ref: ec35f468e0eba87c9f09cbbe5fa8af2591e6f914
dir: /utils/ql/list.c/
#include "l.h" void listinit(void) { fmtinstall('A', Aconv); fmtinstall('D', Dconv); fmtinstall('P', Pconv); fmtinstall('S', Sconv); fmtinstall('N', Nconv); fmtinstall('R', Rconv); } void prasm(Prog *p) { print("%P\n", p); } int Pconv(Fmt *fp) { char str[STRINGSZ], *s; Prog *p; int a; p = va_arg(fp->args, Prog*); curp = p; a = p->as; if(a == ADATA || a == AINIT || a == ADYNT) sprint(str, "(%d) %A %D/%d,%D", p->line, a, &p->from, p->reg, &p->to); else { s = str; if(p->mark & NOSCHED) s += sprint(s, "*"); if(p->reg == NREG && p->from3.type == D_NONE) sprint(s, "(%d) %A %D,%D", p->line, a, &p->from, &p->to); else if(a != ATEXT && p->from.type == D_OREG) { sprint(s, "(%d) %A %ld(R%d+R%d),%D", p->line, a, p->from.offset, p->from.reg, p->reg, &p->to); } else if(p->to.type == D_OREG) { sprint(s, "(%d) %A %D,%ld(R%d+R%d)", p->line, a, &p->from, p->to.offset, p->to.reg, p->reg); } else { s += sprint(s, "(%d) %A %D", p->line, a, &p->from); if(p->reg != NREG) s += sprint(s, ",%c%d", p->from.type==D_FREG?'F':'R', p->reg); if(p->from3.type != D_NONE) s += sprint(s, ",%D", &p->from3); sprint(s, ",%D", &p->to); } } return fmtstrcpy(fp, str); } int Aconv(Fmt *fp) { char *s; int a; a = va_arg(fp->args, int); s = "?"; if(a >= AXXX && a < ALAST) s = anames[a]; return fmtstrcpy(fp, s); } int Dconv(Fmt *fp) { char str[STRINGSZ]; Adr *a; long v; a = va_arg(fp->args, Adr*); switch(a->type) { default: sprint(str, "GOK-type(%d)", a->type); break; case D_NONE: str[0] = 0; if(a->name != D_NONE || a->reg != NREG || a->sym != S) sprint(str, "%N(R%d)(NONE)", a, a->reg); break; case D_CONST: if(a->reg != NREG) sprint(str, "$%N(R%d)", a, a->reg); else sprint(str, "$%N", a); break; case D_OREG: if(a->reg != NREG) sprint(str, "%N(R%d)", a, a->reg); else sprint(str, "%N", a); break; case D_REG: sprint(str, "R%d", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(R%d)(REG)", a, a->reg); break; case D_FREG: sprint(str, "F%d", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(F%d)(REG)", a, a->reg); break; case D_CREG: if(a->reg == NREG) strcpy(str, "CR"); else sprint(str, "CR%d", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(C%d)(REG)", a, a->reg); break; case D_SPR: if(a->name == D_NONE && a->sym == S) { switch(a->offset) { case D_XER: sprint(str, "XER"); break; case D_LR: sprint(str, "LR"); break; case D_CTR: sprint(str, "CTR"); break; default: sprint(str, "SPR(%ld)", a->offset); break; } break; } sprint(str, "SPR-GOK(%d)", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(SPR-GOK%d)(REG)", a, a->reg); break; case D_DCR: if(a->name == D_NONE && a->sym == S) { if(a->reg == NREG) sprint(str, "DCR(%ld)", a->offset); else sprint(str, "DCR(R%d)", a->reg); break; } sprint(str, "DCR-GOK(%d)", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(DCR-GOK%d)(REG)", a, a->reg); break; case D_OPT: sprint(str, "OPT(%d)", a->reg); break; case D_FPSCR: if(a->reg == NREG) strcpy(str, "FPSCR"); else sprint(str, "FPSCR(%d)", a->reg); break; case D_MSR: sprint(str, "MSR"); break; case D_SREG: sprint(str, "SREG(%d)", a->reg); if(a->name != D_NONE || a->sym != S) sprint(str, "%N(SREG%d)(REG)", a, a->reg); break; case D_BRANCH: if(curp->cond != P) { v = curp->cond->pc; if(v >= INITTEXT) v -= INITTEXT-HEADR; if(a->sym != S) sprint(str, "%s+%.5lux(BRANCH)", a->sym->name, v); else sprint(str, "%.5lux(BRANCH)", v); } else if(a->sym != S) sprint(str, "%s+%ld(APC)", a->sym->name, a->offset); else sprint(str, "%ld(APC)", a->offset); break; case D_FCONST: sprint(str, "$%lux-%lux", a->ieee.h, a->ieee.l); break; case D_SCONST: sprint(str, "$\"%S\"", a->sval); break; } return fmtstrcpy(fp, str); } int Nconv(Fmt *fp) { char str[STRINGSZ]; Adr *a; Sym *s; a = va_arg(fp->args, Adr*); s = a->sym; if(s == S) { sprint(str, "%ld", a->offset); goto out; } switch(a->name) { default: sprint(str, "GOK-name(%d)", a->name); break; case D_EXTERN: sprint(str, "%s+%ld(SB)", s->name, a->offset); break; case D_STATIC: sprint(str, "%s<>+%ld(SB)", s->name, a->offset); break; case D_AUTO: sprint(str, "%s-%ld(SP)", s->name, -a->offset); break; case D_PARAM: sprint(str, "%s+%ld(FP)", s->name, a->offset); break; } out: return fmtstrcpy(fp, str); } int Rconv(Fmt *fp) { char *s; int a; a = va_arg(fp->args, int); s = "C_??"; if(a >= C_NONE && a <= C_NCLASS) s = cnames[a]; return fmtstrcpy(fp, s); } int Sconv(Fmt *fp) { int i, c; char str[STRINGSZ], *p, *a; a = va_arg(fp->args, char*); p = str; for(i=0; i<sizeof(long); i++) { c = a[i] & 0xff; if(c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || c == ' ' || c == '%') { *p++ = c; continue; } *p++ = '\\'; switch(c) { 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); } void diag(char *fmt, ...) { char buf[STRINGSZ], *tn; va_list arg; tn = "??none??"; if(curtext != P && curtext->from.sym != S) tn = curtext->from.sym->name; va_start(arg, fmt); vseprint(buf, buf+sizeof(buf), fmt, arg); va_end(arg); print("%s: %s\n", tn, buf); nerrors++; if(nerrors > 10) { print("too many errors\n"); errorexit(); } }