/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include #include #include #include #include #include #include #include #include #include #include #if defined __clang__ && defined __linux__ #include #include #if defined _LIBCPPABI_VERSION || !ENABLE_RUNTIME_OPTIMIZATIONS #define LOK_LOADLIB_GLOBAL #endif #endif #include #include #include using namespace ::boost; using namespace ::lok; using namespace ::std; OUString getFileURLFromSystemPath(OUString const & path) { OUString url; osl::FileBase::RC e = osl::FileBase::getFileURLFromSystemPath(path, url); CPPUNIT_ASSERT_EQUAL(osl::FileBase::E_None, e); if (!url.endsWith("/")) url += "/"; return url; } // We specifically don't use the usual BootStrapFixture, as LOK does // all it's own setup and bootstrapping, and should be usable in a // raw C++ program. class TiledRenderingTest : public ::CppUnit::TestFixture { public: const string m_sSrcRoot; const string m_sInstDir; const string m_sLOPath; TiledRenderingTest() : m_sSrcRoot( getenv( "SRC_ROOT" ) ) , m_sInstDir( getenv( "INSTDIR" ) ) , m_sLOPath( m_sInstDir + "/program" ) { } // Currently it isn't possible to do multiple startup/shutdown // cycle of LOK in a single process -- hence we run all our tests // as one test, which simply carries out the individual test // components on the one Office instance that we retrieve. void runAllTests(); void testDocumentLoadFail( Office* pOffice ); void testDocumentTypes( Office* pOffice ); void testImpressSlideNames( Office* pOffice ); void testCalcSheetNames( Office* pOffice ); void testPaintPartTile( Office* pOffice ); void testDocumentLoadLanguage(Office* pOffice); #if 0 void testOverlay( Office* pOffice ); #endif CPPUNIT_TEST_SUITE(TiledRenderingTest); CPPUNIT_TEST(runAllTests); CPPUNIT_TEST_SUITE_END(); }; void TiledRenderingTest::runAllTests() { // set UserInstallation to user profile dir in test/user-template const char* pWorkdirRoot = getenv("WORKDIR_FOR_BUILD"); OUString aWorkdirRootPath = OUString::createFromAscii(pWorkdirRoot); OUString aWorkdirRootURL = getFileURLFromSystemPath(aWorkdirRootPath); OUString sUserInstallURL = aWorkdirRootURL + "/unittest"; rtl::Bootstrap::set("UserInstallation", sUserInstallURL); std::unique_ptr< Office > pOffice( lok_cpp_init( m_sLOPath.c_str() ) ); CPPUNIT_ASSERT( pOffice.get() ); testDocumentLoadFail( pOffice.get() ); testDocumentTypes( pOffice.get() ); testImpressSlideNames( pOffice.get() ); testCalcSheetNames( pOffice.get() ); testPaintPartTile( pOffice.get() ); testDocumentLoadLanguage(pOffice.get()); #if 0 testOverlay( pOffice.get() ); #endif } void TiledRenderingTest::testDocumentLoadFail( Office* pOffice ) { const string sDocPath = m_sSrcRoot + "/libreofficekit/qa/data/IDONOTEXIST.odt"; std::unique_ptr< Document> pDocument( pOffice->documentLoad( sDocPath.c_str() ) ); CPPUNIT_ASSERT( !pDocument.get() ); // TODO: we probably want to have some way of returning what // the cause of failure was. getError() will return // something along the lines of: // "Unsupported URL : "type detection failed"" } // Our dumped .png files end up in // workdir/CppunitTest/libreofficekit_tiledrendering.test.core int getDocumentType( Office* pOffice, const string& rPath ) { std::unique_ptr< Document> pDocument( pOffice->documentLoad( rPath.c_str() ) ); CPPUNIT_ASSERT( pDocument.get() ); return pDocument->getDocumentType(); } void TiledRenderingTest::testDocumentTypes( Office* pOffice ) { const