#include #include #include #include "util.h" #include "cc.h" static void binary(struct expr *expr, enum tokenkind op, struct expr *l, struct expr *r) { expr->kind = EXPRCONST; #define F (1<<8) #define S (2<<8) if (typeprop(l->type) & PROPFLOAT) op |= F; else if (l->type->basic.issigned) op |= S; switch (op) { case TMUL: case TMUL|S: expr->constant.i = l->constant.i * r->constant.i; break; case TMUL|F: expr->constant.f = l->constant.f * r->constant.f; break; case TDIV: expr->constant.i = l->constant.i / r->constant.i; break; case TDIV|S: expr->constant.i = (int64_t)l->constant.i / (int64_t)r->constant.i; break; case TDIV|F: expr->constant.f = l->constant.f / r->constant.f; break; case TMOD: expr->constant.i = l->constant.i % r->constant.i; break; case TMOD|S: expr->constant.i = (int64_t)l->constant.i % (int64_t)r->constant.i; break; case TADD: case TADD|S: expr->constant.i = l->constant.i + r->constant.i; break; case TADD|F: expr->constant.f = l->constant.f + r->constant.f; break; case TSUB: case TSUB|S: expr->constant.i = l->constant.i - r->constant.i; break; case TSUB|F: expr->constant.f = l->constant.f - r->constant.f; break; case TSHL: case TSHL|S: expr->constant.i = l->constant.i << r->constant.i; break; case TSHR: expr->constant.i = l->constant.i >> r->constant.i; break; case TSHR|S: expr->constant.i = (int64_t)l->constant.i >> r->constant.i; break; case TBAND: case TBAND|S: expr->constant.i = l->constant.i & r->constant.i; break; case TBOR: case TBOR|S: expr->constant.i = l->constant.i | r->constant.i; break; case TXOR: case TXOR|S: expr->constant.i = l->constant.i ^ r->constant.i; break; case TLESS: expr->constant.i = l->constant.i < r->constant.i; break; case TLESS|S: expr->constant.i = (int64_t)l->constant.i < (int64_t)r->constant.i; break; case TLESS|F: expr->constant.i = l->constant.f < r->constant.f; break; case TGREATER: expr->constant.i = l->constant.i > r->constant.i; break; case TGREATER|S: expr->constant.i = (int64_t)l->constant.i > (int64_t)r->constant.i; break; case TGREATER|F: expr->constant.i = l->constant.f > r->constant.f; break; case TLEQ: expr->constant.i = l->constant.i <= r->constant.i; break; case TLEQ|S: expr->constant.i = (int64_t)l->constant.i <= (int64_t)r->constant.i; break; case TLEQ|F: expr->constant.i = l->constant.f <= r->constant.f; break; case TGEQ: expr->constant.i = l->constant.i >= r->constant.i; break; case TGEQ|S: expr->constant.i = (int64_t)l->constant.i >= (int64_t)r->constant.i; break; case TGEQ|F: expr->constant.i = l->constant.f >= r->constant.f; break; case TEQL: case TEQL|S: expr->constant.i = l->constant.i == r->constant.i; break; case TEQL|F: expr->constant.i = l->constant.f == r->constant.f; break; case TNEQ: case TNEQ|S: expr->constant.i = l->constant.i != r->constant.i; break; case TNEQ|F: expr->constant.i = l->constant.f != r->constant.f; break; default: fatal("internal error; unknown binary expression"); } #undef F #undef S } struct expr * eval(struct expr *expr) { struct expr *l, *r, *c; struct decl *d; switch (expr->kind) { case EXPRIDENT: if (expr->ident.decl->kind != DECLCONST) break; expr->kind = EXPRCONST; expr->constant.i = intconstvalue(expr->ident.decl->value); break; case EXPRCOMPOUND: d = mkdecl(DECLOBJECT, expr->type, LINKNONE); d->value = mkglobal(NULL, true); emitdata(d, expr->compound.init); expr->kind = EXPRIDENT; expr->ident.decl = d; break; case EXPRUNARY: l = eval(expr->unary.base); if (expr->unary.op != TBAND) break; switch (l->kind) { case EXPRUNARY: if (l->unary.op == TMUL) expr = eval(l->unary.base); break; case EXPRSTRING: l->ident.decl = stringdecl(l); l->kind = EXPRIDENT; expr->unary.base = l; break; } break; case EXPRCAST: l = eval(expr->cast.e); if (l->kind == EXPRCONST) { expr->kind = EXPRCONST; if (typeprop(l->type) & PROPINT && typeprop(expr->type) & PROPFLOAT) expr->constant.f = l->constant.i; else if (typeprop(l->type) & PROPFLOAT && typeprop(expr->type) & PROPINT) expr->constant.i = l->constant.f; else expr->constant = l->constant; } else if (l->type->kind == TYPEPOINTER && expr->type->kind == TYPEPOINTER) { expr = l; } break; case EXPRBINARY: l = eval(expr->binary.l); r = eval(expr->binary.r); expr->binary.l = l; expr->binary.r = r; switch (expr->binary.op) { case TADD: if (r->kind == EXPRBINARY) c = l, l = r, r = c; if (r->kind != EXPRCONST) break; if (l->kind == EXPRCONST) { binary(expr, expr->binary.op, l, r); } else if (l->kind == EXPRBINARY && l->type->kind == TYPEPOINTER && l->binary.r->kind == EXPRCONST) { if (l->binary.op == TADD || l->binary.op == TSUB) { /* (P ± C1) + C2 -> P + (C2 ± C1) */ expr->binary.l = l->binary.l; binary(expr->binary.r, l->binary.op, r, l->binary.r); } } break; /* TODO: TSUB pointer handling */ case TLOR: if (l->kind != EXPRCONST) break; return l->constant.i ? l : r; case TLAND: if (l->kind != EXPRCONST) break; return l->constant.i ? r : l; default: if (l->kind != EXPRCONST || r->kind != EXPRCONST) break; binary(expr, expr->binary.op, l, r); } break; case EXPRCOND: l = expr->cond.t; r = expr->cond.f; c = eval(expr->cond.e); if (c->kind != EXPRCONST) break; return eval(c->constant.i ? l : r); } return expr; }