//////////////////////////////////////////////////////////// // // RubySFML - Ruby extension for the SFML library // Copyright (C) 2007 Sean O'Neil and Laurent Gomila // (sean.p.oneil@gmail.com and laurent.gom@gmail.com) // // 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 #include "RubySFML.h" #include using namespace sf; #ifdef _MSC_VER #define SQRTF sqrtf #else #define SQRTF sqrt #endif // Wrapper for Sprite that calls the Ruby version of virtual methods in case a Ruby class derives from this one class rSprite : public Sprite { protected: VALUE m_vSelf, m_vClass; ID m_idRender; bool m_bRender, m_bInRender; virtual void Render(const RenderWindow &Window) const { // If this method is overridden in Ruby, call it if(m_bRender) { VALUE vWindow = Data_Wrap_Struct(g_cRenderWindow, 0, 0, (void*)&Window); VALUE vRet = rb_funcall(m_vSelf, m_idRender, 1, vWindow); } else // else call parent Sprite::Render(Window); } public: // Call as soon as you get a Ruby VALUE pointing to this object void rInit(VALUE vSelf) { // Need these for rb_funcall m_vSelf = vSelf; m_vClass = CLASS_OF(m_vSelf); // Initialize members for Render() virtual method m_idRender = rb_intern("render"); m_bRender = rb_method_boundp(m_vClass, m_idRender, 0) == Qtrue; } // When an overridden method in Ruby calls super(), it is called this way VALUE Render(VALUE vWindow) { Sprite::Render(*(RenderWindow *)DATA_PTR(vWindow)); return Qnil; } }; VALUE g_cSprite; void Sprite_free(void *p) { delete (Sprite *)p; } VALUE Sprite_new(int argc, VALUE *argv, VALUE vClass) { rSprite *ptr = new rSprite(); VALUE tData = Data_Wrap_Struct(vClass, 0, Sprite_free, ptr); ptr->rInit(tData); rb_obj_call_init(tData, argc, argv); return tData; } static VALUE Sprite_initialize(int argc, VALUE *argv, VALUE vSelf) { Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); if(argc == 0) { // Nothing to initialize } else if(argc >= 1 && argc <= 6 && IS(argv[0], g_cImage) && (argc < 6 || IS(argv[5], g_cColor))) { pSelf->SetImage(*(Image *)DATA_PTR(argv[0])); if(argc >= 2) pSelf->SetLeft((float)NUM2DBL(argv[1])); if(argc >= 3) pSelf->SetTop((float)NUM2DBL(argv[2])); if(argc >= 4) { if(ISNUM(argv[3])) { float f = (float)NUM2DBL(argv[3]); pSelf->SetScale(f, f); } else if(IS(argv[3], rb_cArray)) { float x = (float)NUM2DBL(rb_ary_entry(argv[3], 0)); float y = (float)NUM2DBL(rb_ary_entry(argv[3], 1)); pSelf->SetScale(x, y); } } if(argc >= 5) pSelf->SetRotation((float)NUM2DBL(argv[4])); if(argc >= 6) pSelf->SetColor(*(Color *)DATA_PTR(argv[5])); } else rb_raise(rb_eTypeError, "wrong argument type(s)"); pSelf->SetRotationCenter(pSelf->GetWidth()/2, pSelf->GetHeight()/2); return vSelf; } static VALUE Sprite_to_s(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); char szBuffer[256]; sprintf(szBuffer, "Left=%f, Top=%f, Width=%f, Height=%f, Scale=[%f,%f]", pSelf->GetLeft(), pSelf->GetTop(), pSelf->GetWidth(), pSelf->GetHeight(), pSelf->GetScaleX(), pSelf->GetScaleY()); return rb_str_new2(szBuffer); } static VALUE Sprite_set_image(VALUE vSelf, VALUE vImage) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); if(!IS(vImage, g_cImage)) rb_raise(rb_eTypeError, "wrong argument type(s)"); pSelf->SetImage(*(Image *)DATA_PTR(vImage)); return Qnil; } static VALUE Sprite_set_subRect(VALUE vSelf, VALUE vRect) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); if(!IS(vRect, g_cIntRect)) rb_raise(rb_eTypeError, "wrong argument type(s)"); pSelf->SetSubRect(*(IntRect *)DATA_PTR(vRect)); return Qnil; } static VALUE Sprite_get_image(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); DECLARE_PTR_VAR(Image, Image, (Image *)pSelf->GetImage()); return vImage; } static VALUE Sprite_get_subRect(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); DECLARE_OBJ_VAR(IntRect, Rect, pSelf->GetSubRect()); return vRect; } static