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|
/* Graph coloring register allocator
Copyright (C) 2001, 2002 Free Software Foundation, Inc.
Contributed by Michael Matz <matz@suse.de>
and Daniel Berlin <dan@cgsoftware.com>.
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 "rtl.h"
#include "insn-config.h"
#include "recog.h"
#include "function.h"
#include "hard-reg-set.h"
#include "basic-block.h"
#include "df.h"
#include "output.h"
#include "ra.h"
#include "tm_p.h"
/* This file contains various dumping and debug functions for
the graph coloring register allocator. */
static void ra_print_rtx_1op PARAMS ((FILE *, rtx));
static void ra_print_rtx_2op PARAMS ((FILE *, rtx));
static void ra_print_rtx_3op PARAMS ((FILE *, rtx));
static void ra_print_rtx_object PARAMS ((FILE *, rtx));
/* The hardregs as names, for debugging. */
static const char *const reg_class_names[] = REG_CLASS_NAMES;
/* Print a message to the dump file, if debug_new_regalloc and LEVEL
have any bits in common. */
void
ra_debug_msg VPARAMS ((unsigned int level, const char *format, ...))
{
VA_OPEN (ap, format);
VA_FIXEDARG (ap, unsigned int, level);
VA_FIXEDARG (ap, const char *, format);
if ((debug_new_regalloc & level) != 0 && rtl_dump_file != NULL)
vfprintf (rtl_dump_file, format, ap);
VA_CLOSE (ap);
}
/* The following ra_print_xxx() functions print RTL expressions
in concise infix form. If the mode can be seen from context it's
left out. Most operators are represented by their graphical
characters, e.g. LE as "<=". Unknown constructs are currently
printed with print_inline_rtx(), which disrupts the nice layout.
Currently only the inline asm things are written this way. */
/* Print rtx X, which is a one operand rtx (op:mode (Y)), as
"op(Y)" to FILE. */
static void
ra_print_rtx_1op (file, x)
FILE *file;
rtx x;
{
enum rtx_code code = GET_CODE (x);
rtx op0 = XEXP (x, 0);
switch (code)
{
case NEG:
case NOT:
fputs ((code == NEG) ? "-(" : "~(", file);
ra_print_rtx (file, op0, 0);
fputs (")", file);
break;
case HIGH:
fputs ("hi(", file);
ra_print_rtx (file, op0, 0);
fputs (")", file);
break;
default:
fprintf (file, "%s", GET_RTX_NAME (code));
if (GET_MODE (x) != VOIDmode)
fprintf (file, ":%s(", GET_MODE_NAME (GET_MODE (x)));
else
fputs ("(", file);
ra_print_rtx (file, op0, 0);
fputs (")", file);
break;
}
}
/* Print rtx X, which is a two operand rtx (op:mode (Y) (Z))
as "(Y op Z)", if the operand is know, or as "op(Y, Z)", if not,
to FILE. */
static void
ra_print_rtx_2op (file, x)
FILE *file;
rtx x;
{
int infix = 1;
const char *opname = "shitop";
enum rtx_code code = GET_CODE (x);
rtx op0 = XEXP (x, 0);
rtx op1 = XEXP (x, 1);
switch (code)
{
/* class '2' */
case COMPARE: opname = "?"; break;
case MINUS: opname = "-"; break;
case DIV: opname = "/"; break;
case UDIV: opname = "u/"; break;
case MOD: opname = "%"; break;
case UMOD: opname = "u%"; break;
case ASHIFT: opname = "<<"; break;
case ASHIFTRT: opname = "a>>"; break;
case LSHIFTRT: opname = "l>>"; break;
/* class 'c' */
case PLUS: opname = "+"; break;
case MULT: opname = "*"; break;
case AND: opname = "&"; break;
case IOR: opname = "|"; break;
case XOR: opname = "^"; break;
/* class '<' */
case NE: opname = "!="; break;
case EQ: opname = "=="; break;
case GE: opname = "s>="; break;
case GT: opname = "s>"; break;
case LE: opname = "s<="; break;
case LT: opname = "s<"; break;
case GEU: opname = "u>="; break;
case GTU: opname = "u>"; break;
case LEU: opname = "u<="; break;
case LTU: opname = "u<"; break;
default:
infix = 0;
opname = GET_RTX_NAME (code);
break;
}
if (infix)
{
fputs ("(", file);
ra_print_rtx (file, op0, 0);
fprintf (file, " %s ", opname);
ra_print_rtx (file, op1, 0);
fputs (")", file);
}
else
{
fprintf (file, "%s(", opname);
ra_print_rtx (file, op0, 0);
fputs (", ", file);
ra_print_rtx (file, op1, 0);
fputs (")", file);
}
}
/* Print rtx X, which a three operand rtx to FILE.
