//===--- MisExpect.h - Check the use of llvm.expect with PGO data ---------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This contains code to emit diagnostic messages for potentially incorrect // usage of the llvm.expect intrinsic. This utility extracts the threshold // values from metadata associated with the instrumented Branch or Switch // instruction. The threshold values are then used to determine if a diagnostic // should be emitted. // //===----------------------------------------------------------------------===// #ifndef LLVM_TRANSFORMS_UTILS_MISEXPECT_H #define LLVM_TRANSFORMS_UTILS_MISEXPECT_H #include "llvm/ADT/SmallVector.h" #include "llvm/IR/Function.h" #include "llvm/IR/Instructions.h" #include "llvm/IR/LLVMContext.h" namespace llvm { namespace misexpect { /// checkBackendInstrumentation - compares PGO counters to the thresholds used /// for llvm.expect and warns if the PGO counters are outside of the expected /// range. It extracts the expected weights from the MD_prof weights attached /// to the instruction, which are assumed to come from lowered llvm.expect /// intrinsics. The RealWeights parameter and the extracted expected weights are /// then passed to verifyMisexpect() for verification /// /// \param I The Instruction being checked /// \param RealWeights A vector of profile weights for each target block void checkBackendInstrumentation(Instruction &I, const llvm::ArrayRef<uint32_t> RealWeights); /// checkFrontendInstrumentation - compares PGO counters to the thresholds used /// for llvm.expect and warns if the PGO counters are outside of the expected /// range. It extracts the expected weights from the MD_prof weights attached /// to the instruction, which are assumed to come from profiling data /// attached by the frontend prior to llvm.expect intrinsic lowering. The /// ExpectedWeights parameter and the extracted real weights are then passed to /// verifyMisexpect() for verification /// /// \param I The Instruction being checked /// \param ExpectedWeights A vector of the expected weights for each target /// block, this determines the threshold values used when emitting diagnostics void checkFrontendInstrumentation(Instruction &I, const ArrayRef<uint32_t> ExpectedWeights); /// veryifyMisExpect - compares RealWeights to the thresholds used /// for llvm.expect and warns if the PGO counters are outside of the expected /// range. /// /// \param I The Instruction being checked /// \param RealWeights A vector of profile weights from the profile data /// \param ExpectedWeights A vector of the weights attatch by llvm.expect void verifyMisExpect(Instruction &I, ArrayRef<uint32_t> RealWeights, const ArrayRef<uint32_t> ExpectedWeights); /// checkExpectAnnotations - compares PGO counters to the thresholds used /// for llvm.expect and warns if the PGO counters are outside of the expected /// range. It extracts the expected weights from the MD_prof weights attached /// to the instruction, which are assumed to come from lowered llvm.expect /// intrinsics. The RealWeights parameter and the extracted expected weights are /// then passed to verifyMisexpect() for verification. It is a thin wrapper /// around the checkFrontendInstrumentation and checkBackendInstrumentation APIs /// /// \param I The Instruction being checked /// \param ExistingWeights A vector of profile weights for each target block /// \param IsFrontend A boolean describing if this is Frontend instrumentation void checkExpectAnnotations(Instruction &I, const ArrayRef<uint32_t> ExistingWeights, bool IsFrontend); } // namespace misexpect } // namespace llvm #endif