src/passes/param-utils.cpp - external/github.com/WebAssembly/binaryen - Git at Google

 /*
  * Copyright 2022 WebAssembly Community Group participants
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "passes/param-utils.h"
 #include "ir/eh-utils.h"
 #include "ir/function-utils.h"
 #include "ir/local-graph.h"
 #include "ir/localize.h"
 #include "ir/possible-constant.h"
 #include "ir/type-updating.h"
 #include "pass.h"
 #include "support/sorted_vector.h"
 #include "wasm-traversal.h"
 #include "wasm.h"

 namespace wasm::ParamUtils {

 std::unordered_set<Index> getUsedParams(Function* func) {
   LocalGraph localGraph(func);

   std::unordered_set<Index> usedParams;

   for (auto& [get, sets] : localGraph.getSetses) {
     if (!func->isParam(get->index)) {
       continue;
     }

     for (auto* set : sets) {
       // A nullptr value indicates there is no LocalSet* that sets the value,
       // so it must be the parameter value.
       if (!set) {
         usedParams.insert(get->index);
       }
     }
   }

   return usedParams;
 }

 RemovalOutcome removeParameter(const std::vector<Function*>& funcs,
                                Index index,
                                const std::vector<Call*>& calls,
                                const std::vector<CallRef*>& callRefs,
                                Module* module,
                                PassRunner* runner) {
   assert(funcs.size() > 0);
   auto* first = funcs[0];
 #ifndef NDEBUG
   for (auto* func : funcs) {
     assert(func->type == first->type);
   }
 #endif

   // Check if none of the calls has a param with side effects that we cannot
   // remove (as if we can remove them, we will simply do that when we remove the
   // parameter). Note: flattening the IR beforehand can help here.
   //
   // It would also be bad if we remove a parameter that causes the type of the
   // call to change, like this:
   //
   //  (call $foo
   //    (unreachable))
   //
   // After removing the parameter the type should change from unreachable to
   // something concrete. We could handle this by updating the type and then
   // propagating that out, or by appending an unreachable after the call, but
   // for simplicity just ignore such cases; if we are called again later then
   // if DCE ran meanwhile then we could optimize.
   auto checkEffects = [&](auto* call) {
     auto* operand = call->operands[index];

     if (operand->type == Type::unreachable) {
       return Failure;
     }

     bool hasUnremovable = EffectAnalyzer(runner->options, *module, operand)
                             .hasUnremovableSideEffects();

     return hasUnremovable ? Failure : Success;
   };

   for (auto* call : calls) {
     auto result = checkEffects(call);
     if (result != Success) {
       return result;
     }
   }

   for (auto* call : callRefs) {
     auto result = checkEffects(call);
     if (result != Success) {
       return result;
     }
   }

   // The type must be valid for us to handle as a local (since we
   // replace the parameter with a local).
   // TODO: if there are no references at all, we can avoid creating a
   //       local
   bool typeIsValid = TypeUpdating::canHandleAsLocal(first->getLocalType(index));
   if (!typeIsValid) {
     return Failure;
   }

   // We can do it!

   // Remove the parameter from the function. We must add a new local
   // for uses of the parameter, but cannot make it use the same index
   // (in general).
   auto paramsType = first->getParams();
   std::vector<Type> params(paramsType.begin(), paramsType.end());
   auto type = params[index];
   params.erase(params.begin() + index);
   // TODO: parallelize some of these loops?
   for (auto* func : funcs) {
     func->setParams(Type(params));

