#include #include #include #include #include #include #include #include "util.h" #include "cc.h" struct value { enum { VALUE_NONE, VALUE_GLOBAL, VALUE_INTCONST, VALUE_FLTCONST, VALUE_DBLCONST, VALUE_TEMP, VALUE_TYPE, VALUE_LABEL, VALUE_THREAD = 1<<4, } kind; unsigned id; union { char *name; unsigned long long i; double f; } u; }; struct lvalue { struct value *addr; struct bitfield bits; }; enum instkind { INONE, #define OP(op, name) op, #include "ops.h" #undef OP IARG, IVARARG, }; struct qbetype { char base, data; enum instkind load, store; }; struct inst { enum instkind kind; int class; struct value res, *arg[2]; }; struct jump { enum { JUMP_NONE, JUMP_JMP, JUMP_JNZ, JUMP_RET, JUMP_HLT, } kind; struct value *arg; struct block *blk[2]; }; struct block { struct value label; struct array insts; struct { int class; struct block *blk[2]; struct value *val[2]; struct value res; } phi; struct jump jump; struct block *next; }; struct switchcase { struct treenode node; struct block *body; }; struct func { struct decl *decl, *namedecl; char *name; struct value *paramtemps; struct type *type; struct block *start, *end; struct map gotos; unsigned lastid; }; static const int ptrclass = 'l'; void switchcase(struct switchcases *cases, unsigned long long i, struct block *b) { struct switchcase *c; c = treeinsert(&cases->root, i, sizeof(*c)); if (!c->node.new) error(&tok.loc, "multiple 'case' labels with same value"); c->body = b; } /* values */ struct block * mkblock(char *name) { static unsigned id; struct block *b; b = xmalloc(sizeof(*b)); b->label.kind = VALUE_LABEL; b->label.u.name = name; b->label.id = ++id; b->insts = (struct array){0}; b->jump.kind = JUMP_NONE; b->phi.res.kind = VALUE_NONE; b->next = NULL; return b; } struct value * mkglobal(struct decl *d) { static unsigned id; struct value *v; v = xmalloc(sizeof(*v)); v->kind = VALUE_GLOBAL; if (d->kind == DECLOBJECT && d->u.obj.storage == SDTHREAD) v->kind |= VALUE_THREAD; if (d->asmname) { v->u.name = d->asmname; v->id = 0; } else { v->u.name = d->name; v->id = d->linkage == LINKNONE ? ++id : 0; } return v; } struct value * mkintconst(unsigned long long n) { struct value *v; v = xmalloc(sizeof(*v)); v->kind = VALUE_INTCONST; v->u.i = n; return v; } unsigned long long intconstvalue(struct value *v) { assert(v->kind == VALUE_INTCONST); return v->u.i; } static struct value * mkfltconst(int kind, double n) { struct value *v; v = xmalloc(sizeof(*v)); v->kind = kind; v->u.f = n; return v; } static struct qbetype qbetype(struct type *t) { static const struct qbetype ub = {'w', 'b', ILOADUB, ISTOREB}, sb = {'w', 'b', ILOADSB, ISTOREB}, uh = {'w', 'h', ILOADUH, ISTOREH}, sh = {'w', 'h', ILOADSH, ISTOREH}, w = {'w', 'w', ILOADW, ISTOREW}, l = {'l', 'l', ILOADL, ISTOREL}, s = {'s', 's', ILOADS, ISTORES}, d = {'d', 'd', ILOADD, ISTORED}, v = {0}; if (t == &typevoid) return v; if (!(t->prop & PROPSCALAR)) return l; switch (t->size) { case 1: return t->u.basic.issigned ? sb : ub; case 2: return t->u.basic.issigned ? sh : uh; case 4: return t->prop & PROPFLOAT ? s : w; case 8: return t->prop & PROPFLOAT ? d : l; case 16: fatal("long double is not yet supported"); } assert(0); } /* functions */ static void emittype(struct type *); static void emitname(struct value *); static void emitvalue(struct value *); static void functemp(struct func *f, struct value *v) { v->kind = VALUE_TEMP; v->u.name = NULL; v->id = ++f->lastid; } static const char *const instname[] = { #define OP(op, name) [op] = name, #include "ops.h" #undef OP }; static struct inst * mkinst(struct func *f, int op, int class, struct value *arg0, struct value *arg1) { struct inst *inst; inst = xmalloc(sizeof(*inst)); inst->kind = op; inst->class = class; inst->arg[0] = arg0; inst->arg[1] = arg1; if (class && op != IARG) functemp(f, &inst->res); else inst->res.kind = VALUE_NONE; return inst; } static struct value * funcinst(struct func *f, int op, int class, struct value *arg0, struct value *arg1) { struct inst *inst; struct block *b; if (f->end->jump.kind) { b = mkblock("dead"); funclabel(f, b); } inst = mkinst(f, op, class, arg0, arg1); arrayaddptr(&f->end->insts, inst); return &inst->res; } static struct value * convert(struct func *f, struct type *dst, struct type *src, struct value *l) { enum instkind op; struct value *r = NULL; int class; if (src->kind == TYPEPOINTER) src = &typeulong; if (dst->kind == TYPEPOINTER) dst = &typeulong; if (dst->kind == TYPEVOID) return NULL; if (!