32(Rb, 16, 31),
+# OBSOLETE PSW_VALID & 0x0000ffff);
+# OBSOLETE break;
+# OBSOLETE case 2: /* PSWH */
+# OBSOLETE {
+# OBSOLETE unsigned32 ds = PSW & BIT32 (PSW_DS); /* preserve ds */
+# OBSOLETE WRITE32_QUEUE_MASK (&PSW, (EXTRACTED32(Rb, 16, 31) << 16) | ds,
+# OBSOLETE (PSW_VALID | ds) & 0xffff0000);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 3: /* FLAG */
+# OBSOLETE PSW_FLAG_SET_QUEUE(CR, Rb & 1);
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "FIXME - illegal ID");
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // NOP
+# OBSOLETE
+# OBSOLETE _BRA,01111,00,6.**,6.**,6.**:BRA:short:iu,mu:NOP
+# OBSOLETE "nop"
+# OBSOLETE /* NOP */;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // NOT
+# OBSOLETE
+# OBSOLETE _LOGIC,11001,00,6.RA,6.RB,6.*:LOGIC:short:iu,mu:NOT
+# OBSOLETE "not r<RA>, r<RB>"
+# OBSOLETE WRITE32_QUEUE (Ra, ~Rb);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // NOTFG
+# OBSOLETE
+# OBSOLETE _LOGIC,01001,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:NOTFG
+# OBSOLETE "notfg f<FA>, f<FB>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, !PSW_FLAG_VAL(FB));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // OR
+# OBSOLETE
+# OBSOLETE _LOGIC,11010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:OR
+# OBSOLETE "or r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb | Rc);
+# OBSOLETE _LOGIC,11010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:OR imm
+# OBSOLETE "or r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb | imm);
+# OBSOLETE _LOGIC,11010,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:OR imm long
+# OBSOLETE "or r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb | imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ORFG
+# OBSOLETE
+# OBSOLETE _LOGIC,01010,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:ORFG
+# OBSOLETE "orfg f<FA>, f<FB>, f<FC>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) | PSW_FLAG_VAL(FC));
+# OBSOLETE _LOGIC,01010,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:ORFG imm
+# OBSOLETE "orfg f<FA>, f<FB>, <imm>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) | (imm_6 & 1));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // REIT
+# OBSOLETE
+# OBSOLETE _BRA,01000,00,6.**,6.**,6.**:BRA:short:mu:REIT
+# OBSOLETE "reit"
+# OBSOLETE WRITE32_QUEUE (&PSW, bPSW);
+# OBSOLETE nia = bPC;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // REPEAT
+# OBSOLETE
+# OBSOLETE void::function::do_repeat:unsigned32 count, address_word pcaddr
+# OBSOLETE address_word rpt_s = cia + 8;
+# OBSOLETE address_word rpt_e = cia + pcaddr;
+# OBSOLETE
+# OBSOLETE if (count == 0)
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "REPEAT with ra=0 and REPEATI with imm = 0 is forbidden.");
+# OBSOLETE if (count > 1)
+# OBSOLETE PSW_SET_QUEUE (PSW_RP, 1);
+# OBSOLETE if (rpt_e < rpt_s + 0x10)
+# OBSOLETE sim_io_eprintf (sd, "warning: 0x%lx: REPEAT or REPEATI loop is too small\n", (long) cia);
+# OBSOLETE WRITE32_QUEUE (&RPT_C, count - 1);
+# OBSOLETE WRITE32_QUEUE (&RPT_S, rpt_s);
+# OBSOLETE WRITE32_QUEUE (&RPT_E, rpt_e);
+# OBSOLETE
+# OBSOLETE _BRA,11000,00,6.RA,6.**,6.RC:BRA:short:mu:REPEAT
+# OBSOLETE "repeat r<RA>, r<RC>"
+# OBSOLETE do_repeat(_SD, val_Ra, pcaddr);
+# OBSOLETE _BRA,11000,10,6.RA,_IMM12:BRA:short:mu:REPEAT imm
+# OBSOLETE "repeat r<RA>, <pcaddr>"
+# OBSOLETE do_repeat(_SD, val_Ra, pcaddr);
+# OBSOLETE _BRA,11000,10,6.RA,6.**,_IMM32:BRA:long:mu:REPEAT imm long
+# OBSOLETE "repeat r<RA>, <pcaddr>"
+# OBSOLETE do_repeat(_SD, val_Ra, pcaddr);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // REPEATI
+# OBSOLETE
+# OBSOLETE _BRA,11010,00,6.IMM_6,6.**,6.RC:BRA:short:mu:REPEATI
+# OBSOLETE "repeati <IMM_6>, r<RC>"
+# OBSOLETE do_repeat(_SD, IMM_6, pcaddr);
+# OBSOLETE _BRA,11010,10,6.IMM_6,_IMM12:BRA:short:mu:REPEATI imm
+# OBSOLETE "repeati <IMM_6>, <pcaddr>"
+# OBSOLETE do_repeat(_SD, IMM_6, pcaddr);
+# OBSOLETE _BRA,11010,10,6.IMM_6,6.**,_IMM32:BRA:long:mu:REPEATI imm long
+# OBSOLETE "repeati <IMM_6>, <pcaddr>"
+# OBSOLETE do_repeat(_SD, IMM_6, pcaddr);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // RTD
+# OBSOLETE
+# OBSOLETE _BRA,01010,00,6.*,6.*,6.*:BRA:short:mu:RTD
+# OBSOLETE "rtd"
+# OBSOLETE WRITE32_QUEUE (&PSW, DPSW);
+# OBSOLETE nia = DPC;
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ROT
+# OBSOLETE
+# OBSOLETE _LOGIC,10100,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:ROT
+# OBSOLETE "rot r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, ROT32(Rb, Rc & 0x1f));
+# OBSOLETE _LOGIC,10100,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:ROT imm
+# OBSOLETE "rot r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, ROT32(Rb, imm & 0x1f));
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ROT2H
+# OBSOLETE
+# OBSOLETE void::function::do_rot2h:unsigned32 *ra, unsigned32 rb, signed32 src
+# OBSOLETE unsigned16 high = ROTR16(VH2_4(rb), VH2_4(src) & 0xf);
+# OBSOLETE unsigned16 low = ROTR16(VL2_4(rb), VL2_4(src) & 0xf);
+# OBSOLETE WRITE32_QUEUE (ra, (high << 16) | low);
+# OBSOLETE
+# OBSOLETE _LOGIC,10101,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:ROT2H
+# OBSOLETE "rot2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_rot2h(_SD, Ra, Rb, Rc);
+# OBSOLETE _LOGIC,10101,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:ROT2H imm
+# OBSOLETE "rot2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_rot2h(_SD, Ra, Rb, immHL);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SAT
+# OBSOLETE
+# OBSOLETE void::function::do_sat:signed32 *ra, signed32 rb, signed32 src
+# OBSOLETE int bits = LSMASKED32(src, 4, 0); /* 5 */
+# OBSOLETE signed32 sat = LSMASK32(bits, 0) >> 2;
+# OBSOLETE signed32 nsat = ~sat;
+# OBSOLETE signed32 value;
+# OBSOLETE if (bits != src)
+# OBSOLETE sim_io_eprintf (sd, "warning: 0x%lx:SAT bit overflow\n", (long) cia);
+# OBSOLETE if (bits == 0)
+# OBSOLETE value = rb;
+# OBSOLETE else if (rb >= sat)
+# OBSOLETE value = sat;
+# OBSOLETE else if (rb <= nsat)
+# OBSOLETE value = nsat;
+# OBSOLETE else
+# OBSOLETE value = rb;
+# OBSOLETE WRITE32_QUEUE (ra, value);
+# OBSOLETE
+# OBSOLETE _IALU2,01000,00,6.RA,6.RB,6.RC:IALU2:short:iu:SAT
+# OBSOLETE "sat r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sat(_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU2,01000,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SAT imm
+# OBSOLETE "sat r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sat(_SD, Ra, Rb, imm_5);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SAT2H
+# OBSOLETE
+# OBSOLETE void::function::do_sath:signed32 *ra, signed32 rb, signed32 src, int high, int updates_f4
+# OBSOLETE int bits = LSMASKED32(src, 4, 0); /* 5 */
+# OBSOLETE signed32 sat = LSMASK32(bits, 0) >> 2;
+# OBSOLETE signed32 nsat = ~sat;
+# OBSOLETE signed32 value;
+# OBSOLETE if (bits != src)
+# OBSOLETE sim_io_eprintf (sd, "warning: 0x%lx:SAT bit overflow\n", (long) cia);
+# OBSOLETE if (bits == 0)
+# OBSOLETE value = rb;
+# OBSOLETE else if (rb >= sat)
+# OBSOLETE value = sat;
+# OBSOLETE else if (rb <= nsat)
+# OBSOLETE value = nsat;
+# OBSOLETE else
+# OBSOLETE value = rb;
+# OBSOLETE if (high)
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
+# OBSOLETE if (updates_f4)
+# OBSOLETE {
+# OBSOLETE /* if MU instruction was a MVTSYS (lkr), unqueue register writes now */
+# OBSOLETE if(STATE_CPU (sd, 0)->mvtsys_left_p)
+# OBSOLETE unqueue_writes (sd, STATE_CPU (sd, 0), cia);
+# OBSOLETE PSW_FLAG_SET_QUEUE(PSW_S_FLAG, PSW_FLAG_VAL(PSW_S_FLAG) ^ (value & 1));
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU2,01001,00,6.RA,6.RB,6.RC:IALU2:short:iu:SAT2H
+# OBSOLETE "sat2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sath(_SD, Ra, RbH, RcH, 1, 0);
+# OBSOLETE do_sath(_SD, Ra, RbL, RcL, 0, 0);
+# OBSOLETE _IALU2,01001,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SAT2H imm
+# OBSOLETE "sat2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sath(_SD, Ra, RbH, imm_5, 1, 0);
+# OBSOLETE do_sath(_SD, Ra, RbL, imm_5, 0, 0);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SATHp
+# OBSOLETE
+# OBSOLETE ::%s::p:int p
+# OBSOLETE switch (p)
+# OBSOLETE {
+# OBSOLETE case 0: return "l";
+# OBSOLETE case 1: return "h";
+# OBSOLETE default: return "?";
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU2,1110,p,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATHP
+# OBSOLETE "sath%s<p> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sath(_SD, Ra, Rb, Rc, p, 1);
+# OBSOLETE _IALU2,1110,p,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATHP imm
+# OBSOLETE "sath%s<p> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sath(_SD, Ra, Rb, imm_5, p, 1);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SATZ
+# OBSOLETE
+# OBSOLETE void::function::do_satz:signed32 *ra, signed32 rb, signed32 src
+# OBSOLETE if (rb < 0)
+# OBSOLETE WRITE32_QUEUE (ra, 0);
+# OBSOLETE else
+# OBSOLETE do_sat (_SD, ra, rb, src);
+# OBSOLETE
+# OBSOLETE _IALU2,01010,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATZ
+# OBSOLETE "satz r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_satz(_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU2,01010,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATZ imm
+# OBSOLETE "satz r<RA>, r<RB>, <imm>"
+# OBSOLETE do_satz(_SD, Ra, Rb, imm_5);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SATZ2H
+# OBSOLETE
+# OBSOLETE void::function::do_satzh:signed32 *ra, signed16 rb, signed32 src, int high
+# OBSOLETE int bits = LSMASKED32(src, 3, 0); /*4*/
+# OBSOLETE signed16 sat = LSMASK16(bits, 0) >> 2;
+# OBSOLETE signed16 nsat = 0;
+# OBSOLETE signed16 value;
+# OBSOLETE if (bits != src)
+# OBSOLETE sim_io_eprintf (sd, "warning: 0x%lx:SATZ2H bit overflow\n", (long) cia);
+# OBSOLETE if (bits == 0 && rb > sat)
+# OBSOLETE value = rb;
+# OBSOLETE else if (rb > sat)
+# OBSOLETE value = sat;
+# OBSOLETE else if (rb < nsat)
+# OBSOLETE value = nsat;
+# OBSOLETE else
+# OBSOLETE value = rb;
+# OBSOLETE if (high)
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE _IALU2,01011,00,6.RA,6.RB,6.RC:IALU2:short:iu:SATZ2H
+# OBSOLETE "satz2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_satzh(_SD, Ra, RbH, RcH, 1);
+# OBSOLETE do_satzh(_SD, Ra, RbL, RcL, 0);
+# OBSOLETE _IALU2,01011,10,6.RA,6.RB,_IMM6:IALU2:short:iu:SATZ2H imm
+# OBSOLETE "satz2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_satzh(_SD, Ra, RbH, imm, 1);
+# OBSOLETE do_satzh(_SD, Ra, RbL, imm, 0);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRA
+# OBSOLETE
+# OBSOLETE void::function::do_sra:unsigned32 *ra, unsigned32 rb, signed32 src
+# OBSOLETE unsigned32 value;
+# OBSOLETE while (src > 31) src -= 32;
+# OBSOLETE while (src < -32) src += 32;
+# OBSOLETE if (src >= 0)
+# OBSOLETE value = (signed32)rb >> src;
+# OBSOLETE else if (src == -32)
+# OBSOLETE value = 0;
+# OBSOLETE else
+# OBSOLETE value = rb << -src;
+# OBSOLETE WRITE32_QUEUE (ra, value);
+# OBSOLETE
+# OBSOLETE _LOGIC,10000,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRA
+# OBSOLETE "sra r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sra(_SD, Ra, Rb, Rc);
+# OBSOLETE _LOGIC,10000,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRA imm
+# OBSOLETE "sra r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sra(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRAHp
+# OBSOLETE
+# OBSOLETE void::function::do_srah:unsigned32 *ra, unsigned32 rb, int src, int high
+# OBSOLETE unsigned32 value;
+# OBSOLETE while (src > 31) src -= 32;
+# OBSOLETE while (src < -32) src += 32;
+# OBSOLETE if (src >= 0)
+# OBSOLETE value = (signed32)rb >> src;
+# OBSOLETE else if (src == -32)
+# OBSOLETE value = 0;
+# OBSOLETE else
+# OBSOLETE value = rb << -src;
+# OBSOLETE if (high)
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
+# OBSOLETE
+# OBSOLETE _LOGIC,0010,p,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRAHP
+# OBSOLETE "srah%s<p> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_srah(_SD, Ra, Rb, Rc, p);
+# OBSOLETE _LOGIC,0010,p,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRAHP imm
+# OBSOLETE "srah%s<p> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_srah(_SD, Ra, Rb, imm, p);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRA2H
+# OBSOLETE
+# OBSOLETE _LOGIC,10001,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRA2H
+# OBSOLETE "sra2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE signed32 srcH = RcH;
+# OBSOLETE signed32 srcL = RcL;
+# OBSOLETE while (srcH > 15) srcH -= 16;
+# OBSOLETE while (srcH < -16) srcH += 16;
+# OBSOLETE while (srcL > 15) srcL -= 16;
+# OBSOLETE while (srcL < -16) srcL += 16;
+# OBSOLETE do_srah(_SD, Ra, RbH, srcH, 1);
+# OBSOLETE do_srah(_SD, Ra, RbL, srcL, 0);
