src/third_party/angle/src/libANGLE/Context_gles_1_0.cpp - cobalt - Git at Google

 //
 // Copyright 2018 The ANGLE Project Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.
 //

 // Context_gles_1_0.cpp: Implements the GLES1-specific parts of Context.

 #include "libANGLE/Context.h"

 #include "common/mathutil.h"
 #include "common/utilities.h"

 #include "libANGLE/GLES1Renderer.h"
 #include "libANGLE/queryconversions.h"
 #include "libANGLE/queryutils.h"

 namespace
 {

 angle::Mat4 FixedMatrixToMat4(const GLfixed *m)
 {
     angle::Mat4 matrixAsFloat;
     GLfloat *floatData = matrixAsFloat.data();

     for (int i = 0; i < 16; i++)
     {
         floatData[i] = gl::ConvertFixedToFloat(m[i]);
     }

     return matrixAsFloat;
 }

 }  // namespace

 namespace gl
 {

 void Context::alphaFunc(AlphaTestFunc func, GLfloat ref)
 {
     mState.gles1().setAlphaFunc(func, ref);
 }

 void Context::alphaFuncx(AlphaTestFunc func, GLfixed ref)
 {
     mState.gles1().setAlphaFunc(func, ConvertFixedToFloat(ref));
 }

 void Context::clearColorx(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha)
 {
     UNIMPLEMENTED();
 }

 void Context::clearDepthx(GLfixed depth)
 {
     UNIMPLEMENTED();
 }

 void Context::clientActiveTexture(GLenum texture)
 {
     mState.gles1().setClientTextureUnit(texture - GL_TEXTURE0);
     mStateCache.onGLES1ClientStateChange(this);
 }

 void Context::clipPlanef(GLenum p, const GLfloat *eqn)
 {
     mState.gles1().setClipPlane(p - GL_CLIP_PLANE0, eqn);
 }

 void Context::clipPlanex(GLenum plane, const GLfixed *equation)
 {
     const GLfloat equationf[4] = {
         ConvertFixedToFloat(equation[0]),
         ConvertFixedToFloat(equation[1]),
         ConvertFixedToFloat(equation[2]),
         ConvertFixedToFloat(equation[3]),
     };

     mState.gles1().setClipPlane(plane - GL_CLIP_PLANE0, equationf);
 }

 void Context::color4f(GLfloat red, GLfloat green, GLfloat blue, GLfloat alpha)
 {
     mState.gles1().setCurrentColor({red, green, blue, alpha});
 }

 void Context::color4ub(GLubyte red, GLubyte green, GLubyte blue, GLubyte alpha)
 {
     mState.gles1().setCurrentColor(
         {normalizedToFloat<uint8_t>(red), normalizedToFloat<uint8_t>(green),
          normalizedToFloat<uint8_t>(blue), normalizedToFloat<uint8_t>(alpha)});
 }

 void Context::color4x(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha)
 {
     mState.gles1().setCurrentColor({ConvertFixedToFloat(red), ConvertFixedToFloat(green),
                                     ConvertFixedToFloat(blue), ConvertFixedToFloat(alpha)});
 }

 void Context::colorPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
 {
     vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Color), size, type, GL_FALSE,
                         stride, ptr);
 }

 void Context::depthRangex(GLfixed n, GLfixed f)
 {
     UNIMPLEMENTED();
 }

 void Context::disableClientState(ClientVertexArrayType clientState)
 {
     mState.gles1().setClientStateEnabled(clientState, false);
     disableVertexAttribArray(vertexArrayIndex(clientState));
     mStateCache.onGLES1ClientStateChange(this);
 }

 void Context::enableClientState(ClientVertexArrayType clientState)
 {
     mState.gles1().setClientStateEnabled(clientState, true);
     enableVertexAttribArray(vertexArrayIndex(clientState));
     mStateCache.onGLES1ClientStateChange(this);
 }

 void Context::fogf(GLenum pname, GLfloat param)
 {
     SetFogParameters(&mState.gles1(), pname, &param);
 }

 void Context::fogfv(GLenum pname, const GLfloat *params)
 {
     SetFogParameters(&mState.gles1(), pname, params);
 }

 void Context::fogx(GLenum pname, GLfixed param)
 {
     if (GetFogParameterCount(pname) == 1)
     {
         GLfloat paramf = pname == GL_FOG_MODE ? ConvertToGLenum(param) : ConvertFixedToFloat(param);
         fogf(pname, paramf);
     }
     else
     {
         UNREACHABLE();
     }
 }

 void Context::fogxv(GLenum pname, const GLfixed *params)
 {
     int paramCount = GetFogParameterCount(pname);

     if (paramCount > 0)
     {
         GLfloat paramsf[4];
         for (int i = 0; i < paramCount; i++)
         {
             paramsf[i] =
                 pname == GL_FOG_MODE ? ConvertToGLenum(params[i]) : ConvertFixedToFloat(params[i]);
         }
         fogfv(pname, paramsf);
     }
     else
     {
         UNREACHABLE();
     }
 }

 void Context::frustumf(GLfloat l, GLfloat r, GLfloat b, GLfloat t, GLfloat n, GLfloat f)
 {
     mState.gles1().multMatrix(angle::Mat4::Frustum(l, r, b, t, n, f));
 }

 void Context::frustumx(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f)
 {
     mState.gles1().multMatrix(angle::Mat4::Frustum(ConvertFixedToFloat(l), ConvertFixedToFloat(r),
                                                    ConvertFixedToFloat(b), ConvertFixedToFloat(t),
                                                    ConvertFixedToFloat(n), ConvertFixedToFloat(f)));
 }

 void Context::getClipPlanef(GLenum plane, GLfloat *equation)
 {
     mState.gles1().getClipPlane(plane - GL_CLIP_PLANE0, equation);
 }

