forked from OSchip/llvm-project
387 lines
14 KiB
C++
387 lines
14 KiB
C++
//===- CodeGeneration.cpp - Code generate the Scops using ISL. ---------======//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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//
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// The CodeGeneration pass takes a Scop created by ScopInfo and translates it
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// back to LLVM-IR using the ISL code generator.
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//
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// The Scop describes the high level memory behavior of a control flow region.
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// Transformation passes can update the schedule (execution order) of statements
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// in the Scop. ISL is used to generate an abstract syntax tree that reflects
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// the updated execution order. This clast is used to create new LLVM-IR that is
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// computationally equivalent to the original control flow region, but executes
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// its code in the new execution order defined by the changed schedule.
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//
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//===----------------------------------------------------------------------===//
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#include "polly/CodeGen/CodeGeneration.h"
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#include "polly/CodeGen/IRBuilder.h"
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#include "polly/CodeGen/IslAst.h"
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#include "polly/CodeGen/IslNodeBuilder.h"
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#include "polly/CodeGen/PerfMonitor.h"
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#include "polly/CodeGen/Utils.h"
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#include "polly/DependenceInfo.h"
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#include "polly/LinkAllPasses.h"
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#include "polly/Options.h"
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#include "polly/ScopInfo.h"
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#include "polly/Support/ScopHelper.h"
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#include "llvm/ADT/Statistic.h"
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#include "llvm/Analysis/LoopInfo.h"
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#include "llvm/Analysis/RegionInfo.h"
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#include "llvm/IR/BasicBlock.h"
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#include "llvm/IR/Dominators.h"
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#include "llvm/IR/Function.h"
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#include "llvm/IR/PassManager.h"
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#include "llvm/IR/Verifier.h"
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#include "llvm/InitializePasses.h"
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#include "llvm/Support/Debug.h"
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#include "llvm/Support/ErrorHandling.h"
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#include "llvm/Support/raw_ostream.h"
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#include "isl/ast.h"
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#include <cassert>
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using namespace llvm;
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using namespace polly;
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#define DEBUG_TYPE "polly-codegen"
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static cl::opt<bool> Verify("polly-codegen-verify",
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cl::desc("Verify the function generated by Polly"),
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cl::Hidden, cl::init(false), cl::ZeroOrMore,
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cl::cat(PollyCategory));
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bool polly::PerfMonitoring;
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static cl::opt<bool, true>
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XPerfMonitoring("polly-codegen-perf-monitoring",
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cl::desc("Add run-time performance monitoring"), cl::Hidden,
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cl::location(polly::PerfMonitoring), cl::init(false),
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cl::ZeroOrMore, cl::cat(PollyCategory));
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STATISTIC(ScopsProcessed, "Number of SCoP processed");
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STATISTIC(CodegenedScops, "Number of successfully generated SCoPs");
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STATISTIC(CodegenedAffineLoops,
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"Number of original affine loops in SCoPs that have been generated");
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STATISTIC(CodegenedBoxedLoops,
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"Number of original boxed loops in SCoPs that have been generated");
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namespace polly {
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/// Mark a basic block unreachable.
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///
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/// Marks the basic block @p Block unreachable by equipping it with an
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/// UnreachableInst.
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void markBlockUnreachable(BasicBlock &Block, PollyIRBuilder &Builder) {
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auto *OrigTerminator = Block.getTerminator();
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Builder.SetInsertPoint(OrigTerminator);
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Builder.CreateUnreachable();
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OrigTerminator->eraseFromParent();
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}
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} // namespace polly
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static void verifyGeneratedFunction(Scop &S, Function &F, IslAstInfo &AI) {
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if (!Verify || !verifyFunction(F, &errs()))
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return;
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LLVM_DEBUG({
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errs() << "== ISL Codegen created an invalid function ==\n\n== The "
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"SCoP ==\n";
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errs() << S;
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errs() << "\n== The isl AST ==\n";
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AI.print(errs());
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errs() << "\n== The invalid function ==\n";
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F.print(errs());
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});
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llvm_unreachable("Polly generated function could not be verified. Add "
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"-polly-codegen-verify=false to disable this assertion.");
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}
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// CodeGeneration adds a lot of BBs without updating the RegionInfo
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// We make all created BBs belong to the scop's parent region without any
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// nested structure to keep the RegionInfo verifier happy.
