// Copyright 2022 The Ebitengine Authors // // 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 gl import ( "fmt" "syscall/js" ) type defaultContext struct { fnActiveTexture js.Value fnAttachShader js.Value fnBindAttribLocation js.Value fnBindBuffer js.Value fnBindFramebuffer js.Value fnBindRenderbuffer js.Value fnBindTexture js.Value fnBindVertexArray js.Value fnBlendEquationSeparate js.Value fnBlendFuncSeparate js.Value fnBufferData js.Value fnBufferSubData js.Value fnCheckFramebufferStatus js.Value fnClear js.Value fnColorMask js.Value fnCompileShader js.Value fnCreateBuffer js.Value fnCreateFramebuffer js.Value fnCreateProgram js.Value fnCreateRenderbuffer js.Value fnCreateShader js.Value fnCreateTexture js.Value fnCreateVertexArray js.Value fnDeleteBuffer js.Value fnDeleteFramebuffer js.Value fnDeleteProgram js.Value fnDeleteRenderbuffer js.Value fnDeleteShader js.Value fnDeleteTexture js.Value fnDeleteVertexArray js.Value fnDisable js.Value fnDisableVertexAttribArray js.Value fnDrawElements js.Value fnEnable js.Value fnEnableVertexAttribArray js.Value fnFramebufferRenderbuffer js.Value fnFramebufferTexture2D js.Value fnFlush js.Value fnGetError js.Value fnGetParameter js.Value fnGetProgramInfoLog js.Value fnGetProgramParameter js.Value fnGetShaderInfoLog js.Value fnGetShaderParameter js.Value fnGetUniformLocation js.Value fnIsProgram js.Value fnLinkProgram js.Value fnPixelStorei js.Value fnReadPixels js.Value fnRenderbufferStorage js.Value fnScissor js.Value fnShaderSource js.Value fnStencilFunc js.Value fnStencilMask js.Value fnStencilOpSeparate js.Value fnTexImage2D js.Value fnTexSubImage2D js.Value fnTexParameteri js.Value fnUniform1fv js.Value fnUniform1i js.Value fnUniform1iv js.Value fnUniform2fv js.Value fnUniform2iv js.Value fnUniform3fv js.Value fnUniform3iv js.Value fnUniform4fv js.Value fnUniform4iv js.Value fnUniformMatrix2fv js.Value fnUniformMatrix3fv js.Value fnUniformMatrix4fv js.Value fnUseProgram js.Value fnVertexAttribPointer js.Value fnViewport js.Value buffers values framebuffers values programs values renderbuffers values shaders values textures values vertexArrays values uniformLocations map[uint32]*values } type values struct { idToValue map[uint32]js.Value lastID uint32 } func (v *values) create(value js.Value) uint32 { v.lastID++ id := v.lastID if v.idToValue == nil { v.idToValue = map[uint32]js.Value{} } v.idToValue[id] = value return id } func (v *values) get(id uint32) js.Value { return v.idToValue[id] } func (v *values) getID(value js.Value) (uint32, bool) { for id, v := range v.idToValue { if v.Equal(value) { return id, true } } return 0, false } func (v *values) getOrCreate(value js.Value) uint32 { id, ok := v.getID(value) if ok { return id } return v.create(value) } func (v *values) delete(id uint32) { delete(v.idToValue, id) } func NewDefaultContext(v js.Value) (Context, error) { // Passing a Go string to the JS world is expensive. This causes conversion to UTF-16 (#1438). // In order to reduce the cost when calling functions, create the function objects by bind and use them. g := &defaultContext{ fnActiveTexture: v.Get("activeTexture").Call("bind", v), fnAttachShader: v.Get("attachShader").Call("bind", v), fnBindAttribLocation: v.Get("bindAttribLocation").Call("bind", v), fnBindBuffer: v.Get("bindBuffer").Call("bind", v), fnBindFramebuffer: v.Get("bindFramebuffer").Call("bind", v), fnBindRenderbuffer: v.Get("bindRenderbuffer").Call("bind", v), fnBindTexture: v.Get("bindTexture").Call("bind", v), fnBindVertexArray: v.Get("bindVertexArray").Call("bind", v), fnBlendEquationSeparate: v.Get("blendEquationSeparate").Call("bind", v), fnBlendFuncSeparate: v.Get("blendFuncSeparate").Call("bind", v), fnBufferData: v.Get("bufferData").Call("bind", v), fnBufferSubData: v.Get("bufferSubData").Call("bind", v), fnCheckFramebufferStatus: v.Get("checkFramebufferStatus").Call("bind", v), fnClear: v.Get("clear").Call("bind", v), fnColorMask: v.Get("colorMask").Call("bind", v), fnCompileShader: v.Get("compileShader").Call("bind", v), fnCreateBuffer: v.Get("createBuffer").Call("bind", v), fnCreateFramebuffer: v.Get("createFramebuffer").Call("bind", v), fnCreateProgram: v.Get("createProgram").Call("bind", v), fnCreateRenderbuffer: v.Get("createRenderbuffer").Call("bind", v), fnCreateShader: v.Get("createShader").Call("bind", v), fnCreateTexture: v.Get("createTexture").Call("bind", v), fnCreateVertexArray: v.Get("createVertexArray").Call("bind", v), fnDeleteBuffer: v.Get("deleteBuffer").Call("bind", v), fnDeleteFramebuffer: v.Get("deleteFramebuffer").Call("bind", v), fnDeleteProgram: v.Get("deleteProgram").Call("bind", v), fnDeleteRenderbuffer: v.Get("deleteRenderbuffer").Call("bind", v), fnDeleteShader: v.Get("deleteShader").Call("bind", v), fnDeleteTexture: v.Get("deleteTexture").Call("bind", v), fnDeleteVertexArray: v.Get("deleteVertexArray").Call("bind", v), fnDisable: v.Get("disable").Call("bind", v), fnDisableVertexAttribArray: v.Get("disableVertexAttribArray").Call("bind", v), fnDrawElements: v.Get("drawElements").Call("bind", v), fnEnable: v.Get("enable").Call("bind", v), fnEnableVertexAttribArray: v.Get("enableVertexAttribArray").Call("bind", v), fnFramebufferRenderbuffer: v.Get("framebufferRenderbuffer").Call("bind", v), fnFramebufferTexture2D: v.Get("framebufferTexture2D").Call("bind", v), fnFlush: v.Get("flush").Call("bind", v), fnGetError: v.Get("getError").Call("bind", v), fnGetParameter: v.Get("getParameter").Call("bind", v), fnGetProgramInfoLog: v.Get("getProgramInfoLog").Call("bind", v), fnGetProgramParameter: v.Get("getProgramParameter").Call("bind", v), fnGetShaderInfoLog: v.Get("getShaderInfoLog").Call("bind", v), fnGetShaderParameter: v.Get("getShaderParameter").Call("bind", v), fnGetUniformLocation: v.Get("getUniformLocation").Call("bind", v), fnIsProgram: v.Get("isProgram").Call("bind", v), fnLinkProgram: v.Get("linkProgram").Call("bind", v), fnPixelStorei: v.Get("pixelStorei").Call("bind", v), fnReadPixels: v.Get("readPixels").Call("bind", v), fnRenderbufferStorage: v.Get("renderbufferStorage").Call("bind", v), fnScissor: v.Get("scissor").Call("bind", v), fnShaderSource: v.Get("shaderSource").Call("bind", v), fnStencilFunc: v.Get("stencilFunc").Call("bind", v), fnStencilMask: v.Get("stencilMask").Call("bind", v), fnStencilOpSeparate: v.Get("stencilOpSeparate").Call("bind", v), fnTexImage2D: v.Get("texImage2D").Call("bind", v), fnTexSubImage2D: v.Get("texSubImage2D").Call("bind", v), fnTexParameteri: v.Get("texParameteri").Call("bind", v), fnUniform1fv: v.Get("uniform1fv").Call("bind", v), fnUniform1i: v.Get("uniform1i").Call("bind", v), fnUniform1iv: v.Get("uniform1iv").Call("bind", v), fnUniform2fv: v.Get("uniform2fv").Call("bind", v), fnUniform2iv: v.Get("uniform2iv").Call("bind", v), fnUniform3fv: v.Get("uniform3fv").Call("bind", v), fnUniform3iv: v.Get("uniform3iv").Call("bind", v), fnUniform4fv: v.Get("uniform4fv").Call("bind", v), fnUniform4iv: v.Get("uniform4iv").Call("bind", v), fnUniformMatrix2fv: v.Get("uniformMatrix2fv").Call("bind", v), fnUniformMatrix3fv: v.Get("uniformMatrix3fv").Call("bind", v), fnUniformMatrix4fv: v.Get("uniformMatrix4fv").Call("bind", v), fnUseProgram: v.Get("useProgram").Call("bind", v), fnVertexAttribPointer: v.Get("vertexAttribPointer").Call("bind", v), fnViewport: v.Get("viewport").Call("bind", v), } return g, nil } func (c *defaultContext) getUniformLocation(location int32) js.Value { program := uint32(location) >> 5 return c.uniformLocations[program].get(uint32(location) & ((1 << 5) - 1)) } func (c *defaultContext) LoadFunctions() error { return nil } func (c *defaultContext) IsES() bool { // WebGL is compatible with