/* rbSFML - Copyright (c) 2010 Henrik Valter Vogelius Hansson - groogy@groogy.se * This software is provided 'as-is', without any express or * implied warranty. In no event will the authors be held * liable for any damages arising from the use of this software. * * Permission is granted to anyone to use this software for any purpose, * including commercial applications, and to alter it and redistribute * it freely, subject to the following restrictions: * * 1. The origin of this software must not be misrepresented; * you must not claim that you wrote the original software. * If you use this software in a product, an acknowledgment * in the product documentation would be appreciated but * is not required. * * 2. Altered source versions must be plainly marked as such, * and must not be misrepresented as being the original software. * * 3. This notice may not be removed or altered from any * source distribution. */ #include "Drawable.hpp" #include "Vector2.hpp" #include "Color.hpp" #include "main.hpp" #include VALUE globalDrawableModule; /* External classes */ extern VALUE globalVector2Class; extern VALUE globalColorClass; extern VALUE globalRenderTargetInstanceClass; extern VALUE globalRendererClass; class rbDrawable : public sf::Drawable { public: void Init( VALUE aSelf ) { myRubySelf = aSelf; myRenderID = rb_intern( "render" ); } protected: VALUE myRubySelf; ID myRenderID; virtual void Render( sf::RenderTarget& aTarget, sf::Renderer& aRenderer ) const { VALUE targetWrap = Data_Wrap_Struct( globalRenderTargetInstanceClass, 0, 0, &aTarget ); VALUE rendererWrap = Data_Wrap_Struct( globalRendererClass, 0, 0, &aRenderer ); rb_funcall( myRubySelf, myRenderID, 2, targetWrap, rendererWrap ); } }; static void Drawable_Free( rbDrawable *object ) { delete object; } /* call-seq: * drawable.setPosition( x, y ) * drawable.setPosition( vector2 ) * * Set the position of the object. * * This function completely overwrites the previous position. See Move to apply an offset based on the previous * position instead. The default position of a drawable object is (0, 0). */ static VALUE Drawable_SetPosition( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; VALUE arg0 = Qnil; float positionX = 0.0f; float positionY = 0.0f; switch( argc ) { case 1: arg0 = Vector2_ForceType( args[0] ); positionX = NUM2DBL( Vector2_GetX( arg0 ) ); positionY = NUM2DBL( Vector2_GetY( arg0 ) ); break; case 2: positionX = NUM2DBL( args[0] ); positionY = NUM2DBL( args[1] ); break; default: rb_raise( rb_eArgError, "Expected 1 or 2 arguments but was given %d", argc ); } Data_Get_Struct( self, rbDrawable, object ); object->SetPosition( positionX, positionY ); return Qnil; } /* call-seq: * drawable.setX( x ) * * Set the X position of the object. */ static VALUE Drawable_SetX( VALUE self, VALUE aX ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetX( NUM2DBL( aX ) ); return Qnil; } /* call-seq: * drawable.setY( y ) * * Set the Y position of the object. */ static VALUE Drawable_SetY( VALUE self, VALUE aY ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetY( NUM2DBL( aY ) ); return Qnil; } /* call-seq: * drawable.setScale( x, y ) * drawable.setScale( vector2 ) * * Set the scale factors of the object. * * scale.x and scale.y must be strictly positive, otherwise they are ignored. This function completely overwrites * the previous scale. See Scale to add a factor based on the previous scale instead. The default scale of a drawable * object is (1, 1). */ static VALUE Drawable_SetScale( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; VALUE arg0 = Qnil; float scaleX = 0.0f; float scaleY = 0.0f; switch( argc ) { case 1: arg0 = Vector2_ForceType( args[0] ); scaleX = NUM2DBL( Vector2_GetX( arg0 ) ); scaleY = NUM2DBL( Vector2_GetY( arg0 ) ); break; case 2: scaleX = NUM2DBL( args[0] ); scaleY = NUM2DBL( args[1] ); break; default: rb_raise( rb_eArgError, "Expected 1 or 2 arguments but was given %d", argc ); } Data_Get_Struct( self, rbDrawable, object ); object->SetScale( scaleX, scaleY ); return Qnil; } /* call-seq: * drawable.setScaleX( factor ) * * Set the X scale