Function* get_memcpy() {
if (!memcpy_func) {
const Type *SBP = PointerType::get(Type::SByteTy);
- memcpy_func = M->getOrInsertFunction("llvm.memcpy", Type::VoidTy,SBP, SBP,
- TD->getIntPtrType(), Type::UIntTy, NULL);
+ const char *N = TD->getIntPtrType() == Type::UIntTy ?
+ "llvm.memcpy.i32" : "llvm.memcpy.i64";
+ memcpy_func = M->getOrInsertFunction(N, Type::VoidTy, SBP, SBP,
+ TD->getIntPtrType(), Type::UIntTy,
+ NULL);
}
return memcpy_func;
}
/// bytes depending on the length of the string and the alignment. Additional
/// optimizations are possible in code generation (sequence of immediate store)
/// @brief Simplify the memcpy library function.
-struct LLVMMemCpyOptimization : public LibCallOptimization {
- /// @brief Default Constructor
- LLVMMemCpyOptimization() : LibCallOptimization("llvm.memcpy",
- "Number of 'llvm.memcpy' calls simplified") {}
-
-protected:
- /// @brief Subclass Constructor
- LLVMMemCpyOptimization(const char* fname, const char* desc)
- : LibCallOptimization(fname, desc) {}
-public:
+struct LLVMMemCpyMoveOptzn : public LibCallOptimization {
+ LLVMMemCpyMoveOptzn(const char* fname, const char* desc)
+ : LibCallOptimization(fname, desc) {}
/// @brief Make sure that the "memcpy" function has the right prototype
virtual bool ValidateCalledFunction(const Function* f, SimplifyLibCalls& TD) {
ci->eraseFromParent();
return true;
}
-} LLVMMemCpyOptimizer;
-
-/// This LibCallOptimization will simplify a call to the memmove library
-/// function. It is identical to MemCopyOptimization except for the name of
-/// the intrinsic.
-/// @brief Simplify the memmove library function.
-struct LLVMMemMoveOptimization : public LLVMMemCpyOptimization {
- /// @brief Default Constructor
- LLVMMemMoveOptimization() : LLVMMemCpyOptimization("llvm.memmove",
- "Number of 'llvm.memmove' calls simplified") {}
+};
-} LLVMMemMoveOptimizer;
+/// This LibCallOptimization will simplify a call to the memcpy/memmove library
+/// functions.
+LLVMMemCpyMoveOptzn LLVMMemCpyOptimizer32("llvm.memcpy.i32",
+ "Number of 'llvm.memcpy' calls simplified");
+LLVMMemCpyMoveOptzn LLVMMemCpyOptimizer64("llvm.memcpy.i64",
+ "Number of 'llvm.memcpy' calls simplified");
+LLVMMemCpyMoveOptzn LLVMMemMoveOptimizer32("llvm.memmove.i32",
+ "Number of 'llvm.memmove' calls simplified");
+LLVMMemCpyMoveOptzn LLVMMemMoveOptimizer64("llvm.memmove.i64",
+ "Number of 'llvm.memmove' calls simplified");
/// This LibCallOptimization will simplify a call to the memset library
/// function by expanding it out to a single store of size 0, 1, 2, 4, or 8
/// bytes depending on the length argument.
struct LLVMMemSetOptimization : public LibCallOptimization {
/// @brief Default Constructor
- LLVMMemSetOptimization() : LibCallOptimization("llvm.memset",
+ LLVMMemSetOptimization(const char *Name) : LibCallOptimization(Name,
"Number of 'llvm.memset' calls simplified") {}
-public:
/// @brief Make sure that the "memset" function has the right prototype
virtual bool ValidateCalledFunction(const Function *F, SimplifyLibCalls &TD) {
ci->eraseFromParent();
return true;
}
-} LLVMMemSetOptimizer;
+};
+
+LLVMMemSetOptimization MemSet32Optimizer("llvm.memset.i32");
+LLVMMemSetOptimization MemSet64Optimizer("llvm.memset.i64");
+
/// This LibCallOptimization will simplify calls to the "pow" library
/// function. It looks for cases where the result of pow is well known and
projects / oota-llvm.git / commitdiff