kwin/libkwineffects/kwinglplatform.cpp

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/********************************************************************
KWin - the KDE window manager
This file is part of the KDE project.
Copyright (C) 2010 Fredrik Höglund <fredrik@kde.org>
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/>.
*********************************************************************/
#include "kwinglplatform.h"
#include <epoxy/gl.h>
#include <QRegExp>
#include <QStringList>
#include <QDebug>
#include <QOpenGLContext>
#include <sys/utsname.h>
#include <iostream>
#include <iomanip>
#include <ios>
namespace KWin
{
GLPlatform *GLPlatform::s_platform = 0;
static qint64 parseVersionString(const QByteArray &version)
{
// Skip any leading non digit
int start = 0;
while (start < version.length() && !QChar::fromLatin1(version[start]).isDigit())
start++;
// Strip any non digit, non '.' characters from the end
int end = start;
while (end < version.length() && (version[end] == '.' || QChar::fromLatin1(version[end]).isDigit()))
end++;
const QByteArray result = version.mid(start, end-start);
const QList<QByteArray> tokens = result.split('.');
const qint64 major = tokens.at(0).toInt();
const qint64 minor = tokens.count() > 1 ? tokens.at(1).toInt() : 0;
const qint64 patch = tokens.count() > 2 ? tokens.at(2).toInt() : 0;
return kVersionNumber(major, minor, patch);
}
static qint64 getXServerVersion()
{
qint64 major, minor, patch;
major = 0;
minor = 0;
patch = 0;
if (xcb_connection_t *c = connection()) {
auto setup = xcb_get_setup(c);
const QByteArray vendorName(xcb_setup_vendor(setup), xcb_setup_vendor_length(setup));
if (vendorName.contains("X.Org")) {
const int release = setup->release_number;
major = (release / 10000000);
minor = (release / 100000) % 100;
patch = (release / 1000) % 100;
}
}
return kVersionNumber(major, minor, patch);
}
static qint64 getKernelVersion()
{
struct utsname name;
uname(&name);
if (qstrcmp(name.sysname, "Linux") == 0)
return parseVersionString(name.release);
return 0;
}
// Extracts the portion of a string that matches a regular expression
static QString extract(const QString &string, const QString &match, int offset = 0)
{
QString result;
QRegExp rx(match);
int pos = rx.indexIn(string, offset);
if (pos != -1)
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result = string.mid(pos, rx.matchedLength());
return result;
}
static ChipClass detectRadeonClass(const QByteArray &chipset)
{
if (chipset.isEmpty())
return UnknownRadeon;
if (chipset.contains("R100") ||
chipset.contains("RV100") ||
chipset.contains("RS100"))
return R100;
if (chipset.contains("RV200") ||
chipset.contains("RS200") ||
chipset.contains("R200") ||
chipset.contains("RV250") ||
chipset.contains("RS300") ||
chipset.contains("RV280"))
return R200;
if (chipset.contains("R300") ||
chipset.contains("R350") ||
chipset.contains("R360") ||
chipset.contains("RV350") ||
chipset.contains("RV370") ||
chipset.contains("RV380"))
return R300;
if (chipset.contains("R420") ||
chipset.contains("R423") ||
chipset.contains("R430") ||
chipset.contains("R480") ||
chipset.contains("R481") ||
chipset.contains("RV410") ||
chipset.contains("RS400") ||
chipset.contains("RC410") ||
chipset.contains("RS480") ||
chipset.contains("RS482") ||
chipset.contains("RS600") ||
chipset.contains("RS690") ||
chipset.contains("RS740"))
return R400;
if (chipset.contains("RV515") ||
chipset.contains("R520") ||
chipset.contains("RV530") ||
chipset.contains("R580") ||
chipset.contains("RV560") ||
chipset.contains("RV570"))
return R500;
if (chipset.contains("R600") ||
chipset.contains("RV610") ||
chipset.contains("RV630") ||
chipset.contains("RV670") ||
chipset.contains("RV620") ||
chipset.contains("RV635") ||
chipset.contains("RS780") ||
chipset.contains("RS880"))
return R600;
if (chipset.contains("R700") ||
chipset.contains("RV770") ||
chipset.contains("RV730") ||
chipset.contains("RV710") ||
chipset.contains("RV740"))
return R700;
if (chipset.contains("EVERGREEN") || // Not an actual chipset, but returned by R600G in 7.9
