168ac7b17SMircea Trofin //===- MLRegAllocEvictAdvisor.cpp - ML eviction advisor -------------------===//
268ac7b17SMircea Trofin //
368ac7b17SMircea Trofin // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
468ac7b17SMircea Trofin // See https://llvm.org/LICENSE.txt for license information.
568ac7b17SMircea Trofin // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
668ac7b17SMircea Trofin //
768ac7b17SMircea Trofin //===----------------------------------------------------------------------===//
868ac7b17SMircea Trofin //
968ac7b17SMircea Trofin // Implementation of the ML eviction advisor and reward injection pass
1068ac7b17SMircea Trofin //
1168ac7b17SMircea Trofin //===----------------------------------------------------------------------===//
1268ac7b17SMircea Trofin
13989f1c72Sserge-sans-paille #include "AllocationOrder.h"
1468ac7b17SMircea Trofin #include "RegAllocEvictionAdvisor.h"
15e67430ccSMircea Trofin #include "RegAllocGreedy.h"
1668ac7b17SMircea Trofin #include "llvm/Analysis/MLModelRunner.h"
17c35ad9eeSMircea Trofin #include "llvm/Analysis/TensorSpec.h"
18f658ca1aSMircea Trofin #if defined(LLVM_HAVE_TF_AOT_REGALLOCEVICTMODEL) || defined(LLVM_HAVE_TF_API)
19f658ca1aSMircea Trofin #include "llvm/Analysis/ModelUnderTrainingRunner.h"
20f658ca1aSMircea Trofin #include "llvm/Analysis/NoInferenceModelRunner.h"
21f658ca1aSMircea Trofin #endif
22e67430ccSMircea Trofin #include "llvm/Analysis/ReleaseModeModelRunner.h"
2368ac7b17SMircea Trofin #include "llvm/CodeGen/CalcSpillWeights.h"
24989f1c72Sserge-sans-paille #include "llvm/CodeGen/LiveRegMatrix.h"
2568ac7b17SMircea Trofin #include "llvm/CodeGen/MachineBlockFrequencyInfo.h"
2668ac7b17SMircea Trofin #include "llvm/CodeGen/MachineFunction.h"
2768ac7b17SMircea Trofin #include "llvm/CodeGen/MachineLoopInfo.h"
28e67430ccSMircea Trofin #include "llvm/CodeGen/MachineRegisterInfo.h"
29e67430ccSMircea Trofin #include "llvm/CodeGen/Passes.h"
3068ac7b17SMircea Trofin #include "llvm/CodeGen/RegisterClassInfo.h"
3168ac7b17SMircea Trofin #include "llvm/CodeGen/VirtRegMap.h"
3268ac7b17SMircea Trofin #include "llvm/InitializePasses.h"
3368ac7b17SMircea Trofin #include "llvm/Pass.h"
3468ac7b17SMircea Trofin #include "llvm/PassRegistry.h"
3568ac7b17SMircea Trofin #include "llvm/Support/CommandLine.h"
3668ac7b17SMircea Trofin #include "llvm/Support/ErrorHandling.h"
3768ac7b17SMircea Trofin
38e67430ccSMircea Trofin #include <array>
3968ac7b17SMircea Trofin #include <memory>
4068ac7b17SMircea Trofin
4168ac7b17SMircea Trofin using namespace llvm;
4268ac7b17SMircea Trofin
4368ac7b17SMircea Trofin #define DEBUG_TYPE "ml-regalloc"
44b1af01feSMircea Trofin
45e67430ccSMircea Trofin // Generated header in release (AOT) mode
46b1af01feSMircea Trofin #if defined(LLVM_HAVE_TF_AOT_REGALLOCEVICTMODEL)
47e67430ccSMircea Trofin #include "RegallocEvictModel.h"
485a50ab4dSMircea Trofin using CompiledModelType = RegallocEvictModel;
495a50ab4dSMircea Trofin #else
505a50ab4dSMircea Trofin using CompiledModelType = NoopSavedModelImpl;
51e67430ccSMircea Trofin #endif
52e67430ccSMircea Trofin
53e67430ccSMircea Trofin // Options that only make sense in development mode
54e67430ccSMircea Trofin #ifdef LLVM_HAVE_TF_API
55f658ca1aSMircea Trofin #include "RegAllocScore.h"
56f658ca1aSMircea Trofin #include "llvm/Analysis/Utils/TFUtils.h"
57f658ca1aSMircea Trofin
58e67430ccSMircea Trofin static cl::opt<std::string> TrainingLog(
59e67430ccSMircea Trofin "regalloc-training-log", cl::Hidden,
60e67430ccSMircea Trofin cl::desc("Training log for the register allocator eviction model"));
61e67430ccSMircea Trofin
62e67430ccSMircea Trofin static cl::opt<std::string> ModelUnderTraining(
63e67430ccSMircea Trofin "regalloc-model", cl::Hidden,
64e67430ccSMircea Trofin cl::desc("The model being trained for register allocation eviction"));
65e67430ccSMircea Trofin
66e67430ccSMircea Trofin #endif // #ifdef LLVM_HAVE_TF_API
67e67430ccSMircea Trofin
68660ff655SMircea Trofin extern cl::opt<unsigned> EvictInterferenceCutoff;
69660ff655SMircea Trofin
70e67430ccSMircea Trofin /// The score injection pass.
71e67430ccSMircea Trofin /// This pass calculates the score for a function and inserts it in the log, but
72e67430ccSMircea Trofin /// this happens only in development mode. It's a no-op otherwise.
73e67430ccSMircea Trofin namespace llvm {
74e67430ccSMircea Trofin class RegAllocScoring : public MachineFunctionPass {
75e67430ccSMircea Trofin public:
76e67430ccSMircea Trofin static char ID;
77e67430ccSMircea Trofin
RegAllocScoring()78e67430ccSMircea Trofin RegAllocScoring() : MachineFunctionPass(ID) {
79e67430ccSMircea Trofin initializeRegAllocScoringPass(*PassRegistry::getPassRegistry());
80e67430ccSMircea Trofin }
81e67430ccSMircea Trofin
82e67430ccSMircea Trofin ~RegAllocScoring() override = default;
83e67430ccSMircea Trofin
getPassName() const84e67430ccSMircea Trofin StringRef getPassName() const override {
85e67430ccSMircea Trofin return "Register Allocation Pass Scoring";
86e67430ccSMircea Trofin }
87e67430ccSMircea Trofin
88e67430ccSMircea Trofin /// RegAllocReward analysis usage.
getAnalysisUsage(AnalysisUsage & AU) const89e67430ccSMircea Trofin void getAnalysisUsage(AnalysisUsage &AU) const override {
90e67430ccSMircea Trofin AU.setPreservesAll();
91e67430ccSMircea Trofin AU.addRequired<RegAllocEvictionAdvisorAnalysis>();
92e67430ccSMircea Trofin AU.addRequired<MachineBlockFrequencyInfo>();
93e67430ccSMircea Trofin MachineFunctionPass::getAnalysisUsage(AU);
94e67430ccSMircea Trofin }
95e67430ccSMircea Trofin
96e67430ccSMircea Trofin /// Performs this pass
97e67430ccSMircea Trofin bool runOnMachineFunction(MachineFunction &) override;
98e67430ccSMircea Trofin };
99e67430ccSMircea Trofin
100e67430ccSMircea Trofin char RegAllocScoring::ID = 0;
createRegAllocScoringPass()101073e0968SMircea Trofin FunctionPass *createRegAllocScoringPass() { return new RegAllocScoring(); }
102073e0968SMircea Trofin
103073e0968SMircea Trofin } // namespace llvm
104e67430ccSMircea Trofin
105e67430ccSMircea Trofin INITIALIZE_PASS(RegAllocScoring, "regallocscoringpass",
106e67430ccSMircea Trofin "Register Allocation Scoring Pass", false, false)
107e67430ccSMircea Trofin
108e67430ccSMircea Trofin // ===================================
109e67430ccSMircea Trofin // Common ML Advisor declarations
110e67430ccSMircea Trofin // ===================================
11168ac7b17SMircea Trofin namespace {
11268ac7b17SMircea Trofin // This is the maximum number of interfererring ranges. That's the number of
11368ac7b17SMircea Trofin // distinct AllocationOrder values, which comes from MCRegisterClass::RegsSize.
11468ac7b17SMircea Trofin // For X86, that's 32.
11568ac7b17SMircea Trofin // TODO: find a way to get this, statically, in a programmatic way.
11668ac7b17SMircea Trofin static const int64_t MaxInterferences = 32;
11768ac7b17SMircea Trofin
11868ac7b17SMircea Trofin // Logically, we can think of the feature set given to the evaluator as a 2D
11968ac7b17SMircea Trofin // matrix. The rows are the features (see next). The columns correspond to the
12068ac7b17SMircea Trofin // interferences. We treat the candidate virt reg as an 'interference', too, as
12168ac7b17SMircea Trofin // its feature set is the same as that of the interferring ranges. So we'll have
12268ac7b17SMircea Trofin // MaxInterferences + 1 columns and by convention, we will use the last column
12368ac7b17SMircea Trofin // for the virt reg seeking allocation.
