package opengl // #cgo LDFLAGS: -framework OpenGL // // #include // #include import "C" import ( "fmt" "github.com/hajimehoshi/go-ebiten/graphics" "github.com/hajimehoshi/go-ebiten/graphics/matrix" "github.com/hajimehoshi/go-ebiten/graphics/opengl/rendertarget" "github.com/hajimehoshi/go-ebiten/graphics/opengl/shader" "github.com/hajimehoshi/go-ebiten/graphics/opengl/texture" grendertarget "github.com/hajimehoshi/go-ebiten/graphics/rendertarget" gtexture "github.com/hajimehoshi/go-ebiten/graphics/texture" "image" "math" ) type Context struct { screenId graphics.RenderTargetId screenWidth int screenHeight int screenScale int ids *ids mainFramebufferTexture *grendertarget.RenderTarget projectionMatrix [16]float32 } func newContext(screenWidth, screenHeight, screenScale int) *Context { return &Context{ screenWidth: screenWidth, screenHeight: screenHeight, screenScale: screenScale, ids: newIds(), } } func (context *Context) Init() { C.glEnable(C.GL_TEXTURE_2D) C.glEnable(C.GL_BLEND) // The main framebuffer should be created sooner than any other // framebuffers! mainFramebuffer := C.GLint(0) C.glGetIntegerv(C.GL_FRAMEBUFFER_BINDING, &mainFramebuffer) var err error context.mainFramebufferTexture, err = rendertarget.NewWithFramebuffer( context.screenWidth*context.screenScale, context.screenHeight*context.screenScale, rendertarget.Framebuffer(mainFramebuffer)) if err != nil { panic("creating main framebuffer failed: " + err.Error()) } context.screenId, err = context.createRenderTarget( context.screenWidth, context.screenHeight, texture.FilterNearest) if err != nil { panic("initializing the offscreen failed: " + err.Error()) } } func (context *Context) ToTexture(renderTargetId graphics.RenderTargetId) graphics.TextureId { return context.ids.ToTexture(renderTargetId) } func (context *Context) Clear() { context.Fill(0, 0, 0) } func (context *Context) Fill(r, g, b uint8) { const max = float64(math.MaxUint8) C.glClearColor( C.GLclampf(float64(r)/max), C.GLclampf(float64(g)/max), C.GLclampf(float64(b)/max), 1) C.glClear(C.GL_COLOR_BUFFER_BIT) } func (context *Context) DrawTexture( textureId graphics.TextureId, geometryMatrix matrix.Geometry, colorMatrix matrix.Color) { tex := context.ids.TextureAt(textureId) tex.Draw(func(native interface{}, quads []gtexture.Quad) { shader.DrawTexture(native.(texture.Native), context.projectionMatrix, quads, geometryMatrix, colorMatrix) }) } func (context *Context) DrawTextureParts( textureId graphics.TextureId, parts []graphics.TexturePart, geometryMatrix matrix.Geometry, colorMatrix matrix.Color) { tex := context.ids.TextureAt(textureId) tex.DrawParts(parts, func(native interface{}, quads []gtexture.Quad) { shader.DrawTexture(native.(texture.Native), context.projectionMatrix, quads, geometryMatrix, colorMatrix) }) } func (context *Context) ResetOffscreen() { context.SetOffscreen(context.screenId) } func (context *Context) SetOffscreen(renderTargetId graphics.RenderTargetId) { renderTarget := context.ids.RenderTargetAt(renderTargetId) context.setOffscreen(renderTarget) } func (context *Context) setOffscreen(rt *grendertarget.RenderTarget) { C.glFlush() rt.SetAsOffscreen(func(framebuffer interface{}) { f := framebuffer.(rendertarget.Framebuffer) C.glBindFramebuffer(C.GL_FRAMEBUFFER, C.GLuint(f)) err := C.glCheckFramebufferStatus(C.GL_FRAMEBUFFER) if err != C.GL_FRAMEBUFFER_COMPLETE { panic(fmt.Sprintf("glBindFramebuffer failed: %d", err)) } C.glBlendFuncSeparate(C.GL_SRC_ALPHA, C.GL_ONE_MINUS_SRC_ALPHA, C.GL_ZERO, C.GL_ONE) isUsingMainFramebuffer := rt == context.mainFramebufferTexture setter := &viewportSetter{ isUsingMainFramebuffer, context.screenHeight * context.screenScale, context, } rt.SetAsViewport(setter.Set) }) } type viewportSetter struct { isUsingMainFramebuffer bool actualScreenHeight int context *Context } func (v *viewportSetter) Set(x, y, width, height int) { C.glViewport(C.GLint(x), C.GLint(y), C.GLsizei(width), C.GLsizei(height)) matrix := graphics.OrthoProjectionMatrix(x, width, y, height) if v.isUsingMainFramebuffer { // Flip Y and move to fit with the top of the window. matrix[1][1] *= -1 matrix[1][3] += float64(v.actualScreenHeight) / float64(height) * 2 } for j := 0; j < 4; j++ { for i := 0; i < 4; i++ { v.context.projectionMatrix[i+j*4] = float32(matrix[i][j]) } } } func (context *Context) setMainFramebufferOffscreen() { context.setOffscreen(context.mainFramebufferTexture) } func (context *Context) flush() { C.glFlush() } func (context *Context) createRenderTarget(width, height int, filter texture.Filter) ( graphics.RenderTargetId, error) { renderTargetId, err := context.ids.CreateRenderTarget(width, height, filter) if err != nil { return 0, err } return renderTargetId, nil } func (context *Context) NewRenderTarget(width, height int) ( graphics.RenderTargetId, error) { return context.createRenderTarget(width, height, texture.FilterLinear) } func (context *Context) NewTextureFromImage(img image.Image) ( graphics.TextureId, error) { return context.ids.CreateTextureFromImage(img) }