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kwin/glxbackend.cpp
Martin Gräßlin 476adac337 Do not resolve glx functions specified in GLX 1.3 
According to the OpenGL ABI for Linux GLX 1.3 is a minimum requirement.
Therefore we do not need to resolve the symbols which are present in that
version.

KWin did always require at least 1.3, for all the resolved functions
there were checks in the Scene, but they might have been incorrect.
Instead now the GLX version is checked and OpenGL compositing is blocked
if there is not at least GLX 1.3.

REVIEW: 106704
2012-10-04 17:17:51 +02:00

682 lines
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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2006 Lubos Lunak <l.lunak@kde.org>
Copyright (C) 2012 Martin Gräßlin <mgraesslin@kde.org>
Based on glcompmgr code by Felix Bellaby.
Using code from Compiz and Beryl.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*********************************************************************/
// TODO: cmake magic
#ifndef KWIN_HAVE_OPENGLES
// own
#include "glxbackend.h"
// kwin
#include "options.h"
#include "utils.h"
#include "overlaywindow.h"
// kwin libs
#include <kwinglplatform.h>
// KDE
#include <KDE/KDebug>
#include <KDE/KXErrorHandler>
namespace KWin
{
GlxBackend::GlxBackend()
: OpenGLBackend()
, glxbuffer(None)
{
init();
}
GlxBackend::~GlxBackend()
{
// TODO: cleanup in error case
// do cleanup after initBuffer()
cleanupGL();
glXMakeCurrent(display(), None, NULL);
glXDestroyContext(display(), ctxbuffer);
if (overlayWindow()->window()) {
if (hasGLXVersion(1, 3))
glXDestroyWindow(display(), glxbuffer);
XDestroyWindow(display(), buffer);
overlayWindow()->destroy();
} else {
glXDestroyPixmap(display(), glxbuffer);
XFreeGC(display(), gcroot);
XFreePixmap(display(), buffer);
}
checkGLError("Cleanup");
}
void GlxBackend::init()
{
initGLX();
// require at least GLX 1.3
if (!hasGLXVersion(1, 3)) {
setFailed("Requires at least GLX 1.3");
return;
}
if (!initDrawableConfigs()) {
setFailed("Could not initialize the drawable configs");
return;
}
if (!initBuffer()) {
setFailed("Could not initialize the buffer");
return;
}
if (!initRenderingContext()) {
setFailed("Could not initialize rendering context");
return;
}
// Initialize OpenGL
GLPlatform *glPlatform = GLPlatform::instance();
glPlatform->detect(GlxPlatformInterface);
glPlatform->printResults();
initGL(GlxPlatformInterface);
// Check whether certain features are supported
if (options->isGlVSync()) {
if (glXGetVideoSync && glXSwapInterval && glXIsDirect(display(), ctxbuffer)) {
unsigned int sync;
if (glXGetVideoSync(&sync) == 0) {
if (glXWaitVideoSync(1, 0, &sync) == 0) {
// NOTICE at this time we should actually check whether we can successfully
// deactivate the swapInterval "glXSwapInterval(0) == 0"
// (because we don't actually want it active unless we explicitly run a glXSwapBuffers)
// However mesa/dri will return a range error (6) because deactivating the
// swapinterval (as of today) seems completely unsupported
setHasWaitSync(true);
glXSwapInterval(0);
}
else
qWarning() << "NO VSYNC! glXWaitVideoSync(1,0,&uint) isn't 0 but" << glXWaitVideoSync(1, 0, &sync);
} else
qWarning() << "NO VSYNC! glXGetVideoSync(&uint) isn't 0 but" << glXGetVideoSync(&sync);
} else
qWarning() << "NO VSYNC! glXGetVideoSync, glXSwapInterval, glXIsDirect" <<
bool(glXGetVideoSync) << bool(glXSwapInterval) << glXIsDirect(display(), ctxbuffer);
}
setIsDirectRendering(bool(glXIsDirect(display(), ctxbuffer)));
kDebug(1212) << "DB:" << isDoubleBuffer() << ", Direct:" << isDirectRendering() << endl;
}
bool GlxBackend::initRenderingContext()
{
bool direct_rendering = options->isGlDirect();
KXErrorHandler errs1;
ctxbuffer = glXCreateNewContext(display(), fbcbuffer, GLX_RGBA_TYPE, NULL,
direct_rendering ? GL_TRUE : GL_FALSE);
bool failed = (ctxbuffer == NULL || !glXMakeCurrent(display(), glxbuffer, ctxbuffer));
if (errs1.error(true)) // always check for error( having it all in one if () could skip
