mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
282 lines
9.6 KiB
C++
282 lines
9.6 KiB
C++
/*
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This file is part of solidity.
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solidity is free software: you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation, either version 3 of the License, or
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(at your option) any later version.
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solidity is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with solidity. If not, see <http://www.gnu.org/licenses/>.
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*/
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// SPDX-License-Identifier: GPL-3.0
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/**
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* @file Inliner.cpp
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* Inlines small code snippets by replacing JUMP with a copy of the code jumped to.
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*/
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#include <libevmasm/Inliner.h>
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#include <libevmasm/AssemblyItem.h>
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#include <libevmasm/GasMeter.h>
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#include <libevmasm/KnownState.h>
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#include <libevmasm/SemanticInformation.h>
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#include <libsolutil/CommonData.h>
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#include <range/v3/numeric/accumulate.hpp>
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#include <range/v3/view/drop_last.hpp>
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#include <range/v3/view/enumerate.hpp>
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#include <range/v3/view/slice.hpp>
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#include <range/v3/view/transform.hpp>
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#include <optional>
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#include <limits>
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using namespace std;
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using namespace solidity;
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using namespace solidity::evmasm;
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namespace
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{
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/// @returns an estimation of the runtime gas cost of the AsssemblyItems in @a _itemRange.
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template<typename RangeType>
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u256 executionCost(RangeType const& _itemRange, langutil::EVMVersion _evmVersion)
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{
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GasMeter gasMeter{std::make_shared<KnownState>(), _evmVersion};
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auto gasConsumption = ranges::accumulate(_itemRange | ranges::views::transform(
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[&gasMeter](auto const& _item) { return gasMeter.estimateMax(_item, false); }
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), GasMeter::GasConsumption());
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if (gasConsumption.isInfinite)
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return numeric_limits<u256>::max();
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else
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return gasConsumption.value;
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}
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/// @returns an estimation of the code size in bytes needed for the AssemblyItems in @a _itemRange.
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template<typename RangeType>
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uint64_t codeSize(RangeType const& _itemRange)
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{
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return ranges::accumulate(_itemRange | ranges::views::transform(
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[](auto const& _item) { return _item.bytesRequired(2, Precision::Approximate); }
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), 0u);
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}
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/// @returns the tag id, if @a _item is a PushTag or Tag into the current subassembly, nullopt otherwise.
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optional<size_t> getLocalTag(AssemblyItem const& _item)
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{
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if (_item.type() != PushTag && _item.type() != Tag)
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return nullopt;
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auto [subId, tag] = _item.splitForeignPushTag();
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if (subId != numeric_limits<size_t>::max())
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return nullopt;
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return tag;
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}
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}
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bool Inliner::isInlineCandidate(size_t _tag, ranges::span<AssemblyItem const> _items) const
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{
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assertThrow(_items.size() > 0, OptimizerException, "");
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if (_items.back().type() != Operation)
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return false;
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if (
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_items.back() != Instruction::JUMP &&
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!SemanticInformation::terminatesControlFlow(_items.back().instruction())
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)
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return false;
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// Never inline tags that reference themselves.
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for (AssemblyItem const& item: _items)
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if (item.type() == PushTag)
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if (getLocalTag(item) == _tag)
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return false;
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return true;
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}
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map<size_t, Inliner::InlinableBlock> Inliner::determineInlinableBlocks(AssemblyItems const& _items) const
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{
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std::map<size_t, ranges::span<AssemblyItem const>> inlinableBlockItems;
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std::map<size_t, uint64_t> numPushTags;
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std::optional<size_t> lastTag;
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for (auto&& [index, item]: _items | ranges::views::enumerate)
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{
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// The number of PushTags approximates the number of calls to a block.
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if (item.type() == PushTag)
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if (optional<size_t> tag = getLocalTag(item))
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++numPushTags[*tag];
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// We can only inline blocks with straight control flow that end in a jump.
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// Using breaksCSEAnalysisBlock will hopefully allow the return jump to be optimized after inlining.
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if (lastTag && SemanticInformation::breaksCSEAnalysisBlock(item, false))
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{
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ranges::span<AssemblyItem const> block = _items | ranges::views::slice(*lastTag + 1, index + 1);
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if (optional<size_t> tag = getLocalTag(_items[*lastTag]))
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if (isInlineCandidate(*tag, block))
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inlinableBlockItems[*tag] = block;
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lastTag.reset();
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}
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if (item.type() == Tag)
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{
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assertThrow(getLocalTag(item), OptimizerException, "");
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lastTag = index;
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}
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}
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// Store the number of PushTags alongside the assembly items and discard tags that are never pushed.
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map<size_t, InlinableBlock> result;
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for (auto&& [tag, items]: inlinableBlockItems)
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if (uint64_t const* numPushes = util::valueOrNullptr(numPushTags, tag))
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result.emplace(tag, InlinableBlock{items, *numPushes});
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return result;
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}
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bool Inliner::shouldInlineFullFunctionBody(size_t _tag, ranges::span<AssemblyItem const> _block, uint64_t _pushTagCount) const
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{
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// Accumulate size of the inline candidate block in bytes (without the return jump).
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uint64_t functionBodySize = codeSize(ranges::views::drop_last(_block, 1));
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// Use the number of push tags as approximation of the average number of calls to the function per run.
