CCodeMisc *OptLabelFwd(CCodeMisc *lb) { CCodeMisc *lb1; while (lb1=lb->fwd) lb=lb1; return lb; } CHashClass *OptClassFwd(CHashClass *tmpc) {//Class forwarding for unions and subclasses. CHashClass *tmpc1; while (tmpc1=tmpc->fwd_class) tmpc=tmpc1; return tmpc; } U0 OptSetNOP1(CIntermediateCode *tmpi) { tmpi->ic_code=IC_NOP1; tmpi->ic_flags=0; tmpi->arg1.type=MDF_NULL+tmpi->arg1.type.raw_type; tmpi->res.type =MDF_NULL+tmpi->res.type.raw_type; } U0 OptSetNOP2(CIntermediateCode *tmpi,I64 stk_delta=1) { tmpi->ic_code=IC_NOP2; tmpi->ic_data=stk_delta; tmpi->arg1.type=MDF_NULL+tmpi->arg1.type.raw_type; tmpi->res.type =MDF_NULL+tmpi->res.type.raw_type; } CIntermediateCode *OptFree(CIntermediateCode *tmpi) {//We might access freed entries in CICTreeLinks QueRem(tmpi); Free(tmpi); return NULL; } CIntermediateCode *OptLag(CIntermediateCode *tmpi) { do { if (!tmpi->ic_code) return NULL; else tmpi=tmpi->last; } while (tmpi->ic_code<=IC_END_EXP); return tmpi; } CIntermediateCode *OptLag1(CIntermediateCode *tmpi) { do { if (!tmpi->ic_code) return NULL; else tmpi=tmpi->last; } while (tmpi->ic_code==IC_NOP1||tmpi->ic_code==IC_NOP2); return tmpi; } CIntermediateCode *OptLag2(CIntermediateCode *tmpi) { do { if (!tmpi->ic_code) return NULL; else tmpi=tmpi->last; } while (tmpi->ic_codenext; if (!tmpi->ic_code) return NULL; } while (tmpi->ic_code==IC_NOP1||tmpi->ic_code==IC_NOP2); return tmpi; } I64 CmpOffset2Reg(I64 offset,COptReg *reg_offsets) { I64 i; for (i=0;iic_class,*tmpc1,*tmpc2; if (tmpi1->ic_flags&ICF_RES_TO_INT) tmpc1=cmp.internal_types[RT_I64]; else if (tmpi1->ic_flags&ICF_RES_TO_F64) tmpc1=cmp.internal_types[RT_F64]; else { tmpc1=OptClassFwd(tmpi1->ic_class); } if (tmpi2->ic_flags&ICF_RES_TO_INT) tmpc2=cmp.internal_types[RT_I64]; else if (tmpi2->ic_flags&ICF_RES_TO_F64) tmpc2=cmp.internal_types[RT_F64]; else { tmpc2=OptClassFwd(tmpi2->ic_class); } if (tmpc1->raw_type>tmpc2->raw_type) tmpc=tmpi->ic_class=tmpc1; else tmpc=tmpi->ic_class=tmpc2; if (tmpc->raw_type==RT_F64) { if (tmpi1->ic_code==IC_IMM_I64) { tmpi1->ic_data(F64)=tmpi1->ic_data; tmpi1->ic_class=cmp.internal_types[RT_F64]; tmpi1->ic_code=IC_IMM_F64; tmpi1->ic_flags&=~ICF_RES_TO_F64; } else if (tmpc1->raw_type!=RT_F64) tmpi1->ic_flags|=ICF_RES_TO_F64; if (tmpi2->ic_code==IC_IMM_I64) { tmpi2->ic_data(F64)=tmpi2->ic_data; tmpi2->ic_class=cmp.internal_types[RT_F64]; tmpi2->ic_code=IC_IMM_F64; tmpi2->ic_flags&=~ICF_RES_TO_F64; } else if (tmpc2->raw_type!=RT_F64) tmpi2->ic_flags|=ICF_RES_TO_F64; if (IC_LESS<=tmpi->ic_code<=IC_GREATER_EQU && (tmpii=OptLead1(tmpi)) && tmpii->ic_code!=IC_PUSH_CMP && tmpii->ic_code!