+# OBSOLETE _LOGIC,10001,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRA2H imm
+# OBSOLETE "sra2h r<RA>, r<RB>, <imm>"
+# OBSOLETE signed32 src = imm;
+# OBSOLETE while (src > 15) src -= 16;
+# OBSOLETE while (src < -16) src += 16;
+# OBSOLETE do_srah(_SD, Ra, RbH, src, 1);
+# OBSOLETE do_srah(_SD, Ra, RbL, src, 0);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRC
+# OBSOLETE
+# OBSOLETE void::function::do_src:unsigned32 *ra, unsigned32 rb, int src
+# OBSOLETE unsigned32 value;
+# OBSOLETE unsigned64 operand;
+# OBSOLETE unsigned64 shifted;
+# OBSOLETE while (src > 31) src -= 32;
+# OBSOLETE while (src < -32) src += 32;
+# OBSOLETE if (src >= 0)
+# OBSOLETE {
+# OBSOLETE operand = (INSERTED64(rb, 0, 31) | INSERTED64(*ra, 32, 63));
+# OBSOLETE shifted = operand >> src;
+# OBSOLETE value = EXTRACTED64(shifted, 32, 63);
+# OBSOLETE }
+# OBSOLETE else
+# OBSOLETE {
+# OBSOLETE operand = (INSERTED64(*ra, 0, 31) | INSERTED64(rb, 32, 63));
+# OBSOLETE shifted = operand << -src;
+# OBSOLETE value = EXTRACTED64(shifted, 0, 31);
+# OBSOLETE }
+# OBSOLETE WRITE32_QUEUE (ra, value);
+# OBSOLETE
+# OBSOLETE _LOGIC,10110,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRC
+# OBSOLETE "src r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_src(_SD, Ra, Rb, Rc);
+# OBSOLETE _LOGIC,10110,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRC imm
+# OBSOLETE "src r<RA>, r<RB>, <imm>"
+# OBSOLETE do_src(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRL
+# OBSOLETE
+# OBSOLETE void::function::do_srl:unsigned32 *ra, unsigned32 rb, int src
+# OBSOLETE unsigned32 value;
+# OBSOLETE while (src > 31) src -= 32;
+# OBSOLETE while (src < -32) src += 32;
+# OBSOLETE if (src >= 0)
+# OBSOLETE value = (unsigned32)rb >> src;
+# OBSOLETE else if (src == -32)
+# OBSOLETE value = 0;
+# OBSOLETE else
+# OBSOLETE value = (unsigned32)rb << -src;
+# OBSOLETE WRITE32_QUEUE (ra, value);
+# OBSOLETE
+# OBSOLETE _LOGIC,10010,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRL
+# OBSOLETE "srl r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_srl(_SD, Ra, Rb, Rc);
+# OBSOLETE _LOGIC,10010,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRL imm
+# OBSOLETE "srl r<RA>, r<RB>, <imm>"
+# OBSOLETE do_srl(_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRLHp
+# OBSOLETE
+# OBSOLETE void::function::do_srlh:unsigned32 *ra, unsigned32 rb, int src, int high
+# OBSOLETE unsigned32 value;
+# OBSOLETE while (src > 31) src -= 32;
+# OBSOLETE while (src < -32) src += 32;
+# OBSOLETE if (src >= 0)
+# OBSOLETE value = rb >> src;
+# OBSOLETE else if (src == -32)
+# OBSOLETE value = 0;
+# OBSOLETE else
+# OBSOLETE value = rb << -src;
+# OBSOLETE if (high)
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value << 16, 0xffff0000);
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE_MASK (ra, value, 0x0000ffff);
+# OBSOLETE
+# OBSOLETE _LOGIC,0011,p,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRLHP
+# OBSOLETE "srlh%s<p> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_srlh(_SD, Ra, Rb, Rc, p);
+# OBSOLETE _LOGIC,0011,p,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRLHP imm
+# OBSOLETE "srlh%s<p> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_srlh(_SD, Ra, Rb, imm, p);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SRL2H
+# OBSOLETE
+# OBSOLETE _LOGIC,10011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:SRL2H
+# OBSOLETE "srl2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE signed32 srcH = RcH;
+# OBSOLETE signed32 srcL = RcL;
+# OBSOLETE while (srcH > 15) srcH -= 16;
+# OBSOLETE while (srcH < -16) srcH += 16;
+# OBSOLETE while (srcL > 15) srcL -= 16;
+# OBSOLETE while (srcL < -16) srcL += 16;
+# OBSOLETE do_srlh(_SD, Ra, RbHU, srcH, 1);
+# OBSOLETE do_srlh(_SD, Ra, RbLU, srcL, 0);
+# OBSOLETE _LOGIC,10011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:SRL2H imm
+# OBSOLETE "srl2h r<RA>, r<RB>, <imm>"
+# OBSOLETE signed32 src = imm;
+# OBSOLETE while (src > 15) src -= 16;
+# OBSOLETE while (src < -16) src += 16;
+# OBSOLETE do_srlh(_SD, Ra, RbHU, src, 1);
+# OBSOLETE do_srlh(_SD, Ra, RbLU, src, 0);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ST2H
+# OBSOLETE
+# OBSOLETE void::function::get_even_reg:int *reg, unsigned32 *r0, const char *name
+# OBSOLETE if (*reg & 1)
+# OBSOLETE sim_engine_abort (SD, CPU, cia,
+# OBSOLETE "0x%lx:%s odd register (r%d) used in multi-word store",
+# OBSOLETE (long) cia, name, *reg);
+# OBSOLETE if (*reg == 0)
+# OBSOLETE *r0 = 0;
+# OBSOLETE else
+# OBSOLETE *r0 = GPR[*reg];
+# OBSOLETE
+# OBSOLETE void::function::do_st2h:int ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned32 val_ra;
+# OBSOLETE unsigned32 mem;
+# OBSOLETE get_even_reg(_SD, &ra, &val_ra, "ST2H");
+# OBSOLETE mem = INSERTED32(val_ra, 0, 15) |
+# OBSOLETE INSERTED32(GPR[ra + 1], 16, 31);
+# OBSOLETE STORE(rb + src, 4, mem);
+# OBSOLETE
+# OBSOLETE _IMEM,10011,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST2H
+# OBSOLETE "st2h r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "st2h r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_st2h(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,10011,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST2H long
+# OBSOLETE "st2h r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_st2h(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ST2W
+# OBSOLETE
+# OBSOLETE void::function::do_st2w:int ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned32 val_ra;
+# OBSOLETE unsigned64 mem;
+# OBSOLETE get_even_reg(_SD, &ra, &val_ra, "ST2W");
+# OBSOLETE mem = INSERTED64(val_ra, 0, 31) | INSERTED64(GPR[ra + 1], 32, 63);
+# OBSOLETE STORE(rb + src, 8, mem);
+# OBSOLETE
+# OBSOLETE _IMEM,10110,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST2W
+# OBSOLETE "st2w r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "st2w r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_st2w(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 8);
+# OBSOLETE _IMEM,10110,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST2W long
+# OBSOLETE "st2w r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_st2w(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // ST4HB
+# OBSOLETE
+# OBSOLETE void::function::do_st4hb:int ra, unsigned32 rb, unsigned32 src
+# OBSOLETE unsigned32 val_ra;
+# OBSOLETE unsigned32 mem;
+# OBSOLETE get_even_reg(_SD, &ra, &val_ra, "ST4HB");
+# OBSOLETE mem = INSERTED32(EXTRACTED32(val_ra, 8, 15), 0, 7) |
+# OBSOLETE INSERTED32(EXTRACTED32(val_ra, 24, 31), 8, 15) |
+# OBSOLETE INSERTED32(EXTRACTED32(GPR[ra + 1], 8, 15), 16, 23) |
+# OBSOLETE INSERTED32(EXTRACTED32(GPR[ra + 1], 24, 31), 24, 31);
+# OBSOLETE STORE(rb + src, 4, mem);
+# OBSOLETE
+# OBSOLETE _IMEM,10101,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:ST4HB
+# OBSOLETE "st4hb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "st4hb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_st4hb(_SD, RA, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,10101,10,6.RA,6.RB,_IMM32:IMEM:long:mu:ST4HB long
+# OBSOLETE "st4hb r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_st4hb(_SD, RA, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // STB
+# OBSOLETE
+# OBSOLETE void::function::do_stb:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE STORE(rb + src, 1, EXTRACTED32(ra, 24, 31));
+# OBSOLETE
+# OBSOLETE _IMEM,10000,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STB
+# OBSOLETE "stb r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "stb r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_stb(_SD, val_Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 1);
+# OBSOLETE _IMEM,10000,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STB long
+# OBSOLETE "stb r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_stb(_SD, val_Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // STH
+# OBSOLETE
+# OBSOLETE void::function::do_sth:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE STORE(rb + src, 2, EXTRACTED32(ra, 16, 31));
+# OBSOLETE
+# OBSOLETE _IMEM,10010,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STH
+# OBSOLETE "sth r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "sth r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_sth(_SD, val_Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 2);
+# OBSOLETE _IMEM,10010,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STH long
+# OBSOLETE "sth r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_sth(_SD, val_Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // STHH
+# OBSOLETE
+# OBSOLETE void::function::do_sthh:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE STORE(rb + src, 2, EXTRACTED32(ra, 0, 15));
+# OBSOLETE
+# OBSOLETE _IMEM,10001,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STHH
+# OBSOLETE "sthh r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "sthh r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_sthh(_SD, val_Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 2);
+# OBSOLETE _IMEM,10001,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STHH long
+# OBSOLETE "sthh r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_sthh(_SD, val_Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // STW
+# OBSOLETE
+# OBSOLETE void::function::do_stw:unsigned32 ra, unsigned32 rb, unsigned32 src
+# OBSOLETE STORE(rb + src, 4, ra);
+# OBSOLETE
+# OBSOLETE _IMEM,10100,XX,6.RA,6.RB,6.SRC_6:IMEM:short:mu:STW
+# OBSOLETE "stw r<RA>, @(r<RB>, <SRC_6>)":XX == 0
+# OBSOLETE "stw r<RA>, @(r<RB>%s<XX>, r<SRC_6>)"
+# OBSOLETE do_stw(_SD, val_Ra, Rb, src);
+# OBSOLETE do_incr(_SD, XX, &GPR[RB], 4);
+# OBSOLETE _IMEM,10100,10,6.RA,6.RB,_IMM32:IMEM:long:mu:STW long
+# OBSOLETE "stw r<RA>, @(r<RB>, <imm>)"
+# OBSOLETE do_stw(_SD, val_Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SUB
+# OBSOLETE
+# OBSOLETE void::function::do_sub:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE ALU_BEGIN(rb);
+# OBSOLETE ALU_SUBB(imm);
+# OBSOLETE ALU_END(ra);
+# OBSOLETE
+# OBSOLETE _IALU1,00010,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUB
+# OBSOLETE "sub r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sub (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00010,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUB imm
+# OBSOLETE "sub r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sub (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,00010,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUB imm long
+# OBSOLETE "sub r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sub (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SUB2H
+# OBSOLETE
+# OBSOLETE void::function::do_sub2h:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE unsigned16 high = VH2_4(rb) - VH2_4(imm);
+# OBSOLETE unsigned16 low = VL2_4(rb) - VL2_4(imm);
+# OBSOLETE WRITE32_QUEUE (ra, (high << 16) | low);
+# OBSOLETE
+# OBSOLETE _IALU1,00011,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUB2H
+# OBSOLETE "sub2h r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_sub2h (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00011,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUB2H imm
+# OBSOLETE "sub2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sub2h (_SD, Ra, Rb, immHL);
+# OBSOLETE _IALU1,00011,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUB2H imm long
+# OBSOLETE "sub2h r<RA>, r<RB>, <imm>"
+# OBSOLETE do_sub2h (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SUBB
+# OBSOLETE
+# OBSOLETE void::function::do_subb:unsigned32 *ra, unsigned32 rb, unsigned32 imm
+# OBSOLETE ALU_BEGIN(rb);
+# OBSOLETE ALU_SUBB_B(imm, ALU_CARRY);
+# OBSOLETE ALU_END(ra);
+# OBSOLETE
+# OBSOLETE _IALU1,00101,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUBB
+# OBSOLETE "subb r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_subb (_SD, Ra, Rb, Rc);
+# OBSOLETE _IALU1,00101,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUBB imm
+# OBSOLETE "subb r<RA>, r<RB>, <imm>"
+# OBSOLETE do_subb (_SD, Ra, Rb, imm);
+# OBSOLETE _IALU1,00101,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUBB imm long
+# OBSOLETE "subb r<RA>, r<RB>, <imm>"
+# OBSOLETE do_subb (_SD, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // SUBHppp
+# OBSOLETE
+# OBSOLETE void::function::do_subh_ppp:int ppp, unsigned32 *ra, unsigned32 rb, unsigned32 src
+# OBSOLETE switch (ppp) {
+# OBSOLETE case 0x0: /* LLL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_SUBB(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x1: /* LLH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_SUBB(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x2: /* LHL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_SUBB(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x3: /* LHH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_SUBB(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 0);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x4: /* HLL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_SUBB(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x5: /* HLH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VL2_4(rb));