12468ac7b17SMircea Trofin static const int64_t CandidateVirtRegPos = MaxInterferences;
12568ac7b17SMircea Trofin static const int64_t NumberOfInterferences = CandidateVirtRegPos + 1;
12668ac7b17SMircea Trofin
12768ac7b17SMircea Trofin // Most features are as described above, so we'll reuse this vector in defining
12868ac7b17SMircea Trofin // them.
12968ac7b17SMircea Trofin static const std::vector<int64_t> PerLiveRangeShape{1, NumberOfInterferences};
13068ac7b17SMircea Trofin
13168ac7b17SMircea Trofin // --------------
13268ac7b17SMircea Trofin // Features table
13368ac7b17SMircea Trofin // --------------
13468ac7b17SMircea Trofin // For each interfering live range (incl. the candidate) we collect a number of
13568ac7b17SMircea Trofin // features. However, because the features are of different types (and because
13668ac7b17SMircea Trofin // of ML best practices), we organize the tensors per feature, not per
13768ac7b17SMircea Trofin // candidate. Each such tensor has a scalar value corresponding to the
13868ac7b17SMircea Trofin // interferring live range at that position, in the order in AllocationOrder.
13968ac7b17SMircea Trofin // The last position corresponds to the virt reg seeking allocation.
14068ac7b17SMircea Trofin // Exception to all that is the progression feature, which is just a scalar (see
14168ac7b17SMircea Trofin // its documentation for details).
14268ac7b17SMircea Trofin // Note on naming: the "_by_max" are normalized using the largest value of that
14368ac7b17SMircea Trofin // tensor, as observed in the current decision making stage (i.e. for the
14468ac7b17SMircea Trofin // current call to the advisor's tryFindEvictionCandidate)
14568ac7b17SMircea Trofin //
14668ac7b17SMircea Trofin // The feature list format: type, name, shape, documentation.
14768ac7b17SMircea Trofin // Note: we can really just use int64 and float, hence the modeling of some
14868ac7b17SMircea Trofin // bools as int64 values.
14968ac7b17SMircea Trofin #define RA_EVICT_FEATURES_LIST(M) \
15068ac7b17SMircea Trofin M(int64_t, mask, PerLiveRangeShape, \
15168ac7b17SMircea Trofin "boolean values, 0 for unavailable candidates (i.e. if a position is 0, " \
15268ac7b17SMircea Trofin "it " \
15368ac7b17SMircea Trofin "can't be evicted)") \
15468ac7b17SMircea Trofin M(int64_t, is_free, PerLiveRangeShape, \
15568ac7b17SMircea Trofin "boolean values, 1 if this phys reg is actually free (no interferences)") \
15668ac7b17SMircea Trofin M(float, nr_urgent, PerLiveRangeShape, \
15768ac7b17SMircea Trofin "number of 'urgent' intervals, normalized. Urgent are those that are OK " \
15868ac7b17SMircea Trofin "to break cascades") \
15968ac7b17SMircea Trofin M(float, nr_broken_hints, PerLiveRangeShape, \
16068ac7b17SMircea Trofin "if this position were evicted, how many broken hints would there be") \
16168ac7b17SMircea Trofin M(int64_t, is_hint, PerLiveRangeShape, \
16268ac7b17SMircea Trofin "is this a preferred phys reg for the candidate") \
16368ac7b17SMircea Trofin M(int64_t, is_local, PerLiveRangeShape, \
16468ac7b17SMircea Trofin "is this live range local to a basic block") \
16568ac7b17SMircea Trofin M(float, nr_rematerializable, PerLiveRangeShape, \
16668ac7b17SMircea Trofin "nr rematerializable ranges") \
16768ac7b17SMircea Trofin M(float, nr_defs_and_uses, PerLiveRangeShape, \
16868ac7b17SMircea Trofin "bb freq - weighed nr defs and uses") \
16968ac7b17SMircea Trofin M(float, weighed_reads_by_max, PerLiveRangeShape, \
17068ac7b17SMircea Trofin "bb freq - weighed nr of reads, normalized") \
17168ac7b17SMircea Trofin M(float, weighed_writes_by_max, PerLiveRangeShape, \
17268ac7b17SMircea Trofin "bb feq - weighed nr of writes, normalized") \
17368ac7b17SMircea Trofin M(float, weighed_read_writes_by_max, PerLiveRangeShape, \
17468ac7b17SMircea Trofin "bb freq - weighed nr of uses that are both read and writes, normalized") \
17568ac7b17SMircea Trofin M(float, weighed_indvars_by_max, PerLiveRangeShape, \
17668ac7b17SMircea Trofin "bb freq - weighed nr of uses that are indvars, normalized") \
17768ac7b17SMircea Trofin M(float, hint_weights_by_max, PerLiveRangeShape, \
17868ac7b17SMircea Trofin "bb freq - weighed nr of uses that are hints, normalized") \
17968ac7b17SMircea Trofin M(float, start_bb_freq_by_max, PerLiveRangeShape, \
18068ac7b17SMircea Trofin "the freq in the start block, normalized") \
18168ac7b17SMircea Trofin M(float, end_bb_freq_by_max, PerLiveRangeShape, \
18268ac7b17SMircea Trofin "freq of end block, normalized") \
18368ac7b17SMircea Trofin M(float, hottest_bb_freq_by_max, PerLiveRangeShape, \
18468ac7b17SMircea Trofin "hottest BB freq, normalized") \
18568ac7b17SMircea Trofin M(float, liverange_size, PerLiveRangeShape, \
18668ac7b17SMircea Trofin "size (instr index diff) of the LR") \
18768ac7b17SMircea Trofin M(float, use_def_density, PerLiveRangeShape, \
18868ac7b17SMircea Trofin "the max weight, as computed by the manual heuristic") \
18968ac7b17SMircea Trofin M(int64_t, max_stage, PerLiveRangeShape, \
19068ac7b17SMircea Trofin "largest stage of an interval in this LR") \
19168ac7b17SMircea Trofin M(int64_t, min_stage, PerLiveRangeShape, \
19268ac7b17SMircea Trofin "lowest stage of an interval in this LR") \
19368ac7b17SMircea Trofin M(float, progress, {1}, "ratio of current queue size to initial size")
19468ac7b17SMircea Trofin
19568ac7b17SMircea Trofin // The model learns to pick one of the mask == 1 interferences. This is the name
19668ac7b17SMircea Trofin // of the output tensor.
19768ac7b17SMircea Trofin // The contract with the model is that the output will be guaranteed to be to a
19868ac7b17SMircea Trofin // mask == 1 position.
199b1af01feSMircea Trofin // Using a macro here to avoid 'not used' warnings (and keep cond compilation to
200b1af01feSMircea Trofin // a minimum)
201b1af01feSMircea Trofin #define DecisionName "index_to_evict"
20268ac7b17SMircea Trofin
20368ac7b17SMircea Trofin // Named features index.
20468ac7b17SMircea Trofin enum FeatureIDs {
20568ac7b17SMircea Trofin #define _FEATURE_IDX(_, name, __, ___) name,
20668ac7b17SMircea Trofin RA_EVICT_FEATURES_LIST(_FEATURE_IDX)
20768ac7b17SMircea Trofin #undef _FEATURE_IDX
20868ac7b17SMircea Trofin FeatureCount
20968ac7b17SMircea Trofin };
21068ac7b17SMircea Trofin
21168ac7b17SMircea Trofin // The ML advisor will typically have a sparse input to the evaluator, because
21268ac7b17SMircea Trofin // various phys regs won't be available. It's easier (maintenance-wise) to
21368ac7b17SMircea Trofin // bulk-reset the state of the evaluator each time we are about to use it again.
getTotalSize(const std::vector<int64_t> & Shape)21468ac7b17SMircea Trofin template <typename T> size_t getTotalSize(const std::vector<int64_t> &Shape) {
21568ac7b17SMircea Trofin size_t Ret = sizeof(T);
21668ac7b17SMircea Trofin for (const auto V : Shape)
21768ac7b17SMircea Trofin Ret *= V;
21868ac7b17SMircea Trofin return Ret;
21968ac7b17SMircea Trofin }
22068ac7b17SMircea Trofin
resetInputs(MLModelRunner & Runner)22168ac7b17SMircea Trofin void resetInputs(MLModelRunner &Runner) {
22268ac7b17SMircea Trofin #define _RESET(TYPE, NAME, SHAPE, __) \
22368ac7b17SMircea Trofin std::memset(Runner.getTensorUntyped(FeatureIDs::NAME), 0, \
22468ac7b17SMircea Trofin getTotalSize<TYPE>(SHAPE));
22568ac7b17SMircea Trofin RA_EVICT_FEATURES_LIST(_RESET)
22668ac7b17SMircea Trofin #undef _RESET
22768ac7b17SMircea Trofin }
22868ac7b17SMircea Trofin
2299aa2c914SMircea Trofin // Per-live interval components that get aggregated into the feature values that
2309aa2c914SMircea Trofin // will be passed to the evaluator.
