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view gen/dvalue.h @ 1168:ab186e535e72
A different fix to #218 and DMD2682 that does not lead to constant folding regressions.
Fixes run/const_15, run/c/const_16_B.
The price is removing the lvalueness of struct literals. If it turns out too
much code depends on this behavior or we don't want to break with DMD, we
could keep struct literals as lvalues and instead convert struct literals used
as expression initializers into struct initializers.
| author | Christian Kamm <kamm incasoftware de> |
|---|---|
| date | Sun, 29 Mar 2009 11:43:45 +0200 |
| parents | 3cf0066e6faf |
| children | f5729209a1d4 |
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#ifndef LDC_GEN_DVALUE_H #define LDC_GEN_DVALUE_H /* These classes are used for generating the IR. They encapsulate D values and provide a common interface to the most common operations. When more specialized handling is necessary, they hold enough information to do-the-right-thing (TM) */ #include <cassert> #include "root.h" struct Type; struct Dsymbol; struct VarDeclaration; struct FuncDeclaration; namespace llvm { class Value; class Type; class Constant; } struct DImValue; struct DConstValue; struct DNullValue; struct DVarValue; struct DFieldValue; struct DFuncValue; struct DSliceValue; // base class for d-values struct DValue : Object { virtual Type*& getType() = 0; virtual LLValue* getLVal() { assert(0); return 0; } virtual LLValue* getRVal() { assert(0); return 0; } virtual bool isLVal() { return false; } virtual DImValue* isIm() { return NULL; } virtual DConstValue* isConst() { return NULL; } virtual DNullValue* isNull() { return NULL; } virtual DVarValue* isVar() { return NULL; } virtual DFieldValue* isField() { return NULL; } virtual DSliceValue* isSlice() { return NULL; } virtual DFuncValue* isFunc() { return NULL; } protected: DValue() {} DValue(const DValue&) { } DValue& operator=(const DValue&) { return *this; } }; // immediate d-value struct DImValue : DValue { Type* type; LLValue* val; DImValue(Type* t, LLValue* v) : type(t), val(v) { } virtual LLValue* getRVal() { assert(val); return val; } virtual Type*& getType() { assert(type); return type; } virtual DImValue* isIm() { return this; } }; // constant d-value struct DConstValue : DValue { Type* type; LLConstant* c; DConstValue(Type* t, LLConstant* con) { type = t; c = con; } virtual LLValue* getRVal(); virtual Type*& getType() { assert(type); return type; } virtual DConstValue* isConst() { return this; } }; // null d-value struct DNullValue : DConstValue { DNullValue(Type* t, LLConstant* con) : DConstValue(t,con) {} virtual DNullValue* isNull() { return this; } }; // variable d-value struct DVarValue : DValue { Type* type; VarDeclaration* var; LLValue* val; DVarValue(Type* t, VarDeclaration* vd, LLValue* llvmValue); DVarValue(Type* t, LLValue* llvmValue); virtual bool isLVal() { return true; } virtual LLValue* getLVal(); virtual LLValue* getRVal(); virtual Type*& getType() { assert(type); return type; } virtual DVarValue* isVar() { return this; } }; // field d-value struct DFieldValue : DVarValue { DFieldValue(Type* t, LLValue* llvmValue) : DVarValue(t, llvmValue) {} virtual DFieldValue* isField() { return this; } }; // slice d-value struct DSliceValue : DValue { Type* type; LLValue* len; LLValue* ptr; DSliceValue(Type* t, LLValue* l, LLValue* p) { type=t; ptr=p; len=l; } virtual LLValue* getRVal(); virtual Type*& getType() { assert(type); return type; } virtual DSliceValue* isSlice() { return this; } }; // function d-value struct DFuncValue : DValue { Type* type; FuncDeclaration* func; LLValue* val; LLValue* vthis; DFuncValue(FuncDeclaration* fd, LLValue* v, LLValue* vt = 0); virtual LLValue* getRVal(); virtual Type*& getType() { assert(type); return type; } virtual DFuncValue* isFunc() { return this; } }; #endif // LDC_GEN_DVALUE_H