/usr/include/wibble/commandline/engine.test.h is in libwibble-dev 0.1.28-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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(c) 2007 Enrico Zini <enrico@enricozini.org> */
#include <wibble/commandline/engine.h>
#include <wibble/test.h>
#include <string>
using namespace wibble::commandline;
using namespace std;
// Happy trick to get access to protected methods we need to use for the tests
template<typename T>
class Public : public T
{
public:
Public(MemoryManager* mman = 0, const std::string& name = std::string(),
const std::string& usage = std::string(),
const std::string& description = std::string(),
const std::string& longDescription = std::string())
: T(mman, name, usage, description, longDescription) {}
ArgList::iterator parseList(ArgList& list) { return T::parseList(list); }
ArgList::iterator parse(ArgList& list, ArgList::iterator begin)
{
return T::parse(list, begin);
}
};
class Engine1 : public Public<Engine>
{
MemoryManager mman;
public:
Engine1() : Public<Engine>(&mman)
{
antani = add<BoolOption>("antani", 'a', "antani");
blinda = add<StringOption>("blinda", 'b', "blinda");
antani->addAlias("an-tani");
}
BoolOption* antani;
StringOption* blinda;
};
class Engine2 : public Public<Engine>
{
MemoryManager mman;
public:
Engine2() : Public<Engine>(&mman)
{
help = add<BoolOption>("help", 'h', "help", "get help");
scramble = addEngine("scramble");
scramble_random = scramble->add<BoolOption>("random", 'r', "random");
scramble_yell = scramble->add<StringOption>("yell", 0, "yell");
scramble->aliases.push_back("mess");
fix = addEngine("fix");
fix_quick = fix->add<BoolOption>("quick", 'Q', "quick");
fix_yell = fix->add<StringOption>("yell", 0, "yell");
}
BoolOption* help;
Engine* scramble;
BoolOption* scramble_random;
StringOption* scramble_yell;
Engine* fix;
BoolOption* fix_quick;
StringOption* fix_yell;
};
struct TestCommandlineEngine {
Test optsAndArgs() {
ArgList opts;
opts.push_back("ciaps");
opts.push_back("-b");
opts.push_back("cippo");
opts.push_back("foobar");
Engine1 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.begin());
assert_eq(opts.size(), 2u);
assert_eq(string(*opts.begin()), string("ciaps"));
assert_eq(string(*opts.rbegin()), string("foobar"));
assert_eq(engine.antani->boolValue(), false);
assert_eq(engine.blinda->stringValue(), "cippo");
}
Test noSwitchesAfterFirstArg() {
ArgList opts;
opts.push_back("-b");
opts.push_back("cippo");
opts.push_back("foobar");
opts.push_back("--cabal");
Engine1 engine;
engine.no_switches_after_first_arg = true;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.begin());
assert_eq(opts.size(), 2u);
assert_eq(string(*opts.begin()), string("foobar"));
assert_eq(string(*opts.rbegin()), string("--cabal"));
assert_eq(engine.antani->boolValue(), false);
assert_eq(engine.blinda->stringValue(), "cippo");
}
Test optsOnly() {
ArgList opts;
opts.push_back("-a");
opts.push_back("foobar");
Engine1 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.begin());
assert_eq(opts.size(), 1u);
assert_eq(string(*opts.begin()), string("foobar"));
assert_eq(engine.antani->boolValue(), true);
assert_eq(engine.blinda->boolValue(), false);
}
Test clusteredShortOpts() {
ArgList opts;
opts.push_back("-ab");
opts.push_back("cippo");
Engine1 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.end());
assert_eq(opts.size(), 0u);
assert_eq(engine.antani->boolValue(), true);
assert_eq(engine.blinda->stringValue(), "cippo");
}
Test longOptsWithDashes() {
ArgList opts;
opts.push_back("--an-tani");
opts.push_back("foobar");
Engine1 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.begin());
assert_eq(opts.size(), 1u);
assert_eq(string(*opts.begin()), string("foobar"));
