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231 lines
8.1 KiB
C++
231 lines
8.1 KiB
C++
//===-- gen/llvmhelpers.h - General LLVM codegen helpers --------*- C++ -*-===//
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//
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// LDC – the LLVM D compiler
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//
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// This file is distributed under the BSD-style LDC license. See the LICENSE
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// file for details.
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//
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//===----------------------------------------------------------------------===//
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//
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// General codegen helper constructs.
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//
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// TODO: Merge with gen/tollvm.h, then refactor into sensible parts.
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//
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//===----------------------------------------------------------------------===//
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#ifndef LDC_GEN_LLVMHELPERS_H
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#define LDC_GEN_LLVMHELPERS_H
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#include "mtype.h"
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#include "statement.h"
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#include "gen/dvalue.h"
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#include "gen/llvm.h"
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// this is used for tracking try-finally, synchronized and volatile scopes
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struct EnclosingHandler
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{
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virtual void emitCode(IRState* p) = 0;
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};
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struct EnclosingTryFinally : EnclosingHandler
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{
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TryFinallyStatement* tf;
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llvm::BasicBlock* landingPad;
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void emitCode(IRState* p);
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EnclosingTryFinally(TryFinallyStatement* _tf, llvm::BasicBlock* _pad)
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: tf(_tf), landingPad(_pad) {}
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};
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struct EnclosingVolatile : EnclosingHandler
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{
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VolatileStatement* v;
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void emitCode(IRState* p);
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EnclosingVolatile(VolatileStatement* _tf) : v(_tf) {}
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};
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struct EnclosingSynchro : EnclosingHandler
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{
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SynchronizedStatement* s;
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void emitCode(IRState* p);
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EnclosingSynchro(SynchronizedStatement* _tf) : s(_tf) {}
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};
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// dynamic memory helpers
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LLValue* DtoNew(Type* newtype);
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void DtoDeleteMemory(LLValue* ptr);
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void DtoDeleteClass(LLValue* inst);
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void DtoDeleteInterface(LLValue* inst);
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void DtoDeleteArray(DValue* arr);
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// emit an alloca
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llvm::AllocaInst* DtoAlloca(Type* type, const char* name = "");
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llvm::AllocaInst* DtoArrayAlloca(Type* type, unsigned arraysize, const char* name = "");
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llvm::AllocaInst* DtoRawAlloca(LLType* lltype, size_t alignment, const char* name = "");
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LLValue* DtoGcMalloc(LLType* lltype, const char* name = "");
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// assertion generator
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void DtoAssert(Module* M, Loc loc, DValue* msg);
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// return the LabelStatement from the current function with the given identifier or NULL if not found
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LabelStatement* DtoLabelStatement(Identifier* ident);
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/// emits goto to LabelStatement with the target identifier
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/// the sourceFinally is only used for error checking
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void DtoGoto(Loc loc, Identifier* target, TryFinallyStatement* sourceFinally);
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// Generates IR for enclosing handlers between the current state and
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// the scope created by the 'target' statement.
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void DtoEnclosingHandlers(Loc loc, Statement* target);
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/// Enters a critical section.
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void DtoEnterCritical(LLValue* g);
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/// leaves a critical section.
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void DtoLeaveCritical(LLValue* g);
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/// Enters a monitor lock.
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void DtoEnterMonitor(LLValue* v);
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/// Leaves a monitor lock.
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void DtoLeaveMonitor(LLValue* v);
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// basic operations
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void DtoAssign(Loc& loc, DValue* lhs, DValue* rhs, int op = -1, bool canSkipPostblit = false);
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/// Create a null DValue.
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DValue* DtoNullValue(Type* t);
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// casts
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DValue* DtoCastInt(Loc& loc, DValue* val, Type* to);
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DValue* DtoCastPtr(Loc& loc, DValue* val, Type* to);
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DValue* DtoCastFloat(Loc& loc, DValue* val, Type* to);
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DValue* DtoCastDelegate(Loc& loc, DValue* val, Type* to);
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DValue* DtoCast(Loc& loc, DValue* val, Type* to);
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// return the same val as passed in, modified to the target type, if possible, otherwise returns a new DValue
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DValue* DtoPaintType(Loc& loc, DValue* val, Type* to);
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// is template instance check, returns module where instantiated
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TemplateInstance* DtoIsTemplateInstance(Dsymbol* s, bool checkLiteralOwner = false);
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/// Generate code for the symbol.
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/// Dispatches as appropriate.