+# OBSOLETE ALU16_SUBB(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x6: /* HHL */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_SUBB(VL2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE case 0x7: /* HHH */
+# OBSOLETE {
+# OBSOLETE ALU16_BEGIN(VH2_4(rb));
+# OBSOLETE ALU16_SUBB(VH2_4(src));
+# OBSOLETE ALU16_END(ra, 1);
+# OBSOLETE }
+# OBSOLETE break;
+# OBSOLETE default:
+# OBSOLETE sim_engine_abort (SD, CPU, cia, "do_subh_ppp - internal error - bad switch");
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _IALU1,11,ppp,00,6.RA,6.RB,6.RC:IALU1:short:iu,mu:SUBHppp
+# OBSOLETE "subh%s<ppp> r<RA>, r<RB>, r<RC>"
+# OBSOLETE do_subh_ppp(_SD, ppp, Ra, Rb, Rc);
+# OBSOLETE _IALU1,11,ppp,10,6.RA,6.RB,_IMM6:IALU1:short:iu,mu:SUBHppp imm
+# OBSOLETE "subh%s<ppp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_subh_ppp(_SD, ppp, Ra, Rb, immHL);
+# OBSOLETE _IALU1,11,ppp,10,6.RA,6.RB,_IMM32:IALU1:long:iu,mu:SUBHppp imm long
+# OBSOLETE "subh%s<ppp> r<RA>, r<RB>, <imm>"
+# OBSOLETE do_subh_ppp(_SD, ppp, Ra, Rb, imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // TRAP
+# OBSOLETE
+# OBSOLETE address_word::function::do_trap:address_word trap_vector, address_word nia
+# OBSOLETE /* Steal trap 31 for doing system calls */
+# OBSOLETE /* System calls are defined in libgloss/d30v/syscall.h. */
+# OBSOLETE if (trap_vector == EIT_VB + 0x20 + (31 << 3))
+# OBSOLETE {
+# OBSOLETE enum { PARM1 = 2, PARM2, PARM3, PARM4, FUNC };
+# OBSOLETE if (GPR[FUNC] == 1) /* exit */
+# OBSOLETE {
+# OBSOLETE sim_engine_halt (sd, STATE_CPU (sd, 0), NULL, cia, sim_exited,
+# OBSOLETE GPR[PARM1]);
+# OBSOLETE return -1; /* dummy */
+# OBSOLETE }
+# OBSOLETE else
+# OBSOLETE {
+# OBSOLETE CB_SYSCALL syscall;
+# OBSOLETE
+# OBSOLETE CB_SYSCALL_INIT (&syscall);
+# OBSOLETE syscall.arg1 = GPR[PARM1];
+# OBSOLETE syscall.arg2 = GPR[PARM2];
+# OBSOLETE syscall.arg3 = GPR[PARM3];
+# OBSOLETE syscall.arg4 = GPR[PARM4];
+# OBSOLETE syscall.func = GPR[FUNC];
+# OBSOLETE syscall.p1 = (PTR) SD;
+# OBSOLETE syscall.read_mem = d30v_read_mem;
+# OBSOLETE syscall.write_mem = d30v_write_mem;
+# OBSOLETE
+# OBSOLETE WRITE32_QUEUE (&GPR[PARM1],
+# OBSOLETE ((cb_syscall (STATE_CALLBACK (SD), &syscall)
+# OBSOLETE == CB_RC_OK)
+# OBSOLETE ? syscall.result
+# OBSOLETE : -syscall.errcode));
+# OBSOLETE return nia;
+# OBSOLETE }
+# OBSOLETE }
+# OBSOLETE else if (TRACE_TRAP_P)
+# OBSOLETE {
+# OBSOLETE int reg, i;
+# OBSOLETE sim_io_eprintf (sd, "\nTrap %ld:\n", (long) ((trap_vector - (EIT_VB + 0x20)) >> 3));
+# OBSOLETE for (reg = 0; reg < NR_GENERAL_PURPOSE_REGISTERS; reg += 8)
+# OBSOLETE {
+# OBSOLETE sim_io_eprintf (sd, "r%.2d - r%.2d: ", reg, reg+7);
+# OBSOLETE for (i = 0; i < 8; i++)
+# OBSOLETE sim_io_eprintf (sd, " 0x%.8lx", (long) GPR[reg+i]);
+# OBSOLETE sim_io_eprintf (sd, "\n");
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE for (reg = 0; reg < 16; reg += 8)
+# OBSOLETE {
+# OBSOLETE sim_io_eprintf (sd, "cr%.2d - cr%.2d:", reg, reg+7);
+# OBSOLETE for (i = 0; i < 8; i++)
+# OBSOLETE sim_io_eprintf (sd, " 0x%.8lx", (long) CREG[reg+i]);
+# OBSOLETE sim_io_eprintf (sd, "\n");
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE sim_io_eprintf (sd, "a0 - a1: ");
+# OBSOLETE for (reg = 0; reg < NR_ACCUMULATORS; reg++)
+# OBSOLETE sim_io_eprintf (sd, " 0x%.8lx 0x%.8lx",
+# OBSOLETE (long)EXTRACTED64(ACC[reg], 0, 31),
+# OBSOLETE (long)EXTRACTED64(ACC[reg], 32, 63));
+# OBSOLETE sim_io_eprintf (sd, "\n");
+# OBSOLETE
+# OBSOLETE sim_io_eprintf (sd, "f0 - f7: ");
+# OBSOLETE sim_io_eprintf (sd, " (f0) %d", (int) PSW_VAL(PSW_F0));
+# OBSOLETE sim_io_eprintf (sd, " (f1) %d", (int) PSW_VAL(PSW_F1));
+# OBSOLETE sim_io_eprintf (sd, " (f2) %d", (int) PSW_VAL(PSW_F2));
+# OBSOLETE sim_io_eprintf (sd, " (f3) %d", (int) PSW_VAL(PSW_F3));
+# OBSOLETE sim_io_eprintf (sd, " (s) %d", (int) PSW_VAL(PSW_S));
+# OBSOLETE sim_io_eprintf (sd, " (v) %d", (int) PSW_VAL(PSW_V));
+# OBSOLETE sim_io_eprintf (sd, " (va) %d", (int) PSW_VAL(PSW_VA));
+# OBSOLETE sim_io_eprintf (sd, " (c) %d\n", (int) PSW_VAL(PSW_C));
+# OBSOLETE
+# OBSOLETE sim_io_eprintf (sd, "pswh: ");
+# OBSOLETE sim_io_eprintf (sd, " (sm) %d", (int) PSW_VAL(PSW_SM));
+# OBSOLETE sim_io_eprintf (sd, " (ea) %d", (int) PSW_VAL(PSW_EA));
+# OBSOLETE sim_io_eprintf (sd, " (ie) %d", (int) PSW_VAL(PSW_IE));
+# OBSOLETE sim_io_eprintf (sd, " (rp) %d", (int) PSW_VAL(PSW_RP));
+# OBSOLETE sim_io_eprintf (sd, " (md) %d", (int) PSW_VAL(PSW_MD));
+# OBSOLETE
+# OBSOLETE if (PSW_VAL(PSW_DB))
+# OBSOLETE sim_io_eprintf (sd, " (db) %d", (int) PSW_VAL(PSW_DB));
+# OBSOLETE
+# OBSOLETE if (PSW_VAL(PSW_DS))
+# OBSOLETE sim_io_eprintf (sd, " (ds) %d", (int) PSW_VAL(PSW_DS));
+# OBSOLETE
+# OBSOLETE sim_io_eprintf (sd, "\n");
+# OBSOLETE return nia;
+# OBSOLETE }
+# OBSOLETE else
+# OBSOLETE {
+# OBSOLETE if(PSW_VAL(PSW_RP) && RPT_E == cia)
+# OBSOLETE {
+# OBSOLETE WRITE32_QUEUE (&bPC, RPT_S);
+# OBSOLETE if (RPT_C == 0)
+# OBSOLETE PSW_SET (PSW_RP, 0);
+# OBSOLETE }
+# OBSOLETE else
+# OBSOLETE WRITE32_QUEUE (&bPC, cia + 8);
+# OBSOLETE DID_TRAP = 1;
+# OBSOLETE return trap_vector;
+# OBSOLETE }
+# OBSOLETE
+# OBSOLETE _BRA,01001,00,6.**,6.**,6.RC:BRA:short:mu:TRAP
+# OBSOLETE "trap r<RC>"
+# OBSOLETE nia = do_trap (_SD, EIT_VB + 0x20 + MASKED32(Rc, 24, 28), nia);
+# OBSOLETE _BRA,01001,10,6.**,6.**,_IMM6:BRA:short:mu:TRAP imm
+# OBSOLETE "trap <imm>"
+# OBSOLETE nia = do_trap (_SD, EIT_VB + 0x20 + (imm_5 << 3), nia);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // XOR
+# OBSOLETE
+# OBSOLETE _LOGIC,11011,00,6.RA,6.RB,6.RC:LOGIC:short:iu,mu:XOR
+# OBSOLETE "xor r<RA>, r<RB>, r<RC>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb ^ Rc);
+# OBSOLETE _LOGIC,11011,10,6.RA,6.RB,_IMM6:LOGIC:short:iu,mu:XOR imm
+# OBSOLETE "xor r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb ^ imm);
+# OBSOLETE _LOGIC,11011,10,6.RA,6.RB,_IMM32:LOGIC:long:iu,mu:XOR imm long
+# OBSOLETE "xor r<RA>, r<RB>, <imm>"
+# OBSOLETE WRITE32_QUEUE (Ra, Rb ^ imm);
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE
+# OBSOLETE // XORFG
+# OBSOLETE
+# OBSOLETE _LOGIC,01011,00,***,3.FA,***,3.FB,***,3.FC:LOGIC:short:iu,mu:XORFG
+# OBSOLETE "xorfg f<FA>, f<FB>, f<FC>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) ^ PSW_FLAG_VAL(FC));
+# OBSOLETE _LOGIC,01011,10,***,3.FA,***,3.FB,_IMM6:LOGIC:short:iu,mu:XORFG imm
+# OBSOLETE "xorfg f<FA>, f<FB>, <imm_6>"
+# OBSOLETE PSW_FLAG_SET_QUEUE(FA, PSW_FLAG_VAL(FB) ^ (imm_6 & 1));
diff --git a/sim/d30v/dc-short b/sim/d30v/dc-short
index 1451dfa..95887ec 100644
--- a/sim/d30v/dc-short
+++ b/sim/d30v/dc-short
@@ -1,22 +1,22 @@
-//
-// Mitsubishi Electric Corp. D30V Simulator.
-// Copyright (C) 1997, Free Software Foundation, Inc.
-// Contributed by Cygnus Solutions Inc.
-//
-// This file is part of GDB, the GNU debugger.
-//
-// This program is free software; you can redistribute it and/or modify
-// it under the terms of the GNU General Public License as published by
-// the Free Software Foundation; either version 2 of the License, or
-// (at your option) any later version.
-//
-// This program is distributed in the hope that it will be useful,
-// but WITHOUT ANY WARRANTY; without even the implied warranty of
-// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-// GNU General Public License for more details.
-//
-// You should have received a copy of the GNU General Public License
-// along with this program; if not, write to the Free Software
-// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-//
-switch: 4: 13: 4: 13
+# OBSOLETE //
+# OBSOLETE // Mitsubishi Electric Corp. D30V Simulator.
+# OBSOLETE // Copyright (C) 1997, Free Software Foundation, Inc.
+# OBSOLETE // Contributed by Cygnus Solutions Inc.
+# OBSOLETE //
+# OBSOLETE // This file is part of GDB, the GNU debugger.
+# OBSOLETE //
+# OBSOLETE // This program is free software; you can redistribute it and/or modify
+# OBSOLETE // it under the terms of the GNU General Public License as published by
+# OBSOLETE // the Free Software Foundation; either version 2 of the License, or
+# OBSOLETE // (at your option) any later version.
+# OBSOLETE //
+# OBSOLETE // This program is distributed in the hope that it will be useful,
+# OBSOLETE // but WITHOUT ANY WARRANTY; without even the implied warranty of
+# OBSOLETE // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# OBSOLETE // GNU General Public License for more details.
+# OBSOLETE //
+# OBSOLETE // You should have received a copy of the GNU General Public License
+# OBSOLETE // along with this program; if not, write to the Free Software
+# OBSOLETE // Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+# OBSOLETE //
+# OBSOLETE switch: 4: 13: 4: 13
diff --git a/sim/d30v/engine.c b/sim/d30v/engine.c
index 2bbaad1..0f4a025 100644
--- a/sim/d30v/engine.c
+++ b/sim/d30v/engine.c
@@ -1,496 +1,496 @@
-/* This file is part of the program psim.
-
- Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au>
- Copyright (C) 1996, 1997, Free Software Foundation
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
- */
-
-
-#ifndef ENGINE_C
-#define ENGINE_C
-
-#include "sim-main.h"
-
-#include <stdio.h>
-#include <ctype.h>
-
-#ifdef HAVE_STDLIB_H
-#include <stdlib.h>
-#endif
-
-#ifdef HAVE_STRING_H
-#include <string.h>
-#else
-#ifdef HAVE_STRINGS_H
-#include <strings.h>
-#endif
-#endif
-
-static void
-do_stack_swap (SIM_DESC sd)
-{
- sim_cpu *cpu = STATE_CPU (sd, 0);
- unsigned new_sp = (PSW_VAL(PSW_SM) != 0);
- if (cpu->regs.current_sp != new_sp)
- {
- cpu->regs.sp[cpu->regs.current_sp] = SP;
- cpu->regs.current_sp = new_sp;
- SP = cpu->regs.sp[cpu->regs.current_sp];
- }
-}
-
-#if WITH_TRACE
-/* Implement ALU tracing of 32-bit registers. */
-static void
-trace_alu32 (SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- unsigned32 *ptr)
-{
- unsigned32 value = *ptr;
-
- if (ptr >= &GPR[0] && ptr <= &GPR[NR_GENERAL_PURPOSE_REGISTERS])
- trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu",
- "Set register r%-2d = 0x%.8lx (%ld)",
- ptr - &GPR[0], (long)value, (long)value);
-
- else if (ptr == &PSW || ptr == &bPSW || ptr == &DPSW)
- trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu",
- "Set register %s = 0x%.8lx%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s",
- (ptr == &PSW) ? "psw" : ((ptr == &bPSW) ? "bpsw" : "dpsw"),
- (long)value,
- (value & (0x80000000 >> PSW_SM)) ? ", sm" : "",
- (value & (0x80000000 >> PSW_EA)) ? ", ea" : "",
- (value & (0x80000000 >> PSW_DB)) ? ", db" : "",
- (value & (0x80000000 >> PSW_DS)) ? ", ds" : "",
- (value & (0x80000000 >> PSW_IE)) ? ", ie" : "",
- (value & (0x80000000 >> PSW_RP)) ? ", rp" : "",
- (value & (0x80000000 >> PSW_MD)) ? ", md" : "",
- (value & (0x80000000 >> PSW_F0)) ? ", f0" : "",
- (value & (0x80000000 >> PSW_F1)) ? ", f1" : "",
- (value & (0x80000000 >> PSW_F2)) ? ", f2" : "",
- (value & (0x80000000 >> PSW_F3)) ? ", f3" : "",
- (value & (0x80000000 >> PSW_S)) ? ", s" : "",
- (value & (0x80000000 >> PSW_V)) ? ", v" : "",
- (value & (0x80000000 >> PSW_VA)) ? ", va" : "",
- (value & (0x80000000 >> PSW_C)) ? ", c" : "");
-
- else if (ptr >= &CREG[0] && ptr <= &CREG[NR_CONTROL_REGISTERS])
- trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu",
- "Set register cr%d = 0x%.8lx (%ld)",
- ptr - &CREG[0], (long)value, (long)value);
-}
-
-/* Implement ALU tracing of 32-bit registers. */
-static void
-trace_alu64 (SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia,
- unsigned64 *ptr)
-{
- unsigned64 value = *ptr;
-
- if (ptr >= &ACC[0] && ptr <= &ACC[NR_ACCUMULATORS])
- trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu",
- "Set register a%-2d = 0x%.8lx 0x%.8lx",
- ptr - &ACC[0],
- (unsigned long)(unsigned32)(value >> 32),
- (unsigned long)(unsigned32)value);
-
-}
-#endif
-
-/* Process all of the queued up writes in order now */
-void
-unqueue_writes (SIM_DESC sd,
- sim_cpu *cpu,
- address_word cia)
-{
- int i, num;
- int did_psw = 0;
- unsigned32 *psw_addr = &PSW;
-
- num = WRITE32_NUM;
- for (i = 0; i < num; i++)
- {
- unsigned32 mask = WRITE32_MASK (i);
- unsigned32 *ptr = WRITE32_PTR (i);
- unsigned32 value = (*ptr & ~mask) | (WRITE32_VALUE (i) & mask);
- int j;
-
- if (ptr == psw_addr)
- {
- /* If MU instruction was not a MVTSYS, resolve PSW
- contention in favour of IU. */
- if(! STATE_CPU (sd, 0)->mvtsys_left_p)
- {
- /* Detect contention in parallel writes to the same PSW flags.