factor of the object. * * factor must be strictly positive, otherwise it is ignored. */ static VALUE Drawable_SetScaleX( VALUE self, VALUE aX ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetScaleX( NUM2DBL( aX ) ); return Qnil; } /* call-seq: * drawable.setScaleY( factor ) * * Set the Y scale factor of the object. * * factor must be strictly positive, otherwise it is ignored. */ static VALUE Drawable_SetScaleY( VALUE self, VALUE aY ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetScaleY( NUM2DBL( aY ) ); return Qnil; } /* call-seq: * drawable.setOrigin( x, y ) * drawable.setOrigin( vector2 ) * * Set the local origin of the object. * * The origin of an object defines the center point for all transformations (position, scale, rotation). The * coordinates of this point must be relative to the top-left corner of the object, and ignore all transformations * (position, scale, rotation). The default origin of a drawable object is (0, 0). */ static VALUE Drawable_SetOrigin( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; VALUE arg0 = Qnil; float originX = 0.0f; float originY = 0.0f; switch( argc ) { case 1: arg0 = Vector2_ForceType( args[0] ); originX = NUM2DBL( Vector2_GetX( arg0 ) ); originY = NUM2DBL( Vector2_GetY( arg0 ) ); break; case 2: originX = NUM2DBL( args[0] ); originY = NUM2DBL( args[1] ); break; default: rb_raise( rb_eArgError, "Expected 1 or 2 arguments but was given %d", argc ); } Data_Get_Struct( self, rbDrawable, object ); object->SetOrigin( originX, originY ); return Qnil; } /* call-seq: * drawable.setRotation( angle ) * * Set the orientation of the object. * * This function completely overwrites the previous rotation. See Rotate to add an angle based on the previous * rotation instead. The default rotation of a drawable object is 0. */ static VALUE Drawable_SetRotation( VALUE self, VALUE aRotation ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetRotation( NUM2DBL( aRotation ) ); return Qnil; } /* call-seq: * drawable.setColor( color ) * * Set the global color of the object. * * This global color affects the entire object, and modulates (multiplies) its original pixels. * The default color is white. */ static VALUE Drawable_SetColor( VALUE self, VALUE aColor ) { VALUE color = Color_ForceType( aColor ); rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetColor( sf::Color( Color_GetR( color ), Color_GetG( color ), Color_GetB( color ), Color_GetA( color ) ) ); return Qnil; } /* call-seq: * drawable.setBlendMode( mode ) * * Set the blending mode of the object. * * This property defines how the pixels of an object are blended with the pixels of the render target to which it is * drawn. To know more about the blending modes available, see the SFML::Blend module. The default blend mode is * SFML::Blend::Alpha. */ static VALUE Drawable_SetBlendMode( VALUE self, VALUE aMode ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->SetBlendMode( static_cast( FIX2INT( aMode ) ) ); return Qnil; } /* call-seq: * drawable.getPosition() -> vector2 * * Get the position of the object. */ static VALUE Drawable_GetPosition( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); const sf::Vector2f &vector = object->GetPosition(); return rb_funcall( globalVector2Class, rb_intern( "new" ), 2, rb_float_new( vector.x ), rb_float_new( vector.y ) ); } /* call-seq: * drawable.getScale() -> vector2 * * Get the current scale of the object. */ static VALUE Drawable_GetScale( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); const sf::Vector2f &vector = object->GetScale(); return rb_funcall( globalVector2Class, rb_intern( "new" ), 2, rb_float_new( vector.x ), rb_float_new( vector.y ) ); } /* call-seq: * drawable.getOrigin() -> vector2 * * Get the local origin of the object. */ static VALUE Drawable_GetOrigin( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); const sf::Vector2f &vector = object->GetOrigin(); return rb_funcall( globalVector2Class, rb_intern( "new" ), 2, rb_float_new( vector.x ), rb_float_new( vector.y ) ); } /* call-seq: * drawable.getRotation() -> float * * Get the orientation of the