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/*
* Copyright 2009- ECMWF.
*
* This software is licensed under the terms of the Apache Licence version 2.0
* which can be obtained at http://www.apache.org/licenses/LICENSE-2.0.
* In applying this licence, ECMWF does not waive the privileges and immunities
* granted to it by virtue of its status as an intergovernmental organisation
* nor does it submit to any jurisdiction.
*/
#include <boost/test/unit_test.hpp>
#include "ecflow/core/CalendarUpdateParams.hpp"
#include "ecflow/core/Str.hpp"
#include "ecflow/node/Alias.hpp"
#include "ecflow/node/Defs.hpp"
#include "ecflow/node/Family.hpp"
#include "ecflow/node/Jobs.hpp"
#include "ecflow/node/JobsParam.hpp"
#include "ecflow/node/Suite.hpp"
#include "ecflow/node/Task.hpp"
#include "ecflow/test/scaffold/Naming.hpp"
using namespace ecf;
BOOST_AUTO_TEST_SUITE(U_Node)
BOOST_AUTO_TEST_SUITE(T_Order)
static void test_invariants(Defs& the_defs, int line) {
std::string errorMsg;
bool passed = the_defs.checkInvariants(errorMsg);
BOOST_REQUIRE_MESSAGE(passed, "Invariants failed " << errorMsg << " at line " << line);
}
BOOST_AUTO_TEST_CASE(test_order) {
ECF_NAME_THIS_TEST();
std::vector<std::string> vec;
vec.reserve(5);
vec.emplace_back("a");
vec.emplace_back("A");
vec.emplace_back("b");
vec.emplace_back("B");
vec.emplace_back("c");
Defs theDefs;
{
for (size_t s = 0; s < vec.size(); s++) {
suite_ptr suite = theDefs.add_suite(vec[s]);
for (size_t f = 0; f < vec.size(); f++) {
family_ptr fam = suite->add_family(vec[f]);
for (const auto& t : vec) {
fam->add_task(t);
}
}
}
}
std::vector<std::string> alpha;
alpha.emplace_back("a");
alpha.emplace_back("A");
alpha.emplace_back("b");
alpha.emplace_back("B");
alpha.emplace_back("c");
std::vector<std::string> order;
order.emplace_back("c");
order.emplace_back("B");
order.emplace_back("b");
order.emplace_back("A");
order.emplace_back("a");
// Test suite ordering ==========================================================================
// In init state all suite should be in alpha order
theDefs.order(theDefs.findAbsNode("/A").get(), NOrder::ALPHA);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == alpha,
"NOrder::ALPHA expected "
<< ecf::algorithm::join(alpha) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec())));
// sort in reverse order
theDefs.order(theDefs.findAbsNode("/a").get(), NOrder::ORDER);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == order,
"NOrder::ORDER expected "
<< ecf::algorithm::join(order) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec())));
// Change back to alpha, then move suite 'c' to the top
theDefs.order(theDefs.findAbsNode("/A").get(), NOrder::ALPHA);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == alpha,
"NOrder::ALPHA expected "
<< ecf::algorithm::join(alpha) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec())));
test_invariants(theDefs, __LINE__);
std::vector<std::string> expected;
expected.emplace_back("c");
expected.emplace_back("a");
expected.emplace_back("A");
expected.emplace_back("b");
expected.emplace_back("B");
theDefs.order(theDefs.findAbsNode("/c").get(), NOrder::TOP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == expected,
"NOrder::TOP expected "
<< ecf::algorithm::join(expected) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec())));
// move suite 'c' back to the bottom
theDefs.order(theDefs.findAbsNode("/c").get(), NOrder::BOTTOM);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == alpha,
"NOrder::BOTTOM order not as expected");
// move suite 'a' up one place. Should be no change, since its already at the top
theDefs.order(theDefs.findAbsNode("/a").get(), NOrder::UP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == alpha,
"NOrder::UP order not as expected");
// move suite 'c' down one place. Should be no change, since its already at the bottom
theDefs.order(theDefs.findAbsNode("/c").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == alpha,
"NOrder::DOWN order not as expected");
// Move suite 'a' down by one place
expected.clear();
expected.emplace_back("A");
expected.emplace_back("a");
expected.emplace_back("b");
expected.emplace_back("B");
expected.emplace_back("c");
theDefs.order(theDefs.findAbsNode("/a").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == expected,
"NOrder::DOWN order not as expected");
// Move suite 'b' up by one place
expected.clear();
expected.emplace_back("A");
expected.emplace_back("b");
expected.emplace_back("a");
expected.emplace_back("B");
expected.emplace_back("c");
theDefs.order(theDefs.findAbsNode("/b").get(), NOrder::UP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(theDefs.suiteVec()) == expected,
"NOrder::UP order not as expected");
// Test family ordering ==========================================================================
// In init state all suite should be in alpha order
suite_ptr suite = theDefs.findSuite("a");
BOOST_REQUIRE_MESSAGE(suite.get(), "Expected suite /a to exist ");