- The hardware allows the updates from IU to prevail over
- those from MU. */
-
- unsigned32 flag_bits =
- BIT32 (PSW_F0) | BIT32 (PSW_F1) |
- BIT32 (PSW_F2) | BIT32 (PSW_F3) |
- BIT32 (PSW_S) | BIT32 (PSW_V) |
- BIT32 (PSW_VA) | BIT32 (PSW_C);
- unsigned32 my_flag_bits = mask & flag_bits;
-
- for (j = i + 1; j < num; j++)
- if (WRITE32_PTR (j) == psw_addr && /* write to PSW */
- WRITE32_MASK (j) & my_flag_bits) /* some of the same flags */
- {
- /* Recompute local mask & value, to suppress this
- earlier write to the same flag bits. */
-
- unsigned32 new_mask = mask & ~(WRITE32_MASK (j) & my_flag_bits);
-
- /* There is a special case for the VA (accumulated
- overflow) flag, in that it is only included in the
- second instruction's mask if the overflow
- occurred. Yet the hardware still suppresses the
- first instruction's update to VA. So we kludge
- this by inferring PSW_V -> PSW_VA for the second
- instruction. */
-
- if (WRITE32_MASK (j) & BIT32 (PSW_V))
- {
- new_mask &= ~BIT32 (PSW_VA);
- }
-
- value = (*ptr & ~new_mask) | (WRITE32_VALUE (i) & new_mask);
- }
- }
-
- did_psw = 1;
- }
-
- *ptr = value;
-
-#if WITH_TRACE
- if (TRACE_ALU_P (cpu))
- trace_alu32 (sd, cpu, cia, ptr);
-#endif
- }
-
- num = WRITE64_NUM;
- for (i = 0; i < num; i++)
- {
- unsigned64 *ptr = WRITE64_PTR (i);
- *ptr = WRITE64_VALUE (i);
-
-#if WITH_TRACE
- if (TRACE_ALU_P (cpu))
- trace_alu64 (sd, cpu, cia, ptr);
-#endif
- }
-
- WRITE32_NUM = 0;
- WRITE64_NUM = 0;
-
- if (DID_TRAP == 1) /* ordinary trap */
- {
- bPSW = PSW;
- PSW &= (BIT32 (PSW_DB) | BIT32 (PSW_SM));
- did_psw = 1;
- }
- else if (DID_TRAP == 2) /* debug trap */
- {
- DPSW = PSW;
- PSW &= BIT32 (PSW_DS);
- PSW |= BIT32 (PSW_DS);
- did_psw = 1;
- }
- DID_TRAP = 0;
-
- if (did_psw)
- do_stack_swap (sd);
-}
-
-
-/* SIMULATE INSTRUCTIONS, various different ways of achieving the same
- thing */
-
-static address_word
-do_long (SIM_DESC sd,
- l_instruction_word instruction,
- address_word cia)
-{
- address_word nia = l_idecode_issue(sd,
- instruction,
- cia);
-
- unqueue_writes (sd, STATE_CPU (sd, 0), cia);
- return nia;
-}
-
-static address_word
-do_2_short (SIM_DESC sd,
- s_instruction_word insn1,
- s_instruction_word insn2,
- cpu_units unit,
- address_word cia)
-{
- address_word nia;
-
- /* run the first instruction */
- STATE_CPU (sd, 0)->unit = unit;
- STATE_CPU (sd, 0)->left_kills_right_p = 0;
- STATE_CPU (sd, 0)->mvtsys_left_p = 0;
- nia = s_idecode_issue(sd,
- insn1,
- cia);
-
- unqueue_writes (sd, STATE_CPU (sd, 0), cia);
-
- /* Only do the second instruction if the PC has not changed */
- if ((nia == INVALID_INSTRUCTION_ADDRESS) &&
- (! STATE_CPU (sd, 0)->left_kills_right_p)) {
- STATE_CPU (sd, 0)->unit = any_unit;
- nia = s_idecode_issue (sd,
- insn2,
- cia);
-
- unqueue_writes (sd, STATE_CPU (sd, 0), cia);
- }
-
- STATE_CPU (sd, 0)->left_kills_right_p = 0;
- STATE_CPU (sd, 0)->mvtsys_left_p = 0;
- return nia;
-}
-
-static address_word
-do_parallel (SIM_DESC sd,
- s_instruction_word left_insn,
- s_instruction_word right_insn,
- address_word cia)
-{
- address_word nia_left;
- address_word nia_right;
- address_word nia;
-
- /* run the first instruction */
- STATE_CPU (sd, 0)->unit = memory_unit;
- STATE_CPU (sd, 0)->left_kills_right_p = 0;
- STATE_CPU (sd, 0)->mvtsys_left_p = 0;
- nia_left = s_idecode_issue(sd,
- left_insn,
- cia);
-
- /* run the second instruction */
- STATE_CPU (sd, 0)->unit = integer_unit;
- nia_right = s_idecode_issue(sd,
- right_insn,
- cia);
-
- /* merge the PC's */
- if (nia_left == INVALID_INSTRUCTION_ADDRESS) {
- if (nia_right == INVALID_INSTRUCTION_ADDRESS)
- nia = INVALID_INSTRUCTION_ADDRESS;
- else
- nia = nia_right;
- }
- else {
- if (nia_right == INVALID_INSTRUCTION_ADDRESS)
- nia = nia_left;
- else {
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia, "parallel jumps");
- nia = INVALID_INSTRUCTION_ADDRESS;
- }
- }
-
- unqueue_writes (sd, STATE_CPU (sd, 0), cia);
- return nia;
-}
-
-
-typedef enum {
- p_insn = 0,
- long_insn = 3,
- l_r_insn = 1,
- r_l_insn = 2,
-} instruction_types;
-
-STATIC_INLINE instruction_types
-instruction_type(l_instruction_word insn)
-{
- int fm0 = MASKED64(insn, 0, 0) != 0;
- int fm1 = MASKED64(insn, 32, 32) != 0;
- return ((fm0 << 1) | fm1);
-}
-
-
-
-void
-sim_engine_run (SIM_DESC sd,
- int last_cpu_nr,
- int nr_cpus,
- int siggnal)
-{
- while (1)
- {
- address_word cia = PC;
- address_word nia;
- l_instruction_word insn = IMEM(cia);
- int rp_was_set;
- int rpt_c_was_nonzero;
-
- /* Before executing the instruction, we need to test whether or
- not RPT_C is greater than zero, and save that state for use
- after executing the instruction. In particular, we need to
- not care whether the instruction changes RPT_C itself. */
-
- rpt_c_was_nonzero = (RPT_C > 0);
-
- /* Before executing the instruction, we need to check to see if
- we have to decrement RPT_C, the repeat count register. Do this
- if PC == RPT_E, but only if we are in an active repeat block. */
-
- if (PC == RPT_E &&
- (RPT_C > 0 || PSW_VAL (PSW_RP) != 0))
- {
- RPT_C --;
- }
-
- /* Now execute the instruction at PC */
-
- switch (instruction_type (insn))
- {
- case long_insn:
- nia = do_long (sd, insn, cia);
- break;
- case r_l_insn:
- /* L <- R */
- nia = do_2_short (sd, insn, insn >> 32, integer_unit, cia);
- break;
- case l_r_insn:
- /* L -> R */
- nia = do_2_short (sd, insn >> 32, insn, memory_unit, cia);
- break;
- case p_insn:
- nia = do_parallel (sd, insn >> 32, insn, cia);
- break;
- default:
- sim_engine_abort (sd, STATE_CPU (sd, 0), cia,
- "internal error - engine_run_until_stop - bad switch");
- nia = -1;
- }
-
- if (TRACE_ACTION)
- {
- if (TRACE_ACTION & TRACE_ACTION_CALL)
- call_occurred (sd, STATE_CPU (sd, 0), cia, nia);
-
- if (TRACE_ACTION & TRACE_ACTION_RETURN)
- return_occurred (sd, STATE_CPU (sd, 0), cia, nia);
-
- TRACE_ACTION = 0;
- }
-
- /* Check now to see if we need to reset the RP bit in the PSW.
- There are three conditions for this, the RP bit is already
- set (just a speed optimization), the instruction we just
- executed is the last instruction in the loop, and the repeat
- count is currently zero. */
-
- rp_was_set = PSW_VAL (PSW_RP);
- if (rp_was_set && (PC == RPT_E) && RPT_C == 0)
- {
- PSW_SET (PSW_RP, 0);
- }
-
- /* Now update the PC. If we just executed a jump instruction,
- that takes precedence over everything else. Next comes
- branching back to RPT_S as a result of a loop. Finally, the
- default is to simply advance to the next inline
- instruction. */
-
- if (nia != INVALID_INSTRUCTION_ADDRESS)
- {
- PC = nia;
- }
- else if (rp_was_set && rpt_c_was_nonzero && (PC == RPT_E))
- {
- PC = RPT_S;
- }
- else
- {
- PC = cia + 8;
- }
-
- /* Check for DDBT (debugger debug trap) condition. Do this after
- the repeat block checks so the excursion to the trap handler does
- not alter looping state. */
-
- if (cia == IBA && PSW_VAL (PSW_DB))
- {
- DPC = PC;
- PSW_SET (PSW_EA, 1);
- DPSW = PSW;
- /* clear all bits in PSW except SM */
- PSW &= BIT32 (PSW_SM);
- /* add DS bit */
- PSW |= BIT32 (PSW_DS);
- /* dispatch to DDBT handler */
- PC = 0xfffff128; /* debugger_debug_trap_address */
- }
-
- /* process any events */
- /* FIXME - should L->R or L<-R insns count as two cycles? */
- if (sim_events_tick (sd))
- {
- sim_events_process (sd);
- }
- }
-}
-
-
-/* d30v external interrupt handler.
-
- Note: This should be replaced by a proper interrupt delivery
- mechanism. This interrupt mechanism discards later interrupts if
- an earlier interrupt hasn't been delivered.
-
- Note: This interrupt mechanism does not reset its self when the
- simulator is re-opened. */
-
-void
-d30v_interrupt_event (SIM_DESC sd,
- void *data)
-{
- if (PSW_VAL (PSW_IE))
- /* interrupts not masked */
- {
- /* scrub any pending interrupt */
- if (sd->pending_interrupt != NULL)
- sim_events_deschedule (sd, sd->pending_interrupt);
- /* deliver */
- bPSW = PSW;
- bPC = PC;
- PSW = 0;
- PC = 0xfffff138; /* external interrupt */
- do_stack_swap (sd);
- }
- else if (sd->pending_interrupt == NULL)
- /* interrupts masked and no interrupt pending */
- {
- sd->pending_interrupt = sim_events_schedule (sd, 1,
- d30v_interrupt_event,
- data);
- }
-}
-
-#endif
+/* OBSOLETE /* This file is part of the program psim. */
+/* OBSOLETE */
+/* OBSOLETE Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au> */
+/* OBSOLETE Copyright (C) 1996, 1997, Free Software Foundation */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
+/* OBSOLETE (at your option) any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License */
+/* OBSOLETE along with this program; if not, write to the Free Software */
+/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
+/* OBSOLETE */
+/* OBSOLETE */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifndef ENGINE_C */
+/* OBSOLETE #define ENGINE_C */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-main.h" */
+/* OBSOLETE */
+/* OBSOLETE #include <stdio.h> */
+/* OBSOLETE #include <ctype.h> */
+/* OBSOLETE */
+/* OBSOLETE #ifdef HAVE_STDLIB_H */
+/* OBSOLETE #include <stdlib.h> */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE #ifdef HAVE_STRING_H */
+/* OBSOLETE #include <string.h> */
+/* OBSOLETE #else */
+/* OBSOLETE #ifdef HAVE_STRINGS_H */
+/* OBSOLETE #include <strings.h> */
+/* OBSOLETE #endif */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE static void */
+/* OBSOLETE do_stack_swap (SIM_DESC sd) */
+/* OBSOLETE { */
+/* OBSOLETE sim_cpu *cpu = STATE_CPU (sd, 0); */
+/* OBSOLETE unsigned new_sp = (PSW_VAL(PSW_SM) != 0); */
+/* OBSOLETE if (cpu->regs.current_sp != new_sp) */
+/* OBSOLETE { */
+/* OBSOLETE cpu->regs.sp[cpu->regs.current_sp] = SP; */
+/* OBSOLETE cpu->regs.current_sp = new_sp; */
+/* OBSOLETE SP = cpu->regs.sp[cpu->regs.current_sp]; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #if WITH_TRACE */
+/* OBSOLETE /* Implement ALU tracing of 32-bit registers. */ */
+/* OBSOLETE static void */
+/* OBSOLETE trace_alu32 (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE unsigned32 *ptr) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 value = *ptr; */
+/* OBSOLETE */
+/* OBSOLETE if (ptr >= &GPR[0] && ptr <= &GPR[NR_GENERAL_PURPOSE_REGISTERS]) */
+/* OBSOLETE trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu", */
+/* OBSOLETE "Set register r%-2d = 0x%.8lx (%ld)", */
+/* OBSOLETE ptr - &GPR[0], (long)value, (long)value); */
+/* OBSOLETE */
+/* OBSOLETE else if (ptr == &PSW || ptr == &bPSW || ptr == &DPSW) */
+/* OBSOLETE trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu", */
+/* OBSOLETE "Set register %s = 0x%.8lx%s%s%s%s%s%s%s%s%s%s%s%s%s%s%s", */
+/* OBSOLETE (ptr == &PSW) ? "psw" : ((ptr == &bPSW) ? "bpsw" : "dpsw"), */
+/* OBSOLETE (long)value, */
+/* OBSOLETE (value & (0x80000000 >> PSW_SM)) ? ", sm" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_EA)) ? ", ea" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_DB)) ? ", db" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_DS)) ? ", ds" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_IE)) ? ", ie" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_RP)) ? ", rp" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_MD)) ? ", md" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_F0)) ? ", f0" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_F1)) ? ", f1" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_F2)) ? ", f2" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_F3)) ? ", f3" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_S)) ? ", s" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_V)) ? ", v" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_VA)) ? ", va" : "", */
+/* OBSOLETE (value & (0x80000000 >> PSW_C)) ? ", c" : ""); */
+/* OBSOLETE */
+/* OBSOLETE else if (ptr >= &CREG[0] && ptr <= &CREG[NR_CONTROL_REGISTERS]) */
+/* OBSOLETE trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu", */
+/* OBSOLETE "Set register cr%d = 0x%.8lx (%ld)", */
+/* OBSOLETE ptr - &CREG[0], (long)value, (long)value); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Implement ALU tracing of 32-bit registers. */ */
+/* OBSOLETE static void */
+/* OBSOLETE trace_alu64 (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia, */
+/* OBSOLETE unsigned64 *ptr) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned64 value = *ptr; */
+/* OBSOLETE */
+/* OBSOLETE if (ptr >= &ACC[0] && ptr <= &ACC[NR_ACCUMULATORS]) */
+/* OBSOLETE trace_one_insn (sd, cpu, cia, 1, "engine.c", __LINE__, "alu", */
+/* OBSOLETE "Set register a%-2d = 0x%.8lx 0x%.8lx", */
+/* OBSOLETE ptr - &ACC[0], */
+/* OBSOLETE (unsigned long)(unsigned32)(value >> 32), */
+/* OBSOLETE (unsigned long)(unsigned32)value); */
+/* OBSOLETE */
+/* OBSOLETE } */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE /* Process all of the queued up writes in order now */ */
+/* OBSOLETE void */
+/* OBSOLETE unqueue_writes (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE address_word cia) */
+/* OBSOLETE { */
+/* OBSOLETE int i, num; */
+/* OBSOLETE int did_psw = 0; */
+/* OBSOLETE unsigned32 *psw_addr = &PSW; */
+/* OBSOLETE */
+/* OBSOLETE num = WRITE32_NUM; */
+/* OBSOLETE for (i = 0; i < num; i++) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 mask = WRITE32_MASK (i); */
+/* OBSOLETE unsigned32 *ptr = WRITE32_PTR (i); */
+/* OBSOLETE unsigned32 value = (*ptr & ~mask) | (WRITE32_VALUE (i) & mask); */
+/* OBSOLETE int j; */
+/* OBSOLETE */
+/* OBSOLETE if (ptr == psw_addr) */
+/* OBSOLETE { */
+/* OBSOLETE /* If MU instruction was not a MVTSYS, resolve PSW */
