cpp-utilities/tests/argumentparsertests.cpp

#include "./outputcheck.h"
#include "./testutils.h"

#include "../conversion/stringbuilder.h"

#include "../application/argumentparser.h"
#include "../application/argumentparserprivate.h"
#include "../application/commandlineutils.h"
#include "../application/failure.h"
#include "../application/fakeqtconfigarguments.h"

#include "../io/ansiescapecodes.h"
#include "../io/path.h"

#include "resources/config.h"

#include <cppunit/TestFixture.h>
#include <cppunit/extensions/HelperMacros.h>

#include <cstdlib>
#include <cstring>

using namespace std;
using namespace ApplicationUtilities;
using namespace ConversionUtilities;
using namespace TestUtilities;
using namespace TestUtilities::Literals;

using namespace CPPUNIT_NS;

/*!
 * \brief The ArgumentParserTests class tests the ArgumentParser and Argument classes.
 */
class ArgumentParserTests : public TestFixture {
    CPPUNIT_TEST_SUITE(ArgumentParserTests);
    CPPUNIT_TEST(testArgument);
    CPPUNIT_TEST(testParsing);
    CPPUNIT_TEST(testCallbacks);
    CPPUNIT_TEST(testBashCompletion);
    CPPUNIT_TEST(testHelp);
    CPPUNIT_TEST(testSetMainArguments);
    CPPUNIT_TEST_SUITE_END();

public:
    void setUp();
    void tearDown();

    void testArgument();
    void testParsing();
    void testCallbacks();
    void testBashCompletion();
    void testHelp();
    void testSetMainArguments();

private:
    void callback();
};

CPPUNIT_TEST_SUITE_REGISTRATION(ArgumentParserTests);

void ArgumentParserTests::setUp()
{
}

void ArgumentParserTests::tearDown()
{
}

/*!
 * \brief Tests the behaviour of the argument class.
 */
void ArgumentParserTests::testArgument()
{
    Argument argument("test", 't', "some description");
    CPPUNIT_ASSERT_EQUAL(argument.isRequired(), false);
    argument.setConstraints(1, 10);
    CPPUNIT_ASSERT_EQUAL(argument.isRequired(), true);
    Argument subArg("sub", 's', "sub arg");
    argument.addSubArgument(&subArg);
    CPPUNIT_ASSERT_EQUAL(subArg.parents().at(0), &argument);
    CPPUNIT_ASSERT(!subArg.conflictsWithArgument());
    CPPUNIT_ASSERT(!argument.firstValue());
    argument.setEnvironmentVariable("FOO_ENV_VAR");
    setenv("FOO_ENV_VAR", "foo", true);
    CPPUNIT_ASSERT(!strcmp(argument.firstValue(), "foo"));
    ArgumentOccurrence occurrence(0, vector<Argument *>(), nullptr);
    occurrence.values.emplace_back("bar");
    argument.m_occurrences.emplace_back(move(occurrence));
    CPPUNIT_ASSERT(!strcmp(argument.firstValue(), "bar"));
}

