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// Copyright (c) 2007-2010 Nokia Corporation and/or its subsidiary(-ies).
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// All rights reserved.
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// This component and the accompanying materials are made available
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// under the terms of "Eclipse Public License v1.0"
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// which accompanies this distribution, and is available
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// at the URL "http://www.eclipse.org/legal/epl-v10.html".
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//
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// Initial Contributors:
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// Nokia Corporation - initial contribution.
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//
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// Contributors:
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//
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// Description:
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//
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/**
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@file
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@test
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*/
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#include "egltestcommonsession.h"
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#include "egltestcommonutils.h"
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#include "egltestcommonsgimageinfo.h"
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#include <test/tefunit.h>
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#include <e32cmn.h>
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#ifdef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
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#include <sgresource/sgresource.h>
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#else
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#include <graphics/sgresourceinternal.h>
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#include <graphics/sgresource.h>
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#endif //SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
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#include <VG/openvg.h>
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#include <GLES/gl.h>
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#define CHECK_EXPECTED_ERROR(aFunctionReturnValue) \
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if(!(CheckExpectedError(aFunctionReturnValue))) \
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{ \
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ERR_PRINTF2(_L("thread %d: Unexpected EGL error information"), iThreadIdx); \
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User::Leave(KErrTEFUnitFail); \
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}
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const TMapEglConfigToPixelFormat KMapEglConfigToPixelFormat[] =
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{
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{16, 0, 5,6,5, 0, EGL_RGB_BUFFER, EUidPixelFormatRGB_565, EColor64K},
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{32, 0, 8,8,8, 0, EGL_RGB_BUFFER, EUidPixelFormatXRGB_8888, EColor16MU},
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{32, 8, 8,8,8, EGL_VG_ALPHA_FORMAT_NONPRE, EGL_RGB_BUFFER, EUidPixelFormatARGB_8888, EColor16MA},
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{32, 8, 8,8,8, EGL_VG_ALPHA_FORMAT_PRE, EGL_RGB_BUFFER, EUidPixelFormatARGB_8888_PRE, EColor16MAP}
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};
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EXPORT_C CTestEglSession::CTestEglSession(CTestExecuteLogger& aLogger, EGLDisplay& aDisplay, TInt aThreadIdx)
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: iLogger(aLogger), iThreadIdx(aThreadIdx), iExtensionGroupCached(EIsUndefined), iDisplay(aDisplay), iExpectedErrorCode(EGL_SUCCESS)
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{}
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EXPORT_C CTestEglSession* CTestEglSession::NewLC(CTestExecuteLogger& aLogger, EGLDisplay& aDisplay, TInt aThreadIdx)
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{
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CTestEglSession* self = new (ELeave) CTestEglSession(aLogger, aDisplay, aThreadIdx);
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CleanupStack::PushL(self);
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return self;
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}
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EXPORT_C CTestEglSession* CTestEglSession::NewL(CTestExecuteLogger& aLogger, EGLDisplay& aDisplay, TInt aThreadIdx)
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{
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CTestEglSession* self = CTestEglSession::NewLC(aLogger, aDisplay, aThreadIdx);
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CleanupStack::Pop(self);
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return self;
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}
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EXPORT_C CTestEglSession::~CTestEglSession()
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{
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iExtensionStrings.Reset();
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EGLBoolean ret;
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if (iDisplay != EGL_NO_DISPLAY)
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{
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// Unbind and destroy context only if we successfuly created it
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if (iContext != EGL_NO_CONTEXT)
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{
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INFO_PRINTF2(_L("thread %d: Calling eglMakeCurrent(NULL values) from ~CTestEglSession..."), iThreadIdx);
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ret = eglMakeCurrent(iDisplay, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT);
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if(ret == EGL_FALSE)
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{
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WARN_PRINTF3(_L("thread %d: eglMakeCurrent returned error = %x ~CTestEglSession..."), iThreadIdx, eglGetError());
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}
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// Warn because this should be done by the test, rather than relying on the d'tor
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// which may not leave if there is an error (so no CHECK_EXPECTED_ERROR)
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WARN_PRINTF2(_L("thread %d: Calling eglDestroyContext() from ~CTestEglSession..."), iThreadIdx);
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ret = eglDestroyContext(iDisplay, iContext);
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if(ret == EGL_FALSE)
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{
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WARN_PRINTF3(_L("thread %d: eglDestroyContext returned error = %x ~CTestEglSession..."), iThreadIdx, eglGetError());
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}
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}
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if (iSurface != EGL_NO_SURFACE)
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{
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// Warn because this should be done by the test, rather than relying on the d'tor
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// which may not leave if there is an error (so no CHECK_EXPECTED_ERROR)
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WARN_PRINTF2(_L("thread %d: Calling eglDestroySurface() from ~CTestEglSession..."), iThreadIdx);
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ret = eglDestroySurface(iDisplay, iSurface);
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if(ret == EGL_FALSE)
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{
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WARN_PRINTF3(_L("thread %d: eglDestroySurface returned error = %x ~CTestEglSession..."), iThreadIdx, eglGetError());
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}
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}
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if (iTerminateDisplay)
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{
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INFO_PRINTF1(_L("Calling eglTerminate..."));
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ret = eglTerminate(iDisplay);
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iDisplay = EGL_NO_DISPLAY;
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if(ret == EGL_FALSE)
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{
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WARN_PRINTF3(_L("thread %d: eglTerminate returned error = %x ~CTestEglSession..."), iThreadIdx, eglGetError());
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}
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}
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}
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// Only destroy native resource after the surface and context that wraps it has been destroyed.
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delete iFbsBitmap;
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CloseFbsSession();
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iSgImage.Close();
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CloseSgDriver();
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}
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EXPORT_C void CTestEglSession::SetExpectedError(EGLint aExpectedErrorCode)
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{
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VERBOSE_INFO_PRINTF3(_L("thread %d: Setting the expected error code for the next EGL call to %x"), iThreadIdx, aExpectedErrorCode);
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{
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iExpectedErrorCode = aExpectedErrorCode;
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}
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}
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EXPORT_C void CTestEglSession::ResetExpectedError()
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{
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iExpectedErrorCode = EGL_SUCCESS;
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}
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/**
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Checks whether the call to an EGL method returned the correct error information.
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The method checks whether eglGetError() returns the expected error value as specified by calling SetExpectedError()
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It also checks that the value returned by the EGL method was appropriate for the expected error value.
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@param aFunctionReturnValue Pass in the value retured from the EGL method
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@return Whether the expected error information was returned from a call to an EGL method.
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*/
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EXPORT_C TBool CTestEglSession::CheckExpectedError(EGLint aFunctionReturnValue)
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{
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TBool isExpectedError = ETrue;
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EGLint eglErr = eglGetError();
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// First check that we got the correct return value
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if ((iExpectedErrorCode == EGL_SUCCESS) && !aFunctionReturnValue)
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{
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ERR_PRINTF3(_L("thread %d: Wrong function return value: %d"), iThreadIdx, aFunctionReturnValue);
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isExpectedError = EFalse;
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}
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// Also check that we got the
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if (eglErr != iExpectedErrorCode)
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{
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ERR_PRINTF4(_L("thread %d: eglGetError() returned %x, but expected %x"), iThreadIdx, eglErr, iExpectedErrorCode);
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isExpectedError = EFalse;
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}
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else if (eglErr != EGL_SUCCESS)
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{
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VERBOSE_INFO_PRINTF3(_L("thread %d: eglGetError() returned %x, as expected"), iThreadIdx, eglErr);
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}
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// Reset the expected error
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ResetExpectedError();
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return isExpectedError;
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}
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EXPORT_C void CTestEglSession::CheckExpectedErrorL(EGLint aExpectedErrorCode)
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{
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EGLint eglErr = eglGetError();
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// check that we got the expected error
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if (eglErr != aExpectedErrorCode)
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{
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ERR_PRINTF4(_L("thread %d: eglGetError() returned %x, but expected %x"), iThreadIdx, eglErr, aExpectedErrorCode);
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User::Leave(KErrTEFUnitFail);
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}
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}
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void CTestEglSession::QueryExtensionsL(TExtensionsGroups aExtensionBelongsTo)
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{
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// reset the cached extensions
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iExtensionStrings.Reset();
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const char* extensionsString = NULL;
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if(aExtensionBelongsTo == EIsEGL)
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{
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INFO_PRINTF2(_L("thread %d: Calling eglQueryString for EGL_EXTENSIONS)"), iThreadIdx);
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extensionsString = eglQueryString(iDisplay, EGL_EXTENSIONS);
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}
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else if(aExtensionBelongsTo == EIsVG)
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{
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INFO_PRINTF2(_L("thread %d: Calling vgGetString for VG_EXTENSIONS)"), iThreadIdx);
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// OpenVG needs a current VG context before it will allow the call to vgGetString
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// The created surface will remain un-used, hence we create it with an arbitrary pixel format
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EGLConfig currentConfig = GetConfigExactMatchL(EPBufferAttribsColor64K);
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CreatePbufferSurfaceAndMakeCurrentL(currentConfig, TSize(1,1), EGL_OPENVG_API);
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extensionsString = (const char*) vgGetString(VG_EXTENSIONS);
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//cleanup the context & surface
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CleanupSurfaceSgImageL();
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}
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else
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{
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ERR_PRINTF2(_L("CTestEglSession::QueryExtensionsL() - Unknown extension group provided (%d)."), aExtensionBelongsTo);
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User::Leave(KErrArgument);
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}
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CHECK_EXPECTED_ERROR(extensionsString!=NULL);
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TPtrC8 ptrExtensions((const TUint8 *) extensionsString );
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RBuf buffer;
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buffer.CreateL(ptrExtensions.Length());
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buffer.CleanupClosePushL();
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buffer.Copy(ptrExtensions);
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INFO_PRINTF3(_L("thread %d: QueryExtensionsL: \"%S\""), iThreadIdx, &buffer);
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CleanupStack::PopAndDestroy(&buffer);
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TInt posSpace=1;
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while (posSpace > 0 && ptrExtensions.Length() > 0)
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{
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posSpace = ptrExtensions.Locate(' '); // strictly looking for a single space
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ASSERT_FALSE(posSpace==0); // Would imply extension starting with a space or with 2 spaces in a row
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if (posSpace > 0)
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{
