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|
/* Expand builtin functions.
Copyright (C) 1988, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
2000, 2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
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 "config.h"
#include "system.h"
#include "coretypes.h"
#include "tm.h"
#include "machmode.h"
#include "real.h"
#include "rtl.h"
#include "tree.h"
#include "tree-gimple.h"
#include "flags.h"
#include "regs.h"
#include "hard-reg-set.h"
#include "except.h"
#include "function.h"
#include "insn-config.h"
#include "expr.h"
#include "optabs.h"
#include "libfuncs.h"
#include "recog.h"
#include "output.h"
#include "typeclass.h"
#include "toplev.h"
#include "predict.h"
#include "tm_p.h"
#include "target.h"
#include "langhooks.h"
#include "basic-block.h"
#include "tree-mudflap.h"
#define CALLED_AS_BUILT_IN(NODE) \
(!strncmp (IDENTIFIER_POINTER (DECL_NAME (NODE)), "__builtin_", 10))
#ifndef PAD_VARARGS_DOWN
#define PAD_VARARGS_DOWN BYTES_BIG_ENDIAN
#endif
/* Define the names of the builtin function types and codes. */
const char *const built_in_class_names[4]
= {"NOT_BUILT_IN", "BUILT_IN_FRONTEND", "BUILT_IN_MD", "BUILT_IN_NORMAL"};
#define DEF_BUILTIN(X, N, C, T, LT, B, F, NA, AT, IM, COND) #X,
const char * built_in_names[(int) END_BUILTINS] =
{
#include "builtins.def"
};
#undef DEF_BUILTIN
/* Setup an array of _DECL trees, make sure each element is
initialized to NULL_TREE. */
tree built_in_decls[(int) END_BUILTINS];
/* Declarations used when constructing the builtin implicitly in the compiler.
It may be NULL_TREE when this is invalid (for instance runtime is not
required to implement the function call in all cases). */
tree implicit_built_in_decls[(int) END_BUILTINS];
static int get_pointer_alignment (tree, unsigned int);
static const char *c_getstr (tree);
static rtx c_readstr (const char *, enum machine_mode);
static int target_char_cast (tree, char *);
static rtx get_memory_rtx (tree);
static tree build_string_literal (int, const char *);
static int apply_args_size (void);
static int apply_result_size (void);
#if defined (HAVE_untyped_call) || defined (HAVE_untyped_return)
static rtx result_vector (int, rtx);
#endif
static rtx expand_builtin_setjmp (tree, rtx);
static void expand_builtin_update_setjmp_buf (rtx);
static void expand_builtin_prefetch (tree);
static rtx expand_builtin_apply_args (void);
static rtx expand_builtin_apply_args_1 (void);
static rtx expand_builtin_apply (rtx, rtx, rtx);
static void expand_builtin_return (rtx);
static enum type_class type_to_class (tree);
static rtx expand_builtin_classify_type (tree);
static void expand_errno_check (tree, rtx);
static rtx expand_builtin_mathfn (tree, rtx, rtx);
static rtx expand_builtin_mathfn_2 (tree, rtx, rtx);
static rtx expand_builtin_mathfn_3 (tree, rtx, rtx);
static rtx expand_builtin_int_roundingfn (tree, rtx, rtx);
static rtx expand_builtin_args_info (tree);
static rtx expand_builtin_next_arg (void);
static rtx expand_builtin_va_start (tree);
static rtx expand_builtin_va_end (tree);
static rtx expand_builtin_va_copy (tree);
static rtx expand_builtin_memcmp (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_strcmp (tree, rtx, enum machine_mode);
static rtx expand_builtin_strncmp (tree, rtx, enum machine_mode);
static rtx builtin_memcpy_read_str (void *, HOST_WIDE_INT, enum machine_mode);
static rtx expand_builtin_strcat (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_strncat (tree, rtx, enum machine_mode);
static rtx expand_builtin_strspn (tree, rtx, enum machine_mode);
static rtx expand_builtin_strcspn (tree, rtx, enum machine_mode);
static rtx expand_builtin_memcpy (tree, rtx, enum machine_mode);
static rtx expand_builtin_mempcpy (tree, tree, rtx, enum machine_mode, int);
static rtx expand_builtin_memmove (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_bcopy (tree, tree);
static rtx expand_builtin_strcpy (tree, rtx, enum machine_mode);
static rtx expand_builtin_stpcpy (tree, rtx, enum machine_mode);
static rtx builtin_strncpy_read_str (void *, HOST_WIDE_INT, enum machine_mode);
static rtx expand_builtin_strncpy (tree, rtx, enum machine_mode);
static rtx builtin_memset_read_str (void *, HOST_WIDE_INT, enum machine_mode);
static rtx builtin_memset_gen_str (void *, HOST_WIDE_INT, enum machine_mode);
static rtx expand_builtin_memset (tree, rtx, enum machine_mode);
static rtx expand_builtin_bzero (tree);
static rtx expand_builtin_strlen (tree, rtx, enum machine_mode);
static rtx expand_builtin_strstr (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_strpbrk (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_strchr (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_strrchr (tree, tree, rtx, enum machine_mode);
static rtx expand_builtin_alloca (tree, rtx);
static rtx expand_builtin_unop (enum machine_mode, tree, rtx, rtx, optab);
static rtx expand_builtin_frame_address (tree, tree);
static rtx expand_builtin_fputs (tree, rtx, bool);
static rtx expand_builtin_printf (tree, rtx, enum machine_mode, bool);
static rtx expand_builtin_fprintf (tree, rtx, enum machine_mode, bool);
static rtx expand_builtin_sprintf (tree, rtx, enum machine_mode);
static tree stabilize_va_list (tree, int);
static rtx expand_builtin_expect (tree, rtx);
static tree fold_builtin_constant_p (tree);
static tree fold_builtin_classify_type (tree);
static tree fold_builtin_strlen (tree);
static tree fold_builtin_inf (tree, int);
static tree fold_builtin_nan (tree, tree, int);
static int validate_arglist (tree, ...);
static bool integer_valued_real_p (tree);
static tree fold_trunc_transparent_mathfn (tree, tree);
static bool readonly_data_expr (tree);
static rtx expand_builtin_fabs (tree, rtx, rtx);
static rtx expand_builtin_signbit (tree, rtx);
static tree fold_builtin_cabs (tree, tree);
static tree fold_builtin_sqrt (tree, tree);
static tree fold_builtin_cbrt (tree, tree);
static tree fold_builtin_pow (tree, tree, tree);
static tree fold_builtin_powi (tree, tree, tree);
static tree fold_builtin_sin (tree);
static tree fold_builtin_cos (tree, tree, tree);
static tree fold_builtin_tan (tree);
static tree fold_builtin_atan (tree, tree);
static tree fold_builtin_trunc (tree, tree);
static tree fold_builtin_floor (tree, tree);
static tree fold_builtin_ceil (tree, tree);
static tree fold_builtin_round (tree, tree);
static tree fold_builtin_int_roundingfn (tree, tree);
static tree fold_builtin_bitop (tree, tree);
static tree fold_builtin_memcpy (tree, tree);
static tree fold_builtin_mempcpy (tree, tree, int);
static tree fold_builtin_memmove (tree, tree);
static tree fold_builtin_strchr (tree, tree);
static tree fold_builtin_memcmp (tree);
static tree fold_builtin_strcmp (tree);
static tree fold_builtin_strncmp (tree);
static tree fold_builtin_signbit (tree, tree);
static tree fold_builtin_copysign (tree, tree, tree);
static tree fold_builtin_isascii (tree);
static tree fold_builtin_toascii (tree);
static tree fold_builtin_isdigit (tree);
static tree fold_builtin_fabs (tree, tree);
static tree fold_builtin_abs (tree, tree);
static tree fold_builtin_unordered_cmp (tree, tree, enum tree_code,
enum tree_code);
static tree fold_builtin_1 (tree, tree, bool);
static tree fold_builtin_strpbrk (tree, tree);
static tree fold_builtin_strstr (tree, tree);
static tree fold_builtin_strrchr (tree, tree);
static tree fold_builtin_strcat (tree);
static tree fold_builtin_strncat (tree);
static tree fold_builtin_strspn (tree);
static tree fold_builtin_strcspn (tree);
static tree fold_builtin_sprintf (tree, int);
/* Return the alignment in bits of EXP, a pointer valued expression.
But don't return more than MAX_ALIGN no matter what.
The alignment returned is, by default, the alignment of the thing that
EXP points to. If it is not a POINTER_TYPE, 0 is returned.
Otherwise, look at the expression to see if we can do better, i.e., if the
expression is actually pointing at an object whose alignment is tighter. */
static int
get_pointer_alignment (tree exp, unsigned int max_align)
{
unsigned int align, inner;
if (! POINTER_TYPE_P (TREE_TYPE (exp)))
return 0;
align = TYPE_ALIGN (TREE_TYPE (TREE_TYPE (exp)));
align = MIN (align, max_align);
while (1)
{
switch (TREE_CODE (exp))
{
case NOP_EXPR:
case CONVERT_EXPR:
case NON_LVALUE_EXPR:
exp = TREE_OPERAND (exp, 0);
if (! POINTER_TYPE_P (TREE_TYPE (exp)))
return align;
inner = TYPE_ALIGN (TREE_TYPE (TREE_TYPE (exp)));
align = MIN (inner, max_align);
break;
case PLUS_EXPR:
/* If sum of pointer + int, restrict our maximum alignment to that
imposed by the integer. If not, we can't do any better than
ALIGN. */
if (! host_integerp (TREE_OPERAND (exp, 1), 1))
return align;
while (((tree_low_cst (TREE_OPERAND (exp, 1), 1))
& (max_align / BITS_PER_UNIT - 1))
!= 0)
max_align >>= 1;
exp = TREE_OPERAND (exp, 0);
break;
case ADDR_EXPR:
/* See what we are pointing at and look at its alignment. */
exp = TREE_OPERAND (exp, 0);
if (TREE_CODE (exp) == FUNCTION_DECL)
align = FUNCTION_BOUNDARY;
else if (DECL_P (exp))
align = DECL_ALIGN (exp);
#ifdef CONSTANT_ALIGNMENT
else if (CONSTANT_CLASS_P (exp))
align = CONSTANT_ALIGNMENT (exp, align);
#endif
return MIN (align, max_align);
default:
return align;
}
}
}
/* Compute the length of a C string. TREE_STRING_LENGTH is not the right
way, because it could contain a zero byte in the middle.
TREE_STRING_LENGTH is the size of the character array, not the string.
ONLY_VALUE should be nonzero if the result is not going to be emitted
into the instruction stream and zero if it is going to be expanded.
E.g. with i++ ? "foo" : "bar", if ONLY_VALUE is nonzero, constant 3
is returned, otherwise NULL, since
len = c_strlen (src, 1); if (len) expand_expr (len, ...); would not
evaluate the side-effects.
The value returned is of type `ssizetype'.
Unfortunately, string_constant can't access the values of const char
arrays with initializers, so neither can we do so here. */
tree
c_strlen (tree src, int only_value)
{
tree offset_node;
HOST_WIDE_INT offset;
int max;
const char *ptr;
STRIP_NOPS (src);
if (TREE_CODE (src) == COND_EXPR
&& (only_value || !TREE_SIDE_EFFECTS (TREE_OPERAND (src, 0))))
{
tree len1, len2;
len1 = c_strlen (TREE_OPERAND (src, 1), only_value);
len2 = c_strlen (TREE_OPERAND (src, 2), only_value);
if (tree_int_cst_equal (len1, len2))
return len1;
}
if (TREE_CODE (src) == COMPOUND_EXPR
&& (only_value || !TREE_SIDE_EFFECTS (TREE_OPERAND (src, 0))))
return c_strlen (TREE_OPERAND (src, 1), only_value);
src = string_constant (src, &offset_node);
if (src == 0)
return 0;
max = TREE_STRING_LENGTH (src) - 1;
ptr = TREE_STRING_POINTER (src);
if (offset_node && TREE_CODE (offset_node) != INTEGER_CST)
{
/* If the string has an internal zero byte (e.g., "foo\0bar"), we can't
compute the offset to the following null if we don't know where to
start searching for it. */
int i;
for (i = 0; i < max; i++)
if (ptr[i] == 0)
return 0;
/* We don't know the starting offset, but we do know that the string
has no internal zero bytes. We can assume that the offset falls
within the bounds of the string; otherwise, the programmer deserves
what he gets. Subtract the offset from the length of the string,
and return that. This would perhaps not be valid if we were dealing
with named arrays in addition to literal string constants. */
return size_diffop (size_int (max), offset_node);
}
/* We have a known offset into the string. Start searching there for
a null character if we can represent it as a single HOST_WIDE_INT. */
if (offset_node == 0)
offset = 0;
else if (! host_integerp (offset_node, 0))
offset = -1;
else
offset = tree_low_cst (offset_node, 0);
/* If the offset is known to be out of bounds, warn, and call strlen at
runtime. */
if (offset < 0 || offset > max)
{
warning ("offset outside bounds of constant string");
return 0;
}
/* Use strlen to search for the first zero byte. Since any strings
constructed with build_string will have nulls appended, we win even
if we get handed something like (char[4])"abcd".
Since OFFSET is our starting index into the string, no further
calculation is needed. */
return ssize_int (strlen (ptr + offset));
}
/* Return a char pointer for a C string if it is a string constant
or sum of string constant and integer constant. */
static const char *
c_getstr (tree src)
{
tree offset_node;
src = string_constant (src, &offset_node);
if (src == 0)
return 0;
if (offset_node == 0)
return TREE_STRING_POINTER (src);
else if (!host_integerp (offset_node, 1)
|| compare_tree_int (offset_node, TREE_STRING_LENGTH (src) - 1) > 0)
return 0;
return TREE_STRING_POINTER (src) + tree_low_cst (offset_node, 1);
}
/* Return a CONST_INT or CONST_DOUBLE corresponding to target reading
GET_MODE_BITSIZE (MODE) bits from string constant STR. */
static rtx
c_readstr (const char *str, enum machine_mode mode)
{
HOST_WIDE_INT c[2];
HOST_WIDE_INT ch;
unsigned int i, j;
gcc_assert (GET_MODE_CLASS (mode) == MODE_INT);
c[0] = 0;
c[1] = 0;
ch = 1;
for (i = 0; i < GET_MODE_SIZE (mode); i++)
{
j = i;
if (WORDS_BIG_ENDIAN)
j = GET_MODE_SIZE (mode) - i - 1;
if (BYTES_BIG_ENDIAN != WORDS_BIG_ENDIAN
&& GET_MODE_SIZE (mode) > UNITS_PER_WORD)
j = j + UNITS_PER_WORD - 2 * (j % UNITS_PER_WORD) - 1;
j *= BITS_PER_UNIT;
gcc_assert (j <= 2 * HOST_BITS_PER_WIDE_INT);
if (ch)
ch = (unsigned char) str[i];
c[j / HOST_BITS_PER_WIDE_INT] |= ch << (j % HOST_BITS_PER_WIDE_INT);
}
return immed_double_const (c[0], c[1], mode);
}
/* Cast a target constant CST to target CHAR and if that value fits into
host char type, return zero and put that value into variable pointed by
P. */
static int
target_char_cast (tree cst, char *p)
{
unsigned HOST_WIDE_INT val, hostval;
if (!host_integerp (cst, 1)
|| CHAR_TYPE_SIZE > HOST_BITS_PER_WIDE_INT)
return 1;
val = tree_low_cst (cst, 1);
if (CHAR_TYPE_SIZE < HOST_BITS_PER_WIDE_INT)
val &= (((unsigned HOST_WIDE_INT) 1) << CHAR_TYPE_SIZE) - 1;
hostval = val;
if (HOST_BITS_PER_CHAR < HOST_BITS_PER_WIDE_INT)
hostval &= (((unsigned HOST_WIDE_INT) 1) << HOST_BITS_PER_CHAR) - 1;
if (val != hostval)
return 1;
*p = hostval;
return 0;
}
/* Similar to save_expr, but assumes that arbitrary code is not executed
in between the multiple evaluations. In particular, we assume that a
non-addressable local variable will not be modified. */
static tree
builtin_save_expr (tree exp)
{
if (TREE_ADDRESSABLE (exp) == 0
&& (TREE_CODE (exp) == PARM_DECL
|| (TREE_CODE (exp) == VAR_DECL && !TREE_STATIC (exp))))
return exp;
return save_expr (exp);
}
/* Given TEM, a pointer to a stack frame, follow the dynamic chain COUNT
times to get the address of either a higher stack frame, or a return
address located within it (depending on FNDECL_CODE). */
static rtx
expand_builtin_return_addr (enum built_in_function fndecl_code, int count)
{
int i;
#ifdef INITIAL_FRAME_ADDRESS_RTX
rtx tem = INITIAL_FRAME_ADDRESS_RTX;
#else
rtx tem = hard_frame_pointer_rtx;
#endif
/* Some machines need special handling before we can access
arbitrary frames. For example, on the sparc, we must first flush
all register windows to the stack. */
#ifdef SETUP_FRAME_ADDRESSES
if (count > 0)
SETUP_FRAME_ADDRESSES ();
#endif
/* On the sparc, the return address is not in the frame, it is in a
register. There is no way to access it off of the current frame
pointer, but it can be accessed off the previous frame pointer by
reading the value from the register window save area. */
#ifdef RETURN_ADDR_IN_PREVIOUS_FRAME
if (fndecl_code == BUILT_IN_RETURN_ADDRESS)
count--;
#endif
/* Scan back COUNT frames to the specified frame. */
for (i = 0; i < count; i++)
{
/* Assume the dynamic chain pointer is in the word that the
frame address points to, unless otherwise specified. */
#ifdef DYNAMIC_CHAIN_ADDRESS
tem = DYNAMIC_CHAIN_ADDRESS (tem);
#endif
tem = memory_address (Pmode, tem);
tem = gen_rtx_MEM (Pmode, tem);
set_mem_alias_set (tem, get_frame_alias_set ());
tem = copy_to_reg (tem);
}
/* For __builtin_frame_address, return what we've got. */
if (fndecl_code == BUILT_IN_FRAME_ADDRESS)
return tem;
/* For __builtin_return_address, Get the return address from that
frame. */
#ifdef RETURN_ADDR_RTX
tem = RETURN_ADDR_RTX (count, tem);
#else
tem = memory_address (Pmode,
plus_constant (tem, GET_MODE_SIZE (Pmode)));
tem = gen_rtx_MEM (Pmode, tem);
set_mem_alias_set (tem, get_frame_alias_set ());
#endif
return tem;
}
/* Alias set used for setjmp buffer. */
static HOST_WIDE_INT setjmp_alias_set = -1;
/* Construct the leading half of a __builtin_setjmp call. Control will
return to RECEIVER_LABEL. This is used directly by sjlj exception
handling code. */
void
expand_builtin_setjmp_setup (rtx buf_addr, rtx receiver_label)
{
enum machine_mode sa_mode = STACK_SAVEAREA_MODE (SAVE_NONLOCAL);
rtx stack_save;
rtx mem;
if (setjmp_alias_set == -1)
setjmp_alias_set = new_alias_set ();
buf_addr = convert_memory_address (Pmode, buf_addr);
buf_addr = force_reg (Pmode, force_operand (buf_addr, NULL_RTX));
/* We store the frame pointer and the address of receiver_label in
the buffer and use the rest of it for the stack save area, which
is machine-dependent. */
mem = gen_rtx_MEM (Pmode, buf_addr);
set_mem_alias_set (mem, setjmp_alias_set);
emit_move_insn (mem, targetm.builtin_setjmp_frame_value ());
mem = gen_rtx_MEM (Pmode, plus_constant (buf_addr, GET_MODE_SIZE (Pmode))),
set_mem_alias_set (mem, setjmp_alias_set);
emit_move_insn (validize_mem (mem),
force_reg (Pmode, gen_rtx_LABEL_REF (Pmode, receiver_label)));
stack_save = gen_rtx_MEM (sa_mode,
plus_constant (buf_addr,
2 * GET_MODE_SIZE (Pmode)));
set_mem_alias_set (stack_save, setjmp_alias_set);
emit_stack_save (SAVE_NONLOCAL, &stack_save, NULL_RTX);
/* If there is further processing to do, do it. */
#ifdef HAVE_builtin_setjmp_setup
if (HAVE_builtin_setjmp_setup)
emit_insn (gen_builtin_setjmp_setup (buf_addr));
#endif
/* Tell optimize_save_area_alloca that extra work is going to
need to go on during alloca. */
current_function_calls_setjmp = 1;
/* Set this so all the registers get saved in our frame; we need to be
able to copy the saved values for any registers from frames we unwind. */
current_function_has_nonlocal_label = 1;
}
/* Construct the trailing part of a __builtin_setjmp call.
This is used directly by sjlj exception handling code. */
void
expand_builtin_setjmp_receiver (rtx receiver_label ATTRIBUTE_UNUSED)
{
/* Clobber the FP when we get here, so we have to make sure it's
marked as used by this function. */
emit_insn (gen_rtx_USE (VOIDmode, hard_frame_pointer_rtx));
/* Mark the static chain as clobbered here so life information
doesn't get messed up for it. */
emit_insn (gen_rtx_CLOBBER (VOIDmode, static_chain_rtx));
/* Now put in the code to restore the frame pointer, and argument
pointer, if needed. */
#ifdef HAVE_nonlocal_goto
if (! HAVE_nonlocal_goto)
#endif
emit_move_insn (virtual_stack_vars_rtx, hard_frame_pointer_rtx);
#if ARG_POINTER_REGNUM != HARD_FRAME_POINTER_REGNUM
if (fixed_regs[ARG_POINTER_REGNUM])
{
#ifdef ELIMINABLE_REGS
size_t i;
static const struct elims {const int from, to;} elim_regs[] = ELIMINABLE_REGS;
for (i = 0; i < ARRAY_SIZE (elim_regs); i++)
if (elim_regs[i].from == ARG_POINTER_REGNUM
&& elim_regs[i].to == HARD_FRAME_POINTER_REGNUM)
break;
if (i == ARRAY_SIZE (elim_regs))
#endif
{
/* Now restore our arg pointer from the address at which it
was saved in our stack frame. */
emit_move_insn (virtual_incoming_args_rtx,
copy_to_reg (get_arg_pointer_save_area (cfun)));
}
}
#endif
#ifdef HAVE_builtin_setjmp_receiver
if (HAVE_builtin_setjmp_receiver)
emit_insn (gen_builtin_setjmp_receiver (receiver_label));
else
#endif
#ifdef HAVE_nonlocal_goto_receiver
if (HAVE_nonlocal_goto_receiver)
emit_insn (gen_nonlocal_goto_receiver ());
else
#endif
{ /* Nothing */ }
/* @@@ This is a kludge. Not all machine descriptions define a blockage
insn, but we must not allow the code we just generated to be reordered
by scheduling. Specifically, the update of the frame pointer must
happen immediately, not later. So emit an ASM_INPUT to act as blockage
insn. */
emit_insn (gen_rtx_ASM_INPUT (VOIDmode, ""));
}
/* __builtin_setjmp is passed a pointer to an array of five words (not
all will be used on all machines). It operates similarly to the C
library function of the same name, but is more efficient. Much of
the code below (and for longjmp) is copied from the handling of
non-local gotos.
NOTE: This is intended for use by GNAT and the exception handling
scheme in the compiler and will only work in the method used by
them. */
static rtx
expand_builtin_setjmp (tree arglist, rtx target)
{
rtx buf_addr, next_lab, cont_lab;
if (!validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
return NULL_RTX;
if (target == 0 || !REG_P (target)
|| REGNO (target) < FIRST_PSEUDO_REGISTER)
target = gen_reg_rtx (TYPE_MODE (integer_type_node));
buf_addr = expand_expr (TREE_VALUE (arglist), NULL_RTX, VOIDmode, 0);
next_lab = gen_label_rtx ();
cont_lab = gen_label_rtx ();
expand_builtin_setjmp_setup (buf_addr, next_lab);
/* Set TARGET to zero and branch to the continue label. Use emit_jump to
ensure that pending stack adjustments are flushed. */
emit_move_insn (target, const0_rtx);
emit_jump (cont_lab);
emit_label (next_lab);
expand_builtin_setjmp_receiver (next_lab);
/* Set TARGET to one. */
emit_move_insn (target, const1_rtx);
emit_label (cont_lab);
/* Tell flow about the strange goings on. Putting `next_lab' on
`nonlocal_goto_handler_labels' to indicates that function
calls may traverse the arc back to this label. */
current_function_has_nonlocal_label = 1;
nonlocal_goto_handler_labels
= gen_rtx_EXPR_LIST (VOIDmode, next_lab, nonlocal_goto_handler_labels);
return target;
}
/* __builtin_longjmp is passed a pointer to an array of five words (not
all will be used on all machines). It operates similarly to the C
library function of the same name, but is more efficient. Much of
the code below is copied from the handling of non-local gotos.
NOTE: This is intended for use by GNAT and the exception handling
scheme in the compiler and will only work in the method used by
them. */
static void
expand_builtin_longjmp (rtx buf_addr, rtx value)
{
rtx fp, lab, stack, insn, last;
enum machine_mode sa_mode = STACK_SAVEAREA_MODE (SAVE_NONLOCAL);
if (setjmp_alias_set == -1)
setjmp_alias_set = new_alias_set ();
buf_addr = convert_memory_address (Pmode, buf_addr);
buf_addr = force_reg (Pmode, buf_addr);
/* We used to store value in static_chain_rtx, but that fails if pointers
are smaller than integers. We instead require that the user must pass
a second argument of 1, because that is what builtin_setjmp will
return. This also makes EH slightly more efficient, since we are no
longer copying around a value that we don't care about. */
gcc_assert (value == const1_rtx);
last = get_last_insn ();
#ifdef HAVE_builtin_longjmp
if (HAVE_builtin_longjmp)
emit_insn (gen_builtin_longjmp (buf_addr));
else
#endif
{
fp = gen_rtx_MEM (Pmode, buf_addr);
lab = gen_rtx_MEM (Pmode, plus_constant (buf_addr,
GET_MODE_SIZE (Pmode)));
stack = gen_rtx_MEM (sa_mode, plus_constant (buf_addr,
2 * GET_MODE_SIZE (Pmode)));
set_mem_alias_set (fp, setjmp_alias_set);
set_mem_alias_set (lab, setjmp_alias_set);
set_mem_alias_set (stack, setjmp_alias_set);
/* Pick up FP, label, and SP from the block and jump. This code is
from expand_goto in stmt.c; see there for detailed comments. */
#if HAVE_nonlocal_goto
if (HAVE_nonlocal_goto)
/* We have to pass a value to the nonlocal_goto pattern that will
get copied into the static_chain pointer, but it does not matter
what that value is, because builtin_setjmp does not use it. */
emit_insn (gen_nonlocal_goto (value, lab, stack, fp));
else
#endif
{
lab = copy_to_reg (lab);
emit_insn (gen_rtx_CLOBBER (VOIDmode,
gen_rtx_MEM (BLKmode,
gen_rtx_SCRATCH (VOIDmode))));
emit_insn (gen_rtx_CLOBBER (VOIDmode,
gen_rtx_MEM (BLKmode,
hard_frame_pointer_rtx)));
emit_move_insn (hard_frame_pointer_rtx, fp);
emit_stack_restore (SAVE_NONLOCAL, stack, NULL_RTX);
emit_insn (gen_rtx_USE (VOIDmode, hard_frame_pointer_rtx));
emit_insn (gen_rtx_USE (VOIDmode, stack_pointer_rtx));
emit_indirect_jump (lab);
}
}
/* Search backwards and mark the jump insn as a non-local goto.
Note that this precludes the use of __builtin_longjmp to a
__builtin_setjmp target in the same function. However, we've
already cautioned the user that these functions are for
internal exception handling use only. */
for (insn = get_last_insn (); insn; insn = PREV_INSN (insn))
{
gcc_assert (insn != last);
if (JUMP_P (insn))
{
REG_NOTES (insn) = alloc_EXPR_LIST (REG_NON_LOCAL_GOTO, const0_rtx,
REG_NOTES (insn));
break;
}
else if (CALL_P (insn))
break;
}
}
/* Expand a call to __builtin_nonlocal_goto. We're passed the target label
and the address of the save area. */
static rtx
expand_builtin_nonlocal_goto (tree arglist)
{
tree t_label, t_save_area;
rtx r_label, r_save_area, r_fp, r_sp, insn;
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return NULL_RTX;
t_label = TREE_VALUE (arglist);
arglist = TREE_CHAIN (arglist);
t_save_area = TREE_VALUE (arglist);
r_label = expand_expr (t_label, NULL_RTX, VOIDmode, 0);
r_label = convert_memory_address (Pmode, r_label);
r_save_area = expand_expr (t_save_area, NULL_RTX, VOIDmode, 0);
r_save_area = convert_memory_address (Pmode, r_save_area);
r_fp = gen_rtx_MEM (Pmode, r_save_area);
r_sp = gen_rtx_MEM (STACK_SAVEAREA_MODE (SAVE_NONLOCAL),
plus_constant (r_save_area, GET_MODE_SIZE (Pmode)));
current_function_has_nonlocal_goto = 1;
#if HAVE_nonlocal_goto
/* ??? We no longer need to pass the static chain value, afaik. */
if (HAVE_nonlocal_goto)
emit_insn (gen_nonlocal_goto (const0_rtx, r_label, r_sp, r_fp));
else
#endif
{
r_label = copy_to_reg (r_label);
emit_insn (gen_rtx_CLOBBER (VOIDmode,
gen_rtx_MEM (BLKmode,
gen_rtx_SCRATCH (VOIDmode))));
emit_insn (gen_rtx_CLOBBER (VOIDmode,
gen_rtx_MEM (BLKmode,
hard_frame_pointer_rtx)));
/* Restore frame pointer for containing function.
This sets the actual hard register used for the frame pointer
to the location of the function's incoming static chain info.
The non-local goto handler will then adjust it to contain the
proper value and reload the argument pointer, if needed. */
emit_move_insn (hard_frame_pointer_rtx, r_fp);
emit_stack_restore (SAVE_NONLOCAL, r_sp, NULL_RTX);
/* USE of hard_frame_pointer_rtx added for consistency;
not clear if really needed. */
emit_insn (gen_rtx_USE (VOIDmode, hard_frame_pointer_rtx));
emit_insn (gen_rtx_USE (VOIDmode, stack_pointer_rtx));
emit_indirect_jump (r_label);
}
/* Search backwards to the jump insn and mark it as a
non-local goto. */
for (insn = get_last_insn (); insn; insn = PREV_INSN (insn))
{
if (JUMP_P (insn))
{
REG_NOTES (insn) = alloc_EXPR_LIST (REG_NON_LOCAL_GOTO,
const0_rtx, REG_NOTES (insn));
break;
}
else if (CALL_P (insn))
break;
}
return const0_rtx;
}
/* __builtin_update_setjmp_buf is passed a pointer to an array of five words
(not all will be used on all machines) that was passed to __builtin_setjmp.
It updates the stack pointer in that block to correspond to the current
stack pointer. */
static void
expand_builtin_update_setjmp_buf (rtx buf_addr)
{
enum machine_mode sa_mode = Pmode;
rtx stack_save;
#ifdef HAVE_save_stack_nonlocal
if (HAVE_save_stack_nonlocal)
sa_mode = insn_data[(int) CODE_FOR_save_stack_nonlocal].operand[0].mode;
#endif
#ifdef STACK_SAVEAREA_MODE
sa_mode = STACK_SAVEAREA_MODE (SAVE_NONLOCAL);
#endif
stack_save
= gen_rtx_MEM (sa_mode,
memory_address
(sa_mode,
plus_constant (buf_addr, 2 * GET_MODE_SIZE (Pmode))));
#ifdef HAVE_setjmp
if (HAVE_setjmp)
emit_insn (gen_setjmp ());
#endif
emit_stack_save (SAVE_NONLOCAL, &stack_save, NULL_RTX);
}
/* Expand a call to __builtin_prefetch. For a target that does not support
data prefetch, evaluate the memory address argument in case it has side
effects. */
static void
expand_builtin_prefetch (tree arglist)
{
tree arg0, arg1, arg2;
rtx op0, op1, op2;
if (!validate_arglist (arglist, POINTER_TYPE, 0))
return;
arg0 = TREE_VALUE (arglist);
/* Arguments 1 and 2 are optional; argument 1 (read/write) defaults to
zero (read) and argument 2 (locality) defaults to 3 (high degree of
locality). */
if (TREE_CHAIN (arglist))
{
arg1 = TREE_VALUE (TREE_CHAIN (arglist));
if (TREE_CHAIN (TREE_CHAIN (arglist)))
arg2 = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
else
arg2 = build_int_cst (NULL_TREE, 3);
}
else
{
arg1 = integer_zero_node;
arg2 = build_int_cst (NULL_TREE, 3);
}
/* Argument 0 is an address. */
op0 = expand_expr (arg0, NULL_RTX, Pmode, EXPAND_NORMAL);
/* Argument 1 (read/write flag) must be a compile-time constant int. */
if (TREE_CODE (arg1) != INTEGER_CST)
{
error ("second argument to %<__builtin_prefetch%> must be a constant");
arg1 = integer_zero_node;
}
op1 = expand_expr (arg1, NULL_RTX, VOIDmode, 0);
/* Argument 1 must be either zero or one. */
if (INTVAL (op1) != 0 && INTVAL (op1) != 1)
{
warning ("invalid second argument to %<__builtin_prefetch%>;"
" using zero");
op1 = const0_rtx;
}
/* Argument 2 (locality) must be a compile-time constant int. */
if (TREE_CODE (arg2) != INTEGER_CST)
{
error ("third argument to %<__builtin_prefetch%> must be a constant");
arg2 = integer_zero_node;
}
op2 = expand_expr (arg2, NULL_RTX, VOIDmode, 0);
/* Argument 2 must be 0, 1, 2, or 3. */
if (INTVAL (op2) < 0 || INTVAL (op2) > 3)
{
warning ("invalid third argument to %<__builtin_prefetch%>; using zero");
op2 = const0_rtx;
}
#ifdef HAVE_prefetch
if (HAVE_prefetch)
{
if ((! (*insn_data[(int) CODE_FOR_prefetch].operand[0].predicate)
(op0,
insn_data[(int) CODE_FOR_prefetch].operand[0].mode))
|| (GET_MODE (op0) != Pmode))
{
op0 = convert_memory_address (Pmode, op0);
op0 = force_reg (Pmode, op0);
}
emit_insn (gen_prefetch (op0, op1, op2));
}
#endif
/* Don't do anything with direct references to volatile memory, but
generate code to handle other side effects. */
if (!MEM_P (op0) && side_effects_p (op0))
emit_insn (op0);
}
/* Get a MEM rtx for expression EXP which is the address of an operand
to be used to be used in a string instruction (cmpstrsi, movmemsi, ..). */
static rtx
get_memory_rtx (tree exp)
{
rtx addr = expand_expr (exp, NULL_RTX, ptr_mode, EXPAND_NORMAL);
rtx mem = gen_rtx_MEM (BLKmode, memory_address (BLKmode, addr));
/* Get an expression we can use to find the attributes to assign to MEM.
