/**************************************************************************** ** ** Copyright (C) 2013 Digia Plc and/or its subsidiary(-ies). ** Contact: http://www.qt-project.org/legal ** ** This file is part of Qt Creator. ** ** Commercial License Usage ** Licensees holding valid commercial Qt licenses may use this file in ** accordance with the commercial license agreement provided with the ** Software or, alternatively, in accordance with the terms contained in ** a written agreement between you and Digia. For licensing terms and ** conditions see http://qt.digia.com/licensing. For further information ** use the contact form at http://qt.digia.com/contact-us. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Digia gives you certain additional ** rights. These rights are described in the Digia Qt LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ****************************************************************************/ //////////////// Some global configuration below //////////////// // The following defines can be used to steer the kind of tests that // can be done. // With USE_AUTORUN, creator will automatically "execute" the commands // in a comment following a BREAK_HERE line. // The following commands are supported: // // Check // - Checks whether the local variable is displayed with value and type. // // CheckType // - Checks whether the local variable is displayed with type. // The value is untested, so it can be used with pointers values etc. // that would change between test runs // // Continue // - Continues execution // On the TODO list: // // Expand [ ...]. // - Expands local variables with given names. // There should be at most one "Expand" line per BREAK_HERE, // and this should placed on the line following the BREAK_HERE // FIXME: Not implemented yet. // Value: 1 // If the line after a BREAK_HERE line does not contain one of the // supported commands, the test stops. // Value: 2 // Same as 1, except that the debugger will stop automatically when // a test after a BREAK_HERE failed // Default: 0 // Before using this, make sure that "Show a message box when receiving a signal" // is disabled in "Tools" -> "Options..." -> "Debugger" -> "GDB". #ifndef USE_AUTORUN #define USE_AUTORUN 0 #endif // With USE_AUTOBREAK, the debugger will stop automatically on all // lines containing the BREAK_HERE macro. This should be enabled // during manual testing. // Default: 0 #ifndef USE_AUTOBREAK #define USE_AUTOBREAK 0 #endif // With USE_UNINITIALIZED_AUTOBREAK, the debugger will stop automatically // on all lines containing the BREAK_UNINITIALIZED_HERE macro. // This should be enabled during manual testing. // Default: 0 #ifndef USE_UNINITIALIZED_AUTOBREAK #define USE_UNINITIALIZED_AUTOBREAK 0 #endif ////////////// No further global configuration below //////////////// // AUTORUN is only sensibly with AUTOBREAK and without UNINITIALIZED_AUTOBREAK #if USE_AUTORUN #if !(USE_AUTOBREAK) #undef USE_AUTOBREAK #define USE_AUTOBREAK 1 #pragma message ("Switching on USE_AUTOBREAK") #endif // !USE_AUTOBREAK #if USE_UNINITIALIZED_AUTOBREAK #undef USE_UNINITIALIZED_AUTOBREAK #define USE_UNINITIALIZED_AUTOBREAK 0 #pragma message ("Switching off USE_UNINITIALIZED_AUTOBREAK") #endif // USE_UNINITIALIZED_AUTOBREAK #endif #ifdef QT_SCRIPT_LIB #define USE_SCRIPTLIB 1 #else #define USE_SCRIPTLIB 0 #endif #ifdef QT_WEBKIT_LIB #define USE_WEBKITLIB 1 #else #define USE_WEBKITLIB 0 #endif #if QT_VERSION >= 0x040500 #define USE_SHARED_POINTER 1 #else #define USE_SHARED_POINTER 0 #endif void dummyStatement(...) {} #if USE_CXX11 && defined(__GNUC__) && defined(__STRICT_ANSI__) #undef __STRICT_ANSI__ // working around compile error with MinGW #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if USE_SHARED_POINTER #include #endif #if USE_GUILIB #include #include // QWidgets: Separate module as of Qt 5 #include #include #include #include #include #include #include #include #include #endif #if USE_SCRIPTLIB #include #include #endif #if USE_WEBKITLIB #include #endif #include #include #include #if USE_CXX11 #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../simple/deep/deep/simple_test_app.h" #if USE_BOOST #include #include #include #include #include #include #endif #if USE_EIGEN #include #endif #if USE_PRIVATE #include #endif #if defined(__GNUC__) && !defined(__llvm__) && !defined(Q_OS_MAC) # define USE_GCC_EXT 1 # undef __DEPRECATED # include #endif #ifdef Q_OS_WIN #include #undef min #undef max #endif #ifdef __SSE__ #include #include #endif #if USE_AUTOBREAK # ifdef Q_CC_MSVC # include # define BREAK_HERE _CrtDbgReport(_CRT_WARN, NULL, NULL, "simple_test_app", NULL) # else # define BREAK_HERE asm("int $3; mov %eax, %eax") # endif #else # define BREAK_HERE dummyStatement() #endif #if USE_UNINITIALIZED_AUTOBREAK # ifdef Q_CC_MSVC # include # define BREAK_UNINITIALIZED_HERE _CrtDbgReport(_CRT_WARN, NULL, NULL, "simple_test_app", NULL) # else # define BREAK_UNINITIALIZED_HERE asm("int $3; mov %eax, %eax") # endif #else # define BREAK_UNINITIALIZED_HERE dummyStatement() #endif QT_BEGIN_NAMESPACE uint qHash(const QMap &) { return 0; } uint qHash(const double & f) { return int(f); } uint qHash(const QPointer &p) { return (ulong)p.data(); } QT_END_NAMESPACE namespace nsA { namespace nsB { struct SomeType { SomeType(int a) : a(a) {} int a; }; } // namespace nsB } // namespace nsA struct BaseClass { BaseClass() : a(1) {} virtual ~BaseClass() {} virtual int foo() { return a; } int a; }; struct DerivedClass : BaseClass { DerivedClass() : b(2) {} int foo() { return b; } int b; }; namespace multibp { // This tests multiple breakpoints. template class Vector { public: explicit Vector(int size) : m_size(size), m_data(new T[size]) { BREAK_HERE; // Check size 10 int. // Continue. // Manual: Add a breakpoint in the constructor // Manual: Check there are multiple entries in the Breakpoint view. dummyStatement(this); } ~Vector() { delete [] m_data; } int size() const { return m_size; } private: int m_size; T *m_data; }; void testMultiBp() { Vector vi(10); Vector vf(10); Vector vd(10); Vector vc(10); dummyStatement(&vi, &vf, &vd, &vc); } } // namespace multibp class Foo { public: Foo(int i = 0) : a(i), b(2) { int s = 1; int t = 2; b = 2 + s + t; dummyStatement(&s, &t); } virtual ~Foo() { a = 5; } void doit() { static QObject ob; m["1"] = "2"; h[&ob] = m.begin(); a += 1; --b; dummyStatement(&a, &b); } public: int a, b; char x[6]; private: typedef QMap Map; Map m; QHash h; }; class Fooooo : public Foo { public: Fooooo(int x) : Foo(x), a(x + 2) {} int a; }; class X : virtual public Foo { public: X() { } }; class XX : virtual public Foo { public: XX() { } }; class Y : virtual public Foo { public: Y() { } }; class D : public X, public Y { int diamond; }; namespace peekandpoke { void testAnonymousStructs() { #ifndef Q_CC_RVCT union { struct { int i; int b; }; struct { float f; }; double d; } a = { { 42, 43 } }; BREAK_HERE; // Expand a. // CheckType a union {...}. // Check a.b 43 int. // Check a.d 9.1245819032257467e-313 double. // Check a.f 5.88545355e-44 float. // Check a.i 42 int. // Continue. a.i = 1; BREAK_HERE; // Expand a. // CheckType a union {...}. // Check a.b 43 int. // Check a.d 9.1245819012000775e-313 double. // Check a.f 1.40129846e-45 float. // Check a.i 1 int. // Continue. a.i = 2; BREAK_HERE; // Expand a. // CheckType a union {...