     // It's cumbersome to adjust local names - TODO don't clear them?
     Builder::clearLocalNames(func);
   }
   std::vector<Index> newIndexes;
   for (auto* func : funcs) {
     newIndexes.push_back(Builder::addVar(func, type));
   }
   // Update local operations.
   struct LocalUpdater : public PostWalker<LocalUpdater> {
     Index removedIndex;
     Index newIndex;
     LocalUpdater(Function* func, Index removedIndex, Index newIndex)
       : removedIndex(removedIndex), newIndex(newIndex) {
       walk(func->body);
     }
     void visitLocalGet(LocalGet* curr) { updateIndex(curr->index); }
     void visitLocalSet(LocalSet* curr) { updateIndex(curr->index); }
     void updateIndex(Index& index) {
       if (index == removedIndex) {
         index = newIndex;
       } else if (index > removedIndex) {
         index--;
       }
     }
   };
   for (Index i = 0; i < funcs.size(); i++) {
     auto* func = funcs[i];
     if (!func->imported()) {
       LocalUpdater(funcs[i], index, newIndexes[i]);
       TypeUpdating::handleNonDefaultableLocals(func, *module);
     }
   }

   // Remove the arguments from the calls.
   for (auto* call : calls) {
     call->operands.erase(call->operands.begin() + index);
   }
   for (auto* call : callRefs) {
     call->operands.erase(call->operands.begin() + index);
   }

   return Success;
 }

 std::pair<SortedVector, RemovalOutcome>
 removeParameters(const std::vector<Function*>& funcs,
                  SortedVector indexes,
                  const std::vector<Call*>& calls,
                  const std::vector<CallRef*>& callRefs,
                  Module* module,
                  PassRunner* runner) {
   if (indexes.empty()) {
     return {{}, Success};
   }

   assert(funcs.size() > 0);
   auto* first = funcs[0];
 #ifndef NDEBUG
   for (auto* func : funcs) {
     assert(func->type == first->type);
   }
 #endif

   // Iterate downwards, as we may remove more than one, and going forwards would
   // alter the indexes after us.
   Index i = first->getNumParams() - 1;
   SortedVector removed;
   while (1) {
     if (indexes.has(i)) {
       auto outcome = removeParameter(funcs, i, calls, callRefs, module, runner);
       if (outcome == Success) {
         removed.insert(i);
       }
     }
     if (i == 0) {
       break;
     }
     i--;
   }
   RemovalOutcome finalOutcome = Success;
   if (removed.size() < indexes.size()) {
     finalOutcome = Failure;
   }
   return {removed, finalOutcome};
 }

 SortedVector applyConstantValues(const std::vector<Function*>& funcs,
                                  const std::vector<Call*>& calls,
                                  const std::vector<CallRef*>& callRefs,
                                  Module* module) {
   assert(funcs.size() > 0);
   auto* first = funcs[0];
 #ifndef NDEBUG
   for (auto* func : funcs) {
     assert(func->type == first->type);
   }
 #endif

   SortedVector optimized;
   auto numParams = first->getNumParams();
   for (Index i = 0; i < numParams; i++) {
     PossibleConstantValues value;
     for (auto* call : calls) {
       value.note(call->operands[i], *module);
       if (!value.isConstant()) {
         break;
       }
     }
     for (auto* call : callRefs) {
       value.note(call->operands[i], *module);
       if (!value.isConstant()) {
         break;
       }
     }
     if (!value.isConstant()) {
       continue;
     }

     // Optimize: write the constant value in the function bodies, making them
     // ignore the parameter's value.
     Builder builder(*module);
     for (auto* func : funcs) {
       func->body = builder.makeSequence(
         builder.makeLocalSet(i, value.makeExpression(*module)), func->body);
     }
     optimized.insert(i);
   }

   return optimized;
 }

 void localizeCallsTo(const std::unordered_set<Name>& callTargets,
                      Module& wasm,
                      PassRunner* runner) {
   struct LocalizerPass : public WalkerPass<PostWalker<LocalizerPass>> {
     bool isFunctionParallel() override { return true; }

     std::unique_ptr<Pass> create() override {
       return std::make_unique<LocalizerPass>(callTargets);
     }

     const std::unordered_set<Name>& callTargets;

     LocalizerPass(const std::unordered_set<Name>& callTargets)
       : callTargets(callTargets) {}

     void visitCall(Call* curr) {
       if (!callTargets.count(curr->target)) {
         return;
       }