If it is an ADDR_EXPR, use the operand. Otherwise, dereference it if
we can. First remove any nops. */
while ((TREE_CODE (exp) == NOP_EXPR || TREE_CODE (exp) == CONVERT_EXPR
|| TREE_CODE (exp) == NON_LVALUE_EXPR)
&& POINTER_TYPE_P (TREE_TYPE (TREE_OPERAND (exp, 0))))
exp = TREE_OPERAND (exp, 0);
if (TREE_CODE (exp) == ADDR_EXPR)
exp = TREE_OPERAND (exp, 0);
else if (POINTER_TYPE_P (TREE_TYPE (exp)))
exp = build1 (INDIRECT_REF, TREE_TYPE (TREE_TYPE (exp)), exp);
else
exp = NULL;
/* Honor attributes derived from exp, except for the alias set
(as builtin stringops may alias with anything) and the size
(as stringops may access multiple array elements). */
if (exp)
{
set_mem_attributes (mem, exp, 0);
set_mem_alias_set (mem, 0);
set_mem_size (mem, NULL_RTX);
}
return mem;
}
/* Built-in functions to perform an untyped call and return. */
/* For each register that may be used for calling a function, this
gives a mode used to copy the register's value. VOIDmode indicates
the register is not used for calling a function. If the machine
has register windows, this gives only the outbound registers.
INCOMING_REGNO gives the corresponding inbound register. */
static enum machine_mode apply_args_mode[FIRST_PSEUDO_REGISTER];
/* For each register that may be used for returning values, this gives
a mode used to copy the register's value. VOIDmode indicates the
register is not used for returning values. If the machine has
register windows, this gives only the outbound registers.
INCOMING_REGNO gives the corresponding inbound register. */
static enum machine_mode apply_result_mode[FIRST_PSEUDO_REGISTER];
/* For each register that may be used for calling a function, this
gives the offset of that register into the block returned by
__builtin_apply_args. 0 indicates that the register is not
used for calling a function. */
static int apply_args_reg_offset[FIRST_PSEUDO_REGISTER];
/* Return the size required for the block returned by __builtin_apply_args,
and initialize apply_args_mode. */
static int
apply_args_size (void)
{
static int size = -1;
int align;
unsigned int regno;
enum machine_mode mode;
/* The values computed by this function never change. */
if (size < 0)
{
/* The first value is the incoming arg-pointer. */
size = GET_MODE_SIZE (Pmode);
/* The second value is the structure value address unless this is
passed as an "invisible" first argument. */
if (targetm.calls.struct_value_rtx (cfun ? TREE_TYPE (cfun->decl) : 0, 0))
size += GET_MODE_SIZE (Pmode);
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if (FUNCTION_ARG_REGNO_P (regno))
{
mode = reg_raw_mode[regno];
gcc_assert (mode != VOIDmode);
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
apply_args_reg_offset[regno] = size;
size += GET_MODE_SIZE (mode);
apply_args_mode[regno] = mode;
}
else
{
apply_args_mode[regno] = VOIDmode;
apply_args_reg_offset[regno] = 0;
}
}
return size;
}
/* Return the size required for the block returned by __builtin_apply,
and initialize apply_result_mode. */
static int
apply_result_size (void)
{
static int size = -1;
int align, regno;
enum machine_mode mode;
/* The values computed by this function never change. */
if (size < 0)
{
size = 0;
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if (FUNCTION_VALUE_REGNO_P (regno))
{
mode = reg_raw_mode[regno];
gcc_assert (mode != VOIDmode);
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
size += GET_MODE_SIZE (mode);
apply_result_mode[regno] = mode;
}
else
apply_result_mode[regno] = VOIDmode;
/* Allow targets that use untyped_call and untyped_return to override
the size so that machine-specific information can be stored here. */
#ifdef APPLY_RESULT_SIZE
size = APPLY_RESULT_SIZE;
#endif
}
return size;
}
#if defined (HAVE_untyped_call) || defined (HAVE_untyped_return)
/* Create a vector describing the result block RESULT. If SAVEP is true,
the result block is used to save the values; otherwise it is used to
restore the values. */
static rtx
result_vector (int savep, rtx result)
{
int regno, size, align, nelts;
enum machine_mode mode;
rtx reg, mem;
rtx *savevec = alloca (FIRST_PSEUDO_REGISTER * sizeof (rtx));
size = nelts = 0;
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if ((mode = apply_result_mode[regno]) != VOIDmode)
{
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
reg = gen_rtx_REG (mode, savep ? regno : INCOMING_REGNO (regno));
mem = adjust_address (result, mode, size);
savevec[nelts++] = (savep
? gen_rtx_SET (VOIDmode, mem, reg)
: gen_rtx_SET (VOIDmode, reg, mem));
size += GET_MODE_SIZE (mode);
}
return gen_rtx_PARALLEL (VOIDmode, gen_rtvec_v (nelts, savevec));
}
#endif /* HAVE_untyped_call or HAVE_untyped_return */
/* Save the state required to perform an untyped call with the same
arguments as were passed to the current function. */
static rtx
expand_builtin_apply_args_1 (void)
{
rtx registers, tem;
int size, align, regno;
enum machine_mode mode;
rtx struct_incoming_value = targetm.calls.struct_value_rtx (cfun ? TREE_TYPE (cfun->decl) : 0, 1);
/* Create a block where the arg-pointer, structure value address,
and argument registers can be saved. */
registers = assign_stack_local (BLKmode, apply_args_size (), -1);
/* Walk past the arg-pointer and structure value address. */
size = GET_MODE_SIZE (Pmode);
if (targetm.calls.struct_value_rtx (cfun ? TREE_TYPE (cfun->decl) : 0, 0))
size += GET_MODE_SIZE (Pmode);
/* Save each register used in calling a function to the block. */
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if ((mode = apply_args_mode[regno]) != VOIDmode)
{
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
tem = gen_rtx_REG (mode, INCOMING_REGNO (regno));
emit_move_insn (adjust_address (registers, mode, size), tem);
size += GET_MODE_SIZE (mode);
}
/* Save the arg pointer to the block. */
tem = copy_to_reg (virtual_incoming_args_rtx);
#ifdef STACK_GROWS_DOWNWARD
/* We need the pointer as the caller actually passed them to us, not
as we might have pretended they were passed. Make sure it's a valid
operand, as emit_move_insn isn't expected to handle a PLUS. */
tem
= force_operand (plus_constant (tem, current_function_pretend_args_size),
NULL_RTX);
#endif
emit_move_insn (adjust_address (registers, Pmode, 0), tem);
size = GET_MODE_SIZE (Pmode);
/* Save the structure value address unless this is passed as an
"invisible" first argument. */
if (struct_incoming_value)
{
emit_move_insn (adjust_address (registers, Pmode, size),
copy_to_reg (struct_incoming_value));
size += GET_MODE_SIZE (Pmode);
}
/* Return the address of the block. */
return copy_addr_to_reg (XEXP (registers, 0));
}
/* __builtin_apply_args returns block of memory allocated on
the stack into which is stored the arg pointer, structure
value address, static chain, and all the registers that might
possibly be used in performing a function call. The code is
moved to the start of the function so the incoming values are
saved. */
static rtx
expand_builtin_apply_args (void)
{
/* Don't do __builtin_apply_args more than once in a function.
Save the result of the first call and reuse it. */
if (apply_args_value != 0)
return apply_args_value;
{
/* When this function is called, it means that registers must be
saved on entry to this function. So we migrate the
call to the first insn of this function. */
rtx temp;
rtx seq;
start_sequence ();
temp = expand_builtin_apply_args_1 ();
seq = get_insns ();
end_sequence ();
apply_args_value = temp;
/* Put the insns after the NOTE that starts the function.
If this is inside a start_sequence, make the outer-level insn
chain current, so the code is placed at the start of the
function. */
push_topmost_sequence ();
emit_insn_before (seq, NEXT_INSN (entry_of_function ()));
pop_topmost_sequence ();
return temp;
}
}
/* Perform an untyped call and save the state required to perform an
untyped return of whatever value was returned by the given function. */
static rtx
expand_builtin_apply (rtx function, rtx arguments, rtx argsize)
{
int size, align, regno;
enum machine_mode mode;
rtx incoming_args, result, reg, dest, src, call_insn;
rtx old_stack_level = 0;
rtx call_fusage = 0;
rtx struct_value = targetm.calls.struct_value_rtx (cfun ? TREE_TYPE (cfun->decl) : 0, 0);
arguments = convert_memory_address (Pmode, arguments);
/* Create a block where the return registers can be saved. */
result = assign_stack_local (BLKmode, apply_result_size (), -1);
/* Fetch the arg pointer from the ARGUMENTS block. */
incoming_args = gen_reg_rtx (Pmode);
emit_move_insn (incoming_args, gen_rtx_MEM (Pmode, arguments));
#ifndef STACK_GROWS_DOWNWARD
incoming_args = expand_simple_binop (Pmode, MINUS, incoming_args, argsize,
incoming_args, 0, OPTAB_LIB_WIDEN);
#endif
/* Push a new argument block and copy the arguments. Do not allow
the (potential) memcpy call below to interfere with our stack
manipulations. */
do_pending_stack_adjust ();
NO_DEFER_POP;
/* Save the stack with nonlocal if available. */
#ifdef HAVE_save_stack_nonlocal
if (HAVE_save_stack_nonlocal)
emit_stack_save (SAVE_NONLOCAL, &old_stack_level, NULL_RTX);
else
#endif
emit_stack_save (SAVE_BLOCK, &old_stack_level, NULL_RTX);
/* Allocate a block of memory onto the stack and copy the memory
arguments to the outgoing arguments address. */
allocate_dynamic_stack_space (argsize, 0, BITS_PER_UNIT);
dest = virtual_outgoing_args_rtx;
#ifndef STACK_GROWS_DOWNWARD
if (GET_CODE (argsize) == CONST_INT)
dest = plus_constant (dest, -INTVAL (argsize));
else
dest = gen_rtx_PLUS (Pmode, dest, negate_rtx (Pmode, argsize));
#endif
dest = gen_rtx_MEM (BLKmode, dest);
set_mem_align (dest, PARM_BOUNDARY);
src = gen_rtx_MEM (BLKmode, incoming_args);
set_mem_align (src, PARM_BOUNDARY);
emit_block_move (dest, src, argsize, BLOCK_OP_NORMAL);
/* Refer to the argument block. */
apply_args_size ();
arguments = gen_rtx_MEM (BLKmode, arguments);
set_mem_align (arguments, PARM_BOUNDARY);
/* Walk past the arg-pointer and structure value address. */
size = GET_MODE_SIZE (Pmode);
if (struct_value)
size += GET_MODE_SIZE (Pmode);
/* Restore each of the registers previously saved. Make USE insns
for each of these registers for use in making the call. */
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if ((mode = apply_args_mode[regno]) != VOIDmode)
{
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
reg = gen_rtx_REG (mode, regno);
emit_move_insn (reg, adjust_address (arguments, mode, size));
use_reg (&call_fusage, reg);
size += GET_MODE_SIZE (mode);
}
/* Restore the structure value address unless this is passed as an
"invisible" first argument. */
size = GET_MODE_SIZE (Pmode);
if (struct_value)
{
rtx value = gen_reg_rtx (Pmode);
emit_move_insn (value, adjust_address (arguments, Pmode, size));
emit_move_insn (struct_value, value);
if (REG_P (struct_value))
use_reg (&call_fusage, struct_value);
size += GET_MODE_SIZE (Pmode);
}
/* All arguments and registers used for the call are set up by now! */
function = prepare_call_address (function, NULL, &call_fusage, 0, 0);
/* Ensure address is valid. SYMBOL_REF is already valid, so no need,
and we don't want to load it into a register as an optimization,
because prepare_call_address already did it if it should be done. */
if (GET_CODE (function) != SYMBOL_REF)
function = memory_address (FUNCTION_MODE, function);
/* Generate the actual call instruction and save the return value. */
#ifdef HAVE_untyped_call
if (HAVE_untyped_call)
emit_call_insn (gen_untyped_call (gen_rtx_MEM (FUNCTION_MODE, function),
result, result_vector (1, result)));
else
#endif
#ifdef HAVE_call_value
if (HAVE_call_value)
{
rtx valreg = 0;
/* Locate the unique return register. It is not possible to
express a call that sets more than one return register using
call_value; use untyped_call for that. In fact, untyped_call
only needs to save the return registers in the given block. */
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if ((mode = apply_result_mode[regno]) != VOIDmode)
{
gcc_assert (!valreg); /* HAVE_untyped_call required. */
valreg = gen_rtx_REG (mode, regno);
}
emit_call_insn (GEN_CALL_VALUE (valreg,
gen_rtx_MEM (FUNCTION_MODE, function),
const0_rtx, NULL_RTX, const0_rtx));
emit_move_insn (adjust_address (result, GET_MODE (valreg), 0), valreg);
}
else
#endif
gcc_unreachable ();
/* Find the CALL insn we just emitted, and attach the register usage
information. */
call_insn = last_call_insn ();
add_function_usage_to (call_insn, call_fusage);
/* Restore the stack. */
#ifdef HAVE_save_stack_nonlocal
if (HAVE_save_stack_nonlocal)
emit_stack_restore (SAVE_NONLOCAL, old_stack_level, NULL_RTX);
else
#endif
emit_stack_restore (SAVE_BLOCK, old_stack_level, NULL_RTX);
OK_DEFER_POP;
/* Return the address of the result block. */
result = copy_addr_to_reg (XEXP (result, 0));
return convert_memory_address (ptr_mode, result);
}
/* Perform an untyped return. */
static void
expand_builtin_return (rtx result)
{
int size, align, regno;
enum machine_mode mode;
rtx reg;
rtx call_fusage = 0;
result = convert_memory_address (Pmode, result);
apply_result_size ();
result = gen_rtx_MEM (BLKmode, result);
#ifdef HAVE_untyped_return
if (HAVE_untyped_return)
{
emit_jump_insn (gen_untyped_return (result, result_vector (0, result)));
emit_barrier ();
return;
}
#endif
/* Restore the return value and note that each value is used. */
size = 0;
for (regno = 0; regno < FIRST_PSEUDO_REGISTER; regno++)
if ((mode = apply_result_mode[regno]) != VOIDmode)
{
align = GET_MODE_ALIGNMENT (mode) / BITS_PER_UNIT;
if (size % align != 0)
size = CEIL (size, align) * align;
reg = gen_rtx_REG (mode, INCOMING_REGNO (regno));
emit_move_insn (reg, adjust_address (result, mode, size));
push_to_sequence (call_fusage);
emit_insn (gen_rtx_USE (VOIDmode, reg));
call_fusage = get_insns ();
end_sequence ();
size += GET_MODE_SIZE (mode);
}
/* Put the USE insns before the return. */
emit_insn (call_fusage);
/* Return whatever values was restored by jumping directly to the end
of the function. */
expand_naked_return ();
}
/* Used by expand_builtin_classify_type and fold_builtin_classify_type. */
static enum type_class
type_to_class (tree type)
{
switch (TREE_CODE (type))
{
case VOID_TYPE: return void_type_class;
case INTEGER_TYPE: return integer_type_class;
case CHAR_TYPE: return char_type_class;
case ENUMERAL_TYPE: return enumeral_type_class;
case BOOLEAN_TYPE: return boolean_type_class;
case POINTER_TYPE: return pointer_type_class;
case REFERENCE_TYPE: return reference_type_class;
case OFFSET_TYPE: return offset_type_class;
case REAL_TYPE: return real_type_class;
case COMPLEX_TYPE: return complex_type_class;
case FUNCTION_TYPE: return function_type_class;
case METHOD_TYPE: return method_type_class;
case RECORD_TYPE: return record_type_class;
case UNION_TYPE:
case QUAL_UNION_TYPE: return union_type_class;
case ARRAY_TYPE: return (TYPE_STRING_FLAG (type)
? string_type_class : array_type_class);
case LANG_TYPE: return lang_type_class;
default: return no_type_class;
}
}
/* Expand a call to __builtin_classify_type with arguments found in
ARGLIST. */
static rtx
expand_builtin_classify_type (tree arglist)
{
if (arglist != 0)
return GEN_INT (type_to_class (TREE_TYPE (TREE_VALUE (arglist))));
return GEN_INT (no_type_class);
}
/* This helper macro, meant to be used in mathfn_built_in below,
determines which among a set of three builtin math functions is
appropriate for a given type mode. The `F' and `L' cases are
automatically generated from the `double' case. */
#define CASE_MATHFN(BUILT_IN_MATHFN) \
case BUILT_IN_MATHFN: case BUILT_IN_MATHFN##F: case BUILT_IN_MATHFN##L: \
fcode = BUILT_IN_MATHFN; fcodef = BUILT_IN_MATHFN##F ; \
fcodel = BUILT_IN_MATHFN##L ; break;
/* Return mathematic function equivalent to FN but operating directly
on TYPE, if available. If we can't do the conversion, return zero. */
tree
mathfn_built_in (tree type, enum built_in_function fn)
{
enum built_in_function fcode, fcodef, fcodel;
switch (fn)
{
CASE_MATHFN (BUILT_IN_ACOS)
CASE_MATHFN (BUILT_IN_ACOSH)
CASE_MATHFN (BUILT_IN_ASIN)
CASE_MATHFN (BUILT_IN_ASINH)
CASE_MATHFN (BUILT_IN_ATAN)
CASE_MATHFN (BUILT_IN_ATAN2)
CASE_MATHFN (BUILT_IN_ATANH)
CASE_MATHFN (BUILT_IN_CBRT)
CASE_MATHFN (BUILT_IN_CEIL)
CASE_MATHFN (BUILT_IN_COPYSIGN)
CASE_MATHFN (BUILT_IN_COS)
CASE_MATHFN (BUILT_IN_COSH)
CASE_MATHFN (BUILT_IN_DREM)
CASE_MATHFN (BUILT_IN_ERF)
CASE_MATHFN (BUILT_IN_ERFC)
CASE_MATHFN (BUILT_IN_EXP)
CASE_MATHFN (BUILT_IN_EXP10)
CASE_MATHFN (BUILT_IN_EXP2)
CASE_MATHFN (BUILT_IN_EXPM1)
CASE_MATHFN (BUILT_IN_FABS)
CASE_MATHFN (BUILT_IN_FDIM)
CASE_MATHFN (BUILT_IN_FLOOR)
CASE_MATHFN (BUILT_IN_FMA)
CASE_MATHFN (BUILT_IN_FMAX)
CASE_MATHFN (BUILT_IN_FMIN)
CASE_MATHFN (BUILT_IN_FMOD)
CASE_MATHFN (BUILT_IN_FREXP)
CASE_MATHFN (BUILT_IN_GAMMA)
CASE_MATHFN (BUILT_IN_HUGE_VAL)
CASE_MATHFN (BUILT_IN_HYPOT)
CASE_MATHFN (BUILT_IN_ILOGB)
CASE_MATHFN (BUILT_IN_INF)
CASE_MATHFN (BUILT_IN_J0)
CASE_MATHFN (BUILT_IN_J1)
CASE_MATHFN (BUILT_IN_JN)
CASE_MATHFN (BUILT_IN_LDEXP)
CASE_MATHFN (BUILT_IN_LFLOOR)
CASE_MATHFN (BUILT_IN_LGAMMA)
CASE_MATHFN (BUILT_IN_LLFLOOR)
CASE_MATHFN (BUILT_IN_LLRINT)
CASE_MATHFN (BUILT_IN_LLROUND)
CASE_MATHFN (BUILT_IN_LOG)
CASE_MATHFN (BUILT_IN_LOG10)
CASE_MATHFN (BUILT_IN_LOG1P)
CASE_MATHFN (BUILT_IN_LOG2)
CASE_MATHFN (BUILT_IN_LOGB)
CASE_MATHFN (BUILT_IN_LRINT)
CASE_MATHFN (BUILT_IN_LROUND)
CASE_MATHFN (BUILT_IN_MODF)
CASE_MATHFN (BUILT_IN_NAN)
CASE_MATHFN (BUILT_IN_NANS)
CASE_MATHFN (BUILT_IN_NEARBYINT)
CASE_MATHFN (BUILT_IN_NEXTAFTER)
CASE_MATHFN (BUILT_IN_NEXTTOWARD)
CASE_MATHFN (BUILT_IN_POW)
CASE_MATHFN (BUILT_IN_POWI)
CASE_MATHFN (BUILT_IN_POW10)
CASE_MATHFN (BUILT_IN_REMAINDER)
CASE_MATHFN (BUILT_IN_REMQUO)
CASE_MATHFN (BUILT_IN_RINT)
CASE_MATHFN (BUILT_IN_ROUND)
CASE_MATHFN (BUILT_IN_SCALB)
CASE_MATHFN (BUILT_IN_SCALBLN)
CASE_MATHFN (BUILT_IN_SCALBN)
CASE_MATHFN (BUILT_IN_SIGNIFICAND)
CASE_MATHFN (BUILT_IN_SIN)
CASE_MATHFN (BUILT_IN_SINCOS)
CASE_MATHFN (BUILT_IN_SINH)
CASE_MATHFN (BUILT_IN_SQRT)
CASE_MATHFN (BUILT_IN_TAN)
CASE_MATHFN (BUILT_IN_TANH)
CASE_MATHFN (BUILT_IN_TGAMMA)
CASE_MATHFN (BUILT_IN_TRUNC)
CASE_MATHFN (BUILT_IN_Y0)
CASE_MATHFN (BUILT_IN_Y1)
CASE_MATHFN (BUILT_IN_YN)
default:
return 0;
}
if (TYPE_MAIN_VARIANT (type) == double_type_node)
return implicit_built_in_decls[fcode];
else if (TYPE_MAIN_VARIANT (type) == float_type_node)
return implicit_built_in_decls[fcodef];
else if (TYPE_MAIN_VARIANT (type) == long_double_type_node)
return implicit_built_in_decls[fcodel];
else
return 0;
}
/* If errno must be maintained, expand the RTL to check if the result,
TARGET, of a built-in function call, EXP, is NaN, and if so set
errno to EDOM. */
static void
expand_errno_check (tree exp, rtx target)
{
rtx lab = gen_label_rtx ();
/* Test the result; if it is NaN, set errno=EDOM because
the argument was not in the domain. */
emit_cmp_and_jump_insns (target, target, EQ, 0, GET_MODE (target),
0, lab);
#ifdef TARGET_EDOM
/* If this built-in doesn't throw an exception, set errno directly. */
if (TREE_NOTHROW (TREE_OPERAND (TREE_OPERAND (exp, 0), 0)))
{
#ifdef GEN_ERRNO_RTX
rtx errno_rtx = GEN_ERRNO_RTX;
#else
rtx errno_rtx
= gen_rtx_MEM (word_mode, gen_rtx_SYMBOL_REF (Pmode, "errno"));
#endif
emit_move_insn (errno_rtx, GEN_INT (TARGET_EDOM));
emit_label (lab);
return;
}
#endif
/* We can't set errno=EDOM directly; let the library call do it.
Pop the arguments right away in case the call gets deleted. */
NO_DEFER_POP;
expand_call (exp, target, 0);
OK_DEFER_POP;
emit_label (lab);
}
/* Expand a call to one of the builtin math functions (sqrt, exp, or log).
Return 0 if a normal call should be emitted rather than expanding the
function in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET.
SUBTARGET may be used as the target for computing one of EXP's operands. */
static rtx
expand_builtin_mathfn (tree exp, rtx target, rtx subtarget)
{
optab builtin_optab;
rtx op0, insns, before_call;
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
enum machine_mode mode;
bool errno_set = false;
tree arg, narg;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_SQRT:
case BUILT_IN_SQRTF:
case BUILT_IN_SQRTL:
errno_set = ! tree_expr_nonnegative_p (arg);
builtin_optab = sqrt_optab;
break;
case BUILT_IN_EXP:
case BUILT_IN_EXPF:
case BUILT_IN_EXPL:
errno_set = true; builtin_optab = exp_optab; break;
case BUILT_IN_EXP10:
case BUILT_IN_EXP10F:
case BUILT_IN_EXP10L:
case BUILT_IN_POW10:
case BUILT_IN_POW10F:
case BUILT_IN_POW10L:
errno_set = true; builtin_optab = exp10_optab; break;
case BUILT_IN_EXP2:
case BUILT_IN_EXP2F:
case BUILT_IN_EXP2L:
errno_set = true; builtin_optab = exp2_optab; break;
case BUILT_IN_EXPM1:
case BUILT_IN_EXPM1F:
case BUILT_IN_EXPM1L:
errno_set = true; builtin_optab = expm1_optab; break;
case BUILT_IN_LOGB:
case BUILT_IN_LOGBF:
case BUILT_IN_LOGBL:
errno_set = true; builtin_optab = logb_optab; break;
case BUILT_IN_ILOGB:
case BUILT_IN_ILOGBF:
case BUILT_IN_ILOGBL:
errno_set = true; builtin_optab = ilogb_optab; break;
case BUILT_IN_LOG:
case BUILT_IN_LOGF:
case BUILT_IN_LOGL:
errno_set = true; builtin_optab = log_optab; break;
case BUILT_IN_LOG10:
case BUILT_IN_LOG10F:
case BUILT_IN_LOG10L:
errno_set = true; builtin_optab = log10_optab; break;
case BUILT_IN_LOG2:
case BUILT_IN_LOG2F:
case BUILT_IN_LOG2L:
errno_set = true; builtin_optab = log2_optab; break;
case BUILT_IN_LOG1P:
case BUILT_IN_LOG1PF:
case BUILT_IN_LOG1PL:
errno_set = true; builtin_optab = log1p_optab; break;
case BUILT_IN_ASIN:
case BUILT_IN_ASINF:
case BUILT_IN_ASINL:
builtin_optab = asin_optab; break;
case BUILT_IN_ACOS:
case BUILT_IN_ACOSF:
case BUILT_IN_ACOSL:
builtin_optab = acos_optab; break;
case BUILT_IN_TAN:
case BUILT_IN_TANF:
case BUILT_IN_TANL:
builtin_optab = tan_optab; break;
case BUILT_IN_ATAN:
case BUILT_IN_ATANF:
case BUILT_IN_ATANL:
builtin_optab = atan_optab; break;
case BUILT_IN_FLOOR:
case BUILT_IN_FLOORF:
case BUILT_IN_FLOORL:
builtin_optab = floor_optab; break;
case BUILT_IN_CEIL:
case BUILT_IN_CEILF:
case BUILT_IN_CEILL:
builtin_optab = ceil_optab; break;
case BUILT_IN_TRUNC:
case BUILT_IN_TRUNCF:
case BUILT_IN_TRUNCL:
builtin_optab = btrunc_optab; break;
case BUILT_IN_ROUND:
case BUILT_IN_ROUNDF:
case BUILT_IN_ROUNDL:
builtin_optab = round_optab; break;
case BUILT_IN_NEARBYINT:
case BUILT_IN_NEARBYINTF:
case BUILT_IN_NEARBYINTL:
builtin_optab = nearbyint_optab; break;
case BUILT_IN_RINT:
case BUILT_IN_RINTF:
case BUILT_IN_RINTL:
builtin_optab = rint_optab; break;
case BUILT_IN_LRINT:
case BUILT_IN_LRINTF:
case BUILT_IN_LRINTL:
case BUILT_IN_LLRINT:
case BUILT_IN_LLRINTF:
case BUILT_IN_LLRINTL:
builtin_optab = lrint_optab; break;
default:
gcc_unreachable ();
}
/* Make a suitable register to place result in. */
mode = TYPE_MODE (TREE_TYPE (exp));
if (! flag_errno_math || ! HONOR_NANS (mode))
errno_set = false;
/* Before working hard, check whether the instruction is available. */
if (builtin_optab->handlers[(int) mode].insn_code != CODE_FOR_nothing)
{
target = gen_reg_rtx (mode);
/* Wrap the computation of the argument in a SAVE_EXPR, as we may
need to expand the argument again. This way, we will not perform
side-effects more the once. */
narg = builtin_save_expr (arg);
if (narg != arg)
{
arg = narg;
arglist = build_tree_list (NULL_TREE, arg);
exp = build_function_call_expr (fndecl, arglist);
}
op0 = expand_expr (arg, subtarget, VOIDmode, 0);
start_sequence ();
/* Compute into TARGET.
Set TARGET to wherever the result comes back. */
target = expand_unop (mode, builtin_optab, op0, target, 0);
if (target != 0)
{
if (errno_set)
expand_errno_check (exp, target);
/* Output the entire sequence. */
insns = get_insns ();
end_sequence ();
emit_insn (insns);
return target;
}
/* If we were unable to expand via the builtin, stop the sequence
(without outputting the insns) and call to the library function
with the stabilized argument list. */
end_sequence ();
}
before_call = get_last_insn ();
target = expand_call (exp, target, target == const0_rtx);
/* If this is a sqrt operation and we don't care about errno, try to
attach a REG_EQUAL note with a SQRT rtx to the emitted libcall.
This allows the semantics of the libcall to be visible to the RTL
optimizers. */
if (builtin_optab == sqrt_optab && !errno_set)
{
/* Search backwards through the insns emitted by expand_call looking
for the instruction with the REG_RETVAL note. */
rtx last = get_last_insn ();
while (last != before_call)
{
if (find_reg_note (last, REG_RETVAL, NULL))
{
rtx note = find_reg_note (last, REG_EQUAL, NULL);
/* Check that the REQ_EQUAL note is an EXPR_LIST with
two elements, i.e. symbol_ref(sqrt) and the operand. */
if (note
&& GET_CODE (note) == EXPR_LIST
&& GET_CODE (XEXP (note, 0)) == EXPR_LIST
&& XEXP (XEXP (note, 0), 1) != NULL_RTX
&& XEXP (XEXP (XEXP (note, 0), 1), 1) == NULL_RTX)
{
rtx operand = XEXP (XEXP (XEXP (note, 0), 1), 0);
/* Check operand is a register with expected mode. */
if (operand
&& REG_P (operand)
&& GET_MODE (operand) == mode)
{
/* Replace the REG_EQUAL note with a SQRT rtx. */
rtx equiv = gen_rtx_SQRT (mode, operand);
set_unique_reg_note (last, REG_EQUAL, equiv);
}
}
break;
}
last = PREV_INSN (last);
}
}
return target;
}
/* Expand a call to the builtin binary math functions (pow and atan2).
Return 0 if a normal call should be emitted rather than expanding the
function in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET.
SUBTARGET may be used as the target for computing one of EXP's
operands. */
static rtx
expand_builtin_mathfn_2 (tree exp, rtx target, rtx subtarget)
{
optab builtin_optab;
rtx op0, op1, insns;
int op1_type = REAL_TYPE;
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
tree arg0, arg1, temp, narg;
enum machine_mode mode;
bool errno_set = true;
bool stable = true;
if ((DECL_FUNCTION_CODE (fndecl) == BUILT_IN_LDEXP)
|| (DECL_FUNCTION_CODE (fndecl) == BUILT_IN_LDEXPF)
|| (DECL_FUNCTION_CODE (fndecl) == BUILT_IN_LDEXPL))
op1_type = INTEGER_TYPE;
if (!validate_arglist (arglist, REAL_TYPE, op1_type, VOID_TYPE))
return 0;
arg0 = TREE_VALUE (arglist);
arg1 = TREE_VALUE (TREE_CHAIN (arglist));
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_POW:
case BUILT_IN_POWF:
case BUILT_IN_POWL:
builtin_optab = pow_optab; break;
case BUILT_IN_ATAN2:
case BUILT_IN_ATAN2F:
case BUILT_IN_ATAN2L:
builtin_optab = atan2_optab; break;
case BUILT_IN_LDEXP:
case BUILT_IN_LDEXPF:
case BUILT_IN_LDEXPL:
builtin_optab = ldexp_optab; break;
case BUILT_IN_FMOD:
case BUILT_IN_FMODF:
case BUILT_IN_FMODL:
builtin_optab = fmod_optab; break;
case BUILT_IN_DREM:
case BUILT_IN_DREMF:
case BUILT_IN_DREML:
builtin_optab = drem_optab; break;
default:
gcc_unreachable ();
}
/* Make a suitable register to place result in. */
mode = TYPE_MODE (TREE_TYPE (exp));
/* Before working hard, check whether the instruction is available. */
if (builtin_optab->handlers[(int) mode].insn_code == CODE_FOR_nothing)
return 0;
target = gen_reg_rtx (mode);
if (! flag_errno_math || ! HONOR_NANS (mode))
errno_set = false;
/* Always stabilize the argument list. */
narg = builtin_save_expr (arg1);
if (narg != arg1)
{
arg1 = narg;
temp = build_tree_list (NULL_TREE, narg);
stable = false;
}
else
temp = TREE_CHAIN (arglist);
narg = builtin_save_expr (arg0);
if (narg != arg0)
{
arg0 = narg;
arglist = tree_cons (NULL_TREE, narg, temp);
stable = false;
}
else if (! stable)
arglist = tree_cons (NULL_TREE, arg0, temp);
if (! stable)
exp = build_function_call_expr (fndecl, arglist);
op0 = expand_expr (arg0, subtarget, VOIDmode, 0);
op1 = expand_expr (arg1, 0, VOIDmode, 0);
start_sequence ();
/* Compute into TARGET.
Set TARGET to wherever the result comes back. */
target = expand_binop (mode, builtin_optab, op0, op1,
target, 0, OPTAB_DIRECT);
/* If we were unable to expand via the builtin, stop the sequence
(without outputting the insns) and call to the library function
with the stabilized argument list. */
if (target == 0)
{
end_sequence ();
return expand_call (exp, target, target == const0_rtx);
}
if (errno_set)
expand_errno_check (exp, target);
/* Output the entire sequence. */
insns = get_insns ();
end_sequence ();
emit_insn (insns);
return target;
}
/* Expand a call to the builtin sin and cos math functions.
Return 0 if a normal call should be emitted rather than expanding the
function in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET.
