solidity/InterfaceHandler.cpp

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#include <libsolidity/InterfaceHandler.h>
#include <libsolidity/AST.h>
#include <libsolidity/CompilerStack.h>
namespace dev
{
namespace solidity
{
/* -- public -- */
InterfaceHandler::InterfaceHandler()
{
m_lastTag = DOCTAG_NONE;
}
std::unique_ptr<std::string> InterfaceHandler::getDocumentation(std::shared_ptr<ContractDefinition> _contractDef,
enum DocumentationType _type)
{
switch(_type)
{
case NATSPEC_USER:
return getUserDocumentation(_contractDef);
case NATSPEC_DEV:
return getDevDocumentation(_contractDef);
case ABI_INTERFACE:
return getABIInterface(_contractDef);
}
BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Unknown documentation type"));
return nullptr;
}
std::unique_ptr<std::string> InterfaceHandler::getABIInterface(std::shared_ptr<ContractDefinition> _contractDef)
{
Json::Value methods(Json::arrayValue);
for (FunctionDefinition const* f: _contractDef->getInterfaceFunctions())
{
Json::Value method;
Json::Value inputs(Json::arrayValue);
Json::Value outputs(Json::arrayValue);
auto populateParameters = [](std::vector<ASTPointer<VariableDeclaration>> const& _vars)
{
Json::Value params(Json::arrayValue);
for (ASTPointer<VariableDeclaration> const& var: _vars)
{
Json::Value input;
input["name"] = var->getName();
input["type"] = var->getType()->toString();
params.append(input);
}
return params;
};
method["name"] = f->getName();
method["inputs"] = populateParameters(f->getParameters());
method["outputs"] = populateParameters(f->getReturnParameters());
methods.append(method);
}
return std::unique_ptr<std::string>(new std::string(m_writer.write(methods)));
}
std::unique_ptr<std::string> InterfaceHandler::getUserDocumentation(std::shared_ptr<ContractDefinition> _contractDef)
{
Json::Value doc;
Json::Value methods(Json::objectValue);
for (FunctionDefinition const* f: _contractDef->getInterfaceFunctions())
{
Json::Value user;
auto strPtr = f->getDocumentation();
if (strPtr)
{
resetUser();
parseDocString(*strPtr);
if (!m_notice.empty())
{// since @notice is the only user tag if missing function should not appear
user["notice"] = Json::Value(m_notice);
methods[f->getName()] = user;
}
}
}
doc["methods"] = methods;
return std::unique_ptr<std::string>(new std::string(m_writer.write(doc)));
}
std::unique_ptr<std::string> InterfaceHandler::getDevDocumentation(std::shared_ptr<ContractDefinition> _contractDef)
{
// LTODO: Somewhere in this function warnings for mismatch of param names
// should be thrown
Json::Value doc;
Json::Value methods(Json::objectValue);
for (FunctionDefinition const* f: _contractDef->getInterfaceFunctions())
{
Json::Value method;
auto strPtr = f->getDocumentation();
if (strPtr)
{
resetDev();
parseDocString(*strPtr);
if (!m_dev.empty())
method["details"] = Json::Value(m_dev);
Json::Value params(Json::objectValue);
for (auto const& pair: m_params)
params[pair.first] = pair.second;
if (!m_params.empty())
method["params"] = params;
if (!m_return.empty())
method["return"] = m_return;
if (!method.empty()) // add the function, only if we have any documentation to add
methods[f->getName()] = method;
}
}
doc["methods"] = methods;
return std::unique_ptr<std::string>(new std::string(m_writer.write(doc)));
}
/* -- private -- */
void InterfaceHandler::resetUser()
{
m_notice.clear();
}
void InterfaceHandler::resetDev()
{
m_dev.clear();
m_return.clear();
m_params.clear();
}
std::string::const_iterator skipLineOrEOS(std::string::const_iterator _nlPos,
std::string::const_iterator _end)
{
return (_nlPos == _end) ? _end : ++_nlPos;
}
std::string::const_iterator InterfaceHandler::parseDocTagLine(std::string::const_iterator _pos,