 void Context::getClipPlanex(GLenum plane, GLfixed *equation)
 {
     GLfloat equationf[4] = {};

     mState.gles1().getClipPlane(plane - GL_CLIP_PLANE0, equationf);

     for (int i = 0; i < 4; i++)
     {
         equation[i] = ConvertFloatToFixed(equationf[i]);
     }
 }

 void Context::getFixedv(GLenum pname, GLfixed *params)
 {
     UNIMPLEMENTED();
 }

 void Context::getLightfv(GLenum light, LightParameter pname, GLfloat *params)
 {
     GetLightParameters(&mState.gles1(), light, pname, params);
 }

 void Context::getLightxv(GLenum light, LightParameter pname, GLfixed *params)
 {
     GLfloat paramsf[4];
     getLightfv(light, pname, paramsf);

     for (unsigned int i = 0; i < GetLightParameterCount(pname); i++)
     {
         params[i] = ConvertFloatToFixed(paramsf[i]);
     }
 }

 void Context::getMaterialfv(GLenum face, MaterialParameter pname, GLfloat *params)
 {
     GetMaterialParameters(&mState.gles1(), face, pname, params);
 }

 void Context::getMaterialxv(GLenum face, MaterialParameter pname, GLfixed *params)
 {
     GLfloat paramsf[4];
     getMaterialfv(face, pname, paramsf);

     for (unsigned int i = 0; i < GetMaterialParameterCount(pname); i++)
     {
         params[i] = ConvertFloatToFixed(paramsf[i]);
     }
 }

 void Context::getTexEnvfv(TextureEnvTarget target, TextureEnvParameter pname, GLfloat *params)
 {
     GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, params);
 }

 void Context::getTexEnviv(TextureEnvTarget target, TextureEnvParameter pname, GLint *params)
 {
     GLfloat paramsf[4];
     GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
     ConvertTextureEnvToInt(pname, paramsf, params);
 }

 void Context::getTexEnvxv(TextureEnvTarget target, TextureEnvParameter pname, GLfixed *params)
 {
     GLfloat paramsf[4];
     GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
     ConvertTextureEnvToFixed(pname, paramsf, params);
 }

 void Context::getTexParameterxv(TextureType target, GLenum pname, GLfixed *params)
 {
     UNIMPLEMENTED();
 }

 void Context::lightModelf(GLenum pname, GLfloat param)
 {
     SetLightModelParameters(&mState.gles1(), pname, &param);
 }

 void Context::lightModelfv(GLenum pname, const GLfloat *params)
 {
     SetLightModelParameters(&mState.gles1(), pname, params);
 }

 void Context::lightModelx(GLenum pname, GLfixed param)
 {
     lightModelf(pname, ConvertFixedToFloat(param));
 }

 void Context::lightModelxv(GLenum pname, const GLfixed *param)
 {
     GLfloat paramsf[4];

     for (unsigned int i = 0; i < GetLightModelParameterCount(pname); i++)
     {
         paramsf[i] = ConvertFixedToFloat(param[i]);
     }

     lightModelfv(pname, paramsf);
 }

 void Context::lightf(GLenum light, LightParameter pname, GLfloat param)
 {
     SetLightParameters(&mState.gles1(), light, pname, &param);
 }

 void Context::lightfv(GLenum light, LightParameter pname, const GLfloat *params)
 {
     SetLightParameters(&mState.gles1(), light, pname, params);
 }

 void Context::lightx(GLenum light, LightParameter pname, GLfixed param)
 {
     lightf(light, pname, ConvertFixedToFloat(param));
 }

 void Context::lightxv(GLenum light, LightParameter pname, const GLfixed *params)
 {
     GLfloat paramsf[4];

     for (unsigned int i = 0; i < GetLightParameterCount(pname); i++)
     {
         paramsf[i] = ConvertFixedToFloat(params[i]);
     }

     lightfv(light, pname, paramsf);
 }

 void Context::lineWidthx(GLfixed width)
 {
     UNIMPLEMENTED();
 }

 void Context::loadIdentity()
 {
     mState.gles1().loadMatrix(angle::Mat4());
 }

 void Context::loadMatrixf(const GLfloat *m)
 {
     mState.gles1().loadMatrix(angle::Mat4(m));
 }

 void Context::loadMatrixx(const GLfixed *m)
 {
     mState.gles1().loadMatrix(FixedMatrixToMat4(m));
 }

 void Context::logicOp(LogicalOperation opcodePacked)
 {
     mState.gles1().setLogicOp(opcodePacked);
 }

 void Context::materialf(GLenum face, MaterialParameter pname, GLfloat param)
 {
     SetMaterialParameters(&mState.gles1(), face, pname, &param);
 }

 void Context::materialfv(GLenum face, MaterialParameter pname, const GLfloat *params)
 {
     SetMaterialParameters(&mState.gles1(), face, pname, params);
 }

 void Context::materialx(GLenum face, MaterialParameter pname, GLfixed param)
 {
     materialf(face, pname, ConvertFixedToFloat(param));
 }

 void Context::materialxv(GLenum face, MaterialParameter pname, const GLfixed *param)
 {
     GLfloat paramsf[4];

     for (unsigned int i = 0; i < GetMaterialParameterCount(pname); i++)
     {
         paramsf[i] = ConvertFixedToFloat(param[i]);
     }

     materialfv(face, pname, paramsf);
 }

 void Context::matrixMode(MatrixType mode)
 {
     mState.gles1().setMatrixMode(mode);
 }

 void Context::multMatrixf(const GLfloat *m)
 {
     mState.gles1().multMatrix(angle::Mat4(m));
 }

 void Context::multMatrixx(const GLfixed *m)
 {
     mState.gles1().multMatrix(FixedMatrixToMat4(m));
 }