chipset.contains("CEDAR") ||
chipset.contains("REDWOOD") ||
chipset.contains("JUNIPER") ||
chipset.contains("CYPRESS") ||
chipset.contains("HEMLOCK") ||
chipset.contains("PALM"))
return Evergreen;
if (chipset.contains("SUMO") ||
chipset.contains("SUMO2") ||
chipset.contains("BARTS") ||
chipset.contains("TURKS") ||
chipset.contains("CAICOS") ||
chipset.contains("CAYMAN"))
return NorthernIslands;
const QString chipset16 = QString::fromLatin1(chipset);
QString name = extract(chipset16, QStringLiteral("HD [0-9]{4}")); // HD followed by a space and 4 digits
if (!name.isEmpty()) {
const int id = name.rightRef(4).toInt();
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if (id == 6250 || id == 6310) // Palm
return Evergreen;
if (id >= 6000 && id < 7000)
return NorthernIslands; // HD 6xxx
if (id >= 5000 && id < 6000)
return Evergreen; // HD 5xxx
if (id >= 4000 && id < 5000)
return R700; // HD 4xxx
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if (id >= 2000 && id < 4000) // HD 2xxx/3xxx
return R600;
return UnknownRadeon;
}
name = extract(chipset16, QStringLiteral("X[0-9]{3,4}")); // X followed by 3-4 digits
if (!name.isEmpty()) {
const int id = name.midRef(1, -1).toInt();
// X1xxx
if (id >= 1300)
return R500;
// X7xx, X8xx, X12xx, 2100
if ((id >= 700 && id < 1000) || id >= 1200)
return R400;
// X200, X3xx, X5xx, X6xx, X10xx, X11xx
if ((id >= 300 && id < 700) || (id >= 1000 && id < 1200))
return R300;
return UnknownRadeon;
}
name = extract(chipset16, QStringLiteral("\\b[0-9]{4}\\b")); // A group of 4 digits
if (!name.isEmpty()) {
const int id = name.toInt();
// 7xxx
if (id >= 7000 && id < 8000)
return R100;
// 8xxx, 9xxx
if (id >= 8000 && id < 9500)
return R200;
// 9xxx
if (id >= 9500)
return R300;
if (id == 2100)
return R400;
}
return UnknownRadeon;
}
static ChipClass detectNVidiaClass(const QString &chipset)
{
QString name = extract(chipset, QStringLiteral("\\bNV[0-9,A-F]{2}\\b")); // NV followed by two hexadecimal digits
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if (!name.isEmpty()) {
const int id = chipset.midRef(2, -1).toInt(0, 16); // Strip the 'NV' from the id
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switch(id & 0xf0) {
case 0x00:
case 0x10:
return NV10;
case 0x20:
return NV20;
case 0x30:
return NV30;
case 0x40:
case 0x60:
return NV40;
case 0x50:
case 0x80:
case 0x90:
case 0xA0:
return G80;
default:
return UnknownNVidia;
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}
}
if (chipset.contains(QLatin1String("GeForce2")) || chipset.contains(QLatin1String("GeForce 256")))
return NV10;
if (chipset.contains(QLatin1String("GeForce3")))
return NV20;
if (chipset.contains(QLatin1String("GeForce4"))) {
if (chipset.contains(QLatin1String("MX 420")) ||
chipset.contains(QLatin1String("MX 440")) || // including MX 440SE
chipset.contains(QLatin1String("MX 460")) ||
chipset.contains(QLatin1String("MX 4000")) ||
chipset.contains(QLatin1String("PCX 4300")))
return NV10;
return NV20;
}
// GeForce 5,6,7,8,9
name = extract(chipset, QStringLiteral("GeForce (FX |PCX |Go )?\\d{4}(M|\\b)")).trimmed();
if (!name.isEmpty()) {
if (!name[name.length() - 1].isDigit())
name.chop(1);
const int id = name.rightRef(4).toInt();
if (id < 6000)
return NV30;
if (id >= 6000 && id < 8000)
return NV40;
if (id >= 8000)
return G80;
return UnknownNVidia;
}
// GeForce 100/200/300/400/500
name = extract(chipset, QStringLiteral("GeForce (G |GT |GTX |GTS )?\\d{3}(M|\\b)")).trimmed();
if (!name.isEmpty()) {
if (!name[name.length() - 1].isDigit())
name.chop(1);
const int id = name.rightRef(3).toInt();
if (id >= 100 && id < 600) {
if (id >= 400)
return GF100;
return G80;
}
return UnknownNVidia;
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}
return UnknownNVidia;
}
static inline ChipClass detectNVidiaClass(const QByteArray &chipset)
{
return detectNVidiaClass(QString::fromLatin1(chipset));
}
static ChipClass detectIntelClass(const QByteArray &chipset)
{
// see mesa repository: src/mesa/drivers/dri/intel/intel_context.c
// GL 1.3, DX8? SM ?
