mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
492 lines
15 KiB
C++
492 lines
15 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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/**
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* @author Christian <c@ethdev.com>
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* @date 2014
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* Utilities for the solidity compiler.
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*/
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#include <libsolidity/codegen/CompilerContext.h>
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#include <libsolidity/ast/AST.h>
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#include <libsolidity/codegen/AsmCodeGen.h>
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#include <libsolidity/codegen/Compiler.h>
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#include <libsolidity/codegen/CompilerUtils.h>
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#include <libsolidity/interface/Version.h>
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#include <libyul/AsmParser.h>
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#include <libyul/AsmAnalysis.h>
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#include <libyul/AsmAnalysisInfo.h>
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#include <libyul/backends/evm/EVMDialect.h>
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#include <libyul/YulString.h>
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#include <liblangutil/ErrorReporter.h>
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#include <liblangutil/Scanner.h>
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#include <liblangutil/SourceReferenceFormatter.h>
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#include <boost/algorithm/string/replace.hpp>
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#include <utility>
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#include <numeric>
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// Change to "define" to output all intermediate code
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#undef SOL_OUTPUT_ASM
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#ifdef SOL_OUTPUT_ASM
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#include <libyul/AsmPrinter.h>
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#endif
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using namespace std;
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using namespace langutil;
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namespace dev
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{
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namespace solidity
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{
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void CompilerContext::addStateVariable(
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VariableDeclaration const& _declaration,
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u256 const& _storageOffset,
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unsigned _byteOffset
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)
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{
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m_stateVariables[&_declaration] = make_pair(_storageOffset, _byteOffset);
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}
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void CompilerContext::startFunction(Declaration const& _function)
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{
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m_functionCompilationQueue.startFunction(_function);
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*this << functionEntryLabel(_function);
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}
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void CompilerContext::callLowLevelFunction(
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string const& _name,
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unsigned _inArgs,
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unsigned _outArgs,
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function<void(CompilerContext&)> const& _generator
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)
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{
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eth::AssemblyItem retTag = pushNewTag();
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CompilerUtils(*this).moveIntoStack(_inArgs);
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*this << lowLevelFunctionTag(_name, _inArgs, _outArgs, _generator);
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appendJump(eth::AssemblyItem::JumpType::IntoFunction);
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adjustStackOffset(int(_outArgs) - 1 - _inArgs);
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*this << retTag.tag();
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}
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eth::AssemblyItem CompilerContext::lowLevelFunctionTag(
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string const& _name,
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unsigned _inArgs,
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unsigned _outArgs,
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function<void(CompilerContext&)> const& _generator
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)
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{
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auto it = m_lowLevelFunctions.find(_name);
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if (it == m_lowLevelFunctions.end())
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{
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eth::AssemblyItem tag = newTag().pushTag();
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m_lowLevelFunctions.insert(make_pair(_name, tag));
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m_lowLevelFunctionGenerationQueue.push(make_tuple(_name, _inArgs, _outArgs, _generator));
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return tag;
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}
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else
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return it->second;
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}
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void CompilerContext::appendMissingLowLevelFunctions()
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{
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while (!m_lowLevelFunctionGenerationQueue.empty())
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{
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string name;
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unsigned inArgs;
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unsigned outArgs;
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function<void(CompilerContext&)> generator;
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tie(name, inArgs, outArgs, generator) = m_lowLevelFunctionGenerationQueue.front();
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m_lowLevelFunctionGenerationQueue.pop();
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setStackOffset(inArgs + 1);
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*this << m_lowLevelFunctions.at(name).tag();
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generator(*this);
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CompilerUtils(*this).moveToStackTop(outArgs);
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appendJump(eth::AssemblyItem::JumpType::OutOfFunction);
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solAssert(stackHeight() == outArgs, "Invalid stack height in low-level function " + name + ".");
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}
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}
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void CompilerContext::addVariable(VariableDeclaration const& _declaration,
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unsigned _offsetToCurrent)
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{
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solAssert(m_asm->deposit() >= 0 && unsigned(m_asm->deposit()) >= _offsetToCurrent, "");
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unsigned sizeOnStack = _declaration.annotation().type->sizeOnStack();
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// Variables should not have stack size other than [1, 2],
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// but that might change when new types are introduced.
