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llvm-project/llvm/lib/Transforms/Vectorize/VPlanVerifier.cpp
Florian Hahn 99d6c6d936
[VPlan] Model branch cond to enter scalar epilogue in VPlan. (#92651) 
This patch moves branch condition creation to enter the scalar epilogue
loop to VPlan. Modeling the branch in the middle block also requires
modeling the successor blocks. This is done using the recently
introduced VPIRBasicBlock.

Note that the middle.block is still created as part of the skeleton and
then patched in during VPlan execution. Unfortunately the skeleton needs
to create the middle.block early on, as it is also used for induction
resume value creation and is also needed to properly update the
dominator tree during skeleton creation.

After this patch lands, I plan to move induction resume value and phi
node creation in the scalar preheader to VPlan. Once that is done, we
should be able to create the middle.block in VPlan directly.

This is a re-worked version based on the earlier
https://reviews.llvm.org/D150398 and the main change is the use of
VPIRBasicBlock.

Depends on https://github.com/llvm/llvm-project/pull/92525

PR: https://github.com/llvm/llvm-project/pull/92651
2024-07-05 10:08:42 +01:00

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//===-- VPlanVerifier.cpp -------------------------------------------------===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
///
/// \file
/// This file defines the class VPlanVerifier, which contains utility functions
/// to check the consistency and invariants of a VPlan.
///
//===----------------------------------------------------------------------===//
#include "VPlanVerifier.h"
#include "VPlan.h"
#include "VPlanCFG.h"
#include "VPlanDominatorTree.h"
#include "llvm/ADT/DepthFirstIterator.h"
#include "llvm/ADT/SmallPtrSet.h"
#include "llvm/Support/CommandLine.h"
#define DEBUG_TYPE "loop-vectorize"
using namespace llvm;
namespace {
class VPlanVerifier {
const VPDominatorTree &VPDT;
SmallPtrSet<BasicBlock *, 8> WrappedIRBBs;
// Verify that phi-like recipes are at the beginning of \p VPBB, with no
// other recipes in between. Also check that only header blocks contain
// VPHeaderPHIRecipes.
bool verifyPhiRecipes(const VPBasicBlock *VPBB);
bool verifyVPBasicBlock(const VPBasicBlock *VPBB);
bool verifyBlock(const VPBlockBase *VPB);
/// Helper function that verifies the CFG invariants of the VPBlockBases
/// within
/// \p Region. Checks in this function are generic for VPBlockBases. They are
/// not specific for VPBasicBlocks or VPRegionBlocks.
bool verifyBlocksInRegion(const VPRegionBlock *Region);
/// Verify the CFG invariants of VPRegionBlock \p Region and its nested
/// VPBlockBases. Do not recurse inside nested VPRegionBlocks.
bool verifyRegion(const VPRegionBlock *Region);
/// Verify the CFG invariants of VPRegionBlock \p Region and its nested
/// VPBlockBases. Recurse inside nested VPRegionBlocks.
bool verifyRegionRec(const VPRegionBlock *Region);
public:
VPlanVerifier(VPDominatorTree &VPDT) : VPDT(VPDT) {}
bool verify(const VPlan &Plan);
};
} // namespace
bool VPlanVerifier::verifyPhiRecipes(const VPBasicBlock *VPBB) {
auto RecipeI = VPBB->begin();
auto End = VPBB->end();
unsigned NumActiveLaneMaskPhiRecipes = 0;
const VPRegionBlock *ParentR = VPBB->getParent();
bool IsHeaderVPBB = ParentR && !ParentR->isReplicator() &&
ParentR->getEntryBasicBlock() == VPBB;
while (RecipeI != End && RecipeI->isPhi()) {
if (isa<VPActiveLaneMaskPHIRecipe>(RecipeI))
NumActiveLaneMaskPhiRecipes++;
if (IsHeaderVPBB && !isa<VPHeaderPHIRecipe, VPWidenPHIRecipe>(*RecipeI)) {
errs() << "Found non-header PHI recipe in header VPBB";
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