 void Context::multiTexCoord4f(GLenum target, GLfloat s, GLfloat t, GLfloat r, GLfloat q)
 {
     unsigned int unit = target - GL_TEXTURE0;
     ASSERT(target >= GL_TEXTURE0 && unit < getCaps().maxMultitextureUnits);
     mState.gles1().setCurrentTextureCoords(unit, {s, t, r, q});
 }

 void Context::multiTexCoord4x(GLenum target, GLfixed s, GLfixed t, GLfixed r, GLfixed q)
 {
     unsigned int unit = target - GL_TEXTURE0;
     ASSERT(target >= GL_TEXTURE0 && unit < getCaps().maxMultitextureUnits);
     mState.gles1().setCurrentTextureCoords(unit, {ConvertFixedToFloat(s), ConvertFixedToFloat(t),
                                                   ConvertFixedToFloat(r), ConvertFixedToFloat(q)});
 }

 void Context::normal3f(GLfloat nx, GLfloat ny, GLfloat nz)
 {
     mState.gles1().setCurrentNormal({nx, ny, nz});
 }

 void Context::normal3x(GLfixed nx, GLfixed ny, GLfixed nz)
 {
     mState.gles1().setCurrentNormal(
         {ConvertFixedToFloat(nx), ConvertFixedToFloat(ny), ConvertFixedToFloat(nz)});
 }

 void Context::normalPointer(VertexAttribType type, GLsizei stride, const void *ptr)
 {
     vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Normal), 3, type, GL_FALSE, stride,
                         ptr);
 }

 void Context::orthof(GLfloat left,
                      GLfloat right,
                      GLfloat bottom,
                      GLfloat top,
                      GLfloat zNear,
                      GLfloat zFar)
 {
     mState.gles1().multMatrix(angle::Mat4::Ortho(left, right, bottom, top, zNear, zFar));
 }

 void Context::orthox(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f)
 {
     mState.gles1().multMatrix(angle::Mat4::Ortho(ConvertFixedToFloat(l), ConvertFixedToFloat(r),
                                                  ConvertFixedToFloat(b), ConvertFixedToFloat(t),
                                                  ConvertFixedToFloat(n), ConvertFixedToFloat(f)));
 }

 void Context::pointParameterf(PointParameter pname, GLfloat param)
 {
     SetPointParameter(&mState.gles1(), pname, &param);
 }

 void Context::pointParameterfv(PointParameter pname, const GLfloat *params)
 {
     SetPointParameter(&mState.gles1(), pname, params);
 }

 void Context::pointParameterx(PointParameter pname, GLfixed param)
 {
     GLfloat paramf = ConvertFixedToFloat(param);
     SetPointParameter(&mState.gles1(), pname, &paramf);
 }

 void Context::pointParameterxv(PointParameter pname, const GLfixed *params)
 {
     GLfloat paramsf[4] = {};
     for (unsigned int i = 0; i < GetPointParameterCount(pname); i++)
     {
         paramsf[i] = ConvertFixedToFloat(params[i]);
     }
     SetPointParameter(&mState.gles1(), pname, paramsf);
 }

 void Context::pointSize(GLfloat size)
 {
     SetPointSize(&mState.gles1(), size);
 }

 void Context::pointSizex(GLfixed size)
 {
     SetPointSize(&mState.gles1(), ConvertFixedToFloat(size));
 }

 void Context::polygonOffsetx(GLfixed factor, GLfixed units)
 {
     UNIMPLEMENTED();
 }

 void Context::popMatrix()
 {
     mState.gles1().popMatrix();
 }

 void Context::pushMatrix()
 {
     mState.gles1().pushMatrix();
 }

 void Context::rotatef(float angle, float x, float y, float z)
 {
     mState.gles1().multMatrix(angle::Mat4::Rotate(angle, angle::Vector3(x, y, z)));
 }

 void Context::rotatex(GLfixed angle, GLfixed x, GLfixed y, GLfixed z)
 {
     mState.gles1().multMatrix(angle::Mat4::Rotate(
         ConvertFixedToFloat(angle),
         angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
 }

 void Context::sampleCoveragex(GLclampx value, GLboolean invert)
 {
     UNIMPLEMENTED();
 }

 void Context::scalef(float x, float y, float z)
 {
     mState.gles1().multMatrix(angle::Mat4::Scale(angle::Vector3(x, y, z)));
 }

 void Context::scalex(GLfixed x, GLfixed y, GLfixed z)
 {
     mState.gles1().multMatrix(angle::Mat4::Scale(
         angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
 }

 void Context::shadeModel(ShadingModel model)
 {
     mState.gles1().setShadeModel(model);
 }

 void Context::texCoordPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
 {
     vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::TextureCoord), size, type, GL_FALSE,
                         stride, ptr);
 }

 void Context::texEnvf(TextureEnvTarget target, TextureEnvParameter pname, GLfloat param)
 {
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, &param);
 }

 void Context::texEnvfv(TextureEnvTarget target, TextureEnvParameter pname, const GLfloat *params)
 {
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, params);
 }

 void Context::texEnvi(TextureEnvTarget target, TextureEnvParameter pname, GLint param)
 {
     GLfloat paramsf[4] = {};
     ConvertTextureEnvFromInt(pname, &param, paramsf);
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
 }

 void Context::texEnviv(TextureEnvTarget target, TextureEnvParameter pname, const GLint *params)
 {
     GLfloat paramsf[4] = {};
     ConvertTextureEnvFromInt(pname, params, paramsf);
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
 }

 void Context::texEnvx(TextureEnvTarget target, TextureEnvParameter pname, GLfixed param)
 {
     GLfloat paramsf[4] = {};
     ConvertTextureEnvFromFixed(pname, &param, paramsf);
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
 }

 void Context::texEnvxv(TextureEnvTarget target, TextureEnvParameter pname, const GLfixed *params)
 {
     GLfloat paramsf[4] = {};
     ConvertTextureEnvFromFixed(pname, params, paramsf);
     SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
 }

 void Context::texParameterx(TextureType target, GLenum pname, GLfixed param)
 {
     UNIMPLEMENTED();
 }

 void Context::texParameterxv(TextureType target, GLenum pname, const GLfixed *params)
 {
     UNIMPLEMENTED();
 }

 void Context::translatef(float x, float y, float z)
 {
     mState.gles1().multMatrix(angle::Mat4::Translate(angle::Vector3(x, y, z)));
 }

 void Context::translatex(GLfixed x, GLfixed y, GLfixed z)
 {
     mState.gles1().multMatrix(angle::Mat4::Translate(
         angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
 }

 void Context::vertexPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
 {
     vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Vertex), size, type, GL_FALSE,
                         stride, ptr);
 }

