mirror of
https://github.com/ethereum/solidity
synced 2023-10-03 13:03:40 +00:00
7ea3d950d7
Internal functions of libraries can be called as if the library were a base contract of the calling contract. As the calling convention for internal functions is to not create a new call context, the code of these functions will be pulled into the context of the caller, duplicating their code. This might pull in code of further internal or even private functions. The use case for such functions is to allow libraries which can operate on memory types such that these types can also be modified in place.
260 lines
8.1 KiB
C++
260 lines
8.1 KiB
C++
/*
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This file is part of cpp-ethereum.
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cpp-ethereum 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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cpp-ethereum 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 cpp-ethereum. 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 <utility>
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#include <numeric>
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#include <libsolidity/ast/AST.h>
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#include <libsolidity/codegen/Compiler.h>
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#include <libsolidity/interface/Version.h>
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using namespace std;
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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::addMagicGlobal(MagicVariableDeclaration const& _declaration)
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{
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m_magicGlobals.insert(&_declaration);
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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::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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m_localVariables[&_declaration] = unsigned(m_asm.deposit()) - _offsetToCurrent;
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}
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void CompilerContext::removeVariable(VariableDeclaration const& _declaration)
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{
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solAssert(!!m_localVariables.count(&_declaration), "");
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m_localVariables.erase(&_declaration);
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}
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eth::Assembly const& CompilerContext::compiledContract(const ContractDefinition& _contract) const
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{
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auto ret = m_compiledContracts.find(&_contract);
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solAssert(ret != m_compiledContracts.end(), "Compiled contract not found.");
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return *ret->second;
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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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eth::AssemblyItem CompilerContext::virtualFunctionEntryLabel(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 functionEntryLabel(_function);
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solAssert(!m_inheritanceHierarchy.empty(), "No inheritance hierarchy set.");
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return virtualFunctionEntryLabel(_function, m_inheritanceHierarchy.begin());
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}
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eth::AssemblyItem CompilerContext::superFunctionEntryLabel(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 virtualFunctionEntryLabel(_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::functionModifier(string const& _name) const
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{
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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() == _name)
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return *modifier;
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BOOST_THROW_EXCEPTION(InternalCompilerError()
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<< errinfo_comment("Function modifier " + _name + " not found."));
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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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return res->second;
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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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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::injectVersionStampIntoSub(size_t _subIndex)
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{
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eth::Assembly& sub = m_asm.sub(_subIndex);
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sub.injectStart(Instruction::POP);
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sub.injectStart(fromBigEndian<u256>(binaryVersion()));
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}
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eth::AssemblyItem CompilerContext::virtualFunctionEntryLabel(
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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).hasEqualArgumentTypes(functionType)
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)
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return functionEntryLabel(*function);
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solAssert(false, "Super function " + name + " not found.");
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return m_asm.newTag(); // 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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