#pragma once
#ifndef REAL_BUILD
# include "externals.hh"
#endif
#include "texture.hh"
#include <ebcl/SRDData.hh>


namespace opast {

using namespace ebcl;

class T_RootNode;

class A_Node
{
    public:
	enum E_Type {
		ROOT ,		// Root node
		ILIST ,		// Instruction list
		//
		DECL_INIT ,	// Initialisation block
		DECL_FRAME ,	// Frame block
		DECL_FN ,	// Function
		//
		OP_CALL ,	// Function call
		OP_COND ,	// Conditional instruction
		OP_INPUT ,	// Input declaration
		OP_PIPELINE ,	// Shader pipeline declaration
		OP_PROFILE ,	// Profiling block
		OP_PROGRAM ,	// Shader program declaration
		OP_SET ,	// Set instruction
		OP_TEXTURE ,	// Define texture
		// Unary operators
		EXPR_NEG , EXPR_INV , EXPR_NOT ,
		EXPR_SIN , EXPR_COS , EXPR_TAN ,
		EXPR_SQRT , EXPR_EXP , EXPR_LN ,
		// Binary operators
		EXPR_ADD , EXPR_SUB ,
		EXPR_MUL , EXPR_DIV ,
		EXPR_POW ,
		// Binary operators - comparisons
		EXPR_CMP_EQ , EXPR_CMP_NE ,
		EXPR_CMP_GT , EXPR_CMP_GE ,
		EXPR_CMP_LT , EXPR_CMP_LE ,
		//
		EXPR_ID ,	// Variable access
		EXPR_CONST ,	// Numeric constant
	};

    private:
	const E_Type type_;
	A_Node* const parent_;
	T_SRDLocation location_;

    protected:
	explicit A_Node( const E_Type type ,
			A_Node* const parent ) noexcept;

    public:
	virtual ~A_Node( ) = 0;

	E_Type type( ) const noexcept
		{ return type_; }

	T_SRDLocation& location( ) noexcept
		{ return location_; }
	T_SRDLocation const& location( ) const noexcept
		{ return location_; }

	A_Node& parent( ) const noexcept
		{ assert( parent_ ); return *parent_; }

	T_RootNode& root( ) const noexcept;
};

/*----------------------------------------------------------------------------*/

// Base class for instruction nodes
class A_InstructionNode : public A_Node
{
    protected:
	A_InstructionNode( E_Type type ,
			A_Node& parent ) noexcept
		: A_Node( type , &parent )
	{}
};

// Nodes that store lists of instructions
class T_InstrListNode : public A_Node
{
    private:
	T_Array< T_OwnPtr< A_InstructionNode > > instructions_;

    public:
	T_InstrListNode( A_Node& parent ) noexcept;

	template<
		typename IType ,
		typename... ArgTypes
	> IType& add( ArgTypes&&... args );

	uint32_t size( ) const noexcept
		{ return instructions_.size( ); }
	A_InstructionNode& node( const uint32_t index ) const noexcept
		{ return *instructions_[ index ]; }
};

template<
	typename IType ,
	typename... ArgTypes
> inline IType& T_InstrListNode::add(
		ArgTypes&&... args )
{
	instructions_.add( NewOwned< IType >( *this ,
			std::forward< ArgTypes >( args ) ... ) );
	return (IType&) *instructions_.last( );
}

/*----------------------------------------------------------------------------*/

// Function-like nodes
class A_FuncNode : public A_Node
{
    private:
	T_String name_;
	T_InstrListNode instructions_;

    protected:
	// For init or frame entry points.
	// isInit = true => init entry point
	// isInit = false => frame entry point
	explicit A_FuncNode( bool isInit ,
			T_RootNode* const parent ) noexcept;

	// For normal functions
	explicit A_FuncNode( T_String const& name ,
			T_RootNode* const parent ) noexcept;

    public:
	T_String const& name( ) const noexcept
		{ return name_; }

	T_InstrListNode& instructions( ) noexcept
		{ return instructions_; }
	T_InstrListNode const& instructions( ) const noexcept
		{ return instructions_; }
};
using P_InstrListNode = T_OwnPtr< T_InstrListNode >;

// Root node, keeps track of the whole tree and related data (function table,
// assets...)
class T_RootNode : public A_Node
{
    private:
	T_ObjectTable< T_String , T_OwnPtr< A_FuncNode > > functions_;

    public:
	T_RootNode( ) noexcept;

	// ---------------------------------------------------------------------

	// Return type for addFunction. We'll always return a reference to a
	// function node (which may or may not be the same as the initial one,
	// if there were duplicates), and we'll return the location of the
	// initial function in the case of a duplicate.
	struct T_AddFunctionResult
	{
		A_FuncNode& function;
		T_Optional< T_SRDLocation > dupLocation;

