}
}
-class RealmNode;
+class OriginHost;
class TestCase {
anna::xml::Node* asXML(anna::xml::Node* parent) const throw();
};
- TestCase(unsigned int id) : a_id(id), a_state(State::Initialized), a_startTime(0), a_interactiveAmount(-1) { /*a_stepsIt = a_steps.end()*/;}
+ TestCase(unsigned int id);
~TestCase();
struct State { enum _v { Initialized, InProgress, Failed, Success }; };
// Step type & information
void addTimeout(const anna::Millisecond &timeout) throw(anna::RuntimeException);
- void addSendxml2e(const anna::DataBlock &db, RealmNode *realm, int stepNumber) throw(anna::RuntimeException);
- void addSendxml2c(const anna::DataBlock &db, RealmNode *realm, int stepNumber) throw(anna::RuntimeException);
+ void addSendxml2e(const anna::DataBlock &db, OriginHost *host, int stepNumber) throw(anna::RuntimeException);
+ void addSendxml2c(const anna::DataBlock &db, OriginHost *host, int stepNumber) throw(anna::RuntimeException);
void addDelay(const anna::Millisecond &delay) throw(anna::RuntimeException);
void addWait(bool fromEntity,
const std::string &code, const std::string &bitR, const std::string &hopByHop, const std::string &applicationId,
//helpers
int steps() const throw() { return a_steps.size(); }
- void addStep(TestStep *step) throw() { a_steps[1+steps()] = step; }
+ void addStep(TestStep *step) throw() { a_steps.push_back(step); }
TestStepWait *searchNextWaitConditionFulfilled(const anna::DataBlock &message, bool waitFromEntity) throw();
// When a message arrives, we identify the test case by mean the Session-Id. Then, from the current step iterator (included),
private:
// private members:
unsigned int a_id;
- std::map<int/* step number*/, TestStep*> a_steps;
- std::map<int/* step number*/, TestStep*>::const_iterator a_stepsIt;
+ std::vector<TestStep*> a_steps;
+ std::vector<TestStep*>::const_iterator a_stepsIt;
std::map<anna::diameter::HopByHop, TestStep*> a_hopByHops; // for wait-answer
State::_v a_state;
anna::Millisecond a_startTime;