(src->prop & PROPREAL) || !(dst->prop & PROPREAL)) fatal("internal error; unsupported conversion"); if (dst->kind == TYPEBOOL) { class = 'w'; if (src->prop & PROPINT) { r = mkintconst(0); switch (src->size) { case 1: op = ICNEW, l = funcinst(f, IEXTUB, 'w', l, NULL); break; case 2: op = ICNEW, l = funcinst(f, IEXTUH, 'w', l, NULL); break; case 4: op = ICNEW; break; case 8: op = ICNEL; break; default: fatal("internal error; unknown integer conversion"); return NULL; /* unreachable */ } } else { assert(src->prop & PROPFLOAT); switch (src->size) { case 4: op = ICNES, r = mkfltconst(VALUE_FLTCONST, 0); break; case 8: op = ICNED, r = mkfltconst(VALUE_DBLCONST, 0); break; default: fatal("internal error; unknown floating point conversion"); return NULL; /* unreachable */ } } } else if (dst->prop & PROPINT) { class = dst->size == 8 ? 'l' : 'w'; if (src->prop & PROPINT) { if (dst->size <= src->size) return l; switch (src->size) { case 4: op = src->u.basic.issigned ? IEXTSW : IEXTUW; break; case 2: op = src->u.basic.issigned ? IEXTSH : IEXTUH; break; case 1: op = src->u.basic.issigned ? IEXTSB : IEXTUB; break; default: fatal("internal error; unknown integer conversion"); return NULL; /* unreachable */ } } else { if (dst->u.basic.issigned) op = src->size == 8 ? IDTOSI : ISTOSI; else op = src->size == 8 ? IDTOUI : ISTOUI; } } else { class = dst->size == 8 ? 'd' : 's'; if (src->prop & PROPINT) { if (src->u.basic.issigned) op = src->size == 8 ? ISLTOF : ISWTOF; else op = src->size == 8 ? IULTOF : IUWTOF; } else { assert(src->prop & PROPFLOAT); if (src->size == dst->size) return l; op = src->size < dst->size ? IEXTS : ITRUNCD; } } return funcinst(f, op, class, l, r); } static void calcvla(struct func *f, struct type *t) { struct value *length, *basesize; if (!(t->prop & PROPVM)) return; if (t->base) calcvla(f, t->base); if (t->kind == TYPEFUNC || t->size) return; assert(t->kind == TYPEARRAY); if (!t->u.array.size) { assert(t->base->size || t->base->kind == TYPEARRAY); assert(t->u.array.length); length = convert(f, &typeulong, t->u.array.length->type, funcexpr(f, t->u.array.length)); basesize = t->base->size ? mkintconst(t->base->size) : t->base->u.array.size; t->u.array.size = funcinst(f, IMUL, 'l', length, basesize); } } static void funcalloc(struct func *f, struct decl *d) { enum instkind op; struct block *end; struct value *v; int align; assert(!d->type->incomplete); calcvla(f, d->type); end = f->end; if (d->type->size) { f->end = f->start; v = mkintconst(d->type->size); } else { assert(d->type->kind == TYPEARRAY); assert(d->type->u.array.size); v = d->type->u.array.size; } align = d->u.obj.align; switch (align) { case 1: case 2: case 4: op = IALLOC4; break; case 8: op = IALLOC8; break; default: v = funcinst(f, IADD, ptrclass, v, mkintconst(align - 16)); /* fallthrough */ case 16: op = IALLOC16; break; } v = funcinst(f, op, ptrclass, v, NULL); if (align > 16) { /* TODO: implement alloc32 in QBE and use that instead */ v = funcinst(f, IADD, ptrclass, v, mkintconst(align - 16)); v = funcinst(f, IAND, ptrclass, v, mkintconst(-align)); } d->value = v; f->end = end; } static struct value * funcbits(struct func *f, struct type *t, struct value *v, struct bitfield b) { int class, bits; class = t->size <= 4 ? 