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swift-mirror/lib/IRGen/EnumPayload.h
practicalswift 6d1ae2a39c [gardening] 2016 → 2017
2017-01-06 16:41:22 +01:00

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//===--- EnumPayload.h - Payload management for 'enum' Types ----*- C++ -*-===//
//
// 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
//
//===----------------------------------------------------------------------===//
#ifndef SWIFT_IRGEN_ENUMPAYLOAD_H
#define SWIFT_IRGEN_ENUMPAYLOAD_H
#include "IRGenModule.h"
#include "Explosion.h"
#include "TypeInfo.h"
#include "llvm/IR/BasicBlock.h"
#include "llvm/IR/DerivedTypes.h"
#include "llvm/ADT/PointerEmbeddedInt.h"
#include "llvm/ADT/PointerUnion.h"
#include <utility>
namespace swift {
namespace irgen {
/// A description of how to represent an enum payload as a value.
/// A payload can either use a generic word-chunked representation, or attempt
/// to follow the explosion schema of one of its payload types.
class EnumPayloadSchema {
using BitSizeTy = llvm::PointerEmbeddedInt<unsigned, 31>;
const llvm::PointerUnion<ExplosionSchema *, BitSizeTy> Value;
public:
EnumPayloadSchema() : Value((ExplosionSchema *)nullptr) {}
explicit operator bool() {
return Value.getOpaqueValue() != nullptr;
}
explicit EnumPayloadSchema(unsigned bits)
: Value(BitSizeTy(bits)) {}
EnumPayloadSchema(ExplosionSchema &s)
: Value(&s) {}
static EnumPayloadSchema withBitSize(unsigned bits) {
return EnumPayloadSchema(bits);
}
ExplosionSchema *getSchema() const {
return Value.dyn_cast<ExplosionSchema*>();
}
/// Invoke a functor for each element type in the schema.
template<typename TypeFn /* void(llvm::Type *schemaType) */>
void forEachType(IRGenModule &IGM, TypeFn &&fn) const {
// Follow an explosion schema if we have one.
if (auto *explosion = Value.dyn_cast<ExplosionSchema *>()) {
for (auto &element : *explosion) {
auto type = element.getScalarType();
assert(IGM.DataLayout.getTypeSizeInBits(type)
== IGM.DataLayout.getTypeAllocSizeInBits(type)
&& "enum payload schema elements should use full alloc size");
(void) type;
fn(element.getScalarType());
}
return;
}
// Otherwise, chunk into pointer-sized integer values by default.
unsigned bitSize = Value.get<BitSizeTy>();
unsigned pointerSize = IGM.getPointerSize().getValueInBits();
while (bitSize >= pointerSize) {
fn(IGM.SizeTy);
bitSize -= pointerSize;
}
if (bitSize > 0)
fn(llvm::IntegerType::get(IGM.getLLVMContext(), bitSize));
}
};
/// Is a switch default destination unreachable?
enum IsUnreachable_t: bool {
IsNotUnreachable = false,
IsUnreachable = true,
};
using SwitchDefaultDest
= llvm::PointerIntPair<llvm::BasicBlock*, 1, IsUnreachable_t>;
/// An enum payload value. The payload is represented as an explosion of
/// integers and pointers that together represent the bit pattern of
/// the payload.
class EnumPayload {
public:
/// A value, or the type of a zero value in the payload.
using LazyValue = llvm::PointerUnion<llvm::Value *, llvm::Type *>;
mutable SmallVector<LazyValue, 2> PayloadValues;
mutable llvm::Type *StorageType = nullptr;
EnumPayload() = default;
/// Generate a "zero" enum payload.
static EnumPayload zero(IRGenModule &IGM,
EnumPayloadSchema schema);
/// Generate an enum payload containing the given bit pattern.
static EnumPayload fromBitPattern(IRGenModule &IGM,
APInt bitPattern,
EnumPayloadSchema schema);
/// Insert a value into the enum payload.
///
/// The current payload value at the given offset is assumed to be zero.
/// If \p numBitsUsedInValue is non-negative denotes the actual number of bits
/// that need storing in \p value otherwise the full bit-width of \p value
/// will be stored.
void insertValue(IRGenFunction &IGF,
llvm::Value *value, unsigned bitOffset,
int numBitsUsedInValue = -1);
/// Extract a value from the enum payload.
llvm::Value *extractValue(IRGenFunction &IGF,
llvm::Type *type, unsigned bitOffset) const;
/// Take an enum payload out of an explosion.
static EnumPayload fromExplosion(IRGenModule &IGM,
Explosion &in,
EnumPayloadSchema schema);
/// Add the payload to an explosion.
void explode(IRGenModule &IGM, Explosion &out) const;
/// Pack into another enum payload.
void packIntoEnumPayload(IRGenFunction &IGF,
EnumPayload &dest,
unsigned bitOffset) const;
/// Unpack from another enum payload.
static EnumPayload unpackFromEnumPayload(IRGenFunction &IGF,
const EnumPayload &src,
unsigned bitOffset,
EnumPayloadSchema schema);
/// Load an enum payload from memory.
static EnumPayload load(IRGenFunction &IGF, Address address,
EnumPayloadSchema schema);
/// Store an enum payload to memory.
void store(IRGenFunction &IGF, Address address) const;
/// Emit a switch over specific bit patterns for the payload.
/// The value will be tested as if AND-ed against the given mask.
void emitSwitch(IRGenFunction &IGF,
APInt mask,
ArrayRef<std::pair<APInt, llvm::BasicBlock*>> cases,
SwitchDefaultDest dflt) const;
/// Emit an equality comparison operation that payload & mask == value.
llvm::Value *emitCompare(IRGenFunction &IGF,
APInt mask,
APInt value) const;
/// Apply an AND mask to the payload.
void emitApplyAndMask(IRGenFunction &IGF, APInt mask);
/// Apply an OR mask to the payload.
void emitApplyOrMask(IRGenFunction &IGF, APInt mask);
/// Apply an OR mask to the payload.
void emitApplyOrMask(IRGenFunction &IGF, EnumPayload mask);
/// Gather bits from an enum payload based on a spare bit mask.
llvm::Value *emitGatherSpareBits(IRGenFunction &IGF,
const SpareBitVector &spareBits,
unsigned firstBitOffset,
unsigned bitWidth) const;
};
}
}
#endif
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