ref: 00c219c7d9c2b9f60c2db0e1ba7289b2301209a7
dir: /utils/c2l/scon.c/
#include "cc.h" void evconst(Node *n) { Node *l, *r; int et, isf; vlong v; double d; if(n == Z || n->type == T) return; et = n->type->etype; isf = typefd[et]; l = n->left; r = n->right; d = 0; v = 0; switch(n->op) { default: return; case OCAST: if(et == TVOID) return; et = l->type->etype; if(isf) { if(typefd[et]) d = l->fconst; else d = l->vconst; } else { if(typefd[et]) v = l->fconst; else v = convvtox(l->vconst, n->type->etype); } break; case OCONST: break; case OADD: if(isf) d = l->fconst + r->fconst; else { v = l->vconst + r->vconst; } break; case OSUB: if(isf) d = l->fconst - r->fconst; else v = l->vconst - r->vconst; break; case OMUL: if(isf) d = l->fconst * r->fconst; else { v = l->vconst * r->vconst; } break; case OLMUL: v = (uvlong)l->vconst * (uvlong)r->vconst; break; case ODIV: if(vconst(r) == 0) { warn(n, "divide by zero"); return; } if(isf) d = l->fconst / r->fconst; else v = l->vconst / r->vconst; break; case OLDIV: if(vconst(r) == 0) { warn(n, "divide by zero"); return; } v = (uvlong)l->vconst / (uvlong)r->vconst; break; case OMOD: if(vconst(r) == 0) { warn(n, "modulo by zero"); return; } v = l->vconst % r->vconst; break; case OLMOD: if(vconst(r) == 0) { warn(n, "modulo by zero"); return; } v = (uvlong)l->vconst % (uvlong)r->vconst; break; case OAND: v = l->vconst & r->vconst; break; case OOR: v = l->vconst | r->vconst; break; case OXOR: v = l->vconst ^ r->vconst; break; case OLSHR: v = (uvlong)l->vconst >> r->vconst; break; case OASHR: v = l->vconst >> r->vconst; break; case OASHL: v = l->vconst << r->vconst; break; case OLO: v = (uvlong)l->vconst < (uvlong)r->vconst; break; case OLT: if(typefd[l->type->etype]) v = l->fconst < r->fconst; else v = l->vconst < r->vconst; break; case OHI: v = (uvlong)l->vconst > (uvlong)r->vconst; break; case OGT: if(typefd[l->type->etype]) v = l->fconst > r->fconst; else v = l->vconst > r->vconst; break; case OLS: v = (uvlong)l->vconst <= (uvlong)r->vconst; break; case OLE: if(typefd[l->type->etype]) v = l->fconst <= r->fconst; else v = l->vconst <= r->vconst; break; case OHS: v = (uvlong)l->vconst >= (uvlong)r->vconst; break; case OGE: if(typefd[l->type->etype]) v = l->fconst >= r->fconst; else v = l->vconst >= r->vconst; break; case OEQ: if(typefd[l->type->etype]) v = l->fconst == r->fconst; else v = l->vconst == r->vconst; break; case ONE: if(typefd[l->type->etype]) v = l->fconst != r->fconst; else v = l->vconst != r->vconst; break; case ONOT: if(typefd[l->type->etype]) v = !l->fconst; else v = !l->vconst; break; case OANDAND: if(typefd[l->type->etype]) v = l->fconst && r->fconst; else v = l->vconst && r->vconst; break; case OOROR: if(typefd[l->type->etype]) v = l->fconst || r->fconst; else v = l->vconst || r->vconst; break; case OPOS: if(isf) d = l->fconst; else v = l->vconst; break; case ONEG: if(isf) d = -l->fconst; else v = -l->vconst; break; case OCOM: if(typefd[l->type->etype]) v = 0; /* ~l->fconst */ else v = ~l->vconst; break; } n->left = ncopy(n); n->op = OCONST; /* n->left = Z; */ n->right = Z; if(isf) { n->fconst = d; } else { n->vconst = convvtox(v, n->type->etype); } } void acom(Node *n) { USED(n); }