/*!
 * \brief Tests parsing command line arguments.
 */
void ArgumentParserTests::testParsing()
{
    // setup parser with some test argument definitions
    ArgumentParser parser;
    SET_APPLICATION_INFO;
    QT_CONFIG_ARGUMENTS qtConfigArgs;
    HelpArgument helpArg(parser);
    Argument verboseArg("verbose", 'v', "be verbose");
    verboseArg.setCombinable(true);
    Argument fileArg("file", 'f', "specifies the path of the file to be opened");
    fileArg.setValueNames({ "path" });
    fileArg.setRequiredValueCount(1);
    fileArg.setEnvironmentVariable("PATH");
    Argument filesArg("files", 'f', "specifies the path of the file(s) to be opened");
    filesArg.setValueNames({ "path 1", "path 2" });
    filesArg.setRequiredValueCount(Argument::varValueCount);
    Argument outputFileArg("output-file", 'o', "specifies the path of the output file");
    outputFileArg.setValueNames({ "path" });
    outputFileArg.setRequiredValueCount(1);
    outputFileArg.setRequired(true);
    outputFileArg.setCombinable(true);
    Argument printFieldNamesArg("print-field-names", '\0', "prints available field names");
    Argument displayFileInfoArg("display-file-info", 'i', "displays general file information");
    Argument notAlbumArg("album", 'a', "should not be confused with album value");
    displayFileInfoArg.setDenotesOperation(true);
    displayFileInfoArg.setSubArguments({ &fileArg, &verboseArg, &notAlbumArg });
    Argument fieldsArg("fields", '\0', "specifies the fields");
    fieldsArg.setRequiredValueCount(Argument::varValueCount);
    fieldsArg.setValueNames({ "title", "album", "artist", "trackpos" });
    fieldsArg.setImplicit(true);
    Argument displayTagInfoArg("get", 'p', "displays the values of all specified tag fields (displays all fields if none specified)");
    displayTagInfoArg.setDenotesOperation(true);
    displayTagInfoArg.setSubArguments({ &fieldsArg, &filesArg, &verboseArg, &notAlbumArg });
    NoColorArgument noColorArg;
    parser.setMainArguments({ &qtConfigArgs.qtWidgetsGuiArg(), &printFieldNamesArg, &displayTagInfoArg, &displayFileInfoArg, &helpArg, &noColorArg });

    // error about uncombinable arguments
    const char *argv[] = { "tageditor", "get", "album", "title", "diskpos", "-f", "somefile" };
    // try to parse, this should fail
    try {
        parser.parseArgs(7, argv);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!strcmp(e.what(), "The argument \"files\" can not be combined with \"fields\"."));
    }

    // arguments read correctly after successful parse
    filesArg.setCombinable(true);
    parser.resetArgs();
    parser.parseArgs(7, argv);
    // check results
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(parser.executable(), "tageditor"));
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(fieldsArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(0), "album"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(1), "title"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(2), "diskpos"));
    CPPUNIT_ASSERT_THROW(displayTagInfoArg.values().at(3), out_of_range);

    // skip empty args
    const char *argv2[] = { "tageditor", "", "-p", "album", "title", "diskpos", "", "--files", "somefile" };
    // reparse the args
    parser.resetArgs();
    parser.parseArgs(9, argv2);
    // check results again
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(fieldsArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(0), "album"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(1), "title"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(2), "diskpos"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(3), ""));
    CPPUNIT_ASSERT_THROW(fieldsArg.values().at(4), out_of_range);
    CPPUNIT_ASSERT(filesArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(filesArg.values().at(0), "somefile"));

    // error about unknown argument: forget get/-p
    const char *argv3[] = { "tageditor", "album", "title", "diskpos", "--files", "somefile" };
    try {
        parser.resetArgs();
        parser.parseArgs(6, argv3);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT_EQUAL("The specified argument \"album\" is unknown."s, string(e.what()));
    }

    // warning about unknown argument
    parser.setUnknownArgumentBehavior(UnknownArgumentBehavior::Warn);
    // redirect stderr to check whether warnings are printed correctly
    stringstream buffer;
    streambuf *regularCerrBuffer = cerr.rdbuf(buffer.rdbuf());
    parser.resetArgs();
    EscapeCodes::enabled = false;
    try {
        parser.parseArgs(6, argv3);
    } catch (...) {
        cerr.rdbuf(regularCerrBuffer);
        throw;
    }
    cerr.rdbuf(regularCerrBuffer);
    CPPUNIT_ASSERT_EQUAL("Warning: The specified argument \"album\" is unknown and will be ignored.\n"s
                         "Warning: The specified argument \"title\" is unknown and will be ignored.\n"s
                         "Warning: The specified argument \"diskpos\" is unknown and will be ignored.\n"s
                         "Warning: The specified argument \"--files\" is unknown and will be ignored.\n"s
                         "Warning: The specified argument \"somefile\" is unknown and will be ignored.\n"s,
        buffer.str());
    // none of the arguments should be present now
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(!fieldsArg.isPresent());
    CPPUNIT_ASSERT(!filesArg.isPresent());

