15ffd83dbSDimitry Andric //===-- IPO/OpenMPOpt.cpp - Collection of OpenMP specific optimizations ---===// 25ffd83dbSDimitry Andric // 35ffd83dbSDimitry Andric // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 45ffd83dbSDimitry Andric // See https://llvm.org/LICENSE.txt for license information. 55ffd83dbSDimitry Andric // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 65ffd83dbSDimitry Andric // 75ffd83dbSDimitry Andric //===----------------------------------------------------------------------===// 85ffd83dbSDimitry Andric // 95ffd83dbSDimitry Andric // OpenMP specific optimizations: 105ffd83dbSDimitry Andric // 115ffd83dbSDimitry Andric // - Deduplication of runtime calls, e.g., omp_get_thread_num. 12fe6060f1SDimitry Andric // - Replacing globalized device memory with stack memory. 13fe6060f1SDimitry Andric // - Replacing globalized device memory with shared memory. 14fe6060f1SDimitry Andric // - Parallel region merging. 15fe6060f1SDimitry Andric // - Transforming generic-mode device kernels to SPMD mode. 16fe6060f1SDimitry Andric // - Specializing the state machine for generic-mode device kernels. 175ffd83dbSDimitry Andric // 185ffd83dbSDimitry Andric //===----------------------------------------------------------------------===// 195ffd83dbSDimitry Andric 205ffd83dbSDimitry Andric #include "llvm/Transforms/IPO/OpenMPOpt.h" 215ffd83dbSDimitry Andric 225ffd83dbSDimitry Andric #include "llvm/ADT/EnumeratedArray.h" 23fe6060f1SDimitry Andric #include "llvm/ADT/PostOrderIterator.h" 245ffd83dbSDimitry Andric #include "llvm/ADT/Statistic.h" 25*349cc55cSDimitry Andric #include "llvm/ADT/StringRef.h" 265ffd83dbSDimitry Andric #include "llvm/Analysis/CallGraph.h" 275ffd83dbSDimitry Andric #include "llvm/Analysis/CallGraphSCCPass.h" 285ffd83dbSDimitry Andric #include "llvm/Analysis/OptimizationRemarkEmitter.h" 29e8d8bef9SDimitry Andric #include "llvm/Analysis/ValueTracking.h" 305ffd83dbSDimitry Andric #include "llvm/Frontend/OpenMP/OMPConstants.h" 315ffd83dbSDimitry Andric #include "llvm/Frontend/OpenMP/OMPIRBuilder.h" 32fe6060f1SDimitry Andric #include "llvm/IR/Assumptions.h" 33fe6060f1SDimitry Andric #include "llvm/IR/DiagnosticInfo.h" 34fe6060f1SDimitry Andric #include "llvm/IR/GlobalValue.h" 35fe6060f1SDimitry Andric #include "llvm/IR/Instruction.h" 36fe6060f1SDimitry Andric #include "llvm/IR/IntrinsicInst.h" 37*349cc55cSDimitry Andric #include "llvm/IR/IntrinsicsAMDGPU.h" 38*349cc55cSDimitry Andric #include "llvm/IR/IntrinsicsNVPTX.h" 395ffd83dbSDimitry Andric #include "llvm/InitializePasses.h" 405ffd83dbSDimitry Andric #include "llvm/Support/CommandLine.h" 415ffd83dbSDimitry Andric #include "llvm/Transforms/IPO.h" 425ffd83dbSDimitry Andric #include "llvm/Transforms/IPO/Attributor.h" 43e8d8bef9SDimitry Andric #include "llvm/Transforms/Utils/BasicBlockUtils.h" 445ffd83dbSDimitry Andric #include "llvm/Transforms/Utils/CallGraphUpdater.h" 45e8d8bef9SDimitry Andric #include "llvm/Transforms/Utils/CodeExtractor.h" 465ffd83dbSDimitry Andric 47*349cc55cSDimitry Andric #include <algorithm> 48*349cc55cSDimitry Andric 495ffd83dbSDimitry Andric using namespace llvm; 505ffd83dbSDimitry Andric using namespace omp; 515ffd83dbSDimitry Andric 525ffd83dbSDimitry Andric #define DEBUG_TYPE "openmp-opt" 535ffd83dbSDimitry Andric 545ffd83dbSDimitry Andric static cl::opt<bool> DisableOpenMPOptimizations( 555ffd83dbSDimitry Andric "openmp-opt-disable", cl::ZeroOrMore, 565ffd83dbSDimitry Andric cl::desc("Disable OpenMP specific optimizations."), cl::Hidden, 575ffd83dbSDimitry Andric cl::init(false)); 585ffd83dbSDimitry Andric 59e8d8bef9SDimitry Andric static cl::opt<bool> EnableParallelRegionMerging( 60e8d8bef9SDimitry Andric "openmp-opt-enable-merging", cl::ZeroOrMore, 61e8d8bef9SDimitry Andric cl::desc("Enable the OpenMP region merging optimization."), cl::Hidden, 62e8d8bef9SDimitry Andric cl::init(false)); 63e8d8bef9SDimitry Andric 64fe6060f1SDimitry Andric static cl::opt<bool> 65fe6060f1SDimitry Andric DisableInternalization("openmp-opt-disable-internalization", cl::ZeroOrMore, 66fe6060f1SDimitry Andric cl::desc("Disable function internalization."), 67fe6060f1SDimitry Andric cl::Hidden, cl::init(false)); 68fe6060f1SDimitry Andric 695ffd83dbSDimitry Andric static cl::opt<bool> PrintICVValues("openmp-print-icv-values", cl::init(false), 705ffd83dbSDimitry Andric cl::Hidden); 715ffd83dbSDimitry Andric static cl::opt<bool> PrintOpenMPKernels("openmp-print-gpu-kernels", 725ffd83dbSDimitry Andric cl::init(false), cl::Hidden); 735ffd83dbSDimitry Andric 74e8d8bef9SDimitry Andric static cl::opt<bool> HideMemoryTransferLatency( 75e8d8bef9SDimitry Andric "openmp-hide-memory-transfer-latency", 76e8d8bef9SDimitry Andric cl::desc("[WIP] Tries to hide the latency of host to device memory" 77e8d8bef9SDimitry Andric " transfers"), 78e8d8bef9SDimitry Andric cl::Hidden, cl::init(false)); 79e8d8bef9SDimitry Andric 80*349cc55cSDimitry Andric static cl::opt<bool> DisableOpenMPOptDeglobalization( 81*349cc55cSDimitry Andric "openmp-opt-disable-deglobalization", cl::ZeroOrMore, 82*349cc55cSDimitry Andric cl::desc("Disable OpenMP optimizations involving deglobalization."), 83*349cc55cSDimitry Andric cl::Hidden, cl::init(false)); 84*349cc55cSDimitry Andric 85*349cc55cSDimitry Andric static cl::opt<bool> DisableOpenMPOptSPMDization( 86*349cc55cSDimitry Andric "openmp-opt-disable-spmdization", cl::ZeroOrMore, 87*349cc55cSDimitry Andric cl::desc("Disable OpenMP optimizations involving SPMD-ization."), 88*349cc55cSDimitry Andric cl::Hidden, cl::init(false)); 89*349cc55cSDimitry Andric 90*349cc55cSDimitry Andric static cl::opt<bool> DisableOpenMPOptFolding( 91*349cc55cSDimitry Andric "openmp-opt-disable-folding", cl::ZeroOrMore, 92*349cc55cSDimitry Andric cl::desc("Disable OpenMP optimizations involving folding."), cl::Hidden, 93*349cc55cSDimitry Andric cl::init(false)); 94*349cc55cSDimitry Andric 95*349cc55cSDimitry Andric static cl::opt<bool> DisableOpenMPOptStateMachineRewrite( 96*349cc55cSDimitry Andric "openmp-opt-disable-state-machine-rewrite", cl::ZeroOrMore, 97*349cc55cSDimitry Andric cl::desc("Disable OpenMP optimizations that replace the state machine."), 98*349cc55cSDimitry Andric cl::Hidden, cl::init(false)); 99*349cc55cSDimitry Andric 100*349cc55cSDimitry Andric static cl::opt<bool> PrintModuleAfterOptimizations( 101*349cc55cSDimitry Andric "openmp-opt-print-module", cl::ZeroOrMore, 102*349cc55cSDimitry Andric cl::desc("Print the current module after OpenMP optimizations."), 103*349cc55cSDimitry Andric cl::Hidden, cl::init(false)); 104*349cc55cSDimitry Andric 105*349cc55cSDimitry Andric static cl::opt<bool> AlwaysInlineDeviceFunctions( 106*349cc55cSDimitry Andric "openmp-opt-inline-device", cl::ZeroOrMore, 107*349cc55cSDimitry Andric cl::desc("Inline all applicible functions on the device."), cl::Hidden, 108*349cc55cSDimitry Andric cl::init(false)); 109*349cc55cSDimitry Andric 110*349cc55cSDimitry Andric static cl::opt<bool> 111*349cc55cSDimitry Andric EnableVerboseRemarks("openmp-opt-verbose-remarks", cl::ZeroOrMore, 112*349cc55cSDimitry Andric cl::desc("Enables more verbose remarks."), cl::Hidden, 113*349cc55cSDimitry Andric cl::init(false)); 114*349cc55cSDimitry Andric 115*349cc55cSDimitry Andric static cl::opt<unsigned> 116*349cc55cSDimitry Andric SetFixpointIterations("openmp-opt-max-iterations", cl::Hidden, 117*349cc55cSDimitry Andric cl::desc("Maximal number of attributor iterations."), 118*349cc55cSDimitry Andric cl::init(256)); 119*349cc55cSDimitry Andric 1205ffd83dbSDimitry Andric STATISTIC(NumOpenMPRuntimeCallsDeduplicated, 1215ffd83dbSDimitry Andric "Number of OpenMP runtime calls deduplicated"); 1225ffd83dbSDimitry Andric STATISTIC(NumOpenMPParallelRegionsDeleted, 1235ffd83dbSDimitry Andric "Number of OpenMP parallel regions deleted"); 1245ffd83dbSDimitry Andric STATISTIC(NumOpenMPRuntimeFunctionsIdentified, 1255ffd83dbSDimitry Andric "Number of OpenMP runtime functions identified"); 1265ffd83dbSDimitry Andric STATISTIC(NumOpenMPRuntimeFunctionUsesIdentified, 1275ffd83dbSDimitry Andric "Number of OpenMP runtime function uses identified"); 1285ffd83dbSDimitry Andric STATISTIC(NumOpenMPTargetRegionKernels, 1295ffd83dbSDimitry Andric "Number of OpenMP target region entry points (=kernels) identified"); 130fe6060f1SDimitry Andric STATISTIC(NumOpenMPTargetRegionKernelsSPMD, 131fe6060f1SDimitry Andric "Number of OpenMP target region entry points (=kernels) executed in " 132fe6060f1SDimitry Andric "SPMD-mode instead of generic-mode"); 133fe6060f1SDimitry Andric STATISTIC(NumOpenMPTargetRegionKernelsWithoutStateMachine, 134fe6060f1SDimitry Andric "Number of OpenMP target region entry points (=kernels) executed in " 135fe6060f1SDimitry Andric "generic-mode without a state machines"); 136fe6060f1SDimitry Andric STATISTIC(NumOpenMPTargetRegionKernelsCustomStateMachineWithFallback, 137fe6060f1SDimitry Andric "Number of OpenMP target region entry points (=kernels) executed in " 138fe6060f1SDimitry Andric "generic-mode with customized state machines with fallback"); 139fe6060f1SDimitry Andric STATISTIC(NumOpenMPTargetRegionKernelsCustomStateMachineWithoutFallback, 140fe6060f1SDimitry Andric "Number of OpenMP target region entry points (=kernels) executed in " 141fe6060f1SDimitry Andric "generic-mode with customized state machines without fallback"); 1425ffd83dbSDimitry Andric STATISTIC( 1435ffd83dbSDimitry Andric NumOpenMPParallelRegionsReplacedInGPUStateMachine, 1445ffd83dbSDimitry Andric "Number of OpenMP parallel regions replaced with ID in GPU state machines"); 145e8d8bef9SDimitry Andric STATISTIC(NumOpenMPParallelRegionsMerged, 146e8d8bef9SDimitry Andric "Number of OpenMP parallel regions merged"); 147fe6060f1SDimitry Andric STATISTIC(NumBytesMovedToSharedMemory, 148fe6060f1SDimitry Andric "Amount of memory pushed to shared memory"); 1495ffd83dbSDimitry Andric 1505ffd83dbSDimitry Andric #if !defined(NDEBUG) 1515ffd83dbSDimitry Andric static constexpr auto TAG = "[" DEBUG_TYPE "]"; 1525ffd83dbSDimitry Andric #endif 1535ffd83dbSDimitry Andric 1545ffd83dbSDimitry Andric namespace { 1555ffd83dbSDimitry Andric 156fe6060f1SDimitry Andric enum class AddressSpace : unsigned { 157fe6060f1SDimitry Andric Generic = 0, 158fe6060f1SDimitry Andric Global = 1, 159fe6060f1SDimitry Andric Shared = 3, 160fe6060f1SDimitry Andric Constant = 4, 161fe6060f1SDimitry Andric Local = 5, 162fe6060f1SDimitry Andric }; 163fe6060f1SDimitry Andric 164fe6060f1SDimitry Andric struct AAHeapToShared; 165fe6060f1SDimitry Andric 1665ffd83dbSDimitry Andric struct AAICVTracker; 1675ffd83dbSDimitry Andric 1685ffd83dbSDimitry Andric /// OpenMP specific information. For now, stores RFIs and ICVs also needed for 1695ffd83dbSDimitry Andric /// Attributor runs. 1705ffd83dbSDimitry Andric struct OMPInformationCache : public InformationCache { 1715ffd83dbSDimitry Andric OMPInformationCache(Module &M, AnalysisGetter &AG, 1725ffd83dbSDimitry Andric BumpPtrAllocator &Allocator, SetVector<Function *> &CGSCC, 1735ffd83dbSDimitry Andric SmallPtrSetImpl<Kernel> &Kernels) 1745ffd83dbSDimitry Andric : InformationCache(M, AG, Allocator, &CGSCC), OMPBuilder(M), 1755ffd83dbSDimitry Andric Kernels(Kernels) { 1765ffd83dbSDimitry Andric 1775ffd83dbSDimitry Andric OMPBuilder.initialize(); 1785ffd83dbSDimitry Andric initializeRuntimeFunctions(); 1795ffd83dbSDimitry Andric initializeInternalControlVars(); 1805ffd83dbSDimitry Andric } 1815ffd83dbSDimitry Andric 1825ffd83dbSDimitry Andric /// Generic information that describes an internal control variable. 1835ffd83dbSDimitry Andric struct InternalControlVarInfo { 1845ffd83dbSDimitry Andric /// The kind, as described by InternalControlVar enum. 1855ffd83dbSDimitry Andric InternalControlVar Kind; 1865ffd83dbSDimitry Andric 1875ffd83dbSDimitry Andric /// The name of the ICV. 1885ffd83dbSDimitry Andric StringRef Name; 1895ffd83dbSDimitry Andric 1905ffd83dbSDimitry Andric /// Environment variable associated with this ICV. 1915ffd83dbSDimitry Andric StringRef EnvVarName; 1925ffd83dbSDimitry Andric 1935ffd83dbSDimitry Andric /// Initial value kind. 1945ffd83dbSDimitry Andric ICVInitValue InitKind; 1955ffd83dbSDimitry Andric 1965ffd83dbSDimitry Andric /// Initial value. 1975ffd83dbSDimitry Andric ConstantInt *InitValue; 1985ffd83dbSDimitry Andric 1995ffd83dbSDimitry Andric /// Setter RTL function associated with this ICV. 2005ffd83dbSDimitry Andric RuntimeFunction Setter; 2015ffd83dbSDimitry Andric 2025ffd83dbSDimitry Andric /// Getter RTL function associated with this ICV. 2035ffd83dbSDimitry Andric RuntimeFunction Getter; 2045ffd83dbSDimitry Andric 2055ffd83dbSDimitry Andric /// RTL Function corresponding to the override clause of this ICV 2065ffd83dbSDimitry Andric RuntimeFunction Clause; 2075ffd83dbSDimitry Andric }; 2085ffd83dbSDimitry Andric 2095ffd83dbSDimitry Andric /// Generic information that describes a runtime function 2105ffd83dbSDimitry Andric struct RuntimeFunctionInfo { 2115ffd83dbSDimitry Andric 2125ffd83dbSDimitry Andric /// The kind, as described by the RuntimeFunction enum. 2135ffd83dbSDimitry Andric RuntimeFunction Kind; 2145ffd83dbSDimitry Andric 2155ffd83dbSDimitry Andric /// The name of the function. 2165ffd83dbSDimitry Andric StringRef Name; 2175ffd83dbSDimitry Andric 2185ffd83dbSDimitry Andric /// Flag to indicate a variadic function. 2195ffd83dbSDimitry Andric bool IsVarArg; 2205ffd83dbSDimitry Andric 2215ffd83dbSDimitry Andric /// The return type of the function. 2225ffd83dbSDimitry Andric Type *ReturnType; 2235ffd83dbSDimitry Andric 2245ffd83dbSDimitry Andric /// The argument types of the function. 2255ffd83dbSDimitry Andric SmallVector<Type *, 8> ArgumentTypes; 2265ffd83dbSDimitry Andric 2275ffd83dbSDimitry Andric /// The declaration if available. 2285ffd83dbSDimitry Andric Function *Declaration = nullptr; 2295ffd83dbSDimitry Andric 2305ffd83dbSDimitry Andric /// Uses of this runtime function per function containing the use. 2315ffd83dbSDimitry Andric using UseVector = SmallVector<Use *, 16>; 2325ffd83dbSDimitry Andric 2335ffd83dbSDimitry Andric /// Clear UsesMap for runtime function. 2345ffd83dbSDimitry Andric void clearUsesMap() { UsesMap.clear(); } 2355ffd83dbSDimitry Andric 2365ffd83dbSDimitry Andric /// Boolean conversion that is true if the runtime function was found. 2375ffd83dbSDimitry Andric operator bool() const { return Declaration; } 2385ffd83dbSDimitry Andric 2395ffd83dbSDimitry Andric /// Return the vector of uses in function \p F. 2405ffd83dbSDimitry Andric UseVector &getOrCreateUseVector(Function *F) { 2415ffd83dbSDimitry Andric std::shared_ptr<UseVector> &UV = UsesMap[F]; 2425ffd83dbSDimitry Andric if (!UV) 2435ffd83dbSDimitry Andric UV = std::make_shared<UseVector>(); 2445ffd83dbSDimitry Andric return *UV; 2455ffd83dbSDimitry Andric } 2465ffd83dbSDimitry Andric 2475ffd83dbSDimitry Andric /// Return the vector of uses in function \p F or `nullptr` if there are 2485ffd83dbSDimitry Andric /// none. 2495ffd83dbSDimitry Andric const UseVector *getUseVector(Function &F) const { 2505ffd83dbSDimitry Andric auto I = UsesMap.find(&F); 2515ffd83dbSDimitry Andric if (I != UsesMap.end()) 2525ffd83dbSDimitry Andric return I->second.get(); 2535ffd83dbSDimitry Andric return nullptr; 2545ffd83dbSDimitry Andric } 2555ffd83dbSDimitry Andric 2565ffd83dbSDimitry Andric /// Return how many functions contain uses of this runtime function. 2575ffd83dbSDimitry Andric size_t getNumFunctionsWithUses() const { return UsesMap.size(); } 2585ffd83dbSDimitry Andric 2595ffd83dbSDimitry Andric /// Return the number of arguments (or the minimal number for variadic 2605ffd83dbSDimitry Andric /// functions). 2615ffd83dbSDimitry Andric size_t getNumArgs() const { return ArgumentTypes.size(); } 2625ffd83dbSDimitry Andric 2635ffd83dbSDimitry Andric /// Run the callback \p CB on each use and forget the use if the result is 2645ffd83dbSDimitry Andric /// true. The callback will be fed the function in which the use was 2655ffd83dbSDimitry Andric /// encountered as second argument. 2665ffd83dbSDimitry Andric void foreachUse(SmallVectorImpl<Function *> &SCC, 2675ffd83dbSDimitry Andric function_ref<bool(Use &, Function &)> CB) { 2685ffd83dbSDimitry Andric for (Function *F : SCC) 2695ffd83dbSDimitry Andric foreachUse(CB, F); 2705ffd83dbSDimitry Andric } 2715ffd83dbSDimitry Andric 2725ffd83dbSDimitry Andric /// Run the callback \p CB on each use within the function \p F and forget 2735ffd83dbSDimitry Andric /// the use if the result is true. 2745ffd83dbSDimitry Andric void foreachUse(function_ref<bool(Use &, Function &)> CB, Function *F) { 2755ffd83dbSDimitry Andric SmallVector<unsigned, 8> ToBeDeleted; 2765ffd83dbSDimitry Andric ToBeDeleted.clear(); 2775ffd83dbSDimitry Andric 2785ffd83dbSDimitry Andric unsigned Idx = 0; 2795ffd83dbSDimitry Andric UseVector &UV = getOrCreateUseVector(F); 2805ffd83dbSDimitry Andric 2815ffd83dbSDimitry Andric for (Use *U : UV) { 2825ffd83dbSDimitry Andric if (CB(*U, *F)) 2835ffd83dbSDimitry Andric ToBeDeleted.push_back(Idx); 2845ffd83dbSDimitry Andric ++Idx; 2855ffd83dbSDimitry Andric } 2865ffd83dbSDimitry Andric 2875ffd83dbSDimitry Andric // Remove the to-be-deleted indices in reverse order as prior 2885ffd83dbSDimitry Andric // modifications will not modify the smaller indices. 2895ffd83dbSDimitry Andric while (!ToBeDeleted.empty()) { 2905ffd83dbSDimitry Andric unsigned Idx = ToBeDeleted.pop_back_val(); 2915ffd83dbSDimitry Andric UV[Idx] = UV.back(); 2925ffd83dbSDimitry Andric UV.pop_back(); 2935ffd83dbSDimitry Andric } 2945ffd83dbSDimitry Andric } 2955ffd83dbSDimitry Andric 2965ffd83dbSDimitry Andric private: 2975ffd83dbSDimitry Andric /// Map from functions to all uses of this runtime function contained in 2985ffd83dbSDimitry Andric /// them. 2995ffd83dbSDimitry Andric DenseMap<Function *, std::shared_ptr<UseVector>> UsesMap; 300fe6060f1SDimitry Andric 301fe6060f1SDimitry Andric public: 302fe6060f1SDimitry Andric /// Iterators for the uses of this runtime function. 303fe6060f1SDimitry Andric decltype(UsesMap)::iterator begin() { return UsesMap.begin(); } 304fe6060f1SDimitry Andric decltype(UsesMap)::iterator end() { return UsesMap.end(); } 3055ffd83dbSDimitry Andric }; 3065ffd83dbSDimitry Andric 3075ffd83dbSDimitry Andric /// An OpenMP-IR-Builder instance 3085ffd83dbSDimitry Andric OpenMPIRBuilder OMPBuilder; 3095ffd83dbSDimitry Andric 3105ffd83dbSDimitry Andric /// Map from runtime function kind to the runtime function description. 3115ffd83dbSDimitry Andric EnumeratedArray<RuntimeFunctionInfo, RuntimeFunction, 3125ffd83dbSDimitry Andric RuntimeFunction::OMPRTL___last> 3135ffd83dbSDimitry Andric RFIs; 3145ffd83dbSDimitry Andric 315fe6060f1SDimitry Andric /// Map from function declarations/definitions to their runtime enum type. 316fe6060f1SDimitry Andric DenseMap<Function *, RuntimeFunction> RuntimeFunctionIDMap; 317fe6060f1SDimitry Andric 3185ffd83dbSDimitry Andric /// Map from ICV kind to the ICV description. 3195ffd83dbSDimitry Andric EnumeratedArray<InternalControlVarInfo, InternalControlVar, 3205ffd83dbSDimitry Andric InternalControlVar::ICV___last> 3215ffd83dbSDimitry Andric ICVs; 3225ffd83dbSDimitry Andric 3235ffd83dbSDimitry Andric /// Helper to initialize all internal control variable information for those 3245ffd83dbSDimitry Andric /// defined in OMPKinds.def. 3255ffd83dbSDimitry Andric void initializeInternalControlVars() { 3265ffd83dbSDimitry Andric #define ICV_RT_SET(_Name, RTL) \ 3275ffd83dbSDimitry Andric { \ 3285ffd83dbSDimitry Andric auto &ICV = ICVs[_Name]; \ 3295ffd83dbSDimitry Andric ICV.Setter = RTL; \ 3305ffd83dbSDimitry Andric } 3315ffd83dbSDimitry Andric #define ICV_RT_GET(Name, RTL) \ 3325ffd83dbSDimitry Andric { \ 3335ffd83dbSDimitry Andric auto &ICV = ICVs[Name]; \ 3345ffd83dbSDimitry Andric ICV.Getter = RTL; \ 3355ffd83dbSDimitry Andric } 3365ffd83dbSDimitry Andric #define ICV_DATA_ENV(Enum, _Name, _EnvVarName, Init) \ 3375ffd83dbSDimitry Andric { \ 3385ffd83dbSDimitry Andric auto &ICV = ICVs[Enum]; \ 3395ffd83dbSDimitry Andric ICV.Name = _Name; \ 3405ffd83dbSDimitry Andric ICV.Kind = Enum; \ 3415ffd83dbSDimitry Andric ICV.InitKind = Init; \ 3425ffd83dbSDimitry Andric ICV.EnvVarName = _EnvVarName; \ 3435ffd83dbSDimitry Andric switch (ICV.InitKind) { \ 3445ffd83dbSDimitry Andric case ICV_IMPLEMENTATION_DEFINED: \ 3455ffd83dbSDimitry Andric ICV.InitValue = nullptr; \ 3465ffd83dbSDimitry Andric break; \ 3475ffd83dbSDimitry Andric case ICV_ZERO: \ 3485ffd83dbSDimitry Andric ICV.InitValue = ConstantInt::get( \ 3495ffd83dbSDimitry Andric Type::getInt32Ty(OMPBuilder.Int32->getContext()), 0); \ 3505ffd83dbSDimitry Andric break; \ 3515ffd83dbSDimitry Andric case ICV_FALSE: \ 3525ffd83dbSDimitry Andric ICV.InitValue = ConstantInt::getFalse(OMPBuilder.Int1->getContext()); \ 3535ffd83dbSDimitry Andric break; \ 3545ffd83dbSDimitry Andric case ICV_LAST: \ 3555ffd83dbSDimitry Andric break; \ 3565ffd83dbSDimitry Andric } \ 3575ffd83dbSDimitry Andric } 3585ffd83dbSDimitry Andric #include "llvm/Frontend/OpenMP/OMPKinds.def" 3595ffd83dbSDimitry Andric } 3605ffd83dbSDimitry Andric 3615ffd83dbSDimitry Andric /// Returns true if the function declaration \p F matches the runtime 3625ffd83dbSDimitry Andric /// function types, that is, return type \p RTFRetType, and argument types 3635ffd83dbSDimitry Andric /// \p RTFArgTypes. 3645ffd83dbSDimitry Andric static bool declMatchesRTFTypes(Function *F, Type *RTFRetType, 3655ffd83dbSDimitry Andric SmallVector<Type *, 8> &RTFArgTypes) { 3665ffd83dbSDimitry Andric // TODO: We should output information to the user (under debug output 3675ffd83dbSDimitry Andric // and via remarks). 3685ffd83dbSDimitry Andric 3695ffd83dbSDimitry Andric if (!F) 3705ffd83dbSDimitry Andric return false; 3715ffd83dbSDimitry Andric if (F->getReturnType() != RTFRetType) 3725ffd83dbSDimitry Andric return false; 3735ffd83dbSDimitry Andric if (F->arg_size() != RTFArgTypes.size()) 3745ffd83dbSDimitry Andric return false; 3755ffd83dbSDimitry Andric 376*349cc55cSDimitry Andric auto *RTFTyIt = RTFArgTypes.begin(); 3775ffd83dbSDimitry Andric for (Argument &Arg : F->args()) { 3785ffd83dbSDimitry Andric if (Arg.getType() != *RTFTyIt) 3795ffd83dbSDimitry Andric return false; 3805ffd83dbSDimitry Andric 3815ffd83dbSDimitry Andric ++RTFTyIt; 3825ffd83dbSDimitry Andric } 3835ffd83dbSDimitry Andric 3845ffd83dbSDimitry Andric return true; 3855ffd83dbSDimitry Andric } 3865ffd83dbSDimitry Andric 3875ffd83dbSDimitry Andric // Helper to collect all uses of the declaration in the UsesMap. 3885ffd83dbSDimitry Andric unsigned collectUses(RuntimeFunctionInfo &RFI, bool CollectStats = true) { 3895ffd83dbSDimitry Andric unsigned NumUses = 0; 3905ffd83dbSDimitry Andric if (!RFI.Declaration) 3915ffd83dbSDimitry Andric return NumUses; 3925ffd83dbSDimitry Andric OMPBuilder.addAttributes(RFI.Kind, *RFI.Declaration); 3935ffd83dbSDimitry Andric 3945ffd83dbSDimitry Andric if (CollectStats) { 3955ffd83dbSDimitry Andric NumOpenMPRuntimeFunctionsIdentified += 1; 3965ffd83dbSDimitry Andric NumOpenMPRuntimeFunctionUsesIdentified += RFI.Declaration->getNumUses(); 3975ffd83dbSDimitry Andric } 3985ffd83dbSDimitry Andric 3995ffd83dbSDimitry Andric // TODO: We directly convert uses into proper calls and unknown uses. 4005ffd83dbSDimitry Andric for (Use &U : RFI.Declaration->uses()) { 4015ffd83dbSDimitry Andric if (Instruction *UserI = dyn_cast<Instruction>(U.getUser())) { 4025ffd83dbSDimitry Andric if (ModuleSlice.count(UserI->getFunction())) { 4035ffd83dbSDimitry Andric RFI.getOrCreateUseVector(UserI->getFunction()).push_back(&U); 4045ffd83dbSDimitry Andric ++NumUses; 4055ffd83dbSDimitry Andric } 4065ffd83dbSDimitry Andric } else { 4075ffd83dbSDimitry Andric RFI.getOrCreateUseVector(nullptr).push_back(&U); 4085ffd83dbSDimitry Andric ++NumUses; 4095ffd83dbSDimitry Andric } 4105ffd83dbSDimitry Andric } 4115ffd83dbSDimitry Andric return NumUses; 4125ffd83dbSDimitry Andric } 4135ffd83dbSDimitry Andric 414e8d8bef9SDimitry Andric // Helper function to recollect uses of a runtime function. 415e8d8bef9SDimitry Andric void recollectUsesForFunction(RuntimeFunction RTF) { 416e8d8bef9SDimitry Andric auto &RFI = RFIs[RTF]; 4175ffd83dbSDimitry Andric RFI.clearUsesMap(); 4185ffd83dbSDimitry Andric collectUses(RFI, /*CollectStats*/ false); 4195ffd83dbSDimitry Andric } 420e8d8bef9SDimitry Andric 421e8d8bef9SDimitry Andric // Helper function to recollect uses of all runtime functions. 422e8d8bef9SDimitry Andric void recollectUses() { 423e8d8bef9SDimitry Andric for (int Idx = 0; Idx < RFIs.size(); ++Idx) 424e8d8bef9SDimitry Andric recollectUsesForFunction(static_cast<RuntimeFunction>(Idx)); 4255ffd83dbSDimitry Andric } 4265ffd83dbSDimitry Andric 4275ffd83dbSDimitry Andric /// Helper to initialize all runtime function information for those defined 4285ffd83dbSDimitry Andric /// in OpenMPKinds.def. 4295ffd83dbSDimitry Andric void initializeRuntimeFunctions() { 4305ffd83dbSDimitry Andric Module &M = *((*ModuleSlice.begin())->getParent()); 4315ffd83dbSDimitry Andric 4325ffd83dbSDimitry Andric // Helper macros for handling __VA_ARGS__ in OMP_RTL 4335ffd83dbSDimitry Andric #define OMP_TYPE(VarName, ...) \ 4345ffd83dbSDimitry Andric Type *VarName = OMPBuilder.VarName; \ 4355ffd83dbSDimitry Andric (void)VarName; 4365ffd83dbSDimitry Andric 4375ffd83dbSDimitry Andric #define OMP_ARRAY_TYPE(VarName, ...) \ 4385ffd83dbSDimitry Andric ArrayType *VarName##Ty = OMPBuilder.VarName##Ty; \ 4395ffd83dbSDimitry Andric (void)VarName##Ty; \ 4405ffd83dbSDimitry Andric PointerType *VarName##PtrTy = OMPBuilder.VarName##PtrTy; \ 4415ffd83dbSDimitry Andric (void)VarName##PtrTy; 4425ffd83dbSDimitry Andric 4435ffd83dbSDimitry Andric #define OMP_FUNCTION_TYPE(VarName, ...) \ 4445ffd83dbSDimitry Andric FunctionType *VarName = OMPBuilder.VarName; \ 4455ffd83dbSDimitry Andric (void)VarName; \ 4465ffd83dbSDimitry Andric PointerType *VarName##Ptr = OMPBuilder.VarName##Ptr; \ 4475ffd83dbSDimitry Andric (void)VarName##Ptr; 4485ffd83dbSDimitry Andric 4495ffd83dbSDimitry Andric #define OMP_STRUCT_TYPE(VarName, ...) \ 4505ffd83dbSDimitry Andric StructType *VarName = OMPBuilder.VarName; \ 4515ffd83dbSDimitry Andric (void)VarName; \ 4525ffd83dbSDimitry Andric PointerType *VarName##Ptr = OMPBuilder.VarName##Ptr; \ 4535ffd83dbSDimitry Andric (void)VarName##Ptr; 4545ffd83dbSDimitry Andric 4555ffd83dbSDimitry Andric #define OMP_RTL(_Enum, _Name, _IsVarArg, _ReturnType, ...) \ 4565ffd83dbSDimitry Andric { \ 4575ffd83dbSDimitry Andric SmallVector<Type *, 8> ArgsTypes({__VA_ARGS__}); \ 4585ffd83dbSDimitry Andric Function *F = M.getFunction(_Name); \ 459fe6060f1SDimitry Andric RTLFunctions.insert(F); \ 4605ffd83dbSDimitry Andric if (declMatchesRTFTypes(F, OMPBuilder._ReturnType, ArgsTypes)) { \ 461fe6060f1SDimitry Andric RuntimeFunctionIDMap[F] = _Enum; \ 462fe6060f1SDimitry Andric F->removeFnAttr(Attribute::NoInline); \ 4635ffd83dbSDimitry Andric auto &RFI = RFIs[_Enum]; \ 4645ffd83dbSDimitry Andric RFI.Kind = _Enum; \ 4655ffd83dbSDimitry Andric RFI.Name = _Name; \ 4665ffd83dbSDimitry Andric RFI.IsVarArg = _IsVarArg; \ 4675ffd83dbSDimitry Andric RFI.ReturnType = OMPBuilder._ReturnType; \ 4685ffd83dbSDimitry Andric RFI.ArgumentTypes = std::move(ArgsTypes); \ 4695ffd83dbSDimitry Andric RFI.Declaration = F; \ 4705ffd83dbSDimitry Andric unsigned NumUses = collectUses(RFI); \ 4715ffd83dbSDimitry Andric (void)NumUses; \ 4725ffd83dbSDimitry Andric LLVM_DEBUG({ \ 4735ffd83dbSDimitry Andric dbgs() << TAG << RFI.Name << (RFI.Declaration ? "" : " not") \ 4745ffd83dbSDimitry Andric << " found\n"; \ 4755ffd83dbSDimitry Andric if (RFI.Declaration) \ 4765ffd83dbSDimitry Andric dbgs() << TAG << "-> got " << NumUses << " uses in " \ 4775ffd83dbSDimitry Andric << RFI.getNumFunctionsWithUses() \ 4785ffd83dbSDimitry Andric << " different functions.\n"; \ 4795ffd83dbSDimitry Andric }); \ 4805ffd83dbSDimitry Andric } \ 4815ffd83dbSDimitry Andric } 4825ffd83dbSDimitry Andric #include "llvm/Frontend/OpenMP/OMPKinds.def" 4835ffd83dbSDimitry Andric 4845ffd83dbSDimitry Andric // TODO: We should attach the attributes defined in OMPKinds.def. 4855ffd83dbSDimitry Andric } 4865ffd83dbSDimitry Andric 4875ffd83dbSDimitry Andric /// Collection of known kernels (\see Kernel) in the module. 4885ffd83dbSDimitry Andric SmallPtrSetImpl<Kernel> &Kernels; 489fe6060f1SDimitry Andric 490fe6060f1SDimitry Andric /// Collection of known OpenMP runtime functions.. 491fe6060f1SDimitry Andric DenseSet<const Function *> RTLFunctions; 492fe6060f1SDimitry Andric }; 493fe6060f1SDimitry Andric 494fe6060f1SDimitry Andric template <typename Ty, bool InsertInvalidates = true> 495fe6060f1SDimitry Andric struct BooleanStateWithSetVector : public BooleanState { 496fe6060f1SDimitry Andric bool contains(const Ty &Elem) const { return Set.contains(Elem); } 497fe6060f1SDimitry Andric bool insert(const Ty &Elem) { 498fe6060f1SDimitry Andric if (InsertInvalidates) 499fe6060f1SDimitry Andric BooleanState::indicatePessimisticFixpoint(); 500fe6060f1SDimitry Andric return Set.insert(Elem); 501fe6060f1SDimitry Andric } 502fe6060f1SDimitry Andric 503fe6060f1SDimitry Andric const Ty &operator[](int Idx) const { return Set[Idx]; } 504fe6060f1SDimitry Andric bool operator==(const BooleanStateWithSetVector &RHS) const { 505fe6060f1SDimitry Andric return BooleanState::operator==(RHS) && Set == RHS.Set; 506fe6060f1SDimitry Andric } 507fe6060f1SDimitry Andric bool operator!=(const BooleanStateWithSetVector &RHS) const { 508fe6060f1SDimitry Andric return !(*this == RHS); 509fe6060f1SDimitry Andric } 510fe6060f1SDimitry Andric 511fe6060f1SDimitry Andric bool empty() const { return Set.empty(); } 512fe6060f1SDimitry Andric size_t size() const { return Set.size(); } 513fe6060f1SDimitry Andric 514fe6060f1SDimitry Andric /// "Clamp" this state with \p RHS. 515fe6060f1SDimitry Andric BooleanStateWithSetVector &operator^=(const BooleanStateWithSetVector &RHS) { 516fe6060f1SDimitry Andric BooleanState::operator^=(RHS); 517fe6060f1SDimitry Andric Set.insert(RHS.Set.begin(), RHS.Set.end()); 518fe6060f1SDimitry Andric return *this; 519fe6060f1SDimitry Andric } 520fe6060f1SDimitry Andric 521fe6060f1SDimitry Andric private: 522fe6060f1SDimitry Andric /// A set to keep track of elements. 523fe6060f1SDimitry Andric SetVector<Ty> Set; 524fe6060f1SDimitry Andric 525fe6060f1SDimitry Andric public: 526fe6060f1SDimitry Andric typename decltype(Set)::iterator begin() { return Set.begin(); } 527fe6060f1SDimitry Andric typename decltype(Set)::iterator end() { return Set.end(); } 528fe6060f1SDimitry Andric typename decltype(Set)::const_iterator begin() const { return Set.begin(); } 529fe6060f1SDimitry Andric typename decltype(Set)::const_iterator end() const { return Set.end(); } 530fe6060f1SDimitry Andric }; 531fe6060f1SDimitry Andric 532fe6060f1SDimitry Andric template <typename Ty, bool InsertInvalidates = true> 533fe6060f1SDimitry Andric using BooleanStateWithPtrSetVector = 534fe6060f1SDimitry Andric BooleanStateWithSetVector<Ty *, InsertInvalidates>; 535fe6060f1SDimitry Andric 536fe6060f1SDimitry Andric struct KernelInfoState : AbstractState { 537fe6060f1SDimitry Andric /// Flag to track if we reached a fixpoint. 538fe6060f1SDimitry Andric bool IsAtFixpoint = false; 539fe6060f1SDimitry Andric 540fe6060f1SDimitry Andric /// The parallel regions (identified by the outlined parallel functions) that 541fe6060f1SDimitry Andric /// can be reached from the associated function. 542fe6060f1SDimitry Andric BooleanStateWithPtrSetVector<Function, /* InsertInvalidates */ false> 543fe6060f1SDimitry Andric ReachedKnownParallelRegions; 544fe6060f1SDimitry Andric 545fe6060f1SDimitry Andric /// State to track what parallel region we might reach. 546fe6060f1SDimitry Andric BooleanStateWithPtrSetVector<CallBase> ReachedUnknownParallelRegions; 547fe6060f1SDimitry Andric 548fe6060f1SDimitry Andric /// State to track if we are in SPMD-mode, assumed or know, and why we decided 549fe6060f1SDimitry Andric /// we cannot be. If it is assumed, then RequiresFullRuntime should also be 550fe6060f1SDimitry Andric /// false. 551*349cc55cSDimitry Andric BooleanStateWithPtrSetVector<Instruction, false> SPMDCompatibilityTracker; 552fe6060f1SDimitry Andric 553fe6060f1SDimitry Andric /// The __kmpc_target_init call in this kernel, if any. If we find more than 554fe6060f1SDimitry Andric /// one we abort as the kernel is malformed. 555fe6060f1SDimitry Andric CallBase *KernelInitCB = nullptr; 556fe6060f1SDimitry Andric 557fe6060f1SDimitry Andric /// The __kmpc_target_deinit call in this kernel, if any. If we find more than 558fe6060f1SDimitry Andric /// one we abort as the kernel is malformed. 559fe6060f1SDimitry Andric CallBase *KernelDeinitCB = nullptr; 560fe6060f1SDimitry Andric 561fe6060f1SDimitry Andric /// Flag to indicate if the associated function is a kernel entry. 562fe6060f1SDimitry Andric bool IsKernelEntry = false; 563fe6060f1SDimitry Andric 564fe6060f1SDimitry Andric /// State to track what kernel entries can reach the associated function. 565fe6060f1SDimitry Andric BooleanStateWithPtrSetVector<Function, false> ReachingKernelEntries; 566fe6060f1SDimitry Andric 567fe6060f1SDimitry Andric /// State to indicate if we can track parallel level of the associated 568fe6060f1SDimitry Andric /// function. We will give up tracking if we encounter unknown caller or the 569fe6060f1SDimitry Andric /// caller is __kmpc_parallel_51. 570fe6060f1SDimitry Andric BooleanStateWithSetVector<uint8_t> ParallelLevels; 571fe6060f1SDimitry Andric 572fe6060f1SDimitry Andric /// Abstract State interface 573fe6060f1SDimitry Andric ///{ 574fe6060f1SDimitry Andric 575fe6060f1SDimitry Andric KernelInfoState() {} 576fe6060f1SDimitry Andric KernelInfoState(bool BestState) { 577fe6060f1SDimitry Andric if (!BestState) 578fe6060f1SDimitry Andric indicatePessimisticFixpoint(); 579fe6060f1SDimitry Andric } 580fe6060f1SDimitry Andric 581fe6060f1SDimitry Andric /// See AbstractState::isValidState(...) 582fe6060f1SDimitry Andric bool isValidState() const override { return true; } 583fe6060f1SDimitry Andric 584fe6060f1SDimitry Andric /// See AbstractState::isAtFixpoint(...) 585fe6060f1SDimitry Andric bool isAtFixpoint() const override { return IsAtFixpoint; } 586fe6060f1SDimitry Andric 587fe6060f1SDimitry Andric /// See AbstractState::indicatePessimisticFixpoint(...) 588fe6060f1SDimitry Andric ChangeStatus indicatePessimisticFixpoint() override { 589fe6060f1SDimitry Andric IsAtFixpoint = true; 590*349cc55cSDimitry Andric ReachingKernelEntries.indicatePessimisticFixpoint(); 591fe6060f1SDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 592*349cc55cSDimitry Andric ReachedKnownParallelRegions.indicatePessimisticFixpoint(); 593fe6060f1SDimitry Andric ReachedUnknownParallelRegions.indicatePessimisticFixpoint(); 594fe6060f1SDimitry Andric return ChangeStatus::CHANGED; 595fe6060f1SDimitry Andric } 596fe6060f1SDimitry Andric 597fe6060f1SDimitry Andric /// See AbstractState::indicateOptimisticFixpoint(...) 598fe6060f1SDimitry Andric ChangeStatus indicateOptimisticFixpoint() override { 599fe6060f1SDimitry Andric IsAtFixpoint = true; 600*349cc55cSDimitry Andric ReachingKernelEntries.indicateOptimisticFixpoint(); 601*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicateOptimisticFixpoint(); 602*349cc55cSDimitry Andric ReachedKnownParallelRegions.indicateOptimisticFixpoint(); 603*349cc55cSDimitry Andric ReachedUnknownParallelRegions.indicateOptimisticFixpoint(); 604fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 605fe6060f1SDimitry Andric } 606fe6060f1SDimitry Andric 607fe6060f1SDimitry Andric /// Return the assumed state 608fe6060f1SDimitry Andric KernelInfoState &getAssumed() { return *this; } 609fe6060f1SDimitry Andric const KernelInfoState &getAssumed() const { return *this; } 610fe6060f1SDimitry Andric 611fe6060f1SDimitry Andric bool operator==(const KernelInfoState &RHS) const { 612fe6060f1SDimitry Andric if (SPMDCompatibilityTracker != RHS.SPMDCompatibilityTracker) 613fe6060f1SDimitry Andric return false; 614fe6060f1SDimitry Andric if (ReachedKnownParallelRegions != RHS.ReachedKnownParallelRegions) 615fe6060f1SDimitry Andric return false; 616fe6060f1SDimitry Andric if (ReachedUnknownParallelRegions != RHS.ReachedUnknownParallelRegions) 617fe6060f1SDimitry Andric return false; 618fe6060f1SDimitry Andric if (ReachingKernelEntries != RHS.ReachingKernelEntries) 619fe6060f1SDimitry Andric return false; 620fe6060f1SDimitry Andric return true; 621fe6060f1SDimitry Andric } 622fe6060f1SDimitry Andric 623*349cc55cSDimitry Andric /// Returns true if this kernel contains any OpenMP parallel regions. 