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iExtensionStrings.Append(ptrExtensions.Left(posSpace));
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if (posSpace <= ptrExtensions.Length())
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{
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ptrExtensions.Set(ptrExtensions.Mid(posSpace+1));
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}
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}
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else
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{
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iExtensionStrings.Append(ptrExtensions);
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}
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}
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}
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TBool CTestEglSession::FindExtensionStringL(TExtensionsGroups aExtensionBelongsTo, const TDesC8& aExtensionString)
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{
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//Load the extensions for this group if not already cached
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if (iExtensionGroupCached != aExtensionBelongsTo)
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{
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QueryExtensionsL(aExtensionBelongsTo); // Load extension info
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iExtensionGroupCached = aExtensionBelongsTo;
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}
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TInt countExtensionStrings = iExtensionStrings.Count();
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for(TUint i=0; i<countExtensionStrings; i++)
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{
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if (iExtensionStrings[i].Compare(aExtensionString)==0)
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{
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// We have a match!
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return ETrue;
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}
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}
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// No match: copy the extension string into a 16 bit buffer for logging
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const TInt KBufLenMissingExtension=128;
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TBuf16<KBufLenMissingExtension> bufMissingExtension16;
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bufMissingExtension16.Copy(aExtensionString.Left(KBufLenMissingExtension));
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WARN_PRINTF2(_L("EGL extension missing: [%S]"), &bufMissingExtension16);
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return EFalse;
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}
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/**
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Converts from TRgb space to Vg floating point colour
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*/
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EXPORT_C void CTestEglSession::ConvertColor(const TRgb& aSource, VGfloat* aTarget)
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//static
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{
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aTarget[0] = (VGfloat)aSource.Red() / 255.f;
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aTarget[1] = (VGfloat)aSource.Green() / 255.f;
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aTarget[2] = (VGfloat)aSource.Blue() / 255.f;
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aTarget[3] = (VGfloat)aSource.Alpha() / 255.f;
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}
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/** Breakpoint to manually view available configs while debugging */
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EXPORT_C void CTestEglSession::ViewConfigsL()
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{
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EGLConfig configs[KMaxEglConfigs];
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EGLint numConfigs=0;
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// Query number of configs available
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INFO_PRINTF1(_L("Calling eglGetConfigs to get the number of configs available..."));
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CHECK_EXPECTED_ERROR(eglGetConfigs(iDisplay, NULL, KMaxTInt, &numConfigs));
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INFO_PRINTF1(_L("Checking number of configs..."));
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ASSERT_TRUE(numConfigs >= 1);
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INFO_PRINTF2(_L("Found %d configs"), numConfigs);
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// Get the configs
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INFO_PRINTF1(_L("Calling eglGetConfigs to get configs..."));
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CHECK_EXPECTED_ERROR(eglGetConfigs(iDisplay, configs, KMaxEglConfigs, &numConfigs));
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for(TUint index = 0; index < numConfigs; index++)
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{
|
sl@0
|
308 |
EGLint EGL_BUFFER_SIZE_value;
|
sl@0
|
309 |
EGLint EGL_ALPHA_SIZE_value;
|
sl@0
|
310 |
EGLint EGL_BLUE_SIZE_value;
|
sl@0
|
311 |
EGLint EGL_GREEN_SIZE_value;
|
sl@0
|
312 |
EGLint EGL_RED_SIZE_value;
|
sl@0
|
313 |
#ifdef PRINT_ALL_CONFIGS_DETAILS
|
sl@0
|
314 |
EGLint EGL_DEPTH_SIZE_value;
|
sl@0
|
315 |
EGLint EGL_STENCIL_SIZE_value;
|
sl@0
|
316 |
EGLint EGL_CONFIG_CAVEAT_value;
|
sl@0
|
317 |
EGLint EGL_CONFIG_ID_value;
|
sl@0
|
318 |
EGLint EGL_LEVEL_value;
|
sl@0
|
319 |
EGLint EGL_MAX_PBUFFER_HEIGHT_value;
|
sl@0
|
320 |
EGLint EGL_MAX_PBUFFER_PIXELS_value;
|
sl@0
|
321 |
EGLint EGL_MAX_PBUFFER_WIDTH_value;
|
sl@0
|
322 |
EGLint EGL_NATIVE_RENDERABLE_value;
|
sl@0
|
323 |
EGLint EGL_NATIVE_VISUAL_ID_value;
|
sl@0
|
324 |
EGLint EGL_NATIVE_VISUAL_TYPE_value;
|
sl@0
|
325 |
EGLint EGL_SAMPLES_value;
|
sl@0
|
326 |
EGLint EGL_SAMPLE_BUFFERS_value;
|
sl@0
|
327 |
#endif
|
sl@0
|
328 |
EGLint EGL_SURFACE_TYPE_value;
|
sl@0
|
329 |
#ifdef PRINT_ALL_CONFIGS_DETAILS
|
sl@0
|
330 |
EGLint EGL_TRANSPARENT_TYPE_value;
|
sl@0
|
331 |
EGLint EGL_TRANSPARENT_BLUE_VALUE_value;
|
sl@0
|
332 |
EGLint EGL_TRANSPARENT_GREEN_VALUE_value;
|
sl@0
|
333 |
EGLint EGL_TRANSPARENT_RED_VALUE_value;
|
sl@0
|
334 |
EGLint EGL_BIND_TO_TEXTURE_RGB_value;
|
sl@0
|
335 |
EGLint EGL_BIND_TO_TEXTURE_RGBA_value;
|
sl@0
|
336 |
EGLint EGL_MIN_SWAP_INTERVAL_value;
|
sl@0
|
337 |
EGLint EGL_MAX_SWAP_INTERVAL_value;
|
sl@0
|
338 |
EGLint EGL_LUMINANCE_SIZE_value;
|
sl@0
|
339 |
EGLint EGL_ALPHA_MASK_SIZE_value;
|
sl@0
|
340 |
EGLint EGL_COLOR_BUFFER_TYPE_value;
|
sl@0
|
341 |
#endif
|
sl@0
|
342 |
EGLint EGL_RENDERABLE_TYPE_value;
|
sl@0
|
343 |
|
sl@0
|
344 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_BUFFER_SIZE, &EGL_BUFFER_SIZE_value);
|
sl@0
|
345 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_ALPHA_SIZE, &EGL_ALPHA_SIZE_value);
|
sl@0
|
346 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_BLUE_SIZE, &EGL_BLUE_SIZE_value);
|
sl@0
|
347 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_GREEN_SIZE, &EGL_GREEN_SIZE_value);
|
sl@0
|
348 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_RED_SIZE, &EGL_RED_SIZE_value);
|
sl@0
|
349 |
#ifdef PRINT_ALL_CONFIGS_DETAILS
|
sl@0
|
350 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_DEPTH_SIZE, &EGL_DEPTH_SIZE_value);
|
sl@0
|
351 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_STENCIL_SIZE, &EGL_STENCIL_SIZE_value);
|
sl@0
|
352 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_CONFIG_CAVEAT, &EGL_CONFIG_CAVEAT_value);
|
sl@0
|
353 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_CONFIG_ID, &EGL_CONFIG_ID_value);
|
sl@0
|
354 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_LEVEL, &EGL_LEVEL_value);
|
sl@0
|
355 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_MAX_PBUFFER_HEIGHT, &EGL_MAX_PBUFFER_HEIGHT_value);
|
sl@0
|
356 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_MAX_PBUFFER_PIXELS, &EGL_MAX_PBUFFER_PIXELS_value);
|
sl@0
|
357 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_MAX_PBUFFER_WIDTH, &EGL_MAX_PBUFFER_WIDTH_value);
|
sl@0
|
358 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_NATIVE_RENDERABLE, &EGL_NATIVE_RENDERABLE_value);
|
sl@0
|
359 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_NATIVE_VISUAL_ID, &EGL_NATIVE_VISUAL_ID_value);
|
sl@0
|
360 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_NATIVE_VISUAL_TYPE, &EGL_NATIVE_VISUAL_TYPE_value);
|
sl@0
|
361 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_SAMPLES, &EGL_SAMPLES_value);
|
sl@0
|
362 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_SAMPLE_BUFFERS, &EGL_SAMPLE_BUFFERS_value);
|
sl@0
|
363 |
#endif
|
sl@0
|
364 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_SURFACE_TYPE, &EGL_SURFACE_TYPE_value);
|
sl@0
|
365 |
#ifdef PRINT_ALL_CONFIGS_DETAILS
|
sl@0
|
366 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_TRANSPARENT_TYPE, &EGL_TRANSPARENT_TYPE_value);
|
sl@0
|
367 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_TRANSPARENT_BLUE_VALUE, &EGL_TRANSPARENT_BLUE_VALUE_value);
|
sl@0
|
368 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_TRANSPARENT_GREEN_VALUE, &EGL_TRANSPARENT_GREEN_VALUE_value);
|
sl@0
|
369 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_TRANSPARENT_RED_VALUE, &EGL_TRANSPARENT_RED_VALUE_value);
|
sl@0
|
370 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_BIND_TO_TEXTURE_RGB, &EGL_BIND_TO_TEXTURE_RGB_value);
|
sl@0
|
371 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_BIND_TO_TEXTURE_RGBA, &EGL_BIND_TO_TEXTURE_RGBA_value);
|
sl@0
|
372 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_MIN_SWAP_INTERVAL, &EGL_MIN_SWAP_INTERVAL_value);
|
sl@0
|
373 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_MAX_SWAP_INTERVAL, &EGL_MAX_SWAP_INTERVAL_value);
|
sl@0
|
374 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_LUMINANCE_SIZE, &EGL_LUMINANCE_SIZE_value);
|
sl@0
|
375 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_ALPHA_MASK_SIZE, &EGL_ALPHA_MASK_SIZE_value);
|
sl@0
|
376 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_COLOR_BUFFER_TYPE, &EGL_COLOR_BUFFER_TYPE_value);
|
sl@0
|
377 |
#endif
|
sl@0
|
378 |
eglGetConfigAttrib(iDisplay, configs[index], EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value);
|
sl@0
|
379 |
|
sl@0
|
380 |
TBool good = ETrue;
|
sl@0
|
381 |
|
sl@0
|
382 |
INFO_PRINTF7(_L("(idx: %3d) RGBA=(%2d) %2d,%2d,%2d,%2d"), index, EGL_BUFFER_SIZE_value,
|
sl@0
|
383 |
EGL_RED_SIZE_value, EGL_GREEN_SIZE_value, EGL_BLUE_SIZE_value,
|
sl@0
|
384 |
EGL_ALPHA_SIZE_value);
|
sl@0
|
385 |
if (!(EGL_RED_SIZE_value == 8 && EGL_GREEN_SIZE_value == 8 && EGL_BLUE_SIZE_value == 8 && EGL_ALPHA_SIZE_value == 0))
|
sl@0
|
386 |
{
|
sl@0
|
387 |
continue;
|
sl@0
|
388 |
}
|
sl@0
|
389 |
|
sl@0
|
390 |
INFO_PRINTF2(_L("\n\n^^^^^^ CONFIG [%d] VALUES ******"), index);
|
sl@0
|
391 |
if (EGL_SURFACE_TYPE_value & EGL_PIXMAP_BIT)
|
sl@0
|
392 |
{
|
sl@0
|
393 |
INFO_PRINTF2(_L("EGL_SURFACE_TYPE=%d. <<< Has EGL_PIXMAP_BIT"), EGL_SURFACE_TYPE_value);
|
sl@0
|
394 |
}
|
sl@0
|
395 |
else
|
sl@0
|
396 |
{
|
sl@0
|
397 |
INFO_PRINTF2(_L("EGL_SURFACE_TYPE=%d. <<< BAD (not pixmap)"), EGL_SURFACE_TYPE_value);
|
sl@0
|
398 |
good = EFalse;
|
sl@0
|
399 |
}
|
sl@0
|
400 |
|
sl@0
|
401 |
if (EGL_RENDERABLE_TYPE_value & EGL_OPENVG_BIT)
|
sl@0
|
402 |
{
|
sl@0
|
403 |
INFO_PRINTF2(_L("EGL_RENDERABLE_TYPE=%d. <<< Has EGL_OPENVG_BIT"), EGL_RENDERABLE_TYPE_value);
|
sl@0
|
404 |
}
|
sl@0
|
405 |
else
|
sl@0
|
406 |
{
|
sl@0
|
407 |
INFO_PRINTF2(_L("EGL_RENDERABLE_TYPE=%d. <<< BAD (not open vg)"), EGL_RENDERABLE_TYPE_value);
|
sl@0
|
408 |
good = EFalse;
|
sl@0
|
409 |
}
|
sl@0
|
410 |
|
sl@0
|
411 |
if (good)
|
sl@0
|
412 |
{
|
sl@0
|
413 |
INFO_PRINTF1(_L("^^^^^^^ GOOD ^^^^^^^"));
|
sl@0
|
414 |
}
|
sl@0
|
415 |
|
sl@0
|
416 |
#ifdef PRINT_ALL_CONFIGS_DETAILS
|
sl@0
|
417 |
INFO_PRINTF2(_L("\n\n***** CONFIG [%d] VALUES ******"), index);
|
sl@0
|
418 |
INFO_PRINTF2(_L("EGL_BUFFER_SIZE=%d."), EGL_BUFFER_SIZE_value);
|
sl@0
|
419 |
INFO_PRINTF2(_L("EGL_ALPHA_SIZE=%d."), EGL_ALPHA_SIZE_value);
|
sl@0
|
420 |
INFO_PRINTF2(_L("EGL_BLUE_SIZE=%d."), EGL_BLUE_SIZE_value);
|
sl@0
|
421 |
INFO_PRINTF2(_L("EGL_GREEN_SIZE=%d."), EGL_GREEN_SIZE_value);
|
sl@0
|
422 |
INFO_PRINTF2(_L("EGL_RED_SIZE=%d."), EGL_RED_SIZE_value);
|
sl@0
|
423 |
INFO_PRINTF2(_L("EGL_DEPTH_SIZE=%d."), EGL_DEPTH_SIZE_value);
|
sl@0
|
424 |
INFO_PRINTF2(_L("EGL_STENCIL_SIZE=%d."), EGL_STENCIL_SIZE_value);
|
sl@0
|
425 |
INFO_PRINTF2(_L("EGL_CONFIG_CAVEAT=%d."), EGL_CONFIG_CAVEAT_value);
|
sl@0
|
426 |
INFO_PRINTF2(_L("EGL_CONFIG_ID=%d."), EGL_CONFIG_ID_value);
|
sl@0
|
427 |
INFO_PRINTF2(_L("EGL_LEVEL=%d."), EGL_LEVEL_value);
|
sl@0
|
428 |
INFO_PRINTF2(_L("EGL_MAX_PBUFFER_HEIGHT=%d."), EGL_MAX_PBUFFER_HEIGHT_value);
|
sl@0
|
429 |
INFO_PRINTF2(_L("EGL_MAX_PBUFFER_PIXELS=%d."), EGL_MAX_PBUFFER_PIXELS_value);
|
sl@0
|
430 |
INFO_PRINTF2(_L("EGL_MAX_PBUFFER_WIDTH=%d."), EGL_MAX_PBUFFER_WIDTH_value);
|
sl@0
|
431 |
INFO_PRINTF2(_L("EGL_NATIVE_RENDERABLE=%d."), EGL_NATIVE_RENDERABLE_value);
|
sl@0
|
432 |
INFO_PRINTF2(_L("EGL_NATIVE_VISUAL_ID=%d."), EGL_NATIVE_VISUAL_ID_value);
|
sl@0
|
433 |
INFO_PRINTF2(_L("EGL_NATIVE_VISUAL_TYPE=%d."), EGL_NATIVE_VISUAL_TYPE_value);
|
sl@0
|
434 |
INFO_PRINTF2(_L("EGL_SAMPLES=%d."), EGL_SAMPLES_value);
|
sl@0
|
435 |
INFO_PRINTF2(_L("EGL_SAMPLE_BUFFERS=%d."), EGL_SAMPLE_BUFFERS_value);
|
sl@0
|
436 |
INFO_PRINTF2(_L("EGL_SURFACE_TYPE=%d."), EGL_SURFACE_TYPE_value);
|
sl@0
|
437 |
INFO_PRINTF2(_L("EGL_TRANSPARENT_TYPE=%d."), EGL_TRANSPARENT_TYPE_value);
|
sl@0
|
438 |
INFO_PRINTF2(_L("EGL_TRANSPARENT_BLUE_VALUE=%d."), EGL_TRANSPARENT_BLUE_VALUE_value);
|
sl@0
|
439 |
INFO_PRINTF2(_L("EGL_TRANSPARENT_GREEN_VALUE=%d."), EGL_TRANSPARENT_GREEN_VALUE_value);
|
sl@0
|
440 |
INFO_PRINTF2(_L("EGL_TRANSPARENT_RED_VALUE=%d."), EGL_TRANSPARENT_RED_VALUE_value);
|
sl@0
|
441 |
INFO_PRINTF2(_L("EGL_BIND_TO_TEXTURE_RGB=%d."), EGL_BIND_TO_TEXTURE_RGB_value);
|
sl@0
|
442 |
INFO_PRINTF2(_L("EGL_BIND_TO_TEXTURE_RGBA=%d."), EGL_BIND_TO_TEXTURE_RGBA_value);
|
sl@0
|
443 |
INFO_PRINTF2(_L("EGL_MIN_SWAP_INTERVAL=%d."), EGL_MIN_SWAP_INTERVAL_value);
|
sl@0
|
444 |
INFO_PRINTF2(_L("EGL_MAX_SWAP_INTERVAL=%d."), EGL_MAX_SWAP_INTERVAL_value);
|
sl@0
|
445 |
INFO_PRINTF2(_L("EGL_LUMINANCE_SIZE=%d."), EGL_LUMINANCE_SIZE_value);
|
sl@0
|
446 |
INFO_PRINTF2(_L("EGL_ALPHA_MASK_SIZE=%d."), EGL_ALPHA_MASK_SIZE_value);
|
sl@0
|
447 |
INFO_PRINTF2(_L("EGL_COLOR_BUFFER_TYPE=%d."), EGL_COLOR_BUFFER_TYPE_value);
|
sl@0
|
448 |
INFO_PRINTF2(_L("EGL_RENDERABLE_TYPE=%d."), EGL_RENDERABLE_TYPE_value);
|
sl@0
|
449 |
INFO_PRINTF2(_L("\n*********************************\n\n"), index);
|
sl@0
|
450 |
#endif
|
sl@0
|
451 |
}
|
sl@0
|
452 |
}
|
sl@0
|
453 |
|
sl@0
|
454 |
LOCAL_C TEglConfigMatchType GetMatchType(EGLint aAttrib, TEglConfigMatchRule aMatchRule)
|
sl@0
|
455 |
{
|
sl@0
|
456 |
const TConfigMatchRuleItem* curMatchRuleItem = KConfigMatchRules[aMatchRule];
|
sl@0
|
457 |
|
sl@0
|
458 |
while(curMatchRuleItem->iAttrib != EGL_NONE)
|
sl@0
|
459 |
{
|
sl@0
|
460 |
if (aAttrib == curMatchRuleItem->iAttrib)
|
sl@0
|
461 |
{
|
sl@0
|
462 |
return curMatchRuleItem->iMatchType;
|
sl@0
|
463 |
}
|
sl@0
|
464 |
curMatchRuleItem++;
|
sl@0
|
465 |
}
|
sl@0
|
466 |
|
sl@0
|
467 |
RDebug::Printf("Unknown attrib %x", aAttrib);
|
sl@0
|
468 |
return eMatchUnknown;
|
sl@0
|
469 |
}
|
sl@0
|
470 |
|
sl@0
|
471 |
/**
|
sl@0
|
472 |
Returns the first index of a config that matches the requested config extactly
|
sl@0
|
473 |
*/
|
sl@0
|
474 |
TInt CTestEglSession::GetFullMatchConfigIndex(EGLDisplay aDisplay, EGLConfig *aConfigs, TInt aNumConfigs,
|
sl@0
|
475 |
const EGLint aWantedAttribs[], TEglConfigMatchRule aMatchRule)
|
sl@0
|
476 |
{
|
sl@0
|
477 |
EGLint value=0;
|
sl@0
|
478 |
for(TUint idxConfig=0; idxConfig<aNumConfigs; idxConfig++)
|
sl@0
|
479 |
{
|
sl@0
|
480 |
const EGLint *curAttrib = aWantedAttribs;
|
sl@0
|
481 |
TBool match = ETrue;
|
sl@0
|
482 |
|
sl@0
|
483 |
while(*curAttrib != EGL_NONE && match)
|
sl@0
|
484 |
{
|
sl@0
|
485 |
ASSERT_EGL_TRUE(eglGetConfigAttrib(aDisplay, aConfigs[idxConfig], *curAttrib, &value));
|
sl@0
|
486 |
|
sl@0
|
487 |
switch(GetMatchType(*curAttrib, aMatchRule))
|
sl@0
|
488 |
{
|
sl@0
|
489 |
case eMatchEqual:
|
sl@0
|
490 |
if (value != curAttrib[1])
|
sl@0
|
491 |
{
|
sl@0
|
492 |
match = EFalse;
|
sl@0
|
493 |
}
|
sl@0
|
494 |
break;
|
sl@0
|
495 |
case eMatchAtLeast:
|
sl@0
|
496 |
if (value < curAttrib[1]) // Note, we detect "failure to match", hence "<" not ">="!
|
sl@0
|
497 |
{
|
sl@0
|
498 |
match = EFalse;
|
sl@0
|
499 |
}
|
sl@0
|
500 |
break;
|
sl@0
|
501 |
case eMatchBitMask:
|
sl@0
|
502 |
if ((value & curAttrib[1]) != curAttrib[1])
|
sl@0
|
503 |
{
|
sl@0
|
504 |
match = EFalse;
|
sl@0
|
505 |
}
|
sl@0
|
506 |
break;
|
sl@0
|
507 |
case eMatchAlways:
|
sl@0
|
508 |
break;
|
sl@0
|
509 |
|
sl@0
|
510 |
default:
|
sl@0
|
511 |
// We should not get here.
|
sl@0
|
512 |
ASSERT(FALSE);
|
sl@0
|
513 |
break;
|
sl@0
|
514 |
}
|
sl@0
|
515 |
curAttrib += 2;
|
sl@0
|
516 |
}
|
sl@0
|
517 |
|
sl@0
|
518 |
// If we get here with match set, we have matched all attributes, and have found a match.
|
sl@0
|
519 |
if (match)
|
sl@0
|
520 |
{
|
sl@0
|
521 |
return idxConfig;
|
sl@0
|
522 |
}
|
sl@0
|
523 |
}
|
sl@0
|
524 |
return KErrNotFound;
|
sl@0
|
525 |
}
|
sl@0
|
526 |
|
sl@0
|
527 |
TInt CTestEglSession::ConfigToPixelFormatTableLength() const
|
sl@0
|
528 |
{
|
sl@0
|
529 |
return sizeof(KMapEglConfigToPixelFormat) / sizeof(TMapEglConfigToPixelFormat);
|
sl@0
|
530 |
}
|
sl@0
|
531 |
|
sl@0
|
532 |
const TMapEglConfigToPixelFormat& CTestEglSession::ConfigToPixelFormatTable(TInt aIndex) const
|
sl@0
|
533 |
{
|
sl@0
|
534 |
return KMapEglConfigToPixelFormat[aIndex];
|
sl@0
|
535 |
}
|
sl@0
|
536 |
|
sl@0
|
537 |
/**
|
sl@0
|
538 |
Returns pixel format inforamtion for a given EGL config.
|
sl@0
|
539 |
@param aConfig The EGL config for which pixel format information will be returned.
|
sl@0
|
540 |
@return A pointer to the pixel format information for the given EGL config.
|
sl@0
|
541 |
Tf the config cannot be mapped, then NULL is returned.