failed = true; // it due to evaluation short-circuiting
if (failed) {
if (!direct_rendering) {
kDebug(1212).nospace() << "Couldn't initialize rendering context ("
<< KXErrorHandler::errorMessage(errs1.errorEvent()) << ")";
return false;
}
glXMakeCurrent(display(), None, NULL);
if (ctxbuffer != NULL)
glXDestroyContext(display(), ctxbuffer);
direct_rendering = false; // try again
KXErrorHandler errs2;
ctxbuffer = glXCreateNewContext(display(), fbcbuffer, GLX_RGBA_TYPE, NULL, GL_FALSE);
bool failed = (ctxbuffer == NULL || !glXMakeCurrent(display(), glxbuffer, ctxbuffer));
if (errs2.error(true))
failed = true;
if (failed) {
kDebug(1212).nospace() << "Couldn't initialize rendering context ("
<< KXErrorHandler::errorMessage(errs2.errorEvent()) << ")";
return false;
}
}
return true;
}
bool GlxBackend::initBuffer()
{
if (!initBufferConfigs())
return false;
if (fbcbuffer_db != NULL && overlayWindow()->create()) {
// we have overlay, try to create double-buffered window in it
fbcbuffer = fbcbuffer_db;
XVisualInfo* visual = glXGetVisualFromFBConfig(display(), fbcbuffer);
XSetWindowAttributes attrs;
attrs.colormap = XCreateColormap(display(), rootWindow(), visual->visual, AllocNone);
buffer = XCreateWindow(display(), overlayWindow()->window(), 0, 0, displayWidth(), displayHeight(),
0, visual->depth, InputOutput, visual->visual, CWColormap, &attrs);
if (hasGLXVersion(1, 3))
glxbuffer = glXCreateWindow(display(), fbcbuffer, buffer, NULL);
else
glxbuffer = buffer;
overlayWindow()->setup(buffer);
setDoubleBuffer(true);
XFree(visual);
} else if (fbcbuffer_nondb != NULL) {
// cannot get any double-buffered drawable, will double-buffer using a pixmap
fbcbuffer = fbcbuffer_nondb;
XVisualInfo* visual = glXGetVisualFromFBConfig(display(), fbcbuffer);
XGCValues gcattr;
gcattr.subwindow_mode = IncludeInferiors;
gcroot = XCreateGC(display(), rootWindow(), GCSubwindowMode, &gcattr);
buffer = XCreatePixmap(display(), rootWindow(), displayWidth(), displayHeight(),
visual->depth);
glxbuffer = glXCreatePixmap(display(), fbcbuffer, buffer, NULL);
setDoubleBuffer(false);
XFree(visual);
} else {
kError(1212) << "Couldn't create output buffer (failed to create overlay window?) !";
return false; // error
}
int vis_buffer;
glXGetFBConfigAttrib(display(), fbcbuffer, GLX_VISUAL_ID, &vis_buffer);
XVisualInfo* visinfo_buffer = glXGetVisualFromFBConfig(display(), fbcbuffer);
kDebug(1212) << "Buffer visual (depth " << visinfo_buffer->depth << "): 0x" << QString::number(vis_buffer, 16);
XFree(visinfo_buffer);
return true;
}
bool GlxBackend::initBufferConfigs()
{
int cnt;
GLXFBConfig *fbconfigs = glXGetFBConfigs(display(), DefaultScreen(display()), &cnt);
fbcbuffer_db = NULL;
fbcbuffer_nondb = NULL;
for (int i = 0; i < 2; i++) {
int back, stencil, depth, caveat, alpha;
back = i > 0 ? INT_MAX : 1;
stencil = INT_MAX;
depth = INT_MAX;
caveat = INT_MAX;
alpha = 0;
for (int j = 0; j < cnt; j++) {
XVisualInfo *vi;
int visual_depth;
vi = glXGetVisualFromFBConfig(display(), fbconfigs[ j ]);
if (vi == NULL)
continue;
visual_depth = vi->depth;
XFree(vi);
if (visual_depth != DefaultDepth(display(), DefaultScreen(display())))
continue;
int value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_ALPHA_SIZE, &alpha);
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_BUFFER_SIZE, &value);
if (value != visual_depth && (value - alpha) != visual_depth)
continue;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_RENDER_TYPE, &value);
if (!(value & GLX_RGBA_BIT))
continue;
int back_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_DOUBLEBUFFER, &back_value);
if (i > 0) {
if (back_value > back)
continue;
} else {
if (back_value < back)
continue;
}
int stencil_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_STENCIL_SIZE, &stencil_value);
if (stencil_value > stencil)
continue;
int depth_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_DEPTH_SIZE, &depth_value);
if (depth_value > depth)
continue;
