// GENERATED FILE - DO NOT EDIT. // Generated by generate_entry_points.py using data from gl.xml. // // Copyright 2020 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. // // entry_points_gles_1_0_autogen.cpp: // Defines the GLES 1.0 entry points. #include "libGLESv2/entry_points_gles_1_0_autogen.h" #include "common/entry_points_enum_autogen.h" #include "libANGLE/Context.h" #include "libANGLE/Context.inl.h" #include "libANGLE/capture/capture_gles_1_0_autogen.h" #include "libANGLE/capture/gl_enum_utils.h" #include "libANGLE/entry_points_utils.h" #include "libANGLE/validationES1.h" #include "libGLESv2/global_state.h" using namespace gl; extern "C" { void GL_APIENTRY GL_AlphaFunc(GLenum func, GLfloat ref) { Context *context = GetValidGlobalContext(); EVENT(context, GLAlphaFunc, "context = %d, func = %s, ref = %f", CID(context), GLenumToString(GLESEnum::AlphaFunction, func), ref); if (context) { AlphaTestFunc funcPacked = PackParam(func); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateAlphaFunc(context, angle::EntryPoint::GLAlphaFunc, funcPacked, ref)); if (isCallValid) { context->alphaFunc(funcPacked, ref); } ANGLE_CAPTURE_GL(AlphaFunc, isCallValid, context, funcPacked, ref); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_AlphaFuncx(GLenum func, GLfixed ref) { Context *context = GetValidGlobalContext(); EVENT(context, GLAlphaFuncx, "context = %d, func = %s, ref = 0x%X", CID(context), GLenumToString(GLESEnum::AlphaFunction, func), ref); if (context) { AlphaTestFunc funcPacked = PackParam(func); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateAlphaFuncx(context, angle::EntryPoint::GLAlphaFuncx, funcPacked, ref)); if (isCallValid) { context->alphaFuncx(funcPacked, ref); } ANGLE_CAPTURE_GL(AlphaFuncx, isCallValid, context, funcPacked, ref); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ClearColorx(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha) { Context *context = GetValidGlobalContext(); EVENT(context, GLClearColorx, "context = %d, red = 0x%X, green = 0x%X, blue = 0x%X, alpha = 0x%X", CID(context), red, green, blue, alpha); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateClearColorx(context, angle::EntryPoint::GLClearColorx, red, green, blue, alpha)); if (isCallValid) { context->clearColorx(red, green, blue, alpha); } ANGLE_CAPTURE_GL(ClearColorx, isCallValid, context, red, green, blue, alpha); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ClearDepthx(GLfixed depth) { Context *context = GetValidGlobalContext(); EVENT(context, GLClearDepthx, "context = %d, depth = 0x%X", CID(context), depth); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateClearDepthx(context, angle::EntryPoint::GLClearDepthx, depth)); if (isCallValid) { context->clearDepthx(depth); } ANGLE_CAPTURE_GL(ClearDepthx, isCallValid, context, depth); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ClientActiveTexture(GLenum texture) { Context *context = GetValidGlobalContext(); EVENT(context, GLClientActiveTexture, "context = %d, texture = %s", CID(context), GLenumToString(GLESEnum::TextureUnit, texture)); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateClientActiveTexture( context, angle::EntryPoint::GLClientActiveTexture, texture)); if (isCallValid) { context->clientActiveTexture(texture); } ANGLE_CAPTURE_GL(ClientActiveTexture, isCallValid, context, texture); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ClipPlanef(GLenum p, const GLfloat *eqn) { Context *context = GetValidGlobalContext(); EVENT(context, GLClipPlanef, "context = %d, p = %s, eqn = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::ClipPlaneName, p), (uintptr_t)eqn); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateClipPlanef(context, angle::EntryPoint::GLClipPlanef, p, eqn)); if (isCallValid) { context->clipPlanef(p, eqn); } ANGLE_CAPTURE_GL(ClipPlanef, isCallValid, context, p, eqn); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ClipPlanex(GLenum plane, const GLfixed *equation) { Context *context = GetValidGlobalContext(); EVENT(context, GLClipPlanex, "context = %d, plane = %s, equation = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::ClipPlaneName, plane), (uintptr_t)equation); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateClipPlanex(context, angle::EntryPoint::GLClipPlanex, plane, equation)); if (isCallValid) { context->clipPlanex(plane, equation); } ANGLE_CAPTURE_GL(ClipPlanex, isCallValid, context, plane, equation); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Color4f(GLfloat red, GLfloat green, GLfloat blue, GLfloat alpha) { Context *context = GetValidGlobalContext(); EVENT(context, GLColor4f, "context = %d, red = %f, green = %f, blue = %f, alpha = %f", CID(context), red, green, blue, alpha); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateColor4f(context, angle::EntryPoint::GLColor4f, red, green, blue, alpha)); if (isCallValid) { context->color4f(red, green, blue, alpha); } ANGLE_CAPTURE_GL(Color4f, isCallValid, context, red, green, blue, alpha); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Color4ub(GLubyte red, GLubyte green, GLubyte blue, GLubyte alpha) { Context *context = GetValidGlobalContext(); EVENT(context, GLColor4ub, "context = %d, red = %d, green = %d, blue = %d, alpha = %d", CID(context), red, green, blue, alpha); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateColor4ub(context, angle::EntryPoint::GLColor4ub, red, green, blue, alpha)); if (isCallValid) { context->color4ub(red, green, blue, alpha); } ANGLE_CAPTURE_GL(Color4ub, isCallValid, context, red, green, blue, alpha); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Color4x(GLfixed