=IC_AND_AND) { //We are looking for float comparisons to zero to convert to int. if (tmpi1->ic_code==IC_IMM_F64 && !tmpi1->ic_data && tmpi2->ic_code==IC_DEREF && tmpc2==cmp.internal_types[RT_F64]) { tmpi1->ic_code==IC_IMM_I64; goto fb_here1; } else if (tmpi2->ic_code==IC_IMM_F64 && !tmpi2->ic_data && tmpi1->ic_code==IC_DEREF && tmpc1==cmp.internal_types[RT_F64]) { tmpi2->ic_code==IC_IMM_I64; fb_here1: tmpi1->ic_flags&=~ICF_RES_TO_F64; tmpi->ic_class=tmpi1->ic_class=tmpi2->ic_class= cmp.internal_types[RT_I64]; *is_unsigned=FALSE; return FBO1_NOT_CONST; } goto fb_here2; } else { fb_here2: if (tmpi1->ic_code==IC_IMM_F64 && tmpi2->ic_code==IC_IMM_F64 && !(tmpi->ic_flags&(ICF_PUSH_CMP|ICF_POP_CMP))) { tmpi->ic_flags|=tmpi1->ic_flags|tmpi2->ic_flags; OptSetNOP1(tmpi1); OptSetNOP1(tmpi2); return FBO1_F64; } else return FBO1_NOT_CONST; } } *is_unsigned=tmpc1->raw_type&RTF_UNSIGNED || tmpc2->raw_type&RTF_UNSIGNED; if (tmpi1->ic_code==IC_IMM_I64 && tmpi2->ic_code==IC_IMM_I64 && !(tmpi->ic_flags&(ICF_PUSH_CMP|ICF_POP_CMP))) { tmpi->ic_flags|=tmpi1->ic_flags|tmpi2->ic_flags; OptSetNOP1(tmpi1); OptSetNOP1(tmpi2); return FBO1_INT; } else return FBO1_NOT_CONST; } Bool OptFixupBinaryOp2(CIntermediateCode **tmpi1,CIntermediateCode **tmpi2) { CIntermediateCode *tmpii1=*tmpi1, *tmpii2=*tmpi2; if (tmpii1->ic_code==IC_IMM_I64 && !(tmpii1->ic_flags & ICF_RES_TO_F64)) return TRUE; if (tmpii2->ic_code==IC_IMM_I64 && !(tmpii2->ic_flags & ICF_RES_TO_F64)) { *tmpi1=tmpii2; *tmpi2=tmpii1; return TRUE; } return FALSE; } Bool OptFixupUnaryOp(CIntermediateCode *tmpi, CIntermediateCode *tmpi1, Bool *is_unsigned) { CHashClass *tmpc,*tmpc1; tmpc1=OptClassFwd(tmpi1->ic_class); tmpi->ic_class=tmpc1; tmpc=tmpi->ic_class; if (tmpc->raw_type==RT_F64) { if (tmpi1->ic_code==IC_IMM_I64) { tmpi1->ic_data(F64)=tmpi1->ic_data; tmpi1->ic_class=cmp.internal_types[RT_F64]; tmpi1->ic_code=IC_IMM_F64; tmpi1->ic_flags&=~ICF_RES_TO_F64; } else if (tmpc1->raw_type!=RT_F64) tmpi1->ic_flags|=ICF_RES_TO_F64; if (tmpi1->ic_code==IC_IMM_F64) { tmpi->ic_flags|=tmpi1->ic_flags; OptSetNOP1(tmpi1); return FBO1_F64; } else return FBO1_NOT_CONST; } *is_unsigned=tmpc1->raw_type&RTF_UNSIGNED; if (tmpi1->ic_code==IC_IMM_I64) { tmpi->ic_flags|=tmpi1->ic_flags; OptSetNOP1(tmpi1); return FBO1_INT; } else return FBO1_NOT_CONST; } extern CIntermediateCode *OptBrNotZero(CCmpCtrl *cc,CIntermediateCode *tmpi); CIntermediateCode *OptBrZero(CCmpCtrl *cc,CIntermediateCode *tmpi) { CCodeMisc *lb_true,*lb_false; CIntermediateCode *tmpii=OptLag(tmpi),*tmpii2; switch (tmpii->ic_code) { case IC_NOT: tmpi->ic_code=IC_BR_NOT_ZERO; tmpi->ic_class=tmpii->ic_class; tmpi->ic_flags|=tmpii->ic_flags; tmpi->t.arg1_class=tmpii->t.arg1_class; tmpi->t.arg1_tree=tmpii->t.arg1_tree; OptFree(tmpii); return OptBrNotZero(cc,tmpi); case IC_EQU_EQU...IC_LESS_EQU: tmpi->ic_code=(tmpii->ic_code-IC_EQU_EQU)^1+IC_BR_EQU_EQU; break; case IC_OR_OR: tmpi->ic_code=IC_BR_OR_OR_ZERO; break; case IC_AND_AND: tmpi->ic_code=IC_BR_AND_AND_ZERO; break; case IC_AND: tmpi->ic_code=IC_BR_AND_ZERO; break; case IC_MM_: if (cc->pass==2 && !(tmpii->ic_flags&ICF_RES_TO_F64) && tmpii->ic_class->raw_type!=RT_F64) tmpi->ic_code=IC_BR_MM_ZERO; break; case IC_CALL_END: tmpii2=OptLag(tmpii); switch (tmpii2->ic_code) { start: case IC_CARRY: tmpii2->ic_code=IC_BR_NOT_CARRY; break; case IC_BT: tmpii2->ic_code=IC_BR_NOT_BT; break; case IC_LBTS: tmpii2->ic_flags|=ICF_LOCK; case IC_BTS: tmpii2->ic_code=IC_BR_NOT_BTS; break; case IC_LBTR: tmpii2->ic_flags|=ICF_LOCK; case IC_BTR: tmpii2->ic_code=IC_BR_NOT_BTR; break; case IC_LBTC: tmpii2->ic_flags|=ICF_LOCK; case IC_BTC: tmpii2->ic_code=IC_BR_NOT_BTC; break; end: tmpii2->ic_data=tmpi->ic_data; tmpii->ic_code=IC_CALL_END2; OptSetNOP1(tmpi); return tmpii; } break; } if (tmpi->ic_code!=IC_BR_ZERO) { tmpi->ic_class=tmpii->ic_class; tmpi->ic_flags|=tmpii->ic_flags; tmpi->t.arg1_class=tmpii->t.arg1_class; tmpi->t.arg2_class=tmpii->t.arg2_class; tmpi->t.arg1_tree=tmpii->t.arg1_tree; tmpi->t.arg2_tree=tmpii->t.arg2_tree; OptFree(tmpii); if (tmpi->ic_flags&ICF_PUSH_CMP && IC_BR_NOT_EQU<=tmpi->ic_code<=IC_BR_LESS_EQU && !(tmpi->ic_flags&ICF_USE_F64)) { tmpi->ic_code+=IC_BR_EQU_EQU2-IC_BR_EQU_EQU; tmpi->ic_flags&=~ICF_PUSH_CMP; tmpii=tmpi->next; //IC_PUSH_CMP inst while (tmpii->ic_code!=IC_PUSH_CMP) tmpii=tmpii->next; tmpii->t.arg1_tree=tmpi; OptSetNOP1(tmpii); } lb_true=tmpi->ic_data; if (tmpi->ic_code==IC_BR_AND_AND_ZERO) { tmpii=tmpi->t.arg1_tree->next; tmpii->ic_data=lb_true; tmpii->t.arg1_tree=tmpi->t.arg1_tree; tmpii->t.arg1_class=tmpi->t.arg1_class; tmpii->ic_code=IC_BR_ZERO; OptBrZero(cc,tmpii); tmpii=tmpi->t.arg2_tree->next; tmpii->t.arg1_tree=tmpi->t.arg2_tree; tmpii->t.arg1_class=tmpi->t.arg2_class; tmpii->ic_data=lb_true; tmpii->ic_code=IC_BR_ZERO; tmpii=OptBrZero(cc,tmpii); OptSetNOP1(tmpi); } else if (tmpi->ic_code==IC_BR_OR_OR_ZERO) { lb_false=COCMiscNew(cc,CMT_LABEL); tmpi->ic_code=IC_LABEL; tmpi->ic_flags=0; tmpi->ic_data=lb_false; tmpii=tmpi->t.arg1_tree->next; tmpii->t.arg1_tree=tmpi->t.arg1_tree; tmpii->t.arg1_class=tmpi->t.arg1_class; tmpii->ic_data=lb_false; tmpii->ic_code=IC_BR_NOT_ZERO; OptBrNotZero(cc,tmpii); tmpii=tmpi->t.arg2_tree->next; tmpii->t.arg1_tree=tmpi->t.arg2_tree; tmpii->t.arg1_class=tmpi->t.arg2_class; tmpii->ic_data=lb_true; tmpii->ic_code=IC_BR_ZERO; tmpii=OptBrZero(cc,tmpii); } else