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solAssert(sizeOnStack == 1 || sizeOnStack == 2, "");
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m_localVariables[&_declaration].push_back(unsigned(m_asm->deposit()) - _offsetToCurrent);
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}
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void CompilerContext::removeVariable(Declaration const& _declaration)
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{
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solAssert(m_localVariables.count(&_declaration) && !m_localVariables[&_declaration].empty(), "");
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m_localVariables[&_declaration].pop_back();
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if (m_localVariables[&_declaration].empty())
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m_localVariables.erase(&_declaration);
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}
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void CompilerContext::removeVariablesAboveStackHeight(unsigned _stackHeight)
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{
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vector<Declaration const*> toRemove;
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for (auto _var: m_localVariables)
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{
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solAssert(!_var.second.empty(), "");
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solAssert(_var.second.back() <= stackHeight(), "");
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if (_var.second.back() >= _stackHeight)
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toRemove.push_back(_var.first);
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}
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for (auto _var: toRemove)
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removeVariable(*_var);
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}
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unsigned CompilerContext::numberOfLocalVariables() const
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{
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return m_localVariables.size();
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}
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shared_ptr<eth::Assembly> CompilerContext::compiledContract(ContractDefinition const& _contract) const
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{
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auto ret = m_otherCompilers.find(&_contract);
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solAssert(ret != m_otherCompilers.end(), "Compiled contract not found.");
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return ret->second->assemblyPtr();
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}
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shared_ptr<eth::Assembly> CompilerContext::compiledContractRuntime(ContractDefinition const& _contract) const
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{
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auto ret = m_otherCompilers.find(&_contract);
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solAssert(ret != m_otherCompilers.end(), "Compiled contract not found.");
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return ret->second->runtimeAssemblyPtr();
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}
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bool CompilerContext::isLocalVariable(Declaration const* _declaration) const
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{
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return !!m_localVariables.count(_declaration);
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}
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eth::AssemblyItem CompilerContext::functionEntryLabel(Declaration const& _declaration)
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{
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return m_functionCompilationQueue.entryLabel(_declaration, *this);
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}
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eth::AssemblyItem CompilerContext::functionEntryLabelIfExists(Declaration const& _declaration) const
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{
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return m_functionCompilationQueue.entryLabelIfExists(_declaration);
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}
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FunctionDefinition const& CompilerContext::resolveVirtualFunction(FunctionDefinition const& _function)
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{
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// Libraries do not allow inheritance and their functions can be inlined, so we should not
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// search the inheritance hierarchy (which will be the wrong one in case the function
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// is inlined).
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if (auto scope = dynamic_cast<ContractDefinition const*>(_function.scope()))
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if (scope->isLibrary())
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return _function;
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solAssert(!m_inheritanceHierarchy.empty(), "No inheritance hierarchy set.");
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return resolveVirtualFunction(_function, m_inheritanceHierarchy.begin());
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}
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FunctionDefinition const& CompilerContext::superFunction(FunctionDefinition const& _function, ContractDefinition const& _base)
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{
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solAssert(!m_inheritanceHierarchy.empty(), "No inheritance hierarchy set.");
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return resolveVirtualFunction(_function, superContract(_base));
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}
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FunctionDefinition const* CompilerContext::nextConstructor(ContractDefinition const& _contract) const
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{
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vector<ContractDefinition const*>::const_iterator it = superContract(_contract);
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for (; it != m_inheritanceHierarchy.end(); ++it)
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if ((*it)->constructor())
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return (*it)->constructor();
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return nullptr;
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}
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Declaration const* CompilerContext::nextFunctionToCompile() const
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{
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return m_functionCompilationQueue.nextFunctionToCompile();
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}
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ModifierDefinition const& CompilerContext::resolveVirtualFunctionModifier(
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ModifierDefinition const& _modifier
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) const
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{
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// Libraries do not allow inheritance and their functions can be inlined, so we should not
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// search the inheritance hierarchy (which will be the wrong one in case the function
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// is inlined).