I.e. X is either an IF_THEN_ELSE, or a bitmap operation. */
static void
ra_print_rtx_3op (file, x)
FILE *file;
rtx x;
{
enum rtx_code code = GET_CODE (x);
rtx op0 = XEXP (x, 0);
rtx op1 = XEXP (x, 1);
rtx op2 = XEXP (x, 2);
if (code == IF_THEN_ELSE)
{
ra_print_rtx (file, op0, 0);
fputs (" ? ", file);
ra_print_rtx (file, op1, 0);
fputs (" : ", file);
ra_print_rtx (file, op2, 0);
}
else
{
/* Bitmap-operation */
fprintf (file, "%s:%s(", GET_RTX_NAME (code),
GET_MODE_NAME (GET_MODE (x)));
ra_print_rtx (file, op0, 0);
fputs (", ", file);
ra_print_rtx (file, op1, 0);
fputs (", ", file);
ra_print_rtx (file, op2, 0);
fputs (")", file);
}
}
/* Print rtx X, which represents an object (class 'o' or some constructs
of class 'x' (e.g. subreg)), to FILE.
(reg XX) rtl is represented as "pXX", of XX was a pseudo,
as "name" it name is the nonnull hardreg name, or as "hXX", if XX
is a hardreg, whose name is NULL, or empty. */
static void
ra_print_rtx_object (file, x)
FILE *file;
rtx x;
{
enum rtx_code code = GET_CODE (x);
enum machine_mode mode = GET_MODE (x);
switch (code)
{
case CONST_INT:
fprintf (file, HOST_WIDE_INT_PRINT_DEC, XWINT (x, 0));
break;
case CONST_DOUBLE:
{
int i, num = 0;
const char *fmt = GET_RTX_FORMAT (code);
fputs ("dbl(", file);
for (i = 0; i < GET_RTX_LENGTH (code); i++)
{
if (num)
fputs (", ", file);
if (fmt[i] == 'e' && XEXP (x, i))
/* The MEM or other stuff */
{
ra_print_rtx (file, XEXP (x, i), 0);
num++;
}
else if (fmt[i] == 'w')
{
fprintf (file, HOST_WIDE_INT_PRINT_HEX, XWINT (x, i));
num++;
}
}
break;
}
case CONST_STRING: fprintf (file, "\"%s\"", XSTR (x, 0)); break;
case CONST: fputs ("const(", file);
ra_print_rtx (file, XEXP (x, 0), 0);
fputs (")", file);
break;
case PC: fputs ("pc", file); break;
case REG:
{
int regno = REGNO (x);
if (regno < FIRST_PSEUDO_REGISTER)
{
int i, nregs = HARD_REGNO_NREGS (regno, mode);
if (nregs > 1)
fputs ("[", file);
for (i = 0; i < nregs; i++)
{
if (i)
fputs (", ", file);
if (reg_names[regno+i] && *reg_names[regno + i])
fprintf (file, "%s", reg_names[regno + i]);
else
fprintf (file, "h%d", regno + i);
}
if (nregs > 1)
fputs ("]", file);
}
else
fprintf (file, "p%d", regno);
break;
}
case SUBREG:
{
rtx sub = SUBREG_REG (x);
int ofs = SUBREG_BYTE (x);
if (GET_CODE (sub) == REG
&& REGNO (sub) < FIRST_PSEUDO_REGISTER)
{
int regno = REGNO (sub);
int i, nregs = HARD_REGNO_NREGS (regno, mode);
regno += subreg_regno_offset (regno, GET_MODE (sub),
ofs, mode);
if (nregs > 1)
fputs ("[", file);
for (i = 0; i < nregs; i++)
{
if (i)
fputs (", ", file);
if (reg_names[regno+i])
fprintf (file, "%s", reg_names[regno + i]);
else
fprintf (file, "h%d", regno + i);
}
if (nregs > 1)
fputs ("]", file);
}
else
{
ra_print_rtx (file, sub, 0);
fprintf (file, ":[%s+%d]", GET_MODE_NAME (mode), ofs);
}
break;
}
case SCRATCH: fputs ("scratch", file); break;
case CONCAT: ra_print_rtx_2op (file, x); break;
case HIGH: ra_print_rtx_1op (file, x); break;
case LO_SUM:
fputs ("(", file);
ra_print_rtx (file, XEXP (x, 0), 0);
fputs (" + lo(", file);
ra_print_rtx (file, XEXP (x, 1), 0);
fputs ("))", file);
break;
case MEM: fputs ("[", file);
ra_print_rtx (file, XEXP (x, 0), 0);
fprintf (file, "]:%s", GET_MODE_NAME (GET_MODE (x)));
/* XXX print alias set too ?? */
break;
case LABEL_REF:
{
rtx sub = XEXP (x, 0);
if (GET_CODE (sub) == NOTE
&& NOTE_LINE_NUMBER (sub) == NOTE_INSN_DELETED_LABEL)
fprintf (file, "(deleted uid=%d)", INSN_UID (sub));
else if (GET_CODE (sub) == CODE_LABEL)
fprintf (file, "L%d", CODE_LABEL_NUMBER (sub));
else
fprintf (file, "(nonlabel uid=%d)", INSN_UID (sub));
}
break;
case SYMBOL_REF:
fprintf (file, "sym(\"%s\")", XSTR (x, 0)); break;
case CC0: fputs ("cc0", file); break;
default: print_inline_rtx (file, x, 0); break;
}
}
/* Print a general rtx X to FILE in nice infix form.