|
sl@0
|
542 |
*/
|
sl@0
|
543 |
EXPORT_C const TMapEglConfigToPixelFormat* CTestEglSession::GetPixelFormatFromEglConfigL(EGLConfig aConfig)
|
sl@0
|
544 |
{
|
sl@0
|
545 |
EGLint bufferSize=0;
|
sl@0
|
546 |
EGLint alphaSize=0;
|
sl@0
|
547 |
EGLint redSize=0;
|
sl@0
|
548 |
EGLint greenSize=0;
|
sl@0
|
549 |
EGLint blueSize=0;
|
sl@0
|
550 |
EGLint colorBufferType=0;
|
sl@0
|
551 |
EGLint surfaceType = 0;
|
sl@0
|
552 |
|
sl@0
|
553 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_BUFFER_SIZE, &bufferSize));
|
sl@0
|
554 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_ALPHA_SIZE, &alphaSize));
|
sl@0
|
555 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_RED_SIZE, &redSize));
|
sl@0
|
556 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_GREEN_SIZE, &greenSize));
|
sl@0
|
557 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_BLUE_SIZE, &blueSize));
|
sl@0
|
558 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_COLOR_BUFFER_TYPE, &colorBufferType));
|
sl@0
|
559 |
CHECK_EXPECTED_ERROR(eglGetConfigAttrib(iDisplay, aConfig, EGL_SURFACE_TYPE, &surfaceType));
|
sl@0
|
560 |
|
sl@0
|
561 |
INFO_PRINTF7(_L(">>>>> Config info: %d, %d, %d,%d,%d, 0x%x"), bufferSize, alphaSize, redSize, greenSize, blueSize, colorBufferType);
|
sl@0
|
562 |
|
sl@0
|
563 |
for(TUint i=0; i<ConfigToPixelFormatTableLength(); i++)
|
sl@0
|
564 |
{
|
sl@0
|
565 |
if ((ConfigToPixelFormatTable(i).iBufferSize == bufferSize)
|
sl@0
|
566 |
&& (ConfigToPixelFormatTable(i).iAlphaSize == alphaSize)
|
sl@0
|
567 |
&& (ConfigToPixelFormatTable(i).iRedSize == redSize)
|
sl@0
|
568 |
&& (ConfigToPixelFormatTable(i).iGreenSize == greenSize)
|
sl@0
|
569 |
&& (ConfigToPixelFormatTable(i).iBlueSize == blueSize)
|
sl@0
|
570 |
&& (ConfigToPixelFormatTable(i).iColorBufferType == colorBufferType)
|
sl@0
|
571 |
&& ((ConfigToPixelFormatTable(i).iSurfaceTypeFlags & surfaceType) == ConfigToPixelFormatTable(i).iSurfaceTypeFlags))
|
sl@0
|
572 |
{
|
sl@0
|
573 |
return &ConfigToPixelFormatTable(i);
|
sl@0
|
574 |
}
|
sl@0
|
575 |
}
|
sl@0
|
576 |
|
sl@0
|
577 |
return NULL;
|
sl@0
|
578 |
}
|
sl@0
|
579 |
|
sl@0
|
580 |
EXPORT_C void CTestEglSession::CleanupSurfaceFbsBitmapL()
|
sl@0
|
581 |
{
|
sl@0
|
582 |
CleanupSurfaceAndContextL();
|
sl@0
|
583 |
|
sl@0
|
584 |
delete iFbsBitmap;
|
sl@0
|
585 |
iFbsBitmap = NULL;
|
sl@0
|
586 |
}
|
sl@0
|
587 |
|
sl@0
|
588 |
EXPORT_C void CTestEglSession::CleanupSurfaceAndContextL()
|
sl@0
|
589 |
{
|
sl@0
|
590 |
ASSERT_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
591 |
ASSERT_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
592 |
|
sl@0
|
593 |
// Clean up
|
sl@0
|
594 |
INFO_PRINTF1(_L("Calling eglMakeCurrent(NULL values)..."));
|
sl@0
|
595 |
CHECK_EXPECTED_ERROR(eglMakeCurrent(iDisplay, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT));
|
sl@0
|
596 |
|
sl@0
|
597 |
INFO_PRINTF1(_L("Calling eglDestroyContext()..."));
|
sl@0
|
598 |
CHECK_EXPECTED_ERROR(eglDestroyContext(iDisplay, iContext));
|
sl@0
|
599 |
iContext = EGL_NO_CONTEXT;
|
sl@0
|
600 |
|
sl@0
|
601 |
INFO_PRINTF1(_L("Calling eglDestroySurface()..."));
|
sl@0
|
602 |
CHECK_EXPECTED_ERROR(eglDestroySurface(iDisplay, iSurface));
|
sl@0
|
603 |
iSurface = EGL_NO_SURFACE;
|
sl@0
|
604 |
}
|
sl@0
|
605 |
|
sl@0
|
606 |
EXPORT_C CFbsBitmap* CTestEglSession::NativeFbsBitmap()
|
sl@0
|
607 |
{
|
sl@0
|
608 |
return iFbsBitmap;
|
sl@0
|
609 |
}
|
sl@0
|
610 |
|
sl@0
|
611 |
EXPORT_C RSgImage& CTestEglSession::NativeSgImage()
|
sl@0
|
612 |
{
|
sl@0
|
613 |
return iSgImage;
|
sl@0
|
614 |
}
|
sl@0
|
615 |
|
sl@0
|
616 |
EXPORT_C EGLSurface CTestEglSession::Surface() const
|
sl@0
|
617 |
{
|
sl@0
|
618 |
return iSurface;
|
sl@0
|
619 |
}
|
sl@0
|
620 |
|
sl@0
|
621 |
EXPORT_C EGLContext CTestEglSession::Context() const
|
sl@0
|
622 |
{
|
sl@0
|
623 |
return iContext;
|
sl@0
|
624 |
}
|
sl@0
|
625 |
|
sl@0
|
626 |
EXPORT_C EGLConfig CTestEglSession::GetConfigExactMatchL(TEglTestConfig aConfigAttribIndex, TEglConfigMatchRule aMatchRule)
|
sl@0
|
627 |
{
|
sl@0
|
628 |
if(aConfigAttribIndex >= EEglTestConfigMax )
|
sl@0
|
629 |
{
|
sl@0
|
630 |
ERR_PRINTF1(_L("Attribute index out of range, please check the INI file"));
|
sl@0
|
631 |
User::Leave(KErrArgument);
|
sl@0
|
632 |
}
|
sl@0
|
633 |
|
sl@0
|
634 |
EGLConfig configs[KMaxEglConfigs];
|
sl@0
|
635 |
EGLint numConfigs=0;
|
sl@0
|
636 |
ASSERT_EGL_TRUE(eglChooseConfig(iDisplay, KConfigAttribs[aConfigAttribIndex], configs, KMaxEglConfigs, &numConfigs));
|
sl@0
|
637 |
if (numConfigs <= 0)
|
sl@0
|
638 |
{
|
sl@0
|
639 |
// we just WARN, as we don't know if this is expected yet (if it is, then catch the leaving error)
|
sl@0
|
640 |
WARN_PRINTF1(_L("GetConfigExactMatchL - Could not find a matching config, eglChooseConfig returned 0 configs!"));
|
sl@0
|
641 |
User::Leave(KTestNoMatchingConfig);
|
sl@0
|
642 |
}
|
sl@0
|
643 |
|
sl@0
|
644 |
// Check that any of the configs returned matches the desired attributes
|
sl@0
|
645 |
TInt match = GetFullMatchConfigIndex(iDisplay, configs, numConfigs, KConfigAttribs[aConfigAttribIndex], aMatchRule);
|
sl@0
|
646 |
if (match == KErrNotFound)
|
sl@0
|
647 |
{
|
sl@0
|
648 |
// we just WARN, as we don't know if this is expected yet (if it is, then catch the leaving error)
|
sl@0
|
649 |
WARN_PRINTF1(_L("GetConfigExactMatchL - Could not find a matching config amongst those returned by eglChooseConfig!"));
|
sl@0
|
650 |
User::Leave(KTestNoMatchingConfig);
|
sl@0
|
651 |
}
|
sl@0
|
652 |
return configs[match];
|
sl@0
|
653 |
}
|
sl@0
|
654 |
|
sl@0
|
655 |
/**
|
sl@0
|
656 |
Creates a pixmap surface from a CFbsBitmap, draws to it and checks that the drawing operation succeeded.
|
sl@0
|
657 |
*/
|
sl@0
|
658 |
EXPORT_C void CTestEglSession::TryUsePixmapCFbsBitmapL()
|
sl@0
|
659 |
{
|
sl@0
|
660 |
INFO_PRINTF2(_L("thread %d: TryUsePixmapCFbsBitmapL"), iThreadIdx);
|
sl@0
|
661 |
EGLConfig currentConfig = GetConfigExactMatchL(EPixmapAttribsColor64K);
|
sl@0
|
662 |
TryUsePixmapCFbsBitmapOpenVgL(currentConfig, KPixmapSize, EColor64K);
|
sl@0
|
663 |
}
|
sl@0
|
664 |
|
sl@0
|
665 |
/**
|
sl@0
|
666 |
Creates a pixmap surface from a CFbsBitmap, draws to it and checks that the drawing operation succeeded.
|
sl@0
|
667 |
*/
|
sl@0
|
668 |
EXPORT_C void CTestEglSession::TryUsePixmapCFbsBitmapOpenVgL(EGLConfig aConfig, const TSize& aSize, TDisplayMode aDisplayMode)
|
sl@0
|
669 |
{
|
sl@0
|
670 |
CreatePixmapSurfaceAndMakeCurrentL(aConfig, aSize, aDisplayMode);
|
sl@0
|
671 |
DrawOpenVgL();
|
sl@0
|
672 |
|
sl@0
|
673 |
// Wait for the drawing to complete
|
sl@0
|
674 |
eglWaitClient();
|
sl@0
|
675 |
|
sl@0
|
676 |
CheckImageDataL(iFbsBitmap);
|
sl@0
|
677 |
CheckImageDataVgL(VG_sRGB_565);
|
sl@0
|
678 |
CleanupSurfaceFbsBitmapL();
|
sl@0
|
679 |
CloseFbsSession();
|
sl@0
|
680 |
}
|
sl@0
|
681 |
|
sl@0
|
682 |
/**
|
sl@0
|
683 |
Creates a pixmap surface from a CFbsBitmap, draws to it and checks that the drawing operation succeeded.
|
sl@0
|
684 |
*/
|
sl@0
|
685 |
EXPORT_C void CTestEglSession::TryUsePixmapCFbsBitmapOpenGlesL(EGLConfig aConfig, const TSize& aSize, TDisplayMode aDisplayMode, TInt aRenderVersion)
|
sl@0
|
686 |
{
|
sl@0
|
687 |
CreatePixmapSurfaceAndMakeCurrentL(aConfig, aSize, aDisplayMode,EGL_OPENGL_ES_API, aRenderVersion);
|
sl@0
|
688 |
DrawOpenGLesL();
|
sl@0
|
689 |
|
sl@0
|
690 |
// Wait for the drawing to complete
|
sl@0
|
691 |
eglWaitClient();
|
sl@0
|
692 |
|
sl@0
|
693 |
CheckImageDataFullRedishL(iFbsBitmap);
|
sl@0
|
694 |
CleanupSurfaceFbsBitmapL();
|
sl@0
|
695 |
CloseFbsSession();
|
sl@0
|
696 |
}
|
sl@0
|
697 |
|
sl@0
|
698 |
/**
|
sl@0
|
699 |
Creates a pixmap surface from a RSgImage, draws to it and checks that the drawing operation succeeded.
|
sl@0
|
700 |
*/
|
sl@0
|
701 |
EXPORT_C void CTestEglSession::TryUsePixmapRSgImageL()
|
sl@0
|
702 |
{
|
sl@0
|
703 |
INFO_PRINTF2(_L("thread %d: TryUsePixmapRSgImageL"), iThreadIdx);
|
sl@0
|
704 |
TSgImageInfo imageInfo;
|
sl@0
|
705 |
imageInfo.iSizeInPixels = KPixmapSize;
|
sl@0
|
706 |
imageInfo.iPixelFormat = EUidPixelFormatXRGB_8888;
|
sl@0
|
707 |
// will draw to and read from the image using OpenVg
|
sl@0
|
708 |
#ifdef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
709 |
imageInfo.iUsage = ESgUsageBitOpenVgSurface | ESgUsageBitOpenVgImage;
|
sl@0
|
710 |
#else
|
sl@0
|
711 |
// will also read from the image using DirectGdi
|
sl@0
|
712 |
imageInfo.iUsage = ESgUsageOpenVgTarget | ESgUsageDirectGdiSource;
|
sl@0
|
713 |
imageInfo.iShareable = EFalse;
|
sl@0
|
714 |
imageInfo.iCpuAccess = ESgCpuAccessNone;
|
sl@0
|
715 |
imageInfo.iScreenId = KSgScreenIdMain;
|
sl@0
|
716 |
imageInfo.iUserAttributes = NULL;
|
sl@0
|
717 |
imageInfo.iUserAttributeCount=0;
|
sl@0
|
718 |
#endif
|
sl@0
|
719 |
CreatePixmapSurfaceAndMakeCurrentAndMatchL(imageInfo, EResourceCloseSgImageLate);
|
sl@0
|
720 |
DrawOpenVgL();
|
sl@0
|
721 |
|
sl@0
|
722 |
// Wait for the drawing to complete
|
sl@0
|
723 |
eglWaitClient();
|
sl@0
|
724 |
|
sl@0
|
725 |
//we can't retrieve data directly from the SgImage as
|
sl@0
|
726 |
//non-unified architecture doesn't allow readback from the GPU
|
sl@0
|
727 |
CheckImageDataVgL(VG_sXRGB_8888);
|
sl@0
|
728 |
CleanupSurfaceSgImageL();
|
sl@0
|
729 |
CloseSgDriver();
|
sl@0
|
730 |
}
|
sl@0
|
731 |
|
sl@0
|
732 |
EXPORT_C TBool CTestEglSession::TryUsePixmapRSgImageOpenGlesL(EGLConfig aConfig, const TSgImageInfo& aImageInfo, TResourceCloseRule aResourceCloseRule, TInt aRenderVersion)
|
sl@0
|
733 |
{
|
sl@0
|
734 |
CreatePixmapSurfaceAndMakeCurrentL(aConfig, aImageInfo, aResourceCloseRule ,EGL_OPENGL_ES_API, aRenderVersion);
|
sl@0
|
735 |
|
sl@0
|
736 |
DrawOpenGLesL();
|
sl@0
|
737 |
|
sl@0
|
738 |
// Wait for the drawing to complete
|
sl@0
|
739 |
eglWaitClient();
|
sl@0
|
740 |
|
sl@0
|
741 |
//we can't retrieve data directly from SgImage as non-unified
|
sl@0
|
742 |
//architecture doesn't allow readback from the GPU
|
sl@0
|
743 |
|
sl@0
|
744 |
if (aImageInfo.iPixelFormat == EUidPixelFormatXRGB_8888 ||
|
sl@0
|
745 |
aImageInfo.iPixelFormat == EUidPixelFormatARGB_8888_PRE)
|
sl@0
|
746 |
{
|
sl@0
|
747 |
CheckImageDataGLesL();
|
sl@0
|
748 |
}
|
sl@0
|
749 |
|
sl@0
|
750 |
CleanupSurfaceSgImageL();
|
sl@0
|
751 |
CloseSgDriver();
|
sl@0
|
752 |
return ETrue;
|
sl@0
|
753 |
}
|
sl@0
|
754 |
|
sl@0
|
755 |
/**
|
sl@0
|
756 |
Compound operation that constructs an RSgImage and uses it to create a pixmap suface.
|
sl@0
|
757 |
It then draws to the surface using OpenVG and checks whether the drawing succeeded.
|
sl@0
|
758 |
It cleans up the pixmap surface it destroyed.
|
sl@0
|
759 |
@param aConfig The EGL config to be used when creating the pixmap surface
|
sl@0
|
760 |
@param aImageInfo Used to create the RSgImage pixmap
|
sl@0
|
761 |
@param aCloseNativeImageEarly When ETrue, the RSgImage is closed as soon as the pixmap surface has been
|
sl@0
|
762 |
created. Otherwise, the RSgImage is closed during cleanup, when the pixmap surface is destroyed.
|
sl@0
|
763 |
@return Whether it was possible to create an iSgImage for the given aImageInfo
|
sl@0
|
764 |
*/
|
sl@0
|
765 |
EXPORT_C TBool CTestEglSession::TryUsePixmapRSgImageOpenVgL(EGLConfig aConfig, const TSgImageInfo& aImageInfo, TResourceCloseRule aResourceCloseRule)
|
sl@0
|
766 |
{
|
sl@0
|
767 |
CreatePixmapSurfaceAndMakeCurrentL(aConfig, aImageInfo, aResourceCloseRule);
|
sl@0
|
768 |
|
sl@0
|
769 |
DrawOpenVgL();
|
sl@0
|
770 |
|
sl@0
|
771 |
// Wait for the drawing to complete
|
sl@0
|
772 |
eglWaitClient();
|
sl@0
|
773 |
|
sl@0
|
774 |
//we can't retrieve data directly from the SgImage as
|
sl@0
|
775 |
//non-unified architecture doesn't allow readback from the GPU
|
sl@0
|
776 |
CheckImageDataVgL(VG_sXRGB_8888);
|
sl@0
|
777 |
CleanupSurfaceSgImageL();
|
sl@0
|
778 |
CloseSgDriver();
|
sl@0
|
779 |
return ETrue;
|
sl@0
|
780 |
}
|
sl@0
|
781 |
|
sl@0
|
782 |
EXPORT_C void CTestEglSession::CreateWindowSurfaceAndMakeCurrentL(EGLConfig aConfig, RWindow& aWindow, TBool aVgAlphaFormatPre, EGLenum aBindAPI, TInt aRenderVersionNumber, EGLint* aAttribList)
|
sl@0
|
783 |
{
|
sl@0
|
784 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
785 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
786 |
|
sl@0
|
787 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
788 |
|
sl@0
|
789 |
// Create a Window surface from the native image
|
sl@0
|
790 |
const EGLint* windowAttribs = aAttribList;
|
sl@0
|
791 |
if(!windowAttribs)
|
sl@0
|
792 |
{
|
sl@0
|
793 |
windowAttribs = (aVgAlphaFormatPre && aBindAPI == EGL_OPENVG_API) ? KPixmapAttribsVgAlphaFormatPre : KPixmapAttribsNone;
|
sl@0
|
794 |
}
|
sl@0
|
795 |
iSurface = eglCreateWindowSurface(iDisplay, aConfig, &aWindow, windowAttribs);
|
sl@0
|
796 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
797 |
|
sl@0
|
798 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
799 |
const EGLint KAttribsListCtxNone[] = { EGL_NONE };
|
sl@0
|
800 |
const EGLint KAttribsListCtxGles2[] = { EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE };
|
sl@0
|
801 |
const EGLint* attrib_list_ctx = (aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber == 2) ? KAttribsListCtxGles2 : KAttribsListCtxNone;
|
sl@0
|
802 |
iContext = eglCreateContext(iDisplay, aConfig, EGL_NO_CONTEXT, attrib_list_ctx);
|
sl@0
|
803 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
804 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
805 |
}
|
sl@0
|
806 |
|
sl@0
|
807 |
|
sl@0
|
808 |
EXPORT_C TBool CTestEglSession::CongfigSupportsOpenVgL(EGLConfig aConfig)
|
sl@0
|
809 |
{
|
sl@0
|
810 |
EGLint EGL_RENDERABLE_TYPE_value = 0;
|
sl@0
|
811 |
ASSERT_EGL_TRUE(eglGetConfigAttrib(iDisplay, aConfig, EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value));
|
sl@0
|
812 |
return (EGL_RENDERABLE_TYPE_value&EGL_OPENVG_BIT)>0;
|
sl@0
|
813 |
}
|
sl@0
|
814 |
|
sl@0
|
815 |
EXPORT_C void CTestEglSession::CreatePixmapSurfaceAndMakeCurrentAndMatchL(const TSgImageInfo& aImageInfo, TResourceCloseRule aResourceCloseRule, EGLenum aBindAPI, TInt aRenderVersionNumber)
|
sl@0
|
816 |
{
|
sl@0
|
817 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
818 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
819 |
|
sl@0
|
820 |
OpenSgDriverL();
|
sl@0
|
821 |
ASSERT_EQUALS(iSgImage.Create(aImageInfo, NULL, 0), KErrNone);
|
sl@0
|
822 |
|
sl@0
|
823 |
EGLint renderableType = 0;
|
sl@0
|
824 |
if(aBindAPI == EGL_OPENVG_API)
|
sl@0
|
825 |
{
|
sl@0
|
826 |
renderableType = EGL_OPENVG_BIT;
|
sl@0
|
827 |
}
|
sl@0
|
828 |
else if(aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber==1)
|
sl@0
|
829 |
{
|
sl@0
|
830 |
renderableType = EGL_OPENGL_ES_BIT;
|
sl@0
|
831 |
}
|
sl@0
|
832 |
else if(aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber==2)
|
sl@0
|
833 |
{
|
sl@0
|
834 |
renderableType = EGL_OPENGL_ES2_BIT;
|
sl@0
|
835 |
}
|
sl@0
|
836 |
else
|
sl@0
|
837 |
{
|
sl@0
|
838 |
ERR_PRINTF1(_L("CreatePixmapSurfaceAndMakeCurrentAndMatchL - Unkown API requested!"));
|
sl@0
|
839 |
User::Leave(KErrArgument);
|
sl@0
|
840 |
}
|
sl@0
|
841 |
EGLint attrib_list[] = {
|
sl@0
|
842 |
EGL_MATCH_NATIVE_PIXMAP,(TInt)&iSgImage,
|
sl@0
|
843 |
EGL_RENDERABLE_TYPE,renderableType,
|
sl@0
|
844 |
EGL_SURFACE_TYPE,EGL_PIXMAP_BIT,
|
sl@0
|
845 |
EGL_NONE};
|
sl@0
|
846 |
|
sl@0
|
847 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
848 |
|
sl@0
|
849 |
EGLConfig config;
|
sl@0
|
850 |
EGLint numConfigs;
|
sl@0
|
851 |
ASSERT_EGL_TRUE(eglChooseConfig(iDisplay,attrib_list,&config,1,&numConfigs));
|
sl@0
|
852 |
if (numConfigs <= 0)
|
sl@0
|
853 |
{
|
sl@0
|
854 |
// we just WARN, as we don't know if this is expected yet (if it is, then catch the leaving error)
|
sl@0
|
855 |
WARN_PRINTF1(_L("CreatePixmapSurfaceAndMakeCurrentAndMatchL - Could not find a matching config!"));
|
sl@0
|
856 |
iSgImage.Close();
|
sl@0
|
857 |
CloseSgDriver();
|
sl@0
|
858 |
// Leave with a unique knonwn error code - useful to catch this error in negative tests
|
sl@0
|
859 |
User::Leave(KTestNoMatchingConfig);
|
sl@0
|
860 |
}
|
sl@0
|
861 |
|
sl@0
|
862 |
// Create a pixmap surface from the native image
|
sl@0
|
863 |
EGLint EGL_RENDERABLE_TYPE_value = 0;
|
sl@0
|
864 |
ASSERT_EGL_TRUE(eglGetConfigAttrib(iDisplay, config, EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value));
|
sl@0
|
865 |
const EGLint* pixmapAttribs = ((aImageInfo.iPixelFormat == EUidPixelFormatARGB_8888_PRE) && (EGL_RENDERABLE_TYPE_value & EGL_OPENVG_BIT)) ? KPixmapAttribsVgAlphaFormatPre : KPixmapAttribsNone;
|
sl@0
|
866 |
iSurface = eglCreatePixmapSurface(iDisplay, config, &iSgImage, pixmapAttribs);
|
sl@0
|
867 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
868 |
|
sl@0
|
869 |
if (aResourceCloseRule == EResourceCloseSgImageEarly)
|
sl@0
|
870 |
{
|
sl@0
|
871 |
// EGL should have taken its own reference to the SgImage, so it should be able to continue
|
sl@0
|
872 |
// to use the underlying data after this local image has been closed.