 // GL_OES_draw_texture
 void Context::drawTexf(float x, float y, float z, float width, float height)
 {
     mGLES1Renderer->drawTexture(this, &mState, x, y, z, width, height);
 }

 void Context::drawTexfv(const GLfloat *coords)
 {
     mGLES1Renderer->drawTexture(this, &mState, coords[0], coords[1], coords[2], coords[3],
                                 coords[4]);
 }

 void Context::drawTexi(GLint x, GLint y, GLint z, GLint width, GLint height)
 {
     mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(x), static_cast<GLfloat>(y),
                                 static_cast<GLfloat>(z), static_cast<GLfloat>(width),
                                 static_cast<GLfloat>(height));
 }

 void Context::drawTexiv(const GLint *coords)
 {
     mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(coords[0]),
                                 static_cast<GLfloat>(coords[1]), static_cast<GLfloat>(coords[2]),
                                 static_cast<GLfloat>(coords[3]), static_cast<GLfloat>(coords[4]));
 }

 void Context::drawTexs(GLshort x, GLshort y, GLshort z, GLshort width, GLshort height)
 {
     mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(x), static_cast<GLfloat>(y),
                                 static_cast<GLfloat>(z), static_cast<GLfloat>(width),
                                 static_cast<GLfloat>(height));
 }

 void Context::drawTexsv(const GLshort *coords)
 {
     mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(coords[0]),
                                 static_cast<GLfloat>(coords[1]), static_cast<GLfloat>(coords[2]),
                                 static_cast<GLfloat>(coords[3]), static_cast<GLfloat>(coords[4]));
 }

 void Context::drawTexx(GLfixed x, GLfixed y, GLfixed z, GLfixed width, GLfixed height)
 {
     mGLES1Renderer->drawTexture(this, &mState, ConvertFixedToFloat(x), ConvertFixedToFloat(y),
                                 ConvertFixedToFloat(z), ConvertFixedToFloat(width),
                                 ConvertFixedToFloat(height));
 }

 void Context::drawTexxv(const GLfixed *coords)
 {
     mGLES1Renderer->drawTexture(this, &mState, ConvertFixedToFloat(coords[0]),
                                 ConvertFixedToFloat(coords[1]), ConvertFixedToFloat(coords[2]),
                                 ConvertFixedToFloat(coords[3]), ConvertFixedToFloat(coords[4]));
 }

 // GL_OES_matrix_palette
 void Context::currentPaletteMatrix(GLuint matrixpaletteindex)
 {
     UNIMPLEMENTED();
 }

 void Context::loadPaletteFromModelViewMatrix()
 {
     UNIMPLEMENTED();
 }

 void Context::matrixIndexPointer(GLint size, GLenum type, GLsizei stride, const void *pointer)
 {
     UNIMPLEMENTED();
 }

 void Context::weightPointer(GLint size, GLenum type, GLsizei stride, const void *pointer)
 {
     UNIMPLEMENTED();
 }

 // GL_OES_point_size_array
 void Context::pointSizePointer(VertexAttribType type, GLsizei stride, const void *ptr)
 {
     vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::PointSize), 1, type, GL_FALSE,
                         stride, ptr);
 }

 // GL_OES_query_matrix
 GLbitfield Context::queryMatrixx(GLfixed *mantissa, GLint *exponent)
 {
     UNIMPLEMENTED();
     return 0;
 }

 // GL_OES_texture_cube_map
 void Context::getTexGenfv(GLenum coord, GLenum pname, GLfloat *params)
 {
     UNIMPLEMENTED();
 }

 void Context::getTexGeniv(GLenum coord, GLenum pname, GLint *params)
 {
     UNIMPLEMENTED();
 }

 void Context::getTexGenxv(GLenum coord, GLenum pname, GLfixed *params)
 {
     UNIMPLEMENTED();
 }

 void Context::texGenf(GLenum coord, GLenum pname, GLfloat param)
 {
     UNIMPLEMENTED();
 }

 void Context::texGenfv(GLenum coord, GLenum pname, const GLfloat *params)
 {
     UNIMPLEMENTED();
 }

 void Context::texGeni(GLenum coord, GLenum pname, GLint param)
 {
     UNIMPLEMENTED();
 }

 void Context::texGeniv(GLenum coord, GLenum pname, const GLint *params)
 {
     UNIMPLEMENTED();
 }

 void Context::texGenx(GLenum coord, GLenum pname, GLfixed param)
 {
     UNIMPLEMENTED();
 }

 void Context::texGenxv(GLenum coord, GLenum pname, const GLint *params)
 {
     UNIMPLEMENTED();
 }

 int Context::vertexArrayIndex(ClientVertexArrayType type) const
 {
     return GLES1Renderer::VertexArrayIndex(type, mState.gles1());
 }

 // static
 int Context::TexCoordArrayIndex(unsigned int unit)
 {
     return GLES1Renderer::TexCoordArrayIndex(unit);
 }
 }  // namespace gl
	//
	// Copyright 2018 The ANGLE Project Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.
	//

	// Context_gles_1_0.cpp: Implements the GLES1-specific parts of Context.

