// Copyright 2014 Hajime Hoshi // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package graphics import ( "fmt" "github.com/hajimehoshi/ebiten/internal/affine" "github.com/hajimehoshi/ebiten/internal/opengl" ) type arrayBufferLayoutPart struct { // TODO: This struct should belong to a program and know it. name string dataType opengl.DataType num int normalize bool } type arrayBufferLayout struct { parts []arrayBufferLayoutPart total int } func (a *arrayBufferLayout) totalBytes() int { if a.total != 0 { return a.total } t := 0 for _, p := range a.parts { t += p.dataType.SizeInBytes() * p.num } a.total = t return a.total } func (a *arrayBufferLayout) newArrayBuffer(c *opengl.Context) opengl.Buffer { return c.NewBuffer(opengl.ArrayBuffer, a.totalBytes()*4*maxQuads, opengl.DynamicDraw) } func (a *arrayBufferLayout) enable(c *opengl.Context, program opengl.Program) { for _, p := range a.parts { c.EnableVertexAttribArray(program, p.name) } total := a.totalBytes() offset := 0 for _, p := range a.parts { c.VertexAttribPointer(program, p.name, p.num, p.dataType, p.normalize, total, offset) offset += p.dataType.SizeInBytes() * p.num } } func (a *arrayBufferLayout) disable(c *opengl.Context, program opengl.Program) { // TODO: Disabling should be done in reversed order? for _, p := range a.parts { c.DisableVertexAttribArray(program, p.name) } } var ( theArrayBufferLayout = arrayBufferLayout{ // Note that GL_MAX_VERTEX_ATTRIBS is at least 16. parts: []arrayBufferLayoutPart{ { name: "vertex", dataType: opengl.Float, num: 2, normalize: false, }, { name: "tex_coord", dataType: opengl.Float, num: 2, normalize: false, }, { name: "geo_matrix_body", dataType: opengl.Float, num: 4, normalize: false, }, { name: "geo_matrix_translation", dataType: opengl.Float, num: 2, normalize: false, }, }, } ) type openGLState struct { arrayBuffer opengl.Buffer indexBufferQuads opengl.Buffer programTexture opengl.Program lastProgram opengl.Program lastProjectionMatrix []float32 lastColorMatrix []float32 lastColorMatrixTranslation []float32 } var ( theOpenGLState openGLState zeroBuffer opengl.Buffer zeroProgram opengl.Program zeroTexture opengl.Texture ) const ( indicesNum = 1 << 16 maxQuads = indicesNum / 6 ) func Reset(context *opengl.Context) error { return theOpenGLState.reset(context) } func (s *openGLState) reset(context *opengl.Context) error { if err := context.Reset(); err != nil { return err } s.lastProgram = zeroProgram s.lastProjectionMatrix = nil s.lastColorMatrix = nil s.lastColorMatrixTranslation = nil if s.arrayBuffer != zeroBuffer { context.DeleteBuffer(s.arrayBuffer) } if s.indexBufferQuads != zeroBuffer { context.DeleteBuffer(s.indexBufferQuads) } if s.programTexture != zeroProgram { context.DeleteProgram(s.programTexture) } shaderVertexModelviewNative, err := context.NewShader(opengl.VertexShader, shader(context, shaderVertexModelview)) if err != nil { panic(fmt.Sprintf("graphics: shader compiling error:\n%s", err)) } defer context.DeleteShader(shaderVertexModelviewNative) shaderFragmentTextureNative, err := context.NewShader(opengl.FragmentShader, shader(context, shaderFragmentTexture)) if err != nil { panic(fmt.Sprintf("graphics: shader compiling error:\n%s", err)) } defer context.DeleteShader(shaderFragmentTextureNative) s.programTexture, err = context.NewProgram([]opengl.Shader{ shaderVertexModelviewNative, shaderFragmentTextureNative, }) if err != nil { return err } s.arrayBuffer = theArrayBufferLayout.newArrayBuffer(context) indices := make([]uint16, 6*maxQuads) for i := uint16(0); i < maxQuads; i++ { indices[6*i+0] = 4*i + 0 indices[6*i+1] = 4*i + 1 indices[6*i+2] = 4*i + 2 indices[6*i+3] = 4*i + 1 indices[6*i+4] = 4*i + 2 indices[6*i+5] = 4*i + 3 } s.indexBufferQuads = context.NewBuffer(opengl.ElementArrayBuffer, indices, opengl.StaticDraw) return nil } func areSameFloat32Array(a, b []float32) bool { if len(a) != len(b) { return false } for i := 0; i < len(a); i++ { if a[i] != b[i] { return false } } return true } type programContext struct { state *openGLState program opengl.Program context *opengl.Context projectionMatrix []float32 texture opengl.Texture colorM affine.ColorM } func (p *programContext) begin() error { c := p.context if p.state.lastProgram != p.program { c.UseProgram(p.program) if p.state.lastProgram != zeroProgram { theArrayBufferLayout.disable(c, p.state.lastProgram) } theArrayBufferLayout.enable(c, p.program) p.state.lastProgram = p.state.programTexture p.state.lastProjectionMatrix = nil p.state.lastColorMatrix = nil p.state.lastColorMatrixTranslation = nil c.BindElementArrayBuffer(p.state.indexBufferQuads) c.UniformInt(p.program, "texture", 0) } if !areSameFloat32Array(p.state.lastProjectionMatrix, p.projectionMatrix) { c.UniformFloats(p.program, "projection_matrix", p.projectionMatrix) if p.state.lastProjectionMatrix == nil { p.state.lastProjectionMatrix = make([]float32, 16) } copy(p.state.lastProjectionMatrix, p.projectionMatrix) } e := [4][5]float32{} for i := 0; i < 4; i++ { for j := 0; j < 5; j++ { e[i][j] = float32(p.colorM.Element(i, j)) } } colorMatrix := []float32{ e[0][0], e[1][0], e[2][0], e[3][0], e[0][1], e[1][1], e[2][1], e[3][1], e[0][2], e[1][2], e[2][2], e[3][2], e[0][3], e[1][3], e[2][3], e[3][3], } if !areSameFloat32Array(p.state.lastColorMatrix, colorMatrix) { c.UniformFloats(p.program, "color_matrix", colorMatrix) if p.state.lastColorMatrix == nil { p.state.lastColorMatrix = make([]float32, 16) } copy(p.state.lastColorMatrix, colorMatrix) } colorMatrixTranslation := []float32{ e[0][4], e[1][4], e[2][4], e[3][4], } if !areSameFloat32Array(p.state.lastColorMatrixTranslation, colorMatrixTranslation) { c.UniformFloats(p.program, "color_matrix_translation", colorMatrixTranslation) if p.state.lastColorMatrixTranslation == nil { p.state.lastColorMatrixTranslation = make([]float32, 4) } copy(p.state.lastColorMatrixTranslation, colorMatrixTranslation) } // We don't have to call gl.ActiveTexture here: GL_TEXTURE0 is the default active texture // See also: https://www.opengl.org/sdk/docs/man2/xhtml/glActiveTexture.xml if err := c.BindTexture(p.texture); err != nil { return err } return nil } func (p *programContext) end() { }