Adding fixes for signedness conversion warnings in libyul

Co-authored-by: Kamil Śliwak <kamil.sliwak@codepoets.it>
This commit is contained in:
Djordje Mijovic 2020-06-02 15:34:28 +02:00
parent 21a9d3dd21
commit 33e7b24df0
15 changed files with 78 additions and 68 deletions

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@ -137,7 +137,7 @@ vector<YulString> AsmAnalyzer::operator()(Identifier const& _identifier)
{ {
bool insideFunction = m_currentScope->insideFunction(); bool insideFunction = m_currentScope->insideFunction();
size_t stackSize = m_resolver(_identifier, yul::IdentifierContext::RValue, insideFunction); size_t stackSize = m_resolver(_identifier, yul::IdentifierContext::RValue, insideFunction);
if (stackSize != size_t(-1)) if (stackSize != numeric_limits<size_t>::max())
{ {
found = true; found = true;
yulAssert(stackSize == 1, "Invalid stack size of external reference."); yulAssert(stackSize == 1, "Invalid stack size of external reference.");
@ -479,7 +479,7 @@ void AsmAnalyzer::checkAssignment(Identifier const& _variable, YulString _valueT
{ {
bool insideFunction = m_currentScope->insideFunction(); bool insideFunction = m_currentScope->insideFunction();
size_t variableSize = m_resolver(_variable, yul::IdentifierContext::LValue, insideFunction); size_t variableSize = m_resolver(_variable, yul::IdentifierContext::LValue, insideFunction);
if (variableSize != size_t(-1)) if (variableSize != numeric_limits<size_t>::max())
{ {
found = true; found = true;
variableType = &m_dialect.defaultType; variableType = &m_dialect.defaultType;

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@ -45,7 +45,7 @@ string solidity::yul::reindent(string const& _code)
auto const static countBraces = [](string const& _s) noexcept -> int auto const static countBraces = [](string const& _s) noexcept -> int
{ {
auto const i = _s.find("//"); auto const i = _s.find("//");
auto const e = i == _s.npos ? end(_s) : next(begin(_s), i); auto const e = i == _s.npos ? end(_s) : next(begin(_s), static_cast<ptrdiff_t>(i));
auto const opening = count_if(begin(_s), e, [](auto ch) { return ch == '{' || ch == '('; }); auto const opening = count_if(begin(_s), e, [](auto ch) { return ch == '{' || ch == '('; });
auto const closing = count_if(begin(_s), e, [](auto ch) { return ch == '}' || ch == ')'; }); auto const closing = count_if(begin(_s), e, [](auto ch) { return ch == '}' || ch == ')'; });
return opening - closing; return opening - closing;

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@ -71,10 +71,10 @@ public:
{ {
// FNV hash - can be replaced by a better one, e.g. xxhash64 // FNV hash - can be replaced by a better one, e.g. xxhash64
std::uint64_t hash = emptyHash(); std::uint64_t hash = emptyHash();
for (auto c: v) for (char c: v)
{ {
hash *= 1099511628211u; hash *= 1099511628211u;
hash ^= c; hash ^= static_cast<uint64_t>(c);
} }
return hash; return hash;

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@ -143,14 +143,14 @@ pair<shared_ptr<AbstractAssembly>, AbstractAssembly::SubID> EthAssemblyAdapter::
{ {
shared_ptr<evmasm::Assembly> assembly{make_shared<evmasm::Assembly>()}; shared_ptr<evmasm::Assembly> assembly{make_shared<evmasm::Assembly>()};
auto sub = m_assembly.newSub(assembly); auto sub = m_assembly.newSub(assembly);
return {make_shared<EthAssemblyAdapter>(*assembly), size_t(sub.data())}; return {make_shared<EthAssemblyAdapter>(*assembly), static_cast<size_t>(sub.data())};
} }
void EthAssemblyAdapter::appendDataOffset(AbstractAssembly::SubID _sub) void EthAssemblyAdapter::appendDataOffset(AbstractAssembly::SubID _sub)
{ {
auto it = m_dataHashBySubId.find(_sub); auto it = m_dataHashBySubId.find(_sub);
if (it == m_dataHashBySubId.end()) if (it == m_dataHashBySubId.end())
m_assembly.pushSubroutineOffset(size_t(_sub)); m_assembly.pushSubroutineOffset(_sub);
else else
m_assembly << evmasm::AssemblyItem(evmasm::PushData, it->second); m_assembly << evmasm::AssemblyItem(evmasm::PushData, it->second);
} }
@ -159,7 +159,7 @@ void EthAssemblyAdapter::appendDataSize(AbstractAssembly::SubID _sub)
{ {
auto it = m_dataHashBySubId.find(_sub); auto it = m_dataHashBySubId.find(_sub);
if (it == m_dataHashBySubId.end()) if (it == m_dataHashBySubId.end())
m_assembly.pushSubroutineSize(size_t(_sub)); m_assembly.pushSubroutineSize(static_cast<size_t>(_sub));
else else
m_assembly << u256(m_assembly.data(h256(it->second)).size()); m_assembly << u256(m_assembly.data(h256(it->second)).size());
} }

