mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
433 lines
12 KiB
C++
433 lines
12 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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#include <libyul/AST.h>
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#include <libyul/backends/wasm/WordSizeTransform.h>
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#include <libyul/Utilities.h>
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#include <libyul/Dialect.h>
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#include <libyul/optimiser/NameDisplacer.h>
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#include <libsolutil/CommonData.h>
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#include <array>
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#include <map>
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#include <variant>
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using namespace std;
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using namespace solidity;
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using namespace solidity::yul;
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using namespace solidity::util;
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void WordSizeTransform::operator()(FunctionDefinition& _fd)
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{
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rewriteVarDeclList(_fd.parameters);
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rewriteVarDeclList(_fd.returnVariables);
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(*this)(_fd.body);
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}
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void WordSizeTransform::operator()(FunctionCall& _fc)
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{
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vector<optional<LiteralKind>> const* literalArguments = nullptr;
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if (BuiltinFunction const* fun = m_inputDialect.builtin(_fc.functionName.name))
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if (!fun->literalArguments.empty())
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literalArguments = &fun->literalArguments;
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vector<Expression> newArgs;
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for (size_t i = 0; i < _fc.arguments.size(); i++)
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if (!literalArguments || !(*literalArguments)[i].has_value())
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newArgs += expandValueToVector(_fc.arguments[i]);
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else
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{
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get<Literal>(_fc.arguments[i]).type = m_targetDialect.defaultType;
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newArgs.emplace_back(std::move(_fc.arguments[i]));
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}
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_fc.arguments = std::move(newArgs);
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}
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void WordSizeTransform::operator()(If& _if)
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{
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_if.condition = make_unique<Expression>(FunctionCall{
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debugDataOf(*_if.condition),
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Identifier{debugDataOf(*_if.condition), "or_bool"_yulstring},
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expandValueToVector(*_if.condition)
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});
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(*this)(_if.body);
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}
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void WordSizeTransform::operator()(Switch&)
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{
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yulAssert(false, "Switch statement has to be handled inside the containing block.");
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}
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void WordSizeTransform::operator()(ForLoop& _for)
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{
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(*this)(_for.pre);
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_for.condition = make_unique<Expression>(FunctionCall{
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debugDataOf(*_for.condition),
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Identifier{debugDataOf(*_for.condition), "or_bool"_yulstring},
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expandValueToVector(*_for.condition)
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});
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(*this)(_for.post);
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(*this)(_for.body);
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}
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void WordSizeTransform::operator()(Block& _block)
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{
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iterateReplacing(
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_block.statements,
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[&](Statement& _s) -> std::optional<vector<Statement>>
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{
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if (holds_alternative<VariableDeclaration>(_s))
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{
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VariableDeclaration& varDecl = std::get<VariableDeclaration>(_s);
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if (!varDecl.value)
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rewriteVarDeclList(varDecl.variables);
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else if (holds_alternative<FunctionCall>(*varDecl.value))
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{
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visit(*varDecl.value);
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// Special handling for datasize and dataoffset - they will only need one variable.
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if (BuiltinFunction const* f = m_inputDialect.builtin(std::get<FunctionCall>(*varDecl.value).functionName.name))
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if (f->name == "datasize"_yulstring || f->name == "dataoffset"_yulstring)
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{
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yulAssert(f->literalArguments.size() == 1, "");
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yulAssert(f->literalArguments.at(0) == LiteralKind::String, "");
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yulAssert(varDecl.variables.size() == 1, "");
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auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name);
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vector<Statement> ret;
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for (size_t i = 0; i < 3; i++)
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ret.emplace_back(VariableDeclaration{
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varDecl.debugData,
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{TypedName{varDecl.debugData, newLhs[i], m_targetDialect.defaultType}},
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make_unique<Expression>(Literal{
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debugDataOf(*varDecl.value),
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LiteralKind::Number,
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"0"_yulstring,
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m_targetDialect.defaultType
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})
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});
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ret.emplace_back(VariableDeclaration{
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varDecl.debugData,
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{TypedName{varDecl.debugData, newLhs[3], m_targetDialect.defaultType}},
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std::move(varDecl.value)
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});
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return {std::move(ret)};
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}
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rewriteVarDeclList(varDecl.variables);
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return std::nullopt;
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}
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else if (
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holds_alternative<Identifier>(*varDecl.value) ||
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holds_alternative<Literal>(*varDecl.value)
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)
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{
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yulAssert(varDecl.variables.size() == 1, "");
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auto newRhs = expandValue(*varDecl.value);
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auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name);
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vector<Statement> ret;
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for (size_t i = 0; i < 4; i++)
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ret.emplace_back(VariableDeclaration{
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varDecl.debugData,
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{TypedName{varDecl.debugData, newLhs[i], m_targetDialect.defaultType}},
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std::move(newRhs[i])
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}
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);
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return {std::move(ret)};
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}
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else
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yulAssert(false, "");
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}
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else if (holds_alternative<Assignment>(_s))
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{
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Assignment& assignment = std::get<Assignment>(_s);
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yulAssert(assignment.value, "");
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if (holds_alternative<FunctionCall>(*assignment.value))
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{
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visit(*assignment.value);
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// Special handling for datasize and dataoffset - they will only need one variable.