624*349cc55cSDimitry Andric bool mayContainParallelRegion() { 625*349cc55cSDimitry Andric return !ReachedKnownParallelRegions.empty() || 626*349cc55cSDimitry Andric !ReachedUnknownParallelRegions.empty(); 627*349cc55cSDimitry Andric } 628*349cc55cSDimitry Andric 629fe6060f1SDimitry Andric /// Return empty set as the best state of potential values. 630fe6060f1SDimitry Andric static KernelInfoState getBestState() { return KernelInfoState(true); } 631fe6060f1SDimitry Andric 632fe6060f1SDimitry Andric static KernelInfoState getBestState(KernelInfoState &KIS) { 633fe6060f1SDimitry Andric return getBestState(); 634fe6060f1SDimitry Andric } 635fe6060f1SDimitry Andric 636fe6060f1SDimitry Andric /// Return full set as the worst state of potential values. 637fe6060f1SDimitry Andric static KernelInfoState getWorstState() { return KernelInfoState(false); } 638fe6060f1SDimitry Andric 639fe6060f1SDimitry Andric /// "Clamp" this state with \p KIS. 640fe6060f1SDimitry Andric KernelInfoState operator^=(const KernelInfoState &KIS) { 641fe6060f1SDimitry Andric // Do not merge two different _init and _deinit call sites. 642fe6060f1SDimitry Andric if (KIS.KernelInitCB) { 643fe6060f1SDimitry Andric if (KernelInitCB && KernelInitCB != KIS.KernelInitCB) 644*349cc55cSDimitry Andric llvm_unreachable("Kernel that calls another kernel violates OpenMP-Opt " 645*349cc55cSDimitry Andric "assumptions."); 646fe6060f1SDimitry Andric KernelInitCB = KIS.KernelInitCB; 647fe6060f1SDimitry Andric } 648fe6060f1SDimitry Andric if (KIS.KernelDeinitCB) { 649fe6060f1SDimitry Andric if (KernelDeinitCB && KernelDeinitCB != KIS.KernelDeinitCB) 650*349cc55cSDimitry Andric llvm_unreachable("Kernel that calls another kernel violates OpenMP-Opt " 651*349cc55cSDimitry Andric "assumptions."); 652fe6060f1SDimitry Andric KernelDeinitCB = KIS.KernelDeinitCB; 653fe6060f1SDimitry Andric } 654fe6060f1SDimitry Andric SPMDCompatibilityTracker ^= KIS.SPMDCompatibilityTracker; 655fe6060f1SDimitry Andric ReachedKnownParallelRegions ^= KIS.ReachedKnownParallelRegions; 656fe6060f1SDimitry Andric ReachedUnknownParallelRegions ^= KIS.ReachedUnknownParallelRegions; 657fe6060f1SDimitry Andric return *this; 658fe6060f1SDimitry Andric } 659fe6060f1SDimitry Andric 660fe6060f1SDimitry Andric KernelInfoState operator&=(const KernelInfoState &KIS) { 661fe6060f1SDimitry Andric return (*this ^= KIS); 662fe6060f1SDimitry Andric } 663fe6060f1SDimitry Andric 664fe6060f1SDimitry Andric ///} 6655ffd83dbSDimitry Andric }; 6665ffd83dbSDimitry Andric 667e8d8bef9SDimitry Andric /// Used to map the values physically (in the IR) stored in an offload 668e8d8bef9SDimitry Andric /// array, to a vector in memory. 669e8d8bef9SDimitry Andric struct OffloadArray { 670e8d8bef9SDimitry Andric /// Physical array (in the IR). 671e8d8bef9SDimitry Andric AllocaInst *Array = nullptr; 672e8d8bef9SDimitry Andric /// Mapped values. 673e8d8bef9SDimitry Andric SmallVector<Value *, 8> StoredValues; 674e8d8bef9SDimitry Andric /// Last stores made in the offload array. 675e8d8bef9SDimitry Andric SmallVector<StoreInst *, 8> LastAccesses; 676e8d8bef9SDimitry Andric 677e8d8bef9SDimitry Andric OffloadArray() = default; 678e8d8bef9SDimitry Andric 679e8d8bef9SDimitry Andric /// Initializes the OffloadArray with the values stored in \p Array before 680e8d8bef9SDimitry Andric /// instruction \p Before is reached. Returns false if the initialization 681e8d8bef9SDimitry Andric /// fails. 682e8d8bef9SDimitry Andric /// This MUST be used immediately after the construction of the object. 683e8d8bef9SDimitry Andric bool initialize(AllocaInst &Array, Instruction &Before) { 684e8d8bef9SDimitry Andric if (!Array.getAllocatedType()->isArrayTy()) 685e8d8bef9SDimitry Andric return false; 686e8d8bef9SDimitry Andric 687e8d8bef9SDimitry Andric if (!getValues(Array, Before)) 688e8d8bef9SDimitry Andric return false; 689e8d8bef9SDimitry Andric 690e8d8bef9SDimitry Andric this->Array = &Array; 691e8d8bef9SDimitry Andric return true; 692e8d8bef9SDimitry Andric } 693e8d8bef9SDimitry Andric 694e8d8bef9SDimitry Andric static const unsigned DeviceIDArgNum = 1; 695e8d8bef9SDimitry Andric static const unsigned BasePtrsArgNum = 3; 696e8d8bef9SDimitry Andric static const unsigned PtrsArgNum = 4; 697e8d8bef9SDimitry Andric static const unsigned SizesArgNum = 5; 698e8d8bef9SDimitry Andric 699e8d8bef9SDimitry Andric private: 700e8d8bef9SDimitry Andric /// Traverses the BasicBlock where \p Array is, collecting the stores made to 701e8d8bef9SDimitry Andric /// \p Array, leaving StoredValues with the values stored before the 702e8d8bef9SDimitry Andric /// instruction \p Before is reached. 703e8d8bef9SDimitry Andric bool getValues(AllocaInst &Array, Instruction &Before) { 704e8d8bef9SDimitry Andric // Initialize container. 705e8d8bef9SDimitry Andric const uint64_t NumValues = Array.getAllocatedType()->getArrayNumElements(); 706e8d8bef9SDimitry Andric StoredValues.assign(NumValues, nullptr); 707e8d8bef9SDimitry Andric LastAccesses.assign(NumValues, nullptr); 708e8d8bef9SDimitry Andric 709e8d8bef9SDimitry Andric // TODO: This assumes the instruction \p Before is in the same 710e8d8bef9SDimitry Andric // BasicBlock as Array. Make it general, for any control flow graph. 711e8d8bef9SDimitry Andric BasicBlock *BB = Array.getParent(); 712e8d8bef9SDimitry Andric if (BB != Before.getParent()) 713e8d8bef9SDimitry Andric return false; 714e8d8bef9SDimitry Andric 715e8d8bef9SDimitry Andric const DataLayout &DL = Array.getModule()->getDataLayout(); 716e8d8bef9SDimitry Andric const unsigned int PointerSize = DL.getPointerSize(); 717e8d8bef9SDimitry Andric 718e8d8bef9SDimitry Andric for (Instruction &I : *BB) { 719e8d8bef9SDimitry Andric if (&I == &Before) 720e8d8bef9SDimitry Andric break; 721e8d8bef9SDimitry Andric 722e8d8bef9SDimitry Andric if (!isa<StoreInst>(&I)) 723e8d8bef9SDimitry Andric continue; 724e8d8bef9SDimitry Andric 725e8d8bef9SDimitry Andric auto *S = cast<StoreInst>(&I); 726e8d8bef9SDimitry Andric int64_t Offset = -1; 727e8d8bef9SDimitry Andric auto *Dst = 728e8d8bef9SDimitry Andric GetPointerBaseWithConstantOffset(S->getPointerOperand(), Offset, DL); 729e8d8bef9SDimitry Andric if (Dst == &Array) { 730e8d8bef9SDimitry Andric int64_t Idx = Offset / PointerSize; 731e8d8bef9SDimitry Andric StoredValues[Idx] = getUnderlyingObject(S->getValueOperand()); 732e8d8bef9SDimitry Andric LastAccesses[Idx] = S; 733e8d8bef9SDimitry Andric } 734e8d8bef9SDimitry Andric } 735e8d8bef9SDimitry Andric 736e8d8bef9SDimitry Andric return isFilled(); 737e8d8bef9SDimitry Andric } 738e8d8bef9SDimitry Andric 739e8d8bef9SDimitry Andric /// Returns true if all values in StoredValues and 740e8d8bef9SDimitry Andric /// LastAccesses are not nullptrs. 741e8d8bef9SDimitry Andric bool isFilled() { 742e8d8bef9SDimitry Andric const unsigned NumValues = StoredValues.size(); 743e8d8bef9SDimitry Andric for (unsigned I = 0; I < NumValues; ++I) { 744e8d8bef9SDimitry Andric if (!StoredValues[I] || !LastAccesses[I]) 745e8d8bef9SDimitry Andric return false; 746e8d8bef9SDimitry Andric } 747e8d8bef9SDimitry Andric 748e8d8bef9SDimitry Andric return true; 749e8d8bef9SDimitry Andric } 750e8d8bef9SDimitry Andric }; 751e8d8bef9SDimitry Andric 7525ffd83dbSDimitry Andric struct OpenMPOpt { 7535ffd83dbSDimitry Andric 7545ffd83dbSDimitry Andric using OptimizationRemarkGetter = 7555ffd83dbSDimitry Andric function_ref<OptimizationRemarkEmitter &(Function *)>; 7565ffd83dbSDimitry Andric 7575ffd83dbSDimitry Andric OpenMPOpt(SmallVectorImpl<Function *> &SCC, CallGraphUpdater &CGUpdater, 7585ffd83dbSDimitry Andric OptimizationRemarkGetter OREGetter, 7595ffd83dbSDimitry Andric OMPInformationCache &OMPInfoCache, Attributor &A) 7605ffd83dbSDimitry Andric : M(*(*SCC.begin())->getParent()), SCC(SCC), CGUpdater(CGUpdater), 7615ffd83dbSDimitry Andric OREGetter(OREGetter), OMPInfoCache(OMPInfoCache), A(A) {} 7625ffd83dbSDimitry Andric 763e8d8bef9SDimitry Andric /// Check if any remarks are enabled for openmp-opt 764e8d8bef9SDimitry Andric bool remarksEnabled() { 765e8d8bef9SDimitry Andric auto &Ctx = M.getContext(); 766e8d8bef9SDimitry Andric return Ctx.getDiagHandlerPtr()->isAnyRemarkEnabled(DEBUG_TYPE); 767e8d8bef9SDimitry Andric } 768e8d8bef9SDimitry Andric 7695ffd83dbSDimitry Andric /// Run all OpenMP optimizations on the underlying SCC/ModuleSlice. 770fe6060f1SDimitry Andric bool run(bool IsModulePass) { 7715ffd83dbSDimitry Andric if (SCC.empty()) 7725ffd83dbSDimitry Andric return false; 7735ffd83dbSDimitry Andric 7745ffd83dbSDimitry Andric bool Changed = false; 7755ffd83dbSDimitry Andric 7765ffd83dbSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Run on SCC with " << SCC.size() 7775ffd83dbSDimitry Andric << " functions in a slice with " 7785ffd83dbSDimitry Andric << OMPInfoCache.ModuleSlice.size() << " functions\n"); 7795ffd83dbSDimitry Andric 780fe6060f1SDimitry Andric if (IsModulePass) { 781fe6060f1SDimitry Andric Changed |= runAttributor(IsModulePass); 782fe6060f1SDimitry Andric 783fe6060f1SDimitry Andric // Recollect uses, in case Attributor deleted any. 784fe6060f1SDimitry Andric OMPInfoCache.recollectUses(); 785fe6060f1SDimitry Andric 786fe6060f1SDimitry Andric // TODO: This should be folded into buildCustomStateMachine. 787fe6060f1SDimitry Andric Changed |= rewriteDeviceCodeStateMachine(); 788fe6060f1SDimitry Andric 789fe6060f1SDimitry Andric if (remarksEnabled()) 790fe6060f1SDimitry Andric analysisGlobalization(); 791fe6060f1SDimitry Andric } else { 7925ffd83dbSDimitry Andric if (PrintICVValues) 7935ffd83dbSDimitry Andric printICVs(); 7945ffd83dbSDimitry Andric if (PrintOpenMPKernels) 7955ffd83dbSDimitry Andric printKernels(); 7965ffd83dbSDimitry Andric 797fe6060f1SDimitry Andric Changed |= runAttributor(IsModulePass); 7985ffd83dbSDimitry Andric 7995ffd83dbSDimitry Andric // Recollect uses, in case Attributor deleted any. 8005ffd83dbSDimitry Andric OMPInfoCache.recollectUses(); 8015ffd83dbSDimitry Andric 8025ffd83dbSDimitry Andric Changed |= deleteParallelRegions(); 803fe6060f1SDimitry Andric 804e8d8bef9SDimitry Andric if (HideMemoryTransferLatency) 805e8d8bef9SDimitry Andric Changed |= hideMemTransfersLatency(); 806e8d8bef9SDimitry Andric Changed |= deduplicateRuntimeCalls(); 807e8d8bef9SDimitry Andric if (EnableParallelRegionMerging) { 808e8d8bef9SDimitry Andric if (mergeParallelRegions()) { 809e8d8bef9SDimitry Andric deduplicateRuntimeCalls(); 810e8d8bef9SDimitry Andric Changed = true; 811e8d8bef9SDimitry Andric } 812e8d8bef9SDimitry Andric } 813fe6060f1SDimitry Andric } 8145ffd83dbSDimitry Andric 8155ffd83dbSDimitry Andric return Changed; 8165ffd83dbSDimitry Andric } 8175ffd83dbSDimitry Andric 8185ffd83dbSDimitry Andric /// Print initial ICV values for testing. 8195ffd83dbSDimitry Andric /// FIXME: This should be done from the Attributor once it is added. 8205ffd83dbSDimitry Andric void printICVs() const { 821e8d8bef9SDimitry Andric InternalControlVar ICVs[] = {ICV_nthreads, ICV_active_levels, ICV_cancel, 822e8d8bef9SDimitry Andric ICV_proc_bind}; 8235ffd83dbSDimitry Andric 8245ffd83dbSDimitry Andric for (Function *F : OMPInfoCache.ModuleSlice) { 8255ffd83dbSDimitry Andric for (auto ICV : ICVs) { 8265ffd83dbSDimitry Andric auto ICVInfo = OMPInfoCache.ICVs[ICV]; 827fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 828fe6060f1SDimitry Andric return ORA << "OpenMP ICV " << ore::NV("OpenMPICV", ICVInfo.Name) 8295ffd83dbSDimitry Andric << " Value: " 8305ffd83dbSDimitry Andric << (ICVInfo.InitValue 831fe6060f1SDimitry Andric ? toString(ICVInfo.InitValue->getValue(), 10, true) 8325ffd83dbSDimitry Andric : "IMPLEMENTATION_DEFINED"); 8335ffd83dbSDimitry Andric }; 8345ffd83dbSDimitry Andric 835fe6060f1SDimitry Andric emitRemark<OptimizationRemarkAnalysis>(F, "OpenMPICVTracker", Remark); 8365ffd83dbSDimitry Andric } 8375ffd83dbSDimitry Andric } 8385ffd83dbSDimitry Andric } 8395ffd83dbSDimitry Andric 8405ffd83dbSDimitry Andric /// Print OpenMP GPU kernels for testing. 8415ffd83dbSDimitry Andric void printKernels() const { 8425ffd83dbSDimitry Andric for (Function *F : SCC) { 8435ffd83dbSDimitry Andric if (!OMPInfoCache.Kernels.count(F)) 8445ffd83dbSDimitry Andric continue; 8455ffd83dbSDimitry Andric 846fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 847fe6060f1SDimitry Andric return ORA << "OpenMP GPU kernel " 8485ffd83dbSDimitry Andric << ore::NV("OpenMPGPUKernel", F->getName()) << "\n"; 8495ffd83dbSDimitry Andric }; 8505ffd83dbSDimitry Andric 851fe6060f1SDimitry Andric emitRemark<OptimizationRemarkAnalysis>(F, "OpenMPGPU", Remark); 8525ffd83dbSDimitry Andric } 8535ffd83dbSDimitry Andric } 8545ffd83dbSDimitry Andric 8555ffd83dbSDimitry Andric /// Return the call if \p U is a callee use in a regular call. If \p RFI is 8565ffd83dbSDimitry Andric /// given it has to be the callee or a nullptr is returned. 8575ffd83dbSDimitry Andric static CallInst *getCallIfRegularCall( 8585ffd83dbSDimitry Andric Use &U, OMPInformationCache::RuntimeFunctionInfo *RFI = nullptr) { 8595ffd83dbSDimitry Andric CallInst *CI = dyn_cast<CallInst>(U.getUser()); 8605ffd83dbSDimitry Andric if (CI && CI->isCallee(&U) && !CI->hasOperandBundles() && 861fe6060f1SDimitry Andric (!RFI || 862fe6060f1SDimitry Andric (RFI->Declaration && CI->getCalledFunction() == RFI->Declaration))) 8635ffd83dbSDimitry Andric return CI; 8645ffd83dbSDimitry Andric return nullptr; 8655ffd83dbSDimitry Andric } 8665ffd83dbSDimitry Andric 8675ffd83dbSDimitry Andric /// Return the call if \p V is a regular call. If \p RFI is given it has to be 8685ffd83dbSDimitry Andric /// the callee or a nullptr is returned. 8695ffd83dbSDimitry Andric static CallInst *getCallIfRegularCall( 8705ffd83dbSDimitry Andric Value &V, OMPInformationCache::RuntimeFunctionInfo *RFI = nullptr) { 8715ffd83dbSDimitry Andric CallInst *CI = dyn_cast<CallInst>(&V); 8725ffd83dbSDimitry Andric if (CI && !CI->hasOperandBundles() && 873fe6060f1SDimitry Andric (!RFI || 874fe6060f1SDimitry Andric (RFI->Declaration && CI->getCalledFunction() == RFI->Declaration))) 8755ffd83dbSDimitry Andric return CI; 8765ffd83dbSDimitry Andric return nullptr; 8775ffd83dbSDimitry Andric } 8785ffd83dbSDimitry Andric 8795ffd83dbSDimitry Andric private: 880e8d8bef9SDimitry Andric /// Merge parallel regions when it is safe. 881e8d8bef9SDimitry Andric bool mergeParallelRegions() { 882e8d8bef9SDimitry Andric const unsigned CallbackCalleeOperand = 2; 883e8d8bef9SDimitry Andric const unsigned CallbackFirstArgOperand = 3; 884e8d8bef9SDimitry Andric using InsertPointTy = OpenMPIRBuilder::InsertPointTy; 885e8d8bef9SDimitry Andric 886e8d8bef9SDimitry Andric // Check if there are any __kmpc_fork_call calls to merge. 887e8d8bef9SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &RFI = 888e8d8bef9SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_fork_call]; 889e8d8bef9SDimitry Andric 890e8d8bef9SDimitry Andric if (!RFI.Declaration) 891e8d8bef9SDimitry Andric return false; 892e8d8bef9SDimitry Andric 893e8d8bef9SDimitry Andric // Unmergable calls that prevent merging a parallel region. 894e8d8bef9SDimitry Andric OMPInformationCache::RuntimeFunctionInfo UnmergableCallsInfo[] = { 895e8d8bef9SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_push_proc_bind], 896e8d8bef9SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_push_num_threads], 897e8d8bef9SDimitry Andric }; 898e8d8bef9SDimitry Andric 899e8d8bef9SDimitry Andric bool Changed = false; 900e8d8bef9SDimitry Andric LoopInfo *LI = nullptr; 901e8d8bef9SDimitry Andric DominatorTree *DT = nullptr; 902e8d8bef9SDimitry Andric 903e8d8bef9SDimitry Andric SmallDenseMap<BasicBlock *, SmallPtrSet<Instruction *, 4>> BB2PRMap; 904e8d8bef9SDimitry Andric 905e8d8bef9SDimitry Andric BasicBlock *StartBB = nullptr, *EndBB = nullptr; 906e8d8bef9SDimitry Andric auto BodyGenCB = [&](InsertPointTy AllocaIP, InsertPointTy CodeGenIP, 907e8d8bef9SDimitry Andric BasicBlock &ContinuationIP) { 908e8d8bef9SDimitry Andric BasicBlock *CGStartBB = CodeGenIP.getBlock(); 909e8d8bef9SDimitry Andric BasicBlock *CGEndBB = 910e8d8bef9SDimitry Andric SplitBlock(CGStartBB, &*CodeGenIP.getPoint(), DT, LI); 911e8d8bef9SDimitry Andric assert(StartBB != nullptr && "StartBB should not be null"); 912e8d8bef9SDimitry Andric CGStartBB->getTerminator()->setSuccessor(0, StartBB); 913e8d8bef9SDimitry Andric assert(EndBB != nullptr && "EndBB should not be null"); 914e8d8bef9SDimitry Andric EndBB->getTerminator()->setSuccessor(0, CGEndBB); 915e8d8bef9SDimitry Andric }; 916e8d8bef9SDimitry Andric 917e8d8bef9SDimitry Andric auto PrivCB = [&](InsertPointTy AllocaIP, InsertPointTy CodeGenIP, Value &, 918e8d8bef9SDimitry Andric Value &Inner, Value *&ReplacementValue) -> InsertPointTy { 919e8d8bef9SDimitry Andric ReplacementValue = &Inner; 920e8d8bef9SDimitry Andric return CodeGenIP; 921e8d8bef9SDimitry Andric }; 922e8d8bef9SDimitry Andric 923e8d8bef9SDimitry Andric auto FiniCB = [&](InsertPointTy CodeGenIP) {}; 924e8d8bef9SDimitry Andric 925e8d8bef9SDimitry Andric /// Create a sequential execution region within a merged parallel region, 926e8d8bef9SDimitry Andric /// encapsulated in a master construct with a barrier for synchronization. 927e8d8bef9SDimitry Andric auto CreateSequentialRegion = [&](Function *OuterFn, 928e8d8bef9SDimitry Andric BasicBlock *OuterPredBB, 929e8d8bef9SDimitry Andric Instruction *SeqStartI, 930e8d8bef9SDimitry Andric Instruction *SeqEndI) { 931e8d8bef9SDimitry Andric // Isolate the instructions of the sequential region to a separate 932e8d8bef9SDimitry Andric // block. 933e8d8bef9SDimitry Andric BasicBlock *ParentBB = SeqStartI->getParent(); 934e8d8bef9SDimitry Andric BasicBlock *SeqEndBB = 935e8d8bef9SDimitry Andric SplitBlock(ParentBB, SeqEndI->getNextNode(), DT, LI); 936e8d8bef9SDimitry Andric BasicBlock *SeqAfterBB = 937e8d8bef9SDimitry Andric SplitBlock(SeqEndBB, &*SeqEndBB->getFirstInsertionPt(), DT, LI); 938e8d8bef9SDimitry Andric BasicBlock *SeqStartBB = 939e8d8bef9SDimitry Andric SplitBlock(ParentBB, SeqStartI, DT, LI, nullptr, "seq.par.merged"); 940e8d8bef9SDimitry Andric 941e8d8bef9SDimitry Andric assert(ParentBB->getUniqueSuccessor() == SeqStartBB && 942e8d8bef9SDimitry Andric "Expected a different CFG"); 943e8d8bef9SDimitry Andric const DebugLoc DL = ParentBB->getTerminator()->getDebugLoc(); 944e8d8bef9SDimitry Andric ParentBB->getTerminator()->eraseFromParent(); 945e8d8bef9SDimitry Andric 946e8d8bef9SDimitry Andric auto BodyGenCB = [&](InsertPointTy AllocaIP, InsertPointTy CodeGenIP, 947e8d8bef9SDimitry Andric BasicBlock &ContinuationIP) { 948e8d8bef9SDimitry Andric BasicBlock *CGStartBB = CodeGenIP.getBlock(); 949e8d8bef9SDimitry Andric BasicBlock *CGEndBB = 950e8d8bef9SDimitry Andric SplitBlock(CGStartBB, &*CodeGenIP.getPoint(), DT, LI); 951e8d8bef9SDimitry Andric assert(SeqStartBB != nullptr && "SeqStartBB should not be null"); 952e8d8bef9SDimitry Andric CGStartBB->getTerminator()->setSuccessor(0, SeqStartBB); 953e8d8bef9SDimitry Andric assert(SeqEndBB != nullptr && "SeqEndBB should not be null"); 954e8d8bef9SDimitry Andric SeqEndBB->getTerminator()->setSuccessor(0, CGEndBB); 955e8d8bef9SDimitry Andric }; 956e8d8bef9SDimitry Andric auto FiniCB = [&](InsertPointTy CodeGenIP) {}; 957e8d8bef9SDimitry Andric 958e8d8bef9SDimitry Andric // Find outputs from the sequential region to outside users and 959e8d8bef9SDimitry Andric // broadcast their values to them. 960e8d8bef9SDimitry Andric for (Instruction &I : *SeqStartBB) { 961e8d8bef9SDimitry Andric SmallPtrSet<Instruction *, 4> OutsideUsers; 962e8d8bef9SDimitry Andric for (User *Usr : I.users()) { 963e8d8bef9SDimitry Andric Instruction &UsrI = *cast<Instruction>(Usr); 964e8d8bef9SDimitry Andric // Ignore outputs to LT intrinsics, code extraction for the merged 965e8d8bef9SDimitry Andric // parallel region will fix them. 966e8d8bef9SDimitry Andric if (UsrI.isLifetimeStartOrEnd()) 967e8d8bef9SDimitry Andric continue; 968e8d8bef9SDimitry Andric 969e8d8bef9SDimitry Andric if (UsrI.getParent() != SeqStartBB) 970e8d8bef9SDimitry Andric OutsideUsers.insert(&UsrI); 971e8d8bef9SDimitry Andric } 972e8d8bef9SDimitry Andric 973e8d8bef9SDimitry Andric if (OutsideUsers.empty()) 974e8d8bef9SDimitry Andric continue; 975e8d8bef9SDimitry Andric 976e8d8bef9SDimitry Andric // Emit an alloca in the outer region to store the broadcasted 977e8d8bef9SDimitry Andric // value. 978e8d8bef9SDimitry Andric const DataLayout &DL = M.getDataLayout(); 979e8d8bef9SDimitry Andric AllocaInst *AllocaI = new AllocaInst( 980e8d8bef9SDimitry Andric I.getType(), DL.getAllocaAddrSpace(), nullptr, 981e8d8bef9SDimitry Andric I.getName() + ".seq.output.alloc", &OuterFn->front().front()); 982e8d8bef9SDimitry Andric 983e8d8bef9SDimitry Andric // Emit a store instruction in the sequential BB to update the 984e8d8bef9SDimitry Andric // value. 985e8d8bef9SDimitry Andric new StoreInst(&I, AllocaI, SeqStartBB->getTerminator()); 986e8d8bef9SDimitry Andric 987e8d8bef9SDimitry Andric // Emit a load instruction and replace the use of the output value 988e8d8bef9SDimitry Andric // with it. 989e8d8bef9SDimitry Andric for (Instruction *UsrI : OutsideUsers) { 990fe6060f1SDimitry Andric LoadInst *LoadI = new LoadInst( 991fe6060f1SDimitry Andric I.getType(), AllocaI, I.getName() + ".seq.output.load", UsrI); 992e8d8bef9SDimitry Andric UsrI->replaceUsesOfWith(&I, LoadI); 993e8d8bef9SDimitry Andric } 994e8d8bef9SDimitry Andric } 995e8d8bef9SDimitry Andric 996e8d8bef9SDimitry Andric OpenMPIRBuilder::LocationDescription Loc( 997e8d8bef9SDimitry Andric InsertPointTy(ParentBB, ParentBB->end()), DL); 998e8d8bef9SDimitry Andric InsertPointTy SeqAfterIP = 999e8d8bef9SDimitry Andric OMPInfoCache.OMPBuilder.createMaster(Loc, BodyGenCB, FiniCB); 1000e8d8bef9SDimitry Andric 1001e8d8bef9SDimitry Andric OMPInfoCache.OMPBuilder.createBarrier(SeqAfterIP, OMPD_parallel); 1002e8d8bef9SDimitry Andric 1003e8d8bef9SDimitry Andric BranchInst::Create(SeqAfterBB, SeqAfterIP.getBlock()); 1004e8d8bef9SDimitry Andric 1005e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << TAG << "After sequential inlining " << *OuterFn 1006e8d8bef9SDimitry Andric << "\n"); 1007e8d8bef9SDimitry Andric }; 1008e8d8bef9SDimitry Andric 1009e8d8bef9SDimitry Andric // Helper to merge the __kmpc_fork_call calls in MergableCIs. They are all 1010e8d8bef9SDimitry Andric // contained in BB and only separated by instructions that can be 1011e8d8bef9SDimitry Andric // redundantly executed in parallel. The block BB is split before the first 1012e8d8bef9SDimitry Andric // call (in MergableCIs) and after the last so the entire region we merge 1013e8d8bef9SDimitry Andric // into a single parallel region is contained in a single basic block 1014e8d8bef9SDimitry Andric // without any other instructions. We use the OpenMPIRBuilder to outline 1015e8d8bef9SDimitry Andric // that block and call the resulting function via __kmpc_fork_call. 1016e8d8bef9SDimitry Andric auto Merge = [&](SmallVectorImpl<CallInst *> &MergableCIs, BasicBlock *BB) { 1017e8d8bef9SDimitry Andric // TODO: Change the interface to allow single CIs expanded, e.g, to 1018e8d8bef9SDimitry Andric // include an outer loop. 1019e8d8bef9SDimitry Andric assert(MergableCIs.size() > 1 && "Assumed multiple mergable CIs"); 1020e8d8bef9SDimitry Andric 1021e8d8bef9SDimitry Andric auto Remark = [&](OptimizationRemark OR) { 1022fe6060f1SDimitry Andric OR << "Parallel region merged with parallel region" 1023fe6060f1SDimitry Andric << (MergableCIs.size() > 2 ? "s" : "") << " at "; 1024e8d8bef9SDimitry Andric for (auto *CI : llvm::drop_begin(MergableCIs)) { 1025e8d8bef9SDimitry Andric OR << ore::NV("OpenMPParallelMerge", CI->getDebugLoc()); 1026e8d8bef9SDimitry Andric if (CI != MergableCIs.back()) 1027e8d8bef9SDimitry Andric OR << ", "; 1028e8d8bef9SDimitry Andric } 1029fe6060f1SDimitry Andric return OR << "."; 1030e8d8bef9SDimitry Andric }; 1031e8d8bef9SDimitry Andric 1032fe6060f1SDimitry Andric emitRemark<OptimizationRemark>(MergableCIs.front(), "OMP150", Remark); 1033e8d8bef9SDimitry Andric 1034e8d8bef9SDimitry Andric Function *OriginalFn = BB->getParent(); 1035e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Merge " << MergableCIs.size() 1036e8d8bef9SDimitry Andric << " parallel regions in " << OriginalFn->getName() 1037e8d8bef9SDimitry Andric << "\n"); 1038e8d8bef9SDimitry Andric 1039e8d8bef9SDimitry Andric // Isolate the calls to merge in a separate block. 1040e8d8bef9SDimitry Andric EndBB = SplitBlock(BB, MergableCIs.back()->getNextNode(), DT, LI); 1041e8d8bef9SDimitry Andric BasicBlock *AfterBB = 1042e8d8bef9SDimitry Andric SplitBlock(EndBB, &*EndBB->getFirstInsertionPt(), DT, LI); 1043e8d8bef9SDimitry Andric StartBB = SplitBlock(BB, MergableCIs.front(), DT, LI, nullptr, 1044e8d8bef9SDimitry Andric "omp.par.merged"); 1045e8d8bef9SDimitry Andric 1046e8d8bef9SDimitry Andric assert(BB->getUniqueSuccessor() == StartBB && "Expected a different CFG"); 1047e8d8bef9SDimitry Andric const DebugLoc DL = BB->getTerminator()->getDebugLoc(); 1048e8d8bef9SDimitry Andric BB->getTerminator()->eraseFromParent(); 1049e8d8bef9SDimitry Andric 1050e8d8bef9SDimitry Andric // Create sequential regions for sequential instructions that are 1051e8d8bef9SDimitry Andric // in-between mergable parallel regions. 1052e8d8bef9SDimitry Andric for (auto *It = MergableCIs.begin(), *End = MergableCIs.end() - 1; 1053e8d8bef9SDimitry Andric It != End; ++It) { 1054e8d8bef9SDimitry Andric Instruction *ForkCI = *It; 1055e8d8bef9SDimitry Andric Instruction *NextForkCI = *(It + 1); 1056e8d8bef9SDimitry Andric 1057e8d8bef9SDimitry Andric // Continue if there are not in-between instructions. 1058e8d8bef9SDimitry Andric if (ForkCI->getNextNode() == NextForkCI) 1059e8d8bef9SDimitry Andric continue; 1060e8d8bef9SDimitry Andric 1061e8d8bef9SDimitry Andric CreateSequentialRegion(OriginalFn, BB, ForkCI->getNextNode(), 1062e8d8bef9SDimitry Andric NextForkCI->getPrevNode()); 1063e8d8bef9SDimitry Andric } 1064e8d8bef9SDimitry Andric 1065e8d8bef9SDimitry Andric OpenMPIRBuilder::LocationDescription Loc(InsertPointTy(BB, BB->end()), 1066e8d8bef9SDimitry Andric DL); 1067e8d8bef9SDimitry Andric IRBuilder<>::InsertPoint AllocaIP( 1068e8d8bef9SDimitry Andric &OriginalFn->getEntryBlock(), 1069e8d8bef9SDimitry Andric OriginalFn->getEntryBlock().getFirstInsertionPt()); 1070e8d8bef9SDimitry Andric // Create the merged parallel region with default proc binding, to 1071e8d8bef9SDimitry Andric // avoid overriding binding settings, and without explicit cancellation. 1072e8d8bef9SDimitry Andric InsertPointTy AfterIP = OMPInfoCache.OMPBuilder.createParallel( 1073e8d8bef9SDimitry Andric Loc, AllocaIP, BodyGenCB, PrivCB, FiniCB, nullptr, nullptr, 1074e8d8bef9SDimitry Andric OMP_PROC_BIND_default, /* IsCancellable */ false); 1075e8d8bef9SDimitry Andric BranchInst::Create(AfterBB, AfterIP.getBlock()); 1076e8d8bef9SDimitry Andric 1077e8d8bef9SDimitry Andric // Perform the actual outlining. 1078fe6060f1SDimitry Andric OMPInfoCache.OMPBuilder.finalize(OriginalFn, 1079fe6060f1SDimitry Andric /* AllowExtractorSinking */ true); 1080e8d8bef9SDimitry Andric 1081e8d8bef9SDimitry Andric Function *OutlinedFn = MergableCIs.front()->getCaller(); 1082e8d8bef9SDimitry Andric 1083e8d8bef9SDimitry Andric // Replace the __kmpc_fork_call calls with direct calls to the outlined 1084e8d8bef9SDimitry Andric // callbacks. 1085e8d8bef9SDimitry Andric SmallVector<Value *, 8> Args; 1086e8d8bef9SDimitry Andric for (auto *CI : MergableCIs) { 1087e8d8bef9SDimitry Andric Value *Callee = 1088e8d8bef9SDimitry Andric CI->getArgOperand(CallbackCalleeOperand)->stripPointerCasts(); 1089e8d8bef9SDimitry Andric FunctionType *FT = 1090e8d8bef9SDimitry Andric cast<FunctionType>(Callee->getType()->getPointerElementType()); 1091e8d8bef9SDimitry Andric Args.clear(); 1092e8d8bef9SDimitry Andric Args.push_back(OutlinedFn->getArg(0)); 1093e8d8bef9SDimitry Andric Args.push_back(OutlinedFn->getArg(1)); 1094*349cc55cSDimitry Andric for (unsigned U = CallbackFirstArgOperand, E = CI->arg_size(); U < E; 1095*349cc55cSDimitry Andric ++U) 1096e8d8bef9SDimitry Andric Args.push_back(CI->getArgOperand(U)); 1097e8d8bef9SDimitry Andric 1098e8d8bef9SDimitry Andric CallInst *NewCI = CallInst::Create(FT, Callee, Args, "", CI); 1099e8d8bef9SDimitry Andric if (CI->getDebugLoc()) 1100e8d8bef9SDimitry Andric NewCI->setDebugLoc(CI->getDebugLoc()); 1101e8d8bef9SDimitry Andric 1102e8d8bef9SDimitry Andric // Forward parameter attributes from the callback to the callee. 1103*349cc55cSDimitry Andric for (unsigned U = CallbackFirstArgOperand, E = CI->arg_size(); U < E; 1104*349cc55cSDimitry Andric ++U) 1105*349cc55cSDimitry Andric for (const Attribute &A : CI->getAttributes().getParamAttrs(U)) 1106e8d8bef9SDimitry Andric NewCI->addParamAttr( 1107e8d8bef9SDimitry Andric U - (CallbackFirstArgOperand - CallbackCalleeOperand), A); 1108e8d8bef9SDimitry Andric 1109e8d8bef9SDimitry Andric // Emit an explicit barrier to replace the implicit fork-join barrier. 1110e8d8bef9SDimitry Andric if (CI != MergableCIs.back()) { 1111e8d8bef9SDimitry Andric // TODO: Remove barrier if the merged parallel region includes the 1112e8d8bef9SDimitry Andric // 'nowait' clause. 1113e8d8bef9SDimitry Andric OMPInfoCache.OMPBuilder.createBarrier( 1114e8d8bef9SDimitry Andric InsertPointTy(NewCI->getParent(), 1115e8d8bef9SDimitry Andric NewCI->getNextNode()->getIterator()), 1116e8d8bef9SDimitry Andric OMPD_parallel); 1117e8d8bef9SDimitry Andric } 1118e8d8bef9SDimitry Andric 1119e8d8bef9SDimitry Andric CI->eraseFromParent(); 1120e8d8bef9SDimitry Andric } 1121e8d8bef9SDimitry Andric 1122e8d8bef9SDimitry Andric assert(OutlinedFn != OriginalFn && "Outlining failed"); 1123e8d8bef9SDimitry Andric CGUpdater.registerOutlinedFunction(*OriginalFn, *OutlinedFn); 1124e8d8bef9SDimitry Andric CGUpdater.reanalyzeFunction(*OriginalFn); 1125e8d8bef9SDimitry Andric 1126e8d8bef9SDimitry Andric NumOpenMPParallelRegionsMerged += MergableCIs.size(); 1127e8d8bef9SDimitry Andric 1128e8d8bef9SDimitry Andric return true; 1129e8d8bef9SDimitry Andric }; 1130e8d8bef9SDimitry Andric 1131e8d8bef9SDimitry Andric // Helper function that identifes sequences of 1132e8d8bef9SDimitry Andric // __kmpc_fork_call uses in a basic block. 1133e8d8bef9SDimitry Andric auto DetectPRsCB = [&](Use &U, Function &F) { 1134e8d8bef9SDimitry Andric CallInst *CI = getCallIfRegularCall(U, &RFI); 1135e8d8bef9SDimitry Andric BB2PRMap[CI->getParent()].insert(CI); 1136e8d8bef9SDimitry Andric 1137e8d8bef9SDimitry Andric return false; 1138e8d8bef9SDimitry Andric }; 1139e8d8bef9SDimitry Andric 1140e8d8bef9SDimitry Andric BB2PRMap.clear(); 1141e8d8bef9SDimitry Andric RFI.foreachUse(SCC, DetectPRsCB); 1142e8d8bef9SDimitry Andric SmallVector<SmallVector<CallInst *, 4>, 4> MergableCIsVector; 1143e8d8bef9SDimitry Andric // Find mergable parallel regions within a basic block that are 1144e8d8bef9SDimitry Andric // safe to merge, that is any in-between instructions can safely 1145e8d8bef9SDimitry Andric // execute in parallel after merging. 1146e8d8bef9SDimitry Andric // TODO: support merging across basic-blocks. 1147e8d8bef9SDimitry Andric for (auto &It : BB2PRMap) { 1148e8d8bef9SDimitry Andric auto &CIs = It.getSecond(); 1149e8d8bef9SDimitry Andric if (CIs.size() < 2) 1150e8d8bef9SDimitry Andric continue; 1151e8d8bef9SDimitry Andric 1152e8d8bef9SDimitry Andric BasicBlock *BB = It.getFirst(); 1153e8d8bef9SDimitry Andric SmallVector<CallInst *, 4> MergableCIs; 1154e8d8bef9SDimitry Andric 1155e8d8bef9SDimitry Andric /// Returns true if the instruction is mergable, false otherwise. 1156e8d8bef9SDimitry Andric /// A terminator instruction is unmergable by definition since merging 1157e8d8bef9SDimitry Andric /// works within a BB. Instructions before the mergable region are 1158e8d8bef9SDimitry Andric /// mergable if they are not calls to OpenMP runtime functions that may 1159e8d8bef9SDimitry Andric /// set different execution parameters for subsequent parallel regions. 1160e8d8bef9SDimitry Andric /// Instructions in-between parallel regions are mergable if they are not 1161e8d8bef9SDimitry Andric /// calls to any non-intrinsic function since that may call a non-mergable 1162e8d8bef9SDimitry Andric /// OpenMP runtime function. 1163e8d8bef9SDimitry Andric auto IsMergable = [&](Instruction &I, bool IsBeforeMergableRegion) { 1164e8d8bef9SDimitry Andric // We do not merge across BBs, hence return false (unmergable) if the 1165e8d8bef9SDimitry Andric // instruction is a terminator. 1166e8d8bef9SDimitry Andric if (I.isTerminator()) 1167e8d8bef9SDimitry Andric return false; 1168e8d8bef9SDimitry Andric 1169e8d8bef9SDimitry Andric if (!isa<CallInst>(&I)) 1170e8d8bef9SDimitry Andric return true; 1171e8d8bef9SDimitry Andric 1172e8d8bef9SDimitry Andric CallInst *CI = cast<CallInst>(&I); 1173e8d8bef9SDimitry Andric if (IsBeforeMergableRegion) { 1174e8d8bef9SDimitry Andric Function *CalledFunction = CI->getCalledFunction(); 1175e8d8bef9SDimitry Andric if (!CalledFunction) 1176e8d8bef9SDimitry Andric return false; 1177e8d8bef9SDimitry Andric // Return false (unmergable) if the call before the parallel 1178e8d8bef9SDimitry Andric // region calls an explicit affinity (proc_bind) or number of 1179e8d8bef9SDimitry Andric // threads (num_threads) compiler-generated function. Those settings 1180e8d8bef9SDimitry Andric // may be incompatible with following parallel regions. 1181e8d8bef9SDimitry Andric // TODO: ICV tracking to detect compatibility. 1182e8d8bef9SDimitry Andric for (const auto &RFI : UnmergableCallsInfo) { 1183e8d8bef9SDimitry Andric if (CalledFunction == RFI.Declaration) 1184e8d8bef9SDimitry Andric return false; 1185e8d8bef9SDimitry Andric } 1186e8d8bef9SDimitry Andric } else { 1187e8d8bef9SDimitry Andric // Return false (unmergable) if there is a call instruction 1188e8d8bef9SDimitry Andric // in-between parallel regions when it is not an intrinsic. It 1189e8d8bef9SDimitry Andric // may call an unmergable OpenMP runtime function in its callpath. 1190e8d8bef9SDimitry Andric // TODO: Keep track of possible OpenMP calls in the callpath. 1191e8d8bef9SDimitry Andric if (!isa<IntrinsicInst>(CI)) 1192e8d8bef9SDimitry Andric return false; 1193e8d8bef9SDimitry Andric } 1194e8d8bef9SDimitry Andric 1195e8d8bef9SDimitry Andric return true; 1196e8d8bef9SDimitry Andric }; 1197e8d8bef9SDimitry Andric // Find maximal number of parallel region CIs that are safe to merge. 1198e8d8bef9SDimitry Andric for (auto It = BB->begin(), End = BB->end(); It != End;) { 1199e8d8bef9SDimitry Andric Instruction &I = *It; 1200e8d8bef9SDimitry Andric ++It; 1201e8d8bef9SDimitry Andric 1202e8d8bef9SDimitry Andric if (CIs.count(&I)) { 1203e8d8bef9SDimitry Andric MergableCIs.push_back(cast<CallInst>(&I)); 1204e8d8bef9SDimitry Andric continue; 1205e8d8bef9SDimitry Andric } 1206e8d8bef9SDimitry Andric 1207e8d8bef9SDimitry Andric // Continue expanding if the instruction is mergable. 1208e8d8bef9SDimitry Andric if (IsMergable(I, MergableCIs.empty())) 1209e8d8bef9SDimitry Andric continue; 1210e8d8bef9SDimitry Andric 1211e8d8bef9SDimitry Andric // Forward the instruction iterator to skip the next parallel region 1212e8d8bef9SDimitry Andric // since there is an unmergable instruction which can affect it. 1213e8d8bef9SDimitry Andric for (; It != End; ++It) { 1214e8d8bef9SDimitry Andric Instruction &SkipI = *It; 1215e8d8bef9SDimitry Andric if (CIs.count(&SkipI)) { 1216e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Skip parallel region " << SkipI 1217e8d8bef9SDimitry Andric << " due to " << I << "\n"); 1218e8d8bef9SDimitry Andric ++It; 1219e8d8bef9SDimitry Andric break; 1220e8d8bef9SDimitry Andric } 1221e8d8bef9SDimitry Andric } 1222e8d8bef9SDimitry Andric 1223e8d8bef9SDimitry Andric // Store mergable regions found. 