theDefs.order(theDefs.findAbsNode("/a/a").get(), NOrder::ALPHA);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == alpha,
"NOrder::ALPHA Init order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// sort in reverse order
std::sort(expected.begin(), expected.end(), std::greater<std::string>());
suite->order(theDefs.findAbsNode("/a/a").get(), NOrder::ORDER);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == order,
"NOrder::ORDER order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(order));
// Change back to alpha, then move family 'e' to the top
suite->order(theDefs.findAbsNode("/a/a").get(), NOrder::ALPHA);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == alpha,
"NOrder::ALPHA expected "
<< ecf::algorithm::join(alpha) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec())));
test_invariants(theDefs, __LINE__);
expected.clear();
expected.emplace_back("c");
expected.emplace_back("a");
expected.emplace_back("A");
expected.emplace_back("b");
expected.emplace_back("B");
suite->order(theDefs.findAbsNode("/a/c").get(), NOrder::TOP);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == expected,
"NOrder::TOP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
// move family 'c' back to the bottom
suite->order(theDefs.findAbsNode("/a/c").get(), NOrder::BOTTOM);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == alpha,
"NOrder::BOTTOM order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// move family 'a' up one place. Should be no change, since its already at the top
suite->order(theDefs.findAbsNode("/a/a").get(), NOrder::UP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == alpha,
"NOrder::UP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// move family 'c' down one place. Should be no change, since its already at the bottom
suite->order(theDefs.findAbsNode("/a/c").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == alpha,
"NOrder::DOWN order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// Move family 'a' down by one place
expected.clear();
expected.emplace_back("A");
expected.emplace_back("a");
expected.emplace_back("b");
expected.emplace_back("B");
expected.emplace_back("c");
suite->order(theDefs.findAbsNode("/a/a").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == expected,
"NOrder::DOWN order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
// Move family 'b' up by one place
suite->order(theDefs.findAbsNode("/a/a").get(), NOrder::ALPHA); // reset
test_invariants(theDefs, __LINE__);
expected.clear();
expected.emplace_back("a");
expected.emplace_back("b");
expected.emplace_back("A");
expected.emplace_back("B");
expected.emplace_back("c");
suite->order(theDefs.findAbsNode("/a/b").get(), NOrder::UP);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(suite->nodeVec()) == expected,
"NOrder::UP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(suite->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
// Test Task ordering ==========================================================================
// In init state all tasks should be in alpha order
Family* family = theDefs.findAbsNode("/a/a")->isFamily();
BOOST_REQUIRE_MESSAGE(family, "Expected family /a/a to exist ");
family->order(theDefs.findAbsNode("/a/a/a").get(), NOrder::ALPHA);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == alpha,
"NOrder::ALPHA Init state "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// sort in reverse order
family->order(theDefs.findAbsNode("/a/a/a").get(), NOrder::ORDER);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == order,
"NOrder::ORDER "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(order));
// Change back to alpha, then move task 'c' to the top
family->order(theDefs.findAbsNode("/a/a/a").get(), NOrder::ALPHA); // reset
expected.clear();
expected.emplace_back("c");
expected.emplace_back("a");
expected.emplace_back("A");
expected.emplace_back("b");
expected.emplace_back("B");
family->order(theDefs.findAbsNode("/a/a/c").get(), NOrder::TOP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == expected,
"NOrder::TOP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
// move task 'c' back to the bottom
family->order(theDefs.findAbsNode("/a/a/c").get(), NOrder::BOTTOM);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == alpha,
"NOrder::BOTTOM order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// move task 'a' up one place. Should be no change, since its already at the top
family->order(theDefs.findAbsNode("/a/a/a").get(), NOrder::UP);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == alpha,
"NOrder::UP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// move task 'e' down one place. Should be no change, since its already at the bottom
family->order(theDefs.findAbsNode("/a/a/c").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == alpha,
"NOrder::DOWN order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(alpha));
// Move task 'a' down by one place
expected.clear();
expected.emplace_back("A");