errs() << ": ";
RecipeI->dump();
#endif
return false;
}
if (!IsHeaderVPBB && isa<VPHeaderPHIRecipe>(*RecipeI)) {
errs() << "Found header PHI recipe in non-header VPBB";
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
errs() << ": ";
RecipeI->dump();
#endif
return false;
}
RecipeI++;
}
if (NumActiveLaneMaskPhiRecipes > 1) {
errs() << "There should be no more than one VPActiveLaneMaskPHIRecipe";
return false;
}
while (RecipeI != End) {
if (RecipeI->isPhi() && !isa<VPBlendRecipe>(&*RecipeI)) {
errs() << "Found phi-like recipe after non-phi recipe";
#if !defined(NDEBUG) || defined(LLVM_ENABLE_DUMP)
errs() << ": ";
RecipeI->dump();
errs() << "after\n";
std::prev(RecipeI)->dump();
#endif
return false;
}
RecipeI++;
}
return true;
}
bool VPlanVerifier::verifyVPBasicBlock(const VPBasicBlock *VPBB) {
if (!verifyPhiRecipes(VPBB))
return false;
// Verify that defs in VPBB dominate all their uses. The current
// implementation is still incomplete.
DenseMap<const VPRecipeBase *, unsigned> RecipeNumbering;
unsigned Cnt = 0;
for (const VPRecipeBase &R : *VPBB)
RecipeNumbering[&R] = Cnt++;
for (const VPRecipeBase &R : *VPBB) {
for (const VPValue *V : R.definedValues()) {
for (const VPUser *U : V->users()) {
auto *UI = dyn_cast<VPRecipeBase>(U);
// TODO: check dominance of incoming values for phis properly.
if (!UI ||
isa<VPHeaderPHIRecipe, VPWidenPHIRecipe, VPPredInstPHIRecipe>(UI))
continue;
// If the user is in the same block, check it comes after R in the
// block.
if (UI->getParent() == VPBB) {
if (RecipeNumbering[UI] < RecipeNumbering[&R]) {
errs() << "Use before def!\n";
return false;
}
continue;
}
if (!VPDT.dominates(VPBB, UI->getParent())) {
errs() << "Use before def!\n";
return false;
}
}
}
}
auto *IRBB = dyn_cast<VPIRBasicBlock>(VPBB);
if (!IRBB)
return true;
if (!WrappedIRBBs.insert(IRBB->getIRBasicBlock()).second) {
errs() << "Same IR basic block used by multiple wrapper blocks!\n";
return false;
}
VPBlockBase *MiddleBB =
IRBB->getPlan()->getVectorLoopRegion()->getSingleSuccessor();
if (IRBB != IRBB->getPlan()->getPreheader() &&
IRBB->getSinglePredecessor() != MiddleBB) {
errs() << "VPIRBasicBlock can only be used as pre-header or a successor of "
"middle-block at the moment!\n";
return false;
}
return true;
}
/// Utility function that checks whether \p VPBlockVec has duplicate
/// VPBlockBases.
static bool hasDuplicates(const SmallVectorImpl<VPBlockBase *> &VPBlockVec) {
SmallDenseSet<const VPBlockBase *, 8> VPBlockSet;
for (const auto *Block : VPBlockVec) {
if (VPBlockSet.count(Block))
return true;
VPBlockSet.insert(Block);
}
return false;
}
bool VPlanVerifier::verifyBlock(const VPBlockBase *VPB) {
auto *VPBB = dyn_cast<VPBasicBlock>(VPB);
// Check block's condition bit.
if (VPB->getNumSuccessors() > 1 ||
(VPBB && VPBB->getParent() && VPBB->isExiting() &&
!VPBB->getParent()->isReplicator())) {
if (!VPBB || !VPBB->getTerminator()) {
errs() << "Block has multiple successors but doesn't "
"have a proper branch recipe!\n";
return false;
}
} else {
if (VPBB && VPBB->getTerminator()) {
errs() << "Unexpected branch recipe!\n";
return false;
}
}
// Check block's successors.
const auto &Successors = VPB->getSuccessors();
// There must be only one instance of a successor in block's successor list.
// TODO: This won't work for switch statements.
if (hasDuplicates(Successors)) {
errs() << "Multiple instances of the same successor.\n";
return false;
}
for (const VPBlockBase *Succ : Successors) {
// There must be a bi-directional link between block and successor.
const auto &SuccPreds = Succ->getPredecessors();
if (!is_contained(SuccPreds, VPB)) {
errs() << "Missing predecessor link.\n";
return false;
}
}
// Check block's predecessors.