SUBTARGET may be used as the target for computing one of EXP's
operands. */
static rtx
expand_builtin_mathfn_3 (tree exp, rtx target, rtx subtarget)
{
optab builtin_optab;
rtx op0, insns;
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
enum machine_mode mode;
bool errno_set = false;
tree arg, narg;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_SIN:
case BUILT_IN_SINF:
case BUILT_IN_SINL:
case BUILT_IN_COS:
case BUILT_IN_COSF:
case BUILT_IN_COSL:
builtin_optab = sincos_optab; break;
default:
gcc_unreachable ();
}
/* Make a suitable register to place result in. */
mode = TYPE_MODE (TREE_TYPE (exp));
if (! flag_errno_math || ! HONOR_NANS (mode))
errno_set = false;
/* Check if sincos insn is available, otherwise fallback
to sin or cos insn. */
if (builtin_optab->handlers[(int) mode].insn_code == CODE_FOR_nothing) {
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_SIN:
case BUILT_IN_SINF:
case BUILT_IN_SINL:
builtin_optab = sin_optab; break;
case BUILT_IN_COS:
case BUILT_IN_COSF:
case BUILT_IN_COSL:
builtin_optab = cos_optab; break;
default:
gcc_unreachable ();
}
}
/* Before working hard, check whether the instruction is available. */
if (builtin_optab->handlers[(int) mode].insn_code != CODE_FOR_nothing)
{
target = gen_reg_rtx (mode);
/* Wrap the computation of the argument in a SAVE_EXPR, as we may
need to expand the argument again. This way, we will not perform
side-effects more the once. */
narg = save_expr (arg);
if (narg != arg)
{
arg = narg;
arglist = build_tree_list (NULL_TREE, arg);
exp = build_function_call_expr (fndecl, arglist);
}
op0 = expand_expr (arg, subtarget, VOIDmode, 0);
start_sequence ();
/* Compute into TARGET.
Set TARGET to wherever the result comes back. */
if (builtin_optab == sincos_optab)
{
int result;
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_SIN:
case BUILT_IN_SINF:
case BUILT_IN_SINL:
result = expand_twoval_unop (builtin_optab, op0, 0, target, 0);
break;
case BUILT_IN_COS:
case BUILT_IN_COSF:
case BUILT_IN_COSL:
result = expand_twoval_unop (builtin_optab, op0, target, 0, 0);
break;
default:
gcc_unreachable ();
}
gcc_assert (result);
}
else
{
target = expand_unop (mode, builtin_optab, op0, target, 0);
}
if (target != 0)
{
if (errno_set)
expand_errno_check (exp, target);
/* Output the entire sequence. */
insns = get_insns ();
end_sequence ();
emit_insn (insns);
return target;
}
/* If we were unable to expand via the builtin, stop the sequence
(without outputting the insns) and call to the library function
with the stabilized argument list. */
end_sequence ();
}
target = expand_call (exp, target, target == const0_rtx);
return target;
}
/* Expand a call to one of the builtin rounding functions (lfloor).
If expanding via optab fails, lower expression to (int)(floor(x)).
EXP is the expression that is a call to the builtin function;
if convenient, the result should be placed in TARGET. SUBTARGET may
be used as the target for computing one of EXP's operands. */
static rtx
expand_builtin_int_roundingfn (tree exp, rtx target, rtx subtarget)
{
optab builtin_optab;
rtx op0, insns, tmp;
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
enum built_in_function fallback_fn;
tree fallback_fndecl;
enum machine_mode mode;
tree arg, narg;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
gcc_unreachable ();
arg = TREE_VALUE (arglist);
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_LFLOOR:
case BUILT_IN_LFLOORF:
case BUILT_IN_LFLOORL:
case BUILT_IN_LLFLOOR:
case BUILT_IN_LLFLOORF:
case BUILT_IN_LLFLOORL:
builtin_optab = lfloor_optab;
fallback_fn = BUILT_IN_FLOOR;
break;
default:
gcc_unreachable ();
}
/* Make a suitable register to place result in. */
mode = TYPE_MODE (TREE_TYPE (exp));
/* Before working hard, check whether the instruction is available. */
if (builtin_optab->handlers[(int) mode].insn_code != CODE_FOR_nothing)
{
target = gen_reg_rtx (mode);
/* Wrap the computation of the argument in a SAVE_EXPR, as we may
need to expand the argument again. This way, we will not perform
side-effects more the once. */
narg = builtin_save_expr (arg);
if (narg != arg)
{
arg = narg;
arglist = build_tree_list (NULL_TREE, arg);
exp = build_function_call_expr (fndecl, arglist);
}
op0 = expand_expr (arg, subtarget, VOIDmode, 0);
start_sequence ();
/* Compute into TARGET.
Set TARGET to wherever the result comes back. */
target = expand_unop (mode, builtin_optab, op0, target, 0);
if (target != 0)
{
/* Output the entire sequence. */
insns = get_insns ();
end_sequence ();
emit_insn (insns);
return target;
}
/* If we were unable to expand via the builtin, stop the sequence
(without outputting the insns). */
end_sequence ();
}
/* Fall back to floating point rounding optab. */
fallback_fndecl = mathfn_built_in (TREE_TYPE (arg), fallback_fn);
exp = build_function_call_expr (fallback_fndecl, arglist);
tmp = expand_builtin_mathfn (exp, NULL_RTX, NULL_RTX);
/* Truncate the result of floating point optab to integer
via expand_fix (). */
target = gen_reg_rtx (mode);
expand_fix (target, tmp, 0);
return target;
}
/* To evaluate powi(x,n), the floating point value x raised to the
constant integer exponent n, we use a hybrid algorithm that
combines the "window method" with look-up tables. For an
introduction to exponentiation algorithms and "addition chains",
see section 4.6.3, "Evaluation of Powers" of Donald E. Knuth,
"Seminumerical Algorithms", Vol. 2, "The Art of Computer Programming",
3rd Edition, 1998, and Daniel M. Gordon, "A Survey of Fast Exponentiation
Methods", Journal of Algorithms, Vol. 27, pp. 129-146, 1998. */
/* Provide a default value for POWI_MAX_MULTS, the maximum number of
multiplications to inline before calling the system library's pow
function. powi(x,n) requires at worst 2*bits(n)-2 multiplications,
so this default never requires calling pow, powf or powl. */
#ifndef POWI_MAX_MULTS
#define POWI_MAX_MULTS (2*HOST_BITS_PER_WIDE_INT-2)
#endif
/* The size of the "optimal power tree" lookup table. All
exponents less than this value are simply looked up in the
powi_table below. This threshold is also used to size the
cache of pseudo registers that hold intermediate results. */
#define POWI_TABLE_SIZE 256
/* The size, in bits of the window, used in the "window method"
exponentiation algorithm. This is equivalent to a radix of
(1<<POWI_WINDOW_SIZE) in the corresponding "m-ary method". */
#define POWI_WINDOW_SIZE 3
/* The following table is an efficient representation of an
"optimal power tree". For each value, i, the corresponding
value, j, in the table states than an optimal evaluation
sequence for calculating pow(x,i) can be found by evaluating
pow(x,j)*pow(x,i-j). An optimal power tree for the first
100 integers is given in Knuth's "Seminumerical algorithms". */
static const unsigned char powi_table[POWI_TABLE_SIZE] =
{
0, 1, 1, 2, 2, 3, 3, 4, /* 0 - 7 */
4, 6, 5, 6, 6, 10, 7, 9, /* 8 - 15 */
8, 16, 9, 16, 10, 12, 11, 13, /* 16 - 23 */
12, 17, 13, 18, 14, 24, 15, 26, /* 24 - 31 */
16, 17, 17, 19, 18, 33, 19, 26, /* 32 - 39 */
20, 25, 21, 40, 22, 27, 23, 44, /* 40 - 47 */
24, 32, 25, 34, 26, 29, 27, 44, /* 48 - 55 */
28, 31, 29, 34, 30, 60, 31, 36, /* 56 - 63 */
32, 64, 33, 34, 34, 46, 35, 37, /* 64 - 71 */
36, 65, 37, 50, 38, 48, 39, 69, /* 72 - 79 */
40, 49, 41, 43, 42, 51, 43, 58, /* 80 - 87 */
44, 64, 45, 47, 46, 59, 47, 76, /* 88 - 95 */
48, 65, 49, 66, 50, 67, 51, 66, /* 96 - 103 */
52, 70, 53, 74, 54, 104, 55, 74, /* 104 - 111 */
56, 64, 57, 69, 58, 78, 59, 68, /* 112 - 119 */
60, 61, 61, 80, 62, 75, 63, 68, /* 120 - 127 */
64, 65, 65, 128, 66, 129, 67, 90, /* 128 - 135 */
68, 73, 69, 131, 70, 94, 71, 88, /* 136 - 143 */
72, 128, 73, 98, 74, 132, 75, 121, /* 144 - 151 */
76, 102, 77, 124, 78, 132, 79, 106, /* 152 - 159 */
80, 97, 81, 160, 82, 99, 83, 134, /* 160 - 167 */
84, 86, 85, 95, 86, 160, 87, 100, /* 168 - 175 */
88, 113, 89, 98, 90, 107, 91, 122, /* 176 - 183 */
92, 111, 93, 102, 94, 126, 95, 150, /* 184 - 191 */
96, 128, 97, 130, 98, 133, 99, 195, /* 192 - 199 */
100, 128, 101, 123, 102, 164, 103, 138, /* 200 - 207 */
104, 145, 105, 146, 106, 109, 107, 149, /* 208 - 215 */
108, 200, 109, 146, 110, 170, 111, 157, /* 216 - 223 */
112, 128, 113, 130, 114, 182, 115, 132, /* 224 - 231 */
116, 200, 117, 132, 118, 158, 119, 206, /* 232 - 239 */
120, 240, 121, 162, 122, 147, 123, 152, /* 240 - 247 */
124, 166, 125, 214, 126, 138, 127, 153, /* 248 - 255 */
};
/* Return the number of multiplications required to calculate
powi(x,n) where n is less than POWI_TABLE_SIZE. This is a
subroutine of powi_cost. CACHE is an array indicating
which exponents have already been calculated. */
static int
powi_lookup_cost (unsigned HOST_WIDE_INT n, bool *cache)
{
/* If we've already calculated this exponent, then this evaluation
doesn't require any additional multiplications. */
if (cache[n])
return 0;
cache[n] = true;
return powi_lookup_cost (n - powi_table[n], cache)
+ powi_lookup_cost (powi_table[n], cache) + 1;
}
/* Return the number of multiplications required to calculate
powi(x,n) for an arbitrary x, given the exponent N. This
function needs to be kept in sync with expand_powi below. */
static int
powi_cost (HOST_WIDE_INT n)
{
bool cache[POWI_TABLE_SIZE];
unsigned HOST_WIDE_INT digit;
unsigned HOST_WIDE_INT val;
int result;
if (n == 0)
return 0;
/* Ignore the reciprocal when calculating the cost. */
val = (n < 0) ? -n : n;
/* Initialize the exponent cache. */
memset (cache, 0, POWI_TABLE_SIZE * sizeof (bool));
cache[1] = true;
result = 0;
while (val >= POWI_TABLE_SIZE)
{
if (val & 1)
{
digit = val & ((1 << POWI_WINDOW_SIZE) - 1);
result += powi_lookup_cost (digit, cache)
+ POWI_WINDOW_SIZE + 1;
val >>= POWI_WINDOW_SIZE;
}
else
{
val >>= 1;
result++;
}
}
return result + powi_lookup_cost (val, cache);
}
/* Recursive subroutine of expand_powi. This function takes the array,
CACHE, of already calculated exponents and an exponent N and returns
an RTX that corresponds to CACHE[1]**N, as calculated in mode MODE. */
static rtx
expand_powi_1 (enum machine_mode mode, unsigned HOST_WIDE_INT n, rtx *cache)
{
unsigned HOST_WIDE_INT digit;
rtx target, result;
rtx op0, op1;
if (n < POWI_TABLE_SIZE)
{
if (cache[n])
return cache[n];
target = gen_reg_rtx (mode);
cache[n] = target;
op0 = expand_powi_1 (mode, n - powi_table[n], cache);
op1 = expand_powi_1 (mode, powi_table[n], cache);
}
else if (n & 1)
{
target = gen_reg_rtx (mode);
digit = n & ((1 << POWI_WINDOW_SIZE) - 1);
op0 = expand_powi_1 (mode, n - digit, cache);
op1 = expand_powi_1 (mode, digit, cache);
}
else
{
target = gen_reg_rtx (mode);
op0 = expand_powi_1 (mode, n >> 1, cache);
op1 = op0;
}
result = expand_mult (mode, op0, op1, target, 0);
if (result != target)
emit_move_insn (target, result);
return target;
}
/* Expand the RTL to evaluate powi(x,n) in mode MODE. X is the
floating point operand in mode MODE, and N is the exponent. This
function needs to be kept in sync with powi_cost above. */
static rtx
expand_powi (rtx x, enum machine_mode mode, HOST_WIDE_INT n)
{
unsigned HOST_WIDE_INT val;
rtx cache[POWI_TABLE_SIZE];
rtx result;
if (n == 0)
return CONST1_RTX (mode);
val = (n < 0) ? -n : n;
memset (cache, 0, sizeof (cache));
cache[1] = x;
result = expand_powi_1 (mode, (n < 0) ? -n : n, cache);
/* If the original exponent was negative, reciprocate the result. */
if (n < 0)
result = expand_binop (mode, sdiv_optab, CONST1_RTX (mode),
result, NULL_RTX, 0, OPTAB_LIB_WIDEN);
return result;
}
/* Expand a call to the pow built-in mathematical function. Return 0 if
a normal call should be emitted rather than expanding the function
in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET. */
static rtx
expand_builtin_pow (tree exp, rtx target, rtx subtarget)
{
tree arglist = TREE_OPERAND (exp, 1);
tree arg0, arg1;
if (! validate_arglist (arglist, REAL_TYPE, REAL_TYPE, VOID_TYPE))
return 0;
arg0 = TREE_VALUE (arglist);
arg1 = TREE_VALUE (TREE_CHAIN (arglist));
if (TREE_CODE (arg1) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg1))
{
REAL_VALUE_TYPE cint;
REAL_VALUE_TYPE c;
HOST_WIDE_INT n;
c = TREE_REAL_CST (arg1);
n = real_to_integer (&c);
real_from_integer (&cint, VOIDmode, n, n < 0 ? -1 : 0, 0);
if (real_identical (&c, &cint))
{
/* If the exponent is -1, 0, 1 or 2, then expand_powi is exact.
Otherwise, check the number of multiplications required.
Note that pow never sets errno for an integer exponent. */
if ((n >= -1 && n <= 2)
|| (flag_unsafe_math_optimizations
&& ! optimize_size
&& powi_cost (n) <= POWI_MAX_MULTS))
{
enum machine_mode mode = TYPE_MODE (TREE_TYPE (exp));
rtx op = expand_expr (arg0, subtarget, VOIDmode, 0);
op = force_reg (mode, op);
return expand_powi (op, mode, n);
}
}
}
if (! flag_unsafe_math_optimizations)
return NULL_RTX;
return expand_builtin_mathfn_2 (exp, target, subtarget);
}
/* Expand a call to the powi built-in mathematical function. Return 0 if
a normal call should be emitted rather than expanding the function
in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET. */
static rtx
expand_builtin_powi (tree exp, rtx target, rtx subtarget)
{
tree arglist = TREE_OPERAND (exp, 1);
tree arg0, arg1;
rtx op0, op1;
enum machine_mode mode;
enum machine_mode mode2;
if (! validate_arglist (arglist, REAL_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
arg0 = TREE_VALUE (arglist);
arg1 = TREE_VALUE (TREE_CHAIN (arglist));
mode = TYPE_MODE (TREE_TYPE (exp));
/* Handle constant power. */
if (TREE_CODE (arg1) == INTEGER_CST
&& ! TREE_CONSTANT_OVERFLOW (arg1))
{
HOST_WIDE_INT n = TREE_INT_CST_LOW (arg1);
/* If the exponent is -1, 0, 1 or 2, then expand_powi is exact.
Otherwise, check the number of multiplications required. */
if ((TREE_INT_CST_HIGH (arg1) == 0
|| TREE_INT_CST_HIGH (arg1) == -1)
&& ((n >= -1 && n <= 2)
|| (! optimize_size
&& powi_cost (n) <= POWI_MAX_MULTS)))
{
op0 = expand_expr (arg0, subtarget, VOIDmode, 0);
op0 = force_reg (mode, op0);
return expand_powi (op0, mode, n);
}
}
/* Emit a libcall to libgcc. */
/* Mode of the 2nd argument must match that of an int. */
mode2 = mode_for_size (INT_TYPE_SIZE, MODE_INT, 0);
if (target == NULL_RTX)
target = gen_reg_rtx (mode);
op0 = expand_expr (arg0, subtarget, mode, 0);
if (GET_MODE (op0) != mode)
op0 = convert_to_mode (mode, op0, 0);
op1 = expand_expr (arg1, 0, mode2, 0);
if (GET_MODE (op1) != mode2)
op1 = convert_to_mode (mode2, op1, 0);
target = emit_library_call_value (powi_optab->handlers[(int) mode].libfunc,
target, LCT_CONST_MAKE_BLOCK, mode, 2,
op0, mode, op1, mode2);
return target;
}
/* Expand expression EXP which is a call to the strlen builtin. Return 0
if we failed the caller should emit a normal call, otherwise
try to get the result in TARGET, if convenient. */
static rtx
expand_builtin_strlen (tree arglist, rtx target,
enum machine_mode target_mode)
{
if (!validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
rtx pat;
tree len, src = TREE_VALUE (arglist);
rtx result, src_reg, char_rtx, before_strlen;
enum machine_mode insn_mode = target_mode, char_mode;
enum insn_code icode = CODE_FOR_nothing;
int align;
/* If the length can be computed at compile-time, return it. */
len = c_strlen (src, 0);
if (len)
return expand_expr (len, target, target_mode, EXPAND_NORMAL);
/* If the length can be computed at compile-time and is constant
integer, but there are side-effects in src, evaluate
src for side-effects, then return len.
E.g. x = strlen (i++ ? "xfoo" + 1 : "bar");
can be optimized into: i++; x = 3; */
len = c_strlen (src, 1);
if (len && TREE_CODE (len) == INTEGER_CST)
{
expand_expr (src, const0_rtx, VOIDmode, EXPAND_NORMAL);
return expand_expr (len, target, target_mode, EXPAND_NORMAL);
}
align = get_pointer_alignment (src, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
/* If SRC is not a pointer type, don't do this operation inline. */
if (align == 0)
return 0;
/* Bail out if we can't compute strlen in the right mode. */
while (insn_mode != VOIDmode)
{
icode = strlen_optab->handlers[(int) insn_mode].insn_code;
if (icode != CODE_FOR_nothing)
break;
insn_mode = GET_MODE_WIDER_MODE (insn_mode);
}
if (insn_mode == VOIDmode)
return 0;
/* Make a place to write the result of the instruction. */
result = target;
if (! (result != 0
&& REG_P (result)
&& GET_MODE (result) == insn_mode
&& REGNO (result) >= FIRST_PSEUDO_REGISTER))
result = gen_reg_rtx (insn_mode);
/* Make a place to hold the source address. We will not expand
the actual source until we are sure that the expansion will
not fail -- there are trees that cannot be expanded twice. */
src_reg = gen_reg_rtx (Pmode);
/* Mark the beginning of the strlen sequence so we can emit the
source operand later. */
before_strlen = get_last_insn ();
char_rtx = const0_rtx;
char_mode = insn_data[(int) icode].operand[2].mode;
if (! (*insn_data[(int) icode].operand[2].predicate) (char_rtx,
char_mode))
char_rtx = copy_to_mode_reg (char_mode, char_rtx);
pat = GEN_FCN (icode) (result, gen_rtx_MEM (BLKmode, src_reg),
char_rtx, GEN_INT (align));
if (! pat)
return 0;
emit_insn (pat);
/* Now that we are assured of success, expand the source. */
start_sequence ();
pat = expand_expr (src, src_reg, ptr_mode, EXPAND_NORMAL);
if (pat != src_reg)
emit_move_insn (src_reg, pat);
pat = get_insns ();
end_sequence ();
if (before_strlen)
emit_insn_after (pat, before_strlen);
else
emit_insn_before (pat, get_insns ());
/* Return the value in the proper mode for this function. */
if (GET_MODE (result) == target_mode)
target = result;
else if (target != 0)
convert_move (target, result, 0);
else
target = convert_to_mode (target_mode, result, 0);
return target;
}
}
/* Expand a call to the strstr builtin. Return 0 if we failed the
caller should emit a normal call, otherwise try to get the result
in TARGET, if convenient (and in mode MODE if that's convenient). */
static rtx
expand_builtin_strstr (tree arglist, tree type, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strstr (arglist, type);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand a call to the strchr builtin. Return 0 if we failed the
caller should emit a normal call, otherwise try to get the result
in TARGET, if convenient (and in mode MODE if that's convenient). */
static rtx
expand_builtin_strchr (tree arglist, tree type, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strchr (arglist, type);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
/* FIXME: Should use strchrM optab so that ports can optimize this. */
}
return 0;
}
/* Expand a call to the strrchr builtin. Return 0 if we failed the
caller should emit a normal call, otherwise try to get the result
in TARGET, if convenient (and in mode MODE if that's convenient). */
static rtx
expand_builtin_strrchr (tree arglist, tree type, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strrchr (arglist, type);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand a call to the strpbrk builtin. Return 0 if we failed the
caller should emit a normal call, otherwise try to get the result
in TARGET, if convenient (and in mode MODE if that's convenient). */
static rtx
expand_builtin_strpbrk (tree arglist, tree type, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strpbrk (arglist, type);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Callback routine for store_by_pieces. Read GET_MODE_BITSIZE (MODE)
bytes from constant string DATA + OFFSET and return it as target
constant. */
static rtx
builtin_memcpy_read_str (void *data, HOST_WIDE_INT offset,
enum machine_mode mode)
{
const char *str = (const char *) data;
gcc_assert (offset >= 0
&& ((unsigned HOST_WIDE_INT) offset + GET_MODE_SIZE (mode)
<= strlen (str) + 1));
return c_readstr (str + offset, mode);
}
/* Expand a call to the memcpy builtin, with arguments in ARGLIST.
Return 0 if we failed, the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient (and in
mode MODE if that's convenient). */
static rtx
expand_builtin_memcpy (tree exp, rtx target, enum machine_mode mode)
{
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree dest = TREE_VALUE (arglist);
tree src = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
const char *src_str;
unsigned int src_align = get_pointer_alignment (src, BIGGEST_ALIGNMENT);
unsigned int dest_align
= get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
rtx dest_mem, src_mem, dest_addr, len_rtx;
tree result = fold_builtin_memcpy (fndecl, arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
/* If DEST is not a pointer type, call the normal function. */
if (dest_align == 0)
return 0;
/* If either SRC is not a pointer type, don't do this
operation in-line. */
if (src_align == 0)
return 0;
dest_mem = get_memory_rtx (dest);
set_mem_align (dest_mem, dest_align);
len_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
src_str = c_getstr (src);
/* If SRC is a string constant and block move would be done
by pieces, we can avoid loading the string from memory
and only stored the computed constants. */
if (src_str
&& GET_CODE (len_rtx) == CONST_INT
&& (unsigned HOST_WIDE_INT) INTVAL (len_rtx) <= strlen (src_str) + 1
&& can_store_by_pieces (INTVAL (len_rtx), builtin_memcpy_read_str,
(void *) src_str, dest_align))
{
dest_mem = store_by_pieces (dest_mem, INTVAL (len_rtx),
builtin_memcpy_read_str,
(void *) src_str, dest_align, 0);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
src_mem = get_memory_rtx (src);
set_mem_align (src_mem, src_align);
/* Copy word part most expediently. */
dest_addr = emit_block_move (dest_mem, src_mem, len_rtx,
BLOCK_OP_NORMAL);
if (dest_addr == 0)
{
dest_addr = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_addr = convert_memory_address (ptr_mode, dest_addr);
}
return dest_addr;
}
}
/* Expand a call to the mempcpy builtin, with arguments in ARGLIST.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient (and in
mode MODE if that's convenient). If ENDP is 0 return the
destination pointer, if ENDP is 1 return the end pointer ala
mempcpy, and if ENDP is 2 return the end pointer minus one ala
stpcpy. */
static rtx
expand_builtin_mempcpy (tree arglist, tree type, rtx target, enum machine_mode mode,
int endp)
{
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
/* If return value is ignored, transform mempcpy into memcpy. */
else if (target == const0_rtx)
{
tree fn = implicit_built_in_decls[BUILT_IN_MEMCPY];
if (!fn)
return 0;
return expand_expr (build_function_call_expr (fn, arglist),
target, mode, EXPAND_NORMAL);
}
else
{
tree dest = TREE_VALUE (arglist);
tree src = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
const char *src_str;
unsigned int src_align = get_pointer_alignment (src, BIGGEST_ALIGNMENT);
unsigned int dest_align
= get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
rtx dest_mem, src_mem, len_rtx;
tree result = fold_builtin_mempcpy (arglist, type, endp);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
/* If either SRC or DEST is not a pointer type, don't do this
operation in-line. */
if (dest_align == 0 || src_align == 0)
return 0;
/* If LEN is not constant, call the normal function. */
if (! host_integerp (len, 1))
return 0;
len_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
src_str = c_getstr (src);
/* If SRC is a string constant and block move would be done
by pieces, we can avoid loading the string from memory
and only stored the computed constants. */
if (src_str
&& GET_CODE (len_rtx) == CONST_INT
&& (unsigned HOST_WIDE_INT) INTVAL (len_rtx) <= strlen (src_str) + 1
&& can_store_by_pieces (INTVAL (len_rtx), builtin_memcpy_read_str,
(void *) src_str, dest_align))
{
dest_mem = get_memory_rtx (dest);
set_mem_align (dest_mem, dest_align);
dest_mem = store_by_pieces (dest_mem, INTVAL (len_rtx),
builtin_memcpy_read_str,
(void *) src_str, dest_align, endp);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
if (GET_CODE (len_rtx) == CONST_INT
&& can_move_by_pieces (INTVAL (len_rtx),
MIN (dest_align, src_align)))
{
dest_mem = get_memory_rtx (dest);
set_mem_align (dest_mem, dest_align);
src_mem = get_memory_rtx (src);
set_mem_align (src_mem, src_align);
dest_mem = move_by_pieces (dest_mem, src_mem, INTVAL (len_rtx),
MIN (dest_align, src_align), endp);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
return 0;
}
}
/* Expand expression EXP, which is a call to the memmove builtin. Return 0
if we failed the caller should emit a normal call. */
static rtx
expand_builtin_memmove (tree arglist, tree type, rtx target,
enum machine_mode mode)
{
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree dest = TREE_VALUE (arglist);
tree src = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
unsigned int src_align = get_pointer_alignment (src, BIGGEST_ALIGNMENT);
unsigned int dest_align
= get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
tree result = fold_builtin_memmove (arglist, type);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
/* If DEST is not a pointer type, call the normal function. */
if (dest_align == 0)
return 0;
/* If either SRC is not a pointer type, don't do this
operation in-line. */
if (src_align == 0)
return 0;
/* If src is categorized for a readonly section we can use
normal memcpy. */
if (readonly_data_expr (src))
{
tree const fn = implicit_built_in_decls[BUILT_IN_MEMCPY];
if (!fn)
return 0;
return expand_expr (build_function_call_expr (fn, arglist),
target, mode, EXPAND_NORMAL);
}
/* If length is 1 and we can expand memcpy call inline,
it is ok to use memcpy as well. */
if (integer_onep (len))
{
rtx ret = expand_builtin_mempcpy (arglist, type, target, mode,
/*endp=*/0);
if (ret)
return ret;
}
/* Otherwise, call the normal function. */
return 0;
}
}
/* Expand expression EXP, which is a call to the bcopy builtin. Return 0
if we failed the caller should emit a normal call. */
static rtx
expand_builtin_bcopy (tree arglist, tree type)
{
tree src, dest, size, newarglist;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return NULL_RTX;
src = TREE_VALUE (arglist);
dest = TREE_VALUE (TREE_CHAIN (arglist));
size = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* New argument list transforming bcopy(ptr x, ptr y, int z) to
memmove(ptr y, ptr x, size_t z). This is done this way
so that if it isn't expanded inline, we fallback to
calling bcopy instead of memmove. */
newarglist = build_tree_list (NULL_TREE, fold_convert (sizetype, size));
newarglist = tree_cons (NULL_TREE, src, newarglist);
newarglist = tree_cons (NULL_TREE, dest, newarglist);
return expand_builtin_memmove (newarglist, type, const0_rtx, VOIDmode);
}
#ifndef HAVE_movstr
# define HAVE_movstr 0
# define CODE_FOR_movstr CODE_FOR_nothing
#endif
/* Expand into a movstr instruction, if one is available. Return 0 if
we failed, the caller should emit a normal call, otherwise try to
get the result in TARGET, if convenient. If ENDP is 0 return the
destination pointer, if ENDP is 1 return the end pointer ala
mempcpy, and if ENDP is 2 return the end pointer minus one ala
stpcpy. */
static rtx
expand_movstr (tree dest, tree src, rtx target, int endp)
{
rtx end;
rtx dest_mem;
rtx src_mem;
rtx insn;
const struct insn_data * data;
if (!HAVE_movstr)
return 0;
dest_mem = get_memory_rtx (dest);
src_mem = get_memory_rtx (src);
if (!endp)
{
target = force_reg (Pmode, XEXP (dest_mem, 0));
dest_mem = replace_equiv_address (dest_mem, target);
end = gen_reg_rtx (Pmode);
}
else
{
if (target == 0 || target == const0_rtx)
{
end = gen_reg_rtx (Pmode);
if (target == 0)
target = end;
}
else
end = target;
}
data = insn_data + CODE_FOR_movstr;
if (data->operand[0].mode != VOIDmode)
end = gen_lowpart (data->operand[0].mode, end);
insn = data->genfun (end, dest_mem, src_mem);
gcc_assert (insn);
emit_insn (insn);
/* movstr is supposed to set end to the address of the NUL
terminator. If the caller requested a mempcpy-like return value,
adjust it. */
if (endp == 1 && target != const0_rtx)
{
rtx tem = plus_constant (gen_lowpart (GET_MODE (target), end), 1);
emit_move_insn (target, force_operand (tem, NULL_RTX));
}
return target;
}
/* Expand expression EXP, which is a call to the strcpy builtin. Return 0
if we failed the caller should emit a normal call, otherwise try to get
the result in TARGET, if convenient (and in mode MODE if that's
convenient). */
static rtx
expand_builtin_strcpy (tree exp, rtx target, enum machine_mode mode)
{
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strcpy (fndecl, arglist, 0);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
return expand_movstr (TREE_VALUE (arglist),
TREE_VALUE (TREE_CHAIN (arglist)),
target, /*endp=*/0);
}
return 0;
}
/* Expand a call to the stpcpy builtin, with arguments in ARGLIST.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient (and in
mode MODE if that's convenient). */
static rtx
expand_builtin_stpcpy (tree exp, rtx target, enum machine_mode mode)
{
tree arglist = TREE_OPERAND (exp, 1);
/* If return value is ignored, transform stpcpy into strcpy. */
if (target == const0_rtx)
{
tree fn = implicit_built_in_decls[BUILT_IN_STRCPY];
if (!fn)
return 0;
return expand_expr (build_function_call_expr (fn, arglist),
target, mode, EXPAND_NORMAL);
}
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree dst, src, len, lenp1;
tree narglist;
rtx ret;
/* Ensure we get an actual string whose length can be evaluated at
compile-time, not an expression containing a string. This is
because the latter will potentially produce pessimized code
when used to produce the return value. */
src = TREE_VALUE (TREE_CHAIN (arglist));
if (! c_getstr (src) || ! (len = c_strlen (src, 0)))
return expand_movstr (TREE_VALUE (arglist),
TREE_VALUE (TREE_CHAIN (arglist)),
target, /*endp=*/2);
dst = TREE_VALUE (arglist);
lenp1 = size_binop (PLUS_EXPR, len, ssize_int (1));
narglist = build_tree_list (NULL_TREE, lenp1);
narglist = tree_cons (NULL_TREE, src, narglist);
narglist = tree_cons (NULL_TREE, dst, narglist);
ret = expand_builtin_mempcpy (narglist, TREE_TYPE (exp),
target, mode, /*endp=*/2);
if (ret)
return ret;
if (TREE_CODE (len) == INTEGER_CST)
{
rtx len_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
if (GET_CODE (len_rtx) == CONST_INT)
{
ret = expand_builtin_strcpy (exp, target, mode);
if (ret)
{
if (! target)
{
if (mode != VOIDmode)
target = gen_reg_rtx (mode);
else
target = gen_reg_rtx (GET_MODE (ret));
}
if (GET_MODE (target) != GET_MODE (ret))
ret = gen_lowpart (GET_MODE (target), ret);
ret = plus_constant (ret, INTVAL (len_rtx));
ret = emit_move_insn (target, force_operand (ret, NULL_RTX));
gcc_assert (ret);
return target;
}
}
}
return expand_movstr (TREE_VALUE (arglist),
TREE_VALUE (TREE_CHAIN (arglist)),
target, /*endp=*/2);
}
}
/* Callback routine for store_by_pieces. Read GET_MODE_BITSIZE (MODE)
bytes from constant string DATA + OFFSET and return it as target
constant. */
static rtx
builtin_strncpy_read_str (void *data, HOST_WIDE_INT offset,
enum machine_mode mode)
{
const char *str = (const char *) data;
if ((unsigned HOST_WIDE_INT) offset > strlen (str))
return const0_rtx;
return c_readstr (str + offset, mode);
}
/* Expand expression EXP, which is a call to the strncpy builtin. Return 0
if we failed the caller should emit a normal call. */
static rtx
expand_builtin_strncpy (tree exp, rtx target, enum machine_mode mode)
{
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
if (validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
{
tree slen = c_strlen (TREE_VALUE (TREE_CHAIN (arglist)), 1);
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
tree result = fold_builtin_strncpy (fndecl, arglist, slen);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
/* We must be passed a constant len and src parameter. */
if (!host_integerp (len, 1) || !slen || !host_integerp (slen, 1))
return 0;
slen = size_binop (PLUS_EXPR, slen, ssize_int (1));
/* We're required to pad with trailing zeros if the requested
len is greater than strlen(s2)+1. In that case try to
use store_by_pieces, if it fails, punt. */
if (tree_int_cst_lt (slen, len))
{
tree dest = TREE_VALUE (arglist);
unsigned int dest_align
= get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
const char *p = c_getstr (TREE_VALUE (TREE_CHAIN (arglist)));
rtx dest_mem;
if (!p || dest_align == 0 || !host_integerp (len, 1)
|| !can_store_by_pieces (tree_low_cst (len, 1),
builtin_strncpy_read_str,
(void *) p, dest_align))
return 0;
dest_mem = get_memory_rtx (dest);
store_by_pieces (dest_mem, tree_low_cst (len, 1),
builtin_strncpy_read_str,
(void *) p, dest_align, 0);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
}
return 0;
}
/* Callback routine for store_by_pieces. Read GET_MODE_BITSIZE (MODE)
bytes from constant string DATA + OFFSET and return it as target
constant. */
static rtx
builtin_memset_read_str (void *data, HOST_WIDE_INT offset ATTRIBUTE_UNUSED,
enum machine_mode mode)
{
const char *c = (const char *) data;
char *p = alloca (GET_MODE_SIZE (mode));
memset (p, *c, GET_MODE_SIZE (mode));
return c_readstr (p, mode);
}
/* Callback routine for store_by_pieces. Return the RTL of a register
containing GET_MODE_SIZE (MODE) consecutive copies of the unsigned
char value given in the RTL register data. For example, if mode is
4 bytes wide, return the RTL for 0x01010101*data. */
static rtx
builtin_memset_gen_str (void *data, HOST_WIDE_INT offset ATTRIBUTE_UNUSED,
enum machine_mode mode)
{
rtx target, coeff;
size_t size;
char *p;
size = GET_MODE_SIZE (mode);
if (size == 1)
return (rtx) data;
p = alloca (size);
memset (p, 1, size);
coeff = c_readstr (p, mode);
target = convert_to_mode (mode, (rtx) data, 1);
target = expand_mult (mode, target, coeff, NULL_RTX, 1);
return force_reg (mode, target);
}
/* Expand expression EXP, which is a call to the memset builtin. Return 0
if we failed the caller should emit a normal call, otherwise try to get
the result in TARGET, if convenient (and in mode MODE if that's
convenient). */
static rtx
expand_builtin_memset (tree arglist, rtx target, enum machine_mode mode)
{
if (!validate_arglist (arglist,
POINTER_TYPE, INTEGER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree dest = TREE_VALUE (arglist);
tree val = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
char c;
unsigned int dest_align
= get_pointer_alignment (dest, BIGGEST_ALIGNMENT);
rtx dest_mem, dest_addr, len_rtx;
/* If DEST is not a pointer type, don't do this
operation in-line. */
if (dest_align == 0)
return 0;
/* If the LEN parameter is zero, return DEST. */
if (integer_zerop (len))
{
/* Evaluate and ignore VAL in case it has side-effects. */
expand_expr (val, const0_rtx, VOIDmode, EXPAND_NORMAL);
return expand_expr (dest, target, mode, EXPAND_NORMAL);
}
if (TREE_CODE (val) != INTEGER_CST)
{
rtx val_rtx;
if (!host_integerp (len, 1))
return 0;
if (optimize_size && tree_low_cst (len, 1) > 1)
return 0;
/* Assume that we can memset by pieces if we can store the
* the coefficients by pieces (in the required modes).