	#include "libANGLE/Context.h"

	#include "common/mathutil.h"
	#include "common/utilities.h"

	#include "libANGLE/GLES1Renderer.h"
	#include "libANGLE/queryconversions.h"
	#include "libANGLE/queryutils.h"

	namespace
	{

	angle::Mat4 FixedMatrixToMat4(const GLfixed *m)
	{
	angle::Mat4 matrixAsFloat;
	GLfloat *floatData = matrixAsFloat.data();

	for (int i = 0; i < 16; i++)
	{
	floatData[i] = gl::ConvertFixedToFloat(m[i]);
	}

	return matrixAsFloat;
	}

	} // namespace

	namespace gl
	{

	void Context::alphaFunc(AlphaTestFunc func, GLfloat ref)
	{
	mState.gles1().setAlphaFunc(func, ref);
	}

	void Context::alphaFuncx(AlphaTestFunc func, GLfixed ref)
	{
	mState.gles1().setAlphaFunc(func, ConvertFixedToFloat(ref));
	}

	void Context::clearColorx(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha)
	{
	UNIMPLEMENTED();
	}

	void Context::clearDepthx(GLfixed depth)
	{
	UNIMPLEMENTED();
	}

	void Context::clientActiveTexture(GLenum texture)
	{
	mState.gles1().setClientTextureUnit(texture - GL_TEXTURE0);
	mStateCache.onGLES1ClientStateChange(this);
	}

	void Context::clipPlanef(GLenum p, const GLfloat *eqn)
	{
	mState.gles1().setClipPlane(p - GL_CLIP_PLANE0, eqn);
	}

	void Context::clipPlanex(GLenum plane, const GLfixed *equation)
	{
	const GLfloat equationf[4] = {
	ConvertFixedToFloat(equation[0]),
	ConvertFixedToFloat(equation[1]),
	ConvertFixedToFloat(equation[2]),
	ConvertFixedToFloat(equation[3]),
	};

	mState.gles1().setClipPlane(plane - GL_CLIP_PLANE0, equationf);
	}

	void Context::color4f(GLfloat red, GLfloat green, GLfloat blue, GLfloat alpha)
	{
	mState.gles1().setCurrentColor({red, green, blue, alpha});
	}

	void Context::color4ub(GLubyte red, GLubyte green, GLubyte blue, GLubyte alpha)
	{
	mState.gles1().setCurrentColor(
	{normalizedToFloat<uint8_t>(red), normalizedToFloat<uint8_t>(green),
	normalizedToFloat<uint8_t>(blue), normalizedToFloat<uint8_t>(alpha)});
	}

	void Context::color4x(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha)
	{
	mState.gles1().setCurrentColor({ConvertFixedToFloat(red), ConvertFixedToFloat(green),
	ConvertFixedToFloat(blue), ConvertFixedToFloat(alpha)});
	}

	void Context::colorPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
	{
	vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Color), size, type, GL_FALSE,
	stride, ptr);
	}

	void Context::depthRangex(GLfixed n, GLfixed f)
	{
	UNIMPLEMENTED();
	}

	void Context::disableClientState(ClientVertexArrayType clientState)
	{
	mState.gles1().setClientStateEnabled(clientState, false);
	disableVertexAttribArray(vertexArrayIndex(clientState));
	mStateCache.onGLES1ClientStateChange(this);
	}

	void Context::enableClientState(ClientVertexArrayType clientState)
	{
	mState.gles1().setClientStateEnabled(clientState, true);
	enableVertexAttribArray(vertexArrayIndex(clientState));
	mStateCache.onGLES1ClientStateChange(this);
	}

	void Context::fogf(GLenum pname, GLfloat param)
	{
	SetFogParameters(&mState.gles1(), pname, &param);
	}

	void Context::fogfv(GLenum pname, const GLfloat *params)
	{
	SetFogParameters(&mState.gles1(), pname, params);
	}

	void Context::fogx(GLenum pname, GLfixed param)
	{
	if (GetFogParameterCount(pname) == 1)
	{
	GLfloat paramf = pname == GL_FOG_MODE ? ConvertToGLenum(param) : ConvertFixedToFloat(param);
	fogf(pname, paramf);
	}
	else
	{
	UNREACHABLE();
	}
	}

	void Context::fogxv(GLenum pname, const GLfixed *params)
	{
	int paramCount = GetFogParameterCount(pname);

	if (paramCount > 0)
	{
	GLfloat paramsf[4];
	for (int i = 0; i < paramCount; i++)
	{
	paramsf[i] =
	pname == GL_FOG_MODE ? ConvertToGLenum(params[i]) : ConvertFixedToFloat(params[i]);
	}
	fogfv(pname, paramsf);
	}
	else
	{
	UNREACHABLE();
	}
	}

	void Context::frustumf(GLfloat l, GLfloat r, GLfloat b, GLfloat t, GLfloat n, GLfloat f)
	{
	mState.gles1().multMatrix(angle::Mat4::Frustum(l, r, b, t, n, f));
	}

	void Context::frustumx(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f)
	{
	mState.gles1().multMatrix(angle::Mat4::Frustum(ConvertFixedToFloat(l), ConvertFixedToFloat(r),
	ConvertFixedToFloat(b), ConvertFixedToFloat(t),
	ConvertFixedToFloat(n), ConvertFixedToFloat(f)));
	}

	void Context::getClipPlanef(GLenum plane, GLfloat *equation)
	{
	mState.gles1().getClipPlane(plane - GL_CLIP_PLANE0, equation);
	}

	void Context::getClipPlanex(GLenum plane, GLfixed *equation)
	{
	GLfloat equationf[4] = {};

	mState.gles1().getClipPlane(plane - GL_CLIP_PLANE0, equationf);