2319aa2c914SMircea Trofin struct LIFeatureComponents {
2329aa2c914SMircea Trofin double R = 0;
2339aa2c914SMircea Trofin double W = 0;
2349aa2c914SMircea Trofin double RW = 0;
2359aa2c914SMircea Trofin double IndVarUpdates = 0;
2369aa2c914SMircea Trofin double HintWeights = 0.0;
2379aa2c914SMircea Trofin int64_t NrDefsAndUses = 0;
2389aa2c914SMircea Trofin float HottestBlockFreq = 0.0;
2399aa2c914SMircea Trofin bool IsRemat = false;
2409aa2c914SMircea Trofin };
2419aa2c914SMircea Trofin
242e67430ccSMircea Trofin using CandidateRegList =
243e67430ccSMircea Trofin std::array<std::pair<MCRegister, bool>, NumberOfInterferences>;
244e67430ccSMircea Trofin using FeaturesListNormalizer = std::array<float, FeatureIDs::FeatureCount>;
245e67430ccSMircea Trofin
246e67430ccSMircea Trofin /// The ML evictor (commonalities between release and development mode)
247e67430ccSMircea Trofin class MLEvictAdvisor : public RegAllocEvictionAdvisor {
248e67430ccSMircea Trofin public:
24979b98f0aSMircea Trofin MLEvictAdvisor(const MachineFunction &MF, const RAGreedy &RA,
25079b98f0aSMircea Trofin MLModelRunner *Runner, const MachineBlockFrequencyInfo &MBFI,
251e67430ccSMircea Trofin const MachineLoopInfo &Loops);
252e67430ccSMircea Trofin
253e67430ccSMircea Trofin protected:
getDefaultAdvisor() const254e67430ccSMircea Trofin const RegAllocEvictionAdvisor &getDefaultAdvisor() const {
255e67430ccSMircea Trofin return static_cast<const RegAllocEvictionAdvisor &>(DefaultAdvisor);
256e67430ccSMircea Trofin }
257e67430ccSMircea Trofin
258e67430ccSMircea Trofin // The assumption is that if the Runner could not be constructed, we emit-ed
259e67430ccSMircea Trofin // error, and we shouldn't be asking for it here.
getRunner() const260e67430ccSMircea Trofin const MLModelRunner &getRunner() const { return *Runner; }
261e67430ccSMircea Trofin
262e67430ccSMircea Trofin /// This just calls Evaluate on the Runner, but in the development mode case,
263e67430ccSMircea Trofin /// if we're just capturing the log of the default advisor, it needs to call
264e67430ccSMircea Trofin /// the latter instead, so we need to pass all the necessary parameters for
265e67430ccSMircea Trofin /// it. In the development case, it will also log.
266592f52deSMircea Trofin virtual int64_t
267592f52deSMircea Trofin tryFindEvictionCandidatePosition(const LiveInterval &VirtReg,
268592f52deSMircea Trofin const AllocationOrder &Order,
269592f52deSMircea Trofin unsigned OrderLimit, uint8_t CostPerUseLimit,
270592f52deSMircea Trofin const SmallVirtRegSet &FixedRegisters) const;
271e67430ccSMircea Trofin
272e67430ccSMircea Trofin /// Load the features of the given VirtReg (allocated or not) at column Pos,
273e67430ccSMircea Trofin /// but if that can't be evicted, return false instead.
274e67430ccSMircea Trofin bool
275592f52deSMircea Trofin loadInterferenceFeatures(const LiveInterval &VirtReg, MCRegister PhysReg,
276e67430ccSMircea Trofin bool IsHint, const SmallVirtRegSet &FixedRegisters,
277e67430ccSMircea Trofin std::array<float, FeatureIDs::FeatureCount> &Largest,
278e67430ccSMircea Trofin size_t Pos) const;
279e67430ccSMircea Trofin
280e67430ccSMircea Trofin private:
281e67430ccSMircea Trofin static float getInitialQueueSize(const MachineFunction &MF);
282e67430ccSMircea Trofin
283e67430ccSMircea Trofin MCRegister tryFindEvictionCandidate(
284592f52deSMircea Trofin const LiveInterval &VirtReg, const AllocationOrder &Order,
285e67430ccSMircea Trofin uint8_t CostPerUseLimit,
286e67430ccSMircea Trofin const SmallVirtRegSet &FixedRegisters) const override;
287e67430ccSMircea Trofin
288592f52deSMircea Trofin void extractFeatures(const SmallVectorImpl<const LiveInterval *> &Intervals,
289e67430ccSMircea Trofin std::array<float, FeatureIDs::FeatureCount> &Largest,
290e67430ccSMircea Trofin size_t Pos, int64_t IsHint, int64_t LocalIntfsCount,
291e67430ccSMircea Trofin float NrUrgent) const;
292e67430ccSMircea Trofin
293e67430ccSMircea Trofin // Point-in-time: we didn't learn this, so we always delegate to the default.
canEvictHintInterference(const LiveInterval & VirtReg,MCRegister PhysReg,const SmallVirtRegSet & FixedRegisters) const294e67430ccSMircea Trofin bool canEvictHintInterference(
295592f52deSMircea Trofin const LiveInterval &VirtReg, MCRegister PhysReg,
296e67430ccSMircea Trofin const SmallVirtRegSet &FixedRegisters) const override {
297e67430ccSMircea Trofin return getDefaultAdvisor().canEvictHintInterference(VirtReg, PhysReg,
298e67430ccSMircea Trofin FixedRegisters);
299e67430ccSMircea Trofin }
300e67430ccSMircea Trofin
30191a33ad3SMircea Trofin const LIFeatureComponents &
3029aa2c914SMircea Trofin getLIFeatureComponents(const LiveInterval &LI) const;
3039aa2c914SMircea Trofin
304e67430ccSMircea Trofin // Hold on to a default advisor for:
305e67430ccSMircea Trofin // 1) the implementation of canEvictHintInterference, because we didn't learn
306e67430ccSMircea Trofin // that nuance yet;
307e67430ccSMircea Trofin // 2) for bootstrapping (logging) in the development mode case.
308e67430ccSMircea Trofin const DefaultEvictionAdvisor DefaultAdvisor;
309e67430ccSMircea Trofin MLModelRunner *const Runner;
310e67430ccSMircea Trofin const MachineBlockFrequencyInfo &MBFI;
311e67430ccSMircea Trofin const MachineLoopInfo &Loops;
312e67430ccSMircea Trofin
313e67430ccSMircea Trofin // Indices of those features we don't want to normalize.
314e67430ccSMircea Trofin // This could be static and shared, but its initialization is non-trivial.
315e67430ccSMircea Trofin std::bitset<FeatureIDs::FeatureCount> DoNotNormalize;
316e67430ccSMircea Trofin const float InitialQSize;
31791a33ad3SMircea Trofin
31891a33ad3SMircea Trofin using RegID = unsigned;
31991a33ad3SMircea Trofin mutable DenseMap<RegID, LIFeatureComponents> CachedFeatures;
320e67430ccSMircea Trofin };
321e67430ccSMircea Trofin
322c35ad9eeSMircea Trofin #define _DECL_FEATURES(type, name, shape, _) \
323c35ad9eeSMircea Trofin TensorSpec::createSpec<type>(#name, shape),
324c35ad9eeSMircea Trofin
325c35ad9eeSMircea Trofin static const std::vector<TensorSpec> InputFeatures{
326c35ad9eeSMircea Trofin {RA_EVICT_FEATURES_LIST(_DECL_FEATURES)},
327c35ad9eeSMircea Trofin };
328c35ad9eeSMircea Trofin #undef _DECL_FEATURES
329e67430ccSMircea Trofin // ===================================
330e67430ccSMircea Trofin // Release (AOT) - specifics
331e67430ccSMircea Trofin // ===================================
332e67430ccSMircea Trofin class ReleaseModeEvictionAdvisorAnalysis final
333e67430ccSMircea Trofin : public RegAllocEvictionAdvisorAnalysis {
334e67430ccSMircea Trofin public:
ReleaseModeEvictionAdvisorAnalysis()335e67430ccSMircea Trofin ReleaseModeEvictionAdvisorAnalysis()
336e67430ccSMircea Trofin : RegAllocEvictionAdvisorAnalysis(AdvisorMode::Release) {}
337e67430ccSMircea Trofin // support for isa<> and dyn_cast.