'w' : 'l'; bits = b.after; if (bits) { bits += (t->size + 3 & ~3) - t->size << 3; v = funcinst(f, ISHL, class, v, mkintconst(bits)); } bits += b.before; if (bits) v = funcinst(f, t->u.basic.issigned ? ISAR : ISHR, class, v, mkintconst(bits)); return v; } static void funccopy(struct func *f, struct value *dst, struct value *src, unsigned long long size, int align) { enum instkind load, store; int class; struct value *tmp, *inc; unsigned long long off; assert((align & align - 1) == 0); class = 'w'; switch (align) { case 1: load = ILOADUB, store = ISTOREB; break; case 2: load = ILOADUH, store = ISTOREH; break; case 4: load = ILOADW, store = ISTOREW; break; default: load = ILOADL, store = ISTOREL, align = 8, class = 'l'; break; } inc = mkintconst(align); off = 0; for (;;) { tmp = funcinst(f, load, class, src, NULL); funcinst(f, store, 0, tmp, dst); off += align; if (off >= size) break; src = funcinst(f, IADD, ptrclass, src, inc); dst = funcinst(f, IADD, ptrclass, dst, inc); } } static struct value * funcstore(struct func *f, struct type *t, enum typequal tq, struct lvalue lval, struct value *v) { struct value *r; enum typeprop tp; unsigned long long mask; struct qbetype qt; int bits; if (tq & QUALVOLATILE) error(&tok.loc, "volatile store is not yet supported"); if (tq & QUALCONST) error(&tok.loc, "cannot store to 'const' object"); tp = t->prop; assert(!lval.bits.before && !lval.bits.after || tp & PROPINT); r = v; switch (t->kind) { case TYPESTRUCT: case TYPEUNION: case TYPEARRAY: funccopy(f, lval.addr, v, t->size, t->align); break; case TYPEPOINTER: t = &typeulong; /* fallthrough */ default: assert(tp & PROPSCALAR); qt = qbetype(t); bits = lval.bits.before + lval.bits.after; if (bits) { mask = 0xffffffffffffffffu >> 64 - t->size * 8 + bits << lval.bits.before; v = funcinst(f, ISHL, qt.base, v, mkintconst(lval.bits.before)); r = funcbits(f, t, v, lval.bits); v = funcinst(f, IAND, qt.base, v, mkintconst(mask)); v = funcinst(f, IOR, qt.base, v, funcinst(f, IAND, qt.base, funcinst(f, qt.load, qt.base, lval.addr, NULL), mkintconst(~mask) ) ); } funcinst(f, qt.store, 0, v, lval.addr); break; } return r; } static struct value * funcload(struct func *f, struct type *t, struct lvalue lval) { struct value *v; struct qbetype qt; switch (t->kind) { case TYPESTRUCT: case TYPEUNION: case TYPEARRAY: return lval.addr; } qt = qbetype(t); v = funcinst(f, qt.load, qt.base, lval.addr, NULL); return funcbits(f, t, v, lval.bits); } struct func * mkfunc(struct decl *decl, char *name, struct type *t, struct scope *s) { struct func *f; struct decl *d; struct value *v; f = xmalloc(sizeof(*f)); f->decl = decl; f->name = name; f->type = t; f->start = f->end = mkblock("start"); f->lastid = 0; mapinit(&f->gotos, 8); emittype(t->base); /* allocate space for parameters */ f->paramtemps = xreallocarray(NULL, t->u.func.nparam, sizeof *f->paramtemps); for (d = t->u.func.params, v = f->paramtemps; d; d = d->next, ++v) { emittype(d->type); functemp(f, v); if(!d->name) continue; if (d->type->value) { d->value = v; } else { funcalloc(f, d); funcstore(f, d->type, QUALNONE, (struct lvalue){d->value}, v); } } t = mkarraytype(&typechar, QUALCONST, strlen(name) + 1); d = mkdecl("__func__", DECLOBJECT, t, QUALNONE, LINKNONE); d->u.obj.storage = SDSTATIC; d->value = mkglobal(d); scopeputdecl(s, d); f->namedecl = d; funclabel(f, mkblock("body")); return f; } void delfunc(struct func *f) { struct block *b; struct inst **inst; while (b = f->start) { f->start = b->next; arrayforeach (&b->insts, inst) free(*inst); free(b->insts.val); free(b); } mapfree(&f->gotos, free); free(f); } struct type * functype(struct func *f) { return f->type; } void funclabel(struct func *f, struct block *b) { f->end->next = b; f->end = b; } void funcjmp(struct func *f, struct block *l) { struct block *b = f->end; if (!b->jump.kind) { b->jump.kind = JUMP_JMP; b->jump.blk[0] = l; } } void funcjnz(struct func *f, struct value *v, struct type *t, struct block *l1, struct block *l2) { struct block *b = f->end; if (b->jump.kind) return; if (t) { assert(t->prop & PROPSCALAR); /* Ideally we would just do this conversion unconditionally, but QBE is not currently able to optimize the conversion away for int. */ if (t->prop & PROPINT && t->size < 4) v = convert(f, &typeint, t, v); else if (t->prop & PROPFLOAT || t->size > 4) v = convert(f, &typebool, t, v); } b->jump.kind = JUMP_JNZ; b->jump.arg = v; b->jump.blk[0] = l1; b->jump.blk[1] = l2; } void funcret(struct