	for (int i = 0; i < 4; i++)
	{
	equation[i] = ConvertFloatToFixed(equationf[i]);
	}
	}

	void Context::getFixedv(GLenum pname, GLfixed *params)
	{
	UNIMPLEMENTED();
	}

	void Context::getLightfv(GLenum light, LightParameter pname, GLfloat *params)
	{
	GetLightParameters(&mState.gles1(), light, pname, params);
	}

	void Context::getLightxv(GLenum light, LightParameter pname, GLfixed *params)
	{
	GLfloat paramsf[4];
	getLightfv(light, pname, paramsf);

	for (unsigned int i = 0; i < GetLightParameterCount(pname); i++)
	{
	params[i] = ConvertFloatToFixed(paramsf[i]);
	}
	}

	void Context::getMaterialfv(GLenum face, MaterialParameter pname, GLfloat *params)
	{
	GetMaterialParameters(&mState.gles1(), face, pname, params);
	}

	void Context::getMaterialxv(GLenum face, MaterialParameter pname, GLfixed *params)
	{
	GLfloat paramsf[4];
	getMaterialfv(face, pname, paramsf);

	for (unsigned int i = 0; i < GetMaterialParameterCount(pname); i++)
	{
	params[i] = ConvertFloatToFixed(paramsf[i]);
	}
	}

	void Context::getTexEnvfv(TextureEnvTarget target, TextureEnvParameter pname, GLfloat *params)
	{
	GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, params);
	}

	void Context::getTexEnviv(TextureEnvTarget target, TextureEnvParameter pname, GLint *params)
	{
	GLfloat paramsf[4];
	GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	ConvertTextureEnvToInt(pname, paramsf, params);
	}

	void Context::getTexEnvxv(TextureEnvTarget target, TextureEnvParameter pname, GLfixed *params)
	{
	GLfloat paramsf[4];
	GetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	ConvertTextureEnvToFixed(pname, paramsf, params);
	}

	void Context::getTexParameterxv(TextureType target, GLenum pname, GLfixed *params)
	{
	UNIMPLEMENTED();
	}

	void Context::lightModelf(GLenum pname, GLfloat param)
	{
	SetLightModelParameters(&mState.gles1(), pname, &param);
	}

	void Context::lightModelfv(GLenum pname, const GLfloat *params)
	{
	SetLightModelParameters(&mState.gles1(), pname, params);
	}

	void Context::lightModelx(GLenum pname, GLfixed param)
	{
	lightModelf(pname, ConvertFixedToFloat(param));
	}

	void Context::lightModelxv(GLenum pname, const GLfixed *param)
	{
	GLfloat paramsf[4];

	for (unsigned int i = 0; i < GetLightModelParameterCount(pname); i++)
	{
	paramsf[i] = ConvertFixedToFloat(param[i]);
	}

	lightModelfv(pname, paramsf);
	}

	void Context::lightf(GLenum light, LightParameter pname, GLfloat param)
	{
	SetLightParameters(&mState.gles1(), light, pname, &param);
	}

	void Context::lightfv(GLenum light, LightParameter pname, const GLfloat *params)
	{
	SetLightParameters(&mState.gles1(), light, pname, params);
	}

	void Context::lightx(GLenum light, LightParameter pname, GLfixed param)
	{
	lightf(light, pname, ConvertFixedToFloat(param));
	}

	void Context::lightxv(GLenum light, LightParameter pname, const GLfixed *params)
	{
	GLfloat paramsf[4];

	for (unsigned int i = 0; i < GetLightParameterCount(pname); i++)
	{
	paramsf[i] = ConvertFixedToFloat(params[i]);
	}

	lightfv(light, pname, paramsf);
	}

	void Context::lineWidthx(GLfixed width)
	{
	UNIMPLEMENTED();
	}

	void Context::loadIdentity()
	{
	mState.gles1().loadMatrix(angle::Mat4());
	}

	void Context::loadMatrixf(const GLfloat *m)
	{
	mState.gles1().loadMatrix(angle::Mat4(m));
	}

	void Context::loadMatrixx(const GLfixed *m)
	{
	mState.gles1().loadMatrix(FixedMatrixToMat4(m));
	}

	void Context::logicOp(LogicalOperation opcodePacked)
	{
	mState.gles1().setLogicOp(opcodePacked);
	}

	void Context::materialf(GLenum face, MaterialParameter pname, GLfloat param)
	{
	SetMaterialParameters(&mState.gles1(), face, pname, &param);
	}

	void Context::materialfv(GLenum face, MaterialParameter pname, const GLfloat *params)
	{
	SetMaterialParameters(&mState.gles1(), face, pname, params);
	}

	void Context::materialx(GLenum face, MaterialParameter pname, GLfixed param)
	{
	materialf(face, pname, ConvertFixedToFloat(param));
	}

	void Context::materialxv(GLenum face, MaterialParameter pname, const GLfixed *param)
	{
	GLfloat paramsf[4];

	for (unsigned int i = 0; i < GetMaterialParameterCount(pname); i++)
	{
	paramsf[i] = ConvertFixedToFloat(param[i]);
	}

	materialfv(face, pname, paramsf);
	}

	void Context::matrixMode(MatrixType mode)
	{
	mState.gles1().setMatrixMode(mode);
	}

	void Context::multMatrixf(const GLfloat *m)
	{
	mState.gles1().multMatrix(angle::Mat4(m));
	}

	void Context::multMatrixx(const GLfixed *m)
	{
	mState.gles1().multMatrix(FixedMatrixToMat4(m));
	}

	void Context::multiTexCoord4f(GLenum target, GLfloat s, GLfloat t, GLfloat r, GLfloat q)
	{
	unsigned int unit = target - GL_TEXTURE0;
	ASSERT(target >= GL_TEXTURE0 && unit < getCaps().maxMultitextureUnits);
	mState.gles1().setCurrentTextureCoords(unit, {s, t, r, q});
	}