		T_AddFunctionResult( A_FuncNode& function ) noexcept
			: function{ function } , dupLocation{}
		{}

		T_AddFunctionResult( A_FuncNode& function ,
				T_SRDLocation const& dupLocation ) noexcept
			: function{ function } , dupLocation{ dupLocation }
		{}
	};

	// Attempts to add a function. If the function is already present in
	// the table, the result will be set up with the previous declaration's
	// location, and the specified function will not be modified (a duplicate
	// entry will be added to the table instead).
	T_AddFunctionResult addFunction(
			T_OwnPtr< A_FuncNode >& function ) noexcept;

	// ---------------------------------------------------------------------

	bool hasFunction( T_String const& name ) noexcept
		{ return functions_.contains( name ); }
	bool hasInit( ) noexcept
		{ return hasFunction( "*init*" ); }
	bool hasFrame( ) noexcept
		{ return hasFunction( "*frame*" ); }

	uint32_t nFunctions( ) const noexcept
		{ return functions_.size( ); }
	int32_t functionIndex( T_String const& name ) const noexcept
		{ return functions_.indexOf( name ); }
	A_FuncNode& function( const uint32_t index ) const noexcept
		{ return *functions_.values( )[ index ]; }
};

/*----------------------------------------------------------------------------*/

// Init & frame functions
class T_SpecialFuncNode : public A_FuncNode
{
    public:
	T_SpecialFuncNode(
			bool isInit ,
			T_RootNode& parent ) noexcept;
};

// Normal functions
class T_FuncNode : public A_FuncNode
{
    private:
	T_AutoArray< T_String , 8 > argNames_;
	T_AutoArray< T_SRDLocation , 8 > argLocations_;

    public:
	T_FuncNode( T_String const& name ,
			T_RootNode& parent ) noexcept;

	// Add an argument. If the argument is a duplicate, return the location
	// of the initial argument.
	T_Optional< T_SRDLocation > addArgument(
			T_SRDToken const& token ) noexcept;

	uint32_t arguments( ) const noexcept
		{ return argNames_.size( ); }
};

/*----------------------------------------------------------------------------*/

// Base class for expressions
class A_ExpressionNode : public A_Node
{
    protected:
	A_ExpressionNode( E_Type type ,
			A_Node& parent ) noexcept
		: A_Node( type , &parent )
	{ }
};
using P_ExpressionNode = T_OwnPtr< A_ExpressionNode >;

/*============================================================================*/

// Function call
class T_CallInstrNode : public A_InstructionNode
{
    private:
	T_String id_;
	T_SRDLocation idLocation_;
	T_AutoArray< P_ExpressionNode , 8 > arguments_;

    public:
	T_CallInstrNode( T_InstrListNode& parent ,
			T_SRDToken const& idToken ) noexcept
		: A_InstructionNode( OP_CALL , parent ) ,
			id_( idToken.stringValue( ) ) ,
			idLocation_( idToken.location( ) )
	{ }

	void addArgument( P_ExpressionNode expr ) noexcept
	{
		if ( expr ) {
			arguments_.add( std::move( expr ) );
		}
	}

	T_String const& id( ) const noexcept
		{ return id_; }
	T_SRDLocation const& idLocation( ) const noexcept
		{ return idLocation_; }

	uint32_t arguments( ) const noexcept
		{ return arguments_.size( ); }
	A_ExpressionNode& argument( const uint32_t index ) const noexcept
		{ return *arguments_[ index ]; }
};

// Conditional instruction
class T_CondInstrNode : public A_InstructionNode
{
    private:
	P_ExpressionNode expression_;
	T_KeyValueTable< int64_t , P_InstrListNode > cases_;
	P_InstrListNode defaultCase_;

    public:
	explicit T_CondInstrNode( T_InstrListNode& parent ) noexcept
		: A_InstructionNode( OP_COND , parent )
	{ }

	void setExpression( P_ExpressionNode expression ) noexcept
		{ expression_ = std::move( expression ); }
	bool hasExpression( ) const noexcept
		{ return bool( expression_ ); }
	A_ExpressionNode& expression( ) const noexcept
		{ return *expression_; }

	void setCase( const int64_t value ,
			P_InstrListNode instrList ) noexcept
	{
		if ( instrList ) {
			cases_.set( value , std::move( instrList ) );
		}
	}

	void rmCase( const int64_t value ) noexcept
		{ cases_.remove( value ); }

	T_Array< int64_t > const& cases( ) const noexcept
		{ return cases_.keys( ); }
	bool hasCase( const int64_t value ) const noexcept
		{ return cases_.contains( value ); }
	T_InstrListNode& getCase( const int64_t value ) const noexcept
		{ return **cases_.get( value ); }

	void setDefaultCase( P_InstrListNode defaultCase ) noexcept
		{ defaultCase_ = std::move( defaultCase ); }
	bool hasDefaultCase( ) const noexcept
		{ return bool( defaultCase_ ); }
	T_InstrListNode& defaultCase( ) const noexcept
		{ return *defaultCase_; }
};

