Mercurial > projects > ddmd
view dmd/DivExp.d @ 182:b64060ab22df
Now compileable with dmd2.050
author | korDen |
---|---|
date | Sat, 30 Oct 2010 05:05:32 +0400 |
parents | e3afd1303184 |
children | b0d41ff5e0df |
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module dmd.DivExp; import dmd.common; import dmd.Expression; import dmd.Identifier; import dmd.backend.elem; import dmd.InterState; import dmd.OutBuffer; import dmd.Loc; import dmd.Scope; import dmd.IntRange; import dmd.IRState; import dmd.ArrayTypes; import dmd.BinExp; import dmd.TOK; import dmd.Type; import dmd.NegExp; import dmd.TY; import dmd.Id; import dmd.expression.Div; import dmd.backend.OPER; import dmd.backend.Util; class DivExp : BinExp { this(Loc loc, Expression e1, Expression e2) { register(); super(loc, TOK.TOKdiv, DivExp.sizeof, e1, e2); } override Expression semantic(Scope sc) { Expression e; if (type) return this; super.semanticp(sc); e = op_overload(sc); if (e) return e; typeCombine(sc); if (!e1.isArrayOperand()) e1.checkArithmetic(); if (!e2.isArrayOperand()) e2.checkArithmetic(); if (type.isfloating()) { Type t1 = e1.type; Type t2 = e2.type; if (t1.isreal()) { type = t2; if (t2.isimaginary()) { // x/iv = i(-x/v) e2.type = t1; Expression ee = new NegExp(loc, this); ee = ee.semantic(sc); return e; } } else if (t2.isreal()) { type = t1; } else if (t1.isimaginary()) { if (t2.isimaginary()) { switch (t1.ty) { case TY.Timaginary32: type = Type.tfloat32; break; case TY.Timaginary64: type = Type.tfloat64; break; case TY.Timaginary80: type = Type.tfloat80; break; default: assert(0); } } else { type = t2; // t2 is complex } } else if (t2.isimaginary()) { type = t1; // t1 is complex } } return this; } override Expression optimize(int result) { Expression e; //printf("DivExp.optimize(%s)\n", toChars()); e1 = e1.optimize(result); e2 = e2.optimize(result); if (e1.isConst() == 1 && e2.isConst() == 1) { e = Div(type, e1, e2); } else e = this; return e; } override Expression interpret(InterState istate) { return interpretCommon(istate, &Div); } override void buildArrayIdent(OutBuffer buf, Expressions arguments) { Exp_buildArrayIdent(buf, arguments, "Div"); } override Expression buildArrayLoop(Parameters fparams) { return Exp_buildArrayLoop!(typeof(this))(fparams); } override IntRange getIntRange() { assert(false); } override Identifier opId() { return Id.div; } override Identifier opId_r() { return Id.div_r; } override elem* toElem(IRState* irs) { return toElemBin(irs,OPdiv); } }