assert_eq(engine.antani->boolValue(), true);
assert_eq(engine.blinda->boolValue(), false);
}
// Test long options with arguments
Test longOptsWithArgs() {
ArgList opts;
opts.push_back("--blinda=cippo");
opts.push_back("foobar");
opts.push_back("--antani");
Engine1 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.begin());
assert_eq(opts.size(), 1u);
assert_eq(string(*opts.begin()), string("foobar"));
assert_eq(engine.antani->boolValue(), true);
assert_eq(engine.blinda->stringValue(), "cippo");
}
Test commandWithArg() {
ArgList opts;
opts.push_back("--yell=foo");
opts.push_back("mess");
opts.push_back("-r");
Engine2 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.end());
assert_eq(opts.size(), 0u);
assert_eq(engine.foundCommand(), engine.scramble);
assert_eq(engine.scramble_yell->stringValue(), "foo");
assert_eq(engine.scramble_random->boolValue(), true);
assert_eq(engine.fix_yell->stringValue(), string());
assert_eq(engine.fix_quick->boolValue(), false);
assert_eq(engine.help->boolValue(), false);
}
// Test the other command, with overlapping arguments
Test commandsWithOverlappingArgs() {
ArgList opts;
opts.push_back("--yell=foo");
opts.push_back("fix");
opts.push_back("--help");
opts.push_back("-Q");
Engine2 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.end());
assert_eq(opts.size(), 0u);
assert_eq(engine.foundCommand(), engine.fix);
assert_eq(engine.scramble_yell->stringValue(), string());
assert_eq(engine.scramble_random->boolValue(), false);
assert_eq(engine.fix_yell->stringValue(), "foo");
assert_eq(engine.fix_quick->boolValue(), true);
assert_eq(engine.help->boolValue(), true);
}
// Test invocation without command
Test commandsWithoutCommand() {
ArgList opts;
opts.push_back("--help");
Engine2 engine;
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.end());
assert_eq(opts.size(), 0u);
assert_eq(engine.foundCommand(), (Engine*)0);
assert_eq(engine.scramble_yell->stringValue(), string());
assert_eq(engine.scramble_random->boolValue(), false);
assert_eq(engine.fix_yell->stringValue(), string());
assert_eq(engine.fix_quick->boolValue(), false);
assert_eq(engine.help->boolValue(), true);
}
// Test creation shortcuts
Test creationShortcuts() {
MemoryManager mman;
Public<Engine> engine(&mman, "test", "[options]", "test engine", "this is the long description of a test engine");
OptionGroup* group = engine.addGroup("test option group");
BoolOption* testBool = group->add<BoolOption>("tbool", 0, "testbool", "<val>", "a test bool switch");
IntOption* testInt = group->add<IntOption>("tint", 0, "testint", "<val>", "a test int switch");
StringOption* testString = group->add<StringOption>("tstring", 0, "teststring", "<val>", "a test string switch");
BoolOption* testBool1 = engine.add<BoolOption>("tbool", 0, "testbool1", "<val>", "a test bool switch");
IntOption* testInt1 = engine.add<IntOption>("tint", 0, "testint1", "<val>", "a test int switch");
StringOption* testString1 = engine.add<StringOption>("tstring", 0, "teststring1", "<val>", "a test string switch");
ArgList opts;
opts.push_back("--testbool=true");
opts.push_back("--testint=3");
opts.push_back("--teststring=antani");
opts.push_back("--testbool1=true");
opts.push_back("--testint1=5");
opts.push_back("--teststring1=blinda");
ArgList::iterator i = engine.parseList(opts);
assert(i == opts.end());
assert_eq(opts.size(), 0u);
assert_eq(testBool->boolValue(), true);
assert_eq(testInt->intValue(), 3);
assert_eq(testString->stringValue(), "antani");
assert_eq(testBool1->boolValue(), true);
assert_eq(testInt1->intValue(), 5);
assert_eq(testString1->stringValue(), "blinda");
}
};
// vim:set ts=4 sw=4:
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