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#pragma once
#ifdef __GNUC__
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#endif
//===- ValueLattice.h - Value constraint analysis ---------------*- 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
//
//===----------------------------------------------------------------------===//
#ifndef LLVM_ANALYSIS_VALUELATTICE_H
#define LLVM_ANALYSIS_VALUELATTICE_H
#include "llvm/IR/Constants.h"
#include "llvm/IR/ConstantRange.h"
#include "llvm/IR/Instructions.h"
//===----------------------------------------------------------------------===//
// ValueLatticeElement
//===----------------------------------------------------------------------===//
namespace llvm {
class Constant;
/// This class represents lattice values for constants.
///
/// FIXME: This is basically just for bringup, this can be made a lot more rich
/// in the future.
///
class ValueLatticeElement {
enum ValueLatticeElementTy {
/// This Value has no known value yet. As a result, this implies the
/// producing instruction is dead. Caution: We use this as the starting
/// state in our local meet rules. In this usage, it's taken to mean
/// "nothing known yet".
/// Transition to any other state allowed.
unknown,
/// This Value is an UndefValue constant or produces undef. Undefined values
/// can be merged with constants (or single element constant ranges),
/// assuming all uses of the result will be replaced.
/// Transition allowed to the following states:
/// constant
/// constantrange_including_undef
/// overdefined
undef,
/// This Value has a specific constant value. The constant cannot be undef.
/// (For constant integers, constantrange is used instead. Integer typed
/// constantexprs can appear as constant.) Note that the constant state
/// can be reached by merging undef & constant states.
/// Transition allowed to the following states:
/// overdefined
constant,
/// This Value is known to not have the specified value. (For constant
/// integers, constantrange is used instead. As above, integer typed
/// constantexprs can appear here.)
/// Transition allowed to the following states:
/// overdefined
notconstant,
/// The Value falls within this range. (Used only for integer typed values.)
/// Transition allowed to the following states:
/// constantrange (new range must be a superset of the existing range)
/// constantrange_including_undef
/// overdefined
constantrange,
/// This Value falls within this range, but also may be undef.
/// Merging it with other constant ranges results in
/// constantrange_including_undef.
/// Transition allowed to the following states:
/// overdefined
constantrange_including_undef,
/// We can not precisely model the dynamic values this value might take.
/// No transitions are allowed after reaching overdefined.
overdefined,
};
ValueLatticeElementTy Tag : 8;
/// Number of times a constant range has been extended with widening enabled.
unsigned NumRangeExtensions : 8;
/// The union either stores a pointer to a constant or a constant range,
/// associated to the lattice element. We have to ensure that Range is
/// initialized or destroyed when changing state to or from constantrange.
union {
Constant *ConstVal;
ConstantRange Range;
};
/// Destroy contents of lattice value, without destructing the object.
void destroy() {
switch (Tag) {
case overdefined:
case unknown:
case undef:
case constant:
case notconstant:
break;
case constantrange_including_undef:
case constantrange:
Range.~ConstantRange();
break;
};
}
public:
/// Struct to control some aspects related to merging constant ranges.
struct MergeOptions {
/// The merge value may include undef.
bool MayIncludeUndef;
/// Handle repeatedly extending a range by going to overdefined after a
/// number of steps.
bool CheckWiden;
/// The number of allowed widening steps (including setting the range
/// initially).
unsigned MaxWidenSteps;
MergeOptions() : MergeOptions(false, false) {}
MergeOptions(bool MayIncludeUndef, bool CheckWiden,
unsigned MaxWidenSteps = 1)
: MayIncludeUndef(MayIncludeUndef), CheckWiden(CheckWiden),
MaxWidenSteps(MaxWidenSteps) {}
MergeOptions &setMayIncludeUndef(bool V = true) {
MayIncludeUndef = V;
return *this;
}
MergeOptions &setCheckWiden(bool V = true) {
CheckWiden = V;
return *this;
}
MergeOptions &setMaxWidenSteps(unsigned Steps = 1) {
CheckWiden = true;
MaxWidenSteps = Steps;
return *this;
}
};
// ConstVal and Range are initialized on-demand.
