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llvm-mirror/lib/Analysis/AssumeBundleQueries.cpp
Nikita Popov 2812298c44 [Attributes] Replace doesAttrKindHaveArgument() (NFC)
This is now the same as isIntAttrKind(), so use that instead, as
it does not require manual maintenance. The naming is also more
accurate in that both int and type attributes have an argument,
but this method was only targeting int attributes.

I initially wanted to tighten the AttrBuilder assertion, but we
have some in-tree uses that would violate it.
2021-07-12 21:57:26 +02:00

204 lines
7.5 KiB
C++

//===- AssumeBundleQueries.cpp - tool to query assume bundles ---*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "llvm/Analysis/AssumeBundleQueries.h"
#include "llvm/ADT/Statistic.h"
#include "llvm/Analysis/AssumptionCache.h"
#include "llvm/Analysis/ValueTracking.h"
#include "llvm/IR/Function.h"
#include "llvm/IR/InstIterator.h"
#include "llvm/IR/IntrinsicInst.h"
#include "llvm/IR/PatternMatch.h"
#include "llvm/Support/DebugCounter.h"
#define DEBUG_TYPE "assume-queries"
using namespace llvm;
using namespace llvm::PatternMatch;
STATISTIC(NumAssumeQueries, "Number of Queries into an assume assume bundles");
STATISTIC(
NumUsefullAssumeQueries,
"Number of Queries into an assume assume bundles that were satisfied");
DEBUG_COUNTER(AssumeQueryCounter, "assume-queries-counter",
"Controls which assumes gets created");
static bool bundleHasArgument(const CallBase::BundleOpInfo &BOI, unsigned Idx) {
return BOI.End - BOI.Begin > Idx;
}
static Value *getValueFromBundleOpInfo(AssumeInst &Assume,
const CallBase::BundleOpInfo &BOI,
unsigned Idx) {
assert(bundleHasArgument(BOI, Idx) && "index out of range");
return (Assume.op_begin() + BOI.Begin + Idx)->get();
}
bool llvm::hasAttributeInAssume(AssumeInst &Assume, Value *IsOn,
StringRef AttrName, uint64_t *ArgVal) {
assert(Attribute::isExistingAttribute(AttrName) &&
"this attribute doesn't exist");
assert((ArgVal == nullptr || Attribute::isIntAttrKind(
Attribute::getAttrKindFromName(AttrName))) &&
"requested value for an attribute that has no argument");
if (Assume.bundle_op_infos().empty())
return false;
for (auto &BOI : Assume.bundle_op_infos()) {
if (BOI.Tag->getKey() != AttrName)
continue;
if (IsOn && (BOI.End - BOI.Begin <= ABA_WasOn ||
IsOn != getValueFromBundleOpInfo(Assume, BOI, ABA_WasOn)))
continue;
if (ArgVal) {
assert(BOI.End - BOI.Begin > ABA_Argument);
*ArgVal =
cast<ConstantInt>(getValueFromBundleOpInfo(Assume, BOI, ABA_Argument))
->getZExtValue();
}
return true;
}
return false;
}
void llvm::fillMapFromAssume(AssumeInst &Assume, RetainedKnowledgeMap &Result) {
for (auto &Bundles : Assume.bundle_op_infos()) {
std::pair<Value *, Attribute::AttrKind> Key{
nullptr, Attribute::getAttrKindFromName(Bundles.Tag->getKey())};
if (bundleHasArgument(Bundles, ABA_WasOn))
Key.first = getValueFromBundleOpInfo(Assume, Bundles, ABA_WasOn);
if (Key.first == nullptr && Key.second == Attribute::None)
continue;
if (!bundleHasArgument(Bundles, ABA_Argument)) {
Result[Key][&Assume] = {0, 0};
continue;
}
auto *CI = dyn_cast<ConstantInt>(
getValueFromBundleOpInfo(Assume, Bundles, ABA_Argument));
if (!CI)
continue;
unsigned Val = CI->getZExtValue();
auto Lookup = Result.find(Key);
if (Lookup == Result.end() || !Lookup->second.count(&Assume)) {
Result[Key][&Assume] = {Val, Val};
continue;
}
Lookup->second[&Assume].Min = std::min(Val, Lookup->second[&Assume].Min);