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if (BuiltinFunction const* f = m_inputDialect.builtin(std::get<FunctionCall>(*assignment.value).functionName.name))
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if (f->name == "datasize"_yulstring || f->name == "dataoffset"_yulstring)
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{
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yulAssert(f->literalArguments.size() == 1, "");
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yulAssert(f->literalArguments[0] == LiteralKind::String, "");
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yulAssert(assignment.variableNames.size() == 1, "");
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auto newLhs = generateU64IdentifierNames(assignment.variableNames[0].name);
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vector<Statement> ret;
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for (size_t i = 0; i < 3; i++)
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ret.emplace_back(Assignment{
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assignment.debugData,
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{Identifier{assignment.debugData, newLhs[i]}},
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make_unique<Expression>(Literal{
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debugDataOf(*assignment.value),
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LiteralKind::Number,
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"0"_yulstring,
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m_targetDialect.defaultType
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})
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});
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ret.emplace_back(Assignment{
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assignment.debugData,
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{Identifier{assignment.debugData, newLhs[3]}},
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std::move(assignment.value)
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});
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return {std::move(ret)};
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}
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rewriteIdentifierList(assignment.variableNames);
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return std::nullopt;
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}
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else if (
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holds_alternative<Identifier>(*assignment.value) ||
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holds_alternative<Literal>(*assignment.value)
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)
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{
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yulAssert(assignment.variableNames.size() == 1, "");
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auto newRhs = expandValue(*assignment.value);
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YulString lhsName = assignment.variableNames[0].name;
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vector<Statement> ret;
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for (size_t i = 0; i < 4; i++)
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ret.emplace_back(Assignment{
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assignment.debugData,
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{Identifier{assignment.debugData, m_variableMapping.at(lhsName)[i]}},
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std::move(newRhs[i])
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}
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);
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return {std::move(ret)};
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}
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else
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yulAssert(false, "");
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}
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else if (holds_alternative<Switch>(_s))
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return handleSwitch(std::get<Switch>(_s));
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else
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visit(_s);
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return std::nullopt;
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}
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);
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}
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void WordSizeTransform::run(
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Dialect const& _inputDialect,
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Dialect const& _targetDialect,
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Block& _ast,
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NameDispenser& _nameDispenser
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)
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{
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// Free the name `or_bool`.
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NameDisplacer{_nameDispenser, {"or_bool"_yulstring}}(_ast);
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WordSizeTransform{_inputDialect, _targetDialect, _nameDispenser}(_ast);
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}
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WordSizeTransform::WordSizeTransform(
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Dialect const& _inputDialect,
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Dialect const& _targetDialect,
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NameDispenser& _nameDispenser
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):
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m_inputDialect(_inputDialect),
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m_targetDialect(_targetDialect),
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m_nameDispenser(_nameDispenser)
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{
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}
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void WordSizeTransform::rewriteVarDeclList(TypedNameList& _nameList)
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{
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iterateReplacing(
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_nameList,
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[&](TypedName const& _n) -> std::optional<TypedNameList>
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{
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TypedNameList ret;
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for (auto newName: generateU64IdentifierNames(_n.name))
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ret.emplace_back(TypedName{_n.debugData, newName, m_targetDialect.defaultType});
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return ret;
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}
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);
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}
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void WordSizeTransform::rewriteIdentifierList(vector<Identifier>& _ids)
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{
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iterateReplacing(
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_ids,
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[&](Identifier const& _id) -> std::optional<vector<Identifier>>
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{
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vector<Identifier> ret;
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for (auto newId: m_variableMapping.at(_id.name))
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ret.push_back(Identifier{_id.debugData, newId});
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return ret;
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}
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);
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}
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vector<Statement> WordSizeTransform::handleSwitchInternal(
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shared_ptr<DebugData const> const& _debugData,
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vector<YulString> const& _splitExpressions,
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vector<Case> _cases,
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YulString _runDefaultFlag,
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size_t _depth
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)
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{
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if (_depth == 4)
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{
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yulAssert(_cases.size() == 1, "");
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return std::move(_cases.front().body.statements);
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}
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// Extract current 64 bit segment and group by it.