* We can't pass builtin_memset_gen_str as that emits RTL. */
c = 1;
if (!can_store_by_pieces (tree_low_cst (len, 1),
builtin_memset_read_str,
&c, dest_align))
return 0;
val = fold (build1 (CONVERT_EXPR, unsigned_char_type_node, val));
val_rtx = expand_expr (val, NULL_RTX, VOIDmode, 0);
val_rtx = force_reg (TYPE_MODE (unsigned_char_type_node),
val_rtx);
dest_mem = get_memory_rtx (dest);
store_by_pieces (dest_mem, tree_low_cst (len, 1),
builtin_memset_gen_str,
val_rtx, dest_align, 0);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
if (target_char_cast (val, &c))
return 0;
if (c)
{
if (!host_integerp (len, 1))
return 0;
if (!can_store_by_pieces (tree_low_cst (len, 1),
builtin_memset_read_str, &c,
dest_align))
return 0;
dest_mem = get_memory_rtx (dest);
store_by_pieces (dest_mem, tree_low_cst (len, 1),
builtin_memset_read_str,
&c, dest_align, 0);
dest_mem = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_mem = convert_memory_address (ptr_mode, dest_mem);
return dest_mem;
}
len_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
dest_mem = get_memory_rtx (dest);
set_mem_align (dest_mem, dest_align);
dest_addr = clear_storage (dest_mem, len_rtx);
if (dest_addr == 0)
{
dest_addr = force_operand (XEXP (dest_mem, 0), NULL_RTX);
dest_addr = convert_memory_address (ptr_mode, dest_addr);
}
return dest_addr;
}
}
/* Expand expression EXP, which is a call to the bzero builtin. Return 0
if we failed the caller should emit a normal call. */
static rtx
expand_builtin_bzero (tree arglist)
{
tree dest, size, newarglist;
if (!validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return NULL_RTX;
dest = TREE_VALUE (arglist);
size = TREE_VALUE (TREE_CHAIN (arglist));
/* New argument list transforming bzero(ptr x, int y) to
memset(ptr x, int 0, size_t y). This is done this way
so that if it isn't expanded inline, we fallback to
calling bzero instead of memset. */
newarglist = build_tree_list (NULL_TREE, fold_convert (sizetype, size));
newarglist = tree_cons (NULL_TREE, integer_zero_node, newarglist);
newarglist = tree_cons (NULL_TREE, dest, newarglist);
return expand_builtin_memset (newarglist, const0_rtx, VOIDmode);
}
/* Expand expression EXP, which is a call to the memcmp built-in function.
ARGLIST is the argument list for this call. Return 0 if we failed and the
caller should emit a normal call, otherwise try to get the result in
TARGET, if convenient (and in mode MODE, if that's convenient). */
static rtx
expand_builtin_memcmp (tree exp ATTRIBUTE_UNUSED, tree arglist, rtx target,
enum machine_mode mode)
{
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree result = fold_builtin_memcmp (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
#if defined HAVE_cmpmemsi || defined HAVE_cmpstrsi
{
tree arg1 = TREE_VALUE (arglist);
tree arg2 = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
rtx arg1_rtx, arg2_rtx, arg3_rtx;
rtx result;
rtx insn;
int arg1_align
= get_pointer_alignment (arg1, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
int arg2_align
= get_pointer_alignment (arg2, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
enum machine_mode insn_mode;
#ifdef HAVE_cmpmemsi
if (HAVE_cmpmemsi)
insn_mode = insn_data[(int) CODE_FOR_cmpmemsi].operand[0].mode;
else
#endif
#ifdef HAVE_cmpstrsi
if (HAVE_cmpstrsi)
insn_mode = insn_data[(int) CODE_FOR_cmpstrsi].operand[0].mode;
else
#endif
return 0;
/* If we don't have POINTER_TYPE, call the function. */
if (arg1_align == 0 || arg2_align == 0)
return 0;
/* Make a place to write the result of the instruction. */
result = target;
if (! (result != 0
&& REG_P (result) && GET_MODE (result) == insn_mode
&& REGNO (result) >= FIRST_PSEUDO_REGISTER))
result = gen_reg_rtx (insn_mode);
arg1_rtx = get_memory_rtx (arg1);
arg2_rtx = get_memory_rtx (arg2);
arg3_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
/* Set MEM_SIZE as appropriate. */
if (GET_CODE (arg3_rtx) == CONST_INT)
{
set_mem_size (arg1_rtx, arg3_rtx);
set_mem_size (arg2_rtx, arg3_rtx);
}
#ifdef HAVE_cmpmemsi
if (HAVE_cmpmemsi)
insn = gen_cmpmemsi (result, arg1_rtx, arg2_rtx, arg3_rtx,
GEN_INT (MIN (arg1_align, arg2_align)));
else
#endif
#ifdef HAVE_cmpstrsi
if (HAVE_cmpstrsi)
insn = gen_cmpstrsi (result, arg1_rtx, arg2_rtx, arg3_rtx,
GEN_INT (MIN (arg1_align, arg2_align)));
else
#endif
gcc_unreachable ();
if (insn)
emit_insn (insn);
else
emit_library_call_value (memcmp_libfunc, result, LCT_PURE_MAKE_BLOCK,
TYPE_MODE (integer_type_node), 3,
XEXP (arg1_rtx, 0), Pmode,
XEXP (arg2_rtx, 0), Pmode,
convert_to_mode (TYPE_MODE (sizetype), arg3_rtx,
TYPE_UNSIGNED (sizetype)),
TYPE_MODE (sizetype));
/* Return the value in the proper mode for this function. */
mode = TYPE_MODE (TREE_TYPE (exp));
if (GET_MODE (result) == mode)
return result;
else if (target != 0)
{
convert_move (target, result, 0);
return target;
}
else
return convert_to_mode (mode, result, 0);
}
#endif
return 0;
}
/* Expand expression EXP, which is a call to the strcmp builtin. Return 0
if we failed the caller should emit a normal call, otherwise try to get
the result in TARGET, if convenient. */
static rtx
expand_builtin_strcmp (tree exp, rtx target, enum machine_mode mode)
{
tree arglist = TREE_OPERAND (exp, 1);
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree result = fold_builtin_strcmp (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
#ifdef HAVE_cmpstrsi
if (HAVE_cmpstrsi)
{
tree arg1 = TREE_VALUE (arglist);
tree arg2 = TREE_VALUE (TREE_CHAIN (arglist));
tree len, len1, len2;
rtx arg1_rtx, arg2_rtx, arg3_rtx;
rtx result, insn;
tree fndecl;
int arg1_align
= get_pointer_alignment (arg1, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
int arg2_align
= get_pointer_alignment (arg2, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
enum machine_mode insn_mode
= insn_data[(int) CODE_FOR_cmpstrsi].operand[0].mode;
len1 = c_strlen (arg1, 1);
len2 = c_strlen (arg2, 1);
if (len1)
len1 = size_binop (PLUS_EXPR, ssize_int (1), len1);
if (len2)
len2 = size_binop (PLUS_EXPR, ssize_int (1), len2);
/* If we don't have a constant length for the first, use the length
of the second, if we know it. We don't require a constant for
this case; some cost analysis could be done if both are available
but neither is constant. For now, assume they're equally cheap,
unless one has side effects. If both strings have constant lengths,
use the smaller. */
if (!len1)
len = len2;
else if (!len2)
len = len1;
else if (TREE_SIDE_EFFECTS (len1))
len = len2;
else if (TREE_SIDE_EFFECTS (len2))
len = len1;
else if (TREE_CODE (len1) != INTEGER_CST)
len = len2;
else if (TREE_CODE (len2) != INTEGER_CST)
len = len1;
else if (tree_int_cst_lt (len1, len2))
len = len1;
else
len = len2;
/* If both arguments have side effects, we cannot optimize. */
if (!len || TREE_SIDE_EFFECTS (len))
return 0;
/* If we don't have POINTER_TYPE, call the function. */
if (arg1_align == 0 || arg2_align == 0)
return 0;
/* Make a place to write the result of the instruction. */
result = target;
if (! (result != 0
&& REG_P (result) && GET_MODE (result) == insn_mode
&& REGNO (result) >= FIRST_PSEUDO_REGISTER))
result = gen_reg_rtx (insn_mode);
/* Stabilize the arguments in case gen_cmpstrsi fails. */
arg1 = builtin_save_expr (arg1);
arg2 = builtin_save_expr (arg2);
arg1_rtx = get_memory_rtx (arg1);
arg2_rtx = get_memory_rtx (arg2);
arg3_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
insn = gen_cmpstrsi (result, arg1_rtx, arg2_rtx, arg3_rtx,
GEN_INT (MIN (arg1_align, arg2_align)));
if (insn)
{
emit_insn (insn);
/* Return the value in the proper mode for this function. */
mode = TYPE_MODE (TREE_TYPE (exp));
if (GET_MODE (result) == mode)
return result;
if (target == 0)
return convert_to_mode (mode, result, 0);
convert_move (target, result, 0);
return target;
}
/* Expand the library call ourselves using a stabilized argument
list to avoid re-evaluating the function's arguments twice. */
arglist = build_tree_list (NULL_TREE, arg2);
arglist = tree_cons (NULL_TREE, arg1, arglist);
fndecl = get_callee_fndecl (exp);
exp = build_function_call_expr (fndecl, arglist);
return expand_call (exp, target, target == const0_rtx);
}
#endif
return 0;
}
/* Expand expression EXP, which is a call to the strncmp builtin. Return 0
if we failed the caller should emit a normal call, otherwise try to get
the result in TARGET, if convenient. */
static rtx
expand_builtin_strncmp (tree exp, rtx target, enum machine_mode mode)
{
tree arglist = TREE_OPERAND (exp, 1);
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree result = fold_builtin_strncmp (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
/* If c_strlen can determine an expression for one of the string
lengths, and it doesn't have side effects, then emit cmpstrsi
using length MIN(strlen(string)+1, arg3). */
#ifdef HAVE_cmpstrsi
if (HAVE_cmpstrsi)
{
tree arg1 = TREE_VALUE (arglist);
tree arg2 = TREE_VALUE (TREE_CHAIN (arglist));
tree arg3 = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
tree len, len1, len2;
rtx arg1_rtx, arg2_rtx, arg3_rtx;
rtx result, insn;
tree fndecl;
int arg1_align
= get_pointer_alignment (arg1, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
int arg2_align
= get_pointer_alignment (arg2, BIGGEST_ALIGNMENT) / BITS_PER_UNIT;
enum machine_mode insn_mode
= insn_data[(int) CODE_FOR_cmpstrsi].operand[0].mode;
len1 = c_strlen (arg1, 1);
len2 = c_strlen (arg2, 1);
if (len1)
len1 = size_binop (PLUS_EXPR, ssize_int (1), len1);
if (len2)
len2 = size_binop (PLUS_EXPR, ssize_int (1), len2);
/* If we don't have a constant length for the first, use the length
of the second, if we know it. We don't require a constant for
this case; some cost analysis could be done if both are available
but neither is constant. For now, assume they're equally cheap,
unless one has side effects. If both strings have constant lengths,
use the smaller. */
if (!len1)
len = len2;
else if (!len2)
len = len1;
else if (TREE_SIDE_EFFECTS (len1))
len = len2;
else if (TREE_SIDE_EFFECTS (len2))
len = len1;
else if (TREE_CODE (len1) != INTEGER_CST)
len = len2;
else if (TREE_CODE (len2) != INTEGER_CST)
len = len1;
else if (tree_int_cst_lt (len1, len2))
len = len1;
else
len = len2;
/* If both arguments have side effects, we cannot optimize. */
if (!len || TREE_SIDE_EFFECTS (len))
return 0;
/* The actual new length parameter is MIN(len,arg3). */
len = fold (build2 (MIN_EXPR, TREE_TYPE (len), len,
fold_convert (TREE_TYPE (len), arg3)));
/* If we don't have POINTER_TYPE, call the function. */
if (arg1_align == 0 || arg2_align == 0)
return 0;
/* Make a place to write the result of the instruction. */
result = target;
if (! (result != 0
&& REG_P (result) && GET_MODE (result) == insn_mode
&& REGNO (result) >= FIRST_PSEUDO_REGISTER))
result = gen_reg_rtx (insn_mode);
/* Stabilize the arguments in case gen_cmpstrsi fails. */
arg1 = builtin_save_expr (arg1);
arg2 = builtin_save_expr (arg2);
len = builtin_save_expr (len);
arg1_rtx = get_memory_rtx (arg1);
arg2_rtx = get_memory_rtx (arg2);
arg3_rtx = expand_expr (len, NULL_RTX, VOIDmode, 0);
insn = gen_cmpstrsi (result, arg1_rtx, arg2_rtx, arg3_rtx,
GEN_INT (MIN (arg1_align, arg2_align)));
if (insn)
{
emit_insn (insn);
/* Return the value in the proper mode for this function. */
mode = TYPE_MODE (TREE_TYPE (exp));
if (GET_MODE (result) == mode)
return result;
if (target == 0)
return convert_to_mode (mode, result, 0);
convert_move (target, result, 0);
return target;
}
/* Expand the library call ourselves using a stabilized argument
list to avoid re-evaluating the function's arguments twice. */
arglist = build_tree_list (NULL_TREE, len);
arglist = tree_cons (NULL_TREE, arg2, arglist);
arglist = tree_cons (NULL_TREE, arg1, arglist);
fndecl = get_callee_fndecl (exp);
exp = build_function_call_expr (fndecl, arglist);
return expand_call (exp, target, target == const0_rtx);
}
#endif
return 0;
}
/* Expand expression EXP, which is a call to the strcat builtin.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient. */
static rtx
expand_builtin_strcat (tree arglist, tree type, rtx target, enum machine_mode mode)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree dst = TREE_VALUE (arglist),
src = TREE_VALUE (TREE_CHAIN (arglist));
const char *p = c_getstr (src);
if (p)
{
/* If the string length is zero, return the dst parameter. */
if (*p == '\0')
return expand_expr (dst, target, mode, EXPAND_NORMAL);
else if (!optimize_size)
{
/* Otherwise if !optimize_size, see if we can store by
pieces into (dst + strlen(dst)). */
tree newdst, arglist,
strlen_fn = implicit_built_in_decls[BUILT_IN_STRLEN];
/* This is the length argument. */
arglist = build_tree_list (NULL_TREE,
fold (size_binop (PLUS_EXPR,
c_strlen (src, 0),
ssize_int (1))));
/* Prepend src argument. */
arglist = tree_cons (NULL_TREE, src, arglist);
/* We're going to use dst more than once. */
dst = builtin_save_expr (dst);
/* Create strlen (dst). */
newdst =
fold (build_function_call_expr (strlen_fn,
build_tree_list (NULL_TREE,
dst)));
/* Create (dst + strlen (dst)). */
newdst = fold (build2 (PLUS_EXPR, TREE_TYPE (dst), dst, newdst));
/* Prepend the new dst argument. */
arglist = tree_cons (NULL_TREE, newdst, arglist);
/* We don't want to get turned into a memcpy if the
target is const0_rtx, i.e. when the return value
isn't used. That would produce pessimized code so
pass in a target of zero, it should never actually be
used. If this was successful return the original
dst, not the result of mempcpy. */
if (expand_builtin_mempcpy (arglist, type, /*target=*/0, mode, /*endp=*/0))
return expand_expr (dst, target, mode, EXPAND_NORMAL);
else
return 0;
}
}
return 0;
}
}
/* Expand expression EXP, which is a call to the strncat builtin.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient. */
static rtx
expand_builtin_strncat (tree arglist, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strncat (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand expression EXP, which is a call to the strspn builtin.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient. */
static rtx
expand_builtin_strspn (tree arglist, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strspn (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand expression EXP, which is a call to the strcspn builtin.
Return 0 if we failed the caller should emit a normal call,
otherwise try to get the result in TARGET, if convenient. */
static rtx
expand_builtin_strcspn (tree arglist, rtx target, enum machine_mode mode)
{
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_strcspn (arglist);
if (result)
return expand_expr (result, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand a call to __builtin_saveregs, generating the result in TARGET,
if that's convenient. */
rtx
expand_builtin_saveregs (void)
{
rtx val, seq;
/* Don't do __builtin_saveregs more than once in a function.
Save the result of the first call and reuse it. */
if (saveregs_value != 0)
return saveregs_value;
/* When this function is called, it means that registers must be
saved on entry to this function. So we migrate the call to the
first insn of this function. */
start_sequence ();
/* Do whatever the machine needs done in this case. */
val = targetm.calls.expand_builtin_saveregs ();
seq = get_insns ();
end_sequence ();
saveregs_value = val;
/* Put the insns after the NOTE that starts the function. If this
is inside a start_sequence, make the outer-level insn chain current, so
the code is placed at the start of the function. */
push_topmost_sequence ();
emit_insn_after (seq, entry_of_function ());
pop_topmost_sequence ();
return val;
}
/* __builtin_args_info (N) returns word N of the arg space info
for the current function. The number and meanings of words
is controlled by the definition of CUMULATIVE_ARGS. */
static rtx
expand_builtin_args_info (tree arglist)
{
int nwords = sizeof (CUMULATIVE_ARGS) / sizeof (int);
int *word_ptr = (int *) ¤t_function_args_info;
gcc_assert (sizeof (CUMULATIVE_ARGS) % sizeof (int) == 0);
if (arglist != 0)
{
if (!host_integerp (TREE_VALUE (arglist), 0))
error ("argument of %<__builtin_args_info%> must be constant");
else
{
HOST_WIDE_INT wordnum = tree_low_cst (TREE_VALUE (arglist), 0);
if (wordnum < 0 || wordnum >= nwords)
error ("argument of %<__builtin_args_info%> out of range");
else
return GEN_INT (word_ptr[wordnum]);
}
}
else
error ("missing argument in %<__builtin_args_info%>");
return const0_rtx;
}
/* Expand a call to __builtin_next_arg. */
static rtx
expand_builtin_next_arg (void)
{
/* Checking arguments is already done in fold_builtin_next_arg
that must be called before this function. */
return expand_binop (Pmode, add_optab,
current_function_internal_arg_pointer,
current_function_arg_offset_rtx,
NULL_RTX, 0, OPTAB_LIB_WIDEN);
}
/* Make it easier for the backends by protecting the valist argument
from multiple evaluations. */
static tree
stabilize_va_list (tree valist, int needs_lvalue)
{
if (TREE_CODE (va_list_type_node) == ARRAY_TYPE)
{
if (TREE_SIDE_EFFECTS (valist))
valist = save_expr (valist);
/* For this case, the backends will be expecting a pointer to
TREE_TYPE (va_list_type_node), but it's possible we've
actually been given an array (an actual va_list_type_node).
So fix it. */
if (TREE_CODE (TREE_TYPE (valist)) == ARRAY_TYPE)
{
tree p1 = build_pointer_type (TREE_TYPE (va_list_type_node));
valist = build_fold_addr_expr_with_type (valist, p1);
}
}
else
{
tree pt;
if (! needs_lvalue)
{
if (! TREE_SIDE_EFFECTS (valist))
return valist;
pt = build_pointer_type (va_list_type_node);
valist = fold (build1 (ADDR_EXPR, pt, valist));
TREE_SIDE_EFFECTS (valist) = 1;
}
if (TREE_SIDE_EFFECTS (valist))
valist = save_expr (valist);
valist = build_fold_indirect_ref (valist);
}
return valist;
}
/* The "standard" definition of va_list is void*. */
tree
std_build_builtin_va_list (void)
{
return ptr_type_node;
}
/* The "standard" implementation of va_start: just assign `nextarg' to
the variable. */
void
std_expand_builtin_va_start (tree valist, rtx nextarg)
{
tree t;
t = build2 (MODIFY_EXPR, TREE_TYPE (valist), valist,
make_tree (ptr_type_node, nextarg));
TREE_SIDE_EFFECTS (t) = 1;
expand_expr (t, const0_rtx, VOIDmode, EXPAND_NORMAL);
}
/* Expand ARGLIST, from a call to __builtin_va_start. */
static rtx
expand_builtin_va_start (tree arglist)
{
rtx nextarg;
tree chain, valist;
chain = TREE_CHAIN (arglist);
if (!chain)
{
error ("too few arguments to function %<va_start%>");
return const0_rtx;
}
if (fold_builtin_next_arg (chain))
return const0_rtx;
nextarg = expand_builtin_next_arg ();
valist = stabilize_va_list (TREE_VALUE (arglist), 1);
#ifdef EXPAND_BUILTIN_VA_START
EXPAND_BUILTIN_VA_START (valist, nextarg);
#else
std_expand_builtin_va_start (valist, nextarg);
#endif
return const0_rtx;
}
/* The "standard" implementation of va_arg: read the value from the
current (padded) address and increment by the (padded) size. */
tree
std_gimplify_va_arg_expr (tree valist, tree type, tree *pre_p, tree *post_p)
{
tree addr, t, type_size, rounded_size, valist_tmp;
unsigned HOST_WIDE_INT align, boundary;
bool indirect;
#ifdef ARGS_GROW_DOWNWARD
/* All of the alignment and movement below is for args-grow-up machines.
As of 2004, there are only 3 ARGS_GROW_DOWNWARD targets, and they all
implement their own specialized gimplify_va_arg_expr routines. */
gcc_unreachable ();
#endif
indirect = pass_by_reference (NULL, TYPE_MODE (type), type, false);
if (indirect)
type = build_pointer_type (type);
align = PARM_BOUNDARY / BITS_PER_UNIT;
boundary = FUNCTION_ARG_BOUNDARY (TYPE_MODE (type), type) / BITS_PER_UNIT;
/* Hoist the valist value into a temporary for the moment. */
valist_tmp = get_initialized_tmp_var (valist, pre_p, NULL);
/* va_list pointer is aligned to PARM_BOUNDARY. If argument actually
requires greater alignment, we must perform dynamic alignment. */
if (boundary > align)
{
t = fold_convert (TREE_TYPE (valist), size_int (boundary - 1));
t = build2 (MODIFY_EXPR, TREE_TYPE (valist), valist_tmp,
build2 (PLUS_EXPR, TREE_TYPE (valist), valist_tmp, t));
gimplify_and_add (t, pre_p);
t = fold_convert (TREE_TYPE (valist), size_int (-boundary));
t = build2 (MODIFY_EXPR, TREE_TYPE (valist), valist_tmp,
build2 (BIT_AND_EXPR, TREE_TYPE (valist), valist_tmp, t));
gimplify_and_add (t, pre_p);
}
else
boundary = align;
/* If the actual alignment is less than the alignment of the type,
adjust the type accordingly so that we don't assume strict alignment
when deferencing the pointer. */
boundary *= BITS_PER_UNIT;
if (boundary < TYPE_ALIGN (type))
{
type = build_variant_type_copy (type);
TYPE_ALIGN (type) = boundary;
}
/* Compute the rounded size of the type. */
type_size = size_in_bytes (type);
rounded_size = round_up (type_size, align);
/* Reduce rounded_size so it's sharable with the postqueue. */
gimplify_expr (&rounded_size, pre_p, post_p, is_gimple_val, fb_rvalue);
/* Get AP. */
addr = valist_tmp;
if (PAD_VARARGS_DOWN && !integer_zerop (rounded_size))
{
/* Small args are padded downward. */
t = fold (build2 (GT_EXPR, sizetype, rounded_size, size_int (align)));
t = fold (build3 (COND_EXPR, sizetype, t, size_zero_node,
size_binop (MINUS_EXPR, rounded_size, type_size)));
t = fold_convert (TREE_TYPE (addr), t);
addr = fold (build2 (PLUS_EXPR, TREE_TYPE (addr), addr, t));
}
/* Compute new value for AP. */
t = fold_convert (TREE_TYPE (valist), rounded_size);
t = build2 (PLUS_EXPR, TREE_TYPE (valist), valist_tmp, t);
t = build2 (MODIFY_EXPR, TREE_TYPE (valist), valist, t);
gimplify_and_add (t, pre_p);
addr = fold_convert (build_pointer_type (type), addr);
if (indirect)
addr = build_va_arg_indirect_ref (addr);
return build_va_arg_indirect_ref (addr);
}
/* Build an indirect-ref expression over the given TREE, which represents a
piece of a va_arg() expansion. */
tree
build_va_arg_indirect_ref (tree addr)
{
addr = build_fold_indirect_ref (addr);
if (flag_mudflap) /* Don't instrument va_arg INDIRECT_REF. */
mf_mark (addr);
return addr;
}
/* Return a dummy expression of type TYPE in order to keep going after an
error. */
static tree
dummy_object (tree type)
{
tree t = convert (build_pointer_type (type), null_pointer_node);
return build1 (INDIRECT_REF, type, t);
}
/* Gimplify __builtin_va_arg, aka VA_ARG_EXPR, which is not really a
builtin function, but a very special sort of operator. */
enum gimplify_status
gimplify_va_arg_expr (tree *expr_p, tree *pre_p, tree *post_p)
{
tree promoted_type, want_va_type, have_va_type;
tree valist = TREE_OPERAND (*expr_p, 0);
tree type = TREE_TYPE (*expr_p);
tree t;
/* Verify that valist is of the proper type. */
want_va_type = va_list_type_node;
have_va_type = TREE_TYPE (valist);
if (have_va_type == error_mark_node)
return GS_ERROR;
if (TREE_CODE (want_va_type) == ARRAY_TYPE)
{
/* If va_list is an array type, the argument may have decayed
to a pointer type, e.g. by being passed to another function.
In that case, unwrap both types so that we can compare the
underlying records. */
if (TREE_CODE (have_va_type) == ARRAY_TYPE
|| POINTER_TYPE_P (have_va_type))
{
want_va_type = TREE_TYPE (want_va_type);
have_va_type = TREE_TYPE (have_va_type);
}
}
if (TYPE_MAIN_VARIANT (want_va_type) != TYPE_MAIN_VARIANT (have_va_type))
{
error ("first argument to %<va_arg%> not of type %<va_list%>");
return GS_ERROR;
}
/* Generate a diagnostic for requesting data of a type that cannot
be passed through `...' due to type promotion at the call site. */
else if ((promoted_type = lang_hooks.types.type_promotes_to (type))
!= type)
{
static bool gave_help;
/* Unfortunately, this is merely undefined, rather than a constraint
violation, so we cannot make this an error. If this call is never
executed, the program is still strictly conforming. */
warning ("%qT is promoted to %qT when passed through %<...%>",
type, promoted_type);
if (! gave_help)
{
gave_help = true;
warning ("(so you should pass %qT not %qT to %<va_arg%>)",
promoted_type, type);
}
/* We can, however, treat "undefined" any way we please.
Call abort to encourage the user to fix the program. */
inform ("if this code is reached, the program will abort");
t = build_function_call_expr (implicit_built_in_decls[BUILT_IN_TRAP],
NULL);
append_to_statement_list (t, pre_p);
/* This is dead code, but go ahead and finish so that the
mode of the result comes out right. */
*expr_p = dummy_object (type);
return GS_ALL_DONE;
}
else
{
/* Make it easier for the backends by protecting the valist argument
from multiple evaluations. */
if (TREE_CODE (va_list_type_node) == ARRAY_TYPE)
{
/* For this case, the backends will be expecting a pointer to
TREE_TYPE (va_list_type_node), but it's possible we've
actually been given an array (an actual va_list_type_node).
So fix it. */
if (TREE_CODE (TREE_TYPE (valist)) == ARRAY_TYPE)
{
tree p1 = build_pointer_type (TREE_TYPE (va_list_type_node));
valist = build_fold_addr_expr_with_type (valist, p1);
}
gimplify_expr (&valist, pre_p, post_p, is_gimple_val, fb_rvalue);
}
else
gimplify_expr (&valist, pre_p, post_p, is_gimple_min_lval, fb_lvalue);
if (!targetm.gimplify_va_arg_expr)
/* Once most targets are converted this should abort. */
return GS_ALL_DONE;
*expr_p = targetm.gimplify_va_arg_expr (valist, type, pre_p, post_p);
return GS_OK;
}
}
/* Expand ARGLIST, from a call to __builtin_va_end. */
static rtx
expand_builtin_va_end (tree arglist)
{
tree valist = TREE_VALUE (arglist);
/* Evaluate for side effects, if needed. I hate macros that don't
do that. */
if (TREE_SIDE_EFFECTS (valist))
expand_expr (valist, const0_rtx, VOIDmode, EXPAND_NORMAL);
return const0_rtx;
}
/* Expand ARGLIST, from a call to __builtin_va_copy. We do this as a
builtin rather than just as an assignment in stdarg.h because of the
nastiness of array-type va_list types. */
static rtx
expand_builtin_va_copy (tree arglist)
{
tree dst, src, t;
dst = TREE_VALUE (arglist);
src = TREE_VALUE (TREE_CHAIN (arglist));
dst = stabilize_va_list (dst, 1);
src = stabilize_va_list (src, 0);
if (TREE_CODE (va_list_type_node) != ARRAY_TYPE)
{
t = build2 (MODIFY_EXPR, va_list_type_node, dst, src);
TREE_SIDE_EFFECTS (t) = 1;
expand_expr (t, const0_rtx, VOIDmode, EXPAND_NORMAL);
}
else
{
rtx dstb, srcb, size;
/* Evaluate to pointers. */
dstb = expand_expr (dst, NULL_RTX, Pmode, EXPAND_NORMAL);
srcb = expand_expr (src, NULL_RTX, Pmode, EXPAND_NORMAL);
size = expand_expr (TYPE_SIZE_UNIT (va_list_type_node), NULL_RTX,
VOIDmode, EXPAND_NORMAL);
dstb = convert_memory_address (Pmode, dstb);
srcb = convert_memory_address (Pmode, srcb);
/* "Dereference" to BLKmode memories. */
dstb = gen_rtx_MEM (BLKmode, dstb);
set_mem_alias_set (dstb, get_alias_set (TREE_TYPE (TREE_TYPE (dst))));
set_mem_align (dstb, TYPE_ALIGN (va_list_type_node));
srcb = gen_rtx_MEM (BLKmode, srcb);
set_mem_alias_set (srcb, get_alias_set (TREE_TYPE (TREE_TYPE (src))));
set_mem_align (srcb, TYPE_ALIGN (va_list_type_node));
/* Copy. */
emit_block_move (dstb, srcb, size, BLOCK_OP_NORMAL);
}
return const0_rtx;
}
/* Expand a call to one of the builtin functions __builtin_frame_address or
__builtin_return_address. */
static rtx
expand_builtin_frame_address (tree fndecl, tree arglist)
{
/* The argument must be a nonnegative integer constant.
It counts the number of frames to scan up the stack.