classof(const RegAllocEvictionAdvisorAnalysis * R)338e67430ccSMircea Trofin static bool classof(const RegAllocEvictionAdvisorAnalysis *R) {
339e67430ccSMircea Trofin return R->getAdvisorMode() == AdvisorMode::Release;
340e67430ccSMircea Trofin }
341e67430ccSMircea Trofin
342e67430ccSMircea Trofin private:
getAnalysisUsage(AnalysisUsage & AU) const343e67430ccSMircea Trofin void getAnalysisUsage(AnalysisUsage &AU) const override {
344e67430ccSMircea Trofin AU.addRequired<MachineBlockFrequencyInfo>();
345e67430ccSMircea Trofin AU.addRequired<MachineLoopInfo>();
346e67430ccSMircea Trofin RegAllocEvictionAdvisorAnalysis::getAnalysisUsage(AU);
347e67430ccSMircea Trofin }
348e67430ccSMircea Trofin
349e67430ccSMircea Trofin std::unique_ptr<RegAllocEvictionAdvisor>
getAdvisor(const MachineFunction & MF,const RAGreedy & RA)35079b98f0aSMircea Trofin getAdvisor(const MachineFunction &MF, const RAGreedy &RA) override {
351e67430ccSMircea Trofin if (!Runner)
3525a50ab4dSMircea Trofin Runner = std::make_unique<ReleaseModeModelRunner<CompiledModelType>>(
353c35ad9eeSMircea Trofin MF.getFunction().getContext(), InputFeatures, DecisionName);
354e67430ccSMircea Trofin return std::make_unique<MLEvictAdvisor>(
355e67430ccSMircea Trofin MF, RA, Runner.get(), getAnalysis<MachineBlockFrequencyInfo>(),
356e67430ccSMircea Trofin getAnalysis<MachineLoopInfo>());
357e67430ccSMircea Trofin }
3585a50ab4dSMircea Trofin std::unique_ptr<ReleaseModeModelRunner<CompiledModelType>> Runner;
359e67430ccSMircea Trofin };
360e67430ccSMircea Trofin
361e67430ccSMircea Trofin // ===================================
36268ac7b17SMircea Trofin // Development mode-specifics
363e67430ccSMircea Trofin // ===================================
364e67430ccSMircea Trofin //
365e67430ccSMircea Trofin // Features we log
36668ac7b17SMircea Trofin #ifdef LLVM_HAVE_TF_API
36768ac7b17SMircea Trofin static const TensorSpec Output =
36868ac7b17SMircea Trofin TensorSpec::createSpec<int64_t>(DecisionName, {1});
369b2d2e931SMircea Trofin static const TensorSpec Reward = TensorSpec::createSpec<float>("reward", {1});
37068ac7b17SMircea Trofin
371e67430ccSMircea Trofin // Features we bind on the model. The tensor names have a prefix, and we also
372e67430ccSMircea Trofin // need to include some tensors that are expected to be present by the training
373e67430ccSMircea Trofin // algo.
374e67430ccSMircea Trofin // TODO: can we just get rid of these?
375e67430ccSMircea Trofin #define _DECL_TRAIN_FEATURES(type, name, shape, _) \
376e67430ccSMircea Trofin TensorSpec::createSpec<type>(std::string("action_") + #name, shape),
377e67430ccSMircea Trofin
378e67430ccSMircea Trofin static const std::vector<TensorSpec> TrainingInputFeatures{
379e67430ccSMircea Trofin {RA_EVICT_FEATURES_LIST(_DECL_TRAIN_FEATURES)
380e67430ccSMircea Trofin TensorSpec::createSpec<float>("action_discount", {1}),
381e67430ccSMircea Trofin TensorSpec::createSpec<int32_t>("action_step_type", {1}),
382e67430ccSMircea Trofin TensorSpec::createSpec<float>("action_reward", {1})}};
383e67430ccSMircea Trofin #undef _DECL_TRAIN_FEATURES
384e67430ccSMircea Trofin
385e67430ccSMircea Trofin class DevelopmentModeEvictAdvisor : public MLEvictAdvisor {
386e67430ccSMircea Trofin public:
DevelopmentModeEvictAdvisor(const MachineFunction & MF,const RAGreedy & RA,MLModelRunner * Runner,const MachineBlockFrequencyInfo & MBFI,const MachineLoopInfo & Loops,Logger * Log)38779b98f0aSMircea Trofin DevelopmentModeEvictAdvisor(const MachineFunction &MF, const RAGreedy &RA,
388e67430ccSMircea Trofin MLModelRunner *Runner,
389e67430ccSMircea Trofin const MachineBlockFrequencyInfo &MBFI,
390e67430ccSMircea Trofin const MachineLoopInfo &Loops, Logger *Log)
391e67430ccSMircea Trofin : MLEvictAdvisor(MF, RA, Runner, MBFI, Loops), Log(Log) {}
392e67430ccSMircea Trofin
393e67430ccSMircea Trofin private:
394e67430ccSMircea Trofin int64_t tryFindEvictionCandidatePosition(
395592f52deSMircea Trofin const LiveInterval &VirtReg, const AllocationOrder &Order,
396592f52deSMircea Trofin unsigned OrderLimit, uint8_t CostPerUseLimit,
397e67430ccSMircea Trofin const SmallVirtRegSet &FixedRegisters) const override;
398e67430ccSMircea Trofin
399e67430ccSMircea Trofin Logger *const Log;
400e67430ccSMircea Trofin };
401e67430ccSMircea Trofin
402e67430ccSMircea Trofin class DevelopmentModeEvictionAdvisorAnalysis final
403e67430ccSMircea Trofin : public RegAllocEvictionAdvisorAnalysis {
404e67430ccSMircea Trofin public:
DevelopmentModeEvictionAdvisorAnalysis()405e67430ccSMircea Trofin DevelopmentModeEvictionAdvisorAnalysis()
406e67430ccSMircea Trofin : RegAllocEvictionAdvisorAnalysis(AdvisorMode::Development) {}
407e67430ccSMircea Trofin // support for isa<> and dyn_cast.
classof(const RegAllocEvictionAdvisorAnalysis * R)408e67430ccSMircea Trofin static bool classof(const RegAllocEvictionAdvisorAnalysis *R) {
409e67430ccSMircea Trofin return R->getAdvisorMode() == AdvisorMode::Development;
410e67430ccSMircea Trofin }
411e67430ccSMircea Trofin
412e67430ccSMircea Trofin /// get the logger for the given function, or nullptr if we didn't collect
413e67430ccSMircea Trofin /// one. This is used to inject the score by the RegAllocScoring pass.
getLogger(const MachineFunction & MF) const414e67430ccSMircea Trofin Logger *getLogger(const MachineFunction &MF) const {
415e67430ccSMircea Trofin auto I = LogMap.find(MF.getName());
416e67430ccSMircea Trofin if (I == LogMap.end())
417e67430ccSMircea Trofin return nullptr;
418e67430ccSMircea Trofin return I->second.get();
419e67430ccSMircea Trofin }
420e67430ccSMircea Trofin
421e67430ccSMircea Trofin private:
getAnalysisUsage(AnalysisUsage & AU) const422e67430ccSMircea Trofin void getAnalysisUsage(AnalysisUsage &AU) const override {
423e67430ccSMircea Trofin AU.addRequired<MachineBlockFrequencyInfo>();
424e67430ccSMircea Trofin AU.addRequired<MachineLoopInfo>();
425e67430ccSMircea Trofin RegAllocEvictionAdvisorAnalysis::getAnalysisUsage(AU);
426e67430ccSMircea Trofin }
427e67430ccSMircea Trofin
428e67430ccSMircea Trofin // Save all the logs (when requested).
doFinalization(Module & M)429e67430ccSMircea Trofin bool doFinalization(Module &M) override {
430e67430ccSMircea Trofin if (TrainingLog.empty())
431e67430ccSMircea Trofin return false;
432e67430ccSMircea Trofin std::error_code EC;
433e67430ccSMircea Trofin auto OS = std::make_unique<raw_fd_ostream>(TrainingLog, EC);
434e67430ccSMircea Trofin if (EC) {
435e67430ccSMircea Trofin M.getContext().emitError(EC.message() + ":" + TrainingLog);
436e67430ccSMircea Trofin return false;
437e67430ccSMircea Trofin }
438e67430ccSMircea Trofin Logger::flushLogs(*OS, LogMap);
439e67430ccSMircea Trofin return false;
440e67430ccSMircea Trofin }
441e67430ccSMircea Trofin
442e67430ccSMircea Trofin std::unique_ptr<RegAllocEvictionAdvisor>
getAdvisor(const MachineFunction & MF,const RAGreedy & RA)44379b98f0aSMircea Trofin getAdvisor(const MachineFunction &MF, const RAGreedy &RA) override {
444e67430ccSMircea Trofin LLVMContext &Ctx = MF.getFunction().getContext();
445e67430ccSMircea Trofin if (ModelUnderTraining.empty() && TrainingLog.empty()) {
446e67430ccSMircea Trofin Ctx.emitError("Regalloc development mode should be requested with at "
447e67430ccSMircea Trofin "least logging enabled and/or a training model");
448e67430ccSMircea Trofin return nullptr;
449e67430ccSMircea Trofin }
450e67430ccSMircea Trofin if (!Runner) {
451e67430ccSMircea Trofin if (ModelUnderTraining.empty())
452e67430ccSMircea Trofin Runner = std::make_unique<NoInferenceModelRunner>(Ctx, InputFeatures);
453e67430ccSMircea Trofin else
454e67430ccSMircea Trofin Runner = ModelUnderTrainingRunner::createAndEnsureValid(
455e67430ccSMircea Trofin Ctx, ModelUnderTraining, DecisionName, TrainingInputFeatures);
456e67430ccSMircea Trofin if (!Runner) {
457e67430ccSMircea Trofin Ctx.emitError("Regalloc: could not set up the model runner");
458e67430ccSMircea Trofin return nullptr;
459e67430ccSMircea Trofin }
460e67430ccSMircea Trofin }
461e67430ccSMircea Trofin
462e67430ccSMircea Trofin Logger *Log = nullptr;
463e67430ccSMircea Trofin if (!TrainingLog.empty()) {
464e67430ccSMircea Trofin std::vector<LoggedFeatureSpec> LFS;
465e67430ccSMircea Trofin for (const auto &FS : InputFeatures)
466e67430ccSMircea Trofin LFS.push_back({FS, None});
467e67430ccSMircea Trofin if (auto *MUTR = dyn_cast<ModelUnderTrainingRunner>(Runner.get()))
468e67430ccSMircea Trofin if (MUTR->outputLoggedFeatureSpecs().size() > 1)
469e67430ccSMircea Trofin append_range(LFS, drop_begin(MUTR->outputLoggedFeatureSpecs()));
470e67430ccSMircea Trofin // We always log the output; in particular, if we're not evaluating, we
471e67430ccSMircea Trofin // don't have an output spec json file. That's why we handle the
472e67430ccSMircea Trofin // 'normal' output separately.