If WITH_PN is set, and X is one of the toplevel constructs
(insns, notes, labels or barriers), then print also the UIDs of
the preceding and following insn. */
void
ra_print_rtx (file, x, with_pn)
FILE *file;
rtx x;
int with_pn;
{
enum rtx_code code;
char class;
int unhandled = 0;
if (!x)
return;
code = GET_CODE (x);
class = GET_RTX_CLASS (code);
/* First handle the insn like constructs. */
if (INSN_P (x) || code == NOTE || code == CODE_LABEL || code == BARRIER)
{
if (INSN_P (x))
fputs (" ", file);
/* Non-insns are prefixed by a ';'. */
if (code == BARRIER)
fputs ("; ", file);
else if (code == NOTE)
/* But notes are indented very far right. */
fprintf (file, "\t\t\t\t\t; ");
else if (code == CODE_LABEL)
/* And labels have their Lxx name first, before the actual UID. */
{
fprintf (file, "L%d:\t; ", CODE_LABEL_NUMBER (x));
if (LABEL_NAME (x))
fprintf (file, "(%s) ", LABEL_NAME (x));
switch (LABEL_KIND (x))
{
case LABEL_NORMAL: break;
case LABEL_STATIC_ENTRY: fputs (" (entry)", file); break;
case LABEL_GLOBAL_ENTRY: fputs (" (global entry)", file); break;
case LABEL_WEAK_ENTRY: fputs (" (weak entry)", file); break;
default: abort();
}
fprintf (file, " [%d uses] uid=(", LABEL_NUSES (x));
}
fprintf (file, "%d", INSN_UID (x));
if (with_pn)
fprintf (file, " %d %d", PREV_INSN (x) ? INSN_UID (PREV_INSN (x)) : 0,
NEXT_INSN (x) ? INSN_UID (NEXT_INSN (x)) : 0);
if (code == BARRIER)
fputs (" -------- barrier ---------", file);
else if (code == CODE_LABEL)
fputs (")", file);
else if (code == NOTE)
{
int ln = NOTE_LINE_NUMBER (x);
if (ln >= (int) NOTE_INSN_BIAS && ln < (int) NOTE_INSN_MAX)
fprintf (file, " %s", GET_NOTE_INSN_NAME (ln));
else
{
fprintf (file, " line %d", ln);
if (NOTE_SOURCE_FILE (x))
fprintf (file, ":%s", NOTE_SOURCE_FILE (x));
}
}
else
{
fprintf (file, "\t");
ra_print_rtx (file, PATTERN (x), 0);
}
return;
}
switch (code)
{
/* Top-level stuff. */
case PARALLEL:
{
int j;
for (j = 0; j < XVECLEN (x, 0); j++)
{
if (j)
fputs ("\t;; ", file);
ra_print_rtx (file, XVECEXP (x, 0, j), 0);
}
break;
}
case UNSPEC: case UNSPEC_VOLATILE:
{
int j;
fprintf (file, "unspec%s(%d",
(code == UNSPEC) ? "" : "_vol", XINT (x, 1));
for (j = 0; j < XVECLEN (x, 0); j++)
{
fputs (", ", file);
ra_print_rtx (file, XVECEXP (x, 0, j), 0);
}
fputs (")", file);
break;
}
case SET:
if (GET_CODE (SET_DEST (x)) == PC)
{
if (GET_CODE (SET_SRC (x)) == IF_THEN_ELSE
&& GET_CODE (XEXP (SET_SRC(x), 2)) == PC)
{
fputs ("if ", file);
ra_print_rtx (file, XEXP (SET_SRC (x), 0), 0);
fputs (" jump ", file);
ra_print_rtx (file, XEXP (SET_SRC (x), 1), 0);
}
else
{
fputs ("jump ", file);