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if (auto scope = dynamic_cast<ContractDefinition const*>(_modifier.scope()))
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if (scope->isLibrary())
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return _modifier;
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solAssert(!m_inheritanceHierarchy.empty(), "No inheritance hierarchy set.");
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for (ContractDefinition const* contract: m_inheritanceHierarchy)
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for (ModifierDefinition const* modifier: contract->functionModifiers())
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if (modifier->name() == _modifier.name())
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return *modifier;
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solAssert(false, "Function modifier " + _modifier.name() + " not found in inheritance hierarchy.");
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}
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unsigned CompilerContext::baseStackOffsetOfVariable(Declaration const& _declaration) const
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{
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auto res = m_localVariables.find(&_declaration);
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solAssert(res != m_localVariables.end(), "Variable not found on stack.");
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solAssert(!res->second.empty(), "");
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return res->second.back();
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}
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unsigned CompilerContext::baseToCurrentStackOffset(unsigned _baseOffset) const
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{
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return m_asm->deposit() - _baseOffset - 1;
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}
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unsigned CompilerContext::currentToBaseStackOffset(unsigned _offset) const
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{
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return m_asm->deposit() - _offset - 1;
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}
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pair<u256, unsigned> CompilerContext::storageLocationOfVariable(const Declaration& _declaration) const
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{
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auto it = m_stateVariables.find(&_declaration);
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solAssert(it != m_stateVariables.end(), "Variable not found in storage.");
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return it->second;
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}
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CompilerContext& CompilerContext::appendJump(eth::AssemblyItem::JumpType _jumpType)
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{
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eth::AssemblyItem item(Instruction::JUMP);
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item.setJumpType(_jumpType);
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return *this << item;
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}
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CompilerContext& CompilerContext::appendInvalid()
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{
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return *this << Instruction::INVALID;
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}
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CompilerContext& CompilerContext::appendConditionalInvalid()
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{
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*this << Instruction::ISZERO;
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eth::AssemblyItem afterTag = appendConditionalJump();
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*this << Instruction::INVALID;
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*this << afterTag;
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return *this;
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}
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CompilerContext& CompilerContext::appendRevert()
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{
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return *this << u256(0) << u256(0) << Instruction::REVERT;
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}
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CompilerContext& CompilerContext::appendConditionalRevert(bool _forwardReturnData)
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{
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if (_forwardReturnData && m_evmVersion.supportsReturndata())
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appendInlineAssembly(R"({
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if condition {
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returndatacopy(0, 0, returndatasize())
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revert(0, returndatasize())
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}
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})", {"condition"});
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else
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appendInlineAssembly(R"({
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if condition { revert(0, 0) }
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})", {"condition"});
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*this << Instruction::POP;
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return *this;
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}
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void CompilerContext::resetVisitedNodes(ASTNode const* _node)
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{
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stack<ASTNode const*> newStack;
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newStack.push(_node);
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std::swap(m_visitedNodes, newStack);
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updateSourceLocation();
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}
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void CompilerContext::appendInlineAssembly(
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string const& _assembly,
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vector<string> const& _localVariables,
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set<string> const&,
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bool _system
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)
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{
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int startStackHeight = stackHeight();
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yul::ExternalIdentifierAccess identifierAccess;
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identifierAccess.resolve = [&](
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yul::Identifier const& _identifier,
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yul::IdentifierContext,
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bool
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)
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{
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auto it = std::find(_localVariables.begin(), _localVariables.end(), _identifier.name.str());
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return it == _localVariables.end() ? size_t(-1) : 1;
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};
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identifierAccess.generateCode = [&](
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yul::Identifier const& _identifier,
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yul::IdentifierContext _context,
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yul::AbstractAssembly& _assembly
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)
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{
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auto it = std::find(_localVariables.begin(), _localVariables.end(), _identifier.name.str());
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solAssert(it != _localVariables.end(), "");
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int stackDepth = _localVariables.end() - it;
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int stackDiff = _assembly.stackHeight() - startStackHeight + stackDepth;
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if (_context == yul::IdentifierContext::LValue)
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stackDiff -= 1;
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if (stackDiff < 1 || stackDiff > 16)
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BOOST_THROW_EXCEPTION(
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CompilerError() <<
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errinfo_sourceLocation(_identifier.location) <<
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errinfo_comment("Stack too deep (" + to_string(stackDiff) + "), try removing local variables.")
