void ArchiveTestCase<ClassFactoryT>::TestSmartPairIterator(wxInputStream& in)
{
#if defined _MSC_VER && defined _MSC_VER < 1200
// With VC++ 5.0 the '=' operator of std::pair breaks when the second
// type is Ptr<EntryT>, so this iterator can't be made to work.
(void)in;
#else
typedef std::map<wxString, Ptr<EntryT> > ArchiveCatalog;
typedef typename ArchiveCatalog::iterator CatalogIter;
typedef wxArchiveIterator<InputStreamT,
std::pair<wxString, Ptr<EntryT> > > PairIter;
auto_ptr<InputStreamT> arc(m_factory->NewStream(in));
#ifdef WXARC_MEMBER_TEMPLATES
ArchiveCatalog cat((PairIter)*arc, PairIter());
#else
ArchiveCatalog cat;
for (PairIter i(*arc); i != PairIter(); ++i)
cat.insert(*i);
#endif
CPPUNIT_ASSERT(m_testEntries.size() == cat.size());
for (CatalogIter it = cat.begin(); it != cat.end(); ++it)
CPPUNIT_ASSERT(m_testEntries.count(it->second->GetName(wxPATH_UNIX)));
#endif
}
void ArchiveTestCase<ClassFactoryT>::TestSmartIterator(wxInputStream& in)
{
typedef std::list<Ptr<EntryT> > ArchiveCatalog;
typedef typename ArchiveCatalog::iterator CatalogIter;
typedef wxArchiveIterator<InputStreamT, Ptr<EntryT> > Iter;
auto_ptr<InputStreamT> arc(m_factory->NewStream(in));
#ifdef WXARC_MEMBER_TEMPLATES
ArchiveCatalog cat((Iter)*arc, Iter());
#else
ArchiveCatalog cat;
for (Iter i(*arc); i != Iter(); ++i)
cat.push_back(*i);
#endif
CPPUNIT_ASSERT(m_testEntries.size() == cat.size());
for (CatalogIter it = cat.begin(); it != cat.end(); ++it)
CPPUNIT_ASSERT(m_testEntries.count((*it)->GetName(wxPATH_UNIX)));
}
void ArchiveTestCase<ClassFactoryT>::TestPairIterator(wxInputStream& in)
{
typedef std::map<wxString, EntryT*> ArchiveCatalog;
typedef typename ArchiveCatalog::iterator CatalogIter;
auto_ptr<InputStreamT> arc(m_factory->NewStream(in));
size_t count = 0;
#ifdef WXARC_MEMBER_TEMPLATES
ArchiveCatalog cat((PairIterT)*arc, PairIterT());
#else
ArchiveCatalog cat;
for (PairIterT i(*arc); i != PairIterT(); ++i)
cat.insert(*i);
#endif
for (CatalogIter it = cat.begin(); it != cat.end(); ++it) {
auto_ptr<EntryT> entry(it->second);
count += m_testEntries.count(entry->GetName(wxPATH_UNIX));
}
CPPUNIT_ASSERT(m_testEntries.size() == cat.size());
CPPUNIT_ASSERT(count == cat.size());
}
void ArchiveTestCase<ClassFactoryT>::TestIterator(wxInputStream& in)
{
typedef std::list<EntryT*> ArchiveCatalog;
typedef typename ArchiveCatalog::iterator CatalogIter;
wxScopedPtr<InputStreamT> arc(m_factory->NewStream(in));
size_t count = 0;
#ifdef WXARC_MEMBER_TEMPLATES
ArchiveCatalog cat((IterT)*arc, IterT());
#else
ArchiveCatalog cat;
for (IterT i(*arc); i != IterT(); ++i)
cat.push_back(*i);
#endif
for (CatalogIter it = cat.begin(); it != cat.end(); ++it) {
wxScopedPtr<EntryT> entry(*it);
count += m_testEntries.count(entry->GetName(wxPATH_UNIX));
}
CPPUNIT_ASSERT(m_testEntries.size() == cat.size());
CPPUNIT_ASSERT(count == cat.size());
}
void ArchiveTestCase<ClassFactoryT>::ReadSimultaneous(TestInputStream& in)
{
typedef std::map<wxString, Ptr<EntryT> > ArchiveCatalog;
typedef wxArchiveIterator<InputStreamT,
std::pair<wxString, Ptr<EntryT> > > PairIter;
// create two archive input streams
TestInputStream in2(in);
auto_ptr<InputStreamT> arc(m_factory->NewStream(in));
auto_ptr<InputStreamT> arc2(m_factory->NewStream(in2));
// load the catalog
#ifdef WXARC_MEMBER_TEMPLATES
ArchiveCatalog cat((PairIter)*arc, PairIter());
#else
ArchiveCatalog cat;
for (PairIter i(*arc); i != PairIter(); ++i)
cat.insert(*i);
#endif
// the names of two entries to read
const wxChar *name = _T("text/small");
const wxChar *name2 = _T("bin/bin1000");
// open them
typename ArchiveCatalog::iterator j;
CPPUNIT_ASSERT((j = cat.find(name)) != cat.end());
CPPUNIT_ASSERT(arc->OpenEntry(*j->second));
CPPUNIT_ASSERT((j = cat.find(name2)) != cat.end());
CPPUNIT_ASSERT(arc2->OpenEntry(*j->second));
// get pointers to the expected data
TestEntries::iterator k;
CPPUNIT_ASSERT((k = m_testEntries.find(name)) != m_testEntries.end());
TestEntry *entry = k->second;
CPPUNIT_ASSERT((k = m_testEntries.find(name2)) != m_testEntries.end());
TestEntry *entry2 = k->second;
size_t count = 0, count2 = 0;
size_t size = entry->GetSize(), size2 = entry2->GetSize();
const char *data = entry->GetData(), *data2 = entry2->GetData();
// read and check the two entries in parallel, character by character
while (arc->IsOk() || arc2->IsOk()) {
char ch = arc->GetC();
if (arc->LastRead() == 1) {
CPPUNIT_ASSERT(count < size);
CPPUNIT_ASSERT(ch == data[count++]);
}
char ch2 = arc2->GetC();
if (arc2->LastRead() == 1) {
CPPUNIT_ASSERT(count2 < size2);
CPPUNIT_ASSERT(ch2 == data2[count2++]);
}
}
CPPUNIT_ASSERT(arc->Eof());
CPPUNIT_ASSERT(arc2->Eof());
CPPUNIT_ASSERT(count == size);
CPPUNIT_ASSERT(count2 == size2);
}