opengl/libagl2/src/shader.cpp - platform/frameworks/base.git - Git at Google

 #include "gles2context.h"

 //#undef LOGD
 //#define LOGD(...)

 static inline GLuint s2n(gl_shader * s)
 {
    return (GLuint)s ^ 0xaf3c532d;
 }

 static inline gl_shader * n2s(GLuint n)
 {
    return (gl_shader *)(n ^ 0xaf3c532d);
 }

 static inline GLuint p2n(gl_shader_program * p)
 {
    return (GLuint)p ^ 0x04dc18f9;
 }

 static inline gl_shader_program * n2p(GLuint n)
 {
    return (gl_shader_program *)(n ^ 0x04dc18f9);
 }

 void glAttachShader(GLuint program, GLuint shader)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderAttach(ctx->iface, n2p(program), n2s(shader));
 }

 void glBindAttribLocation(GLuint program, GLuint index, const GLchar* name)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderAttributeBind(n2p(program), index, name);
 //   assert(0);
 }

 GLuint glCreateShader(GLenum type)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    return s2n(ctx->iface->ShaderCreate(ctx->iface, type));
 }

 GLuint glCreateProgram(void)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    return  p2n(ctx->iface->ShaderProgramCreate(ctx->iface));
 }

 void glCompileShader(GLuint shader)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderCompile(ctx->iface, n2s(shader), NULL, NULL);
 }

 void glDeleteProgram(GLuint program)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderProgramDelete(ctx->iface, n2p(program));
 }

 void glDeleteShader(GLuint shader)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderDelete(ctx->iface, n2s(shader));
 }

 void glDetachShader(GLuint program, GLuint shader)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderDetach(ctx->iface, n2p(program), n2s(shader));
 }

 GLint glGetAttribLocation(GLuint program, const GLchar* name)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    GLint location = ctx->iface->ShaderAttributeLocation(n2p(program), name);
 //   LOGD("\n*\n*\n* agl2: glGetAttribLocation program=%u name=%s location=%d \n*\n*",
 //        program, name, location);
    return location;
 }

 void glGetProgramiv(GLuint program, GLenum pname, GLint* params)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderProgramGetiv(n2p(program), pname, params);
    LOGD("agl2: glGetProgramiv 0x%.4X=%d \n", pname, *params);
 }

 void glGetProgramInfoLog(GLuint program, GLsizei bufsize, GLsizei* length, GLchar* infolog)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderProgramGetInfoLog(n2p(program), bufsize, length, infolog);
 }

 void glGetShaderiv(GLuint shader, GLenum pname, GLint* params)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderGetiv(n2s(shader), pname, params);
    LOGD("agl2: glGetShaderiv 0x%.4X=%d \n", pname, *params);
 }

 void glGetShaderInfoLog(GLuint shader, GLsizei bufsize, GLsizei* length, GLchar* infolog)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderGetInfoLog(n2s(shader), bufsize, length, infolog);
 }

 int glGetUniformLocation(GLuint program, const GLchar* name)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    return ctx->iface->ShaderUniformLocation(n2p(program), name);
 }

 void glLinkProgram(GLuint program)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    GLboolean linked = ctx->iface->ShaderProgramLink(n2p(program), NULL);
    assert(linked);
 }

 void glShaderSource(GLuint shader, GLsizei count, const GLchar** string, const GLint* length)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    ctx->iface->ShaderSource(n2s(shader), count, string, length);
 }

 void glUniform1f(GLint location, GLfloat x)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    int sampler = ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, &x, GL_FLOAT);
    assert(0 > sampler); // should be assigning to sampler
 }

 void glUniform1i(GLint location, GLint x)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    const float params[1] = {x};
    int sampler = ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_INT);
    if (0 <= sampler) {
 //      LOGD("\n*\n* agl2: glUniform1i updated sampler=%d tmu=%d location=%d\n*", sampler, x, location);
       assert(0 <= x && GGL_MAXCOMBINEDTEXTUREIMAGEUNITS > x);
 //      LOGD("tmu%u: format=0x%.2X w=%u h=%u levels=%p", x, ctx->tex.tmus[x]->format,
 //         ctx->tex.tmus[x]->width, ctx->tex.tmus[x]->height, ctx->tex.tmus[x]->format);
       ctx->tex.sampler2tmu[sampler] = x;
       ctx->tex.UpdateSampler(ctx->iface, x);
    }
 }