ValueLatticeElement() : Tag(unknown), NumRangeExtensions(0) {}
~ValueLatticeElement() { destroy(); }
ValueLatticeElement(const ValueLatticeElement &Other)
: Tag(Other.Tag), NumRangeExtensions(0) {
switch (Other.Tag) {
case constantrange:
case constantrange_including_undef:
new (&Range) ConstantRange(Other.Range);
NumRangeExtensions = Other.NumRangeExtensions;
break;
case constant:
case notconstant:
ConstVal = Other.ConstVal;
break;
case overdefined:
case unknown:
case undef:
break;
}
}
ValueLatticeElement(ValueLatticeElement &&Other)
: Tag(Other.Tag), NumRangeExtensions(0) {
switch (Other.Tag) {
case constantrange:
case constantrange_including_undef:
new (&Range) ConstantRange(std::move(Other.Range));
NumRangeExtensions = Other.NumRangeExtensions;
break;
case constant:
case notconstant:
ConstVal = Other.ConstVal;
break;
case overdefined:
case unknown:
case undef:
break;
}
Other.Tag = unknown;
}
ValueLatticeElement &operator=(const ValueLatticeElement &Other) {
destroy();
new (this) ValueLatticeElement(Other);
return *this;
}
ValueLatticeElement &operator=(ValueLatticeElement &&Other) {
destroy();
new (this) ValueLatticeElement(std::move(Other));
return *this;
}
static ValueLatticeElement get(Constant *C) {
ValueLatticeElement Res;
if (isa<UndefValue>(C))
Res.markUndef();
else
Res.markConstant(C);
return Res;
}
static ValueLatticeElement getNot(Constant *C) {
ValueLatticeElement Res;
assert(!isa<UndefValue>(C) && "!= undef is not supported");
Res.markNotConstant(C);
return Res;
}
static ValueLatticeElement getRange(ConstantRange CR,
bool MayIncludeUndef = false) {
if (CR.isFullSet())
return getOverdefined();
if (CR.isEmptySet()) {
ValueLatticeElement Res;
if (MayIncludeUndef)
Res.markUndef();
return Res;
}
ValueLatticeElement Res;
Res.markConstantRange(std::move(CR),
MergeOptions().setMayIncludeUndef(MayIncludeUndef));
return Res;
}
static ValueLatticeElement getOverdefined() {
ValueLatticeElement Res;
Res.markOverdefined();
return Res;
}
bool isUndef() const { return Tag == undef; }
bool isUnknown() const { return Tag == unknown; }
bool isUnknownOrUndef() const { return Tag == unknown || Tag == undef; }
bool isConstant() const { return Tag == constant; }
bool isNotConstant() const { return Tag == notconstant; }
bool isConstantRangeIncludingUndef() const {
return Tag == constantrange_including_undef;
}
/// Returns true if this value is a constant range. Use \p UndefAllowed to
/// exclude non-singleton constant ranges that may also be undef. Note that
/// this function also returns true if the range may include undef, but only
/// contains a single element. In that case, it can be replaced by a constant.
bool isConstantRange(bool UndefAllowed = true) const {
return Tag == constantrange || (Tag == constantrange_including_undef &&
(UndefAllowed || Range.isSingleElement()));
}
bool isOverdefined() const { return Tag == overdefined; }
Constant *getConstant() const {
assert(isConstant() && "Cannot get the constant of a non-constant!");
return ConstVal;
}
Constant *getNotConstant() const {
assert(isNotConstant() && "Cannot get the constant of a non-notconstant!");
return ConstVal;
}
/// Returns the constant range for this value. Use \p UndefAllowed to exclude
/// non-singleton constant ranges that may also be undef. Note that this
/// function also returns a range if the range may include undef, but only
/// contains a single element. In that case, it can be replaced by a constant.
const ConstantRange &getConstantRange(bool UndefAllowed = true) const {
assert(isConstantRange(UndefAllowed) &&
"Cannot get the constant-range of a non-constant-range!");
return Range;
}
std::optional<APInt> asConstantInteger() const {
if (isConstant() && isa<ConstantInt>(getConstant())) {
return cast<ConstantInt>(getConstant())->getValue();
} else if (isConstantRange() && getConstantRange().isSingleElement()) {
return *getConstantRange().getSingleElement();
}
return std::nullopt;
}
bool markOverdefined() {
if (isOverdefined())
return false;
destroy();
Tag = overdefined;
return true;
}
bool markUndef() {
if (isUndef())
return false;
assert(isUnknown());
Tag = undef;
return true;
}
bool markConstant(Constant *V, bool MayIncludeUndef = false) {
if (isa<UndefValue>(V))
return markUndef();
if (isConstant()) {
assert(getConstant() == V && "Marking constant with different value");
return false;
}
if (ConstantInt *CI = dyn_cast<ConstantInt>(V))
return markConstantRange(
ConstantRange(CI->getValue()),
MergeOptions().setMayIncludeUndef(MayIncludeUndef));
assert(isUnknown() || isUndef());
Tag = constant;
ConstVal = V;
return true;
}
bool markNotConstant(Constant *V) {
assert(V && "Marking constant with NULL");
if (ConstantInt *CI = dyn_cast<ConstantInt>(V))
return markConstantRange(
ConstantRange(CI->getValue() + 1, CI->getValue()));
if (isa<UndefValue>(V))
return false;
if (isNotConstant()) {
assert(getNotConstant() == V && "Marking !constant with different value");
return false;
}
assert(isUnknown());
Tag = notconstant;
ConstVal = V;
return true;
}
/// Mark the object as constant range with \p NewR. If the object is already a
/// constant range, nothing changes if the existing range is equal to \p
/// NewR and the tag. Otherwise \p NewR must be a superset of the existing
/// range or the object must be undef. The tag is set to
/// constant_range_including_undef if either the existing value or the new
/// range may include undef.