string sTextDocPath = m_sSrcRoot + "/libreofficekit/qa/data/blank_text.odt"; const string sTextLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.blank_text.odt#"; // FIXME: same comment as below wrt lockfile removal. remove( sTextLockFile.c_str() ); std::unique_ptr pDocument(pOffice->documentLoad( sTextDocPath.c_str())); CPPUNIT_ASSERT(pDocument.get()); CPPUNIT_ASSERT_EQUAL(LOK_DOCTYPE_TEXT, static_cast(pDocument->getDocumentType())); // This crashed. pDocument->postUnoCommand(".uno:Bold"); const string sPresentationDocPath = m_sSrcRoot + "/libreofficekit/qa/data/blank_presentation.odp"; const string sPresentationLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.blank_presentation.odp#"; // FIXME: same comment as below wrt lockfile removal. remove( sPresentationLockFile.c_str() ); CPPUNIT_ASSERT_EQUAL(LOK_DOCTYPE_PRESENTATION, static_cast(getDocumentType(pOffice, sPresentationDocPath))); // TODO: do this for all supported document types } void TiledRenderingTest::testImpressSlideNames( Office* pOffice ) { const string sDocPath = m_sSrcRoot + "/libreofficekit/qa/data/impress_slidenames.odp"; const string sLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.impress_slidenames.odp#"; // FIXME: this is a temporary hack: LOK will fail when trying to open a // locked file, and since we're reusing the file for a different unit // test it's entirely possible that an unwanted lock file will remain. // Hence forcefully remove it here. remove( sLockFile.c_str() ); std::unique_ptr< Document> pDocument( pOffice->documentLoad( sDocPath.c_str() ) ); CPPUNIT_ASSERT_EQUAL(3, pDocument->getParts()); CPPUNIT_ASSERT_EQUAL(std::string("TestText1"), std::string(pDocument->getPartName(0))); CPPUNIT_ASSERT_EQUAL(std::string("TestText2"), std::string(pDocument->getPartName(1))); // The third slide hasn't had a name given to it (i.e. using the rename // context menu in Impress), thus it should (as far as I can determine) // have a localised version of "Slide 3". } void TiledRenderingTest::testCalcSheetNames( Office* pOffice ) { const string sDocPath = m_sSrcRoot + "/libreofficekit/qa/data/calc_sheetnames.ods"; const string sLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.calc_sheetnames.ods#"; // FIXME: LOK will fail when trying to open a locked file remove( sLockFile.c_str() ); std::unique_ptr< Document> pDocument( pOffice->documentLoad( sDocPath.c_str() ) ); CPPUNIT_ASSERT_EQUAL(3, pDocument->getParts()); CPPUNIT_ASSERT_EQUAL(std::string("TestText1"), std::string(pDocument->getPartName(0))); CPPUNIT_ASSERT_EQUAL(std::string("TestText2"), std::string(pDocument->getPartName(1))); CPPUNIT_ASSERT_EQUAL(std::string("Sheet3"), std::string(pDocument->getPartName(2))); } void TiledRenderingTest::testPaintPartTile(Office* pOffice) { const string sTextDocPath = m_sSrcRoot + "/libreofficekit/qa/data/blank_text.odt"; const string sTextLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.blank_text.odt#"; // FIXME: same comment as below wrt lockfile removal. remove(sTextLockFile.c_str()); std::unique_ptr pDocument(pOffice->documentLoad( sTextDocPath.c_str())); CPPUNIT_ASSERT(pDocument.get()); CPPUNIT_ASSERT_EQUAL(LOK_DOCTYPE_TEXT, static_cast(pDocument->getDocumentType())); // Create two views. pDocument->getView(); pDocument->createView(); int nView2 = pDocument->getView(); // Destroy the current view pDocument->destroyView(nView2); int nCanvasWidth = 256; int