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//===--- LayoutConstraint.cpp - Layout constraints types and APIs ---------===//
//
// This source file is part of the Swift.org open source project
//
// Copyright (c) 2014 - 2017 Apple Inc. and the Swift project authors
// Licensed under Apache License v2.0 with Runtime Library Exception
//
// See https://swift.org/LICENSE.txt for license information
// See https://swift.org/CONTRIBUTORS.txt for the list of Swift project authors
//
//===----------------------------------------------------------------------===//
//
// This file implements APIs for layout constraints.
//
//===----------------------------------------------------------------------===//
#include "swift/AST/ASTContext.h"
#include "swift/AST/Decl.h"
#include "swift/AST/Types.h"
namespace swift {
/// This helper function is typically used by the parser to
/// map a type name to a corresponding layout constraint if possible.
LayoutConstraint getLayoutConstraint(Identifier ID, ASTContext &Ctx) {
if (ID == Ctx.Id_TrivialLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::TrivialOfExactSize, 0, 0, Ctx);
if (ID == Ctx.Id_TrivialAtMostLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::TrivialOfAtMostSize, 0, 0, Ctx);
if (ID == Ctx.Id_RefCountedObjectLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::RefCountedObject, Ctx);
if (ID == Ctx.Id_NativeRefCountedObjectLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::NativeRefCountedObject, Ctx);
if (ID == Ctx.Id_ClassLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::Class, Ctx);
if (ID == Ctx.Id_NativeClassLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::NativeClass, Ctx);
if (ID == Ctx.Id_BridgeObjectLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::BridgeObject, Ctx);
if (ID == Ctx.Id_TrivialStrideLayout)
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::TrivialStride, 0, 0, Ctx);
return LayoutConstraint::getLayoutConstraint(
LayoutConstraintKind::UnknownLayout, Ctx);
}
StringRef LayoutConstraintInfo::getName(bool internalName) const {
return getName(getKind(), internalName);
}
StringRef LayoutConstraintInfo::getName(LayoutConstraintKind Kind, bool internalName) {
switch (Kind) {
case LayoutConstraintKind::UnknownLayout:
return "_UnknownLayout";
case LayoutConstraintKind::Class:
return internalName ? "_Class" : "AnyObject";
case LayoutConstraintKind::NativeClass:
return "_NativeClass";
case LayoutConstraintKind::RefCountedObject:
return "_RefCountedObject";
case LayoutConstraintKind::NativeRefCountedObject:
return "_NativeRefCountedObject";
case LayoutConstraintKind::Trivial:
return "_Trivial";
case LayoutConstraintKind::TrivialOfAtMostSize:
return "_TrivialAtMost";
case LayoutConstraintKind::TrivialOfExactSize:
return "_Trivial";
case LayoutConstraintKind::BridgeObject:
return "_BridgeObject";
case LayoutConstraintKind::TrivialStride:
return "_TrivialStride";
}
llvm_unreachable("Unhandled LayoutConstraintKind in switch.");
}
/// Uniquing for the LayoutConstraintInfo.