+/* OBSOLETE contention in favour of IU. */ */
+/* OBSOLETE if(! STATE_CPU (sd, 0)->mvtsys_left_p) */
+/* OBSOLETE { */
+/* OBSOLETE /* Detect contention in parallel writes to the same PSW flags. */
+/* OBSOLETE The hardware allows the updates from IU to prevail over */
+/* OBSOLETE those from MU. */ */
+/* OBSOLETE */
+/* OBSOLETE unsigned32 flag_bits = */
+/* OBSOLETE BIT32 (PSW_F0) | BIT32 (PSW_F1) | */
+/* OBSOLETE BIT32 (PSW_F2) | BIT32 (PSW_F3) | */
+/* OBSOLETE BIT32 (PSW_S) | BIT32 (PSW_V) | */
+/* OBSOLETE BIT32 (PSW_VA) | BIT32 (PSW_C); */
+/* OBSOLETE unsigned32 my_flag_bits = mask & flag_bits; */
+/* OBSOLETE */
+/* OBSOLETE for (j = i + 1; j < num; j++) */
+/* OBSOLETE if (WRITE32_PTR (j) == psw_addr && /* write to PSW */ */
+/* OBSOLETE WRITE32_MASK (j) & my_flag_bits) /* some of the same flags */ */
+/* OBSOLETE { */
+/* OBSOLETE /* Recompute local mask & value, to suppress this */
+/* OBSOLETE earlier write to the same flag bits. */ */
+/* OBSOLETE */
+/* OBSOLETE unsigned32 new_mask = mask & ~(WRITE32_MASK (j) & my_flag_bits); */
+/* OBSOLETE */
+/* OBSOLETE /* There is a special case for the VA (accumulated */
+/* OBSOLETE overflow) flag, in that it is only included in the */
+/* OBSOLETE second instruction's mask if the overflow */
+/* OBSOLETE occurred. Yet the hardware still suppresses the */
+/* OBSOLETE first instruction's update to VA. So we kludge */
+/* OBSOLETE this by inferring PSW_V -> PSW_VA for the second */
+/* OBSOLETE instruction. */ */
+/* OBSOLETE */
+/* OBSOLETE if (WRITE32_MASK (j) & BIT32 (PSW_V)) */
+/* OBSOLETE { */
+/* OBSOLETE new_mask &= ~BIT32 (PSW_VA); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE value = (*ptr & ~new_mask) | (WRITE32_VALUE (i) & new_mask); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE did_psw = 1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE *ptr = value; */
+/* OBSOLETE */
+/* OBSOLETE #if WITH_TRACE */
+/* OBSOLETE if (TRACE_ALU_P (cpu)) */
+/* OBSOLETE trace_alu32 (sd, cpu, cia, ptr); */
+/* OBSOLETE #endif */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE num = WRITE64_NUM; */
+/* OBSOLETE for (i = 0; i < num; i++) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned64 *ptr = WRITE64_PTR (i); */
+/* OBSOLETE *ptr = WRITE64_VALUE (i); */
+/* OBSOLETE */
+/* OBSOLETE #if WITH_TRACE */
+/* OBSOLETE if (TRACE_ALU_P (cpu)) */
+/* OBSOLETE trace_alu64 (sd, cpu, cia, ptr); */
+/* OBSOLETE #endif */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE WRITE32_NUM = 0; */
+/* OBSOLETE WRITE64_NUM = 0; */
+/* OBSOLETE */
+/* OBSOLETE if (DID_TRAP == 1) /* ordinary trap */ */
+/* OBSOLETE { */
+/* OBSOLETE bPSW = PSW; */
+/* OBSOLETE PSW &= (BIT32 (PSW_DB) | BIT32 (PSW_SM)); */
+/* OBSOLETE did_psw = 1; */
+/* OBSOLETE } */
+/* OBSOLETE else if (DID_TRAP == 2) /* debug trap */ */
+/* OBSOLETE { */
+/* OBSOLETE DPSW = PSW; */
+/* OBSOLETE PSW &= BIT32 (PSW_DS); */
+/* OBSOLETE PSW |= BIT32 (PSW_DS); */
+/* OBSOLETE did_psw = 1; */
+/* OBSOLETE } */
+/* OBSOLETE DID_TRAP = 0; */
+/* OBSOLETE */
+/* OBSOLETE if (did_psw) */
+/* OBSOLETE do_stack_swap (sd); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* SIMULATE INSTRUCTIONS, various different ways of achieving the same */
+/* OBSOLETE thing */ */
+/* OBSOLETE */
+/* OBSOLETE static address_word */
+/* OBSOLETE do_long (SIM_DESC sd, */
+/* OBSOLETE l_instruction_word instruction, */
+/* OBSOLETE address_word cia) */
+/* OBSOLETE { */
+/* OBSOLETE address_word nia = l_idecode_issue(sd, */
+/* OBSOLETE instruction, */
+/* OBSOLETE cia); */
+/* OBSOLETE */
+/* OBSOLETE unqueue_writes (sd, STATE_CPU (sd, 0), cia); */
+/* OBSOLETE return nia; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static address_word */
+/* OBSOLETE do_2_short (SIM_DESC sd, */
+/* OBSOLETE s_instruction_word insn1, */
+/* OBSOLETE s_instruction_word insn2, */
+/* OBSOLETE cpu_units unit, */
+/* OBSOLETE address_word cia) */
+/* OBSOLETE { */
+/* OBSOLETE address_word nia; */
+/* OBSOLETE */
+/* OBSOLETE /* run the first instruction */ */
+/* OBSOLETE STATE_CPU (sd, 0)->unit = unit; */
+/* OBSOLETE STATE_CPU (sd, 0)->left_kills_right_p = 0; */
+/* OBSOLETE STATE_CPU (sd, 0)->mvtsys_left_p = 0; */
+/* OBSOLETE nia = s_idecode_issue(sd, */
+/* OBSOLETE insn1, */
+/* OBSOLETE cia); */
+/* OBSOLETE */
+/* OBSOLETE unqueue_writes (sd, STATE_CPU (sd, 0), cia); */
+/* OBSOLETE */
+/* OBSOLETE /* Only do the second instruction if the PC has not changed */ */
+/* OBSOLETE if ((nia == INVALID_INSTRUCTION_ADDRESS) && */
+/* OBSOLETE (! STATE_CPU (sd, 0)->left_kills_right_p)) { */
+/* OBSOLETE STATE_CPU (sd, 0)->unit = any_unit; */
+/* OBSOLETE nia = s_idecode_issue (sd, */
+/* OBSOLETE insn2, */
+/* OBSOLETE cia); */
+/* OBSOLETE */
+/* OBSOLETE unqueue_writes (sd, STATE_CPU (sd, 0), cia); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE STATE_CPU (sd, 0)->left_kills_right_p = 0; */
+/* OBSOLETE STATE_CPU (sd, 0)->mvtsys_left_p = 0; */
+/* OBSOLETE return nia; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static address_word */
+/* OBSOLETE do_parallel (SIM_DESC sd, */
+/* OBSOLETE s_instruction_word left_insn, */
+/* OBSOLETE s_instruction_word right_insn, */
+/* OBSOLETE address_word cia) */
+/* OBSOLETE { */
+/* OBSOLETE address_word nia_left; */
+/* OBSOLETE address_word nia_right; */
+/* OBSOLETE address_word nia; */
+/* OBSOLETE */
+/* OBSOLETE /* run the first instruction */ */
+/* OBSOLETE STATE_CPU (sd, 0)->unit = memory_unit; */
+/* OBSOLETE STATE_CPU (sd, 0)->left_kills_right_p = 0; */
+/* OBSOLETE STATE_CPU (sd, 0)->mvtsys_left_p = 0; */
+/* OBSOLETE nia_left = s_idecode_issue(sd, */
+/* OBSOLETE left_insn, */
+/* OBSOLETE cia); */
+/* OBSOLETE */
+/* OBSOLETE /* run the second instruction */ */
+/* OBSOLETE STATE_CPU (sd, 0)->unit = integer_unit; */
+/* OBSOLETE nia_right = s_idecode_issue(sd, */
+/* OBSOLETE right_insn, */
+/* OBSOLETE cia); */
+/* OBSOLETE */
+/* OBSOLETE /* merge the PC's */ */
+/* OBSOLETE if (nia_left == INVALID_INSTRUCTION_ADDRESS) { */
+/* OBSOLETE if (nia_right == INVALID_INSTRUCTION_ADDRESS) */
+/* OBSOLETE nia = INVALID_INSTRUCTION_ADDRESS; */
+/* OBSOLETE else */
+/* OBSOLETE nia = nia_right; */
+/* OBSOLETE } */
+/* OBSOLETE else { */
+/* OBSOLETE if (nia_right == INVALID_INSTRUCTION_ADDRESS) */
+/* OBSOLETE nia = nia_left; */
+/* OBSOLETE else { */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, "parallel jumps"); */
+/* OBSOLETE nia = INVALID_INSTRUCTION_ADDRESS; */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE unqueue_writes (sd, STATE_CPU (sd, 0), cia); */
+/* OBSOLETE return nia; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE typedef enum { */
+/* OBSOLETE p_insn = 0, */
+/* OBSOLETE long_insn = 3, */
+/* OBSOLETE l_r_insn = 1, */
+/* OBSOLETE r_l_insn = 2, */
+/* OBSOLETE } instruction_types; */
+/* OBSOLETE */
+/* OBSOLETE STATIC_INLINE instruction_types */
+/* OBSOLETE instruction_type(l_instruction_word insn) */
+/* OBSOLETE { */
+/* OBSOLETE int fm0 = MASKED64(insn, 0, 0) != 0; */
+/* OBSOLETE int fm1 = MASKED64(insn, 32, 32) != 0; */
+/* OBSOLETE return ((fm0 << 1) | fm1); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE sim_engine_run (SIM_DESC sd, */
+/* OBSOLETE int last_cpu_nr, */
+/* OBSOLETE int nr_cpus, */
+/* OBSOLETE int siggnal) */
+/* OBSOLETE { */
+/* OBSOLETE while (1) */
+/* OBSOLETE { */
+/* OBSOLETE address_word cia = PC; */
+/* OBSOLETE address_word nia; */
+/* OBSOLETE l_instruction_word insn = IMEM(cia); */
+/* OBSOLETE int rp_was_set; */
+/* OBSOLETE int rpt_c_was_nonzero; */
+/* OBSOLETE */
+/* OBSOLETE /* Before executing the instruction, we need to test whether or */
+/* OBSOLETE not RPT_C is greater than zero, and save that state for use */
+/* OBSOLETE after executing the instruction. In particular, we need to */
+/* OBSOLETE not care whether the instruction changes RPT_C itself. */ */
+/* OBSOLETE */
+/* OBSOLETE rpt_c_was_nonzero = (RPT_C > 0); */
+/* OBSOLETE */
+/* OBSOLETE /* Before executing the instruction, we need to check to see if */
+/* OBSOLETE we have to decrement RPT_C, the repeat count register. Do this */
+/* OBSOLETE if PC == RPT_E, but only if we are in an active repeat block. */ */
+/* OBSOLETE */
+/* OBSOLETE if (PC == RPT_E && */
+/* OBSOLETE (RPT_C > 0 || PSW_VAL (PSW_RP) != 0)) */
+/* OBSOLETE { */
+/* OBSOLETE RPT_C --; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Now execute the instruction at PC */ */
+/* OBSOLETE */
+/* OBSOLETE switch (instruction_type (insn)) */
+/* OBSOLETE { */
+/* OBSOLETE case long_insn: */
+/* OBSOLETE nia = do_long (sd, insn, cia); */
+/* OBSOLETE break; */
+/* OBSOLETE case r_l_insn: */
+/* OBSOLETE /* L <- R */ */
+/* OBSOLETE nia = do_2_short (sd, insn, insn >> 32, integer_unit, cia); */
+/* OBSOLETE break; */
+/* OBSOLETE case l_r_insn: */
+/* OBSOLETE /* L -> R */ */
+/* OBSOLETE nia = do_2_short (sd, insn >> 32, insn, memory_unit, cia); */
+/* OBSOLETE break; */
+/* OBSOLETE case p_insn: */
+/* OBSOLETE nia = do_parallel (sd, insn >> 32, insn, cia); */
+/* OBSOLETE break; */
+/* OBSOLETE default: */
+/* OBSOLETE sim_engine_abort (sd, STATE_CPU (sd, 0), cia, */
+/* OBSOLETE "internal error - engine_run_until_stop - bad switch"); */
+/* OBSOLETE nia = -1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (TRACE_ACTION) */
+/* OBSOLETE { */
+/* OBSOLETE if (TRACE_ACTION & TRACE_ACTION_CALL) */
+/* OBSOLETE call_occurred (sd, STATE_CPU (sd, 0), cia, nia); */
+/* OBSOLETE */
+/* OBSOLETE if (TRACE_ACTION & TRACE_ACTION_RETURN) */
+/* OBSOLETE return_occurred (sd, STATE_CPU (sd, 0), cia, nia); */
+/* OBSOLETE */
+/* OBSOLETE TRACE_ACTION = 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Check now to see if we need to reset the RP bit in the PSW. */
+/* OBSOLETE There are three conditions for this, the RP bit is already */
+/* OBSOLETE set (just a speed optimization), the instruction we just */
+/* OBSOLETE executed is the last instruction in the loop, and the repeat */
+/* OBSOLETE count is currently zero. */ */
+/* OBSOLETE */
+/* OBSOLETE rp_was_set = PSW_VAL (PSW_RP); */
+/* OBSOLETE if (rp_was_set && (PC == RPT_E) && RPT_C == 0) */
+/* OBSOLETE { */
+/* OBSOLETE PSW_SET (PSW_RP, 0); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Now update the PC. If we just executed a jump instruction, */
+/* OBSOLETE that takes precedence over everything else. Next comes */
+/* OBSOLETE branching back to RPT_S as a result of a loop. Finally, the */
+/* OBSOLETE default is to simply advance to the next inline */
+/* OBSOLETE instruction. */ */
+/* OBSOLETE */
+/* OBSOLETE if (nia != INVALID_INSTRUCTION_ADDRESS) */
+/* OBSOLETE { */
+/* OBSOLETE PC = nia; */
+/* OBSOLETE } */
+/* OBSOLETE else if (rp_was_set && rpt_c_was_nonzero && (PC == RPT_E)) */
+/* OBSOLETE { */
+/* OBSOLETE PC = RPT_S; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE PC = cia + 8; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Check for DDBT (debugger debug trap) condition. Do this after */
+/* OBSOLETE the repeat block checks so the excursion to the trap handler does */
+/* OBSOLETE not alter looping state. */ */
+/* OBSOLETE */
+/* OBSOLETE if (cia == IBA && PSW_VAL (PSW_DB)) */
+/* OBSOLETE { */
+/* OBSOLETE DPC = PC; */
+/* OBSOLETE PSW_SET (PSW_EA, 1); */
+/* OBSOLETE DPSW = PSW; */
+/* OBSOLETE /* clear all bits in PSW except SM */ */
+/* OBSOLETE PSW &= BIT32 (PSW_SM); */
+/* OBSOLETE /* add DS bit */ */
+/* OBSOLETE PSW |= BIT32 (PSW_DS); */
+/* OBSOLETE /* dispatch to DDBT handler */ */
+/* OBSOLETE PC = 0xfffff128; /* debugger_debug_trap_address */ */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* process any events */ */
+/* OBSOLETE /* FIXME - should L->R or L<-R insns count as two cycles? */ */
+/* OBSOLETE if (sim_events_tick (sd)) */
+/* OBSOLETE { */
+/* OBSOLETE sim_events_process (sd); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* d30v external interrupt handler. */
+/* OBSOLETE */
+/* OBSOLETE Note: This should be replaced by a proper interrupt delivery */
+/* OBSOLETE mechanism. This interrupt mechanism discards later interrupts if */
+/* OBSOLETE an earlier interrupt hasn't been delivered. */
+/* OBSOLETE */
+/* OBSOLETE Note: This interrupt mechanism does not reset its self when the */
+/* OBSOLETE simulator is re-opened. */ */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE d30v_interrupt_event (SIM_DESC sd, */
+/* OBSOLETE void *data) */
+/* OBSOLETE { */
+/* OBSOLETE if (PSW_VAL (PSW_IE)) */
+/* OBSOLETE /* interrupts not masked */ */
+/* OBSOLETE { */
+/* OBSOLETE /* scrub any pending interrupt */ */
+/* OBSOLETE if (sd->pending_interrupt != NULL) */
+/* OBSOLETE sim_events_deschedule (sd, sd->pending_interrupt); */
+/* OBSOLETE /* deliver */ */
+/* OBSOLETE bPSW = PSW; */
+/* OBSOLETE bPC = PC; */
+/* OBSOLETE PSW = 0; */
+/* OBSOLETE PC = 0xfffff138; /* external interrupt */ */
+/* OBSOLETE do_stack_swap (sd); */
+/* OBSOLETE } */
+/* OBSOLETE else if (sd->pending_interrupt == NULL) */
+/* OBSOLETE /* interrupts masked and no interrupt pending */ */
+/* OBSOLETE { */
+/* OBSOLETE sd->pending_interrupt = sim_events_schedule (sd, 1, */
+/* OBSOLETE d30v_interrupt_event, */
+/* OBSOLETE data); */
+/* OBSOLETE } */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE #endif */
diff --git a/sim/d30v/ic-d30v b/sim/d30v/ic-d30v
index 50a184f..bdf7ea2 100644
--- a/sim/d30v/ic-d30v
+++ b/sim/d30v/ic-d30v
@@ -1,80 +1,80 @@
-# Instruction cache rules
-#
-# This file is part of the program psim.