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static void fixRegionInfo(Function &F, Region &ParentRegion, RegionInfo &RI) {
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for (BasicBlock &BB : F) {
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if (RI.getRegionFor(&BB))
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continue;
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RI.setRegionFor(&BB, &ParentRegion);
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}
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}
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/// Remove all lifetime markers (llvm.lifetime.start, llvm.lifetime.end) from
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/// @R.
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///
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/// CodeGeneration does not copy lifetime markers into the optimized SCoP,
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/// which would leave the them only in the original path. This can transform
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/// code such as
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///
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/// llvm.lifetime.start(%p)
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/// llvm.lifetime.end(%p)
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///
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/// into
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///
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/// if (RTC) {
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/// // generated code
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/// } else {
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/// // original code
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/// llvm.lifetime.start(%p)
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/// }
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/// llvm.lifetime.end(%p)
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///
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/// The current StackColoring algorithm cannot handle if some, but not all,
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/// paths from the end marker to the entry block cross the start marker. Same
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/// for start markers that do not always cross the end markers. We avoid any
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/// issues by removing all lifetime markers, even from the original code.
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///
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/// A better solution could be to hoist all llvm.lifetime.start to the split
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/// node and all llvm.lifetime.end to the merge node, which should be
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/// conservatively correct.
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static void removeLifetimeMarkers(Region *R) {
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for (auto *BB : R->blocks()) {
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auto InstIt = BB->begin();
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auto InstEnd = BB->end();
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while (InstIt != InstEnd) {
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auto NextIt = InstIt;
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++NextIt;
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if (auto *IT = dyn_cast<IntrinsicInst>(&*InstIt)) {
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switch (IT->getIntrinsicID()) {
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case Intrinsic::lifetime_start:
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case Intrinsic::lifetime_end:
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BB->getInstList().erase(InstIt);
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break;
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default:
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break;
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}
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}
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InstIt = NextIt;
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}
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}
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}
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static bool generateCode(Scop &S, IslAstInfo &AI, LoopInfo &LI,
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DominatorTree &DT, ScalarEvolution &SE,
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RegionInfo &RI) {
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// Check whether IslAstInfo uses the same isl_ctx. Since -polly-codegen
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// reports itself to preserve DependenceInfo and IslAstInfo, we might get
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// those analysis that were computed by a different ScopInfo for a different
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// Scop structure. When the ScopInfo/Scop object is freed, there is a high
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// probability that the new ScopInfo/Scop object will be created at the same
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// heap position with the same address. Comparing whether the Scop or ScopInfo
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// address is the expected therefore is unreliable.
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// Instead, we compare the address of the isl_ctx object. Both, DependenceInfo
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// and IslAstInfo must hold a reference to the isl_ctx object to ensure it is
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// not freed before the destruction of those analyses which might happen after
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// the destruction of the Scop/ScopInfo they refer to. Hence, the isl_ctx
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// will not be freed and its space not reused as long there is a
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// DependenceInfo or IslAstInfo around.
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IslAst &Ast = AI.getIslAst();
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if (Ast.getSharedIslCtx() != S.getSharedIslCtx()) {
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LLVM_DEBUG(dbgs() << "Got an IstAst for a different Scop/isl_ctx\n");
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return false;
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}
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// Check if we created an isl_ast root node, otherwise exit.
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isl::ast_node AstRoot = Ast.getAst();
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if (AstRoot.is_null())
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return false;
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// Collect statistics. Do it before we modify the IR to avoid having it any
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// influence on the result.