|
sl@0
|
873 |
iSgImage.Close();
|
sl@0
|
874 |
}
|
sl@0
|
875 |
|
sl@0
|
876 |
if (aResourceCloseRule == EResourceCloseSgDriverAndImageEarly)
|
sl@0
|
877 |
{
|
sl@0
|
878 |
// EGL should have taken its own reference to the SgDriver, so it should be able to continue
|
sl@0
|
879 |
// to use its reference to the image resource after this local reference to the driver has
|
sl@0
|
880 |
// been closed.
|
sl@0
|
881 |
iSgImage.Close();
|
sl@0
|
882 |
CloseSgDriver();
|
sl@0
|
883 |
}
|
sl@0
|
884 |
|
sl@0
|
885 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
886 |
const EGLint KAttribsListCtxNone[] = { EGL_NONE };
|
sl@0
|
887 |
const EGLint KAttribsListCtxGles2[] = { EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE };
|
sl@0
|
888 |
const EGLint* attrib_list_ctx = (aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber == 2) ? KAttribsListCtxGles2 : KAttribsListCtxNone;
|
sl@0
|
889 |
iContext = eglCreateContext(iDisplay, config, EGL_NO_CONTEXT, attrib_list_ctx);
|
sl@0
|
890 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
891 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
892 |
}
|
sl@0
|
893 |
|
sl@0
|
894 |
/**
|
sl@0
|
895 |
Compound operation that constructs an RSgImage and uses it to create a pixmap suface.
|
sl@0
|
896 |
It then makes it current to the thread.
|
sl@0
|
897 |
@param aConfig The EGL config to be used when creating the pixmap surface
|
sl@0
|
898 |
@param aImageInfo Used to create the RSgImage pixmap
|
sl@0
|
899 |
@param aCloseNativeImageEarly When ETrue, the RSgImage is closed as soon as the pixmap surface has been
|
sl@0
|
900 |
created. Otherwise, the RSgImage is left to be destroyed later by some other method
|
sl@0
|
901 |
- e.g at the same time as destroying the surface.
|
sl@0
|
902 |
@return Whether it was possible to create an iSgImage for the given aImageInfo
|
sl@0
|
903 |
*/
|
sl@0
|
904 |
EXPORT_C void CTestEglSession::CreatePixmapSurfaceAndMakeCurrentL(EGLConfig aConfig, const TSgImageInfo& aImageInfo, TResourceCloseRule aResourceCloseRule, EGLenum aBindAPI, TInt aRenderVersionNumber)
|
sl@0
|
905 |
{
|
sl@0
|
906 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
907 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
908 |
|
sl@0
|
909 |
OpenSgDriverL();
|
sl@0
|
910 |
ASSERT_EQUALS(iSgImage.Create(aImageInfo, NULL, 0), KErrNone);
|
sl@0
|
911 |
|
sl@0
|
912 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
913 |
|
sl@0
|
914 |
// Create a pixmap surface from the native image
|
sl@0
|
915 |
EGLint EGL_RENDERABLE_TYPE_value = 0;
|
sl@0
|
916 |
ASSERT_EGL_TRUE(eglGetConfigAttrib(iDisplay, aConfig, EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value));
|
sl@0
|
917 |
const EGLint* pixmapAttribs = ((aImageInfo.iPixelFormat == EUidPixelFormatARGB_8888_PRE) && (EGL_RENDERABLE_TYPE_value & EGL_OPENVG_BIT)) ? KPixmapAttribsVgAlphaFormatPre : KPixmapAttribsNone;
|
sl@0
|
918 |
iSurface = eglCreatePixmapSurface(iDisplay, aConfig, &iSgImage, pixmapAttribs);
|
sl@0
|
919 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
920 |
|
sl@0
|
921 |
if (aResourceCloseRule == EResourceCloseSgImageEarly)
|
sl@0
|
922 |
{
|
sl@0
|
923 |
// EGL should have taken its own reference to the SgImage, so it should be able to continue
|
sl@0
|
924 |
// to use the underlying data after this local image has been closed.
|
sl@0
|
925 |
iSgImage.Close();
|
sl@0
|
926 |
}
|
sl@0
|
927 |
if (aResourceCloseRule == EResourceCloseSgDriverAndImageEarly)
|
sl@0
|
928 |
{
|
sl@0
|
929 |
// EGL should have taken its own reference to the SgDriver, so it should be able to continue
|
sl@0
|
930 |
// to use its reference to the image resource after this local reference to the driver has
|
sl@0
|
931 |
// been closed.
|
sl@0
|
932 |
iSgImage.Close();
|
sl@0
|
933 |
CloseSgDriver();
|
sl@0
|
934 |
}
|
sl@0
|
935 |
|
sl@0
|
936 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
937 |
const EGLint KAttribsListCtxNone[] = { EGL_NONE };
|
sl@0
|
938 |
const EGLint KAttribsListCtxGles2[] = { EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE };
|
sl@0
|
939 |
const EGLint* attrib_list_ctx = (aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber == 2) ? KAttribsListCtxGles2 : KAttribsListCtxNone;
|
sl@0
|
940 |
iContext = eglCreateContext(iDisplay, aConfig, EGL_NO_CONTEXT, attrib_list_ctx);
|
sl@0
|
941 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
942 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
943 |
}
|
sl@0
|
944 |
|
sl@0
|
945 |
EXPORT_C TInt CTestEglSession::CreateBitmap(CFbsBitmap* aFbsBitmap, const TSize& aSize, TDisplayMode aDisplayMode)
|
sl@0
|
946 |
{
|
sl@0
|
947 |
//Fist try with CreateHardwareBitmap to check whether we are on hardware
|
sl@0
|
948 |
TInt result = aFbsBitmap->CreateHardwareBitmap(aSize, aDisplayMode, KUidEglTestServer);
|
sl@0
|
949 |
|
sl@0
|
950 |
if(result == KErrNotSupported)
|
sl@0
|
951 |
{
|
sl@0
|
952 |
//we are not on hardware
|
sl@0
|
953 |
result = aFbsBitmap->Create(aSize, aDisplayMode);
|
sl@0
|
954 |
}
|
sl@0
|
955 |
return result;
|
sl@0
|
956 |
}
|
sl@0
|
957 |
|
sl@0
|
958 |
EXPORT_C void CTestEglSession::CreatePixmapSurfaceAndMakeCurrentL(EGLConfig aConfig, const TSize& aSize, TDisplayMode displayMode, EGLenum aBindAPI, TInt aRenderVersionNumber)
|
sl@0
|
959 |
{
|
sl@0
|
960 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
961 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
962 |
|
sl@0
|
963 |
// Create an empty native CFbsBitmap
|
sl@0
|
964 |
OpenFbsSessionL();
|
sl@0
|
965 |
iFbsBitmap = new(ELeave)CFbsBitmap;
|
sl@0
|
966 |
ASSERT_EQUALS(CreateBitmap(iFbsBitmap, aSize, displayMode), KErrNone);
|
sl@0
|
967 |
|
sl@0
|
968 |
const EGLint* attrib_list = NULL;
|
sl@0
|
969 |
if(aBindAPI == EGL_OPENVG_API)
|
sl@0
|
970 |
{
|
sl@0
|
971 |
// no attribs to modify
|
sl@0
|
972 |
}
|
sl@0
|
973 |
else if(aBindAPI == EGL_OPENGL_ES_API)
|
sl@0
|
974 |
{
|
sl@0
|
975 |
// no attribs to modify
|
sl@0
|
976 |
}
|
sl@0
|
977 |
else if(aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber==2)
|
sl@0
|
978 |
{
|
sl@0
|
979 |
const EGLint KAttribGLES2[] = {EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE};
|
sl@0
|
980 |
attrib_list=KAttribGLES2;
|
sl@0
|
981 |
}
|
sl@0
|
982 |
else
|
sl@0
|
983 |
{
|
sl@0
|
984 |
ERR_PRINTF1(_L("CreatePixmapSurfaceAndMakeCurrentL - Unkown API requested!"));
|
sl@0
|
985 |
User::Leave(KErrArgument);
|
sl@0
|
986 |
}
|
sl@0
|
987 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
988 |
|
sl@0
|
989 |
// Create a pixmap surface from the native image
|
sl@0
|
990 |
EGLint EGL_RENDERABLE_TYPE_value = 0;
|
sl@0
|
991 |
ASSERT_EGL_TRUE(eglGetConfigAttrib(iDisplay, aConfig, EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value));
|
sl@0
|
992 |
const EGLint* pixmapAttribs = ((displayMode == EColor16MAP) && (EGL_RENDERABLE_TYPE_value & EGL_OPENVG_BIT)) ? KPixmapAttribsVgAlphaFormatPre : KPixmapAttribsNone;
|
sl@0
|
993 |
iSurface = eglCreatePixmapSurface(iDisplay, aConfig, iFbsBitmap, pixmapAttribs);
|
sl@0
|
994 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
995 |
|
sl@0
|
996 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
997 |
iContext = eglCreateContext(iDisplay, aConfig, EGL_NO_CONTEXT, attrib_list);
|
sl@0
|
998 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
999 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
1000 |
}
|
sl@0
|
1001 |
|
sl@0
|
1002 |
EXPORT_C void CTestEglSession::CreatePixmapSurfaceAndMakeCurrentAndMatchL(const TSize& aSize, TDisplayMode aDisplayMode, EGLenum aBindAPI, TInt aRenderVersionNumber)
|
sl@0
|
1003 |
{
|
sl@0
|
1004 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
1005 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
1006 |
|
sl@0
|
1007 |
OpenFbsSessionL();
|
sl@0
|
1008 |
iFbsBitmap = new(ELeave)CFbsBitmap;
|
sl@0
|
1009 |
ASSERT_EQUALS(CreateBitmap(iFbsBitmap, aSize, aDisplayMode), KErrNone);
|
sl@0
|
1010 |
|
sl@0
|
1011 |
EGLint renderableType = 0;
|
sl@0
|
1012 |
if(aBindAPI == EGL_OPENVG_API)
|
sl@0
|
1013 |
{
|
sl@0
|
1014 |
renderableType = EGL_OPENVG_BIT;
|
sl@0
|
1015 |
}
|
sl@0
|
1016 |
else if(aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber==1)
|
sl@0
|
1017 |
{
|
sl@0
|
1018 |
renderableType = EGL_OPENGL_ES_BIT;
|
sl@0
|
1019 |
}
|
sl@0
|
1020 |
else if(aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber==2)
|
sl@0
|
1021 |
{
|
sl@0
|
1022 |
renderableType = EGL_OPENGL_ES2_BIT;
|
sl@0
|
1023 |
}
|
sl@0
|
1024 |
else
|
sl@0
|
1025 |
{
|
sl@0
|
1026 |
ERR_PRINTF1(_L("CreatePixmapSurfaceAndMakeCurrentAndMatchL - Unkown API requested!"));
|
sl@0
|
1027 |
User::Leave(KErrArgument);
|
sl@0
|
1028 |
}
|
sl@0
|
1029 |
EGLint attrib_list[] = {
|
sl@0
|
1030 |
EGL_MATCH_NATIVE_PIXMAP,(TInt)iFbsBitmap,
|
sl@0
|
1031 |
EGL_RENDERABLE_TYPE,renderableType,
|
sl@0
|
1032 |
EGL_SURFACE_TYPE,EGL_PIXMAP_BIT,
|
sl@0
|
1033 |
EGL_NONE};
|
sl@0
|
1034 |
|
sl@0
|
1035 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
1036 |
|
sl@0
|
1037 |
EGLConfig config;
|
sl@0
|
1038 |
EGLint numConfigs;
|
sl@0
|
1039 |
ASSERT_EGL_TRUE(eglChooseConfig(iDisplay,attrib_list,&config,1,&numConfigs));
|
sl@0
|
1040 |
if (numConfigs <= 0)
|
sl@0
|
1041 |
{
|
sl@0
|
1042 |
// we just WARN, as we don't know if this is expected yet (if it is, then catch the leaving error)
|
sl@0
|
1043 |
WARN_PRINTF1(_L("CreatePixmapSurfaceAndMakeCurrentAndMatchL - Could not find a matching config!"));
|
sl@0
|
1044 |
iSgImage.Close();
|
sl@0
|
1045 |
CloseSgDriver();
|
sl@0
|
1046 |
// Leave with a unique knonwn error code - useful to catch this error in negative tests
|
sl@0
|
1047 |
User::Leave(KTestNoMatchingConfig);
|
sl@0
|
1048 |
}
|
sl@0
|
1049 |
|
sl@0
|
1050 |
// Create a pixmap surface from the native image
|
sl@0
|
1051 |
const EGLint* pixmapAttribs = (aDisplayMode == EColor16MAP && aBindAPI == EGL_OPENVG_API) ? KPixmapAttribsVgAlphaFormatPre : KPixmapAttribsNone;
|
sl@0
|
1052 |
iSurface = eglCreatePixmapSurface(iDisplay, config, iFbsBitmap, pixmapAttribs);
|
sl@0
|
1053 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
1054 |
|
sl@0
|
1055 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
1056 |
const EGLint KAttribsListCtxNone[] = { EGL_NONE };
|
sl@0
|
1057 |
const EGLint KAttribsListCtxGles2[] = { EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE };
|
sl@0
|
1058 |
const EGLint* attrib_list_ctx = (aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber == 2) ? KAttribsListCtxGles2 : KAttribsListCtxNone;
|
sl@0
|
1059 |
iContext = eglCreateContext(iDisplay, config, EGL_NO_CONTEXT, attrib_list_ctx);
|
sl@0
|
1060 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
1061 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
1062 |
}
|
sl@0
|
1063 |
|
sl@0
|
1064 |
EXPORT_C void CTestEglSession::CreatePbufferSurfaceAndMakeCurrentL(EGLConfig aConfig, const TSize& aSize, EGLenum aBindAPI, TInt aRenderVersionNumber)
|
sl@0
|
1065 |
{
|
sl@0
|
1066 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
1067 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
1068 |
|
sl@0
|
1069 |
ASSERT_EQUALS(iSurface, EGL_NO_SURFACE);
|
sl@0
|
1070 |
ASSERT_EQUALS(iContext, EGL_NO_CONTEXT);
|
sl@0
|
1071 |
|
sl@0
|
1072 |
ASSERT_EGL_TRUE(eglBindAPI(aBindAPI));
|
sl@0
|
1073 |
|
sl@0
|
1074 |
// PBuffer attribs options are:
|
sl@0
|
1075 |
// EGL_WIDTH, EGL_HEIGHT, EGL_LARGEST_PBUFFER,
|
sl@0
|
1076 |
// EGL_TEXTURE_FORMAT, EGL_TEXTURE_TARGET, EGL_MIPMAP_TEXTURE,
|
sl@0
|
1077 |
// EGL_VG_COLORSPACE, and EGL_VG_ALPHA_FORMAT
|
sl@0
|
1078 |
// Create a pbuffer surface of the given size
|
sl@0
|
1079 |
const EGLint KPbufferAttribs[] = {
|
sl@0
|
1080 |
EGL_WIDTH, aSize.iWidth,
|
sl@0
|
1081 |
EGL_HEIGHT, aSize.iHeight,
|
sl@0
|
1082 |
EGL_NONE };
|
sl@0
|
1083 |
iSurface = eglCreatePbufferSurface(iDisplay, aConfig, KPbufferAttribs);
|
sl@0
|
1084 |
ASSERT_EGL_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
1085 |
|
sl@0
|
1086 |
// Create a context for drawing to/reading from the pixmap surface and make it current
|
sl@0
|
1087 |
const EGLint KAttribsListCtxNone[] = { EGL_NONE };
|
sl@0
|
1088 |
const EGLint KAttribsListCtxGles2[] = { EGL_CONTEXT_CLIENT_VERSION, aRenderVersionNumber, EGL_NONE };
|
sl@0
|
1089 |
const EGLint* attrib_list_ctx = (aBindAPI == EGL_OPENGL_ES_API && aRenderVersionNumber == 2) ? KAttribsListCtxGles2 : KAttribsListCtxNone;
|
sl@0
|
1090 |
iContext = eglCreateContext(iDisplay, aConfig, EGL_NO_CONTEXT, attrib_list_ctx);
|
sl@0
|
1091 |
ASSERT_EGL_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
1092 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, iSurface, iSurface, iContext));
|
sl@0
|
1093 |
}
|
sl@0
|
1094 |
|
sl@0
|
1095 |
EXPORT_C void CTestEglSession::DrawOpenVgL()
|
sl@0
|
1096 |
{
|
sl@0
|
1097 |
ASSERT_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
1098 |
ASSERT_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
1099 |
|
sl@0
|
1100 |
// Draw to the pixmap surface
|
sl@0
