#include "externals.hh"
#include "opast.hh"
#include <ebcl/Algorithms.hh>

using namespace ebcl;
using namespace opast;


/*= A_Node ===================================================================*/

A_Node::A_Node( const E_Type type ,
		A_Node* const parent ) noexcept
	: type_( type ) , parent_( parent )
{
	assert( ( type == ROOT && !parent ) || ( type != ROOT && parent ) );
}

A_Node::~A_Node( ) { }

T_RootNode& A_Node::root( ) const noexcept
{
	A_Node const* node( this );
	while ( node->parent_ ) {
		node = node->parent_;
	}
	assert( node );
	assert( node->type_ == ROOT );
	return *dynamic_cast< T_RootNode* >(
			const_cast< A_Node* >( node ) );
}

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

A_Node* opast::ASTVisitorBrowser(
		A_Node& node ,
		const uint32_t child ) noexcept
{
	switch ( node.type( ) ) {

	    // Root node
	    case A_Node::ROOT: {
		auto& n( (T_RootNode&) node );
		if ( child < n.nFunctions( ) ) {
			return &n.function( child );
		}
		break;
	    }

	    // Functions / special blocks
	    case A_Node::DECL_FN: case A_Node::DECL_INIT: case A_Node::DECL_FRAME:
		if ( child == 0 ) {
			auto& n( (A_FuncNode&) node );
			return &n.instructions( );
		}
		break;

	    // Instruction list
	    case A_Node::ILIST: {
		auto& n( (T_InstrListNode&) node );
		if ( child < n.size( ) ) {
			return &n.node( child );
		}
		break;
	    }

	    // Unary operators
	    case A_Node::EXPR_NEG: case A_Node::EXPR_INV:
	    case A_Node::EXPR_NOT: case A_Node::EXPR_SIN:
	    case A_Node::EXPR_COS: case A_Node::EXPR_TAN:
	    case A_Node::EXPR_SQRT: case A_Node::EXPR_EXP:
	    case A_Node::EXPR_LN:
	    {
		auto& n( (T_UnaryOperatorNode&) node );
		if ( child == 0 && n.hasArgument( ) ) {
			return &n.argument( );
		}
		break;
	    }

	    // Binary operators
	    case A_Node::EXPR_ADD: case A_Node::EXPR_SUB:
	    case A_Node::EXPR_MUL: case A_Node::EXPR_DIV:
	    case A_Node::EXPR_POW:
	    case A_Node::EXPR_CMP_EQ: case A_Node::EXPR_CMP_NE:
	    case A_Node::EXPR_CMP_GT: case A_Node::EXPR_CMP_GE:
	    case A_Node::EXPR_CMP_LT: case A_Node::EXPR_CMP_LE:
	    {
		auto& n( (T_BinaryOperatorNode&) node );
		if ( child == 0 && n.hasLeft( ) ) {
			return &n.left( );
		}
		if ( child < 2 && n.hasRight( ) ) {
			return &n.right( );
		}
		break;
	    }

	    // Nodes that do not have children
	    case A_Node::EXPR_ID: case A_Node::EXPR_CONST:
	    case A_Node::EXPR_INPUT:
	    //
	    case A_Node::OP_PROGRAM: case A_Node::OP_PIPELINE:
	    case A_Node::OP_INPUT: case A_Node::OP_FULLSCREEN:
	    case A_Node::OP_FRAMEBUFFER: case A_Node::OP_ODBG:
	    //
	    case A_Node::OP_USE_FRAMEBUFFER: case A_Node::OP_USE_PIPELINE:
	    case A_Node::OP_USE_PROGRAM: case A_Node::OP_USE_TEXTURE:
		break;

	    // Profile instruction
	    case A_Node::OP_PROFILE:
		if ( child == 0 ) {
			return &( ((T_ProfileInstrNode&) node).instructions( ) );
		}
		break;

	    // Call instruction
	    case A_Node::OP_CALL:
	    {
		auto& n( (T_CallInstrNode&) node );
		if ( child < n.arguments( ) ) {
			return &n.argument( child );
		}
		break;
	    }

