2017-01-30 04:49:31 +08:00
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//===------ CGGPUBuiltin.cpp - Codegen for GPU builtins -------------------===//
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2016-01-24 05:28:14 +08:00
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//
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2019-01-19 16:50:56 +08:00
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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2016-01-24 05:28:14 +08:00
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//
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//===----------------------------------------------------------------------===//
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//
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2017-01-30 04:49:31 +08:00
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// Generates code for built-in GPU calls which are not runtime-specific.
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// (Runtime-specific codegen lives in programming model specific files.)
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2016-01-24 05:28:14 +08:00
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//
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//===----------------------------------------------------------------------===//
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#include "CodeGenFunction.h"
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#include "clang/Basic/Builtins.h"
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#include "llvm/IR/DataLayout.h"
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#include "llvm/IR/Instruction.h"
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#include "llvm/Support/MathExtras.h"
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using namespace clang;
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using namespace CodeGen;
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static llvm::Function *GetVprintfDeclaration(llvm::Module &M) {
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llvm::Type *ArgTypes[] = {llvm::Type::getInt8PtrTy(M.getContext()),
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llvm::Type::getInt8PtrTy(M.getContext())};
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llvm::FunctionType *VprintfFuncType = llvm::FunctionType::get(
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llvm::Type::getInt32Ty(M.getContext()), ArgTypes, false);
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if (auto* F = M.getFunction("vprintf")) {
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// Our CUDA system header declares vprintf with the right signature, so
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// nobody else should have been able to declare vprintf with a bogus
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// signature.
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assert(F->getFunctionType() == VprintfFuncType);
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return F;
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}
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// vprintf doesn't already exist; create a declaration and insert it into the
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// module.
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return llvm::Function::Create(
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VprintfFuncType, llvm::GlobalVariable::ExternalLinkage, "vprintf", &M);
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}
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// Transforms a call to printf into a call to the NVPTX vprintf syscall (which
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// isn't particularly special; it's invoked just like a regular function).
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// vprintf takes two args: A format string, and a pointer to a buffer containing
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// the varargs.
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//
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// For example, the call
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//
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// printf("format string", arg1, arg2, arg3);
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//
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// is converted into something resembling
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//
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2016-01-29 07:58:28 +08:00
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// struct Tmp {
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// Arg1 a1;
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// Arg2 a2;
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// Arg3 a3;
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// };
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// char* buf = alloca(sizeof(Tmp));
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// *(Tmp*)buf = {a1, a2, a3};
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2016-01-24 05:28:14 +08:00
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// vprintf("format string", buf);
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//
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// buf is aligned to the max of {alignof(Arg1), ...}. Furthermore, each of the
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// args is itself aligned to its preferred alignment.
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//
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// Note that by the time this function runs, E's args have already undergone the
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// standard C vararg promotion (short -> int, float -> double, etc.).
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RValue
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2017-01-30 04:49:31 +08:00
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CodeGenFunction::EmitNVPTXDevicePrintfCallExpr(const CallExpr *E,
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ReturnValueSlot ReturnValue) {
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assert(getTarget().getTriple().isNVPTX());
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2016-01-24 05:28:14 +08:00
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assert(E->getBuiltinCallee() == Builtin::BIprintf);
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assert(E->getNumArgs() >= 1); // printf always has at least one arg.
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const llvm::DataLayout &DL = CGM.getDataLayout();
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llvm::LLVMContext &Ctx = CGM.getLLVMContext();
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CallArgList Args;
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EmitCallArgs(Args,
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E->getDirectCallee()->getType()->getAs<FunctionProtoType>(),
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E->arguments(), E->getDirectCallee(),
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/* ParamsToSkip = */ 0);
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2016-02-11 10:00:52 +08:00
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// We don't know how to emit non-scalar varargs.
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2018-03-15 23:25:19 +08:00
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if (std::any_of(Args.begin() + 1, Args.end(), [&](const CallArg &A) {
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return !A.getRValue(*this).isScalar();
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})) {
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2016-02-11 10:00:52 +08:00
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CGM.ErrorUnsupported(E, "non-scalar arg to printf");
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return RValue::get(llvm::ConstantInt::get(IntTy, 0));
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}
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2016-01-29 07:58:28 +08:00
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// Construct and fill the args buffer that we'll pass to vprintf.
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llvm::Value *BufferPtr;
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if (Args.size() <= 1) {
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2016-01-24 05:28:14 +08:00
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// If there are no args, pass a null pointer to vprintf.
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BufferPtr = llvm::ConstantPointerNull::get(llvm::Type::getInt8PtrTy(Ctx));
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} else {
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2016-01-29 07:58:28 +08:00
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llvm::SmallVector<llvm::Type *, 8> ArgTypes;
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for (unsigned I = 1, NumArgs = Args.size(); I < NumArgs; ++I)
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2018-03-15 23:25:19 +08:00
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ArgTypes.push_back(Args[I].getRValue(*this).getScalarVal()->getType());
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2016-07-28 06:36:21 +08:00
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// Using llvm::StructType is correct only because printf doesn't accept
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// aggregates. If we had to handle aggregates here, we'd have to manually
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// compute the offsets within the alloca -- we wouldn't be able to assume
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// that the alignment of the llvm type was the same as the alignment of the
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// clang type.
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2016-01-29 07:58:28 +08:00
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llvm::Type *AllocaTy = llvm::StructType::create(ArgTypes, "printf_args");
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llvm::Value *Alloca = CreateTempAlloca(AllocaTy);
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2016-01-24 05:28:14 +08:00
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for (unsigned I = 1, NumArgs = Args.size(); I < NumArgs; ++I) {
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2016-01-29 07:58:28 +08:00
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llvm::Value *P = Builder.CreateStructGEP(AllocaTy, Alloca, I - 1);
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2018-03-15 23:25:19 +08:00
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llvm::Value *Arg = Args[I].getRValue(*this).getScalarVal();
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2016-01-29 07:58:28 +08:00
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Builder.CreateAlignedStore(Arg, P, DL.getPrefTypeAlignment(Arg->getType()));
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2016-01-24 05:28:14 +08:00
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}
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2016-01-29 07:58:28 +08:00
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BufferPtr = Builder.CreatePointerCast(Alloca, llvm::Type::getInt8PtrTy(Ctx));
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2016-01-24 05:28:14 +08:00
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}
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// Invoke vprintf and return.
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llvm::Function* VprintfFunc = GetVprintfDeclaration(CGM.getModule());
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2018-03-15 23:25:19 +08:00
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return RValue::get(Builder.CreateCall(
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VprintfFunc, {Args[0].getRValue(*this).getScalarVal(), BufferPtr}));
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2016-01-24 05:28:14 +08:00
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}
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