func *f, struct value *v) { struct block *b = f->end; if (!b->jump.kind) { b->jump.kind = JUMP_RET; b->jump.arg = v; } } void funchlt(struct func *f) { struct block *b = f->end; if (!b->jump.kind) b->jump.kind = JUMP_HLT; } struct gotolabel * funcgoto(struct func *f, char *name) { void **entry; struct gotolabel *g; struct mapkey key; mapkey(&key, name, strlen(name)); entry = mapput(&f->gotos, &key); g = *entry; if (!g) { g = xmalloc(sizeof(*g)); g->label = mkblock(name); *entry = g; } return g; } static struct lvalue funclval(struct func *f, struct expr *e) { struct lvalue lval = {0}; struct decl *d; if (e->kind == EXPRBITFIELD) { lval.bits = e->u.bitfield.bits; e = e->base; } switch (e->kind) { case EXPRIDENT: d = e->u.ident.decl; if (d->kind != DECLOBJECT && d->kind != DECLFUNC) error(&tok.loc, "identifier '%s' is not an object or function", d->name); if (d == f->namedecl) { fputs("data ", stdout); emitname(d->value); printf(" = { b \"%s\", b 0 }\n", f->name); f->namedecl = NULL; } lval.addr = d->value; break; case EXPRSTRING: d = stringdecl(e); lval.addr = d->value; break; case EXPRCOMPOUND: if (e->toeval) funcexpr(f, e->toeval); d = e->u.compound.decl; funcinit(f, d, e->u.compound.init, true); lval.addr = d->value; break; case EXPRUNARY: if (e->op != TMUL) error(&tok.loc, "expression is not an object"); lval.addr = funcexpr(f, e->base); break; default: if (e->type->kind != TYPESTRUCT && e->type->kind != TYPEUNION) error(&tok.loc, "expression is not an object"); lval.addr = funcexpr(f, e); } return lval; } struct value * funcexpr(struct func *f, struct expr *e) { enum instkind op = INONE; struct decl *d; struct value *l, *r, *v, **argvals; struct lvalue lval; struct expr *arg; struct block *b[3]; struct type *t, *functype; size_t i; calcvla(f, e->type); switch (e->kind) { case EXPRIDENT: d = e->u.ident.decl; switch (d->kind) { case DECLOBJECT: return funcload(f, e->type, (struct lvalue){d->value}); case DECLCONST: return d->value; default: fatal("unimplemented declaration kind %d", d->kind); } break; case EXPRCONST: t = e->type; if (t->prop & PROPINT || t->kind == TYPEPOINTER) return mkintconst(e->u.constant.u); assert(t->prop & PROPFLOAT); return mkfltconst(t->size == 4 ? VALUE_FLTCONST : VALUE_DBLCONST, e->u.constant.f); case EXPRBITFIELD: case EXPRCOMPOUND: lval = funclval(f, e); return funcload(f, e->type, lval); case EXPRINCDEC: lval = funclval(f, e->base); l = funcload(f, e->base->type, lval); t = e->type; if (t->kind == TYPEPOINTER) { r = mkintconst(t->base->size); } else if (t->prop & PROPINT) { r = mkintconst(1); } else if (t->prop & PROPFLOAT) { r = mkfltconst(t->size == 4 ? VALUE_FLTCONST : VALUE_DBLCONST, 1); } else { fatal("not a scalar"); return NULL; /* unreachable */ } v = funcinst(f, e->op == TINC ? IADD : ISUB, qbetype(t).base, l, r); v = funcstore(f, e->type, e->qual, lval, v); return e->u.incdec.post ? l : v; case EXPRCALL: argvals = xreallocarray(NULL, e->u.call.nargs, sizeof(argvals[0])); for (arg = e->u.call.args, i = 0; arg; arg = arg->next, ++i) { emittype(arg->type); argvals[i] = funcexpr(f, arg); } t = e->type; emittype(t); v = funcinst(f, ICALL, qbetype(t).base, funcexpr(f, e->base), t->value); functype = e->base->type->base; for (arg = e->u.call.args, i = 0; arg; arg = arg->next, ++i) { if (functype->u.func.isvararg && i == functype->u.func.nparam) funcinst(f, IVARARG, 0, NULL, NULL); t = arg->type; funcinst(f, IARG, qbetype(t).base, argvals[i], t->value); } e = e->base; if (e->kind == EXPRUNARY && e->op == TBAND) { e = e->base; if (e->kind == EXPRIDENT && e->u.ident.decl->u.func.isnoreturn) funchlt(f); } return v; case EXPRUNARY: switch (e->op) { case TBAND: lval = funclval(f, e->base); return lval.addr; case TMUL: r = funcexpr(f, e->base); return funcload(f, e->type, (struct lvalue){r}); case TSUB: r = funcexpr(f, e->base); return funcinst(f, INEG, qbetype(e->type).base, r, NULL); } fatal("internal error; unknown unary expression"); break; case EXPRCAST: if (e->toeval) funcexpr(f, e->toeval); l = funcexpr(f, e->base); return