This document describes how to build, port, and run the OpenGL and OpenGL ES 2.0/3.X conformance tests, and how to verify and submit test results.
The Conformance Tests are built on dEQP framework. dEQP documentation is available at http://source.android.com/devices/graphics/testing.html
The OpenGL and OpenGL ES Conformance Tests are expanded versions of the OpenGL ES 2.x Conformance Test. Much of the development was done by Symbio, Inc. under a contract with The Khronos Group. drawElements donated a considerable number of new tests and a new execution framework for version 1.1. The tests are built from the same source code base, although some individual feature tests are specific to OpenGL or OpenGL ES and their specification versions, and compilation options differing between OpenGL and OpenGL ES affect how the tests are compiled and executed in some cases.
This document contains instructions for certifying conformance of implementations of the OpenGL and OpenGL ES APIs. The steps of the process are as follows:
This document describes each of these steps in detail. It also provides advice on reproducing, understanding, and debugging test failures, and discusses how to extend or modify the tests and the test framework.
The reader is assumed to be a fluent programmer experienced with command line utilities and build tools, such as CMake or Make.
The conformance tests require a file system. The file system requires support for long file names (i.e. > 8.3 name format). Source files in the conformance tests use mixed case file names. When the --verbose
option is used, rendered images and test case shaders are copied to the log files. This can lead to quite large log files, up to hundreds of megabytes on disk.
Each execution of the conformance test writes a text-format results log to a disk. You will need to include this log as part of your conformance submission package.
The conformance test executable can be large. Compiler options and CPU instruction sets can cause substantial variation. The disk space required for the build including all the temporary files can be up to 400MB.
The build environment is expected to support C++ with exceptions and the Standard Template Library (STL).
The CTS is built via CMake build system. The requirements for the build are as follows:
The build is controlled by the file CMakeLists.txt found at the root of the CTS source.
If the platform and compiler tools you use are not supported, you may be able to add support for that platform and tools to the build system. If you do this, please submit your changes back to Khronos for inclusion in the official tests going forward.
Otherwise, if you choose not to use the supplied Makefiles, you must construct an equivalent build system for the chosen development environment(s).
The build is configured by using CMakeLists.txt
files in the build target directory (targets/
). They specify platform-specific configuration, including include paths and link libraries.
The main CMakeLists.txt
includes the target file based on the DEQP_TARGET
variable. For example -DDEQP_TARGET=my_target
will use the target description file targets/my_target/my_target.cmake
.
See the main CMakeLists.txt
file for the description of the variables that the target file can set.
Porting to a new platform includes either creating a new target file, or modifying an existing target description.
NOTE: All paths, except TCUTIL_PLATFORM_SRCS
are relative to root source directory. TCUTIL_PLATFORM_SRCS
is relative to framework/platform
directory.
Following target files are provided with the package:
Name | Description |
---|---|
android | Used in Android build. Requires use of suitable toolchain file (see cmake/ directory) |
default | Checks for presence of GL, ES2, ES3, and EGL libraries and headers in default search paths and configures build accordingly |
null | Null build target |
nullws | NullWS build target |
x11_egl | X11 build for platforms with native EGL support |
x11_glx | X11 build for platforms with native GLX support |
x11_egl_glx | X11 build for platforms with native EGL/GLX support |
Example target file (targets/null/null.cmake):
message("*** Using null context target") set(DEQP_TARGET_NAME "Null") set(TCUTIL_PLATFORM_SRCS null/tcuNullPlatform.cpp null/tcuNullPlatform.hpp null/tcuNullRenderContext.cpp null/tcuNullRenderContext.hpp null/tcuNullContextFactory.cpp null/tcuNullContextFactory.hpp )
Common configuration variables and their default values in CMake syntax:
set(DEQP_TARGET_NAME "UNKNOWN")
set(DEQP_GLES2_LIBRARIES ) set(DEQP_GLES3_LIBRARIES ) set(DEQP_GLES31_LIBRARIES ) set(DEQP_GLES32_LIBRARIES ) set(DEQP_EGL_LIBRARIES ) set(DEQP_OPENGL_LIBRARIES )
set(DEQP_PLATFORM_LIBRARIES )
set(DEQP_PLATFORM_COPY_LIBRARIES )
set(DEQP_USE_X11 OFF)
cd external/kc-cts/src/GTF_ES/glsl/GTF perl mergeTestFilesToCSource.pl
In your target .cmake
file add
set(DEQP_EMBED_TESTS ON) add_definitions(-DHKEMBEDDEDFILESYSTEM)
To build the framework, you need first to download sources for zlib, libpng, glslang, spirv-headers, and spirv-tools.