expected.emplace_back("a");
expected.emplace_back("b");
expected.emplace_back("B");
expected.emplace_back("c");
family->order(theDefs.findAbsNode("/a/a/a").get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == expected,
"NOrder::DOWN order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
// Move task 'b' up by one place
family->order(theDefs.findAbsNode("/a/a/b").get(), NOrder::DOWN);
expected.clear();
expected.emplace_back("A");
expected.emplace_back("a");
expected.emplace_back("B");
expected.emplace_back("b");
expected.emplace_back("c");
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(family->nodeVec()) == expected,
"NOrder::UP order "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(family->nodeVec()))
<< " not as expected " << ecf::algorithm::join(expected));
}
BOOST_AUTO_TEST_CASE(test_alias_order) {
ECF_NAME_THIS_TEST();
task_ptr task;
Defs theDefs;
{
suite_ptr s = theDefs.add_suite("s");
task = s->add_task("t");
task->add_alias_only(); // alias0
task->add_alias_only(); // alias1
task->add_alias_only(); // alias2
task->add_alias_only(); // alias3
}
// Test alias ordering ==========================================================================
// In init state all suite should be in alpha order
alias_ptr alias0 = task->find_alias("alias0");
BOOST_REQUIRE_MESSAGE(alias0, "expected to find alias0");
std::vector<std::string> expected;
expected.emplace_back("alias1");
expected.emplace_back("alias0");
expected.emplace_back("alias2");
expected.emplace_back("alias3");
task->order(alias0.get(), NOrder::DOWN);
test_invariants(theDefs, __LINE__);
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(task->aliases()) == expected,
"NOrder::DOWN expected "
<< ecf::algorithm::join(expected) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(task->aliases())));
task->order(alias0.get(), NOrder::ALPHA);
test_invariants(theDefs, __LINE__);
expected.clear();
expected.emplace_back("alias0");
expected.emplace_back("alias1");
expected.emplace_back("alias2");
expected.emplace_back("alias3");
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(task->aliases()) == expected,
"NOrder::ALPHA expectex "
<< ecf::algorithm::join(expected) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(task->aliases())));
task->order(task->find_alias("alias3").get(), NOrder::UP);
test_invariants(theDefs, __LINE__);
expected.clear();
expected.emplace_back("alias0");
expected.emplace_back("alias1");
expected.emplace_back("alias3");
expected.emplace_back("alias2");
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(task->aliases()) == expected,
"NOrder::UP expected "
<< ecf::algorithm::join(expected) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(task->aliases())));
// sort in reverse order
std::sort(expected.begin(), expected.end(), std::greater<std::string>());
task->order(alias0.get(), NOrder::ORDER);
test_invariants(theDefs, __LINE__);
expected.clear();
expected.emplace_back("alias3");
expected.emplace_back("alias2");
expected.emplace_back("alias1");
expected.emplace_back("alias0");
BOOST_REQUIRE_MESSAGE(ecf::algorithm::transform_to_name_vector(task->aliases()) == expected,
"NOrder::ORDER expected "
<< ecf::algorithm::join(expected) << " but found "
<< ecf::algorithm::join(ecf::algorithm::transform_to_name_vector(task->aliases())));
}
BOOST_AUTO_TEST_CASE(test_order_by_runtime) {
ECF_NAME_THIS_TEST();
Defs defs;
{
std::vector<std::string> vec{"3", "2", "1"};
for (const auto& str0 : vec) {
suite_ptr s = defs.add_suite("s" + str0);
for (const auto& str : vec) {
family_ptr f1 = s->add_family("f" + str);
for (const auto& str2 : vec) {
f1->add_task("t" + str2);
}
}
}
}
Defs expectedDefs;
{
std::vector<std::string> vec{"1", "2", "3"};
for (const auto& str0 : vec) {
suite_ptr s = expectedDefs.add_suite("s" + str0);
for (const auto& str : vec) {
family_ptr f1 = s->add_family("f" + str);
for (const auto& str2 : vec) {
f1->add_task("t" + str2);
}
}
}
}
// std::cout << defs;
defs.beginAll();
expectedDefs.beginAll();
CalendarUpdateParams calUpdateParams(boost::posix_time::hours(1));
Jobs jobs(&defs);
JobsParam jobsParam;
jobs.generate(jobsParam);
for (Submittable* s : jobsParam.submitted()) {
defs.updateCalendar(calUpdateParams);
s->set_state(NState::ACTIVE);
defs.updateCalendar(calUpdateParams);
if (s->name() == "t2" || s->name() == "t1") {
defs.updateCalendar(calUpdateParams);
}
if (s->name() == "t1") {
defs.updateCalendar(calUpdateParams);
}
s->set_state(NState::COMPLETE);
}
// PrintStyle style(PrintStyle::MIGRATE);
// std::cout << defs;
defs.order(nullptr, NOrder::RUNTIME); // moot when you only have one suite
for (auto suite : defs.suiteVec()) {
suite->order(nullptr, NOrder::RUNTIME);
for (auto family : suite->familyVec()) {
family->order(nullptr, NOrder::RUNTIME);
}
}
// std::cout << defs;
defs.requeue();
expectedDefs.requeue();
BOOST_CHECK_MESSAGE(defs == expectedDefs, "Defs are not the same");
}
BOOST_AUTO_TEST_SUITE_END()
BOOST_AUTO_TEST_SUITE_END()
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