/* This Source Code Form is subject to the terms of the Mozilla Public
 * License, v. 2.0. If a copy of the MPL was not distributed with this
 * file, You can obtain one at http://mozilla.org/MPL/2.0/.
 * 
 * Author: pgess <v.melnychenko@xreate.org>
 * File: ast.h
 */ 

#ifndef AST_H
#define AST_H

#include "attachments.h"

#include <vector>
#include <stdlib.h>
#include <string>
#include <list>
#include <unordered_map>
#include <unordered_set>
#include <climits>
#include "utils.h"
#include <algorithm>

namespace llvm {
    class Value;
}

namespace xreate {
    struct ScopedSymbol;
    struct Symbol;
}

namespace std {

    template<>
    struct hash<xreate::ScopedSymbol> {
        std::size_t operator()(xreate::ScopedSymbol const& s) const;
    };

    template<>
    struct equal_to<xreate::ScopedSymbol> {
        bool operator()(const xreate::ScopedSymbol& __x, const xreate::ScopedSymbol& __y) const;
    };

    template<>
    struct hash<xreate::Symbol> {
        size_t operator()(xreate::Symbol const& s) const;
    };

    template<>
    struct equal_to<xreate::Symbol> {
        bool operator()(const xreate::Symbol& __x, const xreate::Symbol& __y) const;
    };
}

namespace xreate {

struct String_t {
};

struct Identifier_t {
};

struct Number_t {
};

struct Type_t {
};

template<typename A>
class Atom {
};

//DEBT hold for all atoms/identifiers Parser::Token data, like line:col position
template<> class
Atom<Identifier_t> {
public:
    Atom(const std::wstring& value);
    Atom(std::string && name);
    const std::string& get() const;

private:
    std::string __value;
};

template<>
class Atom<Number_t> {
public:
    Atom(wchar_t* value);
    Atom(int value);
    double get()const;

private:
    double __value;
};

template<>
class Atom<String_t> {
public:
    Atom(const std::wstring& value);
    Atom(std::string && name);
    const std::string& get() const;

private:
    std::string __value;
};

enum class TypePrimitive {
    Invalid, Bool, I8, I32, I64, Num, Int, Float, String
};

enum class TypeOperator {
    NONE, CALL, CUSTOM, VARIANT, ARRAY, STRUCT, ACCESS, LINK
};

struct llvm_array_tag {
};

struct struct_tag {
};
const llvm_array_tag tag_array = llvm_array_tag();
const struct_tag tag_struct = struct_tag();

class TypeAnnotation {
public:
    TypeAnnotation();
    TypeAnnotation(const Atom<Type_t>& typ);
    TypeAnnotation(TypePrimitive typ);
    TypeAnnotation(llvm_array_tag, TypeAnnotation typ, int size);

    TypeAnnotation(TypeOperator op, std::initializer_list<TypeAnnotation> operands);
    TypeAnnotation(TypeOperator op, std::vector<TypeAnnotation>&& operands);
    void addBindings(std::vector<Atom<Identifier_t>>&& params);
    void addFields(std::vector<Atom<Identifier_t>>&& listFields);
    bool operator<(const TypeAnnotation& t) const;
    //   TypeAnnotation (struct_tag, std::initializer_list<TypePrimitive>);

    bool isValid() const;

    TypeOperator __operator = TypeOperator::NONE;

    std::vector<TypeAnnotation> __operands;
    TypePrimitive __value;
    std::string __valueCustom;
    int conjuctionId = -1; //conjunction point id (relevant for recursive types)

    uint64_t __size = 0;
    std::vector<std::string> fields;
    std::vector<std::string> bindings;
private:
};