473e67430ccSMircea Trofin LFS.push_back({Output, None});
474e67430ccSMircea Trofin auto I = LogMap.insert(std::make_pair(
475e67430ccSMircea Trofin MF.getFunction().getName(),
476e67430ccSMircea Trofin std::make_unique<Logger>(LFS, Reward, /*IncludeReward*/ true)));
477e67430ccSMircea Trofin assert(I.second);
478e67430ccSMircea Trofin Log = I.first->second.get();
479e67430ccSMircea Trofin }
480e67430ccSMircea Trofin return std::make_unique<DevelopmentModeEvictAdvisor>(
481e67430ccSMircea Trofin MF, RA, Runner.get(), getAnalysis<MachineBlockFrequencyInfo>(),
482e67430ccSMircea Trofin getAnalysis<MachineLoopInfo>(), Log);
483e67430ccSMircea Trofin }
484e67430ccSMircea Trofin
485e67430ccSMircea Trofin std::unique_ptr<MLModelRunner> Runner;
486e67430ccSMircea Trofin StringMap<std::unique_ptr<Logger>> LogMap;
487e67430ccSMircea Trofin };
48868ac7b17SMircea Trofin #endif //#ifdef LLVM_HAVE_TF_API
48968ac7b17SMircea Trofin } // namespace
490e67430ccSMircea Trofin
getInitialQueueSize(const MachineFunction & MF)491e67430ccSMircea Trofin float MLEvictAdvisor::getInitialQueueSize(const MachineFunction &MF) {
492e67430ccSMircea Trofin auto &MRI = MF.getRegInfo();
493e67430ccSMircea Trofin float Ret = 0.0;
494e67430ccSMircea Trofin for (unsigned I = 0, E = MRI.getNumVirtRegs(); I != E; ++I) {
495e67430ccSMircea Trofin Register Reg = Register::index2VirtReg(I);
496e67430ccSMircea Trofin if (MRI.reg_nodbg_empty(Reg))
497e67430ccSMircea Trofin continue;
498e67430ccSMircea Trofin ++Ret;
499e67430ccSMircea Trofin }
500e67430ccSMircea Trofin return Ret;
501e67430ccSMircea Trofin }
502e67430ccSMircea Trofin
MLEvictAdvisor(const MachineFunction & MF,const RAGreedy & RA,MLModelRunner * Runner,const MachineBlockFrequencyInfo & MBFI,const MachineLoopInfo & Loops)50379b98f0aSMircea Trofin MLEvictAdvisor::MLEvictAdvisor(const MachineFunction &MF, const RAGreedy &RA,
504e67430ccSMircea Trofin MLModelRunner *Runner,
505e67430ccSMircea Trofin const MachineBlockFrequencyInfo &MBFI,
506e67430ccSMircea Trofin const MachineLoopInfo &Loops)
507e67430ccSMircea Trofin : RegAllocEvictionAdvisor(MF, RA), DefaultAdvisor(MF, RA),
508e67430ccSMircea Trofin Runner(std::move(Runner)), MBFI(MBFI), Loops(Loops),
509e67430ccSMircea Trofin InitialQSize(MLEvictAdvisor::getInitialQueueSize(MF)) {
510e67430ccSMircea Trofin assert(this->Runner);
511e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::mask);
512e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::is_free);
513e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::is_hint);
514e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::is_local);
515e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::min_stage);
516e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::max_stage);
517e67430ccSMircea Trofin DoNotNormalize.set(FeatureIDs::progress);
518e67430ccSMircea Trofin }
519e67430ccSMircea Trofin
tryFindEvictionCandidatePosition(const LiveInterval &,const AllocationOrder &,unsigned,uint8_t,const SmallVirtRegSet &) const520e67430ccSMircea Trofin int64_t MLEvictAdvisor::tryFindEvictionCandidatePosition(
521592f52deSMircea Trofin const LiveInterval &, const AllocationOrder &, unsigned, uint8_t,
522e67430ccSMircea Trofin const SmallVirtRegSet &) const {
523e67430ccSMircea Trofin int64_t Ret = Runner->evaluate<int64_t>();
524e67430ccSMircea Trofin assert(Ret >= 0);
525e67430ccSMircea Trofin assert(Ret <= CandidateVirtRegPos);
526e67430ccSMircea Trofin return Ret;
527e67430ccSMircea Trofin }
528e67430ccSMircea Trofin
loadInterferenceFeatures(const LiveInterval & VirtReg,MCRegister PhysReg,bool IsHint,const SmallVirtRegSet & FixedRegisters,FeaturesListNormalizer & Largest,size_t Pos) const529e67430ccSMircea Trofin bool MLEvictAdvisor::loadInterferenceFeatures(
530592f52deSMircea Trofin const LiveInterval &VirtReg, MCRegister PhysReg, bool IsHint,
531e67430ccSMircea Trofin const SmallVirtRegSet &FixedRegisters, FeaturesListNormalizer &Largest,
532e67430ccSMircea Trofin size_t Pos) const {
533e67430ccSMircea Trofin // It is only possible to evict virtual register interference.
534e67430ccSMircea Trofin if (Matrix->checkInterference(VirtReg, PhysReg) > LiveRegMatrix::IK_VirtReg) {
535e67430ccSMircea Trofin // leave unavailable
536e67430ccSMircea Trofin return false;
537e67430ccSMircea Trofin }
538e67430ccSMircea Trofin
539e67430ccSMircea Trofin const bool IsLocal = LIS->intervalIsInOneMBB(VirtReg);
540e67430ccSMircea Trofin int64_t LocalIntfs = 0;
541e67430ccSMircea Trofin float NrUrgent = 0.0f;
542e67430ccSMircea Trofin
543e67430ccSMircea Trofin // The cascade tracking is the same as in the default advisor
544e67430ccSMircea Trofin unsigned Cascade = RA.getExtraInfo().getCascadeOrCurrentNext(VirtReg.reg());
545e67430ccSMircea Trofin
546592f52deSMircea Trofin SmallVector<const LiveInterval *, MaxInterferences> InterferingIntervals;
547e67430ccSMircea Trofin for (MCRegUnitIterator Units(PhysReg, TRI); Units.isValid(); ++Units) {
548e67430ccSMircea Trofin LiveIntervalUnion::Query &Q = Matrix->query(VirtReg, *Units);
549e67430ccSMircea Trofin // Different from the default heuristic, we don't make any assumptions about
550e67430ccSMircea Trofin // what having more than 10 results in the query may mean.
551ed2deab5SMircea Trofin const auto &IFIntervals = Q.interferingVRegs(EvictInterferenceCutoff);
552e67430ccSMircea Trofin if (IFIntervals.empty() && InterferingIntervals.empty())
553e67430ccSMircea Trofin continue;
554ed2deab5SMircea Trofin if (IFIntervals.size() >= EvictInterferenceCutoff)
555ed2deab5SMircea Trofin return false;
556e67430ccSMircea Trofin InterferingIntervals.append(IFIntervals.begin(), IFIntervals.end());
557592f52deSMircea Trofin for (const LiveInterval *Intf : reverse(IFIntervals)) {
558e67430ccSMircea Trofin assert(Register::isVirtualRegister(Intf->reg()) &&
559e67430ccSMircea Trofin "Only expecting virtual register interference from query");
560e67430ccSMircea Trofin // This is the same set of legality checks as in the default case: don't
561e67430ccSMircea Trofin // try to evict fixed regs or 'done' ones. Also don't break cascades,
562e67430ccSMircea Trofin // except in the urgent case, with the same nuances used in the default
563e67430ccSMircea Trofin // heuristic.
564e67430ccSMircea Trofin // We could try sharing this between the advisors, but it may end up
565e67430ccSMircea Trofin // more complex than it is right now.