       ChildLocalizer localizer(
         curr, getFunction(), *getModule(), getPassOptions());
       auto* replacement = localizer.getReplacement();
       if (replacement != curr) {
         replaceCurrent(replacement);
         optimized = true;
       }
     }

     bool optimized = false;

     void visitFunction(Function* curr) {
       if (optimized) {
         // Localization can add blocks, which might move pops.
         EHUtils::handleBlockNestedPops(curr, *getModule());
       }
     }
   };

   LocalizerPass(callTargets).run(runner, &wasm);
 }

 void localizeCallsTo(const std::unordered_set<HeapType>& callTargets,
                      Module& wasm,
                      PassRunner* runner) {
   struct LocalizerPass : public WalkerPass<PostWalker<LocalizerPass>> {
     bool isFunctionParallel() override { return true; }

     std::unique_ptr<Pass> create() override {
       return std::make_unique<LocalizerPass>(callTargets);
     }

     const std::unordered_set<HeapType>& callTargets;

     LocalizerPass(const std::unordered_set<HeapType>& callTargets)
       : callTargets(callTargets) {}

     void visitCall(Call* curr) {
       handleCall(curr, getModule()->getFunction(curr->target)->type);
     }

     void visitCallRef(CallRef* curr) {
       auto type = curr->target->type;
       if (type.isRef()) {
         handleCall(curr, type.getHeapType());
       }
     }

     void handleCall(Expression* call, HeapType type) {
       if (!callTargets.count(type)) {
         return;
       }

       ChildLocalizer localizer(
         call, getFunction(), *getModule(), getPassOptions());
       auto* replacement = localizer.getReplacement();
       if (replacement != call) {
         replaceCurrent(replacement);
         optimized = true;
       }
     }

     bool optimized = false;

     void visitFunction(Function* curr) {
       if (optimized) {
         EHUtils::handleBlockNestedPops(curr, *getModule());
       }
     }
   };

   LocalizerPass(callTargets).run(runner, &wasm);
 }

 } // namespace wasm::ParamUtils
	/*
	* Copyright 2022 WebAssembly Community Group participants
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "passes/param-utils.h"
	#include "ir/eh-utils.h"
	#include "ir/function-utils.h"
	#include "ir/local-graph.h"
	#include "ir/localize.h"
	#include "ir/possible-constant.h"
	#include "ir/type-updating.h"
	#include "pass.h"
	#include "support/sorted_vector.h"
	#include "wasm-traversal.h"
	#include "wasm.h"

	namespace wasm::ParamUtils {

	std::unordered_set<Index> getUsedParams(Function* func) {
	LocalGraph localGraph(func);

	std::unordered_set<Index> usedParams;

	for (auto& [get, sets] : localGraph.getSetses) {
	if (!func->isParam(get->index)) {
	continue;
	}

	for (auto* set : sets) {
	// A nullptr value indicates there is no LocalSet* that sets the value,
	// so it must be the parameter value.
	if (!set) {
	usedParams.insert(get->index);
	}
	}
	}

	return usedParams;
	}

	RemovalOutcome removeParameter(const std::vector<Function*>& funcs,
	Index index,
	const std::vector<Call*>& calls,
	const std::vector<CallRef*>& callRefs,
	Module* module,
	PassRunner* runner) {
	assert(funcs.size() > 0);
	auto* first = funcs[0];
	#ifndef NDEBUG
	for (auto* func : funcs) {
	assert(func->type == first->type);
	}
	#endif