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@ -74,7 +74,7 @@ void EVMAssembly::appendLabelReference(LabelID _labelId)
EVMAssembly::LabelID EVMAssembly::newLabelId() EVMAssembly::LabelID EVMAssembly::newLabelId()
{ {
m_labelPositions[m_nextLabelId] = size_t(-1); m_labelPositions[m_nextLabelId] = numeric_limits<size_t>::max();
return m_nextLabelId++; return m_nextLabelId++;
} }
@ -165,7 +165,7 @@ evmasm::LinkerObject EVMAssembly::finalize()
size_t referencePos = ref.first; size_t referencePos = ref.first;
yulAssert(m_labelPositions.count(ref.second), ""); yulAssert(m_labelPositions.count(ref.second), "");
size_t labelPos = m_labelPositions.at(ref.second); size_t labelPos = m_labelPositions.at(ref.second);
yulAssert(labelPos != size_t(-1), "Undefined but allocated label used."); yulAssert(labelPos != numeric_limits<size_t>::max(), "Undefined but allocated label used.");
updateReference(referencePos, labelReferenceSize, u256(labelPos)); updateReference(referencePos, labelReferenceSize, u256(labelPos));
} }
@ -177,7 +177,7 @@ evmasm::LinkerObject EVMAssembly::finalize()
void EVMAssembly::setLabelToCurrentPosition(LabelID _labelId) void EVMAssembly::setLabelToCurrentPosition(LabelID _labelId)
{ {
yulAssert(m_labelPositions.count(_labelId), "Label not found."); yulAssert(m_labelPositions.count(_labelId), "Label not found.");
yulAssert(m_labelPositions[_labelId] == size_t(-1), "Label already set."); yulAssert(m_labelPositions[_labelId] == numeric_limits<size_t>::max(), "Label already set.");
m_labelPositions[_labelId] = m_bytecode.size(); m_labelPositions[_labelId] = m_bytecode.size();
} }