1224e8d8bef9SDimitry Andric if (MergableCIs.size() > 1) { 1225e8d8bef9SDimitry Andric MergableCIsVector.push_back(MergableCIs); 1226e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Found " << MergableCIs.size() 1227e8d8bef9SDimitry Andric << " parallel regions in block " << BB->getName() 1228e8d8bef9SDimitry Andric << " of function " << BB->getParent()->getName() 1229e8d8bef9SDimitry Andric << "\n";); 1230e8d8bef9SDimitry Andric } 1231e8d8bef9SDimitry Andric 1232e8d8bef9SDimitry Andric MergableCIs.clear(); 1233e8d8bef9SDimitry Andric } 1234e8d8bef9SDimitry Andric 1235e8d8bef9SDimitry Andric if (!MergableCIsVector.empty()) { 1236e8d8bef9SDimitry Andric Changed = true; 1237e8d8bef9SDimitry Andric 1238e8d8bef9SDimitry Andric for (auto &MergableCIs : MergableCIsVector) 1239e8d8bef9SDimitry Andric Merge(MergableCIs, BB); 1240fe6060f1SDimitry Andric MergableCIsVector.clear(); 1241e8d8bef9SDimitry Andric } 1242e8d8bef9SDimitry Andric } 1243e8d8bef9SDimitry Andric 1244e8d8bef9SDimitry Andric if (Changed) { 1245e8d8bef9SDimitry Andric /// Re-collect use for fork calls, emitted barrier calls, and 1246e8d8bef9SDimitry Andric /// any emitted master/end_master calls. 1247e8d8bef9SDimitry Andric OMPInfoCache.recollectUsesForFunction(OMPRTL___kmpc_fork_call); 1248e8d8bef9SDimitry Andric OMPInfoCache.recollectUsesForFunction(OMPRTL___kmpc_barrier); 1249e8d8bef9SDimitry Andric OMPInfoCache.recollectUsesForFunction(OMPRTL___kmpc_master); 1250e8d8bef9SDimitry Andric OMPInfoCache.recollectUsesForFunction(OMPRTL___kmpc_end_master); 1251e8d8bef9SDimitry Andric } 1252e8d8bef9SDimitry Andric 1253e8d8bef9SDimitry Andric return Changed; 1254e8d8bef9SDimitry Andric } 1255e8d8bef9SDimitry Andric 12565ffd83dbSDimitry Andric /// Try to delete parallel regions if possible. 12575ffd83dbSDimitry Andric bool deleteParallelRegions() { 12585ffd83dbSDimitry Andric const unsigned CallbackCalleeOperand = 2; 12595ffd83dbSDimitry Andric 12605ffd83dbSDimitry Andric OMPInformationCache::RuntimeFunctionInfo &RFI = 12615ffd83dbSDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_fork_call]; 12625ffd83dbSDimitry Andric 12635ffd83dbSDimitry Andric if (!RFI.Declaration) 12645ffd83dbSDimitry Andric return false; 12655ffd83dbSDimitry Andric 12665ffd83dbSDimitry Andric bool Changed = false; 12675ffd83dbSDimitry Andric auto DeleteCallCB = [&](Use &U, Function &) { 12685ffd83dbSDimitry Andric CallInst *CI = getCallIfRegularCall(U); 12695ffd83dbSDimitry Andric if (!CI) 12705ffd83dbSDimitry Andric return false; 12715ffd83dbSDimitry Andric auto *Fn = dyn_cast<Function>( 12725ffd83dbSDimitry Andric CI->getArgOperand(CallbackCalleeOperand)->stripPointerCasts()); 12735ffd83dbSDimitry Andric if (!Fn) 12745ffd83dbSDimitry Andric return false; 12755ffd83dbSDimitry Andric if (!Fn->onlyReadsMemory()) 12765ffd83dbSDimitry Andric return false; 12775ffd83dbSDimitry Andric if (!Fn->hasFnAttribute(Attribute::WillReturn)) 12785ffd83dbSDimitry Andric return false; 12795ffd83dbSDimitry Andric 12805ffd83dbSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Delete read-only parallel region in " 12815ffd83dbSDimitry Andric << CI->getCaller()->getName() << "\n"); 12825ffd83dbSDimitry Andric 12835ffd83dbSDimitry Andric auto Remark = [&](OptimizationRemark OR) { 1284fe6060f1SDimitry Andric return OR << "Removing parallel region with no side-effects."; 12855ffd83dbSDimitry Andric }; 1286fe6060f1SDimitry Andric emitRemark<OptimizationRemark>(CI, "OMP160", Remark); 12875ffd83dbSDimitry Andric 12885ffd83dbSDimitry Andric CGUpdater.removeCallSite(*CI); 12895ffd83dbSDimitry Andric CI->eraseFromParent(); 12905ffd83dbSDimitry Andric Changed = true; 12915ffd83dbSDimitry Andric ++NumOpenMPParallelRegionsDeleted; 12925ffd83dbSDimitry Andric return true; 12935ffd83dbSDimitry Andric }; 12945ffd83dbSDimitry Andric 12955ffd83dbSDimitry Andric RFI.foreachUse(SCC, DeleteCallCB); 12965ffd83dbSDimitry Andric 12975ffd83dbSDimitry Andric return Changed; 12985ffd83dbSDimitry Andric } 12995ffd83dbSDimitry Andric 13005ffd83dbSDimitry Andric /// Try to eliminate runtime calls by reusing existing ones. 13015ffd83dbSDimitry Andric bool deduplicateRuntimeCalls() { 13025ffd83dbSDimitry Andric bool Changed = false; 13035ffd83dbSDimitry Andric 13045ffd83dbSDimitry Andric RuntimeFunction DeduplicableRuntimeCallIDs[] = { 13055ffd83dbSDimitry Andric OMPRTL_omp_get_num_threads, 13065ffd83dbSDimitry Andric OMPRTL_omp_in_parallel, 13075ffd83dbSDimitry Andric OMPRTL_omp_get_cancellation, 13085ffd83dbSDimitry Andric OMPRTL_omp_get_thread_limit, 13095ffd83dbSDimitry Andric OMPRTL_omp_get_supported_active_levels, 13105ffd83dbSDimitry Andric OMPRTL_omp_get_level, 13115ffd83dbSDimitry Andric OMPRTL_omp_get_ancestor_thread_num, 13125ffd83dbSDimitry Andric OMPRTL_omp_get_team_size, 13135ffd83dbSDimitry Andric OMPRTL_omp_get_active_level, 13145ffd83dbSDimitry Andric OMPRTL_omp_in_final, 13155ffd83dbSDimitry Andric OMPRTL_omp_get_proc_bind, 13165ffd83dbSDimitry Andric OMPRTL_omp_get_num_places, 13175ffd83dbSDimitry Andric OMPRTL_omp_get_num_procs, 13185ffd83dbSDimitry Andric OMPRTL_omp_get_place_num, 13195ffd83dbSDimitry Andric OMPRTL_omp_get_partition_num_places, 13205ffd83dbSDimitry Andric OMPRTL_omp_get_partition_place_nums}; 13215ffd83dbSDimitry Andric 13225ffd83dbSDimitry Andric // Global-tid is handled separately. 13235ffd83dbSDimitry Andric SmallSetVector<Value *, 16> GTIdArgs; 13245ffd83dbSDimitry Andric collectGlobalThreadIdArguments(GTIdArgs); 13255ffd83dbSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Found " << GTIdArgs.size() 13265ffd83dbSDimitry Andric << " global thread ID arguments\n"); 13275ffd83dbSDimitry Andric 13285ffd83dbSDimitry Andric for (Function *F : SCC) { 13295ffd83dbSDimitry Andric for (auto DeduplicableRuntimeCallID : DeduplicableRuntimeCallIDs) 1330e8d8bef9SDimitry Andric Changed |= deduplicateRuntimeCalls( 1331e8d8bef9SDimitry Andric *F, OMPInfoCache.RFIs[DeduplicableRuntimeCallID]); 13325ffd83dbSDimitry Andric 13335ffd83dbSDimitry Andric // __kmpc_global_thread_num is special as we can replace it with an 13345ffd83dbSDimitry Andric // argument in enough cases to make it worth trying. 13355ffd83dbSDimitry Andric Value *GTIdArg = nullptr; 13365ffd83dbSDimitry Andric for (Argument &Arg : F->args()) 13375ffd83dbSDimitry Andric if (GTIdArgs.count(&Arg)) { 13385ffd83dbSDimitry Andric GTIdArg = &Arg; 13395ffd83dbSDimitry Andric break; 13405ffd83dbSDimitry Andric } 13415ffd83dbSDimitry Andric Changed |= deduplicateRuntimeCalls( 13425ffd83dbSDimitry Andric *F, OMPInfoCache.RFIs[OMPRTL___kmpc_global_thread_num], GTIdArg); 13435ffd83dbSDimitry Andric } 13445ffd83dbSDimitry Andric 13455ffd83dbSDimitry Andric return Changed; 13465ffd83dbSDimitry Andric } 13475ffd83dbSDimitry Andric 1348e8d8bef9SDimitry Andric /// Tries to hide the latency of runtime calls that involve host to 1349e8d8bef9SDimitry Andric /// device memory transfers by splitting them into their "issue" and "wait" 1350e8d8bef9SDimitry Andric /// versions. The "issue" is moved upwards as much as possible. The "wait" is 1351e8d8bef9SDimitry Andric /// moved downards as much as possible. The "issue" issues the memory transfer 1352e8d8bef9SDimitry Andric /// asynchronously, returning a handle. The "wait" waits in the returned 1353e8d8bef9SDimitry Andric /// handle for the memory transfer to finish. 1354e8d8bef9SDimitry Andric bool hideMemTransfersLatency() { 1355e8d8bef9SDimitry Andric auto &RFI = OMPInfoCache.RFIs[OMPRTL___tgt_target_data_begin_mapper]; 1356e8d8bef9SDimitry Andric bool Changed = false; 1357e8d8bef9SDimitry Andric auto SplitMemTransfers = [&](Use &U, Function &Decl) { 1358e8d8bef9SDimitry Andric auto *RTCall = getCallIfRegularCall(U, &RFI); 1359e8d8bef9SDimitry Andric if (!RTCall) 1360e8d8bef9SDimitry Andric return false; 1361e8d8bef9SDimitry Andric 1362e8d8bef9SDimitry Andric OffloadArray OffloadArrays[3]; 1363e8d8bef9SDimitry Andric if (!getValuesInOffloadArrays(*RTCall, OffloadArrays)) 1364e8d8bef9SDimitry Andric return false; 1365e8d8bef9SDimitry Andric 1366e8d8bef9SDimitry Andric LLVM_DEBUG(dumpValuesInOffloadArrays(OffloadArrays)); 1367e8d8bef9SDimitry Andric 1368e8d8bef9SDimitry Andric // TODO: Check if can be moved upwards. 1369e8d8bef9SDimitry Andric bool WasSplit = false; 1370e8d8bef9SDimitry Andric Instruction *WaitMovementPoint = canBeMovedDownwards(*RTCall); 1371e8d8bef9SDimitry Andric if (WaitMovementPoint) 1372e8d8bef9SDimitry Andric WasSplit = splitTargetDataBeginRTC(*RTCall, *WaitMovementPoint); 1373e8d8bef9SDimitry Andric 1374e8d8bef9SDimitry Andric Changed |= WasSplit; 1375e8d8bef9SDimitry Andric return WasSplit; 1376e8d8bef9SDimitry Andric }; 1377e8d8bef9SDimitry Andric RFI.foreachUse(SCC, SplitMemTransfers); 1378e8d8bef9SDimitry Andric 1379e8d8bef9SDimitry Andric return Changed; 1380e8d8bef9SDimitry Andric } 1381e8d8bef9SDimitry Andric 1382e8d8bef9SDimitry Andric void analysisGlobalization() { 1383fe6060f1SDimitry Andric auto &RFI = OMPInfoCache.RFIs[OMPRTL___kmpc_alloc_shared]; 1384e8d8bef9SDimitry Andric 1385e8d8bef9SDimitry Andric auto CheckGlobalization = [&](Use &U, Function &Decl) { 1386e8d8bef9SDimitry Andric if (CallInst *CI = getCallIfRegularCall(U, &RFI)) { 1387fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkMissed ORM) { 1388fe6060f1SDimitry Andric return ORM 1389e8d8bef9SDimitry Andric << "Found thread data sharing on the GPU. " 1390e8d8bef9SDimitry Andric << "Expect degraded performance due to data globalization."; 1391e8d8bef9SDimitry Andric }; 1392fe6060f1SDimitry Andric emitRemark<OptimizationRemarkMissed>(CI, "OMP112", Remark); 1393e8d8bef9SDimitry Andric } 1394e8d8bef9SDimitry Andric 1395e8d8bef9SDimitry Andric return false; 1396e8d8bef9SDimitry Andric }; 1397e8d8bef9SDimitry Andric 1398e8d8bef9SDimitry Andric RFI.foreachUse(SCC, CheckGlobalization); 1399e8d8bef9SDimitry Andric } 1400e8d8bef9SDimitry Andric 1401e8d8bef9SDimitry Andric /// Maps the values stored in the offload arrays passed as arguments to 1402e8d8bef9SDimitry Andric /// \p RuntimeCall into the offload arrays in \p OAs. 1403e8d8bef9SDimitry Andric bool getValuesInOffloadArrays(CallInst &RuntimeCall, 1404e8d8bef9SDimitry Andric MutableArrayRef<OffloadArray> OAs) { 1405e8d8bef9SDimitry Andric assert(OAs.size() == 3 && "Need space for three offload arrays!"); 1406e8d8bef9SDimitry Andric 1407e8d8bef9SDimitry Andric // A runtime call that involves memory offloading looks something like: 1408e8d8bef9SDimitry Andric // call void @__tgt_target_data_begin_mapper(arg0, arg1, 1409e8d8bef9SDimitry Andric // i8** %offload_baseptrs, i8** %offload_ptrs, i64* %offload_sizes, 1410e8d8bef9SDimitry Andric // ...) 1411e8d8bef9SDimitry Andric // So, the idea is to access the allocas that allocate space for these 1412e8d8bef9SDimitry Andric // offload arrays, offload_baseptrs, offload_ptrs, offload_sizes. 1413e8d8bef9SDimitry Andric // Therefore: 1414e8d8bef9SDimitry Andric // i8** %offload_baseptrs. 1415e8d8bef9SDimitry Andric Value *BasePtrsArg = 1416e8d8bef9SDimitry Andric RuntimeCall.getArgOperand(OffloadArray::BasePtrsArgNum); 1417e8d8bef9SDimitry Andric // i8** %offload_ptrs. 1418e8d8bef9SDimitry Andric Value *PtrsArg = RuntimeCall.getArgOperand(OffloadArray::PtrsArgNum); 1419e8d8bef9SDimitry Andric // i8** %offload_sizes. 1420e8d8bef9SDimitry Andric Value *SizesArg = RuntimeCall.getArgOperand(OffloadArray::SizesArgNum); 1421e8d8bef9SDimitry Andric 1422e8d8bef9SDimitry Andric // Get values stored in **offload_baseptrs. 1423e8d8bef9SDimitry Andric auto *V = getUnderlyingObject(BasePtrsArg); 1424e8d8bef9SDimitry Andric if (!isa<AllocaInst>(V)) 1425e8d8bef9SDimitry Andric return false; 1426e8d8bef9SDimitry Andric auto *BasePtrsArray = cast<AllocaInst>(V); 1427e8d8bef9SDimitry Andric if (!OAs[0].initialize(*BasePtrsArray, RuntimeCall)) 1428e8d8bef9SDimitry Andric return false; 1429e8d8bef9SDimitry Andric 1430e8d8bef9SDimitry Andric // Get values stored in **offload_baseptrs. 1431e8d8bef9SDimitry Andric V = getUnderlyingObject(PtrsArg); 1432e8d8bef9SDimitry Andric if (!isa<AllocaInst>(V)) 1433e8d8bef9SDimitry Andric return false; 1434e8d8bef9SDimitry Andric auto *PtrsArray = cast<AllocaInst>(V); 1435e8d8bef9SDimitry Andric if (!OAs[1].initialize(*PtrsArray, RuntimeCall)) 1436e8d8bef9SDimitry Andric return false; 1437e8d8bef9SDimitry Andric 1438e8d8bef9SDimitry Andric // Get values stored in **offload_sizes. 1439e8d8bef9SDimitry Andric V = getUnderlyingObject(SizesArg); 1440e8d8bef9SDimitry Andric // If it's a [constant] global array don't analyze it. 1441e8d8bef9SDimitry Andric if (isa<GlobalValue>(V)) 1442e8d8bef9SDimitry Andric return isa<Constant>(V); 1443e8d8bef9SDimitry Andric if (!isa<AllocaInst>(V)) 1444e8d8bef9SDimitry Andric return false; 1445e8d8bef9SDimitry Andric 1446e8d8bef9SDimitry Andric auto *SizesArray = cast<AllocaInst>(V); 1447e8d8bef9SDimitry Andric if (!OAs[2].initialize(*SizesArray, RuntimeCall)) 1448e8d8bef9SDimitry Andric return false; 1449e8d8bef9SDimitry Andric 1450e8d8bef9SDimitry Andric return true; 1451e8d8bef9SDimitry Andric } 1452e8d8bef9SDimitry Andric 1453e8d8bef9SDimitry Andric /// Prints the values in the OffloadArrays \p OAs using LLVM_DEBUG. 1454e8d8bef9SDimitry Andric /// For now this is a way to test that the function getValuesInOffloadArrays 1455e8d8bef9SDimitry Andric /// is working properly. 1456e8d8bef9SDimitry Andric /// TODO: Move this to a unittest when unittests are available for OpenMPOpt. 1457e8d8bef9SDimitry Andric void dumpValuesInOffloadArrays(ArrayRef<OffloadArray> OAs) { 1458e8d8bef9SDimitry Andric assert(OAs.size() == 3 && "There are three offload arrays to debug!"); 1459e8d8bef9SDimitry Andric 1460e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << TAG << " Successfully got offload values:\n"); 1461e8d8bef9SDimitry Andric std::string ValuesStr; 1462e8d8bef9SDimitry Andric raw_string_ostream Printer(ValuesStr); 1463e8d8bef9SDimitry Andric std::string Separator = " --- "; 1464e8d8bef9SDimitry Andric 1465e8d8bef9SDimitry Andric for (auto *BP : OAs[0].StoredValues) { 1466e8d8bef9SDimitry Andric BP->print(Printer); 1467e8d8bef9SDimitry Andric Printer << Separator; 1468e8d8bef9SDimitry Andric } 1469e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << "\t\toffload_baseptrs: " << Printer.str() << "\n"); 1470e8d8bef9SDimitry Andric ValuesStr.clear(); 1471e8d8bef9SDimitry Andric 1472e8d8bef9SDimitry Andric for (auto *P : OAs[1].StoredValues) { 1473e8d8bef9SDimitry Andric P->print(Printer); 1474e8d8bef9SDimitry Andric Printer << Separator; 1475e8d8bef9SDimitry Andric } 1476e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << "\t\toffload_ptrs: " << Printer.str() << "\n"); 1477e8d8bef9SDimitry Andric ValuesStr.clear(); 1478e8d8bef9SDimitry Andric 1479e8d8bef9SDimitry Andric for (auto *S : OAs[2].StoredValues) { 1480e8d8bef9SDimitry Andric S->print(Printer); 1481e8d8bef9SDimitry Andric Printer << Separator; 1482e8d8bef9SDimitry Andric } 1483e8d8bef9SDimitry Andric LLVM_DEBUG(dbgs() << "\t\toffload_sizes: " << Printer.str() << "\n"); 1484e8d8bef9SDimitry Andric } 1485e8d8bef9SDimitry Andric 1486e8d8bef9SDimitry Andric /// Returns the instruction where the "wait" counterpart \p RuntimeCall can be 1487e8d8bef9SDimitry Andric /// moved. Returns nullptr if the movement is not possible, or not worth it. 1488e8d8bef9SDimitry Andric Instruction *canBeMovedDownwards(CallInst &RuntimeCall) { 1489e8d8bef9SDimitry Andric // FIXME: This traverses only the BasicBlock where RuntimeCall is. 1490e8d8bef9SDimitry Andric // Make it traverse the CFG. 1491e8d8bef9SDimitry Andric 1492e8d8bef9SDimitry Andric Instruction *CurrentI = &RuntimeCall; 1493e8d8bef9SDimitry Andric bool IsWorthIt = false; 1494e8d8bef9SDimitry Andric while ((CurrentI = CurrentI->getNextNode())) { 1495e8d8bef9SDimitry Andric 1496e8d8bef9SDimitry Andric // TODO: Once we detect the regions to be offloaded we should use the 1497e8d8bef9SDimitry Andric // alias analysis manager to check if CurrentI may modify one of 1498e8d8bef9SDimitry Andric // the offloaded regions. 1499e8d8bef9SDimitry Andric if (CurrentI->mayHaveSideEffects() || CurrentI->mayReadFromMemory()) { 1500e8d8bef9SDimitry Andric if (IsWorthIt) 1501e8d8bef9SDimitry Andric return CurrentI; 1502e8d8bef9SDimitry Andric 1503e8d8bef9SDimitry Andric return nullptr; 1504e8d8bef9SDimitry Andric } 1505e8d8bef9SDimitry Andric 1506e8d8bef9SDimitry Andric // FIXME: For now if we move it over anything without side effect 1507e8d8bef9SDimitry Andric // is worth it. 1508e8d8bef9SDimitry Andric IsWorthIt = true; 1509e8d8bef9SDimitry Andric } 1510e8d8bef9SDimitry Andric 1511e8d8bef9SDimitry Andric // Return end of BasicBlock. 1512e8d8bef9SDimitry Andric return RuntimeCall.getParent()->getTerminator(); 1513e8d8bef9SDimitry Andric } 1514e8d8bef9SDimitry Andric 1515e8d8bef9SDimitry Andric /// Splits \p RuntimeCall into its "issue" and "wait" counterparts. 1516e8d8bef9SDimitry Andric bool splitTargetDataBeginRTC(CallInst &RuntimeCall, 1517e8d8bef9SDimitry Andric Instruction &WaitMovementPoint) { 1518e8d8bef9SDimitry Andric // Create stack allocated handle (__tgt_async_info) at the beginning of the 1519e8d8bef9SDimitry Andric // function. Used for storing information of the async transfer, allowing to 1520e8d8bef9SDimitry Andric // wait on it later. 1521e8d8bef9SDimitry Andric auto &IRBuilder = OMPInfoCache.OMPBuilder; 1522e8d8bef9SDimitry Andric auto *F = RuntimeCall.getCaller(); 1523e8d8bef9SDimitry Andric Instruction *FirstInst = &(F->getEntryBlock().front()); 1524e8d8bef9SDimitry Andric AllocaInst *Handle = new AllocaInst( 1525e8d8bef9SDimitry Andric IRBuilder.AsyncInfo, F->getAddressSpace(), "handle", FirstInst); 1526e8d8bef9SDimitry Andric 1527e8d8bef9SDimitry Andric // Add "issue" runtime call declaration: 1528e8d8bef9SDimitry Andric // declare %struct.tgt_async_info @__tgt_target_data_begin_issue(i64, i32, 1529e8d8bef9SDimitry Andric // i8**, i8**, i64*, i64*) 1530e8d8bef9SDimitry Andric FunctionCallee IssueDecl = IRBuilder.getOrCreateRuntimeFunction( 1531e8d8bef9SDimitry Andric M, OMPRTL___tgt_target_data_begin_mapper_issue); 1532e8d8bef9SDimitry Andric 1533e8d8bef9SDimitry Andric // Change RuntimeCall call site for its asynchronous version. 1534e8d8bef9SDimitry Andric SmallVector<Value *, 16> Args; 1535e8d8bef9SDimitry Andric for (auto &Arg : RuntimeCall.args()) 1536e8d8bef9SDimitry Andric Args.push_back(Arg.get()); 1537e8d8bef9SDimitry Andric Args.push_back(Handle); 1538e8d8bef9SDimitry Andric 1539e8d8bef9SDimitry Andric CallInst *IssueCallsite = 1540e8d8bef9SDimitry Andric CallInst::Create(IssueDecl, Args, /*NameStr=*/"", &RuntimeCall); 1541e8d8bef9SDimitry Andric RuntimeCall.eraseFromParent(); 1542e8d8bef9SDimitry Andric 1543e8d8bef9SDimitry Andric // Add "wait" runtime call declaration: 1544e8d8bef9SDimitry Andric // declare void @__tgt_target_data_begin_wait(i64, %struct.__tgt_async_info) 1545e8d8bef9SDimitry Andric FunctionCallee WaitDecl = IRBuilder.getOrCreateRuntimeFunction( 1546e8d8bef9SDimitry Andric M, OMPRTL___tgt_target_data_begin_mapper_wait); 1547e8d8bef9SDimitry Andric 1548e8d8bef9SDimitry Andric Value *WaitParams[2] = { 1549e8d8bef9SDimitry Andric IssueCallsite->getArgOperand( 1550e8d8bef9SDimitry Andric OffloadArray::DeviceIDArgNum), // device_id. 1551e8d8bef9SDimitry Andric Handle // handle to wait on. 1552e8d8bef9SDimitry Andric }; 1553e8d8bef9SDimitry Andric CallInst::Create(WaitDecl, WaitParams, /*NameStr=*/"", &WaitMovementPoint); 1554e8d8bef9SDimitry Andric 1555e8d8bef9SDimitry Andric return true; 1556e8d8bef9SDimitry Andric } 1557e8d8bef9SDimitry Andric 15585ffd83dbSDimitry Andric static Value *combinedIdentStruct(Value *CurrentIdent, Value *NextIdent, 15595ffd83dbSDimitry Andric bool GlobalOnly, bool &SingleChoice) { 15605ffd83dbSDimitry Andric if (CurrentIdent == NextIdent) 15615ffd83dbSDimitry Andric return CurrentIdent; 15625ffd83dbSDimitry Andric 15635ffd83dbSDimitry Andric // TODO: Figure out how to actually combine multiple debug locations. For 15645ffd83dbSDimitry Andric // now we just keep an existing one if there is a single choice. 15655ffd83dbSDimitry Andric if (!GlobalOnly || isa<GlobalValue>(NextIdent)) { 15665ffd83dbSDimitry Andric SingleChoice = !CurrentIdent; 15675ffd83dbSDimitry Andric return NextIdent; 15685ffd83dbSDimitry Andric } 15695ffd83dbSDimitry Andric return nullptr; 15705ffd83dbSDimitry Andric } 15715ffd83dbSDimitry Andric 15725ffd83dbSDimitry Andric /// Return an `struct ident_t*` value that represents the ones used in the 15735ffd83dbSDimitry Andric /// calls of \p RFI inside of \p F. If \p GlobalOnly is true, we will not 15745ffd83dbSDimitry Andric /// return a local `struct ident_t*`. For now, if we cannot find a suitable 15755ffd83dbSDimitry Andric /// return value we create one from scratch. We also do not yet combine 15765ffd83dbSDimitry Andric /// information, e.g., the source locations, see combinedIdentStruct. 15775ffd83dbSDimitry Andric Value * 15785ffd83dbSDimitry Andric getCombinedIdentFromCallUsesIn(OMPInformationCache::RuntimeFunctionInfo &RFI, 15795ffd83dbSDimitry Andric Function &F, bool GlobalOnly) { 15805ffd83dbSDimitry Andric bool SingleChoice = true; 15815ffd83dbSDimitry Andric Value *Ident = nullptr; 15825ffd83dbSDimitry Andric auto CombineIdentStruct = [&](Use &U, Function &Caller) { 15835ffd83dbSDimitry Andric CallInst *CI = getCallIfRegularCall(U, &RFI); 15845ffd83dbSDimitry Andric if (!CI || &F != &Caller) 15855ffd83dbSDimitry Andric return false; 15865ffd83dbSDimitry Andric Ident = combinedIdentStruct(Ident, CI->getArgOperand(0), 15875ffd83dbSDimitry Andric /* GlobalOnly */ true, SingleChoice); 15885ffd83dbSDimitry Andric return false; 15895ffd83dbSDimitry Andric }; 15905ffd83dbSDimitry Andric RFI.foreachUse(SCC, CombineIdentStruct); 15915ffd83dbSDimitry Andric 15925ffd83dbSDimitry Andric if (!Ident || !SingleChoice) { 15935ffd83dbSDimitry Andric // The IRBuilder uses the insertion block to get to the module, this is 15945ffd83dbSDimitry Andric // unfortunate but we work around it for now. 15955ffd83dbSDimitry Andric if (!OMPInfoCache.OMPBuilder.getInsertionPoint().getBlock()) 15965ffd83dbSDimitry Andric OMPInfoCache.OMPBuilder.updateToLocation(OpenMPIRBuilder::InsertPointTy( 15975ffd83dbSDimitry Andric &F.getEntryBlock(), F.getEntryBlock().begin())); 15985ffd83dbSDimitry Andric // Create a fallback location if non was found. 15995ffd83dbSDimitry Andric // TODO: Use the debug locations of the calls instead. 16005ffd83dbSDimitry Andric Constant *Loc = OMPInfoCache.OMPBuilder.getOrCreateDefaultSrcLocStr(); 16015ffd83dbSDimitry Andric Ident = OMPInfoCache.OMPBuilder.getOrCreateIdent(Loc); 16025ffd83dbSDimitry Andric } 16035ffd83dbSDimitry Andric return Ident; 16045ffd83dbSDimitry Andric } 16055ffd83dbSDimitry Andric 16065ffd83dbSDimitry Andric /// Try to eliminate calls of \p RFI in \p F by reusing an existing one or 16075ffd83dbSDimitry Andric /// \p ReplVal if given. 16085ffd83dbSDimitry Andric bool deduplicateRuntimeCalls(Function &F, 16095ffd83dbSDimitry Andric OMPInformationCache::RuntimeFunctionInfo &RFI, 16105ffd83dbSDimitry Andric Value *ReplVal = nullptr) { 16115ffd83dbSDimitry Andric auto *UV = RFI.getUseVector(F); 16125ffd83dbSDimitry Andric if (!UV || UV->size() + (ReplVal != nullptr) < 2) 16135ffd83dbSDimitry Andric return false; 16145ffd83dbSDimitry Andric 16155ffd83dbSDimitry Andric LLVM_DEBUG( 16165ffd83dbSDimitry Andric dbgs() << TAG << "Deduplicate " << UV->size() << " uses of " << RFI.Name 16175ffd83dbSDimitry Andric << (ReplVal ? " with an existing value\n" : "\n") << "\n"); 16185ffd83dbSDimitry Andric 16195ffd83dbSDimitry Andric assert((!ReplVal || (isa<Argument>(ReplVal) && 16205ffd83dbSDimitry Andric cast<Argument>(ReplVal)->getParent() == &F)) && 16215ffd83dbSDimitry Andric "Unexpected replacement value!"); 16225ffd83dbSDimitry Andric 16235ffd83dbSDimitry Andric // TODO: Use dominance to find a good position instead. 16245ffd83dbSDimitry Andric auto CanBeMoved = [this](CallBase &CB) { 1625*349cc55cSDimitry Andric unsigned NumArgs = CB.arg_size(); 16265ffd83dbSDimitry Andric if (NumArgs == 0) 16275ffd83dbSDimitry Andric return true; 16285ffd83dbSDimitry Andric if (CB.getArgOperand(0)->getType() != OMPInfoCache.OMPBuilder.IdentPtr) 16295ffd83dbSDimitry Andric return false; 1630*349cc55cSDimitry Andric for (unsigned U = 1; U < NumArgs; ++U) 1631*349cc55cSDimitry Andric if (isa<Instruction>(CB.getArgOperand(U))) 16325ffd83dbSDimitry Andric return false; 16335ffd83dbSDimitry Andric return true; 16345ffd83dbSDimitry Andric }; 16355ffd83dbSDimitry Andric 16365ffd83dbSDimitry Andric if (!ReplVal) { 16375ffd83dbSDimitry Andric for (Use *U : *UV) 16385ffd83dbSDimitry Andric if (CallInst *CI = getCallIfRegularCall(*U, &RFI)) { 16395ffd83dbSDimitry Andric if (!CanBeMoved(*CI)) 16405ffd83dbSDimitry Andric continue; 16415ffd83dbSDimitry Andric 1642fe6060f1SDimitry Andric // If the function is a kernel, dedup will move 1643fe6060f1SDimitry Andric // the runtime call right after the kernel init callsite. Otherwise, 1644fe6060f1SDimitry Andric // it will move it to the beginning of the caller function. 1645fe6060f1SDimitry Andric if (isKernel(F)) { 1646fe6060f1SDimitry Andric auto &KernelInitRFI = OMPInfoCache.RFIs[OMPRTL___kmpc_target_init]; 1647fe6060f1SDimitry Andric auto *KernelInitUV = KernelInitRFI.getUseVector(F); 16485ffd83dbSDimitry Andric 1649fe6060f1SDimitry Andric if (KernelInitUV->empty()) 1650fe6060f1SDimitry Andric continue; 1651fe6060f1SDimitry Andric 1652fe6060f1SDimitry Andric assert(KernelInitUV->size() == 1 && 1653fe6060f1SDimitry Andric "Expected a single __kmpc_target_init in kernel\n"); 1654fe6060f1SDimitry Andric 1655fe6060f1SDimitry Andric CallInst *KernelInitCI = 1656fe6060f1SDimitry Andric getCallIfRegularCall(*KernelInitUV->front(), &KernelInitRFI); 1657fe6060f1SDimitry Andric assert(KernelInitCI && 1658fe6060f1SDimitry Andric "Expected a call to __kmpc_target_init in kernel\n"); 1659fe6060f1SDimitry Andric 1660fe6060f1SDimitry Andric CI->moveAfter(KernelInitCI); 1661fe6060f1SDimitry Andric } else 16625ffd83dbSDimitry Andric CI->moveBefore(&*F.getEntryBlock().getFirstInsertionPt()); 16635ffd83dbSDimitry Andric ReplVal = CI; 16645ffd83dbSDimitry Andric break; 16655ffd83dbSDimitry Andric } 16665ffd83dbSDimitry Andric if (!ReplVal) 16675ffd83dbSDimitry Andric return false; 16685ffd83dbSDimitry Andric } 16695ffd83dbSDimitry Andric 16705ffd83dbSDimitry Andric // If we use a call as a replacement value we need to make sure the ident is 16715ffd83dbSDimitry Andric // valid at the new location. For now we just pick a global one, either 16725ffd83dbSDimitry Andric // existing and used by one of the calls, or created from scratch. 16735ffd83dbSDimitry Andric if (CallBase *CI = dyn_cast<CallBase>(ReplVal)) { 1674*349cc55cSDimitry Andric if (!CI->arg_empty() && 16755ffd83dbSDimitry Andric CI->getArgOperand(0)->getType() == OMPInfoCache.OMPBuilder.IdentPtr) { 16765ffd83dbSDimitry Andric Value *Ident = getCombinedIdentFromCallUsesIn(RFI, F, 16775ffd83dbSDimitry Andric /* GlobalOnly */ true); 16785ffd83dbSDimitry Andric CI->setArgOperand(0, Ident); 16795ffd83dbSDimitry Andric } 16805ffd83dbSDimitry Andric } 16815ffd83dbSDimitry Andric 16825ffd83dbSDimitry Andric bool Changed = false; 16835ffd83dbSDimitry Andric auto ReplaceAndDeleteCB = [&](Use &U, Function &Caller) { 16845ffd83dbSDimitry Andric CallInst *CI = getCallIfRegularCall(U, &RFI); 16855ffd83dbSDimitry Andric if (!CI || CI == ReplVal || &F != &Caller) 16865ffd83dbSDimitry Andric return false; 16875ffd83dbSDimitry Andric assert(CI->getCaller() == &F && "Unexpected call!"); 16885ffd83dbSDimitry Andric 16895ffd83dbSDimitry Andric auto Remark = [&](OptimizationRemark OR) { 16905ffd83dbSDimitry Andric return OR << "OpenMP runtime call " 1691fe6060f1SDimitry Andric << ore::NV("OpenMPOptRuntime", RFI.Name) << " deduplicated."; 16925ffd83dbSDimitry Andric }; 1693fe6060f1SDimitry Andric if (CI->getDebugLoc()) 1694fe6060f1SDimitry Andric emitRemark<OptimizationRemark>(CI, "OMP170", Remark); 1695fe6060f1SDimitry Andric else 1696fe6060f1SDimitry Andric emitRemark<OptimizationRemark>(&F, "OMP170", Remark); 16975ffd83dbSDimitry Andric 16985ffd83dbSDimitry Andric CGUpdater.removeCallSite(*CI); 16995ffd83dbSDimitry Andric CI->replaceAllUsesWith(ReplVal); 17005ffd83dbSDimitry Andric CI->eraseFromParent(); 17015ffd83dbSDimitry Andric ++NumOpenMPRuntimeCallsDeduplicated; 17025ffd83dbSDimitry Andric Changed = true; 17035ffd83dbSDimitry Andric return true; 17045ffd83dbSDimitry Andric }; 17055ffd83dbSDimitry Andric RFI.foreachUse(SCC, ReplaceAndDeleteCB); 17065ffd83dbSDimitry Andric 17075ffd83dbSDimitry Andric return Changed; 17085ffd83dbSDimitry Andric } 17095ffd83dbSDimitry Andric 17105ffd83dbSDimitry Andric /// Collect arguments that represent the global thread id in \p GTIdArgs. 17115ffd83dbSDimitry Andric void collectGlobalThreadIdArguments(SmallSetVector<Value *, 16> >IdArgs) { 17125ffd83dbSDimitry Andric // TODO: Below we basically perform a fixpoint iteration with a pessimistic 17135ffd83dbSDimitry Andric // initialization. We could define an AbstractAttribute instead and 17145ffd83dbSDimitry Andric // run the Attributor here once it can be run as an SCC pass. 17155ffd83dbSDimitry Andric 17165ffd83dbSDimitry Andric // Helper to check the argument \p ArgNo at all call sites of \p F for 17175ffd83dbSDimitry Andric // a GTId. 17185ffd83dbSDimitry Andric auto CallArgOpIsGTId = [&](Function &F, unsigned ArgNo, CallInst &RefCI) { 17195ffd83dbSDimitry Andric if (!F.hasLocalLinkage()) 17205ffd83dbSDimitry Andric return false; 17215ffd83dbSDimitry Andric for (Use &U : F.uses()) { 17225ffd83dbSDimitry Andric if (CallInst *CI = getCallIfRegularCall(U)) { 17235ffd83dbSDimitry Andric Value *ArgOp = CI->getArgOperand(ArgNo); 17245ffd83dbSDimitry Andric if (CI == &RefCI || GTIdArgs.count(ArgOp) || 17255ffd83dbSDimitry Andric getCallIfRegularCall( 17265ffd83dbSDimitry Andric *ArgOp, &OMPInfoCache.RFIs[OMPRTL___kmpc_global_thread_num])) 17275ffd83dbSDimitry Andric continue; 17285ffd83dbSDimitry Andric } 17295ffd83dbSDimitry Andric return false; 17305ffd83dbSDimitry Andric } 17315ffd83dbSDimitry Andric return true; 17325ffd83dbSDimitry Andric }; 17335ffd83dbSDimitry Andric 17345ffd83dbSDimitry Andric // Helper to identify uses of a GTId as GTId arguments. 17355ffd83dbSDimitry Andric auto AddUserArgs = [&](Value >Id) { 17365ffd83dbSDimitry Andric for (Use &U : GTId.uses()) 17375ffd83dbSDimitry Andric if (CallInst *CI = dyn_cast<CallInst>(U.getUser())) 17385ffd83dbSDimitry Andric if (CI->isArgOperand(&U)) 17395ffd83dbSDimitry Andric if (Function *Callee = CI->getCalledFunction()) 17405ffd83dbSDimitry Andric if (CallArgOpIsGTId(*Callee, U.getOperandNo(), *CI)) 17415ffd83dbSDimitry Andric GTIdArgs.insert(Callee->getArg(U.getOperandNo())); 17425ffd83dbSDimitry Andric }; 17435ffd83dbSDimitry Andric 17445ffd83dbSDimitry Andric // The argument users of __kmpc_global_thread_num calls are GTIds. 17455ffd83dbSDimitry Andric OMPInformationCache::RuntimeFunctionInfo &GlobThreadNumRFI = 17465ffd83dbSDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_global_thread_num]; 17475ffd83dbSDimitry Andric 17485ffd83dbSDimitry Andric GlobThreadNumRFI.foreachUse(SCC, [&](Use &U, Function &F) { 17495ffd83dbSDimitry Andric if (CallInst *CI = getCallIfRegularCall(U, &GlobThreadNumRFI)) 17505ffd83dbSDimitry Andric AddUserArgs(*CI); 17515ffd83dbSDimitry Andric return false; 17525ffd83dbSDimitry Andric }); 17535ffd83dbSDimitry Andric 17545ffd83dbSDimitry Andric // Transitively search for more arguments by looking at the users of the 17555ffd83dbSDimitry Andric // ones we know already. During the search the GTIdArgs vector is extended 17565ffd83dbSDimitry Andric // so we cannot cache the size nor can we use a range based for. 1757*349cc55cSDimitry Andric for (unsigned U = 0; U < GTIdArgs.size(); ++U) 1758*349cc55cSDimitry Andric AddUserArgs(*GTIdArgs[U]); 17595ffd83dbSDimitry Andric } 17605ffd83dbSDimitry Andric 17615ffd83dbSDimitry Andric /// Kernel (=GPU) optimizations and utility functions 17625ffd83dbSDimitry Andric /// 17635ffd83dbSDimitry Andric ///{{ 17645ffd83dbSDimitry Andric 17655ffd83dbSDimitry Andric /// Check if \p F is a kernel, hence entry point for target offloading. 17665ffd83dbSDimitry Andric bool isKernel(Function &F) { return OMPInfoCache.Kernels.count(&F); } 17675ffd83dbSDimitry Andric 17685ffd83dbSDimitry Andric /// Cache to remember the unique kernel for a function. 17695ffd83dbSDimitry Andric DenseMap<Function *, Optional<Kernel>> UniqueKernelMap; 17705ffd83dbSDimitry Andric 17715ffd83dbSDimitry Andric /// Find the unique kernel that will execute \p F, if any. 17725ffd83dbSDimitry Andric Kernel getUniqueKernelFor(Function &F); 17735ffd83dbSDimitry Andric 17745ffd83dbSDimitry Andric /// Find the unique kernel that will execute \p I, if any. 17755ffd83dbSDimitry Andric Kernel getUniqueKernelFor(Instruction &I) { 17765ffd83dbSDimitry Andric return getUniqueKernelFor(*I.getFunction()); 17775ffd83dbSDimitry Andric } 17785ffd83dbSDimitry Andric 17795ffd83dbSDimitry Andric /// Rewrite the device (=GPU) code state machine create in non-SPMD mode in 17805ffd83dbSDimitry Andric /// the cases we can avoid taking the address of a function. 17815ffd83dbSDimitry Andric bool rewriteDeviceCodeStateMachine(); 17825ffd83dbSDimitry Andric 17835ffd83dbSDimitry Andric /// 17845ffd83dbSDimitry Andric ///}} 17855ffd83dbSDimitry Andric 17865ffd83dbSDimitry Andric /// Emit a remark generically 17875ffd83dbSDimitry Andric /// 17885ffd83dbSDimitry Andric /// This template function can be used to generically emit a remark. The 17895ffd83dbSDimitry Andric /// RemarkKind should be one of the following: 17905ffd83dbSDimitry Andric /// - OptimizationRemark to indicate a successful optimization attempt 17915ffd83dbSDimitry Andric /// - OptimizationRemarkMissed to report a failed optimization attempt 17925ffd83dbSDimitry Andric /// - OptimizationRemarkAnalysis to provide additional information about an 17935ffd83dbSDimitry Andric /// optimization attempt 17945ffd83dbSDimitry Andric /// 17955ffd83dbSDimitry Andric /// The remark is built using a callback function provided by the caller that 17965ffd83dbSDimitry Andric /// takes a RemarkKind as input and returns a RemarkKind. 1797fe6060f1SDimitry Andric template <typename RemarkKind, typename RemarkCallBack> 1798fe6060f1SDimitry Andric void emitRemark(Instruction *I, StringRef RemarkName, 17995ffd83dbSDimitry Andric RemarkCallBack &&RemarkCB) const { 1800fe6060f1SDimitry Andric Function *F = I->getParent()->getParent(); 18015ffd83dbSDimitry Andric auto &ORE = OREGetter(F); 18025ffd83dbSDimitry Andric 1803fe6060f1SDimitry Andric if (RemarkName.startswith("OMP")) 18045ffd83dbSDimitry Andric ORE.emit([&]() { 1805fe6060f1SDimitry Andric return RemarkCB(RemarkKind(DEBUG_TYPE, RemarkName, I)) 1806fe6060f1SDimitry Andric << " [" << RemarkName << "]"; 18075ffd83dbSDimitry Andric }); 1808fe6060f1SDimitry Andric else 1809fe6060f1SDimitry Andric ORE.emit( 1810fe6060f1SDimitry Andric [&]() { return RemarkCB(RemarkKind(DEBUG_TYPE, RemarkName, I)); }); 18115ffd83dbSDimitry Andric } 18125ffd83dbSDimitry Andric 1813fe6060f1SDimitry Andric /// Emit a remark on a function. 1814fe6060f1SDimitry Andric template <typename RemarkKind, typename RemarkCallBack> 1815fe6060f1SDimitry Andric void emitRemark(Function *F, StringRef RemarkName, 1816fe6060f1SDimitry Andric RemarkCallBack &&RemarkCB) const { 1817fe6060f1SDimitry Andric auto &ORE = OREGetter(F); 1818fe6060f1SDimitry Andric 1819fe6060f1SDimitry Andric if (RemarkName.startswith("OMP")) 1820fe6060f1SDimitry Andric ORE.emit([&]() { 1821fe6060f1SDimitry Andric return RemarkCB(RemarkKind(DEBUG_TYPE, RemarkName, F)) 1822fe6060f1SDimitry Andric << " [" << RemarkName << "]"; 1823fe6060f1SDimitry Andric }); 1824fe6060f1SDimitry Andric else 1825fe6060f1SDimitry Andric ORE.emit( 1826fe6060f1SDimitry Andric [&]() { return RemarkCB(RemarkKind(DEBUG_TYPE, RemarkName, F)); }); 1827fe6060f1SDimitry Andric } 1828fe6060f1SDimitry Andric 1829fe6060f1SDimitry Andric /// RAII struct to temporarily change an RTL function's linkage to external. 1830fe6060f1SDimitry Andric /// This prevents it from being mistakenly removed by other optimizations. 1831fe6060f1SDimitry Andric struct ExternalizationRAII { 1832fe6060f1SDimitry Andric ExternalizationRAII(OMPInformationCache &OMPInfoCache, 1833fe6060f1SDimitry Andric RuntimeFunction RFKind) 1834fe6060f1SDimitry Andric : Declaration(OMPInfoCache.RFIs[RFKind].Declaration) { 1835fe6060f1SDimitry Andric if (!Declaration) 1836fe6060f1SDimitry Andric return; 1837fe6060f1SDimitry Andric 1838fe6060f1SDimitry Andric LinkageType = Declaration->getLinkage(); 1839fe6060f1SDimitry Andric Declaration->setLinkage(GlobalValue::ExternalLinkage); 1840fe6060f1SDimitry Andric } 1841fe6060f1SDimitry Andric 1842fe6060f1SDimitry Andric ~ExternalizationRAII() { 1843fe6060f1SDimitry Andric if (!Declaration) 1844fe6060f1SDimitry Andric return; 1845fe6060f1SDimitry Andric 1846fe6060f1SDimitry Andric Declaration->setLinkage(LinkageType); 1847fe6060f1SDimitry Andric } 1848fe6060f1SDimitry Andric 1849fe6060f1SDimitry Andric Function *Declaration; 1850fe6060f1SDimitry Andric GlobalValue::LinkageTypes LinkageType; 1851fe6060f1SDimitry Andric }; 1852fe6060f1SDimitry Andric 18535ffd83dbSDimitry Andric /// The underlying module. 