	// Check if none of the calls has a param with side effects that we cannot
	// remove (as if we can remove them, we will simply do that when we remove the
	// parameter). Note: flattening the IR beforehand can help here.
	//
	// It would also be bad if we remove a parameter that causes the type of the
	// call to change, like this:
	//
	// (call $foo
	// (unreachable))
	//
	// After removing the parameter the type should change from unreachable to
	// something concrete. We could handle this by updating the type and then
	// propagating that out, or by appending an unreachable after the call, but
	// for simplicity just ignore such cases; if we are called again later then
	// if DCE ran meanwhile then we could optimize.
	auto checkEffects = [&](auto* call) {
	auto* operand = call->operands[index];

	if (operand->type == Type::unreachable) {
	return Failure;
	}

	bool hasUnremovable = EffectAnalyzer(runner->options, *module, operand)
	.hasUnremovableSideEffects();

	return hasUnremovable ? Failure : Success;
	};

	for (auto* call : calls) {
	auto result = checkEffects(call);
	if (result != Success) {
	return result;
	}
	}

	for (auto* call : callRefs) {
	auto result = checkEffects(call);
	if (result != Success) {
	return result;
	}
	}

	// The type must be valid for us to handle as a local (since we
	// replace the parameter with a local).
	// TODO: if there are no references at all, we can avoid creating a
	// local
	bool typeIsValid = TypeUpdating::canHandleAsLocal(first->getLocalType(index));
	if (!typeIsValid) {
	return Failure;
	}

	// We can do it!

	// Remove the parameter from the function. We must add a new local
	// for uses of the parameter, but cannot make it use the same index
	// (in general).
	auto paramsType = first->getParams();
	std::vector<Type> params(paramsType.begin(), paramsType.end());
	auto type = params[index];
	params.erase(params.begin() + index);
	// TODO: parallelize some of these loops?
	for (auto* func : funcs) {
	func->setParams(Type(params));

	// It's cumbersome to adjust local names - TODO don't clear them?
	Builder::clearLocalNames(func);
	}
	std::vector<Index> newIndexes;
	for (auto* func : funcs) {
	newIndexes.push_back(Builder::addVar(func, type));
	}
	// Update local operations.
	struct LocalUpdater : public PostWalker<LocalUpdater> {
	Index removedIndex;
	Index newIndex;
	LocalUpdater(Function* func, Index removedIndex, Index newIndex)
	: removedIndex(removedIndex), newIndex(newIndex) {
	walk(func->body);
	}
	void visitLocalGet(LocalGet* curr) { updateIndex(curr->index); }
	void visitLocalSet(LocalSet* curr) { updateIndex(curr->index); }
	void updateIndex(Index& index) {
	if (index == removedIndex) {
	index = newIndex;
	} else if (index > removedIndex) {
	index--;
	}
	}
	};
	for (Index i = 0; i < funcs.size(); i++) {
	auto* func = funcs[i];
	if (!func->imported()) {
	LocalUpdater(funcs[i], index, newIndexes[i]);
	TypeUpdating::handleNonDefaultableLocals(func, *module);
	}
	}

	// Remove the arguments from the calls.
	for (auto* call : calls) {
	call->operands.erase(call->operands.begin() + index);
	}
	for (auto* call : callRefs) {
	call->operands.erase(call->operands.begin() + index);
	}

	return Success;
	}

	std::pair<SortedVector, RemovalOutcome>
	removeParameters(const std::vector<Function*>& funcs,
	SortedVector indexes,
	const std::vector<Call*>& calls,
	const std::vector<CallRef*>& callRefs,
	Module* module,
	PassRunner* runner) {
	if (indexes.empty()) {
	return {{}, Success};
	}

	assert(funcs.size() > 0);
	auto* first = funcs[0];
	#ifndef NDEBUG
	for (auto* func : funcs) {
	assert(func->type == first->type);
	}
	#endif

	// Iterate downwards, as we may remove more than one, and going forwards would
	// alter the indexes after us.
	Index i = first->getNumParams() - 1;
	SortedVector removed;
	while (1) {
	if (indexes.has(i)) {
	auto outcome = removeParameter(funcs, i, calls, callRefs, module, runner);
	if (outcome == Success) {
	removed.insert(i);
	}
	}
	if (i == 0) {
	break;
	}
	i--;
	}
	RemovalOutcome finalOutcome = Success;
	if (removed.size() < indexes.size()) {
	finalOutcome = Failure;
	}
	return {removed, finalOutcome};
	}

