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#include <cppunit/Portability.h>
#include <cppunit/Test.h>
#include <cppunit/TestPath.h>
#include <stdexcept>
CPPUNIT_NS_BEGIN
TestPath::TestPath()
{
}
TestPath::TestPath( Test *root )
{
add( root );
}
TestPath::TestPath( const TestPath &other,
int indexFirst,
int count )
{
int countAdjustment = 0;
if ( indexFirst < 0 )
{
countAdjustment = indexFirst;
indexFirst = 0;
}
if ( count < 0 )
count = other.getTestCount();
else
count += countAdjustment;
int index = indexFirst;
while ( count-- > 0 && index < other.getTestCount() )
add( other.getTestAt( index++ ) );
}
TestPath::TestPath( Test *searchRoot,
const std::string &pathAsString )
{
PathTestNames testNames;
Test *parentTest = findActualRoot( searchRoot, pathAsString, testNames );
add( parentTest );
for ( unsigned int index = 1; index < testNames.size(); ++index )
{
bool childFound = false;
for ( int childIndex =0; childIndex < parentTest->getChildTestCount(); ++childIndex )
{
if ( parentTest->getChildTestAt( childIndex )->getName() == testNames[index] )
{
childFound = true;
parentTest = parentTest->getChildTestAt( childIndex );
break;
}
}
if ( !childFound )
throw std::invalid_argument( "TestPath::TestPath(): failed to resolve test name <"+
testNames[index] + "> of path <" + pathAsString + ">" );
add( parentTest );
}
}
TestPath::TestPath( const TestPath &other )
: m_tests( other.m_tests )
{
}
TestPath::~TestPath()
{
}
TestPath &
TestPath::operator =( const TestPath &other )
{
if ( &other != this )
m_tests = other.m_tests;
return *this;
}
bool
TestPath::isValid() const
{
return getTestCount() > 0;
}
void
TestPath::add( Test *test )
{
m_tests.push_back( test );
}
void
TestPath::add( const TestPath &path )
{
for ( int index =0; index < path.getTestCount(); ++index )
add( path.getTestAt( index ) );
}
void
TestPath::insert( Test *test,
int index )
{
if ( index < 0 || index > getTestCount() )
throw std::out_of_range( "TestPath::insert(): index out of range" );
m_tests.insert( m_tests.begin() + index, test );
}
void
TestPath::insert( const TestPath &path,
int index )
{
int itemIndex = path.getTestCount() -1;
while ( itemIndex >= 0 )
insert( path.getTestAt( itemIndex-- ), index );
}
void
TestPath::removeTests()
{
while ( isValid() )
removeTest( 0 );
}
void
TestPath::removeTest( int index )
{
checkIndexValid( index );
m_tests.erase( m_tests.begin() + index );
}
void
TestPath::up()
{
checkIndexValid( 0 );
removeTest( getTestCount() -1 );
}
int
TestPath::getTestCount() const
{
return m_tests.size();
}
Test *
TestPath::getTestAt( int index ) const
{
checkIndexValid( index );
return m_tests[index];
}
Test *
TestPath::getChildTest() const
{
return getTestAt( getTestCount() -1 );
}
void
TestPath::checkIndexValid( int index ) const
{
if ( index < 0 || index >= getTestCount() )
throw std::out_of_range( "TestPath::checkIndexValid(): index out of range" );
}
std::string
TestPath::toString() const
{
std::string asString( "/" );
for ( int index =0; index < getTestCount(); ++index )
{
if ( index > 0 )
asString += '/';
asString += getTestAt(index)->getName();
}
return asString;
}
Test *
TestPath::findActualRoot( Test *searchRoot,
const std::string &pathAsString,
PathTestNames &testNames )
{
bool isRelative = splitPathString( pathAsString, testNames );
if ( isRelative && pathAsString.empty() )
return searchRoot;
if ( testNames.empty() )
throw std::invalid_argument( "TestPath::TestPath(): invalid root or root name in absolute path" );
Test *root = isRelative ? searchRoot->findTest( testNames[0] ) // throw if bad test name
: searchRoot;
if ( root->getName() != testNames[0] )
throw std::invalid_argument( "TestPath::TestPath(): searchRoot does not match path root name" );
return root;
}
bool
TestPath::splitPathString( const std::string &pathAsString,
PathTestNames &testNames )
{
if ( pathAsString.empty() )
return true;
bool isRelative = pathAsString[0] != '/';
int index = (isRelative ? 0 : 1);
while ( true )
{
int separatorIndex = pathAsString.find( '/', index );
if ( separatorIndex >= 0 )
{
testNames.push_back( pathAsString.substr( index, separatorIndex - index ) );
index = separatorIndex + 1;
}
else
{
testNames.push_back( pathAsString.substr( index ) );
break;
}
}
return isRelative;
}
CPPUNIT_NS_END
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