To download sources, run:
python external/fetch_sources.py
For OpenGL CTS releases, and OpenGL ES CTS releases prior to opengl-es-cts-3.2.4.0 download Khronos Confidential Conformance Test Suite:
python external/fetch_kc_cts.py
For OpenGL CTS releases, and OpenGL ES CTS releases prior to opengl-es-cts-3.2.4.0 the results for the tests included in this suite must be included in a conformance submission.
NOTE: You need to be a Khronos Adopter and have an active account at Khronos Gitlab to be able to download Khronos Confidential CTS. It is possible to run and build the CTS without the Khronos Confidential CTS. For OpenGL CTS releases, and OpenGL ES CTS releases prior to opengl-es-cts-3.2.4.0 Khronos Confidential CTS is mandatory if you plan to make a conformance submission (see Creating a Submission Package). For opengl-es-cts-3.2.4.0 and later OpenGL ES CTS releases Khronos Confidential CTS results must not be included in a submission package.
With CMake out-of-source builds are always recommended. Create a build directory of your choosing, and in that directory generate Makefiles or IDE project using Cmake.
Requirements:
To choose the backend build system for CMake, choose one of the following Generator Names for the command line examples in the next steps:
Building GL, ES2, or ES3.x conformance tests:
cmake <path to openglcts> -DDEQP_TARGET=default -G"<Generator Name>" cmake --build .
Khronos Confidential CTS doesn't support run-time selection of API context. If you intend to run it you need to additionally supply GLCTS_GTF_TARGET
option to you cmake command, e.g.:
cmake <path to openglcts> -DDEQP_TARGET=default -DGLCTS_GTF_TARGET=<target> -G"<Generator Name>"
Available <target>
s are gles2
, gles3
, gles31
, gles32
, and gl
. The default <target>
is gles32
.
It's also possible to build GL-CTS.sln
in Visual Studio instead of running the cmake --build .
command.
NOTE: Do not create the build directory under the source directory (i.e anywhere under <path to openglcts>
) on Windows, since it causes random build failures when copying data files around.
NOTE: You can use the CMake for Windows GUI to do configuration and project file generation.
NOTE: If using cygwin, you must install and ensure you use the Windows version of cmake. The cygwin vesion does not contain the Visual Studio generators. Here is a shell function you can put in your cygwin .bash_profile
to use it easily. With this you can simply type wcmake
to run the Windows version.
function wcmake () { (TMP=$tmp TEMP=$temp; unset tmp; unset temp; "C:/Program Files (x86)/CMake 2.8/bin/cmake" "$@") }
Required tools:
Building ES2 or ES3.x conformance tests:
cmake <path to openglcts> -DDEQP_TARGET=null -DGLCTS_GTF_TARGET=gles32 cmake --build .
Building OpenGL conformance tests:
cmake <path to openglcts> -DDEQP_TARGET=null -DGLCTS_GTF_TARGET=gl cmake --build .
Khronos Confidential CTS doesn't support run-time selection of API context. If you intend to run it then the GLCTS_GTF_TARGET
option is necessary.
Available values for GLCTS_GTF_TARGET
are gles2
, gles3
, gles31
, gles32
, and gl
. The default value is gles32
.
CMake chooses to generate Makefiles by default. Other generators can be used as well. See CMake help for more details.
The conformance tests come with native Android support. The following packages are needed in order to build an Android binary:
An Android binary (for ES 3.2) can be built using command:
python scripts/android/build_apk.py --target=openglcts --sdk <path to Android SDK> --ndk <path to Android NDK>
By default the CTS package will be built for the Android API level 28. Another API level may be supplied using --native-api command line option.
If Khronos Confidential CTS is present then the script will set GLCTS_GTF_TARGET
to gles32
by default. It is possible to specify a different GLCTS_GTF_TARGET
target by invoking the script with the --kc-cts-target
option, e.g.:
python scripts/android/build_apk.py --target=openglcts --kc-cts-target=gles31 --sdk <path to Android SDK> --ndk <path to Android NDK>
Available values for --kc-cts-target
are gles32
, gles31
, gles3
, gles2
and gl
.