if (chipset.contains("845G") ||
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chipset.contains("830M") ||
chipset.contains("852GM/855GM") ||
chipset.contains("865G"))
return I8XX;
// GL 1.4, DX 9.0, SM 2.0
if (chipset.contains("915G") ||
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chipset.contains("E7221G") ||
chipset.contains("915GM") ||
chipset.contains("945G") || // DX 9.0c
chipset.contains("945GM") ||
chipset.contains("945GME") ||
chipset.contains("Q33") || // GL1.5
chipset.contains("Q35") ||
chipset.contains("G33") ||
chipset.contains("965Q") || // GMA 3000, but apparently considered gen 4 by the driver
chipset.contains("946GZ") || // GMA 3000, but apparently considered gen 4 by the driver
chipset.contains("IGD"))
return I915;
// GL 2.0, DX 9.0c, SM 3.0
if (chipset.contains("965G") ||
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chipset.contains("G45/G43") || // SM 4.0
chipset.contains("965GM") || // GL 2.1
chipset.contains("965GME/GLE") ||
chipset.contains("GM45") ||
chipset.contains("Q45/Q43") ||
chipset.contains("G41") ||
chipset.contains("B43") ||
chipset.contains("Ironlake"))
return I965;
// GL 3.1, CL 1.1, DX 10.1
if (chipset.contains("Sandybridge")) {
return SandyBridge;
}
// GL4.0, CL1.1, DX11, SM 5.0
if (chipset.contains("Ivybridge")) {
return IvyBridge;
}
// GL4.0, CL1.2, DX11.1, SM 5.0
if (chipset.contains("Haswell")) {
return Haswell;
}
return UnknownIntel;
}
static ChipClass detectQualcommClass(const QByteArray &chipClass)
{
if (!chipClass.contains("Adreno")) {
return UnknownChipClass;
}
const auto parts = chipClass.split(' ');
if (parts.count() < 3) {
return UnknownAdreno;
}
bool ok = false;
const int value = parts.at(2).toInt(&ok);
if (ok) {
if (value >= 100 && value < 200) {
return Adreno1XX;
}
if (value >= 200 && value < 300) {
return Adreno2XX;
}
if (value >= 300 && value < 400) {
return Adreno3XX;
}
if (value >= 400 && value < 500) {
return Adreno4XX;
}
if (value >= 500 && value < 600) {
return Adreno5XX;
}
}
return UnknownAdreno;
}
QString GLPlatform::versionToString(qint64 version)
{
return QString::fromLatin1(versionToString8(version));
}
QByteArray GLPlatform::versionToString8(qint64 version)
{
int major = (version >> 32);
int minor = (version >> 16) & 0xffff;
int patch = version & 0xffff;
QByteArray string = QByteArray::number(major) + '.' + QByteArray::number(minor);
if (patch != 0)
string += '.' + QByteArray::number(patch);
return string;
}
QString GLPlatform::driverToString(Driver driver)
{
return QString::fromLatin1(driverToString8(driver));
}
QByteArray GLPlatform::driverToString8(Driver driver)
{
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switch(driver) {
case Driver_R100:
return QByteArrayLiteral("Radeon");
case Driver_R200:
return QByteArrayLiteral("R200");
case Driver_R300C:
return QByteArrayLiteral("R300C");
case Driver_R300G:
return QByteArrayLiteral("R300G");
case Driver_R600C:
return QByteArrayLiteral("R600C");
case Driver_R600G:
return QByteArrayLiteral("R600G");
case Driver_Nouveau:
return QByteArrayLiteral("Nouveau");
case Driver_Intel:
return QByteArrayLiteral("Intel");
case Driver_NVidia:
return QByteArrayLiteral("NVIDIA");
case Driver_Catalyst:
return QByteArrayLiteral("Catalyst");
case Driver_Swrast:
return QByteArrayLiteral("Software rasterizer");