int caveat_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_CONFIG_CAVEAT, &caveat_value);
if (caveat_value > caveat)
continue;
back = back_value;
stencil = stencil_value;
depth = depth_value;
caveat = caveat_value;
if (i > 0)
fbcbuffer_nondb = fbconfigs[ j ];
else
fbcbuffer_db = fbconfigs[ j ];
}
}
if (cnt)
XFree(fbconfigs);
if (fbcbuffer_db == NULL && fbcbuffer_nondb == NULL) {
kError(1212) << "Couldn't find framebuffer configuration for buffer!";
return false;
}
for (int i = 0; i <= 32; i++) {
if (fbcdrawableinfo[ i ].fbconfig == NULL)
continue;
int vis_drawable = 0;
glXGetFBConfigAttrib(display(), fbcdrawableinfo[ i ].fbconfig, GLX_VISUAL_ID, &vis_drawable);
kDebug(1212) << "Drawable visual (depth " << i << "): 0x" << QString::number(vis_drawable, 16);
}
return true;
}
bool GlxBackend::initDrawableConfigs()
{
int cnt;
GLXFBConfig *fbconfigs = glXGetFBConfigs(display(), DefaultScreen(display()), &cnt);
for (int i = 0; i <= 32; i++) {
int back, stencil, depth, caveat, alpha, mipmap, rgba;
back = INT_MAX;
stencil = INT_MAX;
depth = INT_MAX;
caveat = INT_MAX;
mipmap = 0;
rgba = 0;
fbcdrawableinfo[ i ].fbconfig = NULL;
fbcdrawableinfo[ i ].bind_texture_format = 0;
fbcdrawableinfo[ i ].texture_targets = 0;
fbcdrawableinfo[ i ].y_inverted = 0;
fbcdrawableinfo[ i ].mipmap = 0;
for (int j = 0; j < cnt; j++) {
XVisualInfo *vi;
int visual_depth;
vi = glXGetVisualFromFBConfig(display(), fbconfigs[ j ]);
if (vi == NULL)
continue;
visual_depth = vi->depth;
XFree(vi);
if (visual_depth != i)
continue;
int value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_ALPHA_SIZE, &alpha);
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_BUFFER_SIZE, &value);
if (value != i && (value - alpha) != i)
continue;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_RENDER_TYPE, &value);
if (!(value & GLX_RGBA_BIT))
continue;
value = 0;
if (i == 32) {
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_BIND_TO_TEXTURE_RGBA_EXT, &value);
if (value) {
// TODO I think this should be set only after the config passes all tests
rgba = 1;
fbcdrawableinfo[ i ].bind_texture_format = GLX_TEXTURE_FORMAT_RGBA_EXT;
}
}
if (!value) {
if (rgba)
continue;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_BIND_TO_TEXTURE_RGB_EXT, &value);
if (!value)
continue;
fbcdrawableinfo[ i ].bind_texture_format = GLX_TEXTURE_FORMAT_RGB_EXT;
}
int back_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_DOUBLEBUFFER, &back_value);
if (back_value > back)
continue;
int stencil_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_STENCIL_SIZE, &stencil_value);
if (stencil_value > stencil)
continue;
int depth_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_DEPTH_SIZE, &depth_value);
if (depth_value > depth)
continue;
int caveat_value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_CONFIG_CAVEAT, &caveat_value);
if (caveat_value > caveat)
continue;
// ok, config passed all tests, it's the best one so far
fbcdrawableinfo[ i ].fbconfig = fbconfigs[ j ];
caveat = caveat_value;
back = back_value;
stencil = stencil_value;
depth = depth_value;
mipmap = 0;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_BIND_TO_TEXTURE_TARGETS_EXT, &value);
fbcdrawableinfo[ i ].texture_targets = value;
glXGetFBConfigAttrib(display(), fbconfigs[ j ],
GLX_Y_INVERTED_EXT, &value);
fbcdrawableinfo[ i ].y_inverted = value;
fbcdrawableinfo[ i ].mipmap = mipmap;
}
}
if (cnt)
XFree(fbconfigs);
if (fbcdrawableinfo[ DefaultDepth(display(), DefaultScreen(display()))].fbconfig == NULL) {
kError(1212) << "Couldn't find framebuffer configuration for default depth!";
return false;
}
if (fbcdrawableinfo[ 32 ].fbconfig == NULL) {
kError(1212) << "Couldn't find framebuffer configuration for depth 32 (no ARGB GLX visual)!";
return false;
}
return true;
}
#define VSYNC_DEBUG 0
void GlxBackend::waitSync()
{
// NOTE that vsync has no effect with indirect rendering
if (waitSyncAvailable()) {
#if VSYNC_DEBUG
startRenderTimer();
#endif
uint sync;
#if 0
// TODO: why precisely is this important?