|
1101 |
// Clear it: redish
|
sl@0
|
1102 |
VGfloat colorBackground[4];
|
sl@0
|
1103 |
ConvertColor(KRgbReddish, colorBackground);
|
sl@0
|
1104 |
vgSetfv(VG_CLEAR_COLOR, 4, colorBackground);
|
sl@0
|
1105 |
vgClear(0, 0, KPixmapSize.iWidth, KPixmapSize.iHeight);
|
sl@0
|
1106 |
|
sl@0
|
1107 |
// And add a square: greenish
|
sl@0
|
1108 |
VGfloat colorSquare[4];
|
sl@0
|
1109 |
ConvertColor(KRgbGreenish, colorSquare);
|
sl@0
|
1110 |
vgSetfv(VG_CLEAR_COLOR, 4, colorSquare);
|
sl@0
|
1111 |
vgClear(KPixmapSquare.iTl.iX, KPixmapSquare.iTl.iX, KPixmapSquare.Width(), KPixmapSquare.Height());
|
sl@0
|
1112 |
}
|
sl@0
|
1113 |
|
sl@0
|
1114 |
EXPORT_C void CTestEglSession::DrawOpenGLesL()
|
sl@0
|
1115 |
{
|
sl@0
|
1116 |
ASSERT_TRUE(iSurface != EGL_NO_SURFACE);
|
sl@0
|
1117 |
ASSERT_TRUE(iContext != EGL_NO_CONTEXT);
|
sl@0
|
1118 |
//GreenishRGB 0x46, 0xDC, 0x78
|
sl@0
|
1119 |
const GLfloat glRed = KRgbReddish.Red();
|
sl@0
|
1120 |
const GLfloat glGreen = KRgbReddish.Green();
|
sl@0
|
1121 |
const GLfloat glBlue = KRgbReddish.Blue();
|
sl@0
|
1122 |
const GLfloat glAlpha = KRgbReddish.Alpha();
|
sl@0
|
1123 |
const GLfloat glRedBits = 255.f;
|
sl@0
|
1124 |
const GLfloat glGreenBits = 255.f;
|
sl@0
|
1125 |
const GLfloat glBlueBits = 255.f;
|
sl@0
|
1126 |
const GLfloat glAlphaBits = 255.f;
|
sl@0
|
1127 |
|
sl@0
|
1128 |
// Disable cdither - when using exact comparison to reference bitmap
|
sl@0
|
1129 |
// because reference bitmap cannot be created to match dither exactly
|
sl@0
|
1130 |
glDisable(GL_DITHER);
|
sl@0
|
1131 |
// Clear the surface to the colour specified
|
sl@0
|
1132 |
glClearColor((glRed)/glRedBits, (glGreen)/glGreenBits, (glBlue)/glBlueBits, glAlpha/glAlphaBits);
|
sl@0
|
1133 |
|
sl@0
|
1134 |
//glColor3f(KRgbGreenish.Red(),KRgbGreenish.Green(),KRgbGreenish.Blue());
|
sl@0
|
1135 |
//glRectf(KPixmapSquare.iTl.iX, KPixmapSquare.iTl.iY,KPixmapSquare.iTl.iX + KPixmapSquare.Width(),KPixmapSquare.iTl.iY + KPixmapSquare.Height());
|
sl@0
|
1136 |
|
sl@0
|
1137 |
glClear(GL_COLOR_BUFFER_BIT);
|
sl@0
|
1138 |
}
|
sl@0
|
1139 |
|
sl@0
|
1140 |
EXPORT_C void CTestEglSession::CheckImageDataL(CFbsBitmap* aFbsBitmap)
|
sl@0
|
1141 |
{
|
sl@0
|
1142 |
// Use native API's to check pixel values in the surface - note that this is not an OpenVG test, so no boundary pixels are tested
|
sl@0
|
1143 |
TRgb rgbPixelSample;
|
sl@0
|
1144 |
// Outside the square
|
sl@0
|
1145 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(10,10));
|
sl@0
|
1146 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1147 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(90,90));
|
sl@0
|
1148 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1149 |
|
sl@0
|
1150 |
// Inside the square
|
sl@0
|
1151 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(30,30));
|
sl@0
|
1152 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, rgbPixelSample, EFalse));
|
sl@0
|
1153 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(70,70));
|
sl@0
|
1154 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, rgbPixelSample, EFalse));
|
sl@0
|
1155 |
}
|
sl@0
|
1156 |
|
sl@0
|
1157 |
EXPORT_C void CTestEglSession::CheckImageDataFullRedishL(CFbsBitmap* aFbsBitmap)
|
sl@0
|
1158 |
{
|
sl@0
|
1159 |
// Use native API's to check pixel values in the surface - note that this is not an OpenVG test, so no boundary pixels are tested
|
sl@0
|
1160 |
TRgb rgbPixelSample;
|
sl@0
|
1161 |
// Outside the square
|
sl@0
|
1162 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(10,10));
|
sl@0
|
1163 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1164 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(90,90));
|
sl@0
|
1165 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1166 |
|
sl@0
|
1167 |
// Inside the square
|
sl@0
|
1168 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(30,30));
|
sl@0
|
1169 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1170 |
aFbsBitmap->GetPixel(rgbPixelSample, TPoint(70,70));
|
sl@0
|
1171 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, rgbPixelSample, EFalse));
|
sl@0
|
1172 |
}
|
sl@0
|
1173 |
|
sl@0
|
1174 |
/**
|
sl@0
|
1175 |
Use OpenVG to check pixel values
|
sl@0
|
1176 |
@param aDataFormat The VG image data format of the current surface
|
sl@0
|
1177 |
*/
|
sl@0
|
1178 |
EXPORT_C void CTestEglSession::CheckImageDataVgL(VGImageFormat aDataFormat)
|
sl@0
|
1179 |
{
|
sl@0
|
1180 |
switch(aDataFormat)
|
sl@0
|
1181 |
{
|
sl@0
|
1182 |
case VG_sRGB_565:
|
sl@0
|
1183 |
{
|
sl@0
|
1184 |
TUint16 intPixelSample=0;
|
sl@0
|
1185 |
|
sl@0
|
1186 |
// Outside the square
|
sl@0
|
1187 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 10,10, 1,1);
|
sl@0
|
1188 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color64K(intPixelSample), EFalse));
|
sl@0
|
1189 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 90,90, 1,1);
|
sl@0
|
1190 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color64K(intPixelSample), EFalse));
|
sl@0
|
1191 |
|
sl@0
|
1192 |
// Inside the square
|
sl@0
|
1193 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 30,30, 1,1);
|
sl@0
|
1194 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color64K(intPixelSample), EFalse));
|
sl@0
|
1195 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 70,70, 1,1);
|
sl@0
|
1196 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color64K(intPixelSample), EFalse));
|
sl@0
|
1197 |
break;
|
sl@0
|
1198 |
}
|
sl@0
|
1199 |
case VG_sXRGB_8888:
|
sl@0
|
1200 |
{
|
sl@0
|
1201 |
TUint32 intPixelSample=0;
|
sl@0
|
1202 |
|
sl@0
|
1203 |
// Outside the square
|
sl@0
|
1204 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 10,10, 1,1);
|
sl@0
|
1205 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1206 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 90,90, 1,1);
|
sl@0
|
1207 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1208 |
|
sl@0
|
1209 |
// Inside the square
|
sl@0
|
1210 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 30,30, 1,1);
|
sl@0
|
1211 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1212 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 70,70, 1,1);
|
sl@0
|
1213 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1214 |
break;
|
sl@0
|
1215 |
}
|
sl@0
|
1216 |
case VG_sARGB_8888:
|
sl@0
|
1217 |
{
|
sl@0
|
1218 |
TUint32 intPixelSample=0;
|
sl@0
|
1219 |
|
sl@0
|
1220 |
// Outside the square
|
sl@0
|
1221 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 10,10, 1,1);
|
sl@0
|
1222 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MA(intPixelSample), EFalse));
|
sl@0
|
1223 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 90,90, 1,1);
|
sl@0
|
1224 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MA(intPixelSample), EFalse));
|
sl@0
|
1225 |
|
sl@0
|
1226 |
// Inside the square
|
sl@0
|
1227 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 30,30, 1,1);
|
sl@0
|
1228 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color16MA(intPixelSample), EFalse));
|
sl@0
|
1229 |
vgReadPixels(&intPixelSample, 1, aDataFormat, 70,70, 1,1);
|
sl@0
|
1230 |
ASSERT_TRUE(PixelsMatch(KRgbGreenish, TRgb::Color16MA(intPixelSample), EFalse));
|
sl@0
|
1231 |
break;
|
sl@0
|
1232 |
}
|
sl@0
|
1233 |
default:
|
sl@0
|
1234 |
WARN_PRINTF2(_L("Unexpected image data format %d in CTestEglSession::CheckImageDataVgL"), aDataFormat);
|
sl@0
|
1235 |
ASSERT_TRUE(EFalse);
|
sl@0
|
1236 |
}
|
sl@0
|
1237 |
}
|
sl@0
|
1238 |
|
sl@0
|
1239 |
/**
|
sl@0
|
1240 |
Use OpenGLes to check pixel values
|
sl@0
|
1241 |
@param aDataFormat The VG image data format of the current surface
|
sl@0
|
1242 |
*/
|
sl@0
|
1243 |
EXPORT_C void CTestEglSession::CheckImageDataGLesL()
|
sl@0
|
1244 |
{
|
sl@0
|
1245 |
TUint32 intPixelSample;
|
sl@0
|
1246 |
glReadPixels(10,10,1,1,GL_RGBA,GL_UNSIGNED_BYTE ,&intPixelSample);
|
sl@0
|
1247 |
SwapChannels(intPixelSample);
|
sl@0
|
1248 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1249 |
|
sl@0
|
1250 |
glReadPixels(45,45,1,1,GL_RGBA,GL_UNSIGNED_BYTE ,&intPixelSample);
|
sl@0
|
1251 |
SwapChannels(intPixelSample);
|
sl@0
|
1252 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1253 |
|
sl@0
|
1254 |
glReadPixels(55,55,1,1,GL_RGBA,GL_UNSIGNED_BYTE ,&intPixelSample);
|
sl@0
|
1255 |
SwapChannels(intPixelSample);
|
sl@0
|
1256 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1257 |
|
sl@0
|
1258 |
glReadPixels(99,99,1,1,GL_RGBA,GL_UNSIGNED_BYTE ,&intPixelSample);
|
sl@0
|
1259 |
SwapChannels(intPixelSample);
|
sl@0
|
1260 |
ASSERT_TRUE(PixelsMatch(KRgbReddish, TRgb::Color16MU(intPixelSample), EFalse));
|
sl@0
|
1261 |
|
sl@0
|
1262 |
}
|
sl@0
|
1263 |
|
sl@0
|
1264 |
EXPORT_C void CTestEglSession::SwapChannels(TUint32 &aSwapMe)
|
sl@0
|
1265 |
{
|
sl@0
|
1266 |
TUint32 buff = aSwapMe;
|
sl@0
|
1267 |
|
sl@0
|
1268 |
aSwapMe = 0;
|
sl@0
|
1269 |
aSwapMe |= (buff & 0x000000FF) << 16;
|
sl@0
|
1270 |
aSwapMe |= (buff & 0x0000FF00);
|
sl@0
|
1271 |
aSwapMe |= (buff & 0x00FF0000) >> 16;
|
sl@0
|
1272 |
aSwapMe |= (buff & 0xFF000000);
|
sl@0
|
1273 |
}
|
sl@0
|
1274 |
|
sl@0
|
1275 |
/**
|
sl@0
|
1276 |
Destroys the surface and underlying RSgImage object.
|
sl@0
|
1277 |
Nulls the current context.
|
sl@0
|
1278 |
*/
|
sl@0
|
1279 |
EXPORT_C void CTestEglSession::CleanupSurfaceSgImageL()
|
sl@0
|
1280 |
{
|
sl@0
|
1281 |
CleanupSurfaceAndContextL();
|
sl@0
|
1282 |
|
sl@0
|
1283 |
iSgImage.Close();
|
sl@0
|
1284 |
}
|
sl@0
|
1285 |
|
sl@0
|
1286 |
/**
|
sl@0
|
1287 |
Resets the internal surface and context handles without destroying them.
|
sl@0
|
1288 |
Also closes the internal RSgImage handled that is associated to the surface.
|
sl@0
|
1289 |
|
sl@0
|
1290 |
EGL destroys all surface and context handles associated with a display when
|
sl@0
|
1291 |
eglTerminate() is called.
|
sl@0
|
1292 |
*/
|
sl@0
|
1293 |
EXPORT_C void CTestEglSession::ResetSurfaceAndContextSgImageL()
|
sl@0
|
1294 |
{
|
sl@0
|
1295 |
INFO_PRINTF1(_L("CTestEglSession::ResetSurfaceAndContextSgImageL()"));
|
sl@0
|
1296 |
|
sl@0
|
1297 |
iContext = EGL_NO_CONTEXT;
|
sl@0
|
1298 |
iSurface = EGL_NO_SURFACE;
|
sl@0
|
1299 |
iSgImage.Close();
|
sl@0
|
1300 |
}
|
sl@0
|
1301 |
|
sl@0
|
1302 |
/**
|
sl@0
|
1303 |
Check that the pixel values match within a predefined tolerance
|
sl@0
|
1304 |
@param aExpected the expected pixel colour vaule
|
sl@0
|
1305 |
@param aActual the actual pixel colour value
|
sl@0
|
1306 |
@param aCheckAlpha Whether to check the alpha channel value
|
sl@0
|
1307 |
@return Whether the pixel values match - within the allowed tolerance
|
sl@0
|
1308 |
*/
|
sl@0
|
1309 |
EXPORT_C TBool CTestEglSession::PixelsMatch(const TRgb& aExpected, const TRgb& aActual, TBool aCheckAlpha)
|
sl@0
|
1310 |
{
|
sl@0
|
1311 |
// This value has been carefully selected. If it is too high it could be hidding genuine pixel value
|
sl@0
|
1312 |
// differences, while too low will be too strict to allow for pixel conversions, i.e. from 16bpp to 32bpp
|
sl@0
|
1313 |
const TInt KPixelTolerance = 8;
|
sl@0
|
1314 |
|
sl@0
|
1315 |
if (aCheckAlpha && aExpected.Alpha()== 0 &&
|
sl@0
|
1316 |
aActual.Red() == 0 &&
|
sl@0
|
1317 |
aActual.Green() == 0 &&
|
sl@0
|
1318 |
aActual.Blue() == 0 &&
|
sl@0
|
1319 |
aActual.Alpha() == 0)
|
sl@0
|
1320 |
{
|
sl@0
|
1321 |
// if the expected value for alpha is 0, all actual values should be 0
|
sl@0
|
1322 |
return ETrue;
|
sl@0
|
1323 |
}
|
sl@0
|
1324 |
else if (Abs(aExpected.Red() - aActual.Red()) > KPixelTolerance ||
|
sl@0
|
1325 |
Abs(aExpected.Green() - aActual.Green()) > KPixelTolerance ||
|
sl@0
|
1326 |
Abs(aExpected.Blue() - aActual.Blue()) > KPixelTolerance ||
|
sl@0
|
1327 |
aCheckAlpha && Abs(aExpected.Alpha() - aActual.Alpha()) > KPixelTolerance)
|
sl@0
|
1328 |
{
|
sl@0
|
1329 |
// one or more of the actual values differ by more than the allowed tolerance
|
sl@0
|
1330 |
ERR_PRINTF6(_L("thread %d: Expected r:%d g:%d b:%d a:%d"), iThreadIdx, aExpected.Red(), aExpected.Green(), aExpected.Blue(), aExpected.Alpha());
|
sl@0
|
1331 |
ERR_PRINTF6(_L("thread %d: Actual r:%d g:%d b:%d a:%d"), iThreadIdx, aActual.Red(), aActual.Green(), aActual.Blue(), aActual.Alpha());
|
sl@0
|
1332 |
ERR_PRINTF6(_L("thread %d: diff r:%d g:%d b:%d a:%d"), iThreadIdx, Abs(aExpected.Red() - aActual.Red()), Abs(aExpected.Green() - aActual.Green()), Abs(aExpected.Blue() - aActual.Blue()), Abs(aExpected.Alpha() - aActual.Alpha()));
|
sl@0
|
1333 |
return EFalse;
|
sl@0
|
1334 |
}
|
sl@0
|
1335 |
return ETrue;
|
sl@0
|
1336 |
}
|
sl@0
|
1337 |
|
sl@0
|
1338 |
EXPORT_C void CTestEglSession::InitializeL(TBool aTerminateDisplay)
|
sl@0
|
1339 |
{
|
sl@0
|
1340 |
// Initialize display object
|
sl@0
|
1341 |
INFO_PRINTF2(_L("thread %d: Calling eglInitialize..."), iThreadIdx);
|
sl@0
|
1342 |
EGLint major=0;
|
sl@0
|
1343 |
EGLint minor=0;
|
sl@0
|
1344 |
CHECK_EXPECTED_ERROR(eglInitialize(iDisplay, &major, &minor));
|
sl@0
|
1345 |
// Remember if the user wants us to terminate the display.