case Driver_Softpipe:
return QByteArrayLiteral("softpipe");
case Driver_Llvmpipe:
return QByteArrayLiteral("LLVMpipe");
case Driver_VirtualBox:
return QByteArrayLiteral("VirtualBox (Chromium)");
case Driver_VMware:
return QByteArrayLiteral("VMware (SVGA3D)");
case Driver_Qualcomm:
return QByteArrayLiteral("Qualcomm");
default:
return QByteArrayLiteral("Unknown");
}
}
QString GLPlatform::chipClassToString(ChipClass chipClass)
{
return QString::fromLatin1(chipClassToString8(chipClass));
}
QByteArray GLPlatform::chipClassToString8(ChipClass chipClass)
{
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switch(chipClass) {
case R100:
return QByteArrayLiteral("R100");
case R200:
return QByteArrayLiteral("R200");
case R300:
return QByteArrayLiteral("R300");
case R400:
return QByteArrayLiteral("R400");
case R500:
return QByteArrayLiteral("R500");
case R600:
return QByteArrayLiteral("R600");
case R700:
return QByteArrayLiteral("R700");
case Evergreen:
return QByteArrayLiteral("EVERGREEN");
case NorthernIslands:
return QByteArrayLiteral("NI");
case NV10:
return QByteArrayLiteral("NV10");
case NV20:
return QByteArrayLiteral("NV20");
case NV30:
return QByteArrayLiteral("NV30");
case NV40:
return QByteArrayLiteral("NV40/G70");
case G80:
return QByteArrayLiteral("G80/G90");
case GF100:
return QByteArrayLiteral("GF100");
case I8XX:
return QByteArrayLiteral("i830/i835");
case I915:
return QByteArrayLiteral("i915/i945");
case I965:
return QByteArrayLiteral("i965");
case SandyBridge:
return QByteArrayLiteral("SandyBridge");
case IvyBridge:
return QByteArrayLiteral("IvyBridge");
case Haswell:
return QByteArrayLiteral("Haswell");
case Adreno1XX:
return QByteArrayLiteral("Adreno 1xx series");
case Adreno2XX:
return QByteArrayLiteral("Adreno 2xx series");
case Adreno3XX:
return QByteArrayLiteral("Adreno 3xx series");
case Adreno4XX:
return QByteArrayLiteral("Adreno 4xx series");
case Adreno5XX:
return QByteArrayLiteral("Adreno 5xx series");
default:
return QByteArrayLiteral("Unknown");
}
}
// -------
GLPlatform::GLPlatform()
: m_driver(Driver_Unknown),
m_chipClass(UnknownChipClass),
m_recommendedCompositor(XRenderCompositing),
m_glVersion(0),
m_glslVersion(0),
m_mesaVersion(0),
m_driverVersion(0),
m_galliumVersion(0),
m_serverVersion(0),
m_kernelVersion(0),
m_looseBinding(false),
m_supportsGLSL(false),
m_limitedGLSL(false),
m_textureNPOT(false),
m_limitedNPOT(false),
m_virtualMachine(false),
m_preferBufferSubData(false),
m_platformInterface(NoOpenGLPlatformInterface),
m_gles(false)
{
}
GLPlatform::~GLPlatform()
{
}
void GLPlatform::detect(OpenGLPlatformInterface platformInterface)
{
m_platformInterface = platformInterface;
m_vendor = (const char*)glGetString(GL_VENDOR);
m_renderer = (const char*)glGetString(GL_RENDERER);
m_version = (const char*)glGetString(GL_VERSION);
// Parse the OpenGL version
const QList<QByteArray> versionTokens = m_version.split(' ');
if (versionTokens.count() > 0) {
const QByteArray version = QByteArray(m_version);
m_glVersion = parseVersionString(version);
if (platformInterface == EglPlatformInterface) {
// only EGL can have OpenGLES, GLX is OpenGL only
if (version.startsWith("OpenGL ES")) {
// from GLES 2: "Returns a version or release number of the form OpenGL<space>ES<space><version number><space><vendor-specific information>."