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auto ScopStats = S.getStatistics();
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ScopsProcessed++;
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auto &DL = S.getFunction().getParent()->getDataLayout();
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Region *R = &S.getRegion();
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assert(!R->isTopLevelRegion() && "Top level regions are not supported");
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ScopAnnotator Annotator;
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simplifyRegion(R, &DT, &LI, &RI);
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assert(R->isSimple());
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BasicBlock *EnteringBB = S.getEnteringBlock();
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assert(EnteringBB);
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PollyIRBuilder Builder(EnteringBB->getContext(), ConstantFolder(),
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IRInserter(Annotator));
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Builder.SetInsertPoint(EnteringBB->getTerminator());
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// Only build the run-time condition and parameters _after_ having
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// introduced the conditional branch. This is important as the conditional
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// branch will guard the original scop from new induction variables that
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// the SCEVExpander may introduce while code generating the parameters and
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// which may introduce scalar dependences that prevent us from correctly
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// code generating this scop.
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BBPair StartExitBlocks =
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std::get<0>(executeScopConditionally(S, Builder.getTrue(), DT, RI, LI));
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BasicBlock *StartBlock = std::get<0>(StartExitBlocks);
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BasicBlock *ExitBlock = std::get<1>(StartExitBlocks);
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removeLifetimeMarkers(R);
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auto *SplitBlock = StartBlock->getSinglePredecessor();
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IslNodeBuilder NodeBuilder(Builder, Annotator, DL, LI, SE, DT, S, StartBlock);
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// All arrays must have their base pointers known before
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// ScopAnnotator::buildAliasScopes.
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NodeBuilder.allocateNewArrays(StartExitBlocks);
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Annotator.buildAliasScopes(S);
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if (PerfMonitoring) {
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PerfMonitor P(S, EnteringBB->getParent()->getParent());
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P.initialize();
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P.insertRegionStart(SplitBlock->getTerminator());
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BasicBlock *MergeBlock = ExitBlock->getUniqueSuccessor();
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P.insertRegionEnd(MergeBlock->getTerminator());
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}
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// First generate code for the hoisted invariant loads and transitively the
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// parameters they reference. Afterwards, for the remaining parameters that
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// might reference the hoisted loads. Finally, build the runtime check
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// that might reference both hoisted loads as well as parameters.
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// If the hoisting fails we have to bail and execute the original code.
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Builder.SetInsertPoint(SplitBlock->getTerminator());
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if (!NodeBuilder.preloadInvariantLoads()) {
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// Patch the introduced branch condition to ensure that we always execute
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// the original SCoP.
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auto *FalseI1 = Builder.getFalse();
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auto *SplitBBTerm = Builder.GetInsertBlock()->getTerminator();
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SplitBBTerm->setOperand(0, FalseI1);
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// Since the other branch is hence ignored we mark it as unreachable and
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// adjust the dominator tree accordingly.
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auto *ExitingBlock = StartBlock->getUniqueSuccessor();
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assert(ExitingBlock);
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auto *MergeBlock = ExitingBlock->getUniqueSuccessor();
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assert(MergeBlock);
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markBlockUnreachable(*StartBlock, Builder);
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markBlockUnreachable(*ExitingBlock, Builder);
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auto *ExitingBB = S.getExitingBlock();
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assert(ExitingBB);
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DT.changeImmediateDominator(MergeBlock, ExitingBB);
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DT.eraseNode(ExitingBlock);
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} else {
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NodeBuilder.addParameters(S.getContext().release());
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Value *RTC = NodeBuilder.createRTC(AI.getRunCondition().release());
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Builder.GetInsertBlock()->getTerminator()->setOperand(0, RTC);
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// Explicitly set the insert point to the end of the block to avoid that a
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// split at the builder's current
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// insert position would move the malloc calls to the wrong BasicBlock.
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// Ideally we would just split the block during allocation of the new
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// arrays, but this would break the assumption that there are no blocks
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// between polly.start and polly.exiting (at this point).