ra_print_rtx (file, SET_SRC (x), 0);
}
}
else
{
ra_print_rtx (file, SET_DEST (x), 0);
fputs (" <= ", file);
ra_print_rtx (file, SET_SRC (x), 0);
}
break;
case USE:
fputs ("use <= ", file);
ra_print_rtx (file, XEXP (x, 0), 0);
break;
case CLOBBER:
ra_print_rtx (file, XEXP (x, 0), 0);
fputs (" <= clobber", file);
break;
case CALL:
fputs ("call ", file);
ra_print_rtx (file, XEXP (x, 0), 0); /* Address */
fputs (" numargs=", file);
ra_print_rtx (file, XEXP (x, 1), 0); /* Num arguments */
break;
case RETURN:
fputs ("return", file);
break;
case TRAP_IF:
fputs ("if (", file);
ra_print_rtx (file, XEXP (x, 0), 0);
fputs (") trap ", file);
ra_print_rtx (file, XEXP (x, 1), 0);
break;
case RESX:
fprintf (file, "resx from region %d", XINT (x, 0));
break;
/* Different things of class 'x' */
case SUBREG: ra_print_rtx_object (file, x); break;
case STRICT_LOW_PART:
fputs ("low(", file);
ra_print_rtx (file, XEXP (x, 0), 0);
fputs (")", file);
break;
default:
unhandled = 1;
break;
}
if (!unhandled)
return;
if (class == '1')
ra_print_rtx_1op (file, x);
else if (class == '2' || class == 'c' || class == '<')
ra_print_rtx_2op (file, x);
else if (class == '3' || class == 'b')
ra_print_rtx_3op (file, x);
else if (class == 'o')
ra_print_rtx_object (file, x);
else
print_inline_rtx (file, x, 0);
}
/* This only calls ra_print_rtx(), but emits a final newline. */
void
ra_print_rtx_top (file, x, with_pn)
FILE *file;
rtx x;
int with_pn;
{
ra_print_rtx (file, x, with_pn);
fprintf (file, "\n");
}
/* Callable from gdb. This prints rtx X onto stderr. */
void
ra_debug_rtx (x)
rtx x;
{
ra_print_rtx_top (stderr, x, 1);
}
/* This prints the content of basic block with index BBI.
The first and last insn are emitted with UIDs of prev and next insns. */
void
ra_debug_bbi (bbi)
int bbi;
{
basic_block bb = BASIC_BLOCK (bbi);
rtx insn;
for (insn = bb->head; insn; insn = NEXT_INSN (insn))
{
ra_print_rtx_top (stderr, insn, (insn == bb->head || insn == bb->end));
fprintf (stderr, "\n");
if (insn == bb->end)
break;
}
}
/* Beginning from INSN, emit NUM insns (if NUM is non-negative)
or emit a window of NUM insns around INSN, to stderr. */
void
ra_debug_insns (insn, num)
rtx insn;
int num;
{
int i, count = (num == 0 ? 1 : num < 0 ? -num : num);
if (num < 0)
for (i = count / 2; i > 0 && PREV_INSN (insn); i--)
insn = PREV_INSN (insn);
for (i = count; i > 0 && insn; insn = NEXT_INSN (insn), i--)
{
if (GET_CODE (insn) == CODE_LABEL)
fprintf (stderr, "\n");
ra_print_rtx_top (stderr, insn, (i == count || i == 1));
}
}
/* Beginning with INSN, emit the whole insn chain into FILE.