// from GLES 3: "Returns a version or release number." and "The version number uses one of these forms: major_number.minor_number major_number.minor_number.release_number"
m_gles = true;
}
}
}
if (!isGLES() && m_glVersion >= kVersionNumber(3, 0)) {
int count;
glGetIntegerv(GL_NUM_EXTENSIONS, &count);
for (int i = 0; i < count; i++) {
const char *name = (const char *) glGetStringi(GL_EXTENSIONS, i);
m_extensions.insert(name);
}
} else {
const QByteArray extensions = (const char *) glGetString(GL_EXTENSIONS);
m_extensions = QSet<QByteArray>::fromList(extensions.split(' '));
}
// Parse the Mesa version
const int mesaIndex = versionTokens.indexOf("Mesa");
if (mesaIndex != -1) {
const QByteArray version = versionTokens.at(mesaIndex + 1);
m_mesaVersion = parseVersionString(version);
}
if (isGLES()) {
m_supportsGLSL = true;
m_textureNPOT = true;
} else {
m_supportsGLSL = m_extensions.contains("GL_ARB_shader_objects") &&
m_extensions.contains("GL_ARB_fragment_shader") &&
m_extensions.contains("GL_ARB_vertex_shader");
m_textureNPOT = m_extensions.contains("GL_ARB_texture_non_power_of_two");
}
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m_serverVersion = getXServerVersion();
m_kernelVersion = getKernelVersion();
m_glslVersion = 0;
m_glsl_version.clear();
if (m_supportsGLSL) {
// Parse the GLSL version
m_glsl_version = (const char*)glGetString(GL_SHADING_LANGUAGE_VERSION);
m_glslVersion = parseVersionString(m_glsl_version);
}
m_chipset = QByteArrayLiteral("Unknown");
m_preferBufferSubData = false;
// Mesa classic drivers
// ====================================================
// Radeon
if (m_renderer.startsWith("Mesa DRI R")) {
// Sample renderer string: Mesa DRI R600 (RV740 94B3) 20090101 x86/MMX/SSE2 TCL DRI2
const QList<QByteArray> tokens = m_renderer.split(' ');
const QByteArray chipClass = tokens.at(2);
m_chipset = tokens.at(3).mid(1, -1); // Strip the leading '('
if (chipClass == "R100")
// Vendor: Tungsten Graphics, Inc.
m_driver = Driver_R100;
else if (chipClass == "R200")
// Vendor: Tungsten Graphics, Inc.
m_driver = Driver_R200;
else if (chipClass == "R300")
// Vendor: DRI R300 Project
m_driver = Driver_R300C;
else if (chipClass == "R600")
// Vendor: Advanced Micro Devices, Inc.
m_driver = Driver_R600C;
m_chipClass = detectRadeonClass(m_chipset);
}
// Intel
else if (m_renderer.contains("Intel")) {
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// Vendor: Tungsten Graphics, Inc.