    // combined abbreviations like "-vf"
    const char *argv4[] = { "tageditor", "-i", "-vf", "test" };
    parser.setUnknownArgumentBehavior(UnknownArgumentBehavior::Fail);
    parser.resetArgs();
    parser.parseArgs(4, argv4);
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(verboseArg.isPresent());
    CPPUNIT_ASSERT(!displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(fileArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fileArg.values().at(0), "test"));
    CPPUNIT_ASSERT_THROW(fileArg.values().at(1), out_of_range);

    // constraint checking: no multiple occurrences (not resetting verboseArg on purpose)
    displayFileInfoArg.reset(), fileArg.reset();
    try {
        parser.parseArgs(4, argv4);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
        CPPUNIT_ASSERT(!strcmp(e.what(), "The argument \"verbose\" mustn't be specified more than 1 time."));
    }

    // constraint checking: no contraint (not resetting verboseArg on purpose)
    displayFileInfoArg.reset(), fileArg.reset();
    verboseArg.setConstraints(0, Argument::varValueCount);
    parser.parseArgs(4, argv4);
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());

    // constraint checking: mandatory argument
    verboseArg.setRequired(true);
    parser.resetArgs();
    parser.parseArgs(4, argv4);
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());

    // contraint checking: error about missing mandatory argument
    const char *argv5[] = { "tageditor", "-i", "-f", "test" };
    displayFileInfoArg.reset(), fileArg.reset(), verboseArg.reset();
    try {
        parser.parseArgs(4, argv5);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
        CPPUNIT_ASSERT(!strcmp(e.what(), "The argument \"verbose\" must be specified at least 1 time."));
    }
    verboseArg.setRequired(false);

    // combined abbreviation with nesting "-pf"
    const char *argv10[] = { "tageditor", "-pf", "test" };
    parser.resetArgs();
    parser.parseArgs(3, argv10);
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!fileArg.isPresent());
    CPPUNIT_ASSERT(filesArg.isPresent());
    CPPUNIT_ASSERT_EQUAL(1_st, filesArg.values(0).size());
    CPPUNIT_ASSERT(!strcmp(filesArg.values(0).front(), "test"));
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());

    // constraint checking: no complains about missing -i
    const char *argv6[] = { "tageditor", "-g" };
    parser.resetArgs();
    parser.parseArgs(2, argv6);
    CPPUNIT_ASSERT(qtConfigArgs.qtWidgetsGuiArg().isPresent());

    // constraint checking: dependend arguments (-f requires -i or -p)
    const char *argv7[] = { "tageditor", "-f", "test" };
    parser.resetArgs();
    try {
        parser.parseArgs(3, argv7);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
        CPPUNIT_ASSERT_EQUAL("The specified argument \"-f\" is unknown."s, string(e.what()));
    }

    // equation sign syntax
    const char *argv11[] = { "tageditor", "-if=test-v" };
    parser.resetArgs();
    parser.parseArgs(2, argv11);
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(fileArg.isPresent());
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT_EQUAL(1_st, fileArg.values(0).size());
    CPPUNIT_ASSERT_EQUAL("test-v"s, string(fileArg.values(0).front()));
    const char *argv15[] = { "tageditor", "-i", "--file=test", "-v" };
    parser.resetArgs();
    parser.parseArgs(4, argv15);
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(fileArg.isPresent());
    CPPUNIT_ASSERT(verboseArg.isPresent());
    CPPUNIT_ASSERT_EQUAL(1_st, fileArg.values(0).size());
    CPPUNIT_ASSERT_EQUAL("test"s, string(fileArg.values(0).front()));

    // specifying value directly after abbreviation
    const char *argv12[] = { "tageditor", "-iftest" };
    parser.resetArgs();
    parser.parseArgs(2, argv12);
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(fileArg.isPresent());
    CPPUNIT_ASSERT_EQUAL(1_st, fileArg.values(0).size());
    CPPUNIT_ASSERT(!strcmp(fileArg.values(0).front(), "test"));

    // specifying top-level argument after abbreviation
    const char *argv17[] = { "tageditor", "-if=test-v", "--no-color" };
    parser.resetArgs();
    parser.parseArgs(3, argv17);
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(fileArg.isPresent());
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT(noColorArg.isPresent());
    CPPUNIT_ASSERT_EQUAL(1_st, fileArg.values(0).size());
    CPPUNIT_ASSERT_EQUAL("test-v"s, string(fileArg.values(0).front()));