	void Context::multiTexCoord4x(GLenum target, GLfixed s, GLfixed t, GLfixed r, GLfixed q)
	{
	unsigned int unit = target - GL_TEXTURE0;
	ASSERT(target >= GL_TEXTURE0 && unit < getCaps().maxMultitextureUnits);
	mState.gles1().setCurrentTextureCoords(unit, {ConvertFixedToFloat(s), ConvertFixedToFloat(t),
	ConvertFixedToFloat(r), ConvertFixedToFloat(q)});
	}

	void Context::normal3f(GLfloat nx, GLfloat ny, GLfloat nz)
	{
	mState.gles1().setCurrentNormal({nx, ny, nz});
	}

	void Context::normal3x(GLfixed nx, GLfixed ny, GLfixed nz)
	{
	mState.gles1().setCurrentNormal(
	{ConvertFixedToFloat(nx), ConvertFixedToFloat(ny), ConvertFixedToFloat(nz)});
	}

	void Context::normalPointer(VertexAttribType type, GLsizei stride, const void *ptr)
	{
	vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Normal), 3, type, GL_FALSE, stride,
	ptr);
	}

	void Context::orthof(GLfloat left,
	GLfloat right,
	GLfloat bottom,
	GLfloat top,
	GLfloat zNear,
	GLfloat zFar)
	{
	mState.gles1().multMatrix(angle::Mat4::Ortho(left, right, bottom, top, zNear, zFar));
	}

	void Context::orthox(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f)
	{
	mState.gles1().multMatrix(angle::Mat4::Ortho(ConvertFixedToFloat(l), ConvertFixedToFloat(r),
	ConvertFixedToFloat(b), ConvertFixedToFloat(t),
	ConvertFixedToFloat(n), ConvertFixedToFloat(f)));
	}

	void Context::pointParameterf(PointParameter pname, GLfloat param)
	{
	SetPointParameter(&mState.gles1(), pname, &param);
	}

	void Context::pointParameterfv(PointParameter pname, const GLfloat *params)
	{
	SetPointParameter(&mState.gles1(), pname, params);
	}

	void Context::pointParameterx(PointParameter pname, GLfixed param)
	{
	GLfloat paramf = ConvertFixedToFloat(param);
	SetPointParameter(&mState.gles1(), pname, &paramf);
	}

	void Context::pointParameterxv(PointParameter pname, const GLfixed *params)
	{
	GLfloat paramsf[4] = {};
	for (unsigned int i = 0; i < GetPointParameterCount(pname); i++)
	{
	paramsf[i] = ConvertFixedToFloat(params[i]);
	}
	SetPointParameter(&mState.gles1(), pname, paramsf);
	}

	void Context::pointSize(GLfloat size)
	{
	SetPointSize(&mState.gles1(), size);
	}

	void Context::pointSizex(GLfixed size)
	{
	SetPointSize(&mState.gles1(), ConvertFixedToFloat(size));
	}

	void Context::polygonOffsetx(GLfixed factor, GLfixed units)
	{
	UNIMPLEMENTED();
	}

	void Context::popMatrix()
	{
	mState.gles1().popMatrix();
	}

	void Context::pushMatrix()
	{
	mState.gles1().pushMatrix();
	}

	void Context::rotatef(float angle, float x, float y, float z)
	{
	mState.gles1().multMatrix(angle::Mat4::Rotate(angle, angle::Vector3(x, y, z)));
	}

	void Context::rotatex(GLfixed angle, GLfixed x, GLfixed y, GLfixed z)
	{
	mState.gles1().multMatrix(angle::Mat4::Rotate(
	ConvertFixedToFloat(angle),
	angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
	}

	void Context::sampleCoveragex(GLclampx value, GLboolean invert)
	{
	UNIMPLEMENTED();
	}

	void Context::scalef(float x, float y, float z)
	{
	mState.gles1().multMatrix(angle::Mat4::Scale(angle::Vector3(x, y, z)));
	}

	void Context::scalex(GLfixed x, GLfixed y, GLfixed z)
	{
	mState.gles1().multMatrix(angle::Mat4::Scale(
	angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
	}

	void Context::shadeModel(ShadingModel model)
	{
	mState.gles1().setShadeModel(model);
	}

	void Context::texCoordPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
	{
	vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::TextureCoord), size, type, GL_FALSE,
	stride, ptr);
	}

	void Context::texEnvf(TextureEnvTarget target, TextureEnvParameter pname, GLfloat param)
	{
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, &param);
	}

	void Context::texEnvfv(TextureEnvTarget target, TextureEnvParameter pname, const GLfloat *params)
	{
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, params);
	}

	void Context::texEnvi(TextureEnvTarget target, TextureEnvParameter pname, GLint param)
	{
	GLfloat paramsf[4] = {};
	ConvertTextureEnvFromInt(pname, &param, paramsf);
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	}

	void Context::texEnviv(TextureEnvTarget target, TextureEnvParameter pname, const GLint *params)
	{
	GLfloat paramsf[4] = {};
	ConvertTextureEnvFromInt(pname, params, paramsf);
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	}

	void Context::texEnvx(TextureEnvTarget target, TextureEnvParameter pname, GLfixed param)
	{
	GLfloat paramsf[4] = {};
	ConvertTextureEnvFromFixed(pname, &param, paramsf);
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	}

	void Context::texEnvxv(TextureEnvTarget target, TextureEnvParameter pname, const GLfixed *params)
	{
	GLfloat paramsf[4] = {};
	ConvertTextureEnvFromFixed(pname, params, paramsf);
	SetTextureEnv(mState.getActiveSampler(), &mState.gles1(), target, pname, paramsf);
	}

	void Context::texParameterx(TextureType target, GLenum pname, GLfixed param)
	{
	UNIMPLEMENTED();
	}

	void Context::texParameterxv(TextureType target, GLenum pname, const GLfixed *params)
	{
	UNIMPLEMENTED();
	}

	void Context::translatef(float x, float y, float z)
	{
	mState.gles1().multMatrix(angle::Mat4::Translate(angle::Vector3(x, y, z)));
	}

	void Context::translatex(GLfixed x, GLfixed y, GLfixed z)
	{
	mState.gles1().multMatrix(angle::Mat4::Translate(
	angle::Vector3(ConvertFixedToFloat(x), ConvertFixedToFloat(y), ConvertFixedToFloat(z))));
	}

	void Context::vertexPointer(GLint size, VertexAttribType type, GLsizei stride, const void *ptr)
	{
	vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::Vertex), size, type, GL_FALSE,
	stride, ptr);
	}