convert(f, e->type, e->base->type, l); case EXPRBINARY: l = funcexpr(f, e->u.binary.l); if (e->op == TLOR || e->op == TLAND) { b[0] = mkblock("logic_right"); b[1] = mkblock("logic_join"); t = e->u.binary.l->type; if (e->op == TLOR) { funcjnz(f, l, t, b[1], b[0]); b[1]->phi.val[0] = mkintconst(1); } else { funcjnz(f, l, t, b[0], b[1]); b[1]->phi.val[0] = mkintconst(0); } b[1]->phi.blk[0] = f->end; funclabel(f, b[0]); r = funcexpr(f, e->u.binary.r); b[1]->phi.val[1] = convert(f, &typebool, e->u.binary.r->type, r); b[1]->phi.blk[1] = f->end; funclabel(f, b[1]); functemp(f, &b[1]->phi.res); b[1]->phi.class = 'w'; return &b[1]->phi.res; } r = funcexpr(f, e->u.binary.r); t = e->u.binary.l->type; if (t->kind == TYPEPOINTER) t = &typeulong; switch (e->op) { case TMUL: op = IMUL; break; case TDIV: op = !(t->prop & PROPINT) || t->u.basic.issigned ? IDIV : IUDIV; break; case TMOD: op = t->u.basic.issigned ? IREM : IUREM; break; case TADD: op = IADD; break; case TSUB: op = ISUB; break; case TSHL: op = ISHL; break; case TSHR: op = t->u.basic.issigned ? ISAR : ISHR; break; case TBOR: op = IOR; break; case TBAND: op = IAND; break; case TXOR: op = IXOR; break; case TLESS: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICLTS : t->u.basic.issigned ? ICSLTW : ICULTW; else op = t->prop & PROPFLOAT ? ICLTD : t->u.basic.issigned ? ICSLTL : ICULTL; break; case TGREATER: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICGTS : t->u.basic.issigned ? ICSGTW : ICUGTW; else op = t->prop & PROPFLOAT ? ICGTD : t->u.basic.issigned ? ICSGTL : ICUGTL; break; case TLEQ: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICLES : t->u.basic.issigned ? ICSLEW : ICULEW; else op = t->prop & PROPFLOAT ? ICLED : t->u.basic.issigned ? ICSLEL : ICULEL; break; case TGEQ: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICGES : t->u.basic.issigned ? ICSGEW : ICUGEW; else op = t->prop & PROPFLOAT ? ICGED : t->u.basic.issigned ? ICSGEL : ICUGEL; break; case TEQL: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICEQS : ICEQW; else op = t->prop & PROPFLOAT ? ICEQD : ICEQL; break; case TNEQ: if (t->size <= 4) op = t->prop & PROPFLOAT ? ICNES : ICNEW; else op = t->prop & PROPFLOAT ? ICNED : ICNEL; break; } if (op == INONE) fatal("internal error; unimplemented binary expression"); return funcinst(f, op, qbetype(e->type).base, l, r); case EXPRCOND: b[0] = mkblock("cond_true"); b[1] = mkblock("cond_false"); b[2] = mkblock("cond_join"); v = funcexpr(f, e->base); funcjnz(f, v, e->base->type, b[0], b[1]); funclabel(f, b[0]); b[2]->phi.val[0] = funcexpr(f, e->u.cond.t); b[2]->phi.blk[0] = f->end; funcjmp(f, b[2]); funclabel(f, b[1]); b[2]->phi.val[1] = funcexpr(f, e->u.cond.f); b[2]->phi.blk[1] = f->end; funclabel(f, b[2]); if (e->type == &typevoid) return NULL; functemp(f, &b[2]->phi.res); b[2]->phi.class = qbetype(e->type).base; return &b[2]->phi.res; case EXPRASSIGN: r = funcexpr(f, e->u.assign.r); if (e->u.assign.l->kind == EXPRTEMP) { e->u.assign.l->u.temp = r; } else { lval = funclval(f, e->u.assign.l); r = funcstore(f, e->u.assign.l->type, e->u.assign.l->qual, lval, r); } return r; case EXPRCOMMA: for (e = e->base; e->next; e = e->next) funcexpr(f, e); return funcexpr(f, e); case EXPRBUILTIN: switch (e->u.builtin.kind) { case BUILTINVASTART: l = funcexpr(f, e->base); funcinst(f, IVASTART, 0, l, NULL); break; case BUILTINVAARG: if (e->toeval) funcexpr(f, e->toeval); /* https://todo.sr.ht/~mcf/cproc/52 */ if (!(e->type->prop & PROPSCALAR)) error(&tok.loc, "va_arg with non-scalar type is not yet supported"); l = funcexpr(f, e->base); return funcinst(f, IVAARG, qbetype(e->type).base, l, NULL); case BUILTINALLOCA: l = funcexpr(f, e->base); return funcinst(f, IALLOC16, ptrclass, l, NULL); case BUILTINUNREACHABLE: return NULL; default: fatal("internal error: unimplemented builtin"); } return NULL; case EXPRTEMP: assert(e->u.temp); return e->u.temp; case EXPRSIZEOF: t = e->u.szof.type; assert(t->kind == TYPEARRAY); calcvla(f, t); /* if the sizeof operand has VLA type, we must evaluate it */ if (e->base) funcexpr(f, e->base); return