void LayoutConstraintInfo::Profile(llvm::FoldingSetNodeID &ID,
LayoutConstraintKind Kind,
unsigned SizeInBits,
unsigned Alignment) {
ID.AddInteger((unsigned)Kind);
ID.AddInteger(SizeInBits);
ID.AddInteger(Alignment);
}
bool LayoutConstraintInfo::isKnownLayout(LayoutConstraintKind Kind) {
return Kind != LayoutConstraintKind::UnknownLayout;
}
bool LayoutConstraintInfo::isFixedSizeTrivial(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::TrivialOfExactSize;
}
bool LayoutConstraintInfo::isKnownSizeTrivial(LayoutConstraintKind Kind) {
return Kind > LayoutConstraintKind::UnknownLayout &&
Kind < LayoutConstraintKind::Trivial;
}
bool LayoutConstraintInfo::isAddressOnlyTrivial(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::Trivial;
}
bool LayoutConstraintInfo::isTrivial(LayoutConstraintKind Kind) {
return (Kind > LayoutConstraintKind::UnknownLayout &&
Kind <= LayoutConstraintKind::Trivial) ||
Kind == LayoutConstraintKind::TrivialStride;
}
bool LayoutConstraintInfo::isRefCountedObject(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::RefCountedObject;
}
bool LayoutConstraintInfo::isNativeRefCountedObject(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::NativeRefCountedObject;
}
bool LayoutConstraintInfo::isAnyRefCountedObject(LayoutConstraintKind Kind) {
return isRefCountedObject(Kind) || isNativeRefCountedObject(Kind);
}
bool LayoutConstraintInfo::isClass(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::Class ||
Kind == LayoutConstraintKind::NativeClass;
}
bool LayoutConstraintInfo::isNativeClass(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::NativeClass;
}
bool LayoutConstraintInfo::isRefCounted(LayoutConstraintKind Kind) {
return isAnyRefCountedObject(Kind) || isClass(Kind) || isBridgeObject(Kind);
}
bool LayoutConstraintInfo::isNativeRefCounted(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::NativeRefCountedObject ||
Kind == LayoutConstraintKind::NativeClass;
}
bool LayoutConstraintInfo::isBridgeObject(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::BridgeObject;
}
bool LayoutConstraintInfo::isTrivialStride(LayoutConstraintKind Kind) {
return Kind == LayoutConstraintKind::TrivialStride;
}
SourceRange LayoutConstraintLoc::getSourceRange() const { return getLoc(); }
#define MERGE_LOOKUP(lhs, rhs) \
mergeTable[int(lhs)][int(rhs)]
// Shortcut for spelling the whole enumerator.
#define E(X) LayoutConstraintKind::X
#define MERGE_CONFLICT LayoutConstraintKind::UnknownLayout
/// This is a 2-D table defining the merging rules for layout constraints.
/// It is indexed by means of LayoutConstraintKind.
/// mergeTable[i][j] tells the kind of a layout constraint is the result
/// of merging layout constraints of kinds 'i' and 'j'.
///
/// Some of the properties of the merge table, where C is any type of layout
/// constraint:
/// UnknownLayout x C -> C
/// C x UnknownLayout -> C
/// C x C -> C
/// mergeTable[i][j] == mergeTable[j][i], i.e. the table is symmetric.
/// mergeTable[i][j] == UnknownLayout if merging layout constraints of kinds i
/// and j would result in a conflict.
static LayoutConstraintKind mergeTable[unsigned(E(LastLayout)) +
1][unsigned(E(LastLayout)) + 1] = {
// Initialize the row for UnknownLayout.
{E(/* UnknownLayout */ UnknownLayout),
E(/* TrivialOfExactSize */ TrivialOfExactSize),
E(/* TrivialOfAtMostSize */ TrivialOfAtMostSize), E(/* Trivial */ Trivial),
E(/* Class */ Class), E(/* NativeClass */ NativeClass),
E(/* RefCountedObject*/ RefCountedObject),
E(/* NativeRefCountedObject */ NativeRefCountedObject), MERGE_CONFLICT,
MERGE_CONFLICT},
// Initialize the row for TrivialOfExactSize.
{E(/* UnknownLayout */ TrivialOfExactSize),
E(/* TrivialOfExactSize */ TrivialOfExactSize), MERGE_CONFLICT,
E(/* Trivial */ TrivialOfExactSize), MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT},
// Initialize the row for TrivialOfAtMostSize.
{E(/* UnknownLayout */ TrivialOfAtMostSize), MERGE_CONFLICT,
E(/* TrivialOfAtMostSize */ TrivialOfAtMostSize),
E(/* Trivial */ TrivialOfAtMostSize), MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT},
// Initialize the row for Trivial.
{E(/* UnknownLayout */ Trivial),
E(/* TrivialOfExactSize */ TrivialOfExactSize),
E(/* TrivialOfAtMostSize */ TrivialOfAtMostSize), E(/* Trivial */ Trivial),
MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT},
// Initialize the row for Class.