// the sync counter /can/ perform multiple steps during glXGetVideoSync & glXWaitVideoSync
// but this only leads to waiting for two frames??!?
glXGetVideoSync(&sync);
glXWaitVideoSync(2, (sync + 1) % 2, &sync);
#else
glXWaitVideoSync(1, 0, &sync);
#endif
#if VSYNC_DEBUG
static int waitTime = 0, waitCounter = 0, doubleSyncCounter = 0;
if (renderTime() > 11)
++doubleSyncCounter;
waitTime += renderTime();
++waitCounter;
if (waitCounter > 99)
{
qDebug() << "mean vsync wait time:" << float((float)waitTime / (float)waitCounter) << doubleSyncCounter << "/100";
doubleSyncCounter = waitTime = waitCounter = 0;
}
#endif
}
startRenderTimer(); // yes, the framerate shall be constant anyway.
}
#undef VSYNC_DEBUG
void GlxBackend::flushBuffer()
{
if (isDoubleBuffer()) {
if (lastMask() & Scene::PAINT_SCREEN_REGION) {
waitSync();
if (glXCopySubBuffer) {
foreach (const QRect & r, lastDamage().rects()) {
// convert to OpenGL coordinates
int y = displayHeight() - r.y() - r.height();
glXCopySubBuffer(display(), glxbuffer, r.x(), y, r.width(), r.height());
}
} else {
// if a shader is bound or the texture unit is enabled, copy pixels results in a black screen
// therefore unbind the shader and restore after copying the pixels
GLint shader = 0;
if (ShaderManager::instance()->isShaderBound()) {
glGetIntegerv(GL_CURRENT_PROGRAM, &shader);
glUseProgram(0);
}
bool reenableTexUnit = false;
if (glIsEnabled(GL_TEXTURE_2D)) {
glDisable(GL_TEXTURE_2D);
reenableTexUnit = true;
}
// no idea why glScissor() is used, but Compiz has it and it doesn't seem to hurt
glEnable(GL_SCISSOR_TEST);
glDrawBuffer(GL_FRONT);
int xpos = 0;
int ypos = 0;
foreach (const QRect & r, lastDamage().rects()) {
// convert to OpenGL coordinates
int y = displayHeight() - r.y() - r.height();
// Move raster position relatively using glBitmap() rather
// than using glRasterPos2f() - the latter causes drawing
// artefacts at the bottom screen edge with some gfx cards
// glRasterPos2f( r.x(), r.y() + r.height());
glBitmap(0, 0, 0, 0, r.x() - xpos, y - ypos, NULL);
xpos = r.x();
ypos = y;
glScissor(r.x(), y, r.width(), r.height());
glCopyPixels(r.x(), y, r.width(), r.height(), GL_COLOR);
}
glBitmap(0, 0, 0, 0, -xpos, -ypos, NULL); // move position back to 0,0
glDrawBuffer(GL_BACK);
glDisable(GL_SCISSOR_TEST);
if (reenableTexUnit) {
glEnable(GL_TEXTURE_2D);
}
// rebind previously bound shader
if (ShaderManager::instance()->isShaderBound()) {
glUseProgram(shader);
}
}
} else {
if (glXSwapInterval) {
glXSwapInterval(options->isGlVSync() ? 1 : 0);
glXSwapBuffers(display(), glxbuffer);
glXSwapInterval(0);
startRenderTimer(); // this is important so we don't assume to be loosing frames in the compositor timing calculation
} else {
waitSync();
glXSwapBuffers(display(), glxbuffer);
}
}
glXWaitGL();
} else {
glXWaitGL();
if (lastMask() & Scene::PAINT_SCREEN_REGION)
foreach (const QRect & r, lastDamage().rects())