	    // Conditional instruction
	    case A_Node::OP_COND:
	    {
		auto& n( (T_CondInstrNode&) node );
		auto c = child;
		if ( n.hasExpression( ) ) {
			if ( c == 0 ) {
				return &n.expression( );
			}
			c --;
		}
		if ( !n.cases( ).empty( ) ) {
			if ( c < n.cases( ).size( ) ) {
				return &n.getCase( n.cases( )[ c ] );
			}
			c -= n.cases( ).size( );
		}
		if ( n.hasDefaultCase( ) && c == 0 ) {
			return &n.defaultCase( );
		}
		break;
	    }

	    // Set instruction
	    case A_Node::OP_SET:
		if ( child == 0 ) {
			auto& n( (T_SetInstrNode&) node );
			if ( n.hasExpression( ) ) {
				return &n.expression( );
			}
		}
		break;

	    // Texture instruction
	    case A_Node::OP_TEXTURE:
	    {
		auto& n( (T_TextureInstrNode&) node );
		auto c = child;
		if ( n.hasWidth( ) ) {
			if ( c == 0 ) {
				return &n.width( );
			}
			c --;
		}
		if ( n.hasHeight( ) && c == 0 ) {
			return &n.height( );
		}
		break;
	    }

	    // Uniforms instruction
	    case A_Node::OP_UNIFORMS:
	    {
		    auto& n( (T_UniformsInstrNode&) node );
		    if ( child < n.values( ) ) {
			    return &n.value( child );
		    }
		    break;
	    }

	    // Viewport instruction
	    case A_Node::OP_VIEWPORT:
	    {
		auto& n( (T_ViewportInstrNode&) node );
		auto c = child;
		for ( int i = 0 ; i < 4 ; i ++ ) {
			T_ViewportInstrNode::E_Parameter p{
				T_ViewportInstrNode::E_Parameter( i ) };
			if ( n.hasParameter( p ) ) {
				if ( c == 0 ) {
					return &n.parameter( p );
				}
				c --;
			}
		}
		break;
	    }

	}
	return nullptr;
}


/*= A_FuncNode ===============================================================*/

A_FuncNode::A_FuncNode(
		const bool isInit ,
		T_RootNode* const root ) noexcept
	: A_Node( isInit ? DECL_INIT : DECL_FRAME , root ) ,
		name_( isInit ? "*init*" : "*frame*" ) ,
		instructions_( *this )
{ }

A_FuncNode::A_FuncNode(
		T_String const& name ,
		T_RootNode* const root ) noexcept
	: A_Node( DECL_FN , root ) , name_( name ) ,
		instructions_( *this )
{ }


/*= T_RootNode ===============================================================*/

T_RootNode::T_RootNode( ) noexcept
	: A_Node( ROOT , nullptr ) , functions_(
			[]( T_OwnPtr< A_FuncNode > const& f ) {
				return f->name( );
			} )
{ }

T_RootNode::T_AddFunctionResult T_RootNode::addFunction(
		T_OwnPtr< A_FuncNode >& function ) noexcept
{
	T_String const& fn( function->name( ) );
	auto const* const pf( functions_.get( fn ) );
	if ( !pf ) {
		auto* const rv( function.get( ) );
		functions_.add( std::move( function ) );
		return *rv;
	}

	T_String dfn;
	uint32_t dupCtr( 0 );
	do {
		T_StringBuilder fnsb;
		fnsb << fn << " dup " << dupCtr ++;
		dfn = std::move( fnsb );
	} while ( functions_.contains( dfn ) );

	T_OwnPtr< A_FuncNode > df( NewOwned< T_FuncNode >( dfn , *this ) );
	auto* const rv( df.get( ) );
	functions_.add( std::move( df ) );
	return T_AddFunctionResult{ *rv , (*pf)->location( ) };
}