enum class Operator {
    ADD, SUB, MUL, DIV,
    EQU, NE, NEG, LSS,
    LSE, GTR, GTE, LIST,
    LIST_RANGE, LIST_NAMED,
    CALL, CALL_INTRINSIC, NONE,
    IMPL/* implication */, MAP,
    FOLD, FOLD_INF, LOOP_CONTEXT,
    INDEX, IF, SWITCH, SWITCH_ADHOC, SWITCH_VARIANT,
    CASE, CASE_DEFAULT, LOGIC_AND,
    ADHOC, CONTEXT_RULE, VARIANT
};

class Function;
class AST;
class CodeScope;
class MetaRuleAbstract;

template<class Target>
struct ManagedPtr {

    static ManagedPtr<Target> Invalid() {
        return ManagedPtr<Target>();
    }

    ManagedPtr() : __storage(0) {
    }

    ManagedPtr(unsigned int id, const std::vector<Target*>* storage)
    : __id(id), __storage(storage) {
    }

    Target&
    operator*() const {
        assert(isValid() && "Invalid Ptr");
        return *__storage->at(__id);
    }

    void operator=(const ManagedPtr<Target>& other) {
        __id = other.__id;
        __storage = other.__storage;
    }

    bool
    operator==(const ManagedPtr<Target>& other) {
        return isValid() && (__id == other.__id);
    }

    Target*
    operator->() const noexcept {
        assert(isValid() && "Invalid Ptr");
        return __storage->at(__id);
    }

    inline bool isValid() const {
        return (__storage) && (0 <= __id) && (__id < __storage->size());
    }

    inline operator bool() const {
        return isValid();
    }

    ManagedPtr<Target>& operator++() {
        ++__id;
        return *this;
    }

    inline unsigned int id() const {
        return __id;
    }

private:
    unsigned int __id = 0;
    const std::vector<Target*> * __storage = 0;
};

typedef ManagedPtr<Function> ManagedFnPtr;
typedef ManagedPtr<CodeScope> ManagedScpPtr;
typedef ManagedPtr<MetaRuleAbstract> ManagedRulePtr;
const ManagedScpPtr NO_SCOPE = ManagedScpPtr(UINT_MAX, 0);

//To update ExpressionHints in case of any changes 
struct Expression {
    friend class CodeScope;
    friend class ClaspLayer;
    friend class CFAPass;
    friend class ExpressionHints;

    Expression(const Operator &oprt, std::initializer_list<Expression> params);
    Expression(const Atom<Identifier_t>& ident);
    Expression(const Atom<Number_t>& number);
    Expression(const Atom<String_t>& a);

    Expression();

    void setOp(Operator oprt);
    void addArg(Expression&& arg);
    void addBindings(std::initializer_list<Atom<Identifier_t>> params);
    void bindType(TypeAnnotation t);

    template<class InputIt>
    void addBindings(InputIt paramsBegin, InputIt paramsEnd);
    void addTags(const std::list<Expression> tags) const;
    void addBlock(ManagedScpPtr scope);

    const std::vector<Expression>& getOperands() const;
    double getValueDouble() const;
    void setValueDouble(double value);
    const std::string& getValueString() const;
    void setValue(const Atom<Identifier_t>&& v);
    bool isValid() const;
    bool isDefined() const;


    bool operator==(const Expression& other) const;

    enum {
        INVALID, COMPOUND, IDENT, NUMBER, STRING, BINDING
    } __state = INVALID;

    Operator op;
    unsigned int id;
    std::vector<std::string> bindings;
    std::map<std::string, size_t> __indexBindings;
    std::vector<Expression> operands;
    TypeAnnotation type;

    mutable std::map<std::string, Expression> tags;
    std::list<CodeScope*> blocks;

private:
    std::string __valueS;
    double __valueD;

    static unsigned int nextVacantId;
};

bool operator<(const Expression&, const Expression&);

template<class InputIt>
void Expression::addBindings(InputIt paramsBegin, InputIt paramsEnd) {
    size_t index = bindings.size();

    std::transform(paramsBegin, paramsEnd, std::inserter(bindings, bindings.end()),
            [&index, this] (const Atom<Identifier_t> atom) {
                std::string key = atom.get();
                this->__indexBindings[key] = index++;
                return key;
            });
}