The package can be installed by either running:
python scripts/android/install_apk.py --target=openglcts
By default the CTS package will contain libdeqp.so built for armeabi-v7a
, arm64-v8a
, x86
, and x86_64
ABIs, but that can be changed with --abis
command line option.
To pick which ABI to use at install time, following commands must be used instead:
adb install --abi <ABI name> <build root>/Khronos-CTS.apk /data/local/tmp/Khronos-CTS.apk
The Conformance Tests have been designed to be relatively platform-, OS-, and compiler-independent. Adopters are responsible for final changes needed to allow the Test to run on the platform they wish to certify as conformant.
Porting the dEQP framework requires implementation of either glu::Platform
or, on platforms supporting EGL, the tcu::EglPlatform
interface. The porting layer API is described in detail in following files:
framework/common/tcuPlatform.hpp framework/opengl/gluPlatform.hpp framework/egl/egluPlatform.hpp framework/platform/tcuMain.cpp
This version of the dEQP framework includes ports for Windows (both EGL and WGL), X11 (EGL and XGL), and Android.
Base portability libraries in framework/delibs
seldom need changes. However, introducing support for a new compiler or a new processor family may require some changes to correctly detect and parameterize the environment.
Porting typically involves three types of changes:
Changes should normally be confined to build files (CMake or Python) or source files (.c, .h, .cpp, and .h files) in the following directories or their subdirectories:
framework/platform
targets
If you find that you must change other source (.c, .cpp, .h, or .hpp) files, you will need to file a waiver as described below.
Note that the conformance tests assume that the implementation supports EGL. However EGL is not required for OpenGL or OpenGL ES conformance.
Most of the tests require at least 256x256 pixels resolution in order to run properly and produce stable results. It is, therefore, important to ensure that a port to a new platform can support surfaces that fulfill width and height requirements.
Changes to fix bugs in the conformance test are allowed. A bug in the conformance test is a behavior which causes clearly incorrect execution (e.g., hanging, crashing, or memory corruption), OR which requires behavior which contradicts or exceeds the requirements of the relevant OpenGL or OpenGL ES Specification. Before being used for a submission, bugfixes must be accepted and merged into the CTS repository. git cherry-pick
is strongly recommended as a method of applying bug fixes.
Other changes must be accompanied by a waiver.
NOTE: When cherry-picking patches on top of release tag, please use git cherry-pick -x
to include original commit hash in the commit message.
All the following commands need to be run in the CTS build directory. If you need to move the binaries from the build directory, remember to copy the data directories named gl_cts
, gles2
, gles3
, and gles31
and its subdirectories from the build directory to the test target in the same relative locations.
If the build instructions have been followed as-is, the correct path is:
cd <builddir>/external/openglcts/modules
A conformance run can be launched either by running the cts-runner
binary with appropriate options on Linux/Windows or by running an Android application.
Conformance run for OpenGL ES 3.2 on Windows:
Debug/cts-runner.exe --type=es32 [For ES 3.1 use --type=es31; ES 3.0 use --type=es3; for ES 2.0, use --type=es2]
Conformance run for OpenGL 3.0 - 4.6 on Windows:
Debug/cts-runner.exe --type=glxy [x and y are the major and minor specifiction versions]
Full list of parameters for the cts-runner
binary:
--type=[esN[M]|glNM] Conformance test run type. Choose from ES: es2, es3, es31, es32 GL: gl30, gl31, gl32, gl33, gl40, gl41, gl42, gl43, gl44, gl45, gl46 --waivers=[path] Path to xml file containing waived tests --logdir=[path] Destination directory for log files --summary Print summary without running the tests --verbose Print out and log more information
The conformance run will create one or more .qpa
files per tested config, a summary .qpa
file containing run results and a summary .xml
file containing command line options for each run, all of which should be included in your conformance submission package. The final verdict will be printed out at the end of run.
Sometimes it is useful to know the command line options used for the conformance before the run completed. Full conformance run configuration is written to cts-run-summary.xml
and this file can be generated by adding --summary
parameter.
By default the cts-runner
does not include result images or shaders used in the logs. Adding parameter --verbose
will cause them to be included in the logs. Images will be embedded as PNG data into the.qpa
log files. See Section Test Logs for instructions on how to view the images.