/*= T_FuncNode ===============================================================*/

T_Optional< T_SRDLocation > T_FuncNode::addArgument(
		T_SRDToken const& token ) noexcept
{
	assert( token.type( ) == E_SRDTokenType::WORD );
	assert( token.hasLocation( ) );

	const auto pnp( argNames_.indexOf( token.stringValue( ) ) );
	if ( pnp != -1 ) {
		return argLocations_[ pnp ];
	}
	argNames_.add( token.stringValue( ) );
	argLocations_.add( token.location( ) );
	return {};
}


/*= T_PipelineInstrNode ======================================================*/

T_Optional< T_SRDLocation > T_PipelineInstrNode::addProgram(
		T_SRDToken const& pidToken ) noexcept
{
	T_String const& name( pidToken.stringValue( ) );
	const auto pIndex( pids_.indexOf( name ) );
	if ( pIndex != -1 ) {
		return pidLocations_[ pIndex ];
	}
	pids_.add( name );
	pidLocations_.add( pidToken.location( ) );
	return {};
}


/*= T_UnaryOperatorNode ======================================================*/

T_UnaryOperatorNode::T_UnaryOperatorNode(
		A_Node& parent ,
		const E_Operator op ) noexcept
	: A_ExpressionNode( ([op]() {
		switch ( op ) {
			case NEG: return EXPR_NEG;
			case INV: return EXPR_INV;
			case NOT: return EXPR_NOT;
			case SIN: return EXPR_SIN;
			case COS: return EXPR_COS;
			case TAN: return EXPR_TAN;
			case SQRT: return EXPR_SQRT;
			case EXP: return EXPR_EXP;
			case LN: return EXPR_LN;
		}
		std::abort( );
	})( ) , parent ) , op_( op )
{ }


/*= T_BinaryOperatorNode =====================================================*/

T_BinaryOperatorNode::T_BinaryOperatorNode(
		A_Node& parent ,
		const E_Operator op ) noexcept
	: A_ExpressionNode( ([op]() {
		switch ( op ) {
			case ADD: return EXPR_ADD;
			case SUB: return EXPR_SUB;
			case MUL: return EXPR_MUL;
			case DIV: return EXPR_DIV;
			case POW: return EXPR_POW;
			case CMP_EQ: return EXPR_CMP_EQ;
			case CMP_NE: return EXPR_CMP_NE;
			case CMP_GT: return EXPR_CMP_GT;
			case CMP_GE: return EXPR_CMP_GE;
			case CMP_LT: return EXPR_CMP_LT;
			case CMP_LE: return EXPR_CMP_LE;
		}
		std::abort( );
	})( ) , parent ) , op_( op )
{ }


/*= T_FramebufferInstrNode ===================================================*/

bool T_FramebufferInstrNode::addColorAttachment(
		T_SRDToken const& id ) noexcept
{
	if ( idColorAttachments_.contains( id.stringValue( ) )
			|| idDepthAttachment_ == id.stringValue( ) ) {
		return false;
	}
	idColorAttachments_.add( id.stringValue( ) );
	locColorAttachments_.add( id.location( ) );
	return true;
}

bool T_FramebufferInstrNode::setDepthAttachment(
		T_SRDToken const& token ) noexcept
{
	if ( idDepthAttachment_ || idColorAttachments_.contains( token.stringValue( ) ) ) {
		return false;
	}
	idDepthAttachment_ = token.stringValue( );
	locDepthAttachment_ = token.location( );
	return true;
}


/*= T_OutputDebugInstrNode ===================================================*/

T_OutputDebugInstrNode::T_OutputDebugInstrNode(
		T_InstrListNode& parent ,
		T_SRDToken const& texture ,
		const E_ODbgMode mode ,
		T_SRDLocation const& modeLocation ,
		T_SRDToken const& description ) noexcept
	: A_InstructionNode( OP_ODBG , parent ) ,
		idTexture_( texture.stringValue( ) ) ,
		locTexture_( texture.location( ) ) ,
		mode_( mode ) , locMode_( modeLocation ) ,
		description_( description.stringValue( ) ) ,
		locDescription_( description.location( ) )
{ }