/* Generate attribute information (insn-attr.h) from machine description. Copyright (C) 1991, 1994, 1996, 1998, 1999, 2000 Free Software Foundation, Inc. Contributed by Richard Kenner (kenner@vlsi1.ultra.nyu.edu) This file is part of GCC. GCC 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. GCC 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 GCC; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "hconfig.h" #include "system.h" #include "rtl.h" #include "errors.h" #include "gensupport.h" /* A range of values. */ struct range { int min; int max; }; /* Record information about each function unit mentioned in a DEFINE_FUNCTION_UNIT. */ struct function_unit { char *name; /* Function unit name. */ struct function_unit *next; /* Next function unit. */ int multiplicity; /* Number of units of this type. */ int simultaneity; /* Maximum number of simultaneous insns on this function unit or 0 if unlimited. */ struct range ready_cost; /* Range of ready cost values. */ struct range issue_delay; /* Range of issue delay values. */ }; static void extend_range PARAMS ((struct range *, int, int)); static void init_range PARAMS ((struct range *)); static void write_upcase PARAMS ((const char *)); static void gen_attr PARAMS ((rtx)); static void write_units PARAMS ((int, struct range *, struct range *, struct range *, struct range *, struct range *)); static void extend_range (range, min, max) struct range *range; int min; int max; { if (range->min > min) range->min = min; if (range->max < max) range->max = max; } static void init_range (range) struct range *range; { range->min = 100000; range->max = -1; } static void write_upcase (str) const char *str; { for (; *str; str++) putchar (TOUPPER(*str)); } static void gen_attr (attr) rtx attr; { const char *p; int is_const = GET_CODE (XEXP (attr, 2)) == CONST; printf ("#define HAVE_ATTR_%s\n", XSTR (attr, 0)); /* If numeric attribute, don't need to write an enum. */ if (*XSTR (attr, 1) == '\0') printf ("extern int get_attr_%s PARAMS ((%s));\n", XSTR (attr, 0), (is_const ? "void" : "rtx")); else { printf ("enum attr_%s {", XSTR (attr, 0)); write_upcase (XSTR (attr, 0)); printf ("_"); for (p = XSTR (attr, 1); *p != '\0'; p++) { if (*p == ',') { printf (", "); write_upcase (XSTR (attr, 0)); printf ("_"); } else putchar (TOUPPER(*p)); } printf ("};\n"); printf ("extern enum attr_%s get_attr_%s PARAMS ((%s));\n\n", XSTR (attr, 0), XSTR (attr, 0), (is_const ? "void" : "rtx")); } /* If `length' attribute, write additional function definitions and define variables used by `insn_current_length'. */ if (! strcmp (XSTR (attr, 0), "length")) { printf ("extern void shorten_branches PARAMS ((rtx));\n"); printf ("extern int insn_default_length PARAMS ((rtx));\n"); printf ("extern int insn_variable_length_p PARAMS ((rtx));\n"); printf ("extern int insn_current_length PARAMS ((rtx));\n\n"); printf ("#include \"insn-addr.h\"\n\n"); } } static void write_units (num_units, multiplicity, simultaneity, ready_cost, issue_delay, blockage) int num_units; struct range *multiplicity; struct range *simultaneity; struct range *ready_cost; struct range *issue_delay; struct range *blockage; { int i, q_size; printf ("#define INSN_SCHEDULING\n\n"); printf ("extern int result_ready_cost PARAMS ((rtx));\n"); printf ("extern int function_units_used PARAMS ((rtx));\n\n"); printf ("extern const struct function_unit_desc\n"); printf ("{\n"); printf (" const char *const name;\n"); printf (" const int bitmask;\n"); printf (" const int multiplicity;\n"); printf (" const int simultaneity;\n"); printf (" const int default_cost;\n"); printf (" const int max_issue_delay;\n"); printf (" int (*const ready_cost_function) PARAMS ((rtx));\n"); printf (" int (*const conflict_cost_function) PARAMS ((rtx, rtx));\n"); printf (" const int max_blockage;\n"); printf (" unsigned int (*const blockage_range_function) PARAMS ((rtx));\n"); printf (" int (*const blockage_function) PARAMS ((rtx, rtx));\n"); printf ("} function_units[];\n\n"); printf ("#define FUNCTION_UNITS_SIZE %d\n", num_units); printf ("#define MIN_MULTIPLICITY %d\n", multiplicity->min); printf ("#define MAX_MULTIPLICITY %d\n", multiplicity->max); printf ("#define MIN_SIMULTANEITY %d\n", simultaneity->min); printf ("#define MAX_SIMULTANEITY %d\n", simultaneity->max); printf ("#define MIN_READY_COST %d\n", ready_cost->min); printf ("#define MAX_READY_COST %d\n", ready_cost->max); printf ("#define MIN_ISSUE_DELAY %d\n", issue_delay->min); printf ("#define MAX_ISSUE_DELAY %d\n", issue_delay->max); printf ("#define MIN_BLOCKAGE %d\n", blockage->min); printf ("#define MAX_BLOCKAGE %d\n", blockage->max); for (i = 0; (1 << i) < blockage->max; i++) ; printf ("#define BLOCKAGE_BITS %d\n", i + 1); /* INSN_QUEUE_SIZE is a power of two larger than MAX_BLOCKAGE and MAX_READY_COST. This is the longest time an isnsn may be queued. */ i = MAX (blockage->max, ready_cost->max); for (q_size = 1; q_size <= i; q_size <<= 1) ; printf ("#define INSN_QUEUE_SIZE %d\n", q_size); } extern int main PARAMS ((int, char **)); int main (argc, argv) int argc; char **argv; { rtx desc; int have_delay = 0; int have_annul_true = 0; int have_annul_false = 0; int num_insn_reservations = 0; int num_units = 0; struct range all_simultaneity, all_multiplicity; struct range all_ready_cost, all_issue_delay, all_blockage; struct function_unit *units = 0, *unit; int i; init_range (&all_multiplicity); init_range (&all_simultaneity); init_range (&all_ready_cost); init_range (&all_issue_delay); init_range (&all_blockage); progname = "genattr"; if (argc <= 1) fatal ("no input file name"); if (init_md_reader_args (argc, argv) != SUCCESS_EXIT_CODE) return (FATAL_EXIT_CODE); puts ("/* Generated automatically by the program `genattr'"); puts (" from the machine description file `md'. */\n"); puts ("#ifndef GCC_INSN_ATTR_H"); puts ("#define GCC_INSN_ATTR_H\n"); /* For compatibility, define the attribute `alternative', which is just a reference to the variable `which_alternative'. */ puts ("#define HAVE_ATTR_alternative"); puts ("#define get_attr_alternative(insn) which_alternative"); /* Read the machine description. */ while (1) { int line_no, insn_code_number; desc = read_md_rtx (&line_no, &insn_code_number); if (desc == NULL) break; if (GET_CODE (desc) == DEFINE_ATTR) gen_attr (desc); else if (GET_CODE (desc) == DEFINE_DELAY) { if (! have_delay) { printf ("#define DELAY_SLOTS\n"); printf ("extern int num_delay_slots PARAMS ((rtx));\n"); printf ("extern int eligible_for_delay PARAMS ((rtx, int, rtx, int));\n\n"); printf ("extern int const_num_delay_slots PARAMS ((rtx));\n\n"); have_delay = 1; } for (i = 0; i < XVECLEN (desc, 1); i += 3) { if (XVECEXP (desc, 1, i + 1) && ! have_annul_true) { printf ("#define ANNUL_IFTRUE_SLOTS\n"); printf ("extern int eligible_for_annul_true PARAMS ((rtx, int, rtx, int));\n"); have_annul_true = 1; } if (XVECEXP (desc, 1, i + 2) && ! have_annul_false) { printf ("#define ANNUL_IFFALSE_SLOTS\n"); printf ("extern int eligible_for_annul_false PARAMS ((rtx, int, rtx, int));\n"); have_annul_false = 1; } } } else if (GET_CODE (desc) == DEFINE_FUNCTION_UNIT) { const char *name = XSTR (desc, 0); int multiplicity = XINT (desc, 1); int simultaneity = XINT (desc, 2); int ready_cost = MAX (XINT (desc, 4), 1); int issue_delay = MAX (XINT (desc, 5), 1); int issueexp_p = (XVEC (desc, 6) != 0); for (unit = units; unit; unit = unit->next) if (strcmp (unit->name, name) == 0) break; if (unit == 0) { unit = (struct function_unit *) xmalloc (sizeof (struct function_unit)); unit->name = xstrdup (name); unit->multiplicity = multiplicity; unit->simultaneity = simultaneity; unit->ready_cost.min = unit->ready_cost.max = ready_cost; unit->issue_delay.min = unit->issue_delay.max = issue_delay; unit->next = units; units = unit; num_units++; extend_range (&all_multiplicity, multiplicity, multiplicity); extend_range (&all_simultaneity, simultaneity, simultaneity); } else if (unit->multiplicity != multiplicity || unit->simultaneity != simultaneity) fatal ("Differing specifications given for `%s' function unit", unit->name); extend_range (&unit->ready_cost, ready_cost, ready_cost); extend_range (&unit->issue_delay, issueexp_p ? 