To direct logs to a directory, add --logdir=[path]
parameter.
To specify waived tests, add --waivers=[path]
parameter.
NOTE: Due to the lack of support for run-time selection of API context in the Khronos Confidential CTS, a conformance run may fail if it is executed for an API version that doesn't match the GLCTS_GTF_TARGET
value used during the build step.
Once the CTS binary is built and installed on the device, a new application called ES3.2 CTS
, ES3.1 CTS
, ES3 CTS
, ES2 CTS
, GL4.5 CTS
, or GL4.6 CTS
(depending on the test version you built) should appear in the launcher. Conformance test runs can be done by launching the applications.
Alternatively it is possible to start a conformance run from the command line, for example to launch a GLES 3.2 conformance run use:
am start -n org.khronos.gl_cts/org.khronos.cts.ES32Activity -e logdir "/sdcard/logs"
For GLES 2.0, GLES 3.0, GLES 3.1, GL 4.5, or GL 4.6 conformance runs, substitute the following activity name (respectively) ES2Activity, ES3Activity, ES31Activity, GL45Activity, or GL46Activity.
Test logs will be written to /sdcard
by default. The log path can be customized by supplying a logdir
string extra in launch intent. Verbose mode can be enabled by supplying a verbose
= "true"
string extra. See the following example:
am start -n org.khronos.gl_cts/org.khronos.cts.ES32Activity -e logdir "/sdcard/logs" -e verbose "true"
Conformance run configuration can be generated by supplying a summary
= "true"
string extra. See the following example:
am start -n org.khronos.gl_cts/org.khronos.cts.ES32Activity -e logdir "/sdcard/logs" -e summary "true"
Waivers can be specified by supplying a waivers
string extra. See the following example:
am start -n org.khronos.gl_cts/org.khronos.cts.ES32Activity -e logdir "/sdcard/logs" -e waivers "/sdcard/waivers.xml"
NOTE: Supplying a summary
= "true"
string extra will result in the cts-run-summary.xml
file being written out but no tests will be executed.
Individual tests can be launched as well by targeting org.khronos.gl_cts/android.app.NativeActivity
activity. Command line arguments must be supplied in a cmdLine
string extra. See following example:
am start -n org.khronos.gl_cts/android.app.NativeActivity -e cmdLine "cts --deqp-case=KHR-GLES32.info.version --deqp-gl-config-id=1 --deqp-log-filename=/sdcard/ES32-egl-config-1.qpa --deqp-surface-width=128 --deqp-surface-height=128"
In addition to the detailed *.qpa
output files, the Android port of the CTS logs a summary of the test run, including the pass/fail status of each test. This summary can be viewed using the Android logcat utility.
See Section Running Subsets below for details on command line parameters.
Run shader compiler loop test cases from the OpenGL ES 3.0 CTS using EGL config with ID 3:
Debug/glcts.exe --deqp-case=KHR-GLES3.shaders.loops.* --deqp-gl-config-id=3
Note that the GL context version is determined by the case name. KHR-GLES3
in the example above selects OpenGL ES 3.0. The command to run the same test against OpenGL version 4.1 is:
Debug/glcts.exe --deqp-case=GL41-CTS.shaders.loops.* --deqp-gl-config-id=3
To list available test cases (writes out *-cases.txt
files per module), run:
Debug/glcts.exe --deqp-runmode=txt-caselist
The type of the run for cts-runner chooses a specific list of test cases to be run. The selected tests can be checked from the summary logs. To run the same tests, just give equivalent test selection parameters to the glcts
.