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@ -175,28 +175,29 @@ void CodeTransform::operator()(VariableDeclaration const& _varDecl)
{ {
yulAssert(m_scope, ""); yulAssert(m_scope, "");
int const numVariables = _varDecl.variables.size(); size_t const numVariables = _varDecl.variables.size();
int heightAtStart = m_assembly.stackHeight(); auto heightAtStart = static_cast<size_t>(m_assembly.stackHeight());
if (_varDecl.value) if (_varDecl.value)
{ {
std::visit(*this, *_varDecl.value); std::visit(*this, *_varDecl.value);
expectDeposit(numVariables, heightAtStart); expectDeposit(static_cast<int>(numVariables), static_cast<int>(heightAtStart));
} }
else else
{ {
m_assembly.setSourceLocation(_varDecl.location); m_assembly.setSourceLocation(_varDecl.location);
int variablesLeft = numVariables; size_t variablesLeft = numVariables;
while (variablesLeft--) while (variablesLeft--)
m_assembly.appendConstant(u256(0)); m_assembly.appendConstant(u256(0));
} }
m_assembly.setSourceLocation(_varDecl.location); m_assembly.setSourceLocation(_varDecl.location);
bool atTopOfStack = true; bool atTopOfStack = true;
for (int varIndex = numVariables - 1; varIndex >= 0; --varIndex) for (size_t varIndex = 0; varIndex < numVariables; ++varIndex)
{ {
YulString varName = _varDecl.variables[varIndex].name; size_t varIndexReverse = numVariables - 1 - varIndex;
YulString varName = _varDecl.variables[varIndexReverse].name;
auto& var = std::get<Scope::Variable>(m_scope->identifiers.at(varName)); auto& var = std::get<Scope::Variable>(m_scope->identifiers.at(varName));
m_context->variableStackHeights[&var] = heightAtStart + varIndex; m_context->variableStackHeights[&var] = heightAtStart + varIndexReverse;
if (!m_allowStackOpt) if (!m_allowStackOpt)
continue; continue;
@ -214,10 +215,10 @@ void CodeTransform::operator()(VariableDeclaration const& _varDecl)
atTopOfStack = false; atTopOfStack = false;
else else
{ {
int slot = *m_unusedStackSlots.begin(); auto slot = static_cast<size_t>(*m_unusedStackSlots.begin());
m_unusedStackSlots.erase(m_unusedStackSlots.begin()); m_unusedStackSlots.erase(m_unusedStackSlots.begin());
m_context->variableStackHeights[&var] = slot; m_context->variableStackHeights[&var] = slot;
if (int heightDiff = variableHeightDiff(var, varName, true)) if (size_t heightDiff = variableHeightDiff(var, varName, true))
m_assembly.appendInstruction(evmasm::swapInstruction(heightDiff - 1)); m_assembly.appendInstruction(evmasm::swapInstruction(heightDiff - 1));
m_assembly.appendInstruction(evmasm::Instruction::POP); m_assembly.appendInstruction(evmasm::Instruction::POP);
} }
@ -240,7 +241,7 @@ void CodeTransform::operator()(Assignment const& _assignment)
{ {
int height = m_assembly.stackHeight(); int height = m_assembly.stackHeight();
std::visit(*this, *_assignment.value); std::visit(*this, *_assignment.value);
expectDeposit(_assignment.variableNames.size(), height); expectDeposit(static_cast<int>(_assignment.variableNames.size()), height);
m_assembly.setSourceLocation(_assignment.location); m_assembly.setSourceLocation(_assignment.location);
generateMultiAssignment(_assignment.variableNames); generateMultiAssignment(_assignment.variableNames);
@ -263,7 +264,7 @@ void CodeTransform::operator()(FunctionCall const& _call)
else else
{ {
m_assembly.setSourceLocation(_call.location); m_assembly.setSourceLocation(_call.location);
EVMAssembly::LabelID returnLabel(-1); // only used for evm 1.0 EVMAssembly::LabelID returnLabel(numeric_limits<EVMAssembly::LabelID>::max()); // only used for evm 1.0
if (!m_evm15) if (!m_evm15)
{ {
returnLabel = m_assembly.newLabelId(); returnLabel = m_assembly.newLabelId();
@ -281,10 +282,17 @@ void CodeTransform::operator()(FunctionCall const& _call)
visitExpression(arg); visitExpression(arg);
m_assembly.setSourceLocation(_call.location); m_assembly.setSourceLocation(_call.location);
if (m_evm15) if (m_evm15)
m_assembly.appendJumpsub(functionEntryID(_call.functionName.name, *function), function->arguments.size(), function->returns.size()); m_assembly.appendJumpsub(
functionEntryID(_call.functionName.name, *function),
static_cast<int>(function->arguments.size()),
static_cast<int>(function->returns.size())
);
else else
{ {
m_assembly.appendJumpTo(functionEntryID(_call.functionName.name, *function), function->returns.size() - function->arguments.size() - 1); m_assembly.appendJumpTo(
functionEntryID(_call.functionName.name, *function),
static_cast<int>(function->returns.size() - function->arguments.size()) - 1
);
m_assembly.appendLabel(returnLabel); m_assembly.appendLabel(returnLabel);
} }
} }
@ -300,7 +308,7 @@ void CodeTransform::operator()(Identifier const& _identifier)
{ {
// TODO: opportunity for optimization: Do not DUP if this is the last reference // TODO: opportunity for optimization: Do not DUP if this is the last reference
// to the top most element of the stack // to the top most element of the stack
if (int heightDiff = variableHeightDiff(_var, _identifier.name, false)) if (size_t heightDiff = variableHeightDiff(_var, _identifier.name, false))
m_assembly.appendInstruction(evmasm::dupInstruction(heightDiff)); m_assembly.appendInstruction(evmasm::dupInstruction(heightDiff));
else else
// Store something to balance the stack // Store something to balance the stack
@ -407,7 +415,7 @@ void CodeTransform::operator()(FunctionDefinition const& _function)
int const stackHeightBefore = m_assembly.stackHeight(); int const stackHeightBefore = m_assembly.stackHeight();
if (m_evm15) if (m_evm15)
m_assembly.appendBeginsub(functionEntryID(_function.name, function), _function.parameters.size()); m_assembly.appendBeginsub(functionEntryID(_function.name, function), static_cast<int>(_function.parameters.size()));