}. // Check a.b 43 int. // Check a.d 9.1245819012494841e-313 double. // Check a.f 2.80259693e-45 float. // Check a.i 2 int. // Continue. dummyStatement(&a); #endif } void testComplexWatchers() { struct S { int a; double b; } s[10]; BREAK_HERE; // Expand s and s[0]. // CheckType s peekandpoke::S [10]. // Continue. // Manual: Watcher Context: "Add New Watcher". // Manual: Type ['s[%d].a' % i for i in range(5)] // Manual: Expand it, continue stepping. This should result in a list // Manual: of five items containing the .a fields of s[0]..s[4]. for (int i = 0; i != 10; ++i) s[i].a = i; dummyStatement(&s); } void testQImageDisplay() { #if USE_GUILIB QImage im(QSize(200, 200), QImage::Format_RGB32); im.fill(QColor(200, 10, 30).rgba()); QPainter pain; pain.begin(&im); pain.setPen(QPen(Qt::black, 5.0, Qt::SolidLine, Qt::RoundCap)); BREAK_HERE; // Check im (200x200) QImage. // CheckType pain QPainter. // Continue. pain.drawEllipse(20, 20, 160, 160); BREAK_HERE; // Continue. // Manual: Toggle between "Normal" and "Displayed" in L&W Context Menu, // Manual: entry "Display of Type QImage". pain.drawArc(70, 115, 60, 30, 200 * 16, 140 * 16); BREAK_HERE; // Continue. pain.setBrush(Qt::black); BREAK_HERE; // Continue. pain.drawEllipse(65, 70, 15, 15); BREAK_HERE; // Continue. // Manual: Toggle between "Normal" and "Displayed" in L&W Context Menu, // Manual: entry "Display of Type QImage". pain.drawEllipse(120, 70, 15, 15); BREAK_HERE; // Continue. pain.end(); dummyStatement(&pain); #endif } void testPeekAndPoke3() { testAnonymousStructs(); testComplexWatchers(); testQImageDisplay(); } } // namespace peekandpoke namespace anon { #ifndef Q_CC_RVCT struct TestAnonymous { union { struct { int i; int b; }; struct { float f; }; double d; }; }; namespace { struct Something { Something() { a = b = 1; } void foo() { a = 42; b = 43; } int a, b; }; } #endif void testAnonymous() { #ifndef Q_CC_RVCT TestAnonymous a; BREAK_HERE; // Expand a a.#1 a.#2. // CheckType a anon::TestAnonymous. // Check a.#1 {...}. // CheckType a.#1.b int. // CheckType a.#1.i int. // CheckType a.#2.f float. // CheckType a.d double. // Continue. a.i = 1; a.i = 2; a.i = 3; Something s; BREAK_HERE; // Expand s. // CheckType s anon::(anonymous namespace)::Something. // Check s.a 1 int. // Check s.b 1 int. // Continue. s.foo(); BREAK_HERE; // Expand s. // Check s.a 42 int. // Check s.b 43 int. // Continue. std::map m; BREAK_HERE; // CheckType m std::map. // Continue. dummyStatement(&a, &s, &m); #endif } } // namespace anon namespace qbytearray { void testQByteArray1() { QByteArray ba; BREAK_HERE; // Check ba "" QByteArray. // Continue. ba += "Hello"; ba += '"'; ba += "World"; ba += char(0); ba += 1; ba += 2; BREAK_HERE; // Expand ba. // Check ba "Hello"World" QByteArray. // Check ba.0 72 'H' char. // Check ba.11 0 '\0' char. // Check ba.12 1 char. // Check ba.13 2 char. // Continue. dummyStatement(&ba); } void testQByteArray2() { QByteArray ba; for (int i = 256; --i >= 0; ) ba.append(char(i)); QString s(10000, 'x'); std::string ss(10000, 'c'); BREAK_HERE; // CheckType ba QByteArray. // Check s "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx..." QString. // Check ss "ccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccccc..." std::string. // Continue. dummyStatement(&ba, &ss, &s); } void testQByteArray3() { const char *str1 = "\356"; const char *str2 = "\xee"; const char *str3 = "\\ee"; QByteArray buf1(str1); QByteArray buf2(str2); QByteArray buf3(str3); BREAK_HERE; // Check buf1 "î" QByteArray. // Check buf2 "î" QByteArray. // Check buf3 "\ee" QByteArray. // CheckType str1 char *. // Continue. dummyStatement(&buf1, &buf2, &buf3); } void testQByteArray4() { char data[] = { 'H', 'e', 'l', 'l', 'o' }; QByteArray ba1 = QByteArray::fromRawData(data, 4); QByteArray ba2 = QByteArray::fromRawData(data + 1, 4); BREAK_HERE; // Check ba1 "Hell" QByteArray. // Check ba2 "ello" QByteArray. // Continue. dummyStatement(&ba1, &ba2, &data); } void testQByteArray() { testQByteArray1(); testQByteArray2(); testQByteArray3(); testQByteArray4(); } } // namespace qbytearray namespace catchthrow { static void throwit1() { BREAK_HERE; // Continue. // Set a breakpoint on "throw" in the BreakWindow context menu // before stepping further. throw 14; } static void throwit() { throwit1(); } void testCatchThrow() { int gotit = 0; try { throwit(); } catch (int what) { gotit = what; } dummyStatement(&gotit); } } // namespace catchthrow namespace undefined { void testUndefined() { int *i = new int; delete i; BREAK_HERE; // Continue. // Manual: Uncomment the following line. Step. // On Linux, a SIGABRT should be received. //delete i; dummyStatement(&i); } } // namespace undefined namespace qdatetime { void testQDate() { QDate date; BREAK_HERE; // Expand date. // CheckType date QDate. // Check date.(ISO) "" QString. // Check date.(Locale) "" QString. // Check date.(SystemLocale) "" QString. // Check date.toString "" QString. // Continue. // Step, check display. date = QDate::currentDate(); date = date.addDays(5); date = date.addDays(5); dummyStatement(&date); } void testQTime() { QTime time; BREAK_HERE; // Expand time. // CheckType time QTime. // Check time.(ISO) "" QString. // Check time.(Locale) "" QString. // Check time.(SystemLocale) "" QString. // Check time.toString "" QString. // Continue. // Step, check display. time = QTime::currentTime(); time = time.addSecs(5); time = time.addSecs(5); dummyStatement(&time); } void testQDateTime() { QDateTime date; BREAK_HERE; // Expand date. // CheckType date QDateTime. // Check date.(ISO) "" QString. // Check date.(Locale) "" QString. // Check date.(SystemLocale) "" QString. // Check date.toString "" QString. // Check date.toUTC QDateTime. // Continue. // Step, check display date = QDateTime::currentDateTime(); date = date.addDays(5); date = date.addDays(5); dummyStatement(&date); } void testDateTime() { testQDate(); testQDateTime(); testQTime(); } } // namespace qdatetime namespace qdir { void testQDir() { QDir dir("/tmp"); dir.absolutePath(); BREAK_HERE; // Check dir "/tmp" QDir. // Check dir.absolutePath "/tmp" QString. // Check dir.canonicalPath "/tmp" QString. // Continue. dummyStatement(&dir); } } // namespace qdir namespace qfileinfo { void testQFileInfo() { QFile file("/tmp/t"); file.setObjectName("A QFile instance"); QFileInfo fi("/tmp/tt"); QString s = fi.absoluteFilePath(); BREAK_HERE; // Check fi "/tmp/tt" QFileInfo. // Check file "/tmp/t" QFile. // Check s "/tmp/tt" QString. // Continue. dummyStatement(&file, &s); } } // namespace qfileinfo namespace qhash { void testQHash1() { QHash > hash; hash.insert("Hallo", QList()); hash.insert("Welt", QList() << 1); hash.insert("!", QList() << 1 << 2); hash.insert("!", QList() << 1 << 2); BREAK_HERE; // Expand hash hash.0 hash.1 hash.1.value hash.2 hash.2.value. // Check hash <3 items> QHash>. // Check hash.0 QHashNode>. // Check hash.0.key "Hallo" QString. // Check hash.0.value <0 items> QList. // Check hash.1 QHashNode>. // Check hash.1.key "Welt" QString. // Check hash.1.value <1 items> QList. // Check hash.1.value.0 1 int. // Check hash.2 QHashNode>. // Check hash.2.key "!" QString. // Check hash.2.value <2 items> QList. // Check hash.2.value.0 1 int. // Check hash.2.value.1 2 int. // Continue. dummyStatement(&hash); } void testQHash2() { QHash hash; hash[11] = 11.0; hash[22] = 22.0; BREAK_HERE; // Expand hash. // Check hash <2 items> QHash. // Check hash.22 22 float. // Check hash.11 11 float. // Continue. dummyStatement(&hash); } void testQHash3() { QHash hash; hash["22.0"] = 22.0; hash["123.0"] = 22.0; hash["111111ss111128.0"] = 28.0; hash["11124.0"] = 22.0; hash["1111125.0"] = 22.0; hash["11111126.0"] = 22.0; hash["111111127.0"] = 27.0; hash["111111111128.0"] = 28.0; hash["111111111111111111129.0"] = 29.0; BREAK_HERE; // Expand hash hash.0 hash.8. // Check hash <9 items> QHash. // Check hash.0 QHashNode. // Check hash.0.key "123.0" QString. // Check hash.0.value 22 int. // Check hash.8 QHashNode. // Check hash.8.key "11124.0" QString. // Check hash.8.value 22 int. // Continue. dummyStatement(&hash); } void testQHash4() { QHash hash; hash["22.0"] = 22.0; hash["123.0"] = 22.0; hash["111111ss111128.0"] = 28.0; hash["11124.0"] = 22.0; hash["1111125.0"] = 22.0; hash["11111126.0"] = 22.0; hash["111111127.0"] = 27.0; hash["111111111128.0"] = 28.0; hash["111111111111111111129.0"] = 29.0; BREAK_HERE; // Expand hash hash.0 hash.8/ // Check hash <9 items> QHash. // Check hash.0 