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swift-mirror/lib/SILOptimizer/Transforms/ArrayCountPropagation.cpp
John McCall ab3f77baf2 Make SILInstruction no longer a subclass of ValueBase and 
introduce a common superclass, SILNode.

This is in preparation for allowing instructions to have multiple
results.  It is also a somewhat more elegant representation for
instructions that have zero results.  Instructions that are known
to have exactly one result inherit from a class, SingleValueInstruction,
that subclasses both ValueBase and SILInstruction.  Some care must be
taken when working with SILNode pointers and testing for equality;
please see the comment on SILNode for more information.

A number of SIL passes needed to be updated in order to handle this
new distinction between SIL values and SIL instructions.

Note that the SIL parser is now stricter about not trying to assign
a result value from an instruction (like 'return' or 'strong_retain')
that does not produce any.
2017-09-25 02:06:26 -04:00

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//===--- ArrayCountPropagation.cpp - Propagate the count of arrays --------===//
//
// 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
//
//===----------------------------------------------------------------------===//
#define DEBUG_TYPE "array-count-propagation"
#include "llvm/ADT/SetVector.h"
#include "llvm/ADT/SmallVector.h"
#include "swift/SILOptimizer/PassManager/Passes.h"
#include "swift/SILOptimizer/PassManager/Transforms.h"
#include "swift/SILOptimizer/Analysis/ArraySemantic.h"
#include "swift/SIL/DebugUtils.h"
using namespace swift;
/// Propagate the count of array values to calls of the array's count method.
///
/// Array literal construction and array initialization of array values
/// associates a count with the array value. This count can be propagated to the
/// count method if we can prove that the array value has not changed until
/// reading the array value's count.
/// Propagation of the count of one array allocation.
///
/// We propagate the count parameter to calls of
///
/// * Array.init(count:repeatedValue:)
/// * Array._adoptStorage(storage:count:)
/// * Array._allocateUninitialized(count:)
///
/// To Array.count users of the returned array value if we can prove that the
/// array value is not modified.
///
/// Currently, we recursively look at all array value uses and if any use could
/// escape or change the array value we give up. This is flow insensitive.
namespace {
class ArrayAllocation {
/// The array allocation call.
ApplyInst *Alloc;
/// The array value returned by the allocation call.
SILValue ArrayValue;
/// The count of the allocated array.
SILValue ArrayCount;
// The calls to Array.count that use this array allocation.
llvm::SmallSetVector<ApplyInst *, 16> CountCalls;
// Array count calls that are dead as a consequence of propagating the count
// value.
llvm::SmallVectorImpl<ApplyInst *> &DeadArrayCountCalls;
ArrayAllocation(ApplyInst *AI, llvm::SmallVectorImpl<ApplyInst *> &DeadCalls)
: Alloc(AI), DeadArrayCountCalls(DeadCalls) {}
bool propagate();
bool isInitializationWithKnownCount();
bool analyzeArrayValueUses();
bool recursivelyCollectUses(ValueBase *Def);
bool propagateCountToUsers();
public:
static bool tryPropagate(ApplyInst *Inst,
llvm::SmallVectorImpl<ApplyInst *> &DeadCalls) {
return ArrayAllocation(Inst, DeadCalls).propagate();
}
};
} // end anonymous namespace
/// Propagate the count of an array created to count method calls on the same
/// array.
///
/// We have to prove that the size of the array value is not changed in between
/// the creation and the method call to count.
bool ArrayAllocation::propagate() {
if (!isInitializationWithKnownCount())
return false;
// The array value was stored or has escaped.
if (!analyzeArrayValueUses())
return false;
// No count users.
if (CountCalls.empty())
return false;
return propagateCountToUsers();
}
/// Check that we have an array initialization call with a known count.
///
/// The returned array value is known not to be aliased since it was just
/// allocated.
bool ArrayAllocation::isInitializationWithKnownCount() {
ArraySemanticsCall Uninitialized(Alloc, "array.uninitialized");
if (Uninitialized &&
(ArrayCount = Uninitialized.getInitializationCount()) &&
(ArrayValue = Uninitialized.getArrayValue()))
return true;
ArraySemanticsCall Init(Alloc, "array.init");
if (Init &&
(ArrayCount = Init.getInitializationCount()) &&
(ArrayValue = Init.getArrayValue()))
return true;
return false;
}
/// Collect all getCount users and check that there are no escapes or uses that
/// could change the array value.
bool ArrayAllocation::analyzeArrayValueUses() {
return recursivelyCollectUses(ArrayValue);
}
/// Recursively look at all uses of this definition. Abort if the array value
/// could escape or be changed. Collect all uses that are calls to array.count.
bool ArrayAllocation::recursivelyCollectUses(ValueBase *Def) {
for (auto *Opd : Def->getUses()) {
auto *User = Opd->getUser();
// Ignore reference counting and debug instructions.
if (isa<RefCountingInst>(User) ||
isa<StrongPinInst>(User) ||
isa<DebugValueInst>(User))
continue;
// Array value projection.
if (auto *SEI = dyn_cast<StructExtractInst>(User)) {
if (!recursivelyCollectUses(SEI))
return false;
continue;
}
// Check array semantic calls.
if (auto apply = dyn_cast<ApplyInst>(User)) {
ArraySemanticsCall ArrayOp(apply);
if (ArrayOp && ArrayOp.doesNotChangeArray()) {
if (ArrayOp.getKind() == ArrayCallKind::kGetCount)
CountCalls.insert(ArrayOp);
continue;
}
}
// An operation that escapes or modifies the array value.
return false;
}
return true;
}
bool ArrayAllocation::propagateCountToUsers() {
bool HasChanged = false;
DEBUG(llvm::dbgs() << "Propagating count from " << *Alloc);
for (auto *Count : CountCalls) {
assert(ArraySemanticsCall(Count).getKind() == ArrayCallKind::kGetCount &&
"Expecting a call to count");
SmallVector<Operand *, 16> Uses;
for (auto *Op : Count->getUses()) {
if (Op->get()->getType() == ArrayCount->getType()) {
Uses.push_back(Op);
}
}
for (auto *Use : Uses) {
DEBUG(llvm::dbgs() << " to user " << *Use->getUser());
Use->set(ArrayCount);
HasChanged = true;
}
if (HasChanged && onlyHaveDebugUses(Count))
DeadArrayCountCalls.push_back(Count);
}
return HasChanged;
}
namespace {
class ArrayCountPropagation : public SILFunctionTransform {
public:
ArrayCountPropagation() {}
void run() override {
auto &Fn = *getFunction();
bool Changed = false;
SmallVector<ApplyInst *, 16> DeadArrayCountCalls;
// Propagate the count of array allocations to array.count users.
for (auto &BB :Fn) {
for (auto &Inst : BB) {
if (auto *Apply = dyn_cast<ApplyInst>(&Inst))
Changed |= ArrayAllocation::tryPropagate(Apply, DeadArrayCountCalls);
}
}
// Remove dead array.count calls.
for (auto *DeadCall : DeadArrayCountCalls) {
ArraySemanticsCall GetCount(DeadCall);
assert(GetCount.getKind() == ArrayCallKind::kGetCount);
deleteAllDebugUses(GetCount);
GetCount.removeCall();
}
if (Changed) {
PM->invalidateAnalysis(&Fn,
SILAnalysis::InvalidationKind::CallsAndInstructions);
}
}
};
} // end anonymous namespace
SILTransform *swift::createArrayCountPropagation() {
return new ArrayCountPropagation();
}
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