This also outputs comments when basic blocks start or end and omits
some notes, if flag_ra_dump_notes is zero. */
void
ra_print_rtl_with_bb (file, insn)
FILE *file;
rtx insn;
{
basic_block last_bb, bb;
unsigned int num = 0;
if (!insn)
fputs ("nil", file);
last_bb = NULL;
for (; insn; insn = NEXT_INSN (insn))
{
if (GET_CODE (insn) == BARRIER)
bb = NULL;
else
bb = BLOCK_FOR_INSN (insn);
if (bb != last_bb)
{
if (last_bb)
fprintf (file, ";; End of basic block %d\n", last_bb->index);
if (bb)
fprintf (file, ";; Begin of basic block %d\n", bb->index);
last_bb = bb;
}
if (GET_CODE (insn) == CODE_LABEL)
fputc ('\n', file);
if (GET_CODE (insn) == NOTE)
{
/* Ignore basic block and maybe other notes not referencing
deleted things. */
if (NOTE_LINE_NUMBER (insn) != NOTE_INSN_BASIC_BLOCK
&& (flag_ra_dump_notes
|| NOTE_LINE_NUMBER (insn) == NOTE_INSN_DELETED
|| NOTE_LINE_NUMBER (insn) == NOTE_INSN_DELETED_LABEL))
{
ra_print_rtx_top (file, insn, (num == 0 || !NEXT_INSN (insn)));
num++;
}
}
else
{
ra_print_rtx_top (file, insn, (num == 0 || !NEXT_INSN (insn)));
num++;
}
}
}
/* Count how many insns were seen how often, while building the interference
graph, and prints the findings. */
void
dump_number_seen ()
{
#define N 17
int num[N];
int i;
for (i = 0; i < N; i++)
num[i] = 0;
for (i = 0; i < get_max_uid (); i++)
if (number_seen[i] < N - 1)
num[number_seen[i]]++;
else
num[N - 1]++;
for (i = 0; i < N - 1; i++)
if (num[i])
ra_debug_msg (DUMP_PROCESS, "%d insns seen %d times\n", num[i], i);
if (num[N - 1])
ra_debug_msg (DUMP_PROCESS, "%d insns seen %d and more times\n", num[i],
N - 1);
ra_debug_msg (DUMP_PROCESS, "from overall %d insns\n", get_max_uid ());
#undef N
}
/* Dump the interference graph, the move list and the webs. */
void
dump_igraph (df)
struct df *df ATTRIBUTE_UNUSED;
{
struct move_list *ml;
unsigned int def1, def2;
int num = 0;
int num2;
unsigned int i;
if (!rtl_dump_file || (debug_new_regalloc & (DUMP_IGRAPH | DUMP_WEBS)) == 0)
return;
ra_debug_msg (DUMP_IGRAPH, "conflicts:\n ");
for (def1 = 0; def1 < num_webs; def1++)
{
int num1 = num;
for (num2=0, def2 = 0; def2 < num_webs; def2++)
if (def1 != def2 && TEST_BIT (igraph, igraph_index (def1, def2)))
{
if (num1 == num)
{
if (SUBWEB_P (ID2WEB (def1)))
ra_debug_msg (DUMP_IGRAPH, "%d (SUBREG %d, %d) with ", def1,
ID2WEB (def1)->regno,
SUBREG_BYTE (ID2WEB (def1)->orig_x));
else
ra_debug_msg (DUMP_IGRAPH, "%d (REG %d) with ", def1,
ID2WEB (def1)->regno);
}
if ((num2 % 9) == 8)
ra_debug_msg (DUMP_IGRAPH, "\n ");
num++;
num2++;
if (SUBWEB_P (ID2WEB (def2)))
ra_debug_msg (DUMP_IGRAPH, "%d(%d,%d) ", def2, ID2WEB (def2)->regno,
SUBREG_BYTE (ID2WEB (def2)->orig_x));
else
ra_debug_msg (DUMP_IGRAPH, "%d(%d) ", def2, ID2WEB (def2)->regno);
}
if (num1 != num)
ra_debug_msg (DUMP_IGRAPH, "\n ");
}
ra_debug_msg (DUMP_IGRAPH, "\n");
for (ml = wl_moves; ml; ml = ml->next)
if (ml->move)
{
ra_debug_msg (DUMP_IGRAPH, "move: insn %d: Web %d <-- Web %d\n",
INSN_UID (ml->move->insn), ml->move->target_web->id,
ml->move->source_web->id);
}
ra_debug_msg (DUMP_WEBS, "\nWebs:\n");
for (i = 0; i < num_webs; i++)
{
struct web *web = ID2WEB (i);
ra_debug_msg (DUMP_WEBS, " %4d : regno %3d", i, web->regno);
if (SUBWEB_P (web))
{
ra_debug_msg (DUMP_WEBS, " sub %d", SUBREG_BYTE (web->orig_x));
ra_debug_msg (DUMP_WEBS, " par %d", find_web_for_subweb (web)->id);
}
ra_debug_msg (DUMP_WEBS, " +%d (span %d, cost ",
web->add_hardregs, web->span_deaths);
ra_debug_msg (DUMP_WEBS, HOST_WIDE_INT_PRINT_DEC, web->spill_cost);
