and set by `-m...' switches. Must be defined in rtlanal.c. */
int target_flags;
+
+/* Truncation narrows the mode from SOURCE mode to DESTINATION mode.
+ If TARGET_MODE_REP_EXTENDED (DESTINATION, DESTINATION_REP) is
+ SIGN_EXTEND then while narrowing we also have to enforce the
+ representation and sign-extend the value to mode DESTINATION_REP.
+
+ If the value is already sign-extended to DESTINATION_REP mode we
+ can just switch to DESTINATION mode on it. For each pair of
+ integral modes SOURCE and DESTINATION, when truncating from SOURCE
+ to DESTINATION, NUM_SIGN_BIT_COPIES_IN_REP[SOURCE][DESTINATION]
+ contains the number of high-order bits in SOURCE that have to be
+ copies of the sign-bit so that we can do this mode-switch to
+ DESTINATION. */
+
+static unsigned int
+num_sign_bit_copies_in_rep[MAX_MODE_INT + 1][MAX_MODE_INT + 1];
\f
/* Return 1 if the value of X is unstable
(would be different at a different point in the program).
case PLUS:
if (GET_CODE (XEXP (x, 1)) == CONST_INT)
- {
- /* Pointers aren't allowed to wrap. If we've got a register
- that is known to be a pointer, and a positive offset, then
- the composite can't be zero. */
- if (INTVAL (XEXP (x, 1)) > 0
- && REG_P (XEXP (x, 0))
- && REG_POINTER (XEXP (x, 0)))
- return true;
-
- return nonzero_address_p (XEXP (x, 0));
- }
+ return nonzero_address_p (XEXP (x, 0));
/* Handle PIC references. */
else if (XEXP (x, 0) == pic_offset_table_rtx
&& CONSTANT_P (XEXP (x, 1)))
case CC0:
return 0;
+ case EXPR_LIST:
+ count = count_occurrences (XEXP (x, 0), find, count_dest);
+ if (XEXP (x, 1))
+ count += count_occurrences (XEXP (x, 1), find, count_dest);
+ return count;
+
case MEM:
if (MEM_P (find) && rtx_equal_p (x, find))
return 1;
note_uses (&XVECEXP (body, 0, i), fun, data);
return;
+ case SEQUENCE:
+ for (i = XVECLEN (body, 0) - 1; i >= 0; i--)
+ note_uses (&PATTERN (XVECEXP (body, 0, i)), fun, data);
+ return;
+
case USE:
(*fun) (&XEXP (body, 0), data);
return;
return may_trap_p_1 (x, MTP_AFTER_MOVE);
}
-/* Same as above, but additionally return non-zero if evaluating rtx X might
+/* Same as above, but additionally return nonzero if evaluating rtx X might
cause a fault. We define a fault for the purpose of this function as a
erroneous execution condition that cannot be encountered during the normal
execution of a valid program; the typical example is an unaligned memory
return x;
}
\f
-/* Throughout the rtx X, replace many registers according to REG_MAP.
- Return the replacement for X (which may be X with altered contents).
- REG_MAP[R] is the replacement for register R, or 0 for don't replace.
- NREGS is the length of REG_MAP; regs >= NREGS are not mapped.
-
- We only support REG_MAP entries of REG or SUBREG. Also, hard registers
- should not be mapped to pseudos or vice versa since validate_change
- is not called.