The value is the return address saved in that frame. */
if (arglist == 0)
/* Warning about missing arg was already issued. */
return const0_rtx;
else if (! host_integerp (TREE_VALUE (arglist), 1))
{
if (DECL_FUNCTION_CODE (fndecl) == BUILT_IN_FRAME_ADDRESS)
error ("invalid argument to %<__builtin_frame_address%>");
else
error ("invalid argument to %<__builtin_return_address%>");
return const0_rtx;
}
else
{
rtx tem
= expand_builtin_return_addr (DECL_FUNCTION_CODE (fndecl),
tree_low_cst (TREE_VALUE (arglist), 1));
/* Some ports cannot access arbitrary stack frames. */
if (tem == NULL)
{
if (DECL_FUNCTION_CODE (fndecl) == BUILT_IN_FRAME_ADDRESS)
warning ("unsupported argument to %<__builtin_frame_address%>");
else
warning ("unsupported argument to %<__builtin_return_address%>");
return const0_rtx;
}
/* For __builtin_frame_address, return what we've got. */
if (DECL_FUNCTION_CODE (fndecl) == BUILT_IN_FRAME_ADDRESS)
return tem;
if (!REG_P (tem)
&& ! CONSTANT_P (tem))
tem = copy_to_mode_reg (Pmode, tem);
return tem;
}
}
/* Expand a call to the alloca builtin, with arguments ARGLIST. Return 0 if
we failed and the caller should emit a normal call, otherwise try to get
the result in TARGET, if convenient. */
static rtx
expand_builtin_alloca (tree arglist, rtx target)
{
rtx op0;
rtx result;
/* In -fmudflap-instrumented code, alloca() and __builtin_alloca()
should always expand to function calls. These can be intercepted
in libmudflap. */
if (flag_mudflap)
return 0;
if (!validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
/* Compute the argument. */
op0 = expand_expr (TREE_VALUE (arglist), NULL_RTX, VOIDmode, 0);
/* Allocate the desired space. */
result = allocate_dynamic_stack_space (op0, target, BITS_PER_UNIT);
result = convert_memory_address (ptr_mode, result);
return result;
}
/* Expand a call to a unary builtin. The arguments are in ARGLIST.
Return 0 if a normal call should be emitted rather than expanding the
function in-line. If convenient, the result should be placed in TARGET.
SUBTARGET may be used as the target for computing one of EXP's operands. */
static rtx
expand_builtin_unop (enum machine_mode target_mode, tree arglist, rtx target,
rtx subtarget, optab op_optab)
{
rtx op0;
if (!validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
/* Compute the argument. */
op0 = expand_expr (TREE_VALUE (arglist), subtarget, VOIDmode, 0);
/* Compute op, into TARGET if possible.
Set TARGET to wherever the result comes back. */
target = expand_unop (TYPE_MODE (TREE_TYPE (TREE_VALUE (arglist))),
op_optab, op0, target, 1);
gcc_assert (target);
return convert_to_mode (target_mode, target, 0);
}
/* If the string passed to fputs is a constant and is one character
long, we attempt to transform this call into __builtin_fputc(). */
static rtx
expand_builtin_fputs (tree arglist, rtx target, bool unlocked)
{
/* Verify the arguments in the original call. */
if (validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
{
tree result = fold_builtin_fputs (arglist, (target == const0_rtx),
unlocked, NULL_TREE);
if (result)
return expand_expr (result, target, VOIDmode, EXPAND_NORMAL);
}
return 0;
}
/* Expand a call to __builtin_expect. We return our argument and emit a
NOTE_INSN_EXPECTED_VALUE note. This is the expansion of __builtin_expect in
a non-jump context. */
static rtx
expand_builtin_expect (tree arglist, rtx target)
{
tree exp, c;
rtx note, rtx_c;
if (arglist == NULL_TREE
|| TREE_CHAIN (arglist) == NULL_TREE)
return const0_rtx;
exp = TREE_VALUE (arglist);
c = TREE_VALUE (TREE_CHAIN (arglist));
if (TREE_CODE (c) != INTEGER_CST)
{
error ("second argument to %<__builtin_expect%> must be a constant");
c = integer_zero_node;
}
target = expand_expr (exp, target, VOIDmode, EXPAND_NORMAL);
/* Don't bother with expected value notes for integral constants. */
if (flag_guess_branch_prob && GET_CODE (target) != CONST_INT)
{
/* We do need to force this into a register so that we can be
moderately sure to be able to correctly interpret the branch
condition later. */
target = force_reg (GET_MODE (target), target);
rtx_c = expand_expr (c, NULL_RTX, GET_MODE (target), EXPAND_NORMAL);
note = emit_note (NOTE_INSN_EXPECTED_VALUE);
NOTE_EXPECTED_VALUE (note) = gen_rtx_EQ (VOIDmode, target, rtx_c);
}
return target;
}
/* Like expand_builtin_expect, except do this in a jump context. This is
called from do_jump if the conditional is a __builtin_expect. Return either
a list of insns to emit the jump or NULL if we cannot optimize
__builtin_expect. We need to optimize this at jump time so that machines
like the PowerPC don't turn the test into a SCC operation, and then jump
based on the test being 0/1. */
rtx
expand_builtin_expect_jump (tree exp, rtx if_false_label, rtx if_true_label)
{
tree arglist = TREE_OPERAND (exp, 1);
tree arg0 = TREE_VALUE (arglist);
tree arg1 = TREE_VALUE (TREE_CHAIN (arglist));
rtx ret = NULL_RTX;
/* Only handle __builtin_expect (test, 0) and
__builtin_expect (test, 1). */
if (TREE_CODE (TREE_TYPE (arg1)) == INTEGER_TYPE
&& (integer_zerop (arg1) || integer_onep (arg1)))
{
rtx insn, drop_through_label, temp;
/* Expand the jump insns. */
start_sequence ();
do_jump (arg0, if_false_label, if_true_label);
ret = get_insns ();
drop_through_label = get_last_insn ();
if (drop_through_label && NOTE_P (drop_through_label))
drop_through_label = prev_nonnote_insn (drop_through_label);
if (drop_through_label && !LABEL_P (drop_through_label))
drop_through_label = NULL_RTX;
end_sequence ();
if (! if_true_label)
if_true_label = drop_through_label;
if (! if_false_label)
if_false_label = drop_through_label;
/* Go through and add the expect's to each of the conditional jumps. */
insn = ret;
while (insn != NULL_RTX)
{
rtx next = NEXT_INSN (insn);
if (JUMP_P (insn) && any_condjump_p (insn))
{
rtx ifelse = SET_SRC (pc_set (insn));
rtx then_dest = XEXP (ifelse, 1);
rtx else_dest = XEXP (ifelse, 2);
int taken = -1;
/* First check if we recognize any of the labels. */
if (GET_CODE (then_dest) == LABEL_REF
&& XEXP (then_dest, 0) == if_true_label)
taken = 1;
else if (GET_CODE (then_dest) == LABEL_REF
&& XEXP (then_dest, 0) == if_false_label)
taken = 0;
else if (GET_CODE (else_dest) == LABEL_REF
&& XEXP (else_dest, 0) == if_false_label)
taken = 1;
else if (GET_CODE (else_dest) == LABEL_REF
&& XEXP (else_dest, 0) == if_true_label)
taken = 0;
/* Otherwise check where we drop through. */
else if (else_dest == pc_rtx)
{
if (next && NOTE_P (next))
next = next_nonnote_insn (next);
if (next && JUMP_P (next)
&& any_uncondjump_p (next))
temp = XEXP (SET_SRC (pc_set (next)), 0);
else
temp = next;
/* TEMP is either a CODE_LABEL, NULL_RTX or something
else that can't possibly match either target label. */
if (temp == if_false_label)
taken = 1;
else if (temp == if_true_label)
taken = 0;
}
else if (then_dest == pc_rtx)
{
if (next && NOTE_P (next))
next = next_nonnote_insn (next);
if (next && JUMP_P (next)
&& any_uncondjump_p (next))
temp = XEXP (SET_SRC (pc_set (next)), 0);
else
temp = next;
if (temp == if_false_label)
taken = 0;
else if (temp == if_true_label)
taken = 1;
}
if (taken != -1)
{
/* If the test is expected to fail, reverse the
probabilities. */
if (integer_zerop (arg1))
taken = 1 - taken;
predict_insn_def (insn, PRED_BUILTIN_EXPECT, taken);
}
}
insn = next;
}
}
return ret;
}
static void
expand_builtin_trap (void)
{
#ifdef HAVE_trap
if (HAVE_trap)
emit_insn (gen_trap ());
else
#endif
emit_library_call (abort_libfunc, LCT_NORETURN, VOIDmode, 0);
emit_barrier ();
}
/* Expand a call to fabs, fabsf or fabsl with arguments ARGLIST.
Return 0 if a normal call should be emitted rather than expanding
the function inline. If convenient, the result should be placed
in TARGET. SUBTARGET may be used as the target for computing
the operand. */
static rtx
expand_builtin_fabs (tree arglist, rtx target, rtx subtarget)
{
enum machine_mode mode;
tree arg;
rtx op0;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
mode = TYPE_MODE (TREE_TYPE (arg));
op0 = expand_expr (arg, subtarget, VOIDmode, 0);
return expand_abs (mode, op0, target, 0, safe_from_p (target, arg, 1));
}
/* Expand a call to copysign, copysignf, or copysignl with arguments ARGLIST.
Return NULL is a normal call should be emitted rather than expanding the
function inline. If convenient, the result should be placed in TARGET.
SUBTARGET may be used as the target for computing the operand. */
static rtx
expand_builtin_copysign (tree arglist, rtx target, rtx subtarget)
{
rtx op0, op1;
tree arg;
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
op0 = expand_expr (arg, subtarget, VOIDmode, 0);
arg = TREE_VALUE (TREE_CHAIN (arglist));
op1 = expand_expr (arg, NULL, VOIDmode, 0);
return expand_copysign (op0, op1, target);
}
/* Create a new constant string literal and return a char* pointer to it.
The STRING_CST value is the LEN characters at STR. */
static tree
build_string_literal (int len, const char *str)
{
tree t, elem, index, type;
t = build_string (len, str);
elem = build_type_variant (char_type_node, 1, 0);
index = build_index_type (build_int_cst (NULL_TREE, len - 1));
type = build_array_type (elem, index);
TREE_TYPE (t) = type;
TREE_CONSTANT (t) = 1;
TREE_INVARIANT (t) = 1;
TREE_READONLY (t) = 1;
TREE_STATIC (t) = 1;
type = build_pointer_type (type);
t = build1 (ADDR_EXPR, type, t);
type = build_pointer_type (elem);
t = build1 (NOP_EXPR, type, t);
return t;
}
/* Expand a call to printf or printf_unlocked with argument list ARGLIST.
Return 0 if a normal call should be emitted rather than transforming
the function inline. If convenient, the result should be placed in
TARGET with mode MODE. UNLOCKED indicates this is a printf_unlocked
call. */
static rtx
expand_builtin_printf (tree arglist, rtx target, enum machine_mode mode,
bool unlocked)
{
tree fn_putchar = unlocked
? implicit_built_in_decls[BUILT_IN_PUTCHAR_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_PUTCHAR];
tree fn_puts = unlocked ? implicit_built_in_decls[BUILT_IN_PUTS_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_PUTS];
const char *fmt_str;
tree fn, fmt, arg;
/* If the return value is used, don't do the transformation. */
if (target != const0_rtx)
return 0;
/* Verify the required arguments in the original call. */
if (! arglist)
return 0;
fmt = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (fmt)))
return 0;
arglist = TREE_CHAIN (arglist);
/* Check whether the format is a literal string constant. */
fmt_str = c_getstr (fmt);
if (fmt_str == NULL)
return 0;
/* If the format specifier was "%s\n", call __builtin_puts(arg). */
if (strcmp (fmt_str, "%s\n") == 0)
{
if (! arglist
|| ! POINTER_TYPE_P (TREE_TYPE (TREE_VALUE (arglist)))
|| TREE_CHAIN (arglist))
return 0;
fn = fn_puts;
}
/* If the format specifier was "%c", call __builtin_putchar(arg). */
else if (strcmp (fmt_str, "%c") == 0)
{
if (! arglist
|| TREE_CODE (TREE_TYPE (TREE_VALUE (arglist))) != INTEGER_TYPE
|| TREE_CHAIN (arglist))
return 0;
fn = fn_putchar;
}
else
{
/* We can't handle anything else with % args or %% ... yet. */
if (strchr (fmt_str, '%'))
return 0;
if (arglist)
return 0;
/* If the format specifier was "", printf does nothing. */
if (fmt_str[0] == '\0')
return const0_rtx;
/* If the format specifier has length of 1, call putchar. */
if (fmt_str[1] == '\0')
{
/* Given printf("c"), (where c is any one character,)
convert "c"[0] to an int and pass that to the replacement
function. */
arg = build_int_cst (NULL_TREE, fmt_str[0]);
arglist = build_tree_list (NULL_TREE, arg);
fn = fn_putchar;
}
else
{
/* If the format specifier was "string\n", call puts("string"). */
size_t len = strlen (fmt_str);
if (fmt_str[len - 1] == '\n')
{
/* Create a NUL-terminated string that's one char shorter
than the original, stripping off the trailing '\n'. */
char *newstr = alloca (len);
memcpy (newstr, fmt_str, len - 1);
newstr[len - 1] = 0;
arg = build_string_literal (len, newstr);
arglist = build_tree_list (NULL_TREE, arg);
fn = fn_puts;
}
else
/* We'd like to arrange to call fputs(string,stdout) here,
but we need stdout and don't have a way to get it yet. */
return 0;
}
}
if (!fn)
return 0;
return expand_expr (build_function_call_expr (fn, arglist),
target, mode, EXPAND_NORMAL);
}
/* Expand a call to fprintf or fprintf_unlocked with argument list ARGLIST.
Return 0 if a normal call should be emitted rather than transforming
the function inline. If convenient, the result should be placed in
TARGET with mode MODE. UNLOCKED indicates this is a fprintf_unlocked
call. */
static rtx
expand_builtin_fprintf (tree arglist, rtx target, enum machine_mode mode,
bool unlocked)
{
tree fn_fputc = unlocked ? implicit_built_in_decls[BUILT_IN_FPUTC_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_FPUTC];
tree fn_fputs = unlocked ? implicit_built_in_decls[BUILT_IN_FPUTS_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_FPUTS];
const char *fmt_str;
tree fn, fmt, fp, arg;
/* If the return value is used, don't do the transformation. */
if (target != const0_rtx)
return 0;
/* Verify the required arguments in the original call. */
if (! arglist)
return 0;
fp = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (fp)))
return 0;
arglist = TREE_CHAIN (arglist);
if (! arglist)
return 0;
fmt = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (fmt)))
return 0;
arglist = TREE_CHAIN (arglist);
/* Check whether the format is a literal string constant. */
fmt_str = c_getstr (fmt);
if (fmt_str == NULL)
return 0;
/* If the format specifier was "%s", call __builtin_fputs(arg,fp). */
if (strcmp (fmt_str, "%s") == 0)
{
if (! arglist
|| ! POINTER_TYPE_P (TREE_TYPE (TREE_VALUE (arglist)))
|| TREE_CHAIN (arglist))
return 0;
arg = TREE_VALUE (arglist);
arglist = build_tree_list (NULL_TREE, fp);
arglist = tree_cons (NULL_TREE, arg, arglist);
fn = fn_fputs;
}
/* If the format specifier was "%c", call __builtin_fputc(arg,fp). */
else if (strcmp (fmt_str, "%c") == 0)
{
if (! arglist
|| TREE_CODE (TREE_TYPE (TREE_VALUE (arglist))) != INTEGER_TYPE
|| TREE_CHAIN (arglist))
return 0;
arg = TREE_VALUE (arglist);
arglist = build_tree_list (NULL_TREE, fp);
arglist = tree_cons (NULL_TREE, arg, arglist);
fn = fn_fputc;
}
else
{
/* We can't handle anything else with % args or %% ... yet. */
if (strchr (fmt_str, '%'))
return 0;
if (arglist)
return 0;
/* If the format specifier was "", fprintf does nothing. */
if (fmt_str[0] == '\0')
{
/* Evaluate and ignore FILE* argument for side-effects. */
expand_expr (fp, const0_rtx, VOIDmode, EXPAND_NORMAL);
return const0_rtx;
}
/* When "string" doesn't contain %, replace all cases of
fprintf(stream,string) with fputs(string,stream). The fputs
builtin will take care of special cases like length == 1. */
arglist = build_tree_list (NULL_TREE, fp);
arglist = tree_cons (NULL_TREE, fmt, arglist);
fn = fn_fputs;
}
if (!fn)
return 0;
return expand_expr (build_function_call_expr (fn, arglist),
target, mode, EXPAND_NORMAL);
}
/* Expand a call to sprintf with argument list ARGLIST. Return 0 if
a normal call should be emitted rather than expanding the function
inline. If convenient, the result should be placed in TARGET with
mode MODE. */
static rtx
expand_builtin_sprintf (tree arglist, rtx target, enum machine_mode mode)
{
tree orig_arglist, dest, fmt;
const char *fmt_str;
orig_arglist = arglist;
/* Verify the required arguments in the original call. */
if (! arglist)
return 0;
dest = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (dest)))
return 0;
arglist = TREE_CHAIN (arglist);
if (! arglist)
return 0;
fmt = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (fmt)))
return 0;
arglist = TREE_CHAIN (arglist);
/* Check whether the format is a literal string constant. */
fmt_str = c_getstr (fmt);
if (fmt_str == NULL)
return 0;
/* If the format doesn't contain % args or %%, use strcpy. */
if (strchr (fmt_str, '%') == 0)
{
tree fn = implicit_built_in_decls[BUILT_IN_STRCPY];
tree exp;
if (arglist || ! fn)
return 0;
expand_expr (build_function_call_expr (fn, orig_arglist),
const0_rtx, VOIDmode, EXPAND_NORMAL);
if (target == const0_rtx)
return const0_rtx;
exp = build_int_cst (NULL_TREE, strlen (fmt_str));
return expand_expr (exp, target, mode, EXPAND_NORMAL);
}
/* If the format is "%s", use strcpy if the result isn't used. */
else if (strcmp (fmt_str, "%s") == 0)
{
tree fn, arg, len;
fn = implicit_built_in_decls[BUILT_IN_STRCPY];
if (! fn)
return 0;
if (! arglist || TREE_CHAIN (arglist))
return 0;
arg = TREE_VALUE (arglist);
if (! POINTER_TYPE_P (TREE_TYPE (arg)))
return 0;
if (target != const0_rtx)
{
len = c_strlen (arg, 1);
if (! len || TREE_CODE (len) != INTEGER_CST)
return 0;
}
else
len = NULL_TREE;
arglist = build_tree_list (NULL_TREE, arg);
arglist = tree_cons (NULL_TREE, dest, arglist);
expand_expr (build_function_call_expr (fn, arglist),
const0_rtx, VOIDmode, EXPAND_NORMAL);
if (target == const0_rtx)
return const0_rtx;
return expand_expr (len, target, mode, EXPAND_NORMAL);
}
return 0;
}
/* Expand a call to either the entry or exit function profiler. */
static rtx
expand_builtin_profile_func (bool exitp)
{
rtx this, which;
this = DECL_RTL (current_function_decl);
gcc_assert (MEM_P (this));
this = XEXP (this, 0);
if (exitp)
which = profile_function_exit_libfunc;
else
which = profile_function_entry_libfunc;
emit_library_call (which, LCT_NORMAL, VOIDmode, 2, this, Pmode,
expand_builtin_return_addr (BUILT_IN_RETURN_ADDRESS,
0),
Pmode);
return const0_rtx;
}
/* Given a trampoline address, make sure it satisfies TRAMPOLINE_ALIGNMENT. */
static rtx
round_trampoline_addr (rtx tramp)
{
rtx temp, addend, mask;
/* If we don't need too much alignment, we'll have been guaranteed
proper alignment by get_trampoline_type. */
if (TRAMPOLINE_ALIGNMENT <= STACK_BOUNDARY)
return tramp;
/* Round address up to desired boundary. */
temp = gen_reg_rtx (Pmode);
addend = GEN_INT (TRAMPOLINE_ALIGNMENT / BITS_PER_UNIT - 1);
mask = GEN_INT (-TRAMPOLINE_ALIGNMENT / BITS_PER_UNIT);
temp = expand_simple_binop (Pmode, PLUS, tramp, addend,
temp, 0, OPTAB_LIB_WIDEN);
tramp = expand_simple_binop (Pmode, AND, temp, mask,
temp, 0, OPTAB_LIB_WIDEN);
return tramp;
}
static rtx
expand_builtin_init_trampoline (tree arglist)
{
tree t_tramp, t_func, t_chain;
rtx r_tramp, r_func, r_chain;
#ifdef TRAMPOLINE_TEMPLATE
rtx blktramp;
#endif
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE,
POINTER_TYPE, VOID_TYPE))
return NULL_RTX;
t_tramp = TREE_VALUE (arglist);
arglist = TREE_CHAIN (arglist);
t_func = TREE_VALUE (arglist);
arglist = TREE_CHAIN (arglist);
t_chain = TREE_VALUE (arglist);
r_tramp = expand_expr (t_tramp, NULL_RTX, VOIDmode, 0);
r_func = expand_expr (t_func, NULL_RTX, VOIDmode, 0);
r_chain = expand_expr (t_chain, NULL_RTX, VOIDmode, 0);
/* Generate insns to initialize the trampoline. */
r_tramp = round_trampoline_addr (r_tramp);
#ifdef TRAMPOLINE_TEMPLATE
blktramp = gen_rtx_MEM (BLKmode, r_tramp);
set_mem_align (blktramp, TRAMPOLINE_ALIGNMENT);
emit_block_move (blktramp, assemble_trampoline_template (),
GEN_INT (TRAMPOLINE_SIZE), BLOCK_OP_NORMAL);
#endif
trampolines_created = 1;
INITIALIZE_TRAMPOLINE (r_tramp, r_func, r_chain);
return const0_rtx;
}
static rtx
expand_builtin_adjust_trampoline (tree arglist)
{
rtx tramp;
if (!validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
return NULL_RTX;
tramp = expand_expr (TREE_VALUE (arglist), NULL_RTX, VOIDmode, 0);
tramp = round_trampoline_addr (tramp);
#ifdef TRAMPOLINE_ADJUST_ADDRESS
TRAMPOLINE_ADJUST_ADDRESS (tramp);
#endif
return tramp;
}
/* Expand a call to the built-in signbit, signbitf or signbitl function.
Return NULL_RTX if a normal call should be emitted rather than expanding
the function in-line. EXP is the expression that is a call to the builtin
function; if convenient, the result should be placed in TARGET. */
static rtx
expand_builtin_signbit (tree exp, rtx target)
{
const struct real_format *fmt;
enum machine_mode fmode, imode, rmode;
HOST_WIDE_INT hi, lo;
tree arg, arglist;
int word, bitpos;
rtx temp;
arglist = TREE_OPERAND (exp, 1);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
fmode = TYPE_MODE (TREE_TYPE (arg));
rmode = TYPE_MODE (TREE_TYPE (exp));
fmt = REAL_MODE_FORMAT (fmode);
/* For floating point formats without a sign bit, implement signbit
as "ARG < 0.0". */
bitpos = fmt->signbit_ro;
if (bitpos < 0)
{
/* But we can't do this if the format supports signed zero. */
if (fmt->has_signed_zero && HONOR_SIGNED_ZEROS (fmode))
return 0;
arg = fold (build2 (LT_EXPR, TREE_TYPE (exp), arg,
build_real (TREE_TYPE (arg), dconst0)));
return expand_expr (arg, target, VOIDmode, EXPAND_NORMAL);
}
temp = expand_expr (arg, NULL_RTX, VOIDmode, 0);
if (GET_MODE_SIZE (fmode) <= UNITS_PER_WORD)
{
imode = int_mode_for_mode (fmode);
if (imode == BLKmode)
return 0;
temp = gen_lowpart (imode, temp);
}
else
{
imode = word_mode;
/* Handle targets with different FP word orders. */
if (FLOAT_WORDS_BIG_ENDIAN)
word = (GET_MODE_BITSIZE (fmode) - bitpos) / BITS_PER_WORD;
else
word = bitpos / BITS_PER_WORD;
temp = operand_subword_force (temp, word, fmode);
bitpos = bitpos % BITS_PER_WORD;
}
/* Force the intermediate word_mode (or narrower) result into a
register. This avoids attempting to create paradoxical SUBREGs
of floating point modes below. */
temp = force_reg (imode, temp);
/* If the bitpos is within the "result mode" lowpart, the operation
can be implement with a single bitwise AND. Otherwise, we need
a right shift and an AND. */
if (bitpos < GET_MODE_BITSIZE (rmode))
{
if (bitpos < HOST_BITS_PER_WIDE_INT)
{
hi = 0;
lo = (HOST_WIDE_INT) 1 << bitpos;
}
else
{
hi = (HOST_WIDE_INT) 1 << (bitpos - HOST_BITS_PER_WIDE_INT);
lo = 0;
}
if (imode != rmode)
temp = gen_lowpart (rmode, temp);
temp = expand_binop (rmode, and_optab, temp,
immed_double_const (lo, hi, rmode),
NULL_RTX, 1, OPTAB_LIB_WIDEN);
}
else
{
/* Perform a logical right shift to place the signbit in the least
significant bit, then truncate the result to the desired mode
and mask just this bit. */
temp = expand_shift (RSHIFT_EXPR, imode, temp,
build_int_cst (NULL_TREE, bitpos), NULL_RTX, 1);
temp = gen_lowpart (rmode, temp);
temp = expand_binop (rmode, and_optab, temp, const1_rtx,
NULL_RTX, 1, OPTAB_LIB_WIDEN);
}
return temp;
}
/* Expand fork or exec calls. TARGET is the desired target of the
call. ARGLIST is the list of arguments of the call. FN is the
identificator of the actual function. IGNORE is nonzero if the
value is to be ignored. */
static rtx
expand_builtin_fork_or_exec (tree fn, tree arglist, rtx target, int ignore)
{
tree id, decl;
tree call;
/* If we are not profiling, just call the function. */
if (!profile_arc_flag)
return NULL_RTX;
/* Otherwise call the wrapper. This should be equivalent for the rest of
compiler, so the code does not diverge, and the wrapper may run the
code necessary for keeping the profiling sane. */
switch (DECL_FUNCTION_CODE (fn))
{
case BUILT_IN_FORK:
id = get_identifier ("__gcov_fork");
break;
case BUILT_IN_EXECL:
id = get_identifier ("__gcov_execl");
break;
case BUILT_IN_EXECV:
id = get_identifier ("__gcov_execv");
break;
case BUILT_IN_EXECLP:
id = get_identifier ("__gcov_execlp");
break;
case BUILT_IN_EXECLE:
id = get_identifier ("__gcov_execle");
break;
case BUILT_IN_EXECVP:
id = get_identifier ("__gcov_execvp");
break;
case BUILT_IN_EXECVE:
id = get_identifier ("__gcov_execve");
break;
default:
gcc_unreachable ();
}
decl = build_decl (FUNCTION_DECL, id, TREE_TYPE (fn));
DECL_EXTERNAL (decl) = 1;
TREE_PUBLIC (decl) = 1;
DECL_ARTIFICIAL (decl) = 1;
TREE_NOTHROW (decl) = 1;
call = build_function_call_expr (decl, arglist);
return expand_call (call, target, ignore);
}
/* Expand an expression EXP that calls a built-in function,
with result going to TARGET if that's convenient
(and in mode MODE if that's convenient).
SUBTARGET may be used as the target for computing one of EXP's operands.
IGNORE is nonzero if the value is to be ignored. */
rtx
expand_builtin (tree exp, rtx target, rtx subtarget, enum machine_mode mode,
int ignore)
{
tree fndecl = get_callee_fndecl (exp);
tree arglist = TREE_OPERAND (exp, 1);
enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
enum machine_mode target_mode = TYPE_MODE (TREE_TYPE (exp));
if (DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_MD)
return targetm.expand_builtin (exp, target, subtarget, mode, ignore);
/* When not optimizing, generate calls to library functions for a certain
set of builtins. */
if (!optimize
&& !CALLED_AS_BUILT_IN (fndecl)
&& DECL_ASSEMBLER_NAME_SET_P (fndecl)
&& fcode != BUILT_IN_ALLOCA)
return expand_call (exp, target, ignore);
/* The built-in function expanders test for target == const0_rtx
to determine whether the function's result will be ignored. */
if (ignore)
target = const0_rtx;
/* If the result of a pure or const built-in function is ignored, and
none of its arguments are volatile, we can avoid expanding the
built-in call and just evaluate the arguments for side-effects. */
if (target == const0_rtx
&& (DECL_IS_PURE (fndecl) || TREE_READONLY (fndecl)))
{
bool volatilep = false;
tree arg;
for (arg = arglist; arg; arg = TREE_CHAIN (arg))
if (TREE_THIS_VOLATILE (TREE_VALUE (arg)))
{
volatilep = true;
break;
}
if (! volatilep)
{
for (arg = arglist; arg; arg = TREE_CHAIN (arg))
expand_expr (TREE_VALUE (arg), const0_rtx,
VOIDmode, EXPAND_NORMAL);
return const0_rtx;
}
}
switch (fcode)
{
case BUILT_IN_FABS:
case BUILT_IN_FABSF:
case BUILT_IN_FABSL:
target = expand_builtin_fabs (arglist, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_COPYSIGN:
case BUILT_IN_COPYSIGNF:
case BUILT_IN_COPYSIGNL:
target = expand_builtin_copysign (arglist, target, subtarget);
if (target)
return target;
break;
/* Just do a normal library call if we were unable to fold
the values. */
case BUILT_IN_CABS:
case BUILT_IN_CABSF:
case BUILT_IN_CABSL:
break;
case BUILT_IN_EXP:
case BUILT_IN_EXPF:
case BUILT_IN_EXPL:
case BUILT_IN_EXP10:
case BUILT_IN_EXP10F:
case BUILT_IN_EXP10L:
case BUILT_IN_POW10:
case BUILT_IN_POW10F:
case BUILT_IN_POW10L:
case BUILT_IN_EXP2:
case BUILT_IN_EXP2F:
case BUILT_IN_EXP2L:
case BUILT_IN_EXPM1:
case BUILT_IN_EXPM1F:
case BUILT_IN_EXPM1L:
case BUILT_IN_LOGB:
case BUILT_IN_LOGBF:
case BUILT_IN_LOGBL:
case BUILT_IN_ILOGB:
case BUILT_IN_ILOGBF:
case BUILT_IN_ILOGBL:
case BUILT_IN_LOG:
case BUILT_IN_LOGF:
case BUILT_IN_LOGL:
case BUILT_IN_LOG10:
case BUILT_IN_LOG10F:
case BUILT_IN_LOG10L:
case BUILT_IN_LOG2:
case BUILT_IN_LOG2F:
case BUILT_IN_LOG2L:
case BUILT_IN_LOG1P:
case BUILT_IN_LOG1PF:
case BUILT_IN_LOG1PL:
case BUILT_IN_TAN:
case BUILT_IN_TANF:
case BUILT_IN_TANL:
case BUILT_IN_ASIN:
case BUILT_IN_ASINF:
case BUILT_IN_ASINL:
case BUILT_IN_ACOS:
case BUILT_IN_ACOSF:
case BUILT_IN_ACOSL:
case BUILT_IN_ATAN:
case BUILT_IN_ATANF:
case BUILT_IN_ATANL:
/* Treat these like sqrt only if unsafe math optimizations are allowed,
because of possible accuracy problems. */
if (! flag_unsafe_math_optimizations)
break;
case BUILT_IN_SQRT:
case BUILT_IN_SQRTF:
case BUILT_IN_SQRTL:
case BUILT_IN_FLOOR:
case BUILT_IN_FLOORF:
case BUILT_IN_FLOORL:
case BUILT_IN_CEIL:
case BUILT_IN_CEILF:
case BUILT_IN_CEILL:
case BUILT_IN_TRUNC:
case BUILT_IN_TRUNCF:
case BUILT_IN_TRUNCL:
case BUILT_IN_ROUND:
case BUILT_IN_ROUNDF:
case BUILT_IN_ROUNDL:
case BUILT_IN_NEARBYINT:
case BUILT_IN_NEARBYINTF:
case BUILT_IN_NEARBYINTL:
case BUILT_IN_RINT:
case BUILT_IN_RINTF:
case BUILT_IN_RINTL:
case BUILT_IN_LRINT:
case BUILT_IN_LRINTF:
case BUILT_IN_LRINTL:
case BUILT_IN_LLRINT:
case BUILT_IN_LLRINTF:
case BUILT_IN_LLRINTL:
target = expand_builtin_mathfn (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_LFLOOR:
case BUILT_IN_LFLOORF:
case BUILT_IN_LFLOORL:
case BUILT_IN_LLFLOOR:
case BUILT_IN_LLFLOORF:
case BUILT_IN_LLFLOORL:
target = expand_builtin_int_roundingfn (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_POW:
case BUILT_IN_POWF:
case BUILT_IN_POWL:
target = expand_builtin_pow (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_POWI:
case BUILT_IN_POWIF:
case BUILT_IN_POWIL:
target = expand_builtin_powi (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_ATAN2:
case BUILT_IN_ATAN2F:
case BUILT_IN_ATAN2L:
case BUILT_IN_LDEXP:
case BUILT_IN_LDEXPF:
case BUILT_IN_LDEXPL:
case BUILT_IN_FMOD:
case BUILT_IN_FMODF:
case BUILT_IN_FMODL:
case BUILT_IN_DREM:
case BUILT_IN_DREMF:
case BUILT_IN_DREML:
if (! flag_unsafe_math_optimizations)
break;
target = expand_builtin_mathfn_2 (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_SIN:
case BUILT_IN_SINF:
case BUILT_IN_SINL:
case BUILT_IN_COS:
case BUILT_IN_COSF:
case BUILT_IN_COSL:
if (! flag_unsafe_math_optimizations)
break;
target = expand_builtin_mathfn_3 (exp, target, subtarget);
if (target)
return target;
break;
case BUILT_IN_APPLY_ARGS:
return expand_builtin_apply_args ();
/* __builtin_apply (FUNCTION, ARGUMENTS, ARGSIZE) invokes
FUNCTION with a copy of the parameters described by
ARGUMENTS, and ARGSIZE. It returns a block of memory
allocated on the stack into which is stored all the registers
that might possibly be used for returning the result of a
function. ARGUMENTS is the value returned by
__builtin_apply_args. ARGSIZE is the number of bytes of
arguments that must be copied. ??? How should this value be
computed? We'll also need a safe worst case value for varargs
functions. */
case BUILT_IN_APPLY:
if (!validate_arglist (arglist, POINTER_TYPE,
POINTER_TYPE, INTEGER_TYPE, VOID_TYPE)
&& !validate_arglist (arglist, REFERENCE_TYPE,
POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return const0_rtx;
else
{
int i;
tree t;
rtx ops[3];
for (t = arglist, i = 0; t; t = TREE_CHAIN (t), i++)
ops[i] = expand_expr (TREE_VALUE (t), NULL_RTX, VOIDmode, 0);
return expand_builtin_apply (ops[0], ops[1], ops[2]);
}
/* __builtin_return (RESULT) causes the function to return the
value described by RESULT. RESULT is address of the block of
memory returned by __builtin_apply. */
case BUILT_IN_RETURN:
if (validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
expand_builtin_return (expand_expr (TREE_VALUE (arglist),
NULL_RTX, VOIDmode, 0));
return const0_rtx;
case BUILT_IN_SAVEREGS:
return expand_builtin_saveregs ();
case BUILT_IN_ARGS_INFO:
return expand_builtin_args_info (arglist);
/* Return the address of the first anonymous stack arg. */
case BUILT_IN_NEXT_ARG:
if (fold_builtin_next_arg (arglist))
return const0_rtx;
return expand_builtin_next_arg ();
case BUILT_IN_CLASSIFY_TYPE:
return expand_builtin_classify_type (arglist);
case BUILT_IN_CONSTANT_P:
return const0_rtx;
case BUILT_IN_FRAME_ADDRESS:
case BUILT_IN_RETURN_ADDRESS:
return expand_builtin_frame_address (fndecl, arglist);
/* Returns the address of the area where the structure is returned.