-#
-# Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au>
-#
-# This program is free software; you can redistribute it and/or modify
-# it under the terms of the GNU General Public License as published by
-# the Free Software Foundation; either version 2 of the License, or
-# (at your option) any later version.
-#
-# This program is distributed in the hope that it will be useful,
-# but WITHOUT ANY WARRANTY; without even the implied warranty of
-# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
-# GNU General Public License for more details.
-#
-# You should have received a copy of the GNU General Public License
-# along with this program; if not, write to the Free Software
-# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-#
-compute:RA:RA::
-compute:RA:Ra:signed32 *:(&GPR[RA])
-compute:RA:RaH:signed16 *:AH2_4(Ra)
-compute:RA:RaL:signed16 *:AL2_4(Ra)
-compute:RA:val_Ra:signed32:(RA == 0 ? 0 : GPR[RA])
-#
-compute:RB:RB::
-compute:RB:Rb:signed32:(RB == 0 ? 0 : GPR[RB])
-compute:RB:RbU:unsigned32:(RB == 0 ? 0 : GPR[RB])
-compute:RB:RbH:signed16:VH2_4(Rb)
-compute:RB:RbL:signed16:VL2_4(Rb)
-compute:RB:RbHU:unsigned16:VH2_4(Rb)
-compute:RB:RbLU:unsigned16:VL2_4(Rb)
-#
-compute:RC:RC::
-compute:RC:Rc:signed32:(RC == 0 ? 0 : GPR[RC])
-compute:RC:RcU:unsigned32:(RC == 0 ? 0 : GPR[RC])
-compute:RC:RcH:signed16:VH2_4(Rc)
-compute:RC:RcL:signed16:VL2_4(Rc)
-#
-#
-compute:IMM_6S:IMM_6S::
-compute:IMM_6S:imm:signed32:SEXT32(IMM_6S, 32 - 6)
-# NB - for short imm[HL] are the same value
-compute:IMM_6S:immHL:signed32:((imm << 16) | MASKED32(imm, 16, 31))
-compute:IMM_6S:immH:signed32:imm
-compute:IMM_6S:immL:signed32:imm
-compute:IMM_6S:imm_6:signed32:IMM_6S
-compute:IMM_6S:imm_5:signed32:LSMASKED32(IMM_6S, 4, 0)
-compute:IMM_6S:imm_6u:unsigned32:(IMM_6S & 0x3f)
-#
-compute:RC:pcdisp:signed32:(Rc & ~0x7)
-compute:RC:pcaddr:signed32:pcdisp
-#
-compute:IMM_18S:IMM_18S::
-compute:IMM_18S:pcdisp:signed32:(SEXT32(IMM_18S, 32 - 18) << 3)
-compute:IMM_18S:pcaddr:signed32:pcdisp
-compute:IMM_12S:IMM_12S::
-compute:IMM_12S:pcdisp:signed32:(SEXT32(IMM_12S, 32 - 12) << 3)
-compute:IMM_12S:pcaddr:signed32:pcdisp
-#
-compute:IMM_8L:IMM_8L::
-compute:IMM_18L:IMM_18L::
-compute:IMM_6L:IMM_6L::
-compute:IMM_6L:imm:signed32:((((IMM_6L << 8) | IMM_8L) << 18) | IMM_18L)
-compute:IMM_6L:immHL:signed32:imm
-compute:IMM_6L:immH:signed32:EXTRACTED32(imm, 0, 15)
-compute:IMM_6L:immL:signed32:EXTRACTED32(imm, 16, 31)
-compute:IMM_6L:pcdisp:signed32:(imm & ~0x7)
-compute:IMM_6L:pcaddr:signed32:pcdisp
-#
-#
-compute:SRC_6:SRC_6::
-compute:SRC_6:src:unsigned32:(XX == 2 ? SEXT32(SRC_6, 32 - 6) : GPR[SRC_6])
-#
-#
-compute:AA:AA::
-compute:AA:Aa:unsigned64*:((CPU)->regs.accumulator + AA)
-compute:AB:AB::
-compute:AB:Ab:unsigned64*:((CPU)->regs.accumulator + AB)
+# OBSOLETE # Instruction cache rules
+# OBSOLETE #
+# OBSOLETE # This file is part of the program psim.
+# OBSOLETE #
+# OBSOLETE # Copyright (C) 1994-1995, Andrew Cagney <cagney@highland.com.au>
+# OBSOLETE #
+# OBSOLETE # This program is free software; you can redistribute it and/or modify
+# OBSOLETE # it under the terms of the GNU General Public License as published by
+# OBSOLETE # the Free Software Foundation; either version 2 of the License, or
+# OBSOLETE # (at your option) any later version.
+# OBSOLETE #
+# OBSOLETE # This program is distributed in the hope that it will be useful,
+# OBSOLETE # but WITHOUT ANY WARRANTY; without even the implied warranty of
+# OBSOLETE # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+# OBSOLETE # GNU General Public License for more details.
+# OBSOLETE #
+# OBSOLETE # You should have received a copy of the GNU General Public License
+# OBSOLETE # along with this program; if not, write to the Free Software
+# OBSOLETE # Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
+# OBSOLETE #
+# OBSOLETE compute:RA:RA::
+# OBSOLETE compute:RA:Ra:signed32 *:(&GPR[RA])
+# OBSOLETE compute:RA:RaH:signed16 *:AH2_4(Ra)
+# OBSOLETE compute:RA:RaL:signed16 *:AL2_4(Ra)
+# OBSOLETE compute:RA:val_Ra:signed32:(RA == 0 ? 0 : GPR[RA])
+# OBSOLETE #
+# OBSOLETE compute:RB:RB::
+# OBSOLETE compute:RB:Rb:signed32:(RB == 0 ? 0 : GPR[RB])
+# OBSOLETE compute:RB:RbU:unsigned32:(RB == 0 ? 0 : GPR[RB])
+# OBSOLETE compute:RB:RbH:signed16:VH2_4(Rb)
+# OBSOLETE compute:RB:RbL:signed16:VL2_4(Rb)
+# OBSOLETE compute:RB:RbHU:unsigned16:VH2_4(Rb)
+# OBSOLETE compute:RB:RbLU:unsigned16:VL2_4(Rb)
+# OBSOLETE #
+# OBSOLETE compute:RC:RC::
+# OBSOLETE compute:RC:Rc:signed32:(RC == 0 ? 0 : GPR[RC])
+# OBSOLETE compute:RC:RcU:unsigned32:(RC == 0 ? 0 : GPR[RC])
+# OBSOLETE compute:RC:RcH:signed16:VH2_4(Rc)
+# OBSOLETE compute:RC:RcL:signed16:VL2_4(Rc)
+# OBSOLETE #
+# OBSOLETE #
+# OBSOLETE compute:IMM_6S:IMM_6S::
+# OBSOLETE compute:IMM_6S:imm:signed32:SEXT32(IMM_6S, 32 - 6)
+# OBSOLETE # NB - for short imm[HL] are the same value
+# OBSOLETE compute:IMM_6S:immHL:signed32:((imm << 16) | MASKED32(imm, 16, 31))
+# OBSOLETE compute:IMM_6S:immH:signed32:imm
+# OBSOLETE compute:IMM_6S:immL:signed32:imm
+# OBSOLETE compute:IMM_6S:imm_6:signed32:IMM_6S
+# OBSOLETE compute:IMM_6S:imm_5:signed32:LSMASKED32(IMM_6S, 4, 0)
+# OBSOLETE compute:IMM_6S:imm_6u:unsigned32:(IMM_6S & 0x3f)
+# OBSOLETE #
+# OBSOLETE compute:RC:pcdisp:signed32:(Rc & ~0x7)
+# OBSOLETE compute:RC:pcaddr:signed32:pcdisp
+# OBSOLETE #
+# OBSOLETE compute:IMM_18S:IMM_18S::
+# OBSOLETE compute:IMM_18S:pcdisp:signed32:(SEXT32(IMM_18S, 32 - 18) << 3)
+# OBSOLETE compute:IMM_18S:pcaddr:signed32:pcdisp
+# OBSOLETE compute:IMM_12S:IMM_12S::
+# OBSOLETE compute:IMM_12S:pcdisp:signed32:(SEXT32(IMM_12S, 32 - 12) << 3)
+# OBSOLETE compute:IMM_12S:pcaddr:signed32:pcdisp
+# OBSOLETE #
+# OBSOLETE compute:IMM_8L:IMM_8L::
+# OBSOLETE compute:IMM_18L:IMM_18L::
+# OBSOLETE compute:IMM_6L:IMM_6L::
+# OBSOLETE compute:IMM_6L:imm:signed32:((((IMM_6L << 8) | IMM_8L) << 18) | IMM_18L)
+# OBSOLETE compute:IMM_6L:immHL:signed32:imm
+# OBSOLETE compute:IMM_6L:immH:signed32:EXTRACTED32(imm, 0, 15)
+# OBSOLETE compute:IMM_6L:immL:signed32:EXTRACTED32(imm, 16, 31)
+# OBSOLETE compute:IMM_6L:pcdisp:signed32:(imm & ~0x7)
+# OBSOLETE compute:IMM_6L:pcaddr:signed32:pcdisp
+# OBSOLETE #
+# OBSOLETE #
+# OBSOLETE compute:SRC_6:SRC_6::
+# OBSOLETE compute:SRC_6:src:unsigned32:(XX == 2 ? SEXT32(SRC_6, 32 - 6) : GPR[SRC_6])
+# OBSOLETE #
+# OBSOLETE #
+# OBSOLETE compute:AA:AA::
+# OBSOLETE compute:AA:Aa:unsigned64*:((CPU)->regs.accumulator + AA)
+# OBSOLETE compute:AB:AB::
+# OBSOLETE compute:AB:Ab:unsigned64*:((CPU)->regs.accumulator + AB)
diff --git a/sim/d30v/sim-calls.c b/sim/d30v/sim-calls.c
index d319529..9384376 100644
--- a/sim/d30v/sim-calls.c
+++ b/sim/d30v/sim-calls.c
@@ -1,364 +1,364 @@
-/* This file is part of the program psim.
-
- Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au>
- Copyright (C) 1997, Free Software Foundation
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
- */
-
-
-#include <stdarg.h>
-#include <ctype.h>
-
-#include "sim-main.h"
-#include "sim-options.h"
-
-#include "bfd.h"
-#include "sim-utils.h"
-
-#ifdef HAVE_STDLIB_H
-#include <stdlib.h>
-#endif
-
-static unsigned long extmem_size = 1024*1024*8; /* 8 meg is the maximum listed in the arch. manual */
-
-static const char * get_insn_name (sim_cpu *, int);
-
-#define SIM_ADDR unsigned
-
-
-#define OPTION_TRACE_CALL 200
-#define OPTION_TRACE_TRAPDUMP 201
-#define OPTION_EXTMEM_SIZE 202
-
-static SIM_RC
-d30v_option_handler (SIM_DESC sd,
- sim_cpu *cpu,
- int opt,
- char *arg,
- int command_p)
-{
- char *suffix;
-
- switch (opt)
- {
- default:
- break;
-
- case OPTION_TRACE_CALL:
- if (arg == NULL || strcmp (arg, "yes") == 0 || strcmp (arg, "on") == 0)
- TRACE_CALL_P = 1;
- else if (strcmp (arg, "no") == 0 || strcmp (arg, "off") == 0)
- TRACE_CALL_P = 0;
- else
- {
- sim_io_eprintf (sd, "Unreconized --trace-call option `%s'\n", arg);
- return SIM_RC_FAIL;
- }
- return SIM_RC_OK;
-
- case OPTION_TRACE_TRAPDUMP:
- if (arg == NULL || strcmp (arg, "yes") == 0 || strcmp (arg, "on") == 0)
- TRACE_TRAP_P = 1;
- else if (strcmp (arg, "no") == 0 || strcmp (arg, "off") == 0)
- TRACE_TRAP_P = 0;
- else
- {
- sim_io_eprintf (sd, "Unreconized --trace-call option `%s'\n", arg);
- return SIM_RC_FAIL;
- }
- return SIM_RC_OK;
-
- case OPTION_EXTMEM_SIZE:
- if (arg == NULL || !isdigit (*arg))
- {
- sim_io_eprintf (sd, "Invalid memory size `%s'", arg);
- return SIM_RC_FAIL;
- }
-
- suffix = arg;
- extmem_size = strtol (arg, &suffix, 0);
- if (*suffix == 'm' || *suffix == 'M')
- extmem_size <<= 20;
- else if (*suffix == 'k' || *suffix == 'K')
- extmem_size <<= 10;
- sim_do_commandf (sd, "memory delete 0x80000000");
- sim_do_commandf (sd, "memory region 0x80000000,0x%lx", extmem_size);
-
- return SIM_RC_OK;
- }
-
- sim_io_eprintf (sd, "Unknown option (%d)\n", opt);
- return SIM_RC_FAIL;
-}
-
-static const OPTION d30v_options[] =
-{
- { {"trace-call", optional_argument, NULL, OPTION_TRACE_CALL},
- '\0', "on|off", "Enable tracing of calls and returns, checking saved registers",
- d30v_option_handler },
- { {"trace-trapdump", optional_argument, NULL, OPTION_TRACE_TRAPDUMP},
- '\0', "on|off",
-#if TRAPDUMP
- "Traps 0..30 dump out all of the registers (defaults on)",
-#else
- "Traps 0..30 dump out all of the registers",
-#endif
- d30v_option_handler },
- { {"extmem-size", required_argument, NULL, OPTION_EXTMEM_SIZE},
- '\0', "size", "Change size of external memory, default 8 meg",
- d30v_option_handler },
- { {NULL, no_argument, NULL, 0}, '\0', NULL, NULL, NULL }
-};
-
-/* Return name of an insn, used by insn profiling. */
-
-static const char *
-get_insn_name (sim_cpu *cpu, int i)
-{
- return itable[i].name;
-}
-
-/* Structures used by the simulator, for gdb just have static structures */
-
-SIM_DESC
-sim_open (SIM_OPEN_KIND kind,
- host_callback *callback,
- struct _bfd *abfd,
- char **argv)
-{
- SIM_DESC sd = sim_state_alloc (kind, callback);
-
- /* FIXME: watchpoints code shouldn't need this */
- STATE_WATCHPOINTS (sd)->pc = &(PC);
- STATE_WATCHPOINTS (sd)->sizeof_pc = sizeof (PC);
- STATE_WATCHPOINTS (sd)->interrupt_handler = d30v_interrupt_event;
-
- /* Initialize the mechanism for doing insn profiling. */
- CPU_INSN_NAME (STATE_CPU (sd, 0)) = get_insn_name;
- CPU_MAX_INSNS (STATE_CPU (sd, 0)) = nr_itable_entries;
-
-#ifdef TRAPDUMP
- TRACE_TRAP_P = TRAPDUMP;
-#endif
-
- if (sim_pre_argv_init (sd, argv[0]) != SIM_RC_OK)
- return 0;
- sim_add_option_table (sd, NULL, d30v_options);
-
- /* Memory and EEPROM */
- /* internal instruction RAM - fixed */
- sim_do_commandf (sd, "memory region 0,0x10000");
- /* internal data RAM - fixed */
- sim_do_commandf (sd, "memory region 0x20000000,0x8000");
- /* control register dummy area */
- sim_do_commandf (sd, "memory region 0x40000000,0x10000");
- /* external RAM */
- sim_do_commandf (sd, "memory region 0x80000000,0x%lx", extmem_size);
- /* EIT RAM */
- sim_do_commandf (sd, "memory region 0xfffff000,0x1000");
-
- /* getopt will print the error message so we just have to exit if this fails.