-
- If REPLACE_DEST is 1, replacements are also done in destinations;
- otherwise, only sources are replaced. */
-
-rtx
-replace_regs (rtx x, rtx *reg_map, unsigned int nregs, int replace_dest)
-{
- enum rtx_code code;
- int i;
- const char *fmt;
-
- if (x == 0)
- return x;
-
- code = GET_CODE (x);
- switch (code)
- {
- case SCRATCH:
- case PC:
- case CC0:
- case CONST_INT:
- case CONST_DOUBLE:
- case CONST_VECTOR:
- case CONST:
- case SYMBOL_REF:
- case LABEL_REF:
- return x;
-
- case REG:
- /* Verify that the register has an entry before trying to access it. */
- if (REGNO (x) < nregs && reg_map[REGNO (x)] != 0)
- {
- /* SUBREGs can't be shared. Always return a copy to ensure that if
- this replacement occurs more than once then each instance will
- get distinct rtx. */
- if (GET_CODE (reg_map[REGNO (x)]) == SUBREG)
- return copy_rtx (reg_map[REGNO (x)]);
- return reg_map[REGNO (x)];
- }
- return x;
-
- case SUBREG:
- /* Prevent making nested SUBREGs. */
- if (REG_P (SUBREG_REG (x)) && REGNO (SUBREG_REG (x)) < nregs
- && reg_map[REGNO (SUBREG_REG (x))] != 0
- && GET_CODE (reg_map[REGNO (SUBREG_REG (x))]) == SUBREG)
- {
- rtx map_val = reg_map[REGNO (SUBREG_REG (x))];
- return simplify_gen_subreg (GET_MODE (x), map_val,
- GET_MODE (SUBREG_REG (x)),
- SUBREG_BYTE (x));
- }
- break;
-
- case SET:
- if (replace_dest)
- SET_DEST (x) = replace_regs (SET_DEST (x), reg_map, nregs, 0);
-
- else if (MEM_P (SET_DEST (x))
- || GET_CODE (SET_DEST (x)) == STRICT_LOW_PART)
- /* Even if we are not to replace destinations, replace register if it
- is CONTAINED in destination (destination is memory or
- STRICT_LOW_PART). */
- XEXP (SET_DEST (x), 0) = replace_regs (XEXP (SET_DEST (x), 0),
- reg_map, nregs, 0);
- else if (GET_CODE (SET_DEST (x)) == ZERO_EXTRACT)
- /* Similarly, for ZERO_EXTRACT we replace all operands. */
- break;
-
- SET_SRC (x) = replace_regs (SET_SRC (x), reg_map, nregs, 0);
- return x;
-
- default:
- break;
- }
-
- fmt = GET_RTX_FORMAT (code);
- for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
- {
- if (fmt[i] == 'e')
- XEXP (x, i) = replace_regs (XEXP (x, i), reg_map, nregs, replace_dest);
- else if (fmt[i] == 'E')
- {
- int j;
- for (j = 0; j < XVECLEN (x, i); j++)
- XVECEXP (x, i, j) = replace_regs (XVECEXP (x, i, j), reg_map,
- nregs, replace_dest);
- }
- }
- return x;
-}
-
/* Replace occurrences of the old label in *X with the new one.
DATA is a REPLACE_LABEL_DATA containing the old and new labels. */
return 0;
}
-/* Return 1 if the sequence of instructions beginning with FROM and up
- to and including TO is safe to move. If NEW_TO is non-NULL, and
- the sequence is not already safe to move, but can be easily
- extended to a sequence which is safe, then NEW_TO will point to the
- end of the extended sequence.
-
- For now, this function only checks that the region contains whole
- exception regions, but it could be extended to check additional
- conditions as well. */
-
-int
-insns_safe_to_move_p (rtx from, rtx to, rtx *new_to)
-{
- int eh_region_count = 0;
- int past_to_p = 0;
- rtx r = from;
-
- /* By default, assume the end of the region will be what was
- suggested. */
- if (new_to)
- *new_to = to;
-
- while (r)
- {
- if (NOTE_P (r))
- {
- switch (NOTE_LINE_NUMBER (r))
- {
- case NOTE_INSN_EH_REGION_BEG:
- ++eh_region_count;
- break;
-
- case NOTE_INSN_EH_REGION_END:
- if (eh_region_count == 0)
- /* This sequence of instructions contains the end of
- an exception region, but not he beginning. Moving
- it will cause chaos. */
- return 0;
-
- --eh_region_count;
- break;
-
- default:
- break;
- }
- }
- else if (past_to_p)
- /* If we've passed TO, and we see a non-note instruction, we
- can't extend the sequence to a movable sequence. */
- return 0;
-
- if (r == to)
- {
- if (!new_to)
- /* It's OK to move the sequence if there were matched sets of
- exception region notes. */
- return eh_region_count == 0;