// Sample renderer string: Mesa DRI Mobile Intel® GM45 Express Chipset GEM 20100328 2010Q1
QByteArray chipset;
if (m_renderer.startsWith("Intel(R) Integrated Graphics Device"))
chipset = "IGD";
else
chipset = m_renderer;
m_driver = Driver_Intel;
m_chipClass = detectIntelClass(chipset);
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}
// Properietary drivers
// ====================================================
else if (m_vendor == "ATI Technologies Inc.") {
m_chipClass = detectRadeonClass(m_renderer);
m_driver = Driver_Catalyst;
if (versionTokens.count() > 1 && versionTokens.at(2)[0] == '(')
m_driverVersion = parseVersionString(versionTokens.at(1));
else if (versionTokens.count() > 0)
m_driverVersion = parseVersionString(versionTokens.at(0));
else
m_driverVersion = 0;
}
else if (m_vendor == "NVIDIA Corporation") {
m_chipClass = detectNVidiaClass(m_renderer);
m_driver = Driver_NVidia;
int index = versionTokens.indexOf("NVIDIA");
if (versionTokens.count() > index)
m_driverVersion = parseVersionString(versionTokens.at(index + 1));
else
m_driverVersion = 0;
}
else if (m_vendor == "Qualcomm") {
m_driver = Driver_Qualcomm;
m_chipClass = detectQualcommClass(m_renderer);
}
else if (m_renderer == "Software Rasterizer") {
m_driver = Driver_Swrast;
}
// Virtual Hardware
// ====================================================
else if (m_vendor == "Humper" && m_renderer == "Chromium") {
// Virtual Box
m_driver = Driver_VirtualBox;
const int index = versionTokens.indexOf("Chromium");
if (versionTokens.count() > index)
m_driverVersion = parseVersionString(versionTokens.at(index + 1));
else
m_driverVersion = 0;
}
// Gallium drivers
// ====================================================
else {
const QList<QByteArray> tokens = m_renderer.split(' ');
if (m_renderer.contains("Gallium")) {
// Sample renderer string: Gallium 0.4 on AMD RV740
m_galliumVersion = parseVersionString(tokens.at(1));
m_chipset = (tokens.at(3) == "AMD" || tokens.at(3) == "ATI") ?
tokens.at(4) : tokens.at(3);
}
else {
// The renderer string does not contain "Gallium" anymore.
m_chipset = tokens.at(0);
// We don't know the actual version anymore, but it's at least 0.4.
m_galliumVersion = kVersionNumber(0, 4, 0);
}
// R300G
if (m_vendor == QByteArrayLiteral("X.Org R300 Project")) {
m_chipClass = detectRadeonClass(m_chipset);
m_driver = Driver_R300G;
}
// R600G
else if (m_vendor == "X.Org" &&
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(m_renderer.contains("R6") ||
m_renderer.contains("R7") ||
m_renderer.contains("RV6") ||
m_renderer.contains("RV7") ||
m_renderer.contains("RS780") ||
m_renderer.contains("RS880") ||
m_renderer.contains("CEDAR") ||
m_renderer.contains("REDWOOD") ||
m_renderer.contains("JUNIPER") ||
m_renderer.contains("CYPRESS") ||
m_renderer.contains("HEMLOCK") ||
m_renderer.contains("PALM") ||
m_renderer.contains("EVERGREEN") ||
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m_renderer.contains("SUMO") ||
m_renderer.contains("SUMO2") ||
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m_renderer.contains("BARTS") ||
m_renderer.contains("TURKS") ||
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m_renderer.contains("CAICOS") ||
m_renderer.contains("CAYMAN"))) {
m_chipClass = detectRadeonClass(m_chipset);
m_driver = Driver_R600G;
}
// Nouveau
else if (m_vendor == "nouveau") {
m_chipClass = detectNVidiaClass(m_chipset);
m_driver = Driver_Nouveau;
}
// softpipe
else if (m_vendor == "VMware, Inc." && m_chipset == "softpipe" ) {
m_driver = Driver_Softpipe;
}
// llvmpipe
else if (m_vendor == "VMware, Inc." && m_chipset == "llvmpipe") {
m_driver = Driver_Llvmpipe;
}
// SVGA3D
else if (m_vendor == "VMware, Inc." && m_chipset.contains("SVGA3D")) {
m_driver = Driver_VMware;
}
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}
// Driver/GPU specific features
// ====================================================
if (isRadeon()) {
// R200 technically has a programmable pipeline, but since it's SM 1.4,
// it's too limited to to be of any practical value to us.