566e67430ccSMircea Trofin if (FixedRegisters.count(Intf->reg()))
567e67430ccSMircea Trofin return false;
568e67430ccSMircea Trofin if (RA.getExtraInfo().getStage(*Intf) == RS_Done)
569e67430ccSMircea Trofin return false;
570e67430ccSMircea Trofin bool Urgent =
571e67430ccSMircea Trofin !VirtReg.isSpillable() &&
572e67430ccSMircea Trofin (Intf->isSpillable() ||
573e67430ccSMircea Trofin RegClassInfo.getNumAllocatableRegs(MRI->getRegClass(VirtReg.reg())) <
574e67430ccSMircea Trofin RegClassInfo.getNumAllocatableRegs(
575e67430ccSMircea Trofin MRI->getRegClass(Intf->reg())));
576e67430ccSMircea Trofin // Only evict older cascades or live ranges without a cascade.
577e67430ccSMircea Trofin unsigned IntfCascade = RA.getExtraInfo().getCascade(Intf->reg());
578e67430ccSMircea Trofin if (Cascade <= IntfCascade) {
579e67430ccSMircea Trofin if (!Urgent)
580e67430ccSMircea Trofin return false;
581e67430ccSMircea Trofin ++NrUrgent;
582e67430ccSMircea Trofin }
583e67430ccSMircea Trofin
584e67430ccSMircea Trofin LocalIntfs += (IsLocal && LIS->intervalIsInOneMBB(*Intf) &&
585e67430ccSMircea Trofin (!EnableLocalReassign || !canReassign(*Intf, PhysReg)));
586e67430ccSMircea Trofin }
587e67430ccSMircea Trofin }
588e67430ccSMircea Trofin // OK, so if we made it this far, this LR is an eviction candidate, load its
589e67430ccSMircea Trofin // features.
590e67430ccSMircea Trofin extractFeatures(InterferingIntervals, Largest, Pos, IsHint, LocalIntfs,
591e67430ccSMircea Trofin NrUrgent);
592e67430ccSMircea Trofin return true;
593e67430ccSMircea Trofin }
594e67430ccSMircea Trofin
tryFindEvictionCandidate(const LiveInterval & VirtReg,const AllocationOrder & Order,uint8_t CostPerUseLimit,const SmallVirtRegSet & FixedRegisters) const595e67430ccSMircea Trofin MCRegister MLEvictAdvisor::tryFindEvictionCandidate(
596592f52deSMircea Trofin const LiveInterval &VirtReg, const AllocationOrder &Order,
597e67430ccSMircea Trofin uint8_t CostPerUseLimit, const SmallVirtRegSet &FixedRegisters) const {
598e67430ccSMircea Trofin auto MaybeOrderLimit = getOrderLimit(VirtReg, Order, CostPerUseLimit);
599e67430ccSMircea Trofin if (!MaybeOrderLimit)
600e67430ccSMircea Trofin return MCRegister::NoRegister;
601e67430ccSMircea Trofin unsigned OrderLimit = *MaybeOrderLimit;
602e67430ccSMircea Trofin
603e67430ccSMircea Trofin // The heuristic sets initial costs such as, if CostPerUseLimit is
604e67430ccSMircea Trofin // max<uint8_t>, then any of the costs of the legally-evictable intervals
605e67430ccSMircea Trofin // would be lower. When that happens, one of those will be selected.
606e67430ccSMircea Trofin // Therefore, we allow the candidate be selected, unless the candidate is
607e67430ccSMircea Trofin // unspillable, in which case it would be incorrect to not find a register for
608e67430ccSMircea Trofin // it.
609e67430ccSMircea Trofin const bool MustFindEviction =
610e67430ccSMircea Trofin (!VirtReg.isSpillable() && CostPerUseLimit == static_cast<uint8_t>(~0u));
611e67430ccSMircea Trofin // Number of available candidates - if 0, no need to continue.
612e67430ccSMircea Trofin size_t Available = 0;
613e67430ccSMircea Trofin // Make sure we don't have leftover partial state from an attempt where we had
614e67430ccSMircea Trofin // no available candidates and bailed out early.
615e67430ccSMircea Trofin resetInputs(*Runner);
616e67430ccSMircea Trofin
617e67430ccSMircea Trofin // Track the index->register mapping because AllocationOrder doesn't do that
618e67430ccSMircea Trofin // and we'd have to scan it.
619e67430ccSMircea Trofin // Also track their mask, to write asserts/debug.
620e67430ccSMircea Trofin CandidateRegList Regs;
621e67430ccSMircea Trofin Regs.fill({0, false});
622e67430ccSMircea Trofin
623e67430ccSMircea Trofin // Track the largest value of features seen during this eviction session. We
624e67430ccSMircea Trofin // only normalize (some of) the float features, but it's just simpler to
625e67430ccSMircea Trofin // dimension 'Largest' to all the features, especially since we have the
626e67430ccSMircea Trofin // 'DoNotNormalize' list.
627e67430ccSMircea Trofin FeaturesListNormalizer Largest;
628e67430ccSMircea Trofin Largest.fill(0.0);
629e67430ccSMircea Trofin
630e67430ccSMircea Trofin // Same overal idea as in the default eviction policy - we visit the values of
631e67430ccSMircea Trofin // AllocationOrder one at a time. If it's not legally available, we mask off
632e67430ccSMircea Trofin // the corresponding feature column (==do nothing because we already reset all
633e67430ccSMircea Trofin // the features to 0)
634e67430ccSMircea Trofin // Use Pos to capture the column we load features at - in AllocationOrder
635e67430ccSMircea Trofin // order.
636e67430ccSMircea Trofin size_t Pos = 0;
637e67430ccSMircea Trofin for (auto I = Order.begin(), E = Order.getOrderLimitEnd(OrderLimit); I != E;
638e67430ccSMircea Trofin ++I, ++Pos) {
639e67430ccSMircea Trofin MCRegister PhysReg = *I;
640a8a7bf92SMircea Trofin assert(!Regs[Pos].second);
641e67430ccSMircea Trofin assert(PhysReg);
642e67430ccSMircea Trofin if (!canAllocatePhysReg(CostPerUseLimit, PhysReg)) {
643e67430ccSMircea Trofin continue;
644e67430ccSMircea Trofin }
645e67430ccSMircea Trofin if (loadInterferenceFeatures(VirtReg, PhysReg, I.isHint(), FixedRegisters,
646e67430ccSMircea Trofin Largest, Pos)) {
647e67430ccSMircea Trofin ++Available;
648a8a7bf92SMircea Trofin Regs[Pos] = std::make_pair(PhysReg, true);
649e67430ccSMircea Trofin }
650e67430ccSMircea Trofin }
651e67430ccSMircea Trofin if (Available == 0) {
652e67430ccSMircea Trofin // Nothing to decide, nothing to learn.
653e67430ccSMircea Trofin assert(!MustFindEviction);
654e67430ccSMircea Trofin return MCRegister::NoRegister;
655e67430ccSMircea Trofin }
656a8a7bf92SMircea Trofin const size_t ValidPosLimit = Pos;
657e67430ccSMircea Trofin // If we must find eviction, the candidate should be masked out of the
658e67430ccSMircea Trofin // decision making process.
659e67430ccSMircea Trofin Regs[CandidateVirtRegPos].second = !MustFindEviction;
660e67430ccSMircea Trofin if (!MustFindEviction)
661592f52deSMircea Trofin extractFeatures(SmallVector<const LiveInterval *, 1>(1, &VirtReg), Largest,
662e67430ccSMircea Trofin CandidateVirtRegPos, /*IsHint*/ 0, /*LocalIntfsCount*/ 0,
663e67430ccSMircea Trofin /*NrUrgent*/ 0.0);
664e67430ccSMircea Trofin assert(InitialQSize > 0.0 && "We couldn't have gotten here if we had "
665e67430ccSMircea Trofin "nothing to allocate initially.");
666e67430ccSMircea Trofin // Normalize the features.
667e67430ccSMircea Trofin for (auto &V : Largest)
668e67430ccSMircea Trofin V = V ? V : 1.0;
669e67430ccSMircea Trofin for (size_t FeatureIndex = 0; FeatureIndex < FeatureIDs::FeatureCount;
670e67430ccSMircea Trofin ++FeatureIndex) {
671e67430ccSMircea Trofin if (DoNotNormalize.test(FeatureIndex))
672e67430ccSMircea Trofin continue;
673e67430ccSMircea Trofin for (size_t Pos = 0; Pos < NumberOfInterferences; ++Pos) {
674e67430ccSMircea Trofin Runner->getTensor<float>(FeatureIndex)[Pos] /= Largest[FeatureIndex];
675e67430ccSMircea Trofin }
676e67430ccSMircea Trofin }
677e67430ccSMircea Trofin *Runner->getTensor<float>(FeatureIDs::progress) =
678e67430ccSMircea Trofin static_cast<float>(RA.getQueueSize()) / InitialQSize;
679e67430ccSMircea Trofin
680e67430ccSMircea Trofin // Get a decision.
681e67430ccSMircea Trofin size_t CandidatePos = tryFindEvictionCandidatePosition(
682e67430ccSMircea Trofin VirtReg, Order, OrderLimit, CostPerUseLimit, FixedRegisters);
683e67430ccSMircea Trofin // The contract with the ML side is that CandidatePos is mask == 1 (i.e.