18545ffd83dbSDimitry Andric Module &M; 18555ffd83dbSDimitry Andric 18565ffd83dbSDimitry Andric /// The SCC we are operating on. 18575ffd83dbSDimitry Andric SmallVectorImpl<Function *> &SCC; 18585ffd83dbSDimitry Andric 18595ffd83dbSDimitry Andric /// Callback to update the call graph, the first argument is a removed call, 18605ffd83dbSDimitry Andric /// the second an optional replacement call. 18615ffd83dbSDimitry Andric CallGraphUpdater &CGUpdater; 18625ffd83dbSDimitry Andric 18635ffd83dbSDimitry Andric /// Callback to get an OptimizationRemarkEmitter from a Function * 18645ffd83dbSDimitry Andric OptimizationRemarkGetter OREGetter; 18655ffd83dbSDimitry Andric 18665ffd83dbSDimitry Andric /// OpenMP-specific information cache. Also Used for Attributor runs. 18675ffd83dbSDimitry Andric OMPInformationCache &OMPInfoCache; 18685ffd83dbSDimitry Andric 18695ffd83dbSDimitry Andric /// Attributor instance. 18705ffd83dbSDimitry Andric Attributor &A; 18715ffd83dbSDimitry Andric 18725ffd83dbSDimitry Andric /// Helper function to run Attributor on SCC. 1873fe6060f1SDimitry Andric bool runAttributor(bool IsModulePass) { 18745ffd83dbSDimitry Andric if (SCC.empty()) 18755ffd83dbSDimitry Andric return false; 18765ffd83dbSDimitry Andric 1877fe6060f1SDimitry Andric // Temporarily make these function have external linkage so the Attributor 1878fe6060f1SDimitry Andric // doesn't remove them when we try to look them up later. 1879fe6060f1SDimitry Andric ExternalizationRAII Parallel(OMPInfoCache, OMPRTL___kmpc_kernel_parallel); 1880fe6060f1SDimitry Andric ExternalizationRAII EndParallel(OMPInfoCache, 1881fe6060f1SDimitry Andric OMPRTL___kmpc_kernel_end_parallel); 1882fe6060f1SDimitry Andric ExternalizationRAII BarrierSPMD(OMPInfoCache, 1883fe6060f1SDimitry Andric OMPRTL___kmpc_barrier_simple_spmd); 1884*349cc55cSDimitry Andric ExternalizationRAII BarrierGeneric(OMPInfoCache, 1885*349cc55cSDimitry Andric OMPRTL___kmpc_barrier_simple_generic); 1886*349cc55cSDimitry Andric ExternalizationRAII ThreadId(OMPInfoCache, 1887*349cc55cSDimitry Andric OMPRTL___kmpc_get_hardware_thread_id_in_block); 1888fe6060f1SDimitry Andric 1889fe6060f1SDimitry Andric registerAAs(IsModulePass); 18905ffd83dbSDimitry Andric 18915ffd83dbSDimitry Andric ChangeStatus Changed = A.run(); 18925ffd83dbSDimitry Andric 18935ffd83dbSDimitry Andric LLVM_DEBUG(dbgs() << "[Attributor] Done with " << SCC.size() 18945ffd83dbSDimitry Andric << " functions, result: " << Changed << ".\n"); 18955ffd83dbSDimitry Andric 18965ffd83dbSDimitry Andric return Changed == ChangeStatus::CHANGED; 18975ffd83dbSDimitry Andric } 18985ffd83dbSDimitry Andric 1899fe6060f1SDimitry Andric void registerFoldRuntimeCall(RuntimeFunction RF); 1900fe6060f1SDimitry Andric 19015ffd83dbSDimitry Andric /// Populate the Attributor with abstract attribute opportunities in the 19025ffd83dbSDimitry Andric /// function. 1903fe6060f1SDimitry Andric void registerAAs(bool IsModulePass); 19045ffd83dbSDimitry Andric }; 19055ffd83dbSDimitry Andric 19065ffd83dbSDimitry Andric Kernel OpenMPOpt::getUniqueKernelFor(Function &F) { 19075ffd83dbSDimitry Andric if (!OMPInfoCache.ModuleSlice.count(&F)) 19085ffd83dbSDimitry Andric return nullptr; 19095ffd83dbSDimitry Andric 19105ffd83dbSDimitry Andric // Use a scope to keep the lifetime of the CachedKernel short. 19115ffd83dbSDimitry Andric { 19125ffd83dbSDimitry Andric Optional<Kernel> &CachedKernel = UniqueKernelMap[&F]; 19135ffd83dbSDimitry Andric if (CachedKernel) 19145ffd83dbSDimitry Andric return *CachedKernel; 19155ffd83dbSDimitry Andric 19165ffd83dbSDimitry Andric // TODO: We should use an AA to create an (optimistic and callback 19175ffd83dbSDimitry Andric // call-aware) call graph. For now we stick to simple patterns that 19185ffd83dbSDimitry Andric // are less powerful, basically the worst fixpoint. 19195ffd83dbSDimitry Andric if (isKernel(F)) { 19205ffd83dbSDimitry Andric CachedKernel = Kernel(&F); 19215ffd83dbSDimitry Andric return *CachedKernel; 19225ffd83dbSDimitry Andric } 19235ffd83dbSDimitry Andric 19245ffd83dbSDimitry Andric CachedKernel = nullptr; 1925e8d8bef9SDimitry Andric if (!F.hasLocalLinkage()) { 1926e8d8bef9SDimitry Andric 1927e8d8bef9SDimitry Andric // See https://openmp.llvm.org/remarks/OptimizationRemarks.html 1928fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 1929fe6060f1SDimitry Andric return ORA << "Potentially unknown OpenMP target region caller."; 1930e8d8bef9SDimitry Andric }; 1931fe6060f1SDimitry Andric emitRemark<OptimizationRemarkAnalysis>(&F, "OMP100", Remark); 1932e8d8bef9SDimitry Andric 19335ffd83dbSDimitry Andric return nullptr; 19345ffd83dbSDimitry Andric } 1935e8d8bef9SDimitry Andric } 19365ffd83dbSDimitry Andric 19375ffd83dbSDimitry Andric auto GetUniqueKernelForUse = [&](const Use &U) -> Kernel { 19385ffd83dbSDimitry Andric if (auto *Cmp = dyn_cast<ICmpInst>(U.getUser())) { 19395ffd83dbSDimitry Andric // Allow use in equality comparisons. 19405ffd83dbSDimitry Andric if (Cmp->isEquality()) 19415ffd83dbSDimitry Andric return getUniqueKernelFor(*Cmp); 19425ffd83dbSDimitry Andric return nullptr; 19435ffd83dbSDimitry Andric } 19445ffd83dbSDimitry Andric if (auto *CB = dyn_cast<CallBase>(U.getUser())) { 19455ffd83dbSDimitry Andric // Allow direct calls. 19465ffd83dbSDimitry Andric if (CB->isCallee(&U)) 19475ffd83dbSDimitry Andric return getUniqueKernelFor(*CB); 1948fe6060f1SDimitry Andric 1949fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &KernelParallelRFI = 1950fe6060f1SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_parallel_51]; 1951fe6060f1SDimitry Andric // Allow the use in __kmpc_parallel_51 calls. 1952fe6060f1SDimitry Andric if (OpenMPOpt::getCallIfRegularCall(*U.getUser(), &KernelParallelRFI)) 19535ffd83dbSDimitry Andric return getUniqueKernelFor(*CB); 19545ffd83dbSDimitry Andric return nullptr; 19555ffd83dbSDimitry Andric } 19565ffd83dbSDimitry Andric // Disallow every other use. 19575ffd83dbSDimitry Andric return nullptr; 19585ffd83dbSDimitry Andric }; 19595ffd83dbSDimitry Andric 19605ffd83dbSDimitry Andric // TODO: In the future we want to track more than just a unique kernel. 19615ffd83dbSDimitry Andric SmallPtrSet<Kernel, 2> PotentialKernels; 1962e8d8bef9SDimitry Andric OMPInformationCache::foreachUse(F, [&](const Use &U) { 19635ffd83dbSDimitry Andric PotentialKernels.insert(GetUniqueKernelForUse(U)); 19645ffd83dbSDimitry Andric }); 19655ffd83dbSDimitry Andric 19665ffd83dbSDimitry Andric Kernel K = nullptr; 19675ffd83dbSDimitry Andric if (PotentialKernels.size() == 1) 19685ffd83dbSDimitry Andric K = *PotentialKernels.begin(); 19695ffd83dbSDimitry Andric 19705ffd83dbSDimitry Andric // Cache the result. 19715ffd83dbSDimitry Andric UniqueKernelMap[&F] = K; 19725ffd83dbSDimitry Andric 19735ffd83dbSDimitry Andric return K; 19745ffd83dbSDimitry Andric } 19755ffd83dbSDimitry Andric 19765ffd83dbSDimitry Andric bool OpenMPOpt::rewriteDeviceCodeStateMachine() { 1977fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &KernelParallelRFI = 1978fe6060f1SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_parallel_51]; 19795ffd83dbSDimitry Andric 19805ffd83dbSDimitry Andric bool Changed = false; 1981fe6060f1SDimitry Andric if (!KernelParallelRFI) 19825ffd83dbSDimitry Andric return Changed; 19835ffd83dbSDimitry Andric 1984*349cc55cSDimitry Andric // If we have disabled state machine changes, exit 1985*349cc55cSDimitry Andric if (DisableOpenMPOptStateMachineRewrite) 1986*349cc55cSDimitry Andric return Changed; 1987*349cc55cSDimitry Andric 19885ffd83dbSDimitry Andric for (Function *F : SCC) { 19895ffd83dbSDimitry Andric 1990fe6060f1SDimitry Andric // Check if the function is a use in a __kmpc_parallel_51 call at 19915ffd83dbSDimitry Andric // all. 19925ffd83dbSDimitry Andric bool UnknownUse = false; 1993fe6060f1SDimitry Andric bool KernelParallelUse = false; 19945ffd83dbSDimitry Andric unsigned NumDirectCalls = 0; 19955ffd83dbSDimitry Andric 19965ffd83dbSDimitry Andric SmallVector<Use *, 2> ToBeReplacedStateMachineUses; 1997e8d8bef9SDimitry Andric OMPInformationCache::foreachUse(*F, [&](Use &U) { 19985ffd83dbSDimitry Andric if (auto *CB = dyn_cast<CallBase>(U.getUser())) 19995ffd83dbSDimitry Andric if (CB->isCallee(&U)) { 20005ffd83dbSDimitry Andric ++NumDirectCalls; 20015ffd83dbSDimitry Andric return; 20025ffd83dbSDimitry Andric } 20035ffd83dbSDimitry Andric 20045ffd83dbSDimitry Andric if (isa<ICmpInst>(U.getUser())) { 20055ffd83dbSDimitry Andric ToBeReplacedStateMachineUses.push_back(&U); 20065ffd83dbSDimitry Andric return; 20075ffd83dbSDimitry Andric } 2008fe6060f1SDimitry Andric 2009fe6060f1SDimitry Andric // Find wrapper functions that represent parallel kernels. 2010fe6060f1SDimitry Andric CallInst *CI = 2011fe6060f1SDimitry Andric OpenMPOpt::getCallIfRegularCall(*U.getUser(), &KernelParallelRFI); 2012fe6060f1SDimitry Andric const unsigned int WrapperFunctionArgNo = 6; 2013fe6060f1SDimitry Andric if (!KernelParallelUse && CI && 2014fe6060f1SDimitry Andric CI->getArgOperandNo(&U) == WrapperFunctionArgNo) { 2015fe6060f1SDimitry Andric KernelParallelUse = true; 20165ffd83dbSDimitry Andric ToBeReplacedStateMachineUses.push_back(&U); 20175ffd83dbSDimitry Andric return; 20185ffd83dbSDimitry Andric } 20195ffd83dbSDimitry Andric UnknownUse = true; 20205ffd83dbSDimitry Andric }); 20215ffd83dbSDimitry Andric 2022fe6060f1SDimitry Andric // Do not emit a remark if we haven't seen a __kmpc_parallel_51 20235ffd83dbSDimitry Andric // use. 2024fe6060f1SDimitry Andric if (!KernelParallelUse) 20255ffd83dbSDimitry Andric continue; 20265ffd83dbSDimitry Andric 20275ffd83dbSDimitry Andric // If this ever hits, we should investigate. 20285ffd83dbSDimitry Andric // TODO: Checking the number of uses is not a necessary restriction and 20295ffd83dbSDimitry Andric // should be lifted. 20305ffd83dbSDimitry Andric if (UnknownUse || NumDirectCalls != 1 || 2031fe6060f1SDimitry Andric ToBeReplacedStateMachineUses.size() > 2) { 2032fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 2033fe6060f1SDimitry Andric return ORA << "Parallel region is used in " 20345ffd83dbSDimitry Andric << (UnknownUse ? "unknown" : "unexpected") 2035fe6060f1SDimitry Andric << " ways. Will not attempt to rewrite the state machine."; 20365ffd83dbSDimitry Andric }; 2037fe6060f1SDimitry Andric emitRemark<OptimizationRemarkAnalysis>(F, "OMP101", Remark); 20385ffd83dbSDimitry Andric continue; 20395ffd83dbSDimitry Andric } 20405ffd83dbSDimitry Andric 2041fe6060f1SDimitry Andric // Even if we have __kmpc_parallel_51 calls, we (for now) give 20425ffd83dbSDimitry Andric // up if the function is not called from a unique kernel. 20435ffd83dbSDimitry Andric Kernel K = getUniqueKernelFor(*F); 20445ffd83dbSDimitry Andric if (!K) { 2045fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 2046fe6060f1SDimitry Andric return ORA << "Parallel region is not called from a unique kernel. " 2047fe6060f1SDimitry Andric "Will not attempt to rewrite the state machine."; 20485ffd83dbSDimitry Andric }; 2049fe6060f1SDimitry Andric emitRemark<OptimizationRemarkAnalysis>(F, "OMP102", Remark); 20505ffd83dbSDimitry Andric continue; 20515ffd83dbSDimitry Andric } 20525ffd83dbSDimitry Andric 20535ffd83dbSDimitry Andric // We now know F is a parallel body function called only from the kernel K. 20545ffd83dbSDimitry Andric // We also identified the state machine uses in which we replace the 20555ffd83dbSDimitry Andric // function pointer by a new global symbol for identification purposes. This 20565ffd83dbSDimitry Andric // ensures only direct calls to the function are left. 20575ffd83dbSDimitry Andric 20585ffd83dbSDimitry Andric Module &M = *F->getParent(); 20595ffd83dbSDimitry Andric Type *Int8Ty = Type::getInt8Ty(M.getContext()); 20605ffd83dbSDimitry Andric 20615ffd83dbSDimitry Andric auto *ID = new GlobalVariable( 20625ffd83dbSDimitry Andric M, Int8Ty, /* isConstant */ true, GlobalValue::PrivateLinkage, 20635ffd83dbSDimitry Andric UndefValue::get(Int8Ty), F->getName() + ".ID"); 20645ffd83dbSDimitry Andric 20655ffd83dbSDimitry Andric for (Use *U : ToBeReplacedStateMachineUses) 20668c6f6c0cSDimitry Andric U->set(ConstantExpr::getPointerBitCastOrAddrSpaceCast( 20678c6f6c0cSDimitry Andric ID, U->get()->getType())); 20685ffd83dbSDimitry Andric 20695ffd83dbSDimitry Andric ++NumOpenMPParallelRegionsReplacedInGPUStateMachine; 20705ffd83dbSDimitry Andric 20715ffd83dbSDimitry Andric Changed = true; 20725ffd83dbSDimitry Andric } 20735ffd83dbSDimitry Andric 20745ffd83dbSDimitry Andric return Changed; 20755ffd83dbSDimitry Andric } 20765ffd83dbSDimitry Andric 20775ffd83dbSDimitry Andric /// Abstract Attribute for tracking ICV values. 20785ffd83dbSDimitry Andric struct AAICVTracker : public StateWrapper<BooleanState, AbstractAttribute> { 20795ffd83dbSDimitry Andric using Base = StateWrapper<BooleanState, AbstractAttribute>; 20805ffd83dbSDimitry Andric AAICVTracker(const IRPosition &IRP, Attributor &A) : Base(IRP) {} 20815ffd83dbSDimitry Andric 2082e8d8bef9SDimitry Andric void initialize(Attributor &A) override { 2083e8d8bef9SDimitry Andric Function *F = getAnchorScope(); 2084e8d8bef9SDimitry Andric if (!F || !A.isFunctionIPOAmendable(*F)) 2085e8d8bef9SDimitry Andric indicatePessimisticFixpoint(); 2086e8d8bef9SDimitry Andric } 2087e8d8bef9SDimitry Andric 20885ffd83dbSDimitry Andric /// Returns true if value is assumed to be tracked. 20895ffd83dbSDimitry Andric bool isAssumedTracked() const { return getAssumed(); } 20905ffd83dbSDimitry Andric 20915ffd83dbSDimitry Andric /// Returns true if value is known to be tracked. 20925ffd83dbSDimitry Andric bool isKnownTracked() const { return getAssumed(); } 20935ffd83dbSDimitry Andric 20945ffd83dbSDimitry Andric /// Create an abstract attribute biew for the position \p IRP. 20955ffd83dbSDimitry Andric static AAICVTracker &createForPosition(const IRPosition &IRP, Attributor &A); 20965ffd83dbSDimitry Andric 20975ffd83dbSDimitry Andric /// Return the value with which \p I can be replaced for specific \p ICV. 2098e8d8bef9SDimitry Andric virtual Optional<Value *> getReplacementValue(InternalControlVar ICV, 2099e8d8bef9SDimitry Andric const Instruction *I, 2100e8d8bef9SDimitry Andric Attributor &A) const { 2101e8d8bef9SDimitry Andric return None; 2102e8d8bef9SDimitry Andric } 2103e8d8bef9SDimitry Andric 2104e8d8bef9SDimitry Andric /// Return an assumed unique ICV value if a single candidate is found. If 2105e8d8bef9SDimitry Andric /// there cannot be one, return a nullptr. If it is not clear yet, return the 2106e8d8bef9SDimitry Andric /// Optional::NoneType. 2107e8d8bef9SDimitry Andric virtual Optional<Value *> 2108e8d8bef9SDimitry Andric getUniqueReplacementValue(InternalControlVar ICV) const = 0; 2109e8d8bef9SDimitry Andric 2110e8d8bef9SDimitry Andric // Currently only nthreads is being tracked. 2111e8d8bef9SDimitry Andric // this array will only grow with time. 2112e8d8bef9SDimitry Andric InternalControlVar TrackableICVs[1] = {ICV_nthreads}; 21135ffd83dbSDimitry Andric 21145ffd83dbSDimitry Andric /// See AbstractAttribute::getName() 21155ffd83dbSDimitry Andric const std::string getName() const override { return "AAICVTracker"; } 21165ffd83dbSDimitry Andric 21175ffd83dbSDimitry Andric /// See AbstractAttribute::getIdAddr() 21185ffd83dbSDimitry Andric const char *getIdAddr() const override { return &ID; } 21195ffd83dbSDimitry Andric 21205ffd83dbSDimitry Andric /// This function should return true if the type of the \p AA is AAICVTracker 21215ffd83dbSDimitry Andric static bool classof(const AbstractAttribute *AA) { 21225ffd83dbSDimitry Andric return (AA->getIdAddr() == &ID); 21235ffd83dbSDimitry Andric } 21245ffd83dbSDimitry Andric 21255ffd83dbSDimitry Andric static const char ID; 21265ffd83dbSDimitry Andric }; 21275ffd83dbSDimitry Andric 21285ffd83dbSDimitry Andric struct AAICVTrackerFunction : public AAICVTracker { 21295ffd83dbSDimitry Andric AAICVTrackerFunction(const IRPosition &IRP, Attributor &A) 21305ffd83dbSDimitry Andric : AAICVTracker(IRP, A) {} 21315ffd83dbSDimitry Andric 21325ffd83dbSDimitry Andric // FIXME: come up with better string. 2133e8d8bef9SDimitry Andric const std::string getAsStr() const override { return "ICVTrackerFunction"; } 21345ffd83dbSDimitry Andric 21355ffd83dbSDimitry Andric // FIXME: come up with some stats. 21365ffd83dbSDimitry Andric void trackStatistics() const override {} 21375ffd83dbSDimitry Andric 2138e8d8bef9SDimitry Andric /// We don't manifest anything for this AA. 21395ffd83dbSDimitry Andric ChangeStatus manifest(Attributor &A) override { 2140e8d8bef9SDimitry Andric return ChangeStatus::UNCHANGED; 21415ffd83dbSDimitry Andric } 21425ffd83dbSDimitry Andric 21435ffd83dbSDimitry Andric // Map of ICV to their values at specific program point. 2144e8d8bef9SDimitry Andric EnumeratedArray<DenseMap<Instruction *, Value *>, InternalControlVar, 21455ffd83dbSDimitry Andric InternalControlVar::ICV___last> 2146e8d8bef9SDimitry Andric ICVReplacementValuesMap; 21475ffd83dbSDimitry Andric 21485ffd83dbSDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 21495ffd83dbSDimitry Andric ChangeStatus HasChanged = ChangeStatus::UNCHANGED; 21505ffd83dbSDimitry Andric 21515ffd83dbSDimitry Andric Function *F = getAnchorScope(); 21525ffd83dbSDimitry Andric 21535ffd83dbSDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 21545ffd83dbSDimitry Andric 21555ffd83dbSDimitry Andric for (InternalControlVar ICV : TrackableICVs) { 21565ffd83dbSDimitry Andric auto &SetterRFI = OMPInfoCache.RFIs[OMPInfoCache.ICVs[ICV].Setter]; 21575ffd83dbSDimitry Andric 2158e8d8bef9SDimitry Andric auto &ValuesMap = ICVReplacementValuesMap[ICV]; 21595ffd83dbSDimitry Andric auto TrackValues = [&](Use &U, Function &) { 21605ffd83dbSDimitry Andric CallInst *CI = OpenMPOpt::getCallIfRegularCall(U); 21615ffd83dbSDimitry Andric if (!CI) 21625ffd83dbSDimitry Andric return false; 21635ffd83dbSDimitry Andric 21645ffd83dbSDimitry Andric // FIXME: handle setters with more that 1 arguments. 21655ffd83dbSDimitry Andric /// Track new value. 2166e8d8bef9SDimitry Andric if (ValuesMap.insert(std::make_pair(CI, CI->getArgOperand(0))).second) 21675ffd83dbSDimitry Andric HasChanged = ChangeStatus::CHANGED; 21685ffd83dbSDimitry Andric 21695ffd83dbSDimitry Andric return false; 21705ffd83dbSDimitry Andric }; 21715ffd83dbSDimitry Andric 2172e8d8bef9SDimitry Andric auto CallCheck = [&](Instruction &I) { 2173e8d8bef9SDimitry Andric Optional<Value *> ReplVal = getValueForCall(A, &I, ICV); 2174e8d8bef9SDimitry Andric if (ReplVal.hasValue() && 2175e8d8bef9SDimitry Andric ValuesMap.insert(std::make_pair(&I, *ReplVal)).second) 2176e8d8bef9SDimitry Andric HasChanged = ChangeStatus::CHANGED; 2177e8d8bef9SDimitry Andric 2178e8d8bef9SDimitry Andric return true; 2179e8d8bef9SDimitry Andric }; 2180e8d8bef9SDimitry Andric 2181e8d8bef9SDimitry Andric // Track all changes of an ICV. 21825ffd83dbSDimitry Andric SetterRFI.foreachUse(TrackValues, F); 2183e8d8bef9SDimitry Andric 2184fe6060f1SDimitry Andric bool UsedAssumedInformation = false; 2185e8d8bef9SDimitry Andric A.checkForAllInstructions(CallCheck, *this, {Instruction::Call}, 2186fe6060f1SDimitry Andric UsedAssumedInformation, 2187e8d8bef9SDimitry Andric /* CheckBBLivenessOnly */ true); 2188e8d8bef9SDimitry Andric 2189e8d8bef9SDimitry Andric /// TODO: Figure out a way to avoid adding entry in 2190e8d8bef9SDimitry Andric /// ICVReplacementValuesMap 2191e8d8bef9SDimitry Andric Instruction *Entry = &F->getEntryBlock().front(); 2192e8d8bef9SDimitry Andric if (HasChanged == ChangeStatus::CHANGED && !ValuesMap.count(Entry)) 2193e8d8bef9SDimitry Andric ValuesMap.insert(std::make_pair(Entry, nullptr)); 21945ffd83dbSDimitry Andric } 21955ffd83dbSDimitry Andric 21965ffd83dbSDimitry Andric return HasChanged; 21975ffd83dbSDimitry Andric } 21985ffd83dbSDimitry Andric 2199e8d8bef9SDimitry Andric /// Hepler to check if \p I is a call and get the value for it if it is 2200e8d8bef9SDimitry Andric /// unique. 2201e8d8bef9SDimitry Andric Optional<Value *> getValueForCall(Attributor &A, const Instruction *I, 2202e8d8bef9SDimitry Andric InternalControlVar &ICV) const { 22035ffd83dbSDimitry Andric 2204e8d8bef9SDimitry Andric const auto *CB = dyn_cast<CallBase>(I); 2205e8d8bef9SDimitry Andric if (!CB || CB->hasFnAttr("no_openmp") || 2206e8d8bef9SDimitry Andric CB->hasFnAttr("no_openmp_routines")) 2207e8d8bef9SDimitry Andric return None; 2208e8d8bef9SDimitry Andric 22095ffd83dbSDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 22105ffd83dbSDimitry Andric auto &GetterRFI = OMPInfoCache.RFIs[OMPInfoCache.ICVs[ICV].Getter]; 2211e8d8bef9SDimitry Andric auto &SetterRFI = OMPInfoCache.RFIs[OMPInfoCache.ICVs[ICV].Setter]; 2212e8d8bef9SDimitry Andric Function *CalledFunction = CB->getCalledFunction(); 22135ffd83dbSDimitry Andric 2214e8d8bef9SDimitry Andric // Indirect call, assume ICV changes. 2215e8d8bef9SDimitry Andric if (CalledFunction == nullptr) 2216e8d8bef9SDimitry Andric return nullptr; 2217e8d8bef9SDimitry Andric if (CalledFunction == GetterRFI.Declaration) 2218e8d8bef9SDimitry Andric return None; 2219e8d8bef9SDimitry Andric if (CalledFunction == SetterRFI.Declaration) { 2220e8d8bef9SDimitry Andric if (ICVReplacementValuesMap[ICV].count(I)) 2221e8d8bef9SDimitry Andric return ICVReplacementValuesMap[ICV].lookup(I); 2222e8d8bef9SDimitry Andric 2223e8d8bef9SDimitry Andric return nullptr; 2224e8d8bef9SDimitry Andric } 2225e8d8bef9SDimitry Andric 2226e8d8bef9SDimitry Andric // Since we don't know, assume it changes the ICV. 2227e8d8bef9SDimitry Andric if (CalledFunction->isDeclaration()) 2228e8d8bef9SDimitry Andric return nullptr; 2229e8d8bef9SDimitry Andric 2230fe6060f1SDimitry Andric const auto &ICVTrackingAA = A.getAAFor<AAICVTracker>( 2231fe6060f1SDimitry Andric *this, IRPosition::callsite_returned(*CB), DepClassTy::REQUIRED); 2232e8d8bef9SDimitry Andric 2233e8d8bef9SDimitry Andric if (ICVTrackingAA.isAssumedTracked()) 2234e8d8bef9SDimitry Andric return ICVTrackingAA.getUniqueReplacementValue(ICV); 2235e8d8bef9SDimitry Andric 2236e8d8bef9SDimitry Andric // If we don't know, assume it changes. 2237e8d8bef9SDimitry Andric return nullptr; 2238e8d8bef9SDimitry Andric } 2239e8d8bef9SDimitry Andric 2240e8d8bef9SDimitry Andric // We don't check unique value for a function, so return None. 2241e8d8bef9SDimitry Andric Optional<Value *> 2242e8d8bef9SDimitry Andric getUniqueReplacementValue(InternalControlVar ICV) const override { 2243e8d8bef9SDimitry Andric return None; 2244e8d8bef9SDimitry Andric } 2245e8d8bef9SDimitry Andric 2246e8d8bef9SDimitry Andric /// Return the value with which \p I can be replaced for specific \p ICV. 2247e8d8bef9SDimitry Andric Optional<Value *> getReplacementValue(InternalControlVar ICV, 2248e8d8bef9SDimitry Andric const Instruction *I, 2249e8d8bef9SDimitry Andric Attributor &A) const override { 2250e8d8bef9SDimitry Andric const auto &ValuesMap = ICVReplacementValuesMap[ICV]; 2251e8d8bef9SDimitry Andric if (ValuesMap.count(I)) 2252e8d8bef9SDimitry Andric return ValuesMap.lookup(I); 2253e8d8bef9SDimitry Andric 2254e8d8bef9SDimitry Andric SmallVector<const Instruction *, 16> Worklist; 2255e8d8bef9SDimitry Andric SmallPtrSet<const Instruction *, 16> Visited; 2256e8d8bef9SDimitry Andric Worklist.push_back(I); 2257e8d8bef9SDimitry Andric 2258e8d8bef9SDimitry Andric Optional<Value *> ReplVal; 2259e8d8bef9SDimitry Andric 2260e8d8bef9SDimitry Andric while (!Worklist.empty()) { 2261e8d8bef9SDimitry Andric const Instruction *CurrInst = Worklist.pop_back_val(); 2262e8d8bef9SDimitry Andric if (!Visited.insert(CurrInst).second) 22635ffd83dbSDimitry Andric continue; 22645ffd83dbSDimitry Andric 2265e8d8bef9SDimitry Andric const BasicBlock *CurrBB = CurrInst->getParent(); 2266e8d8bef9SDimitry Andric 2267e8d8bef9SDimitry Andric // Go up and look for all potential setters/calls that might change the 2268e8d8bef9SDimitry Andric // ICV. 2269e8d8bef9SDimitry Andric while ((CurrInst = CurrInst->getPrevNode())) { 2270e8d8bef9SDimitry Andric if (ValuesMap.count(CurrInst)) { 2271e8d8bef9SDimitry Andric Optional<Value *> NewReplVal = ValuesMap.lookup(CurrInst); 2272e8d8bef9SDimitry Andric // Unknown value, track new. 2273e8d8bef9SDimitry Andric if (!ReplVal.hasValue()) { 2274e8d8bef9SDimitry Andric ReplVal = NewReplVal; 2275e8d8bef9SDimitry Andric break; 2276e8d8bef9SDimitry Andric } 2277e8d8bef9SDimitry Andric 2278e8d8bef9SDimitry Andric // If we found a new value, we can't know the icv value anymore. 2279e8d8bef9SDimitry Andric if (NewReplVal.hasValue()) 2280e8d8bef9SDimitry Andric if (ReplVal != NewReplVal) 22815ffd83dbSDimitry Andric return nullptr; 22825ffd83dbSDimitry Andric 2283e8d8bef9SDimitry Andric break; 22845ffd83dbSDimitry Andric } 22855ffd83dbSDimitry Andric 2286e8d8bef9SDimitry Andric Optional<Value *> NewReplVal = getValueForCall(A, CurrInst, ICV); 2287e8d8bef9SDimitry Andric if (!NewReplVal.hasValue()) 2288e8d8bef9SDimitry Andric continue; 2289e8d8bef9SDimitry Andric 2290e8d8bef9SDimitry Andric // Unknown value, track new. 2291e8d8bef9SDimitry Andric if (!ReplVal.hasValue()) { 2292e8d8bef9SDimitry Andric ReplVal = NewReplVal; 2293e8d8bef9SDimitry Andric break; 22945ffd83dbSDimitry Andric } 22955ffd83dbSDimitry Andric 2296e8d8bef9SDimitry Andric // if (NewReplVal.hasValue()) 2297e8d8bef9SDimitry Andric // We found a new value, we can't know the icv value anymore. 2298e8d8bef9SDimitry Andric if (ReplVal != NewReplVal) 22995ffd83dbSDimitry Andric return nullptr; 23005ffd83dbSDimitry Andric } 2301e8d8bef9SDimitry Andric 2302e8d8bef9SDimitry Andric // If we are in the same BB and we have a value, we are done. 2303e8d8bef9SDimitry Andric if (CurrBB == I->getParent() && ReplVal.hasValue()) 2304e8d8bef9SDimitry Andric return ReplVal; 2305e8d8bef9SDimitry Andric 2306e8d8bef9SDimitry Andric // Go through all predecessors and add terminators for analysis. 2307e8d8bef9SDimitry Andric for (const BasicBlock *Pred : predecessors(CurrBB)) 2308e8d8bef9SDimitry Andric if (const Instruction *Terminator = Pred->getTerminator()) 2309e8d8bef9SDimitry Andric Worklist.push_back(Terminator); 2310e8d8bef9SDimitry Andric } 2311e8d8bef9SDimitry Andric 2312e8d8bef9SDimitry Andric return ReplVal; 2313e8d8bef9SDimitry Andric } 2314e8d8bef9SDimitry Andric }; 2315e8d8bef9SDimitry Andric 2316e8d8bef9SDimitry Andric struct AAICVTrackerFunctionReturned : AAICVTracker { 2317e8d8bef9SDimitry Andric AAICVTrackerFunctionReturned(const IRPosition &IRP, Attributor &A) 2318e8d8bef9SDimitry Andric : AAICVTracker(IRP, A) {} 2319e8d8bef9SDimitry Andric 2320e8d8bef9SDimitry Andric // FIXME: come up with better string. 2321e8d8bef9SDimitry Andric const std::string getAsStr() const override { 2322e8d8bef9SDimitry Andric return "ICVTrackerFunctionReturned"; 2323e8d8bef9SDimitry Andric } 2324e8d8bef9SDimitry Andric 2325e8d8bef9SDimitry Andric // FIXME: come up with some stats. 2326e8d8bef9SDimitry Andric void trackStatistics() const override {} 2327e8d8bef9SDimitry Andric 2328e8d8bef9SDimitry Andric /// We don't manifest anything for this AA. 2329e8d8bef9SDimitry Andric ChangeStatus manifest(Attributor &A) override { 2330e8d8bef9SDimitry Andric return ChangeStatus::UNCHANGED; 2331e8d8bef9SDimitry Andric } 2332e8d8bef9SDimitry Andric 2333e8d8bef9SDimitry Andric // Map of ICV to their values at specific program point. 2334e8d8bef9SDimitry Andric EnumeratedArray<Optional<Value *>, InternalControlVar, 2335e8d8bef9SDimitry Andric InternalControlVar::ICV___last> 2336e8d8bef9SDimitry Andric ICVReplacementValuesMap; 2337e8d8bef9SDimitry Andric 2338e8d8bef9SDimitry Andric /// Return the value with which \p I can be replaced for specific \p ICV. 2339e8d8bef9SDimitry Andric Optional<Value *> 2340e8d8bef9SDimitry Andric getUniqueReplacementValue(InternalControlVar ICV) const override { 2341e8d8bef9SDimitry Andric return ICVReplacementValuesMap[ICV]; 2342e8d8bef9SDimitry Andric } 2343e8d8bef9SDimitry Andric 2344e8d8bef9SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 2345e8d8bef9SDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 2346e8d8bef9SDimitry Andric const auto &ICVTrackingAA = A.getAAFor<AAICVTracker>( 2347fe6060f1SDimitry Andric *this, IRPosition::function(*getAnchorScope()), DepClassTy::REQUIRED); 2348e8d8bef9SDimitry Andric 2349e8d8bef9SDimitry Andric if (!ICVTrackingAA.isAssumedTracked()) 2350e8d8bef9SDimitry Andric return indicatePessimisticFixpoint(); 2351e8d8bef9SDimitry Andric 2352e8d8bef9SDimitry Andric for (InternalControlVar ICV : TrackableICVs) { 2353e8d8bef9SDimitry Andric Optional<Value *> &ReplVal = ICVReplacementValuesMap[ICV]; 2354e8d8bef9SDimitry Andric Optional<Value *> UniqueICVValue; 2355e8d8bef9SDimitry Andric 2356e8d8bef9SDimitry Andric auto CheckReturnInst = [&](Instruction &I) { 2357e8d8bef9SDimitry Andric Optional<Value *> NewReplVal = 2358e8d8bef9SDimitry Andric ICVTrackingAA.getReplacementValue(ICV, &I, A); 2359e8d8bef9SDimitry Andric 2360e8d8bef9SDimitry Andric // If we found a second ICV value there is no unique returned value. 2361e8d8bef9SDimitry Andric if (UniqueICVValue.hasValue() && UniqueICVValue != NewReplVal) 2362e8d8bef9SDimitry Andric return false; 2363e8d8bef9SDimitry Andric 2364e8d8bef9SDimitry Andric UniqueICVValue = NewReplVal; 2365e8d8bef9SDimitry Andric 2366e8d8bef9SDimitry Andric return true; 2367e8d8bef9SDimitry Andric }; 2368e8d8bef9SDimitry Andric 2369fe6060f1SDimitry Andric bool UsedAssumedInformation = false; 2370e8d8bef9SDimitry Andric if (!A.checkForAllInstructions(CheckReturnInst, *this, {Instruction::Ret}, 2371fe6060f1SDimitry Andric UsedAssumedInformation, 2372e8d8bef9SDimitry Andric /* CheckBBLivenessOnly */ true)) 2373e8d8bef9SDimitry Andric UniqueICVValue = nullptr; 2374e8d8bef9SDimitry Andric 2375e8d8bef9SDimitry Andric if (UniqueICVValue == ReplVal) 2376e8d8bef9SDimitry Andric continue; 2377e8d8bef9SDimitry Andric 2378e8d8bef9SDimitry Andric ReplVal = UniqueICVValue; 2379e8d8bef9SDimitry Andric Changed = ChangeStatus::CHANGED; 2380e8d8bef9SDimitry Andric } 2381e8d8bef9SDimitry Andric 2382e8d8bef9SDimitry Andric return Changed; 2383e8d8bef9SDimitry Andric } 2384e8d8bef9SDimitry Andric }; 2385e8d8bef9SDimitry Andric 2386e8d8bef9SDimitry Andric struct AAICVTrackerCallSite : AAICVTracker { 2387e8d8bef9SDimitry Andric AAICVTrackerCallSite(const IRPosition &IRP, Attributor &A) 2388e8d8bef9SDimitry Andric : AAICVTracker(IRP, A) {} 2389e8d8bef9SDimitry Andric 2390e8d8bef9SDimitry Andric void initialize(Attributor &A) override { 2391e8d8bef9SDimitry Andric Function *F = getAnchorScope(); 2392e8d8bef9SDimitry Andric if (!F || !A.isFunctionIPOAmendable(*F)) 2393e8d8bef9SDimitry Andric indicatePessimisticFixpoint(); 2394e8d8bef9SDimitry Andric 2395e8d8bef9SDimitry Andric // We only initialize this AA for getters, so we need to know which ICV it 2396e8d8bef9SDimitry Andric // gets. 2397e8d8bef9SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2398e8d8bef9SDimitry Andric for (InternalControlVar ICV : TrackableICVs) { 2399e8d8bef9SDimitry Andric auto ICVInfo = OMPInfoCache.ICVs[ICV]; 2400e8d8bef9SDimitry Andric auto &Getter = OMPInfoCache.RFIs[ICVInfo.Getter]; 2401e8d8bef9SDimitry Andric if (Getter.Declaration == getAssociatedFunction()) { 2402e8d8bef9SDimitry Andric AssociatedICV = ICVInfo.Kind; 2403e8d8bef9SDimitry Andric return; 2404e8d8bef9SDimitry Andric } 2405e8d8bef9SDimitry Andric } 2406e8d8bef9SDimitry Andric 2407e8d8bef9SDimitry Andric /// Unknown ICV. 2408e8d8bef9SDimitry Andric indicatePessimisticFixpoint(); 2409e8d8bef9SDimitry Andric } 2410e8d8bef9SDimitry Andric 2411e8d8bef9SDimitry Andric ChangeStatus manifest(Attributor &A) override { 2412e8d8bef9SDimitry Andric if (!ReplVal.hasValue() || !ReplVal.getValue()) 2413e8d8bef9SDimitry Andric return ChangeStatus::UNCHANGED; 2414e8d8bef9SDimitry Andric 2415e8d8bef9SDimitry Andric A.changeValueAfterManifest(*getCtxI(), **ReplVal); 2416e8d8bef9SDimitry Andric A.deleteAfterManifest(*getCtxI()); 2417e8d8bef9SDimitry Andric 2418e8d8bef9SDimitry Andric return ChangeStatus::CHANGED; 2419e8d8bef9SDimitry Andric } 2420e8d8bef9SDimitry Andric 2421e8d8bef9SDimitry Andric // FIXME: come up with better string. 2422e8d8bef9SDimitry Andric const std::string getAsStr() const override { return "ICVTrackerCallSite"; } 2423e8d8bef9SDimitry Andric 2424e8d8bef9SDimitry Andric // FIXME: come up with some stats. 2425e8d8bef9SDimitry Andric void trackStatistics() const override {} 2426e8d8bef9SDimitry Andric 2427e8d8bef9SDimitry Andric InternalControlVar AssociatedICV; 2428e8d8bef9SDimitry Andric Optional<Value *> ReplVal; 2429e8d8bef9SDimitry Andric 2430e8d8bef9SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 2431e8d8bef9SDimitry Andric const auto &ICVTrackingAA = A.getAAFor<AAICVTracker>( 2432fe6060f1SDimitry Andric *this, IRPosition::function(*getAnchorScope()), DepClassTy::REQUIRED); 2433e8d8bef9SDimitry Andric 2434e8d8bef9SDimitry Andric // We don't have any information, so we assume it changes the ICV. 2435e8d8bef9SDimitry Andric if (!ICVTrackingAA.isAssumedTracked()) 2436e8d8bef9SDimitry Andric return indicatePessimisticFixpoint(); 2437e8d8bef9SDimitry Andric 2438e8d8bef9SDimitry Andric Optional<Value *> NewReplVal = 2439e8d8bef9SDimitry Andric ICVTrackingAA.getReplacementValue(AssociatedICV, getCtxI(), A); 2440e8d8bef9SDimitry Andric 2441e8d8bef9SDimitry Andric if (ReplVal == NewReplVal) 2442e8d8bef9SDimitry Andric return ChangeStatus::UNCHANGED; 2443e8d8bef9SDimitry Andric 2444e8d8bef9SDimitry Andric ReplVal = NewReplVal; 2445e8d8bef9SDimitry Andric return ChangeStatus::CHANGED; 2446e8d8bef9SDimitry Andric } 2447e8d8bef9SDimitry Andric 2448e8d8bef9SDimitry Andric // Return the value with which associated value can be replaced for specific 2449e8d8bef9SDimitry Andric // \p ICV. 2450e8d8bef9SDimitry Andric Optional<Value *> 2451e8d8bef9SDimitry Andric getUniqueReplacementValue(InternalControlVar ICV) const override { 2452e8d8bef9SDimitry Andric return ReplVal; 2453e8d8bef9SDimitry Andric } 2454e8d8bef9SDimitry Andric }; 2455e8d8bef9SDimitry Andric 2456e8d8bef9SDimitry Andric struct AAICVTrackerCallSiteReturned : AAICVTracker { 2457e8d8bef9SDimitry Andric AAICVTrackerCallSiteReturned(const IRPosition &IRP, Attributor &A) 2458e8d8bef9SDimitry Andric : AAICVTracker(IRP, A) {} 2459e8d8bef9SDimitry Andric 2460e8d8bef9SDimitry Andric // FIXME: come up with better string. 2461e8d8bef9SDimitry Andric const std::string getAsStr() const override { 2462e8d8bef9SDimitry Andric return "ICVTrackerCallSiteReturned"; 2463e8d8bef9SDimitry Andric } 2464e8d8bef9SDimitry Andric 2465e8d8bef9SDimitry Andric // FIXME: come up with some stats. 2466e8d8bef9SDimitry Andric void trackStatistics() const override {} 2467e8d8bef9SDimitry Andric 2468e8d8bef9SDimitry Andric /// We don't manifest anything for this AA. 2469e8d8bef9SDimitry Andric ChangeStatus manifest(Attributor &A) override { 2470e8d8bef9SDimitry Andric return ChangeStatus::UNCHANGED; 2471e8d8bef9SDimitry Andric } 2472e8d8bef9SDimitry Andric 2473e8d8bef9SDimitry Andric // Map of ICV to their values at specific program point. 