- FIXME: Hmmm... in the case of gdb we need getopt to call
- print_filtered. */
- if (sim_parse_args (sd, argv) != SIM_RC_OK)
- {
- /* Uninstall the modules to avoid memory leaks,
- file descriptor leaks, etc. */
- sim_module_uninstall (sd);
- return 0;
- }
-
- /* check for/establish the a reference program image */
- if (sim_analyze_program (sd,
- (STATE_PROG_ARGV (sd) != NULL
- ? *STATE_PROG_ARGV (sd)
- : NULL),
- abfd) != SIM_RC_OK)
- {
- sim_module_uninstall (sd);
- return 0;
- }
-
- /* establish any remaining configuration options */
- if (sim_config (sd) != SIM_RC_OK)
- {
- sim_module_uninstall (sd);
- return 0;
- }
-
- if (sim_post_argv_init (sd) != SIM_RC_OK)
- {
- /* Uninstall the modules to avoid memory leaks,
- file descriptor leaks, etc. */
- sim_module_uninstall (sd);
- return 0;
- }
-
- return sd;
-}
-
-
-void
-sim_close (SIM_DESC sd, int quitting)
-{
- /* Uninstall the modules to avoid memory leaks,
- file descriptor leaks, etc. */
- sim_module_uninstall (sd);
-}
-
-
-SIM_RC
-sim_create_inferior (SIM_DESC sd,
- struct _bfd *abfd,
- char **argv,
- char **envp)
-{
- /* clear all registers */
- memset (&STATE_CPU (sd, 0)->regs, 0, sizeof (STATE_CPU (sd, 0)->regs));
- EIT_VB = EIT_VB_DEFAULT;
- STATE_CPU (sd, 0)->unit = any_unit;
- sim_module_init (sd);
- if (abfd != NULL)
- PC = bfd_get_start_address (abfd);
- else
- PC = 0xfffff000; /* reset value */
- return SIM_RC_OK;
-}
-
-void
-sim_do_command (SIM_DESC sd, char *cmd)
-{
- if (sim_args_command (sd, cmd) != SIM_RC_OK)
- sim_io_printf (sd, "Unknown command `%s'\n", cmd);
-}
-
-/* The following register definitions were ripped off from
- gdb/config/tm-d30v.h. If any of those defs changes, this table needs to
- be updated. */
-
-#define NUM_REGS 86
-
-#define R0_REGNUM 0
-#define FP_REGNUM 11
-#define LR_REGNUM 62
-#define SP_REGNUM 63
-#define SPI_REGNUM 64 /* Interrupt stack pointer */
-#define SPU_REGNUM 65 /* User stack pointer */
-#define CREGS_START 66
-
-#define PSW_REGNUM (CREGS_START + 0) /* psw, bpsw, or dpsw??? */
-#define PSW_SM 0x80000000 /* Stack mode: 0 == interrupt (SPI),
- 1 == user (SPU) */
-#define BPSW_REGNUM (CREGS_START + 1) /* Backup PSW (on interrupt) */
-#define PC_REGNUM (CREGS_START + 2) /* pc, bpc, or dpc??? */
-#define BPC_REGNUM (CREGS_START + 3) /* Backup PC (on interrupt) */
-#define DPSW_REGNUM (CREGS_START + 4) /* Backup PSW (on debug trap) */
-#define DPC_REGNUM (CREGS_START + 5) /* Backup PC (on debug trap) */
-#define RPT_C_REGNUM (CREGS_START + 7) /* Loop count */
-#define RPT_S_REGNUM (CREGS_START + 8) /* Loop start address*/
-#define RPT_E_REGNUM (CREGS_START + 9) /* Loop end address */
-#define MOD_S_REGNUM (CREGS_START + 10)
-#define MOD_E_REGNUM (CREGS_START + 11)
-#define IBA_REGNUM (CREGS_START + 14) /* Instruction break address */
-#define EIT_VB_REGNUM (CREGS_START + 15) /* Vector base address */
-#define INT_S_REGNUM (CREGS_START + 16) /* Interrupt status */
-#define INT_M_REGNUM (CREGS_START + 17) /* Interrupt mask */
-#define A0_REGNUM 84
-#define A1_REGNUM 85
-
-int
-sim_fetch_register (sd, regno, buf, length)
- SIM_DESC sd;
- int regno;
- unsigned char *buf;
- int length;
-{
- if (regno < A0_REGNUM)
- {
- unsigned32 reg;
-
- if (regno <= R0_REGNUM + 63)
- reg = sd->cpu[0].regs.general_purpose[regno];
- else if (regno <= SPU_REGNUM)
- reg = sd->cpu[0].regs.sp[regno - SPI_REGNUM];
- else
- reg = sd->cpu[0].regs.control[regno - CREGS_START];
-
- buf[0] = reg >> 24;
- buf[1] = reg >> 16;
- buf[2] = reg >> 8;
- buf[3] = reg;
- }
- else if (regno < NUM_REGS)
- {
- unsigned32 reg;
-
- reg = sd->cpu[0].regs.accumulator[regno - A0_REGNUM] >> 32;
-
- buf[0] = reg >> 24;
- buf[1] = reg >> 16;
- buf[2] = reg >> 8;
- buf[3] = reg;
-
- reg = sd->cpu[0].regs.accumulator[regno - A0_REGNUM];
-
- buf[4] = reg >> 24;
- buf[5] = reg >> 16;
- buf[6] = reg >> 8;
- buf[7] = reg;
- }
- else
- abort ();
- return -1;
-}
-
-int
-sim_store_register (sd, regno, buf, length)
- SIM_DESC sd;
- int regno;
- unsigned char *buf;
- int length;
-{
- if (regno < A0_REGNUM)
- {
- unsigned32 reg;
-
- reg = (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3];
-
- if (regno <= R0_REGNUM + 63)
- sd->cpu[0].regs.general_purpose[regno] = reg;
- else if (regno <= SPU_REGNUM)
- sd->cpu[0].regs.sp[regno - SPI_REGNUM] = reg;
- else
- sd->cpu[0].regs.control[regno - CREGS_START] = reg;
- }
- else if (regno < NUM_REGS)
- {
- unsigned32 reg;
-
- reg = (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3];
-
- sd->cpu[0].regs.accumulator[regno - A0_REGNUM] = (unsigned64)reg << 32;
-
- reg = (buf[4] << 24) | (buf[5] << 16) | (buf[6] << 8) | buf[7];
-
- sd->cpu[0].regs.accumulator[regno - A0_REGNUM] |= reg;
- }
- else
- abort ();
- return -1;
-}
+/* OBSOLETE /* This file is part of the program psim. */
+/* OBSOLETE */
+/* OBSOLETE Copyright (C) 1994-1996, Andrew Cagney <cagney@highland.com.au> */
+/* OBSOLETE Copyright (C) 1997, Free Software Foundation */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
+/* OBSOLETE (at your option) any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License */
+/* OBSOLETE along with this program; if not, write to the Free Software */
+/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
+/* OBSOLETE */
+/* OBSOLETE */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #include <stdarg.h> */
+/* OBSOLETE #include <ctype.h> */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-main.h" */
+/* OBSOLETE #include "sim-options.h" */
+/* OBSOLETE */
+/* OBSOLETE #include "bfd.h" */
+/* OBSOLETE #include "sim-utils.h" */
+/* OBSOLETE */
+/* OBSOLETE #ifdef HAVE_STDLIB_H */
+/* OBSOLETE #include <stdlib.h> */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE static unsigned long extmem_size = 1024*1024*8; /* 8 meg is the maximum listed in the arch. manual */ */
+/* OBSOLETE */
+/* OBSOLETE static const char * get_insn_name (sim_cpu *, int); */
+/* OBSOLETE */
+/* OBSOLETE #define SIM_ADDR unsigned */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #define OPTION_TRACE_CALL 200 */
+/* OBSOLETE #define OPTION_TRACE_TRAPDUMP 201 */
+/* OBSOLETE #define OPTION_EXTMEM_SIZE 202 */
+/* OBSOLETE */
+/* OBSOLETE static SIM_RC */
+/* OBSOLETE d30v_option_handler (SIM_DESC sd, */
+/* OBSOLETE sim_cpu *cpu, */
+/* OBSOLETE int opt, */
+/* OBSOLETE char *arg, */
+/* OBSOLETE int command_p) */
+/* OBSOLETE { */
+/* OBSOLETE char *suffix; */
+/* OBSOLETE */
+/* OBSOLETE switch (opt) */
+/* OBSOLETE { */
+/* OBSOLETE default: */
+/* OBSOLETE break; */
+/* OBSOLETE */
+/* OBSOLETE case OPTION_TRACE_CALL: */
+/* OBSOLETE if (arg == NULL || strcmp (arg, "yes") == 0 || strcmp (arg, "on") == 0) */
+/* OBSOLETE TRACE_CALL_P = 1; */
+/* OBSOLETE else if (strcmp (arg, "no") == 0 || strcmp (arg, "off") == 0) */
+/* OBSOLETE TRACE_CALL_P = 0; */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE sim_io_eprintf (sd, "Unreconized --trace-call option `%s'\n", arg); */
+/* OBSOLETE return SIM_RC_FAIL; */
+/* OBSOLETE } */
+/* OBSOLETE return SIM_RC_OK; */
+/* OBSOLETE */
+/* OBSOLETE case OPTION_TRACE_TRAPDUMP: */
+/* OBSOLETE if (arg == NULL || strcmp (arg, "yes") == 0 || strcmp (arg, "on") == 0) */
+/* OBSOLETE TRACE_TRAP_P = 1; */
+/* OBSOLETE else if (strcmp (arg, "no") == 0 || strcmp (arg, "off") == 0) */
+/* OBSOLETE TRACE_TRAP_P = 0; */
+/* OBSOLETE else */
+/* OBSOLETE { */
+/* OBSOLETE sim_io_eprintf (sd, "Unreconized --trace-call option `%s'\n", arg); */
+/* OBSOLETE return SIM_RC_FAIL; */
+/* OBSOLETE } */
+/* OBSOLETE return SIM_RC_OK; */
+/* OBSOLETE */
+/* OBSOLETE case OPTION_EXTMEM_SIZE: */
+/* OBSOLETE if (arg == NULL || !isdigit (*arg)) */
+/* OBSOLETE { */
+/* OBSOLETE sim_io_eprintf (sd, "Invalid memory size `%s'", arg); */
+/* OBSOLETE return SIM_RC_FAIL; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE suffix = arg; */
+/* OBSOLETE extmem_size = strtol (arg, &suffix, 0); */
+/* OBSOLETE if (*suffix == 'm' || *suffix == 'M') */
+/* OBSOLETE extmem_size <<= 20; */
+/* OBSOLETE else if (*suffix == 'k' || *suffix == 'K') */
+/* OBSOLETE extmem_size <<= 10; */
+/* OBSOLETE sim_do_commandf (sd, "memory delete 0x80000000"); */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0x80000000,0x%lx", extmem_size); */
+/* OBSOLETE */
+/* OBSOLETE return SIM_RC_OK; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE sim_io_eprintf (sd, "Unknown option (%d)\n", opt); */
+/* OBSOLETE return SIM_RC_FAIL; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE static const OPTION d30v_options[] = */
+/* OBSOLETE { */
+/* OBSOLETE { {"trace-call", optional_argument, NULL, OPTION_TRACE_CALL}, */
+/* OBSOLETE '\0', "on|off", "Enable tracing of calls and returns, checking saved registers", */
+/* OBSOLETE d30v_option_handler }, */
+/* OBSOLETE { {"trace-trapdump", optional_argument, NULL, OPTION_TRACE_TRAPDUMP}, */
+/* OBSOLETE '\0', "on|off", */
+/* OBSOLETE #if TRAPDUMP */
+/* OBSOLETE "Traps 0..30 dump out all of the registers (defaults on)", */
+/* OBSOLETE #else */
+/* OBSOLETE "Traps 0..30 dump out all of the registers", */
+/* OBSOLETE #endif */
+/* OBSOLETE d30v_option_handler }, */
+/* OBSOLETE { {"extmem-size", required_argument, NULL, OPTION_EXTMEM_SIZE}, */
+/* OBSOLETE '\0', "size", "Change size of external memory, default 8 meg", */
+/* OBSOLETE d30v_option_handler }, */
+/* OBSOLETE { {NULL, no_argument, NULL, 0}, '\0', NULL, NULL, NULL } */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE /* Return name of an insn, used by insn profiling. */ */
+/* OBSOLETE */
+/* OBSOLETE static const char * */
+/* OBSOLETE get_insn_name (sim_cpu *cpu, int i) */
+/* OBSOLETE { */
+/* OBSOLETE return itable[i].name; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* Structures used by the simulator, for gdb just have static structures */ */
+/* OBSOLETE */
+/* OBSOLETE SIM_DESC */
+/* OBSOLETE sim_open (SIM_OPEN_KIND kind, */
+/* OBSOLETE host_callback *callback, */
+/* OBSOLETE struct _bfd *abfd, */
+/* OBSOLETE char **argv) */
+/* OBSOLETE { */
+/* OBSOLETE SIM_DESC sd = sim_state_alloc (kind, callback); */
+/* OBSOLETE */
+/* OBSOLETE /* FIXME: watchpoints code shouldn't need this */ */
+/* OBSOLETE STATE_WATCHPOINTS (sd)->pc = &(PC); */
+/* OBSOLETE STATE_WATCHPOINTS (sd)->sizeof_pc = sizeof (PC); */
+/* OBSOLETE STATE_WATCHPOINTS (sd)->interrupt_handler = d30v_interrupt_event; */
+/* OBSOLETE */
+/* OBSOLETE /* Initialize the mechanism for doing insn profiling. */ */
+/* OBSOLETE CPU_INSN_NAME (STATE_CPU (sd, 0)) = get_insn_name; */
+/* OBSOLETE CPU_MAX_INSNS (STATE_CPU (sd, 0)) = nr_itable_entries; */
+/* OBSOLETE */
+/* OBSOLETE #ifdef TRAPDUMP */
+/* OBSOLETE TRACE_TRAP_P = TRAPDUMP; */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE if (sim_pre_argv_init (sd, argv[0]) != SIM_RC_OK) */
+/* OBSOLETE return 0; */
+/* OBSOLETE sim_add_option_table (sd, NULL, d30v_options); */
+/* OBSOLETE */
+/* OBSOLETE /* Memory and EEPROM */ */
+/* OBSOLETE /* internal instruction RAM - fixed */ */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0,0x10000"); */
+/* OBSOLETE /* internal data RAM - fixed */ */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0x20000000,0x8000"); */
+/* OBSOLETE /* control register dummy area */ */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0x40000000,0x10000"); */
+/* OBSOLETE /* external RAM */ */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0x80000000,0x%lx", extmem_size); */
+/* OBSOLETE /* EIT RAM */ */
+/* OBSOLETE sim_do_commandf (sd, "memory region 0xfffff000,0x1000"); */
+/* OBSOLETE */
+/* OBSOLETE /* getopt will print the error message so we just have to exit if this fails. */
+/* OBSOLETE FIXME: Hmmm... in the case of gdb we need getopt to call */
+/* OBSOLETE print_filtered. */ */
+/* OBSOLETE if (sim_parse_args (sd, argv) != SIM_RC_OK) */
+/* OBSOLETE { */
+/* OBSOLETE /* Uninstall the modules to avoid memory leaks, */
+/* OBSOLETE file descriptor leaks, etc. */ */
+/* OBSOLETE sim_module_uninstall (sd); */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* check for/establish the a reference program image */ */
+/* OBSOLETE if (sim_analyze_program (sd, */
+/* OBSOLETE (STATE_PROG_ARGV (sd) != NULL */
+/* OBSOLETE ? *STATE_PROG_ARGV (sd) */