QHashNode. // Check hash.0.key "123.0" QByteArray. // Check hash.0.value 22 float. // Check hash.8 QHashNode. // Check hash.8.key "11124.0" QByteArray. // Check hash.8.value 22 float. // Continue. dummyStatement(&hash); } void testQHash5() { QHash hash; hash[22] = "22.0"; BREAK_HERE; // Expand hash hash.0. // Check hash <1 items> QHash. // Check hash.0 QHashNode. // Check hash.0.key 22 int. // Check hash.0.value "22.0" QString. // Continue. dummyStatement(&hash); } void testQHash6() { QHash hash; hash["22.0"] = Foo(22); hash["33.0"] = Foo(33); BREAK_HERE; // Expand hash hash.0 hash.0.value hash.1. // Check hash <2 items> QHash. // Check hash.0 QHashNode. // Check hash.0.key "22.0" QString. // CheckType hash.0.value Foo. // Check hash.0.value.a 22 int. // Check hash.1 QHashNode. // Check hash.1.key "33.0" QString. // CheckType hash.1.value Foo. // Continue. dummyStatement(&hash); } void testQHash7() { QObject ob; QHash > hash; hash.insert("Hallo", QPointer(&ob)); hash.insert("Welt", QPointer(&ob)); hash.insert(".", QPointer(&ob)); BREAK_HERE; // Expand hash hash.0 hash.0.value hash.2. // Check hash <3 items> QHash>. // Check hash.0 QHashNode>. // Check hash.0.key "Hallo" QString. // CheckType hash.0.value QPointer. // CheckType hash.0.value.o QObject. // Check hash.2 QHashNode>. // Check hash.2.key "." QString. // CheckType hash.2.value QPointer. // Continue. dummyStatement(&hash, &ob); } void testQHashIntFloatIterator() { typedef QHash Hash; Hash hash; hash[11] = 11.0; hash[22] = 22.0; hash[33] = 33.0; hash[44] = 44.0; hash[55] = 55.0; hash[66] = 66.0; Hash::iterator it1 = hash.begin(); Hash::iterator it2 = it1; ++it2; Hash::iterator it3 = it2; ++it3; Hash::iterator it4 = it3; ++it4; Hash::iterator it5 = it4; ++it5; Hash::iterator it6 = it5; ++it6; BREAK_HERE; // Expand hash. // Check hash <6 items> qhash::Hash. // Check hash.11 11 float. // Check it1.key 55 int. // Check it1.value 55 float. // Check it6.key 33 int. // Check it6.value 33 float. // Continue. dummyStatement(&hash, &it1, &it2, &it3, &it4, &it5, &it6); } void testQHash() { testQHash1(); testQHash2(); testQHash3(); testQHash4(); testQHash5(); testQHash6(); testQHash7(); testQHashIntFloatIterator(); } } // namespace qhash namespace qhostaddress { void testQHostAddress() { QHostAddress ha1(129u * 256u * 256u * 256u + 130u); QHostAddress ha2("127.0.0.1"); BREAK_HERE; // Check ha1 129.0.0.130 QHostAddress. // Check ha2 "127.0.0.1" QHostAddress. // Continue. dummyStatement(&ha1, &ha2); } } // namespace qhostaddress namespace painting { void testQImage() { #if USE_GUILIB // only works with Python dumper QImage im(QSize(200, 200), QImage::Format_RGB32); im.fill(QColor(200, 100, 130).rgba()); QPainter pain; pain.begin(&im); BREAK_HERE; // Check im (200x200) QImage. // CheckType pain QPainter. // Continue. // Step. pain.drawLine(2, 2, 130, 130); pain.drawLine(4, 2, 130, 140); pain.drawRect(30, 30, 80, 80); pain.end(); dummyStatement(&pain, &im); #endif } void testQPixmap() { #if USE_GUILIB QImage im(QSize(200, 200), QImage::Format_RGB32); im.fill(QColor(200, 100, 130).rgba()); QPainter pain; pain.begin(&im); pain.drawLine(2, 2, 130, 130); pain.end(); QPixmap pm = QPixmap::fromImage(im); BREAK_HERE; // Check im (200x200) QImage. // CheckType pain QPainter. // Check pm (200x200) QPixmap. // Continue. dummyStatement(&im, &pm); #endif } void testPainting() { testQImage(); testQPixmap(); } } // namespace painting namespace qlinkedlist { void testQLinkedListInt() { QLinkedList list; list.append(101); list.append(102); BREAK_HERE; // Expand list. // Check list <2 items> QLinkedList. // Check list.0 101 int. // Check list.1 102 int. // Continue. dummyStatement(&list); } void testQLinkedListUInt() { QLinkedList list; list.append(103); list.append(104); BREAK_HERE; // Expand list. // Check list <2 items> QLinkedList. // Check list.0 103 unsigned int. // Check list.1 104 unsigned int. // Continue. dummyStatement(&list); } void testQLinkedListFooStar() { QLinkedList list; list.append(new Foo(1)); list.append(0); list.append(new Foo(3)); BREAK_HERE; // Expand list list.0 list.2. // Check list <3 items> QLinkedList. // CheckType list.0 Foo. // Check list.0.a 1 int. // Check list.1 0x0 Foo *. // CheckType list.2 Foo. // Check list.2.a 3 int. // Continue. dummyStatement(&list); } void testQLinkedListULongLong() { QLinkedList list; list.append(42); list.append(43); BREAK_HERE; // Expand list. // Check list <2 items> QLinkedList. // Check list.0 42 unsigned long long. // Check list.1 43 unsigned long long. // Continue. dummyStatement(&list); } void testQLinkedListFoo() { QLinkedList list; list.append(Foo(1)); list.append(Foo(2)); BREAK_HERE; // Expand list list.0 list.1. // Check list <2 items> QLinkedList. // CheckType list.0 Foo. // Check list.0.a 1 int. // CheckType list.1 Foo. // Check list.1.a 2 int. // Continue. dummyStatement(&list); } void testQLinkedListStdString() { QLinkedList list; list.push_back("aa"); list.push_back("bb"); BREAK_HERE; // Expand list. // Check list <2 items> QLinkedList. // Check list.0 "aa" std::string. // Check list.1 "bb" std::string. // Continue. dummyStatement(&list); } void testQLinkedList() { testQLinkedListInt(); testQLinkedListUInt(); testQLinkedListFooStar(); testQLinkedListULongLong(); testQLinkedListFoo(); testQLinkedListStdString(); } } // namespace qlinkedlist namespace qlist { void testQListInt() { QList big; for (int i = 0; i < 10000; ++i) big.push_back(i); BREAK_HERE; // Expand big. // Check big <10000 items> QList. // Check big.0 0 int. // Check big.1999 1999 int. // Continue. dummyStatement(&big); } void testQListIntTakeFirst() { QList l; l.append(0); l.append(1); l.append(2); l.takeFirst(); BREAK_HERE; // Expand l. // Check l <2 items> QList. // Check l.0 1 int. // Continue. dummyStatement(&l); } void testQListStringTakeFirst() { QList l; l.append("0"); l.append("1"); l.append("2"); l.takeFirst(); BREAK_HERE; // Expand l. // Check l <2 items> QList. // Check l.0 "1" QString. // Continue. dummyStatement(&l); } void testQStringListTakeFirst() { QStringList l; l.append("0"); l.append("1"); l.append("2"); l.takeFirst(); BREAK_HERE; // Expand l. // Check l <2 items> QStringList. // Check l.0 "1" QString. // Continue. dummyStatement(&l); } void testQListIntStar() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.append(new int(1)); l.append(new int(2)); l.append(new int(3)); BREAK_HERE; // Expand l. // Check l <3 items> QList. // CheckType l.0 int. // CheckType l.2 int. // Continue. dummyStatement(&l); } void testQListUInt() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.append(101); l.append(102); l.append(102); BREAK_HERE; // Expand l. // Check l <3 items> QList. // Check l.0 101 unsigned int. // Check l.2 102 unsigned int. // Continue. dummyStatement(&l); } void testQListUShort() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.append(101); l.append(102); l.append(102); BREAK_HERE; // Expand l. // Check l <3 items> QList. // Check l.0 101 unsigned short. // Check l.2 102 unsigned short. // Continue. dummyStatement(&l); } void testQListQChar() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.append(QChar('a')); l.append(QChar('b')); l.append(QChar('c')); BREAK_HERE; // Expand l. // Check l <3 items> QList. // Check l.0 'a' (97) QChar. // Check l.2 'c' (99) QChar. // Continue. dummyStatement(&l); } void testQListQULongLong() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.append(101); l.append(102); l.append(102); BREAK_HERE; // Expand l. // Check l <3 items> QList. // CheckType l.0 unsigned long long. // CheckType l.2 unsigned long long. // Continue. dummyStatement(&l); } void testQListStdString() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. l.push_back("aa"); l.push_back("bb"); l.push_back("cc"); l.push_back("dd"); BREAK_HERE; // Expand l. // Check l <4 items> QList. // CheckType l.0 std::string. // CheckType l.3 