if (m_chipClass < R300)
m_supportsGLSL = false;
m_limitedGLSL = false;
m_limitedNPOT = false;
if (m_chipClass < R600) {
if (driver() == Driver_Catalyst)
m_textureNPOT = m_limitedNPOT = false; // Software fallback
else if (driver() == Driver_R300G)
m_limitedNPOT = m_textureNPOT;
m_limitedGLSL = m_supportsGLSL;
}
if (m_chipClass < R300) {
// fallback to XRender for R100 and R200
m_recommendedCompositor = XRenderCompositing;
} else if (m_chipClass < R600) {
// XRender due to NPOT limitations not supported by KWin's shaders
m_recommendedCompositor = XRenderCompositing;
} else {
m_recommendedCompositor = OpenGL2Compositing;
}
if (driver() == Driver_R600G ||
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(driver() == Driver_R600C && m_renderer.contains("DRI2"))) {
m_looseBinding = true;
}
}
if (isNvidia()) {
if (m_driver == Driver_NVidia && m_chipClass < NV40)
m_supportsGLSL = false; // High likelihood of software emulation
if (m_driver == Driver_NVidia) {
m_looseBinding = true;
m_preferBufferSubData = true;
}
if (m_chipClass < NV40) {
m_recommendedCompositor = XRenderCompositing;
} else {
m_recommendedCompositor = OpenGL2Compositing;
}
m_limitedNPOT = m_textureNPOT && m_chipClass < NV40;
m_limitedGLSL = m_supportsGLSL && m_chipClass < G80;
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}
if (isIntel()) {
if (m_chipClass < I915)
m_supportsGLSL = false;
m_limitedGLSL = m_supportsGLSL && m_chipClass < I965;
// see https://bugs.freedesktop.org/show_bug.cgi?id=80349#c1
m_looseBinding = false;
if (m_chipClass < I915) {
m_recommendedCompositor = XRenderCompositing;
} else {
m_recommendedCompositor = OpenGL2Compositing;
}
}
if (isMesaDriver() && platformInterface == EglPlatformInterface) {
// According to the reference implementation in
// mesa/demos/src/egl/opengles1/texture_from_pixmap
// the mesa egl implementation does not require a strict binding (so far).
m_looseBinding = true;
}
if (isSoftwareEmulation()) {
if (m_driver < Driver_Llvmpipe) {
// we recommend XRender
m_recommendedCompositor = XRenderCompositing;
// Software emulation does not provide GLSL
m_limitedGLSL = m_supportsGLSL = false;
} else {
// llvmpipe does support GLSL
m_recommendedCompositor = OpenGL2Compositing;
m_limitedGLSL = false;
m_supportsGLSL = true;
}
}
if (m_driver == Driver_Qualcomm) {
if (m_chipClass == Adreno1XX) {
m_recommendedCompositor = NoCompositing;
} else {
// all other drivers support at least GLES 2
m_recommendedCompositor = OpenGL2Compositing;
}
}
if (m_chipClass == UnknownChipClass && m_driver == Driver_Unknown) {
// we don't know the hardware. Let's be optimistic and assume OpenGL compatible hardware
m_recommendedCompositor = OpenGL2Compositing;
m_supportsGLSL = true;
}
if (isVirtualBox()) {
m_virtualMachine = true;
m_recommendedCompositor = OpenGL2Compositing;
}
if (isVMware()) {
m_virtualMachine = true;
m_recommendedCompositor = OpenGL2Compositing;
}
// and force back to shader supported on gles, we wouldn't have got a context if not supported
if (isGLES()) {
m_supportsGLSL = true;
m_limitedGLSL = false;
}
}
static void print(const QByteArray &label, const QByteArray &setting)
{
std::cout << std::setw(40) << std::left
<< label.data() << setting.data() << std::endl;
}
void GLPlatform::printResults() const
{
print(QByteArrayLiteral("OpenGL vendor string:"), m_vendor);
print(QByteArrayLiteral("OpenGL renderer string:"), m_renderer);
print(QByteArrayLiteral("OpenGL version string:"), m_version);
if (m_supportsGLSL)
print(QByteArrayLiteral("OpenGL shading language version string:"), m_glsl_version);
print(QByteArrayLiteral("Driver:"), driverToString8(m_driver));
if (!isMesaDriver())
print(QByteArrayLiteral("Driver version:"), versionToString8(m_driverVersion));
print(QByteArrayLiteral("GPU class:"), chipClassToString8(m_chipClass));
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print(QByteArrayLiteral("OpenGL version:"), versionToString8(m_glVersion));