    // default argument
    const char *argv8[] = { "tageditor" };
    parser.resetArgs();
    parser.parseArgs(1, argv8);
    CPPUNIT_ASSERT(qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT(!displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(!filesArg.isPresent());
    CPPUNIT_ASSERT(!fileArg.isPresent());
    if (getenv("PATH")) {
        CPPUNIT_ASSERT(fileArg.firstValue());
        CPPUNIT_ASSERT(!strcmp(fileArg.firstValue(), getenv("PATH")));
    } else {
        CPPUNIT_ASSERT(!fileArg.firstValue());
    }

    // constraint checking: required value count with sufficient number of provided parameters
    const char *argv13[] = { "tageditor", "get", "--fields", "album=test", "title", "diskpos", "--files", "somefile" };
    verboseArg.setRequired(false);
    parser.resetArgs();
    parser.parseArgs(8, argv13);
    // this should still work without complaints
    CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
    CPPUNIT_ASSERT(!displayFileInfoArg.isPresent());
    CPPUNIT_ASSERT(!verboseArg.isPresent());
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(fieldsArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(0), "album=test"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(1), "title"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(2), "diskpos"));
    CPPUNIT_ASSERT_THROW(fieldsArg.values().at(3), out_of_range);
    CPPUNIT_ASSERT(filesArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(filesArg.values().at(0), "somefile"));
    CPPUNIT_ASSERT(!notAlbumArg.isPresent());

    // constraint checking: required value count with insufficient number of provided parameters
    const char *argv9[] = { "tageditor", "-p", "album", "title", "diskpos" };
    fieldsArg.setRequiredValueCount(4);
    parser.resetArgs();
    try {
        parser.parseArgs(5, argv9);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
        CPPUNIT_ASSERT_EQUAL(
            "Not all parameter for argument \"fields\" provided. You have to provide the following parameter: title album artist trackpos"s,
            string(e.what()));
    }

    // constraint checking: truncated argument not wrongly detected
    const char *argv16[] = { "tageditor", "--hel", "-p", "album", "title", "diskpos" };
    fieldsArg.setRequiredValueCount(Argument::varValueCount);
    parser.resetArgs();
    try {
        parser.parseArgs(6, argv16);
        CPPUNIT_FAIL("Exception expected.");
    } catch (const Failure &e) {
        CPPUNIT_ASSERT(!qtConfigArgs.qtWidgetsGuiArg().isPresent());
        CPPUNIT_ASSERT_EQUAL("The specified argument \"--hel\" is unknown."s, string(e.what()));
    }

    // nested operations
    const char *argv14[] = { "tageditor", "get", "fields", "album=test", "-f", "somefile" };
    parser.resetArgs();
    fieldsArg.setDenotesOperation(true);
    parser.parseArgs(6, argv14);
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(fieldsArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(0), "album=test"));

    // implicit flag still works when argument doesn't denote operation
    parser.resetArgs();
    fieldsArg.setDenotesOperation(false);
    parser.parseArgs(6, argv14);
    CPPUNIT_ASSERT(displayTagInfoArg.isPresent());
    CPPUNIT_ASSERT(fieldsArg.isPresent());
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(0), "fields"));
    CPPUNIT_ASSERT(!strcmp(fieldsArg.values().at(1), "album=test"));
}

/*!
 * \brief Tests whether callbacks are called correctly.
 */
void ArgumentParserTests::testCallbacks()
{
    ArgumentParser parser;
    Argument callbackArg("with-callback", 't', "callback test");
    callbackArg.setRequiredValueCount(2);
    callbackArg.setCallback([](const ArgumentOccurrence &occurrence) {
        CPPUNIT_ASSERT_EQUAL(0_st, occurrence.index);
        CPPUNIT_ASSERT(occurrence.path.empty());
        CPPUNIT_ASSERT_EQUAL(2_st, occurrence.values.size());
        CPPUNIT_ASSERT(!strcmp(occurrence.values[0], "val1"));
        CPPUNIT_ASSERT(!strcmp(occurrence.values[1], "val2"));
        throw 42;
    });
    Argument noCallbackArg("no-callback", 'l', "callback test");
    noCallbackArg.setRequiredValueCount(2);
    parser.setMainArguments({ &callbackArg, &noCallbackArg });