typedef std::list<Expression> ExpressionList;

enum class TagModifier {
    NONE, ASSERT, REQUIRE
};

enum class DomainAnnotation {
    FUNCTION, VARIABLE
};

class RuleArguments : public std::vector<std::pair<std::string, DomainAnnotation>>
{
    public:
    void add(const Atom<Identifier_t>& name, DomainAnnotation typ);
};

class RuleGuards : public std::vector<Expression> {
public:
    void add(Expression&& e);
};


class ClaspLayer;
class LLVMLayer;

class MetaRuleAbstract {
public:
    MetaRuleAbstract(RuleArguments&& args, RuleGuards&& guards);
    virtual ~MetaRuleAbstract();
    virtual void compile(ClaspLayer& layer) = 0;
protected:
    RuleArguments __args;
    RuleGuards __guards;
};

class RuleWarning : public MetaRuleAbstract {
    friend class ClaspLayer;
public:
    RuleWarning(RuleArguments&& args, RuleGuards&& guards, Expression&& condition, Atom<String_t>&& message);
    virtual void compile(ClaspLayer& layer);
    ~RuleWarning();

private:
    std::string __message;
    Expression __condition;
};

typedef unsigned int VNameId;

namespace versions {
    typedef int VariableVersion;
    const VariableVersion VERSION_NONE = -2;
    const VariableVersion VERSION_INIT = 0;
}

template<>
struct AttachmentsDict<versions::VariableVersion> {
    typedef versions::VariableVersion Data;
    static const unsigned int key = 6;
};

struct ScopedSymbol {
    VNameId id;
    versions::VariableVersion version;

    static const ScopedSymbol RetSymbol;
};

struct Symbol {
    ScopedSymbol identifier;
    CodeScope * scope;
};

template<>
struct AttachmentsDict<Symbol> {
    typedef Symbol Data;
    static const unsigned int key = 7;
};

typedef std::pair<Expression, TagModifier> Tag;

bool operator<(const ScopedSymbol& s1, const ScopedSymbol& s2);
bool operator==(const ScopedSymbol& s1, const ScopedSymbol& s2);
bool operator<(const Symbol& s1, const Symbol& s2);
bool operator==(const Symbol& s1, const Symbol& s2);

class CodeScope {
    friend class Function;
    friend class PassManager;

public:
    CodeScope(CodeScope* parent = 0);
    void setBody(const Expression& body);
    Expression& getBody();
    void addDeclaration(Expression&& var, Expression&& body);
    void addBinding(Expression&& var, Expression&& argument);
    static const Expression& getDeclaration(const Symbol& symbol);
    const Expression& getDeclaration(const ScopedSymbol& symbol);

    ~CodeScope();

    std::vector<std::string> __bindings;
    std::map<std::string, VNameId> __identifiers;
    CodeScope* __parent;

    //TODO move __definitions to SymbolsAttachments data
    //NOTE: definition of return type has zero(0) variable index
    std::unordered_map<ScopedSymbol, Expression> __declarations;
    std::vector<Expression> tags;
    std::vector<Expression> contextRules;
private:
    VNameId __vCounter = 1;
    ScopedSymbol registerIdentifier(const Expression& identifier);

public:
    bool recognizeIdentifier(const Expression& identifier) const;
    ScopedSymbol getSymbol(const std::string& alias);
};

class Function {
    friend class Expression;
    friend class CodeScope;
    friend class AST;

public:
    Function(const Atom<Identifier_t>& name);

    void addBinding(Atom <Identifier_t>&& name, Expression&& argument);
    void addTag(Expression&& tag, const TagModifier mod);

    const std::string& getName() const;
    const std::map<std::string, Expression>& getTags() const;
    CodeScope* getEntryScope() const;
    CodeScope* __entry;
    std::string __name;
    bool isPrefunction = false; //SECTIONTAG adhoc Function::isPrefunction flag