nCanvasHeight = 256; std::vector aBuffer(nCanvasWidth * nCanvasHeight * 4); // And try to paintPartTile() - this used to crash when the current viewId // was destroyed pDocument->paintPartTile(aBuffer.data(), /*nPart=*/0, nCanvasWidth, nCanvasHeight, /*nTilePosX=*/0, /*nTilePosY=*/0, /*nTileWidth=*/3840, /*nTileHeight=*/3840); } namespace { void processEventsToIdle() { typedef void (ProcessEventsToIdleFn)(void); static ProcessEventsToIdleFn *processFn = nullptr; if (!processFn) { void *me = dlopen(nullptr, RTLD_NOW); processFn = reinterpret_cast(dlsym(me, "unit_lok_process_events_to_idle")); } CPPUNIT_ASSERT(processFn); (*processFn)(); } void insertString(Document& rDocument, const std::string& s) { for (const char c : s) { rDocument.postKeyEvent(LOK_KEYEVENT_KEYINPUT, c, 0); rDocument.postKeyEvent(LOK_KEYEVENT_KEYUP, c, 0); processEventsToIdle(); } } } void TiledRenderingTest::testDocumentLoadLanguage(Office* pOffice) { const string sDocPath = m_sSrcRoot + "/libreofficekit/qa/data/empty.ods"; const string sLockFile = m_sSrcRoot +"/libreofficekit/qa/data/.~lock.empty.ods#"; // FIXME: LOK will fail when trying to open a locked file remove(sLockFile.c_str()); // first try with the en-US locale std::unique_ptr pDocument(pOffice->documentLoad(sDocPath.c_str(), "Language=en-US")); // assert that '.' is the decimal separator insertString(*pDocument, "1.5"); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::RIGHT); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::RIGHT); processEventsToIdle(); insertString(*pDocument, "=2*A1"); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::RETURN); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::RETURN); processEventsToIdle(); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::UP); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::UP); processEventsToIdle(); #if 0 // FIXME disabled, as occasionally fails // we've got a meaningful result OString aResult = pDocument->getTextSelection("text/plain;charset=utf-8"); CPPUNIT_ASSERT_EQUAL(OString("3\n"), aResult); pDocument.reset(nullptr); // FIXME: LOK will fail when trying to open a locked file remove(sLockFile.c_str()); // load the file again, now in another language pDocument.reset(pOffice->documentLoad(sDocPath.c_str(), "Language=cs-CZ")); // with cs-CZ, the decimal separator is ',' instead, assert that insertString(*pDocument, "1,5"); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::RIGHT); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::RIGHT); processEventsToIdle(); insertString(*pDocument, "=2*A1"); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::RETURN); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::RETURN); processEventsToIdle(); pDocument->postKeyEvent(LOK_KEYEVENT_KEYINPUT, 0, css::awt::Key::UP); pDocument->postKeyEvent(LOK_KEYEVENT_KEYUP, 0, css::awt::Key::UP); processEventsToIdle(); // we've got a meaningful result aResult = pDocument->getTextSelection("text/plain;charset=utf-8"); CPPUNIT_ASSERT_EQUAL(OString("3\n"), aResult); #endif } #if 0 static void dumpRGBABitmap( const OUString& rPath, const unsigned char* pBuffer, const int nWidth, const int nHeight ) { Bitmap aBitmap( Size( nWidth, nHeight ), 32 ); Bitmap::ScopedWriteAccess pWriteAccess( aBitmap ); memcpy( pWriteAccess->GetBuffer(), pBuffer, 4*nWidth*nHeight ); BitmapEx aBitmapEx( aBitmap ); vcl::PNGWriter aWriter( aBitmapEx ); SvFileStream sOutput( rPath, StreamMode::WRITE ); aWriter.Write( sOutput ); sOutput.Close(); } void TiledRenderingTest::testOverlay( Office* /*pOffice*/ ) { const string sDocPath = m_sSrcRoot + "/odk/examples/java/DocumentHandling/test/test1.odt"; const string sLockFile = m_sSrcRoot + "/odk/examples/java/DocumentHandling/test/.