	// GL_OES_draw_texture
	void Context::drawTexf(float x, float y, float z, float width, float height)
	{
	mGLES1Renderer->drawTexture(this, &mState, x, y, z, width, height);
	}

	void Context::drawTexfv(const GLfloat *coords)
	{
	mGLES1Renderer->drawTexture(this, &mState, coords[0], coords[1], coords[2], coords[3],
	coords[4]);
	}

	void Context::drawTexi(GLint x, GLint y, GLint z, GLint width, GLint height)
	{
	mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(x), static_cast<GLfloat>(y),
	static_cast<GLfloat>(z), static_cast<GLfloat>(width),
	static_cast<GLfloat>(height));
	}

	void Context::drawTexiv(const GLint *coords)
	{
	mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(coords[0]),
	static_cast<GLfloat>(coords[1]), static_cast<GLfloat>(coords[2]),
	static_cast<GLfloat>(coords[3]), static_cast<GLfloat>(coords[4]));
	}

	void Context::drawTexs(GLshort x, GLshort y, GLshort z, GLshort width, GLshort height)
	{
	mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(x), static_cast<GLfloat>(y),
	static_cast<GLfloat>(z), static_cast<GLfloat>(width),
	static_cast<GLfloat>(height));
	}

	void Context::drawTexsv(const GLshort *coords)
	{
	mGLES1Renderer->drawTexture(this, &mState, static_cast<GLfloat>(coords[0]),
	static_cast<GLfloat>(coords[1]), static_cast<GLfloat>(coords[2]),
	static_cast<GLfloat>(coords[3]), static_cast<GLfloat>(coords[4]));
	}

	void Context::drawTexx(GLfixed x, GLfixed y, GLfixed z, GLfixed width, GLfixed height)
	{
	mGLES1Renderer->drawTexture(this, &mState, ConvertFixedToFloat(x), ConvertFixedToFloat(y),
	ConvertFixedToFloat(z), ConvertFixedToFloat(width),
	ConvertFixedToFloat(height));
	}

	void Context::drawTexxv(const GLfixed *coords)
	{
	mGLES1Renderer->drawTexture(this, &mState, ConvertFixedToFloat(coords[0]),
	ConvertFixedToFloat(coords[1]), ConvertFixedToFloat(coords[2]),
	ConvertFixedToFloat(coords[3]), ConvertFixedToFloat(coords[4]));
	}

	// GL_OES_matrix_palette
	void Context::currentPaletteMatrix(GLuint matrixpaletteindex)
	{
	UNIMPLEMENTED();
	}

	void Context::loadPaletteFromModelViewMatrix()
	{
	UNIMPLEMENTED();
	}

	void Context::matrixIndexPointer(GLint size, GLenum type, GLsizei stride, const void *pointer)
	{
	UNIMPLEMENTED();
	}

	void Context::weightPointer(GLint size, GLenum type, GLsizei stride, const void *pointer)
	{
	UNIMPLEMENTED();
	}

	// GL_OES_point_size_array
	void Context::pointSizePointer(VertexAttribType type, GLsizei stride, const void *ptr)
	{
	vertexAttribPointer(vertexArrayIndex(ClientVertexArrayType::PointSize), 1, type, GL_FALSE,
	stride, ptr);
	}

	// GL_OES_query_matrix
	GLbitfield Context::queryMatrixx(GLfixed mantissa, GLint exponent)
	{
	UNIMPLEMENTED();
	return 0;
	}

	// GL_OES_texture_cube_map
	void Context::getTexGenfv(GLenum coord, GLenum pname, GLfloat *params)
	{
	UNIMPLEMENTED();
	}

	void Context::getTexGeniv(GLenum coord, GLenum pname, GLint *params)
	{
	UNIMPLEMENTED();
	}

	void Context::getTexGenxv(GLenum coord, GLenum pname, GLfixed *params)
	{
	UNIMPLEMENTED();
	}

	void Context::texGenf(GLenum coord, GLenum pname, GLfloat param)
	{
	UNIMPLEMENTED();
	}

	void Context::texGenfv(GLenum coord, GLenum pname, const GLfloat *params)
	{
	UNIMPLEMENTED();
	}

	void Context::texGeni(GLenum coord, GLenum pname, GLint param)
	{
	UNIMPLEMENTED();
	}

	void Context::texGeniv(GLenum coord, GLenum pname, const GLint *params)
	{
	UNIMPLEMENTED();
	}

	void Context::texGenx(GLenum coord, GLenum pname, GLfixed param)
	{
	UNIMPLEMENTED();
	}

	void Context::texGenxv(GLenum coord, GLenum pname, const GLint *params)
	{
	UNIMPLEMENTED();
	}

	int Context::vertexArrayIndex(ClientVertexArrayType type) const
	{
	return GLES1Renderer::VertexArrayIndex(type, mState.gles1());
	}

	// static
	int Context::TexCoordArrayIndex(unsigned int unit)
	{
	return GLES1Renderer::TexCoordArrayIndex(unit);
	}
	} // namespace gl