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/*
* Generate defines for the needed hardops.
*/
#include "pass2.h"
#include <string.h>
#define FMTdPTR "%td"
int chkop[DSIZE];
void mktables(void);
char *cname = "external.c";
char *hname = "external.h";
FILE *fc, *fh;
/*
* masks for matching dope with shapes
*/
int mamask[] = {
SIMPFLG, /* OPSIMP */
SIMPFLG|ASGFLG, /* ASG OPSIMP */
COMMFLG, /* OPCOMM */
COMMFLG|ASGFLG, /* ASG OPCOMM */
MULFLG, /* OPMUL */
MULFLG|ASGFLG, /* ASG OPMUL */
DIVFLG, /* OPDIV */
DIVFLG|ASGFLG, /* ASG OPDIV */
UTYPE, /* OPUNARY */
TYFLG, /* ASG OPUNARY is senseless */
LTYPE, /* OPLEAF */
TYFLG, /* ASG OPLEAF is senseless */
0, /* OPANY */
ASGOPFLG|ASGFLG, /* ASG OPANY */
LOGFLG, /* OPLOG */
TYFLG, /* ASG OPLOG is senseless */
FLOFLG, /* OPFLOAT */
FLOFLG|ASGFLG, /* ASG OPFLOAT */
SHFFLG, /* OPSHFT */
SHFFLG|ASGFLG, /* ASG OPSHIFT */
SPFLG, /* OPLTYPE */
TYFLG, /* ASG OPLTYPE is senseless */
};
struct checks {
int op, type;
char *name;
} checks[] = {
{ MUL, TLONGLONG, "SMULLL", },
{ DIV, TLONGLONG, "SDIVLL", },
{ MOD, TLONGLONG, "SMODLL", },
{ PLUS, TLONGLONG, "SPLUSLL", },
{ MINUS, TLONGLONG, "SMINUSLL", },
{ MUL, TULONGLONG, "UMULLL", },
{ DIV, TULONGLONG, "UDIVLL", },
{ MOD, TULONGLONG, "UMODLL", },
{ PLUS, TULONGLONG, "UPLUSLL", },
{ MINUS, TULONGLONG, "UMINUSLL", },
{ 0, 0, 0, },
};
int rstatus[] = { RSTATUS };
int roverlay[MAXREGS][MAXREGS] = { ROVERLAP };
int regclassmap[NUMCLASS][MAXREGS];
static void
compl(struct optab *q, char *str)
{
int op = q->op;
char *s;
if (op < OPSIMP) {
s = opst[op];
} else
switch (op) {
default: s = "Special op"; break;
case OPSIMP: s = "OPLSIMP"; break;
case OPCOMM: s = "OPCOMM"; break;
case OPMUL: s = "OPMUL"; break;
case OPDIV: s = "OPDIV"; break;
case OPUNARY: s = "OPUNARY"; break;
case OPLEAF: s = "OPLEAF"; break;
case OPANY: s = "OPANY"; break;
case OPLOG: s = "OPLOG"; break;
case OPFLOAT: s = "OPFLOAT"; break;
case OPSHFT: s = "OPSHFT"; break;
case OPLTYPE: s = "OPLTYPE"; break;
}
printf("table entry " FMTdPTR ", op %s: %s\n", q - table, s, str);
}
static int
getrcl(struct optab *q)
{
int v = q->needs & (NACOUNT|NBCOUNT|NCCOUNT|NDCOUNT);
int r = q->rewrite & RESC1 ? 1 : q->rewrite & RESC2 ? 2 : 3;
int i = 0;
#define INCK(c) while (v & c##COUNT) { \
v -= c##REG, i++; if (i == r) return I##c##REG; }
INCK(NA)
INCK(NB)
INCK(NC)
INCK(ND)
return 0;
}
int
main(int argc, char *argv[])
{
struct optab *q;
struct checks *ch;
int i, j, areg, breg, creg, dreg, mx;
char *bitary;
int bitsz, rval, nelem;
mkdope();
for (q = table; q->op != FREE; q++) {
if (q->op >= OPSIMP)
continue;
if ((q->ltype & TLONGLONG) &&
(q->rtype & TLONGLONG))
chkop[q->op] |= TLONGLONG;
if ((q->ltype & TULONGLONG) &&
(q->rtype & TULONGLONG))
chkop[q->op] |= TULONGLONG;
}
if ((fc = fopen(cname, "w")) == NULL) {
perror("open cfile");
return(1);
}
if ((fh = fopen(hname, "w")) == NULL) {
perror("open hfile");
return(1);
}
for (ch = checks; ch->op != 0; ch++) {
if ((chkop[ch->op] & ch->type) == 0)
fprintf(fh, "#define NEED_%s\n", ch->name);
}
fprintf(fc, "#include \"pass2.h\"\n");
/* create fast-lookup tables */
mktables();
/* create efficient bitset sizes */
if (sizeof(long) == 8) { /* 64-bit arch */
bitary = "long";
bitsz = 64;
} else {
bitary = "int";
bitsz = sizeof(int) == 4 ? 32 : 16;
}
fprintf(fh, "#define NUMBITS %d\n", bitsz);
