OpenSceneGraph/src/osg/UnitTestFramework.cpp
2004-03-03 13:27:21 +00:00

396 lines
8.6 KiB
C++

/* -*-c++-*- OpenSceneGraph - Copyright (C) 1998-2003 Robert Osfield
*
* This library is open source and may be redistributed and/or modified under
* the terms of the OpenSceneGraph Public License (OSGPL) version 0.0 or
* (at your option) any later version. The full license is in LICENSE file
* included with this distribution, and on the openscenegraph.org website.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* OpenSceneGraph Public License for more details.
*/
#include <osg/UnitTestFramework>
#include <algorithm>
namespace osgUtx
{
//////////////////////////////////////////////////////////////////////////////
TestContext::TestContext()
{
}
void TestContext::setTraceLevel(TraceLevel tl)
{
_tout.setTraceLevel(tl);
}
TestContext::TraceLevel TestContext::getTraceLevel() const
{
return _tout.getTraceLevel();
}
std::ostream& TestContext::tout(TraceLevel tl) const
{
return _tout.stream(tl);
}
//////////////////////////////////////////////////////////////////////////////
TestContext::TraceStream::TraceStream(std::ostream& o, TraceLevel tl):
_traceLevel(tl),
_outputStreamPtr(&o),
#if defined(WIN32) && !(defined(__CYGWIN__) || defined(__MINGW32__))
_nullStream("nul")
#else
_nullStream("/dev/null")
#endif
{
}
TestContext::TraceStream::~TraceStream()
{
_nullStream.close();
}
void TestContext::TraceStream::setTraceLevel(TraceLevel tl)
{
_traceLevel = tl;
}
TestContext::TraceLevel TestContext::TraceStream::getTraceLevel() const
{
return _traceLevel;
}
std::ostream& TestContext::TraceStream::stream(TestContext::TraceLevel tl)
{
if(_traceLevel >= tl){
return *_outputStreamPtr;
}
return _nullStream;
}
//////////////////////////////////////////////////////////////////////////////
TestGraph& TestGraph::instance()
{
static TestGraph instance_;
return instance_;
}
TestSuite* TestGraph::root()
{
return root_.get();
}
TestSuite* TestGraph::suite(const std::string& path, TestSuite* tsuite, bool createIfNecessary)
{
using namespace std;
list<string> pathComponents;
std::string::const_iterator it1 = path.begin();
std::string::const_iterator it2 = it1;
// Dissect the path into it's constituent components
do{
while( *it2 != '.' && it2 != path.end() ) ++it2;
// Consider a check for "" empty strings?
pathComponents.push_back( std::string(it1,it2) );
if( it2 != path.end()) ++it2;
it1 = it2;
}while( it2 != path.end());
return suite(pathComponents.begin(), pathComponents.end(),
tsuite, createIfNecessary);
}
TestSuite* TestGraph::suite(
std::list<std::string>::iterator it,
std::list<std::string>::iterator end,
TestSuite* tsuite, bool createIfNecessary)
{
using namespace std;
if( ! tsuite) tsuite = root();
// Make sure these tie up
if(*it != tsuite->name()) return 0;
++it;
if(it == end) return tsuite;
Test* child = tsuite->findChild(*it);
if(child){
// We've found a child with the right name. But is it a
// test suite?
if(TestSuite* childSuite = dynamic_cast<TestSuite*>(child)){
return suite(it, end, childSuite, createIfNecessary);
}
// We could return 0 here, to indicate that someone is
// trying to add a TestSuite named 'xxx' to a suite with a
// Test already named 'xxx'. But we don't enforce uniqueness
// the other way round, so we don't do it this way round
// either. Carry on as normal, and create a TestSuite of
// the same name if createIfNecessary is true.