    // test whether callback is invoked when argument with callback is specified
    const char *argv[] = { "test", "-t", "val1", "val2" };
    try {
        parser.parseArgs(4, argv);
    } catch (int i) {
        CPPUNIT_ASSERT_EQUAL(i, 42);
    }

    // test whether callback is not invoked when argument with callback is not specified
    callbackArg.reset();
    const char *argv2[] = { "test", "-l", "val1", "val2" };
    parser.parseArgs(4, argv2);
}

/*!
 * \brief Used to check whether the exit() function is called when printing bash completion.
 */
static bool exitCalled = false;

/*!
 * \brief Tests bash completion.
 * \remarks This tests makes assumptions about the order and the exact output format.
 */
void ArgumentParserTests::testBashCompletion()
{
    ArgumentParser parser;
    HelpArgument helpArg(parser);
    Argument verboseArg("verbose", 'v', "be verbose");
    verboseArg.setCombinable(true);
    Argument filesArg("files", 'f', "specifies the path of the file(s) to be opened");
    filesArg.setRequiredValueCount(Argument::varValueCount);
    filesArg.setCombinable(true);
    Argument nestedSubArg("nested-sub", '\0', "nested sub arg");
    Argument subArg("sub", '\0', "sub arg");
    subArg.setSubArguments({ &nestedSubArg });
    Argument displayFileInfoArg("display-file-info", 'i', "displays general file information");
    displayFileInfoArg.setDenotesOperation(true);
    displayFileInfoArg.setSubArguments({ &filesArg, &verboseArg, &subArg });
    Argument fieldsArg("fields", '\0', "specifies the fields");
    fieldsArg.setRequiredValueCount(Argument::varValueCount);
    fieldsArg.setPreDefinedCompletionValues("title album artist trackpos");
    fieldsArg.setImplicit(true);
    Argument valuesArg("values", '\0', "specifies the fields");
    valuesArg.setRequiredValueCount(Argument::varValueCount);
    valuesArg.setPreDefinedCompletionValues("title album artist trackpos");
    valuesArg.setImplicit(false);
    valuesArg.setValueCompletionBehavior(ValueCompletionBehavior::PreDefinedValues | ValueCompletionBehavior::AppendEquationSign);
    Argument getArg("get", 'g', "gets tag values");
    getArg.setSubArguments({ &fieldsArg, &filesArg });
    Argument setArg("set", 's', "sets tag values");
    setArg.setSubArguments({ &valuesArg, &filesArg });

    parser.setMainArguments({ &helpArg, &displayFileInfoArg, &getArg, &setArg });

    // fail due to operation flags not set
    const char *const argv1[] = { "se" };
    ArgumentReader reader(parser, argv1, argv1 + 1, true);
    {
        const OutputCheck c("COMPREPLY=()\n");
        reader.read();
        parser.printBashCompletion(1, argv1, 0, reader);
    }

    // correct operation arg flags
    getArg.setDenotesOperation(true);
    setArg.setDenotesOperation(true);
    {
        const OutputCheck c("COMPREPLY=('set' )\n");
        reader.reset(argv1, argv1 + 1).read();
        parser.printBashCompletion(1, argv1, 0, reader);
    }

    // argument at current cursor position already specified -> the completion should just return the argument
    const char *const argv2[] = { "set" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('set' )\n");
        reader.reset(argv2, argv2 + 1).read();
        parser.printBashCompletion(1, argv2, 0, reader);
    }

    // advance the cursor position -> the completion should propose the next argument
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('--files' '--values' )\n");
        reader.reset(argv2, argv2 + 1).read();
        parser.printBashCompletion(1, argv2, 1, reader);
    }