else else
m_assembly.appendLabel(functionEntryID(_function.name, function)); m_assembly.appendLabel(functionEntryID(_function.name, function));
@ -465,15 +473,15 @@ void CodeTransform::operator()(FunctionDefinition const& _function)
// modified parallel to the actual stack. // modified parallel to the actual stack.
vector<int> stackLayout; vector<int> stackLayout;
if (!m_evm15) if (!m_evm15)
stackLayout.push_back(_function.returnVariables.size()); // Move return label to the top stackLayout.push_back(static_cast<int>(_function.returnVariables.size())); // Move return label to the top
stackLayout += vector<int>(_function.parameters.size(), -1); // discard all arguments stackLayout += vector<int>(_function.parameters.size(), -1); // discard all arguments
for (size_t i = 0; i < _function.returnVariables.size(); ++i) for (size_t i = 0; i < _function.returnVariables.size(); ++i)
stackLayout.push_back(i); // Move return values down, but keep order. stackLayout.push_back(static_cast<int>(i)); // Move return values down, but keep order.
if (stackLayout.size() > 17) if (stackLayout.size() > 17)
{ {
StackTooDeepError error(_function.name, YulString{}, stackLayout.size() - 17); StackTooDeepError error(_function.name, YulString{}, static_cast<int>(stackLayout.size()) - 17);
error << errinfo_comment( error << errinfo_comment(
"The function " + "The function " +
_function.name.str() + _function.name.str() +
@ -481,11 +489,11 @@ void CodeTransform::operator()(FunctionDefinition const& _function)
to_string(stackLayout.size() - 17) + to_string(stackLayout.size() - 17) +
" parameters or return variables too many to fit the stack size." " parameters or return variables too many to fit the stack size."
); );
stackError(std::move(error), m_assembly.stackHeight() - _function.parameters.size()); stackError(std::move(error), m_assembly.stackHeight() - static_cast<int>(_function.parameters.size()));
} }
else else
{ {
while (!stackLayout.empty() && stackLayout.back() != int(stackLayout.size() - 1)) while (!stackLayout.empty() && stackLayout.back() != static_cast<int>(stackLayout.size() - 1))
if (stackLayout.back() < 0) if (stackLayout.back() < 0)
{ {
m_assembly.appendInstruction(evmasm::Instruction::POP); m_assembly.appendInstruction(evmasm::Instruction::POP);
@ -493,17 +501,17 @@ void CodeTransform::operator()(FunctionDefinition const& _function)
} }
else else
{ {
m_assembly.appendInstruction(evmasm::swapInstruction(stackLayout.size() - stackLayout.back() - 1)); m_assembly.appendInstruction(evmasm::swapInstruction(stackLayout.size() - static_cast<size_t>(stackLayout.back()) - 1));
swap(stackLayout[stackLayout.back()], stackLayout.back()); swap(stackLayout[static_cast<size_t>(stackLayout.back())], stackLayout.back());
} }
for (int i = 0; size_t(i) < stackLayout.size(); ++i) for (size_t i = 0; i < stackLayout.size(); ++i)
yulAssert(i == stackLayout[i], "Error reshuffling stack."); yulAssert(i == static_cast<size_t>(stackLayout[i]), "Error reshuffling stack.");
} }
} }
if (m_evm15) if (m_evm15)
m_assembly.appendReturnsub(_function.returnVariables.size(), stackHeightBefore); m_assembly.appendReturnsub(static_cast<int>(_function.returnVariables.size()), stackHeightBefore);
else else
m_assembly.appendJump(stackHeightBefore - _function.returnVariables.size()); m_assembly.appendJump(stackHeightBefore - static_cast<int>(_function.returnVariables.size()));
m_assembly.setStackHeight(stackHeightBefore); m_assembly.setStackHeight(stackHeightBefore);
} }
@ -683,7 +691,7 @@ void CodeTransform::generateAssignment(Identifier const& _variableName)
if (auto var = m_scope->lookup(_variableName.name)) if (auto var = m_scope->lookup(_variableName.name))
{ {
Scope::Variable const& _var = std::get<Scope::Variable>(*var); Scope::Variable const& _var = std::get<Scope::Variable>(*var);
if (int heightDiff = variableHeightDiff(_var, _variableName.name, true)) if (size_t heightDiff = variableHeightDiff(_var, _variableName.name, true))
m_assembly.appendInstruction(evmasm::swapInstruction(heightDiff - 1)); m_assembly.appendInstruction(evmasm::swapInstruction(heightDiff - 1));
m_assembly.appendInstruction(evmasm::Instruction::POP); m_assembly.appendInstruction(evmasm::Instruction::POP);
decreaseReference(_variableName.name, _var); decreaseReference(_variableName.name, _var);
@ -698,12 +706,12 @@ void CodeTransform::generateAssignment(Identifier const& _variableName)
} }
} }
int CodeTransform::variableHeightDiff(Scope::Variable const& _var, YulString _varName, bool _forSwap) size_t CodeTransform::variableHeightDiff(Scope::Variable const& _var, YulString _varName, bool _forSwap)
{ {
yulAssert(m_context->variableStackHeights.count(&_var), ""); yulAssert(m_context->variableStackHeights.count(&_var), "");
int heightDiff = m_assembly.stackHeight() - m_context->variableStackHeights[&_var]; size_t heightDiff = static_cast<size_t>(m_assembly.stackHeight()) - m_context->variableStackHeights[&_var];
yulAssert(heightDiff > (_forSwap ? 1 : 0), "Negative stack difference for variable."); yulAssert(heightDiff > (_forSwap ? 1 : 0), "Negative stack difference for variable.");
int limit = _forSwap ? 17 : 16; size_t limit = _forSwap ? 17 : 16;
if (heightDiff > limit) if (heightDiff > limit)
{ {
m_stackErrors.emplace_back(_varName, heightDiff - limit); m_stackErrors.emplace_back(_varName, heightDiff - limit);
@ -723,4 +731,3 @@ void CodeTransform::expectDeposit(int _deposit, int _oldHeight) const
{ {
yulAssert(m_assembly.stackHeight() == _oldHeight + _deposit, "Invalid stack deposit."); yulAssert(m_assembly.stackHeight() == _oldHeight + _deposit, "Invalid stack deposit.");
} }

