//===- InlineModelFeatureMaps.h - common model runner defs ------*- C++ -*-===// // // 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 // //===----------------------------------------------------------------------===// // #ifndef LLVM_ANALYSIS_INLINEMODELFEATUREMAPS_H #define LLVM_ANALYSIS_INLINEMODELFEATUREMAPS_H #include "llvm/Analysis/TensorSpec.h" #include #include namespace llvm { // List of cost features. A "cost" feature is a summand of the heuristic-based // inline cost, and we define them separately to preserve the original heuristic // behavior. #define INLINE_COST_FEATURE_ITERATOR(M) \ M(int64_t, {1}, sroa_savings, \ "Savings from SROA (scalar replacement of aggregates)") \ M(int64_t, {1}, sroa_losses, \ "Losses from SROA (scalar replacement of aggregates)") \ M(int64_t, {1}, load_elimination, "Cost of load elimination in the call") \ M(int64_t, {1}, call_penalty, \ "Accumulation of penalty applied to call sites when inlining") \ M(int64_t, {1}, call_argument_setup, \ "Accumulation of call argument setup costs") \ M(int64_t, {1}, load_relative_intrinsic, \ "Accumulation of costs of loading relative intrinsics") \ M(int64_t, {1}, lowered_call_arg_setup, \ "Accumulation of cost of lowered call argument setups") \ M(int64_t, {1}, indirect_call_penalty, \ "Accumulation of costs for indirect calls") \ M(int64_t, {1}, jump_table_penalty, "Accumulation of costs for jump tables") \ M(int64_t, {1}, case_cluster_penalty, \ "Accumulation of costs for case clusters") \ M(int64_t, {1}, switch_penalty, \ "Accumulation of costs for switch statements") \ M(int64_t, {1}, unsimplified_common_instructions, \ "Costs from unsimplified common instructions") \ M(int64_t, {1}, num_loops, "Number of loops in the caller") \ M(int64_t, {1}, dead_blocks, "Number of dead blocks in the caller") \ M(int64_t, {1}, simplified_instructions, \ "Number of simplified instructions") \ M(int64_t, {1}, constant_args, \ "Number of constant arguments in the call site") \ M(int64_t, {1}, constant_offset_ptr_args, \ "Number of constant offset pointer args in the call site") \ M(int64_t, {1}, callsite_cost, "Estimated cost of the call site") \ M(int64_t, {1}, cold_cc_penalty, "Penalty for a cold calling convention") \ M(int64_t, {1}, last_call_to_static_bonus, \ "Bonus for being the last call to static") \ M(int64_t, {1}, is_multiple_blocks, \ "Boolean; is the Callee multiple blocks") \ M(int64_t, {1}, nested_inlines, \ "Would the default inliner perfom nested inlining") \ M(int64_t, {1}, nested_inline_cost_estimate, \ "Estimate of the accumulated cost of nested inlines") \ M(int64_t, {1}, threshold, "Threshold for the heuristic inliner") // clang-format off enum class InlineCostFeatureIndex : size_t { #define POPULATE_INDICES(DTYPE, SHAPE, NAME, DOC) NAME, INLINE_COST_FEATURE_ITERATOR(POPULATE_INDICES) #undef POPULATE_INDICES NumberOfFeatures }; // clang-format on using InlineCostFeatures = std::array(InlineCostFeatureIndex::NumberOfFeatures)>; constexpr bool isHeuristicInlineCostFeature(InlineCostFeatureIndex Feature) { return Feature != InlineCostFeatureIndex::sroa_savings && Feature != InlineCostFeatureIndex::is_multiple_blocks && Feature != InlineCostFeatureIndex::dead_blocks && Feature != InlineCostFeatureIndex::simplified_instructions && Feature != InlineCostFeatureIndex::constant_args && Feature != InlineCostFeatureIndex::constant_offset_ptr_args && Feature != InlineCostFeatureIndex::nested_inlines && Feature != InlineCostFeatureIndex::nested_inline_cost_estimate && Feature != InlineCostFeatureIndex::threshold; } // List of features. Each feature is defined through a triple: // - the name of an enum member, which will be the feature index // - a textual name, used for ML model binding (so it needs to match the // names used by the ML model). // - a documentation description. Currently, that is not used anywhere // programmatically, and serves as workaround to inability of inserting comments // in macros. #define INLINE_FEATURE_ITERATOR(M) \ M(int64_t, {1}, callee_basic_block_count, \ "number of basic blocks of the callee") \ M(int64_t, {1}, callsite_height, \ "position of the call site in the original call graph - measured from " \ "the farthest SCC") \ M(int64_t, {1}, node_count, \ "total current number of defined functions in the module") \ M(int64_t, {1}, nr_ctant_params, \ "number of parameters in the call site that are constants") \ M(int64_t, {1}, cost_estimate, "total cost estimate (threshold - free)") \ M(int64_t, {1}, edge_count, "total number of calls in the module") \ M(int64_t, {1}, caller_users, \ "number of module-internal users of the caller, +1 if the caller is " \ "exposed externally") \ M(int64_t, {1}, caller_conditionally_executed_blocks, \ "number of blocks reached from a conditional instruction, in the caller") \ M(int64_t, {1}, caller_basic_block_count, \ "number of basic blocks in the caller") \ M(int64_t, {1}, callee_conditionally_executed_blocks, \ "number of blocks reached from a conditional instruction, in the callee") \ M(int64_t, {1}, callee_users, \ "number of module-internal users of the callee, +1 if the callee is " \ "exposed externally") // clang-format off enum class FeatureIndex : size_t { #define POPULATE_INDICES(DTYPE, SHAPE, NAME, COMMENT) NAME, // InlineCost features - these must come first INLINE_COST_FEATURE_ITERATOR(POPULATE_INDICES) // Non-cost features INLINE_FEATURE_ITERATOR(POPULATE_INDICES) #undef POPULATE_INDICES NumberOfFeatures }; // clang-format on constexpr FeatureIndex inlineCostFeatureToMlFeature(InlineCostFeatureIndex Feature) { return static_cast(static_cast(Feature)); } constexpr size_t NumberOfFeatures = static_cast(FeatureIndex::NumberOfFeatures); extern const std::vector FeatureMap; extern const char *const DecisionName; extern const TensorSpec InlineDecisionSpec; extern const char *const DefaultDecisionName; extern const TensorSpec DefaultDecisionSpec; extern const char *const RewardName; using InlineFeatures = std::vector; } // namespace llvm #endif // LLVM_ANALYSIS_INLINEMODELFEATUREMAPS_H