std::string. // Continue. dummyStatement(&l); } void testQListFoo() { QList l; BREAK_HERE; // Check l <0 items> QList. // Continue. for (int i = 0; i < 100; ++i) l.push_back(i + 15); BREAK_HERE; // Check l <100 items> QList. // Expand l. // CheckType l.0 Foo. // CheckType l.99 Foo. // Continue. l.push_back(1000); l.push_back(1001); l.push_back(1002); BREAK_HERE; // Check l <103 items> QList. // Continue. dummyStatement(&l); } void testQListReverse() { QList l = QList() << 1 << 2 << 3; typedef std::reverse_iterator::iterator> Reverse; Reverse rit(l.end()); Reverse rend(l.begin()); QList r; while (rit != rend) r.append(*rit++); BREAK_HERE; // Expand l r. // Check l <3 items> QList. // Check l.0 1 int. // Check l.1 2 int. // Check l.2 3 int. // Check r <3 items> QList. // Check r.0 3 int. // Check r.1 2 int. // Check r.2 1 int. // CheckType rend qlist::Reverse. // CheckType rit qlist::Reverse. // Continue. dummyStatement(); } void testQList() { testQListInt(); testQListIntStar(); testQListUInt(); testQListUShort(); testQListQChar(); testQListQULongLong(); testQListStdString(); testQListFoo(); testQListReverse(); testQListIntTakeFirst(); testQListStringTakeFirst(); testQStringListTakeFirst(); } } // namespace qlist namespace qlocale { void testQLocale() { QLocale loc = QLocale::system(); //QString s = loc.name(); //QVariant v = loc; QLocale::MeasurementSystem m = loc.measurementSystem(); BREAK_HERE; // CheckType loc QLocale. // CheckType m QLocale::MeasurementSystem. // Continue. dummyStatement(&loc, &m); } } // namespace qlocale namespace qmap { void testQMapUIntStringList() { QMap map; map[11] = QStringList() << "11"; map[22] = QStringList() << "22"; BREAK_HERE; // Expand map map.0 map.0.value map.1 map.1.value. // Check map <2 items> QMap. // Check map.0 QMapNode. // Check map.0.key 11 unsigned int. // Check map.0.value <1 items> QStringList. // Check map.0.value.0 "11" QString. // Check map.1 QMapNode. // Check map.1.key 22 unsigned int. // Check map.1.value <1 items> QStringList. // Check map.1.value.0 "22" QString. // Continue. dummyStatement(&map); } void testQMapUIntStringListTypedef() { // only works with Python dumper typedef QMap T; T map; map[11] = QStringList() << "11"; map[22] = QStringList() << "22"; BREAK_HERE; // Check map <2 items> qmap::T. // Continue. dummyStatement(&map); } void testQMapUIntFloat() { QMap map; map[11] = 11.0; map[22] = 22.0; BREAK_HERE; // Expand map. // Check map <2 items> QMap. // Check map.11 11 float. // Check map.22 22 float. // Continue. dummyStatement(&map); } void testQMapStringFloat() { QMap map; map["22.0"] = 22.0; BREAK_HERE; // Expand map map.0. // Check map <1 items> QMap. // Check map.0 QMapNode. // Check map.0.key "22.0" QString. // Check map.0.value 22 float. // Continue. dummyStatement(&map); } void testQMapIntString() { QMap map; map[22] = "22.0"; BREAK_HERE; // Expand map map.0. // Check map <1 items> QMap. // Check map.0 QMapNode. // Check map.0.key 22 int. // Check map.0.value "22.0" QString. // Continue. dummyStatement(&map); } void testQMapStringFoo() { QMap map; map["22.0"] = Foo(22); map["33.0"] = Foo(33); BREAK_HERE; // Expand map map.0 map.0.key map.0.value map.1 map.1.value. // Check map <2 items> QMap. // Check map.0 QMapNode. // Check map.0.key "22.0" QString. // CheckType map.0.value Foo. // Check map.0.value.a 22 int. // Check map.1 QMapNode. // Check map.1.key "33.0" QString. // CheckType map.1.value Foo. // Check map.1.value.a 33 int. // Continue. dummyStatement(&map); } void testQMapStringPointer() { // only works with Python dumper QObject ob; QMap > map; map.insert("Hallo", QPointer(&ob)); map.insert("Welt", QPointer(&ob)); map.insert(".", QPointer(&ob)); BREAK_HERE; // Expand map map.0 map.0.key map.0.value map.1 map.2. // Check map <3 items> QMap>. // Check map.0 QMapNode>. // Check map.0.key "." QString. // CheckType map.0.value QPointer. // CheckType map.0.value.o QObject. // Check map.1 QMapNode>. // Check map.1.key "Hallo" QString. // Check map.2 QMapNode>. // Check map.2.key "Welt" QString. // Continue. dummyStatement(&map); } void testQMapStringList() { // only works with Python dumper QList x; x.append(new nsA::nsB::SomeType(1)); x.append(new nsA::nsB::SomeType(2)); x.append(new nsA::nsB::SomeType(3)); QMap > map; map["foo"] = x; map["bar"] = x; map["1"] = x; map["2"] = x; BREAK_HERE; // Expand map map.0 map.0.key map.0.value map.1 map.1.value.1 map.1.value.2 map.3 map.3.value map.3.value.2. // Check map <4 items> QMap>. // Check map.0 QMapNode>. // Check map.0.key "1" QString. // Check map.0.value <3 items> QList. // CheckType map.0.value.0 nsA::nsB::SomeType. // Check map.0.value.0.a 1 int. // CheckType map.0.value.1 nsA::nsB::SomeType. // Check map.0.value.1.a 2 int. // CheckType map.0.value.2 nsA::nsB::SomeType. // Check map.0.value.2.a 3 int. // Check map.3 QMapNode>. // Check map.3.key "foo" QString. // Check map.3.value <3 items> QList. // CheckType map.3.value.2 nsA::nsB::SomeType. // Check map.3.value.2.a 3 int. // Check x <3 items> QList. // Continue. dummyStatement(&map); } void testQMultiMapUintFloat() { QMultiMap map; map.insert(11, 11.0); map.insert(22, 22.0); map.insert(22, 33.0); map.insert(22, 34.0); map.insert(22, 35.0); map.insert(22, 36.0); BREAK_HERE; // Expand map. // Check map <6 items> QMultiMap. // Check map.0 11 float. // Check map.5 22 float. // Continue. dummyStatement(&map); } void testQMultiMapStringFloat() { QMultiMap map; map.insert("22.0", 22.0); BREAK_HERE; // Expand map map.0. // Check map <1 items> QMultiMap. // Check map.0 QMapNode. // Check map.0.key "22.0" QString. // Check map.0.value 22 float. // Continue. dummyStatement(&map); } void testQMultiMapIntString() { QMultiMap map; map.insert(22, "22.0"); BREAK_HERE; // Expand map map.0. // Check map <1 items> QMultiMap. // Check map.0 QMapNode. // Check map.0.key 22 int. // Check map.0.value "22.0" QString. // Continue. dummyStatement(&map); } void testQMultiMapStringFoo() { QMultiMap map; map.insert("22.0", Foo(22)); map.insert("33.0", Foo(33)); map.insert("22.0", Foo(22)); BREAK_HERE; // Expand map map.0 map.0.value. // Check map <3 items> QMultiMap. // Check map.0 QMapNode. // Check map.0.key "22.0" QString. // CheckType map.0.value Foo. // Check map.0.value.a 22 int. // Check map.2 QMapNode. // Continue. dummyStatement(&map); } void testQMultiMapStringPointer() { QObject ob; QMultiMap > map; map.insert("Hallo", QPointer(&ob)); map.insert("Welt", QPointer(&ob)); map.insert(".", QPointer(&ob)); map.insert(".", QPointer(&ob)); BREAK_HERE; // Expand map map.0 map.1 map.2 map.3. // Check map <4 items> QMultiMap>. // Check map.0 QMapNode>. // Check map.0.key "." QString. // CheckType map.0.value QPointer. // Check map.1 QMapNode>. // Check map.1.key "." QString. // Check map.2 QMapNode>. // Check map.2.key "Hallo" QString. // Check map.3 QMapNode>. // Check map.3.key "Welt" QString. // Continue. dummyStatement(&map); } void testQMap() { testQMapUIntStringList(); testQMapUIntStringListTypedef(); testQMapUIntFloat(); testQMapStringFloat(); testQMapIntString(); testQMapStringFoo(); testQMapStringPointer(); testQMapStringList(); testQMultiMapUintFloat(); testQMultiMapStringFloat(); testQMultiMapIntString(); testQMultiMapStringFoo(); testQMapUIntStringList(); testQMultiMapStringFoo(); testQMultiMapStringPointer(); } } // namespace qmap namespace qobject { void testQObject1() { // This checks whether signal-slot connections are displayed. QObject parent; parent.setObjectName("A Parent"); QObject child(&parent); child.setObjectName("A Child"); QObject::connect(&child, SIGNAL(destroyed()), &parent, SLOT(deleteLater())); QObject::disconnect(&child, SIGNAL(destroyed()), &parent, SLOT(deleteLater())); child.setObjectName("A renamed Child"); BREAK_HERE; // Check child "A renamed Child" QObject. // Check parent "A Parent" QObject. // Continue. dummyStatement(&parent, &child); } namespace Names { namespace Bar { struct Ui { Ui() { w = 0; } QWidget *w; }; class TestObject : public QObject { Q_OBJECT public: TestObject(QObject *parent = 0) : QObject(parent) { m_ui = new Ui; #if USE_GUILIB m_ui->w = new QWidget; #else m_ui->w = 0; #endif } Q_PROPERTY(QString myProp1 READ myProp1 WRITE setMyProp1) QString myProp1() const { return m_myProp1; } Q_SLOT void setMyProp1(const QString&mt) { m_myProp1 = mt; } Q_PROPERTY(QString myProp2 READ myProp2 WRITE setMyProp2) QString myProp2() const { return m_myProp2; } Q_SLOT void setMyProp2(const QString&mt) { m_myProp2 = mt; } public: Ui *m_ui; QString m_myProp1; QString m_myProp2; }; } // namespace Bar } // namespace Names void testQObject2() { //QString longString = QString(10000, QLatin1Char('A')); #if 1 Names::Bar::TestObject test; test.setMyProp1("HELLO"); test.setMyProp2("WORLD"); QString s = test.myProp1(); s += test.myProp2(); BREAK_HERE; // Check s "HELLOWORLD" QString. // Check test qobject::Names::Bar::TestObject. // Continue. dummyStatement(&s); #endif #if 0 QAction act("xxx", &app); QString t = act.text(); t += "y"; t += "y"; t += "y"; t += "y"; t += "y"; #endif #if 1 #if USE_GUILIB QWidget ob; ob.setObjectName("An Object"); ob.setProperty("USER DEFINED 1", 44); ob.setProperty("USER DEFINED 2", QStringList() << "FOO" << "BAR"); QObject ob1; ob1.setObjectName("Another Object"); QObject::connect(&ob, SIGNAL(destroyed()), &ob1, SLOT(deleteLater())); QObject::connect(&ob, SIGNAL(destroyed()), &ob1, SLOT(deleteLater())); //QObject::connect(&app, SIGNAL(lastWindowClosed()), &ob, SLOT(deleteLater())); #endif #endif #if 0 QList obs; obs.append(&ob); obs.append(&ob1); obs.append(0); obs.append(&app); ob1.setObjectName("A Subobject"); #endif } class Sender : public QObject { Q_OBJECT public: Sender() { setObjectName("Sender"); } void doEmit() { emit aSignal(); } signals: void aSignal(); }; class Receiver : public QObject { Q_OBJECT public: Receiver() { setObjectName("Receiver"); } public slots: void aSlot() { QObject *s = sender(); if (s) { qDebug() << "SENDER: " << s; } else { qDebug() << "NO SENDER"; } } }; void testSignalSlot() { Sender sender; Receiver receiver; QObject::connect(&sender, SIGNAL(aSignal()), &receiver, SLOT(aSlot())); // Break here. // Single step through signal emission. sender.doEmit(); dummyStatement(&sender, &receiver); } #if USE_PRIVATE class DerivedObjectPrivate : public QObjectPrivate { public: DerivedObjectPrivate() { m_extraX = 43; m_extraY.append("xxx"); m_extraZ = 1; } int m_extraX; QStringList m_extraY; uint m_extraZ : 1; bool m_extraA : 1; bool m_extraB; }; class DerivedObject : public QObject { Q_OBJECT public: DerivedObject() : QObject(*new DerivedObjectPrivate, 0) {} Q_PROPERTY(int x READ x WRITE setX) Q_PROPERTY(QStringList y READ y WRITE setY) Q_PROPERTY(uint z READ z WRITE setZ) int x() const; void setX(int x); QStringList y() const; void setY(QStringList y); uint z() const; void setZ(uint z); private: Q_DECLARE_PRIVATE(DerivedObject) }; int DerivedObject::x() const { Q_D(const DerivedObject); return d->m_extraX; } void DerivedObject::setX(int x) { Q_D(DerivedObject); d->m_extraX = x; d->m_extraA = !d->m_extraA; d->m_extraB = !d->m_extraB; } QStringList DerivedObject::y() const { Q_D(const DerivedObject); return d->m_extraY; } void DerivedObject::setY(QStringList y) { Q_D(DerivedObject); d->m_extraY = y; } uint DerivedObject::z() const { Q_D(const DerivedObject); return d->m_extraZ; } void DerivedObject::setZ(uint z) { Q_D(DerivedObject); d->m_extraZ = z; } #endif void testQObjectData() { // This checks whether QObject-derived classes with Q_PROPERTYs // are displayed properly. #if USE_PRIVATE DerivedObject ob; BREAK_HERE; // Expand ob ob.properties. // Check ob.properties.x 43 QVariant (int). // Continue. // expand ob and ob.properties // step, and check whether x gets updated. ob.setX(23); ob.setX(25); ob.setX(26); BREAK_HERE; // Expand ob ob.properties. // Check ob.properties.x 26 QVariant (int). // Continue. #endif } void testQObject() { testQObjectData(); testQObject1(); testQObject2(); testSignalSlot(); } } // namespace qobject namespace qregexp { void testQRegExp() { // Works with Python dumpers only. QRegExp re(QString("a(.*)b(.*)c")); BREAK_HERE; // Check re "a(.*)b(.*)c" QRegExp. // Continue. QString str1 = "a1121b344c"; QString str2 = "Xa1121b344c"; BREAK_HERE; // Check str1 "a1121b344c" QString. // Check str2 "Xa1121b344c" QString. // Continue. int pos2 = re.indexIn(str2); int pos1 = re.indexIn(str1); BREAK_HERE; // Check pos1 0 int. // Check pos2 1 int. // Continue. dummyStatement(&pos1, &pos2); } } // namespace qregexp namespace qrect { #if USE_GUILIB void testQPoint() { QPoint s; BREAK_HERE; // Check s (0, 0) QPoint. // Continue. // Step over, check display looks sane. s = QPoint(100, 200); BREAK_HERE; // Check s (100, 200) QPoint. // Continue. dummyStatement(&s); } void testQPointF() { QPointF s; BREAK_HERE; // Check s (0, 0) QPointF. // Continue. // Step over, check display looks sane. s = QPointF(100, 200); BREAK_HERE; // Check s (100, 200) QPointF. // Continue. dummyStatement(&s); } void testQRect() { QRect rect; BREAK_HERE; // Check rect 0x0+0+0 QRect. // Continue. // Step over, check display looks sane. rect = QRect(100, 100, 200, 200); BREAK_HERE; // Check rect 200x200+100+100 QRect. // Continue. dummyStatement(&rect); } void testQRectF() { QRectF rect; BREAK_HERE; // Check rect 0x0+0+0 QRectF. // Continue. // Step over, check display looks sane. rect = QRectF(100, 100, 200, 200); BREAK_HERE; // Check rect 200x200+100+100 QRectF. // Continue. dummyStatement(&rect); } void testQSize() { QSize s; BREAK_HERE; // Check s (-1, -1) QSize. // Continue. s = QSize(100, 200); BREAK_HERE; // Check s (100, 200) QSize. // Continue. dummyStatement(&s); } void testQSizeF() { QSizeF s; BREAK_HERE; // Check s (-1, -1) QSizeF. // Continue. s = QSizeF(100, 200); BREAK_HERE; // Check s (100, 200) QSizeF. // Continue. dummyStatement(&s); } #endif void testGeometry() { #if USE_GUILIB testQPoint(); testQPointF(); testQRect(); testQRectF(); testQSize(); testQSizeF(); #endif } } // namespace qrect namespace qregion { void testQRegion() { #if USE_GUILIB // Works with Python dumpers only. QRegion region; BREAK_HERE; // Check region QRegion. // Continue. // Step over until end, check display looks sane. region += QRect(100, 100, 200, 200); BREAK_HERE; // Expand region. // Check region <1 items> QRegion. // CheckType region.extents QRect. // Check region.innerArea 40000 int. // CheckType region.innerRect QRect. // Check region.numRects 1 int. // Check region.rects <0 items> QVector. // Continue. region += QRect(300, 300, 400, 500); BREAK_HERE; // Expand region. // Check region <2 items> QRegion. // CheckType region.extents QRect. // Check region.innerArea 200000 int. // CheckType region.innerRect QRect. // Check region.numRects 2 int. // Check region.rects <2 items> QVector. // Continue. region += QRect(500, 500, 600, 600); BREAK_HERE; // Expand region. // Check region <4 items> QRegion. // CheckType region.extents QRect. // Check region.innerArea 360000 int. // CheckType region.innerRect QRect. // Check region.numRects 4 int. // Check region.rects <8 items> QVector. // Continue. region += QRect(500, 500, 600, 600); BREAK_HERE; // Check region <4 items> QRegion. // Continue. region += QRect(500, 500, 600, 600); BREAK_HERE; // Check region <4 items> QRegion. // Continue. region += QRect(500, 500, 600, 600); BREAK_HERE; // Check region <4 items> QRegion. // Continue. dummyStatement(®ion); #endif } } // namespace qregion namespace plugin { void testPlugin() { QString dir = QDir::currentPath(); #ifdef Q_OS_LINUX QLibrary lib(dir + "/libsimple_test_plugin.so"); #endif #ifdef Q_OS_MAC dir = QFileInfo(dir + "/../..").canonicalPath(); QLibrary lib(dir + "/libsimple_test_plugin.dylib"); #endif #ifdef Q_OS_WIN QLibrary lib(dir + "/debug/simple_test_plugin.dll"); #endif BREAK_HERE; // CheckType dir QString. // CheckType lib QLibrary. // CheckType name QString. // CheckType res int. // Continue. // Step int (*foo)() = (int(*)()) lib.resolve("pluginTest"); QString name = lib.fileName(); int res = 4; if (foo) { BREAK_HERE; // Check res 4 int. // Continue. // Step res = foo(); } else { BREAK_HERE; // Step name = lib.errorString(); } dummyStatement(&name, &res); } } // namespace plugin namespace final { void testQSettings() { // Note: Construct a QCoreApplication first. QSettings settings("/tmp/test.ini", QSettings::IniFormat); QVariant value = settings.value("item1","").toString(); BREAK_HERE; // Expand settings. // Check settings QSettings. // Check settings.