-
- past_to_p = 1;
- }
-
- /* It's OK to move the sequence if there were matched sets of
- exception region notes. */
- if (past_to_p && eh_region_count == 0)
- {
- *new_to = r;
- return 1;
- }
-
- /* Go to the next instruction. */
- r = NEXT_INSN (r);
- }
-
- return 0;
-}
-
/* Return nonzero if IN contains a piece of rtl that has the address LOC. */
int
loc_mentioned_in_p (rtx *loc, rtx in)
{
- enum rtx_code code = GET_CODE (in);
- const char *fmt = GET_RTX_FORMAT (code);
+ enum rtx_code code;
+ const char *fmt;
int i, j;
+ if (!in)
+ return 0;
+
+ code = GET_CODE (in);
+ fmt = GET_RTX_FORMAT (code);
for (i = GET_RTX_LENGTH (code) - 1; i >= 0; i--)
{
if (loc == &in->u.fld[i].rt_rtx)
subreg_regno_offset (unsigned int xregno, enum machine_mode xmode,
unsigned int offset, enum machine_mode ymode)
{
- int nregs_xmode, nregs_ymode, nregs_xmode_unit_int;
+ int nregs_xmode, nregs_ymode;
int mode_multiple, nregs_multiple;
int y_offset;
- enum machine_mode xmode_unit, xmode_unit_int;
gcc_assert (xregno < FIRST_PSEUDO_REGISTER);
- if (GET_MODE_INNER (xmode) == VOIDmode)
- xmode_unit = xmode;
- else
- xmode_unit = GET_MODE_INNER (xmode);
-
- if (FLOAT_MODE_P (xmode_unit))
- {
- xmode_unit_int = int_mode_for_mode (xmode_unit);
- if (xmode_unit_int == BLKmode)
- /* It's probably bad to be here; a port should have an integer mode
- that's the same size as anything of which it takes a SUBREG. */
- xmode_unit_int = xmode_unit;
- }
- else
- xmode_unit_int = xmode_unit;
-
- nregs_xmode_unit_int = hard_regno_nregs[xregno][xmode_unit_int];
-
/* Adjust nregs_xmode to allow for 'holes'. */
- if (nregs_xmode_unit_int != hard_regno_nregs[xregno][xmode_unit])
- nregs_xmode = nregs_xmode_unit_int * GET_MODE_NUNITS (xmode);
+ if (HARD_REGNO_NREGS_HAS_PADDING (xregno, xmode))
+ nregs_xmode = HARD_REGNO_NREGS_WITH_PADDING (xregno, xmode);
else
nregs_xmode = hard_regno_nregs[xregno][xmode];
subreg_offset_representable_p (unsigned int xregno, enum machine_mode xmode,
unsigned int offset, enum machine_mode ymode)
{
- int nregs_xmode, nregs_ymode, nregs_xmode_unit, nregs_xmode_unit_int;
+ int nregs_xmode, nregs_ymode;
int mode_multiple, nregs_multiple;
int y_offset;
- enum machine_mode xmode_unit, xmode_unit_int;
+ int regsize_xmode, regsize_ymode;
gcc_assert (xregno < FIRST_PSEUDO_REGISTER);
- if (GET_MODE_INNER (xmode) == VOIDmode)
- xmode_unit = xmode;
- else
- xmode_unit = GET_MODE_INNER (xmode);
-
- if (FLOAT_MODE_P (xmode_unit))
- {
- xmode_unit_int = int_mode_for_mode (xmode_unit);
- if (xmode_unit_int == BLKmode)
- /* It's probably bad to be here; a port should have an integer mode
- that's the same size as anything of which it takes a SUBREG. */
- xmode_unit_int = xmode_unit;
- }
- else
- xmode_unit_int = xmode_unit;
-
- nregs_xmode_unit = hard_regno_nregs[xregno][xmode_unit];
- nregs_xmode_unit_int = hard_regno_nregs[xregno][xmode_unit_int];
-
/* If there are holes in a non-scalar mode in registers, we expect
that it is made up of its units concatenated together. */
- if (nregs_xmode_unit != nregs_xmode_unit_int)
+ if (HARD_REGNO_NREGS_HAS_PADDING (xregno, xmode))
{
- gcc_assert (nregs_xmode_unit * GET_MODE_NUNITS (xmode)
- == hard_regno_nregs[xregno][xmode]);
+ enum machine_mode xmode_unit;
+
+ nregs_xmode = HARD_REGNO_NREGS_WITH_PADDING (xregno, xmode);
+ if (GET_MODE_INNER (xmode) == VOIDmode)
+ xmode_unit = xmode;
+ else
+ xmode_unit = GET_MODE_INNER (xmode);
+ gcc_assert (HARD_REGNO_NREGS_HAS_PADDING (xregno, xmode_unit));
+ gcc_assert (nregs_xmode
+ == (GET_MODE_NUNITS (xmode)
+ * HARD_REGNO_NREGS_WITH_PADDING (xregno, xmode_unit)));
+ gcc_assert (hard_regno_nregs[xregno][xmode]
+ == (hard_regno_nregs[xregno][xmode_unit]
+ * GET_MODE_NUNITS (xmode)));
/* You can only ask for a SUBREG of a value with holes in the middle
if you don't cross the holes. (Such a SUBREG should be done by
3 for each part, but in memory it's two 128-bit parts.