	SortedVector applyConstantValues(const std::vector<Function*>& funcs,
	const std::vector<Call*>& calls,
	const std::vector<CallRef*>& callRefs,
	Module* module) {
	assert(funcs.size() > 0);
	auto* first = funcs[0];
	#ifndef NDEBUG
	for (auto* func : funcs) {
	assert(func->type == first->type);
	}
	#endif

	SortedVector optimized;
	auto numParams = first->getNumParams();
	for (Index i = 0; i < numParams; i++) {
	PossibleConstantValues value;
	for (auto* call : calls) {
	value.note(call->operands[i], *module);
	if (!value.isConstant()) {
	break;
	}
	}
	for (auto* call : callRefs) {
	value.note(call->operands[i], *module);
	if (!value.isConstant()) {
	break;
	}
	}
	if (!value.isConstant()) {
	continue;
	}

	// Optimize: write the constant value in the function bodies, making them
	// ignore the parameter's value.
	Builder builder(*module);
	for (auto* func : funcs) {
	func->body = builder.makeSequence(
	builder.makeLocalSet(i, value.makeExpression(*module)), func->body);
	}
	optimized.insert(i);
	}

	return optimized;
	}

	void localizeCallsTo(const std::unordered_set<Name>& callTargets,
	Module& wasm,
	PassRunner* runner) {
	struct LocalizerPass : public WalkerPass<PostWalker<LocalizerPass>> {
	bool isFunctionParallel() override { return true; }

	std::unique_ptr<Pass> create() override {
	return std::make_unique<LocalizerPass>(callTargets);
	}

	const std::unordered_set<Name>& callTargets;

	LocalizerPass(const std::unordered_set<Name>& callTargets)
	: callTargets(callTargets) {}

	void visitCall(Call* curr) {
	if (!callTargets.count(curr->target)) {
	return;
	}

	ChildLocalizer localizer(
	curr, getFunction(), *getModule(), getPassOptions());
	auto* replacement = localizer.getReplacement();
	if (replacement != curr) {
	replaceCurrent(replacement);
	optimized = true;
	}
	}

	bool optimized = false;

	void visitFunction(Function* curr) {
	if (optimized) {
	// Localization can add blocks, which might move pops.
	EHUtils::handleBlockNestedPops(curr, *getModule());
	}
	}
	};

	LocalizerPass(callTargets).run(runner, &wasm);
	}

	void localizeCallsTo(const std::unordered_set<HeapType>& callTargets,
	Module& wasm,
	PassRunner* runner) {
	struct LocalizerPass : public WalkerPass<PostWalker<LocalizerPass>> {
	bool isFunctionParallel() override { return true; }

	std::unique_ptr<Pass> create() override {
	return std::make_unique<LocalizerPass>(callTargets);
	}

	const std::unordered_set<HeapType>& callTargets;

	LocalizerPass(const std::unordered_set<HeapType>& callTargets)
	: callTargets(callTargets) {}

	void visitCall(Call* curr) {
	handleCall(curr, getModule()->getFunction(curr->target)->type);
	}

	void visitCallRef(CallRef* curr) {
	auto type = curr->target->type;
	if (type.isRef()) {
	handleCall(curr, type.getHeapType());
	}
	}

	void handleCall(Expression* call, HeapType type) {
	if (!callTargets.count(type)) {
	return;
	}

	ChildLocalizer localizer(
	call, getFunction(), *getModule(), getPassOptions());
	auto* replacement = localizer.getReplacement();
	if (replacement != call) {
	replaceCurrent(replacement);
	optimized = true;
	}
	}

	bool optimized = false;

	void visitFunction(Function* curr) {
	if (optimized) {
	EHUtils::handleBlockNestedPops(curr, *getModule());
	}
	}
	};

	LocalizerPass(callTargets).run(runner, &wasm);
	}

	} // namespace wasm::ParamUtils