transformations.h
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transformations.h

/*
* File: transformations.h
* Author: pgess <v.melnychenko@xreate.org>
*
* Created on March 25, 2017, 9:04 PM
*/
#ifndef TRANSFORMATIONS_H
#define TRANSFORMATIONS_H
#include "pass/compilepass.h"
namespace xreate { namespace compilation {
template <class TransformerType>
struct TransformerInfo {
//static const unsigned int id = 1; (current vacant id)
};
class Transformer{
public:
virtual llvm::Value* transform(const Expression& expression, llvm::Value* raw, const Context& ctx)=0;
virtual ~Transformer(){};
};
class TransformationsManager {
public:
std::list<Transformer*> getRelevantTransformers(const Expression& expression);
template<class TransformerType>
void registerTransformer(const std::string& annotation, TransformerType* t){
const int id = TransformerInfo<TransformerType>::id;
assert(!__transformers.count(id));
__transformers[id] = t;
__subscriptions.emplace(annotation, id);
}
template<class TransformerType>
void unregisterTransformer(const std::string& annotation, TransformerType* t){
const unsigned int id = TransformerInfo<TransformerType>::id;
auto range = __subscriptions.equal_range(annotation);
const auto entry = make_pair(annotation, id);
__subscriptions.erase(std::find_if(range.first, range.second, [id](const auto& el){return el.second == id;}));
__transformers.erase(id);
}
template<class TransformerType>
TransformerType* update(TransformerType* newInstance){
const int id = TransformerInfo<TransformerType>::id;
Transformer* oldInstance = __transformers[id];
__transformers[id] = newInstance;
return static_cast<TransformerType*>(oldInstance);
}
template<class TransformerType>
bool exists(){
const int id = TransformerInfo<TransformerType>::id;
return __transformers.count(id);
}
template <class TransformerType>
TransformerType* get(){
const int id = TransformerInfo<TransformerType>::id;
return static_cast<TransformerType*>(__transformers.at(id));
}
private:
std::map<unsigned int, Transformer*> __transformers;
std::multimap<std::string, unsigned int> __subscriptions;
};
template <class Parent>
class TransformationsScopeDecorator: public Transformer, public Parent {
// SCOPE DECORATOR PART
public:
TransformationsScopeDecorator(CodeScope* codeScope, FunctionUnit* f, CompilePass* compilePass)
: Parent(codeScope, f, compilePass){}
virtual llvm::Value*
process(const Expression& expr, const std::string& hintVarDecl=""){
llvm::Value* result = Parent::process(expr, hintVarDecl);
return transform(expr, result, Context{this, Parent::function, Parent::pass});
}
// TRANSFORMER PART
public:
virtual llvm::Value*
transform(const Expression& expression, llvm::Value* raw, const Context& ctx) {
llvm::Value* result = raw;
TransformationsManager* man = Parent::pass->managerTransformations;
if (expression.tags.size())
for (Transformer* handler: man->getRelevantTransformers(expression)){
result = handler->transform(expression, result, ctx);
}
return result;
}
};
} }
#endif /* TRANSFORMATIONS_H */

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