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Builder.SetInsertPoint(StartBlock->getTerminator());
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NodeBuilder.create(AstRoot.release());
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NodeBuilder.finalize();
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fixRegionInfo(*EnteringBB->getParent(), *R->getParent(), RI);
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CodegenedScops++;
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CodegenedAffineLoops += ScopStats.NumAffineLoops;
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CodegenedBoxedLoops += ScopStats.NumBoxedLoops;
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}
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Function *F = EnteringBB->getParent();
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verifyGeneratedFunction(S, *F, AI);
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for (auto *SubF : NodeBuilder.getParallelSubfunctions())
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verifyGeneratedFunction(S, *SubF, AI);
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// Mark the function such that we run additional cleanup passes on this
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// function (e.g. mem2reg to rediscover phi nodes).
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F->addFnAttr("polly-optimized");
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return true;
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}
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namespace {
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class CodeGeneration : public ScopPass {
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public:
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static char ID;
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/// The data layout used.
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const DataLayout *DL;
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/// @name The analysis passes we need to generate code.
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///
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///{
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LoopInfo *LI;
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IslAstInfo *AI;
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DominatorTree *DT;
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ScalarEvolution *SE;
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RegionInfo *RI;
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///}
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CodeGeneration() : ScopPass(ID) {}
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/// Generate LLVM-IR for the SCoP @p S.
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bool runOnScop(Scop &S) override {
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// Skip SCoPs in case they're already code-generated by PPCGCodeGeneration.
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if (S.isToBeSkipped())
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return false;
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AI = &getAnalysis<IslAstInfoWrapperPass>().getAI();
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LI = &getAnalysis<LoopInfoWrapperPass>().getLoopInfo();
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DT = &getAnalysis<DominatorTreeWrapperPass>().getDomTree();
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SE = &getAnalysis<ScalarEvolutionWrapperPass>().getSE();
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DL = &S.getFunction().getParent()->getDataLayout();
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RI = &getAnalysis<RegionInfoPass>().getRegionInfo();
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return generateCode(S, *AI, *LI, *DT, *SE, *RI);
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}
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/// Register all analyses and transformation required.
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void getAnalysisUsage(AnalysisUsage &AU) const override {
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ScopPass::getAnalysisUsage(AU);
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AU.addRequired<DominatorTreeWrapperPass>();
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AU.addRequired<IslAstInfoWrapperPass>();
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AU.addRequired<RegionInfoPass>();
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AU.addRequired<ScalarEvolutionWrapperPass>();
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AU.addRequired<ScopDetectionWrapperPass>();
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AU.addRequired<ScopInfoRegionPass>();
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AU.addRequired<LoopInfoWrapperPass>();
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AU.addPreserved<DependenceInfo>();
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AU.addPreserved<IslAstInfoWrapperPass>();
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// FIXME: We do not yet add regions for the newly generated code to the
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// region tree.
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}
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};
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} // namespace
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PreservedAnalyses CodeGenerationPass::run(Scop &S, ScopAnalysisManager &SAM,
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ScopStandardAnalysisResults &AR,
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SPMUpdater &U) {
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auto &AI = SAM.getResult<IslAstAnalysis>(S, AR);
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if (generateCode(S, AI, AR.LI, AR.DT, AR.SE, AR.RI)) {
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U.invalidateScop(S);
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return PreservedAnalyses::none();
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}
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return PreservedAnalyses::all();
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}
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char CodeGeneration::ID = 1;
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Pass *polly::createCodeGenerationPass() { return new CodeGeneration(); }
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INITIALIZE_PASS_BEGIN(CodeGeneration, "polly-codegen",
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"Polly - Create LLVM-IR from SCoPs", false, false);
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INITIALIZE_PASS_DEPENDENCY(DependenceInfo);
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INITIALIZE_PASS_DEPENDENCY(DominatorTreeWrapperPass);
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INITIALIZE_PASS_DEPENDENCY(LoopInfoWrapperPass);
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INITIALIZE_PASS_DEPENDENCY(RegionInfoPass);
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INITIALIZE_PASS_DEPENDENCY(ScalarEvolutionWrapperPass);
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INITIALIZE_PASS_DEPENDENCY(ScopDetectionWrapperPass);
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INITIALIZE_PASS_END(CodeGeneration, "polly-codegen",
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"Polly - Create LLVM-IR from SCoPs", false, false)
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