// Input declaration
class T_InputInstrNode : public A_InstructionNode
{
    private:
	T_String name_;
	T_SRDLocation nameLocation_;
	float defValue_;
	T_SRDLocation dvLocation_;

    public:
	T_InputInstrNode( T_InstrListNode& parent ,
			T_SRDToken const& tName ) noexcept
		: A_InstructionNode( OP_INPUT , parent ) ,
			name_( tName.stringValue( ) ) , nameLocation_( tName.location( ) )
	{}

	T_InputInstrNode( T_InstrListNode& parent ,
			T_SRDToken const& tName ,
			T_SRDToken const& tDefault ) noexcept
		: A_InstructionNode( OP_INPUT , parent ) ,
			name_( tName.stringValue( ) ) , nameLocation_( tName.location( ) ) ,
			defValue_( tDefault.floatValue( ) ) , dvLocation_( tDefault.location( ) )
	{}

	T_String const& name( ) const noexcept
		{ return name_; }
	T_SRDLocation const& nameLocation( ) const noexcept
		{ return nameLocation_; }

	float defValue( ) const noexcept
		{ return defValue_; }
	T_SRDLocation const& defValueLocation( ) const noexcept
		{ return dvLocation_; }
};

// Pipeline declaration instruction
class T_PipelineInstrNode : public A_InstructionNode
{
    private:
	T_String id_;
	T_SRDLocation idLocation_;
	T_StaticArray< T_String , 6 > pids_;
	T_StaticArray< T_SRDLocation , 6 > pidLocations_;

    public:
	T_PipelineInstrNode(
			T_InstrListNode& parent ,
			T_SRDToken const& idToken ) noexcept;
	explicit T_PipelineInstrNode(
			T_InstrListNode& parent ) noexcept;

	// Add a program identifier. The token is assumed to be a valid word,
	// and the list of programs is assumed not to be full. If the identifer
	// is already in the pipeline's list, the location of the first
	// occurrence will be returned.
	T_Optional< T_SRDLocation > addProgram(
			T_SRDToken const& pidToken ) noexcept;

	uint32_t size( ) const noexcept
		{ return pids_.size( ); }

	T_String const& program( const uint32_t index ) const noexcept
		{ return pids_[ index ]; }
	T_SRDLocation const& pLocation( const uint32_t index ) const noexcept
		{ return pidLocations_[ index ]; }
};

// Profiling instruction
class T_ProfileInstrNode : public A_InstructionNode
{
    private:
	T_String text_;
	T_InstrListNode instructions_;

    public:
	T_ProfileInstrNode(
			T_InstrListNode& parent ,
			T_String const& text ) noexcept;

	T_String const& text( ) const
		{ return text_; }

	T_InstrListNode& instructions( ) noexcept
		{ return instructions_; }
	T_InstrListNode const& instructions( ) const noexcept
		{ return instructions_; }
};

// Program loader instruction
class T_ProgramInstrNode : public A_InstructionNode
{
    private:
	T_String id_;
	T_SRDLocation idLocation_;
	T_String path_;
	T_SRDLocation pathLocation_;

    public:
	T_ProgramInstrNode(
			T_InstrListNode& parent ,
			T_SRDToken const& idToken ,
			T_SRDToken const& pathToken ) noexcept;
};

// Setting a global variable
class T_SetInstrNode : public A_InstructionNode
{
    private:
	T_String id_;
	T_SRDLocation idLocation_;
	P_ExpressionNode expression_;

    public:
	T_SetInstrNode( T_InstrListNode& parent ,
			T_SRDToken const& idToken ) noexcept;

	T_String const& identifier( ) const noexcept
		{ return id_; }
	T_SRDLocation const& idLocation( ) const noexcept
		{ return idLocation_; }

	void setExpression( P_ExpressionNode expression ) noexcept
		{ expression_ = std::move( expression ); }
	bool hasExpression( ) const noexcept
		{ return bool( expression_ ); }
	A_ExpressionNode& expression( ) const noexcept
		{ return *expression_; }
};