fprintf(fh, "#define BITSET(arr, bit) "
"(arr[bit/NUMBITS] |= ((%s)1 << (bit & (NUMBITS-1))))\n",
bitary);
fprintf(fh, "#define BITCLEAR(arr, bit) "
"(arr[bit/NUMBITS] &= ~((%s)1 << (bit & (NUMBITS-1))))\n",
bitary);
fprintf(fh, "#define TESTBIT(arr, bit) "
"(arr[bit/NUMBITS] & ((%s)1 << (bit & (NUMBITS-1))))\n",
bitary);
fprintf(fh, "typedef %s bittype;\n", bitary);
/* register class definitions, used by graph-coloring */
/* TODO */
/* Sanity-check the table */
rval = 0;
for (q = table; q->op != FREE; q++) {
if (q->op == ASSIGN) {
#define F(x) (q->visit & x && q->rewrite & (RLEFT|RRIGHT) && \
q->lshape & ~x && q->rshape & ~x)
if (F(INAREG) || F(INBREG) || F(INCREG) || F(INDREG)) {
compl(q, "may match without result register");
rval++;
}
#undef F
if ((q->visit & INREGS) && !(q->rewrite & RDEST)) {
compl(q, "ASSIGN reclaim must be RDEST");
rval++;
}
}
/* check that reclaim is not the wrong class */
if ((q->rewrite & (RESC1|RESC2|RESC3)) &&
!(q->needs & REWRITE)) {
if ((q->visit & getrcl(q)) == 0) {
compl(q, "wrong RESCx class");
rval++;
}
}
if (q->rewrite & (RESC1|RESC2|RESC3) && q->visit & FOREFF)
compl(q, "FOREFF may cause reclaim of wrong class");
}
/* print out list of scratched and permanent registers */
fprintf(fh, "extern int tempregs[], permregs[];\n");
fprintf(fc, "int tempregs[] = { ");
for (i = j = 0; i < MAXREGS; i++)
if (rstatus[i] & TEMPREG)
fprintf(fc, "%d, ", i), j++;
fprintf(fc, "-1 };\n");
fprintf(fh, "#define NTEMPREG %d\n", j+1);
fprintf(fh, "#define FREGS %d\n", j); /* XXX - to die */
fprintf(fc, "int permregs[] = { ");
for (i = j = 0; i < MAXREGS; i++)
if (rstatus[i] & PERMREG)
fprintf(fc, "%d, ", i), j++;
fprintf(fc, "-1 };\n");
fprintf(fh, "#define NPERMREG %d\n", j+1);
fprintf(fc, "bittype validregs[] = {\n");
for (j = 0; j < MAXREGS; j += bitsz) {
int cbit = 0;
for (i = 0; i < bitsz; i++) {
if (i+j == MAXREGS)
break;
if (rstatus[i+j] & INREGS)
cbit |= (1 << i);
}
fprintf(fc, "\t0x%08x,\n", cbit);
}
fprintf(fc, "};\n");
fprintf(fh, "extern bittype validregs[];\n");
/*
* The register allocator uses bitmasks of registers for each class.
*/
areg = breg = creg = dreg = 0;
for (i = 0; i < MAXREGS; i++) {
for (j = 0; j < NUMCLASS; j++)
regclassmap[j][i] = -1;
if (rstatus[i] & SAREG) regclassmap[0][i] = areg++;
if (rstatus[i] & SBREG) regclassmap[1][i] = breg++;
if (rstatus[i] & SCREG) regclassmap[2][i] = creg++;
if (rstatus[i] & SDREG) regclassmap[3][i] = dreg++;
}
fprintf(fh, "#define AREGCNT %d\n", areg);
fprintf(fh, "#define BREGCNT %d\n", breg);
fprintf(fh, "#define CREGCNT %d\n", creg);
fprintf(fh, "#define DREGCNT %d\n", dreg);
if (areg > bitsz)
printf("%d regs in class A (max %d)\n", areg, bitsz), rval++;
if (breg > bitsz)
printf("%d regs in class B (max %d)\n", breg, bitsz), rval++;
if (creg > bitsz)
printf("%d regs in class C (max %d)\n", creg, bitsz), rval++;
if (dreg > bitsz)
printf("%d regs in class D (max %d)\n", dreg, bitsz), rval++;
fprintf(fc, "static int amap[MAXREGS][NUMCLASS] = {\n");
for (i = 0; i < MAXREGS; i++) {
int ba, bb, bc, bd, r;
ba = bb = bc = bd = 0;
if (rstatus[i] & SAREG) ba = (1 << regclassmap[0][i]);
if (rstatus[i] & SBREG) bb = (1 << regclassmap[1][i]);
if (rstatus[i] & SCREG) bc = (1 << regclassmap[2][i]);
if (rstatus[i] & SDREG) bd = (1 << regclassmap[3][i]);
for (j = 0; roverlay[i][j] >= 0; j++) {