    // nested operations should be proposed as operations
    parser.resetArgs();
    filesArg.setDenotesOperation(true);
    {
        const OutputCheck c("COMPREPLY=('files' '--values' )\n");
        reader.reset(argv2, argv2 + 1).read();
        parser.printBashCompletion(1, argv2, 1, reader);
    }

    // specifying no args should propose all main arguments
    parser.resetArgs();
    filesArg.setDenotesOperation(false);
    {
        const OutputCheck c("COMPREPLY=('display-file-info' 'get' 'set' '--help' )\n");
        reader.reset(nullptr, nullptr).read();
        parser.printBashCompletion(0, nullptr, 0, reader);
    }

    // pre-defined values
    const char *const argv3[] = { "get", "--fields" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('title' 'album' 'artist' 'trackpos' '--files' )\n");
        reader.reset(argv3, argv3 + 2).read();
        parser.printBashCompletion(2, argv3, 2, reader);
    }

    // pre-defined values with equation sign, one letter already present
    const char *const argv4[] = { "set", "--values", "a" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('album=' 'artist='  ); compopt -o nospace\n");
        reader.reset(argv4, argv4 + 3).read();
        parser.printBashCompletion(3, argv4, 2, reader);
    }

    // pre-defined values for implicit argument
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('title' 'album' 'artist' 'trackpos' '--fields' '--files' )\n");
        reader.reset(argv3, argv3 + 1).read();
        parser.printBashCompletion(1, argv3, 2, reader);
    }

    // file names
    string iniFilePath = TestUtilities::testFilePath("test.ini");
    iniFilePath.resize(iniFilePath.size() - 4);
    string mkvFilePath = TestUtilities::testFilePath("test 'with quote'.mkv");
    mkvFilePath.resize(mkvFilePath.size() - 17);
    parser.resetArgs();
    const char *const argv5[] = { "get", "--files", iniFilePath.c_str() };
    {
        // order for file names is not specified
        const OutputCheck c("COMPREPLY=('" % mkvFilePath % " '\"'\"'with quote'\"'\"'.mkv' '" % iniFilePath + ".ini' ); compopt -o filenames\n",
            "COMPREPLY=('" % iniFilePath % ".ini' '" % mkvFilePath + " '\"'\"'with quote'\"'\"'.mkv' ); compopt -o filenames\n");
        reader.reset(argv5, argv5 + 3).read();
        parser.printBashCompletion(3, argv5, 2, reader);
    }

    // sub arguments
    const char *const argv6[] = { "set", "--" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('--files' '--values' )\n");
        reader.reset(argv6, argv6 + 2).read();
        parser.printBashCompletion(2, argv6, 1, reader);
    }

    // nested sub arguments
    const char *const argv7[] = { "-i", "--sub", "--" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('--files' '--nested-sub' '--verbose' )\n");
        reader.reset(argv7, argv7 + 3).read();
        parser.printBashCompletion(3, argv7, 2, reader);
    }

    // started pre-defined values with equation sign, one letter already present, last value matches
    const char *const argv8[] = { "set", "--values", "t" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('title=' 'trackpos=' ); compopt -o nospace\n");
        reader.reset(argv8, argv8 + 3).read();
        parser.printBashCompletion(3, argv8, 2, reader);
    }

    // combined abbreviations
    const char *const argv9[] = { "-gf" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('-gf' )\n");
        reader.reset(argv9, argv9 + 1).read();
        parser.printBashCompletion(1, argv9, 0, reader);
    }
    parser.resetArgs();
    {
        const OutputCheck c([](const string &actualOutput) { CPPUNIT_ASSERT_EQUAL(0_st, actualOutput.find("COMPREPLY=('--fields' ")); });
        reader.reset(argv9, argv9 + 1).read();
        parser.printBashCompletion(1, argv9, 1, reader);
    }

    // override exit function to prevent readArgs() from terminating the test run
    exitFunction = [](int) { exitCalled = true; };

    // call completion via readArgs() with current word index
    const char *const argv10[] = { "/some/path/tageditor", "--bash-completion-for", "0" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('display-file-info' 'get' 'set' '--help' )\n");
        parser.readArgs(3, argv10);
    }
    CPPUNIT_ASSERT(!strcmp("/some/path/tageditor", parser.executable()));
    CPPUNIT_ASSERT(exitCalled);