1 : issue_delay, issue_delay); extend_range (&all_ready_cost, unit->ready_cost.min, unit->ready_cost.max); extend_range (&all_issue_delay, unit->issue_delay.min, unit->issue_delay.max); } else if (GET_CODE (desc) == DEFINE_INSN_RESERVATION) num_insn_reservations++; } if (num_units > 0 || num_insn_reservations > 0) { if (num_units > 0) printf ("#define TRADITIONAL_PIPELINE_INTERFACE 1\n"); if (num_insn_reservations > 0) printf ("#define DFA_PIPELINE_INTERFACE 1\n"); /* Compute the range of blockage cost values. See genattrtab.c for the derivation. BLOCKAGE (E,C) when SIMULTANEITY is zero is MAX (ISSUE-DELAY (E,C), READY-COST (E) - (READY-COST (C) - 1)) and otherwise MAX (ISSUE-DELAY (E,C), READY-COST (E) - (READY-COST (C) - 1), READY-COST (E) - FILL-TIME) */ for (unit = units; unit; unit = unit->next) { struct range blockage; blockage = unit->issue_delay; blockage.max = MAX (unit->ready_cost.max - (unit->ready_cost.min - 1), blockage.max); blockage.min = MAX (1, blockage.min); if (unit->simultaneity != 0) { int fill_time = ((unit->simultaneity - 1) * unit->issue_delay.min); blockage.min = MAX (unit->ready_cost.min - fill_time, blockage.min); blockage.max = MAX (unit->ready_cost.max - fill_time, blockage.max); } extend_range (&all_blockage, blockage.min, blockage.max); } write_units (num_units, &all_multiplicity, &all_simultaneity, &all_ready_cost, &all_issue_delay, &all_blockage); /* Output interface for pipeline hazards recognition based on DFA (deterministic finite state automata. */ printf ("\n/* DFA based pipeline interface. */"); printf ("\n#ifndef AUTOMATON_STATE_ALTS\n"); printf ("#define AUTOMATON_STATE_ALTS 0\n"); printf ("#endif\n\n"); printf ("#ifndef CPU_UNITS_QUERY\n"); printf ("#define CPU_UNITS_QUERY 0\n"); printf ("#endif\n\n"); /* Interface itself: */ printf ("extern int max_dfa_issue_rate;\n\n"); printf ("/* The following macro value is calculated from the\n"); printf (" automaton based pipeline description and is equal to\n"); printf (" maximal number of all insns described in constructions\n"); printf (" `define_insn_reservation' which can be issued on the\n"); printf (" same processor cycle. */\n"); printf ("#define MAX_DFA_ISSUE_RATE max_dfa_issue_rate\n\n"); printf ("/* Insn latency time defined in define_insn_reservation. */\n"); printf ("extern int insn_default_latency PARAMS ((rtx));\n\n"); printf ("/* Return nonzero if there is a bypass for given insn\n"); printf (" which is a data producer. */\n"); printf ("extern int bypass_p PARAMS ((rtx));\n\n"); printf ("/* Insn latency time on data consumed by the 2nd insn.\n"); printf (" Use the function if bypass_p returns nonzero for\n"); printf (" the 1st insn. */\n"); printf ("extern int insn_latency PARAMS ((rtx, rtx));\n\n"); printf ("/* The following function returns number of alternative\n"); printf (" reservations of given insn. It may be used for better\n"); printf (" insns scheduling heuristics. */\n"); printf ("extern int insn_alts PARAMS ((rtx));\n\n"); printf ("/* Maximal possible number of insns waiting results being\n"); printf (" produced by insns whose execution is not finished. */\n"); printf ("extern int max_insn_queue_index;\n\n"); printf ("/* Pointer to data describing current state of DFA. */\n"); printf ("typedef void *state_t;\n\n"); printf ("/* Size of the data in bytes. */\n"); printf ("extern int state_size PARAMS ((void));\n\n"); printf ("/* Initiate given DFA state, i.e. Set up the state\n"); printf (" as all functional