Padding is assumed to be at the end (not necessarily the 'high part')
of each unit. */
- if (nregs_xmode_unit != nregs_xmode_unit_int
- && (offset / GET_MODE_SIZE (xmode_unit_int) + 1
- < GET_MODE_NUNITS (xmode))
- && (offset / GET_MODE_SIZE (xmode_unit_int)
+ if ((offset / GET_MODE_SIZE (xmode_unit) + 1
+ < GET_MODE_NUNITS (xmode))
+ && (offset / GET_MODE_SIZE (xmode_unit)
!= ((offset + GET_MODE_SIZE (ymode) - 1)
- / GET_MODE_SIZE (xmode_unit_int))))
+ / GET_MODE_SIZE (xmode_unit))))
return false;
-
- nregs_xmode = nregs_xmode_unit_int * GET_MODE_NUNITS (xmode);
}
else
nregs_xmode = hard_regno_nregs[xregno][xmode];
? WORDS_BIG_ENDIAN : BYTES_BIG_ENDIAN))
return true;
+ /* If registers store different numbers of bits in the different
+ modes, we cannot generally form this subreg. */
+ regsize_xmode = GET_MODE_SIZE (xmode) / nregs_xmode;
+ regsize_ymode = GET_MODE_SIZE (ymode) / nregs_ymode;
+ if (regsize_xmode > regsize_ymode && nregs_ymode > 1)
+ return false;
+ if (regsize_ymode > regsize_xmode && nregs_xmode > 1)
+ return false;
+
/* Lowpart subregs are otherwise valid. */
if (offset == subreg_lowpart_offset (ymode, xmode))
return true;
total = COSTS_N_INSNS (7);
break;
case USE:
- /* Used in loop.c and combine.c as a marker. */
+ /* Used in combine.c as a marker. */
total = 0;
break;
default:
allow_cc_mode, valid_at_insn_p);
}
+/* Initialize the table NUM_SIGN_BIT_COPIES_IN_REP based on
+ TARGET_MODE_REP_EXTENDED.
+
+ Note that we assume that the property of
+ TARGET_MODE_REP_EXTENDED(B, C) is sticky to the integral modes
+ narrower than mode B. I.e., if A is a mode narrower than B then in
+ order to be able to operate on it in mode B, mode A needs to
+ satisfy the requirements set by the representation of mode B. */
+
+static void
+init_num_sign_bit_copies_in_rep (void)
+{
+ enum machine_mode mode, in_mode;
+
+ for (in_mode = GET_CLASS_NARROWEST_MODE (MODE_INT); in_mode != VOIDmode;
+ in_mode = GET_MODE_WIDER_MODE (mode))
+ for (mode = GET_CLASS_NARROWEST_MODE (MODE_INT); mode != in_mode;
+ mode = GET_MODE_WIDER_MODE (mode))
+ {
+ enum machine_mode i;
+
+ /* Currently, it is assumed that TARGET_MODE_REP_EXTENDED
+ extends to the next widest mode. */
+ gcc_assert (targetm.mode_rep_extended (mode, in_mode) == UNKNOWN
+ || GET_MODE_WIDER_MODE (mode) == in_mode);
+
+ /* We are in in_mode. Count how many bits outside of mode
+ have to be copies of the sign-bit. */
+ for (i = mode; i != in_mode; i = GET_MODE_WIDER_MODE (i))
+ {
+ enum machine_mode wider = GET_MODE_WIDER_MODE (i);
+
+ if (targetm.mode_rep_extended (i, wider) == SIGN_EXTEND
+ /* We can only check sign-bit copies starting from the
+ top-bit. In order to be able to check the bits we
+ have already seen we pretend that subsequent bits
+ have to be sign-bit copies too. */
+ || num_sign_bit_copies_in_rep [in_mode][mode])
+ num_sign_bit_copies_in_rep [in_mode][mode]
+ += GET_MODE_BITSIZE (wider) - GET_MODE_BITSIZE (i);
+ }
+ }
+}
+
/* Suppose that truncation from the machine mode of X to MODE is not a
no-op. See if there is anything special about X so that we can
assume it already contains a truncated value of MODE. */
bool
truncated_to_mode (enum machine_mode mode, rtx x)
{
- return REG_P (x) && rtl_hooks.reg_truncated_to_mode (mode, x);
-}
+ /* This register has already been used in MODE without explicit
+ truncation. */
+ if (REG_P (x) && rtl_hooks.reg_truncated_to_mode (mode, x))
+ return true;
+ /* See if we already satisfy the requirements of MODE. If yes we
+ can just switch to MODE. */
+ if (num_sign_bit_copies_in_rep[GET_MODE (x)][mode]
+ && (num_sign_bit_copies (x, GET_MODE (x))
+ >= num_sign_bit_copies_in_rep[GET_MODE (x)][mode] + 1))
+ return true;
+
+ return false;
+}
\f
/* Initialize non_rtx_starting_operands, which is used to speed up
for_each_rtx. */
const char *first = strpbrk (format, "eEV");
non_rtx_starting_operands[i] = first ? first - format : -1;
}
+
+ init_num_sign_bit_copies_in_rep ();
}
\f
/* Check whether this is a constant pool constant. */
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