    // call completion via readArgs() without current word index
    const char *const argv11[] = { "/some/path/tageditor", "--bash-completion-for", "ge" };
    parser.resetArgs();
    {
        const OutputCheck c("COMPREPLY=('get' )\n");
        parser.readArgs(3, argv11);
    }
}

/*!
 * \brief Tests --help output.
 */
void ArgumentParserTests::testHelp()
{
    // identation
    Indentation indent;
    indent = indent + 3;
    CPPUNIT_ASSERT_EQUAL(static_cast<unsigned char>(4 + 3), indent.level);

    // setup parser
    ArgumentParser parser;
    HelpArgument helpArg(parser);
    helpArg.setRequired(true);
    OperationArgument verboseArg("verbose", 'v', "be verbose", "actually not an operation");
    verboseArg.setCombinable(true);
    ConfigValueArgument nestedSubArg("nested-sub", '\0', "nested sub arg", { "value1", "value2" });
    nestedSubArg.setRequiredValueCount(Argument::varValueCount);
    Argument subArg("sub", '\0', "sub arg");
    subArg.setRequired(true);
    subArg.addSubArgument(&nestedSubArg);
    Argument filesArg("files", 'f', "specifies the path of the file(s) to be opened");
    filesArg.setCombinable(true);
    filesArg.addSubArgument(&subArg);
    filesArg.setSubArguments({ &subArg }); // test re-assignment btw
    Argument envArg("env", '\0', "env");
    envArg.setEnvironmentVariable("FILES");
    envArg.setRequiredValueCount(2);
    envArg.appendValueName("file");
    parser.addMainArgument(&helpArg);
    parser.addMainArgument(&verboseArg);
    parser.addMainArgument(&filesArg);
    parser.addMainArgument(&envArg);
    dependencyVersions = { "somelib", "some other lib" };

    // parse args and assert output
    const char *const argv[] = { "app", "-h" };
    {
        const OutputCheck c("\e[1m" APP_NAME ", version " APP_VERSION "\n"
                            "\e[0mLinked against: somelib, some other lib\n"
                            "\n\e[0m"
                            "Available arguments:\n"
                            "\e[1m--help, -h\e[0m\n"
                            "  shows this information\n"
                            "  particularities: mandatory\n"
                            "\n"
                            "\e[1mverbose, -v\e[0m\n"
                            "  be verbose\n"
                            "  example: actually not an operation\n"
                            "\n"
                            "\e[1m--files, -f\e[0m\n"
                            "  specifies the path of the file(s) to be opened\n"
                            "  \e[1m--sub\e[0m\n"
                            "    sub arg\n"
                            "    particularities: mandatory if parent argument is present\n"
                            "    \e[1m--nested-sub\e[0m [value1] [value2] ...\n"
                            "      nested sub arg\n"
                            "\n"
                            "\e[1m--env\e[0m [file] [value 2]\n"
                            "  env\n"
                            "  default environment variable: FILES\n"
                            "\n"
                            "Project website: " APP_URL "\n");
        EscapeCodes::enabled = true;
        parser.parseArgs(2, argv);
    }
}

/*!
 * \brief Tests some corner cases in setMainArguments() which are not already checked in the other tests.
 */
void ArgumentParserTests::testSetMainArguments()
{
    ArgumentParser parser;
    HelpArgument helpArg(parser);
    Argument subArg("sub-arg", 's', "mandatory sub arg");
    subArg.setRequired(true);
    helpArg.addSubArgument(&subArg);
    parser.addMainArgument(&helpArg);
    parser.setMainArguments({});
    CPPUNIT_ASSERT_MESSAGE("clear main args", parser.mainArguments().empty());
    parser.setMainArguments({ &helpArg });
    CPPUNIT_ASSERT_MESSAGE("no default due to required sub arg", !parser.defaultArgument());
    subArg.setConstraints(0, 20);
    parser.setMainArguments({ &helpArg });
    CPPUNIT_ASSERT_MESSAGE("default if no required sub arg", &helpArg == parser.defaultArgument());
}