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uint64_t numberOfCalls = _pushTagCount;
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// Also use the number of push tags as approximation of the number of call sites to the function.
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uint64_t numberOfCallSites = _pushTagCount;
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static AssemblyItems const uninlinedCallSitePattern = {
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AssemblyItem{PushTag},
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AssemblyItem{PushTag},
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AssemblyItem{Instruction::JUMP},
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AssemblyItem{Tag}
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};
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static AssemblyItems const uninlinedFunctionPattern = {
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AssemblyItem{Tag},
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// Actual function body of size functionBodySize. Handled separately below.
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AssemblyItem{Instruction::JUMP}
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};
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// Both the call site and jump site pattern is executed for each call.
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// Since the function body has to be executed equally often both with and without inlining,
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// it can be ignored.
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bigint uninlinedExecutionCost = numberOfCalls * (
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executionCost(uninlinedCallSitePattern, m_evmVersion) +
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executionCost(uninlinedFunctionPattern, m_evmVersion)
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);
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// Each call site deposits the call site pattern, whereas the jump site pattern and the function itself are deposited once.
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bigint uninlinedDepositCost = GasMeter::dataGas(
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numberOfCallSites * codeSize(uninlinedCallSitePattern) +
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codeSize(uninlinedFunctionPattern) +
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functionBodySize,
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m_isCreation,
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m_evmVersion
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);
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// When inlining the execution cost beyond the actual function execution is zero,
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// but for each call site a copy of the function is deposited.
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bigint inlinedDepositCost = GasMeter::dataGas(
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numberOfCallSites * functionBodySize,
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m_isCreation,
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m_evmVersion
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);
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// If the block is referenced from outside the current subassembly, the original function cannot be removed.
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// Note that the function also cannot always be removed, if it is not referenced from outside, but in that case
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// the heuristics is optimistic.
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if (m_tagsReferencedFromOutside.count(_tag))
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inlinedDepositCost += GasMeter::dataGas(
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codeSize(uninlinedFunctionPattern) + functionBodySize,
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m_isCreation,
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m_evmVersion
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);
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// If the estimated runtime cost over the lifetime of the contract plus the deposit cost in the uninlined case
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// exceed the inlined deposit costs, it is beneficial to inline.
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if (bigint(m_runs) * uninlinedExecutionCost + uninlinedDepositCost > inlinedDepositCost)
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return true;
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return false;
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}
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optional<AssemblyItem> Inliner::shouldInline(size_t _tag, AssemblyItem const& _jump, InlinableBlock const& _block) const
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{
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assertThrow(_jump == Instruction::JUMP, OptimizerException, "");
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AssemblyItem blockExit = _block.items.back();
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if (
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_jump.getJumpType() == AssemblyItem::JumpType::IntoFunction &&
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blockExit == Instruction::JUMP &&
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blockExit.getJumpType() == AssemblyItem::JumpType::OutOfFunction &&
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shouldInlineFullFunctionBody(_tag, _block.items, _block.pushTagCount)
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)
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{
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blockExit.setJumpType(AssemblyItem::JumpType::Ordinary);
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return blockExit;
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}
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// Inline small blocks, if the jump to it is ordinary or the blockExit is a terminating instruction.
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if (
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_jump.getJumpType() == AssemblyItem::JumpType::Ordinary ||
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SemanticInformation::terminatesControlFlow(blockExit.instruction())
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)
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{
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static AssemblyItems const jumpPattern = {
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AssemblyItem{PushTag},
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AssemblyItem{Instruction::JUMP},
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};
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if (
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GasMeter::dataGas(codeSize(_block.items), m_isCreation, m_evmVersion) <=
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GasMeter::dataGas(codeSize(jumpPattern), m_isCreation, m_evmVersion)
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)
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return blockExit;
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}
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return nullopt;
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}
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void Inliner::optimise()
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{
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std::map<size_t, InlinableBlock> inlinableBlocks = determineInlinableBlocks(m_items);
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if (inlinableBlocks.empty())
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return;
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AssemblyItems newItems;
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for (auto it = m_items.begin(); it != m_items.end(); ++it)
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{
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AssemblyItem const& item = *it;
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if (next(it) != m_items.end())
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{
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AssemblyItem const& nextItem = *next(it);
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if (item.type() == PushTag && nextItem == Instruction::JUMP)
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{
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if (optional<size_t> tag = getLocalTag(item))
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if (auto* inlinableBlock = util::valueOrNullptr(inlinableBlocks, *tag))
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if (auto exitItem = shouldInline(*tag, nextItem, *inlinableBlock))
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{
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newItems += inlinableBlock->items | ranges::views::drop_last(1);
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newItems.emplace_back(move(*exitItem));
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// We are removing one push tag to the block we inline.
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--inlinableBlock->pushTagCount;
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// We might increase the number of push tags to other blocks.
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for (AssemblyItem const& inlinedItem: inlinableBlock->items)
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if (inlinedItem.type() == PushTag)
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if (optional<size_t> duplicatedTag = getLocalTag(inlinedItem))
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if (auto* block = util::valueOrNullptr(inlinableBlocks, *duplicatedTag))
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++block->pushTagCount;
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// Skip the original jump to the inlined tag and continue.
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++it;
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continue;
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}
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}
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}
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newItems.emplace_back(item);
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}
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m_items = move(newItems);
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}
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