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" "image" "image/color" "unsafe" ) type GraphicsContext struct { screenWidth int screenHeight int screenScale int textures map[graphics.TextureID]*Texture projectionMatrix [16]float32 currentShaderProgram C.GLuint mainFramebuffer C.GLuint framebuffers map[C.GLuint]C.GLuint } // This method should be called on the UI thread. func newGraphicsContext(screenWidth, screenHeight, screenScale int) *GraphicsContext { context := &GraphicsContext{ screenWidth: screenWidth, screenHeight: screenHeight, screenScale: screenScale, textures: map[graphics.TextureID]*Texture{}, mainFramebuffer: 0, framebuffers: map[C.GLuint]C.GLuint{}, } // main framebuffer should be created sooner than any other framebuffers! mainFramebuffer := C.GLint(0) C.glGetIntegerv(C.GL_FRAMEBUFFER_BINDING, &mainFramebuffer) context.mainFramebuffer = C.GLuint(mainFramebuffer) initializeShaders() return context } func (context *GraphicsContext) Clear() { C.glClearColor(0, 0, 0, 1) C.glClear(C.GL_COLOR_BUFFER_BIT) } func (context *GraphicsContext) Fill(clr color.Color) { r, g, b, a := clr.RGBA() max := 65535.0 C.glClearColor( C.GLclampf(float64(r)/max), C.GLclampf(float64(g)/max), C.GLclampf(float64(b)/max), C.GLclampf(float64(a)/max)) C.glClear(C.GL_COLOR_BUFFER_BIT) } func (context *GraphicsContext) DrawRect(x, y, width, height int, clr color.Color) { // TODO: implement! } func (context *GraphicsContext) DrawTexture( textureID graphics.TextureID, srcX, srcY, srcWidth, srcHeight int, geometryMatrix matrix.Geometry, colorMatrix matrix.Color) { texture := context.textures[textureID] context.setShaderProgram(geometryMatrix, colorMatrix) C.glBindTexture(C.GL_TEXTURE_2D, texture.id) x1 := float32(0) x2 := float32(srcWidth) y1 := float32(0) y2 := float32(srcHeight) vertex := [...]float32{ x1, y1, x2, y1, x1, y2, x2, y2, } tu1 := float32(srcX) / float32(texture.textureWidth) tu2 := float32(srcX+srcWidth) / float32(texture.textureWidth) tv1 := float32(srcY) / float32(texture.textureHeight) tv2 := float32(srcY+srcHeight) / float32(texture.textureHeight) texCoord := [...]float32{ tu1, tv1, tu2, tv1, tu1, tv2, tu2, tv2, } vertexAttrLocation := getAttributeLocation(context.currentShaderProgram, "vertex") textureAttrLocation := getAttributeLocation(context.currentShaderProgram, "texture") C.glEnableClientState(C.GL_VERTEX_ARRAY) C.glEnableClientState(C.GL_TEXTURE_COORD_ARRAY) C.glEnableVertexAttribArray(C.GLuint(vertexAttrLocation)) C.glEnableVertexAttribArray(C.GLuint(textureAttrLocation)) C.glVertexAttribPointer(C.GLuint(vertexAttrLocation), 2, C.GL_FLOAT, C.GL_FALSE, 0, unsafe.Pointer(&vertex[0])) C.glVertexAttribPointer(C.GLuint(textureAttrLocation), 2, C.GL_FLOAT, C.GL_FALSE, 0, unsafe.Pointer(&texCoord[0])) C.glDrawArrays(C.GL_TRIANGLE_STRIP, 0, 4) C.glDisableVertexAttribArray(C.GLuint(textureAttrLocation)) C.glDisableVertexAttribArray(C.GLuint(vertexAttrLocation)) C.glDisableClientState(C.GL_TEXTURE_COORD_ARRAY) C.glDisableClientState(C.GL_VERTEX_ARRAY) } func abs(x int) int { if x < 0 { return -x } return x } func (context *GraphicsContext) SetOffscreen(textureID graphics.TextureID) { texture := context.textures[textureID] framebuffer := context.getFramebuffer(texture.id) if framebuffer == context.mainFramebuffer { panic("invalid framebuffer") } context.setOffscreenFramebuffer(framebuffer, texture.textureWidth, texture.textureHeight) } func (context *GraphicsContext) setOffscreenFramebuffer(framebuffer C.GLuint, textureWidth, textureHeight int) { C.glFlush() C.glBindFramebuffer(C.GL_FRAMEBUFFER, framebuffer) if err := C.glCheckFramebufferStatus(C.GL_FRAMEBUFFER); err != C.GL_FRAMEBUFFER_COMPLETE { panic(fmt.Sprintf("glBindFramebuffer failed: %d", err)) } C.glEnable(C.GL_BLEND) C.glBlendFunc(C.GL_SRC_ALPHA, C.GL_ONE_MINUS_SRC_ALPHA) width, height, tx, ty := 0, 0, 0, 0 if framebuffer != context.mainFramebuffer { width = textureWidth height = textureHeight tx = -1 ty = -1 } else { width = context.screenWidth * context.screenScale height = -1 * context.screenHeight * context.screenScale tx = -1 ty = 1 } C.glViewport(0, 0, C.GLsizei(abs(width)), C.GLsizei(abs(height))) e11 := float32(2.0) / float32(width) e22 := float32(2.0) / float32(height) e41 := float32(tx) e42 := float32(ty) context.projectionMatrix = [...]float32{ e11, 0, 0, 0, 0, e22, 0, 0, 0, 0, 1, 0, e41, e42, 0, 1, } } func (context *GraphicsContext) resetOffscreen() { context.setOffscreenFramebuffer(context.mainFramebuffer, 0, 0) } // This method should be called on the UI thread. func (context *GraphicsContext) flush() { C.glFlush() } // This method should be called on the UI thread. func (context *GraphicsContext) setShaderProgram( geometryMatrix matrix.Geometry, colorMatrix matrix.Color) { program := C.GLuint(0) if colorMatrix.IsIdentity() { program = regularShaderProgram } else { program = colorMatrixShaderProgram } // TODO: cache and skip? C.glUseProgram(program) context.currentShaderProgram = program C.glUniformMatrix4fv(getUniformLocation(program, "projection_matrix"), 1, C.GL_FALSE, (*C.GLfloat)(&context.projectionMatrix[0])) a := float32(geometryMatrix.Elements[0][0]) b := float32(geometryMatrix.Elements[0][1]) c := float32(geometryMatrix.Elements[1][0]) d := float32(geometryMatrix.Elements[1][1]) tx := float32(geometryMatrix.Elements[0][2]) ty := float32(geometryMatrix.Elements[1][2]) glModelviewMatrix := [...]float32{ a, c, 0, 0, b, d, 0, 0, 0, 0, 1, 0, tx, ty, 0, 1, } C.glUniformMatrix4fv(getUniformLocation(program, "modelview_matrix"), 1, C.GL_FALSE, (*C.GLfloat)(&glModelviewMatrix[0])) C.glUniform1i(getUniformLocation(program, "texture"), 0) if program != colorMatrixShaderProgram { return } e := [4][5]float32{} for i := 0; i < 4; i++ { for j := 0; j < 5; j++ { e[i][j] = float32(colorMatrix.Elements[i][j]) } } glColorMatrix := [...]float32{ e[0][0], e[0][1], e[0][2], e[0][3], e[1][0], e[1][1], e[1][2], e[1][3], e[2][0], e[2][1], e[2][2], e[2][3], e[3][0], e[3][1], e[3][2], e[3][3], } C.glUniformMatrix4fv(getUniformLocation(program, "color_matrix"), 1, C.GL_FALSE, (*C.GLfloat)(&glColorMatrix[0])) glColorMatrixTranslation := [...]float32{ e[0][4], e[1][4], e[2][4], e[3][4], } C.glUniform4fv(getUniformLocation(program, "color_matrix_translation"), 1, (*C.GLfloat)(&glColorMatrixTranslation[0])) } func (context *GraphicsContext) getFramebuffer(textureID C.GLuint) C.GLuint { framebuffer, ok := context.framebuffers[textureID] if ok { return framebuffer } newFramebuffer := C.GLuint(0) C.glGenFramebuffers(1, &newFramebuffer) origFramebuffer := C.GLint(0) C.glGetIntegerv(C.GL_FRAMEBUFFER_BINDING, &origFramebuffer) C.glBindFramebuffer(C.GL_FRAMEBUFFER, newFramebuffer) C.glFramebufferTexture2D(C.GL_FRAMEBUFFER, C.GL_COLOR_ATTACHMENT0, C.GL_TEXTURE_2D, textureID, 0) C.glBindFramebuffer(C.GL_FRAMEBUFFER, C.GLuint(origFramebuffer)) if C.glCheckFramebufferStatus(C.GL_FRAMEBUFFER) != C.GL_FRAMEBUFFER_COMPLETE { panic("creating framebuffer failed") } context.framebuffers[textureID] = newFramebuffer return newFramebuffer } func (context *GraphicsContext) deleteFramebuffer(textureID C.GLuint) { framebuffer, ok := context.framebuffers[textureID] if !ok { // TODO: panic? return } C.glDeleteFramebuffers(1, &framebuffer) delete(context.framebuffers, textureID) } func (context *GraphicsContext) NewTexture(width, height int) graphics.Texture { texture := newTexture(width, height) id := graphics.TextureID(texture.id) context.textures[id] = texture return graphics.Texture{ ID: id, Width: texture.width, Height: texture.height, } } func (context *GraphicsContext) NewTextureFromImage(img image.Image) graphics.Texture { texture := newTextureFromImage(img) id := graphics.TextureID(texture.id) context.textures[id] = texture return graphics.Texture{ ID: id, Width: texture.width, Height: texture.height, } }