t->u.array.size; } fatal("unimplemented expression %d", e->kind); return NULL; } static void zero(struct func *func, struct value *addr, int align, unsigned long long offset, unsigned long long end) { static const enum instkind store[] = { [1] = ISTOREB, [2] = ISTOREH, [4] = ISTOREW, [8] = ISTOREL, }; static struct value z = {.kind = VALUE_INTCONST}; struct value *tmp; int a = 1; while (offset < end) { if ((align - (offset & align - 1)) & a) { tmp = offset ? funcinst(func, IADD, ptrclass, addr, mkintconst(offset)) : addr; funcinst(func, store[a], 0, &z, tmp); offset += a; } if (a < align) a <<= 1; } } void funcinit(struct func *func, struct decl *d, struct init *init, bool hasinit) { struct lvalue dst; struct value *src, *v; unsigned long long offset = 0, max = 0; size_t i, w; funcalloc(func, d); if (!hasinit) return; for (; init; init = init->next) { zero(func, d->value, d->type->align, offset, init->start); dst.bits = init->bits; if (init->expr->kind == EXPRSTRING) { w = init->expr->type->base->size; for (i = 0; i < init->expr->u.string.size && i * w < init->end - init->start; ++i) { v = mkintconst(init->start + i * w); dst.addr = funcinst(func, IADD, ptrclass, d->value, v); switch (w) { case 1: v = mkintconst(((unsigned char *)init->expr->u.string.data)[i]); break; case 2: v = mkintconst(((uint_least16_t *)init->expr->u.string.data)[i]); break; case 4: v = mkintconst(((uint_least32_t *)init->expr->u.string.data)[i]); break; } funcstore(func, init->expr->type->base, QUALNONE, dst, v); } offset = init->start + i * w; } else { if (offset < init->end && (dst.bits.before || dst.bits.after)) zero(func, d->value, d->type->align, offset, init->end); dst.addr = d->value; /* QBE's memopt does not eliminate the store for ptr + 0, so only emit the add if the offset is non-zero */ if (init->start > 0) dst.addr = funcinst(func, IADD, ptrclass, dst.addr, mkintconst(init->start)); src = funcexpr(func, init->expr); funcstore(func, init->expr->type, QUALNONE, dst, src); offset = init->end; } if (max < offset) max = offset; } zero(func, d->value, d->type->align, max, d->type->size); } static void casesearch(struct func *f, int class, struct value *v, struct switchcase *c, struct block *defaultlabel) { struct value *res, *key; struct block *label[3]; if (!c) { funcjmp(f, defaultlabel); return; } label[0] = mkblock("switch_ne"); label[1] = mkblock("switch_lt"); label[2] = mkblock("switch_gt"); /* XXX: linear search if c->node.height < 4 */ key = mkintconst(c->node.key); res = funcinst(f, class == 'w' ? ICEQW : ICEQL, 'w', v, key); funcjnz(f, res, NULL, c->body, label[0]); funclabel(f, label[0]); res = funcinst(f, class == 'w' ? ICULTW : ICULTL, 'w', v, key); funcjnz(f, res, NULL, label[1], label[2]); funclabel(f, label[1]); casesearch(f, class, v, c->node.child[0], defaultlabel); funclabel(f, label[2]); casesearch(f, class, v, c->node.child[1], defaultlabel); } void funcswitch(struct func *f, struct value *v, struct switchcases *c, struct block *defaultlabel) { casesearch(f, qbetype(c->type).base, v, c->root, defaultlabel); } /* emit */ static void emitname(struct value *v) { static const char sigil[] = { [VALUE_TEMP] = '%', [VALUE_GLOBAL] = '$', [VALUE_TYPE] = ':', [VALUE_LABEL] = '@', }; int kind; kind = v->kind & 0xf; if (kind >= LEN(sigil) || !sigil[kind]) fatal("invalid value"); putchar(sigil[kind]); if (kind == VALUE_GLOBAL && v->id) fputs(".L", stdout); if (v->u.name) fputs(v->u.name, stdout); if (v->id) printf(".