tmpii=tmpi; if (tmpi->ic_flags&ICF_POP_CMP && tmpi->t.arg1_tree->ic_code==IC_NOP1) { tmpi->t.arg1_tree=tmpi->t.arg1_tree->t.arg1_tree; tmpi->ic_flags&=~ICF_POP_CMP; } return tmpii; } return tmpi; } CIntermediateCode *OptBrNotZero(CCmpCtrl *cc,CIntermediateCode *tmpi) { CCodeMisc *lb_true,*lb_false; CIntermediateCode *tmpii=OptLag(tmpi),*tmpii2; switch (tmpii->ic_code) { case IC_NOT: tmpi->ic_code=IC_BR_ZERO; tmpi->ic_class=tmpii->ic_class; tmpi->ic_flags|=tmpii->ic_flags; tmpi->t.arg1_class=tmpii->t.arg1_class; tmpi->t.arg1_tree=tmpii->t.arg1_tree; OptFree(tmpii); return OptBrZero(cc,tmpi); case IC_EQU_EQU...IC_LESS_EQU: tmpi->ic_code=tmpii->ic_code+IC_BR_EQU_EQU-IC_EQU_EQU; break; case IC_OR_OR: tmpi->ic_code=IC_BR_OR_OR_NOT_ZERO; break; case IC_AND_AND: tmpi->ic_code=IC_BR_AND_AND_NOT_ZERO; break; case IC_AND: tmpi->ic_code=IC_BR_AND_NOT_ZERO; break; case IC_MM_: if (cc->pass==2 && !(tmpii->ic_flags&ICF_RES_TO_F64) && tmpii->ic_class->raw_type!=RT_F64) tmpi->ic_code=IC_BR_MM_NOT_ZERO; break; case IC_CALL_END: tmpii2=OptLag(tmpii); switch (tmpii2->ic_code) { start: case IC_CARRY: tmpii2->ic_code=IC_BR_CARRY; break; case IC_BT: tmpii2->ic_code=IC_BR_BT; break; case IC_LBTS: tmpii2->ic_flags|=ICF_LOCK; case IC_BTS: tmpii2->ic_code=IC_BR_BTS; break; case IC_LBTR: tmpii2->ic_flags|=ICF_LOCK; case IC_BTR: tmpii2->ic_code=IC_BR_BTR; break; case IC_LBTC: tmpii2->ic_flags|=ICF_LOCK; case IC_BTC: tmpii2->ic_code=IC_BR_BTC; break; end: tmpii2->ic_data=tmpi->ic_data; tmpii->ic_code=IC_CALL_END2; OptSetNOP1(tmpi); return tmpii; } break; } if (tmpi->ic_code!=IC_BR_NOT_ZERO) { tmpi->ic_class=tmpii->ic_class; tmpi->ic_flags|=tmpii->ic_flags; tmpi->t.arg1_class=tmpii->t.arg1_class; tmpi->t.arg2_class=tmpii->t.arg2_class; tmpi->t.arg1_tree=tmpii->t.arg1_tree; tmpi->t.arg2_tree=tmpii->t.arg2_tree; OptFree(tmpii); if (tmpi->ic_flags&ICF_PUSH_CMP && IC_BR_NOT_EQU<=tmpi->ic_code<=IC_BR_LESS_EQU && !(tmpi->ic_flags&ICF_USE_F64)) { tmpi->ic_code+=IC_BR_EQU_EQU2-IC_BR_EQU_EQU; tmpi->ic_flags&=~ICF_PUSH_CMP; tmpii=tmpi->next; //IC_PUSH_CMP inst while (tmpii->ic_code!=IC_PUSH_CMP) tmpii=tmpii->next; tmpii->t.arg1_tree=tmpi; OptSetNOP1(tmpii); } lb_true=tmpi->ic_data; if (tmpi->ic_code==IC_BR_OR_OR_NOT_ZERO) { tmpii=tmpi->t.arg1_tree->next; tmpii->t.arg1_tree=tmpi->t.arg1_tree; tmpii->t.arg1_class=tmpi->t.arg1_class; tmpii->ic_data=lb_true; tmpii->ic_code=IC_BR_NOT_ZERO; OptBrNotZero(cc,tmpii); tmpii=tmpi->t.arg2_tree->next; tmpii->t.arg1_tree=tmpi->t.arg2_tree; tmpii->t.arg1_class=tmpi->t.arg2_class; tmpii->ic_data=lb_true; tmpii->ic_code=IC_BR_NOT_ZERO; tmpii=OptBrNotZero(cc,tmpii); OptSetNOP1(tmpi); } else