object. * * The rotation is always in the range [0, 360]. */ static VALUE Drawable_GetRotation( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); return rb_float_new( object->GetRotation() ); } /* call-seq: * drawable.getColor() -> color * * Get the color of the object. */ static VALUE Drawable_GetColor( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); const sf::Color &color = object->GetColor(); return rb_funcall( globalColorClass, rb_intern( "new" ), 4, INT2FIX( color.r ), INT2FIX( color.g ), INT2FIX( color.b ), INT2FIX( color.a ) ); } /* call-seq: * drawable.getBlendMode() -> mode * * Get the blend mode of the object. */ static VALUE Drawable_GetBlendMode( VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); return INT2FIX( object->GetBlendMode() ); } /* call-seq: * drawable.move( x, y ) * drawable.move( vector2 ) * * Move the object by a given offset. * * This function adds to the current position of the object, unlike setPosition which overwrites it. */ static VALUE Drawable_Move( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; VALUE arg0 = Qnil; float moveX = 0.0f; float moveY = 0.0f; switch( argc ) { case 1: arg0 = Vector2_ForceType( args[0] ); moveX = NUM2DBL( Vector2_GetX( arg0 ) ); moveY = NUM2DBL( Vector2_GetY( arg0 ) ); break; case 2: moveX = NUM2DBL( args[0] ); moveY = NUM2DBL( args[1] ); break; default: rb_raise( rb_eArgError, "Expected 1 or 2 arguments but was given %d", argc ); } Data_Get_Struct( self, rbDrawable, object ); object->Move( moveX, moveY ); return Qnil; } /* call-seq: * drawable.scale( x, y ) * drawable.scale( vector2 ) * * Scale the object. * * This function multiplies the current scale of the object, unlike setScale which overwrites it. */ static VALUE Drawable_Scale( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; VALUE arg0 = Qnil; float scaleX = 0.0f; float scaleY = 0.0f; switch( argc ) { case 1: arg0 = Vector2_ForceType( args[0] ); scaleX = NUM2DBL( Vector2_GetX( arg0 ) ); scaleY = NUM2DBL( Vector2_GetY( arg0 ) ); break; case 2: scaleX = NUM2DBL( args[0] ); scaleY = NUM2DBL( args[1] ); break; default: rb_raise( rb_eArgError, "Expected 1 or 2 arguments but was given %d", argc ); } Data_Get_Struct( self, rbDrawable, object ); object->Scale( scaleX, scaleY ); return Qnil; } /* call-seq: * drawable.rotate( angle ) * * Rotate the object. * * This function ads to the current rotation of the object, unlike setRotation which overwrites it */ static VALUE Drawable_Rotate( VALUE self, VALUE aRotation ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); object->Rotate( NUM2DBL( aRotation ) ); return Qnil; } /* call-seq: * drawable.transformToLocal( vector2 ) -> vector2 * * Transform a point in object local coordinates. * * This function takes a point in global coordinates, and transforms it in coordinates local to the object. In other * words, it applies the inverse of all the transformations applied to the object (origin, translation, rotation * and scale). */ static VALUE Drawable_TransformToLocal( VALUE self, VALUE aPoint ) { VALUE point = Vector2_ForceType( aPoint ); rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); sf::Vector2f newPoint = object->TransformToLocal( sf::Vector2f( NUM2DBL( Vector2_GetX( point ) ), NUM2DBL( Vector2_GetY( point ) ) ) ); return rb_funcall( globalVector2Class, rb_intern( "new" ), 2, rb_float_new( newPoint.x ), rb_float_new( newPoint.y ) ); } /* call-seq: * drawable.transformToGlobal( vector2 ) -> vector2 * * Transform a local point in global coordinates. * * This function takes a point in local coordinates, and transforms it in global coordinates. In other words, it * applies the same transformations that are applied to the object (origin, translation, rotation and scale). */ static VALUE Drawable_TransformToGlobal( VALUE self, VALUE aPoint ) { VALUE point = Vector2_ForceType(aPoint); rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); sf::Vector2f newPoint = object->TransformToGlobal( sf::Vector2f( NUM2DBL( Vector2_GetX( point ) ), NUM2DBL( Vector2_GetY( point ) ) ) ); return rb_funcall( globalVector2Class, rb_intern( "new" ), 