2474e8d8bef9SDimitry Andric EnumeratedArray<Optional<Value *>, InternalControlVar, 2475e8d8bef9SDimitry Andric InternalControlVar::ICV___last> 2476e8d8bef9SDimitry Andric ICVReplacementValuesMap; 2477e8d8bef9SDimitry Andric 2478e8d8bef9SDimitry Andric /// Return the value with which associated value can be replaced for specific 2479e8d8bef9SDimitry Andric /// \p ICV. 2480e8d8bef9SDimitry Andric Optional<Value *> 2481e8d8bef9SDimitry Andric getUniqueReplacementValue(InternalControlVar ICV) const override { 2482e8d8bef9SDimitry Andric return ICVReplacementValuesMap[ICV]; 2483e8d8bef9SDimitry Andric } 2484e8d8bef9SDimitry Andric 2485e8d8bef9SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 2486e8d8bef9SDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 2487e8d8bef9SDimitry Andric const auto &ICVTrackingAA = A.getAAFor<AAICVTracker>( 2488fe6060f1SDimitry Andric *this, IRPosition::returned(*getAssociatedFunction()), 2489fe6060f1SDimitry Andric DepClassTy::REQUIRED); 2490e8d8bef9SDimitry Andric 2491e8d8bef9SDimitry Andric // We don't have any information, so we assume it changes the ICV. 2492e8d8bef9SDimitry Andric if (!ICVTrackingAA.isAssumedTracked()) 2493e8d8bef9SDimitry Andric return indicatePessimisticFixpoint(); 2494e8d8bef9SDimitry Andric 2495e8d8bef9SDimitry Andric for (InternalControlVar ICV : TrackableICVs) { 2496e8d8bef9SDimitry Andric Optional<Value *> &ReplVal = ICVReplacementValuesMap[ICV]; 2497e8d8bef9SDimitry Andric Optional<Value *> NewReplVal = 2498e8d8bef9SDimitry Andric ICVTrackingAA.getUniqueReplacementValue(ICV); 2499e8d8bef9SDimitry Andric 2500e8d8bef9SDimitry Andric if (ReplVal == NewReplVal) 2501e8d8bef9SDimitry Andric continue; 2502e8d8bef9SDimitry Andric 2503e8d8bef9SDimitry Andric ReplVal = NewReplVal; 2504e8d8bef9SDimitry Andric Changed = ChangeStatus::CHANGED; 2505e8d8bef9SDimitry Andric } 2506e8d8bef9SDimitry Andric return Changed; 2507e8d8bef9SDimitry Andric } 25085ffd83dbSDimitry Andric }; 2509fe6060f1SDimitry Andric 2510fe6060f1SDimitry Andric struct AAExecutionDomainFunction : public AAExecutionDomain { 2511fe6060f1SDimitry Andric AAExecutionDomainFunction(const IRPosition &IRP, Attributor &A) 2512fe6060f1SDimitry Andric : AAExecutionDomain(IRP, A) {} 2513fe6060f1SDimitry Andric 2514fe6060f1SDimitry Andric const std::string getAsStr() const override { 2515fe6060f1SDimitry Andric return "[AAExecutionDomain] " + std::to_string(SingleThreadedBBs.size()) + 2516fe6060f1SDimitry Andric "/" + std::to_string(NumBBs) + " BBs thread 0 only."; 2517fe6060f1SDimitry Andric } 2518fe6060f1SDimitry Andric 2519fe6060f1SDimitry Andric /// See AbstractAttribute::trackStatistics(). 2520fe6060f1SDimitry Andric void trackStatistics() const override {} 2521fe6060f1SDimitry Andric 2522fe6060f1SDimitry Andric void initialize(Attributor &A) override { 2523fe6060f1SDimitry Andric Function *F = getAnchorScope(); 2524fe6060f1SDimitry Andric for (const auto &BB : *F) 2525fe6060f1SDimitry Andric SingleThreadedBBs.insert(&BB); 2526fe6060f1SDimitry Andric NumBBs = SingleThreadedBBs.size(); 2527fe6060f1SDimitry Andric } 2528fe6060f1SDimitry Andric 2529fe6060f1SDimitry Andric ChangeStatus manifest(Attributor &A) override { 2530fe6060f1SDimitry Andric LLVM_DEBUG({ 2531fe6060f1SDimitry Andric for (const BasicBlock *BB : SingleThreadedBBs) 2532fe6060f1SDimitry Andric dbgs() << TAG << " Basic block @" << getAnchorScope()->getName() << " " 2533fe6060f1SDimitry Andric << BB->getName() << " is executed by a single thread.\n"; 2534fe6060f1SDimitry Andric }); 2535fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 2536fe6060f1SDimitry Andric } 2537fe6060f1SDimitry Andric 2538fe6060f1SDimitry Andric ChangeStatus updateImpl(Attributor &A) override; 2539fe6060f1SDimitry Andric 2540fe6060f1SDimitry Andric /// Check if an instruction is executed by a single thread. 2541fe6060f1SDimitry Andric bool isExecutedByInitialThreadOnly(const Instruction &I) const override { 2542fe6060f1SDimitry Andric return isExecutedByInitialThreadOnly(*I.getParent()); 2543fe6060f1SDimitry Andric } 2544fe6060f1SDimitry Andric 2545fe6060f1SDimitry Andric bool isExecutedByInitialThreadOnly(const BasicBlock &BB) const override { 2546fe6060f1SDimitry Andric return isValidState() && SingleThreadedBBs.contains(&BB); 2547fe6060f1SDimitry Andric } 2548fe6060f1SDimitry Andric 2549fe6060f1SDimitry Andric /// Set of basic blocks that are executed by a single thread. 2550fe6060f1SDimitry Andric DenseSet<const BasicBlock *> SingleThreadedBBs; 2551fe6060f1SDimitry Andric 2552fe6060f1SDimitry Andric /// Total number of basic blocks in this function. 2553fe6060f1SDimitry Andric long unsigned NumBBs; 2554fe6060f1SDimitry Andric }; 2555fe6060f1SDimitry Andric 2556fe6060f1SDimitry Andric ChangeStatus AAExecutionDomainFunction::updateImpl(Attributor &A) { 2557fe6060f1SDimitry Andric Function *F = getAnchorScope(); 2558fe6060f1SDimitry Andric ReversePostOrderTraversal<Function *> RPOT(F); 2559fe6060f1SDimitry Andric auto NumSingleThreadedBBs = SingleThreadedBBs.size(); 2560fe6060f1SDimitry Andric 2561fe6060f1SDimitry Andric bool AllCallSitesKnown; 2562fe6060f1SDimitry Andric auto PredForCallSite = [&](AbstractCallSite ACS) { 2563fe6060f1SDimitry Andric const auto &ExecutionDomainAA = A.getAAFor<AAExecutionDomain>( 2564fe6060f1SDimitry Andric *this, IRPosition::function(*ACS.getInstruction()->getFunction()), 2565fe6060f1SDimitry Andric DepClassTy::REQUIRED); 2566fe6060f1SDimitry Andric return ACS.isDirectCall() && 2567fe6060f1SDimitry Andric ExecutionDomainAA.isExecutedByInitialThreadOnly( 2568fe6060f1SDimitry Andric *ACS.getInstruction()); 2569fe6060f1SDimitry Andric }; 2570fe6060f1SDimitry Andric 2571fe6060f1SDimitry Andric if (!A.checkForAllCallSites(PredForCallSite, *this, 2572fe6060f1SDimitry Andric /* RequiresAllCallSites */ true, 2573fe6060f1SDimitry Andric AllCallSitesKnown)) 2574fe6060f1SDimitry Andric SingleThreadedBBs.erase(&F->getEntryBlock()); 2575fe6060f1SDimitry Andric 2576fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2577fe6060f1SDimitry Andric auto &RFI = OMPInfoCache.RFIs[OMPRTL___kmpc_target_init]; 2578fe6060f1SDimitry Andric 2579*349cc55cSDimitry Andric // Check if the edge into the successor block contains a condition that only 2580*349cc55cSDimitry Andric // lets the main thread execute it. 2581fe6060f1SDimitry Andric auto IsInitialThreadOnly = [&](BranchInst *Edge, BasicBlock *SuccessorBB) { 2582fe6060f1SDimitry Andric if (!Edge || !Edge->isConditional()) 2583fe6060f1SDimitry Andric return false; 2584fe6060f1SDimitry Andric if (Edge->getSuccessor(0) != SuccessorBB) 2585fe6060f1SDimitry Andric return false; 2586fe6060f1SDimitry Andric 2587fe6060f1SDimitry Andric auto *Cmp = dyn_cast<CmpInst>(Edge->getCondition()); 2588fe6060f1SDimitry Andric if (!Cmp || !Cmp->isTrueWhenEqual() || !Cmp->isEquality()) 2589fe6060f1SDimitry Andric return false; 2590fe6060f1SDimitry Andric 2591fe6060f1SDimitry Andric ConstantInt *C = dyn_cast<ConstantInt>(Cmp->getOperand(1)); 2592fe6060f1SDimitry Andric if (!C) 2593fe6060f1SDimitry Andric return false; 2594fe6060f1SDimitry Andric 2595fe6060f1SDimitry Andric // Match: -1 == __kmpc_target_init (for non-SPMD kernels only!) 2596fe6060f1SDimitry Andric if (C->isAllOnesValue()) { 2597fe6060f1SDimitry Andric auto *CB = dyn_cast<CallBase>(Cmp->getOperand(0)); 2598fe6060f1SDimitry Andric CB = CB ? OpenMPOpt::getCallIfRegularCall(*CB, &RFI) : nullptr; 2599fe6060f1SDimitry Andric if (!CB) 2600fe6060f1SDimitry Andric return false; 2601*349cc55cSDimitry Andric const int InitModeArgNo = 1; 2602*349cc55cSDimitry Andric auto *ModeCI = dyn_cast<ConstantInt>(CB->getOperand(InitModeArgNo)); 2603*349cc55cSDimitry Andric return ModeCI && (ModeCI->getSExtValue() & OMP_TGT_EXEC_MODE_GENERIC); 2604*349cc55cSDimitry Andric } 2605*349cc55cSDimitry Andric 2606*349cc55cSDimitry Andric if (C->isZero()) { 2607*349cc55cSDimitry Andric // Match: 0 == llvm.nvvm.read.ptx.sreg.tid.x() 2608*349cc55cSDimitry Andric if (auto *II = dyn_cast<IntrinsicInst>(Cmp->getOperand(0))) 2609*349cc55cSDimitry Andric if (II->getIntrinsicID() == Intrinsic::nvvm_read_ptx_sreg_tid_x) 2610*349cc55cSDimitry Andric return true; 2611*349cc55cSDimitry Andric 2612*349cc55cSDimitry Andric // Match: 0 == llvm.amdgcn.workitem.id.x() 2613*349cc55cSDimitry Andric if (auto *II = dyn_cast<IntrinsicInst>(Cmp->getOperand(0))) 2614*349cc55cSDimitry Andric if (II->getIntrinsicID() == Intrinsic::amdgcn_workitem_id_x) 2615*349cc55cSDimitry Andric return true; 2616fe6060f1SDimitry Andric } 2617fe6060f1SDimitry Andric 2618fe6060f1SDimitry Andric return false; 2619fe6060f1SDimitry Andric }; 2620fe6060f1SDimitry Andric 2621fe6060f1SDimitry Andric // Merge all the predecessor states into the current basic block. A basic 2622fe6060f1SDimitry Andric // block is executed by a single thread if all of its predecessors are. 2623fe6060f1SDimitry Andric auto MergePredecessorStates = [&](BasicBlock *BB) { 2624*349cc55cSDimitry Andric if (pred_empty(BB)) 2625fe6060f1SDimitry Andric return SingleThreadedBBs.contains(BB); 2626fe6060f1SDimitry Andric 2627fe6060f1SDimitry Andric bool IsInitialThread = true; 2628*349cc55cSDimitry Andric for (BasicBlock *PredBB : predecessors(BB)) { 2629*349cc55cSDimitry Andric if (!IsInitialThreadOnly(dyn_cast<BranchInst>(PredBB->getTerminator()), 2630fe6060f1SDimitry Andric BB)) 2631*349cc55cSDimitry Andric IsInitialThread &= SingleThreadedBBs.contains(PredBB); 2632fe6060f1SDimitry Andric } 2633fe6060f1SDimitry Andric 2634fe6060f1SDimitry Andric return IsInitialThread; 2635fe6060f1SDimitry Andric }; 2636fe6060f1SDimitry Andric 2637fe6060f1SDimitry Andric for (auto *BB : RPOT) { 2638fe6060f1SDimitry Andric if (!MergePredecessorStates(BB)) 2639fe6060f1SDimitry Andric SingleThreadedBBs.erase(BB); 2640fe6060f1SDimitry Andric } 2641fe6060f1SDimitry Andric 2642fe6060f1SDimitry Andric return (NumSingleThreadedBBs == SingleThreadedBBs.size()) 2643fe6060f1SDimitry Andric ? ChangeStatus::UNCHANGED 2644fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 2645fe6060f1SDimitry Andric } 2646fe6060f1SDimitry Andric 2647fe6060f1SDimitry Andric /// Try to replace memory allocation calls called by a single thread with a 2648fe6060f1SDimitry Andric /// static buffer of shared memory. 2649fe6060f1SDimitry Andric struct AAHeapToShared : public StateWrapper<BooleanState, AbstractAttribute> { 2650fe6060f1SDimitry Andric using Base = StateWrapper<BooleanState, AbstractAttribute>; 2651fe6060f1SDimitry Andric AAHeapToShared(const IRPosition &IRP, Attributor &A) : Base(IRP) {} 2652fe6060f1SDimitry Andric 2653fe6060f1SDimitry Andric /// Create an abstract attribute view for the position \p IRP. 2654fe6060f1SDimitry Andric static AAHeapToShared &createForPosition(const IRPosition &IRP, 2655fe6060f1SDimitry Andric Attributor &A); 2656fe6060f1SDimitry Andric 2657fe6060f1SDimitry Andric /// Returns true if HeapToShared conversion is assumed to be possible. 2658fe6060f1SDimitry Andric virtual bool isAssumedHeapToShared(CallBase &CB) const = 0; 2659fe6060f1SDimitry Andric 2660fe6060f1SDimitry Andric /// Returns true if HeapToShared conversion is assumed and the CB is a 2661fe6060f1SDimitry Andric /// callsite to a free operation to be removed. 2662fe6060f1SDimitry Andric virtual bool isAssumedHeapToSharedRemovedFree(CallBase &CB) const = 0; 2663fe6060f1SDimitry Andric 2664fe6060f1SDimitry Andric /// See AbstractAttribute::getName(). 2665fe6060f1SDimitry Andric const std::string getName() const override { return "AAHeapToShared"; } 2666fe6060f1SDimitry Andric 2667fe6060f1SDimitry Andric /// See AbstractAttribute::getIdAddr(). 2668fe6060f1SDimitry Andric const char *getIdAddr() const override { return &ID; } 2669fe6060f1SDimitry Andric 2670fe6060f1SDimitry Andric /// This function should return true if the type of the \p AA is 2671fe6060f1SDimitry Andric /// AAHeapToShared. 2672fe6060f1SDimitry Andric static bool classof(const AbstractAttribute *AA) { 2673fe6060f1SDimitry Andric return (AA->getIdAddr() == &ID); 2674fe6060f1SDimitry Andric } 2675fe6060f1SDimitry Andric 2676fe6060f1SDimitry Andric /// Unique ID (due to the unique address) 2677fe6060f1SDimitry Andric static const char ID; 2678fe6060f1SDimitry Andric }; 2679fe6060f1SDimitry Andric 2680fe6060f1SDimitry Andric struct AAHeapToSharedFunction : public AAHeapToShared { 2681fe6060f1SDimitry Andric AAHeapToSharedFunction(const IRPosition &IRP, Attributor &A) 2682fe6060f1SDimitry Andric : AAHeapToShared(IRP, A) {} 2683fe6060f1SDimitry Andric 2684fe6060f1SDimitry Andric const std::string getAsStr() const override { 2685fe6060f1SDimitry Andric return "[AAHeapToShared] " + std::to_string(MallocCalls.size()) + 2686fe6060f1SDimitry Andric " malloc calls eligible."; 2687fe6060f1SDimitry Andric } 2688fe6060f1SDimitry Andric 2689fe6060f1SDimitry Andric /// See AbstractAttribute::trackStatistics(). 2690fe6060f1SDimitry Andric void trackStatistics() const override {} 2691fe6060f1SDimitry Andric 2692fe6060f1SDimitry Andric /// This functions finds free calls that will be removed by the 2693fe6060f1SDimitry Andric /// HeapToShared transformation. 2694fe6060f1SDimitry Andric void findPotentialRemovedFreeCalls(Attributor &A) { 2695fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2696fe6060f1SDimitry Andric auto &FreeRFI = OMPInfoCache.RFIs[OMPRTL___kmpc_free_shared]; 2697fe6060f1SDimitry Andric 2698fe6060f1SDimitry Andric PotentialRemovedFreeCalls.clear(); 2699fe6060f1SDimitry Andric // Update free call users of found malloc calls. 2700fe6060f1SDimitry Andric for (CallBase *CB : MallocCalls) { 2701fe6060f1SDimitry Andric SmallVector<CallBase *, 4> FreeCalls; 2702fe6060f1SDimitry Andric for (auto *U : CB->users()) { 2703fe6060f1SDimitry Andric CallBase *C = dyn_cast<CallBase>(U); 2704fe6060f1SDimitry Andric if (C && C->getCalledFunction() == FreeRFI.Declaration) 2705fe6060f1SDimitry Andric FreeCalls.push_back(C); 2706fe6060f1SDimitry Andric } 2707fe6060f1SDimitry Andric 2708fe6060f1SDimitry Andric if (FreeCalls.size() != 1) 2709fe6060f1SDimitry Andric continue; 2710fe6060f1SDimitry Andric 2711fe6060f1SDimitry Andric PotentialRemovedFreeCalls.insert(FreeCalls.front()); 2712fe6060f1SDimitry Andric } 2713fe6060f1SDimitry Andric } 2714fe6060f1SDimitry Andric 2715fe6060f1SDimitry Andric void initialize(Attributor &A) override { 2716fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2717fe6060f1SDimitry Andric auto &RFI = OMPInfoCache.RFIs[OMPRTL___kmpc_alloc_shared]; 2718fe6060f1SDimitry Andric 2719fe6060f1SDimitry Andric for (User *U : RFI.Declaration->users()) 2720fe6060f1SDimitry Andric if (CallBase *CB = dyn_cast<CallBase>(U)) 2721fe6060f1SDimitry Andric MallocCalls.insert(CB); 2722fe6060f1SDimitry Andric 2723fe6060f1SDimitry Andric findPotentialRemovedFreeCalls(A); 2724fe6060f1SDimitry Andric } 2725fe6060f1SDimitry Andric 2726fe6060f1SDimitry Andric bool isAssumedHeapToShared(CallBase &CB) const override { 2727fe6060f1SDimitry Andric return isValidState() && MallocCalls.count(&CB); 2728fe6060f1SDimitry Andric } 2729fe6060f1SDimitry Andric 2730fe6060f1SDimitry Andric bool isAssumedHeapToSharedRemovedFree(CallBase &CB) const override { 2731fe6060f1SDimitry Andric return isValidState() && PotentialRemovedFreeCalls.count(&CB); 2732fe6060f1SDimitry Andric } 2733fe6060f1SDimitry Andric 2734fe6060f1SDimitry Andric ChangeStatus manifest(Attributor &A) override { 2735fe6060f1SDimitry Andric if (MallocCalls.empty()) 2736fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 2737fe6060f1SDimitry Andric 2738fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2739fe6060f1SDimitry Andric auto &FreeCall = OMPInfoCache.RFIs[OMPRTL___kmpc_free_shared]; 2740fe6060f1SDimitry Andric 2741fe6060f1SDimitry Andric Function *F = getAnchorScope(); 2742fe6060f1SDimitry Andric auto *HS = A.lookupAAFor<AAHeapToStack>(IRPosition::function(*F), this, 2743fe6060f1SDimitry Andric DepClassTy::OPTIONAL); 2744fe6060f1SDimitry Andric 2745fe6060f1SDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 2746fe6060f1SDimitry Andric for (CallBase *CB : MallocCalls) { 2747fe6060f1SDimitry Andric // Skip replacing this if HeapToStack has already claimed it. 2748fe6060f1SDimitry Andric if (HS && HS->isAssumedHeapToStack(*CB)) 2749fe6060f1SDimitry Andric continue; 2750fe6060f1SDimitry Andric 2751fe6060f1SDimitry Andric // Find the unique free call to remove it. 2752fe6060f1SDimitry Andric SmallVector<CallBase *, 4> FreeCalls; 2753fe6060f1SDimitry Andric for (auto *U : CB->users()) { 2754fe6060f1SDimitry Andric CallBase *C = dyn_cast<CallBase>(U); 2755fe6060f1SDimitry Andric if (C && C->getCalledFunction() == FreeCall.Declaration) 2756fe6060f1SDimitry Andric FreeCalls.push_back(C); 2757fe6060f1SDimitry Andric } 2758fe6060f1SDimitry Andric if (FreeCalls.size() != 1) 2759fe6060f1SDimitry Andric continue; 2760fe6060f1SDimitry Andric 2761fe6060f1SDimitry Andric ConstantInt *AllocSize = dyn_cast<ConstantInt>(CB->getArgOperand(0)); 2762fe6060f1SDimitry Andric 2763*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Replace globalization call " << *CB 2764*349cc55cSDimitry Andric << " with " << AllocSize->getZExtValue() 2765fe6060f1SDimitry Andric << " bytes of shared memory\n"); 2766fe6060f1SDimitry Andric 2767fe6060f1SDimitry Andric // Create a new shared memory buffer of the same size as the allocation 2768fe6060f1SDimitry Andric // and replace all the uses of the original allocation with it. 2769fe6060f1SDimitry Andric Module *M = CB->getModule(); 2770fe6060f1SDimitry Andric Type *Int8Ty = Type::getInt8Ty(M->getContext()); 2771fe6060f1SDimitry Andric Type *Int8ArrTy = ArrayType::get(Int8Ty, AllocSize->getZExtValue()); 2772fe6060f1SDimitry Andric auto *SharedMem = new GlobalVariable( 2773fe6060f1SDimitry Andric *M, Int8ArrTy, /* IsConstant */ false, GlobalValue::InternalLinkage, 2774fe6060f1SDimitry Andric UndefValue::get(Int8ArrTy), CB->getName(), nullptr, 2775fe6060f1SDimitry Andric GlobalValue::NotThreadLocal, 2776fe6060f1SDimitry Andric static_cast<unsigned>(AddressSpace::Shared)); 2777fe6060f1SDimitry Andric auto *NewBuffer = 2778fe6060f1SDimitry Andric ConstantExpr::getPointerCast(SharedMem, Int8Ty->getPointerTo()); 2779fe6060f1SDimitry Andric 2780fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemark OR) { 2781fe6060f1SDimitry Andric return OR << "Replaced globalized variable with " 2782fe6060f1SDimitry Andric << ore::NV("SharedMemory", AllocSize->getZExtValue()) 2783fe6060f1SDimitry Andric << ((AllocSize->getZExtValue() != 1) ? " bytes " : " byte ") 2784fe6060f1SDimitry Andric << "of shared memory."; 2785fe6060f1SDimitry Andric }; 2786fe6060f1SDimitry Andric A.emitRemark<OptimizationRemark>(CB, "OMP111", Remark); 2787fe6060f1SDimitry Andric 2788fe6060f1SDimitry Andric SharedMem->setAlignment(MaybeAlign(32)); 2789fe6060f1SDimitry Andric 2790fe6060f1SDimitry Andric A.changeValueAfterManifest(*CB, *NewBuffer); 2791fe6060f1SDimitry Andric A.deleteAfterManifest(*CB); 2792fe6060f1SDimitry Andric A.deleteAfterManifest(*FreeCalls.front()); 2793fe6060f1SDimitry Andric 2794fe6060f1SDimitry Andric NumBytesMovedToSharedMemory += AllocSize->getZExtValue(); 2795fe6060f1SDimitry Andric Changed = ChangeStatus::CHANGED; 2796fe6060f1SDimitry Andric } 2797fe6060f1SDimitry Andric 2798fe6060f1SDimitry Andric return Changed; 2799fe6060f1SDimitry Andric } 2800fe6060f1SDimitry Andric 2801fe6060f1SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 2802fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2803fe6060f1SDimitry Andric auto &RFI = OMPInfoCache.RFIs[OMPRTL___kmpc_alloc_shared]; 2804fe6060f1SDimitry Andric Function *F = getAnchorScope(); 2805fe6060f1SDimitry Andric 2806fe6060f1SDimitry Andric auto NumMallocCalls = MallocCalls.size(); 2807fe6060f1SDimitry Andric 2808fe6060f1SDimitry Andric // Only consider malloc calls executed by a single thread with a constant. 2809fe6060f1SDimitry Andric for (User *U : RFI.Declaration->users()) { 2810fe6060f1SDimitry Andric const auto &ED = A.getAAFor<AAExecutionDomain>( 2811fe6060f1SDimitry Andric *this, IRPosition::function(*F), DepClassTy::REQUIRED); 2812fe6060f1SDimitry Andric if (CallBase *CB = dyn_cast<CallBase>(U)) 2813*349cc55cSDimitry Andric if (!isa<ConstantInt>(CB->getArgOperand(0)) || 2814fe6060f1SDimitry Andric !ED.isExecutedByInitialThreadOnly(*CB)) 2815fe6060f1SDimitry Andric MallocCalls.erase(CB); 2816fe6060f1SDimitry Andric } 2817fe6060f1SDimitry Andric 2818fe6060f1SDimitry Andric findPotentialRemovedFreeCalls(A); 2819fe6060f1SDimitry Andric 2820fe6060f1SDimitry Andric if (NumMallocCalls != MallocCalls.size()) 2821fe6060f1SDimitry Andric return ChangeStatus::CHANGED; 2822fe6060f1SDimitry Andric 2823fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 2824fe6060f1SDimitry Andric } 2825fe6060f1SDimitry Andric 2826fe6060f1SDimitry Andric /// Collection of all malloc calls in a function. 2827fe6060f1SDimitry Andric SmallPtrSet<CallBase *, 4> MallocCalls; 2828fe6060f1SDimitry Andric /// Collection of potentially removed free calls in a function. 2829fe6060f1SDimitry Andric SmallPtrSet<CallBase *, 4> PotentialRemovedFreeCalls; 2830fe6060f1SDimitry Andric }; 2831fe6060f1SDimitry Andric 2832fe6060f1SDimitry Andric struct AAKernelInfo : public StateWrapper<KernelInfoState, AbstractAttribute> { 2833fe6060f1SDimitry Andric using Base = StateWrapper<KernelInfoState, AbstractAttribute>; 2834fe6060f1SDimitry Andric AAKernelInfo(const IRPosition &IRP, Attributor &A) : Base(IRP) {} 2835fe6060f1SDimitry Andric 2836fe6060f1SDimitry Andric /// Statistics are tracked as part of manifest for now. 2837fe6060f1SDimitry Andric void trackStatistics() const override {} 2838fe6060f1SDimitry Andric 2839fe6060f1SDimitry Andric /// See AbstractAttribute::getAsStr() 2840fe6060f1SDimitry Andric const std::string getAsStr() const override { 2841fe6060f1SDimitry Andric if (!isValidState()) 2842fe6060f1SDimitry Andric return "<invalid>"; 2843fe6060f1SDimitry Andric return std::string(SPMDCompatibilityTracker.isAssumed() ? "SPMD" 2844fe6060f1SDimitry Andric : "generic") + 2845fe6060f1SDimitry Andric std::string(SPMDCompatibilityTracker.isAtFixpoint() ? " [FIX]" 2846fe6060f1SDimitry Andric : "") + 2847fe6060f1SDimitry Andric std::string(" #PRs: ") + 2848*349cc55cSDimitry Andric (ReachedKnownParallelRegions.isValidState() 2849*349cc55cSDimitry Andric ? std::to_string(ReachedKnownParallelRegions.size()) 2850*349cc55cSDimitry Andric : "<invalid>") + 2851fe6060f1SDimitry Andric ", #Unknown PRs: " + 2852*349cc55cSDimitry Andric (ReachedUnknownParallelRegions.isValidState() 2853*349cc55cSDimitry Andric ? std::to_string(ReachedUnknownParallelRegions.size()) 2854*349cc55cSDimitry Andric : "<invalid>") + 2855*349cc55cSDimitry Andric ", #Reaching Kernels: " + 2856*349cc55cSDimitry Andric (ReachingKernelEntries.isValidState() 2857*349cc55cSDimitry Andric ? std::to_string(ReachingKernelEntries.size()) 2858*349cc55cSDimitry Andric : "<invalid>"); 2859fe6060f1SDimitry Andric } 2860fe6060f1SDimitry Andric 2861fe6060f1SDimitry Andric /// Create an abstract attribute biew for the position \p IRP. 2862fe6060f1SDimitry Andric static AAKernelInfo &createForPosition(const IRPosition &IRP, Attributor &A); 2863fe6060f1SDimitry Andric 2864fe6060f1SDimitry Andric /// See AbstractAttribute::getName() 2865fe6060f1SDimitry Andric const std::string getName() const override { return "AAKernelInfo"; } 2866fe6060f1SDimitry Andric 2867fe6060f1SDimitry Andric /// See AbstractAttribute::getIdAddr() 2868fe6060f1SDimitry Andric const char *getIdAddr() const override { return &ID; } 2869fe6060f1SDimitry Andric 2870fe6060f1SDimitry Andric /// This function should return true if the type of the \p AA is AAKernelInfo 2871fe6060f1SDimitry Andric static bool classof(const AbstractAttribute *AA) { 2872fe6060f1SDimitry Andric return (AA->getIdAddr() == &ID); 2873fe6060f1SDimitry Andric } 2874fe6060f1SDimitry Andric 2875fe6060f1SDimitry Andric static const char ID; 2876fe6060f1SDimitry Andric }; 2877fe6060f1SDimitry Andric 2878fe6060f1SDimitry Andric /// The function kernel info abstract attribute, basically, what can we say 2879fe6060f1SDimitry Andric /// about a function with regards to the KernelInfoState. 2880fe6060f1SDimitry Andric struct AAKernelInfoFunction : AAKernelInfo { 2881fe6060f1SDimitry Andric AAKernelInfoFunction(const IRPosition &IRP, Attributor &A) 2882fe6060f1SDimitry Andric : AAKernelInfo(IRP, A) {} 2883fe6060f1SDimitry Andric 2884*349cc55cSDimitry Andric SmallPtrSet<Instruction *, 4> GuardedInstructions; 2885*349cc55cSDimitry Andric 2886*349cc55cSDimitry Andric SmallPtrSetImpl<Instruction *> &getGuardedInstructions() { 2887*349cc55cSDimitry Andric return GuardedInstructions; 2888*349cc55cSDimitry Andric } 2889*349cc55cSDimitry Andric 2890fe6060f1SDimitry Andric /// See AbstractAttribute::initialize(...). 2891fe6060f1SDimitry Andric void initialize(Attributor &A) override { 2892fe6060f1SDimitry Andric // This is a high-level transform that might change the constant arguments 2893fe6060f1SDimitry Andric // of the init and dinit calls. We need to tell the Attributor about this 2894fe6060f1SDimitry Andric // to avoid other parts using the current constant value for simpliication. 2895fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 2896fe6060f1SDimitry Andric 2897fe6060f1SDimitry Andric Function *Fn = getAnchorScope(); 2898fe6060f1SDimitry Andric if (!OMPInfoCache.Kernels.count(Fn)) 2899fe6060f1SDimitry Andric return; 2900fe6060f1SDimitry Andric 2901fe6060f1SDimitry Andric // Add itself to the reaching kernel and set IsKernelEntry. 2902fe6060f1SDimitry Andric ReachingKernelEntries.insert(Fn); 2903fe6060f1SDimitry Andric IsKernelEntry = true; 2904fe6060f1SDimitry Andric 2905fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &InitRFI = 2906fe6060f1SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_target_init]; 2907fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &DeinitRFI = 2908fe6060f1SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_target_deinit]; 2909fe6060f1SDimitry Andric 2910fe6060f1SDimitry Andric // For kernels we perform more initialization work, first we find the init 2911fe6060f1SDimitry Andric // and deinit calls. 2912fe6060f1SDimitry Andric auto StoreCallBase = [](Use &U, 2913fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &RFI, 2914fe6060f1SDimitry Andric CallBase *&Storage) { 2915fe6060f1SDimitry Andric CallBase *CB = OpenMPOpt::getCallIfRegularCall(U, &RFI); 2916fe6060f1SDimitry Andric assert(CB && 2917fe6060f1SDimitry Andric "Unexpected use of __kmpc_target_init or __kmpc_target_deinit!"); 2918fe6060f1SDimitry Andric assert(!Storage && 2919fe6060f1SDimitry Andric "Multiple uses of __kmpc_target_init or __kmpc_target_deinit!"); 2920fe6060f1SDimitry Andric Storage = CB; 2921fe6060f1SDimitry Andric return false; 2922fe6060f1SDimitry Andric }; 2923fe6060f1SDimitry Andric InitRFI.foreachUse( 2924fe6060f1SDimitry Andric [&](Use &U, Function &) { 2925fe6060f1SDimitry Andric StoreCallBase(U, InitRFI, KernelInitCB); 2926fe6060f1SDimitry Andric return false; 2927fe6060f1SDimitry Andric }, 2928fe6060f1SDimitry Andric Fn); 2929fe6060f1SDimitry Andric DeinitRFI.foreachUse( 2930fe6060f1SDimitry Andric [&](Use &U, Function &) { 2931fe6060f1SDimitry Andric StoreCallBase(U, DeinitRFI, KernelDeinitCB); 2932fe6060f1SDimitry Andric return false; 2933fe6060f1SDimitry Andric }, 2934fe6060f1SDimitry Andric Fn); 2935fe6060f1SDimitry Andric 2936*349cc55cSDimitry Andric // Ignore kernels without initializers such as global constructors. 2937*349cc55cSDimitry Andric if (!KernelInitCB || !KernelDeinitCB) { 2938*349cc55cSDimitry Andric indicateOptimisticFixpoint(); 2939*349cc55cSDimitry Andric return; 2940*349cc55cSDimitry Andric } 2941fe6060f1SDimitry Andric 2942fe6060f1SDimitry Andric // For kernels we might need to initialize/finalize the IsSPMD state and 2943fe6060f1SDimitry Andric // we need to register a simplification callback so that the Attributor 2944fe6060f1SDimitry Andric // knows the constant arguments to __kmpc_target_init and 2945fe6060f1SDimitry Andric // __kmpc_target_deinit might actually change. 2946fe6060f1SDimitry Andric 2947fe6060f1SDimitry Andric Attributor::SimplifictionCallbackTy StateMachineSimplifyCB = 2948fe6060f1SDimitry Andric [&](const IRPosition &IRP, const AbstractAttribute *AA, 2949fe6060f1SDimitry Andric bool &UsedAssumedInformation) -> Optional<Value *> { 2950fe6060f1SDimitry Andric // IRP represents the "use generic state machine" argument of an 2951fe6060f1SDimitry Andric // __kmpc_target_init call. We will answer this one with the internal 2952fe6060f1SDimitry Andric // state. As long as we are not in an invalid state, we will create a 2953fe6060f1SDimitry Andric // custom state machine so the value should be a `i1 false`. If we are 2954fe6060f1SDimitry Andric // in an invalid state, we won't change the value that is in the IR. 2955*349cc55cSDimitry Andric if (!ReachedKnownParallelRegions.isValidState()) 2956*349cc55cSDimitry Andric return nullptr; 2957*349cc55cSDimitry Andric // If we have disabled state machine rewrites, don't make a custom one. 2958*349cc55cSDimitry Andric if (DisableOpenMPOptStateMachineRewrite) 2959fe6060f1SDimitry Andric return nullptr; 2960fe6060f1SDimitry Andric if (AA) 2961fe6060f1SDimitry Andric A.recordDependence(*this, *AA, DepClassTy::OPTIONAL); 2962fe6060f1SDimitry Andric UsedAssumedInformation = !isAtFixpoint(); 2963fe6060f1SDimitry Andric auto *FalseVal = 2964fe6060f1SDimitry Andric ConstantInt::getBool(IRP.getAnchorValue().getContext(), 0); 2965fe6060f1SDimitry Andric return FalseVal; 2966fe6060f1SDimitry Andric }; 2967fe6060f1SDimitry Andric 2968*349cc55cSDimitry Andric Attributor::SimplifictionCallbackTy ModeSimplifyCB = 2969fe6060f1SDimitry Andric [&](const IRPosition &IRP, const AbstractAttribute *AA, 2970fe6060f1SDimitry Andric bool &UsedAssumedInformation) -> Optional<Value *> { 2971fe6060f1SDimitry Andric // IRP represents the "SPMDCompatibilityTracker" argument of an 2972fe6060f1SDimitry Andric // __kmpc_target_init or 2973fe6060f1SDimitry Andric // __kmpc_target_deinit call. We will answer this one with the internal 2974fe6060f1SDimitry Andric // state. 2975fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isValidState()) 2976fe6060f1SDimitry Andric return nullptr; 2977fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isAtFixpoint()) { 2978fe6060f1SDimitry Andric if (AA) 2979fe6060f1SDimitry Andric A.recordDependence(*this, *AA, DepClassTy::OPTIONAL); 2980fe6060f1SDimitry Andric UsedAssumedInformation = true; 2981fe6060f1SDimitry Andric } else { 2982fe6060f1SDimitry Andric UsedAssumedInformation = false; 2983fe6060f1SDimitry Andric } 2984*349cc55cSDimitry Andric auto *Val = ConstantInt::getSigned( 2985*349cc55cSDimitry Andric IntegerType::getInt8Ty(IRP.getAnchorValue().getContext()), 2986*349cc55cSDimitry Andric SPMDCompatibilityTracker.isAssumed() ? OMP_TGT_EXEC_MODE_SPMD 2987*349cc55cSDimitry Andric : OMP_TGT_EXEC_MODE_GENERIC); 2988fe6060f1SDimitry Andric return Val; 2989fe6060f1SDimitry Andric }; 2990fe6060f1SDimitry Andric 2991fe6060f1SDimitry Andric Attributor::SimplifictionCallbackTy IsGenericModeSimplifyCB = 2992fe6060f1SDimitry Andric [&](const IRPosition &IRP, const AbstractAttribute *AA, 2993fe6060f1SDimitry Andric bool &UsedAssumedInformation) -> Optional<Value *> { 2994fe6060f1SDimitry Andric // IRP represents the "RequiresFullRuntime" argument of an 2995fe6060f1SDimitry Andric // __kmpc_target_init or __kmpc_target_deinit call. We will answer this 2996fe6060f1SDimitry Andric // one with the internal state of the SPMDCompatibilityTracker, so if 2997fe6060f1SDimitry Andric // generic then true, if SPMD then false. 2998fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isValidState()) 2999fe6060f1SDimitry Andric return nullptr; 3000fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isAtFixpoint()) { 3001fe6060f1SDimitry Andric if (AA) 3002fe6060f1SDimitry Andric A.recordDependence(*this, *AA, DepClassTy::OPTIONAL); 3003fe6060f1SDimitry Andric UsedAssumedInformation = true; 3004fe6060f1SDimitry Andric } else { 3005fe6060f1SDimitry Andric UsedAssumedInformation = false; 3006fe6060f1SDimitry Andric } 3007fe6060f1SDimitry Andric auto *Val = ConstantInt::getBool(IRP.getAnchorValue().getContext(), 3008fe6060f1SDimitry Andric !SPMDCompatibilityTracker.isAssumed()); 3009fe6060f1SDimitry Andric return Val; 3010fe6060f1SDimitry Andric }; 3011fe6060f1SDimitry Andric 3012*349cc55cSDimitry Andric constexpr const int InitModeArgNo = 1; 3013*349cc55cSDimitry Andric constexpr const int DeinitModeArgNo = 1; 3014fe6060f1SDimitry Andric constexpr const int InitUseStateMachineArgNo = 2; 3015fe6060f1SDimitry Andric constexpr const int InitRequiresFullRuntimeArgNo = 3; 3016fe6060f1SDimitry Andric constexpr const int DeinitRequiresFullRuntimeArgNo = 2; 3017fe6060f1SDimitry Andric A.registerSimplificationCallback( 3018fe6060f1SDimitry Andric IRPosition::callsite_argument(*KernelInitCB, InitUseStateMachineArgNo), 3019fe6060f1SDimitry Andric StateMachineSimplifyCB); 3020fe6060f1SDimitry Andric A.registerSimplificationCallback( 3021*349cc55cSDimitry Andric IRPosition::callsite_argument(*KernelInitCB, InitModeArgNo), 3022*349cc55cSDimitry Andric ModeSimplifyCB); 3023fe6060f1SDimitry Andric A.registerSimplificationCallback( 3024*349cc55cSDimitry Andric IRPosition::callsite_argument(*KernelDeinitCB, DeinitModeArgNo), 3025*349cc55cSDimitry Andric ModeSimplifyCB); 3026fe6060f1SDimitry Andric A.registerSimplificationCallback( 3027fe6060f1SDimitry Andric IRPosition::callsite_argument(*KernelInitCB, 3028fe6060f1SDimitry Andric InitRequiresFullRuntimeArgNo), 3029fe6060f1SDimitry Andric IsGenericModeSimplifyCB); 3030fe6060f1SDimitry Andric A.registerSimplificationCallback( 3031fe6060f1SDimitry Andric IRPosition::callsite_argument(*KernelDeinitCB, 3032fe6060f1SDimitry Andric DeinitRequiresFullRuntimeArgNo), 3033fe6060f1SDimitry Andric IsGenericModeSimplifyCB); 3034fe6060f1SDimitry Andric 3035fe6060f1SDimitry Andric // Check if we know we are in SPMD-mode already. 3036*349cc55cSDimitry Andric ConstantInt *ModeArg = 3037*349cc55cSDimitry Andric dyn_cast<ConstantInt>(KernelInitCB->getArgOperand(InitModeArgNo)); 3038*349cc55cSDimitry Andric if (ModeArg && (ModeArg->getSExtValue() & OMP_TGT_EXEC_MODE_SPMD)) 3039fe6060f1SDimitry Andric SPMDCompatibilityTracker.indicateOptimisticFixpoint(); 3040*349cc55cSDimitry Andric // This is a generic region but SPMDization is disabled so stop tracking. 3041*349cc55cSDimitry Andric else if (DisableOpenMPOptSPMDization) 3042*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3043*349cc55cSDimitry Andric } 3044*349cc55cSDimitry Andric 3045*349cc55cSDimitry Andric /// Sanitize the string \p S such that it is a suitable global symbol name. 3046*349cc55cSDimitry Andric static std::string sanitizeForGlobalName(std::string S) { 3047*349cc55cSDimitry Andric std::replace_if( 3048*349cc55cSDimitry Andric S.begin(), S.end(), 3049*349cc55cSDimitry Andric [](const char C) { 3050*349cc55cSDimitry Andric return !((C >= 'a' && C <= 'z') || (C >= 'A' && C <= 'Z') || 3051*349cc55cSDimitry Andric (C >= '0' && C <= '9') || C == '_'); 3052*349cc55cSDimitry Andric }, 3053*349cc55cSDimitry Andric '.'); 3054*349cc55cSDimitry Andric return S; 3055fe6060f1SDimitry Andric } 3056fe6060f1SDimitry Andric 3057fe6060f1SDimitry Andric /// Modify the IR based on the KernelInfoState as the fixpoint iteration is 3058fe6060f1SDimitry Andric /// finished now. 3059fe6060f1SDimitry Andric ChangeStatus manifest(Attributor &A) override { 3060fe6060f1SDimitry Andric // If we are not looking at a kernel with __kmpc_target_init and 3061fe6060f1SDimitry Andric // __kmpc_target_deinit call we cannot actually manifest the information. 3062fe6060f1SDimitry Andric if (!KernelInitCB || !KernelDeinitCB) 3063fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 3064fe6060f1SDimitry Andric 3065fe6060f1SDimitry Andric // If we can we change the execution mode to SPMD-mode otherwise we build a 3066fe6060f1SDimitry Andric // custom state machine. 3067*349cc55cSDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 3068*349cc55cSDimitry Andric if (!changeToSPMDMode(A, Changed)) 3069*349cc55cSDimitry Andric return buildCustomStateMachine(A); 3070fe6060f1SDimitry Andric 3071*349cc55cSDimitry Andric return Changed; 3072fe6060f1SDimitry Andric } 3073fe6060f1SDimitry Andric 3074*349cc55cSDimitry Andric bool changeToSPMDMode(Attributor &A, ChangeStatus &Changed) { 3075fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 3076fe6060f1SDimitry Andric 3077fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isAssumed()) { 3078fe6060f1SDimitry Andric for (Instruction *NonCompatibleI : SPMDCompatibilityTracker) { 3079fe6060f1SDimitry Andric if (!NonCompatibleI) 3080fe6060f1SDimitry Andric continue; 3081fe6060f1SDimitry Andric 3082fe6060f1SDimitry Andric // Skip diagnostics on calls to known OpenMP runtime functions for now. 3083fe6060f1SDimitry Andric if (auto *CB = dyn_cast<CallBase>(NonCompatibleI)) 3084fe6060f1SDimitry Andric if (OMPInfoCache.RTLFunctions.contains(CB->getCalledFunction())) 3085fe6060f1SDimitry Andric continue; 3086fe6060f1SDimitry Andric 3087fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 3088fe6060f1SDimitry Andric ORA << "Value has potential side effects preventing SPMD-mode " 3089fe6060f1SDimitry Andric "execution"; 3090fe6060f1SDimitry Andric if (isa<CallBase>(NonCompatibleI)) { 3091fe6060f1SDimitry Andric ORA << ". Add `__attribute__((assume(\"ompx_spmd_amenable\")))` to " 3092fe6060f1SDimitry Andric "the called function to override"; 3093fe6060f1SDimitry Andric } 3094fe6060f1SDimitry Andric return ORA << "."; 3095fe6060f1SDimitry Andric }; 3096fe6060f1SDimitry Andric A.emitRemark<OptimizationRemarkAnalysis>(NonCompatibleI, "OMP121", 3097fe6060f1SDimitry Andric Remark); 3098fe6060f1SDimitry Andric 3099fe6060f1SDimitry Andric LLVM_DEBUG(dbgs() << TAG << "SPMD-incompatible side-effect: " 3100fe6060f1SDimitry Andric << *NonCompatibleI << "\n"); 3101fe6060f1SDimitry Andric } 3102fe6060f1SDimitry Andric 3103fe6060f1SDimitry Andric return false; 3104fe6060f1SDimitry Andric } 3105fe6060f1SDimitry Andric 3106*349cc55cSDimitry Andric // Check if the kernel is already in SPMD mode, if so, return success. 