// Texture definition
class T_TextureInstrNode : public A_InstructionNode
{
    private:
	T_String id_;
	T_SRDLocation idLocation_;
	E_TexType type_;
	P_ExpressionNode width_;
	P_ExpressionNode height_;

    public:
	T_TextureInstrNode(
			T_InstrListNode& parent ,
			T_SRDToken const& id ,
			E_TexType type ) noexcept;

	void setWidth( P_ExpressionNode width ) noexcept
		{ width_ = std::move( width ); }
	bool hasWidth( ) const noexcept
		{ return bool( width_ ); }
	A_ExpressionNode& width( ) const noexcept
		{ return *width_; }

	void setHeight( P_ExpressionNode height ) noexcept
		{ height_ = std::move( height ); }
	bool hasHeight( ) const noexcept
		{ return bool( height_ ); }
	A_ExpressionNode& height( ) const noexcept
		{ return *height_; }
};

/*============================================================================*/

// A constant value
class T_ConstantExprNode : public A_ExpressionNode
{
    private:
	bool wasFloat_;
	double vFloat_;
	int64_t vInt_;

    public:
	T_ConstantExprNode( A_Node& parent ,
			T_SRDToken const& token ) noexcept;

	T_ConstantExprNode( A_Node& parent ,
			int64_t value ) noexcept;
	T_ConstantExprNode( A_Node& parent ,
			double value ) noexcept;

	bool wasFloat( ) const noexcept
		{ return wasFloat_; }
	double floatValue( ) const noexcept
		{ return vFloat_; }
	int64_t intValue( ) const noexcept
		{ return vInt_; }
};

// An identifier used in an expression
class T_IdentifierExprNode : public A_ExpressionNode
{
    private:
	T_String id_;

    public:
	T_IdentifierExprNode( A_Node& parent ,
			T_SRDToken const& token ) noexcept;
	T_IdentifierExprNode( A_Node& parent ,
			T_String const& id ) noexcept;

	T_String const& id( ) const noexcept
		{ return id_; }
};

// A unary operator
class T_UnaryOperatorNode : public A_ExpressionNode
{
    public:
	enum E_Operator {
		NEG , INV , NOT ,
		SIN , COS , TAN ,
		SQRT , EXP , LN
	};

    private:
	E_Operator op_;
	P_ExpressionNode argument_;

    public:
	T_UnaryOperatorNode(
			A_Node& parent ,
			const E_Operator op ) noexcept;

	E_Operator op( ) const noexcept
		{ return op_; }

	void setArgument( P_ExpressionNode argument ) noexcept
		{ argument_ = std::move( argument ); }

	bool hasArgument( ) const noexcept
		{ return bool( argument_ ); }

	A_ExpressionNode const& argument( ) const noexcept
		{ return *argument_; }
	A_ExpressionNode& argument( ) noexcept
		{ return *argument_; }
};

// A binary operator
class T_BinaryOperatorNode : public A_ExpressionNode
{
    public:
	enum E_Operator {
		ADD , SUB ,
		MUL , DIV ,
		POW ,

		CMP_EQ , CMP_NE ,
		CMP_GT , CMP_GE ,
		CMP_LT , CMP_LE ,
	};

    private:
	E_Operator op_;
	P_ExpressionNode left_;
	P_ExpressionNode right_;

    public:
	T_BinaryOperatorNode(
			A_Node& parent ,
			const E_Operator op ) noexcept;

	E_Operator op( ) const noexcept
		{ return op_; }

	void setLeft( P_ExpressionNode left ) noexcept
		{ left_ = std::move( left ); }
	void setRight( P_ExpressionNode right ) noexcept
		{ right_ = std::move( right ); }

	bool hasLeft( ) const noexcept
		{ return bool( left_ ); }
	bool hasRight( ) const noexcept
		{ return bool( right_ ); }

	A_ExpressionNode const& left( ) const noexcept
		{ return *left_; }
	A_ExpressionNode& left( ) noexcept
		{ return *left_; }

	A_ExpressionNode const& right( ) const noexcept
		{ return *right_; }
	A_ExpressionNode& right( ) noexcept
		{ return *right_; }
};

/*============================================================================*/

class T_Parser : public A_PrivateImplementation
{
    private:
	T_Array< T_SRDError > errors_;
	T_OwnPtr< T_RootNode > rootNode_;

    public:
	T_Parser( ) noexcept;

	bool parse( T_SRDList const& input ) noexcept;

	T_Array< T_SRDError > const& errors( ) const noexcept
		{ return errors_; }
	T_OwnPtr< T_RootNode > result( ) noexcept
		{ return std::move( rootNode_ ); }
};


} // namespace opast