if (m_supportsGLSL)
print(QByteArrayLiteral("GLSL version:"), versionToString8(m_glslVersion));
if (isMesaDriver())
print(QByteArrayLiteral("Mesa version:"), versionToString8(mesaVersion()));
//if (galliumVersion() > 0)
// print("Gallium version:", versionToString(m_galliumVersion));
if (serverVersion() > 0)
print(QByteArrayLiteral("X server version:"), versionToString8(m_serverVersion));
if (kernelVersion() > 0)
print(QByteArrayLiteral("Linux kernel version:"), versionToString8(m_kernelVersion));
print(QByteArrayLiteral("Requires strict binding:"), !m_looseBinding ? QByteArrayLiteral("yes") : QByteArrayLiteral("no"));
print(QByteArrayLiteral("GLSL shaders:"), m_supportsGLSL ? (m_limitedGLSL ? QByteArrayLiteral("limited") : QByteArrayLiteral("yes")) : QByteArrayLiteral("no"));
print(QByteArrayLiteral("Texture NPOT support:"), m_textureNPOT ? (m_limitedNPOT ? QByteArrayLiteral("limited") : QByteArrayLiteral("yes")) : QByteArrayLiteral("no"));
print(QByteArrayLiteral("Virtual Machine:"), m_virtualMachine ? QByteArrayLiteral("yes") : QByteArrayLiteral("no"));
}
bool GLPlatform::supports(GLFeature feature) const
{
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switch(feature) {
case LooseBinding:
return m_looseBinding;
case GLSL:
return m_supportsGLSL;
case LimitedGLSL:
return m_limitedGLSL;
case TextureNPOT:
return m_textureNPOT;
case LimitedNPOT:
return m_limitedNPOT;
default:
return false;
}
}
qint64 GLPlatform::glVersion() const
{
return m_glVersion;
}
qint64 GLPlatform::glslVersion() const
{
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return m_glslVersion;
}
qint64 GLPlatform::mesaVersion() const
{
return m_mesaVersion;
}
qint64 GLPlatform::galliumVersion() const
{
return m_galliumVersion;
}
qint64 GLPlatform::serverVersion() const
{
return m_serverVersion;
}
qint64 GLPlatform::kernelVersion() const
{
return m_kernelVersion;
}
qint64 GLPlatform::driverVersion() const
{
if (isMesaDriver())
return mesaVersion();
return m_driverVersion;
}
Driver GLPlatform::driver() const
{
return m_driver;
}
ChipClass GLPlatform::chipClass() const
{
return m_chipClass;
}
bool GLPlatform::isMesaDriver() const
{
return mesaVersion() > 0;
}
bool GLPlatform::isGalliumDriver() const
{
return galliumVersion() > 0;
}
bool GLPlatform::isRadeon() const
{
return m_chipClass >= R100 && m_chipClass <= UnknownRadeon;
}
bool GLPlatform::isNvidia() const
{
return m_chipClass >= NV10 && m_chipClass <= UnknownNVidia;
}
bool GLPlatform::isIntel() const
{
return m_chipClass >= I8XX && m_chipClass <= UnknownIntel;
}
bool GLPlatform::isVirtualBox() const
{
return m_driver == Driver_VirtualBox;
}
bool GLPlatform::isVMware() const
{
return m_driver == Driver_VMware;
}
bool GLPlatform::isSoftwareEmulation() const
{
return m_driver == Driver_Softpipe || m_driver == Driver_Swrast || m_driver == Driver_Llvmpipe;
}
bool GLPlatform::isAdreno() const
{
return m_chipClass >= Adreno1XX && m_chipClass <= UnknownAdreno;
}
const QByteArray &GLPlatform::glRendererString() const
{
return m_renderer;
}
const QByteArray &GLPlatform::glVendorString() const
{
return m_vendor;
}
const QByteArray &GLPlatform::glVersionString() const
{
return m_version;
}
const QByteArray &GLPlatform::glShadingLanguageVersionString() const
{
return m_glsl_version;
}
bool GLPlatform::isLooseBinding() const
{
return m_looseBinding;
}
bool GLPlatform::isVirtualMachine() const
{
return m_virtualMachine;
}
CompositingType GLPlatform::recommendedCompositor() const
{
return m_recommendedCompositor;
}
bool GLPlatform::preferBufferSubData() const
{
return m_preferBufferSubData;
}
OpenGLPlatformInterface GLPlatform::platformInterface() const
{
return m_platformInterface;
}
bool GLPlatform::isGLES() const
{
return m_gles;
}
void GLPlatform::cleanup()
{
delete s_platform;
s_platform = nullptr;
}
} // namespace KWin