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map<u256, vector<Case>> cases;
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for (Case& c: _cases)
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{
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yulAssert(c.value, "Default case still present.");
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cases[
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(valueOfLiteral(*c.value) >> (256 - 64 * (_depth + 1))) &
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std::numeric_limits<uint64_t>::max()
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].emplace_back(std::move(c));
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}
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Switch ret{
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_debugData,
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make_unique<Expression>(Identifier{_debugData, _splitExpressions.at(_depth)}),
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{}
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};
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for (auto& c: cases)
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{
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Literal label{_debugData, LiteralKind::Number, YulString(c.first.str()), m_targetDialect.defaultType};
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ret.cases.emplace_back(Case{
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c.second.front().debugData,
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make_unique<Literal>(std::move(label)),
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Block{_debugData, handleSwitchInternal(
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_debugData,
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_splitExpressions,
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std::move(c.second),
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_runDefaultFlag,
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_depth + 1
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)}
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});
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}
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if (!_runDefaultFlag.empty())
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ret.cases.emplace_back(Case{
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_debugData,
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nullptr,
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Block{_debugData, make_vector<Statement>(
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Assignment{
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_debugData,
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{{_debugData, _runDefaultFlag}},
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make_unique<Expression>(Literal{_debugData, LiteralKind::Boolean, "true"_yulstring, m_targetDialect.boolType})
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}
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)}
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});
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return make_vector<Statement>(std::move(ret));
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}
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std::vector<Statement> WordSizeTransform::handleSwitch(Switch& _switch)
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{
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for (auto& c: _switch.cases)
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(*this)(c.body);
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// Turns the switch into a quadruply-nested switch plus
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// a flag that tells to execute the default case after all the switches.
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vector<Statement> ret;
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YulString runDefaultFlag;
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Case defaultCase;
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if (!_switch.cases.back().value)
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{
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runDefaultFlag = m_nameDispenser.newName("run_default"_yulstring);
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defaultCase = std::move(_switch.cases.back());
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_switch.cases.pop_back();
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ret.emplace_back(VariableDeclaration{
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_switch.debugData,
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{TypedName{_switch.debugData, runDefaultFlag, m_targetDialect.boolType}},
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{}
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});
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}
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vector<YulString> splitExpressions;
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for (auto const& expr: expandValue(*_switch.expression))
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splitExpressions.emplace_back(std::get<Identifier>(*expr).name);
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ret += handleSwitchInternal(
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_switch.debugData,
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splitExpressions,
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std::move(_switch.cases),
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runDefaultFlag,
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0
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);
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if (!runDefaultFlag.empty())
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ret.emplace_back(If{
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_switch.debugData,
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make_unique<Expression>(Identifier{_switch.debugData, runDefaultFlag}),
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std::move(defaultCase.body)
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});
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return ret;
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}
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array<YulString, 4> WordSizeTransform::generateU64IdentifierNames(YulString const& _s)
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{
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yulAssert(m_variableMapping.find(_s) == m_variableMapping.end(), "");
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for (size_t i = 0; i < 4; i++)
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m_variableMapping[_s][i] = m_nameDispenser.newName(YulString{_s.str() + "_" + to_string(i)});
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return m_variableMapping[_s];
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}
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array<unique_ptr<Expression>, 4> WordSizeTransform::expandValue(Expression const& _e)
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{
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array<unique_ptr<Expression>, 4> ret;
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if (holds_alternative<Identifier>(_e))
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{
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auto const& id = std::get<Identifier>(_e);
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for (size_t i = 0; i < 4; i++)
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ret[i] = make_unique<Expression>(Identifier{id.debugData, m_variableMapping.at(id.name)[i]});
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}
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else if (holds_alternative<Literal>(_e))
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{
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auto const& lit = std::get<Literal>(_e);
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u256 val = valueOfLiteral(lit);
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for (size_t exprIndex = 0; exprIndex < 4; ++exprIndex)
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{
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size_t exprIndexReverse = 3 - exprIndex;
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u256 currentVal = val & std::numeric_limits<uint64_t>::max();
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val >>= 64;
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ret[exprIndexReverse] = make_unique<Expression>(
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Literal{
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lit.debugData,
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LiteralKind::Number,
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YulString(currentVal.str()),
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m_targetDialect.defaultType
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}
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);
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}
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}
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else
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yulAssert(false, "Invalid expression to split.");
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return ret;
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}
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vector<Expression> WordSizeTransform::expandValueToVector(Expression const& _e)
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{
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vector<Expression> ret;
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for (unique_ptr<Expression>& val: expandValue(_e))
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ret.emplace_back(std::move(*val));
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return ret;
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}
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