XCopyArea(display(), buffer, rootWindow(), gcroot, r.x(), r.y(), r.width(), r.height(), r.x(), r.y());
else
XCopyArea(display(), buffer, rootWindow(), gcroot, 0, 0, displayWidth(), displayHeight(), 0, 0);
}
XFlush(display());
}
void GlxBackend::screenGeometryChanged(const QSize &size)
{
if (overlayWindow()->window() == None) {
glXMakeCurrent(display(), None, NULL);
glXDestroyPixmap(display(), glxbuffer);
XFreePixmap(display(), buffer);
XVisualInfo* visual = glXGetVisualFromFBConfig(display(), fbcbuffer);
buffer = XCreatePixmap(display(), rootWindow(), size.width(), size.height(), visual->depth);
XFree(visual);
glxbuffer = glXCreatePixmap(display(), fbcbuffer, buffer, NULL);
glXMakeCurrent(display(), glxbuffer, ctxbuffer);
// TODO: there seems some bug, some clients become black until an eg. un/remap - could be a general pixmap buffer issue, though
} else {
glXMakeCurrent(display(), None, NULL); // deactivate context ////
XMoveResizeWindow(display(), buffer, 0,0, size.width(), size.height());
overlayWindow()->setup(buffer);
XSync(display(), false); // ensure X11 stuff has applied ////
glXMakeCurrent(display(), glxbuffer, ctxbuffer); // reactivate context ////
glViewport(0,0, size.width(), size.height()); // adjust viewport last - should btw. be superfluous on the Pixmap buffer - iirc glXCreatePixmap sets the context anyway. ////
}
}
SceneOpenGL::TexturePrivate *GlxBackend::createBackendTexture(SceneOpenGL::Texture *texture)
{
return new GlxTexture(texture, this);
}
void GlxBackend::prepareRenderingFrame()
{
if (!lastDamage().isEmpty())
flushBuffer();
glXWaitX();
}
void GlxBackend::endRenderingFrame(int mask, const QRegion &damage)
{
setLastDamage(damage);
setLastMask(mask);
glFlush();
if (overlayWindow()->window()) // show the window only after the first pass,
overlayWindow()->show(); // since that pass may take long
}
/********************************************************
* GlxTexture
*******************************************************/
GlxTexture::GlxTexture(SceneOpenGL::Texture *texture, GlxBackend *backend)
: SceneOpenGL::TexturePrivate()
, q(texture)
, m_backend(backend)
, m_glxpixmap(None)
{
}
GlxTexture::~GlxTexture()
{
if (m_glxpixmap != None) {
if (!options->isGlStrictBinding()) {
glXReleaseTexImageEXT(display(), m_glxpixmap, GLX_FRONT_LEFT_EXT);
}
glXDestroyPixmap(display(), m_glxpixmap);
m_glxpixmap = None;
}
}
void GlxTexture::onDamage()
{
if (options->isGlStrictBinding() && m_glxpixmap) {
glXReleaseTexImageEXT(display(), m_glxpixmap, GLX_FRONT_LEFT_EXT);
glXBindTexImageEXT(display(), m_glxpixmap, GLX_FRONT_LEFT_EXT, NULL);
}
GLTexturePrivate::onDamage();
}
void GlxTexture::findTarget()
{
unsigned int new_target = 0;
if (glXQueryDrawable && m_glxpixmap != None)
glXQueryDrawable(display(), m_glxpixmap, GLX_TEXTURE_TARGET_EXT, &new_target);
// HACK: this used to be a hack for Xgl.