}
if(createIfNecessary){
TestSuite* childSuite = new TestSuite(*it);
tsuite->add(childSuite);
return suite(it, end, childSuite, createIfNecessary);
}
return 0;
}
TestGraph::TestGraph(): root_(new TestSuite("root"))
{
}
//////////////////////////////////////////////////////////////////////////////
bool TestQualifier::visitEnter( TestSuite* pSuite )
{
_path.append( pSuite->name() );
_path += SEPCHAR;
return true;
}
// Leaving a composite: Pop its name from the Path
bool TestQualifier::visitLeave( TestSuite* pSuite )
{
// assert( _path.rfind( pSuite->name() + static_cast<const char>(SEPCHAR))
// == _path.size() - pSuite->name().size() - 1);
_path.erase( _path.size() - pSuite->name().size() -1 );
return true;
}
// Provide read-only access to the current qualifier
const std::string& TestQualifier::currentPath() const
{
return _path;
}
//////////////////////////////////////////////////////////////////////////////
osg::Timer TestRecord::timer_;
void TestRecord::start()
{
start_ = timer_.tick();
}
void TestRecord::stop()
{
stop_ = timer_.tick();
}
void TestRecord::log(const TestFailureX& e)
{
stop();
result_ = Failure;
problem_ = e.what();
}
void TestRecord::log(const TestErrorX& e)
{
stop();
result_ = Error;
problem_ = e.what();
}
void TestRecord::log(const std::exception& e)
{
stop();
result_ = Error;
problem_ = e.what();
}
void TestRecord::log(const std::string& s)
{
stop();
result_ = Error;
problem_ = s;
}
TestRecord::TestRecord(const std::string& name):
name_(name),
start_(0),
stop_(0),
result_(Success),
problem_("No problem")
{
}
std::ostream& operator<<(std::ostream& o,const TestRecord& tr)
{
if(tr.result_ == TestRecord::Success) o<<"pass";
else if(tr.result_ == TestRecord::Failure) o<<"fail";
else o<<"error";
o<<"\t"<<tr.name_;
//o<<tr.start_<<'\t'<<tr.stop_<<'\t'<<TestRecord::timer_.delta_s(tr.start_,tr.stop_);
// Just print out the duration
o<<'\t'<<TestRecord::timer_.delta_s(tr.start_,tr.stop_)<<'s';
if(tr.result_ != TestRecord::Success){
o<<'\t'<<tr.problem_;
}
return o;
}
//////////////////////////////////////////////////////////////////////////////
TestRunner::TestRunner( TestContext& ctx ) : _ctx( ctx )
{
}
void TestRunner::specify( const std::string& sQualifiedName )
{
_tests.push_back( sQualifiedName );
}
bool TestRunner::visitEnter( TestSuite* pSuite )
{
TestQualifier::visitEnter( pSuite );
return !_ctx.shouldStop();
}
#ifndef DOXYGEN_SHOULD_SKIP_THIS
namespace osgUtx{
struct isSpecified{
const std::string& pTestName_;
isSpecified(const std::string& s): pTestName_(s) {}
bool operator()(const std::string& specifiedTest){
return pTestName_.find(specifiedTest) == 0;
}
};
}
#endif /* DOXYGEN_SHOULD_SKIP_THIS */
bool TestRunner::visit( TestCase* pTest )
{
if ( std::find_if(_tests.begin(),_tests.end(),
osgUtx::isSpecified(currentPath() + pTest->name() ) ) != _tests.end()) perform( pTest );
return !_ctx.shouldStop();
}
bool TestRunner::visitLeave( TestSuite* pSuite )
{
TestQualifier::visitLeave( pSuite );
return !_ctx.shouldStop();
}
void TestRunner::perform( TestCase* pTest )
{
TestRecord& record = _db.createRecord( currentPath() + pTest->name() );
try
{
record.start();
pTest->run( _ctx );
record.stop();
}
catch ( const TestFailureX& e )
{
record.log( e );
}
catch ( const TestErrorX& e )
{
record.log( e );
}
catch ( const std::exception& e )
{
record.log( e );
}
catch ( ... )
{
record.log( std::string("Unknown") );
}
_ctx.tout(TestContext::Results) << record << std::endl;
}
//////////////////////////////////////////////////////////////////////////////
TestSuite::TestSuite( const std::string& name ) : Test( name )
{
}
void TestSuite::add( Test* pTest )
{
_tests.push_back( pTest );
}
Test* TestSuite::findChild(const std::string& name)
{
for(Tests::iterator it = _tests.begin();
it != _tests.end();
++it){
if ((*it)->name() == name) return (*it).get();
}
return 0;
}
bool TestSuite::accept( Test::Visitor& v )
{
if ( v.visitEnter( this ) )
{
Tests::iterator end = _tests.end();
for ( Tests::iterator at = _tests.begin(); at != end; ++at )
if ( !(*at)->accept( v ) )
break;
}
return v.visitLeave( this ); // continue with siblings?
}
//////////////////////////////////////////////////////////////////////////////
bool QualifiedTestPrinter::visit( TestCase* pTest )
{
osg::notify(osg::NOTICE) << currentPath() + pTest->name() << std::endl;
return true;
}
//////////////////////////////////////////////////////////////////////////////
};