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@ -54,7 +54,7 @@ struct StackTooDeepError: virtual YulException
struct CodeTransformContext struct CodeTransformContext
{ {
std::map<Scope::Function const*, AbstractAssembly::LabelID> functionEntryIDs; std::map<Scope::Function const*, AbstractAssembly::LabelID> functionEntryIDs;
std::map<Scope::Variable const*, int> variableStackHeights; std::map<Scope::Variable const*, size_t> variableStackHeights;
std::map<Scope::Variable const*, unsigned> variableReferences; std::map<Scope::Variable const*, unsigned> variableReferences;
struct JumpInfo struct JumpInfo
@ -200,7 +200,7 @@ private:
/// Determines the stack height difference to the given variables. Throws /// Determines the stack height difference to the given variables. Throws
/// if it is not yet in scope or the height difference is too large. Returns /// if it is not yet in scope or the height difference is too large. Returns
/// the (positive) stack height difference otherwise. /// the (positive) stack height difference otherwise.
int variableHeightDiff(Scope::Variable const& _var, YulString _name, bool _forSwap); size_t variableHeightDiff(Scope::Variable const& _var, YulString _name, bool _forSwap);
void expectDeposit(int _deposit, int _oldHeight) const; void expectDeposit(int _deposit, int _oldHeight) const;