684e67430ccSMircea Trofin // Regs[CandidatePos].second)
685e67430ccSMircea Trofin assert(Regs[CandidatePos].second);
686e67430ccSMircea Trofin if (CandidatePos == CandidateVirtRegPos) {
687e67430ccSMircea Trofin assert(!MustFindEviction);
688e67430ccSMircea Trofin return MCRegister::NoRegister;
689e67430ccSMircea Trofin }
690a8a7bf92SMircea Trofin assert(CandidatePos < ValidPosLimit);
6910e691aedSFangrui Song (void)ValidPosLimit;
692e67430ccSMircea Trofin return Regs[CandidatePos].first;
693e67430ccSMircea Trofin }
694e67430ccSMircea Trofin
69591a33ad3SMircea Trofin const LIFeatureComponents &
getLIFeatureComponents(const LiveInterval & LI) const6969aa2c914SMircea Trofin MLEvictAdvisor::getLIFeatureComponents(const LiveInterval &LI) const {
69791a33ad3SMircea Trofin RegID ID = LI.reg().id();
69891a33ad3SMircea Trofin LIFeatureComponents Empty;
69991a33ad3SMircea Trofin auto I = CachedFeatures.insert(std::make_pair(ID, Empty));
70091a33ad3SMircea Trofin LIFeatureComponents &Ret = I.first->getSecond();
70191a33ad3SMircea Trofin if (!I.second)
70291a33ad3SMircea Trofin return Ret;
70391a33ad3SMircea Trofin
7049aa2c914SMircea Trofin SmallPtrSet<MachineInstr *, 8> Visited;
7059aa2c914SMircea Trofin const TargetRegisterInfo &TRI = *MF.getSubtarget().getRegisterInfo();
7069aa2c914SMircea Trofin
7079aa2c914SMircea Trofin for (MachineRegisterInfo::reg_instr_nodbg_iterator
7089aa2c914SMircea Trofin I = MRI->reg_instr_nodbg_begin(LI.reg()),
7099aa2c914SMircea Trofin E = MRI->reg_instr_nodbg_end();
7109aa2c914SMircea Trofin I != E;) {
7119aa2c914SMircea Trofin MachineInstr *MI = &*(I++);
7129aa2c914SMircea Trofin
7139aa2c914SMircea Trofin ++Ret.NrDefsAndUses;
7149aa2c914SMircea Trofin if (!Visited.insert(MI).second)
7159aa2c914SMircea Trofin continue;
7169aa2c914SMircea Trofin
7179aa2c914SMircea Trofin if (MI->isIdentityCopy() || MI->isImplicitDef())
7189aa2c914SMircea Trofin continue;
7199aa2c914SMircea Trofin
7209aa2c914SMircea Trofin bool Reads, Writes;
7219aa2c914SMircea Trofin std::tie(Reads, Writes) = MI->readsWritesVirtualRegister(LI.reg());
7229aa2c914SMircea Trofin
7239aa2c914SMircea Trofin float Freq = MBFI.getBlockFreqRelativeToEntryBlock(MI->getParent());
7249aa2c914SMircea Trofin Ret.HottestBlockFreq = std::max(Freq, Ret.HottestBlockFreq);
7259aa2c914SMircea Trofin
7269aa2c914SMircea Trofin Ret.R += (Reads && !Writes) * Freq;
7279aa2c914SMircea Trofin Ret.W += (!Reads && Writes) * Freq;
7289aa2c914SMircea Trofin Ret.RW += (Reads && Writes) * Freq;
7299aa2c914SMircea Trofin
7309aa2c914SMircea Trofin auto *MBB = MI->getParent();
7319aa2c914SMircea Trofin auto *Loop = Loops.getLoopFor(MBB);
7329aa2c914SMircea Trofin bool IsExiting = Loop ? Loop->isLoopExiting(MBB) : false;
7339aa2c914SMircea Trofin
7349aa2c914SMircea Trofin if (Writes && IsExiting && LIS->isLiveOutOfMBB(LI, MBB))
7359aa2c914SMircea Trofin Ret.IndVarUpdates += Freq;
7369aa2c914SMircea Trofin
7379aa2c914SMircea Trofin if (MI->isCopy() && VirtRegAuxInfo::copyHint(MI, LI.reg(), TRI, *MRI))
7389aa2c914SMircea Trofin Ret.HintWeights += Freq;
7399aa2c914SMircea Trofin }
7409aa2c914SMircea Trofin Ret.IsRemat = VirtRegAuxInfo::isRematerializable(
7419aa2c914SMircea Trofin LI, *LIS, *VRM, *MF.getSubtarget().getInstrInfo());
7429aa2c914SMircea Trofin return Ret;
7439aa2c914SMircea Trofin }
7449aa2c914SMircea Trofin
745e67430ccSMircea Trofin // Overall, this currently mimics what we do for weight calculation, but instead
746e67430ccSMircea Trofin // of accummulating the various features, we keep them separate.
extractFeatures(const SmallVectorImpl<const LiveInterval * > & Intervals,std::array<float,FeatureIDs::FeatureCount> & Largest,size_t Pos,int64_t IsHint,int64_t LocalIntfsCount,float NrUrgent) const747e67430ccSMircea Trofin void MLEvictAdvisor::extractFeatures(
748592f52deSMircea Trofin const SmallVectorImpl<const LiveInterval *> &Intervals,
749e67430ccSMircea Trofin std::array<float, FeatureIDs::FeatureCount> &Largest, size_t Pos,
750e67430ccSMircea Trofin int64_t IsHint, int64_t LocalIntfsCount, float NrUrgent) const {
751e67430ccSMircea Trofin int64_t NrDefsAndUses = 0;
752e67430ccSMircea Trofin int64_t NrBrokenHints = 0;
7539aa2c914SMircea Trofin double R = 0.0;
7549aa2c914SMircea Trofin double W = 0.0;
7559aa2c914SMircea Trofin double RW = 0.0;
7569aa2c914SMircea Trofin double IndVarUpdates = 0.0;
7579aa2c914SMircea Trofin double HintWeights = 0.0;
758e67430ccSMircea Trofin float StartBBFreq = 0.0;
759e67430ccSMircea Trofin float EndBBFreq = 0.0;
760e67430ccSMircea Trofin float HottestBlockFreq = 0.0;
761e67430ccSMircea Trofin int32_t NrRematerializable = 0;
762e67430ccSMircea Trofin float TotalWeight = 0.0;
763e67430ccSMircea Trofin
764e67430ccSMircea Trofin SlotIndex EndSI = LIS->getSlotIndexes()->getZeroIndex();
765e67430ccSMircea Trofin SlotIndex StartSI = LIS->getSlotIndexes()->getLastIndex();
766e67430ccSMircea Trofin int64_t MaxStage = 0;
767e67430ccSMircea Trofin int64_t MinStage =
768e67430ccSMircea Trofin Intervals.empty() ? 0 : std::numeric_limits<int64_t>::max();
769e67430ccSMircea Trofin
770e67430ccSMircea Trofin for (const auto *L : Intervals) {
771e67430ccSMircea Trofin const LiveInterval &LI = *L;
772e67430ccSMircea Trofin MaxStage = std::max<int64_t>(
773e67430ccSMircea Trofin MaxStage, static_cast<int64_t>(RA.getExtraInfo().getStage(LI)));
774e67430ccSMircea Trofin MinStage = std::min<int64_t>(
775e67430ccSMircea Trofin MinStage, static_cast<int64_t>(RA.getExtraInfo().getStage(LI)));
776e67430ccSMircea Trofin
777e67430ccSMircea Trofin TotalWeight = std::max(TotalWeight, LI.weight());
778e67430ccSMircea Trofin
779e67430ccSMircea Trofin if (LI.beginIndex() < StartSI)
780e67430ccSMircea Trofin StartSI = LI.beginIndex();
781e67430ccSMircea Trofin
782e67430ccSMircea Trofin if (LI.endIndex() > EndSI)
783e67430ccSMircea Trofin EndSI = LI.endIndex();
78491a33ad3SMircea Trofin const LIFeatureComponents &LIFC = getLIFeatureComponents(LI);
785a3f14918SMircea Trofin NrBrokenHints += VRM->hasPreferredPhys(LI.reg());
786e67430ccSMircea Trofin
7879aa2c914SMircea Trofin NrDefsAndUses += LIFC.NrDefsAndUses;
7889aa2c914SMircea Trofin HottestBlockFreq = std::max(HottestBlockFreq, LIFC.HottestBlockFreq);
7899aa2c914SMircea Trofin R += LIFC.R;
7909aa2c914SMircea Trofin W += LIFC.W;
7919aa2c914SMircea Trofin RW += LIFC.RW;
792e67430ccSMircea Trofin
7939aa2c914SMircea Trofin IndVarUpdates += LIFC.IndVarUpdates;
794e67430ccSMircea Trofin
7959aa2c914SMircea Trofin HintWeights += LIFC.HintWeights;
7969aa2c914SMircea Trofin NrRematerializable += LIFC.IsRemat;
797e67430ccSMircea Trofin }
798e67430ccSMircea Trofin size_t Size = 0;
799e67430ccSMircea Trofin if (!Intervals.empty()) {
800e67430ccSMircea Trofin StartBBFreq =
801e67430ccSMircea Trofin MBFI.getBlockFreqRelativeToEntryBlock(LIS->getMBBFromIndex(StartSI));
802e67430ccSMircea Trofin if (EndSI >= LIS->getSlotIndexes()->getLastIndex())
803e67430ccSMircea Trofin EndSI = LIS->getSlotIndexes()->getLastIndex().getPrevIndex();
804e67430ccSMircea Trofin EndBBFreq =
805e67430ccSMircea Trofin MBFI.getBlockFreqRelativeToEntryBlock(LIS->getMBBFromIndex(EndSI));
806e67430ccSMircea Trofin Size = StartSI.distance(EndSI);
807e67430ccSMircea Trofin }
808e67430ccSMircea Trofin // Set the features at the column 'Pos'.