    Expression guardContext;
private:

    std::map<std::string, Expression> __tags;
};


class ExternData;

struct ExternEntry {
    std::string package;
    std::vector<std::string> headers;
};

typedef Expanded<TypeAnnotation> ExpandedType;

enum ASTInterface {
    CFA, DFA, Extern, Adhoc
};

struct FunctionSpecialization {
    std::string guard;
    size_t id;
};

struct FunctionSpecializationQuery {
    std::unordered_set<std::string> context;
};

template<>
struct AttachmentsId<Expression>{
    static unsigned int getId(const Expression& expression){
        return expression.id;
    }
};

template<>
struct AttachmentsId<Symbol>{
    static unsigned int getId(const Symbol& s){
        return s.scope->__declarations.at(s.identifier).id;
    }
};

template<>
struct AttachmentsId<ManagedFnPtr>{
    static unsigned int getId(const ManagedFnPtr& f){
        const Symbol symbolFunction{ScopedSymbol::RetSymbol, f->getEntryScope()};

        return AttachmentsId<Symbol>::getId(symbolFunction);
    }
};

namespace details { namespace incomplete {
class AST {
public:
    AST();

    //TASK extern and DFA interfaces move into addInterfaceData
    /**
     *  DFA Interface
     */
    void addDFAData(Expression&& data);

    /**
     * Extern Interface
     */
    void addExternData(ExternData&& data);

    void addInterfaceData(const ASTInterface& interface, Expression&& data);
    void add(Function* f);

    void add(MetaRuleAbstract* r);
    ManagedScpPtr add(CodeScope* scope);

    std::string getModuleName();
    ManagedPtr<Function> findFunction(const std::string& name);

    typedef std::multimap<std::string, unsigned int> FUNCTIONS_REGISTRY;
    std::list<ManagedFnPtr> getAllFunctions() const;
    std::list<ManagedFnPtr> getFunctionVariants(const std::string& name) const;


    template<class Target>
    ManagedPtr<Target> begin();

    std::vector<ExternEntry> __externdata;
    std::list<Expression> __dfadata; //TODO move to more appropriate place
    std::list<std::string> __rawImports; //TODO move to more appropriate place
    std::multimap<ASTInterface, Expression> __interfacesData; //TODO CFA data here.

private:
    std::vector<MetaRuleAbstract*> __rules;
    std::vector<Function*> __functions;
    std::vector<CodeScope*> __scopes;

    FUNCTIONS_REGISTRY __indexFunctions;


    // ***** TYPES SECTION *****
public:
    std::map<std::string, TypeAnnotation> __indexTypeAliases;

    void add(TypeAnnotation t, Atom<Identifier_t> alias);

    // ***** SYMBOL RECOGNITION *****
    //TODO revisit enums/variants, move to codescope
    void recognizeVariantConstructor(Expression& function);
    Atom<Number_t> recognizeVariantConstructor(Atom<Identifier_t> ident);

private:
    std::map<std::string, std::pair<TypeAnnotation, int>> __dictVariants;

public:
    std::set<std::pair<CodeScope*, Expression>> bucketUnrecognizedIdentifiers;

public:
    void postponeIdentifier(CodeScope* scope, const Expression& id);
    void recognizePostponedIdentifiers();
    xreate::AST* finalize();
};

template<>
ManagedPtr<Function>
AST::begin<Function>();

template<>
ManagedPtr<CodeScope>
AST::begin<CodeScope>();

template<>
ManagedPtr<MetaRuleAbstract>
AST::begin<MetaRuleAbstract>();

} } // namespace details::incomplete

class AST : public details::incomplete::AST {
public:

    AST() : details::incomplete::AST() {}
    ExpandedType expandType(const TypeAnnotation &t) const;
    ExpandedType findType(const std::string& name);
    ExpandedType getType(const Expression& expression);
};
}
#endif // AST_H