~lock.test1.odt#"; // FIXME: this is a temporary hack: LOK will fail when trying to open a // locked file, and since we're reusing the file for a different unit // test it's entirely possible that an unwanted lock file will remain. // Hence forcefully remove it here. remove( sLockFile.c_str() ); std::unique_ptr< Office > pOffice( lok_cpp_init( m_sLOPath.c_str() ) ); assert( pOffice.get() ); std::unique_ptr< Document> pDocument( pOffice->documentLoad( sDocPath.c_str() ) ); if ( !pDocument.get() ) { fprintf( stderr, "documentLoad failed: %s\n", pOffice->getError() ); CPPUNIT_FAIL( "Document could not be loaded -- tiled rendering not possible." ); } // We render one large tile, then subdivide it into 4 and render those parts, and finally // iterate over each smaller tile and check whether their contents match the large // tile. const int nTotalWidthPix = 512; const int nTotalHeightPix = 512; int nRowStride; long nTotalWidthDoc; long nTotalHeightDoc; // pDocument->getDocumentSize( &nTotalWidthDoc, &nTotalHeightDoc ); // TODO: make sure we select an actually interesting part of the document // for this comparison, i.e. ideally an image and lots of text, in order // to test as many edge cases as possible. // Alternatively we could rewrite this to actually grab the document size // and iterate over it (subdividing into an arbitrary number of tiles rather // than our less sophisticated test of just 4 sub-tiles). nTotalWidthDoc = 8000; nTotalHeightDoc = 9000; std::unique_ptr< unsigned char []> pLarge( new unsigned char[ 4*nTotalWidthPix*nTotalHeightPix ] ); pDocument->paintTile( pLarge.get(), nTotalWidthPix, nTotalHeightPix, &nRowStride, 0, 0, nTotalWidthDoc, nTotalHeightDoc ); dumpRGBABitmap( "large.png", pLarge.get(), nTotalWidthPix, nTotalHeightPix ); std::unique_ptr< unsigned char []> pSmall[4]; for ( int i = 0; i < 4; i++ ) { pSmall[i].reset( new unsigned char[ 4*(nTotalWidthPix/2)*(nTotalHeightPix/2) ] ); pDocument->paintTile( pSmall[i].get(), nTotalWidthPix / 2, nTotalHeightPix / 2, &nRowStride, // Tile 0/2: left. Tile 1/3: right. Tile 0/1: top. Tile 2/3: bottom ((i%2 == 0) ? 0 : nTotalWidthDoc / 2), ((i < 2 ) ? 0 : nTotalHeightDoc / 2), nTotalWidthDoc / 2, nTotalHeightDoc / 2); dumpRGBABitmap( "small_" + OUString::number(i) + ".png", pSmall[i].get(), nTotalWidthPix/2, nTotalHeightPix/2 ); } // Iterate over each pixel of the sub-tile, and compare that pixel for every // tile with the equivalent super-tile pixel. for ( int i = 0; i < 4*nTotalWidthPix / 2 * nTotalHeightPix / 2; i++ ) { int xSmall = i % (4*nTotalWidthPix/2); int ySmall = i / (4*nTotalWidthPix/2); // Iterate over our array of tiles // However for now we only bother with the top-left // tile as the other ones don't match yet... for ( int x = 0; x < 2; x++ ) { for ( int y = 0; y < 2; y++ ) { int xLarge = (x * (4 * nTotalWidthPix / 2)) + xSmall; int yLarge = (y * (nTotalHeightPix / 2)) + ySmall; CPPUNIT_ASSERT( pSmall[2*y+x][i] == pLarge[yLarge*4*nTotalWidthPix + xLarge] ); } } } } #endif CPPUNIT_TEST_SUITE_REGISTRATION(TiledRenderingTest); CPPUNIT_PLUGIN_IMPLEMENT(); /* vim:set shiftwidth=4 softtabstop=4 expandtab: */