ra_debug_msg (DUMP_WEBS, ") (%s)", reg_class_names[web->regclass]);
if (web->spill_temp == 1)
ra_debug_msg (DUMP_WEBS, " (spilltemp)");
else if (web->spill_temp == 2)
ra_debug_msg (DUMP_WEBS, " (spilltem2)");
else if (web->spill_temp == 3)
ra_debug_msg (DUMP_WEBS, " (short)");
if (web->type == PRECOLORED)
ra_debug_msg (DUMP_WEBS, " (precolored, color=%d)", web->color);
else if (find_web_for_subweb (web)->num_uses == 0)
ra_debug_msg (DUMP_WEBS, " dead");
if (web->crosses_call)
ra_debug_msg (DUMP_WEBS, " xcall");
if (web->regno >= max_normal_pseudo)
ra_debug_msg (DUMP_WEBS, " stack");
ra_debug_msg (DUMP_WEBS, "\n");
}
}
/* Dump the interference graph and webs in a format easily
parsable by programs. Used to emit real world interference graph
to my custom graph colorizer. */
void
dump_igraph_machine ()
{
unsigned int i;
if (!rtl_dump_file || (debug_new_regalloc & DUMP_IGRAPH_M) == 0)
return;
ra_debug_msg (DUMP_IGRAPH_M, "g %d %d\n", num_webs - num_subwebs,
FIRST_PSEUDO_REGISTER);
for (i = 0; i < num_webs - num_subwebs; i++)
{
struct web *web = ID2WEB (i);
struct conflict_link *cl;
int flags = 0;
int numc = 0;
int col = 0;
flags = web->spill_temp & 0xF;
flags |= ((web->type == PRECOLORED) ? 1 : 0) << 4;
flags |= (web->add_hardregs & 0xF) << 5;
for (cl = web->conflict_list; cl; cl = cl->next)
if (cl->t->id < web->id)
numc++;
ra_debug_msg (DUMP_IGRAPH_M, "n %d %d %d %d %d %d %d\n",
web->id, web->color, flags,
(unsigned int)web->spill_cost, web->num_defs, web->num_uses,
numc);
if (web->type != PRECOLORED)
{
ra_debug_msg (DUMP_IGRAPH_M, "s %d", web->id);
while (1)
{
unsigned int u = 0;
int n;
for (n = 0; n < 32 && col < FIRST_PSEUDO_REGISTER; n++, col++)
if (TEST_HARD_REG_BIT (web->usable_regs, col))
u |= 1 << n;
ra_debug_msg (DUMP_IGRAPH_M, " %u", u);
if (col >= FIRST_PSEUDO_REGISTER)
break;
}
ra_debug_msg (DUMP_IGRAPH_M, "\n");
}
if (numc)
{
ra_debug_msg (DUMP_IGRAPH_M, "c %d", web->id);
for (cl = web->conflict_list; cl; cl = cl->next)
{
if (cl->t->id < web->id)
ra_debug_msg (DUMP_IGRAPH_M, " %d", cl->t->id);
}
ra_debug_msg (DUMP_IGRAPH_M, "\n");
}
}
ra_debug_msg (DUMP_IGRAPH_M, "e\n");
}
/* This runs after colorization and changing the insn stream.
It temporarily replaces all pseudo registers with their colors,
and emits information, if the resulting insns are strictly valid. */
void
dump_constraints ()
{
rtx insn;
int i;
if (!rtl_dump_file || (debug_new_regalloc & DUMP_CONSTRAINTS) == 0)
return;
for (i = FIRST_PSEUDO_REGISTER; i < ra_max_regno; i++)
if (regno_reg_rtx[i] && GET_CODE (regno_reg_rtx[i]) == REG)
REGNO (regno_reg_rtx[i])
= ra_reg_renumber[i] >= 0 ? ra_reg_renumber[i] : i;
for (insn = get_insns (); insn; insn = NEXT_INSN (insn))
if (INSN_P (insn))
{
int code;
int uid = INSN_UID (insn);
int o;
/* Don't simply force rerecognition, as combine might left us
with some unrecongnizable ones, which later leads to aborts
in regclass, if we now destroy the remembered INSN_CODE(). */
/*INSN_CODE (insn) = -1;*/
code = recog_memoized (insn);
if (code < 0)
{
ra_debug_msg (DUMP_CONSTRAINTS,
"%d: asm insn or not recognizable.\n", uid);
continue;
}
ra_debug_msg (DUMP_CONSTRAINTS,
"%d: code %d {%s}, %d operands, constraints: ",
uid, code, insn_data[code].name, recog_data.n_operands);
extract_insn (insn);
/*preprocess_constraints ();*/
for (o = 0; o < recog_data.n_operands; o++)
{
ra_debug_msg (DUMP_CONSTRAINTS,
"%d:%s ", o, recog_data.constraints[o]);
}
if (constrain_operands (1))