units were not reserved. */\n"); printf ("extern void state_reset PARAMS ((state_t));\n"); printf ("/* The following function returns negative value if given\n"); printf (" insn can be issued in processor state described by given\n"); printf (" DFA state. In this case, the DFA state is changed to\n"); printf (" reflect the current and future reservations by given\n"); printf (" insn. Otherwise the function returns minimal time\n"); printf (" delay to issue the insn. This delay may be zero\n"); printf (" for superscalar or VLIW processors. If the second\n"); printf (" parameter is NULL the function changes given DFA state\n"); printf (" as new processor cycle started. */\n"); printf ("extern int state_transition PARAMS ((state_t, rtx));\n"); printf ("\n#if AUTOMATON_STATE_ALTS\n"); printf ("/* The following function returns number of possible\n"); printf (" alternative reservations of given insn in given\n"); printf (" DFA state. It may be used for better insns scheduling\n"); printf (" heuristics. By default the function is defined if\n"); printf (" macro AUTOMATON_STATE_ALTS is defined because its\n"); printf (" implementation may require much memory. */\n"); printf ("extern int state_alts PARAMS ((state_t, rtx));\n"); printf ("#endif\n\n"); printf ("extern int min_issue_delay PARAMS ((state_t, rtx));\n"); printf ("/* The following function returns nonzero if no one insn\n"); printf (" can be issued in current DFA state. */\n"); printf ("extern int state_dead_lock_p PARAMS ((state_t));\n"); printf ("/* The function returns minimal delay of issue of the 2nd\n"); printf (" insn after issuing the 1st insn in given DFA state.\n"); printf (" The 1st insn should be issued in given state (i.e.\n"); printf (" state_transition should return negative value for\n"); printf (" the insn and the state). Data dependencies between\n"); printf (" the insns are ignored by the function. */\n"); printf ("extern int min_insn_conflict_delay PARAMS ((state_t, rtx, rtx));\n"); printf ("/* The following function outputs reservations for given\n"); printf (" insn as they are described in the corresponding\n"); printf (" define_insn_reservation. */\n"); printf ("extern void print_reservation PARAMS ((FILE *, rtx));\n"); printf ("\n#if CPU_UNITS_QUERY\n"); printf ("/* The following function returns code of functional unit\n"); printf (" with given name (see define_cpu_unit). */\n"); printf ("extern int get_cpu_unit_code PARAMS ((const char *));\n"); printf ("/* The following function returns nonzero if functional\n"); printf (" unit with given code is currently reserved in given\n"); printf (" DFA state. */\n"); printf ("extern int cpu_unit_reservation_p PARAMS ((state_t, int));\n"); printf ("#endif\n\n"); printf ("/* Initiate and finish work with DFA. They should be\n"); printf (" called as the first and the last interface\n"); printf (" functions. */\n"); printf ("extern void dfa_start PARAMS ((void));\n"); printf ("extern void dfa_finish PARAMS ((void));\n"); } else { /* Otherwise we do no scheduling, but we need these typedefs in order to avoid uglifying other code with more ifdefs. */ printf ("typedef void *state_t;\n\n"); } /* Output flag masks for use by reorg. Flags are used to hold branch direction and prediction information for use by eligible_for_... */ printf("\n#define ATTR_FLAG_forward\t0x1\n"); printf("#define ATTR_FLAG_backward\t0x2\n"); printf("#define ATTR_FLAG_likely\t0x4\n"); printf("#define ATTR_FLAG_very_likely\t0x8\n"); printf("#define ATTR_FLAG_unlikely\t0x10\n"); printf("#define ATTR_FLAG_very_unlikely\t0x20\n"); puts("\n#endif /* GCC_INSN_ATTR_H */"); if (ferror (stdout) || fflush (stdout) || fclose (stdout)) return FATAL_EXIT_CODE; return SUCCESS_EXIT_CODE; } /* Define this so we can link with print-rtl.o to get debug_rtx function. */ const char * get_insn_name (code) int code ATTRIBUTE_UNUSED; { return NULL; }