GLES. return true } func (c *defaultContext) ActiveTexture(texture uint32) { c.fnActiveTexture.Invoke(texture) } func (c *defaultContext) AttachShader(program uint32, shader uint32) { c.fnAttachShader.Invoke(c.programs.get(program), c.shaders.get(shader)) } func (c *defaultContext) BindAttribLocation(program uint32, index uint32, name string) { c.fnBindAttribLocation.Invoke(c.programs.get(program), index, name) } func (c *defaultContext) BindBuffer(target uint32, buffer uint32) { c.fnBindBuffer.Invoke(target, c.buffers.get(buffer)) } func (c *defaultContext) BindFramebuffer(target uint32, framebuffer uint32) { c.fnBindFramebuffer.Invoke(target, c.framebuffers.get(framebuffer)) } func (c *defaultContext) BindRenderbuffer(target uint32, renderbuffer uint32) { c.fnBindRenderbuffer.Invoke(target, c.renderbuffers.get(renderbuffer)) } func (c *defaultContext) BindTexture(target uint32, texture uint32) { c.fnBindTexture.Invoke(target, c.textures.get(texture)) } func (c *defaultContext) BindVertexArray(array uint32) { c.fnBindVertexArray.Invoke(c.vertexArrays.get(array)) } func (c *defaultContext) BlendEquationSeparate(modeRGB uint32, modeAlpha uint32) { c.fnBlendEquationSeparate.Invoke(modeRGB, modeAlpha) } func (c *defaultContext) BlendFuncSeparate(srcRGB uint32, dstRGB uint32, srcAlpha uint32, dstAlpha uint32) { c.fnBlendFuncSeparate.Invoke(srcRGB, dstRGB, srcAlpha, dstAlpha) } func (c *defaultContext) BufferInit(target uint32, size int, usage uint32) { c.fnBufferData.Invoke(target, size, usage) } func (c *defaultContext) BufferSubData(target uint32, offset int, data []byte) { l := len(data) arr := tmpUint8ArrayFromUint8Slice(l, data) c.fnBufferSubData.Invoke(target, offset, arr, 0, l) } func (c *defaultContext) CheckFramebufferStatus(target uint32) uint32 { return uint32(c.fnCheckFramebufferStatus.Invoke(target).Int()) } func (c *defaultContext) Clear(mask uint32) { c.fnClear.Invoke(mask) } func (c *defaultContext) ColorMask(red, green, blue, alpha bool) { c.fnColorMask.Invoke(red, green, blue, alpha) } func (c *defaultContext) CompileShader(shader uint32) { c.fnCompileShader.Invoke(c.shaders.get(shader)) } func (c *defaultContext) CreateBuffer() uint32 { return c.buffers.create(c.fnCreateBuffer.Invoke()) } func (c *defaultContext) CreateFramebuffer() uint32 { return c.framebuffers.create(c.fnCreateFramebuffer.Invoke()) } func (c *defaultContext) CreateProgram() uint32 { return c.programs.create(c.fnCreateProgram.Invoke()) } func (c *defaultContext) CreateRenderbuffer() uint32 { return c.renderbuffers.create(c.fnCreateRenderbuffer.Invoke()) } func (c *defaultContext) CreateShader(xtype uint32) uint32 { return c.shaders.create(c.fnCreateShader.Invoke(xtype)) } func (c *defaultContext) CreateTexture() uint32 { return c.textures.create(c.fnCreateTexture.Invoke()) } func (c *defaultContext) CreateVertexArray() uint32 { return c.vertexArrays.create(c.fnCreateVertexArray.Invoke()) } func (c *defaultContext) DeleteBuffer(buffer uint32) { c.fnDeleteBuffer.Invoke(c.buffers.get(buffer)) c.buffers.delete(buffer) } func (c *defaultContext) DeleteFramebuffer(framebuffer uint32) { c.fnDeleteFramebuffer.Invoke(c.framebuffers.get(framebuffer)) c.framebuffers.delete(framebuffer) } func (c *defaultContext) DeleteProgram(program uint32) { c.fnDeleteProgram.Invoke(c.programs.get(program)) c.programs.delete(program) delete(c.uniformLocations, program) } func (c *defaultContext) DeleteRenderbuffer(renderbuffer uint32) { c.fnDeleteRenderbuffer.Invoke(c.renderbuffers.get(renderbuffer)) c.renderbuffers.delete(renderbuffer) } func (c *defaultContext) DeleteShader(shader uint32) { c.fnDeleteShader.Invoke(c.shaders.get(shader)) c.shaders.delete(shader) } func (c *defaultContext) DeleteTexture(texture uint32) { c.fnDeleteTexture.Invoke(c.textures.get(texture)) c.textures.delete(texture) } func (c *defaultContext) DeleteVertexArray(array uint32) { c.fnDeleteVertexArray.Invoke(c.vertexArrays.get(array)) c.vertexArrays.delete(array) } func (c *defaultContext) Disable(cap uint32) { c.fnDisable.Invoke(cap) } func (c *defaultContext) DisableVertexAttribArray(index uint32) { c.fnDisableVertexAttribArray.Invoke(index) } func (c *defaultContext) DrawElements(mode uint32, count int32, xtype uint32, offset int) { c.fnDrawElements.Invoke(mode, count, xtype, offset) } func (c *defaultContext) Enable(cap uint32) { c.fnEnable.Invoke(cap) } func (c *defaultContext) EnableVertexAttribArray(index uint32) { c.fnEnableVertexAttribArray.Invoke(index) } func (c *defaultContext) Flush() { c.fnFlush.Invoke() } func (c *defaultContext) FramebufferRenderbuffer(target uint32, attachment uint32, renderbuffertarget uint32, renderbuffer uint32) { c.fnFramebufferRenderbuffer.Invoke(target, attachment, renderbuffertarget, c.renderbuffers.get(renderbuffer)) } func (c *defaultContext) FramebufferTexture2D(target uint32, attachment uint32, textarget uint32, texture uint32, level int32) { c.fnFramebufferTexture2D.Invoke(target, attachment, textarget, c.textures.get(texture), level) } func (c *defaultContext) GetError() uint32 { return uint32(c.fnGetError.Invoke().Int()) } func (c *defaultContext) GetInteger(pname uint32) int { ret := c.fnGetParameter.Invoke(pname) switch pname { case FRAMEBUFFER_BINDING: id, ok := c.framebuffers.getID(ret) if !ok { return 0 } return int(id) case MAX_TEXTURE_SIZE: return ret.Int() default: panic(fmt.Sprintf("gl: unexpected pname at GetInteger: %d", pname)) } } func (c *defaultContext) GetProgramInfoLog(program uint32) string { return c.fnGetProgramInfoLog.Invoke(c.programs.get(program)).String() } func (c *defaultContext) GetProgrami(program uint32, pname uint32) int { v := c.fnGetProgramParameter.Invoke(c.programs.get(program), pname) switch v.Type() { case js.TypeNumber: return v.Int() case js.TypeBoolean: if v.Bool() { return TRUE } return FALSE default: panic(fmt.Sprintf("gl: unexpected return type at GetProgrami: %v", v)) } } func (c *defaultContext) GetShaderInfoLog(shader uint32) string { return c.fnGetShaderInfoLog.Invoke(c.shaders.get(shader)).String() } func (c *defaultContext) GetShaderi(shader uint32, pname uint32) int { v := c.fnGetShaderParameter.Invoke(c.shaders.get(shader), pname) switch v.Type() { case js.TypeNumber: return v.Int() case js.TypeBoolean: if v.Bool() { return TRUE } return FALSE default: panic(fmt.Sprintf("gl: unexpected return type at GetShaderi: %v", v)) } } func (c *defaultContext) GetUniformLocation(program uint32, name string) int32 { location := c.fnGetUniformLocation.Invoke(c.programs.get(program), name) if c.uniformLocations == nil { c.uniformLocations = map[uint32]*values{} } vs, ok := c.uniformLocations[program] if !ok { vs = &values{} c.uniformLocations[program] = vs } idx := vs.getOrCreate(location) return int32((program << 5) | idx) } func (c *defaultContext) IsProgram(program uint32) bool { return c.fnIsProgram.Invoke(c.programs.get(program)).Bool() } func (c *defaultContext) LinkProgram(program uint32) { c.fnLinkProgram.Invoke(c.programs.get(program)) } func (c *defaultContext) PixelStorei(pname uint32, param int32) { c.fnPixelStorei.Invoke(pname, param) } func (c *defaultContext) ReadPixels(dst []byte, x int32, y int32, width int32, height int32, format uint32, xtype uint32) { if dst == nil { c.fnReadPixels.Invoke(x, y, width, height, format, xtype, 0) return } p := tmpUint8ArrayFromUint8Slice(len(dst), nil) c.fnReadPixels.Invoke(x, y, width, height, format, xtype, p) js.CopyBytesToGo(dst, p) } func (c *defaultContext) RenderbufferStorage(target uint32, internalFormat uint32, width int32, height int32) { c.fnRenderbufferStorage.Invoke(target, internalFormat, width, height) } func (c *defaultContext) Scissor(x, y, width, height int32) { c.fnScissor.Invoke(x, y, width, height) } func (c *defaultContext) ShaderSource(shader uint32, xstring string) { c.fnShaderSource.Invoke(c.shaders.get(shader), xstring) } func (c *defaultContext) StencilFunc(func_ uint32, ref int32, mask uint32) { c.fnStencilFunc.Invoke(func_, ref, mask) } func (c *defaultContext) StencilOpSeparate(face, sfail, dpfail, dppass uint32) { c.fnStencilOpSeparate.Invoke(face, sfail, dpfail, dppass) } func (c *defaultContext) TexImage2D(target uint32, level int32, internalformat int32, width int32, height int32, format uint32, xtype uint32, pixels []byte) { if pixels != nil { panic("gl: TexImage2D with non-nil pixels is not implemented") } c.fnTexImage2D.Invoke(target, level, internalformat, width, height, 0, format, xtype, nil) } func (c *defaultContext) TexParameteri(target uint32, pname uint32, param int32) { c.fnTexParameteri.Invoke(target, pname, param) } func (c *defaultContext) TexSubImage2D(target uint32, level int32, xoffset int32, yoffset int32, width int32, height int32, format uint32, xtype uint32, pixels []byte) { arr := tmpUint8ArrayFromUint8Slice(len(pixels), pixels) // void texSubImage2D(GLenum target, GLint level, GLint xoffset, GLint yoffset, // GLsizei width, GLsizei height, // GLenum format, GLenum type, ArrayBufferView pixels, srcOffset); c.fnTexSubImage2D.Invoke(target, level, xoffset, yoffset, width, height, format, xtype, arr, 0) } func (c *defaultContext) Uniform1fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniform1fv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform1i(location int32, v0 int32) { l := c.getUniformLocation(location) c.fnUniform1i.Invoke(l, v0) } func (c *defaultContext) Uniform1iv(location int32, value []int32) { l := c.getUniformLocation(location) arr := tmpInt32ArrayFromInt32Slice(len(value), value) c.fnUniform1iv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform2fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniform2fv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform2iv(location int32, value []int32) { l := c.getUniformLocation(location) arr := tmpInt32ArrayFromInt32Slice(len(value), value) c.fnUniform2iv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform3fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniform3fv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform3iv(location int32, value []int32) { l := c.getUniformLocation(location) arr := tmpInt32ArrayFromInt32Slice(len(value), value) c.fnUniform3iv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform4fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniform4fv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) Uniform4iv(location int32, value []int32) { l := c.getUniformLocation(location) arr := tmpInt32ArrayFromInt32Slice(len(value), value) c.fnUniform4iv.Invoke(l, arr, 0, len(value)) } func (c *defaultContext) UniformMatrix2fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniformMatrix2fv.Invoke(l, false, arr, 0, len(value)) } func (c *defaultContext) UniformMatrix3fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniformMatrix3fv.Invoke(l, false, arr, 0, len(value)) } func (c *defaultContext) UniformMatrix4fv(location int32, value []float32) { l := c.getUniformLocation(location) arr := tmpFloat32ArrayFromFloat32Slice(len(value), value) c.fnUniformMatrix4fv.Invoke(l, false, arr, 0, len(value)) } func (c *defaultContext) UseProgram(program uint32) { c.fnUseProgram.Invoke(c.programs.get(program)) } func (c *defaultContext) VertexAttribPointer(index uint32, size int32, xtype uint32, normalized bool, stride int32, offset int) { c.fnVertexAttribPointer.Invoke(index, size, xtype, normalized, stride, offset) } func (c *defaultContext) Viewport(x int32, y int32, width int32, height int32) { c.fnViewport.Invoke(x, y, width, height) }