ra_debug_msg (DUMP_CONSTRAINTS, "matches strictly alternative %d",
which_alternative);
else
ra_debug_msg (DUMP_CONSTRAINTS, "doesn't match strictly");
ra_debug_msg (DUMP_CONSTRAINTS, "\n");
}
for (i = FIRST_PSEUDO_REGISTER; i < ra_max_regno; i++)
if (regno_reg_rtx[i] && GET_CODE (regno_reg_rtx[i]) == REG)
REGNO (regno_reg_rtx[i]) = i;
}
/* This counts and emits the cumulated cost of all spilled webs,
preceded by a custom message MSG, with debug level LEVEL. */
void
dump_graph_cost (level, msg)
unsigned int level;
const char *msg;
{
unsigned int i;
unsigned HOST_WIDE_INT cost;
if (!rtl_dump_file || (debug_new_regalloc & level) == 0)
return;
cost = 0;
for (i = 0; i < num_webs; i++)
{
struct web *web = id2web[i];
if (alias (web)->type == SPILLED)
cost += web->orig_spill_cost;
}
ra_debug_msg (level, " spill cost of graph (%s) = ", msg ? msg : "");
ra_debug_msg (level, HOST_WIDE_INT_PRINT_UNSIGNED, cost);
ra_debug_msg (level, "\n");
}
/* Dump the color assignment per web, the coalesced and spilled webs. */
void
dump_ra (df)
struct df *df ATTRIBUTE_UNUSED;
{
struct web *web;
struct dlist *d;
if (!rtl_dump_file || (debug_new_regalloc & DUMP_RESULTS) == 0)
return;
ra_debug_msg (DUMP_RESULTS, "\nColored:\n");
for (d = WEBS(COLORED); d; d = d->next)
{
web = DLIST_WEB (d);
ra_debug_msg (DUMP_RESULTS, " %4d : color %d\n", web->id, web->color);
}
ra_debug_msg (DUMP_RESULTS, "\nCoalesced:\n");
for (d = WEBS(COALESCED); d; d = d->next)
{
web = DLIST_WEB (d);
ra_debug_msg (DUMP_RESULTS, " %4d : to web %d, color %d\n", web->id,
alias (web)->id, web->color);
}
ra_debug_msg (DUMP_RESULTS, "\nSpilled:\n");
for (d = WEBS(SPILLED); d; d = d->next)
{
web = DLIST_WEB (d);
ra_debug_msg (DUMP_RESULTS, " %4d\n", web->id);
}
ra_debug_msg (DUMP_RESULTS, "\n");
dump_cost (DUMP_RESULTS);
}
/* Calculate and dump the cumulated costs of certain types of insns
(loads, stores and copies). */
void
dump_static_insn_cost (file, message, prefix)
FILE *file;
const char *message;
const char *prefix;
{
struct cost
{
unsigned HOST_WIDE_INT cost;
unsigned int count;
};
basic_block bb;
struct cost load, store, regcopy, selfcopy, overall;
memset (&load, 0, sizeof(load));
memset (&store, 0, sizeof(store));
memset (®copy, 0, sizeof(regcopy));
memset (&selfcopy, 0, sizeof(selfcopy));
memset (&overall, 0, sizeof(overall));
if (!file)
return;
FOR_EACH_BB (bb)
{
unsigned HOST_WIDE_INT block_cost = bb->frequency;
rtx insn, set;
for (insn = bb->head; insn; insn = NEXT_INSN (insn))
{
/* Yes, yes. We don't calculate the costs precisely.
Only for "simple enough" insns. Those containing single
sets only. */
if (INSN_P (insn) && ((set = single_set (insn)) != NULL))
{
rtx src = SET_SRC (set);
rtx dest = SET_DEST (set);
struct cost *pcost = NULL;
overall.cost += block_cost;
overall.count++;
if (rtx_equal_p (src, dest))
pcost = &selfcopy;
else if (GET_CODE (src) == GET_CODE (dest)
&& ((GET_CODE (src) == REG)
|| (GET_CODE (src) == SUBREG
&& GET_CODE (SUBREG_REG (src)) == REG
&& GET_CODE (SUBREG_REG (dest)) == REG)))
pcost = ®copy;
else
{
if (GET_CODE (src) == SUBREG)
src = SUBREG_REG (src);
if (GET_CODE (dest) == SUBREG)
dest = SUBREG_REG (dest);
if (GET_CODE (src) == MEM && GET_CODE (dest) != MEM
&& memref_is_stack_slot (src))
pcost = &load;
else if (GET_CODE (src) != MEM && GET_CODE (dest) == MEM
&& memref_is_stack_slot (dest))
pcost = &store;
}
if (pcost)
{
pcost->cost += block_cost;
pcost->count++;
}
}
if (insn == bb->end)
break;
}
}
if (!prefix)
prefix = "";