0 otherwise. */
case BUILT_IN_AGGREGATE_INCOMING_ADDRESS:
if (arglist != 0
|| ! AGGREGATE_TYPE_P (TREE_TYPE (TREE_TYPE (current_function_decl)))
|| !MEM_P (DECL_RTL (DECL_RESULT (current_function_decl))))
return const0_rtx;
else
return XEXP (DECL_RTL (DECL_RESULT (current_function_decl)), 0);
case BUILT_IN_ALLOCA:
target = expand_builtin_alloca (arglist, target);
if (target)
return target;
break;
case BUILT_IN_STACK_SAVE:
return expand_stack_save ();
case BUILT_IN_STACK_RESTORE:
expand_stack_restore (TREE_VALUE (arglist));
return const0_rtx;
case BUILT_IN_FFS:
case BUILT_IN_FFSL:
case BUILT_IN_FFSLL:
case BUILT_IN_FFSIMAX:
target = expand_builtin_unop (target_mode, arglist, target,
subtarget, ffs_optab);
if (target)
return target;
break;
case BUILT_IN_CLZ:
case BUILT_IN_CLZL:
case BUILT_IN_CLZLL:
case BUILT_IN_CLZIMAX:
target = expand_builtin_unop (target_mode, arglist, target,
subtarget, clz_optab);
if (target)
return target;
break;
case BUILT_IN_CTZ:
case BUILT_IN_CTZL:
case BUILT_IN_CTZLL:
case BUILT_IN_CTZIMAX:
target = expand_builtin_unop (target_mode, arglist, target,
subtarget, ctz_optab);
if (target)
return target;
break;
case BUILT_IN_POPCOUNT:
case BUILT_IN_POPCOUNTL:
case BUILT_IN_POPCOUNTLL:
case BUILT_IN_POPCOUNTIMAX:
target = expand_builtin_unop (target_mode, arglist, target,
subtarget, popcount_optab);
if (target)
return target;
break;
case BUILT_IN_PARITY:
case BUILT_IN_PARITYL:
case BUILT_IN_PARITYLL:
case BUILT_IN_PARITYIMAX:
target = expand_builtin_unop (target_mode, arglist, target,
subtarget, parity_optab);
if (target)
return target;
break;
case BUILT_IN_STRLEN:
target = expand_builtin_strlen (arglist, target, target_mode);
if (target)
return target;
break;
case BUILT_IN_STRCPY:
target = expand_builtin_strcpy (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRNCPY:
target = expand_builtin_strncpy (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_STPCPY:
target = expand_builtin_stpcpy (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRCAT:
target = expand_builtin_strcat (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_STRNCAT:
target = expand_builtin_strncat (arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRSPN:
target = expand_builtin_strspn (arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRCSPN:
target = expand_builtin_strcspn (arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRSTR:
target = expand_builtin_strstr (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_STRPBRK:
target = expand_builtin_strpbrk (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_INDEX:
case BUILT_IN_STRCHR:
target = expand_builtin_strchr (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_RINDEX:
case BUILT_IN_STRRCHR:
target = expand_builtin_strrchr (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_MEMCPY:
target = expand_builtin_memcpy (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_MEMPCPY:
target = expand_builtin_mempcpy (arglist, TREE_TYPE (exp), target, mode, /*endp=*/ 1);
if (target)
return target;
break;
case BUILT_IN_MEMMOVE:
target = expand_builtin_memmove (arglist, TREE_TYPE (exp), target, mode);
if (target)
return target;
break;
case BUILT_IN_BCOPY:
target = expand_builtin_bcopy (arglist, TREE_TYPE (exp));
if (target)
return target;
break;
case BUILT_IN_MEMSET:
target = expand_builtin_memset (arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_BZERO:
target = expand_builtin_bzero (arglist);
if (target)
return target;
break;
case BUILT_IN_STRCMP:
target = expand_builtin_strcmp (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_STRNCMP:
target = expand_builtin_strncmp (exp, target, mode);
if (target)
return target;
break;
case BUILT_IN_BCMP:
case BUILT_IN_MEMCMP:
target = expand_builtin_memcmp (exp, arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_SETJMP:
target = expand_builtin_setjmp (arglist, target);
if (target)
return target;
break;
/* __builtin_longjmp is passed a pointer to an array of five words.
It's similar to the C library longjmp function but works with
__builtin_setjmp above. */
case BUILT_IN_LONGJMP:
if (!validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
break;
else
{
rtx buf_addr = expand_expr (TREE_VALUE (arglist), subtarget,
VOIDmode, 0);
rtx value = expand_expr (TREE_VALUE (TREE_CHAIN (arglist)),
NULL_RTX, VOIDmode, 0);
if (value != const1_rtx)
{
error ("%<__builtin_longjmp%> second argument must be 1");
return const0_rtx;
}
expand_builtin_longjmp (buf_addr, value);
return const0_rtx;
}
case BUILT_IN_NONLOCAL_GOTO:
target = expand_builtin_nonlocal_goto (arglist);
if (target)
return target;
break;
/* This updates the setjmp buffer that is its argument with the value
of the current stack pointer. */
case BUILT_IN_UPDATE_SETJMP_BUF:
if (validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
{
rtx buf_addr
= expand_expr (TREE_VALUE (arglist), NULL_RTX, VOIDmode, 0);
expand_builtin_update_setjmp_buf (buf_addr);
return const0_rtx;
}
break;
case BUILT_IN_TRAP:
expand_builtin_trap ();
return const0_rtx;
case BUILT_IN_PRINTF:
target = expand_builtin_printf (arglist, target, mode, false);
if (target)
return target;
break;
case BUILT_IN_PRINTF_UNLOCKED:
target = expand_builtin_printf (arglist, target, mode, true);
if (target)
return target;
break;
case BUILT_IN_FPUTS:
target = expand_builtin_fputs (arglist, target, false);
if (target)
return target;
break;
case BUILT_IN_FPUTS_UNLOCKED:
target = expand_builtin_fputs (arglist, target, true);
if (target)
return target;
break;
case BUILT_IN_FPRINTF:
target = expand_builtin_fprintf (arglist, target, mode, false);
if (target)
return target;
break;
case BUILT_IN_FPRINTF_UNLOCKED:
target = expand_builtin_fprintf (arglist, target, mode, true);
if (target)
return target;
break;
case BUILT_IN_SPRINTF:
target = expand_builtin_sprintf (arglist, target, mode);
if (target)
return target;
break;
case BUILT_IN_SIGNBIT:
case BUILT_IN_SIGNBITF:
case BUILT_IN_SIGNBITL:
target = expand_builtin_signbit (exp, target);
if (target)
return target;
break;
/* Various hooks for the DWARF 2 __throw routine. */
case BUILT_IN_UNWIND_INIT:
expand_builtin_unwind_init ();
return const0_rtx;
case BUILT_IN_DWARF_CFA:
return virtual_cfa_rtx;
#ifdef DWARF2_UNWIND_INFO
case BUILT_IN_DWARF_SP_COLUMN:
return expand_builtin_dwarf_sp_column ();
case BUILT_IN_INIT_DWARF_REG_SIZES:
expand_builtin_init_dwarf_reg_sizes (TREE_VALUE (arglist));
return const0_rtx;
#endif
case BUILT_IN_FROB_RETURN_ADDR:
return expand_builtin_frob_return_addr (TREE_VALUE (arglist));
case BUILT_IN_EXTRACT_RETURN_ADDR:
return expand_builtin_extract_return_addr (TREE_VALUE (arglist));
case BUILT_IN_EH_RETURN:
expand_builtin_eh_return (TREE_VALUE (arglist),
TREE_VALUE (TREE_CHAIN (arglist)));
return const0_rtx;
#ifdef EH_RETURN_DATA_REGNO
case BUILT_IN_EH_RETURN_DATA_REGNO:
return expand_builtin_eh_return_data_regno (arglist);
#endif
case BUILT_IN_EXTEND_POINTER:
return expand_builtin_extend_pointer (TREE_VALUE (arglist));
case BUILT_IN_VA_START:
case BUILT_IN_STDARG_START:
return expand_builtin_va_start (arglist);
case BUILT_IN_VA_END:
return expand_builtin_va_end (arglist);
case BUILT_IN_VA_COPY:
return expand_builtin_va_copy (arglist);
case BUILT_IN_EXPECT:
return expand_builtin_expect (arglist, target);
case BUILT_IN_PREFETCH:
expand_builtin_prefetch (arglist);
return const0_rtx;
case BUILT_IN_PROFILE_FUNC_ENTER:
return expand_builtin_profile_func (false);
case BUILT_IN_PROFILE_FUNC_EXIT:
return expand_builtin_profile_func (true);
case BUILT_IN_INIT_TRAMPOLINE:
return expand_builtin_init_trampoline (arglist);
case BUILT_IN_ADJUST_TRAMPOLINE:
return expand_builtin_adjust_trampoline (arglist);
case BUILT_IN_FORK:
case BUILT_IN_EXECL:
case BUILT_IN_EXECV:
case BUILT_IN_EXECLP:
case BUILT_IN_EXECLE:
case BUILT_IN_EXECVP:
case BUILT_IN_EXECVE:
target = expand_builtin_fork_or_exec (fndecl, arglist, target, ignore);
if (target)
return target;
break;
default: /* just do library call, if unknown builtin */
break;
}
/* The switch statement above can drop through to cause the function
to be called normally. */
return expand_call (exp, target, ignore);
}
/* Determine whether a tree node represents a call to a built-in
function. If the tree T is a call to a built-in function with
the right number of arguments of the appropriate types, return
the DECL_FUNCTION_CODE of the call, e.g. BUILT_IN_SQRT.
Otherwise the return value is END_BUILTINS. */
enum built_in_function
builtin_mathfn_code (tree t)
{
tree fndecl, arglist, parmlist;
tree argtype, parmtype;
if (TREE_CODE (t) != CALL_EXPR
|| TREE_CODE (TREE_OPERAND (t, 0)) != ADDR_EXPR)
return END_BUILTINS;
fndecl = get_callee_fndecl (t);
if (fndecl == NULL_TREE
|| TREE_CODE (fndecl) != FUNCTION_DECL
|| ! DECL_BUILT_IN (fndecl)
|| DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_MD)
return END_BUILTINS;
arglist = TREE_OPERAND (t, 1);
parmlist = TYPE_ARG_TYPES (TREE_TYPE (fndecl));
for (; parmlist; parmlist = TREE_CHAIN (parmlist))
{
/* If a function doesn't take a variable number of arguments,
the last element in the list will have type `void'. */
parmtype = TREE_VALUE (parmlist);
if (VOID_TYPE_P (parmtype))
{
if (arglist)
return END_BUILTINS;
return DECL_FUNCTION_CODE (fndecl);
}
if (! arglist)
return END_BUILTINS;
argtype = TREE_TYPE (TREE_VALUE (arglist));
if (SCALAR_FLOAT_TYPE_P (parmtype))
{
if (! SCALAR_FLOAT_TYPE_P (argtype))
return END_BUILTINS;
}
else if (COMPLEX_FLOAT_TYPE_P (parmtype))
{
if (! COMPLEX_FLOAT_TYPE_P (argtype))
return END_BUILTINS;
}
else if (POINTER_TYPE_P (parmtype))
{
if (! POINTER_TYPE_P (argtype))
return END_BUILTINS;
}
else if (INTEGRAL_TYPE_P (parmtype))
{
if (! INTEGRAL_TYPE_P (argtype))
return END_BUILTINS;
}
else
return END_BUILTINS;
arglist = TREE_CHAIN (arglist);
}
/* Variable-length argument list. */
return DECL_FUNCTION_CODE (fndecl);
}
/* Fold a call to __builtin_constant_p, if we know it will evaluate to a
constant. ARGLIST is the argument list of the call. */
static tree
fold_builtin_constant_p (tree arglist)
{
if (arglist == 0)
return 0;
arglist = TREE_VALUE (arglist);
/* We return 1 for a numeric type that's known to be a constant
value at compile-time or for an aggregate type that's a
literal constant. */
STRIP_NOPS (arglist);
/* If we know this is a constant, emit the constant of one. */
if (CONSTANT_CLASS_P (arglist)
|| (TREE_CODE (arglist) == CONSTRUCTOR
&& TREE_CONSTANT (arglist))
|| (TREE_CODE (arglist) == ADDR_EXPR
&& TREE_CODE (TREE_OPERAND (arglist, 0)) == STRING_CST))
return integer_one_node;
/* If this expression has side effects, show we don't know it to be a
constant. Likewise if it's a pointer or aggregate type since in
those case we only want literals, since those are only optimized
when generating RTL, not later.
And finally, if we are compiling an initializer, not code, we
need to return a definite result now; there's not going to be any
more optimization done. */
if (TREE_SIDE_EFFECTS (arglist)
|| AGGREGATE_TYPE_P (TREE_TYPE (arglist))
|| POINTER_TYPE_P (TREE_TYPE (arglist))
|| cfun == 0)
return integer_zero_node;
return 0;
}
/* Fold a call to __builtin_expect, if we expect that a comparison against
the argument will fold to a constant. In practice, this means a true
constant or the address of a non-weak symbol. ARGLIST is the argument
list of the call. */
static tree
fold_builtin_expect (tree arglist)
{
tree arg, inner;
if (arglist == 0)
return 0;
arg = TREE_VALUE (arglist);
/* If the argument isn't invariant, then there's nothing we can do. */
if (!TREE_INVARIANT (arg))
return 0;
/* If we're looking at an address of a weak decl, then do not fold. */
inner = arg;
STRIP_NOPS (inner);
if (TREE_CODE (inner) == ADDR_EXPR)
{
do
{
inner = TREE_OPERAND (inner, 0);
}
while (TREE_CODE (inner) == COMPONENT_REF
|| TREE_CODE (inner) == ARRAY_REF);
if (DECL_P (inner) && DECL_WEAK (inner))
return 0;
}
/* Otherwise, ARG already has the proper type for the return value. */
return arg;
}
/* Fold a call to __builtin_classify_type. */
static tree
fold_builtin_classify_type (tree arglist)
{
if (arglist == 0)
return build_int_cst (NULL_TREE, no_type_class);
return build_int_cst (NULL_TREE,
type_to_class (TREE_TYPE (TREE_VALUE (arglist))));
}
/* Fold a call to __builtin_strlen. */
static tree
fold_builtin_strlen (tree arglist)
{
if (!validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
return NULL_TREE;
else
{
tree len = c_strlen (TREE_VALUE (arglist), 0);
if (len)
{
/* Convert from the internal "sizetype" type to "size_t". */
if (size_type_node)
len = fold_convert (size_type_node, len);
return len;
}
return NULL_TREE;
}
}
/* Fold a call to __builtin_inf or __builtin_huge_val. */
static tree
fold_builtin_inf (tree type, int warn)
{
REAL_VALUE_TYPE real;
/* __builtin_inff is intended to be usable to define INFINITY on all
targets. If an infinity is not available, INFINITY expands "to a
positive constant of type float that overflows at translation
time", footnote "In this case, using INFINITY will violate the
constraint in 6.4.4 and thus require a diagnostic." (C99 7.12#4).
Thus we pedwarn to ensure this constraint violation is
diagnosed. */
if (!MODE_HAS_INFINITIES (TYPE_MODE (type)) && warn)
pedwarn ("target format does not support infinity");
real_inf (&real);
return build_real (type, real);
}
/* Fold a call to __builtin_nan or __builtin_nans. */
static tree
fold_builtin_nan (tree arglist, tree type, int quiet)
{
REAL_VALUE_TYPE real;
const char *str;
if (!validate_arglist (arglist, POINTER_TYPE, VOID_TYPE))
return 0;
str = c_getstr (TREE_VALUE (arglist));
if (!str)
return 0;
if (!real_nan (&real, str, quiet, TYPE_MODE (type)))
return 0;
return build_real (type, real);
}
/* Return true if the floating point expression T has an integer value.
We also allow +Inf, -Inf and NaN to be considered integer values. */
static bool
integer_valued_real_p (tree t)
{
switch (TREE_CODE (t))
{
case FLOAT_EXPR:
return true;
case ABS_EXPR:
case SAVE_EXPR:
case NON_LVALUE_EXPR:
return integer_valued_real_p (TREE_OPERAND (t, 0));
case COMPOUND_EXPR:
case MODIFY_EXPR:
case BIND_EXPR:
return integer_valued_real_p (TREE_OPERAND (t, 1));
case PLUS_EXPR:
case MINUS_EXPR:
case MULT_EXPR:
case MIN_EXPR:
case MAX_EXPR:
return integer_valued_real_p (TREE_OPERAND (t, 0))
&& integer_valued_real_p (TREE_OPERAND (t, 1));
case COND_EXPR:
return integer_valued_real_p (TREE_OPERAND (t, 1))
&& integer_valued_real_p (TREE_OPERAND (t, 2));
case REAL_CST:
if (! TREE_CONSTANT_OVERFLOW (t))
{
REAL_VALUE_TYPE c, cint;
c = TREE_REAL_CST (t);
real_trunc (&cint, TYPE_MODE (TREE_TYPE (t)), &c);
return real_identical (&c, &cint);
}
case NOP_EXPR:
{
tree type = TREE_TYPE (TREE_OPERAND (t, 0));
if (TREE_CODE (type) == INTEGER_TYPE)
return true;
if (TREE_CODE (type) == REAL_TYPE)
return integer_valued_real_p (TREE_OPERAND (t, 0));
break;
}
case CALL_EXPR:
switch (builtin_mathfn_code (t))
{
case BUILT_IN_CEIL:
case BUILT_IN_CEILF:
case BUILT_IN_CEILL:
case BUILT_IN_FLOOR:
case BUILT_IN_FLOORF:
case BUILT_IN_FLOORL:
case BUILT_IN_NEARBYINT:
case BUILT_IN_NEARBYINTF:
case BUILT_IN_NEARBYINTL:
case BUILT_IN_RINT:
case BUILT_IN_RINTF:
case BUILT_IN_RINTL:
case BUILT_IN_ROUND:
case BUILT_IN_ROUNDF:
case BUILT_IN_ROUNDL:
case BUILT_IN_TRUNC:
case BUILT_IN_TRUNCF:
case BUILT_IN_TRUNCL:
return true;
default:
break;
}
break;
default:
break;
}
return false;
}
/* EXP is assumed to be builtin call where truncation can be propagated
across (for instance floor((double)f) == (double)floorf (f).
Do the transformation. */
static tree
fold_trunc_transparent_mathfn (tree fndecl, tree arglist)
{
enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
/* Integer rounding functions are idempotent. */
if (fcode == builtin_mathfn_code (arg))
return arg;
/* If argument is already integer valued, and we don't need to worry
about setting errno, there's no need to perform rounding. */
if (! flag_errno_math && integer_valued_real_p (arg))
return arg;
if (optimize)
{
tree arg0 = strip_float_extensions (arg);
tree ftype = TREE_TYPE (TREE_TYPE (fndecl));
tree newtype = TREE_TYPE (arg0);
tree decl;
if (TYPE_PRECISION (newtype) < TYPE_PRECISION (ftype)
&& (decl = mathfn_built_in (newtype, fcode)))
{
arglist =
build_tree_list (NULL_TREE, fold_convert (newtype, arg0));
return fold_convert (ftype,
build_function_call_expr (decl, arglist));
}
}
return 0;
}
/* EXP is assumed to be builtin call which can narrow the FP type of
the argument, for instance lround((double)f) -> lroundf (f). */
static tree
fold_fixed_mathfn (tree fndecl, tree arglist)
{
enum built_in_function fcode = DECL_FUNCTION_CODE (fndecl);
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
/* If argument is already integer valued, and we don't need to worry
about setting errno, there's no need to perform rounding. */
if (! flag_errno_math && integer_valued_real_p (arg))
return fold (build1 (FIX_TRUNC_EXPR, TREE_TYPE (TREE_TYPE (fndecl)), arg));
if (optimize)
{
tree ftype = TREE_TYPE (arg);
tree arg0 = strip_float_extensions (arg);
tree newtype = TREE_TYPE (arg0);
tree decl;
if (TYPE_PRECISION (newtype) < TYPE_PRECISION (ftype)
&& (decl = mathfn_built_in (newtype, fcode)))
{
arglist =
build_tree_list (NULL_TREE, fold_convert (newtype, arg0));
return build_function_call_expr (decl, arglist);
}
}
return 0;
}
/* Fold function call to builtin cabs, cabsf or cabsl. ARGLIST
is the argument list and TYPE is the return type. Return
NULL_TREE if no if no simplification can be made. */
static tree
fold_builtin_cabs (tree arglist, tree type)
{
tree arg;
if (!arglist || TREE_CHAIN (arglist))
return NULL_TREE;
arg = TREE_VALUE (arglist);
if (TREE_CODE (TREE_TYPE (arg)) != COMPLEX_TYPE
|| TREE_CODE (TREE_TYPE (TREE_TYPE (arg))) != REAL_TYPE)
return NULL_TREE;
/* Evaluate cabs of a constant at compile-time. */
if (flag_unsafe_math_optimizations
&& TREE_CODE (arg) == COMPLEX_CST
&& TREE_CODE (TREE_REALPART (arg)) == REAL_CST
&& TREE_CODE (TREE_IMAGPART (arg)) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (TREE_REALPART (arg))
&& ! TREE_CONSTANT_OVERFLOW (TREE_IMAGPART (arg)))
{
REAL_VALUE_TYPE r, i;
r = TREE_REAL_CST (TREE_REALPART (arg));
i = TREE_REAL_CST (TREE_IMAGPART (arg));
real_arithmetic (&r, MULT_EXPR, &r, &r);
real_arithmetic (&i, MULT_EXPR, &i, &i);
real_arithmetic (&r, PLUS_EXPR, &r, &i);
if (real_sqrt (&r, TYPE_MODE (type), &r)
|| ! flag_trapping_math)
return build_real (type, r);
}
/* If either part is zero, cabs is fabs of the other. */
if (TREE_CODE (arg) == COMPLEX_EXPR
&& real_zerop (TREE_OPERAND (arg, 0)))
return fold (build1 (ABS_EXPR, type, TREE_OPERAND (arg, 1)));
if (TREE_CODE (arg) == COMPLEX_EXPR
&& real_zerop (TREE_OPERAND (arg, 1)))
return fold (build1 (ABS_EXPR, type, TREE_OPERAND (arg, 0)));
/* Don't do this when optimizing for size. */
if (flag_unsafe_math_optimizations
&& optimize && !optimize_size)
{
tree sqrtfn = mathfn_built_in (type, BUILT_IN_SQRT);
if (sqrtfn != NULL_TREE)
{
tree rpart, ipart, result, arglist;
arg = builtin_save_expr (arg);
rpart = fold (build1 (REALPART_EXPR, type, arg));
ipart = fold (build1 (IMAGPART_EXPR, type, arg));
rpart = builtin_save_expr (rpart);
ipart = builtin_save_expr (ipart);
result = fold (build2 (PLUS_EXPR, type,
fold (build2 (MULT_EXPR, type,
rpart, rpart)),
fold (build2 (MULT_EXPR, type,
ipart, ipart))));
arglist = build_tree_list (NULL_TREE, result);
return build_function_call_expr (sqrtfn, arglist);
}
}
return NULL_TREE;
}
/* Fold a builtin function call to sqrt, sqrtf, or sqrtl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_sqrt (tree arglist, tree type)
{
enum built_in_function fcode;
tree arg = TREE_VALUE (arglist);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize sqrt of constant value. */
if (TREE_CODE (arg) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE r, x;
x = TREE_REAL_CST (arg);
if (real_sqrt (&r, TYPE_MODE (type), &x)
|| (!flag_trapping_math && !flag_errno_math))
return build_real (type, r);
}
/* Optimize sqrt(expN(x)) = expN(x*0.5). */
fcode = builtin_mathfn_code (arg);
if (flag_unsafe_math_optimizations && BUILTIN_EXPONENT_P (fcode))
{
tree expfn = TREE_OPERAND (TREE_OPERAND (arg, 0), 0);
arg = fold (build2 (MULT_EXPR, type,
TREE_VALUE (TREE_OPERAND (arg, 1)),
build_real (type, dconsthalf)));
arglist = build_tree_list (NULL_TREE, arg);
return build_function_call_expr (expfn, arglist);
}
/* Optimize sqrt(Nroot(x)) -> pow(x,1/(2*N)). */
if (flag_unsafe_math_optimizations && BUILTIN_ROOT_P (fcode))
{
tree powfn = mathfn_built_in (type, BUILT_IN_POW);
if (powfn)
{
tree arg0 = TREE_VALUE (TREE_OPERAND (arg, 1));
tree tree_root;
/* The inner root was either sqrt or cbrt. */
REAL_VALUE_TYPE dconstroot =
BUILTIN_SQRT_P (fcode) ? dconsthalf : dconstthird;
/* Adjust for the outer root. */
SET_REAL_EXP (&dconstroot, REAL_EXP (&dconstroot) - 1);
dconstroot = real_value_truncate (TYPE_MODE (type), dconstroot);
tree_root = build_real (type, dconstroot);
arglist = tree_cons (NULL_TREE, arg0,
build_tree_list (NULL_TREE, tree_root));
return build_function_call_expr (powfn, arglist);
}
}
/* Optimize sqrt(pow(x,y)) = pow(|x|,y*0.5). */
if (flag_unsafe_math_optimizations
&& (fcode == BUILT_IN_POW
|| fcode == BUILT_IN_POWF
|| fcode == BUILT_IN_POWL))
{
tree powfn = TREE_OPERAND (TREE_OPERAND (arg, 0), 0);
tree arg0 = TREE_VALUE (TREE_OPERAND (arg, 1));
tree arg1 = TREE_VALUE (TREE_CHAIN (TREE_OPERAND (arg, 1)));
tree narg1;
if (!tree_expr_nonnegative_p (arg0))
arg0 = build1 (ABS_EXPR, type, arg0);
narg1 = fold (build2 (MULT_EXPR, type, arg1,
build_real (type, dconsthalf)));
arglist = tree_cons (NULL_TREE, arg0,
build_tree_list (NULL_TREE, narg1));
return build_function_call_expr (powfn, arglist);
}
return NULL_TREE;
}
/* Fold a builtin function call to cbrt, cbrtf, or cbrtl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_cbrt (tree arglist, tree type)
{
tree arg = TREE_VALUE (arglist);
const enum built_in_function fcode = builtin_mathfn_code (arg);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize cbrt of constant value. */
if (real_zerop (arg) || real_onep (arg) || real_minus_onep (arg))
return arg;
if (flag_unsafe_math_optimizations)
{
/* Optimize cbrt(expN(x)) -> expN(x/3). */
if (BUILTIN_EXPONENT_P (fcode))
{
tree expfn = TREE_OPERAND (TREE_OPERAND (arg, 0), 0);
const REAL_VALUE_TYPE third_trunc =
real_value_truncate (TYPE_MODE (type), dconstthird);
arg = fold (build2 (MULT_EXPR, type,
TREE_VALUE (TREE_OPERAND (arg, 1)),
build_real (type, third_trunc)));
arglist = build_tree_list (NULL_TREE, arg);
return build_function_call_expr (expfn, arglist);
}
/* Optimize cbrt(sqrt(x)) -> pow(x,1/6). */
if (BUILTIN_SQRT_P (fcode))
{
tree powfn = mathfn_built_in (type, BUILT_IN_POW);
if (powfn)
{
tree arg0 = TREE_VALUE (TREE_OPERAND (arg, 1));
tree tree_root;
REAL_VALUE_TYPE dconstroot = dconstthird;
SET_REAL_EXP (&dconstroot, REAL_EXP (&dconstroot) - 1);
dconstroot = real_value_truncate (TYPE_MODE (type), dconstroot);
tree_root = build_real (type, dconstroot);
arglist = tree_cons (NULL_TREE, arg0,
build_tree_list (NULL_TREE, tree_root));
return build_function_call_expr (powfn, arglist);
}
}
/* Optimize cbrt(cbrt(x)) -> pow(x,1/9) iff x is nonnegative. */
if (BUILTIN_CBRT_P (fcode))
{
tree arg0 = TREE_VALUE (TREE_OPERAND (arg, 1));
if (tree_expr_nonnegative_p (arg0))
{
tree powfn = mathfn_built_in (type, BUILT_IN_POW);
if (powfn)
{
tree tree_root;
REAL_VALUE_TYPE dconstroot;
real_arithmetic (&dconstroot, MULT_EXPR, &dconstthird, &dconstthird);
dconstroot = real_value_truncate (TYPE_MODE (type), dconstroot);
tree_root = build_real (type, dconstroot);
arglist = tree_cons (NULL_TREE, arg0,
build_tree_list (NULL_TREE, tree_root));
return build_function_call_expr (powfn, arglist);
}
}
}
/* Optimize cbrt(pow(x,y)) -> pow(x,y/3) iff x is nonnegative. */
if (fcode == BUILT_IN_POW || fcode == BUILT_IN_POWF
|| fcode == BUILT_IN_POWL)
{
tree arg00 = TREE_VALUE (TREE_OPERAND (arg, 1));
tree arg01 = TREE_VALUE (TREE_CHAIN (TREE_OPERAND (arg, 1)));
if (tree_expr_nonnegative_p (arg00))
{
tree powfn = TREE_OPERAND (TREE_OPERAND (arg, 0), 0);
const REAL_VALUE_TYPE dconstroot
= real_value_truncate (TYPE_MODE (type), dconstthird);
tree narg01 = fold (build2 (MULT_EXPR, type, arg01,
build_real (type, dconstroot)));
arglist = tree_cons (NULL_TREE, arg00,
build_tree_list (NULL_TREE, narg01));
return build_function_call_expr (powfn, arglist);
}
}
}
return NULL_TREE;
}
/* Fold function call to builtin sin, sinf, or sinl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_sin (tree arglist)
{
tree arg = TREE_VALUE (arglist);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize sin (0.0) = 0.0. */
if (real_zerop (arg))
return arg;
return NULL_TREE;
}
/* Fold function call to builtin cos, cosf, or cosl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_cos (tree arglist, tree type, tree fndecl)
{
tree arg = TREE_VALUE (arglist);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize cos (0.0) = 1.0. */
if (real_zerop (arg))
return build_real (type, dconst1);
/* Optimize cos(-x) into cos (x). */
if (TREE_CODE (arg) == NEGATE_EXPR)
{
tree args = build_tree_list (NULL_TREE,
TREE_OPERAND (arg, 0));
return build_function_call_expr (fndecl, args);
}
return NULL_TREE;
}
/* Fold function call to builtin tan, tanf, or tanl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_tan (tree arglist)
{
enum built_in_function fcode;
tree arg = TREE_VALUE (arglist);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize tan(0.0) = 0.0. */
if (real_zerop (arg))
return arg;
/* Optimize tan(atan(x)) = x. */
fcode = builtin_mathfn_code (arg);
if (flag_unsafe_math_optimizations
&& (fcode == BUILT_IN_ATAN
|| fcode == BUILT_IN_ATANF
|| fcode == BUILT_IN_ATANL))
return TREE_VALUE (TREE_OPERAND (arg, 1));
return NULL_TREE;
}
/* Fold function call to builtin atan, atanf, or atanl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_atan (tree arglist, tree type)
{
tree arg = TREE_VALUE (arglist);
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize atan(0.0) = 0.0. */
if (real_zerop (arg))
return arg;
/* Optimize atan(1.0) = pi/4. */
if (real_onep (arg))
{
REAL_VALUE_TYPE cst;
real_convert (&cst, TYPE_MODE (type), &dconstpi);
SET_REAL_EXP (&cst, REAL_EXP (&cst) - 2);
return build_real (type, cst);
}
return NULL_TREE;
}
/* Fold function call to builtin trunc, truncf or truncl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_trunc (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
/* Optimize trunc of constant value. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == REAL_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE r, x;
tree type = TREE_TYPE (TREE_TYPE (fndecl));
x = TREE_REAL_CST (arg);
real_trunc (&r, TYPE_MODE (type), &x);
return build_real (type, r);
}
return fold_trunc_transparent_mathfn (fndecl, arglist);
}
/* Fold function call to builtin floor, floorf or floorl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_floor (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
/* Optimize floor of constant value. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == REAL_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE x;
x = TREE_REAL_CST (arg);
if (! REAL_VALUE_ISNAN (x) || ! flag_errno_math)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
REAL_VALUE_TYPE r;
real_floor (&r, TYPE_MODE (type), &x);
return build_real (type, r);
}
}
return fold_trunc_transparent_mathfn (fndecl, arglist);
}
/* Fold function call to builtin ceil, ceilf or ceill. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_ceil (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
/* Optimize ceil of constant value. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == REAL_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE x;
x = TREE_REAL_CST (arg);
if (! REAL_VALUE_ISNAN (x) || ! flag_errno_math)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
REAL_VALUE_TYPE r;
real_ceil (&r, TYPE_MODE (type), &x);
return build_real (type, r);
}
}
return fold_trunc_transparent_mathfn (fndecl, arglist);
}
/* Fold function call to builtin round, roundf or roundl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_round (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
/* Optimize round of constant value. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == REAL_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE x;
x = TREE_REAL_CST (arg);
if (! REAL_VALUE_ISNAN (x) || ! flag_errno_math)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
REAL_VALUE_TYPE r;
real_round (&r, TYPE_MODE (type), &x);
return build_real (type, r);
}
}
return fold_trunc_transparent_mathfn (fndecl, arglist);
}
/* Fold function call to builtin lround, lroundf or lroundl (or the
corresponding long long versions) and other rounding functions.
