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/*
Ousía
Copyright (C) 2014, 2015 Benjamin Paaßen, Andreas Stöckel
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include <core/common/Exceptions.hpp>
#include <core/common/Logger.hpp>
#include <core/parser/utils/TokenizedData.hpp>
#include <core/parser/ParserContext.hpp>
#include "Callbacks.hpp"
#include "Handler.hpp"
#include "State.hpp"
namespace ousia {
namespace parser_stack {
/* Class HandlerData */
HandlerData::HandlerData(ParserContext &ctx, /*Callbacks &callbacks,*/
const std::string &name, const State &state,
const SourceLocation &location)
: ctx(ctx),
/*callbacks(callbacks),*/
name(name),
state(state),
location(location)
{
}
/* Class Handler */
Handler::Handler(const HandlerData &handlerData)
: handlerData(handlerData), internalLogger(nullptr)
{
}
Handler::~Handler() {}
ParserContext &Handler::context() { return handlerData.ctx; }
ParserScope &Handler::scope() { return handlerData.ctx.getScope(); }
Manager &Handler::manager() { return handlerData.ctx.getManager(); }
Logger &Handler::logger()
{
if (internalLogger != nullptr) {
return *internalLogger;
}
return handlerData.ctx.getLogger();
}
const SourceLocation &Handler::location() const { return handlerData.location; }
const std::string &Handler::name() const { return handlerData.name; }
void Handler::setWhitespaceMode(WhitespaceMode whitespaceMode)
{
/*handlerData.callbacks.setWhitespaceMode(whitespaceMode);*/
}
void Handler::registerToken(const std::string &token)
{
/*handlerData.callbacks.registerToken(token);*/
}
void Handler::unregisterToken(const std::string &token)
{
/*handlerData.callbacks.unregisterToken(token);*/
}
const std::string &Handler::getName() const { return name(); }
const State &Handler::getState() const { return handlerData.state; }
void Handler::setLogger(Logger &logger) { internalLogger = &logger; }
void Handler::resetLogger() { internalLogger = nullptr; }
const SourceLocation &Handler::getLocation() const { return location(); }
/* Class EmptyHandler */
bool EmptyHandler::start(Variant::mapType &args)
{
// Just accept anything
return true;
}
void EmptyHandler::end()
{
// Do nothing if a command ends
}
bool EmptyHandler::fieldStart(bool &isDefaultField, size_t fieldIndex)
{
// Accept any field
return true;
}
void EmptyHandler::fieldEnd()
{
// Do not handle fields
}
bool EmptyHandler::annotationStart(const Variant &className,
Variant::mapType &args)
{
// Accept any data
return true;
}
bool EmptyHandler::annotationEnd(const Variant &className,
const Variant &elementName)
{
// Accept any annotation
return true;
}
bool EmptyHandler::data(TokenizedData &data)
{
// Support any data
return true;
}
Handler *EmptyHandler::create(const HandlerData &handlerData)
{
return new EmptyHandler(handlerData);
}
/* Class StaticHandler */
bool StaticHandler::start(Variant::mapType &args)
{
// Do nothing in the default implementation, accept anything
return true;
}
void StaticHandler::end()
{
// Do nothing here
}
bool StaticHandler::fieldStart(bool &isDefault, size_t fieldIdx)
{
// Return true if either the default field is requested or the field index
// is zero. This simulates that there is exactly one field (a default field)
if (fieldIdx == 0) {
isDefault = true;
return true;
}
return false;
}
void StaticHandler::fieldEnd()
{
// Do nothing here
}
bool StaticHandler::annotationStart(const Variant &className,
Variant::mapType &args)
{
// No annotations supported
return false;
}
bool StaticHandler::annotationEnd(const Variant &className,
const Variant &elementName)
{
// No annotations supported
return false;
}
bool StaticHandler::data(TokenizedData &data)
{
if (data.text(WhitespaceMode::TRIM) != nullptr) {
logger().error("Did not expect any data here", data);
return false;
}
return true;
}
/* Class StaticFieldHandler */
StaticFieldHandler::StaticFieldHandler(const HandlerData &handlerData,
const std::string &argName)
: StaticHandler(handlerData), argName(argName), handled(false)
{
}
bool StaticFieldHandler::start(Variant::mapType &args)
{
if (!argName.empty()) {
auto it = args.find(argName);
if (it != args.end() && !it->second.toString().empty()) {
handled = true;
doHandle(it->second, args);
return true;
}
}
this->args = args;
return true;
}
void StaticFieldHandler::end()
{
if (!handled) {
if (!argName.empty()) {
logger().error(std::string("Required argument \"") + argName +
std::string("\" is missing."),
location());
} else {
logger().error("Command requires data, but no data given",
location());
}
}
}
bool StaticFieldHandler::data(TokenizedData &data)
{
Variant text = data.text(WhitespaceMode::TRIM);
if (text == nullptr) {
// Providing no data here is ok as long as the "doHandle" callback
// function has already been called
return handled;
}
// Call the doHandle function if this has not been done before
if (!handled) {
handled = true;
doHandle(text, args);
return true;
}
// The doHandle function was already called, print an error message
logger().error(
std::string("Found data, but the corresponding argument \"") + argName +
std::string("\" was already specified"),
text);
// Print the location at which the attribute was originally specified
auto it = args.find(argName);
if (it != args.end()) {
logger().note(std::string("Attribute was specified here:"), it->second);
}
return false;
}
}
}
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