VALUE Sprite_get_width(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetWidth()); } static VALUE Sprite_get_height(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetHeight()); } static VALUE Sprite_getPixel(VALUE vSelf, VALUE vX, VALUE vY) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); DECLARE_OBJ_VAR(Color, Color, pSelf->GetPixel(NUM2INT(vX), NUM2INT(vY))); return vColor; } static VALUE Sprite_set_right(VALUE vSelf, VALUE v) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->SetLeft((float)NUM2DBL(v) - pSelf->GetWidth()); return Qnil; } static VALUE Sprite_set_bottom(VALUE vSelf, VALUE v) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->SetTop((float)NUM2DBL(v) - pSelf->GetHeight()); return Qnil; } static VALUE Sprite_set_x(VALUE vSelf, VALUE v) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->SetLeft((float)NUM2DBL(v) - pSelf->GetWidth()*0.5f); return Qnil; } static VALUE Sprite_set_y(VALUE vSelf, VALUE v) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->SetTop((float)NUM2DBL(v) - pSelf->GetHeight()*0.5f); return Qnil; } static VALUE Sprite_get_right(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetLeft() + pSelf->GetWidth()); } static VALUE Sprite_get_bottom(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetTop() + pSelf->GetHeight()); } static VALUE Sprite_get_x(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetLeft() + pSelf->GetWidth()*0.5f); } static VALUE Sprite_get_y(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); return rb_float_new(pSelf->GetTop() + pSelf->GetHeight()*0.5f); } static VALUE Sprite_get_radius(VALUE vSelf) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); float w = pSelf->GetWidth() * 0.5f; float h = pSelf->GetHeight() * 0.5f; return rb_float_new(SQRTF(w*w + h*h)); } static VALUE Sprite_flipX(VALUE vSelf, VALUE vBool) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->FlipX(RTEST(vBool)); return Qnil; } static VALUE Sprite_flipY(VALUE vSelf, VALUE vBool) { // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); pSelf->FlipY(RTEST(vBool)); return Qnil; } static VALUE Sprite_distance(VALUE vSelf, VALUE vOther) { if(!ISKO(vOther, g_cSprite)) rb_raise(rb_eTypeError, "wrong argument type(s)"); // Get C++ object pointer from vSelf Sprite *pSelf; Data_Get_Struct(vSelf, Sprite, pSelf); Sprite *pOther; Data_Get_Struct(vOther, Sprite, pOther); // Get distance from center positions float dx = (pSelf->GetLeft() + pSelf->GetWidth()*0.5f) - (pOther->GetLeft() + pOther->GetWidth()*0.5f); float dy = (pSelf->GetTop() + pSelf->GetHeight()*0.5f) - (pOther->GetTop() + pOther->GetHeight()*0.5f); return rb_float_new(SQRTF(dx*dx + dy*dy)); } static VALUE Sprite_render(VALUE vSelf, VALUE vWindow) { // Get C++ object pointer from vSelf rSprite *pSelf; Data_Get_Struct(vSelf, rSprite, pSelf); return pSelf->Render(vWindow); } void Init_Sprite() { g_cSprite = rb_define_class_under(g_vModule, "Sprite", g_cDrawable); DEFINE_CLASS_METHOD(Sprite, new, -1); DEFINE_INSTANCE_METHOD(Sprite, initialize, -1); DEFINE_RW(Sprite, right); // Right x position DEFINE_RW(Sprite, bottom); // Bottom x position DEFINE_RW(Sprite, x); // Center x postion DEFINE_RW(Sprite, y); // Center y position DEFINE_RW(Sprite, image); DEFINE_RW(Sprite, subRect); DEFINE_GETTER(Sprite, width); DEFINE_GETTER2(Sprite, width, w); DEFINE_GETTER(Sprite, height); DEFINE_GETTER2(Sprite, height, h); DEFINE_GETTER(Sprite, radius); DEFINE_INSTANCE_METHOD(Sprite, to_s, 0); DEFINE_INSTANCE_METHOD(Sprite, getPixel, 2); DEFINE_INSTANCE_METHOD2(Sprite, getPixel, [], 2); DEFINE_INSTANCE_METHOD(Sprite, distance, 1); DEFINE_INSTANCE_METHOD2(Sprite, distance, getDistance, 1); DEFINE_INSTANCE_METHOD(Sprite, flipX, 0); DEFINE_INSTANCE_METHOD(Sprite, flipY, 0); // Virtual method DEFINE_INSTANCE_METHOD(Sprite, render, 1); }