red, GLfixed green, GLfixed blue, GLfixed alpha) { Context *context = GetValidGlobalContext(); EVENT(context, GLColor4x, "context = %d, red = 0x%X, green = 0x%X, blue = 0x%X, alpha = 0x%X", CID(context), red, green, blue, alpha); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateColor4x(context, angle::EntryPoint::GLColor4x, red, green, blue, alpha)); if (isCallValid) { context->color4x(red, green, blue, alpha); } ANGLE_CAPTURE_GL(Color4x, isCallValid, context, red, green, blue, alpha); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ColorPointer(GLint size, GLenum type, GLsizei stride, const void *pointer) { Context *context = GetValidGlobalContext(); EVENT(context, GLColorPointer, "context = %d, size = %d, type = %s, stride = %d, pointer = 0x%016" PRIxPTR "", CID(context), size, GLenumToString(GLESEnum::ColorPointerType, type), stride, (uintptr_t)pointer); if (context) { VertexAttribType typePacked = PackParam(type); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateColorPointer(context, angle::EntryPoint::GLColorPointer, size, typePacked, stride, pointer)); if (isCallValid) { context->colorPointer(size, typePacked, stride, pointer); } ANGLE_CAPTURE_GL(ColorPointer, isCallValid, context, size, typePacked, stride, pointer); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_DepthRangex(GLfixed n, GLfixed f) { Context *context = GetValidGlobalContext(); EVENT(context, GLDepthRangex, "context = %d, n = 0x%X, f = 0x%X", CID(context), n, f); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateDepthRangex(context, angle::EntryPoint::GLDepthRangex, n, f)); if (isCallValid) { context->depthRangex(n, f); } ANGLE_CAPTURE_GL(DepthRangex, isCallValid, context, n, f); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_DisableClientState(GLenum array) { Context *context = GetValidGlobalContext(); EVENT(context, GLDisableClientState, "context = %d, array = %s", CID(context), GLenumToString(GLESEnum::EnableCap, array)); if (context) { ClientVertexArrayType arrayPacked = PackParam(array); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateDisableClientState( context, angle::EntryPoint::GLDisableClientState, arrayPacked)); if (isCallValid) { context->disableClientState(arrayPacked); } ANGLE_CAPTURE_GL(DisableClientState, isCallValid, context, arrayPacked); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_EnableClientState(GLenum array) { Context *context = GetValidGlobalContext(); EVENT(context, GLEnableClientState, "context = %d, array = %s", CID(context), GLenumToString(GLESEnum::EnableCap, array)); if (context) { ClientVertexArrayType arrayPacked = PackParam(array); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateEnableClientState( context, angle::EntryPoint::GLEnableClientState, arrayPacked)); if (isCallValid) { context->enableClientState(arrayPacked); } ANGLE_CAPTURE_GL(EnableClientState, isCallValid, context, arrayPacked); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Fogf(GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLFogf, "context = %d, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::FogParameter, pname), param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFogf(context, angle::EntryPoint::GLFogf, pname, param)); if (isCallValid) { context->fogf(pname, param); } ANGLE_CAPTURE_GL(Fogf, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Fogfv(GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLFogfv, "context = %d, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::FogParameter, pname), (uintptr_t)params); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFogfv(context, angle::EntryPoint::GLFogfv, pname, params)); if (isCallValid) { context->fogfv(pname, params); } ANGLE_CAPTURE_GL(Fogfv, isCallValid, context, pname, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Fogx(GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLFogx, "context = %d, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::FogPName, pname), param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFogx(context, angle::EntryPoint::GLFogx, pname, param)); if (isCallValid) { context->fogx(pname, param); } ANGLE_CAPTURE_GL(Fogx, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Fogxv(GLenum pname, const GLfixed *param) { Context *context = GetValidGlobalContext(); EVENT(context, GLFogxv, "context = %d, pname = %s, param = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::FogPName, pname), (uintptr_t)param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFogxv(context, angle::EntryPoint::GLFogxv, pname, param)); if (isCallValid) { context->fogxv(pname, param); } ANGLE_CAPTURE_GL(Fogxv, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Frustumf(GLfloat l, GLfloat r, GLfloat b, GLfloat t, GLfloat n, GLfloat f) { Context *context = GetValidGlobalContext(); EVENT(context, GLFrustumf, "context = %d, l = %f, r = %f, b = %f, t = %f, n = %f, f = %f", CID(context), l, r, b, t, n, f); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFrustumf(context, angle::EntryPoint::GLFrustumf, l, r, b, t, n, f)); if (isCallValid) { context->frustumf(l, r, b, t, n, f); } ANGLE_CAPTURE_GL(Frustumf, isCallValid, context, l, r, b, t, n, f); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Frustumx(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f) { Context *context = GetValidGlobalContext(); EVENT(context, GLFrustumx, "context = %d, l = 0x%X, r = 0x%X, b = 0x%X, t = 0x%X, n = 0x%X, f = 0x%X", CID(context), l, r, b, t, n, f); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateFrustumx(context, angle::EntryPoint::GLFrustumx, l, r, b, t, n, f)); if (isCallValid) { context->frustumx(l, r, b, t, n, f); } ANGLE_CAPTURE_GL(Frustumx, isCallValid, context, l, r, b, t, n, f); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetClipPlanef(GLenum plane, GLfloat *equation) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetClipPlanef, "context = %d, plane = %s, equation = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::ClipPlaneName, plane), (uintptr_t)equation); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetClipPlanef(context, angle::EntryPoint::GLGetClipPlanef, plane, equation)); if (isCallValid) { context->getClipPlanef(plane, equation); } ANGLE_CAPTURE_GL(GetClipPlanef, isCallValid, context, plane, equation); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetClipPlanex(GLenum plane, GLfixed *equation) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetClipPlanex, "context = %d, plane = %s, equation = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::ClipPlaneName, plane), (uintptr_t)equation); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetClipPlanex(context, angle::EntryPoint::GLGetClipPlanex, plane, equation)); if (isCallValid) { context->getClipPlanex(plane, equation); } ANGLE_CAPTURE_GL(GetClipPlanex, isCallValid, context, plane, equation); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetFixedv(GLenum pname, GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetFixedv, "context = %d, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::GetPName, pname), (uintptr_t)params); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetFixedv(context, angle::EntryPoint::GLGetFixedv, pname, params)); if (isCallValid) { context->getFixedv(pname, params); } ANGLE_CAPTURE_GL(GetFixedv, isCallValid, context, pname, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetLightfv(GLenum light, GLenum pname, GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetLightfv, "context = %d, light = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), (uintptr_t)params); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetLightfv(context, angle::EntryPoint::GLGetLightfv, light, pnamePacked, params)); if (isCallValid) { context->getLightfv(light, pnamePacked, params); } ANGLE_CAPTURE_GL(GetLightfv, isCallValid, context, light, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetLightxv(GLenum light, GLenum pname, GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetLightxv, "context = %d, light = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), (uintptr_t)params); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetLightxv(context, angle::EntryPoint::GLGetLightxv, light, pnamePacked, params)); if (isCallValid) { context->getLightxv(light, pnamePacked, params); } ANGLE_CAPTURE_GL(GetLightxv, isCallValid, context, light, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetMaterialfv(GLenum face, GLenum pname, GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetMaterialfv, "context = %d, face = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), (uintptr_t)params); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetMaterialfv(context, angle::EntryPoint::GLGetMaterialfv, face, pnamePacked, params)); if (isCallValid) { context->getMaterialfv(face, pnamePacked, params); } ANGLE_CAPTURE_GL(GetMaterialfv, isCallValid, context, face, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetMaterialxv(GLenum face, GLenum pname, GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetMaterialxv, "context = %d, face = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), (uintptr_t)params); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetMaterialxv(context, angle::EntryPoint::GLGetMaterialxv, face, pnamePacked, params)); if (isCallValid) { context->getMaterialxv(face, pnamePacked, params); } ANGLE_CAPTURE_GL(GetMaterialxv, isCallValid, context, face, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetTexEnvfv(GLenum target, GLenum pname, GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetTexEnvfv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetTexEnvfv(context, angle::EntryPoint::GLGetTexEnvfv, targetPacked, pnamePacked, params)); if (isCallValid) { context->getTexEnvfv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(GetTexEnvfv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetTexEnviv(GLenum target, GLenum pname, GLint *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetTexEnviv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetTexEnviv(context, angle::EntryPoint::GLGetTexEnviv, targetPacked, pnamePacked, params)); if (isCallValid) { context->getTexEnviv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(GetTexEnviv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetTexEnvxv(GLenum target, GLenum pname, GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetTexEnvxv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetTexEnvxv(context, angle::EntryPoint::GLGetTexEnvxv, targetPacked, pnamePacked, params)); if (isCallValid) { context->getTexEnvxv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(GetTexEnvxv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_GetTexParameterxv(GLenum target, GLenum pname, GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLGetTexParameterxv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureTarget, target), GLenumToString(GLESEnum::GetTextureParameter, pname), (uintptr_t)params); if (context) { TextureType targetPacked = PackParam(target); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateGetTexParameterxv(context, angle::EntryPoint::GLGetTexParameterxv, targetPacked, pname, params)); if (isCallValid) { context->getTexParameterxv(targetPacked, pname, params); } ANGLE_CAPTURE_GL(GetTexParameterxv, isCallValid, context, targetPacked, pname, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LightModelf(GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightModelf, "context = %d, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::LightModelParameter, pname), param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightModelf(context, angle::EntryPoint::GLLightModelf, pname, param)); if (isCallValid) { context->lightModelf(pname, param); } ANGLE_CAPTURE_GL(LightModelf, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LightModelfv(GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightModelfv, "context = %d, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightModelParameter, pname), (uintptr_t)params); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightModelfv(context, angle::EntryPoint::GLLightModelfv, pname, params)); if (isCallValid) { context->lightModelfv(pname, params); } ANGLE_CAPTURE_GL(LightModelfv, isCallValid, context, pname, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LightModelx(GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightModelx, "context = %d, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::LightModelParameter, pname), param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightModelx(context, angle::EntryPoint::GLLightModelx, pname, param)); if (isCallValid) { context->lightModelx(pname, param); } ANGLE_CAPTURE_GL(LightModelx, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LightModelxv(GLenum pname, const GLfixed *param) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightModelxv, "context = %d, pname = %s, param = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightModelParameter, pname), (uintptr_t)param); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightModelxv(context, angle::EntryPoint::GLLightModelxv, pname, param)); if (isCallValid) { context->lightModelxv(pname, param); } ANGLE_CAPTURE_GL(LightModelxv, isCallValid, context, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Lightf(GLenum light, GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightf, "context = %d, light = %s, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), param); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightf(context, angle::EntryPoint::GLLightf, light, pnamePacked, param)); if (isCallValid) { context->lightf(light, pnamePacked, param); } ANGLE_CAPTURE_GL(Lightf, isCallValid, context, light, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Lightfv(GLenum light, GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightfv, "context = %d, light = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), (uintptr_t)params); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightfv(context, angle::EntryPoint::GLLightfv, light, pnamePacked, params)); if (isCallValid) { context->lightfv(light, pnamePacked, params); } ANGLE_CAPTURE_GL(Lightfv, isCallValid, context, light, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Lightx(GLenum light, GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightx, "context = %d, light = %s, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), param); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightx(context, angle::EntryPoint::GLLightx, light, pnamePacked, param)); if (isCallValid) { context->lightx(light, pnamePacked, param); } ANGLE_CAPTURE_GL(Lightx, isCallValid, context, light, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Lightxv(GLenum light, GLenum pname, const GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLLightxv, "context = %d, light = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::LightName, light), GLenumToString(GLESEnum::LightParameter, pname), (uintptr_t)params); if (context) { LightParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLightxv(context, angle::EntryPoint::GLLightxv, light, pnamePacked, params)); if (isCallValid) { context->lightxv(light, pnamePacked, params); } ANGLE_CAPTURE_GL(Lightxv, isCallValid, context, light, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LineWidthx(GLfixed width) { Context *context = GetValidGlobalContext(); EVENT(context, GLLineWidthx, "context = %d, width = 0x%X", CID(context), width); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLineWidthx(context, angle::EntryPoint::GLLineWidthx, width)); if (isCallValid) { context->lineWidthx(width); } ANGLE_CAPTURE_GL(LineWidthx, isCallValid, context, width); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LoadIdentity() { Context *context = GetValidGlobalContext(); EVENT(context, GLLoadIdentity, "context = %d", CID(context)); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLoadIdentity(context, angle::EntryPoint::GLLoadIdentity)); if (isCallValid) { context->loadIdentity(); } ANGLE_CAPTURE_GL(LoadIdentity, isCallValid, context); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LoadMatrixf(const GLfloat *m) { Context *context = GetValidGlobalContext(); EVENT(context, GLLoadMatrixf, "context = %d, m = 0x%016" PRIxPTR "", CID(context), (uintptr_t)m); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLoadMatrixf(context, angle::EntryPoint::GLLoadMatrixf, m)); if (isCallValid) { context->loadMatrixf(m); } ANGLE_CAPTURE_GL(LoadMatrixf, isCallValid, context, m); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LoadMatrixx(const GLfixed *m) { Context *context = GetValidGlobalContext(); EVENT(context, GLLoadMatrixx, "context = %d, m = 0x%016" PRIxPTR "", CID(context), (uintptr_t)m); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLoadMatrixx(context, angle::EntryPoint::GLLoadMatrixx, m)); if (isCallValid) { context->loadMatrixx(m); } ANGLE_CAPTURE_GL(LoadMatrixx, isCallValid, context, m); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_LogicOp(GLenum opcode) { Context *context = GetValidGlobalContext(); EVENT(context, GLLogicOp, "context = %d, opcode = %s", CID(context), GLenumToString(GLESEnum::LogicOp, opcode)); if (context) { LogicalOperation opcodePacked = PackParam(opcode); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateLogicOp(context, angle::EntryPoint::GLLogicOp, opcodePacked)); if (isCallValid) { context->logicOp(opcodePacked); } ANGLE_CAPTURE_GL(LogicOp, isCallValid, context, opcodePacked); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Materialf(GLenum face, GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLMaterialf, "context = %d, face = %s, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), param); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMaterialf(context, angle::EntryPoint::GLMaterialf, face, pnamePacked, param)); if (isCallValid) { context->materialf(face, pnamePacked, param); } ANGLE_CAPTURE_GL(Materialf, isCallValid, context, face, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Materialfv(GLenum face, GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLMaterialfv, "context = %d, face = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), (uintptr_t)params); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMaterialfv(context, angle::EntryPoint::GLMaterialfv, face, pnamePacked, params)); if (isCallValid) { context->materialfv(face, pnamePacked, params); } ANGLE_CAPTURE_GL(Materialfv, isCallValid, context, face, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Materialx(GLenum face, GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLMaterialx, "context = %d, face = %s, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), param); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMaterialx(context, angle::EntryPoint::GLMaterialx, face, pnamePacked, param)); if (isCallValid) { context->materialx(face, pnamePacked, param); } ANGLE_CAPTURE_GL(Materialx, isCallValid, context, face, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Materialxv(GLenum face, GLenum pname, const GLfixed *param) { Context *context = GetValidGlobalContext(); EVENT(context, GLMaterialxv, "context = %d, face = %s, pname = %s, param = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TriangleFace, face), GLenumToString(GLESEnum::MaterialParameter, pname), (uintptr_t)param); if (context) { MaterialParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMaterialxv(context, angle::EntryPoint::GLMaterialxv, face, pnamePacked, param)); if (isCallValid) { context->materialxv(face, pnamePacked, param); } ANGLE_CAPTURE_GL(Materialxv, isCallValid, context, face, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_MatrixMode(GLenum mode) { Context *context = GetValidGlobalContext(); EVENT(context, GLMatrixMode, "context = %d, mode = %s", CID(context), GLenumToString(GLESEnum::MatrixMode, mode)); if (context) { MatrixType modePacked = PackParam(mode); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMatrixMode(context, angle::EntryPoint::GLMatrixMode, modePacked)); if (isCallValid) { context->matrixMode(modePacked); } ANGLE_CAPTURE_GL(MatrixMode, isCallValid, context, modePacked); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_MultMatrixf(const GLfloat *m) { Context *context = GetValidGlobalContext(); EVENT(context, GLMultMatrixf, "context = %d, m = 0x%016" PRIxPTR "", CID(context), (uintptr_t)m); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMultMatrixf(context, angle::EntryPoint::GLMultMatrixf, m)); if (isCallValid) { context->multMatrixf(m); } ANGLE_CAPTURE_GL(MultMatrixf, isCallValid, context, m); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_MultMatrixx(const GLfixed *m) { Context *context = GetValidGlobalContext(); EVENT(context, GLMultMatrixx, "context = %d, m = 0x%016" PRIxPTR "", CID(context), (uintptr_t)m); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMultMatrixx(context, angle::EntryPoint::GLMultMatrixx, m)); if (isCallValid) { context->multMatrixx(m); } ANGLE_CAPTURE_GL(MultMatrixx, isCallValid, context, m); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_MultiTexCoord4f(GLenum target, GLfloat s, GLfloat t, GLfloat r, GLfloat q) { Context *context = GetValidGlobalContext(); EVENT(context, GLMultiTexCoord4f, "context = %d, target = %s, s = %f, t = %f, r = %f, q = %f", CID(context), GLenumToString(GLESEnum::TextureUnit, target), s, t, r, q); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMultiTexCoord4f(context, angle::EntryPoint::GLMultiTexCoord4f, target, s, t, r, q)); if (isCallValid) { context->multiTexCoord4f(target, s, t, r, q); } ANGLE_CAPTURE_GL(MultiTexCoord4f, isCallValid, context, target, s, t, r, q); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_MultiTexCoord4x(GLenum texture, GLfixed s, GLfixed t, GLfixed r, GLfixed q) { Context *context = GetValidGlobalContext(); EVENT(context, GLMultiTexCoord4x, "context = %d, texture = %s, s = 0x%X, t = 0x%X, r = 0x%X, q = 0x%X", CID(context), GLenumToString(GLESEnum::TextureUnit, texture), s, t, r, q); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateMultiTexCoord4x(context, angle::EntryPoint::GLMultiTexCoord4x, texture, s, t, r, q)); if (isCallValid) { context->multiTexCoord4x(texture, s, t, r, q); } ANGLE_CAPTURE_GL(MultiTexCoord4x, isCallValid, context, texture, s, t, r, q); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Normal3f(GLfloat nx, GLfloat ny, GLfloat nz) { Context *context = GetValidGlobalContext(); EVENT(context, GLNormal3f, "context = %d, nx = %f, ny = %f, nz = %f", CID(context), nx, ny, nz); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateNormal3f(context, angle::EntryPoint::GLNormal3f, nx, ny, nz)); if (isCallValid) { context->normal3f(nx, ny, nz); } ANGLE_CAPTURE_GL(Normal3f, isCallValid, context, nx, ny, nz); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Normal3x(GLfixed nx, GLfixed ny, GLfixed nz) { Context *context = GetValidGlobalContext(); EVENT(context, GLNormal3x, "context = %d, nx = 0x%X, ny = 0x%X, nz = 0x%X", CID(context), nx, ny, nz); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateNormal3x(context, angle::EntryPoint::GLNormal3x, nx, ny, nz)); if (isCallValid) { context->normal3x(nx, ny, nz); } ANGLE_CAPTURE_GL(Normal3x, isCallValid, context, nx, ny, nz); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_NormalPointer(GLenum type, GLsizei stride, const void *pointer) { Context *context = GetValidGlobalContext(); EVENT(context, GLNormalPointer, "context = %d, type = %s, stride = %d, pointer = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::NormalPointerType, type), stride, (uintptr_t)pointer); if (context) { VertexAttribType typePacked = PackParam(type); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateNormalPointer(context, angle::EntryPoint::GLNormalPointer, typePacked, stride, pointer)); if (isCallValid) { context->normalPointer(typePacked, stride, pointer); } ANGLE_CAPTURE_GL(NormalPointer, isCallValid, context, typePacked, stride, pointer); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Orthof(GLfloat l, GLfloat r, GLfloat b, GLfloat t, GLfloat n, GLfloat f) { Context *context = GetValidGlobalContext(); EVENT(context, GLOrthof, "context = %d, l = %f, r = %f, b = %f, t = %f, n = %f, f = %f", CID(context), l, r, b, t, n, f); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateOrthof(context, angle::EntryPoint::GLOrthof, l, r, b, t, n, f)); if (isCallValid) { context->orthof(l, r, b, t, n, f); } ANGLE_CAPTURE_GL(Orthof, isCallValid, context, l, r, b, t, n, f); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Orthox(GLfixed l, GLfixed r, GLfixed b, GLfixed t, GLfixed n, GLfixed f) { Context *context = GetValidGlobalContext(); EVENT(context, GLOrthox, "context = %d, l = 0x%X, r = 0x%X, b = 0x%X, t = 0x%X, n = 0x%X, f = 0x%X", CID(context), l, r, b, t, n, f); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateOrthox(context, angle::EntryPoint::GLOrthox, l, r, b, t, n, f)); if (isCallValid) { context->orthox(l, r, b, t, n, f); } ANGLE_CAPTURE_GL(Orthox, isCallValid, context, l, r, b, t, n, f); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointParameterf(GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointParameterf, "context = %d, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::AllEnums, pname), param); if (context) { PointParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointParameterf(context, angle::EntryPoint::GLPointParameterf, pnamePacked, param)); if (isCallValid) { context->pointParameterf(pnamePacked, param); } ANGLE_CAPTURE_GL(PointParameterf, isCallValid, context, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointParameterfv(GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointParameterfv, "context = %d, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::AllEnums, pname), (uintptr_t)params); if (context) { PointParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointParameterfv(context, angle::EntryPoint::GLPointParameterfv, pnamePacked, params)); if (isCallValid) { context->pointParameterfv(pnamePacked, params); } ANGLE_CAPTURE_GL(PointParameterfv, isCallValid, context, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointParameterx(GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointParameterx, "context = %d, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::AllEnums, pname), param); if (context) { PointParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointParameterx(context, angle::EntryPoint::GLPointParameterx, pnamePacked, param)); if (isCallValid) { context->pointParameterx(pnamePacked, param); } ANGLE_CAPTURE_GL(PointParameterx, isCallValid, context, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointParameterxv(GLenum pname, const GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointParameterxv, "context = %d, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::AllEnums, pname), (uintptr_t)params); if (context) { PointParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointParameterxv(context, angle::EntryPoint::GLPointParameterxv, pnamePacked, params)); if (isCallValid) { context->pointParameterxv(pnamePacked, params); } ANGLE_CAPTURE_GL(PointParameterxv, isCallValid, context, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointSize(GLfloat size) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointSize, "context = %d, size = %f", CID(context), size); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointSize(context, angle::EntryPoint::GLPointSize, size)); if (isCallValid) { context->pointSize(size); } ANGLE_CAPTURE_GL(PointSize, isCallValid, context, size); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PointSizex(GLfixed size) { Context *context = GetValidGlobalContext(); EVENT(context, GLPointSizex, "context = %d, size = 0x%X", CID(context), size); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePointSizex(context, angle::EntryPoint::GLPointSizex, size)); if (isCallValid) { context->pointSizex(size); } ANGLE_CAPTURE_GL(PointSizex, isCallValid, context, size); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PolygonOffsetx(GLfixed factor, GLfixed units) { Context *context = GetValidGlobalContext(); EVENT(context, GLPolygonOffsetx, "context = %d, factor = 0x%X, units = 0x%X", CID(context), factor, units); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePolygonOffsetx(context, angle::EntryPoint::GLPolygonOffsetx, factor, units)); if (isCallValid) { context->polygonOffsetx(factor, units); } ANGLE_CAPTURE_GL(PolygonOffsetx, isCallValid, context, factor, units); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PopMatrix() { Context *context = GetValidGlobalContext(); EVENT(context, GLPopMatrix, "context = %d", CID(context)); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePopMatrix(context, angle::EntryPoint::GLPopMatrix)); if (isCallValid) { context->popMatrix(); } ANGLE_CAPTURE_GL(PopMatrix, isCallValid, context); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_PushMatrix() { Context *context = GetValidGlobalContext(); EVENT(context, GLPushMatrix, "context = %d", CID(context)); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidatePushMatrix(context, angle::EntryPoint::GLPushMatrix)); if (isCallValid) { context->pushMatrix(); } ANGLE_CAPTURE_GL(PushMatrix, isCallValid, context); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Rotatef(GLfloat angle, GLfloat x, GLfloat y, GLfloat z) { Context *context = GetValidGlobalContext(); EVENT(context, GLRotatef, "context = %d, angle = %f, x = %f, y = %f, z = %f", CID(context), angle, x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateRotatef(context, angle::EntryPoint::GLRotatef, angle, x, y, z)); if (isCallValid) { context->rotatef(angle, x, y, z); } ANGLE_CAPTURE_GL(Rotatef, isCallValid, context, angle, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Rotatex(GLfixed angle, GLfixed x, GLfixed y, GLfixed z) { Context *context = GetValidGlobalContext(); EVENT(context, GLRotatex, "context = %d, angle = 0x%X, x = 0x%X, y = 0x%X, z = 0x%X", CID(context), angle, x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateRotatex(context, angle::EntryPoint::GLRotatex, angle, x, y, z)); if (isCallValid) { context->rotatex(angle, x, y, z); } ANGLE_CAPTURE_GL(Rotatex, isCallValid, context, angle, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_SampleCoveragex(GLclampx value, GLboolean invert) { Context *context = GetValidGlobalContext(); EVENT(context, GLSampleCoveragex, "context = %d, value = 0x%X, invert = %s", CID(context), value, GLbooleanToString(invert)); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateSampleCoveragex(context, angle::EntryPoint::GLSampleCoveragex, value, invert)); if (isCallValid) { context->sampleCoveragex(value, invert); } ANGLE_CAPTURE_GL(SampleCoveragex, isCallValid, context, value, invert); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Scalef(GLfloat x, GLfloat y, GLfloat z) { Context *context = GetValidGlobalContext(); EVENT(context, GLScalef, "context = %d, x = %f, y = %f, z = %f", CID(context), x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateScalef(context, angle::EntryPoint::GLScalef, x, y, z)); if (isCallValid) { context->scalef(x, y, z); } ANGLE_CAPTURE_GL(Scalef, isCallValid, context, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Scalex(GLfixed x, GLfixed y, GLfixed z) { Context *context = GetValidGlobalContext(); EVENT(context, GLScalex, "context = %d, x = 0x%X, y = 0x%X, z = 0x%X", CID(context), x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateScalex(context, angle::EntryPoint::GLScalex, x, y, z)); if (isCallValid) { context->scalex(x, y, z); } ANGLE_CAPTURE_GL(Scalex, isCallValid, context, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_ShadeModel(GLenum mode) { Context *context = GetValidGlobalContext(); EVENT(context, GLShadeModel, "context = %d, mode = %s", CID(context), GLenumToString(GLESEnum::ShadingModel, mode)); if (context) { ShadingModel modePacked = PackParam(mode); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateShadeModel(context, angle::EntryPoint::GLShadeModel, modePacked)); if (isCallValid) { context->shadeModel(modePacked); } ANGLE_CAPTURE_GL(ShadeModel, isCallValid, context, modePacked); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexCoordPointer(GLint size, GLenum type, GLsizei stride, const void *pointer) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexCoordPointer, "context = %d, size = %d, type = %s, stride = %d, pointer = 0x%016" PRIxPTR "", CID(context), size, GLenumToString(GLESEnum::TexCoordPointerType, type), stride, (uintptr_t)pointer); if (context) { VertexAttribType typePacked = PackParam(type); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexCoordPointer(context, angle::EntryPoint::GLTexCoordPointer, size, typePacked, stride, pointer)); if (isCallValid) { context->texCoordPointer(size, typePacked, stride, pointer); } ANGLE_CAPTURE_GL(TexCoordPointer, isCallValid, context, size, typePacked, stride, pointer); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnvf(GLenum target, GLenum pname, GLfloat param) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnvf, "context = %d, target = %s, pname = %s, param = %f", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), param); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnvf(context, angle::EntryPoint::GLTexEnvf, targetPacked, pnamePacked, param)); if (isCallValid) { context->texEnvf(targetPacked, pnamePacked, param); } ANGLE_CAPTURE_GL(TexEnvf, isCallValid, context, targetPacked, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnvfv(GLenum target, GLenum pname, const GLfloat *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnvfv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnvfv(context, angle::EntryPoint::GLTexEnvfv, targetPacked, pnamePacked, params)); if (isCallValid) { context->texEnvfv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(TexEnvfv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnvi(GLenum target, GLenum pname, GLint param) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnvi, "context = %d, target = %s, pname = %s, param = %d", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), param); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnvi(context, angle::EntryPoint::GLTexEnvi, targetPacked, pnamePacked, param)); if (isCallValid) { context->texEnvi(targetPacked, pnamePacked, param); } ANGLE_CAPTURE_GL(TexEnvi, isCallValid, context, targetPacked, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnviv(GLenum target, GLenum pname, const GLint *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnviv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnviv(context, angle::EntryPoint::GLTexEnviv, targetPacked, pnamePacked, params)); if (isCallValid) { context->texEnviv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(TexEnviv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnvx(GLenum target, GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnvx, "context = %d, target = %s, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), param); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnvx(context, angle::EntryPoint::GLTexEnvx, targetPacked, pnamePacked, param)); if (isCallValid) { context->texEnvx(targetPacked, pnamePacked, param); } ANGLE_CAPTURE_GL(TexEnvx, isCallValid, context, targetPacked, pnamePacked, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexEnvxv(GLenum target, GLenum pname, const GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexEnvxv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureEnvTarget, target), GLenumToString(GLESEnum::TextureEnvParameter, pname), (uintptr_t)params); if (context) { TextureEnvTarget targetPacked = PackParam(target); TextureEnvParameter pnamePacked = PackParam(pname); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexEnvxv(context, angle::EntryPoint::GLTexEnvxv, targetPacked, pnamePacked, params)); if (isCallValid) { context->texEnvxv(targetPacked, pnamePacked, params); } ANGLE_CAPTURE_GL(TexEnvxv, isCallValid, context, targetPacked, pnamePacked, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexParameterx(GLenum target, GLenum pname, GLfixed param) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexParameterx, "context = %d, target = %s, pname = %s, param = 0x%X", CID(context), GLenumToString(GLESEnum::TextureTarget, target), GLenumToString(GLESEnum::GetTextureParameter, pname), param); if (context) { TextureType targetPacked = PackParam(target); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexParameterx(context, angle::EntryPoint::GLTexParameterx, targetPacked, pname, param)); if (isCallValid) { context->texParameterx(targetPacked, pname, param); } ANGLE_CAPTURE_GL(TexParameterx, isCallValid, context, targetPacked, pname, param); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_TexParameterxv(GLenum target, GLenum pname, const GLfixed *params) { Context *context = GetValidGlobalContext(); EVENT(context, GLTexParameterxv, "context = %d, target = %s, pname = %s, params = 0x%016" PRIxPTR "", CID(context), GLenumToString(GLESEnum::TextureTarget, target), GLenumToString(GLESEnum::GetTextureParameter, pname), (uintptr_t)params); if (context) { TextureType targetPacked = PackParam(target); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTexParameterxv(context, angle::EntryPoint::GLTexParameterxv, targetPacked, pname, params)); if (isCallValid) { context->texParameterxv(targetPacked, pname, params); } ANGLE_CAPTURE_GL(TexParameterxv, isCallValid, context, targetPacked, pname, params); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Translatef(GLfloat x, GLfloat y, GLfloat z) { Context *context = GetValidGlobalContext(); EVENT(context, GLTranslatef, "context = %d, x = %f, y = %f, z = %f", CID(context), x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTranslatef(context, angle::EntryPoint::GLTranslatef, x, y, z)); if (isCallValid) { context->translatef(x, y, z); } ANGLE_CAPTURE_GL(Translatef, isCallValid, context, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_Translatex(GLfixed x, GLfixed y, GLfixed z) { Context *context = GetValidGlobalContext(); EVENT(context, GLTranslatex, "context = %d, x = 0x%X, y = 0x%X, z = 0x%X", CID(context), x, y, z); if (context) { SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateTranslatex(context, angle::EntryPoint::GLTranslatex, x, y, z)); if (isCallValid) { context->translatex(x, y, z); } ANGLE_CAPTURE_GL(Translatex, isCallValid, context, x, y, z); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } void GL_APIENTRY GL_VertexPointer(GLint size, GLenum type, GLsizei stride, const void *pointer) { Context *context = GetValidGlobalContext(); EVENT(context, GLVertexPointer, "context = %d, size = %d, type = %s, stride = %d, pointer = 0x%016" PRIxPTR "", CID(context), size, GLenumToString(GLESEnum::VertexPointerType, type), stride, (uintptr_t)pointer); if (context) { VertexAttribType typePacked = PackParam(type); SCOPED_SHARE_CONTEXT_LOCK(context); bool isCallValid = (context->skipValidation() || ValidateVertexPointer(context, angle::EntryPoint::GLVertexPointer, size, typePacked, stride, pointer)); if (isCallValid) { context->vertexPointer(size, typePacked, stride, pointer); } ANGLE_CAPTURE_GL(VertexPointer, isCallValid, context, size, typePacked, stride, pointer); } else { GenerateContextLostErrorOnCurrentGlobalContext(); } } } // extern "C"