3107fe6060f1SDimitry Andric Function *Kernel = getAnchorScope(); 3108fe6060f1SDimitry Andric GlobalVariable *ExecMode = Kernel->getParent()->getGlobalVariable( 3109fe6060f1SDimitry Andric (Kernel->getName() + "_exec_mode").str()); 3110fe6060f1SDimitry Andric assert(ExecMode && "Kernel without exec mode?"); 3111*349cc55cSDimitry Andric assert(ExecMode->getInitializer() && "ExecMode doesn't have initializer!"); 3112fe6060f1SDimitry Andric 3113fe6060f1SDimitry Andric // Set the global exec mode flag to indicate SPMD-Generic mode. 3114*349cc55cSDimitry Andric assert(isa<ConstantInt>(ExecMode->getInitializer()) && 3115*349cc55cSDimitry Andric "ExecMode is not an integer!"); 3116*349cc55cSDimitry Andric const int8_t ExecModeVal = 3117*349cc55cSDimitry Andric cast<ConstantInt>(ExecMode->getInitializer())->getSExtValue(); 3118*349cc55cSDimitry Andric if (ExecModeVal != OMP_TGT_EXEC_MODE_GENERIC) 3119*349cc55cSDimitry Andric return true; 3120*349cc55cSDimitry Andric 3121*349cc55cSDimitry Andric // We will now unconditionally modify the IR, indicate a change. 3122*349cc55cSDimitry Andric Changed = ChangeStatus::CHANGED; 3123*349cc55cSDimitry Andric 3124*349cc55cSDimitry Andric auto CreateGuardedRegion = [&](Instruction *RegionStartI, 3125*349cc55cSDimitry Andric Instruction *RegionEndI) { 3126*349cc55cSDimitry Andric LoopInfo *LI = nullptr; 3127*349cc55cSDimitry Andric DominatorTree *DT = nullptr; 3128*349cc55cSDimitry Andric MemorySSAUpdater *MSU = nullptr; 3129*349cc55cSDimitry Andric using InsertPointTy = OpenMPIRBuilder::InsertPointTy; 3130*349cc55cSDimitry Andric 3131*349cc55cSDimitry Andric BasicBlock *ParentBB = RegionStartI->getParent(); 3132*349cc55cSDimitry Andric Function *Fn = ParentBB->getParent(); 3133*349cc55cSDimitry Andric Module &M = *Fn->getParent(); 3134*349cc55cSDimitry Andric 3135*349cc55cSDimitry Andric // Create all the blocks and logic. 3136*349cc55cSDimitry Andric // ParentBB: 3137*349cc55cSDimitry Andric // goto RegionCheckTidBB 3138*349cc55cSDimitry Andric // RegionCheckTidBB: 3139*349cc55cSDimitry Andric // Tid = __kmpc_hardware_thread_id() 3140*349cc55cSDimitry Andric // if (Tid != 0) 3141*349cc55cSDimitry Andric // goto RegionBarrierBB 3142*349cc55cSDimitry Andric // RegionStartBB: 3143*349cc55cSDimitry Andric // <execute instructions guarded> 3144*349cc55cSDimitry Andric // goto RegionEndBB 3145*349cc55cSDimitry Andric // RegionEndBB: 3146*349cc55cSDimitry Andric // <store escaping values to shared mem> 3147*349cc55cSDimitry Andric // goto RegionBarrierBB 3148*349cc55cSDimitry Andric // RegionBarrierBB: 3149*349cc55cSDimitry Andric // __kmpc_simple_barrier_spmd() 3150*349cc55cSDimitry Andric // // second barrier is omitted if lacking escaping values. 3151*349cc55cSDimitry Andric // <load escaping values from shared mem> 3152*349cc55cSDimitry Andric // __kmpc_simple_barrier_spmd() 3153*349cc55cSDimitry Andric // goto RegionExitBB 3154*349cc55cSDimitry Andric // RegionExitBB: 3155*349cc55cSDimitry Andric // <execute rest of instructions> 3156*349cc55cSDimitry Andric 3157*349cc55cSDimitry Andric BasicBlock *RegionEndBB = SplitBlock(ParentBB, RegionEndI->getNextNode(), 3158*349cc55cSDimitry Andric DT, LI, MSU, "region.guarded.end"); 3159*349cc55cSDimitry Andric BasicBlock *RegionBarrierBB = 3160*349cc55cSDimitry Andric SplitBlock(RegionEndBB, &*RegionEndBB->getFirstInsertionPt(), DT, LI, 3161*349cc55cSDimitry Andric MSU, "region.barrier"); 3162*349cc55cSDimitry Andric BasicBlock *RegionExitBB = 3163*349cc55cSDimitry Andric SplitBlock(RegionBarrierBB, &*RegionBarrierBB->getFirstInsertionPt(), 3164*349cc55cSDimitry Andric DT, LI, MSU, "region.exit"); 3165*349cc55cSDimitry Andric BasicBlock *RegionStartBB = 3166*349cc55cSDimitry Andric SplitBlock(ParentBB, RegionStartI, DT, LI, MSU, "region.guarded"); 3167*349cc55cSDimitry Andric 3168*349cc55cSDimitry Andric assert(ParentBB->getUniqueSuccessor() == RegionStartBB && 3169*349cc55cSDimitry Andric "Expected a different CFG"); 3170*349cc55cSDimitry Andric 3171*349cc55cSDimitry Andric BasicBlock *RegionCheckTidBB = SplitBlock( 3172*349cc55cSDimitry Andric ParentBB, ParentBB->getTerminator(), DT, LI, MSU, "region.check.tid"); 3173*349cc55cSDimitry Andric 3174*349cc55cSDimitry Andric // Register basic blocks with the Attributor. 3175*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*RegionEndBB); 3176*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*RegionBarrierBB); 3177*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*RegionExitBB); 3178*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*RegionStartBB); 3179*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*RegionCheckTidBB); 3180*349cc55cSDimitry Andric 3181*349cc55cSDimitry Andric bool HasBroadcastValues = false; 3182*349cc55cSDimitry Andric // Find escaping outputs from the guarded region to outside users and 3183*349cc55cSDimitry Andric // broadcast their values to them. 3184*349cc55cSDimitry Andric for (Instruction &I : *RegionStartBB) { 3185*349cc55cSDimitry Andric SmallPtrSet<Instruction *, 4> OutsideUsers; 3186*349cc55cSDimitry Andric for (User *Usr : I.users()) { 3187*349cc55cSDimitry Andric Instruction &UsrI = *cast<Instruction>(Usr); 3188*349cc55cSDimitry Andric if (UsrI.getParent() != RegionStartBB) 3189*349cc55cSDimitry Andric OutsideUsers.insert(&UsrI); 3190*349cc55cSDimitry Andric } 3191*349cc55cSDimitry Andric 3192*349cc55cSDimitry Andric if (OutsideUsers.empty()) 3193*349cc55cSDimitry Andric continue; 3194*349cc55cSDimitry Andric 3195*349cc55cSDimitry Andric HasBroadcastValues = true; 3196*349cc55cSDimitry Andric 3197*349cc55cSDimitry Andric // Emit a global variable in shared memory to store the broadcasted 3198*349cc55cSDimitry Andric // value. 3199*349cc55cSDimitry Andric auto *SharedMem = new GlobalVariable( 3200*349cc55cSDimitry Andric M, I.getType(), /* IsConstant */ false, 3201*349cc55cSDimitry Andric GlobalValue::InternalLinkage, UndefValue::get(I.getType()), 3202*349cc55cSDimitry Andric sanitizeForGlobalName( 3203*349cc55cSDimitry Andric (I.getName() + ".guarded.output.alloc").str()), 3204*349cc55cSDimitry Andric nullptr, GlobalValue::NotThreadLocal, 3205*349cc55cSDimitry Andric static_cast<unsigned>(AddressSpace::Shared)); 3206*349cc55cSDimitry Andric 3207*349cc55cSDimitry Andric // Emit a store instruction to update the value. 3208*349cc55cSDimitry Andric new StoreInst(&I, SharedMem, RegionEndBB->getTerminator()); 3209*349cc55cSDimitry Andric 3210*349cc55cSDimitry Andric LoadInst *LoadI = new LoadInst(I.getType(), SharedMem, 3211*349cc55cSDimitry Andric I.getName() + ".guarded.output.load", 3212*349cc55cSDimitry Andric RegionBarrierBB->getTerminator()); 3213*349cc55cSDimitry Andric 3214*349cc55cSDimitry Andric // Emit a load instruction and replace uses of the output value. 3215*349cc55cSDimitry Andric for (Instruction *UsrI : OutsideUsers) 3216*349cc55cSDimitry Andric UsrI->replaceUsesOfWith(&I, LoadI); 3217*349cc55cSDimitry Andric } 3218*349cc55cSDimitry Andric 3219*349cc55cSDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 3220*349cc55cSDimitry Andric 3221*349cc55cSDimitry Andric // Go to tid check BB in ParentBB. 3222*349cc55cSDimitry Andric const DebugLoc DL = ParentBB->getTerminator()->getDebugLoc(); 3223*349cc55cSDimitry Andric ParentBB->getTerminator()->eraseFromParent(); 3224*349cc55cSDimitry Andric OpenMPIRBuilder::LocationDescription Loc( 3225*349cc55cSDimitry Andric InsertPointTy(ParentBB, ParentBB->end()), DL); 3226*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.updateToLocation(Loc); 3227*349cc55cSDimitry Andric auto *SrcLocStr = OMPInfoCache.OMPBuilder.getOrCreateSrcLocStr(Loc); 3228*349cc55cSDimitry Andric Value *Ident = OMPInfoCache.OMPBuilder.getOrCreateIdent(SrcLocStr); 3229*349cc55cSDimitry Andric BranchInst::Create(RegionCheckTidBB, ParentBB)->setDebugLoc(DL); 3230*349cc55cSDimitry Andric 3231*349cc55cSDimitry Andric // Add check for Tid in RegionCheckTidBB 3232*349cc55cSDimitry Andric RegionCheckTidBB->getTerminator()->eraseFromParent(); 3233*349cc55cSDimitry Andric OpenMPIRBuilder::LocationDescription LocRegionCheckTid( 3234*349cc55cSDimitry Andric InsertPointTy(RegionCheckTidBB, RegionCheckTidBB->end()), DL); 3235*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.updateToLocation(LocRegionCheckTid); 3236*349cc55cSDimitry Andric FunctionCallee HardwareTidFn = 3237*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3238*349cc55cSDimitry Andric M, OMPRTL___kmpc_get_hardware_thread_id_in_block); 3239*349cc55cSDimitry Andric Value *Tid = 3240*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.Builder.CreateCall(HardwareTidFn, {}); 3241*349cc55cSDimitry Andric Value *TidCheck = OMPInfoCache.OMPBuilder.Builder.CreateIsNull(Tid); 3242*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.Builder 3243*349cc55cSDimitry Andric .CreateCondBr(TidCheck, RegionStartBB, RegionBarrierBB) 3244*349cc55cSDimitry Andric ->setDebugLoc(DL); 3245*349cc55cSDimitry Andric 3246*349cc55cSDimitry Andric // First barrier for synchronization, ensures main thread has updated 3247*349cc55cSDimitry Andric // values. 3248*349cc55cSDimitry Andric FunctionCallee BarrierFn = 3249*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3250*349cc55cSDimitry Andric M, OMPRTL___kmpc_barrier_simple_spmd); 3251*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.updateToLocation(InsertPointTy( 3252*349cc55cSDimitry Andric RegionBarrierBB, RegionBarrierBB->getFirstInsertionPt())); 3253*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.Builder.CreateCall(BarrierFn, {Ident, Tid}) 3254*349cc55cSDimitry Andric ->setDebugLoc(DL); 3255*349cc55cSDimitry Andric 3256*349cc55cSDimitry Andric // Second barrier ensures workers have read broadcast values. 3257*349cc55cSDimitry Andric if (HasBroadcastValues) 3258*349cc55cSDimitry Andric CallInst::Create(BarrierFn, {Ident, Tid}, "", 3259*349cc55cSDimitry Andric RegionBarrierBB->getTerminator()) 3260*349cc55cSDimitry Andric ->setDebugLoc(DL); 3261*349cc55cSDimitry Andric }; 3262*349cc55cSDimitry Andric 3263*349cc55cSDimitry Andric auto &AllocSharedRFI = OMPInfoCache.RFIs[OMPRTL___kmpc_alloc_shared]; 3264*349cc55cSDimitry Andric SmallPtrSet<BasicBlock *, 8> Visited; 3265*349cc55cSDimitry Andric for (Instruction *GuardedI : SPMDCompatibilityTracker) { 3266*349cc55cSDimitry Andric BasicBlock *BB = GuardedI->getParent(); 3267*349cc55cSDimitry Andric if (!Visited.insert(BB).second) 3268*349cc55cSDimitry Andric continue; 3269*349cc55cSDimitry Andric 3270*349cc55cSDimitry Andric SmallVector<std::pair<Instruction *, Instruction *>> Reorders; 3271*349cc55cSDimitry Andric Instruction *LastEffect = nullptr; 3272*349cc55cSDimitry Andric BasicBlock::reverse_iterator IP = BB->rbegin(), IPEnd = BB->rend(); 3273*349cc55cSDimitry Andric while (++IP != IPEnd) { 3274*349cc55cSDimitry Andric if (!IP->mayHaveSideEffects() && !IP->mayReadFromMemory()) 3275*349cc55cSDimitry Andric continue; 3276*349cc55cSDimitry Andric Instruction *I = &*IP; 3277*349cc55cSDimitry Andric if (OpenMPOpt::getCallIfRegularCall(*I, &AllocSharedRFI)) 3278*349cc55cSDimitry Andric continue; 3279*349cc55cSDimitry Andric if (!I->user_empty() || !SPMDCompatibilityTracker.contains(I)) { 3280*349cc55cSDimitry Andric LastEffect = nullptr; 3281*349cc55cSDimitry Andric continue; 3282*349cc55cSDimitry Andric } 3283*349cc55cSDimitry Andric if (LastEffect) 3284*349cc55cSDimitry Andric Reorders.push_back({I, LastEffect}); 3285*349cc55cSDimitry Andric LastEffect = &*IP; 3286*349cc55cSDimitry Andric } 3287*349cc55cSDimitry Andric for (auto &Reorder : Reorders) 3288*349cc55cSDimitry Andric Reorder.first->moveBefore(Reorder.second); 3289*349cc55cSDimitry Andric } 3290*349cc55cSDimitry Andric 3291*349cc55cSDimitry Andric SmallVector<std::pair<Instruction *, Instruction *>, 4> GuardedRegions; 3292*349cc55cSDimitry Andric 3293*349cc55cSDimitry Andric for (Instruction *GuardedI : SPMDCompatibilityTracker) { 3294*349cc55cSDimitry Andric BasicBlock *BB = GuardedI->getParent(); 3295*349cc55cSDimitry Andric auto *CalleeAA = A.lookupAAFor<AAKernelInfo>( 3296*349cc55cSDimitry Andric IRPosition::function(*GuardedI->getFunction()), nullptr, 3297*349cc55cSDimitry Andric DepClassTy::NONE); 3298*349cc55cSDimitry Andric assert(CalleeAA != nullptr && "Expected Callee AAKernelInfo"); 3299*349cc55cSDimitry Andric auto &CalleeAAFunction = *cast<AAKernelInfoFunction>(CalleeAA); 3300*349cc55cSDimitry Andric // Continue if instruction is already guarded. 3301*349cc55cSDimitry Andric if (CalleeAAFunction.getGuardedInstructions().contains(GuardedI)) 3302*349cc55cSDimitry Andric continue; 3303*349cc55cSDimitry Andric 3304*349cc55cSDimitry Andric Instruction *GuardedRegionStart = nullptr, *GuardedRegionEnd = nullptr; 3305*349cc55cSDimitry Andric for (Instruction &I : *BB) { 3306*349cc55cSDimitry Andric // If instruction I needs to be guarded update the guarded region 3307*349cc55cSDimitry Andric // bounds. 3308*349cc55cSDimitry Andric if (SPMDCompatibilityTracker.contains(&I)) { 3309*349cc55cSDimitry Andric CalleeAAFunction.getGuardedInstructions().insert(&I); 3310*349cc55cSDimitry Andric if (GuardedRegionStart) 3311*349cc55cSDimitry Andric GuardedRegionEnd = &I; 3312*349cc55cSDimitry Andric else 3313*349cc55cSDimitry Andric GuardedRegionStart = GuardedRegionEnd = &I; 3314*349cc55cSDimitry Andric 3315*349cc55cSDimitry Andric continue; 3316*349cc55cSDimitry Andric } 3317*349cc55cSDimitry Andric 3318*349cc55cSDimitry Andric // Instruction I does not need guarding, store 3319*349cc55cSDimitry Andric // any region found and reset bounds. 3320*349cc55cSDimitry Andric if (GuardedRegionStart) { 3321*349cc55cSDimitry Andric GuardedRegions.push_back( 3322*349cc55cSDimitry Andric std::make_pair(GuardedRegionStart, GuardedRegionEnd)); 3323*349cc55cSDimitry Andric GuardedRegionStart = nullptr; 3324*349cc55cSDimitry Andric GuardedRegionEnd = nullptr; 3325*349cc55cSDimitry Andric } 3326*349cc55cSDimitry Andric } 3327*349cc55cSDimitry Andric } 3328*349cc55cSDimitry Andric 3329*349cc55cSDimitry Andric for (auto &GR : GuardedRegions) 3330*349cc55cSDimitry Andric CreateGuardedRegion(GR.first, GR.second); 3331*349cc55cSDimitry Andric 3332*349cc55cSDimitry Andric // Adjust the global exec mode flag that tells the runtime what mode this 3333*349cc55cSDimitry Andric // kernel is executed in. 3334*349cc55cSDimitry Andric assert(ExecModeVal == OMP_TGT_EXEC_MODE_GENERIC && 3335*349cc55cSDimitry Andric "Initially non-SPMD kernel has SPMD exec mode!"); 3336fe6060f1SDimitry Andric ExecMode->setInitializer( 3337*349cc55cSDimitry Andric ConstantInt::get(ExecMode->getInitializer()->getType(), 3338*349cc55cSDimitry Andric ExecModeVal | OMP_TGT_EXEC_MODE_GENERIC_SPMD)); 3339fe6060f1SDimitry Andric 3340fe6060f1SDimitry Andric // Next rewrite the init and deinit calls to indicate we use SPMD-mode now. 3341*349cc55cSDimitry Andric const int InitModeArgNo = 1; 3342*349cc55cSDimitry Andric const int DeinitModeArgNo = 1; 3343fe6060f1SDimitry Andric const int InitUseStateMachineArgNo = 2; 3344fe6060f1SDimitry Andric const int InitRequiresFullRuntimeArgNo = 3; 3345fe6060f1SDimitry Andric const int DeinitRequiresFullRuntimeArgNo = 2; 3346fe6060f1SDimitry Andric 3347fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 3348*349cc55cSDimitry Andric A.changeUseAfterManifest( 3349*349cc55cSDimitry Andric KernelInitCB->getArgOperandUse(InitModeArgNo), 3350*349cc55cSDimitry Andric *ConstantInt::getSigned(IntegerType::getInt8Ty(Ctx), 3351*349cc55cSDimitry Andric OMP_TGT_EXEC_MODE_SPMD)); 3352fe6060f1SDimitry Andric A.changeUseAfterManifest( 3353fe6060f1SDimitry Andric KernelInitCB->getArgOperandUse(InitUseStateMachineArgNo), 3354fe6060f1SDimitry Andric *ConstantInt::getBool(Ctx, 0)); 3355fe6060f1SDimitry Andric A.changeUseAfterManifest( 3356*349cc55cSDimitry Andric KernelDeinitCB->getArgOperandUse(DeinitModeArgNo), 3357*349cc55cSDimitry Andric *ConstantInt::getSigned(IntegerType::getInt8Ty(Ctx), 3358*349cc55cSDimitry Andric OMP_TGT_EXEC_MODE_SPMD)); 3359fe6060f1SDimitry Andric A.changeUseAfterManifest( 3360fe6060f1SDimitry Andric KernelInitCB->getArgOperandUse(InitRequiresFullRuntimeArgNo), 3361fe6060f1SDimitry Andric *ConstantInt::getBool(Ctx, 0)); 3362fe6060f1SDimitry Andric A.changeUseAfterManifest( 3363fe6060f1SDimitry Andric KernelDeinitCB->getArgOperandUse(DeinitRequiresFullRuntimeArgNo), 3364fe6060f1SDimitry Andric *ConstantInt::getBool(Ctx, 0)); 3365fe6060f1SDimitry Andric 3366fe6060f1SDimitry Andric ++NumOpenMPTargetRegionKernelsSPMD; 3367fe6060f1SDimitry Andric 3368fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemark OR) { 3369fe6060f1SDimitry Andric return OR << "Transformed generic-mode kernel to SPMD-mode."; 3370fe6060f1SDimitry Andric }; 3371fe6060f1SDimitry Andric A.emitRemark<OptimizationRemark>(KernelInitCB, "OMP120", Remark); 3372fe6060f1SDimitry Andric return true; 3373fe6060f1SDimitry Andric }; 3374fe6060f1SDimitry Andric 3375fe6060f1SDimitry Andric ChangeStatus buildCustomStateMachine(Attributor &A) { 3376*349cc55cSDimitry Andric // If we have disabled state machine rewrites, don't make a custom one 3377*349cc55cSDimitry Andric if (DisableOpenMPOptStateMachineRewrite) 3378*349cc55cSDimitry Andric return ChangeStatus::UNCHANGED; 3379fe6060f1SDimitry Andric 3380*349cc55cSDimitry Andric // Don't rewrite the state machine if we are not in a valid state. 3381*349cc55cSDimitry Andric if (!ReachedKnownParallelRegions.isValidState()) 3382*349cc55cSDimitry Andric return ChangeStatus::UNCHANGED; 3383*349cc55cSDimitry Andric 3384*349cc55cSDimitry Andric const int InitModeArgNo = 1; 3385fe6060f1SDimitry Andric const int InitUseStateMachineArgNo = 2; 3386fe6060f1SDimitry Andric 3387fe6060f1SDimitry Andric // Check if the current configuration is non-SPMD and generic state machine. 3388fe6060f1SDimitry Andric // If we already have SPMD mode or a custom state machine we do not need to 3389fe6060f1SDimitry Andric // go any further. If it is anything but a constant something is weird and 3390fe6060f1SDimitry Andric // we give up. 3391fe6060f1SDimitry Andric ConstantInt *UseStateMachine = dyn_cast<ConstantInt>( 3392fe6060f1SDimitry Andric KernelInitCB->getArgOperand(InitUseStateMachineArgNo)); 3393*349cc55cSDimitry Andric ConstantInt *Mode = 3394*349cc55cSDimitry Andric dyn_cast<ConstantInt>(KernelInitCB->getArgOperand(InitModeArgNo)); 3395fe6060f1SDimitry Andric 3396fe6060f1SDimitry Andric // If we are stuck with generic mode, try to create a custom device (=GPU) 3397fe6060f1SDimitry Andric // state machine which is specialized for the parallel regions that are 3398fe6060f1SDimitry Andric // reachable by the kernel. 3399*349cc55cSDimitry Andric if (!UseStateMachine || UseStateMachine->isZero() || !Mode || 3400*349cc55cSDimitry Andric (Mode->getSExtValue() & OMP_TGT_EXEC_MODE_SPMD)) 3401fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 3402fe6060f1SDimitry Andric 3403fe6060f1SDimitry Andric // If not SPMD mode, indicate we use a custom state machine now. 3404fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 3405fe6060f1SDimitry Andric auto *FalseVal = ConstantInt::getBool(Ctx, 0); 3406fe6060f1SDimitry Andric A.changeUseAfterManifest( 3407fe6060f1SDimitry Andric KernelInitCB->getArgOperandUse(InitUseStateMachineArgNo), *FalseVal); 3408fe6060f1SDimitry Andric 3409fe6060f1SDimitry Andric // If we don't actually need a state machine we are done here. This can 3410fe6060f1SDimitry Andric // happen if there simply are no parallel regions. In the resulting kernel 3411fe6060f1SDimitry Andric // all worker threads will simply exit right away, leaving the main thread 3412fe6060f1SDimitry Andric // to do the work alone. 3413*349cc55cSDimitry Andric if (!mayContainParallelRegion()) { 3414fe6060f1SDimitry Andric ++NumOpenMPTargetRegionKernelsWithoutStateMachine; 3415fe6060f1SDimitry Andric 3416fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemark OR) { 3417fe6060f1SDimitry Andric return OR << "Removing unused state machine from generic-mode kernel."; 3418fe6060f1SDimitry Andric }; 3419fe6060f1SDimitry Andric A.emitRemark<OptimizationRemark>(KernelInitCB, "OMP130", Remark); 3420fe6060f1SDimitry Andric 3421fe6060f1SDimitry Andric return ChangeStatus::CHANGED; 3422fe6060f1SDimitry Andric } 3423fe6060f1SDimitry Andric 3424fe6060f1SDimitry Andric // Keep track in the statistics of our new shiny custom state machine. 3425fe6060f1SDimitry Andric if (ReachedUnknownParallelRegions.empty()) { 3426fe6060f1SDimitry Andric ++NumOpenMPTargetRegionKernelsCustomStateMachineWithoutFallback; 3427fe6060f1SDimitry Andric 3428fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemark OR) { 3429fe6060f1SDimitry Andric return OR << "Rewriting generic-mode kernel with a customized state " 3430fe6060f1SDimitry Andric "machine."; 3431fe6060f1SDimitry Andric }; 3432fe6060f1SDimitry Andric A.emitRemark<OptimizationRemark>(KernelInitCB, "OMP131", Remark); 3433fe6060f1SDimitry Andric } else { 3434fe6060f1SDimitry Andric ++NumOpenMPTargetRegionKernelsCustomStateMachineWithFallback; 3435fe6060f1SDimitry Andric 3436fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis OR) { 3437fe6060f1SDimitry Andric return OR << "Generic-mode kernel is executed with a customized state " 3438fe6060f1SDimitry Andric "machine that requires a fallback."; 3439fe6060f1SDimitry Andric }; 3440fe6060f1SDimitry Andric A.emitRemark<OptimizationRemarkAnalysis>(KernelInitCB, "OMP132", Remark); 3441fe6060f1SDimitry Andric 3442fe6060f1SDimitry Andric // Tell the user why we ended up with a fallback. 3443fe6060f1SDimitry Andric for (CallBase *UnknownParallelRegionCB : ReachedUnknownParallelRegions) { 3444fe6060f1SDimitry Andric if (!UnknownParallelRegionCB) 3445fe6060f1SDimitry Andric continue; 3446fe6060f1SDimitry Andric auto Remark = [&](OptimizationRemarkAnalysis ORA) { 3447fe6060f1SDimitry Andric return ORA << "Call may contain unknown parallel regions. Use " 3448fe6060f1SDimitry Andric << "`__attribute__((assume(\"omp_no_parallelism\")))` to " 3449fe6060f1SDimitry Andric "override."; 3450fe6060f1SDimitry Andric }; 3451fe6060f1SDimitry Andric A.emitRemark<OptimizationRemarkAnalysis>(UnknownParallelRegionCB, 3452fe6060f1SDimitry Andric "OMP133", Remark); 3453fe6060f1SDimitry Andric } 3454fe6060f1SDimitry Andric } 3455fe6060f1SDimitry Andric 3456fe6060f1SDimitry Andric // Create all the blocks: 3457fe6060f1SDimitry Andric // 3458fe6060f1SDimitry Andric // InitCB = __kmpc_target_init(...) 3459*349cc55cSDimitry Andric // BlockHwSize = 3460*349cc55cSDimitry Andric // __kmpc_get_hardware_num_threads_in_block(); 3461*349cc55cSDimitry Andric // WarpSize = __kmpc_get_warp_size(); 3462*349cc55cSDimitry Andric // BlockSize = BlockHwSize - WarpSize; 3463*349cc55cSDimitry Andric // if (InitCB >= BlockSize) return; 3464*349cc55cSDimitry Andric // IsWorkerCheckBB: bool IsWorker = InitCB >= 0; 3465fe6060f1SDimitry Andric // if (IsWorker) { 3466*349cc55cSDimitry Andric // SMBeginBB: __kmpc_barrier_simple_generic(...); 3467fe6060f1SDimitry Andric // void *WorkFn; 3468fe6060f1SDimitry Andric // bool Active = __kmpc_kernel_parallel(&WorkFn); 3469fe6060f1SDimitry Andric // if (!WorkFn) return; 3470fe6060f1SDimitry Andric // SMIsActiveCheckBB: if (Active) { 3471fe6060f1SDimitry Andric // SMIfCascadeCurrentBB: if (WorkFn == <ParFn0>) 3472fe6060f1SDimitry Andric // ParFn0(...); 3473fe6060f1SDimitry Andric // SMIfCascadeCurrentBB: else if (WorkFn == <ParFn1>) 3474fe6060f1SDimitry Andric // ParFn1(...); 3475fe6060f1SDimitry Andric // ... 3476fe6060f1SDimitry Andric // SMIfCascadeCurrentBB: else 3477fe6060f1SDimitry Andric // ((WorkFnTy*)WorkFn)(...); 3478fe6060f1SDimitry Andric // SMEndParallelBB: __kmpc_kernel_end_parallel(...); 3479fe6060f1SDimitry Andric // } 3480*349cc55cSDimitry Andric // SMDoneBB: __kmpc_barrier_simple_generic(...); 3481fe6060f1SDimitry Andric // goto SMBeginBB; 3482fe6060f1SDimitry Andric // } 3483fe6060f1SDimitry Andric // UserCodeEntryBB: // user code 3484fe6060f1SDimitry Andric // __kmpc_target_deinit(...) 3485fe6060f1SDimitry Andric // 3486fe6060f1SDimitry Andric Function *Kernel = getAssociatedFunction(); 3487fe6060f1SDimitry Andric assert(Kernel && "Expected an associated function!"); 3488fe6060f1SDimitry Andric 3489fe6060f1SDimitry Andric BasicBlock *InitBB = KernelInitCB->getParent(); 3490fe6060f1SDimitry Andric BasicBlock *UserCodeEntryBB = InitBB->splitBasicBlock( 3491fe6060f1SDimitry Andric KernelInitCB->getNextNode(), "thread.user_code.check"); 3492*349cc55cSDimitry Andric BasicBlock *IsWorkerCheckBB = 3493*349cc55cSDimitry Andric BasicBlock::Create(Ctx, "is_worker_check", Kernel, UserCodeEntryBB); 3494fe6060f1SDimitry Andric BasicBlock *StateMachineBeginBB = BasicBlock::Create( 3495fe6060f1SDimitry Andric Ctx, "worker_state_machine.begin", Kernel, UserCodeEntryBB); 3496fe6060f1SDimitry Andric BasicBlock *StateMachineFinishedBB = BasicBlock::Create( 3497fe6060f1SDimitry Andric Ctx, "worker_state_machine.finished", Kernel, UserCodeEntryBB); 3498fe6060f1SDimitry Andric BasicBlock *StateMachineIsActiveCheckBB = BasicBlock::Create( 3499fe6060f1SDimitry Andric Ctx, "worker_state_machine.is_active.check", Kernel, UserCodeEntryBB); 3500fe6060f1SDimitry Andric BasicBlock *StateMachineIfCascadeCurrentBB = 3501fe6060f1SDimitry Andric BasicBlock::Create(Ctx, "worker_state_machine.parallel_region.check", 3502fe6060f1SDimitry Andric Kernel, UserCodeEntryBB); 3503fe6060f1SDimitry Andric BasicBlock *StateMachineEndParallelBB = 3504fe6060f1SDimitry Andric BasicBlock::Create(Ctx, "worker_state_machine.parallel_region.end", 3505fe6060f1SDimitry Andric Kernel, UserCodeEntryBB); 3506fe6060f1SDimitry Andric BasicBlock *StateMachineDoneBarrierBB = BasicBlock::Create( 3507fe6060f1SDimitry Andric Ctx, "worker_state_machine.done.barrier", Kernel, UserCodeEntryBB); 3508fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*InitBB); 3509fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*UserCodeEntryBB); 3510*349cc55cSDimitry Andric A.registerManifestAddedBasicBlock(*IsWorkerCheckBB); 3511fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineBeginBB); 3512fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineFinishedBB); 3513fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineIsActiveCheckBB); 3514fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineIfCascadeCurrentBB); 3515fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineEndParallelBB); 3516fe6060f1SDimitry Andric A.registerManifestAddedBasicBlock(*StateMachineDoneBarrierBB); 3517fe6060f1SDimitry Andric 3518fe6060f1SDimitry Andric const DebugLoc &DLoc = KernelInitCB->getDebugLoc(); 3519fe6060f1SDimitry Andric ReturnInst::Create(Ctx, StateMachineFinishedBB)->setDebugLoc(DLoc); 3520fe6060f1SDimitry Andric InitBB->getTerminator()->eraseFromParent(); 3521*349cc55cSDimitry Andric 3522*349cc55cSDimitry Andric Module &M = *Kernel->getParent(); 3523*349cc55cSDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 3524*349cc55cSDimitry Andric FunctionCallee BlockHwSizeFn = 3525*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3526*349cc55cSDimitry Andric M, OMPRTL___kmpc_get_hardware_num_threads_in_block); 3527*349cc55cSDimitry Andric FunctionCallee WarpSizeFn = 3528*349cc55cSDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3529*349cc55cSDimitry Andric M, OMPRTL___kmpc_get_warp_size); 3530*349cc55cSDimitry Andric Instruction *BlockHwSize = 3531*349cc55cSDimitry Andric CallInst::Create(BlockHwSizeFn, "block.hw_size", InitBB); 3532*349cc55cSDimitry Andric BlockHwSize->setDebugLoc(DLoc); 3533*349cc55cSDimitry Andric Instruction *WarpSize = CallInst::Create(WarpSizeFn, "warp.size", InitBB); 3534*349cc55cSDimitry Andric WarpSize->setDebugLoc(DLoc); 3535*349cc55cSDimitry Andric Instruction *BlockSize = 3536*349cc55cSDimitry Andric BinaryOperator::CreateSub(BlockHwSize, WarpSize, "block.size", InitBB); 3537*349cc55cSDimitry Andric BlockSize->setDebugLoc(DLoc); 3538*349cc55cSDimitry Andric Instruction *IsMainOrWorker = 3539*349cc55cSDimitry Andric ICmpInst::Create(ICmpInst::ICmp, llvm::CmpInst::ICMP_SLT, KernelInitCB, 3540*349cc55cSDimitry Andric BlockSize, "thread.is_main_or_worker", InitBB); 3541*349cc55cSDimitry Andric IsMainOrWorker->setDebugLoc(DLoc); 3542*349cc55cSDimitry Andric BranchInst::Create(IsWorkerCheckBB, StateMachineFinishedBB, IsMainOrWorker, 3543*349cc55cSDimitry Andric InitBB); 3544*349cc55cSDimitry Andric 3545fe6060f1SDimitry Andric Instruction *IsWorker = 3546fe6060f1SDimitry Andric ICmpInst::Create(ICmpInst::ICmp, llvm::CmpInst::ICMP_NE, KernelInitCB, 3547fe6060f1SDimitry Andric ConstantInt::get(KernelInitCB->getType(), -1), 3548*349cc55cSDimitry Andric "thread.is_worker", IsWorkerCheckBB); 3549fe6060f1SDimitry Andric IsWorker->setDebugLoc(DLoc); 3550*349cc55cSDimitry Andric BranchInst::Create(StateMachineBeginBB, UserCodeEntryBB, IsWorker, 3551*349cc55cSDimitry Andric IsWorkerCheckBB); 35528c6f6c0cSDimitry Andric 3553fe6060f1SDimitry Andric // Create local storage for the work function pointer. 35548c6f6c0cSDimitry Andric const DataLayout &DL = M.getDataLayout(); 3555fe6060f1SDimitry Andric Type *VoidPtrTy = Type::getInt8PtrTy(Ctx); 35568c6f6c0cSDimitry Andric Instruction *WorkFnAI = 35578c6f6c0cSDimitry Andric new AllocaInst(VoidPtrTy, DL.getAllocaAddrSpace(), nullptr, 35588c6f6c0cSDimitry Andric "worker.work_fn.addr", &Kernel->getEntryBlock().front()); 3559fe6060f1SDimitry Andric WorkFnAI->setDebugLoc(DLoc); 3560fe6060f1SDimitry Andric 3561fe6060f1SDimitry Andric OMPInfoCache.OMPBuilder.updateToLocation( 3562fe6060f1SDimitry Andric OpenMPIRBuilder::LocationDescription( 3563fe6060f1SDimitry Andric IRBuilder<>::InsertPoint(StateMachineBeginBB, 3564fe6060f1SDimitry Andric StateMachineBeginBB->end()), 3565fe6060f1SDimitry Andric DLoc)); 3566fe6060f1SDimitry Andric 3567fe6060f1SDimitry Andric Value *Ident = KernelInitCB->getArgOperand(0); 3568fe6060f1SDimitry Andric Value *GTid = KernelInitCB; 3569fe6060f1SDimitry Andric 3570fe6060f1SDimitry Andric FunctionCallee BarrierFn = 3571fe6060f1SDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3572*349cc55cSDimitry Andric M, OMPRTL___kmpc_barrier_simple_generic); 3573fe6060f1SDimitry Andric CallInst::Create(BarrierFn, {Ident, GTid}, "", StateMachineBeginBB) 3574fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3575fe6060f1SDimitry Andric 35768c6f6c0cSDimitry Andric if (WorkFnAI->getType()->getPointerAddressSpace() != 35778c6f6c0cSDimitry Andric (unsigned int)AddressSpace::Generic) { 35788c6f6c0cSDimitry Andric WorkFnAI = new AddrSpaceCastInst( 35798c6f6c0cSDimitry Andric WorkFnAI, 35808c6f6c0cSDimitry Andric PointerType::getWithSamePointeeType( 35818c6f6c0cSDimitry Andric cast<PointerType>(WorkFnAI->getType()), 35828c6f6c0cSDimitry Andric (unsigned int)AddressSpace::Generic), 35838c6f6c0cSDimitry Andric WorkFnAI->getName() + ".generic", StateMachineBeginBB); 35848c6f6c0cSDimitry Andric WorkFnAI->setDebugLoc(DLoc); 35858c6f6c0cSDimitry Andric } 35868c6f6c0cSDimitry Andric 3587fe6060f1SDimitry Andric FunctionCallee KernelParallelFn = 3588fe6060f1SDimitry Andric OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3589fe6060f1SDimitry Andric M, OMPRTL___kmpc_kernel_parallel); 3590fe6060f1SDimitry Andric Instruction *IsActiveWorker = CallInst::Create( 3591fe6060f1SDimitry Andric KernelParallelFn, {WorkFnAI}, "worker.is_active", StateMachineBeginBB); 3592fe6060f1SDimitry Andric IsActiveWorker->setDebugLoc(DLoc); 3593fe6060f1SDimitry Andric Instruction *WorkFn = new LoadInst(VoidPtrTy, WorkFnAI, "worker.work_fn", 3594fe6060f1SDimitry Andric StateMachineBeginBB); 3595fe6060f1SDimitry Andric WorkFn->setDebugLoc(DLoc); 3596fe6060f1SDimitry Andric 3597fe6060f1SDimitry Andric FunctionType *ParallelRegionFnTy = FunctionType::get( 3598fe6060f1SDimitry Andric Type::getVoidTy(Ctx), {Type::getInt16Ty(Ctx), Type::getInt32Ty(Ctx)}, 3599fe6060f1SDimitry Andric false); 3600fe6060f1SDimitry Andric Value *WorkFnCast = BitCastInst::CreatePointerBitCastOrAddrSpaceCast( 3601fe6060f1SDimitry Andric WorkFn, ParallelRegionFnTy->getPointerTo(), "worker.work_fn.addr_cast", 3602fe6060f1SDimitry Andric StateMachineBeginBB); 3603fe6060f1SDimitry Andric 3604fe6060f1SDimitry Andric Instruction *IsDone = 3605fe6060f1SDimitry Andric ICmpInst::Create(ICmpInst::ICmp, llvm::CmpInst::ICMP_EQ, WorkFn, 3606fe6060f1SDimitry Andric Constant::getNullValue(VoidPtrTy), "worker.is_done", 3607fe6060f1SDimitry Andric StateMachineBeginBB); 3608fe6060f1SDimitry Andric IsDone->setDebugLoc(DLoc); 3609fe6060f1SDimitry Andric BranchInst::Create(StateMachineFinishedBB, StateMachineIsActiveCheckBB, 3610fe6060f1SDimitry Andric IsDone, StateMachineBeginBB) 3611fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3612fe6060f1SDimitry Andric 3613fe6060f1SDimitry Andric BranchInst::Create(StateMachineIfCascadeCurrentBB, 3614fe6060f1SDimitry Andric StateMachineDoneBarrierBB, IsActiveWorker, 3615fe6060f1SDimitry Andric StateMachineIsActiveCheckBB) 3616fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3617fe6060f1SDimitry Andric 3618fe6060f1SDimitry Andric Value *ZeroArg = 3619fe6060f1SDimitry Andric Constant::getNullValue(ParallelRegionFnTy->getParamType(0)); 3620fe6060f1SDimitry Andric 3621fe6060f1SDimitry Andric // Now that we have most of the CFG skeleton it is time for the if-cascade 3622fe6060f1SDimitry Andric // that checks the function pointer we got from the runtime against the 3623fe6060f1SDimitry Andric // parallel regions we expect, if there are any. 3624*349cc55cSDimitry Andric for (int I = 0, E = ReachedKnownParallelRegions.size(); I < E; ++I) { 3625*349cc55cSDimitry Andric auto *ParallelRegion = ReachedKnownParallelRegions[I]; 3626fe6060f1SDimitry Andric BasicBlock *PRExecuteBB = BasicBlock::Create( 3627fe6060f1SDimitry Andric Ctx, "worker_state_machine.parallel_region.execute", Kernel, 3628fe6060f1SDimitry Andric StateMachineEndParallelBB); 3629fe6060f1SDimitry Andric CallInst::Create(ParallelRegion, {ZeroArg, GTid}, "", PRExecuteBB) 3630fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3631fe6060f1SDimitry Andric BranchInst::Create(StateMachineEndParallelBB, PRExecuteBB) 3632fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3633fe6060f1SDimitry Andric 3634fe6060f1SDimitry Andric BasicBlock *PRNextBB = 3635fe6060f1SDimitry Andric BasicBlock::Create(Ctx, "worker_state_machine.parallel_region.check", 3636fe6060f1SDimitry Andric Kernel, StateMachineEndParallelBB); 3637fe6060f1SDimitry Andric 3638fe6060f1SDimitry Andric // Check if we need to compare the pointer at all or if we can just 3639fe6060f1SDimitry Andric // call the parallel region function. 3640fe6060f1SDimitry Andric Value *IsPR; 3641*349cc55cSDimitry Andric if (I + 1 < E || !ReachedUnknownParallelRegions.empty()) { 3642fe6060f1SDimitry Andric Instruction *CmpI = ICmpInst::Create( 3643fe6060f1SDimitry Andric ICmpInst::ICmp, llvm::CmpInst::ICMP_EQ, WorkFnCast, ParallelRegion, 3644fe6060f1SDimitry Andric "worker.check_parallel_region", StateMachineIfCascadeCurrentBB); 3645fe6060f1SDimitry Andric CmpI->setDebugLoc(DLoc); 3646fe6060f1SDimitry Andric IsPR = CmpI; 3647fe6060f1SDimitry Andric } else { 3648fe6060f1SDimitry Andric IsPR = ConstantInt::getTrue(Ctx); 3649fe6060f1SDimitry Andric } 3650fe6060f1SDimitry Andric 3651fe6060f1SDimitry Andric BranchInst::Create(PRExecuteBB, PRNextBB, IsPR, 3652fe6060f1SDimitry Andric StateMachineIfCascadeCurrentBB) 3653fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3654fe6060f1SDimitry Andric StateMachineIfCascadeCurrentBB = PRNextBB; 3655fe6060f1SDimitry Andric } 3656fe6060f1SDimitry Andric 3657fe6060f1SDimitry Andric // At the end of the if-cascade we place the indirect function pointer call 3658fe6060f1SDimitry Andric // in case we might need it, that is if there can be parallel regions we 3659fe6060f1SDimitry Andric // have not handled in the if-cascade above. 