{E(/* UnknownLayout*/ Class), MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, E(/* Class */ Class), E(/* NativeClass */ NativeClass),
E(/* RefCountedObject */ Class),
E(/* NativeRefCountedObject */ NativeClass), MERGE_CONFLICT,
MERGE_CONFLICT},
// Initialize the row for NativeClass.
{E(/* UnknownLayout */ NativeClass), MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, E(/* Class */ NativeClass),
E(/* NativeClass */ NativeClass), E(/* RefCountedObject */ NativeClass),
E(/* NativeRefCountedObject */ NativeClass), MERGE_CONFLICT,
MERGE_CONFLICT},
// Initialize the row for RefCountedObject.
{E(/* UnknownLayout */ RefCountedObject), MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, E(/* Class */ Class), E(/* NativeClass */ NativeClass),
E(/* RefCountedObject */ RefCountedObject),
E(/* NativeRefCountedObject */ NativeRefCountedObject), MERGE_CONFLICT,
MERGE_CONFLICT},
// Initialize the row for NativeRefCountedObject.
{E(/* UnknownLayout */ NativeRefCountedObject), MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT, E(/* Class */ NativeClass),
E(/* NativeClass */ NativeClass),
E(/* RefCountedObject */ NativeRefCountedObject),
E(/* NativeRefCountedObject*/ NativeRefCountedObject), MERGE_CONFLICT,
MERGE_CONFLICT},
{E(BridgeObject), MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT,
E(/*BridgeObject*/ BridgeObject), MERGE_CONFLICT},
{E(TrivialStride), MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT, MERGE_CONFLICT,
MERGE_CONFLICT, E(/*TrivialStride*/ TrivialStride)},
};
#undef E
// Fixed-size trivial constraint can be combined with AtMostSize trivial
// constraint into a fixed-size trivial constraint, if
// fixed_size_layout.size <= at_most_size_layout.size and
// their alignment requirements are not contradicting.
//
// Only merges if LHS would become the result of the merge.
static LayoutConstraint
mergeKnownSizeTrivialConstraints(LayoutConstraint LHS, LayoutConstraint RHS) {
assert(LHS->isKnownSizeTrivial() && RHS->isKnownSizeTrivial());
// LHS should be fixed-size.
if (!LHS->isFixedSizeTrivial())
return LayoutConstraint::getUnknownLayout();
// RHS should be at-most-size.
if (RHS->isFixedSizeTrivial())
return LayoutConstraint::getUnknownLayout();
// Check that sizes are compatible, i.e.
// fixed_size_layout.size <= at_most_size_layout.size
if (LHS->getMaxTrivialSizeInBits() > RHS->getMaxTrivialSizeInBits())
return LayoutConstraint::getUnknownLayout();
// Check alignments
// Quick exit if at_most_size_layout does not care about the alignment.
if (!RHS->getAlignmentInBits())
return LHS;
// Check if fixed_size_layout.alignment is a multiple of
// at_most_size_layout.alignment.
if (LHS->getAlignmentInBits() &&
LHS->getAlignmentInBits() % RHS->getAlignmentInBits() == 0)
return LHS;
return LayoutConstraint::getUnknownLayout();
}
LayoutConstraint
LayoutConstraint::merge(LayoutConstraint Other) {
auto Self = *this;
// If both constraints are the same, they are always equal.
if (Self == Other)
return Self;
// TrivialOfExactSize and TrivialOfAtMostSize are a special case,
// because not only their kind, but their parameters need to be compared as
// well.
if (Self->isKnownSizeTrivial() && Other->isKnownSizeTrivial()) {
// If we got here, it means that the Self == Other check above has failed.
// And that could only happen if either the kinds are different or
// size/alignment parameters are different.
// Try to merge fixed-size constraint with an at-most-size constraint,
// if possible.