const auto &Predecessors = VPB->getPredecessors();
// There must be only one instance of a predecessor in block's predecessor
// list.
// TODO: This won't work for switch statements.
if (hasDuplicates(Predecessors)) {
errs() << "Multiple instances of the same predecessor.\n";
return false;
}
for (const VPBlockBase *Pred : Predecessors) {
// Block and predecessor must be inside the same region.
if (Pred->getParent() != VPB->getParent()) {
errs() << "Predecessor is not in the same region.\n";
return false;
}
// There must be a bi-directional link between block and predecessor.
const auto &PredSuccs = Pred->getSuccessors();
if (!is_contained(PredSuccs, VPB)) {
errs() << "Missing successor link.\n";
return false;
}
}
return !VPBB || verifyVPBasicBlock(VPBB);
}
bool VPlanVerifier::verifyBlocksInRegion(const VPRegionBlock *Region) {
for (const VPBlockBase *VPB : vp_depth_first_shallow(Region->getEntry())) {
// Check block's parent.
if (VPB->getParent() != Region) {
errs() << "VPBlockBase has wrong parent\n";
return false;
}
if (!verifyBlock(VPB))
return false;
}
return true;
}
bool VPlanVerifier::verifyRegion(const VPRegionBlock *Region) {
const VPBlockBase *Entry = Region->getEntry();
const VPBlockBase *Exiting = Region->getExiting();
// Entry and Exiting shouldn't have any predecessor/successor, respectively.
if (Entry->getNumPredecessors() != 0) {
errs() << "region entry block has predecessors\n";
return false;
}
if (Exiting->getNumSuccessors() != 0) {
errs() << "region exiting block has successors\n";
return false;
}
return verifyBlocksInRegion(Region);
}
bool VPlanVerifier::verifyRegionRec(const VPRegionBlock *Region) {
// Recurse inside nested regions and check all blocks inside the region.
return verifyRegion(Region) &&
all_of(vp_depth_first_shallow(Region->getEntry()),
[this](const VPBlockBase *VPB) {
const auto *SubRegion = dyn_cast<VPRegionBlock>(VPB);
return !SubRegion || verifyRegionRec(SubRegion);
});
}
bool VPlanVerifier::verify(const VPlan &Plan) {
if (any_of(vp_depth_first_shallow(Plan.getEntry()),
[this](const VPBlockBase *VPB) { return !verifyBlock(VPB); }))
return false;
const VPRegionBlock *TopRegion = Plan.getVectorLoopRegion();
if (!verifyRegionRec(TopRegion))
return false;
if (TopRegion->getParent()) {
errs() << "VPlan Top Region should have no parent.\n";
return false;
}
const VPBasicBlock *Entry = dyn_cast<VPBasicBlock>(TopRegion->getEntry());
if (!Entry) {
errs() << "VPlan entry block is not a VPBasicBlock\n";
return false;
}
if (!isa<VPCanonicalIVPHIRecipe>(&*Entry->begin())) {
errs() << "VPlan vector loop header does not start with a "
"VPCanonicalIVPHIRecipe\n";
return false;
}
const VPBasicBlock *Exiting = dyn_cast<VPBasicBlock>(TopRegion->getExiting());
if (!Exiting) {
errs() << "VPlan exiting block is not a VPBasicBlock\n";
return false;
}
if (Exiting->empty()) {
errs() << "VPlan vector loop exiting block must end with BranchOnCount or "
"BranchOnCond VPInstruction but is empty\n";
return false;
}
auto *LastInst = dyn_cast<VPInstruction>(std::prev(Exiting->end()));
if (!LastInst || (LastInst->getOpcode() != VPInstruction::BranchOnCount &&
LastInst->getOpcode() != VPInstruction::BranchOnCond)) {
errs() << "VPlan vector loop exit must end with BranchOnCount or "
"BranchOnCond VPInstruction\n";
return false;
}
for (const auto &KV : Plan.getLiveOuts())
if (KV.second->getNumOperands() != 1) {
errs() << "live outs must have a single operand\n";
return false;
}
return true;
}
bool llvm::verifyVPlanIsValid(const VPlan &Plan) {
VPDominatorTree VPDT;
VPDT.recalculate(const_cast<VPlan &>(Plan));
VPlanVerifier Verifier(VPDT);
return Verifier.verify(Plan);
}
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