if (tmpi->ic_code==IC_BR_AND_AND_NOT_ZERO) { lb_false=COCMiscNew(cc,CMT_LABEL); tmpi->ic_code=IC_LABEL; tmpi->ic_flags=0; tmpi->ic_data=lb_false; tmpii=tmpi->t.arg1_tree->next; tmpii->t.arg1_tree=tmpi->t.arg1_tree; tmpii->t.arg1_class=tmpi->t.arg1_class; tmpii->ic_data=lb_false; tmpii->ic_code=IC_BR_ZERO; OptBrZero(cc,tmpii); tmpii=tmpi->t.arg2_tree->next; tmpii->t.arg1_tree=tmpi->t.arg2_tree; tmpii->t.arg1_class=tmpi->t.arg2_class; tmpii->ic_data=lb_true; tmpii->ic_code=IC_BR_NOT_ZERO; tmpii=OptBrNotZero(cc,tmpii); } else tmpii=tmpi; if (tmpi->ic_flags&ICF_POP_CMP && tmpi->t.arg1_tree->ic_code==IC_NOP1) { tmpi->t.arg1_tree=tmpi->t.arg1_tree->t.arg1_tree; tmpi->ic_flags&=~ICF_POP_CMP; } return tmpii; } return tmpi; } U0 OptFixSizeOf(CIntermediateCode *tmpi1, CIntermediateCode *tmpi_push,CHashClass *tmpcc) { if (tmpi1->ic_code==IC_MUL && tmpi1->t.arg2_tree->ic_code==IC_SIZEOF) { tmpi1->t.arg2_tree->ic_code=IC_IMM_I64; tmpi1->t.arg2_tree->ic_class=tmpcc; tmpi_push->ic_class=tmpcc; if (tmpcc->ptr_stars_cnt) { tmpcc--; if (tmpcc->size==1) goto here; tmpi1->t.arg2_tree->ic_data=tmpcc->size; } else { here: if (tmpi_push==tmpi1) tmpi1->t.arg2_tree->ic_data=1; else { OptSetNOP1(tmpi1->t.arg2_tree); OptSetNOP1(tmpi1); } } } } I64 CmpRawType(CHashClass *tmpc) { if (tmpc) { tmpc=OptClassFwd(tmpc); return tmpc->raw_type; } return 0; } I64 CmpRawTypePointed(CHashClass *tmpc) { if (tmpc) { if (tmpc->ptr_stars_cnt) tmpc--; tmpc=OptClassFwd(tmpc); return tmpc->raw_type; } return 0; } U0 CmpMinTypePointed(CIntermediateCode *tmpi,I64 pt1) { I64 pt; if ((pt=tmpi->arg1_type_pointed_to) && pt!=RT_F64 && 0arg1_type_pointed_to=pt; } U0 CmpF1PushPop(CIntermediateCode *tmpi,CIntermediateCode *tmpi2) { if (intermediate_code_table[tmpi2->ic_code].fpop|| tmpi2->ic_flags&ICF_RES_TO_F64) Bts(&tmpi->ic_flags,ICf_DONT_PUSH_FLOAT0); } U0 CmpF2PushPop(CIntermediateCode *tmpi, CIntermediateCode *tmpi1,CIntermediateCode *tmpi2) { if ((tmpi2->ic_code==IC_MOV || tmpi2->ic_code==IC_IMM_F64) && !(tmpi2->ic_flags&ICF_RES_TO_F64) && (intermediate_code_table[tmpi1->ic_code].fpop || tmpi1->ic_flags&ICF_RES_TO_F64)) Bts(&tmpi->ic_flags,ICf_DONT_PUSH_FLOAT0); else if ((intermediate_code_table[tmpi2->ic_code].fpop || tmpi2->ic_flags&ICF_RES_TO_F64)&& !(tmpi1->ic_flags&ICF_RES_TO_F64)) Bts(&tmpi->ic_flags,ICf_DONT_PUSH_FLOAT0); } class COptMemberVar { I64 score,offset_start,offset_end,lea_balance; CMemberLst *m; }; I64 OptMVCompare(COptMemberVar *mv1,COptMemberVar *mv2) { return mv2->score-mv1->score; }