@1 "" QObject. // Check value "" QVariant (QString). // Continue. dummyStatement(&settings, &value); } void testNullPointerDeref() { int a = 'a'; int b = 'b'; BREAK_HERE; // Continue. return; // Uncomment. *(int *)0 = a + b; } void testEndlessRecursion(int i = 0) { BREAK_HERE; // Continue. return; // Uncomment. testEndlessRecursion(i + 1); } void testEndlessLoop() { qlonglong a = 1; // gdb: // Breakpoint at "while" will stop only once // Hitting "Pause" button might show backtrace of different thread BREAK_HERE; // Continue. // Jump over next line. return; while (a > 0) ++a; dummyStatement(&a); } void testUncaughtException() { BREAK_HERE; // Continue. // Jump over next line. return; throw 42; } void testApplicationStart(QCoreApplication *app) { #if USE_GUILIB QString str = QString::fromUtf8("XXXXXXXXXXXXXXyyXXX ö"); QLabel l(str); l.setObjectName("Some Label"); l.show(); #endif // Jump over next line. return; app->exec(); dummyStatement(&app); } void testNullReferenceHelper(int &i, int &j) { i += 1; j += 1; } void testNullReference() { int i = 21; int *p = &i; int *q = 0; int &pp = *p; int &qq = *q; BREAK_HERE; // Check i 21 int. // CheckType p int. // Check p 21 int. // Check q 0x0 int *. // Check pp 21 int &. // Check qq int &. // Continue. return; // Uncomment. testNullReferenceHelper(pp, qq); dummyStatement(p, q, &i); } void testFinal(QCoreApplication *app) { // This contains all "final" tests that do not allow proceeding // with further tests. BREAK_HERE; // Continue. testQSettings(); testNullPointerDeref(); testNullReference(); testEndlessLoop(); testEndlessRecursion(); testUncaughtException(); testApplicationStart(app); } } // namespace final namespace qset { void testQSet1() { QSet s; s.insert(11); s.insert(22); BREAK_HERE; // Expand s. // Check s <2 items> QSet. // Check s.22 22 int. // Check s.11 11 int. // Continue. dummyStatement(&s); } void testQSet2() { QSet s; s.insert("11.0"); s.insert("22.0"); BREAK_HERE; // Expand s. // Check s <2 items> QSet. // Check s.0 "11.0" QString. // Check s.1 "22.0" QString. // Continue. dummyStatement(&s); } void testQSet3() { QObject ob; QSet > s; QPointer ptr(&ob); s.insert(ptr); s.insert(ptr); s.insert(ptr); BREAK_HERE; // Expand s. // Check s <1 items> QSet>. // CheckType s.0 QPointer. // Continue. dummyStatement(&ptr, &s); } void testQSet() { testQSet1(); testQSet2(); testQSet3(); } } // namespace qset namespace qsharedpointer { #if USE_SHARED_POINTER class EmployeeData : public QSharedData { public: EmployeeData() : id(-1) { name.clear(); } EmployeeData(const EmployeeData &other) : QSharedData(other), id(other.id), name(other.name) { } ~EmployeeData() { } int id; QString name; }; class Employee { public: Employee() { d = new EmployeeData; } Employee(int id, QString name) { d = new EmployeeData; setId(id); setName(name); } Employee(const Employee &other) : d (other.d) { } void setId(int id) { d->id = id; } void setName(QString name) { d->name = name; } int id() const { return d->id; } QString name() const { return d->name; } private: QSharedDataPointer d; }; void testQSharedPointer1() { QSharedPointer ptr(new int(43)); QSharedPointer ptr2 = ptr; QSharedPointer ptr3 = ptr; BREAK_HERE; dummyStatement(&ptr, &ptr2, &ptr3); } void testQSharedPointer2() { QSharedPointer ptr(new QString("hallo")); QSharedPointer ptr2 = ptr; QSharedPointer ptr3 = ptr; BREAK_HERE; dummyStatement(&ptr, &ptr2, &ptr3); } void testQSharedPointer3() { QSharedPointer iptr(new int(43)); QWeakPointer ptr(iptr); QWeakPointer ptr2 = ptr; QWeakPointer ptr3 = ptr; BREAK_HERE; dummyStatement(&ptr, &ptr2, &ptr3); } void testQSharedPointer4() { QSharedPointer sptr(new QString("hallo")); QWeakPointer ptr(sptr); QWeakPointer ptr2 = ptr; QWeakPointer ptr3 = ptr; BREAK_HERE; dummyStatement(&ptr, &ptr2, &ptr3); } void testQSharedPointer5() { QSharedPointer fptr(new Foo(1)); QWeakPointer ptr(fptr); QWeakPointer ptr2 = ptr; QWeakPointer ptr3 = ptr; BREAK_HERE; dummyStatement(&ptr, &ptr2, &ptr3); } void testQSharedPointer() { testQSharedPointer1(); testQSharedPointer2(); testQSharedPointer3(); testQSharedPointer4(); testQSharedPointer5(); } #else void testQSharedPointer() {} #endif } // namespace qsharedpointer namespace qxml { void testQXmlAttributes() { // only works with Python dumper QXmlAttributes atts; atts.append("name1", "uri1", "localPart1", "value1"); atts.append("name2", "uri2", "localPart2", "value2"); atts.append("name3", "uri3", "localPart3", "value3"); BREAK_HERE; // Expand atts atts.attList atts.attList.1 atts.attList.2. // CheckType atts QXmlAttributes. // CheckType atts.[vptr] . // Check atts.attList <3 items> QXmlAttributes::AttributeList. // CheckType atts.attList.0 QXmlAttributes::Attribute. // Check atts.attList.0.localname "localPart1" QString. // Check atts.attList.0.qname "name1" QString. // Check atts.attList.0.uri "uri1" QString. // Check atts.attList.0.value "value1" QString. // CheckType atts.attList.1 QXmlAttributes::Attribute. // Check atts.attList.1.localname "localPart2" QString. // Check atts.attList.1.qname "name2" QString. // Check atts.attList.1.uri "uri2" QString. // Check atts.attList.1.value "value2" QString. // CheckType atts.attList.2 QXmlAttributes::Attribute. // Check atts.attList.2.localname "localPart3" QString. // Check atts.attList.2.qname "name3" QString. // Check atts.attList.2.uri "uri3" QString. // Check atts.attList.2.value "value3" QString. // CheckType atts.d QXmlAttributesPrivate. // Continue. dummyStatement(); } } // namespace qxml namespace stdarray { void testStdArray() { #if USE_CXX11 std::array a = { { 1, 2, 3, 4} }; std::array b = { { "1", "2", "3", "4"} }; BREAK_HERE; // Expand a. // Check a <4 items> std::array. // Check a <4 items> std::array. // Continue. dummyStatement(&a, &b); #endif } } // namespace stdcomplex namespace stdcomplex { void testStdComplex() { std::complex c(1, 2); BREAK_HERE; // Expand c. // Check c (1.000000, 2.000000) std::complex. // Continue. dummyStatement(&c); } } // namespace stdcomplex namespace stddeque { void testStdDequeInt() { std::deque deque; deque.push_back(1); deque.push_back(2); BREAK_HERE; // Expand deque. // Check deque <2 items> std::deque. // Check deque.0 1 int. // Check deque.1 2 int. // Continue. dummyStatement(&deque); } void testStdDequeIntStar() { // This is not supposed to work with the compiled dumpers. std::deque deque; deque.push_back(new int(1)); deque.push_back(0); deque.push_back(new int(2)); BREAK_HERE; // Expand deque. // Check deque <3 items> std::deque. // CheckType deque.0 int. // Check deque.1 0x0 int *. // Continue. deque.pop_back(); deque.pop_front(); deque.pop_front(); dummyStatement(&deque); } void testStdDequeFoo() { std::deque deque; deque.push_back(1); deque.push_front(2); BREAK_HERE; // Expand deque deque.0 deque.1. // Check deque <2 items> std::deque. // CheckType deque.0 Foo. // Check deque.0.a 2 int. // CheckType deque.1 Foo. // Check deque.1.a 1 int. // Continue. dummyStatement(&deque); } void testStdDequeFooStar() { std::deque deque; deque.push_back(new Foo(1)); deque.push_back(new Foo(2)); BREAK_HERE; // Expand deque deque.0 deque.1. // Check deque <2 items> std::deque. // CheckType deque.0 Foo. // Check deque.0.a 1 int. // CheckType deque.1 Foo. // Check deque.1.a 2 