bool markConstantRange(ConstantRange NewR,
MergeOptions Opts = MergeOptions()) {
assert(!NewR.isEmptySet() && "should only be called for non-empty sets");
if (NewR.isFullSet())
return markOverdefined();
ValueLatticeElementTy OldTag = Tag;
ValueLatticeElementTy NewTag =
(isUndef() || isConstantRangeIncludingUndef() || Opts.MayIncludeUndef)
? constantrange_including_undef
: constantrange;
if (isConstantRange()) {
Tag = NewTag;
if (getConstantRange() == NewR)
return Tag != OldTag;
// Simple form of widening. If a range is extended multiple times, go to
// overdefined.
if (Opts.CheckWiden && ++NumRangeExtensions > Opts.MaxWidenSteps)
return markOverdefined();
assert(NewR.contains(getConstantRange()) &&
"Existing range must be a subset of NewR");
Range = std::move(NewR);
return true;
}
assert(isUnknown() || isUndef());
NumRangeExtensions = 0;
Tag = NewTag;
new (&Range) ConstantRange(std::move(NewR));
return true;
}
/// Updates this object to approximate both this object and RHS. Returns
/// true if this object has been changed.
bool mergeIn(const ValueLatticeElement &RHS,
MergeOptions Opts = MergeOptions()) {
if (RHS.isUnknown() || isOverdefined())
return false;
if (RHS.isOverdefined()) {
markOverdefined();
return true;
}
if (isUndef()) {
assert(!RHS.isUnknown());
if (RHS.isUndef())
return false;
if (RHS.isConstant())
return markConstant(RHS.getConstant(), true);
if (RHS.isConstantRange())
return markConstantRange(RHS.getConstantRange(true),
Opts.setMayIncludeUndef());
return markOverdefined();
}
if (isUnknown()) {
assert(!RHS.isUnknown() && "Unknow RHS should be handled earlier");
*this = RHS;
return true;
}
if (isConstant()) {
if (RHS.isConstant() && getConstant() == RHS.getConstant())
return false;
if (RHS.isUndef())
return false;
markOverdefined();
return true;
}
if (isNotConstant()) {
if (RHS.isNotConstant() && getNotConstant() == RHS.getNotConstant())
return false;
markOverdefined();
return true;
}
auto OldTag = Tag;
assert(isConstantRange() && "New ValueLattice type?");
if (RHS.isUndef()) {
Tag = constantrange_including_undef;
return OldTag != Tag;
}
if (!RHS.isConstantRange()) {
// We can get here if we've encountered a constantexpr of integer type
// and merge it with a constantrange.
markOverdefined();
return true;
}
ConstantRange NewR = getConstantRange().unionWith(RHS.getConstantRange());
return markConstantRange(
std::move(NewR),
Opts.setMayIncludeUndef(RHS.isConstantRangeIncludingUndef()));
}
// Compares this symbolic value with Other using Pred and returns either
/// true, false or undef constants, or nullptr if the comparison cannot be
/// evaluated.
Constant *getCompare(CmpInst::Predicate Pred, Type *Ty,
const ValueLatticeElement &Other,
const DataLayout &DL) const;
unsigned getNumRangeExtensions() const { return NumRangeExtensions; }
void setNumRangeExtensions(unsigned N) { NumRangeExtensions = N; }
};
static_assert(sizeof(ValueLatticeElement) <= 40,
"size of ValueLatticeElement changed unexpectedly");
raw_ostream &operator<<(raw_ostream &OS, const ValueLatticeElement &Val);
} // end namespace llvm
#endif
#ifdef __GNUC__
#pragma GCC diagnostic pop
#endif
|