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@ -63,8 +63,8 @@ pair<YulString, BuiltinFunctionForEVM> createEVMFunction(
evmasm::InstructionInfo info = evmasm::instructionInfo(_instruction); evmasm::InstructionInfo info = evmasm::instructionInfo(_instruction);
BuiltinFunctionForEVM f; BuiltinFunctionForEVM f;
f.name = YulString{_name}; f.name = YulString{_name};
f.parameters.resize(info.args); f.parameters.resize(static_cast<size_t>(info.args));
f.returns.resize(info.ret); f.returns.resize(static_cast<size_t>(info.ret));
f.sideEffects = EVMDialect::sideEffectsOfInstruction(_instruction); f.sideEffects = EVMDialect::sideEffectsOfInstruction(_instruction);
f.controlFlowSideEffects.terminates = evmasm::SemanticInformation::terminatesControlFlow(_instruction); f.controlFlowSideEffects.terminates = evmasm::SemanticInformation::terminatesControlFlow(_instruction);
f.controlFlowSideEffects.reverts = evmasm::SemanticInformation::reverts(_instruction); f.controlFlowSideEffects.reverts = evmasm::SemanticInformation::reverts(_instruction);

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@ -91,7 +91,11 @@ void GasMeterVisitor::operator()(Literal const& _lit)
m_runGas += evmasm::GasMeter::runGas(evmasm::Instruction::PUSH1); m_runGas += evmasm::GasMeter::runGas(evmasm::Instruction::PUSH1);
m_dataGas += m_dataGas +=
singleByteDataGas() + singleByteDataGas() +
size_t(evmasm::GasMeter::dataGas(toCompactBigEndian(valueOfLiteral(_lit), 1), m_isCreation, m_dialect.evmVersion())); static_cast<size_t>(evmasm::GasMeter::dataGas(
toCompactBigEndian(valueOfLiteral(_lit), 1),
m_isCreation,
m_dialect.evmVersion()
));
} }
void GasMeterVisitor::operator()(Identifier const&) void GasMeterVisitor::operator()(Identifier const&)

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@ -376,12 +376,12 @@ bytes BinaryTransform::operator()(BuiltinCall const& _call)
if (_call.functionName == "dataoffset") if (_call.functionName == "dataoffset")
{ {
string name = get<StringLiteral>(_call.arguments.at(0)).value; string name = get<StringLiteral>(_call.arguments.at(0)).value;
return toBytes(Opcode::I64Const) + lebEncodeSigned(m_subModulePosAndSize.at(name).first); return toBytes(Opcode::I64Const) + lebEncodeSigned(static_cast<int64_t>(m_subModulePosAndSize.at(name).first));
} }
else if (_call.functionName == "datasize") else if (_call.functionName == "datasize")
{ {
string name = get<StringLiteral>(_call.arguments.at(0)).value; string name = get<StringLiteral>(_call.arguments.at(0)).value;
return toBytes(Opcode::I64Const) + lebEncodeSigned(m_subModulePosAndSize.at(name).second); return toBytes(Opcode::I64Const) + lebEncodeSigned(static_cast<int64_t>(m_subModulePosAndSize.at(name).second));
} }
bytes args = visit(_call.arguments); bytes args = visit(_call.arguments);