 void glUniform2f(GLint location, GLfloat x, GLfloat y)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    const float params[4] = {x, y};
    ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_FLOAT_VEC2);
 }

 void glUniform4f(GLint location, GLfloat x, GLfloat y, GLfloat z, GLfloat w)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
    const float params[4] = {x, y, z, w};
 //   LOGD("agl2: glUniform4f location=%d %f,%f,%f,%f", location, x, y, z, w);
    ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_FLOAT_VEC4);
 }

 void glUniformMatrix4fv(GLint location, GLsizei count, GLboolean transpose, const GLfloat* value)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
 //   const gl_shader_program * program = ctx->rasterizer.CurrentProgram;
 //   if (strstr(program->Shaders[MESA_SHADER_FRAGMENT]->Source, ").a;")) {
 //   LOGD("agl2: glUniformMatrix4fv location=%d count=%d transpose=%d", location, count, transpose);
 //   for (unsigned i = 0; i < 4; i++)
 //      LOGD("agl2: glUniformMatrix4fv %.2f \t %.2f \t %.2f \t %.2f", value[i * 4 + 0],
 //           value[i * 4 + 1], value[i * 4 + 2], value[i * 4 + 3]);
 //   }
    ctx->iface->ShaderUniformMatrix(ctx->rasterizer.CurrentProgram, 4, 4, location, count, transpose, value);
 //   while (true)
 //      ;
 //   assert(0);
 }

 void glUseProgram(GLuint program)
 {
    GLES2_GET_CONST_CONTEXT(ctx);
 //   LOGD("\n*\n*\n* agl2: glUseProgram %d \n*\n*\n*", program);
    ctx->iface->ShaderUse(ctx->iface, n2p(program));
    ctx->iface->ShaderUniformGetSamplers(n2p(program), ctx->tex.sampler2tmu);
    for (unsigned i = 0; i < GGL_MAXCOMBINEDTEXTUREIMAGEUNITS; i++)
       if (0 <= ctx->tex.sampler2tmu[i])
          ctx->iface->SetSampler(ctx->iface, i, ctx->tex.tmus[ctx->tex.sampler2tmu[i]]);
 }
	#include "gles2context.h"

	//#undef LOGD
	//#define LOGD(...)

	static inline GLuint s2n(gl_shader * s)
	{
	return (GLuint)s ^ 0xaf3c532d;
	}

	static inline gl_shader * n2s(GLuint n)
	{
	return (gl_shader *)(n ^ 0xaf3c532d);
	}

	static inline GLuint p2n(gl_shader_program * p)
	{
	return (GLuint)p ^ 0x04dc18f9;
	}

	static inline gl_shader_program * n2p(GLuint n)
	{
	return (gl_shader_program *)(n ^ 0x04dc18f9);
	}

	void glAttachShader(GLuint program, GLuint shader)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderAttach(ctx->iface, n2p(program), n2s(shader));
	}

	void glBindAttribLocation(GLuint program, GLuint index, const GLchar* name)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderAttributeBind(n2p(program), index, name);
	// assert(0);
	}

	GLuint glCreateShader(GLenum type)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	return s2n(ctx->iface->ShaderCreate(ctx->iface, type));
	}

	GLuint glCreateProgram(void)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	return p2n(ctx->iface->ShaderProgramCreate(ctx->iface));
	}

	void glCompileShader(GLuint shader)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderCompile(ctx->iface, n2s(shader), NULL, NULL);
	}

	void glDeleteProgram(GLuint program)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderProgramDelete(ctx->iface, n2p(program));
	}

	void glDeleteShader(GLuint shader)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderDelete(ctx->iface, n2s(shader));
	}

	void glDetachShader(GLuint program, GLuint shader)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderDetach(ctx->iface, n2p(program), n2s(shader));
	}