%u", v->id); } static void emitvalue(struct value *v) { switch (v->kind & 0xf) { case VALUE_INTCONST: printf("%llu", v->u.i); break; case VALUE_FLTCONST: printf("s_%.17g", v->u.f); break; case VALUE_DBLCONST: printf("d_%.17g", v->u.f); break; case VALUE_GLOBAL: if (v->kind & VALUE_THREAD) fputs("thread ", stdout); /* fallthrough */ default: emitname(v); break; } } static void emitclass(int class, struct value *v) { if (v && v->kind == VALUE_TYPE) emitname(v); else if (class) putchar(class); else fatal("type has no QBE representation"); } /* XXX: need to consider _Alignas on struct members */ static void emittype(struct type *t) { static unsigned id; struct member *m, *other; struct type *sub; unsigned long long off; if (t->value || t->kind != TYPESTRUCT && t->kind != TYPEUNION) return; t->value = xmalloc(sizeof(*t->value)); t->value->kind = VALUE_TYPE; t->value->u.name = t->u.structunion.tag; t->value->id = ++id; for (m = t->u.structunion.members; m; m = m->next) { for (sub = m->type; sub->kind == TYPEARRAY; sub = sub->base) ; emittype(sub); } fputs("type ", stdout); emitname(t->value); if (t == targ->typevalist) { printf(" = align %d { %llu }\n", t->align, t->size); return; } fputs(" = { ", stdout); for (m = t->u.structunion.members, off = 0; m;) { if (t->kind == TYPESTRUCT) { /* look for a subsequent member with a larger storage unit */ for (other = m->next; other; other = other->next) { if (other->offset >= ALIGNUP(m->offset + 1, 8)) break; if (other->offset <= m->offset) m = other; } off = m->offset + m->type->size; } else { fputs("{ ", stdout); } for (sub = m->type; sub->kind == TYPEARRAY; sub = sub->base) ; emitclass(qbetype(sub).data, sub->value); if (m->type->size > sub->size) printf(" %llu", m->type->size / sub->size); if (t->kind == TYPESTRUCT) { fputs(", ", stdout); /* skip subsequent members contained within the same storage unit */ do m = m->next; while (m && m->offset < off); } else { fputs(" } ", stdout); m = m->next; } } puts("}"); } static struct inst ** emitinst(struct inst **instp, struct inst **instend) { int op, first; struct inst *inst = *instp; putchar('\t'); assert(inst->kind < LEN(instname)); if (inst->res.kind) { emitvalue(&inst->res); fputs(" =", stdout); emitclass(inst->class, inst->arg[1]); putchar(' '); } fputs(instname[inst->kind], stdout); putchar(' '); emitvalue(inst->arg[0]); ++instp; op = inst->kind; switch (op) { case ICALL: putchar('('); for (first = 1; instp != instend; ++instp) { inst = *instp; if (inst->kind == IVARARG) { fputs(", ...", stdout); continue; } if (inst->kind != IARG) break; if (first) first = 0; else fputs(", ", stdout); emitclass(inst->class, inst->arg[1]); putchar(' '); emitvalue(inst->arg[0]); } putchar(')'); break; default: if (inst->arg[1]) { fputs(", ", stdout); emitvalue(inst->arg[1]); } } putchar('\n'); return instp; } static void emitjump(struct jump *j) { switch (j->kind) { case JUMP_NONE: break; case JUMP_RET: fputs("\tret", stdout); if (j->arg) { fputc(' ', stdout); emitvalue(j->arg); } putchar('\n'); break; case JUMP_JMP: fputs("\tjmp ", stdout); emitname(&j->blk[0]->label); putchar('\n'); break; case JUMP_JNZ: fputs("\tjnz ", stdout); emitvalue(j->arg); fputs(", ", stdout); emitname(&j->blk[0]->label); fputs(", ", stdout); emitname(&j->blk[1]->label); putchar('\n'); break; case JUMP_HLT: fputs("\thlt\n", stdout); break; default: assert(0); } } void emitfunc(struct func *f, bool global) { struct block *b; struct inst **inst, **instend; struct decl *p; struct value *v; if (f->end->jump.kind == JUMP_NONE) { v = NULL; /* implicitly return 0 from main if we reach the end of the function */ if (strcmp(f->name, "main") == 0 && f->type->base == &typeint) v = mkintconst(0); funcret(f, v); } if (global) puts("export"); fputs("function ", stdout); if (f->type->base != &typevoid) { emitclass(qbetype(f->type->base).base, f->type->base->value); putchar(' '); } emitname(f->decl->value); putchar('('); for (p = f->type->u.func.params, v = f->paramtemps; p; p = p->next, ++v) { if (p != f->type->u.func.params) fputs(", ", stdout); emitclass(qbetype(p->type).base, p->type->value); putchar(' '); emitname(v); } if (f->type->u.func.isvararg) { if (f->type->u.func.params) fputs(", ", stdout); fputs("...", stdout); } puts(") {"); for (b = f->start; b; b = b->next) { emitname(&b->label); putchar('\n'); if (b->phi.res.kind) { putchar('\t'); emitvalue(&b->phi.res); printf(" =%c phi ", b->phi.class); emitname(&b->phi.blk[0]->label); putchar(' '); emitvalue(b->phi.val[0]); fputs(", ", stdout); emitname(&b->phi.blk[1]->label); putchar(' '); emitvalue(b->phi.val[1]); putchar('\n'); } instend = (struct inst **)((char *)b->insts.val + b->insts.len); for (inst = b->insts.val; inst != instend;) inst = emitinst(inst, instend); emitjump(&b->jump); } puts("}"); } static void dataitem(struct expr *expr, unsigned long long size) { struct decl *decl; size_t i, w; unsigned c; switch (expr->kind) { case EXPRUNARY: if (expr->op != TBAND) fatal("not a address expr"); expr = expr->base; if (expr->kind != EXPRIDENT) error(&tok.loc, "initializer is not a constant expression"); decl = expr->u.ident.decl; if (decl->kind == DECLOBJECT && decl->u.obj.storage != SDSTATIC) error(&tok.loc, "initializer is not a constant expression"); emitname(decl->value); break; case EXPRBINARY: if (expr->op != TADD || expr->u.binary.l->kind != EXPRUNARY || expr->u.binary.r->kind != EXPRCONST) error(&tok.loc, "initializer is not a constant expression"); dataitem(expr->u.binary.l, 0); fputs(" + ", stdout); dataitem(expr->u.binary.r, 0); break; case EXPRCONST: if (expr->type->prop & PROPFLOAT) printf("%c_%.17g", expr->type->size == 4 ? 's' : 'd', expr->u.constant.f); else printf("%llu", expr->u.constant.u); break; case EXPRSTRING: w = expr->type->base->size; if (w == 1) { fputc('"', stdout); for (i = 0; i < expr->u.string.size && i < size; ++i) { c = ((unsigned char *)expr->u.string.data)[i]; if (isprint(c) && c != '"' && c != '\\') putchar(c); else printf("\\%03o", c); } fputc('"', stdout); } else { for (i = 0; i < expr->u.string.size && i * w < size; ++i) { switch (w) { case 2: printf("%" PRIuLEAST16 " ", ((uint_least16_t *)expr->u.string.data)[i]); break; case 4: printf("%" PRIuLEAST32 " ", ((uint_least32_t *)expr->u.string.data)[i]); break; default: assert(0); } } } if (i * w < size) printf(", z %llu", size - (unsigned long long)i * w); break; default: error(&tok.loc, "initializer is not a constant expression"); } } void emitdata(struct decl *d, struct init *init) { struct init *cur; struct type *t; unsigned long long offset = 0, start, end, bits = 0; size_t i; int align; align = d->u.obj.align; for (cur = init; cur; cur = cur->next) cur->expr = eval(cur->expr); if (d->u.obj.storage == SDTHREAD) fputs("thread ", stdout); if (d->linkage == LINKEXTERN) fputs("export ", stdout); fputs("data ", stdout); emitname(d->value); printf(" = align %d { ", align); while (init) { cur = init; while ((init = init->next) && init->start * 8 + init->bits.before < cur->end * 8 - cur->bits.after) { /* XXX: Currently, if multiple union members are initialized, these assertions may not hold. (https://todo.sr.ht/~mcf/cproc/38) */ assert(cur->expr->kind == EXPRSTRING); assert(init->expr->kind == EXPRCONST); i = (init->start - cur->start) / cur->expr->type->base->size; switch (cur->expr->type->base->size) { case 1: ((unsigned char *)cur->expr->u.string.data)[i] = init->expr->u.constant.u; break; case 2: ((uint_least16_t *)cur->expr->u.string.data)[i] = init->expr->u.constant.u; break; case 4: ((uint_least32_t *)cur->expr->u.string.data)[i] = init->expr->u.constant.u; break; } } start = cur->start + cur->bits.before / 8; end = cur->end - (cur->bits.after + 7) / 8; if (offset < start && bits) { printf("b %u, ", (unsigned)bits); /* unfinished byte from previous bit-field */ ++offset; bits = 0; } if (offset < start) printf("z %llu, ", start - offset); if (cur->bits.before || cur->bits.after) { /* little-endian target specific */ assert(cur->expr->type->prop & PROPINT); assert(cur->expr->kind == EXPRCONST); bits |= cur->expr->u.constant.u << cur->bits.before % 8; for (offset = start; offset < end; ++offset, bits >>= 8) printf("b %u, ", (unsigned)bits & 0xff); /* clear the upper `after` bits in the last byte, or all bits when `after` is 0 (we ended on a byte boundary). */ bits &= 0x7f >> (cur->bits.after + 7) % 8; } else { t = cur->expr->type; if (t->kind == TYPEARRAY) t = t->base; printf("%c ", qbetype(t).data); dataitem(cur->expr, cur->end - cur->start); fputs(", ", stdout); } offset = end; } if (bits) { printf("b %u, ", (unsigned)bits); ++offset; } assert(offset <= d->type->size); if (offset < d->type->size) printf("z %llu ", d->type->size - offset); puts("}"); }