3660fe6060f1SDimitry Andric if (!ReachedUnknownParallelRegions.empty()) { 3661fe6060f1SDimitry Andric StateMachineIfCascadeCurrentBB->setName( 3662fe6060f1SDimitry Andric "worker_state_machine.parallel_region.fallback.execute"); 3663fe6060f1SDimitry Andric CallInst::Create(ParallelRegionFnTy, WorkFnCast, {ZeroArg, GTid}, "", 3664fe6060f1SDimitry Andric StateMachineIfCascadeCurrentBB) 3665fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3666fe6060f1SDimitry Andric } 3667fe6060f1SDimitry Andric BranchInst::Create(StateMachineEndParallelBB, 3668fe6060f1SDimitry Andric StateMachineIfCascadeCurrentBB) 3669fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3670fe6060f1SDimitry Andric 3671fe6060f1SDimitry Andric CallInst::Create(OMPInfoCache.OMPBuilder.getOrCreateRuntimeFunction( 3672fe6060f1SDimitry Andric M, OMPRTL___kmpc_kernel_end_parallel), 3673fe6060f1SDimitry Andric {}, "", StateMachineEndParallelBB) 3674fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3675fe6060f1SDimitry Andric BranchInst::Create(StateMachineDoneBarrierBB, StateMachineEndParallelBB) 3676fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3677fe6060f1SDimitry Andric 3678fe6060f1SDimitry Andric CallInst::Create(BarrierFn, {Ident, GTid}, "", StateMachineDoneBarrierBB) 3679fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3680fe6060f1SDimitry Andric BranchInst::Create(StateMachineBeginBB, StateMachineDoneBarrierBB) 3681fe6060f1SDimitry Andric ->setDebugLoc(DLoc); 3682fe6060f1SDimitry Andric 3683fe6060f1SDimitry Andric return ChangeStatus::CHANGED; 3684fe6060f1SDimitry Andric } 3685fe6060f1SDimitry Andric 3686fe6060f1SDimitry Andric /// Fixpoint iteration update function. Will be called every time a dependence 3687fe6060f1SDimitry Andric /// changed its state (and in the beginning). 3688fe6060f1SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 3689fe6060f1SDimitry Andric KernelInfoState StateBefore = getState(); 3690fe6060f1SDimitry Andric 3691fe6060f1SDimitry Andric // Callback to check a read/write instruction. 3692fe6060f1SDimitry Andric auto CheckRWInst = [&](Instruction &I) { 3693fe6060f1SDimitry Andric // We handle calls later. 3694fe6060f1SDimitry Andric if (isa<CallBase>(I)) 3695fe6060f1SDimitry Andric return true; 3696fe6060f1SDimitry Andric // We only care about write effects. 3697fe6060f1SDimitry Andric if (!I.mayWriteToMemory()) 3698fe6060f1SDimitry Andric return true; 3699fe6060f1SDimitry Andric if (auto *SI = dyn_cast<StoreInst>(&I)) { 3700fe6060f1SDimitry Andric SmallVector<const Value *> Objects; 3701fe6060f1SDimitry Andric getUnderlyingObjects(SI->getPointerOperand(), Objects); 3702fe6060f1SDimitry Andric if (llvm::all_of(Objects, 3703fe6060f1SDimitry Andric [](const Value *Obj) { return isa<AllocaInst>(Obj); })) 3704fe6060f1SDimitry Andric return true; 3705*349cc55cSDimitry Andric // Check for AAHeapToStack moved objects which must not be guarded. 3706*349cc55cSDimitry Andric auto &HS = A.getAAFor<AAHeapToStack>( 3707*349cc55cSDimitry Andric *this, IRPosition::function(*I.getFunction()), 3708*349cc55cSDimitry Andric DepClassTy::OPTIONAL); 3709*349cc55cSDimitry Andric if (llvm::all_of(Objects, [&HS](const Value *Obj) { 3710*349cc55cSDimitry Andric auto *CB = dyn_cast<CallBase>(Obj); 3711*349cc55cSDimitry Andric if (!CB) 3712*349cc55cSDimitry Andric return false; 3713*349cc55cSDimitry Andric return HS.isAssumedHeapToStack(*CB); 3714*349cc55cSDimitry Andric })) { 3715*349cc55cSDimitry Andric return true; 3716fe6060f1SDimitry Andric } 3717*349cc55cSDimitry Andric } 3718*349cc55cSDimitry Andric 3719*349cc55cSDimitry Andric // Insert instruction that needs guarding. 3720fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&I); 3721fe6060f1SDimitry Andric return true; 3722fe6060f1SDimitry Andric }; 3723fe6060f1SDimitry Andric 3724fe6060f1SDimitry Andric bool UsedAssumedInformationInCheckRWInst = false; 3725fe6060f1SDimitry Andric if (!SPMDCompatibilityTracker.isAtFixpoint()) 3726fe6060f1SDimitry Andric if (!A.checkForAllReadWriteInstructions( 3727fe6060f1SDimitry Andric CheckRWInst, *this, UsedAssumedInformationInCheckRWInst)) 3728fe6060f1SDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3729fe6060f1SDimitry Andric 3730fe6060f1SDimitry Andric if (!IsKernelEntry) { 3731fe6060f1SDimitry Andric updateReachingKernelEntries(A); 3732fe6060f1SDimitry Andric updateParallelLevels(A); 3733*349cc55cSDimitry Andric 3734*349cc55cSDimitry Andric if (!ParallelLevels.isValidState()) 3735*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3736fe6060f1SDimitry Andric } 3737fe6060f1SDimitry Andric 3738fe6060f1SDimitry Andric // Callback to check a call instruction. 3739*349cc55cSDimitry Andric bool AllParallelRegionStatesWereFixed = true; 3740fe6060f1SDimitry Andric bool AllSPMDStatesWereFixed = true; 3741fe6060f1SDimitry Andric auto CheckCallInst = [&](Instruction &I) { 3742fe6060f1SDimitry Andric auto &CB = cast<CallBase>(I); 3743fe6060f1SDimitry Andric auto &CBAA = A.getAAFor<AAKernelInfo>( 3744fe6060f1SDimitry Andric *this, IRPosition::callsite_function(CB), DepClassTy::OPTIONAL); 3745fe6060f1SDimitry Andric getState() ^= CBAA.getState(); 3746fe6060f1SDimitry Andric AllSPMDStatesWereFixed &= CBAA.SPMDCompatibilityTracker.isAtFixpoint(); 3747*349cc55cSDimitry Andric AllParallelRegionStatesWereFixed &= 3748*349cc55cSDimitry Andric CBAA.ReachedKnownParallelRegions.isAtFixpoint(); 3749*349cc55cSDimitry Andric AllParallelRegionStatesWereFixed &= 3750*349cc55cSDimitry Andric CBAA.ReachedUnknownParallelRegions.isAtFixpoint(); 3751fe6060f1SDimitry Andric return true; 3752fe6060f1SDimitry Andric }; 3753fe6060f1SDimitry Andric 3754fe6060f1SDimitry Andric bool UsedAssumedInformationInCheckCallInst = false; 3755fe6060f1SDimitry Andric if (!A.checkForAllCallLikeInstructions( 3756*349cc55cSDimitry Andric CheckCallInst, *this, UsedAssumedInformationInCheckCallInst)) { 3757*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG 3758*349cc55cSDimitry Andric << "Failed to visit all call-like instructions!\n";); 3759fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 3760*349cc55cSDimitry Andric } 3761*349cc55cSDimitry Andric 3762*349cc55cSDimitry Andric // If we haven't used any assumed information for the reached parallel 3763*349cc55cSDimitry Andric // region states we can fix it. 3764*349cc55cSDimitry Andric if (!UsedAssumedInformationInCheckCallInst && 3765*349cc55cSDimitry Andric AllParallelRegionStatesWereFixed) { 3766*349cc55cSDimitry Andric ReachedKnownParallelRegions.indicateOptimisticFixpoint(); 3767*349cc55cSDimitry Andric ReachedUnknownParallelRegions.indicateOptimisticFixpoint(); 3768*349cc55cSDimitry Andric } 3769*349cc55cSDimitry Andric 3770*349cc55cSDimitry Andric // If we are sure there are no parallel regions in the kernel we do not 3771*349cc55cSDimitry Andric // want SPMD mode. 3772*349cc55cSDimitry Andric if (IsKernelEntry && ReachedUnknownParallelRegions.isAtFixpoint() && 3773*349cc55cSDimitry Andric ReachedKnownParallelRegions.isAtFixpoint() && 3774*349cc55cSDimitry Andric ReachedUnknownParallelRegions.isValidState() && 3775*349cc55cSDimitry Andric ReachedKnownParallelRegions.isValidState() && 3776*349cc55cSDimitry Andric !mayContainParallelRegion()) 3777*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3778fe6060f1SDimitry Andric 3779fe6060f1SDimitry Andric // If we haven't used any assumed information for the SPMD state we can fix 3780fe6060f1SDimitry Andric // it. 3781fe6060f1SDimitry Andric if (!UsedAssumedInformationInCheckRWInst && 3782fe6060f1SDimitry Andric !UsedAssumedInformationInCheckCallInst && AllSPMDStatesWereFixed) 3783fe6060f1SDimitry Andric SPMDCompatibilityTracker.indicateOptimisticFixpoint(); 3784fe6060f1SDimitry Andric 3785fe6060f1SDimitry Andric return StateBefore == getState() ? ChangeStatus::UNCHANGED 3786fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 3787fe6060f1SDimitry Andric } 3788fe6060f1SDimitry Andric 3789fe6060f1SDimitry Andric private: 3790fe6060f1SDimitry Andric /// Update info regarding reaching kernels. 3791fe6060f1SDimitry Andric void updateReachingKernelEntries(Attributor &A) { 3792fe6060f1SDimitry Andric auto PredCallSite = [&](AbstractCallSite ACS) { 3793fe6060f1SDimitry Andric Function *Caller = ACS.getInstruction()->getFunction(); 3794fe6060f1SDimitry Andric 3795fe6060f1SDimitry Andric assert(Caller && "Caller is nullptr"); 3796fe6060f1SDimitry Andric 3797fe6060f1SDimitry Andric auto &CAA = A.getOrCreateAAFor<AAKernelInfo>( 3798fe6060f1SDimitry Andric IRPosition::function(*Caller), this, DepClassTy::REQUIRED); 3799fe6060f1SDimitry Andric if (CAA.ReachingKernelEntries.isValidState()) { 3800fe6060f1SDimitry Andric ReachingKernelEntries ^= CAA.ReachingKernelEntries; 3801fe6060f1SDimitry Andric return true; 3802fe6060f1SDimitry Andric } 3803fe6060f1SDimitry Andric 3804fe6060f1SDimitry Andric // We lost track of the caller of the associated function, any kernel 3805fe6060f1SDimitry Andric // could reach now. 3806fe6060f1SDimitry Andric ReachingKernelEntries.indicatePessimisticFixpoint(); 3807fe6060f1SDimitry Andric 3808fe6060f1SDimitry Andric return true; 3809fe6060f1SDimitry Andric }; 3810fe6060f1SDimitry Andric 3811fe6060f1SDimitry Andric bool AllCallSitesKnown; 3812fe6060f1SDimitry Andric if (!A.checkForAllCallSites(PredCallSite, *this, 3813fe6060f1SDimitry Andric true /* RequireAllCallSites */, 3814fe6060f1SDimitry Andric AllCallSitesKnown)) 3815fe6060f1SDimitry Andric ReachingKernelEntries.indicatePessimisticFixpoint(); 3816fe6060f1SDimitry Andric } 3817fe6060f1SDimitry Andric 3818fe6060f1SDimitry Andric /// Update info regarding parallel levels. 3819fe6060f1SDimitry Andric void updateParallelLevels(Attributor &A) { 3820fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 3821fe6060f1SDimitry Andric OMPInformationCache::RuntimeFunctionInfo &Parallel51RFI = 3822fe6060f1SDimitry Andric OMPInfoCache.RFIs[OMPRTL___kmpc_parallel_51]; 3823fe6060f1SDimitry Andric 3824fe6060f1SDimitry Andric auto PredCallSite = [&](AbstractCallSite ACS) { 3825fe6060f1SDimitry Andric Function *Caller = ACS.getInstruction()->getFunction(); 3826fe6060f1SDimitry Andric 3827fe6060f1SDimitry Andric assert(Caller && "Caller is nullptr"); 3828fe6060f1SDimitry Andric 3829fe6060f1SDimitry Andric auto &CAA = 3830fe6060f1SDimitry Andric A.getOrCreateAAFor<AAKernelInfo>(IRPosition::function(*Caller)); 3831fe6060f1SDimitry Andric if (CAA.ParallelLevels.isValidState()) { 3832fe6060f1SDimitry Andric // Any function that is called by `__kmpc_parallel_51` will not be 3833fe6060f1SDimitry Andric // folded as the parallel level in the function is updated. In order to 3834fe6060f1SDimitry Andric // get it right, all the analysis would depend on the implentation. That 3835fe6060f1SDimitry Andric // said, if in the future any change to the implementation, the analysis 3836fe6060f1SDimitry Andric // could be wrong. As a consequence, we are just conservative here. 3837fe6060f1SDimitry Andric if (Caller == Parallel51RFI.Declaration) { 3838fe6060f1SDimitry Andric ParallelLevels.indicatePessimisticFixpoint(); 3839fe6060f1SDimitry Andric return true; 3840fe6060f1SDimitry Andric } 3841fe6060f1SDimitry Andric 3842fe6060f1SDimitry Andric ParallelLevels ^= CAA.ParallelLevels; 3843fe6060f1SDimitry Andric 3844fe6060f1SDimitry Andric return true; 3845fe6060f1SDimitry Andric } 3846fe6060f1SDimitry Andric 3847fe6060f1SDimitry Andric // We lost track of the caller of the associated function, any kernel 3848fe6060f1SDimitry Andric // could reach now. 3849fe6060f1SDimitry Andric ParallelLevels.indicatePessimisticFixpoint(); 3850fe6060f1SDimitry Andric 3851fe6060f1SDimitry Andric return true; 3852fe6060f1SDimitry Andric }; 3853fe6060f1SDimitry Andric 3854fe6060f1SDimitry Andric bool AllCallSitesKnown = true; 3855fe6060f1SDimitry Andric if (!A.checkForAllCallSites(PredCallSite, *this, 3856fe6060f1SDimitry Andric true /* RequireAllCallSites */, 3857fe6060f1SDimitry Andric AllCallSitesKnown)) 3858fe6060f1SDimitry Andric ParallelLevels.indicatePessimisticFixpoint(); 3859fe6060f1SDimitry Andric } 3860fe6060f1SDimitry Andric }; 3861fe6060f1SDimitry Andric 3862fe6060f1SDimitry Andric /// The call site kernel info abstract attribute, basically, what can we say 3863fe6060f1SDimitry Andric /// about a call site with regards to the KernelInfoState. For now this simply 3864fe6060f1SDimitry Andric /// forwards the information from the callee. 3865fe6060f1SDimitry Andric struct AAKernelInfoCallSite : AAKernelInfo { 3866fe6060f1SDimitry Andric AAKernelInfoCallSite(const IRPosition &IRP, Attributor &A) 3867fe6060f1SDimitry Andric : AAKernelInfo(IRP, A) {} 3868fe6060f1SDimitry Andric 3869fe6060f1SDimitry Andric /// See AbstractAttribute::initialize(...). 3870fe6060f1SDimitry Andric void initialize(Attributor &A) override { 3871fe6060f1SDimitry Andric AAKernelInfo::initialize(A); 3872fe6060f1SDimitry Andric 3873fe6060f1SDimitry Andric CallBase &CB = cast<CallBase>(getAssociatedValue()); 3874fe6060f1SDimitry Andric Function *Callee = getAssociatedFunction(); 3875fe6060f1SDimitry Andric 3876*349cc55cSDimitry Andric auto &AssumptionAA = A.getAAFor<AAAssumptionInfo>( 3877*349cc55cSDimitry Andric *this, IRPosition::callsite_function(CB), DepClassTy::OPTIONAL); 3878fe6060f1SDimitry Andric 3879fe6060f1SDimitry Andric // Check for SPMD-mode assumptions. 3880*349cc55cSDimitry Andric if (AssumptionAA.hasAssumption("ompx_spmd_amenable")) { 3881fe6060f1SDimitry Andric SPMDCompatibilityTracker.indicateOptimisticFixpoint(); 3882*349cc55cSDimitry Andric indicateOptimisticFixpoint(); 3883*349cc55cSDimitry Andric } 3884fe6060f1SDimitry Andric 3885fe6060f1SDimitry Andric // First weed out calls we do not care about, that is readonly/readnone 3886fe6060f1SDimitry Andric // calls, intrinsics, and "no_openmp" calls. Neither of these can reach a 3887fe6060f1SDimitry Andric // parallel region or anything else we are looking for. 3888fe6060f1SDimitry Andric if (!CB.mayWriteToMemory() || isa<IntrinsicInst>(CB)) { 3889fe6060f1SDimitry Andric indicateOptimisticFixpoint(); 3890fe6060f1SDimitry Andric return; 3891fe6060f1SDimitry Andric } 3892fe6060f1SDimitry Andric 3893fe6060f1SDimitry Andric // Next we check if we know the callee. If it is a known OpenMP function 3894fe6060f1SDimitry Andric // we will handle them explicitly in the switch below. If it is not, we 3895fe6060f1SDimitry Andric // will use an AAKernelInfo object on the callee to gather information and 3896fe6060f1SDimitry Andric // merge that into the current state. The latter happens in the updateImpl. 3897fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 3898fe6060f1SDimitry Andric const auto &It = OMPInfoCache.RuntimeFunctionIDMap.find(Callee); 3899fe6060f1SDimitry Andric if (It == OMPInfoCache.RuntimeFunctionIDMap.end()) { 3900fe6060f1SDimitry Andric // Unknown caller or declarations are not analyzable, we give up. 3901fe6060f1SDimitry Andric if (!Callee || !A.isFunctionIPOAmendable(*Callee)) { 3902fe6060f1SDimitry Andric 3903fe6060f1SDimitry Andric // Unknown callees might contain parallel regions, except if they have 3904fe6060f1SDimitry Andric // an appropriate assumption attached. 3905*349cc55cSDimitry Andric if (!(AssumptionAA.hasAssumption("omp_no_openmp") || 3906*349cc55cSDimitry Andric AssumptionAA.hasAssumption("omp_no_parallelism"))) 3907fe6060f1SDimitry Andric ReachedUnknownParallelRegions.insert(&CB); 3908fe6060f1SDimitry Andric 3909fe6060f1SDimitry Andric // If SPMDCompatibilityTracker is not fixed, we need to give up on the 3910fe6060f1SDimitry Andric // idea we can run something unknown in SPMD-mode. 3911*349cc55cSDimitry Andric if (!SPMDCompatibilityTracker.isAtFixpoint()) { 3912*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3913fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 3914*349cc55cSDimitry Andric } 3915fe6060f1SDimitry Andric 3916fe6060f1SDimitry Andric // We have updated the state for this unknown call properly, there won't 3917fe6060f1SDimitry Andric // be any change so we indicate a fixpoint. 3918fe6060f1SDimitry Andric indicateOptimisticFixpoint(); 3919fe6060f1SDimitry Andric } 3920fe6060f1SDimitry Andric // If the callee is known and can be used in IPO, we will update the state 3921fe6060f1SDimitry Andric // based on the callee state in updateImpl. 3922fe6060f1SDimitry Andric return; 3923fe6060f1SDimitry Andric } 3924fe6060f1SDimitry Andric 3925fe6060f1SDimitry Andric const unsigned int WrapperFunctionArgNo = 6; 3926fe6060f1SDimitry Andric RuntimeFunction RF = It->getSecond(); 3927fe6060f1SDimitry Andric switch (RF) { 3928fe6060f1SDimitry Andric // All the functions we know are compatible with SPMD mode. 3929fe6060f1SDimitry Andric case OMPRTL___kmpc_is_spmd_exec_mode: 3930*349cc55cSDimitry Andric case OMPRTL___kmpc_distribute_static_fini: 3931fe6060f1SDimitry Andric case OMPRTL___kmpc_for_static_fini: 3932fe6060f1SDimitry Andric case OMPRTL___kmpc_global_thread_num: 3933fe6060f1SDimitry Andric case OMPRTL___kmpc_get_hardware_num_threads_in_block: 3934fe6060f1SDimitry Andric case OMPRTL___kmpc_get_hardware_num_blocks: 3935fe6060f1SDimitry Andric case OMPRTL___kmpc_single: 3936fe6060f1SDimitry Andric case OMPRTL___kmpc_end_single: 3937fe6060f1SDimitry Andric case OMPRTL___kmpc_master: 3938fe6060f1SDimitry Andric case OMPRTL___kmpc_end_master: 3939fe6060f1SDimitry Andric case OMPRTL___kmpc_barrier: 3940fe6060f1SDimitry Andric break; 3941*349cc55cSDimitry Andric case OMPRTL___kmpc_distribute_static_init_4: 3942*349cc55cSDimitry Andric case OMPRTL___kmpc_distribute_static_init_4u: 3943*349cc55cSDimitry Andric case OMPRTL___kmpc_distribute_static_init_8: 3944*349cc55cSDimitry Andric case OMPRTL___kmpc_distribute_static_init_8u: 3945fe6060f1SDimitry Andric case OMPRTL___kmpc_for_static_init_4: 3946fe6060f1SDimitry Andric case OMPRTL___kmpc_for_static_init_4u: 3947fe6060f1SDimitry Andric case OMPRTL___kmpc_for_static_init_8: 3948fe6060f1SDimitry Andric case OMPRTL___kmpc_for_static_init_8u: { 3949fe6060f1SDimitry Andric // Check the schedule and allow static schedule in SPMD mode. 3950fe6060f1SDimitry Andric unsigned ScheduleArgOpNo = 2; 3951fe6060f1SDimitry Andric auto *ScheduleTypeCI = 3952fe6060f1SDimitry Andric dyn_cast<ConstantInt>(CB.getArgOperand(ScheduleArgOpNo)); 3953fe6060f1SDimitry Andric unsigned ScheduleTypeVal = 3954fe6060f1SDimitry Andric ScheduleTypeCI ? ScheduleTypeCI->getZExtValue() : 0; 3955fe6060f1SDimitry Andric switch (OMPScheduleType(ScheduleTypeVal)) { 3956fe6060f1SDimitry Andric case OMPScheduleType::Static: 3957fe6060f1SDimitry Andric case OMPScheduleType::StaticChunked: 3958fe6060f1SDimitry Andric case OMPScheduleType::Distribute: 3959fe6060f1SDimitry Andric case OMPScheduleType::DistributeChunked: 3960fe6060f1SDimitry Andric break; 3961fe6060f1SDimitry Andric default: 3962*349cc55cSDimitry Andric SPMDCompatibilityTracker.indicatePessimisticFixpoint(); 3963fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 3964fe6060f1SDimitry Andric break; 3965fe6060f1SDimitry Andric }; 3966fe6060f1SDimitry Andric } break; 3967fe6060f1SDimitry Andric case OMPRTL___kmpc_target_init: 3968fe6060f1SDimitry Andric KernelInitCB = &CB; 3969fe6060f1SDimitry Andric break; 3970fe6060f1SDimitry Andric case OMPRTL___kmpc_target_deinit: 3971fe6060f1SDimitry Andric KernelDeinitCB = &CB; 3972fe6060f1SDimitry Andric break; 3973fe6060f1SDimitry Andric case OMPRTL___kmpc_parallel_51: 3974fe6060f1SDimitry Andric if (auto *ParallelRegion = dyn_cast<Function>( 3975fe6060f1SDimitry Andric CB.getArgOperand(WrapperFunctionArgNo)->stripPointerCasts())) { 3976fe6060f1SDimitry Andric ReachedKnownParallelRegions.insert(ParallelRegion); 3977fe6060f1SDimitry Andric break; 3978fe6060f1SDimitry Andric } 3979fe6060f1SDimitry Andric // The condition above should usually get the parallel region function 3980fe6060f1SDimitry Andric // pointer and record it. In the off chance it doesn't we assume the 3981fe6060f1SDimitry Andric // worst. 3982fe6060f1SDimitry Andric ReachedUnknownParallelRegions.insert(&CB); 3983fe6060f1SDimitry Andric break; 3984fe6060f1SDimitry Andric case OMPRTL___kmpc_omp_task: 3985fe6060f1SDimitry Andric // We do not look into tasks right now, just give up. 3986fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 3987fe6060f1SDimitry Andric ReachedUnknownParallelRegions.insert(&CB); 3988fe6060f1SDimitry Andric break; 3989fe6060f1SDimitry Andric case OMPRTL___kmpc_alloc_shared: 3990fe6060f1SDimitry Andric case OMPRTL___kmpc_free_shared: 3991fe6060f1SDimitry Andric // Return without setting a fixpoint, to be resolved in updateImpl. 3992fe6060f1SDimitry Andric return; 3993fe6060f1SDimitry Andric default: 3994fe6060f1SDimitry Andric // Unknown OpenMP runtime calls cannot be executed in SPMD-mode, 3995*349cc55cSDimitry Andric // generally. However, they do not hide parallel regions. 3996fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 3997fe6060f1SDimitry Andric break; 3998fe6060f1SDimitry Andric } 3999fe6060f1SDimitry Andric // All other OpenMP runtime calls will not reach parallel regions so they 4000fe6060f1SDimitry Andric // can be safely ignored for now. Since it is a known OpenMP runtime call we 4001fe6060f1SDimitry Andric // have now modeled all effects and there is no need for any update. 4002fe6060f1SDimitry Andric indicateOptimisticFixpoint(); 4003fe6060f1SDimitry Andric } 4004fe6060f1SDimitry Andric 4005fe6060f1SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 4006fe6060f1SDimitry Andric // TODO: Once we have call site specific value information we can provide 4007fe6060f1SDimitry Andric // call site specific liveness information and then it makes 4008fe6060f1SDimitry Andric // sense to specialize attributes for call sites arguments instead of 4009fe6060f1SDimitry Andric // redirecting requests to the callee argument. 4010fe6060f1SDimitry Andric Function *F = getAssociatedFunction(); 4011fe6060f1SDimitry Andric 4012fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 4013fe6060f1SDimitry Andric const auto &It = OMPInfoCache.RuntimeFunctionIDMap.find(F); 4014fe6060f1SDimitry Andric 4015fe6060f1SDimitry Andric // If F is not a runtime function, propagate the AAKernelInfo of the callee. 4016fe6060f1SDimitry Andric if (It == OMPInfoCache.RuntimeFunctionIDMap.end()) { 4017fe6060f1SDimitry Andric const IRPosition &FnPos = IRPosition::function(*F); 4018fe6060f1SDimitry Andric auto &FnAA = A.getAAFor<AAKernelInfo>(*this, FnPos, DepClassTy::REQUIRED); 4019fe6060f1SDimitry Andric if (getState() == FnAA.getState()) 4020fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 4021fe6060f1SDimitry Andric getState() = FnAA.getState(); 4022fe6060f1SDimitry Andric return ChangeStatus::CHANGED; 4023fe6060f1SDimitry Andric } 4024fe6060f1SDimitry Andric 4025fe6060f1SDimitry Andric // F is a runtime function that allocates or frees memory, check 4026fe6060f1SDimitry Andric // AAHeapToStack and AAHeapToShared. 4027fe6060f1SDimitry Andric KernelInfoState StateBefore = getState(); 4028fe6060f1SDimitry Andric assert((It->getSecond() == OMPRTL___kmpc_alloc_shared || 4029fe6060f1SDimitry Andric It->getSecond() == OMPRTL___kmpc_free_shared) && 4030fe6060f1SDimitry Andric "Expected a __kmpc_alloc_shared or __kmpc_free_shared runtime call"); 4031fe6060f1SDimitry Andric 4032fe6060f1SDimitry Andric CallBase &CB = cast<CallBase>(getAssociatedValue()); 4033fe6060f1SDimitry Andric 4034fe6060f1SDimitry Andric auto &HeapToStackAA = A.getAAFor<AAHeapToStack>( 4035fe6060f1SDimitry Andric *this, IRPosition::function(*CB.getCaller()), DepClassTy::OPTIONAL); 4036fe6060f1SDimitry Andric auto &HeapToSharedAA = A.getAAFor<AAHeapToShared>( 4037fe6060f1SDimitry Andric *this, IRPosition::function(*CB.getCaller()), DepClassTy::OPTIONAL); 4038fe6060f1SDimitry Andric 4039fe6060f1SDimitry Andric RuntimeFunction RF = It->getSecond(); 4040fe6060f1SDimitry Andric 4041fe6060f1SDimitry Andric switch (RF) { 4042fe6060f1SDimitry Andric // If neither HeapToStack nor HeapToShared assume the call is removed, 4043fe6060f1SDimitry Andric // assume SPMD incompatibility. 4044fe6060f1SDimitry Andric case OMPRTL___kmpc_alloc_shared: 4045fe6060f1SDimitry Andric if (!HeapToStackAA.isAssumedHeapToStack(CB) && 4046fe6060f1SDimitry Andric !HeapToSharedAA.isAssumedHeapToShared(CB)) 4047fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 4048fe6060f1SDimitry Andric break; 4049fe6060f1SDimitry Andric case OMPRTL___kmpc_free_shared: 4050fe6060f1SDimitry Andric if (!HeapToStackAA.isAssumedHeapToStackRemovedFree(CB) && 4051fe6060f1SDimitry Andric !HeapToSharedAA.isAssumedHeapToSharedRemovedFree(CB)) 4052fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 4053fe6060f1SDimitry Andric break; 4054fe6060f1SDimitry Andric default: 4055fe6060f1SDimitry Andric SPMDCompatibilityTracker.insert(&CB); 4056fe6060f1SDimitry Andric } 4057fe6060f1SDimitry Andric 4058fe6060f1SDimitry Andric return StateBefore == getState() ? ChangeStatus::UNCHANGED 4059fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 4060fe6060f1SDimitry Andric } 4061fe6060f1SDimitry Andric }; 4062fe6060f1SDimitry Andric 4063fe6060f1SDimitry Andric struct AAFoldRuntimeCall 4064fe6060f1SDimitry Andric : public StateWrapper<BooleanState, AbstractAttribute> { 4065fe6060f1SDimitry Andric using Base = StateWrapper<BooleanState, AbstractAttribute>; 4066fe6060f1SDimitry Andric 4067fe6060f1SDimitry Andric AAFoldRuntimeCall(const IRPosition &IRP, Attributor &A) : Base(IRP) {} 4068fe6060f1SDimitry Andric 4069fe6060f1SDimitry Andric /// Statistics are tracked as part of manifest for now. 4070fe6060f1SDimitry Andric void trackStatistics() const override {} 4071fe6060f1SDimitry Andric 4072fe6060f1SDimitry Andric /// Create an abstract attribute biew for the position \p IRP. 4073fe6060f1SDimitry Andric static AAFoldRuntimeCall &createForPosition(const IRPosition &IRP, 4074fe6060f1SDimitry Andric Attributor &A); 4075fe6060f1SDimitry Andric 4076fe6060f1SDimitry Andric /// See AbstractAttribute::getName() 4077fe6060f1SDimitry Andric const std::string getName() const override { return "AAFoldRuntimeCall"; } 4078fe6060f1SDimitry Andric 4079fe6060f1SDimitry Andric /// See AbstractAttribute::getIdAddr() 4080fe6060f1SDimitry Andric const char *getIdAddr() const override { return &ID; } 4081fe6060f1SDimitry Andric 4082fe6060f1SDimitry Andric /// This function should return true if the type of the \p AA is 4083fe6060f1SDimitry Andric /// AAFoldRuntimeCall 4084fe6060f1SDimitry Andric static bool classof(const AbstractAttribute *AA) { 4085fe6060f1SDimitry Andric return (AA->getIdAddr() == &ID); 4086fe6060f1SDimitry Andric } 4087fe6060f1SDimitry Andric 4088fe6060f1SDimitry Andric static const char ID; 4089fe6060f1SDimitry Andric }; 4090fe6060f1SDimitry Andric 4091fe6060f1SDimitry Andric struct AAFoldRuntimeCallCallSiteReturned : AAFoldRuntimeCall { 4092fe6060f1SDimitry Andric AAFoldRuntimeCallCallSiteReturned(const IRPosition &IRP, Attributor &A) 4093fe6060f1SDimitry Andric : AAFoldRuntimeCall(IRP, A) {} 4094fe6060f1SDimitry Andric 4095fe6060f1SDimitry Andric /// See AbstractAttribute::getAsStr() 4096fe6060f1SDimitry Andric const std::string getAsStr() const override { 4097fe6060f1SDimitry Andric if (!isValidState()) 4098fe6060f1SDimitry Andric return "<invalid>"; 4099fe6060f1SDimitry Andric 4100fe6060f1SDimitry Andric std::string Str("simplified value: "); 4101fe6060f1SDimitry Andric 4102fe6060f1SDimitry Andric if (!SimplifiedValue.hasValue()) 4103fe6060f1SDimitry Andric return Str + std::string("none"); 4104fe6060f1SDimitry Andric 4105fe6060f1SDimitry Andric if (!SimplifiedValue.getValue()) 4106fe6060f1SDimitry Andric return Str + std::string("nullptr"); 4107fe6060f1SDimitry Andric 4108fe6060f1SDimitry Andric if (ConstantInt *CI = dyn_cast<ConstantInt>(SimplifiedValue.getValue())) 4109fe6060f1SDimitry Andric return Str + std::to_string(CI->getSExtValue()); 4110fe6060f1SDimitry Andric 4111fe6060f1SDimitry Andric return Str + std::string("unknown"); 4112fe6060f1SDimitry Andric } 4113fe6060f1SDimitry Andric 4114fe6060f1SDimitry Andric void initialize(Attributor &A) override { 4115*349cc55cSDimitry Andric if (DisableOpenMPOptFolding) 4116*349cc55cSDimitry Andric indicatePessimisticFixpoint(); 4117*349cc55cSDimitry Andric 4118fe6060f1SDimitry Andric Function *Callee = getAssociatedFunction(); 4119fe6060f1SDimitry Andric 4120fe6060f1SDimitry Andric auto &OMPInfoCache = static_cast<OMPInformationCache &>(A.getInfoCache()); 4121fe6060f1SDimitry Andric const auto &It = OMPInfoCache.RuntimeFunctionIDMap.find(Callee); 4122fe6060f1SDimitry Andric assert(It != OMPInfoCache.RuntimeFunctionIDMap.end() && 4123fe6060f1SDimitry Andric "Expected a known OpenMP runtime function"); 4124fe6060f1SDimitry Andric 4125fe6060f1SDimitry Andric RFKind = It->getSecond(); 4126fe6060f1SDimitry Andric 4127fe6060f1SDimitry Andric CallBase &CB = cast<CallBase>(getAssociatedValue()); 4128fe6060f1SDimitry Andric A.registerSimplificationCallback( 4129fe6060f1SDimitry Andric IRPosition::callsite_returned(CB), 4130fe6060f1SDimitry Andric [&](const IRPosition &IRP, const AbstractAttribute *AA, 4131fe6060f1SDimitry Andric bool &UsedAssumedInformation) -> Optional<Value *> { 4132fe6060f1SDimitry Andric assert((isValidState() || (SimplifiedValue.hasValue() && 4133fe6060f1SDimitry Andric SimplifiedValue.getValue() == nullptr)) && 4134fe6060f1SDimitry Andric "Unexpected invalid state!"); 4135fe6060f1SDimitry Andric 4136fe6060f1SDimitry Andric if (!isAtFixpoint()) { 4137fe6060f1SDimitry Andric UsedAssumedInformation = true; 4138fe6060f1SDimitry Andric if (AA) 4139fe6060f1SDimitry Andric A.recordDependence(*this, *AA, DepClassTy::OPTIONAL); 4140fe6060f1SDimitry Andric } 4141fe6060f1SDimitry Andric return SimplifiedValue; 4142fe6060f1SDimitry Andric }); 4143fe6060f1SDimitry Andric } 4144fe6060f1SDimitry Andric 4145fe6060f1SDimitry Andric ChangeStatus updateImpl(Attributor &A) override { 4146fe6060f1SDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 4147fe6060f1SDimitry Andric switch (RFKind) { 4148fe6060f1SDimitry Andric case OMPRTL___kmpc_is_spmd_exec_mode: 4149fe6060f1SDimitry Andric Changed |= foldIsSPMDExecMode(A); 4150fe6060f1SDimitry Andric break; 4151fe6060f1SDimitry Andric case OMPRTL___kmpc_is_generic_main_thread_id: 4152fe6060f1SDimitry Andric Changed |= foldIsGenericMainThread(A); 4153fe6060f1SDimitry Andric break; 4154fe6060f1SDimitry Andric case OMPRTL___kmpc_parallel_level: 4155fe6060f1SDimitry Andric Changed |= foldParallelLevel(A); 4156fe6060f1SDimitry Andric break; 4157fe6060f1SDimitry Andric case OMPRTL___kmpc_get_hardware_num_threads_in_block: 4158fe6060f1SDimitry Andric Changed = Changed | foldKernelFnAttribute(A, "omp_target_thread_limit"); 4159fe6060f1SDimitry Andric break; 4160fe6060f1SDimitry Andric case OMPRTL___kmpc_get_hardware_num_blocks: 4161fe6060f1SDimitry Andric Changed = Changed | foldKernelFnAttribute(A, "omp_target_num_teams"); 4162fe6060f1SDimitry Andric break; 4163fe6060f1SDimitry Andric default: 4164fe6060f1SDimitry Andric llvm_unreachable("Unhandled OpenMP runtime function!"); 4165fe6060f1SDimitry Andric } 4166fe6060f1SDimitry Andric 4167fe6060f1SDimitry Andric return Changed; 4168fe6060f1SDimitry Andric } 4169fe6060f1SDimitry Andric 4170fe6060f1SDimitry Andric ChangeStatus manifest(Attributor &A) override { 4171fe6060f1SDimitry Andric ChangeStatus Changed = ChangeStatus::UNCHANGED; 4172fe6060f1SDimitry Andric 4173fe6060f1SDimitry Andric if (SimplifiedValue.hasValue() && SimplifiedValue.getValue()) { 4174*349cc55cSDimitry Andric Instruction &I = *getCtxI(); 4175*349cc55cSDimitry Andric A.changeValueAfterManifest(I, **SimplifiedValue); 4176*349cc55cSDimitry Andric A.deleteAfterManifest(I); 4177fe6060f1SDimitry Andric 4178*349cc55cSDimitry Andric CallBase *CB = dyn_cast<CallBase>(&I); 4179*349cc55cSDimitry Andric auto Remark = [&](OptimizationRemark OR) { 4180*349cc55cSDimitry Andric if (auto *C = dyn_cast<ConstantInt>(*SimplifiedValue)) 4181*349cc55cSDimitry Andric return OR << "Replacing OpenMP runtime call " 4182*349cc55cSDimitry Andric << CB->getCalledFunction()->getName() << " with " 4183*349cc55cSDimitry Andric << ore::NV("FoldedValue", C->getZExtValue()) << "."; 4184*349cc55cSDimitry Andric return OR << "Replacing OpenMP runtime call " 4185*349cc55cSDimitry Andric << CB->getCalledFunction()->getName() << "."; 4186*349cc55cSDimitry Andric }; 4187*349cc55cSDimitry Andric 4188*349cc55cSDimitry Andric if (CB && EnableVerboseRemarks) 4189*349cc55cSDimitry Andric A.emitRemark<OptimizationRemark>(CB, "OMP180", Remark); 4190*349cc55cSDimitry Andric 4191*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Replacing runtime call: " << I << " with " 4192fe6060f1SDimitry Andric << **SimplifiedValue << "\n"); 4193fe6060f1SDimitry Andric 4194fe6060f1SDimitry Andric Changed = ChangeStatus::CHANGED; 4195fe6060f1SDimitry Andric } 4196fe6060f1SDimitry Andric 4197fe6060f1SDimitry Andric return Changed; 4198fe6060f1SDimitry Andric } 4199fe6060f1SDimitry Andric 4200fe6060f1SDimitry Andric ChangeStatus indicatePessimisticFixpoint() override { 4201fe6060f1SDimitry Andric SimplifiedValue = nullptr; 4202fe6060f1SDimitry Andric return AAFoldRuntimeCall::indicatePessimisticFixpoint(); 4203fe6060f1SDimitry Andric } 4204fe6060f1SDimitry Andric 4205fe6060f1SDimitry Andric private: 4206fe6060f1SDimitry Andric /// Fold __kmpc_is_spmd_exec_mode into a constant if possible. 4207fe6060f1SDimitry Andric ChangeStatus foldIsSPMDExecMode(Attributor &A) { 4208fe6060f1SDimitry Andric Optional<Value *> SimplifiedValueBefore = SimplifiedValue; 4209fe6060f1SDimitry Andric 4210fe6060f1SDimitry Andric unsigned AssumedSPMDCount = 0, KnownSPMDCount = 0; 4211fe6060f1SDimitry Andric unsigned AssumedNonSPMDCount = 0, KnownNonSPMDCount = 0; 4212fe6060f1SDimitry Andric auto &CallerKernelInfoAA = A.getAAFor<AAKernelInfo>( 4213fe6060f1SDimitry Andric *this, IRPosition::function(*getAnchorScope()), DepClassTy::REQUIRED); 4214fe6060f1SDimitry Andric 4215fe6060f1SDimitry Andric if (!CallerKernelInfoAA.ReachingKernelEntries.isValidState()) 4216fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4217fe6060f1SDimitry Andric 4218fe6060f1SDimitry Andric for (Kernel K : CallerKernelInfoAA.ReachingKernelEntries) { 4219fe6060f1SDimitry Andric auto &AA = A.getAAFor<AAKernelInfo>(*this, IRPosition::function(*K), 4220fe6060f1SDimitry Andric DepClassTy::REQUIRED); 4221fe6060f1SDimitry Andric 4222fe6060f1SDimitry Andric if (!AA.isValidState()) { 4223fe6060f1SDimitry Andric SimplifiedValue = nullptr; 4224fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4225fe6060f1SDimitry Andric } 4226fe6060f1SDimitry Andric 4227fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAssumed()) { 4228fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAtFixpoint()) 4229fe6060f1SDimitry Andric ++KnownSPMDCount; 4230fe6060f1SDimitry Andric else 4231fe6060f1SDimitry Andric ++AssumedSPMDCount; 4232fe6060f1SDimitry Andric } else { 4233fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAtFixpoint()) 4234fe6060f1SDimitry Andric ++KnownNonSPMDCount; 4235fe6060f1SDimitry Andric else 4236fe6060f1SDimitry Andric ++AssumedNonSPMDCount; 4237fe6060f1SDimitry Andric } 4238fe6060f1SDimitry Andric } 4239fe6060f1SDimitry Andric 4240fe6060f1SDimitry Andric if ((AssumedSPMDCount + KnownSPMDCount) && 4241fe6060f1SDimitry Andric (AssumedNonSPMDCount + KnownNonSPMDCount)) 4242fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4243fe6060f1SDimitry Andric 4244fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 4245fe6060f1SDimitry Andric if (KnownSPMDCount || AssumedSPMDCount) { 4246fe6060f1SDimitry Andric assert(KnownNonSPMDCount == 0 && AssumedNonSPMDCount == 0 && 4247fe6060f1SDimitry Andric "Expected only SPMD kernels!"); 4248fe6060f1SDimitry Andric // All reaching kernels are in SPMD mode. Update all function calls to 4249fe6060f1SDimitry Andric // __kmpc_is_spmd_exec_mode to 1. 