	GLint glGetAttribLocation(GLuint program, const GLchar* name)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	GLint location = ctx->iface->ShaderAttributeLocation(n2p(program), name);
	// LOGD("\n\n\n* agl2: glGetAttribLocation program=%u name=%s location=%d \n\n",
	// program, name, location);
	return location;
	}

	void glGetProgramiv(GLuint program, GLenum pname, GLint* params)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderProgramGetiv(n2p(program), pname, params);
	LOGD("agl2: glGetProgramiv 0x%.4X=%d \n", pname, *params);
	}

	void glGetProgramInfoLog(GLuint program, GLsizei bufsize, GLsizei* length, GLchar* infolog)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderProgramGetInfoLog(n2p(program), bufsize, length, infolog);
	}

	void glGetShaderiv(GLuint shader, GLenum pname, GLint* params)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderGetiv(n2s(shader), pname, params);
	LOGD("agl2: glGetShaderiv 0x%.4X=%d \n", pname, *params);
	}

	void glGetShaderInfoLog(GLuint shader, GLsizei bufsize, GLsizei* length, GLchar* infolog)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderGetInfoLog(n2s(shader), bufsize, length, infolog);
	}

	int glGetUniformLocation(GLuint program, const GLchar* name)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	return ctx->iface->ShaderUniformLocation(n2p(program), name);
	}

	void glLinkProgram(GLuint program)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	GLboolean linked = ctx->iface->ShaderProgramLink(n2p(program), NULL);
	assert(linked);
	}

	void glShaderSource(GLuint shader, GLsizei count, const GLchar** string, const GLint* length)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	ctx->iface->ShaderSource(n2s(shader), count, string, length);
	}

	void glUniform1f(GLint location, GLfloat x)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	int sampler = ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, &x, GL_FLOAT);
	assert(0 > sampler); // should be assigning to sampler
	}

	void glUniform1i(GLint location, GLint x)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	const float params[1] = {x};
	int sampler = ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_INT);
	if (0 <= sampler) {
	// LOGD("\n\n agl2: glUniform1i updated sampler=%d tmu=%d location=%d\n*", sampler, x, location);
	assert(0 <= x && GGL_MAXCOMBINEDTEXTUREIMAGEUNITS > x);
	// LOGD("tmu%u: format=0x%.2X w=%u h=%u levels=%p", x, ctx->tex.tmus[x]->format,
	// ctx->tex.tmus[x]->width, ctx->tex.tmus[x]->height, ctx->tex.tmus[x]->format);
	ctx->tex.sampler2tmu[sampler] = x;
	ctx->tex.UpdateSampler(ctx->iface, x);
	}
	}

	void glUniform2f(GLint location, GLfloat x, GLfloat y)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	const float params[4] = {x, y};
	ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_FLOAT_VEC2);
	}

	void glUniform4f(GLint location, GLfloat x, GLfloat y, GLfloat z, GLfloat w)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	const float params[4] = {x, y, z, w};
	// LOGD("agl2: glUniform4f location=%d %f,%f,%f,%f", location, x, y, z, w);
	ctx->iface->ShaderUniform(ctx->rasterizer.CurrentProgram, location, 1, params, GL_FLOAT_VEC4);
	}

	void glUniformMatrix4fv(GLint location, GLsizei count, GLboolean transpose, const GLfloat* value)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	// const gl_shader_program * program = ctx->rasterizer.CurrentProgram;
	// if (strstr(program->Shaders[MESA_SHADER_FRAGMENT]->Source, ").a;")) {
	// LOGD("agl2: glUniformMatrix4fv location=%d count=%d transpose=%d", location, count, transpose);
	// for (unsigned i = 0; i < 4; i++)
	// LOGD("agl2: glUniformMatrix4fv %.2f \t %.2f \t %.2f \t %.2f", value[i * 4 + 0],
	// value[i * 4 + 1], value[i * 4 + 2], value[i * 4 + 3]);
	// }
	ctx->iface->ShaderUniformMatrix(ctx->rasterizer.CurrentProgram, 4, 4, location, count, transpose, value);
	// while (true)
	// ;
	// assert(0);
	}

	void glUseProgram(GLuint program)
	{
	GLES2_GET_CONST_CONTEXT(ctx);
	// LOGD("\n\n\n* agl2: glUseProgram %d \n\n\n*", program);
	ctx->iface->ShaderUse(ctx->iface, n2p(program));
	ctx->iface->ShaderUniformGetSamplers(n2p(program), ctx->tex.sampler2tmu);
	for (unsigned i = 0; i < GGL_MAXCOMBINEDTEXTUREIMAGEUNITS; i++)
	if (0 <= ctx->tex.sampler2tmu[i])
	ctx->iface->SetSampler(ctx->iface, i, ctx->tex.tmus[ctx->tex.sampler2tmu[i]]);
	}