ref: c44aabebe17d7bc8e6173e2b3d1a6e7b4f5edaf5
dir: /utils/8c/list.c/
#define EXTERN #include "gc.h" void listinit(void) { fmtinstall('A', Aconv); fmtinstall('B', Bconv); fmtinstall('P', Pconv); fmtinstall('S', Sconv); fmtinstall('D', Dconv); fmtinstall('R', Rconv); } int Bconv(Fmt *fp) { char str[STRINGSZ], ss[STRINGSZ], *s; Bits bits; int i; str[0] = 0; bits = va_arg(fp->args, Bits); while(bany(&bits)) { i = bnum(bits); if(str[0]) strcat(str, " "); if(var[i].sym == S) { snprint(ss, sizeof(ss), "$%ld", var[i].offset); s = ss; } else s = var[i].sym->name; if(strlen(str) + strlen(s) + 1 >= STRINGSZ) break; strcat(str, s); bits.b[i/32] &= ~(1L << (i%32)); } return fmtstrcpy(fp, str); } int Pconv(Fmt *fp) { char str[STRINGSZ]; Prog *p; p = va_arg(fp->args, Prog*); if(p->as == ADATA) snprint(str, sizeof(str), " %A %D/%d,%D", p->as, &p->from, p->from.scale, &p->to); else if(p->as == ATEXT) snprint(str, sizeof(str), " %A %D,%d,%D", p->as, &p->from, p->from.scale, &p->to); else snprint(str, sizeof(str), " %A %D,%D", p->as, &p->from, &p->to); return fmtstrcpy(fp, str); } int Aconv(Fmt *fp) { int i; i = va_arg(fp->args, int); return fmtstrcpy(fp, anames[i]); } int Dconv(Fmt *fp) { char str[40], s[20]; Adr *a; int i; a = va_arg(fp->args, Adr*); i = a->type; if(i >= D_INDIR) { if(a->offset) snprint(str, sizeof(str), "%ld(%R)", a->offset, i-D_INDIR); else snprint(str, sizeof(str), "(%R)", i-D_INDIR); goto brk; } switch(i) { default: if(a->offset) snprint(str, sizeof(str), "$%ld,%R", a->offset, i); else snprint(str, sizeof(str), "%R", i); break; case D_NONE: str[0] = 0; break; case D_BRANCH: snprint(str, sizeof(str), "%ld(PC)", a->offset-pc); break; case D_EXTERN: snprint(str, sizeof(str), "%s+%ld(SB)", a->sym->name, a->offset); break; case D_STATIC: snprint(str, sizeof(str), "%s<>+%ld(SB)", a->sym->name, a->offset); break; case D_AUTO: snprint(str, sizeof(str), "%s+%ld(SP)", a->sym->name, a->offset); break; case D_PARAM: if(a->sym) snprint(str, sizeof(str), "%s+%ld(FP)", a->sym->name, a->offset); else snprint(str, sizeof(str), "%ld(FP)", a->offset); break; case D_CONST: snprint(str, sizeof(str), "$%ld", a->offset); break; case D_FCONST: snprint(str, sizeof(str), "$(%.17e)", a->dval); break; case D_SCONST: snprint(str, sizeof(str), "$\"%S\"", a->sval); break; case D_ADDR: a->type = a->index; a->index = D_NONE; snprint(str, sizeof(str), "$%D", a); a->index = a->type; a->type = D_ADDR; goto conv; } brk: if(a->index != D_NONE) { fmtstrcpy(fp, str); snprint(s, sizeof(s), "(%R*%d)", (int)a->index, (int)a->scale); return fmtstrcpy(fp, s); } conv: return fmtstrcpy(fp, str); } char* regstr[] = { "AL", /*[D_AL]*/ "CL", "DL", "BL", "AH", "CH", "DH", "BH", "AX", /*[D_AX]*/ "CX", "DX", "BX", "SP", "BP", "SI", "DI", "F0", /*[D_F0]*/ "F1", "F2", "F3", "F4", "F5", "F6", "F7", "CS", /*[D_CS]*/ "SS", "DS", "ES", "FS", "GS", "GDTR", /*[D_GDTR]*/ "IDTR", /*[D_IDTR]*/ "LDTR", /*[D_LDTR]*/ "MSW", /*[D_MSW] */ "TASK", /*[D_TASK]*/ "CR0", /*[D_CR]*/ "CR1", "CR2", "CR3", "CR4", "CR5", "CR6", "CR7", "DR0", /*[D_DR]*/ "DR1", "DR2", "DR3", "DR4", "DR5", "DR6", "DR7", "TR0", /*[D_TR]*/ "TR1", "TR2", "TR3", "TR4", "TR5", "TR6", "TR7", "NONE", /*[D_NONE]*/ }; int Rconv(Fmt *fp) { char str[20]; int r; r = va_arg(fp->args, int); if(r >= D_AL && r <= D_NONE) snprint(str, sizeof(str), "%s", regstr[r-D_AL]); else snprint(str, sizeof(str), "gok(%d)", r); return fmtstrcpy(fp, str); } int Sconv(Fmt *fp) { int i, c; char str[30], *p, *a; a = va_arg(fp->args, char*); p = str; for(i=0; i<sizeof(double); i++) { c = a[i] & 0xff; if(c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9') { *p++ = c; continue; } *p++ = '\\'; switch(c) { default: if(c < 040 || c >= 0177) break; /* not portable */ p[-1] = c; continue; case 0: *p++ = 'z'; continue; case '\\': case '"': *p++ = c; continue; case '\n': *p++ = 'n'; continue; case '\t': *p++ = 't'; continue; } *p++ = (c>>6) + '0'; *p++ = ((c>>3) & 7) + '0'; *p++ = (c & 7) + '0'; } *p = 0; return fmtstrcpy(fp, str); }