809e67430ccSMircea Trofin #define SET(ID, TYPE, VAL) \
810e67430ccSMircea Trofin do { \
811e67430ccSMircea Trofin Runner->getTensor<TYPE>(FeatureIDs::ID)[Pos] = static_cast<TYPE>(VAL); \
812e67430ccSMircea Trofin if (!DoNotNormalize.test(FeatureIDs::ID)) \
813e67430ccSMircea Trofin Largest[FeatureIDs::ID] = \
814e67430ccSMircea Trofin std::max(Largest[FeatureIDs::ID], static_cast<float>(VAL)); \
815e67430ccSMircea Trofin } while (false)
816e67430ccSMircea Trofin SET(mask, int64_t, 1);
817e67430ccSMircea Trofin SET(is_free, int64_t, Intervals.empty());
818e67430ccSMircea Trofin SET(nr_urgent, float, NrUrgent);
819e67430ccSMircea Trofin SET(nr_broken_hints, float, NrBrokenHints);
820e67430ccSMircea Trofin SET(is_hint, int64_t, IsHint);
821e67430ccSMircea Trofin SET(is_local, int64_t, LocalIntfsCount);
822e67430ccSMircea Trofin SET(nr_rematerializable, float, NrRematerializable);
823e67430ccSMircea Trofin SET(nr_defs_and_uses, float, NrDefsAndUses);
824e67430ccSMircea Trofin SET(weighed_reads_by_max, float, R);
825e67430ccSMircea Trofin SET(weighed_writes_by_max, float, W);
826e67430ccSMircea Trofin SET(weighed_read_writes_by_max, float, RW);
827e67430ccSMircea Trofin SET(weighed_indvars_by_max, float, IndVarUpdates);
828e67430ccSMircea Trofin SET(hint_weights_by_max, float, HintWeights);
829e67430ccSMircea Trofin SET(start_bb_freq_by_max, float, StartBBFreq);
830e67430ccSMircea Trofin SET(end_bb_freq_by_max, float, EndBBFreq);
831e67430ccSMircea Trofin SET(hottest_bb_freq_by_max, float, HottestBlockFreq);
832e67430ccSMircea Trofin SET(liverange_size, float, Size);
833e67430ccSMircea Trofin SET(use_def_density, float, TotalWeight);
834e67430ccSMircea Trofin SET(max_stage, int64_t, MaxStage);
835e67430ccSMircea Trofin SET(min_stage, int64_t, MinStage);
836e67430ccSMircea Trofin #undef SET
837e67430ccSMircea Trofin }
838e67430ccSMircea Trofin
839e67430ccSMircea Trofin // Development mode-specific implementations
840e67430ccSMircea Trofin #ifdef LLVM_HAVE_TF_API
createDevelopmentModeAdvisor()841e67430ccSMircea Trofin RegAllocEvictionAdvisorAnalysis *llvm::createDevelopmentModeAdvisor() {
842e67430ccSMircea Trofin return new DevelopmentModeEvictionAdvisorAnalysis();
843e67430ccSMircea Trofin }
844e67430ccSMircea Trofin
tryFindEvictionCandidatePosition(const LiveInterval & VirtReg,const AllocationOrder & Order,unsigned OrderLimit,uint8_t CostPerUseLimit,const SmallVirtRegSet & FixedRegisters) const845e67430ccSMircea Trofin int64_t DevelopmentModeEvictAdvisor::tryFindEvictionCandidatePosition(
846592f52deSMircea Trofin const LiveInterval &VirtReg, const AllocationOrder &Order,
847592f52deSMircea Trofin unsigned OrderLimit, uint8_t CostPerUseLimit,
848592f52deSMircea Trofin const SmallVirtRegSet &FixedRegisters) const {
849e67430ccSMircea Trofin int64_t Ret = 0;
850e67430ccSMircea Trofin if (isa<ModelUnderTrainingRunner>(getRunner())) {
851e67430ccSMircea Trofin Ret = MLEvictAdvisor::tryFindEvictionCandidatePosition(
852e67430ccSMircea Trofin VirtReg, Order, OrderLimit, CostPerUseLimit, FixedRegisters);
853e67430ccSMircea Trofin } else {
854e67430ccSMircea Trofin MCRegister PhysReg = getDefaultAdvisor().tryFindEvictionCandidate(
855e67430ccSMircea Trofin VirtReg, Order, CostPerUseLimit, FixedRegisters);
856e67430ccSMircea Trofin // Find the index of the selected PhysReg. We need it for logging, otherwise
857e67430ccSMircea Trofin // this is wasted cycles (but so would starting development mode without a
858e67430ccSMircea Trofin // model nor logging)
859e67430ccSMircea Trofin if (!PhysReg)
860e67430ccSMircea Trofin Ret = CandidateVirtRegPos;
861e67430ccSMircea Trofin else
862e67430ccSMircea Trofin for (auto I = Order.begin(), E = Order.getOrderLimitEnd(OrderLimit);
863e67430ccSMircea Trofin I != E; ++I, ++Ret)
864e67430ccSMircea Trofin if (*I == PhysReg)
865e67430ccSMircea Trofin break;
866e67430ccSMircea Trofin }
867e67430ccSMircea Trofin if (TrainingLog.empty())
868e67430ccSMircea Trofin return Ret;
869e67430ccSMircea Trofin size_t CurrentFeature = 0;
870e67430ccSMircea Trofin for (; CurrentFeature < FeatureIDs::FeatureCount; ++CurrentFeature) {
871e67430ccSMircea Trofin Log->logSpecifiedTensorValue(
872e67430ccSMircea Trofin CurrentFeature, reinterpret_cast<const char *>(
873e67430ccSMircea Trofin getRunner().getTensorUntyped(CurrentFeature)));
874e67430ccSMircea Trofin }
875e67430ccSMircea Trofin if (auto *MUTR = dyn_cast<ModelUnderTrainingRunner>(&getRunner()))
876e67430ccSMircea Trofin for (size_t I = 1; I < MUTR->outputLoggedFeatureSpecs().size();
877e67430ccSMircea Trofin ++I, ++CurrentFeature)
878e67430ccSMircea Trofin Log->logSpecifiedTensorValue(
879e67430ccSMircea Trofin CurrentFeature,
880e67430ccSMircea Trofin reinterpret_cast<const char *>(
881e67430ccSMircea Trofin MUTR->lastEvaluationResult()->getUntypedTensorValue(I)));
882e67430ccSMircea Trofin // The output is right after the features and the extra outputs
883e67430ccSMircea Trofin Log->logInt64Value(CurrentFeature, &Ret);
884e67430ccSMircea Trofin return Ret;
885e67430ccSMircea Trofin }
886e67430ccSMircea Trofin
runOnMachineFunction(MachineFunction & MF)887e67430ccSMircea Trofin bool RegAllocScoring::runOnMachineFunction(MachineFunction &MF) {
888e67430ccSMircea Trofin if (auto *DevModeAnalysis = dyn_cast<DevelopmentModeEvictionAdvisorAnalysis>(
889e67430ccSMircea Trofin &getAnalysis<RegAllocEvictionAdvisorAnalysis>()))
890e67430ccSMircea Trofin if (auto *Log = DevModeAnalysis->getLogger(MF))
891e67430ccSMircea Trofin Log->logFloatFinalReward(static_cast<float>(
892*8d0383ebSMatt Arsenault calculateRegAllocScore(MF, getAnalysis<MachineBlockFrequencyInfo>())
893e67430ccSMircea Trofin .getScore()));
894e67430ccSMircea Trofin
895e67430ccSMircea Trofin return false;
896e67430ccSMircea Trofin }
897e67430ccSMircea Trofin #endif // #ifdef LLVM_HAVE_TF_API
898e67430ccSMircea Trofin
createReleaseModeAdvisor()899e67430ccSMircea Trofin RegAllocEvictionAdvisorAnalysis *llvm::createReleaseModeAdvisor() {
900e67430ccSMircea Trofin return new ReleaseModeEvictionAdvisorAnalysis();
901e67430ccSMircea Trofin }
902e67430ccSMircea Trofin
903e67430ccSMircea Trofin // In all cases except development mode, we don't need scoring.
904e67430ccSMircea Trofin #if !defined(LLVM_HAVE_TF_API)
runOnMachineFunction(MachineFunction &)905e67430ccSMircea Trofin bool RegAllocScoring::runOnMachineFunction(MachineFunction &) { return false; }
906e67430ccSMircea Trofin #endif
907