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#include "catch.hpp"
#include "FWCore/Framework/src/ModuleHolderFactory.h"
#include "FWCore/Framework/interface/global/EDProducer.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/Framework/interface/PreallocationConfiguration.h"
#include "FWCore/Framework/interface/SignallingProductRegistryFiller.h"
#include "FWCore/PluginManager/interface/PluginManager.h"
#include "FWCore/PluginManager/interface/standard.h"
#include "TestTypeResolvers.h"
#include <iostream>
namespace edm::test {
class FactoryTestAProd : public edm::global::EDProducer<> {
public:
explicit FactoryTestAProd(edm::ParameterSet const&) { ++count_; }
void produce(StreamID, edm::Event&, edm::EventSetup const&) const final {}
static int count_;
};
int FactoryTestAProd::count_ = 0;
namespace cpu {
class FactoryTestAProd : public edm::global::EDProducer<> {
public:
explicit FactoryTestAProd(edm::ParameterSet const&) { ++count_; }
void produce(StreamID, edm::Event&, edm::EventSetup const&) const final {}
static int count_;
};
int FactoryTestAProd::count_ = 0;
} // namespace cpu
namespace other {
class FactoryTestAProd : public edm::global::EDProducer<> {
public:
explicit FactoryTestAProd(edm::ParameterSet const&) { ++count_; }
void produce(StreamID, edm::Event&, edm::EventSetup const&) const final {}
static int count_;
};
int FactoryTestAProd::count_ = 0;
} // namespace other
} // namespace edm::test
DEFINE_FWK_MODULE(edm::test::FactoryTestAProd);
namespace edm::test {
using FactoryTestBProd = FactoryTestAProd;
}
DEFINE_FWK_MODULE(edm::test::FactoryTestBProd);
DEFINE_FWK_MODULE(edm::test::cpu::FactoryTestAProd);
DEFINE_FWK_MODULE(edm::test::other::FactoryTestAProd);
namespace edm::test::cpu {
using FactoryTestCProd = FactoryTestAProd;
}
DEFINE_FWK_MODULE(edm::test::cpu::FactoryTestCProd);
static bool called = false;
using namespace edm;
TEST_CASE("test edm::Factory", "[Factory]") {
signalslot::Signal<void(const ModuleDescription&)> pre;
signalslot::Signal<void(const ModuleDescription&)> post;
SignallingProductRegistryFiller prodReg;
PreallocationConfiguration preallocConfig;
std::shared_ptr<ProcessConfiguration const> procConfig = std::make_shared<ProcessConfiguration>();
if (not called) {
edmplugin::PluginManager::configure(edmplugin::standard::config());
called = true;
}
SECTION("test missing plugin") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "DoesNotExistModule");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
CHECK_THROWS(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), nullptr, pre, post));
try {
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), nullptr, pre, post);
} catch (cms::Exception const& iE) {
REQUIRE(std::string(iE.what()).find("DoesNotExistModule") != std::string::npos);
}
}
SECTION("test missing plugin with simple resolver") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "DoesNotExistModule");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
edm::test::SimpleTestTypeResolverMaker resolver;
using Catch::Matchers::Contains;
CHECK_THROWS_WITH(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post),
Contains("DoesNotExistModule"));
}
SECTION("test missing plugin with complex resolver") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "generic::DoesNotExistModule");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
edm::test::ComplexTestTypeResolverMaker resolver;
using Catch::Matchers::Contains;
CHECK_THROWS_WITH(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post),
Contains("generic::DoesNotExistModule") && Contains("edm::test::other::DoesNotExistModule") &&
Contains("edm::test::cpu::DoesNotExistModule"));
}
SECTION("test missing plugin with configurable resolver") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "generic::DoesNotExistModule");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
SECTION("default behavior") {
edm::test::ConfigurableTestTypeResolverMaker resolver;
using Catch::Matchers::Contains;
CHECK_THROWS_WITH(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post),
Contains("generic::DoesNotExistModule") && Contains("edm::test::other::DoesNotExistModule") &&
Contains("edm::test::cpu::DoesNotExistModule"));
}
SECTION("set variant to other") {
pset.addUntrackedParameter<std::string>("variant", "other");
edm::test::ConfigurableTestTypeResolverMaker resolver;
using Catch::Matchers::Contains;
CHECK_THROWS_WITH(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post),
Contains("generic::DoesNotExistModule") && Contains("edm::test::other::DoesNotExistModule") &&
not Contains("edm::test::cpu::DoesNotExistModule"));
}
SECTION("set variant to cpu") {
pset.addUntrackedParameter<std::string>("variant", "cpu");
edm::test::ConfigurableTestTypeResolverMaker resolver;
using Catch::Matchers::Contains;
CHECK_THROWS_WITH(
factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post),
Contains("generic::DoesNotExistModule") && not Contains("edm::test::other::DoesNotExistModule") &&
Contains("edm::test::cpu::DoesNotExistModule"));
}
}
SECTION("test found plugin") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "edm::test::FactoryTestAProd");
pset.addParameter<std::string>("@module_label", "a");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
REQUIRE(edm::test::FactoryTestAProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), nullptr, pre, post));
REQUIRE(edm::test::FactoryTestAProd::count_ == 1);
edm::test::FactoryTestAProd::count_ = 0;
}
SECTION("test found plugin with simple resolver") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "edm::test::FactoryTestBProd");
pset.addParameter<std::string>("@module_label", "b");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
edm::test::SimpleTestTypeResolverMaker resolver;
REQUIRE(edm::test::FactoryTestBProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::FactoryTestBProd::count_ == 1);
edm::test::FactoryTestBProd::count_ = 0;
}
SECTION("test found plugin with complex resolver") {
SECTION("find other") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "generic::FactoryTestAProd");
pset.addParameter<std::string>("@module_label", "gen");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
edm::test::ComplexTestTypeResolverMaker resolver;
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 1);
edm::test::other::FactoryTestAProd::count_ = 0;
}
SECTION("find cpu") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "generic::FactoryTestCProd");
pset.addParameter<std::string>("@module_label", "cgen");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
edm::test::ComplexTestTypeResolverMaker resolver;
REQUIRE(edm::test::cpu::FactoryTestCProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::cpu::FactoryTestCProd::count_ == 1);
edm::test::cpu::FactoryTestCProd::count_ = 0;
}
}
SECTION("test found plugin with configurable resolver") {
auto factory = ModuleHolderFactory::get();
ParameterSet pset;
pset.addParameter<std::string>("@module_type", "generic::FactoryTestAProd");
pset.addParameter<std::string>("@module_label", "gen");
pset.addParameter<std::string>("@module_edm_type", "EDProducer");
SECTION("default behavior") {
edm::test::ConfigurableTestTypeResolverMaker resolver;
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 1);
edm::test::other::FactoryTestAProd::count_ = 0;
}
SECTION("set variant to cpu") {
pset.addUntrackedParameter<std::string>("variant", "cpu");
edm::test::ConfigurableTestTypeResolverMaker resolver;
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 1);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 0);
edm::test::cpu::FactoryTestAProd::count_ = 0;
}
SECTION("set variant to other") {
pset.addUntrackedParameter<std::string>("variant", "other");
edm::test::ConfigurableTestTypeResolverMaker resolver;
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 0);
REQUIRE(factory->makeModule(MakeModuleParams(&pset, prodReg, &preallocConfig, procConfig), &resolver, pre, post));
REQUIRE(edm::test::cpu::FactoryTestAProd::count_ == 0);
REQUIRE(edm::test::other::FactoryTestAProd::count_ == 1);
edm::test::other::FactoryTestAProd::count_ = 0;
}
}
}
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