Return NULL_TREE if no simplification can be made. */
static tree
fold_builtin_int_roundingfn (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
/* Optimize lround of constant value. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == REAL_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
const REAL_VALUE_TYPE x = TREE_REAL_CST (arg);
if (! REAL_VALUE_ISNAN (x) && ! REAL_VALUE_ISINF (x))
{
tree itype = TREE_TYPE (TREE_TYPE (fndecl));
tree ftype = TREE_TYPE (arg), result;
HOST_WIDE_INT hi, lo;
REAL_VALUE_TYPE r;
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_LFLOOR:
case BUILT_IN_LFLOORF:
case BUILT_IN_LFLOORL:
case BUILT_IN_LLFLOOR:
case BUILT_IN_LLFLOORF:
case BUILT_IN_LLFLOORL:
real_floor (&r, TYPE_MODE (ftype), &x);
break;
case BUILT_IN_LROUND:
case BUILT_IN_LROUNDF:
case BUILT_IN_LROUNDL:
case BUILT_IN_LLROUND:
case BUILT_IN_LLROUNDF:
case BUILT_IN_LLROUNDL:
real_round (&r, TYPE_MODE (ftype), &x);
break;
default:
gcc_unreachable ();
}
REAL_VALUE_TO_INT (&lo, &hi, r);
result = build_int_cst_wide (NULL_TREE, lo, hi);
if (int_fits_type_p (result, itype))
return fold_convert (itype, result);
}
}
return fold_fixed_mathfn (fndecl, arglist);
}
/* Fold function call to builtin ffs, clz, ctz, popcount and parity
and their long and long long variants (i.e. ffsl and ffsll).
Return NULL_TREE if no simplification can be made. */
static tree
fold_builtin_bitop (tree fndecl, tree arglist)
{
tree arg;
if (! validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize for constant argument. */
arg = TREE_VALUE (arglist);
if (TREE_CODE (arg) == INTEGER_CST && ! TREE_CONSTANT_OVERFLOW (arg))
{
HOST_WIDE_INT hi, width, result;
unsigned HOST_WIDE_INT lo;
tree type;
type = TREE_TYPE (arg);
width = TYPE_PRECISION (type);
lo = TREE_INT_CST_LOW (arg);
/* Clear all the bits that are beyond the type's precision. */
if (width > HOST_BITS_PER_WIDE_INT)
{
hi = TREE_INT_CST_HIGH (arg);
if (width < 2 * HOST_BITS_PER_WIDE_INT)
hi &= ~((HOST_WIDE_INT) (-1) >> (width - HOST_BITS_PER_WIDE_INT));
}
else
{
hi = 0;
if (width < HOST_BITS_PER_WIDE_INT)
lo &= ~((unsigned HOST_WIDE_INT) (-1) << width);
}
switch (DECL_FUNCTION_CODE (fndecl))
{
case BUILT_IN_FFS:
case BUILT_IN_FFSL:
case BUILT_IN_FFSLL:
if (lo != 0)
result = exact_log2 (lo & -lo) + 1;
else if (hi != 0)
result = HOST_BITS_PER_WIDE_INT + exact_log2 (hi & -hi) + 1;
else
result = 0;
break;
case BUILT_IN_CLZ:
case BUILT_IN_CLZL:
case BUILT_IN_CLZLL:
if (hi != 0)
result = width - floor_log2 (hi) - 1 - HOST_BITS_PER_WIDE_INT;
else if (lo != 0)
result = width - floor_log2 (lo) - 1;
else if (! CLZ_DEFINED_VALUE_AT_ZERO (TYPE_MODE (type), result))
result = width;
break;
case BUILT_IN_CTZ:
case BUILT_IN_CTZL:
case BUILT_IN_CTZLL:
if (lo != 0)
result = exact_log2 (lo & -lo);
else if (hi != 0)
result = HOST_BITS_PER_WIDE_INT + exact_log2 (hi & -hi);
else if (! CTZ_DEFINED_VALUE_AT_ZERO (TYPE_MODE (type), result))
result = width;
break;
case BUILT_IN_POPCOUNT:
case BUILT_IN_POPCOUNTL:
case BUILT_IN_POPCOUNTLL:
result = 0;
while (lo)
result++, lo &= lo - 1;
while (hi)
result++, hi &= hi - 1;
break;
case BUILT_IN_PARITY:
case BUILT_IN_PARITYL:
case BUILT_IN_PARITYLL:
result = 0;
while (lo)
result++, lo &= lo - 1;
while (hi)
result++, hi &= hi - 1;
result &= 1;
break;
default:
gcc_unreachable ();
}
return build_int_cst (TREE_TYPE (TREE_TYPE (fndecl)), result);
}
return NULL_TREE;
}
/* Return true if EXPR is the real constant contained in VALUE. */
static bool
real_dconstp (tree expr, const REAL_VALUE_TYPE *value)
{
STRIP_NOPS (expr);
return ((TREE_CODE (expr) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (expr)
&& REAL_VALUES_EQUAL (TREE_REAL_CST (expr), *value))
|| (TREE_CODE (expr) == COMPLEX_CST
&& real_dconstp (TREE_REALPART (expr), value)
&& real_zerop (TREE_IMAGPART (expr))));
}
/* A subroutine of fold_builtin to fold the various logarithmic
functions. EXP is the CALL_EXPR of a call to a builtin logN
function. VALUE is the base of the logN function. */
static tree
fold_builtin_logarithm (tree fndecl, tree arglist,
const REAL_VALUE_TYPE *value)
{
if (validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
tree arg = TREE_VALUE (arglist);
const enum built_in_function fcode = builtin_mathfn_code (arg);
/* Optimize logN(1.0) = 0.0. */
if (real_onep (arg))
return build_real (type, dconst0);
/* Optimize logN(N) = 1.0. If N can't be truncated to MODE
exactly, then only do this if flag_unsafe_math_optimizations. */
if (exact_real_truncate (TYPE_MODE (type), value)
|| flag_unsafe_math_optimizations)
{
const REAL_VALUE_TYPE value_truncate =
real_value_truncate (TYPE_MODE (type), *value);
if (real_dconstp (arg, &value_truncate))
return build_real (type, dconst1);
}
/* Special case, optimize logN(expN(x)) = x. */
if (flag_unsafe_math_optimizations
&& ((value == &dconste
&& (fcode == BUILT_IN_EXP
|| fcode == BUILT_IN_EXPF
|| fcode == BUILT_IN_EXPL))
|| (value == &dconst2
&& (fcode == BUILT_IN_EXP2
|| fcode == BUILT_IN_EXP2F
|| fcode == BUILT_IN_EXP2L))
|| (value == &dconst10 && (BUILTIN_EXP10_P (fcode)))))
return fold_convert (type, TREE_VALUE (TREE_OPERAND (arg, 1)));
/* Optimize logN(func()) for various exponential functions. We
want to determine the value "x" and the power "exponent" in
order to transform logN(x**exponent) into exponent*logN(x). */
if (flag_unsafe_math_optimizations)
{
tree exponent = 0, x = 0;
switch (fcode)
{
case BUILT_IN_EXP:
case BUILT_IN_EXPF:
case BUILT_IN_EXPL:
/* Prepare to do logN(exp(exponent) -> exponent*logN(e). */
x = build_real (type,
real_value_truncate (TYPE_MODE (type), dconste));
exponent = TREE_VALUE (TREE_OPERAND (arg, 1));
break;
case BUILT_IN_EXP2:
case BUILT_IN_EXP2F:
case BUILT_IN_EXP2L:
/* Prepare to do logN(exp2(exponent) -> exponent*logN(2). */
x = build_real (type, dconst2);
exponent = TREE_VALUE (TREE_OPERAND (arg, 1));
break;
case BUILT_IN_EXP10:
case BUILT_IN_EXP10F:
case BUILT_IN_EXP10L:
case BUILT_IN_POW10:
case BUILT_IN_POW10F:
case BUILT_IN_POW10L:
/* Prepare to do logN(exp10(exponent) -> exponent*logN(10). */
x = build_real (type, dconst10);
exponent = TREE_VALUE (TREE_OPERAND (arg, 1));
break;
case BUILT_IN_SQRT:
case BUILT_IN_SQRTF:
case BUILT_IN_SQRTL:
/* Prepare to do logN(sqrt(x) -> 0.5*logN(x). */
x = TREE_VALUE (TREE_OPERAND (arg, 1));
exponent = build_real (type, dconsthalf);
break;
case BUILT_IN_CBRT:
case BUILT_IN_CBRTF:
case BUILT_IN_CBRTL:
/* Prepare to do logN(cbrt(x) -> (1/3)*logN(x). */
x = TREE_VALUE (TREE_OPERAND (arg, 1));
exponent = build_real (type, real_value_truncate (TYPE_MODE (type),
dconstthird));
break;
case BUILT_IN_POW:
case BUILT_IN_POWF:
case BUILT_IN_POWL:
/* Prepare to do logN(pow(x,exponent) -> exponent*logN(x). */
x = TREE_VALUE (TREE_OPERAND (arg, 1));
exponent = TREE_VALUE (TREE_CHAIN (TREE_OPERAND (arg, 1)));
break;
default:
break;
}
/* Now perform the optimization. */
if (x && exponent)
{
tree logfn;
arglist = build_tree_list (NULL_TREE, x);
logfn = build_function_call_expr (fndecl, arglist);
return fold (build2 (MULT_EXPR, type, exponent, logfn));
}
}
}
return 0;
}
/* Fold a builtin function call to pow, powf, or powl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_pow (tree fndecl, tree arglist, tree type)
{
tree arg0 = TREE_VALUE (arglist);
tree arg1 = TREE_VALUE (TREE_CHAIN (arglist));
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize pow(1.0,y) = 1.0. */
if (real_onep (arg0))
return omit_one_operand (type, build_real (type, dconst1), arg1);
if (TREE_CODE (arg1) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg1))
{
REAL_VALUE_TYPE cint;
REAL_VALUE_TYPE c;
HOST_WIDE_INT n;
c = TREE_REAL_CST (arg1);
/* Optimize pow(x,0.0) = 1.0. */
if (REAL_VALUES_EQUAL (c, dconst0))
return omit_one_operand (type, build_real (type, dconst1),
arg0);
/* Optimize pow(x,1.0) = x. */
if (REAL_VALUES_EQUAL (c, dconst1))
return arg0;
/* Optimize pow(x,-1.0) = 1.0/x. */
if (REAL_VALUES_EQUAL (c, dconstm1))
return fold (build2 (RDIV_EXPR, type,
build_real (type, dconst1), arg0));
/* Optimize pow(x,0.5) = sqrt(x). */
if (flag_unsafe_math_optimizations
&& REAL_VALUES_EQUAL (c, dconsthalf))
{
tree sqrtfn = mathfn_built_in (type, BUILT_IN_SQRT);
if (sqrtfn != NULL_TREE)
{
tree arglist = build_tree_list (NULL_TREE, arg0);
return build_function_call_expr (sqrtfn, arglist);
}
}
/* Check for an integer exponent. */
n = real_to_integer (&c);
real_from_integer (&cint, VOIDmode, n, n < 0 ? -1 : 0, 0);
if (real_identical (&c, &cint))
{
/* Attempt to evaluate pow at compile-time. */
if (TREE_CODE (arg0) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg0))
{
REAL_VALUE_TYPE x;
bool inexact;
x = TREE_REAL_CST (arg0);
inexact = real_powi (&x, TYPE_MODE (type), &x, n);
if (flag_unsafe_math_optimizations || !inexact)
return build_real (type, x);
}
/* Strip sign ops from even integer powers. */
if ((n & 1) == 0 && flag_unsafe_math_optimizations)
{
tree narg0 = fold_strip_sign_ops (arg0);
if (narg0)
{
arglist = build_tree_list (NULL_TREE, arg1);
arglist = tree_cons (NULL_TREE, narg0, arglist);
return build_function_call_expr (fndecl, arglist);
}
}
}
}
if (flag_unsafe_math_optimizations)
{
const enum built_in_function fcode = builtin_mathfn_code (arg0);
/* Optimize pow(expN(x),y) = expN(x*y). */
if (BUILTIN_EXPONENT_P (fcode))
{
tree expfn = TREE_OPERAND (TREE_OPERAND (arg0, 0), 0);
tree arg = TREE_VALUE (TREE_OPERAND (arg0, 1));
arg = fold (build2 (MULT_EXPR, type, arg, arg1));
arglist = build_tree_list (NULL_TREE, arg);
return build_function_call_expr (expfn, arglist);
}
/* Optimize pow(sqrt(x),y) = pow(x,y*0.5). */
if (BUILTIN_SQRT_P (fcode))
{
tree narg0 = TREE_VALUE (TREE_OPERAND (arg0, 1));
tree narg1 = fold (build2 (MULT_EXPR, type, arg1,
build_real (type, dconsthalf)));
arglist = tree_cons (NULL_TREE, narg0,
build_tree_list (NULL_TREE, narg1));
return build_function_call_expr (fndecl, arglist);
}
/* Optimize pow(cbrt(x),y) = pow(x,y/3) iff x is nonnegative. */
if (BUILTIN_CBRT_P (fcode))
{
tree arg = TREE_VALUE (TREE_OPERAND (arg0, 1));
if (tree_expr_nonnegative_p (arg))
{
const REAL_VALUE_TYPE dconstroot
= real_value_truncate (TYPE_MODE (type), dconstthird);
tree narg1 = fold (build2 (MULT_EXPR, type, arg1,
build_real (type, dconstroot)));
arglist = tree_cons (NULL_TREE, arg,
build_tree_list (NULL_TREE, narg1));
return build_function_call_expr (fndecl, arglist);
}
}
/* Optimize pow(pow(x,y),z) = pow(x,y*z). */
if (fcode == BUILT_IN_POW || fcode == BUILT_IN_POWF
|| fcode == BUILT_IN_POWL)
{
tree arg00 = TREE_VALUE (TREE_OPERAND (arg0, 1));
tree arg01 = TREE_VALUE (TREE_CHAIN (TREE_OPERAND (arg0, 1)));
tree narg1 = fold (build2 (MULT_EXPR, type, arg01, arg1));
arglist = tree_cons (NULL_TREE, arg00,
build_tree_list (NULL_TREE, narg1));
return build_function_call_expr (fndecl, arglist);
}
}
return NULL_TREE;
}
/* Fold a builtin function call to powi, powif, or powil. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_powi (tree fndecl ATTRIBUTE_UNUSED, tree arglist, tree type)
{
tree arg0 = TREE_VALUE (arglist);
tree arg1 = TREE_VALUE (TREE_CHAIN (arglist));
if (!validate_arglist (arglist, REAL_TYPE, INTEGER_TYPE, VOID_TYPE))
return NULL_TREE;
/* Optimize pow(1.0,y) = 1.0. */
if (real_onep (arg0))
return omit_one_operand (type, build_real (type, dconst1), arg1);
if (host_integerp (arg1, 0))
{
HOST_WIDE_INT c = TREE_INT_CST_LOW (arg1);
/* Evaluate powi at compile-time. */
if (TREE_CODE (arg0) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg0))
{
REAL_VALUE_TYPE x;
x = TREE_REAL_CST (arg0);
real_powi (&x, TYPE_MODE (type), &x, c);
return build_real (type, x);
}
/* Optimize pow(x,0) = 1.0. */
if (c == 0)
return omit_one_operand (type, build_real (type, dconst1),
arg0);
/* Optimize pow(x,1) = x. */
if (c == 1)
return arg0;
/* Optimize pow(x,-1) = 1.0/x. */
if (c == -1)
return fold (build2 (RDIV_EXPR, type,
build_real (type, dconst1), arg0));
}
return NULL_TREE;
}
/* A subroutine of fold_builtin to fold the various exponent
functions. EXP is the CALL_EXPR of a call to a builtin function.
VALUE is the value which will be raised to a power. */
static tree
fold_builtin_exponent (tree fndecl, tree arglist,
const REAL_VALUE_TYPE *value)
{
if (validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
tree arg = TREE_VALUE (arglist);
/* Optimize exp*(0.0) = 1.0. */
if (real_zerop (arg))
return build_real (type, dconst1);
/* Optimize expN(1.0) = N. */
if (real_onep (arg))
{
REAL_VALUE_TYPE cst;
real_convert (&cst, TYPE_MODE (type), value);
return build_real (type, cst);
}
/* Attempt to evaluate expN(integer) at compile-time. */
if (flag_unsafe_math_optimizations
&& TREE_CODE (arg) == REAL_CST
&& ! TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE cint;
REAL_VALUE_TYPE c;
HOST_WIDE_INT n;
c = TREE_REAL_CST (arg);
n = real_to_integer (&c);
real_from_integer (&cint, VOIDmode, n,
n < 0 ? -1 : 0, 0);
if (real_identical (&c, &cint))
{
REAL_VALUE_TYPE x;
real_powi (&x, TYPE_MODE (type), value, n);
return build_real (type, x);
}
}
/* Optimize expN(logN(x)) = x. */
if (flag_unsafe_math_optimizations)
{
const enum built_in_function fcode = builtin_mathfn_code (arg);
if ((value == &dconste
&& (fcode == BUILT_IN_LOG
|| fcode == BUILT_IN_LOGF
|| fcode == BUILT_IN_LOGL))
|| (value == &dconst2
&& (fcode == BUILT_IN_LOG2
|| fcode == BUILT_IN_LOG2F
|| fcode == BUILT_IN_LOG2L))
|| (value == &dconst10
&& (fcode == BUILT_IN_LOG10
|| fcode == BUILT_IN_LOG10F
|| fcode == BUILT_IN_LOG10L)))
return fold_convert (type, TREE_VALUE (TREE_OPERAND (arg, 1)));
}
}
return 0;
}
/* Fold function call to builtin memcpy. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_memcpy (tree fndecl, tree arglist)
{
tree dest, src, len;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
dest = TREE_VALUE (arglist);
src = TREE_VALUE (TREE_CHAIN (arglist));
len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return DEST. */
if (integer_zerop (len))
return omit_one_operand (TREE_TYPE (TREE_TYPE (fndecl)), dest, src);
/* If SRC and DEST are the same (and not volatile), return DEST. */
if (operand_equal_p (src, dest, 0))
return omit_one_operand (TREE_TYPE (TREE_TYPE (fndecl)), dest, len);
return 0;
}
/* Fold function call to builtin mempcpy. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_mempcpy (tree arglist, tree type, int endp)
{
if (validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
{
tree dest = TREE_VALUE (arglist);
tree src = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return DEST. */
if (integer_zerop (len))
return omit_one_operand (type, dest, src);
/* If SRC and DEST are the same (and not volatile), return DEST+LEN. */
if (operand_equal_p (src, dest, 0))
{
if (endp == 0)
return omit_one_operand (type, dest, len);
if (endp == 2)
len = fold (build2 (MINUS_EXPR, TREE_TYPE (len), len,
ssize_int (1)));
len = fold_convert (TREE_TYPE (dest), len);
len = fold (build2 (PLUS_EXPR, TREE_TYPE (dest), dest, len));
return fold_convert (type, len);
}
}
return 0;
}
/* Fold function call to builtin memmove. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_memmove (tree arglist, tree type)
{
tree dest, src, len;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
dest = TREE_VALUE (arglist);
src = TREE_VALUE (TREE_CHAIN (arglist));
len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return DEST. */
if (integer_zerop (len))
return omit_one_operand (type, dest, src);
/* If SRC and DEST are the same (and not volatile), return DEST. */
if (operand_equal_p (src, dest, 0))
return omit_one_operand (type, dest, len);
return 0;
}
/* Fold function call to builtin strcpy. If LEN is not NULL, it represents
the length of the string to be copied. Return NULL_TREE if no
simplification can be made. */
tree
fold_builtin_strcpy (tree fndecl, tree arglist, tree len)
{
tree dest, src, fn;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
dest = TREE_VALUE (arglist);
src = TREE_VALUE (TREE_CHAIN (arglist));
/* If SRC and DEST are the same (and not volatile), return DEST. */
if (operand_equal_p (src, dest, 0))
return fold_convert (TREE_TYPE (TREE_TYPE (fndecl)), dest);
if (optimize_size)
return 0;
fn = implicit_built_in_decls[BUILT_IN_MEMCPY];
if (!fn)
return 0;
if (!len)
{
len = c_strlen (src, 1);
if (! len || TREE_SIDE_EFFECTS (len))
return 0;
}
len = size_binop (PLUS_EXPR, len, ssize_int (1));
arglist = build_tree_list (NULL_TREE, len);
arglist = tree_cons (NULL_TREE, src, arglist);
arglist = tree_cons (NULL_TREE, dest, arglist);
return fold_convert (TREE_TYPE (TREE_TYPE (fndecl)),
build_function_call_expr (fn, arglist));
}
/* Fold function call to builtin strncpy. If SLEN is not NULL, it represents
the length of the source string. Return NULL_TREE if no simplification
can be made. */
tree
fold_builtin_strncpy (tree fndecl, tree arglist, tree slen)
{
tree dest, src, len, fn;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
dest = TREE_VALUE (arglist);
src = TREE_VALUE (TREE_CHAIN (arglist));
len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return DEST. */
if (integer_zerop (len))
return omit_one_operand (TREE_TYPE (TREE_TYPE (fndecl)), dest, src);
/* We can't compare slen with len as constants below if len is not a
constant. */
if (len == 0 || TREE_CODE (len) != INTEGER_CST)
return 0;
if (!slen)
slen = c_strlen (src, 1);
/* Now, we must be passed a constant src ptr parameter. */
if (slen == 0 || TREE_CODE (slen) != INTEGER_CST)
return 0;
slen = size_binop (PLUS_EXPR, slen, ssize_int (1));
/* We do not support simplification of this case, though we do
support it when expanding trees into RTL. */
/* FIXME: generate a call to __builtin_memset. */
if (tree_int_cst_lt (slen, len))
return 0;
/* OK transform into builtin memcpy. */
fn = implicit_built_in_decls[BUILT_IN_MEMCPY];
if (!fn)
return 0;
return fold_convert (TREE_TYPE (TREE_TYPE (fndecl)),
build_function_call_expr (fn, arglist));
}
/* Fold function call to builtin memcmp. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_memcmp (tree arglist)
{
tree arg1, arg2, len;
const char *p1, *p2;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
arg1 = TREE_VALUE (arglist);
arg2 = TREE_VALUE (TREE_CHAIN (arglist));
len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return zero. */
if (integer_zerop (len))
return omit_two_operands (integer_type_node, integer_zero_node,
arg1, arg2);
/* If ARG1 and ARG2 are the same (and not volatile), return zero. */
if (operand_equal_p (arg1, arg2, 0))
return omit_one_operand (integer_type_node, integer_zero_node, len);
p1 = c_getstr (arg1);
p2 = c_getstr (arg2);
/* If all arguments are constant, and the value of len is not greater
than the lengths of arg1 and arg2, evaluate at compile-time. */
if (host_integerp (len, 1) && p1 && p2
&& compare_tree_int (len, strlen (p1) + 1) <= 0
&& compare_tree_int (len, strlen (p2) + 1) <= 0)
{
const int r = memcmp (p1, p2, tree_low_cst (len, 1));
if (r > 0)
return integer_one_node;
else if (r < 0)
return integer_minus_one_node;
else
return integer_zero_node;
}
/* If len parameter is one, return an expression corresponding to
(*(const unsigned char*)arg1 - (const unsigned char*)arg2). */
if (host_integerp (len, 1) && tree_low_cst (len, 1) == 1)
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
tree ind1 = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg1)));
tree ind2 = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg2)));
return fold (build2 (MINUS_EXPR, integer_type_node, ind1, ind2));
}
return 0;
}
/* Fold function call to builtin strcmp. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_strcmp (tree arglist)
{
tree arg1, arg2;
const char *p1, *p2;
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
arg1 = TREE_VALUE (arglist);
arg2 = TREE_VALUE (TREE_CHAIN (arglist));
/* If ARG1 and ARG2 are the same (and not volatile), return zero. */
if (operand_equal_p (arg1, arg2, 0))
return integer_zero_node;
p1 = c_getstr (arg1);
p2 = c_getstr (arg2);
if (p1 && p2)
{
const int i = strcmp (p1, p2);
if (i < 0)
return integer_minus_one_node;
else if (i > 0)
return integer_one_node;
else
return integer_zero_node;
}
/* If the second arg is "", return *(const unsigned char*)arg1. */
if (p2 && *p2 == '\0')
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
return fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg1)));
}
/* If the first arg is "", return -*(const unsigned char*)arg2. */
if (p1 && *p1 == '\0')
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
tree temp = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg2)));
return fold (build1 (NEGATE_EXPR, integer_type_node, temp));
}
return 0;
}
/* Fold function call to builtin strncmp. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_strncmp (tree arglist)
{
tree arg1, arg2, len;
const char *p1, *p2;
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
arg1 = TREE_VALUE (arglist);
arg2 = TREE_VALUE (TREE_CHAIN (arglist));
len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
/* If the LEN parameter is zero, return zero. */
if (integer_zerop (len))
return omit_two_operands (integer_type_node, integer_zero_node,
arg1, arg2);
/* If ARG1 and ARG2 are the same (and not volatile), return zero. */
if (operand_equal_p (arg1, arg2, 0))
return omit_one_operand (integer_type_node, integer_zero_node, len);
p1 = c_getstr (arg1);
p2 = c_getstr (arg2);
if (host_integerp (len, 1) && p1 && p2)
{
const int i = strncmp (p1, p2, tree_low_cst (len, 1));
if (i > 0)
return integer_one_node;
else if (i < 0)
return integer_minus_one_node;
else
return integer_zero_node;
}
/* If the second arg is "", and the length is greater than zero,
return *(const unsigned char*)arg1. */
if (p2 && *p2 == '\0'
&& TREE_CODE (len) == INTEGER_CST
&& tree_int_cst_sgn (len) == 1)
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
return fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg1)));
}
/* If the first arg is "", and the length is greater than zero,
return -*(const unsigned char*)arg2. */
if (p1 && *p1 == '\0'
&& TREE_CODE (len) == INTEGER_CST
&& tree_int_cst_sgn (len) == 1)
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
tree temp = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg2)));
return fold (build1 (NEGATE_EXPR, integer_type_node, temp));
}
/* If len parameter is one, return an expression corresponding to
(*(const unsigned char*)arg1 - (const unsigned char*)arg2). */
if (host_integerp (len, 1) && tree_low_cst (len, 1) == 1)
{
tree cst_uchar_node = build_type_variant (unsigned_char_type_node, 1, 0);
tree cst_uchar_ptr_node = build_pointer_type (cst_uchar_node);
tree ind1 = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg1)));
tree ind2 = fold_convert (integer_type_node,
build1 (INDIRECT_REF, cst_uchar_node,
fold_convert (cst_uchar_ptr_node,
arg2)));
return fold (build2 (MINUS_EXPR, integer_type_node, ind1, ind2));
}
return 0;
}
/* Fold function call to builtin signbit, signbitf or signbitl. Return
NULL_TREE if no simplification can be made. */
static tree
fold_builtin_signbit (tree fndecl, tree arglist)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
tree arg, temp;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
arg = TREE_VALUE (arglist);
/* If ARG is a compile-time constant, determine the result. */
if (TREE_CODE (arg) == REAL_CST
&& !TREE_CONSTANT_OVERFLOW (arg))
{
REAL_VALUE_TYPE c;
c = TREE_REAL_CST (arg);
temp = REAL_VALUE_NEGATIVE (c) ? integer_one_node : integer_zero_node;
return fold_convert (type, temp);
}
/* If ARG is non-negative, the result is always zero. */
if (tree_expr_nonnegative_p (arg))
return omit_one_operand (type, integer_zero_node, arg);
/* If ARG's format doesn't have signed zeros, return "arg < 0.0". */
if (!HONOR_SIGNED_ZEROS (TYPE_MODE (TREE_TYPE (arg))))
return fold (build2 (LT_EXPR, type, arg,
build_real (TREE_TYPE (arg), dconst0)));
return NULL_TREE;
}
/* Fold function call to builtin copysign, copysignf or copysignl.
Return NULL_TREE if no simplification can be made. */
static tree
fold_builtin_copysign (tree fndecl, tree arglist, tree type)
{
tree arg1, arg2, tem;
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, VOID_TYPE))
return NULL_TREE;
arg1 = TREE_VALUE (arglist);
arg2 = TREE_VALUE (TREE_CHAIN (arglist));
/* copysign(X,X) is X. */
if (operand_equal_p (arg1, arg2, 0))
return fold_convert (type, arg1);
/* If ARG1 and ARG2 are compile-time constants, determine the result. */
if (TREE_CODE (arg1) == REAL_CST
&& TREE_CODE (arg2) == REAL_CST
&& !TREE_CONSTANT_OVERFLOW (arg1)
&& !TREE_CONSTANT_OVERFLOW (arg2))
{
REAL_VALUE_TYPE c1, c2;
c1 = TREE_REAL_CST (arg1);
c2 = TREE_REAL_CST (arg2);
real_copysign (&c1, &c2);
return build_real (type, c1);
c1.sign = c2.sign;
}
/* copysign(X, Y) is fabs(X) when Y is always non-negative.
Remember to evaluate Y for side-effects. */
if (tree_expr_nonnegative_p (arg2))
return omit_one_operand (type,
fold (build1 (ABS_EXPR, type, arg1)),
arg2);
/* Strip sign changing operations for the first argument. */
tem = fold_strip_sign_ops (arg1);
if (tem)
{
arglist = tree_cons (NULL_TREE, tem, TREE_CHAIN (arglist));
return build_function_call_expr (fndecl, arglist);
}
return NULL_TREE;
}
/* Fold a call to builtin isascii. */
static tree
fold_builtin_isascii (tree arglist)
{
if (! validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
/* Transform isascii(c) -> ((c & ~0x7f) == 0). */
tree arg = TREE_VALUE (arglist);
arg = build2 (BIT_AND_EXPR, integer_type_node, arg,
build_int_cst (NULL_TREE,
~ (unsigned HOST_WIDE_INT) 0x7f));
arg = fold (build2 (EQ_EXPR, integer_type_node,
arg, integer_zero_node));
if (in_gimple_form && !TREE_CONSTANT (arg))
return NULL_TREE;
else
return arg;
}
}
/* Fold a call to builtin toascii. */
static tree
fold_builtin_toascii (tree arglist)
{
if (! validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
/* Transform toascii(c) -> (c & 0x7f). */
tree arg = TREE_VALUE (arglist);
return fold (build2 (BIT_AND_EXPR, integer_type_node, arg,
build_int_cst (NULL_TREE, 0x7f)));
}
}
/* Fold a call to builtin isdigit. */
static tree
fold_builtin_isdigit (tree arglist)
{
if (! validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
/* Transform isdigit(c) -> (unsigned)(c) - '0' <= 9. */
/* According to the C standard, isdigit is unaffected by locale.
However, it definitely is affected by the target character set. */
tree arg;
unsigned HOST_WIDE_INT target_digit0
= lang_hooks.to_target_charset ('0');
if (target_digit0 == 0)
return NULL_TREE;
arg = fold_convert (unsigned_type_node, TREE_VALUE (arglist));
arg = build2 (MINUS_EXPR, unsigned_type_node, arg,
build_int_cst (unsigned_type_node, target_digit0));
arg = build2 (LE_EXPR, integer_type_node, arg,
build_int_cst (unsigned_type_node, 9));
arg = fold (arg);
if (in_gimple_form && !TREE_CONSTANT (arg))
return NULL_TREE;
else
return arg;
}
}
/* Fold a call to fabs, fabsf or fabsl. */
static tree
fold_builtin_fabs (tree arglist, tree type)
{
tree arg;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
arg = fold_convert (type, arg);
if (TREE_CODE (arg) == REAL_CST)
return fold_abs_const (arg, type);
return fold (build1 (ABS_EXPR, type, arg));
}
/* Fold a call to abs, labs, llabs or imaxabs. */
static tree
fold_builtin_abs (tree arglist, tree type)
{
tree arg;
if (!validate_arglist (arglist, INTEGER_TYPE, VOID_TYPE))
return 0;
arg = TREE_VALUE (arglist);
arg = fold_convert (type, arg);
if (TREE_CODE (arg) == INTEGER_CST)
return fold_abs_const (arg, type);
return fold (build1 (ABS_EXPR, type, arg));
}
/* Fold a call to __builtin_isnan(), __builtin_isinf, __builtin_finite.
EXP is the CALL_EXPR for the call. */
static tree
fold_builtin_classify (tree fndecl, tree arglist, int builtin_index)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
tree arg;
REAL_VALUE_TYPE r;
if (!validate_arglist (arglist, REAL_TYPE, VOID_TYPE))
{
/* Check that we have exactly one argument. */
if (arglist == 0)
{
error ("too few arguments to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
else if (TREE_CHAIN (arglist) != 0)
{
error ("too many arguments to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
else
{
error ("non-floating-point argument to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
}
arg = TREE_VALUE (arglist);
switch (builtin_index)
{
case BUILT_IN_ISINF:
if (!MODE_HAS_INFINITIES (TYPE_MODE (TREE_TYPE (arg))))
return omit_one_operand (type, integer_zero_node, arg);
if (TREE_CODE (arg) == REAL_CST)
{
r = TREE_REAL_CST (arg);
if (real_isinf (&r))
return real_compare (GT_EXPR, &r, &dconst0)
? integer_one_node : integer_minus_one_node;
else
return integer_zero_node;
}
return NULL_TREE;
case BUILT_IN_FINITE:
if (!MODE_HAS_NANS (TYPE_MODE (TREE_TYPE (arg)))
&& !MODE_HAS_INFINITIES (TYPE_MODE (TREE_TYPE (arg))))
return omit_one_operand (type, integer_zero_node, arg);
if (TREE_CODE (arg) == REAL_CST)
{
r = TREE_REAL_CST (arg);
return real_isinf (&r) || real_isnan (&r)
? integer_zero_node : integer_one_node;
}
return NULL_TREE;
case BUILT_IN_ISNAN:
if (!MODE_HAS_NANS (TYPE_MODE (TREE_TYPE (arg))))
return omit_one_operand (type, integer_zero_node, arg);
if (TREE_CODE (arg) == REAL_CST)
{
r = TREE_REAL_CST (arg);
return real_isnan (&r) ? integer_one_node : integer_zero_node;
}
arg = builtin_save_expr (arg);
return fold (build2 (UNORDERED_EXPR, type, arg, arg));
default:
gcc_unreachable ();
}
}
/* Fold a call to an unordered comparison function such as
__builtin_isgreater(). FNDECL is the FUNCTION_DECL for the function
being called and ARGLIST is the argument list for the call.