Full list of parameters for the glcts
binary:
-h, --help Show this help -n, --deqp-case=<value> Test case(s) to run, supports wildcards (e.g. dEQP-GLES2.info.*) --deqp-caselist=<value> Case list to run in trie format (e.g. {dEQP-GLES2{info{version,renderer}}}) --deqp-caselist-file=<value> Read case list (in trie format) from given file --deqp-stdin-caselist Read case list (in trie format) from stdin --deqp-log-filename=<value> Write test results to given file default: 'TestResults.qpa' --deqp-runmode=[execute|xml-caselist|txt-caselist|stdout-caselist] Execute tests, or write list of test cases into a file default: 'execute' --deqp-caselist-export-file=<value> Set the target file name pattern for caselist export default: '${packageName}-cases.${typeExtension}' --deqp-watchdog=[enable|disable] Enable test watchdog default: 'disable' --deqp-crashhandler=[enable|disable] Enable crash handling default: 'disable' --deqp-base-seed=<value> Base seed for test cases that use randomization default: '0' --deqp-test-iteration-count=<value> Iteration count for cases that support variable number of iterations default: '0' --deqp-visibility=[windowed|fullscreen|hidden] Default test window visibility default: 'windowed' --deqp-surface-width=<value> Use given surface width if possible default: '-1' --deqp-surface-height=<value> Use given surface height if possible default: '-1' --deqp-surface-type=[window|pixmap|pbuffer|fbo] Use given surface type default: 'window' --deqp-screen-rotation=[unspecified|0|90|180|270] Screen rotation for platforms that support it default: '0' --deqp-gl-context-type=<value> OpenGL context type for platforms that support multiple --deqp-gl-config-id=<value> OpenGL (ES) render config ID (EGL config id on EGL platforms) default: '-1' --deqp-gl-config-name=<value> Symbolic OpenGL (ES) render config name --deqp-gl-context-flags=<value> OpenGL context flags (comma-separated, supports debug and robust) --deqp-cl-platform-id=<value> Execute tests on given OpenCL platform (IDs start from 1) default: '1' --deqp-cl-device-ids=<value> Execute tests on given CL devices (comma-separated, IDs start from 1) default: '' --deqp-cl-build-options=<value> Extra build options for OpenCL compiler --deqp-egl-display-type=<value> EGL native display type --deqp-egl-window-type=<value> EGL native window type --deqp-egl-pixmap-type=<value> EGL native pixmap type --deqp-log-images=[enable|disable] Enable or disable logging of result images default: 'enable' --deqp-log-shader-sources=[enable|disable] Enable or disable logging of shaders default: 'enable' --deqp-test-oom=[enable|disable] Run tests that exhaust memory on purpose default: 'disable' --deqp-archive-dir=<value> Path to test resource files default: current working directory --deqp-case-fraction=<value>,<value> Run a fraction of the test cases (e.g. N,M means run group%M==N) default: '' --deqp-egl-config-id=<value> Legacy name for --deqp-gl-config-id default: '-1' --deqp-egl-config-name=<value> Legacy name for --deqp-gl-config-name --deqp-waiver-file=<value> Path to xml file containing waived tests
At the end of a completed test run, a file called cts-run-summary.xml
is generated. It will contain summaries per configuration and the full command lines for the glcts
application (See Section Running Subsets) for debugging purposes. Additionally, a summary string similar to one below is printed:
4/4 sessions passed, conformance test PASSED
If the run fails, the message will say FAILED
instead of PASSED
. Under Linux or Windows, this string is printed to stdout if available. Under Android, it is emitted to the Android logging system for access via logcat.
Each test case will be logged into the .qpa
files in XML. Below is a minimal example of a test case log. The Result element contains the final verdict in the StatusCode
attribute. Passing cases will have Pass
and failing cases Fail
. Other results such as QualityWarning
, CompatibilityWarning
, NotSupported
or ResourceError
are possible. Only Fail
status will count as failure for conformance purposes.
<TestCaseResult Version="0.3.2" CasePath="ES2-CTS.info.vendor" CaseType="SelfValidate"> <Text>Vendor A</Text> <Result StatusCode="Pass">Pass</Result> </TestCaseResult>
If the failure count is zero for all config sequences, the implementation passes the test. Note that in addition to a successful test result, a Submission Package must satisfy the conditions specified below under Passing Criteria in order to achieve conformance certification.
The CTS writes test logs in XML encapsulated in a simple plain-text container format. Each tested configuration listed in cts-run-summary.xml
To analyse and process the log files, run the following scripts
external/openglcts/scripts/verify_submission.py
: Script that verifies logs based on cts-run-summary.xml
file.scripts/log/log_to_csv.py
: This utility converts .qpa
log into CSV format. This is useful for importing results into other systems.scripts/log/log_to_xml.py
: Converts .qpa
into well-formed XML document. The document can be then viewed in browser using the testlog.{xsl,css} files.Some browsers, like Chrome, limit local file access. In such case, the files must be accessed over HTTP. Python comes with a simple HTTP server suitable for the purpose. Run python -m SimpleHTTPServer
in the directory containing the generated XML files and point the browser to 127.0.0.1:8000
.