+/* OBSOLETE : NULL), */
+/* OBSOLETE abfd) != SIM_RC_OK) */
+/* OBSOLETE { */
+/* OBSOLETE sim_module_uninstall (sd); */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* establish any remaining configuration options */ */
+/* OBSOLETE if (sim_config (sd) != SIM_RC_OK) */
+/* OBSOLETE { */
+/* OBSOLETE sim_module_uninstall (sd); */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE if (sim_post_argv_init (sd) != SIM_RC_OK) */
+/* OBSOLETE { */
+/* OBSOLETE /* Uninstall the modules to avoid memory leaks, */
+/* OBSOLETE file descriptor leaks, etc. */ */
+/* OBSOLETE sim_module_uninstall (sd); */
+/* OBSOLETE return 0; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE return sd; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE sim_close (SIM_DESC sd, int quitting) */
+/* OBSOLETE { */
+/* OBSOLETE /* Uninstall the modules to avoid memory leaks, */
+/* OBSOLETE file descriptor leaks, etc. */ */
+/* OBSOLETE sim_module_uninstall (sd); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE SIM_RC */
+/* OBSOLETE sim_create_inferior (SIM_DESC sd, */
+/* OBSOLETE struct _bfd *abfd, */
+/* OBSOLETE char **argv, */
+/* OBSOLETE char **envp) */
+/* OBSOLETE { */
+/* OBSOLETE /* clear all registers */ */
+/* OBSOLETE memset (&STATE_CPU (sd, 0)->regs, 0, sizeof (STATE_CPU (sd, 0)->regs)); */
+/* OBSOLETE EIT_VB = EIT_VB_DEFAULT; */
+/* OBSOLETE STATE_CPU (sd, 0)->unit = any_unit; */
+/* OBSOLETE sim_module_init (sd); */
+/* OBSOLETE if (abfd != NULL) */
+/* OBSOLETE PC = bfd_get_start_address (abfd); */
+/* OBSOLETE else */
+/* OBSOLETE PC = 0xfffff000; /* reset value */ */
+/* OBSOLETE return SIM_RC_OK; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE void */
+/* OBSOLETE sim_do_command (SIM_DESC sd, char *cmd) */
+/* OBSOLETE { */
+/* OBSOLETE if (sim_args_command (sd, cmd) != SIM_RC_OK) */
+/* OBSOLETE sim_io_printf (sd, "Unknown command `%s'\n", cmd); */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE /* The following register definitions were ripped off from */
+/* OBSOLETE gdb/config/tm-d30v.h. If any of those defs changes, this table needs to */
+/* OBSOLETE be updated. */ */
+/* OBSOLETE */
+/* OBSOLETE #define NUM_REGS 86 */
+/* OBSOLETE */
+/* OBSOLETE #define R0_REGNUM 0 */
+/* OBSOLETE #define FP_REGNUM 11 */
+/* OBSOLETE #define LR_REGNUM 62 */
+/* OBSOLETE #define SP_REGNUM 63 */
+/* OBSOLETE #define SPI_REGNUM 64 /* Interrupt stack pointer */ */
+/* OBSOLETE #define SPU_REGNUM 65 /* User stack pointer */ */
+/* OBSOLETE #define CREGS_START 66 */
+/* OBSOLETE */
+/* OBSOLETE #define PSW_REGNUM (CREGS_START + 0) /* psw, bpsw, or dpsw??? */ */
+/* OBSOLETE #define PSW_SM 0x80000000 /* Stack mode: 0 == interrupt (SPI), */
+/* OBSOLETE 1 == user (SPU) */ */
+/* OBSOLETE #define BPSW_REGNUM (CREGS_START + 1) /* Backup PSW (on interrupt) */ */
+/* OBSOLETE #define PC_REGNUM (CREGS_START + 2) /* pc, bpc, or dpc??? */ */
+/* OBSOLETE #define BPC_REGNUM (CREGS_START + 3) /* Backup PC (on interrupt) */ */
+/* OBSOLETE #define DPSW_REGNUM (CREGS_START + 4) /* Backup PSW (on debug trap) */ */
+/* OBSOLETE #define DPC_REGNUM (CREGS_START + 5) /* Backup PC (on debug trap) */ */
+/* OBSOLETE #define RPT_C_REGNUM (CREGS_START + 7) /* Loop count */ */
+/* OBSOLETE #define RPT_S_REGNUM (CREGS_START + 8) /* Loop start address*/ */
+/* OBSOLETE #define RPT_E_REGNUM (CREGS_START + 9) /* Loop end address */ */
+/* OBSOLETE #define MOD_S_REGNUM (CREGS_START + 10) */
+/* OBSOLETE #define MOD_E_REGNUM (CREGS_START + 11) */
+/* OBSOLETE #define IBA_REGNUM (CREGS_START + 14) /* Instruction break address */ */
+/* OBSOLETE #define EIT_VB_REGNUM (CREGS_START + 15) /* Vector base address */ */
+/* OBSOLETE #define INT_S_REGNUM (CREGS_START + 16) /* Interrupt status */ */
+/* OBSOLETE #define INT_M_REGNUM (CREGS_START + 17) /* Interrupt mask */ */
+/* OBSOLETE #define A0_REGNUM 84 */
+/* OBSOLETE #define A1_REGNUM 85 */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE sim_fetch_register (sd, regno, buf, length) */
+/* OBSOLETE SIM_DESC sd; */
+/* OBSOLETE int regno; */
+/* OBSOLETE unsigned char *buf; */
+/* OBSOLETE int length; */
+/* OBSOLETE { */
+/* OBSOLETE if (regno < A0_REGNUM) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 reg; */
+/* OBSOLETE */
+/* OBSOLETE if (regno <= R0_REGNUM + 63) */
+/* OBSOLETE reg = sd->cpu[0].regs.general_purpose[regno]; */
+/* OBSOLETE else if (regno <= SPU_REGNUM) */
+/* OBSOLETE reg = sd->cpu[0].regs.sp[regno - SPI_REGNUM]; */
+/* OBSOLETE else */
+/* OBSOLETE reg = sd->cpu[0].regs.control[regno - CREGS_START]; */
+/* OBSOLETE */
+/* OBSOLETE buf[0] = reg >> 24; */
+/* OBSOLETE buf[1] = reg >> 16; */
+/* OBSOLETE buf[2] = reg >> 8; */
+/* OBSOLETE buf[3] = reg; */
+/* OBSOLETE } */
+/* OBSOLETE else if (regno < NUM_REGS) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 reg; */
+/* OBSOLETE */
+/* OBSOLETE reg = sd->cpu[0].regs.accumulator[regno - A0_REGNUM] >> 32; */
+/* OBSOLETE */
+/* OBSOLETE buf[0] = reg >> 24; */
+/* OBSOLETE buf[1] = reg >> 16; */
+/* OBSOLETE buf[2] = reg >> 8; */
+/* OBSOLETE buf[3] = reg; */
+/* OBSOLETE */
+/* OBSOLETE reg = sd->cpu[0].regs.accumulator[regno - A0_REGNUM]; */
+/* OBSOLETE */
+/* OBSOLETE buf[4] = reg >> 24; */
+/* OBSOLETE buf[5] = reg >> 16; */
+/* OBSOLETE buf[6] = reg >> 8; */
+/* OBSOLETE buf[7] = reg; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE abort (); */
+/* OBSOLETE return -1; */
+/* OBSOLETE } */
+/* OBSOLETE */
+/* OBSOLETE int */
+/* OBSOLETE sim_store_register (sd, regno, buf, length) */
+/* OBSOLETE SIM_DESC sd; */
+/* OBSOLETE int regno; */
+/* OBSOLETE unsigned char *buf; */
+/* OBSOLETE int length; */
+/* OBSOLETE { */
+/* OBSOLETE if (regno < A0_REGNUM) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 reg; */
+/* OBSOLETE */
+/* OBSOLETE reg = (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; */
+/* OBSOLETE */
+/* OBSOLETE if (regno <= R0_REGNUM + 63) */
+/* OBSOLETE sd->cpu[0].regs.general_purpose[regno] = reg; */
+/* OBSOLETE else if (regno <= SPU_REGNUM) */
+/* OBSOLETE sd->cpu[0].regs.sp[regno - SPI_REGNUM] = reg; */
+/* OBSOLETE else */
+/* OBSOLETE sd->cpu[0].regs.control[regno - CREGS_START] = reg; */
+/* OBSOLETE } */
+/* OBSOLETE else if (regno < NUM_REGS) */
+/* OBSOLETE { */
+/* OBSOLETE unsigned32 reg; */
+/* OBSOLETE */
+/* OBSOLETE reg = (buf[0] << 24) | (buf[1] << 16) | (buf[2] << 8) | buf[3]; */
+/* OBSOLETE */
+/* OBSOLETE sd->cpu[0].regs.accumulator[regno - A0_REGNUM] = (unsigned64)reg << 32; */
+/* OBSOLETE */
+/* OBSOLETE reg = (buf[4] << 24) | (buf[5] << 16) | (buf[6] << 8) | buf[7]; */
+/* OBSOLETE */
+/* OBSOLETE sd->cpu[0].regs.accumulator[regno - A0_REGNUM] |= reg; */
+/* OBSOLETE } */
+/* OBSOLETE else */
+/* OBSOLETE abort (); */
+/* OBSOLETE return -1; */
+/* OBSOLETE } */
diff --git a/sim/d30v/sim-main.h b/sim/d30v/sim-main.h
index 4db8aa0..d1764da 100644
--- a/sim/d30v/sim-main.h
+++ b/sim/d30v/sim-main.h
@@ -1,82 +1,82 @@
-/* This file is part of the program psim.
-
- Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au>
- Copyright (C) 1997, 1998, Free Software Foundation
-
- This program is free software; you can redistribute it and/or modify
- it under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 2 of the License, or
- (at your option) any later version.
-
- This program is distributed in the hope that it will be useful,
- but WITHOUT ANY WARRANTY; without even the implied warranty of
- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- GNU General Public License for more details.
-
- You should have received a copy of the GNU General Public License
- along with this program; if not, write to the Free Software
- Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
- */
-
-
-#ifndef _SIM_MAIN_H_
-#define _SIM_MAIN_H_
-
-/* This simulator suports watchpoints */
-#define WITH_WATCHPOINTS 1
-
-#include "sim-basics.h"
-#include "sim-signal.h"
-
-/* needed */
-typedef address_word sim_cia;
-#define INVALID_INSTRUCTION_ADDRESS ((address_word) 0 - 1)
-
-/* This simulator doesn't cache anything so no saving of context is
- needed during either of a halt or restart */
-#define SIM_ENGINE_HALT_HOOK(SD,CPU,CIA) while (0)
-#define SIM_ENGINE_RESTART_HOOK(SD,CPU,CIA) while (0)
-
-#include "sim-base.h"
-
-/* These are generated files. */
-#include "itable.h"
-#include "s_idecode.h"
-#include "l_idecode.h"
-
-#include "cpu.h"
-#include "alu.h"
-
-
-struct sim_state {
-
- sim_event *pending_interrupt;
-
- /* the processors proper */
- sim_cpu cpu[MAX_NR_PROCESSORS];
-#if (WITH_SMP)
-#define STATE_CPU(sd, n) (&(sd)->cpu[n])
-#else
-#define STATE_CPU(sd, n) (&(sd)->cpu[0])
-#endif
-
- /* The base class. */
- sim_state_base base;
-
-};
-
-
-/* deliver an interrupt */
-sim_event_handler d30v_interrupt_event;
-
-
-#ifdef HAVE_STRING_H
-#include <string.h>
-#else
-#ifdef HAVE_STRINGS_H
-#include <strings.h>
-#endif
-#endif
-
-#endif /* _SIM_MAIN_H_ */
+/* OBSOLETE /* This file is part of the program psim. */
+/* OBSOLETE */
+/* OBSOLETE Copyright (C) 1994-1997, Andrew Cagney <cagney@highland.com.au> */
+/* OBSOLETE Copyright (C) 1997, 1998, Free Software Foundation */
+/* OBSOLETE */
+/* OBSOLETE This program is free software; you can redistribute it and/or modify */
+/* OBSOLETE it under the terms of the GNU General Public License as published by */
+/* OBSOLETE the Free Software Foundation; either version 2 of the License, or */
+/* OBSOLETE (at your option) any later version. */
+/* OBSOLETE */
+/* OBSOLETE This program is distributed in the hope that it will be useful, */
+/* OBSOLETE but WITHOUT ANY WARRANTY; without even the implied warranty of */
+/* OBSOLETE MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the */
+/* OBSOLETE GNU General Public License for more details. */
+/* OBSOLETE */
+/* OBSOLETE You should have received a copy of the GNU General Public License */
+/* OBSOLETE along with this program; if not, write to the Free Software */
+/* OBSOLETE Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */
+/* OBSOLETE */
+/* OBSOLETE */ */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifndef _SIM_MAIN_H_ */
+/* OBSOLETE #define _SIM_MAIN_H_ */
+/* OBSOLETE */
+/* OBSOLETE /* This simulator suports watchpoints */ */
+/* OBSOLETE #define WITH_WATCHPOINTS 1 */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-basics.h" */
+/* OBSOLETE #include "sim-signal.h" */
+/* OBSOLETE */
+/* OBSOLETE /* needed */ */
+/* OBSOLETE typedef address_word sim_cia; */
+/* OBSOLETE #define INVALID_INSTRUCTION_ADDRESS ((address_word) 0 - 1) */
+/* OBSOLETE */
+/* OBSOLETE /* This simulator doesn't cache anything so no saving of context is */
+/* OBSOLETE needed during either of a halt or restart */ */
+/* OBSOLETE #define SIM_ENGINE_HALT_HOOK(SD,CPU,CIA) while (0) */
+/* OBSOLETE #define SIM_ENGINE_RESTART_HOOK(SD,CPU,CIA) while (0) */
+/* OBSOLETE */
+/* OBSOLETE #include "sim-base.h" */
+/* OBSOLETE */
+/* OBSOLETE /* These are generated files. */ */
+/* OBSOLETE #include "itable.h" */
+/* OBSOLETE #include "s_idecode.h" */
+/* OBSOLETE #include "l_idecode.h" */
+/* OBSOLETE */
+/* OBSOLETE #include "cpu.h" */
+/* OBSOLETE #include "alu.h" */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE struct sim_state { */
+/* OBSOLETE */
+/* OBSOLETE sim_event *pending_interrupt; */
+/* OBSOLETE */
+/* OBSOLETE /* the processors proper */ */
+/* OBSOLETE sim_cpu cpu[MAX_NR_PROCESSORS]; */
+/* OBSOLETE #if (WITH_SMP) */
+/* OBSOLETE #define STATE_CPU(sd, n) (&(sd)->cpu[n]) */
+/* OBSOLETE #else */
+/* OBSOLETE #define STATE_CPU(sd, n) (&(sd)->cpu[0]) */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE /* The base class. */ */
+/* OBSOLETE sim_state_base base; */
+/* OBSOLETE */
+/* OBSOLETE }; */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE /* deliver an interrupt */ */
+/* OBSOLETE sim_event_handler d30v_interrupt_event; */
+/* OBSOLETE */
+/* OBSOLETE */
+/* OBSOLETE #ifdef HAVE_STRING_H */
+/* OBSOLETE #include <string.h> */
+/* OBSOLETE #else */
+/* OBSOLETE #ifdef HAVE_STRINGS_H */
+/* OBSOLETE #include <strings.h> */
+/* OBSOLETE #endif */
+/* OBSOLETE #endif */
+/* OBSOLETE */
+/* OBSOLETE #endif /* _SIM_MAIN_H_ */ */