LayoutConstraint MergedKnownSizeTrivial;
MergedKnownSizeTrivial = mergeKnownSizeTrivialConstraints(Self, Other);
if (MergedKnownSizeTrivial->isKnownLayout())
return MergedKnownSizeTrivial;
MergedKnownSizeTrivial = mergeKnownSizeTrivialConstraints(Other, Self);
if (MergedKnownSizeTrivial->isKnownLayout())
return MergedKnownSizeTrivial;
return LayoutConstraint::getUnknownLayout();
}
// Lookup in the mergeTable if this combination of layouts can be merged.
auto mergeKind = MERGE_LOOKUP(Self->getKind(), Other->getKind());
// The merge table should be symmetric.
assert(mergeKind == MERGE_LOOKUP(Other->getKind(), Self->getKind()));
// Merge is not possible, report a conflict.
if (mergeKind == LayoutConstraintKind::UnknownLayout)
return LayoutConstraint::getUnknownLayout();
if (Self->getKind() == mergeKind)
return Self;
if (Other->getKind() == mergeKind)
return Other;
// The result of the merge is not equal to any of the input constraints, e.g.
// Class x NativeRefCountedObject -> NativeClass.
return LayoutConstraint::getLayoutConstraint(mergeKind);
}
LayoutConstraint
LayoutConstraint::getLayoutConstraint(LayoutConstraintKind Kind) {
assert(!LayoutConstraintInfo::isKnownSizeTrivial(Kind));
assert(!LayoutConstraintInfo::isTrivialStride(Kind));
switch(Kind) {
case LayoutConstraintKind::Trivial:
return LayoutConstraint(&LayoutConstraintInfo::TrivialConstraintInfo);
case LayoutConstraintKind::NativeClass:
return LayoutConstraint(&LayoutConstraintInfo::NativeClassConstraintInfo);
case LayoutConstraintKind::Class:
return LayoutConstraint(&LayoutConstraintInfo::ClassConstraintInfo);
case LayoutConstraintKind::NativeRefCountedObject:
return LayoutConstraint(
&LayoutConstraintInfo::NativeRefCountedObjectConstraintInfo);
case LayoutConstraintKind::RefCountedObject:
return LayoutConstraint(
&LayoutConstraintInfo::RefCountedObjectConstraintInfo);
case LayoutConstraintKind::UnknownLayout:
return LayoutConstraint(&LayoutConstraintInfo::UnknownLayoutConstraintInfo);
case LayoutConstraintKind::BridgeObject:
return LayoutConstraint(&LayoutConstraintInfo::BridgeObjectConstraintInfo);
case LayoutConstraintKind::TrivialOfAtMostSize:
case LayoutConstraintKind::TrivialOfExactSize:
case LayoutConstraintKind::TrivialStride:
llvm_unreachable("Wrong layout constraint kind");
}
llvm_unreachable("unhandled kind");
}
LayoutConstraint LayoutConstraint::getUnknownLayout() {
return LayoutConstraint(&LayoutConstraintInfo::UnknownLayoutConstraintInfo);
}
LayoutConstraintInfo LayoutConstraintInfo::UnknownLayoutConstraintInfo;
LayoutConstraintInfo LayoutConstraintInfo::RefCountedObjectConstraintInfo(
LayoutConstraintKind::RefCountedObject);
LayoutConstraintInfo LayoutConstraintInfo::NativeRefCountedObjectConstraintInfo(
LayoutConstraintKind::NativeRefCountedObject);
LayoutConstraintInfo LayoutConstraintInfo::ClassConstraintInfo(
LayoutConstraintKind::Class);
LayoutConstraintInfo LayoutConstraintInfo::NativeClassConstraintInfo(
LayoutConstraintKind::NativeClass);
LayoutConstraintInfo LayoutConstraintInfo::TrivialConstraintInfo(
LayoutConstraintKind::Trivial);
LayoutConstraintInfo LayoutConstraintInfo::BridgeObjectConstraintInfo(
LayoutConstraintKind::BridgeObject);
int LayoutConstraint::compare(LayoutConstraint rhs) const {
if (Ptr->getKind() != rhs->getKind())
return int(rhs->getKind()) - int(Ptr->getKind());
if (Ptr->SizeInBits != rhs->SizeInBits)
return int(rhs->SizeInBits) - int(Ptr->SizeInBits);
if (Ptr->Alignment != rhs->Alignment)
return int(rhs->Alignment) - int(Ptr->Alignment);
assert(*this == rhs);
return 0;
}
} // end namespace swift
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