4250fe6060f1SDimitry Andric SimplifiedValue = ConstantInt::get(Type::getInt8Ty(Ctx), true); 4251fe6060f1SDimitry Andric } else if (KnownNonSPMDCount || AssumedNonSPMDCount) { 4252fe6060f1SDimitry Andric assert(KnownSPMDCount == 0 && AssumedSPMDCount == 0 && 4253fe6060f1SDimitry Andric "Expected only non-SPMD kernels!"); 4254fe6060f1SDimitry Andric // All reaching kernels are in non-SPMD mode. Update all function 4255fe6060f1SDimitry Andric // calls to __kmpc_is_spmd_exec_mode to 0. 4256fe6060f1SDimitry Andric SimplifiedValue = ConstantInt::get(Type::getInt8Ty(Ctx), false); 4257fe6060f1SDimitry Andric } else { 4258fe6060f1SDimitry Andric // We have empty reaching kernels, therefore we cannot tell if the 4259fe6060f1SDimitry Andric // associated call site can be folded. At this moment, SimplifiedValue 4260fe6060f1SDimitry Andric // must be none. 4261fe6060f1SDimitry Andric assert(!SimplifiedValue.hasValue() && "SimplifiedValue should be none"); 4262fe6060f1SDimitry Andric } 4263fe6060f1SDimitry Andric 4264fe6060f1SDimitry Andric return SimplifiedValue == SimplifiedValueBefore ? ChangeStatus::UNCHANGED 4265fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 4266fe6060f1SDimitry Andric } 4267fe6060f1SDimitry Andric 4268fe6060f1SDimitry Andric /// Fold __kmpc_is_generic_main_thread_id into a constant if possible. 4269fe6060f1SDimitry Andric ChangeStatus foldIsGenericMainThread(Attributor &A) { 4270fe6060f1SDimitry Andric Optional<Value *> SimplifiedValueBefore = SimplifiedValue; 4271fe6060f1SDimitry Andric 4272fe6060f1SDimitry Andric CallBase &CB = cast<CallBase>(getAssociatedValue()); 4273fe6060f1SDimitry Andric Function *F = CB.getFunction(); 4274fe6060f1SDimitry Andric const auto &ExecutionDomainAA = A.getAAFor<AAExecutionDomain>( 4275fe6060f1SDimitry Andric *this, IRPosition::function(*F), DepClassTy::REQUIRED); 4276fe6060f1SDimitry Andric 4277fe6060f1SDimitry Andric if (!ExecutionDomainAA.isValidState()) 4278fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4279fe6060f1SDimitry Andric 4280fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 4281fe6060f1SDimitry Andric if (ExecutionDomainAA.isExecutedByInitialThreadOnly(CB)) 4282fe6060f1SDimitry Andric SimplifiedValue = ConstantInt::get(Type::getInt8Ty(Ctx), true); 4283fe6060f1SDimitry Andric else 4284fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4285fe6060f1SDimitry Andric 4286fe6060f1SDimitry Andric return SimplifiedValue == SimplifiedValueBefore ? ChangeStatus::UNCHANGED 4287fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 4288fe6060f1SDimitry Andric } 4289fe6060f1SDimitry Andric 4290fe6060f1SDimitry Andric /// Fold __kmpc_parallel_level into a constant if possible. 4291fe6060f1SDimitry Andric ChangeStatus foldParallelLevel(Attributor &A) { 4292fe6060f1SDimitry Andric Optional<Value *> SimplifiedValueBefore = SimplifiedValue; 4293fe6060f1SDimitry Andric 4294fe6060f1SDimitry Andric auto &CallerKernelInfoAA = A.getAAFor<AAKernelInfo>( 4295fe6060f1SDimitry Andric *this, IRPosition::function(*getAnchorScope()), DepClassTy::REQUIRED); 4296fe6060f1SDimitry Andric 4297fe6060f1SDimitry Andric if (!CallerKernelInfoAA.ParallelLevels.isValidState()) 4298fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4299fe6060f1SDimitry Andric 4300fe6060f1SDimitry Andric if (!CallerKernelInfoAA.ReachingKernelEntries.isValidState()) 4301fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4302fe6060f1SDimitry Andric 4303fe6060f1SDimitry Andric if (CallerKernelInfoAA.ReachingKernelEntries.empty()) { 4304fe6060f1SDimitry Andric assert(!SimplifiedValue.hasValue() && 4305fe6060f1SDimitry Andric "SimplifiedValue should keep none at this point"); 4306fe6060f1SDimitry Andric return ChangeStatus::UNCHANGED; 4307fe6060f1SDimitry Andric } 4308fe6060f1SDimitry Andric 4309fe6060f1SDimitry Andric unsigned AssumedSPMDCount = 0, KnownSPMDCount = 0; 4310fe6060f1SDimitry Andric unsigned AssumedNonSPMDCount = 0, KnownNonSPMDCount = 0; 4311fe6060f1SDimitry Andric for (Kernel K : CallerKernelInfoAA.ReachingKernelEntries) { 4312fe6060f1SDimitry Andric auto &AA = A.getAAFor<AAKernelInfo>(*this, IRPosition::function(*K), 4313fe6060f1SDimitry Andric DepClassTy::REQUIRED); 4314fe6060f1SDimitry Andric if (!AA.SPMDCompatibilityTracker.isValidState()) 4315fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4316fe6060f1SDimitry Andric 4317fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAssumed()) { 4318fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAtFixpoint()) 4319fe6060f1SDimitry Andric ++KnownSPMDCount; 4320fe6060f1SDimitry Andric else 4321fe6060f1SDimitry Andric ++AssumedSPMDCount; 4322fe6060f1SDimitry Andric } else { 4323fe6060f1SDimitry Andric if (AA.SPMDCompatibilityTracker.isAtFixpoint()) 4324fe6060f1SDimitry Andric ++KnownNonSPMDCount; 4325fe6060f1SDimitry Andric else 4326fe6060f1SDimitry Andric ++AssumedNonSPMDCount; 4327fe6060f1SDimitry Andric } 4328fe6060f1SDimitry Andric } 4329fe6060f1SDimitry Andric 4330fe6060f1SDimitry Andric if ((AssumedSPMDCount + KnownSPMDCount) && 4331fe6060f1SDimitry Andric (AssumedNonSPMDCount + KnownNonSPMDCount)) 4332fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4333fe6060f1SDimitry Andric 4334fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 4335fe6060f1SDimitry Andric // If the caller can only be reached by SPMD kernel entries, the parallel 4336fe6060f1SDimitry Andric // level is 1. Similarly, if the caller can only be reached by non-SPMD 4337fe6060f1SDimitry Andric // kernel entries, it is 0. 4338fe6060f1SDimitry Andric if (AssumedSPMDCount || KnownSPMDCount) { 4339fe6060f1SDimitry Andric assert(KnownNonSPMDCount == 0 && AssumedNonSPMDCount == 0 && 4340fe6060f1SDimitry Andric "Expected only SPMD kernels!"); 4341fe6060f1SDimitry Andric SimplifiedValue = ConstantInt::get(Type::getInt8Ty(Ctx), 1); 4342fe6060f1SDimitry Andric } else { 4343fe6060f1SDimitry Andric assert(KnownSPMDCount == 0 && AssumedSPMDCount == 0 && 4344fe6060f1SDimitry Andric "Expected only non-SPMD kernels!"); 4345fe6060f1SDimitry Andric SimplifiedValue = ConstantInt::get(Type::getInt8Ty(Ctx), 0); 4346fe6060f1SDimitry Andric } 4347fe6060f1SDimitry Andric return SimplifiedValue == SimplifiedValueBefore ? ChangeStatus::UNCHANGED 4348fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 4349fe6060f1SDimitry Andric } 4350fe6060f1SDimitry Andric 4351fe6060f1SDimitry Andric ChangeStatus foldKernelFnAttribute(Attributor &A, llvm::StringRef Attr) { 4352fe6060f1SDimitry Andric // Specialize only if all the calls agree with the attribute constant value 4353fe6060f1SDimitry Andric int32_t CurrentAttrValue = -1; 4354fe6060f1SDimitry Andric Optional<Value *> SimplifiedValueBefore = SimplifiedValue; 4355fe6060f1SDimitry Andric 4356fe6060f1SDimitry Andric auto &CallerKernelInfoAA = A.getAAFor<AAKernelInfo>( 4357fe6060f1SDimitry Andric *this, IRPosition::function(*getAnchorScope()), DepClassTy::REQUIRED); 4358fe6060f1SDimitry Andric 4359fe6060f1SDimitry Andric if (!CallerKernelInfoAA.ReachingKernelEntries.isValidState()) 4360fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4361fe6060f1SDimitry Andric 4362fe6060f1SDimitry Andric // Iterate over the kernels that reach this function 4363fe6060f1SDimitry Andric for (Kernel K : CallerKernelInfoAA.ReachingKernelEntries) { 4364fe6060f1SDimitry Andric int32_t NextAttrVal = -1; 4365fe6060f1SDimitry Andric if (K->hasFnAttribute(Attr)) 4366fe6060f1SDimitry Andric NextAttrVal = 4367fe6060f1SDimitry Andric std::stoi(K->getFnAttribute(Attr).getValueAsString().str()); 4368fe6060f1SDimitry Andric 4369fe6060f1SDimitry Andric if (NextAttrVal == -1 || 4370fe6060f1SDimitry Andric (CurrentAttrValue != -1 && CurrentAttrValue != NextAttrVal)) 4371fe6060f1SDimitry Andric return indicatePessimisticFixpoint(); 4372fe6060f1SDimitry Andric CurrentAttrValue = NextAttrVal; 4373fe6060f1SDimitry Andric } 4374fe6060f1SDimitry Andric 4375fe6060f1SDimitry Andric if (CurrentAttrValue != -1) { 4376fe6060f1SDimitry Andric auto &Ctx = getAnchorValue().getContext(); 4377fe6060f1SDimitry Andric SimplifiedValue = 4378fe6060f1SDimitry Andric ConstantInt::get(Type::getInt32Ty(Ctx), CurrentAttrValue); 4379fe6060f1SDimitry Andric } 4380fe6060f1SDimitry Andric return SimplifiedValue == SimplifiedValueBefore ? ChangeStatus::UNCHANGED 4381fe6060f1SDimitry Andric : ChangeStatus::CHANGED; 4382fe6060f1SDimitry Andric } 4383fe6060f1SDimitry Andric 4384fe6060f1SDimitry Andric /// An optional value the associated value is assumed to fold to. That is, we 4385fe6060f1SDimitry Andric /// assume the associated value (which is a call) can be replaced by this 4386fe6060f1SDimitry Andric /// simplified value. 4387fe6060f1SDimitry Andric Optional<Value *> SimplifiedValue; 4388fe6060f1SDimitry Andric 4389fe6060f1SDimitry Andric /// The runtime function kind of the callee of the associated call site. 4390fe6060f1SDimitry Andric RuntimeFunction RFKind; 4391fe6060f1SDimitry Andric }; 4392fe6060f1SDimitry Andric 43935ffd83dbSDimitry Andric } // namespace 43945ffd83dbSDimitry Andric 4395fe6060f1SDimitry Andric /// Register folding callsite 4396fe6060f1SDimitry Andric void OpenMPOpt::registerFoldRuntimeCall(RuntimeFunction RF) { 4397fe6060f1SDimitry Andric auto &RFI = OMPInfoCache.RFIs[RF]; 4398fe6060f1SDimitry Andric RFI.foreachUse(SCC, [&](Use &U, Function &F) { 4399fe6060f1SDimitry Andric CallInst *CI = OpenMPOpt::getCallIfRegularCall(U, &RFI); 4400fe6060f1SDimitry Andric if (!CI) 4401fe6060f1SDimitry Andric return false; 4402fe6060f1SDimitry Andric A.getOrCreateAAFor<AAFoldRuntimeCall>( 4403fe6060f1SDimitry Andric IRPosition::callsite_returned(*CI), /* QueryingAA */ nullptr, 4404fe6060f1SDimitry Andric DepClassTy::NONE, /* ForceUpdate */ false, 4405fe6060f1SDimitry Andric /* UpdateAfterInit */ false); 4406fe6060f1SDimitry Andric return false; 4407fe6060f1SDimitry Andric }); 4408fe6060f1SDimitry Andric } 4409fe6060f1SDimitry Andric 4410fe6060f1SDimitry Andric void OpenMPOpt::registerAAs(bool IsModulePass) { 4411fe6060f1SDimitry Andric if (SCC.empty()) 4412fe6060f1SDimitry Andric 4413fe6060f1SDimitry Andric return; 4414fe6060f1SDimitry Andric if (IsModulePass) { 4415fe6060f1SDimitry Andric // Ensure we create the AAKernelInfo AAs first and without triggering an 4416fe6060f1SDimitry Andric // update. This will make sure we register all value simplification 4417fe6060f1SDimitry Andric // callbacks before any other AA has the chance to create an AAValueSimplify 4418fe6060f1SDimitry Andric // or similar. 4419fe6060f1SDimitry Andric for (Function *Kernel : OMPInfoCache.Kernels) 4420fe6060f1SDimitry Andric A.getOrCreateAAFor<AAKernelInfo>( 4421fe6060f1SDimitry Andric IRPosition::function(*Kernel), /* QueryingAA */ nullptr, 4422fe6060f1SDimitry Andric DepClassTy::NONE, /* ForceUpdate */ false, 4423fe6060f1SDimitry Andric /* UpdateAfterInit */ false); 4424fe6060f1SDimitry Andric 4425fe6060f1SDimitry Andric registerFoldRuntimeCall(OMPRTL___kmpc_is_generic_main_thread_id); 4426fe6060f1SDimitry Andric registerFoldRuntimeCall(OMPRTL___kmpc_is_spmd_exec_mode); 4427fe6060f1SDimitry Andric registerFoldRuntimeCall(OMPRTL___kmpc_parallel_level); 4428fe6060f1SDimitry Andric registerFoldRuntimeCall(OMPRTL___kmpc_get_hardware_num_threads_in_block); 4429fe6060f1SDimitry Andric registerFoldRuntimeCall(OMPRTL___kmpc_get_hardware_num_blocks); 4430fe6060f1SDimitry Andric } 4431fe6060f1SDimitry Andric 4432fe6060f1SDimitry Andric // Create CallSite AA for all Getters. 4433fe6060f1SDimitry Andric for (int Idx = 0; Idx < OMPInfoCache.ICVs.size() - 1; ++Idx) { 4434fe6060f1SDimitry Andric auto ICVInfo = OMPInfoCache.ICVs[static_cast<InternalControlVar>(Idx)]; 4435fe6060f1SDimitry Andric 4436fe6060f1SDimitry Andric auto &GetterRFI = OMPInfoCache.RFIs[ICVInfo.Getter]; 4437fe6060f1SDimitry Andric 4438fe6060f1SDimitry Andric auto CreateAA = [&](Use &U, Function &Caller) { 4439fe6060f1SDimitry Andric CallInst *CI = OpenMPOpt::getCallIfRegularCall(U, &GetterRFI); 4440fe6060f1SDimitry Andric if (!CI) 4441fe6060f1SDimitry Andric return false; 4442fe6060f1SDimitry Andric 4443fe6060f1SDimitry Andric auto &CB = cast<CallBase>(*CI); 4444fe6060f1SDimitry Andric 4445fe6060f1SDimitry Andric IRPosition CBPos = IRPosition::callsite_function(CB); 4446fe6060f1SDimitry Andric A.getOrCreateAAFor<AAICVTracker>(CBPos); 4447fe6060f1SDimitry Andric return false; 4448fe6060f1SDimitry Andric }; 4449fe6060f1SDimitry Andric 4450fe6060f1SDimitry Andric GetterRFI.foreachUse(SCC, CreateAA); 4451fe6060f1SDimitry Andric } 4452fe6060f1SDimitry Andric auto &GlobalizationRFI = OMPInfoCache.RFIs[OMPRTL___kmpc_alloc_shared]; 4453fe6060f1SDimitry Andric auto CreateAA = [&](Use &U, Function &F) { 4454fe6060f1SDimitry Andric A.getOrCreateAAFor<AAHeapToShared>(IRPosition::function(F)); 4455fe6060f1SDimitry Andric return false; 4456fe6060f1SDimitry Andric }; 4457*349cc55cSDimitry Andric if (!DisableOpenMPOptDeglobalization) 4458fe6060f1SDimitry Andric GlobalizationRFI.foreachUse(SCC, CreateAA); 4459fe6060f1SDimitry Andric 4460fe6060f1SDimitry Andric // Create an ExecutionDomain AA for every function and a HeapToStack AA for 4461fe6060f1SDimitry Andric // every function if there is a device kernel. 4462fe6060f1SDimitry Andric if (!isOpenMPDevice(M)) 4463fe6060f1SDimitry Andric return; 4464fe6060f1SDimitry Andric 4465fe6060f1SDimitry Andric for (auto *F : SCC) { 4466fe6060f1SDimitry Andric if (F->isDeclaration()) 4467fe6060f1SDimitry Andric continue; 4468fe6060f1SDimitry Andric 4469fe6060f1SDimitry Andric A.getOrCreateAAFor<AAExecutionDomain>(IRPosition::function(*F)); 4470*349cc55cSDimitry Andric if (!DisableOpenMPOptDeglobalization) 4471fe6060f1SDimitry Andric A.getOrCreateAAFor<AAHeapToStack>(IRPosition::function(*F)); 4472fe6060f1SDimitry Andric 4473fe6060f1SDimitry Andric for (auto &I : instructions(*F)) { 4474fe6060f1SDimitry Andric if (auto *LI = dyn_cast<LoadInst>(&I)) { 4475fe6060f1SDimitry Andric bool UsedAssumedInformation = false; 4476fe6060f1SDimitry Andric A.getAssumedSimplified(IRPosition::value(*LI), /* AA */ nullptr, 4477fe6060f1SDimitry Andric UsedAssumedInformation); 4478fe6060f1SDimitry Andric } 4479fe6060f1SDimitry Andric } 4480fe6060f1SDimitry Andric } 4481fe6060f1SDimitry Andric } 4482fe6060f1SDimitry Andric 44835ffd83dbSDimitry Andric const char AAICVTracker::ID = 0; 4484fe6060f1SDimitry Andric const char AAKernelInfo::ID = 0; 4485fe6060f1SDimitry Andric const char AAExecutionDomain::ID = 0; 4486fe6060f1SDimitry Andric const char AAHeapToShared::ID = 0; 4487fe6060f1SDimitry Andric const char AAFoldRuntimeCall::ID = 0; 44885ffd83dbSDimitry Andric 44895ffd83dbSDimitry Andric AAICVTracker &AAICVTracker::createForPosition(const IRPosition &IRP, 44905ffd83dbSDimitry Andric Attributor &A) { 44915ffd83dbSDimitry Andric AAICVTracker *AA = nullptr; 44925ffd83dbSDimitry Andric switch (IRP.getPositionKind()) { 44935ffd83dbSDimitry Andric case IRPosition::IRP_INVALID: 44945ffd83dbSDimitry Andric case IRPosition::IRP_FLOAT: 44955ffd83dbSDimitry Andric case IRPosition::IRP_ARGUMENT: 44965ffd83dbSDimitry Andric case IRPosition::IRP_CALL_SITE_ARGUMENT: 44975ffd83dbSDimitry Andric llvm_unreachable("ICVTracker can only be created for function position!"); 4498e8d8bef9SDimitry Andric case IRPosition::IRP_RETURNED: 4499e8d8bef9SDimitry Andric AA = new (A.Allocator) AAICVTrackerFunctionReturned(IRP, A); 4500e8d8bef9SDimitry Andric break; 4501e8d8bef9SDimitry Andric case IRPosition::IRP_CALL_SITE_RETURNED: 4502e8d8bef9SDimitry Andric AA = new (A.Allocator) AAICVTrackerCallSiteReturned(IRP, A); 4503e8d8bef9SDimitry Andric break; 4504e8d8bef9SDimitry Andric case IRPosition::IRP_CALL_SITE: 4505e8d8bef9SDimitry Andric AA = new (A.Allocator) AAICVTrackerCallSite(IRP, A); 4506e8d8bef9SDimitry Andric break; 45075ffd83dbSDimitry Andric case IRPosition::IRP_FUNCTION: 45085ffd83dbSDimitry Andric AA = new (A.Allocator) AAICVTrackerFunction(IRP, A); 45095ffd83dbSDimitry Andric break; 45105ffd83dbSDimitry Andric } 45115ffd83dbSDimitry Andric 45125ffd83dbSDimitry Andric return *AA; 45135ffd83dbSDimitry Andric } 45145ffd83dbSDimitry Andric 4515fe6060f1SDimitry Andric AAExecutionDomain &AAExecutionDomain::createForPosition(const IRPosition &IRP, 4516fe6060f1SDimitry Andric Attributor &A) { 4517fe6060f1SDimitry Andric AAExecutionDomainFunction *AA = nullptr; 4518fe6060f1SDimitry Andric switch (IRP.getPositionKind()) { 4519fe6060f1SDimitry Andric case IRPosition::IRP_INVALID: 4520fe6060f1SDimitry Andric case IRPosition::IRP_FLOAT: 4521fe6060f1SDimitry Andric case IRPosition::IRP_ARGUMENT: 4522fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_ARGUMENT: 4523fe6060f1SDimitry Andric case IRPosition::IRP_RETURNED: 4524fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_RETURNED: 4525fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE: 4526fe6060f1SDimitry Andric llvm_unreachable( 4527fe6060f1SDimitry Andric "AAExecutionDomain can only be created for function position!"); 4528fe6060f1SDimitry Andric case IRPosition::IRP_FUNCTION: 4529fe6060f1SDimitry Andric AA = new (A.Allocator) AAExecutionDomainFunction(IRP, A); 4530fe6060f1SDimitry Andric break; 4531fe6060f1SDimitry Andric } 4532fe6060f1SDimitry Andric 4533fe6060f1SDimitry Andric return *AA; 4534fe6060f1SDimitry Andric } 4535fe6060f1SDimitry Andric 4536fe6060f1SDimitry Andric AAHeapToShared &AAHeapToShared::createForPosition(const IRPosition &IRP, 4537fe6060f1SDimitry Andric Attributor &A) { 4538fe6060f1SDimitry Andric AAHeapToSharedFunction *AA = nullptr; 4539fe6060f1SDimitry Andric switch (IRP.getPositionKind()) { 4540fe6060f1SDimitry Andric case IRPosition::IRP_INVALID: 4541fe6060f1SDimitry Andric case IRPosition::IRP_FLOAT: 4542fe6060f1SDimitry Andric case IRPosition::IRP_ARGUMENT: 4543fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_ARGUMENT: 4544fe6060f1SDimitry Andric case IRPosition::IRP_RETURNED: 4545fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_RETURNED: 4546fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE: 4547fe6060f1SDimitry Andric llvm_unreachable( 4548fe6060f1SDimitry Andric "AAHeapToShared can only be created for function position!"); 4549fe6060f1SDimitry Andric case IRPosition::IRP_FUNCTION: 4550fe6060f1SDimitry Andric AA = new (A.Allocator) AAHeapToSharedFunction(IRP, A); 4551fe6060f1SDimitry Andric break; 4552fe6060f1SDimitry Andric } 4553fe6060f1SDimitry Andric 4554fe6060f1SDimitry Andric return *AA; 4555fe6060f1SDimitry Andric } 4556fe6060f1SDimitry Andric 4557fe6060f1SDimitry Andric AAKernelInfo &AAKernelInfo::createForPosition(const IRPosition &IRP, 4558fe6060f1SDimitry Andric Attributor &A) { 4559fe6060f1SDimitry Andric AAKernelInfo *AA = nullptr; 4560fe6060f1SDimitry Andric switch (IRP.getPositionKind()) { 4561fe6060f1SDimitry Andric case IRPosition::IRP_INVALID: 4562fe6060f1SDimitry Andric case IRPosition::IRP_FLOAT: 4563fe6060f1SDimitry Andric case IRPosition::IRP_ARGUMENT: 4564fe6060f1SDimitry Andric case IRPosition::IRP_RETURNED: 4565fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_RETURNED: 4566fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_ARGUMENT: 4567fe6060f1SDimitry Andric llvm_unreachable("KernelInfo can only be created for function position!"); 4568fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE: 4569fe6060f1SDimitry Andric AA = new (A.Allocator) AAKernelInfoCallSite(IRP, A); 4570fe6060f1SDimitry Andric break; 4571fe6060f1SDimitry Andric case IRPosition::IRP_FUNCTION: 4572fe6060f1SDimitry Andric AA = new (A.Allocator) AAKernelInfoFunction(IRP, A); 4573fe6060f1SDimitry Andric break; 4574fe6060f1SDimitry Andric } 4575fe6060f1SDimitry Andric 4576fe6060f1SDimitry Andric return *AA; 4577fe6060f1SDimitry Andric } 4578fe6060f1SDimitry Andric 4579fe6060f1SDimitry Andric AAFoldRuntimeCall &AAFoldRuntimeCall::createForPosition(const IRPosition &IRP, 4580fe6060f1SDimitry Andric Attributor &A) { 4581fe6060f1SDimitry Andric AAFoldRuntimeCall *AA = nullptr; 4582fe6060f1SDimitry Andric switch (IRP.getPositionKind()) { 4583fe6060f1SDimitry Andric case IRPosition::IRP_INVALID: 4584fe6060f1SDimitry Andric case IRPosition::IRP_FLOAT: 4585fe6060f1SDimitry Andric case IRPosition::IRP_ARGUMENT: 4586fe6060f1SDimitry Andric case IRPosition::IRP_RETURNED: 4587fe6060f1SDimitry Andric case IRPosition::IRP_FUNCTION: 4588fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE: 4589fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_ARGUMENT: 4590fe6060f1SDimitry Andric llvm_unreachable("KernelInfo can only be created for call site position!"); 4591fe6060f1SDimitry Andric case IRPosition::IRP_CALL_SITE_RETURNED: 4592fe6060f1SDimitry Andric AA = new (A.Allocator) AAFoldRuntimeCallCallSiteReturned(IRP, A); 4593fe6060f1SDimitry Andric break; 4594fe6060f1SDimitry Andric } 4595fe6060f1SDimitry Andric 4596fe6060f1SDimitry Andric return *AA; 4597fe6060f1SDimitry Andric } 4598fe6060f1SDimitry Andric 4599fe6060f1SDimitry Andric PreservedAnalyses OpenMPOptPass::run(Module &M, ModuleAnalysisManager &AM) { 4600fe6060f1SDimitry Andric if (!containsOpenMP(M)) 4601fe6060f1SDimitry Andric return PreservedAnalyses::all(); 4602fe6060f1SDimitry Andric if (DisableOpenMPOptimizations) 46035ffd83dbSDimitry Andric return PreservedAnalyses::all(); 46045ffd83dbSDimitry Andric 4605fe6060f1SDimitry Andric FunctionAnalysisManager &FAM = 4606fe6060f1SDimitry Andric AM.getResult<FunctionAnalysisManagerModuleProxy>(M).getManager(); 4607fe6060f1SDimitry Andric KernelSet Kernels = getDeviceKernels(M); 4608fe6060f1SDimitry Andric 4609fe6060f1SDimitry Andric auto IsCalled = [&](Function &F) { 4610fe6060f1SDimitry Andric if (Kernels.contains(&F)) 4611fe6060f1SDimitry Andric return true; 4612fe6060f1SDimitry Andric for (const User *U : F.users()) 4613fe6060f1SDimitry Andric if (!isa<BlockAddress>(U)) 4614fe6060f1SDimitry Andric return true; 4615fe6060f1SDimitry Andric return false; 4616fe6060f1SDimitry Andric }; 4617fe6060f1SDimitry Andric 4618fe6060f1SDimitry Andric auto EmitRemark = [&](Function &F) { 4619fe6060f1SDimitry Andric auto &ORE = FAM.getResult<OptimizationRemarkEmitterAnalysis>(F); 4620fe6060f1SDimitry Andric ORE.emit([&]() { 4621fe6060f1SDimitry Andric OptimizationRemarkAnalysis ORA(DEBUG_TYPE, "OMP140", &F); 4622fe6060f1SDimitry Andric return ORA << "Could not internalize function. " 46236e75b2fbSDimitry Andric << "Some optimizations may not be possible. [OMP140]"; 4624fe6060f1SDimitry Andric }); 4625fe6060f1SDimitry Andric }; 4626fe6060f1SDimitry Andric 4627fe6060f1SDimitry Andric // Create internal copies of each function if this is a kernel Module. This 4628fe6060f1SDimitry Andric // allows iterprocedural passes to see every call edge. 46296e75b2fbSDimitry Andric DenseMap<Function *, Function *> InternalizedMap; 46306e75b2fbSDimitry Andric if (isOpenMPDevice(M)) { 46316e75b2fbSDimitry Andric SmallPtrSet<Function *, 16> InternalizeFns; 4632fe6060f1SDimitry Andric for (Function &F : M) 4633fe6060f1SDimitry Andric if (!F.isDeclaration() && !Kernels.contains(&F) && IsCalled(F) && 4634fe6060f1SDimitry Andric !DisableInternalization) { 46356e75b2fbSDimitry Andric if (Attributor::isInternalizable(F)) { 46366e75b2fbSDimitry Andric InternalizeFns.insert(&F); 4637fe6060f1SDimitry Andric } else if (!F.hasLocalLinkage() && !F.hasFnAttribute(Attribute::Cold)) { 4638fe6060f1SDimitry Andric EmitRemark(F); 4639fe6060f1SDimitry Andric } 4640fe6060f1SDimitry Andric } 4641fe6060f1SDimitry Andric 46426e75b2fbSDimitry Andric Attributor::internalizeFunctions(InternalizeFns, InternalizedMap); 46436e75b2fbSDimitry Andric } 46446e75b2fbSDimitry Andric 4645fe6060f1SDimitry Andric // Look at every function in the Module unless it was internalized. 4646fe6060f1SDimitry Andric SmallVector<Function *, 16> SCC; 4647fe6060f1SDimitry Andric for (Function &F : M) 46486e75b2fbSDimitry Andric if (!F.isDeclaration() && !InternalizedMap.lookup(&F)) 4649fe6060f1SDimitry Andric SCC.push_back(&F); 4650fe6060f1SDimitry Andric 4651fe6060f1SDimitry Andric if (SCC.empty()) 4652fe6060f1SDimitry Andric return PreservedAnalyses::all(); 4653fe6060f1SDimitry Andric 4654fe6060f1SDimitry Andric AnalysisGetter AG(FAM); 4655fe6060f1SDimitry Andric 4656fe6060f1SDimitry Andric auto OREGetter = [&FAM](Function *F) -> OptimizationRemarkEmitter & { 4657fe6060f1SDimitry Andric return FAM.getResult<OptimizationRemarkEmitterAnalysis>(*F); 4658fe6060f1SDimitry Andric }; 4659fe6060f1SDimitry Andric 4660fe6060f1SDimitry Andric BumpPtrAllocator Allocator; 4661fe6060f1SDimitry Andric CallGraphUpdater CGUpdater; 4662fe6060f1SDimitry Andric 4663fe6060f1SDimitry Andric SetVector<Function *> Functions(SCC.begin(), SCC.end()); 4664fe6060f1SDimitry Andric OMPInformationCache InfoCache(M, AG, Allocator, /*CGSCC*/ Functions, Kernels); 4665fe6060f1SDimitry Andric 4666*349cc55cSDimitry Andric unsigned MaxFixpointIterations = 4667*349cc55cSDimitry Andric (isOpenMPDevice(M)) ? SetFixpointIterations : 32; 4668fe6060f1SDimitry Andric Attributor A(Functions, InfoCache, CGUpdater, nullptr, true, false, 4669fe6060f1SDimitry Andric MaxFixpointIterations, OREGetter, DEBUG_TYPE); 4670fe6060f1SDimitry Andric 4671fe6060f1SDimitry Andric OpenMPOpt OMPOpt(SCC, CGUpdater, OREGetter, InfoCache, A); 4672fe6060f1SDimitry Andric bool Changed = OMPOpt.run(true); 4673*349cc55cSDimitry Andric 4674*349cc55cSDimitry Andric // Optionally inline device functions for potentially better performance. 4675*349cc55cSDimitry Andric if (AlwaysInlineDeviceFunctions && isOpenMPDevice(M)) 4676*349cc55cSDimitry Andric for (Function &F : M) 4677*349cc55cSDimitry Andric if (!F.isDeclaration() && !Kernels.contains(&F) && 4678*349cc55cSDimitry Andric !F.hasFnAttribute(Attribute::NoInline)) 4679*349cc55cSDimitry Andric F.addFnAttr(Attribute::AlwaysInline); 4680*349cc55cSDimitry Andric 4681*349cc55cSDimitry Andric if (PrintModuleAfterOptimizations) 4682*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Module after OpenMPOpt Module Pass:\n" << M); 4683*349cc55cSDimitry Andric 4684fe6060f1SDimitry Andric if (Changed) 4685fe6060f1SDimitry Andric return PreservedAnalyses::none(); 4686fe6060f1SDimitry Andric 4687fe6060f1SDimitry Andric return PreservedAnalyses::all(); 4688fe6060f1SDimitry Andric } 4689fe6060f1SDimitry Andric 4690fe6060f1SDimitry Andric PreservedAnalyses OpenMPOptCGSCCPass::run(LazyCallGraph::SCC &C, 4691fe6060f1SDimitry Andric CGSCCAnalysisManager &AM, 4692fe6060f1SDimitry Andric LazyCallGraph &CG, 4693fe6060f1SDimitry Andric CGSCCUpdateResult &UR) { 4694fe6060f1SDimitry Andric if (!containsOpenMP(*C.begin()->getFunction().getParent())) 4695fe6060f1SDimitry Andric return PreservedAnalyses::all(); 46965ffd83dbSDimitry Andric if (DisableOpenMPOptimizations) 46975ffd83dbSDimitry Andric return PreservedAnalyses::all(); 46985ffd83dbSDimitry Andric 46995ffd83dbSDimitry Andric SmallVector<Function *, 16> SCC; 4700e8d8bef9SDimitry Andric // If there are kernels in the module, we have to run on all SCC's. 4701e8d8bef9SDimitry Andric for (LazyCallGraph::Node &N : C) { 4702e8d8bef9SDimitry Andric Function *Fn = &N.getFunction(); 4703e8d8bef9SDimitry Andric SCC.push_back(Fn); 4704e8d8bef9SDimitry Andric } 4705e8d8bef9SDimitry Andric 4706fe6060f1SDimitry Andric if (SCC.empty()) 47075ffd83dbSDimitry Andric return PreservedAnalyses::all(); 47085ffd83dbSDimitry Andric 4709fe6060f1SDimitry Andric Module &M = *C.begin()->getFunction().getParent(); 4710fe6060f1SDimitry Andric 4711fe6060f1SDimitry Andric KernelSet Kernels = getDeviceKernels(M); 4712fe6060f1SDimitry Andric 47135ffd83dbSDimitry Andric FunctionAnalysisManager &FAM = 47145ffd83dbSDimitry Andric AM.getResult<FunctionAnalysisManagerCGSCCProxy>(C, CG).getManager(); 47155ffd83dbSDimitry Andric 47165ffd83dbSDimitry Andric AnalysisGetter AG(FAM); 47175ffd83dbSDimitry Andric 47185ffd83dbSDimitry Andric auto OREGetter = [&FAM](Function *F) -> OptimizationRemarkEmitter & { 47195ffd83dbSDimitry Andric return FAM.getResult<OptimizationRemarkEmitterAnalysis>(*F); 47205ffd83dbSDimitry Andric }; 47215ffd83dbSDimitry Andric 4722fe6060f1SDimitry Andric BumpPtrAllocator Allocator; 47235ffd83dbSDimitry Andric CallGraphUpdater CGUpdater; 47245ffd83dbSDimitry Andric CGUpdater.initialize(CG, C, AM, UR); 47255ffd83dbSDimitry Andric 47265ffd83dbSDimitry Andric SetVector<Function *> Functions(SCC.begin(), SCC.end()); 47275ffd83dbSDimitry Andric OMPInformationCache InfoCache(*(Functions.back()->getParent()), AG, Allocator, 4728fe6060f1SDimitry Andric /*CGSCC*/ Functions, Kernels); 47295ffd83dbSDimitry Andric 4730*349cc55cSDimitry Andric unsigned MaxFixpointIterations = 4731*349cc55cSDimitry Andric (isOpenMPDevice(M)) ? SetFixpointIterations : 32; 4732fe6060f1SDimitry Andric Attributor A(Functions, InfoCache, CGUpdater, nullptr, false, true, 4733fe6060f1SDimitry Andric MaxFixpointIterations, OREGetter, DEBUG_TYPE); 47345ffd83dbSDimitry Andric 47355ffd83dbSDimitry Andric OpenMPOpt OMPOpt(SCC, CGUpdater, OREGetter, InfoCache, A); 4736fe6060f1SDimitry Andric bool Changed = OMPOpt.run(false); 4737*349cc55cSDimitry Andric 4738*349cc55cSDimitry Andric if (PrintModuleAfterOptimizations) 4739*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Module after OpenMPOpt CGSCC Pass:\n" << M); 4740*349cc55cSDimitry Andric 47415ffd83dbSDimitry Andric if (Changed) 47425ffd83dbSDimitry Andric return PreservedAnalyses::none(); 47435ffd83dbSDimitry Andric 47445ffd83dbSDimitry Andric return PreservedAnalyses::all(); 47455ffd83dbSDimitry Andric } 47465ffd83dbSDimitry Andric 47475ffd83dbSDimitry Andric namespace { 47485ffd83dbSDimitry Andric 4749fe6060f1SDimitry Andric struct OpenMPOptCGSCCLegacyPass : public CallGraphSCCPass { 47505ffd83dbSDimitry Andric CallGraphUpdater CGUpdater; 47515ffd83dbSDimitry Andric static char ID; 47525ffd83dbSDimitry Andric 4753fe6060f1SDimitry Andric OpenMPOptCGSCCLegacyPass() : CallGraphSCCPass(ID) { 4754fe6060f1SDimitry Andric initializeOpenMPOptCGSCCLegacyPassPass(*PassRegistry::getPassRegistry()); 47555ffd83dbSDimitry Andric } 47565ffd83dbSDimitry Andric 47575ffd83dbSDimitry Andric void getAnalysisUsage(AnalysisUsage &AU) const override { 47585ffd83dbSDimitry Andric CallGraphSCCPass::getAnalysisUsage(AU); 47595ffd83dbSDimitry Andric } 47605ffd83dbSDimitry Andric 47615ffd83dbSDimitry Andric bool runOnSCC(CallGraphSCC &CGSCC) override { 4762fe6060f1SDimitry Andric if (!containsOpenMP(CGSCC.getCallGraph().getModule())) 47635ffd83dbSDimitry Andric return false; 47645ffd83dbSDimitry Andric if (DisableOpenMPOptimizations || skipSCC(CGSCC)) 47655ffd83dbSDimitry Andric return false; 47665ffd83dbSDimitry Andric 47675ffd83dbSDimitry Andric SmallVector<Function *, 16> SCC; 4768e8d8bef9SDimitry Andric // If there are kernels in the module, we have to run on all SCC's. 4769e8d8bef9SDimitry Andric for (CallGraphNode *CGN : CGSCC) { 4770e8d8bef9SDimitry Andric Function *Fn = CGN->getFunction(); 4771e8d8bef9SDimitry Andric if (!Fn || Fn->isDeclaration()) 4772e8d8bef9SDimitry Andric continue; 47735ffd83dbSDimitry Andric SCC.push_back(Fn); 4774e8d8bef9SDimitry Andric } 4775e8d8bef9SDimitry Andric 4776fe6060f1SDimitry Andric if (SCC.empty()) 47775ffd83dbSDimitry Andric return false; 47785ffd83dbSDimitry Andric 4779fe6060f1SDimitry Andric Module &M = CGSCC.getCallGraph().getModule(); 4780fe6060f1SDimitry Andric KernelSet Kernels = getDeviceKernels(M); 4781fe6060f1SDimitry Andric 47825ffd83dbSDimitry Andric CallGraph &CG = getAnalysis<CallGraphWrapperPass>().getCallGraph(); 47835ffd83dbSDimitry Andric CGUpdater.initialize(CG, CGSCC); 47845ffd83dbSDimitry Andric 47855ffd83dbSDimitry Andric // Maintain a map of functions to avoid rebuilding the ORE 47865ffd83dbSDimitry Andric DenseMap<Function *, std::unique_ptr<OptimizationRemarkEmitter>> OREMap; 47875ffd83dbSDimitry Andric auto OREGetter = [&OREMap](Function *F) -> OptimizationRemarkEmitter & { 47885ffd83dbSDimitry Andric std::unique_ptr<OptimizationRemarkEmitter> &ORE = OREMap[F]; 47895ffd83dbSDimitry Andric if (!ORE) 47905ffd83dbSDimitry Andric ORE = std::make_unique<OptimizationRemarkEmitter>(F); 47915ffd83dbSDimitry Andric return *ORE; 47925ffd83dbSDimitry Andric }; 47935ffd83dbSDimitry Andric 47945ffd83dbSDimitry Andric AnalysisGetter AG; 47955ffd83dbSDimitry Andric SetVector<Function *> Functions(SCC.begin(), SCC.end()); 47965ffd83dbSDimitry Andric BumpPtrAllocator Allocator; 4797fe6060f1SDimitry Andric OMPInformationCache InfoCache(*(Functions.back()->getParent()), AG, 4798fe6060f1SDimitry Andric Allocator, 4799fe6060f1SDimitry Andric /*CGSCC*/ Functions, Kernels); 48005ffd83dbSDimitry Andric 4801*349cc55cSDimitry Andric unsigned MaxFixpointIterations = 4802*349cc55cSDimitry Andric (isOpenMPDevice(M)) ? SetFixpointIterations : 32; 4803fe6060f1SDimitry Andric Attributor A(Functions, InfoCache, CGUpdater, nullptr, false, true, 4804fe6060f1SDimitry Andric MaxFixpointIterations, OREGetter, DEBUG_TYPE); 48055ffd83dbSDimitry Andric 48065ffd83dbSDimitry Andric OpenMPOpt OMPOpt(SCC, CGUpdater, OREGetter, InfoCache, A); 4807*349cc55cSDimitry Andric bool Result = OMPOpt.run(false); 4808*349cc55cSDimitry Andric 4809*349cc55cSDimitry Andric if (PrintModuleAfterOptimizations) 4810*349cc55cSDimitry Andric LLVM_DEBUG(dbgs() << TAG << "Module after OpenMPOpt CGSCC Pass:\n" << M); 4811*349cc55cSDimitry Andric 4812*349cc55cSDimitry Andric return Result; 48135ffd83dbSDimitry Andric } 48145ffd83dbSDimitry Andric 48155ffd83dbSDimitry Andric bool doFinalization(CallGraph &CG) override { return CGUpdater.finalize(); } 48165ffd83dbSDimitry Andric }; 48175ffd83dbSDimitry Andric 48185ffd83dbSDimitry Andric } // end anonymous namespace 48195ffd83dbSDimitry Andric 4820fe6060f1SDimitry Andric KernelSet llvm::omp::getDeviceKernels(Module &M) { 4821fe6060f1SDimitry Andric // TODO: Create a more cross-platform way of determining device kernels. 48225ffd83dbSDimitry Andric NamedMDNode *MD = M.getOrInsertNamedMetadata("nvvm.annotations"); 4823fe6060f1SDimitry Andric KernelSet Kernels; 4824fe6060f1SDimitry Andric 48255ffd83dbSDimitry Andric if (!MD) 4826fe6060f1SDimitry Andric return Kernels; 48275ffd83dbSDimitry Andric 48285ffd83dbSDimitry Andric for (auto *Op : MD->operands()) { 48295ffd83dbSDimitry Andric if (Op->getNumOperands() < 2) 48305ffd83dbSDimitry Andric continue; 48315ffd83dbSDimitry Andric MDString *KindID = dyn_cast<MDString>(Op->getOperand(1)); 48325ffd83dbSDimitry Andric if (!KindID || KindID->getString() != "kernel") 48335ffd83dbSDimitry Andric continue; 48345ffd83dbSDimitry Andric 48355ffd83dbSDimitry Andric Function *KernelFn = 48365ffd83dbSDimitry Andric mdconst::dyn_extract_or_null<Function>(Op->getOperand(0)); 48375ffd83dbSDimitry Andric if (!KernelFn) 48385ffd83dbSDimitry Andric continue; 48395ffd83dbSDimitry Andric 48405ffd83dbSDimitry Andric ++NumOpenMPTargetRegionKernels; 48415ffd83dbSDimitry Andric 48425ffd83dbSDimitry Andric Kernels.insert(KernelFn); 48435ffd83dbSDimitry Andric } 4844fe6060f1SDimitry Andric 4845fe6060f1SDimitry Andric return Kernels; 48465ffd83dbSDimitry Andric } 48475ffd83dbSDimitry Andric 4848fe6060f1SDimitry Andric bool llvm::omp::containsOpenMP(Module &M) { 4849fe6060f1SDimitry Andric Metadata *MD = M.getModuleFlag("openmp"); 4850fe6060f1SDimitry Andric if (!MD) 4851fe6060f1SDimitry Andric return false; 48525ffd83dbSDimitry Andric 48535ffd83dbSDimitry Andric return true; 48545ffd83dbSDimitry Andric } 48555ffd83dbSDimitry Andric 4856fe6060f1SDimitry Andric bool llvm::omp::isOpenMPDevice(Module &M) { 4857fe6060f1SDimitry Andric Metadata *MD = M.getModuleFlag("openmp-device"); 4858fe6060f1SDimitry Andric if (!MD) 4859fe6060f1SDimitry Andric return false; 4860fe6060f1SDimitry Andric 4861fe6060f1SDimitry Andric return true; 48625ffd83dbSDimitry Andric } 48635ffd83dbSDimitry Andric 4864fe6060f1SDimitry Andric char OpenMPOptCGSCCLegacyPass::ID = 0; 48655ffd83dbSDimitry Andric 4866fe6060f1SDimitry Andric INITIALIZE_PASS_BEGIN(OpenMPOptCGSCCLegacyPass, "openmp-opt-cgscc", 48675ffd83dbSDimitry Andric "OpenMP specific optimizations", false, false) 48685ffd83dbSDimitry Andric INITIALIZE_PASS_DEPENDENCY(CallGraphWrapperPass) 4869fe6060f1SDimitry Andric INITIALIZE_PASS_END(OpenMPOptCGSCCLegacyPass, "openmp-opt-cgscc", 48705ffd83dbSDimitry Andric "OpenMP specific optimizations", false, false) 48715ffd83dbSDimitry Andric 4872fe6060f1SDimitry Andric Pass *llvm::createOpenMPOptCGSCCLegacyPass() { 4873fe6060f1SDimitry Andric return new OpenMPOptCGSCCLegacyPass(); 4874fe6060f1SDimitry Andric } 4875