// without this hack the NVIDIA blob aborts when trying to bind a texture from
// a pixmap icon
if (new_target == 0) {
if (GLTexture::NPOTTextureSupported() ||
(isPowerOfTwo(m_size.width()) && isPowerOfTwo(m_size.height()))) {
new_target = GLX_TEXTURE_2D_EXT;
} else {
new_target = GLX_TEXTURE_RECTANGLE_EXT;
}
}
switch(new_target) {
case GLX_TEXTURE_2D_EXT:
m_target = GL_TEXTURE_2D;
m_scale.setWidth(1.0f / m_size.width());
m_scale.setHeight(1.0f / m_size.height());
break;
case GLX_TEXTURE_RECTANGLE_EXT:
m_target = GL_TEXTURE_RECTANGLE_ARB;
m_scale.setWidth(1.0f);
m_scale.setHeight(1.0f);
break;
default:
abort();
}
}
bool GlxTexture::loadTexture(const Pixmap& pix, const QSize& size, int depth)
{
#ifdef CHECK_GL_ERROR
checkGLError("TextureLoad1");
#endif
if (pix == None || size.isEmpty() || depth < 1)
return false;
if (m_backend->fbcdrawableinfo[ depth ].fbconfig == NULL) {
kDebug(1212) << "No framebuffer configuration for depth " << depth
<< "; not binding pixmap" << endl;
return false;
}
m_size = size;
// new texture, or texture contents changed; mipmaps now invalid
q->setDirty();
#ifdef CHECK_GL_ERROR
checkGLError("TextureLoad2");
#endif
// tfp mode, simply bind the pixmap to texture
glGenTextures(1, &m_texture);
// The GLX pixmap references the contents of the original pixmap, so it doesn't
// need to be recreated when the contents change.
// The texture may or may not use the same storage depending on the EXT_tfp
// implementation. When options->glStrictBinding is true, the texture uses
// a different storage and needs to be updated with a call to
// glXBindTexImageEXT() when the contents of the pixmap has changed.
int attrs[] = {
GLX_TEXTURE_FORMAT_EXT, m_backend->fbcdrawableinfo[ depth ].bind_texture_format,
GLX_MIPMAP_TEXTURE_EXT, m_backend->fbcdrawableinfo[ depth ].mipmap > 0,
None, None, None
};
// Specifying the texture target explicitly is reported to cause a performance
// regression with R300G (see bug #256654).
if (GLPlatform::instance()->driver() != Driver_R300G) {
if ((m_backend->fbcdrawableinfo[ depth ].texture_targets & GLX_TEXTURE_2D_BIT_EXT) &&
(GLTexture::NPOTTextureSupported() ||
(isPowerOfTwo(size.width()) && isPowerOfTwo(size.height())))) {
attrs[ 4 ] = GLX_TEXTURE_TARGET_EXT;
attrs[ 5 ] = GLX_TEXTURE_2D_EXT;
} else if (m_backend->fbcdrawableinfo[ depth ].texture_targets & GLX_TEXTURE_RECTANGLE_BIT_EXT) {
attrs[ 4 ] = GLX_TEXTURE_TARGET_EXT;
attrs[ 5 ] = GLX_TEXTURE_RECTANGLE_EXT;
}
}
m_glxpixmap = glXCreatePixmap(display(), m_backend->fbcdrawableinfo[ depth ].fbconfig, pix, attrs);
#ifdef CHECK_GL_ERROR
checkGLError("TextureLoadTFP1");
#endif
findTarget();
m_yInverted = m_backend->fbcdrawableinfo[ depth ].y_inverted ? true : false;
m_canUseMipmaps = m_backend->fbcdrawableinfo[ depth ].mipmap > 0;
q->setFilter(m_backend->fbcdrawableinfo[ depth ].mipmap > 0 ? GL_NEAREST_MIPMAP_LINEAR : GL_NEAREST);
glBindTexture(m_target, m_texture);
#ifdef CHECK_GL_ERROR
checkGLError("TextureLoadTFP2");
#endif
glXBindTexImageEXT(display(), m_glxpixmap, GLX_FRONT_LEFT_EXT, NULL);
#ifdef CHECK_GL_ERROR
checkGLError("TextureLoad0");
#endif
unbind();
return true;
}
OpenGLBackend *GlxTexture::backend()
{
return m_backend;
}
} // namespace
#endif
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