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void DtoResolveDsymbol(Dsymbol* dsym);
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// declaration inside a declarationexp
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void DtoVarDeclaration(VarDeclaration* var);
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DValue* DtoDeclarationExp(Dsymbol* declaration);
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LLValue* DtoRawVarDeclaration(VarDeclaration* var, LLValue* addr = 0);
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// initializer helpers
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LLConstant* DtoConstInitializer(Loc loc, Type* type, Initializer* init);
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LLConstant* DtoConstExpInit(Loc loc, Type* targetType, Expression* exp);
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// getting typeinfo of type, base=true casts to object.TypeInfo
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LLConstant* DtoTypeInfoOf(Type* ty, bool base=true);
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// binary operations
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DValue* DtoBinAdd(DValue* lhs, DValue* rhs);
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DValue* DtoBinSub(DValue* lhs, DValue* rhs);
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// these binops need an explicit result type to handling
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// to give 'ifloat op float' and 'float op ifloat' the correct type
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DValue* DtoBinMul(Type* resulttype, DValue* lhs, DValue* rhs);
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DValue* DtoBinDiv(Type* resulttype, DValue* lhs, DValue* rhs);
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DValue* DtoBinRem(Type* resulttype, DValue* lhs, DValue* rhs);
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LLValue* DtoBinNumericEquals(Loc loc, DValue* lhs, DValue* rhs, TOK op);
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LLValue* DtoBinFloatsEquals(Loc loc, DValue* lhs, DValue* rhs, TOK op);
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// target stuff
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void findDefaultTarget();
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/// Fixup an overloaded intrinsic name string.
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void DtoOverloadedIntrinsicName(TemplateInstance* ti, TemplateDeclaration* td, std::string& name);
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/// Returns true if the symbol should be defined in the current module, not just declared.
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bool mustDefineSymbol(Dsymbol* s);
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/// Returns true if the symbol needs template linkage, or just external.
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bool needsTemplateLinkage(Dsymbol* s);
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/// Returns true if there is any unaligned type inside the aggregate.
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bool hasUnalignedFields(Type* t);
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///
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DValue* DtoInlineAsmExpr(Loc loc, FuncDeclaration* fd, Expressions* arguments);
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/// Create the IrModule if necessary and returns it.
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IrModule* getIrModule(Module* M);
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/// Update an offset to make sure it follows both the D and LLVM alignments.
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/// Returns the offset rounded up to the closest safely aligned offset.
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size_t realignOffset(size_t offset, Type* type);
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/// Returns the llvm::Value of the passed DValue, making sure that it is an
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/// lvalue (has a memory address), so it can be passed to the D runtime
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/// functions without problems.
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LLValue* makeLValue(Loc& loc, DValue* value);
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void callPostblit(Loc &loc, Expression *exp, LLValue *val);
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/// Returns whether the given variable is a DMD-internal "ref variable".
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///
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/// D doesn't have reference variables (the ref keyword is only usable in
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/// function signatures and foreach headers), but the DMD frontend internally
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/// creates them in cases like lowering a ref foreach to a for loop or the
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/// implicit __result variable for ref-return functions with out contracts.
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bool isSpecialRefVar(VarDeclaration* vd);
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/// Returns whether the type is unsigned in LLVM terms, which also includes
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/// pointers.
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bool isLLVMUnsigned(Type* t);
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/// Converts a DMD comparison operation token into the corresponding LLVM icmp
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/// predicate for the given operand signedness.
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///
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/// For some operations, the result can be a constant. In this case outConst is
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/// set to it, otherwise outPred is set to the predicate to use.
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void tokToIcmpPred(TOK op, bool isUnsigned, llvm::ICmpInst::Predicate* outPred,
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llvm::Value** outConst);
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////////////////////////////////////////////
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// gen/tocall.cpp stuff below
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////////////////////////////////////////////
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///
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TypeFunction* DtoTypeFunction(DValue* fnval);
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///
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DValue* DtoVaArg(Loc& loc, Type* type, Expression* valistArg);
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///
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LLValue* DtoCallableValue(DValue* fn);
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///
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LLFunctionType* DtoExtractFunctionType(LLType* type);
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///
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#if LDC_LLVM_VER >= 303
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void DtoBuildDVarArgList(std::vector<LLValue*>& args, llvm::AttributeSet& palist, TypeFunction* tf, Expressions* arguments, size_t argidx);
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#else
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void DtoBuildDVarArgList(std::vector<LLValue*>& args, std::vector<llvm::AttributeWithIndex>& palist, TypeFunction* tf, Expressions* arguments, size_t argidx);
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#endif
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///
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DValue* DtoCallFunction(Loc& loc, Type* resulttype, DValue* fnval, Expressions* arguments);
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Type* stripModifiers(Type* type);
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void printLabelName(std::ostream& target, const char* func_mangle, const char* label_name);
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void AppendFunctionToLLVMGlobalCtorsDtors(llvm::Function* func, const uint32_t priority, const bool isCtor);
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template <typename T>
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LLConstant* toConstantArray(LLType* ct, LLArrayType* at, T* str, size_t len, bool nullterm = true)
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{
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std::vector<LLConstant*> vals;
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vals.reserve(len+1);
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for (size_t i = 0; i < len; ++i) {
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vals.push_back(LLConstantInt::get(ct, str[i], false));
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}
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if (nullterm)
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vals.push_back(LLConstantInt::get(ct, 0, false));
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return LLConstantArray::get(at, vals);
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}
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#endif
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