2, rb_float_new( newPoint.x ), rb_float_new( newPoint.y ) ); } /* call-seq: * Rect.new() -> rect * Rect.new( [left, top, width, height] ) -> rect * Rect.new( rect ) -> rect * Rect.new( left, top, width, height ) -> rect * Rect.new( position, size ) -> rect * * Create a new rect instance. */ static VALUE Drawable_Initialize( int argc, VALUE *args, VALUE self ) { rbDrawable *object = NULL; Data_Get_Struct( self, rbDrawable, object ); VALUE aPosition = Qnil; VALUE aScale = Qnil; VALUE aColor = Qnil; int colorRed = 0; int colorGreen = 0; int colorBlue = 0; int colorAlpha = 0; switch( argc ) { case 0: // Nothing to do break; case 4: aColor = Color_ForceType( args[3] ); colorRed = FIX2INT( rb_funcall( aColor, rb_intern( "r" ), 0 ) ); colorGreen = FIX2INT( rb_funcall( aColor, rb_intern( "g" ), 0 ) ); colorBlue = FIX2INT( rb_funcall( aColor, rb_intern( "b" ), 0 ) ); colorAlpha = FIX2INT( rb_funcall( aColor, rb_intern( "a" ), 0 ) ); object->SetColor( sf::Color( colorRed, colorGreen, colorBlue, colorAlpha ) ); case 3: object->SetRotation( NUM2DBL( args[2] ) ); case 2: aScale = Vector2_ForceType( args[1] ); object->SetScaleX( Vector2_GetX( aScale ) ); object->SetScaleY( Vector2_GetY( aScale ) ); case 1: aPosition = Vector2_ForceType( args[0] ); object->SetX( Vector2_GetX( aPosition ) ); object->SetY( Vector2_GetY( aPosition ) ); break; default: rb_raise( rb_eArgError, "Expected 0..4 arguments but was given %d", argc ); } return rb_call_super( argc, args ); } static VALUE Drawable_InitializeCopy( VALUE self, VALUE aSource ) { sf::Drawable *selfDrawable = NULL; Data_Get_Struct( self, sf::Drawable, selfDrawable ); sf::Drawable *sourceDrawable = NULL; Data_Get_Struct( aSource, sf::Drawable, sourceDrawable ); *selfDrawable = *sourceDrawable; return self; } static VALUE Drawable_Allocate( VALUE aKlass ) { rbDrawable *object = new rbDrawable(); VALUE rbData = Data_Wrap_Struct( aKlass, 0, Drawable_Free, object ); object->Init( rbData ); return rbData; } static VALUE Drawable_Included( VALUE aModule, VALUE aBase ) { //rb_define_singleton_method( aBase, "allocate", Drawable_Allocate, 0 ); rb_define_alloc_func( aBase, Drawable_Allocate ); return Qnil; } void Init_Drawable( void ) { /* SFML namespace which contains the classes of this module. */ VALUE sfml = rb_define_module( "SFML" ); /* Abstract base class for objects that can be drawn to a render target. * * SFML::Drawable defines the attributes and operations that are common to all the drawable classes: * * - transformations (position, rotation, scale, local origin) * - global overlay color * - blending mode with background pixels * - the ability to be drawn on either RenderWindow or RenderImage * * Please note that all these attributes are hardware accelerated, therefore they are extremely cheap to use * (unlike older libraries that perform slow transformations on the CPU, such as rotation or scale). * * Usage example: * * # Here we'll use a SFML::Sprite to demonstrate the features of SFML::Drawable * drawable = SFML::Sprite.new( ...whatever... ) * * drawable.SetOrigin(10, 20) # set its origin to the local point (10, 20) * drawable.SetPosition(100, 100) # set its position to (100, 100) * drawable.SetRotation(45) # set its orientation to 45 degrees * drawable.SetColor(sf::Color::Red) # set its global color to red * drawable.SetBlendingMode(sf::Blend::Add) # set an additive blend mode * * window.draw( drawable ) # finally draw it (window is a SFML::RenderWindow) * * Deriving your own class from SFML::Drawable is possible, however you have to use the SFML::Renderer class instead of * direct OpenGL calls, which is more limited. To create a derived drawable class, all you have to do is to override the virtual Render function. * * One of the main benefits of creating your own drawable class is that you can build hierarchies of drawable objects. * Indeed, when you draw a drawable inside the Render function of another drawable, the former inherits the * transformations and color of the latter and combines them with its own attributes. This way, you can apply global * transformations/color