std::string::const_iterator _end,
std::string& _tagString,
enum DocTagType _tagType)
{
auto nlPos = std::find(_pos, _end, '\n');
std::copy(_pos, nlPos, back_inserter(_tagString));
m_lastTag = _tagType;
return skipLineOrEOS(nlPos, _end);
}
std::string::const_iterator InterfaceHandler::parseDocTagParam(std::string::const_iterator _pos,
std::string::const_iterator _end)
{
// find param name
auto currPos = std::find(_pos, _end, ' ');
if (currPos == _end)
BOOST_THROW_EXCEPTION(DocstringParsingError() << errinfo_comment("End of param name not found" + std::string(_pos, _end)));
auto paramName = std::string(_pos, currPos);
currPos += 1;
auto nlPos = std::find(currPos, _end, '\n');
auto paramDesc = std::string(currPos, nlPos);
m_params.push_back(std::make_pair(paramName, paramDesc));
m_lastTag = DOCTAG_PARAM;
return skipLineOrEOS(nlPos, _end);
}
std::string::const_iterator InterfaceHandler::appendDocTagParam(std::string::const_iterator _pos,
std::string::const_iterator _end)
{
// Should never be called with an empty vector
if (asserts(!m_params.empty()))
BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Internal: Tried to append to empty parameter"));
auto pair = m_params.back();
pair.second += " ";
auto nlPos = std::find(_pos, _end, '\n');
std::copy(_pos, nlPos, back_inserter(pair.second));
m_params.at(m_params.size() - 1) = pair;
return skipLineOrEOS(nlPos, _end);
}
std::string::const_iterator InterfaceHandler::parseDocTag(std::string::const_iterator _pos,
std::string::const_iterator _end,
std::string const& _tag)
{
// LTODO: need to check for @(start of a tag) between here and the end of line
// for all cases
if (m_lastTag == DOCTAG_NONE || _tag != "")
{
if (_tag == "dev")
return parseDocTagLine(_pos, _end, m_dev, DOCTAG_DEV);
else if (_tag == "notice")
return parseDocTagLine(_pos, _end, m_notice, DOCTAG_NOTICE);
else if (_tag == "return")
return parseDocTagLine(_pos, _end, m_return, DOCTAG_RETURN);
else if (_tag == "param")
return parseDocTagParam(_pos, _end);
else
{
// LTODO: Unknown tag, throw some form of warning and not just an exception
BOOST_THROW_EXCEPTION(DocstringParsingError() << errinfo_comment("Unknown tag " + _tag + " encountered"));
}
}
else
return appendDocTag(_pos, _end);
}
std::string::const_iterator InterfaceHandler::appendDocTag(std::string::const_iterator _pos,
std::string::const_iterator _end)
{
switch (m_lastTag)
{
case DOCTAG_DEV:
m_dev += " ";
return parseDocTagLine(_pos, _end, m_dev, DOCTAG_DEV);
case DOCTAG_NOTICE:
m_notice += " ";
return parseDocTagLine(_pos, _end, m_notice, DOCTAG_NOTICE);
case DOCTAG_RETURN:
m_return += " ";
return parseDocTagLine(_pos, _end, m_return, DOCTAG_RETURN);
case DOCTAG_PARAM:
return appendDocTagParam(_pos, _end);
default:
BOOST_THROW_EXCEPTION(InternalCompilerError() << errinfo_comment("Internal: Illegal documentation tag type"));
break;
}
}
void InterfaceHandler::parseDocString(std::string const& _string)
{
auto currPos = _string.begin();
auto end = _string.end();
while (currPos != end)
{
auto tagPos = std::find(currPos, end, '@');
auto nlPos = std::find(currPos, end, '\n');
if (tagPos != end && tagPos < nlPos)
{
// we found a tag
auto tagNameEndPos = std::find(tagPos, end, ' ');
if (tagNameEndPos == end)
BOOST_THROW_EXCEPTION(DocstringParsingError() <<
errinfo_comment("End of tag " + std::string(tagPos, tagNameEndPos) + "not found"));
currPos = parseDocTag(tagNameEndPos + 1, end, std::string(tagPos + 1, tagNameEndPos));
}
else if (m_lastTag != DOCTAG_NONE) // continuation of the previous tag
currPos = appendDocTag(currPos + 1, end);
else if (currPos != end) // skip the line if a newline was found
currPos = nlPos + 1;
}
}
} //solidity NS
} // dev NS