|
sl@0
|
1346 |
iTerminateDisplay = aTerminateDisplay;
|
sl@0
|
1347 |
|
sl@0
|
1348 |
INFO_PRINTF4(_L("thread %d: Initialised: EGL Version %d.%d"), iThreadIdx, major, minor);
|
sl@0
|
1349 |
}
|
sl@0
|
1350 |
|
sl@0
|
1351 |
|
sl@0
|
1352 |
EXPORT_C void CTestEglSession::TerminateDisplayL()
|
sl@0
|
1353 |
{
|
sl@0
|
1354 |
if (iSurface != EGL_NO_SURFACE)
|
sl@0
|
1355 |
{
|
sl@0
|
1356 |
WARN_PRINTF2(_L("thread %d: iSurface has not been destoroyed in TerminateDisplayL..."), iThreadIdx);
|
sl@0
|
1357 |
}
|
sl@0
|
1358 |
if (iContext != EGL_NO_CONTEXT)
|
sl@0
|
1359 |
{
|
sl@0
|
1360 |
WARN_PRINTF2(_L("thread %d: iContext has not been destoroyed in TerminateDisplayL..."), iThreadIdx);
|
sl@0
|
1361 |
}
|
sl@0
|
1362 |
if (iDisplay != EGL_NO_DISPLAY)
|
sl@0
|
1363 |
{
|
sl@0
|
1364 |
INFO_PRINTF2(_L("thread %d: Calling eglMakeCurrent(NULL values) from TerminateDisplayL..."), iThreadIdx);
|
sl@0
|
1365 |
|
sl@0
|
1366 |
ASSERT_EGL_TRUE(eglMakeCurrent(iDisplay, EGL_NO_SURFACE, EGL_NO_SURFACE, EGL_NO_CONTEXT));
|
sl@0
|
1367 |
|
sl@0
|
1368 |
INFO_PRINTF1(_L("Calling eglTerminate..."));
|
sl@0
|
1369 |
ASSERT_EGL_TRUE(eglTerminate(iDisplay));
|
sl@0
|
1370 |
iDisplay = EGL_NO_DISPLAY;
|
sl@0
|
1371 |
}
|
sl@0
|
1372 |
iTerminateDisplay = EFalse;
|
sl@0
|
1373 |
}
|
sl@0
|
1374 |
|
sl@0
|
1375 |
EXPORT_C void CTestEglSession::OpenSgDriverL()
|
sl@0
|
1376 |
{
|
sl@0
|
1377 |
if (!iSgDriverOpen)
|
sl@0
|
1378 |
{
|
sl@0
|
1379 |
VERBOSE_INFO_PRINTF2(_L("CTestEglSession<0x%08x> Opening SgDriver"), this);
|
sl@0
|
1380 |
#ifdef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1381 |
TInt ret=iSgDriver.Open();
|
sl@0
|
1382 |
#else
|
sl@0
|
1383 |
TInt ret=SgDriver::Open();
|
sl@0
|
1384 |
#endif //SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1385 |
ASSERT_EQUALS(ret, KErrNone);
|
sl@0
|
1386 |
iSgDriverOpen = ETrue;
|
sl@0
|
1387 |
}
|
sl@0
|
1388 |
}
|
sl@0
|
1389 |
|
sl@0
|
1390 |
EXPORT_C void CTestEglSession::CloseSgDriver()
|
sl@0
|
1391 |
{
|
sl@0
|
1392 |
if (iSgDriverOpen)
|
sl@0
|
1393 |
{
|
sl@0
|
1394 |
VERBOSE_INFO_PRINTF2(_L("CTestEglSession<0x%08x> Closing SgDriver"), this);
|
sl@0
|
1395 |
#ifdef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1396 |
iSgDriver.Close();
|
sl@0
|
1397 |
#else
|
sl@0
|
1398 |
SgDriver::Close();
|
sl@0
|
1399 |
#endif //SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1400 |
iSgDriverOpen = EFalse;
|
sl@0
|
1401 |
}
|
sl@0
|
1402 |
}
|
sl@0
|
1403 |
|
sl@0
|
1404 |
EXPORT_C void CTestEglSession::OpenFbsSessionL()
|
sl@0
|
1405 |
{
|
sl@0
|
1406 |
if (!iFbsSessionOpen)
|
sl@0
|
1407 |
{
|
sl@0
|
1408 |
INFO_PRINTF2(_L("CTestEglSession<0x%08x> Opening FbsSession"), this);
|
sl@0
|
1409 |
TInt ret=RFbsSession::Connect();
|
sl@0
|
1410 |
ASSERT_EQUALS(ret, KErrNone);
|
sl@0
|
1411 |
iFbsSessionOpen = ETrue;
|
sl@0
|
1412 |
}
|
sl@0
|
1413 |
}
|
sl@0
|
1414 |
|
sl@0
|
1415 |
EXPORT_C void CTestEglSession::CloseFbsSession()
|
sl@0
|
1416 |
{
|
sl@0
|
1417 |
if (iFbsSessionOpen)
|
sl@0
|
1418 |
{
|
sl@0
|
1419 |
INFO_PRINTF2(_L("CTestEglSession<0x%08x> Closing FbsSession"), this);
|
sl@0
|
1420 |
RFbsSession::Disconnect();
|
sl@0
|
1421 |
iFbsSessionOpen = EFalse;
|
sl@0
|
1422 |
}
|
sl@0
|
1423 |
}
|
sl@0
|
1424 |
|
sl@0
|
1425 |
EXPORT_C TBool CTestEglSession::FetchProcEglCreateImageKhr()
|
sl@0
|
1426 |
{
|
sl@0
|
1427 |
if (!ipfnEglCreateImageKHR)
|
sl@0
|
1428 |
{
|
sl@0
|
1429 |
INFO_PRINTF2(_L("thread %d: Calling eglGetProcAddress(\"eglCreateImageKHR\")"), iThreadIdx);
|
sl@0
|
1430 |
ipfnEglCreateImageKHR = reinterpret_cast<TFPtrEglCreateImageKhr>(eglGetProcAddress("eglCreateImageKHR"));
|
sl@0
|
1431 |
if (ipfnEglCreateImageKHR==NULL)
|
sl@0
|
1432 |
{
|
sl@0
|
1433 |
EGLint eglError = eglGetError();
|
sl@0
|
1434 |
WARN_PRINTF2(_L("eglCreateImageKHR() not found - EGL Error: 0x%x"), eglError);
|
sl@0
|
1435 |
}
|
sl@0
|
1436 |
}
|
sl@0
|
1437 |
return (ipfnEglCreateImageKHR!=NULL);
|
sl@0
|
1438 |
}
|
sl@0
|
1439 |
|
sl@0
|
1440 |
EXPORT_C EGLImageKHR CTestEglSession::eglCreateImageKhrL(EGLDisplay aDisplay,EGLContext aContext,EGLenum aTarget,RSgImage* aSgImage,const EGLint *aAttr_List)
|
sl@0
|
1441 |
{
|
sl@0
|
1442 |
TBool bSuccess = FetchProcEglCreateImageKhr();
|
sl@0
|
1443 |
ASSERT_TRUE(bSuccess);
|
sl@0
|
1444 |
VERBOSE_INFO_PRINTF2(_L("thread %d: Calling eglCreateImageKHR"), iThreadIdx);
|
sl@0
|
1445 |
EGLImageKHR eglImage = ipfnEglCreateImageKHR(aDisplay,aContext,aTarget,reinterpret_cast<EGLClientBuffer>(aSgImage),const_cast<EGLint *>(aAttr_List));
|
sl@0
|
1446 |
return eglImage;
|
sl@0
|
1447 |
}
|
sl@0
|
1448 |
|
sl@0
|
1449 |
EXPORT_C EGLImageKHR CTestEglSession::eglCreateImageKhrL(EGLDisplay aDisplay,EGLContext aContext,EGLenum aTarget,CFbsBitmap &aCFbsBitmap, const EGLint *aAttr_List)
|
sl@0
|
1450 |
{
|
sl@0
|
1451 |
TBool bSuccess = FetchProcEglCreateImageKhr();
|
sl@0
|
1452 |
ASSERT_TRUE(bSuccess);
|
sl@0
|
1453 |
INFO_PRINTF2(_L("thread %d: Calling eglCreateImageKHR, with CFBsBitmap)"), iThreadIdx);
|
sl@0
|
1454 |
//the following call to eglCreateImageKHR MUST fail, error handling is made outside
|
sl@0
|
1455 |
EGLImageKHR eglImage = ipfnEglCreateImageKHR(aDisplay,aContext,aTarget,reinterpret_cast<EGLClientBuffer>(&aCFbsBitmap),const_cast<EGLint *>(aAttr_List));
|
sl@0
|
1456 |
return eglImage;
|
sl@0
|
1457 |
}
|
sl@0
|
1458 |
|
sl@0
|
1459 |
EXPORT_C TBool CTestEglSession::FetchProcEglDestroyImageKhr()
|
sl@0
|
1460 |
{
|
sl@0
|
1461 |
if (!ipfnEglDestroyImageKHR)
|
sl@0
|
1462 |
{
|
sl@0
|
1463 |
INFO_PRINTF2(_L("thread %d: Calling eglGetProcAddress(\"eglDestroyImageKHR\")"), iThreadIdx);
|
sl@0
|
1464 |
ipfnEglDestroyImageKHR = reinterpret_cast<TFPtrEglDestroyImageKhr>(eglGetProcAddress("eglDestroyImageKHR"));
|
sl@0
|
1465 |
if (ipfnEglDestroyImageKHR==NULL)
|
sl@0
|
1466 |
{
|
sl@0
|
1467 |
EGLint eglError = eglGetError();
|
sl@0
|
1468 |
WARN_PRINTF2(_L("eglDestroyImageKHR() not found - EGL Error: 0x%x"), eglError);
|
sl@0
|
1469 |
}
|
sl@0
|
1470 |
}
|
sl@0
|
1471 |
return (ipfnEglDestroyImageKHR!=NULL);
|
sl@0
|
1472 |
}
|
sl@0
|
1473 |
|
sl@0
|
1474 |
EXPORT_C TBool CTestEglSession::DestroyEGLImage(EGLDisplay aDisplay, EGLImageKHR aEGLImageKHR)
|
sl@0
|
1475 |
{
|
sl@0
|
1476 |
TBool bSuccess = FetchProcEglDestroyImageKhr();
|
sl@0
|
1477 |
ASSERT_TRUE(bSuccess);
|
sl@0
|
1478 |
VERBOSE_INFO_PRINTF2(_L("thread %d: Calling eglDestroyImageKHR"), iThreadIdx);
|
sl@0
|
1479 |
return ipfnEglDestroyImageKHR(aDisplay,aEGLImageKHR);
|
sl@0
|
1480 |
}
|
sl@0
|
1481 |
|
sl@0
|
1482 |
EXPORT_C TBool CTestEglSession::FetchProcvgCreateImageTargetKhr()
|
sl@0
|
1483 |
{
|
sl@0
|
1484 |
if (!ipfnvgCreateImageTargetKHR)
|
sl@0
|
1485 |
{
|
sl@0
|
1486 |
INFO_PRINTF2(_L("thread %d: Calling eglGetProcAddress (\"vgCreateEGLImageTargetKHR\")"), iThreadIdx);
|
sl@0
|
1487 |
ipfnvgCreateImageTargetKHR = reinterpret_cast<TFPtrVgCreateEglImageTargetKhr>(eglGetProcAddress("vgCreateEGLImageTargetKHR"));
|
sl@0
|
1488 |
if (ipfnvgCreateImageTargetKHR==NULL)
|
sl@0
|
1489 |
{
|
sl@0
|
1490 |
EGLint eglError = eglGetError();
|
sl@0
|
1491 |
WARN_PRINTF2(_L("vgCreateImageTargetKHR() not found - EGL Error: 0x%x"), eglError);
|
sl@0
|
1492 |
}
|
sl@0
|
1493 |
}
|
sl@0
|
1494 |
return (ipfnvgCreateImageTargetKHR!=NULL);
|
sl@0
|
1495 |
}
|
sl@0
|
1496 |
|
sl@0
|
1497 |
EXPORT_C VGImage CTestEglSession::vgCreateImageTargetKHR(VGeglImageKHR aImage)
|
sl@0
|
1498 |
{
|
sl@0
|
1499 |
TBool bSuccess = FetchProcvgCreateImageTargetKhr();
|
sl@0
|
1500 |
ASSERT_TRUE(bSuccess);
|
sl@0
|
1501 |
VERBOSE_INFO_PRINTF2(_L("thread %d: Calling vgCreateEGLImageTargetKHR"), iThreadIdx);
|
sl@0
|
1502 |
return ipfnvgCreateImageTargetKHR(aImage);
|
sl@0
|
1503 |
}
|
sl@0
|
1504 |
|
sl@0
|
1505 |
EXPORT_C TBool CTestEglSession::IsACompatibleConfig(EGLConfig aConfig,RSgImage& aImage,TBool aLog)
|
sl@0
|
1506 |
{
|
sl@0
|
1507 |
EGLint EGL_BUFFER_SIZE_value;
|
sl@0
|
1508 |
EGLint EGL_ALPHA_SIZE_value;
|
sl@0
|
1509 |
EGLint EGL_BLUE_SIZE_value;
|
sl@0
|
1510 |
EGLint EGL_GREEN_SIZE_value;
|
sl@0
|
1511 |
EGLint EGL_RED_SIZE_value;
|
sl@0
|
1512 |
EGLint EGL_SURFACE_TYPE_value;
|
sl@0
|
1513 |
EGLint EGL_RENDERABLE_TYPE_value;
|
sl@0
|
1514 |
EGLint EGL_CONFIG_ID_value;
|
sl@0
|
1515 |
|
sl@0
|
1516 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_CONFIG_ID, &EGL_CONFIG_ID_value);
|
sl@0
|
1517 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_BUFFER_SIZE, &EGL_BUFFER_SIZE_value);
|
sl@0
|
1518 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_ALPHA_SIZE, &EGL_ALPHA_SIZE_value);
|
sl@0
|
1519 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_BLUE_SIZE, &EGL_BLUE_SIZE_value);
|
sl@0
|
1520 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_GREEN_SIZE, &EGL_GREEN_SIZE_value);
|
sl@0
|
1521 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_RED_SIZE, &EGL_RED_SIZE_value);
|
sl@0
|
1522 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_SURFACE_TYPE, &EGL_SURFACE_TYPE_value);
|
sl@0
|
1523 |
eglGetConfigAttrib(iDisplay, aConfig, EGL_RENDERABLE_TYPE, &EGL_RENDERABLE_TYPE_value);
|
sl@0
|
1524 |
#ifdef PRINTG_CONFIGS_LOG
|
sl@0
|
1525 |
INFO_PRINTF7(_L("(Config: %3d) RGBA=(%2d) %2d,%2d,%2d,%2d"), EGL_CONFIG_ID_value, EGL_BUFFER_SIZE_value,
|
sl@0
|
1526 |
EGL_RED_SIZE_value, EGL_GREEN_SIZE_value, EGL_BLUE_SIZE_value,
|
sl@0
|
1527 |
EGL_ALPHA_SIZE_value);
|
sl@0
|
1528 |
INFO_PRINTF2(_L("RENDERABLE_TYPE %d"),EGL_RENDERABLE_TYPE_value);
|
sl@0
|
1529 |
#endif
|
sl@0
|
1530 |
|
sl@0
|
1531 |
if(!(EGL_SURFACE_TYPE_value & EGL_PIXMAP_BIT))
|
sl@0
|
1532 |
{
|
sl@0
|
1533 |
return EFalse;
|
sl@0
|
1534 |
}
|
sl@0
|
1535 |
|
sl@0
|
1536 |
TBool good = ETrue;
|
sl@0
|
1537 |
//requested usage bits
|
sl@0
|
1538 |
TSgImageInfo requestedImageInfo;
|
sl@0
|
1539 |
aImage.GetInfo(requestedImageInfo);
|
sl@0
|
1540 |
|
sl@0
|
1541 |
#ifndef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1542 |
//potential usage bits
|
sl@0
|
1543 |
RSgImage potential;
|
sl@0
|
1544 |
potential.Open(aImage.Id(),ESgDoNotRestrictUsage);
|
sl@0
|
1545 |
TSgImageInfo potentialImageInfo;
|
sl@0
|
1546 |
potential.GetInfo(potentialImageInfo);
|
sl@0
|
1547 |
potential.Close();
|
sl@0
|
1548 |
#endif
|
sl@0
|
1549 |
|
sl@0
|
1550 |
switch(requestedImageInfo.iPixelFormat)
|
sl@0
|
1551 |
{
|
sl@0
|
1552 |
case EUidPixelFormatRGB_565:
|
sl@0
|
1553 |
if (!(EGL_RED_SIZE_value == 5 && EGL_GREEN_SIZE_value == 6 && EGL_BLUE_SIZE_value == 5 && EGL_ALPHA_SIZE_value == 0))
|
sl@0
|
1554 |
{
|
sl@0
|
1555 |
good = EFalse;
|
sl@0
|
1556 |
}
|
sl@0
|
1557 |
break;
|
sl@0
|
1558 |
case EUidPixelFormatXRGB_8888:
|
sl@0
|
1559 |
if (!(EGL_RED_SIZE_value == 8 && EGL_GREEN_SIZE_value == 8 && EGL_BLUE_SIZE_value == 8 && EGL_ALPHA_SIZE_value == 0))
|
sl@0
|
1560 |
{
|
sl@0
|
1561 |
good = EFalse;
|
sl@0
|
1562 |
}
|
sl@0
|
1563 |
break;
|
sl@0
|
1564 |
case EUidPixelFormatARGB_8888_PRE:
|
sl@0
|
1565 |
if (!(EGL_RED_SIZE_value == 8 && EGL_GREEN_SIZE_value == 8 && EGL_BLUE_SIZE_value == 8 && EGL_ALPHA_SIZE_value == 8))
|
sl@0
|
1566 |
{
|
sl@0
|
1567 |
good = EFalse;
|
sl@0
|
1568 |
}
|
sl@0
|
1569 |
//just OVG cares about the premultiplied alpha
|
sl@0
|
1570 |
if(EGL_RENDERABLE_TYPE_value& EGL_OPENVG_BIT)
|
sl@0
|
1571 |
//if(requestedImageInfo.iUsage & ESgUsageBitOpenVgSurface)
|
sl@0
|
1572 |
{
|
sl@0
|
1573 |
if(!(EGL_SURFACE_TYPE_value & EGL_VG_ALPHA_FORMAT_PRE_BIT))