Parser for the .qpa
log file format in python is provided in scripts/log/log_parser.py
.
Python scripts require python 2.7 or newer in 2.x series. They are not compatible with python 3.x.
The best first step is to run the failing test cases via glcts
executable to get the more verbose logs. Use, for example, the log_to_xml.py
script detailed in Section Test Logs, to view the generated logs. If the visual inspection of the logs does not give sufficient hints on the nature of the issue, inspecting the test code and stepping through it in debugger should help.
The procedure for requesting a waiver is to report the issue by filing a bug report in the Gitlab VK GL CTS project (https://gitlab.khronos.org/Tracker/vk-gl-cts). When you create your submission package, include references to the waivers as described in the adopters' agreement. Fully-qualified links to bug reports are highly recommended. Including as much information as possible in your bug report will ensure the issue can be progressed as speedily as possible. Such bug report must include a link to suggested file changes. Issues must be labeled Waiver
and OpenGL-ES
(for OpenGL ES submissions) or Waiver
and OpenGL
(for OpenGL submissions) and identify the CTS release tag and affected tests.
Please see the Creating a Submission Package page.
Please see the Submission Update Package page.
Please see the Conformance Submission Passing Criteria page.
If using run-time entry point loading, it is possible that not all required entry points are available. This will result in NULL
pointer dereferencing.
First try re-running the build. If that does not help and you have used the same build directory with different version of the CTS, remove the build directory and run the CMake again.
See the Contribution Guide
The Khronos Group gratefully acknowledges the support of drawElements Oy, who donated a large number of GLSL tests and a new test framework and build system.
The Khronos Group also gratefully acknowledges the support of 3DLabs Inc., who gave permission to use the 3DLabs Graphics Test Framework (GTF).
The first internal version of the test was created by Bruno Schwander of Hooked Wireless, under a development contract with the Khronos Group.
Symbio added tests specific to OpenGL and OpenGL ES 3.0.
drawElements added their donated language tests and build system.
The CTS results from these efforts, together with additional hard work by volunteers from the OpenGL ES Working Group, the OpenGL ARB Working Group, and their member companies, including:
0.0 - Tom Olson
Initial version cloned from ES2_Readme
, plus feedback from Mark Callow.
0.2 - Tom Olson
Modified to incorporate feedback in bug 8534.
0.3 - Jon Leech
Added details for OpenGL Conformance.
0.4 - Jon Leech 2012/10/31
Add configuration & build section, and table of contents
0.5 - Jon Leech 2012/10/31
Fix typos noted by Mark Callow in bug 8534.
0.6 - Jon Leech 2012/11/13
Discuss automatic version selection and document support for OpenGL 3.3-4.3.
0.7 - Jon Leech 2012/11/14
Minor cleanup for GL version numbers per Bug 8534 comment #41.
0.8 - Tom Olson 2013/1/25
Updated GL status in preparation for ES 3.0 release, removed display parameters from product description, and removed mention of sample submission.
0.9 - Jon Leech 2013/07/17
Restore GL-specific details in preparation for initial GL CTS release.
1.0 - Jon Leech 2013/07/17
Change references to Visual Studio 11 to Visual Studio 2012 per bug 9862. Reset change tracking to reduce clutter.
1.1 - Kalle Raita 2013/10/30
Updated documentation after the integration of the drawElements framework and language tests.
1.2 - Kalle Raita 2013/12/03
Removed TODOs, added some notes on further development, and notes on file dependencies. Exact list of directory sub-trees that can be modified during porting.
1.3 - Tom Olson 2014/05/27
Updates for ES CTS 3.1.1.0 . Added Passing Criteria, updated examples to include 3.1 versioning, and updated Acknowledgements.
1.4 - Alexander Galazin 2016/05/12
Updates for ES CTS 3.2.1.0.
2.0 - Alexander Galazin 2016/09/23
Moved the contents to README.md. Updated to reflect new CTS structure and build instructions.
2.1 - Alexander Galazin 2016/12/15
Updates in preparation for the new release. Document restructuring, more detailed process of creating a submission package. Incorporated OpenGL/CTS issue 39 and 40 in the Passing Criteria.