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);
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if (_context == yul::IdentifierContext::RValue)
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_assembly.appendInstruction(dupInstruction(stackDiff));
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else
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{
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_assembly.appendInstruction(swapInstruction(stackDiff));
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_assembly.appendInstruction(Instruction::POP);
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}
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};
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ErrorList errors;
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ErrorReporter errorReporter(errors);
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auto scanner = make_shared<langutil::Scanner>(langutil::CharStream(_assembly, "--CODEGEN--"));
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auto parserResult = yul::Parser(errorReporter, yul::EVMDialect::strictAssemblyForEVM()).parse(scanner, false);
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#ifdef SOL_OUTPUT_ASM
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cout << yul::AsmPrinter()(*parserResult) << endl;
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#endif
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yul::AsmAnalysisInfo analysisInfo;
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bool analyzerResult = false;
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if (parserResult)
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analyzerResult = yul::AsmAnalyzer(
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analysisInfo,
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errorReporter,
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m_evmVersion,
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boost::none,
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yul::EVMDialect::strictAssemblyForEVM(),
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identifierAccess.resolve
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).analyze(*parserResult);
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if (!parserResult || !errorReporter.errors().empty() || !analyzerResult)
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{
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string message =
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"Error parsing/analyzing inline assembly block:\n"
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"------------------ Input: -----------------\n" +
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_assembly + "\n"
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"------------------ Errors: ----------------\n";
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for (auto const& error: errorReporter.errors())
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message += SourceReferenceFormatter::formatExceptionInformation(
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*error,
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(error->type() == Error::Type::Warning) ? "Warning" : "Error"
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);
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message += "-------------------------------------------\n";
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solAssert(false, message);
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}
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solAssert(errorReporter.errors().empty(), "Failed to analyze inline assembly block.");
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CodeGenerator::assemble(*parserResult, analysisInfo, *m_asm, identifierAccess, _system);
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// Reset the source location to the one of the node (instead of the CODEGEN source location)
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updateSourceLocation();
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}
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FunctionDefinition const& CompilerContext::resolveVirtualFunction(
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FunctionDefinition const& _function,
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vector<ContractDefinition const*>::const_iterator _searchStart
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)
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{
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string name = _function.name();
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FunctionType functionType(_function);
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auto it = _searchStart;
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for (; it != m_inheritanceHierarchy.end(); ++it)
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for (FunctionDefinition const* function: (*it)->definedFunctions())
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if (
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function->name() == name &&
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!function->isConstructor() &&
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FunctionType(*function).asCallableFunction(false)->hasEqualParameterTypes(functionType)
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)
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return *function;
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solAssert(false, "Super function " + name + " not found.");
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return _function; // not reached
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}
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vector<ContractDefinition const*>::const_iterator CompilerContext::superContract(ContractDefinition const& _contract) const
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{
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solAssert(!m_inheritanceHierarchy.empty(), "No inheritance hierarchy set.");
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auto it = find(m_inheritanceHierarchy.begin(), m_inheritanceHierarchy.end(), &_contract);
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solAssert(it != m_inheritanceHierarchy.end(), "Base not found in inheritance hierarchy.");
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return ++it;
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}
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void CompilerContext::updateSourceLocation()
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{
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m_asm->setSourceLocation(m_visitedNodes.empty() ? SourceLocation() : m_visitedNodes.top()->location());
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}
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eth::AssemblyItem CompilerContext::FunctionCompilationQueue::entryLabel(
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Declaration const& _declaration,
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CompilerContext& _context
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)
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{
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auto res = m_entryLabels.find(&_declaration);
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if (res == m_entryLabels.end())
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{
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eth::AssemblyItem tag(_context.newTag());
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m_entryLabels.insert(make_pair(&_declaration, tag));
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m_functionsToCompile.push(&_declaration);
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return tag.tag();
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}
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else
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return res->second.tag();
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}
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eth::AssemblyItem CompilerContext::FunctionCompilationQueue::entryLabelIfExists(Declaration const& _declaration) const
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{
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auto res = m_entryLabels.find(&_declaration);
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return res == m_entryLabels.end() ? eth::AssemblyItem(eth::UndefinedItem) : res->second.tag();
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}
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Declaration const* CompilerContext::FunctionCompilationQueue::nextFunctionToCompile() const
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{
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while (!m_functionsToCompile.empty())
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{
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if (m_alreadyCompiledFunctions.count(m_functionsToCompile.front()))
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m_functionsToCompile.pop();
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else
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return m_functionsToCompile.front();
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}
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return nullptr;
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}
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void CompilerContext::FunctionCompilationQueue::startFunction(Declaration const& _function)
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{
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if (!m_functionsToCompile.empty() && m_functionsToCompile.front() == &_function)
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m_functionsToCompile.pop();
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m_alreadyCompiledFunctions.insert(&_function);
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}
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}
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}
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