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@ -112,7 +112,7 @@ void WordSizeTransform::operator()(Block& _block)
yulAssert(varDecl.variables.size() == 1, ""); yulAssert(varDecl.variables.size() == 1, "");
auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name); auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name);
vector<Statement> ret; vector<Statement> ret;
for (int i = 0; i < 3; i++) for (size_t i = 0; i < 3; i++)
ret.emplace_back(VariableDeclaration{ ret.emplace_back(VariableDeclaration{
varDecl.location, varDecl.location,
{TypedName{varDecl.location, newLhs[i], m_targetDialect.defaultType}}, {TypedName{varDecl.location, newLhs[i], m_targetDialect.defaultType}},
@ -143,7 +143,7 @@ void WordSizeTransform::operator()(Block& _block)
auto newRhs = expandValue(*varDecl.value); auto newRhs = expandValue(*varDecl.value);
auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name); auto newLhs = generateU64IdentifierNames(varDecl.variables[0].name);
vector<Statement> ret; vector<Statement> ret;
for (int i = 0; i < 4; i++) for (size_t i = 0; i < 4; i++)
ret.emplace_back(VariableDeclaration{ ret.emplace_back(VariableDeclaration{
varDecl.location, varDecl.location,
{TypedName{varDecl.location, newLhs[i], m_targetDialect.defaultType}}, {TypedName{varDecl.location, newLhs[i], m_targetDialect.defaultType}},
@ -172,7 +172,7 @@ void WordSizeTransform::operator()(Block& _block)
yulAssert(assignment.variableNames.size() == 1, ""); yulAssert(assignment.variableNames.size() == 1, "");
auto newLhs = generateU64IdentifierNames(assignment.variableNames[0].name); auto newLhs = generateU64IdentifierNames(assignment.variableNames[0].name);
vector<Statement> ret; vector<Statement> ret;
for (int i = 0; i < 3; i++) for (size_t i = 0; i < 3; i++)
ret.emplace_back(Assignment{ ret.emplace_back(Assignment{
assignment.location, assignment.location,
{Identifier{assignment.location, newLhs[i]}}, {Identifier{assignment.location, newLhs[i]}},
@ -203,7 +203,7 @@ void WordSizeTransform::operator()(Block& _block)
auto newRhs = expandValue(*assignment.value); auto newRhs = expandValue(*assignment.value);
YulString lhsName = assignment.variableNames[0].name; YulString lhsName = assignment.variableNames[0].name;
vector<Statement> ret; vector<Statement> ret;
for (int i = 0; i < 4; i++) for (size_t i = 0; i < 4; i++)
ret.emplace_back(Assignment{ ret.emplace_back(Assignment{
assignment.location, assignment.location,
{Identifier{assignment.location, m_variableMapping.at(lhsName)[i]}}, {Identifier{assignment.location, m_variableMapping.at(lhsName)[i]}},
@ -382,7 +382,7 @@ std::vector<Statement> WordSizeTransform::handleSwitch(Switch& _switch)
array<YulString, 4> WordSizeTransform::generateU64IdentifierNames(YulString const& _s) array<YulString, 4> WordSizeTransform::generateU64IdentifierNames(YulString const& _s)
{ {
yulAssert(m_variableMapping.find(_s) == m_variableMapping.end(), ""); yulAssert(m_variableMapping.find(_s) == m_variableMapping.end(), "");
for (int i = 0; i < 4; i++) for (size_t i = 0; i < 4; i++)
m_variableMapping[_s][i] = m_nameDispenser.newName(YulString{_s.str() + "_" + to_string(i)}); m_variableMapping[_s][i] = m_nameDispenser.newName(YulString{_s.str() + "_" + to_string(i)});
return m_variableMapping[_s]; return m_variableMapping[_s];
} }
@ -392,19 +392,20 @@ array<unique_ptr<Expression>, 4> WordSizeTransform::expandValue(Expression const
array<unique_ptr<Expression>, 4> ret; array<unique_ptr<Expression>, 4> ret;
if (holds_alternative<Identifier>(_e)) if (holds_alternative<Identifier>(_e))
{ {
Identifier const& id = std::get<Identifier>(_e); auto const& id = std::get<Identifier>(_e);
for (int i = 0; i < 4; i++) for (size_t i = 0; i < 4; i++)
ret[i] = make_unique<Expression>(Identifier{id.location, m_variableMapping.at(id.name)[i]}); ret[i] = make_unique<Expression>(Identifier{id.location, m_variableMapping.at(id.name)[i]});
} }
else if (holds_alternative<Literal>(_e)) else if (holds_alternative<Literal>(_e))
{ {
Literal const& lit = std::get<Literal>(_e); auto const& lit = std::get<Literal>(_e);
u256 val = valueOfLiteral(lit); u256 val = valueOfLiteral(lit);
for (int i = 3; i >= 0; i--) for (size_t exprIndex = 0; exprIndex < 4; ++exprIndex)
{ {
size_t exprIndexReverse = 3 - exprIndex;
u256 currentVal = val & std::numeric_limits<uint64_t>::max(); u256 currentVal = val & std::numeric_limits<uint64_t>::max();
val >>= 64; val >>= 64;
ret[i] = make_unique<Expression>( ret[exprIndexReverse] = make_unique<Expression>(
Literal{ Literal{
lit.location, lit.location,
LiteralKind::Number, LiteralKind::Number,
@ -426,4 +427,3 @@ vector<Expression> WordSizeTransform::expandValueToVector(Expression const& _e)
ret.emplace_back(std::move(*val)); ret.emplace_back(std::move(*val));
return ret; return ret;
} }