r = roverlay[i][j];
if (rstatus[r] & SAREG)
ba |= (1 << regclassmap[0][r]);
if (rstatus[r] & SBREG)
bb |= (1 << regclassmap[1][r]);
if (rstatus[r] & SCREG)
bc |= (1 << regclassmap[2][r]);
if (rstatus[r] & SDREG)
bd |= (1 << regclassmap[3][r]);
}
fprintf(fc, "\t{ 0x%x", ba);
if (NUMCLASS > 1) fprintf(fc, ",0x%x", bb);
if (NUMCLASS > 2) fprintf(fc, ",0x%x", bc);
if (NUMCLASS > 3) fprintf(fc, ",0x%x", bd);
fprintf(fc, " },\n");
}
fprintf(fc, "};\n");
fprintf(fh, "int aliasmap(int class, int regnum);\n");
fprintf(fc, "int\naliasmap(int class, int regnum)\n{\n");
fprintf(fc, " return amap[regnum][class-1];\n}\n");
/* routines to convert back from color to regnum */
mx = areg;
if (breg > mx) mx = breg;
if (creg > mx) mx = creg;
if (dreg > mx) mx = dreg;
if (mx > (int)(sizeof(int)*8)-1) {
printf("too many regs in a class, use two classes instead\n");
printf("%d > %zu\n", mx, (sizeof(int)*8)-1);
rval++;
}
fprintf(fc, "static int rmap[NUMCLASS][%d] = {\n", mx);
for (j = 0; j < NUMCLASS; j++) {
int cl = (1 << (j+1));
fprintf(fc, "\t{ ");
for (i = 0; i < MAXREGS; i++)
if (rstatus[i] & cl) fprintf(fc, "%d, ", i);
fprintf(fc, "},\n");
}
fprintf(fc, "};\n\n");
fprintf(fh, "int color2reg(int color, int class);\n");
fprintf(fc, "int\ncolor2reg(int color, int class)\n{\n");
fprintf(fc, " return rmap[class-1][color];\n}\n");
/* used by register allocator */
fprintf(fc, "int regK[] = { 0, %d, %d, %d, %d };\n",
areg, breg, creg, dreg);
fprintf(fc, "int\nclassmask(int class)\n{\n");
fprintf(fc, "\tif(class == CLASSA) return 0x%x;\n", (1 << areg)-1);
fprintf(fc, "\tif(class == CLASSB) return 0x%x;\n", (1 << breg)-1);
fprintf(fc, "\tif(class == CLASSC) return 0x%x;\n", (1 << creg)-1);
fprintf(fc, "\treturn 0x%x;\n}\n", (1 << dreg)-1);
fprintf(fh, "int interferes(int reg1, int reg2);\n");
nelem = (MAXREGS+bitsz-1)/bitsz;
fprintf(fc, "static bittype ovlarr[MAXREGS][%d] = {\n", nelem);
for (i = 0; i < MAXREGS; i++) {
int el[10];
memset(el, 0, sizeof(el));
el[i/bitsz] = 1 << (i % bitsz);
for (j = 0; roverlay[i][j] >= 0; j++) {
int k = roverlay[i][j];
el[k/bitsz] |= (1 << (k % bitsz));
}
fprintf(fc, "{ ");
for (j = 0; j < MAXREGS; j += bitsz)
fprintf(fc, "0x%x, ", el[j/bitsz]);
fprintf(fc, " },\n");
}
fprintf(fc, "};\n");
fprintf(fc, "int\ninterferes(int reg1, int reg2)\n{\n");
fprintf(fc, "return TESTBIT(ovlarr[reg1], reg2);\n}\n");
fclose(fc);
fclose(fh);
return rval;
}
#define P(x) fprintf x
void
mktables()
{
struct optab *op;
int mxalen = 0, curalen;
int i;
// P((fc, "#include \"pass2.h\"\n\n"));
for (i = 0; i <= MAXOP; i++) {
curalen = 0;
P((fc, "static int op%d[] = { ", i));
if (dope[i] != 0)
for (op = table; op->op != FREE; op++) {
if (op->op < OPSIMP) {
if (op->op == i) {
P((fc, FMTdPTR ", ", op - table));
curalen++;
}
} else {
int opmtemp;
if ((opmtemp=mamask[op->op - OPSIMP])&SPFLG) {
if (i==NAME || i==ICON || i==TEMP ||
i==OREG || i == REG || i == FCON) {
P((fc, FMTdPTR ", ",
op - table));
curalen++;
}
} else if ((dope[i]&(opmtemp|ASGFLG))==opmtemp){
P((fc, FMTdPTR ", ", op - table));
curalen++;
}
}
}
if (curalen > mxalen)
mxalen = curalen;
P((fc, "-1 };\n"));
}
P((fc, "\n"));
P((fc, "int *qtable[] = { \n"));
for (i = 0; i <= MAXOP; i++) {
P((fc, " op%d,\n", i));
}
P((fc, "};\n"));
P((fh, "#define MAXOPLEN %d\n", mxalen+1));
}
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