int. // Continue. dummyStatement(&deque); } void testStdDeque() { testStdDequeInt(); testStdDequeIntStar(); testStdDequeFoo(); testStdDequeFooStar(); } } // namespace stddeque namespace stdhashset { void testStdHashSet() { // This is not supposed to work with the compiled dumpers. #if USE_GCC_EXT using namespace __gnu_cxx; hash_set h; h.insert(1); h.insert(194); h.insert(2); h.insert(3); BREAK_HERE; // Expand h. // Check h <4 items> __gnu__cxx::hash_set. // Check h.0 194 int. // Check h.1 1 int. // Check h.2 2 int. // Check h.3 3 int. // Continue. dummyStatement(&h); #endif } } // namespace stdhashset namespace stdlist { void testStdListInt() { std::list list; list.push_back(1); list.push_back(2); BREAK_HERE; // Expand list. // Check list <2 items> std::list. // Check list.0 1 int. // Check list.1 2 int. // Continue. dummyStatement(&list); } void testStdListIntStar() { std::list list; list.push_back(new int(1)); list.push_back(0); list.push_back(new int(2)); BREAK_HERE; // Expand list. // Check list <3 items> std::list. // CheckType list.0 int. // Check list.1 0x0 int *. // CheckType list.2 int. // Continue. dummyStatement(&list); } void testStdListIntBig() { // This is not supposed to work with the compiled dumpers. std::list list; for (int i = 0; i < 10000; ++i) list.push_back(i); BREAK_HERE; // Expand list. // Check list std::list. // Check list.0 0 int. // Check list.999 999 int. // Continue. dummyStatement(&list); } void testStdListFoo() { std::list list; list.push_back(15); list.push_back(16); BREAK_HERE; // Expand list list.0 list.1. // Check list <2 items> std::list. // CheckType list.0 Foo. // Check list.0.a 15 int. // CheckType list.1 Foo. // Check list.1.a 16 int. // Continue. dummyStatement(&list); } void testStdListFooStar() { std::list list; list.push_back(new Foo(1)); list.push_back(0); list.push_back(new Foo(2)); BREAK_HERE; // Expand list list.0 list.2. // Check list <3 items> std::list. // CheckType list.0 Foo. // Check list.0.a 1 int. // Check list.1 0x0 Foo *. // CheckType list.2 Foo. // Check list.2.a 2 int. // Continue. dummyStatement(&list); } void testStdListBool() { std::list list; list.push_back(true); list.push_back(false); BREAK_HERE; // Expand list. // Check list <2 items> std::list. // Check list.0 true bool. // Check list.1 false bool. // Continue. dummyStatement(&list); } void testStdList() { testStdListInt(); testStdListIntStar(); testStdListIntBig(); testStdListFoo(); testStdListFooStar(); testStdListBool(); } } // namespace stdlist namespace stdmap { void testStdMapStringFoo() { // This is not supposed to work with the compiled dumpers. std::map map; map["22.0"] = Foo(22); map["33.0"] = Foo(33); map["44.0"] = Foo(44); BREAK_HERE; // Expand map map.0 map.0.second map.2 map.2.second. // Check map <3 items> std::map. // Check map.0 std::pair. // Check map.0.first "22.0" QString. // CheckType map.0.second Foo. // Check map.0.second.a 22 int. // Check map.1 std::pair. // Check map.2.first "44.0" QString. // CheckType map.2.second Foo. // Check map.2.second.a 44 int. // Continue. dummyStatement(&map); } void testStdMapCharStarFoo() { std::map map; map["22.0"] = Foo(22); map["33.0"] = Foo(33); BREAK_HERE; // Expand map map.0 map.0.first map.0.second map.1 map.1.second. // Check map <2 items> std::map. // Check map.0 std::pair. // CheckType map.0.first char *. // Check map.0.first.*first 50 '2' char. // CheckType map.0.second Foo. // Check map.0.second.a 22 int. // Check map.1 std::pair. // CheckType map.1.first char *. // Check map.1.first.*first 51 '3' char. // CheckType map.1.second Foo. // Check map.1.second.a 33 int. // Continue. dummyStatement(&map); } void testStdMapUIntUInt() { std::map map; map[11] = 1; map[22] = 2; BREAK_HERE; // Expand map. // Check map <2 items> std::map. // Check map.11 1 unsigned int. // Check map.22 2 unsigned int. // Continue. dummyStatement(&map); } void testStdMapUIntStringList() { std::map map; map[11] = QStringList() << "11"; map[22] = QStringList() << "22"; BREAK_HERE; // Expand map map.0 map.0.first map.0.second map.1 map.1.second. // Check map <2 items> std::map. // Check map.0 std::pair. // Check map.0.first 11 unsigned int. // Check map.0.second <1 items> QStringList. // Check map.0.second.0 "11" QString. // Check map.1 std::pair. // Check map.1.first 22 unsigned int. // Check map.1.second <1 items> QStringList. // Check map.1.second.0 "22" QString. // Continue. dummyStatement(&map); } void testStdMapUIntStringListTypedef() { typedef std::map T; T map; map[11] = QStringList() << "11"; map[22] = QStringList() << "22"; BREAK_HERE; // Check map <2 items> stdmap::T. // Continue. dummyStatement(&map); } void testStdMapUIntFloat() { std::map map; map[11] = 11.0; map[22] = 22.0; BREAK_HERE; // Expand map. // Check map <2 items> std::map. // Check map.11 11 float. // Check map.22 22 float. // Continue. dummyStatement(&map); } void testStdMapUIntFloatIterator() { typedef std::map Map; Map map; map[11] = 11.0; map[22] = 22.0; map[33] = 33.0; map[44] = 44.0; map[55] = 55.0; map[66] = 66.0; Map::iterator it1 = map.begin(); Map::iterator it2 = it1; ++it2; Map::iterator it3 = it2; ++it3; Map::iterator it4 = it3; ++it4; Map::iterator it5 = it4; ++it5; Map::iterator it6 = it5; ++it6; BREAK_HERE; // Expand map. // Check map <6 items> stdmap::Map. // Check map.11 11 float. // Check it1.first 11 int. // Check it1.second 11 float. // Check it6.first 66 int. // Check it6.second 66 float. // Continue. dummyStatement(&map, &it1, &it2, &it3, &it4, &it5, &it6); } void testStdMapStringFloat() { std::map map; map["11.0"] = 11.0; map["22.0"] = 22.0; BREAK_HERE; // Expand map map.0 map.1. // Check map <2 items> std::map. // Check map.0 std::pair. // Check map.0.first "11.0" QString. // Check map.0.second 11 float. // Check map.1 std::pair. // Check map.1.first "22.0" QString. // Check map.1.second 22 float. // Continue. dummyStatement(&map); } void testStdMapIntString() { std::map map; map[11] = "11.0"; map[22] = "22.0"; BREAK_HERE; // Expand map map.0 map.1. // Check map <2 items> std::map. // Check map.0 std::pair. // Check map.0.first 11 int. // Check map.0.second "11.0" QString. // Check map.1 std::pair. // Check map.1.first 22 int. // Check map.1.second "22.0" QString. // Continue. dummyStatement(&map); } void testStdMapStringPointer() { QObject ob; std::map > map; map["Hallo"] = QPointer(&ob); map["Welt"] = QPointer(&ob); map["."] = QPointer(&ob); BREAK_HERE; // Expand map map.0 map.2. // Check map <3 items> std::map>. // Check map.0 std::pair>. // Check map.0.first "." QString. // CheckType map.0.second QPointer. // Check map.2 std::pair>. // Check map.2.first "Welt" QString. // Continue. dummyStatement(&map); } void testStdMap() { testStdMapStringFoo(); testStdMapCharStarFoo(); testStdMapUIntUInt(); testStdMapUIntStringList(); testStdMapUIntStringListTypedef(); testStdMapUIntFloat(); testStdMapUIntFloatIterator(); testStdMapStringFloat(); testStdMapIntString(); testStdMapStringPointer(); } } // namespace stdmap namespace stdptr { void testStdUniquePtrInt() { #ifdef USE_CXX11 std::unique_ptr p(new int(32)); BREAK_HERE; // Check p 32 std::unique_ptr >. // Continue. dummyStatement(&p); #endif } void testStdUniquePtrFoo() { #ifdef USE_CXX11 std::unique_ptr p(new Foo); BREAK_HERE; // Check p 32 std::unique_ptr >. // Continue. dummyStatement(&p); #endif } void testStdSharedPtrInt() { #ifdef USE_CXX11 std::shared_ptr p(new int(32)); BREAK_HERE; // Check p 32 std::shared_ptr >. // Continue. dummyStatement(&p); #endif } void testStdSharedPtrFoo() { #ifdef USE_CXX11 std::shared_ptr p(new Foo); BREAK_HERE; // Check p 32 std::shared_ptr >. // Continue. dummyStatement(&p); #endif } void testStdPtr() { testStdUniquePtrInt(); testStdUniquePtrFoo(); testStdSharedPtrInt(); testStdSharedPtrFoo(); } } // namespace stdptr namespace stdset { void testStdSetInt() { // This is not supposed to work with the compiled dumpers. std::set