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@ -51,10 +51,10 @@ void DeadCodeEliminator::operator()(Block& _block)
tie(controlFlowChange, index) = TerminationFinder{m_dialect}.firstUnconditionalControlFlowChange(_block.statements); tie(controlFlowChange, index) = TerminationFinder{m_dialect}.firstUnconditionalControlFlowChange(_block.statements);
// Erase everything after the terminating statement that is not a function definition. // Erase everything after the terminating statement that is not a function definition.
if (controlFlowChange != TerminationFinder::ControlFlow::FlowOut && index != size_t(-1)) if (controlFlowChange != TerminationFinder::ControlFlow::FlowOut && index != std::numeric_limits<size_t>::max())
_block.statements.erase( _block.statements.erase(
remove_if( remove_if(
_block.statements.begin() + index + 1, _block.statements.begin() + static_cast<ptrdiff_t>(index) + 1,
_block.statements.end(), _block.statements.end(),
[] (Statement const& _s) { return !holds_alternative<yul::FunctionDefinition>(_s); } [] (Statement const& _s) { return !holds_alternative<yul::FunctionDefinition>(_s); }
), ),
@ -63,4 +63,3 @@ void DeadCodeEliminator::operator()(Block& _block)
ASTModifier::operator()(_block); ASTModifier::operator()(_block);
} }

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@ -119,7 +119,7 @@ void ExpressionJoiner::decrementLatestStatementPointer()
void ExpressionJoiner::resetLatestStatementPointer() void ExpressionJoiner::resetLatestStatementPointer()
{ {
m_currentBlock = nullptr; m_currentBlock = nullptr;
m_latestStatementInBlock = size_t(-1); m_latestStatementInBlock = numeric_limits<size_t>::max();
} }
Statement* ExpressionJoiner::latestStatement() Statement* ExpressionJoiner::latestStatement()

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@ -180,7 +180,7 @@ pair<TerminationFinder::ControlFlow, size_t> TerminationFinder::firstUncondition
if (controlFlow != ControlFlow::FlowOut) if (controlFlow != ControlFlow::FlowOut)
return {controlFlow, i}; return {controlFlow, i};
} }
return {ControlFlow::FlowOut, size_t(-1)}; return {ControlFlow::FlowOut, numeric_limits<size_t>::max()};
} }
TerminationFinder::ControlFlow TerminationFinder::controlFlowKind(Statement const& _statement) TerminationFinder::ControlFlow TerminationFinder::controlFlowKind(Statement const& _statement)

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@ -178,14 +178,14 @@ bool StackCompressor::run(
eliminateVariables( eliminateVariables(
_dialect, _dialect,
std::get<Block>(_object.code->statements.at(0)), std::get<Block>(_object.code->statements.at(0)),
stackSurplus.at({}), static_cast<size_t>(stackSurplus.at({})),
allowMSizeOptimzation allowMSizeOptimzation
); );
} }
for (size_t i = 1; i < _object.code->statements.size(); ++i) for (size_t i = 1; i < _object.code->statements.size(); ++i)
{ {
FunctionDefinition& fun = std::get<FunctionDefinition>(_object.code->statements[i]); auto& fun = std::get<FunctionDefinition>(_object.code->statements[i]);
if (!stackSurplus.count(fun.name)) if (!stackSurplus.count(fun.name))
continue; continue;
@ -193,7 +193,7 @@ bool StackCompressor::run(
eliminateVariables( eliminateVariables(
_dialect, _dialect,
fun, fun,
stackSurplus.at(fun.name), static_cast<size_t>(stackSurplus.at(fun.name)),
allowMSizeOptimzation allowMSizeOptimzation
); );
} }