to a set of drawables as if it was a single entity. * * Example: * * class MyDrawable * include SFML::Drawable * # ... * * def initialize * @myTexture = SFML::Image.new( ...whatever... ) * @mySubSprite = SFML::Sprite.new( ...whatever... ) * end * * def render( target, renderer ) * # Low-level geometry rendering * renderer.setTexture( @myTexture ) * renderer.begin( SFML::Renderer::QuadList ) * renderer.addVertex(...) * renderer.addVertex(...) * renderer.addVertex(...) * renderer.addVertex(...) * renderer.end() * * # High-level drawable rendering * target.draw(@mySubSprite); * end * end * */ globalDrawableModule = rb_define_module_under( sfml, "Drawable" ); // Class methods rb_define_module_function( globalDrawableModule, "included", Drawable_Included, 1 ); // Instance methods rb_define_method( globalDrawableModule, "initialize", Drawable_Initialize, -1 ); rb_define_method( globalDrawableModule, "initialize_copy", Drawable_Initialize, 1 ); rb_define_method( globalDrawableModule, "setPosition", Drawable_SetPosition, -1 ); rb_define_method( globalDrawableModule, "setX", Drawable_SetX, 1 ); rb_define_method( globalDrawableModule, "setY", Drawable_SetY, 1 ); rb_define_method( globalDrawableModule, "setScale", Drawable_SetScale, -1 ); rb_define_method( globalDrawableModule, "setScaleX", Drawable_SetScaleX, 1 ); rb_define_method( globalDrawableModule, "setScaleY", Drawable_SetScaleY, 1 ); rb_define_method( globalDrawableModule, "setOrigin", Drawable_SetOrigin, -1 ); rb_define_method( globalDrawableModule, "setRotation", Drawable_SetRotation, 1 ); rb_define_method( globalDrawableModule, "setColor", Drawable_SetColor, 1 ); rb_define_method( globalDrawableModule, "setBlendMode", Drawable_SetBlendMode, 1 ); rb_define_method( globalDrawableModule, "getPosition", Drawable_GetPosition, 0 ); rb_define_method( globalDrawableModule, "getScale", Drawable_GetScale, 0 ); rb_define_method( globalDrawableModule, "getOrigin", Drawable_GetOrigin, 0 ); rb_define_method( globalDrawableModule, "getRotation", Drawable_GetRotation, 0 ); rb_define_method( globalDrawableModule, "getColor", Drawable_GetColor, 0 ); rb_define_method( globalDrawableModule, "getBlendMode", Drawable_GetBlendMode, 0 ); rb_define_method( globalDrawableModule, "move", Drawable_Move, -1 ); rb_define_method( globalDrawableModule, "scale", Drawable_Scale, -1 ); rb_define_method( globalDrawableModule, "rotate", Drawable_Rotate, 1 ); rb_define_method( globalDrawableModule, "transformToLocal", Drawable_TransformToLocal, 1 ); rb_define_method( globalDrawableModule, "transformToGlobal", Drawable_TransformToGlobal, 1 ); // Aliases rb_define_alias( globalDrawableModule, "position=", "setPosition" ); rb_define_alias( globalDrawableModule, "position", "getPosition" ); rb_define_alias( globalDrawableModule, "x=", "setX" ); rb_define_alias( globalDrawableModule, "y=", "setY" ); rb_define_alias( globalDrawableModule, "scale=", "setScale" ); rb_define_alias( globalDrawableModule, "scale", "getScale" ); rb_define_alias( globalDrawableModule, "scaleX=", "setScaleX" ); rb_define_alias( globalDrawableModule, "scale_x=", "setScaleX" ); rb_define_alias( globalDrawableModule, "scaleY=", "setScaleY" ); rb_define_alias( globalDrawableModule, "scale_y=", "setScaleY" ); rb_define_alias( globalDrawableModule, "origin=", "setOrigin" ); rb_define_alias( globalDrawableModule, "origin", "getOrigin" ); rb_define_alias( globalDrawableModule, "rotation=", "setRotation" ); rb_define_alias( globalDrawableModule, "rotation", "getRotation" ); rb_define_alias( globalDrawableModule, "color=", "setColor" ); rb_define_alias( globalDrawableModule, "color", "getColor" ); rb_define_alias( globalDrawableModule, "blendMode=", "setBlendMode" ); rb_define_alias( globalDrawableModule, "blend_mode=", "setBlendMode" ); rb_define_alias( globalDrawableModule, "blendMode", "getBlendMode" ); rb_define_alias( globalDrawableModule, "blend_mode", "getBlendMode" ); rb_define_alias( globalDrawableModule, "transform_to_local", "transformToLocal" ); rb_define_alias( globalDrawableModule, "transform_to_global", "transformToGlobal" ); }