Lookup->second[&Assume].Max = std::max(Val, Lookup->second[&Assume].Max);
}
}
RetainedKnowledge
llvm::getKnowledgeFromBundle(AssumeInst &Assume,
const CallBase::BundleOpInfo &BOI) {
RetainedKnowledge Result;
Result.AttrKind = Attribute::getAttrKindFromName(BOI.Tag->getKey());
if (bundleHasArgument(BOI, ABA_WasOn))
Result.WasOn = getValueFromBundleOpInfo(Assume, BOI, ABA_WasOn);
auto GetArgOr1 = [&](unsigned Idx) -> unsigned {
if (auto *ConstInt = dyn_cast<ConstantInt>(
getValueFromBundleOpInfo(Assume, BOI, ABA_Argument + Idx)))
return ConstInt->getZExtValue();
return 1;
};
if (BOI.End - BOI.Begin > ABA_Argument)
Result.ArgValue = GetArgOr1(0);
if (Result.AttrKind == Attribute::Alignment)
if (BOI.End - BOI.Begin > ABA_Argument + 1)
Result.ArgValue = MinAlign(Result.ArgValue, GetArgOr1(1));
return Result;
}
RetainedKnowledge llvm::getKnowledgeFromOperandInAssume(AssumeInst &Assume,
unsigned Idx) {
CallBase::BundleOpInfo BOI = Assume.getBundleOpInfoForOperand(Idx);
return getKnowledgeFromBundle(Assume, BOI);
}
bool llvm::isAssumeWithEmptyBundle(AssumeInst &Assume) {
return none_of(Assume.bundle_op_infos(),
[](const CallBase::BundleOpInfo &BOI) {
return BOI.Tag->getKey() != IgnoreBundleTag;
});
}
static CallInst::BundleOpInfo *getBundleFromUse(const Use *U) {
if (!match(U->getUser(),
m_Intrinsic<Intrinsic::assume>(m_Unless(m_Specific(U->get())))))
return nullptr;
auto *Intr = cast<IntrinsicInst>(U->getUser());
return &Intr->getBundleOpInfoForOperand(U->getOperandNo());
}
RetainedKnowledge
llvm::getKnowledgeFromUse(const Use *U,
ArrayRef<Attribute::AttrKind> AttrKinds) {
CallInst::BundleOpInfo* Bundle = getBundleFromUse(U);
if (!Bundle)
return RetainedKnowledge::none();
RetainedKnowledge RK =
getKnowledgeFromBundle(*cast<AssumeInst>(U->getUser()), *Bundle);
if (llvm::is_contained(AttrKinds, RK.AttrKind))
return RK;
return RetainedKnowledge::none();
}
RetainedKnowledge
llvm::getKnowledgeForValue(const Value *V,
ArrayRef<Attribute::AttrKind> AttrKinds,
AssumptionCache *AC,
function_ref<bool(RetainedKnowledge, Instruction *,
const CallBase::BundleOpInfo *)>
Filter) {
NumAssumeQueries++;
if (!DebugCounter::shouldExecute(AssumeQueryCounter))
return RetainedKnowledge::none();
if (AC) {
for (AssumptionCache::ResultElem &Elem : AC->assumptionsFor(V)) {
auto *II = cast_or_null<AssumeInst>(Elem.Assume);
if (!II || Elem.Index == AssumptionCache::ExprResultIdx)
continue;
if (RetainedKnowledge RK = getKnowledgeFromBundle(
*II, II->bundle_op_info_begin()[Elem.Index])) {
if (V != RK.WasOn)
continue;
if (is_contained(AttrKinds, RK.AttrKind) &&
Filter(RK, II, &II->bundle_op_info_begin()[Elem.Index])) {
NumUsefullAssumeQueries++;
return RK;
}
}
}
return RetainedKnowledge::none();
}
for (const auto &U : V->uses()) {
CallInst::BundleOpInfo* Bundle = getBundleFromUse(&U);
if (!Bundle)
continue;
if (RetainedKnowledge RK =
getKnowledgeFromBundle(*cast<AssumeInst>(U.getUser()), *Bundle))
if (is_contained(AttrKinds, RK.AttrKind) &&
Filter(RK, cast<Instruction>(U.getUser()), Bundle)) {
NumUsefullAssumeQueries++;
return RK;
}
}
return RetainedKnowledge::none();
}
RetainedKnowledge llvm::getKnowledgeValidInContext(
const Value *V, ArrayRef<Attribute::AttrKind> AttrKinds,
const Instruction *CtxI, const DominatorTree *DT, AssumptionCache *AC) {
return getKnowledgeForValue(V, AttrKinds, AC,
[&](auto, Instruction *I, auto) {
return isValidAssumeForContext(I, CtxI, DT);
});
}