|
sl@0
|
1574 |
{
|
sl@0
|
1575 |
if(aLog)
|
sl@0
|
1576 |
{
|
sl@0
|
1577 |
WARN_PRINTF2(_L("This Config can't be used with Pre-multipliedAlpha becasue EGL_SURFACE_TYPE has the wrong bits = %x"), EGL_SURFACE_TYPE_value);
|
sl@0
|
1578 |
}
|
sl@0
|
1579 |
good = EFalse;
|
sl@0
|
1580 |
}
|
sl@0
|
1581 |
}
|
sl@0
|
1582 |
break;
|
sl@0
|
1583 |
default:
|
sl@0
|
1584 |
if(aLog)
|
sl@0
|
1585 |
{
|
sl@0
|
1586 |
ERR_PRINTF2(_L("Wrong PixelFormat for a target, %x"), requestedImageInfo.iPixelFormat);
|
sl@0
|
1587 |
}
|
sl@0
|
1588 |
good = EFalse;
|
sl@0
|
1589 |
}
|
sl@0
|
1590 |
if(!good)
|
sl@0
|
1591 |
{
|
sl@0
|
1592 |
return EFalse;
|
sl@0
|
1593 |
}
|
sl@0
|
1594 |
|
sl@0
|
1595 |
#ifdef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1596 |
//
|
sl@0
|
1597 |
//Check if strict matching requirements are met:
|
sl@0
|
1598 |
//- All the supported APIs included in the EGL_RENDERABLE_TYPE of the
|
sl@0
|
1599 |
// EGLConfig must be matched by the corresponding iUsage of RSgImage
|
sl@0
|
1600 |
//- The following usages included in the iUsage of the RSgImage must be
|
sl@0
|
1601 |
// matched by the corresponding API in EGL_RENDERABLE_TYPE of the EGLConfig:
|
sl@0
|
1602 |
// ESgUsageBitOpenGlSurface-> EGL_OPENGL_BIT
|
sl@0
|
1603 |
// ESgUsageBitOpenGlesSurface-> EGL_OPENGL_ES_BIT
|
sl@0
|
1604 |
// ESgUsageBitOpenGles2Surface-> EGL_OPENGL_ES2_BIT
|
sl@0
|
1605 |
// ESgUsageBitOpenVgSurface->EGL_OPENVG_BIT
|
sl@0
|
1606 |
|
sl@0
|
1607 |
EGLint usageBitsMask = 0;
|
sl@0
|
1608 |
if(requestedImageInfo.iUsage & ESgUsageBitOpenVgSurface)
|
sl@0
|
1609 |
{
|
sl@0
|
1610 |
usageBitsMask |= EGL_OPENVG_BIT;
|
sl@0
|
1611 |
}
|
sl@0
|
1612 |
if(requestedImageInfo.iUsage & ESgUsageBitOpenGles2Surface)
|
sl@0
|
1613 |
{
|
sl@0
|
1614 |
usageBitsMask |= EGL_OPENGL_ES2_BIT;
|
sl@0
|
1615 |
}
|
sl@0
|
1616 |
if(requestedImageInfo.iUsage & ESgUsageBitOpenGlesSurface)
|
sl@0
|
1617 |
{
|
sl@0
|
1618 |
usageBitsMask |= EGL_OPENGL_ES_BIT;
|
sl@0
|
1619 |
}
|
sl@0
|
1620 |
if(requestedImageInfo.iUsage & ESgUsageBitOpenGlSurface)
|
sl@0
|
1621 |
{
|
sl@0
|
1622 |
usageBitsMask |= EGL_OPENGL_BIT;
|
sl@0
|
1623 |
}
|
sl@0
|
1624 |
|
sl@0
|
1625 |
if(usageBitsMask != EGL_RENDERABLE_TYPE_value)
|
sl@0
|
1626 |
{
|
sl@0
|
1627 |
return EFalse;
|
sl@0
|
1628 |
}
|
sl@0
|
1629 |
#else
|
sl@0
|
1630 |
// requested usage & RENDERABLE_TYPE > 0
|
sl@0
|
1631 |
EGLint usageBitsMask = 0;
|
sl@0
|
1632 |
if(requestedImageInfo.iUsage & ESgUsageOpenVgTarget)
|
sl@0
|
1633 |
{
|
sl@0
|
1634 |
usageBitsMask |= EGL_OPENVG_BIT;
|
sl@0
|
1635 |
}
|
sl@0
|
1636 |
if(requestedImageInfo.iUsage & ESgUsageOpenGlesTarget)
|
sl@0
|
1637 |
{
|
sl@0
|
1638 |
usageBitsMask |= EGL_OPENGL_ES_BIT;
|
sl@0
|
1639 |
}
|
sl@0
|
1640 |
if(requestedImageInfo.iUsage & ESgUsageOpenGles2Target)
|
sl@0
|
1641 |
{
|
sl@0
|
1642 |
usageBitsMask |= EGL_OPENGL_ES2_BIT;
|
sl@0
|
1643 |
}
|
sl@0
|
1644 |
if(!(usageBitsMask & EGL_RENDERABLE_TYPE_value))
|
sl@0
|
1645 |
{
|
sl@0
|
1646 |
return EFalse;
|
sl@0
|
1647 |
}
|
sl@0
|
1648 |
|
sl@0
|
1649 |
// potential usage >= RENDERABLE_TYPE
|
sl@0
|
1650 |
|
sl@0
|
1651 |
EGLint potentialUsageBitsMask = 0;
|
sl@0
|
1652 |
if(potentialImageInfo.iUsage & ESgUsageOpenVgTarget)
|
sl@0
|
1653 |
{
|
sl@0
|
1654 |
potentialUsageBitsMask |= EGL_OPENVG_BIT;
|
sl@0
|
1655 |
}
|
sl@0
|
1656 |
if(potentialImageInfo.iUsage & ESgUsageOpenGlesTarget)
|
sl@0
|
1657 |
{
|
sl@0
|
1658 |
potentialUsageBitsMask |= EGL_OPENGL_ES_BIT;
|
sl@0
|
1659 |
}
|
sl@0
|
1660 |
if(potentialImageInfo.iUsage & ESgUsageOpenGles2Target)
|
sl@0
|
1661 |
{
|
sl@0
|
1662 |
potentialUsageBitsMask |= EGL_OPENGL_ES2_BIT;
|
sl@0
|
1663 |
}
|
sl@0
|
1664 |
|
sl@0
|
1665 |
potentialUsageBitsMask = EGL_RENDERABLE_TYPE_value &~ potentialUsageBitsMask;
|
sl@0
|
1666 |
if(potentialUsageBitsMask)
|
sl@0
|
1667 |
{
|
sl@0
|
1668 |
return EFalse;
|
sl@0
|
1669 |
}
|
sl@0
|
1670 |
#endif //SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1671 |
return good;
|
sl@0
|
1672 |
}
|
sl@0
|
1673 |
|
sl@0
|
1674 |
EXPORT_C TBool CTestEglSession::CheckNeededExtensionL(TInt aExtension, const TDesC& aExtensionName)
|
sl@0
|
1675 |
{
|
sl@0
|
1676 |
TBuf8<128> extensionName;
|
sl@0
|
1677 |
extensionName.Copy(aExtensionName);
|
sl@0
|
1678 |
if(aExtension & KEGL_RSgimage || extensionName.Compare(KEglRSgImage)==0)
|
sl@0
|
1679 |
{
|
sl@0
|
1680 |
TBool bFoundExtensionEGL_NOK_pixmap_type_rsgimage = FindExtensionStringL(EIsEGL,KEglRSgImage);
|
sl@0
|
1681 |
if (!bFoundExtensionEGL_NOK_pixmap_type_rsgimage)
|
sl@0
|
1682 |
{
|
sl@0
|
1683 |
// The extension is not supported
|
sl@0
|
1684 |
return EFalse;
|
sl@0
|
1685 |
}
|
sl@0
|
1686 |
}
|
sl@0
|
1687 |
if(aExtension & KEGL_KHR_image_base || extensionName.Compare(KEglKhrImageBase)==0)
|
sl@0
|
1688 |
{
|
sl@0
|
1689 |
TBool bFoundExtensionEGL_KHR_image = FindExtensionStringL(EIsEGL,KEglKhrImageBase);
|
sl@0
|
1690 |
if (!bFoundExtensionEGL_KHR_image)
|
sl@0
|
1691 |
{
|
sl@0
|
1692 |
// The extension is not supported
|
sl@0
|
1693 |
return EFalse;
|
sl@0
|
1694 |
}
|
sl@0
|
1695 |
}
|
sl@0
|
1696 |
if(aExtension & KEGL_KHR_image_pixmap || extensionName.Compare(KEglKhrImagePixmap)==0)
|
sl@0
|
1697 |
{
|
sl@0
|
1698 |
TBool bFoundExtensionEGL_KHR_image = FindExtensionStringL(EIsEGL,KEglKhrImagePixmap);
|
sl@0
|
1699 |
if (!bFoundExtensionEGL_KHR_image)
|
sl@0
|
1700 |
{
|
sl@0
|
1701 |
// The extension is not supported
|
sl@0
|
1702 |
return EFalse;
|
sl@0
|
1703 |
}
|
sl@0
|
1704 |
}
|
sl@0
|
1705 |
if(aExtension & KVG_KHR_EGL_image || extensionName.Compare(KVgKhrEglImage)==0)
|
sl@0
|
1706 |
{
|
sl@0
|
1707 |
TBool bFoundExtensionVG_KHR_EGL_image = FindExtensionStringL(EIsVG,KVgKhrEglImage);
|
sl@0
|
1708 |
if (!bFoundExtensionVG_KHR_EGL_image)
|
sl@0
|
1709 |
{
|
sl@0
|
1710 |
// The extension is not supported
|
sl@0
|
1711 |
return EFalse;
|
sl@0
|
1712 |
}
|
sl@0
|
1713 |
}
|
sl@0
|
1714 |
if(aExtension & KEGL_KHR_reusable_sync || extensionName.Compare(KEglKhrReusableSync)==0)
|
sl@0
|
1715 |
{
|
sl@0
|
1716 |
TBool bFoundExtensionEGL_KHR_reusable_sync = FindExtensionStringL(EIsEGL,KEglKhrReusableSync);
|
sl@0
|
1717 |
if (!bFoundExtensionEGL_KHR_reusable_sync)
|
sl@0
|
1718 |
{
|
sl@0
|
1719 |
// The extension is not supported
|
sl@0
|
1720 |
return EFalse;
|
sl@0
|
1721 |
}
|
sl@0
|
1722 |
}
|
sl@0
|
1723 |
if(aExtension & KEGL_NOK__private__signal_sync || extensionName.Compare(KEglNokPrivateSignalSync)==0)
|
sl@0
|
1724 |
{
|
sl@0
|
1725 |
TBool bFoundExtensionEGL_NOK__private__signal_sync = FindExtensionStringL(EIsEGL,KEglNokPrivateSignalSync);
|
sl@0
|
1726 |
if (!bFoundExtensionEGL_NOK__private__signal_sync)
|
sl@0
|
1727 |
{
|
sl@0
|
1728 |
// The extension is not supported
|
sl@0
|
1729 |
return EFalse;
|
sl@0
|
1730 |
}
|
sl@0
|
1731 |
}
|
sl@0
|
1732 |
if(aExtension & KEGL_NOKIA_swap_buffers || extensionName.Compare(KEglNokiaSwapBuffers)==0)
|
sl@0
|
1733 |
{
|
sl@0
|
1734 |
TBool bFoundExtensionEGL_NOKIA_swap_buffer = FindExtensionStringL(EIsEGL,KEglNokiaSwapBuffers);
|
sl@0
|
1735 |
if (!bFoundExtensionEGL_NOKIA_swap_buffer)
|
sl@0
|
1736 |
{
|
sl@0
|
1737 |
// The extension is not supported
|
sl@0
|
1738 |
return EFalse;
|
sl@0
|
1739 |
}
|
sl@0
|
1740 |
}
|
sl@0
|
1741 |
#ifndef SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1742 |
if(aExtension & KEGL_SYMBIAN_image_preserved || extensionName.Compare(KEglSymbianImagePreserved)
|
sl@0
|
1743 |
{
|
sl@0
|
1744 |
TBool bFoundExtensionEGL_SYMBIAN_image_preserved = FindExtensionStringL(EIsEGL,KEglSymbianImagePreserved);
|
sl@0
|
1745 |
if (!bFoundExtensionEGL_SYMBIAN_image_preserved)
|
sl@0
|
1746 |
{
|
sl@0
|
1747 |
// The extension is not supported
|
sl@0
|
1748 |
return EFalse;
|
sl@0
|
1749 |
}
|
sl@0
|
1750 |
}
|
sl@0
|
1751 |
#endif //SYMBIAN_GRAPHICS_EGL_SGIMAGELITE
|
sl@0
|
1752 |
if(aExtension & KEGL_NOK_image_endpoint || extensionName.Compare(KEglNokiaImageEndpoint)==0)
|
sl@0
|
1753 |
{
|
sl@0
|
1754 |
TBool bFoundExtensionEGL_NOK_image_endpoint = FindExtensionStringL(EIsEGL,KEglNokiaImageEndpoint);
|
sl@0
|
1755 |
if (!bFoundExtensionEGL_NOK_image_endpoint)
|
sl@0
|
1756 |
{
|
sl@0
|
1757 |
// The extension is not supported
|
sl@0
|
1758 |
return EFalse;
|
sl@0
|
1759 |
}
|
sl@0
|
1760 |
}
|
sl@0
|
1761 |
if(aExtension & KEGL_NOK_surface_scaling || extensionName.Compare(KEglNokiaSurfaceScaling)==0)
|
sl@0
|
1762 |
{
|
sl@0
|
1763 |
TBool bFoundExtensionEGL_NOK_surface_scaling = FindExtensionStringL(EIsEGL,KEglNokiaSurfaceScaling);
|
sl@0
|
1764 |
if (!bFoundExtensionEGL_NOK_surface_scaling)
|
sl@0
|
1765 |
{
|
sl@0
|
1766 |
// The extension is not supported
|
sl@0
|
1767 |
return EFalse;
|
sl@0
|
1768 |
}
|
sl@0
|
1769 |
}
|
sl@0
|
1770 |
return ETrue;
|
sl@0
|
1771 |
}
|
sl@0
|
1772 |
|
sl@0
|
1773 |
EXPORT_C CFbsBitmap* CTestEglSession::CreateReferenceBitmapL(TDisplayMode aMode)
|
sl@0
|
1774 |
{
|
sl@0
|
1775 |
if(aMode == ENone )
|
sl@0
|
1776 |
{
|
sl@0
|
1777 |
ERR_PRINTF1(_L("Queried Reference Bitmap dispaly mode equal to ENone"));
|
sl@0
|
1778 |
User::Leave(KErrTEFUnitFail);
|
sl@0
|
1779 |
}
|
sl@0
|
1780 |
return CreateReferenceBitmapL(aMode,KRgbGreenish);
|
sl@0
|
1781 |
}
|
sl@0
|
1782 |
|
sl@0
|
1783 |
EXPORT_C CFbsBitmap* CTestEglSession::CreateReferenceBitmapL(TDisplayMode aMode,const TRgb& aColour)
|
sl@0
|
1784 |
{
|
sl@0
|
1785 |
OpenFbsSessionL();
|
sl@0
|
1786 |
CFbsBitmap* bitmap = new(ELeave) CFbsBitmap();
|
sl@0
|
1787 |
CleanupStack::PushL(bitmap);
|
sl@0
|
1788 |
if(bitmap->Create(KPixmapSize,aMode) != KErrNone)
|
sl@0
|
1789 |
{
|
sl@0
|
1790 |
return NULL;
|
sl@0
|
1791 |
}
|
sl@0
|
1792 |
CFbsBitmapDevice* bitmapDevice = CFbsBitmapDevice::NewL(bitmap);
|
sl@0
|
1793 |
CleanupStack::PushL(bitmapDevice);
|
sl@0
|
1794 |
CFbsBitGc* fbsBitGc = CFbsBitGc::NewL();
|
sl@0
|
1795 |
CleanupStack::PushL(fbsBitGc);
|
sl@0
|
1796 |
fbsBitGc->Activate(bitmapDevice);
|
sl@0
|
1797 |
fbsBitGc->SetBrushColor(aColour);
|
sl@0
|
1798 |
fbsBitGc->Clear();
|
sl@0
|
1799 |
CleanupStack::PopAndDestroy(2,bitmapDevice);
|
sl@0
|
1800 |
CleanupStack::Pop(bitmap);
|
sl@0
|
1801 |
return bitmap;
|
sl@0
|
1802 |
}
|
sl@0
|
1803 |
|
sl@0
|
1804 |
EXPORT_C CFbsBitmap* CTestEglSession::CreateReferenceMaskedBitmapL(TDisplayMode aRefBitmapMode, const TRgb& aPenBitmapColor, const CFbsBitmap* aMaskBitmap)
|
sl@0
|
1805 |
{
|
sl@0
|
1806 |
OpenFbsSessionL();
|
sl@0
|
1807 |
|
sl@0
|
1808 |
// create the refBitmat (same size as the mask bitmap)
|
sl@0
|
1809 |
// Note that we clear it to 'opaque black' as we assume the target surface has been cleared to 'opaque black' too
|
sl@0
|
1810 |
// If either the surface or the refBitmap are cleared to another colour, update the other accordingly
|
sl@0
|
1811 |
CFbsBitmap* refBitmap = new(ELeave) CFbsBitmap();
|
sl@0
|
1812 |
CleanupStack::PushL(refBitmap);
|
sl@0
|
1813 |
User::LeaveIfError(refBitmap->Create(aMaskBitmap->SizeInPixels(), aRefBitmapMode));
|
sl@0
|
1814 |
CFbsBitmapDevice* bitmapDevice = CFbsBitmapDevice::NewL(refBitmap);
|
sl@0
|
1815 |
CleanupStack::PushL(bitmapDevice);
|
sl@0
|
1816 |
CFbsBitGc* fbsBitGc = CFbsBitGc::NewL();
|
sl@0
|
1817 |
CleanupStack::PushL(fbsBitGc);
|
sl@0
|
1818 |
fbsBitGc->Activate(bitmapDevice);
|
sl@0
|
1819 |
fbsBitGc->SetBrushColor(KRgbBlack);
|
sl@0
|
1820 |
fbsBitGc->Clear();
|
sl@0
|
1821 |
|
sl@0
|
1822 |