UNORDERED_CODE and ORDERED_CODE are comparison codes that give
the opposite of the desired result. UNORDERED_CODE is used
for modes that can hold NaNs and ORDERED_CODE is used for
the rest. */
static tree
fold_builtin_unordered_cmp (tree fndecl, tree arglist,
enum tree_code unordered_code,
enum tree_code ordered_code)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
enum tree_code code;
tree arg0, arg1;
tree type0, type1;
enum tree_code code0, code1;
tree cmp_type = NULL_TREE;
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, VOID_TYPE))
{
/* Check that we have exactly two arguments. */
if (arglist == 0 || TREE_CHAIN (arglist) == 0)
{
error ("too few arguments to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
else if (TREE_CHAIN (TREE_CHAIN (arglist)) != 0)
{
error ("too many arguments to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
}
arg0 = TREE_VALUE (arglist);
arg1 = TREE_VALUE (TREE_CHAIN (arglist));
type0 = TREE_TYPE (arg0);
type1 = TREE_TYPE (arg1);
code0 = TREE_CODE (type0);
code1 = TREE_CODE (type1);
if (code0 == REAL_TYPE && code1 == REAL_TYPE)
/* Choose the wider of two real types. */
cmp_type = TYPE_PRECISION (type0) >= TYPE_PRECISION (type1)
? type0 : type1;
else if (code0 == REAL_TYPE && code1 == INTEGER_TYPE)
cmp_type = type0;
else if (code0 == INTEGER_TYPE && code1 == REAL_TYPE)
cmp_type = type1;
else
{
error ("non-floating-point argument to function %qs",
IDENTIFIER_POINTER (DECL_NAME (fndecl)));
return error_mark_node;
}
arg0 = fold_convert (cmp_type, arg0);
arg1 = fold_convert (cmp_type, arg1);
if (unordered_code == UNORDERED_EXPR)
{
if (!MODE_HAS_NANS (TYPE_MODE (TREE_TYPE (arg0))))
return omit_two_operands (type, integer_zero_node, arg0, arg1);
return fold (build2 (UNORDERED_EXPR, type, arg0, arg1));
}
code = MODE_HAS_NANS (TYPE_MODE (TREE_TYPE (arg0))) ? unordered_code
: ordered_code;
return fold (build1 (TRUTH_NOT_EXPR, type,
fold (build2 (code, type, arg0, arg1))));
}
/* Fold a call to one of the external complex multiply libcalls. */
static tree
fold_builtin_complex_mul (tree type, tree arglist)
{
tree ar, ai, br, bi;
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, REAL_TYPE,
REAL_TYPE, VOID_TYPE))
return NULL;
ar = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
ai = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
br = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
bi = TREE_VALUE (arglist);
return fold_complex_mult_parts (type, ar, ai, br, bi);
}
/* Fold a call to one of the external complex division libcalls. */
static tree
fold_builtin_complex_div (tree type, tree arglist)
{
tree ar, ai, br, bi;
if (!validate_arglist (arglist, REAL_TYPE, REAL_TYPE, REAL_TYPE,
REAL_TYPE, VOID_TYPE))
return NULL;
ar = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
ai = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
br = TREE_VALUE (arglist); arglist = TREE_CHAIN (arglist);
bi = TREE_VALUE (arglist);
return fold_complex_div_parts (type, ar, ai, br, bi, RDIV_EXPR);
}
/* Used by constant folding to simplify calls to builtin functions. EXP is
the CALL_EXPR of a call to a builtin function. IGNORE is true if the
result of the function call is ignored. This function returns NULL_TREE
if no simplification was possible. */
static tree
fold_builtin_1 (tree fndecl, tree arglist, bool ignore)
{
tree type = TREE_TYPE (TREE_TYPE (fndecl));
enum built_in_function fcode;
if (DECL_BUILT_IN_CLASS (fndecl) == BUILT_IN_MD)
return targetm.fold_builtin (fndecl, arglist, ignore);
fcode = DECL_FUNCTION_CODE (fndecl);
switch (fcode)
{
case BUILT_IN_FPUTS:
return fold_builtin_fputs (arglist, ignore, false, NULL_TREE);
case BUILT_IN_FPUTS_UNLOCKED:
return fold_builtin_fputs (arglist, ignore, true, NULL_TREE);
case BUILT_IN_STRSTR:
return fold_builtin_strstr (arglist, type);
case BUILT_IN_STRCAT:
return fold_builtin_strcat (arglist);
case BUILT_IN_STRNCAT:
return fold_builtin_strncat (arglist);
case BUILT_IN_STRSPN:
return fold_builtin_strspn (arglist);
case BUILT_IN_STRCSPN:
return fold_builtin_strcspn (arglist);
case BUILT_IN_STRCHR:
case BUILT_IN_INDEX:
return fold_builtin_strchr (arglist, type);
case BUILT_IN_STRRCHR:
case BUILT_IN_RINDEX:
return fold_builtin_strrchr (arglist, type);
case BUILT_IN_STRCPY:
return fold_builtin_strcpy (fndecl, arglist, NULL_TREE);
case BUILT_IN_STRNCPY:
return fold_builtin_strncpy (fndecl, arglist, NULL_TREE);
case BUILT_IN_STRCMP:
return fold_builtin_strcmp (arglist);
case BUILT_IN_STRNCMP:
return fold_builtin_strncmp (arglist);
case BUILT_IN_STRPBRK:
return fold_builtin_strpbrk (arglist, type);
case BUILT_IN_BCMP:
case BUILT_IN_MEMCMP:
return fold_builtin_memcmp (arglist);
case BUILT_IN_SPRINTF:
return fold_builtin_sprintf (arglist, ignore);
case BUILT_IN_CONSTANT_P:
{
tree val;
val = fold_builtin_constant_p (arglist);
/* Gimplification will pull the CALL_EXPR for the builtin out of
an if condition. When not optimizing, we'll not CSE it back.
To avoid link error types of regressions, return false now. */
if (!val && !optimize)
val = integer_zero_node;
return val;
}
case BUILT_IN_EXPECT:
return fold_builtin_expect (arglist);
case BUILT_IN_CLASSIFY_TYPE:
return fold_builtin_classify_type (arglist);
case BUILT_IN_STRLEN:
return fold_builtin_strlen (arglist);
case BUILT_IN_FABS:
case BUILT_IN_FABSF:
case BUILT_IN_FABSL:
return fold_builtin_fabs (arglist, type);
case BUILT_IN_ABS:
case BUILT_IN_LABS:
case BUILT_IN_LLABS:
case BUILT_IN_IMAXABS:
return fold_builtin_abs (arglist, type);
case BUILT_IN_CONJ:
case BUILT_IN_CONJF:
case BUILT_IN_CONJL:
if (validate_arglist (arglist, COMPLEX_TYPE, VOID_TYPE))
return fold (build1 (CONJ_EXPR, type, TREE_VALUE (arglist)));
break;
case BUILT_IN_CREAL:
case BUILT_IN_CREALF:
case BUILT_IN_CREALL:
if (validate_arglist (arglist, COMPLEX_TYPE, VOID_TYPE))
return non_lvalue (fold (build1 (REALPART_EXPR, type,
TREE_VALUE (arglist))));
break;
case BUILT_IN_CIMAG:
case BUILT_IN_CIMAGF:
case BUILT_IN_CIMAGL:
if (validate_arglist (arglist, COMPLEX_TYPE, VOID_TYPE))
return non_lvalue (fold (build1 (IMAGPART_EXPR, type,
TREE_VALUE (arglist))));
break;
case BUILT_IN_CABS:
case BUILT_IN_CABSF:
case BUILT_IN_CABSL:
return fold_builtin_cabs (arglist, type);
case BUILT_IN_SQRT:
case BUILT_IN_SQRTF:
case BUILT_IN_SQRTL:
return fold_builtin_sqrt (arglist, type);
case BUILT_IN_CBRT:
case BUILT_IN_CBRTF:
case BUILT_IN_CBRTL:
return fold_builtin_cbrt (arglist, type);
case BUILT_IN_SIN:
case BUILT_IN_SINF:
case BUILT_IN_SINL:
return fold_builtin_sin (arglist);
case BUILT_IN_COS:
case BUILT_IN_COSF:
case BUILT_IN_COSL:
return fold_builtin_cos (arglist, type, fndecl);
case BUILT_IN_EXP:
case BUILT_IN_EXPF:
case BUILT_IN_EXPL:
return fold_builtin_exponent (fndecl, arglist, &dconste);
case BUILT_IN_EXP2:
case BUILT_IN_EXP2F:
case BUILT_IN_EXP2L:
return fold_builtin_exponent (fndecl, arglist, &dconst2);
case BUILT_IN_EXP10:
case BUILT_IN_EXP10F:
case BUILT_IN_EXP10L:
case BUILT_IN_POW10:
case BUILT_IN_POW10F:
case BUILT_IN_POW10L:
return fold_builtin_exponent (fndecl, arglist, &dconst10);
case BUILT_IN_LOG:
case BUILT_IN_LOGF:
case BUILT_IN_LOGL:
return fold_builtin_logarithm (fndecl, arglist, &dconste);
case BUILT_IN_LOG2:
case BUILT_IN_LOG2F:
case BUILT_IN_LOG2L:
return fold_builtin_logarithm (fndecl, arglist, &dconst2);
case BUILT_IN_LOG10:
case BUILT_IN_LOG10F:
case BUILT_IN_LOG10L:
return fold_builtin_logarithm (fndecl, arglist, &dconst10);
case BUILT_IN_TAN:
case BUILT_IN_TANF:
case BUILT_IN_TANL:
return fold_builtin_tan (arglist);
case BUILT_IN_ATAN:
case BUILT_IN_ATANF:
case BUILT_IN_ATANL:
return fold_builtin_atan (arglist, type);
case BUILT_IN_POW:
case BUILT_IN_POWF:
case BUILT_IN_POWL:
return fold_builtin_pow (fndecl, arglist, type);
case BUILT_IN_POWI:
case BUILT_IN_POWIF:
case BUILT_IN_POWIL:
return fold_builtin_powi (fndecl, arglist, type);
case BUILT_IN_INF:
case BUILT_IN_INFF:
case BUILT_IN_INFL:
return fold_builtin_inf (type, true);
case BUILT_IN_HUGE_VAL:
case BUILT_IN_HUGE_VALF:
case BUILT_IN_HUGE_VALL:
return fold_builtin_inf (type, false);
case BUILT_IN_NAN:
case BUILT_IN_NANF:
case BUILT_IN_NANL:
return fold_builtin_nan (arglist, type, true);
case BUILT_IN_NANS:
case BUILT_IN_NANSF:
case BUILT_IN_NANSL:
return fold_builtin_nan (arglist, type, false);
case BUILT_IN_FLOOR:
case BUILT_IN_FLOORF:
case BUILT_IN_FLOORL:
return fold_builtin_floor (fndecl, arglist);
case BUILT_IN_CEIL:
case BUILT_IN_CEILF:
case BUILT_IN_CEILL:
return fold_builtin_ceil (fndecl, arglist);
case BUILT_IN_TRUNC:
case BUILT_IN_TRUNCF:
case BUILT_IN_TRUNCL:
return fold_builtin_trunc (fndecl, arglist);
case BUILT_IN_ROUND:
case BUILT_IN_ROUNDF:
case BUILT_IN_ROUNDL:
return fold_builtin_round (fndecl, arglist);
case BUILT_IN_NEARBYINT:
case BUILT_IN_NEARBYINTF:
case BUILT_IN_NEARBYINTL:
case BUILT_IN_RINT:
case BUILT_IN_RINTF:
case BUILT_IN_RINTL:
return fold_trunc_transparent_mathfn (fndecl, arglist);
case BUILT_IN_LFLOOR:
case BUILT_IN_LFLOORF:
case BUILT_IN_LFLOORL:
case BUILT_IN_LLFLOOR:
case BUILT_IN_LLFLOORF:
case BUILT_IN_LLFLOORL:
case BUILT_IN_LROUND:
case BUILT_IN_LROUNDF:
case BUILT_IN_LROUNDL:
case BUILT_IN_LLROUND:
case BUILT_IN_LLROUNDF:
case BUILT_IN_LLROUNDL:
return fold_builtin_int_roundingfn (fndecl, arglist);
case BUILT_IN_LRINT:
case BUILT_IN_LRINTF:
case BUILT_IN_LRINTL:
case BUILT_IN_LLRINT:
case BUILT_IN_LLRINTF:
case BUILT_IN_LLRINTL:
return fold_fixed_mathfn (fndecl, arglist);
case BUILT_IN_FFS:
case BUILT_IN_FFSL:
case BUILT_IN_FFSLL:
case BUILT_IN_CLZ:
case BUILT_IN_CLZL:
case BUILT_IN_CLZLL:
case BUILT_IN_CTZ:
case BUILT_IN_CTZL:
case BUILT_IN_CTZLL:
case BUILT_IN_POPCOUNT:
case BUILT_IN_POPCOUNTL:
case BUILT_IN_POPCOUNTLL:
case BUILT_IN_PARITY:
case BUILT_IN_PARITYL:
case BUILT_IN_PARITYLL:
return fold_builtin_bitop (fndecl, arglist);
case BUILT_IN_MEMCPY:
return fold_builtin_memcpy (fndecl, arglist);
case BUILT_IN_MEMPCPY:
return fold_builtin_mempcpy (arglist, type, /*endp=*/1);
case BUILT_IN_MEMMOVE:
return fold_builtin_memmove (arglist, type);
case BUILT_IN_SIGNBIT:
case BUILT_IN_SIGNBITF:
case BUILT_IN_SIGNBITL:
return fold_builtin_signbit (fndecl, arglist);
case BUILT_IN_ISASCII:
return fold_builtin_isascii (arglist);
case BUILT_IN_TOASCII:
return fold_builtin_toascii (arglist);
case BUILT_IN_ISDIGIT:
return fold_builtin_isdigit (arglist);
case BUILT_IN_COPYSIGN:
case BUILT_IN_COPYSIGNF:
case BUILT_IN_COPYSIGNL:
return fold_builtin_copysign (fndecl, arglist, type);
case BUILT_IN_FINITE:
case BUILT_IN_FINITEF:
case BUILT_IN_FINITEL:
return fold_builtin_classify (fndecl, arglist, BUILT_IN_FINITE);
case BUILT_IN_ISINF:
case BUILT_IN_ISINFF:
case BUILT_IN_ISINFL:
return fold_builtin_classify (fndecl, arglist, BUILT_IN_ISINF);
case BUILT_IN_ISNAN:
case BUILT_IN_ISNANF:
case BUILT_IN_ISNANL:
return fold_builtin_classify (fndecl, arglist, BUILT_IN_ISNAN);
case BUILT_IN_ISGREATER:
return fold_builtin_unordered_cmp (fndecl, arglist, UNLE_EXPR, LE_EXPR);
case BUILT_IN_ISGREATEREQUAL:
return fold_builtin_unordered_cmp (fndecl, arglist, UNLT_EXPR, LT_EXPR);
case BUILT_IN_ISLESS:
return fold_builtin_unordered_cmp (fndecl, arglist, UNGE_EXPR, GE_EXPR);
case BUILT_IN_ISLESSEQUAL:
return fold_builtin_unordered_cmp (fndecl, arglist, UNGT_EXPR, GT_EXPR);
case BUILT_IN_ISLESSGREATER:
return fold_builtin_unordered_cmp (fndecl, arglist, UNEQ_EXPR, EQ_EXPR);
case BUILT_IN_ISUNORDERED:
return fold_builtin_unordered_cmp (fndecl, arglist, UNORDERED_EXPR,
NOP_EXPR);
/* We do the folding for va_start in the expander. */
case BUILT_IN_VA_START:
break;
default:
if (fcode >= BUILT_IN_COMPLEX_MUL_MIN
&& fcode <= BUILT_IN_COMPLEX_MUL_MAX)
return fold_builtin_complex_mul (type, arglist);
if (fcode >= BUILT_IN_COMPLEX_DIV_MIN
&& fcode <= BUILT_IN_COMPLEX_DIV_MAX)
return fold_builtin_complex_div (type, arglist);
break;
}
return 0;
}
/* A wrapper function for builtin folding that prevents warnings for
"statement without effect" and the like, caused by removing the
call node earlier than the warning is generated. */
tree
fold_builtin (tree fndecl, tree arglist, bool ignore)
{
tree exp = fold_builtin_1 (fndecl, arglist, ignore);
if (exp)
{
/* ??? Don't clobber shared nodes such as integer_zero_node. */
if (CONSTANT_CLASS_P (exp))
exp = build1 (NOP_EXPR, TREE_TYPE (exp), exp);
TREE_NO_WARNING (exp) = 1;
}
return exp;
}
/* Conveniently construct a function call expression. */
tree
build_function_call_expr (tree fn, tree arglist)
{
tree call_expr;
call_expr = build1 (ADDR_EXPR, build_pointer_type (TREE_TYPE (fn)), fn);
call_expr = build3 (CALL_EXPR, TREE_TYPE (TREE_TYPE (fn)),
call_expr, arglist, NULL_TREE);
return fold (call_expr);
}
/* This function validates the types of a function call argument list
represented as a tree chain of parameters against a specified list
of tree_codes. If the last specifier is a 0, that represents an
ellipses, otherwise the last specifier must be a VOID_TYPE. */
static int
validate_arglist (tree arglist, ...)
{
enum tree_code code;
int res = 0;
va_list ap;
va_start (ap, arglist);
do
{
code = va_arg (ap, enum tree_code);
switch (code)
{
case 0:
/* This signifies an ellipses, any further arguments are all ok. */
res = 1;
goto end;
case VOID_TYPE:
/* This signifies an endlink, if no arguments remain, return
true, otherwise return false. */
res = arglist == 0;
goto end;
default:
/* If no parameters remain or the parameter's code does not
match the specified code, return false. Otherwise continue
checking any remaining arguments. */
if (arglist == 0)
goto end;
if (code == POINTER_TYPE)
{
if (! POINTER_TYPE_P (TREE_TYPE (TREE_VALUE (arglist))))
goto end;
}
else if (code != TREE_CODE (TREE_TYPE (TREE_VALUE (arglist))))
goto end;
break;
}
arglist = TREE_CHAIN (arglist);
}
while (1);
/* We need gotos here since we can only have one VA_CLOSE in a
function. */
end: ;
va_end (ap);
return res;
}
/* Default target-specific builtin expander that does nothing. */
rtx
default_expand_builtin (tree exp ATTRIBUTE_UNUSED,
rtx target ATTRIBUTE_UNUSED,
rtx subtarget ATTRIBUTE_UNUSED,
enum machine_mode mode ATTRIBUTE_UNUSED,
int ignore ATTRIBUTE_UNUSED)
{
return NULL_RTX;
}
/* Returns true is EXP represents data that would potentially reside
in a readonly section. */
static bool
readonly_data_expr (tree exp)
{
STRIP_NOPS (exp);
if (TREE_CODE (exp) != ADDR_EXPR)
return false;
exp = get_base_address (TREE_OPERAND (exp, 0));
if (!exp)
return false;
/* Make sure we call decl_readonly_section only for trees it
can handle (since it returns true for everything it doesn't
understand). */
if (TREE_CODE (exp) == STRING_CST
|| TREE_CODE (exp) == CONSTRUCTOR
|| (TREE_CODE (exp) == VAR_DECL && TREE_STATIC (exp)))
return decl_readonly_section (exp, 0);
else
return false;
}
/* Simplify a call to the strstr builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strstr (tree arglist, tree type)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
tree fn;
const char *p1, *p2;
p2 = c_getstr (s2);
if (p2 == NULL)
return 0;
p1 = c_getstr (s1);
if (p1 != NULL)
{
const char *r = strstr (p1, p2);
tree tem;
if (r == NULL)
return build_int_cst (TREE_TYPE (s1), 0);
/* Return an offset into the constant string argument. */
tem = fold (build2 (PLUS_EXPR, TREE_TYPE (s1),
s1, build_int_cst (TREE_TYPE (s1), r - p1)));
return fold_convert (type, tem);
}
if (p2[0] == '\0')
return s1;
if (p2[1] != '\0')
return 0;
fn = implicit_built_in_decls[BUILT_IN_STRCHR];
if (!fn)
return 0;
/* New argument list transforming strstr(s1, s2) to
strchr(s1, s2[0]). */
arglist = build_tree_list (NULL_TREE,
build_int_cst (NULL_TREE, p2[0]));
arglist = tree_cons (NULL_TREE, s1, arglist);
return build_function_call_expr (fn, arglist);
}
}
/* Simplify a call to the strchr builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strchr (tree arglist, tree type)
{
if (!validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
const char *p1;
if (TREE_CODE (s2) != INTEGER_CST)
return 0;
p1 = c_getstr (s1);
if (p1 != NULL)
{
char c;
const char *r;
tree tem;
if (target_char_cast (s2, &c))
return 0;
r = strchr (p1, c);
if (r == NULL)
return build_int_cst (TREE_TYPE (s1), 0);
/* Return an offset into the constant string argument. */
tem = fold (build2 (PLUS_EXPR, TREE_TYPE (s1),
s1, build_int_cst (TREE_TYPE (s1), r - p1)));
return fold_convert (type, tem);
}
return 0;
}
}
/* Simplify a call to the strrchr builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strrchr (tree arglist, tree type)
{
if (!validate_arglist (arglist, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
tree fn;
const char *p1;
if (TREE_CODE (s2) != INTEGER_CST)
return 0;
p1 = c_getstr (s1);
if (p1 != NULL)
{
char c;
const char *r;
tree tem;
if (target_char_cast (s2, &c))
return 0;
r = strrchr (p1, c);
if (r == NULL)
return build_int_cst (TREE_TYPE (s1), 0);
/* Return an offset into the constant string argument. */
tem = fold (build2 (PLUS_EXPR, TREE_TYPE (s1),
s1, build_int_cst (TREE_TYPE (s1), r - p1)));
return fold_convert (type, tem);
}
if (! integer_zerop (s2))
return 0;
fn = implicit_built_in_decls[BUILT_IN_STRCHR];
if (!fn)
return 0;
/* Transform strrchr(s1, '\0') to strchr(s1, '\0'). */
return build_function_call_expr (fn, arglist);
}
}
/* Simplify a call to the strpbrk builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strpbrk (tree arglist, tree type)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
tree fn;
const char *p1, *p2;
p2 = c_getstr (s2);
if (p2 == NULL)
return 0;
p1 = c_getstr (s1);
if (p1 != NULL)
{
const char *r = strpbrk (p1, p2);
tree tem;
if (r == NULL)
return build_int_cst (TREE_TYPE (s1), 0);
/* Return an offset into the constant string argument. */
tem = fold (build2 (PLUS_EXPR, TREE_TYPE (s1),
s1, build_int_cst (TREE_TYPE (s1), r - p1)));
return fold_convert (type, tem);
}
if (p2[0] == '\0')
/* strpbrk(x, "") == NULL.
Evaluate and ignore s1 in case it had side-effects. */
return omit_one_operand (TREE_TYPE (s1), integer_zero_node, s1);
if (p2[1] != '\0')
return 0; /* Really call strpbrk. */
fn = implicit_built_in_decls[BUILT_IN_STRCHR];
if (!fn)
return 0;
/* New argument list transforming strpbrk(s1, s2) to
strchr(s1, s2[0]). */
arglist = build_tree_list (NULL_TREE,
build_int_cst (NULL_TREE, p2[0]));
arglist = tree_cons (NULL_TREE, s1, arglist);
return build_function_call_expr (fn, arglist);
}
}
/* Simplify a call to the strcat builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strcat (tree arglist)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree dst = TREE_VALUE (arglist),
src = TREE_VALUE (TREE_CHAIN (arglist));
const char *p = c_getstr (src);
/* If the string length is zero, return the dst parameter. */
if (p && *p == '\0')
return dst;
return 0;
}
}
/* Simplify a call to the strncat builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strncat (tree arglist)
{
if (!validate_arglist (arglist,
POINTER_TYPE, POINTER_TYPE, INTEGER_TYPE, VOID_TYPE))
return 0;
else
{
tree dst = TREE_VALUE (arglist);
tree src = TREE_VALUE (TREE_CHAIN (arglist));
tree len = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
const char *p = c_getstr (src);
/* If the requested length is zero, or the src parameter string
length is zero, return the dst parameter. */
if (integer_zerop (len) || (p && *p == '\0'))
return omit_two_operands (TREE_TYPE (dst), dst, src, len);
/* If the requested len is greater than or equal to the string
length, call strcat. */
if (TREE_CODE (len) == INTEGER_CST && p
&& compare_tree_int (len, strlen (p)) >= 0)
{
tree newarglist
= tree_cons (NULL_TREE, dst, build_tree_list (NULL_TREE, src));
tree fn = implicit_built_in_decls[BUILT_IN_STRCAT];
/* If the replacement _DECL isn't initialized, don't do the
transformation. */
if (!fn)
return 0;
return build_function_call_expr (fn, newarglist);
}
return 0;
}
}
/* Simplify a call to the strspn builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strspn (tree arglist)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
const char *p1 = c_getstr (s1), *p2 = c_getstr (s2);
/* If both arguments are constants, evaluate at compile-time. */
if (p1 && p2)
{
const size_t r = strspn (p1, p2);
return size_int (r);
}
/* If either argument is "", return 0. */
if ((p1 && *p1 == '\0') || (p2 && *p2 == '\0'))
/* Evaluate and ignore both arguments in case either one has
side-effects. */
return omit_two_operands (integer_type_node, integer_zero_node,
s1, s2);
return 0;
}
}
/* Simplify a call to the strcspn builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree.
The simplified form may be a constant or other expression which
computes the same value, but in a more efficient manner (including
calls to other builtin functions).
The call may contain arguments which need to be evaluated, but
which are not useful to determine the result of the call. In
this case we return a chain of COMPOUND_EXPRs. The LHS of each
COMPOUND_EXPR will be an argument which must be evaluated.
COMPOUND_EXPRs are chained through their RHS. The RHS of the last
COMPOUND_EXPR in the chain will contain the tree for the simplified
form of the builtin function call. */
static tree
fold_builtin_strcspn (tree arglist)
{
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
else
{
tree s1 = TREE_VALUE (arglist), s2 = TREE_VALUE (TREE_CHAIN (arglist));
const char *p1 = c_getstr (s1), *p2 = c_getstr (s2);
/* If both arguments are constants, evaluate at compile-time. */
if (p1 && p2)
{
const size_t r = strcspn (p1, p2);
return size_int (r);
}
/* If the first argument is "", return 0. */
if (p1 && *p1 == '\0')
{
/* Evaluate and ignore argument s2 in case it has
side-effects. */
return omit_one_operand (integer_type_node,
integer_zero_node, s2);
}
/* If the second argument is "", return __builtin_strlen(s1). */
if (p2 && *p2 == '\0')
{
tree newarglist = build_tree_list (NULL_TREE, s1),
fn = implicit_built_in_decls[BUILT_IN_STRLEN];
/* If the replacement _DECL isn't initialized, don't do the
transformation. */
if (!fn)
return 0;
return build_function_call_expr (fn, newarglist);
}
return 0;
}
}
/* Fold a call to the fputs builtin. IGNORE is true if the value returned
by the builtin will be ignored. UNLOCKED is true is true if this
actually a call to fputs_unlocked. If LEN in non-NULL, it represents
the known length of the string. Return NULL_TREE if no simplification
was possible. */
tree
fold_builtin_fputs (tree arglist, bool ignore, bool unlocked, tree len)
{
tree fn;
tree fn_fputc = unlocked ? implicit_built_in_decls[BUILT_IN_FPUTC_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_FPUTC];
tree fn_fwrite = unlocked ? implicit_built_in_decls[BUILT_IN_FWRITE_UNLOCKED]
: implicit_built_in_decls[BUILT_IN_FWRITE];
/* If the return value is used, or the replacement _DECL isn't
initialized, don't do the transformation. */
if (!ignore || !fn_fputc || !fn_fwrite)
return 0;
/* Verify the arguments in the original call. */
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE))
return 0;
if (! len)
len = c_strlen (TREE_VALUE (arglist), 0);
/* Get the length of the string passed to fputs. If the length
can't be determined, punt. */
if (!len
|| TREE_CODE (len) != INTEGER_CST)
return 0;
switch (compare_tree_int (len, 1))
{
case -1: /* length is 0, delete the call entirely . */
return omit_one_operand (integer_type_node, integer_zero_node,
TREE_VALUE (TREE_CHAIN (arglist)));
case 0: /* length is 1, call fputc. */
{
const char *p = c_getstr (TREE_VALUE (arglist));
if (p != NULL)
{
/* New argument list transforming fputs(string, stream) to
fputc(string[0], stream). */
arglist = build_tree_list (NULL_TREE,
TREE_VALUE (TREE_CHAIN (arglist)));
arglist = tree_cons (NULL_TREE,
build_int_cst (NULL_TREE, p[0]),
arglist);
fn = fn_fputc;
break;
}
}
/* FALLTHROUGH */
case 1: /* length is greater than 1, call fwrite. */
{
tree string_arg;
/* If optimizing for size keep fputs. */
if (optimize_size)
return 0;
string_arg = TREE_VALUE (arglist);
/* New argument list transforming fputs(string, stream) to
fwrite(string, 1, len, stream). */
arglist = build_tree_list (NULL_TREE,
TREE_VALUE (TREE_CHAIN (arglist)));
arglist = tree_cons (NULL_TREE, len, arglist);
arglist = tree_cons (NULL_TREE, size_one_node, arglist);
arglist = tree_cons (NULL_TREE, string_arg, arglist);
fn = fn_fwrite;
break;
}
default:
gcc_unreachable ();
}
/* These optimizations are only performed when the result is ignored,
hence there's no need to cast the result to integer_type_node. */
return build_function_call_expr (fn, arglist);
}
/* Fold the new_arg's arguments (ARGLIST). Returns true if there was an error
produced. False otherwise. This is done so that we don't output the error
or warning twice or three times. */
bool
fold_builtin_next_arg (tree arglist)
{
tree fntype = TREE_TYPE (current_function_decl);
if (TYPE_ARG_TYPES (fntype) == 0
|| (TREE_VALUE (tree_last (TYPE_ARG_TYPES (fntype)))
== void_type_node))
{
error ("%<va_start%> used in function with fixed args");
return true;
}
else if (!arglist)
{
/* Evidently an out of date version of <stdarg.h>; can't validate
va_start's second argument, but can still work as intended. */
warning ("%<__builtin_next_arg%> called without an argument");
return true;
}
/* We use __builtin_va_start (ap, 0, 0) or __builtin_next_arg (0, 0)
when we checked the arguments and if needed issued a warning. */
else if (!TREE_CHAIN (arglist)
|| !integer_zerop (TREE_VALUE (arglist))
|| !integer_zerop (TREE_VALUE (TREE_CHAIN (arglist)))
|| TREE_CHAIN (TREE_CHAIN (arglist)))
{
tree last_parm = tree_last (DECL_ARGUMENTS (current_function_decl));
tree arg = TREE_VALUE (arglist);
if (TREE_CHAIN (arglist))
{
error ("%<va_start%> used with too many arguments");
return true;
}
/* Strip off all nops for the sake of the comparison. This
is not quite the same as STRIP_NOPS. It does more.
We must also strip off INDIRECT_EXPR for C++ reference
parameters. */
while (TREE_CODE (arg) == NOP_EXPR
|| TREE_CODE (arg) == CONVERT_EXPR
|| TREE_CODE (arg) == NON_LVALUE_EXPR
|| TREE_CODE (arg) == INDIRECT_REF)
arg = TREE_OPERAND (arg, 0);
if (arg != last_parm)
{
/* FIXME: Sometimes with the tree optimizers we can get the
not the last argument even though the user used the last
argument. We just warn and set the arg to be the last
argument so that we will get wrong-code because of
it. */
warning ("second parameter of %<va_start%> not last named argument");
}
/* We want to verify the second parameter just once before the tree
optimizers are run and then avoid keeping it in the tree,
as otherwise we could warn even for correct code like:
void foo (int i, ...)
{ va_list ap; i++; va_start (ap, i); va_end (ap); } */
TREE_VALUE (arglist) = integer_zero_node;
TREE_CHAIN (arglist) = build_tree_list (NULL, integer_zero_node);
}
return false;
}
/* Simplify a call to the sprintf builtin.
Return 0 if no simplification was possible, otherwise return the
simplified form of the call as a tree. If IGNORED is true, it means that
the caller does not use the returned value of the function. */
static tree
fold_builtin_sprintf (tree arglist, int ignored)
{
tree call, retval, dest, fmt;
const char *fmt_str = NULL;
/* Verify the required arguments in the original call. We deal with two
types of sprintf() calls: 'sprintf (str, fmt)' and
'sprintf (dest, "%s", orig)'. */
if (!validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, VOID_TYPE)
&& !validate_arglist (arglist, POINTER_TYPE, POINTER_TYPE, POINTER_TYPE,
VOID_TYPE))
return NULL_TREE;
/* Get the destination string and the format specifier. */
dest = TREE_VALUE (arglist);
fmt = TREE_VALUE (TREE_CHAIN (arglist));
/* Check whether the format is a literal string constant. */
fmt_str = c_getstr (fmt);
if (fmt_str == NULL)
return NULL_TREE;
call = NULL_TREE;
retval = NULL_TREE;
/* If the format doesn't contain % args or %%, use strcpy. */
if (strchr (fmt_str, '%') == NULL)
{
tree fn = implicit_built_in_decls[BUILT_IN_STRCPY];
if (!fn)
return NULL_TREE;
/* Convert sprintf (str, fmt) into strcpy (str, fmt) when
'format' is known to contain no % formats. */
arglist = build_tree_list (NULL_TREE, fmt);
arglist = tree_cons (NULL_TREE, dest, arglist);
call = build_function_call_expr (fn, arglist);
if (!ignored)
retval = build_int_cst (NULL_TREE, strlen (fmt_str));
}
/* If the format is "%s", use strcpy if the result isn't used. */
else if (fmt_str && strcmp (fmt_str, "%s") == 0)
{
tree fn, orig;
fn = implicit_built_in_decls[BUILT_IN_STRCPY];
if (!fn)
return NULL_TREE;
/* Convert sprintf (str1, "%s", str2) into strcpy (str1, str2). */
orig = TREE_VALUE (TREE_CHAIN (TREE_CHAIN (arglist)));
arglist = build_tree_list (NULL_TREE, orig);
arglist = tree_cons (NULL_TREE, dest, arglist);
if (!ignored)
{
retval = c_strlen (orig, 1);
if (!retval || TREE_CODE (retval) != INTEGER_CST)
return NULL_TREE;
}
call = build_function_call_expr (fn, arglist);
}
if (call && retval)
{
retval = convert
(TREE_TYPE (TREE_TYPE (implicit_built_in_decls[BUILT_IN_SPRINTF])),
retval);
return build2 (COMPOUND_EXPR, TREE_TYPE (retval), call, retval);
}
else
return call;
}
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