set; set.insert(11); set.insert(22); set.insert(33); BREAK_HERE; // Check set <3 items> std::set // Continue. dummyStatement(&set); } void testStdSetIntIterator() { typedef std::set Set; Set set; set.insert(11.0); set.insert(22.0); set.insert(33.0); set.insert(44.0); set.insert(55.0); set.insert(66.0); Set::iterator it1 = set.begin(); Set::iterator it2 = it1; ++it2; Set::iterator it3 = it2; ++it3; Set::iterator it4 = it3; ++it4; Set::iterator it5 = it4; ++it5; Set::iterator it6 = it5; ++it6; BREAK_HERE; // Check set <6 items> stdset::Set. // Check it1.value 11 int. // Check it6.value 66 int. // Continue. dummyStatement(&set, &it1, &it2, &it3, &it4, &it5, &it6); } void testStdSetString() { std::set set; set.insert("22.0"); BREAK_HERE; // Expand set. // Check set <1 items> std::set. // Check set.0 "22.0" QString. // Continue. dummyStatement(&set); } void testStdSetPointer() { QObject ob; std::set > hash; QPointer ptr(&ob); BREAK_HERE; // Check hash <0 items> std::set, std::less>, std::allocator>>. // Check ob "" QObject. // CheckType ptr QPointer. // Continue. dummyStatement(&ptr); } void testStdSet() { testStdSetInt(); testStdSetIntIterator(); testStdSetString(); testStdSetPointer(); } } // namespace stdset namespace stdstack { void testStdStack1() { // This does not work with the compiled dumpers. std::stack s; BREAK_HERE; // Check s <0 items> std::stack. // Continue. s.push(new int(1)); BREAK_HERE; // Check s <1 items> std::stack. // Continue. s.push(0); BREAK_HERE; // Check s <2 items> std::stack. // Continue. s.push(new int(2)); BREAK_HERE; // Expand s. // Check s <3 items> std::stack. // CheckType s.0 int. // Check s.1 0x0 int *. // CheckType s.2 int. // Continue. s.pop(); BREAK_HERE; // Check s <2 items> std::stack. // Continue. s.pop(); BREAK_HERE; // Check s <1 items> std::stack. // Continue. s.pop(); BREAK_HERE; // Check s <0 items> std::stack. // Continue. dummyStatement(&s); } void testStdStack2() { std::stack s; BREAK_HERE; // Check s <0 items> std::stack. // Continue. s.push(1); BREAK_HERE; // Check s <1 items> std::stack. // Continue. s.push(2); BREAK_HERE; // Expand s. // Check s <2 items> std::stack. // Check s.0 1 int. // Check s.1 2 int. // Continue. dummyStatement(&s); } void testStdStack3() { std::stack s; BREAK_HERE; // Check s <0 items> std::stack. // Continue. s.push(new Foo(1)); BREAK_HERE; // Check s <1 items> std::stack. // Continue. s.push(new Foo(2)); BREAK_HERE; // Expand s s.0 s.1. // Check s <2 items> std::stack. // CheckType s.0 Foo. // Check s.0.a 1 int. // CheckType s.1 Foo. // Check s.1.a 2 int. // Continue. dummyStatement(&s); } void testStdStack4() { std::stack s; BREAK_HERE; // Check s <0 items> std::stack. // Continue. s.push(1); BREAK_HERE; // Check s <1 items> std::stack. // Continue. s.push(2); BREAK_HERE; // Expand s s.0 s.1. // Check s <2 items> std::stack. // CheckType s.0 Foo. // Check s.0.a 1 int. // CheckType s.1 Foo. // Check s.1.a 2 int. // Continue. dummyStatement(&s); } void testStdStack() { testStdStack1(); testStdStack2(); testStdStack3(); testStdStack4(); } } // namespace stdstack namespace stdstring { void testStdString1() { std::string str; std::wstring wstr; BREAK_HERE; // Check str "" std::string. // Check wstr "" std::wstring. // Continue. str += "b"; wstr += wchar_t('e'); str += "d"; wstr += wchar_t('e'); str += "e"; str += "b"; str += "d"; str += "e"; wstr += wchar_t('e'); wstr += wchar_t('e'); str += "e"; BREAK_HERE; // Check str "bdebdee" std::string. // Check wstr "eeee" std::wstring. // Continue. dummyStatement(&str, &wstr); } void testStdString2() { std::string str = "foo"; QList l; BREAK_HERE; // Check l <0 items> QList. // Check str "foo" std::string. // Continue. l.push_back(str); BREAK_HERE; // Check l <1 items> QList. // Continue. l.push_back(str); BREAK_HERE; // Check l <2 items> QList. // Continue. l.push_back(str); BREAK_HERE; // Check l <3 items> QList. // Continue. l.push_back(str); BREAK_HERE; // Expand l. // Check l <4 items> QList. // CheckType l.0 std::string. // CheckType l.3 std::string. // Check str "foo" std::string. // Continue. dummyStatement(&str, &l); } void testStdString3() { std::string str = "foo"; std::vector v; BREAK_HERE; // Check str "foo" std::string. // Check v <0 items> std::vector. // Continue. v.push_back(str); BREAK_HERE; // Check v <1 items> std::vector. // Continue. v.push_back(str); BREAK_HERE; // Check v <2 items> std::vector. // Continue. v.push_back(str); BREAK_HERE; // Check v <3 items> std::vector. // Continue. v.push_back(str); BREAK_HERE; // Expand v. // Check v <4 items> std::vector. // Check v.0 "foo" std::string. // Check v.3 "foo" std::string. // Continue. dummyStatement(&str, &v); } void testStdString() { testStdString1(); testStdString2(); testStdString3(); } } // namespace stdstring namespace stdvector { void testStdVector1() { std::vector v; BREAK_HERE; // Check v <0 items> std::vector. // Continue. v.push_back(new int(1)); BREAK_HERE; // Check v <1 items> std::vector. // Continue. v.push_back(0); BREAK_HERE; // Check v <2 items> std::vector. // Continue. v.push_back(new int(2)); BREAK_HERE; // Expand v. // Check v <3 items> std::vector. // Check v.0 1 int. // Check v.1 0x0 int *. // Check v.2 2 int. // Continue. dummyStatement(&v); } void testStdVector2() { std::vector v; v.push_back(1); v.push_back(2); v.push_back(3); v.push_back(4); BREAK_HERE; // Expand v. // Check v <4 items> std::vector. // Check v.0 1 int. // Check v.3 4 int. // Continue. dummyStatement(&v); } void testStdVector3() { std::vector v; v.push_back(new Foo(1)); v.push_back(0); v.push_back(new Foo(2)); BREAK_HERE; // Expand v v.0 v.0.x v.2. // Check v <3 items> std::vector. // CheckType v.0 Foo. // Check v.0.a 1 int. // Check v.1 0x0 Foo *. // CheckType v.2 Foo. // Check v.2.a 2 int. // Continue. dummyStatement(&v); } void testStdVector4() { std::vector v; v.push_back(1); v.push_back(2); v.push_back(3); v.push_back(4); BREAK_HERE; // Expand v v.0 v.0.x. // Check v <4 items> std::vector. // CheckType v.0 Foo. // Check v.1.a 2 int. // CheckType v.3 Foo. // Continue. dummyStatement(&v); } void testStdVectorBool1() { std::vector v; v.push_back(true); v.push_back(false); v.push_back(false); v.push_back(true); v.push_back(false); BREAK_HERE; // Expand v. // Check v <5 items> std::vector. // Check v.0 true bool. // Check v.1 false bool. // Check v.2 false bool. // Check v.3 true bool. // Check v.4 false bool. // Continue. dummyStatement(&v); } void testStdVectorBool2() { std::vector v1(65, true); std::vector v2(65); BREAK_HERE; // Expand v1. // Expand v2. // Check v1 <65 items> std::vector. // Check v1.0 true bool. // Check v1.64 true bool. // Check v2 <65 items> std::vector. // Check v2.0 false bool. // Check v2.64 false bool. // Continue. dummyStatement(&v1, &v2); } void testStdVector6() { std::vector *> vector; std::list list; vector.push_back(new std::list(list)); vector.push_back(0); list.push_back(45); vector.push_back(new std::list(list)); vector.push_back(0); BREAK_HERE; // Expand list vector vector.2. // Check list <1 items> std::list. // Check list.0 45 int. // Check vector <4 items> std::vector*>. // Check vector.0 <0 items> std::list. // Check vector.2 <1 items> std::list. // Check vector.2.0 45 int. // Check vector.3 0x0 std::list *. // Continue. dummyStatement(&vector, &list); } void testStdVector() { testStdVector1(); testStdVector2(); testStdVector3(); testStdVector4(); testStdVectorBool1(); testStdVectorBool2(); testStdVector6(); } } // namespace stdvector namespace stdstream { void testStdStream() { using namespace std; ifstream is; BREAK_HERE; // CheckType is std::ifstream. // Continue. is.open("/etc/passwd"); BREAK_HERE; // Continue. bool ok = is.good(); BREAK_HERE; // Check ok true bool. // Continue. dummyStatement(&is, &ok); } } // namespace stdstream namespace itemmodel { void testItemModel() { #if USE_GUILIB //char buf[100]; //QString *s = static_cast