Page Menu
Home
Xreate
Search
Configure Global Search
Log In
Docs
Questions
Repository
Issues
Patches
Internal API
Files
F3995917
targets.h
No One
Temporary
Actions
Download File
Edit File
Delete File
View Transforms
Subscribe
Mute Notifications
Subscribers
None
File Metadata
Details
File Info
Storage
Attached
Created
Wed, Jul 8, 7:34 AM
Size
4 KB
Mime Type
text/x-c++
Expires
Fri, Jul 10, 7:34 AM (1 d, 15 h)
Engine
blob
Format
Raw Data
Handle
271806
Attached To
rXR Xreate
targets.h
View Options
/*
* File: targetabstract.h
* Author: pgess
*
* Created on July 2, 2016, 1:25 PM
*/
#ifndef TARGETABSTRACT_H
#define TARGETABSTRACT_H
#include "ast.h"
#include <boost/optional.hpp>
#include <map>
namespace xreate{ namespace compilation {
template <typename ConcreteTarget>
struct TargetInfo{
//typedef Result
//typedef Function
//typedef Scope
};
template<typename ConcreteTarget>
class Function;
template<typename ConcreteTarget>
class Target;
template<typename ConcreteTarget>
class Scope{
typedef typename TargetInfo<ConcreteTarget>::Scope Self;
public:
CodeScope* scope;
typename TargetInfo<ConcreteTarget>::Result
processSymbol(const Symbol& s){
CodeScope* scope = s.scope;
Self* self = function->getScope(scope);
if (self->__bindings.count(s.identifier)) {
return self->__bindings[s.identifier];
}
const Expression& declaration = CodeScope::getDeclaration(s);
if (!declaration.isDefined()){
assert(false); //for bindings there should be result already
}
return self->__bindings[s.identifier] = self->process(declaration);
}
typename TargetInfo<ConcreteTarget>::Result
processScope() {
if (raw) return *raw;
raw = process(scope->getBody());
return *raw;
}
// typename TargetInfo<ConcreteTarget>::Result
// processFunction(typename TargetInfo<ConcreteTarget>::Function* fnRemote, const std::vector<typename TargetInfo<ConcreteTarget>::Result>& args){
// Scope<ConcreteTarget> scopeRemote = fnRemote->getScope(fnRemote->__function->__entry);
//
// if (scopeRemote->raw){
// return scopeRemote->raw;
// }
//
// return fnRemote->process(args);
// }
virtual typename TargetInfo<ConcreteTarget>::Result
process(const Expression& expression)=0;
Scope(CodeScope* codeScope, Function<ConcreteTarget>* f)
: scope(codeScope), function(f) {}
virtual ~Scope(){}
void
overrideBinding(typename TargetInfo<ConcreteTarget>::Result arg, const std::string& name){
assert(scope->__identifiers.count(name));
ScopedSymbol id{scope->__identifiers.at(name), versions::VERSION_NONE};
__bindings[id] = arg;
//reset the result if any:
raw.reset();
}
void registerChildScope(std::shared_ptr<Self> scope){
__childScopes.push_back(scope);
}
void reset(){
__bindings.clear();
__childScopes.clear();
raw.reset();
}
protected:
Function<ConcreteTarget>* function=0;
std::map<ScopedSymbol, typename TargetInfo<ConcreteTarget>::Result> __bindings;
std::list<std::shared_ptr<Self>> __childScopes;
typename boost::optional<typename TargetInfo<ConcreteTarget>::Result> raw;
};
template<typename ConcreteTarget>
class Function{
typedef typename TargetInfo<ConcreteTarget>::Result Result;
typedef typename TargetInfo<ConcreteTarget>::Scope ConcreteScope;
public:
Function(const ManagedFnPtr& function, Target<ConcreteTarget>* target)
: man(target), __function(function) {}
virtual ~Function(){};
ConcreteScope*
getScope(CodeScope* scope){
if (__scopes.count(scope)) {
auto result = __scopes.at(scope).lock();
if (result){
return result.get();
}
}
std::shared_ptr<ConcreteScope> unit(new ConcreteScope(scope, this));
if (scope->__parent != nullptr){
getScope(scope->__parent)->registerChildScope(unit);
} else {
assert(!__entryScope);
__entryScope = unit;
}
if (!__scopes.emplace(scope, unit).second){
__scopes[scope] = unit;
}
return unit.get();
}
virtual Result
process(const std::vector<Result>& args)=0;
Target<ConcreteTarget>* man=0;
ManagedFnPtr __function;
protected:
std::map<CodeScope*, std::weak_ptr<ConcreteScope>> __scopes;
std::shared_ptr<ConcreteScope> __entryScope;
};
template<typename ConcreteTarget>
class Target {
typedef typename TargetInfo<ConcreteTarget>::Function ConcreteFunction;
public:
Target(AST* root): ast(root){}
ConcreteFunction*
getFunction(const ManagedFnPtr& function){
unsigned int id = function.id();
if (!__functions.count(id)){
ConcreteFunction* unit = new ConcreteFunction(function, this);
__functions.emplace(id, unit);
return unit;
}
return __functions.at(id);
}
AST* ast;
virtual ~Target(){
for (const auto& entry: __functions){
delete entry.second;
}
}
protected:
std::map<unsigned int, ConcreteFunction*> __functions;
};
}}
#endif /* TARGETABSTRACT_H */
Event Timeline
Log In to Comment