fprintf (file, "static insn cost %s\n", message ? message : "");
fprintf (file, " %soverall:\tnum=%6d\tcost=", prefix, overall.count);
fprintf (file, HOST_WIDE_INT_PRINT_DEC_SPACE, 8, overall.cost);
fprintf (file, "\n");
fprintf (file, " %sloads:\tnum=%6d\tcost=", prefix, load.count);
fprintf (file, HOST_WIDE_INT_PRINT_DEC_SPACE, 8, load.cost);
fprintf (file, "\n");
fprintf (file, " %sstores:\tnum=%6d\tcost=", prefix, store.count);
fprintf (file, HOST_WIDE_INT_PRINT_DEC_SPACE, 8, store.cost);
fprintf (file, "\n");
fprintf (file, " %sregcopy:\tnum=%6d\tcost=", prefix, regcopy.count);
fprintf (file, HOST_WIDE_INT_PRINT_DEC_SPACE, 8, regcopy.cost);
fprintf (file, "\n");
fprintf (file, " %sselfcpy:\tnum=%6d\tcost=", prefix, selfcopy.count);
fprintf (file, HOST_WIDE_INT_PRINT_DEC_SPACE, 8, selfcopy.cost);
fprintf (file, "\n");
}
/* Returns nonzero, if WEB1 and WEB2 have some possible
hardregs in common. */
int
web_conflicts_p (web1, web2)
struct web *web1;
struct web *web2;
{
if (web1->type == PRECOLORED && web2->type == PRECOLORED)
return 0;
if (web1->type == PRECOLORED)
return TEST_HARD_REG_BIT (web2->usable_regs, web1->regno);
if (web2->type == PRECOLORED)
return TEST_HARD_REG_BIT (web1->usable_regs, web2->regno);
return hard_regs_intersect_p (&web1->usable_regs, &web2->usable_regs);
}
/* Dump all uids of insns in which WEB is mentioned. */
void
dump_web_insns (web)
struct web *web;
{
unsigned int i;
ra_debug_msg (DUMP_EVER, "Web: %i(%i)+%i class: %s freedom: %i degree %i\n",
web->id, web->regno, web->add_hardregs,
reg_class_names[web->regclass],
web->num_freedom, web->num_conflicts);
ra_debug_msg (DUMP_EVER, " def insns:");
for (i = 0; i < web->num_defs; ++i)
{
ra_debug_msg (DUMP_EVER, " %d ", INSN_UID (web->defs[i]->insn));
}
ra_debug_msg (DUMP_EVER, "\n use insns:");
for (i = 0; i < web->num_uses; ++i)
{
ra_debug_msg (DUMP_EVER, " %d ", INSN_UID (web->uses[i]->insn));
}
ra_debug_msg (DUMP_EVER, "\n");
}
/* Dump conflicts for web WEB. */
void
dump_web_conflicts (web)
struct web *web;
{
int num = 0;
unsigned int def2;
ra_debug_msg (DUMP_EVER, "Web: %i(%i)+%i class: %s freedom: %i degree %i\n",
web->id, web->regno, web->add_hardregs,
reg_class_names[web->regclass],
web->num_freedom, web->num_conflicts);
for (def2 = 0; def2 < num_webs; def2++)
if (TEST_BIT (igraph, igraph_index (web->id, def2)) && web->id != def2)
{
if ((num % 9) == 5)
ra_debug_msg (DUMP_EVER, "\n ");
num++;
ra_debug_msg (DUMP_EVER, " %d(%d)", def2, id2web[def2]->regno);
if (id2web[def2]->add_hardregs)
ra_debug_msg (DUMP_EVER, "+%d", id2web[def2]->add_hardregs);
if (web_conflicts_p (web, id2web[def2]))
ra_debug_msg (DUMP_EVER, "/x");
if (id2web[def2]->type == SELECT)
ra_debug_msg (DUMP_EVER, "/s");
if (id2web[def2]->type == COALESCED)
ra_debug_msg (DUMP_EVER,"/c/%d", alias (id2web[def2])->id);
}
ra_debug_msg (DUMP_EVER, "\n");
{
struct conflict_link *wl;
num = 0;
ra_debug_msg (DUMP_EVER, "By conflicts: ");
for (wl = web->conflict_list; wl; wl = wl->next)
{
struct web* w = wl->t;
if ((num % 9) == 8)
ra_debug_msg (DUMP_EVER, "\n ");
num++;
ra_debug_msg (DUMP_EVER, "%d(%d)%s ", w->id, w->regno,
web_conflicts_p (web, w) ? "+" : "");
}
ra_debug_msg (DUMP_EVER, "\n");
}
}
/* Output HARD_REG_SET to stderr. */
void
debug_hard_reg_set (set)
HARD_REG_SET set;
{
int i;
for (i=0; i < FIRST_PSEUDO_REGISTER; ++i)
{
if (TEST_HARD_REG_BIT (set, i))
{
fprintf (stderr, "%s ", reg_names[i]);
}
}
fprintf (stderr, "\n");
}
/*
vim:cinoptions={.5s,g0,p5,t0,(0,^-0.5s,n-0.5s:tw=78:cindent:sw=4:
*/
|