// create the penBitmap (same size as the mask bitmap)
|
sl@0
|
1823 |
CFbsBitmap* penBitmap = new(ELeave) CFbsBitmap();
|
sl@0
|
1824 |
CleanupStack::PushL(penBitmap);
|
sl@0
|
1825 |
User::LeaveIfError(penBitmap->Create(aMaskBitmap->SizeInPixels(), aRefBitmapMode));
|
sl@0
|
1826 |
CFbsBitmapDevice* penbitmapDevice = CFbsBitmapDevice::NewL(penBitmap);
|
sl@0
|
1827 |
CleanupStack::PushL(penbitmapDevice);
|
sl@0
|
1828 |
CFbsBitGc* penBitGc = CFbsBitGc::NewL();
|
sl@0
|
1829 |
CleanupStack::PushL(penBitGc);
|
sl@0
|
1830 |
penBitGc->Activate(penbitmapDevice);
|
sl@0
|
1831 |
penBitGc->SetBrushColor(aPenBitmapColor);
|
sl@0
|
1832 |
penBitGc->Clear();
|
sl@0
|
1833 |
|
sl@0
|
1834 |
// perform a masked bitmap transfer to the active refBitmap
|
sl@0
|
1835 |
TRect bmpRect(TPoint(0, 0), refBitmap->SizeInPixels());
|
sl@0
|
1836 |
fbsBitGc->Activate(bitmapDevice);
|
sl@0
|
1837 |
fbsBitGc->BitBltMasked(TPoint(0, 0), penBitmap, bmpRect, aMaskBitmap, EFalse);
|
sl@0
|
1838 |
|
sl@0
|
1839 |
CleanupStack::PopAndDestroy(5, bitmapDevice);
|
sl@0
|
1840 |
CleanupStack::Pop(refBitmap);
|
sl@0
|
1841 |
return refBitmap;
|
sl@0
|
1842 |
}
|
sl@0
|
1843 |
|
sl@0
|
1844 |
|
sl@0
|
1845 |
EXPORT_C CFbsBitmap* CTestEglSession::CreateReferenceBitmapL(TDisplayMode aMode, const TSize &aSize, const TInt aIndex)
|
sl@0
|
1846 |
{
|
sl@0
|
1847 |
OpenFbsSessionL();
|
sl@0
|
1848 |
CFbsBitmap* bitmap = new(ELeave) CFbsBitmap();
|
sl@0
|
1849 |
CleanupStack::PushL(bitmap);
|
sl@0
|
1850 |
User::LeaveIfError(bitmap->Create(aSize,aMode));
|
sl@0
|
1851 |
|
sl@0
|
1852 |
TInt height = bitmap->SizeInPixels().iHeight;
|
sl@0
|
1853 |
TInt width = bitmap->SizeInPixels().iWidth;
|
sl@0
|
1854 |
|
sl@0
|
1855 |
// Initialise colour values to a random value (guarantees pixel uniqueness if update is done accordingly)
|
sl@0
|
1856 |
TInt red=0;
|
sl@0
|
1857 |
TInt green=127;
|
sl@0
|
1858 |
TInt blue=127;
|
sl@0
|
1859 |
TInt alpha=255;
|
sl@0
|
1860 |
|
sl@0
|
1861 |
TBitmapUtil bmpUtil(bitmap);
|
sl@0
|
1862 |
bmpUtil.Begin(TPoint(0,0));
|
sl@0
|
1863 |
for (TInt colIndex = 0; colIndex < width; ++colIndex)
|
sl@0
|
1864 |
{
|
sl@0
|
1865 |
bmpUtil.SetPos(TPoint(colIndex, 0));
|
sl@0
|
1866 |
for (TInt rowIndex =0; rowIndex < height; ++rowIndex)
|
sl@0
|
1867 |
{
|
sl@0
|
1868 |
TRgb rgb(red, green, blue, alpha);
|
sl@0
|
1869 |
switch(bitmap->DisplayMode())
|
sl@0
|
1870 |
{
|
sl@0
|
1871 |
case EColor64K:
|
sl@0
|
1872 |
{
|
sl@0
|
1873 |
bmpUtil.SetPixel(rgb.Color64K());
|
sl@0
|
1874 |
break;
|
sl@0
|
1875 |
}
|
sl@0
|
1876 |
case EColor16MU:
|
sl@0
|
1877 |
{
|
sl@0
|
1878 |
bmpUtil.SetPixel(rgb.Color16MU());
|
sl@0
|
1879 |
break;
|
sl@0
|
1880 |
}
|
sl@0
|
1881 |
case EColor16MA:
|
sl@0
|
1882 |
{
|
sl@0
|
1883 |
bmpUtil.SetPixel(rgb.Color16MA());
|
sl@0
|
1884 |
break;
|
sl@0
|
1885 |
}
|
sl@0
|
1886 |
case EColor16MAP:
|
sl@0
|
1887 |
{
|
sl@0
|
1888 |
bmpUtil.SetPixel(rgb.Color16MAP());
|
sl@0
|
1889 |
break;
|
sl@0
|
1890 |
}
|
sl@0
|
1891 |
case EGray256:
|
sl@0
|
1892 |
{
|
sl@0
|
1893 |
bmpUtil.SetPixel(rgb.Gray256());
|
sl@0
|
1894 |
break;
|
sl@0
|
1895 |
}
|
sl@0
|
1896 |
default:
|
sl@0
|
1897 |
{
|
sl@0
|
1898 |
// We should not get here - colour mode not supported by these tests
|
sl@0
|
1899 |
ERR_PRINTF1(_L("CTestEglSession::CreateReferenceBitmapL - Colour mode not supported!"));
|
sl@0
|
1900 |
ASSERT(FALSE);
|
sl@0
|
1901 |
}
|
sl@0
|
1902 |
}
|
sl@0
|
1903 |
bmpUtil.IncYPos();
|
sl@0
|
1904 |
|
sl@0
|
1905 |
// Update red bit
|
sl@0
|
1906 |
red = ++red + aIndex;
|
sl@0
|
1907 |
if (red>255)
|
sl@0
|
1908 |
red = red - 256;
|
sl@0
|
1909 |
|
sl@0
|
1910 |
// Update green bit
|
sl@0
|
1911 |
green = --green - aIndex;
|
sl@0
|
1912 |
if (green<0)
|
sl@0
|
1913 |
green = green + 256;
|
sl@0
|
1914 |
|
sl@0
|
1915 |
// Update blue bit
|
sl@0
|
1916 |
blue = ++blue + aIndex;
|
sl@0
|
1917 |
if (blue>255)
|
sl@0
|
1918 |
blue = blue - 256;
|
sl@0
|
1919 |
|
sl@0
|
1920 |
// Update alpha bit
|
sl@0
|
1921 |
alpha = --alpha - aIndex;
|
sl@0
|
1922 |
if (alpha<0)
|
sl@0
|
1923 |
alpha = alpha + 256;
|
sl@0
|
1924 |
}
|
sl@0
|
1925 |
}
|
sl@0
|
1926 |
bmpUtil.End();
|
sl@0
|
1927 |
CleanupStack::Pop(bitmap);
|
sl@0
|
1928 |
return bitmap;
|
sl@0
|
1929 |
}
|
sl@0
|
1930 |
|
sl@0
|
1931 |
EXPORT_C void CTestEglSession::CheckVgDrawingL(VGImageFormat aDataFormat, const CFbsBitmap* aReferenceBitmap)
|
sl@0
|
1932 |
{
|
sl@0
|
1933 |
TRgb refPixel;
|
sl@0
|
1934 |
TInt height = aReferenceBitmap->SizeInPixels().iHeight;
|
sl@0
|
1935 |
TInt width = aReferenceBitmap->SizeInPixels().iWidth;
|
sl@0
|
1936 |
|
sl@0
|
1937 |
switch(aDataFormat)
|
sl@0
|
1938 |
{
|
sl@0
|
1939 |
case VG_sRGB_565:
|
sl@0
|
1940 |
{
|
sl@0
|
1941 |
TUint16* vgPixel = new(ELeave) TUint16[width];
|
sl@0
|
1942 |
CleanupArrayDeletePushL(vgPixel);
|
sl@0
|
1943 |
for (TInt y=0; y < height; y++)
|
sl@0
|
1944 |
{
|
sl@0
|
1945 |
// Mind the fact that CFbsBitmap and VGImages use different coordinates origin!
|
sl@0
|
1946 |
vgReadPixels(vgPixel, 1, aDataFormat, 0,height-y-1, width,1);
|
sl@0
|
1947 |
|
sl@0
|
1948 |
for (TInt x=0; x < width; x++)
|
sl@0
|
1949 |
{
|
sl@0
|
1950 |
aReferenceBitmap->GetPixel(refPixel, TPoint(x,y));
|
sl@0
|
1951 |
if(!PixelsMatch(refPixel, TRgb::Color64K(vgPixel[x]), EFalse))
|
sl@0
|
1952 |
{
|
sl@0
|
1953 |
User::Leave(KErrTEFUnitFail);
|
sl@0
|
1954 |
}
|
sl@0
|
1955 |
}
|
sl@0
|
1956 |
}
|
sl@0
|
1957 |
CleanupStack::PopAndDestroy(vgPixel);
|
sl@0
|
1958 |
break;
|
sl@0
|
1959 |
}
|
sl@0
|
1960 |
|
sl@0
|
1961 |
case VG_sXRGB_8888:
|
sl@0
|
1962 |
{
|
sl@0
|
1963 |
TUint32* vgPixel = new(ELeave) TUint32[width];
|
sl@0
|
1964 |
CleanupArrayDeletePushL(vgPixel);
|
sl@0
|
1965 |
for (TInt y=0; y < height; y++)
|
sl@0
|
1966 |
{
|
sl@0
|
1967 |
// Mind the fact that CFbsBitmap and VGImages use different coordinates origin!
|
sl@0
|
1968 |
vgReadPixels(vgPixel, 1, aDataFormat, 0,height-y-1, width,1);
|
sl@0
|
1969 |
|
sl@0
|
1970 |
for (TInt x=0; x < width; x++)
|
sl@0
|
1971 |
{
|
sl@0
|
1972 |
aReferenceBitmap->GetPixel(refPixel, TPoint(x,y));
|
sl@0
|
1973 |
if(!PixelsMatch(refPixel, TRgb::Color16MU(vgPixel[x]), EFalse))
|
sl@0
|
1974 |
{
|
sl@0
|
1975 |
User::Leave(KErrTEFUnitFail);
|
sl@0
|
1976 |
}
|
sl@0
|
1977 |
}
|
sl@0
|
1978 |
}
|
sl@0
|
1979 |
CleanupStack::PopAndDestroy(vgPixel);
|
sl@0
|
1980 |
break;
|
sl@0
|
1981 |
}
|
sl@0
|
1982 |
|
sl@0
|
1983 |
case VG_sARGB_8888:
|
sl@0
|
1984 |
{
|
sl@0
|
1985 |
TUint32* vgPixel = new(ELeave) TUint32[width];
|
sl@0
|
1986 |
CleanupArrayDeletePushL(vgPixel);
|
sl@0
|
1987 |
for (TInt y=0; y < height; y++)
|
sl@0
|
1988 |
{
|
sl@0
|
1989 |
// Mind the fact that CFbsBitmap and VGImages use different coordinates origin!
|
sl@0
|
1990 |
vgReadPixels(vgPixel, 1, aDataFormat, 0,height-y-1, width,1);
|
sl@0
|
1991 |
|
sl@0
|
1992 |
for (TInt x=0; x < width; x++)
|
sl@0
|
1993 |
{
|
sl@0
|
1994 |
aReferenceBitmap->GetPixel(refPixel, TPoint(x,y));
|
sl@0
|
1995 |
if(!PixelsMatch(refPixel, TRgb::Color16MA(vgPixel[x]), ETrue))
|
sl@0
|
1996 |
{
|
sl@0
|
1997 |
User::Leave(KErrTEFUnitFail);
|
sl@0
|
1998 |
}
|
sl@0
|
1999 |
}
|
sl@0
|
2000 |
}
|
sl@0
|
2001 |
CleanupStack::PopAndDestroy(vgPixel);
|
sl@0
|
2002 |
break;
|
sl@0
|
2003 |
}
|
sl@0
|
2004 |
|
sl@0
|
2005 |
case VG_sARGB_8888_PRE:
|
sl@0
|
2006 |
{
|
sl@0
|
2007 |
TUint32* vgPixel = new(ELeave) TUint32[width];
|
sl@0
|
2008 |
CleanupArrayDeletePushL(vgPixel);
|
sl@0
|
2009 |
for (TInt y=0; y < height; y++)
|
sl@0
|
2010 |
{
|
sl@0
|
2011 |
// Mind the fact that CFbsBitmap and VGImages use different coordinates origin!
|
sl@0
|
2012 |
vgReadPixels(vgPixel, 1, aDataFormat, 0,height-y-1, width,1);
|
sl@0
|
2013 |
|
sl@0
|
2014 |
for (TInt x=0; x < width; x++)
|
sl@0
|
2015 |
{
|
sl@0
|
2016 |
aReferenceBitmap->GetPixel(refPixel, TPoint(x,y));
|
sl@0
|
2017 |
if(!PixelsMatch(refPixel, TRgb::Color16MAP(vgPixel[x]), ETrue))
|
sl@0
|
2018 |
{
|
sl@0
|
2019 |
User::Leave(KErrTEFUnitFail);
|
sl@0
|
2020 |
}
|
sl@0
|
2021 |
}
|
sl@0
|
2022 |
}
|
sl@0
|
2023 |
CleanupStack::PopAndDestroy(vgPixel);
|
sl@0
|
2024 |
break;
|
sl@0
|
2025 |
}
|
sl@0
|
2026 |
|
sl@0
|
2027 |
default:
|
sl@0
|
2028 |
// We should not get here - colour mode not supported by these tests
|
sl@0
|
2029 |
ERR_PRINTF1(_L("CTestEglSession::CheckVgDrawingL - Colour mode not supported!"));
|
sl@0
|
2030 |
ASSERT(FALSE);
|
sl@0
|
2031 |
break;
|
sl@0
|
2032 |
}
|
sl@0
|
2033 |
}
|
sl@0
|
2034 |
|
sl@0
|
2035 |
EXPORT_C TBool CTestEglSession::IsOpenGLESSupported()
|
sl@0
|
2036 |
{
|
sl@0
|
2037 |
if(!iIsSupportedRenderInitialized)
|
sl@0
|
2038 |
{
|
sl@0
|
2039 |
CheckAllAvailableRenders();
|
sl@0
|
2040 |
}
|
sl@0
|
2041 |
return iIsOpenGLESSupported;
|
sl@0
|
2042 |
}
|
sl@0
|
2043 |
|
sl@0
|
2044 |
EXPORT_C TBool CTestEglSession::IsOpenGLES2Supported()
|
sl@0
|
2045 |
{
|
sl@0
|
2046 |
if(!iIsSupportedRenderInitialized)
|
sl@0
|
2047 |
{
|
sl@0
|
2048 |
CheckAllAvailableRenders();
|
sl@0
|
2049 |
}
|
sl@0
|
2050 |
return iIsOpenGLES2Supported;
|
sl@0
|
2051 |
}
|
sl@0
|
2052 |
EXPORT_C TBool CTestEglSession::IsOpenVGSupported()
|
sl@0
|
2053 |
{
|
sl@0
|
2054 |
if(!iIsSupportedRenderInitialized)
|
sl@0
|
2055 |
{
|
sl@0
|
2056 |
CheckAllAvailableRenders();
|
sl@0
|
2057 |
}
|
sl@0
|
2058 |
return iIsOpenVGSupported;
|
sl@0
|
2059 |
}
|
sl@0
|
2060 |
|
sl@0
|
2061 |
void CTestEglSession::CheckAllAvailableRenders()
|
sl@0
|
2062 |
{
|
sl@0
|
2063 |
ASSERT_EGL_TRUE(iDisplay != EGL_NO_DISPLAY);
|
sl@0
|
2064 |
TPtrC8 ptrEglClientApis((const TText8 *)eglQueryString(iDisplay, EGL_CLIENT_APIS));
|
sl@0
|
2065 |
_LIT8(KOpenGLES, "OpenGL_ES");
|
sl@0
|
2066 |
EGLint numConfigs= 0;
|
sl@0
|
2067 |
EGLConfig config;
|
sl@0
|
2068 |
if(ptrEglClientApis.Find(KOpenGLES) != KErrNotFound)
|
sl@0
|
2069 |
{
|
sl@0
|
2070 |
//check GLES2
|
sl@0
|
2071 |
const EGLint KAttrib_list_gles2[] = { EGL_RENDERABLE_TYPE, EGL_OPENGL_ES2_BIT,
|
sl@0
|
2072 |
EGL_NONE };
|
sl@0
|
2073 |
EGLBoolean eglRes = eglChooseConfig(iDisplay, KAttrib_list_gles2, &config,1, &numConfigs);
|
sl@0
|
2074 |
ASSERT_EGL_TRUE(eglRes == EGL_TRUE);
|
sl@0
|
2075 |
if(numConfigs > 0)
|
sl@0
|
2076 |
{
|
sl@0
|
2077 |
iIsOpenGLES2Supported = ETrue;
|
sl@0
|
2078 |
}
|
sl@0
|
2079 |
//check GLES
|
sl@0
|
2080 |
numConfigs = 0;
|
sl@0
|
2081 |
const EGLint KAttrib_list_gles[] = { EGL_RENDERABLE_TYPE, EGL_OPENGL_ES_BIT,
|
sl@0
|
2082 |
EGL_NONE };
|
sl@0
|
2083 |
eglRes = eglChooseConfig(iDisplay, KAttrib_list_gles, &config,1, &numConfigs);
|
sl@0
|
2084 |
ASSERT_EGL_TRUE(eglRes == EGL_TRUE);
|
sl@0
|
2085 |
if(numConfigs > 0)
|
sl@0
|
2086 |
{
|
sl@0
|
2087 |
iIsOpenGLESSupported = ETrue;
|
sl@0
|
2088 |
}
|
sl@0
|
2089 |
}
|
sl@0
|
2090 |
_LIT8(KOpenVG, "OpenVG");
|
sl@0
|
2091 |
if(ptrEglClientApis.Find(KOpenVG) != KErrNotFound)
|
sl@0
|
2092 |
{
|
sl@0
|
2093 |
numConfigs= 0;
|
sl@0
|
2094 |
//check VG
|
sl@0
|
2095 |
const EGLint KAttrib_list_vg[] = { EGL_RENDERABLE_TYPE, EGL_OPENVG_BIT,
|
sl@0
|
2096 |
EGL_NONE };
|
sl@0
|
2097 |
EGLBoolean eglRes = eglChooseConfig(iDisplay, KAttrib_list_vg, &config,1, &numConfigs);
|
sl@0
|
2098 |
ASSERT_EGL_TRUE(eglRes == EGL_TRUE);
|
sl@0
|
2099 |
if(numConfigs > 0)
|
sl@0
|
2100 |
{
|
sl@0
|
2101 |
iIsOpenVGSupported = ETrue;
|
sl@0
|
2102 |
}
|
sl@0
|
2103 |
}
|
sl@0
|
2104 |
iIsSupportedRenderInitialized = ETrue;
|
sl@0
|
2105 |
}
|
sl@0
|
2106 |
|
sl@0
|
2107 |
|