int main (int argc, char** argv) { #if defined(HAVE_LIBLUA) UnitTest t (7); #else UnitTest t (6); #endif try { // Prime the pump. context.a3.capture ("task"); // TODO dom.get rc.name DOM dom; t.is (dom.get ("system.version"), VERSION, "DOM system.version -> VERSION"); #ifdef HAVE_LIBLUA t.is (dom.get ("system.lua.version"), LUA_RELEASE, "DOM system.lua.version -> LUA_RELEASE"); #endif t.ok (dom.get ("system.os") != "<unknown>", "DOM system.os -> != Unknown"); t.is (dom.get ("context.program"), "task", "DOM context.program -> 'task'"); t.is (dom.get ("context.args"), "task", "DOM context.args -> 'task'"); t.is (dom.get ("context.width"), "0", "DOM context.width -> '0'"); t.is (dom.get ("context.height"), "0", "DOM context.height -> '0'"); // TODO dom.set rc.name } catch (std::string& error) { t.diag (error); return -1; } catch (...) { t.diag ("Unknown error."); return -2; } return 0; }
int main (int argc, char** argv) { UnitTest t (11); // Ensure environment has no influence. unsetenv ("TASKDATA"); unsetenv ("TASKRC"); try { t.is (format ("pre {1} post", "mid"), "pre mid post", "format 1a"); t.is (format ("pre {1}{1} post", "mid"), "pre midmid post", "format 1b"); t.is (format ("pre {1} post", 0), "pre 0 post", "format 1c"); t.is (format ("pre {1}{1} post", 0), "pre 00 post", "format 1d"); t.is (format ("pre {1}{2} post", "one", "two"), "pre onetwo post", "format 2a"); t.is (format ("pre {2}{1} post", "one", "two"), "pre twoone post", "format 2b"); t.is (format ("pre {1}{2} post", "one", 2), "pre one2 post", "format 2c"); t.is (format ("pre {1}{2} post", 1, "two"), "pre 1two post", "format 2d"); t.is (format ("pre {1}{2} post", 1, 2), "pre 12 post", "format 2e"); t.is (format ("pre {1}{2}{3} post", "one", "two", "three"), "pre onetwothree post", "format 3a"); t.is (format ("pre {3}{1}{2} post", "one", "two", "three"), "pre threeonetwo post", "format 3b"); } catch (const std::string& error) { t.diag (error); return -1; } catch (...) { t.diag ("Unknown error."); return -2; } return 0; }
int main (int argc, char** argv) { #ifdef NIBBLER_FEATURE_DATE #ifdef NIBBLER_FEATURE_REGEX UnitTest t (410); #else UnitTest t (380); #endif #else #ifdef NIBBLER_FEATURE_REGEX UnitTest t (346); #else UnitTest t (322); #endif #endif // Ensure environment has no influence. unsetenv ("TASKDATA"); unsetenv ("TASKRC"); try { Nibbler n; std::string s; int i; double d; time_t ti; #ifdef NIBBLER_FEATURE_DATE Date dt; #endif std::vector <std::string> options; // Make sure the nibbler behaves itself with trivial input. t.diag ("Test all nibbler calls given empty input"); n = Nibbler (""); t.notok (n.getUntil (' ', s), "trivial: getUntil"); t.notok (n.getUntil ("hi", s), "trivial: getUntil"); t.notok (n.getUntilOneOf ("ab", s), "trivial: getUntilOneOf"); t.notok (n.skipN (123), "trivial: skipN"); t.notok (n.skip ('x'), "trivial: skip"); t.notok (n.skipAll ('x'), "trivial: skipAll"); t.notok (n.skipAllOneOf ("abc"), "trivial: skipAllOneOf"); t.notok (n.backN (1), "trivial: backN"); t.notok (n.getQuoted ('"', s), "trivial: getQuoted"); t.notok (n.getDigit (i), "trivial: getDigit"); t.notok (n.getInt (i), "trivial: getInt"); // 10 t.notok (n.getUnsignedInt (i), "trivial: getUnsignedInt"); t.notok (n.getUntilEOL (s), "trivial: getUntilEOL"); t.notok (n.getUntilEOS (s), "trivial: getUntilEOS"); t.notok (n.getDateISO (ti), "trivial: getDateISO"); #ifdef NIBBLER_FEATURE_DATE t.notok (n.getDate ("YYYYMMDD", ti), "trivial: getDate"); #endif t.notok (n.getOneOf (options, s), "trivial: getOneOf"); t.ok (n.depleted (), "trivial: depleted"); // bool getUntil (char, std::string&); t.diag ("Nibbler::getUntil"); n = Nibbler ("one two"); t.ok (n.getUntil (' ', s), " 'one two' : getUntil (' ') -> true"); t.is (s, "one", " 'one two' : getUntil (' ') -> 'one'"); // 20 t.ok (n.getUntil (' ', s), " ' two' : getUntil (' ') -> true"); t.is (s, "", " ' two' : getUntil (' ') -> ''"); t.ok (n.skip (' '), " ' two' : skip (' ') -> true"); t.ok (n.getUntil (' ', s), " 'two' : getUntil (' ') -> 'two'"); t.notok (n.getUntil (' ', s), " '' : getUntil (' ') -> false"); t.ok (n.depleted (), " '' : depleted () -> true"); #ifdef NIBBLER_FEATURE_REGEX // bool getUntilRx (const std::string&, std::string&); t.diag ("Nibbler::getUntilRx"); n = Nibbler ("one two"); t.ok (n.getUntilRx ("th", s), " 'one two' : getUntilRx ('th') -> true"); t.is (s, "one two", " 'one two' : getUntilRx ('th') -> 'one two'"); n = Nibbler ("one two"); t.ok (n.getUntilRx ("e", s), " 'one two' : getUntilRx ('e') -> true"); t.is (s, "on", " 'one two' : getUntilRx ('e') -> 'on'"); // 30 t.ok (n.getUntilRx ("tw", s), " 'e two' : getUntilRx ('tw') -> true"); t.is (s, "e ", " 'e two' : getUntilRx ('tw') -> 'e '"); t.ok (n.getUntilRx ("$", s), " 'two' : getUntilRx ('$') -> true"); t.is (s, "two", " 'two' : getUntilRx ('$') -> 'two'"); t.ok (n.depleted (), " '' : depleted () -> true"); #endif // bool getUntilOneOf (const std::string&, std::string&); t.diag ("Nibbler::getUntilOneOf"); n = Nibbler ("ab.cd"); t.ok (n.getUntilOneOf (".:", s), " 'ab.cd' : getUntilOneOf ('.:') -> true"); t.is (s, "ab", " 'ab.cd' : getUntilOneOf ('.:') -> 'ab'"); t.ok (n.skipN (), " '.cd' : skipN () -> true"); t.ok (n.getUntilOneOf (".:", s), " 'cd' : getUntilOneOf ('.:') -> true"); t.notok (n.getUntilOneOf (".:", s), " '' : getUntilOneOf ('.:') -> false"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getUntil (const std::string&, std::string&); t.diag ("Nibbler::getUntil"); n = Nibbler ("ab\r\ncd"); t.ok (n.getUntil ("\r\n", s), "'ab\\r\\ncd' : getUntil ('\\r\\n') -> true"); t.ok (n.skipN (2), " '\\r\\ncd' : skipN (2) -> true"); t.ok (n.getUntil ("\r\n", s), " 'cd' : getUntil ('\\r\\n') -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getUntilWS (std::string&); t.diag ("Nibbler::getUntilWS"); n = Nibbler ("ab \t\ncd"); t.ok (n.getUntilWS (s), " 'ab \\t\\ncd' : getUntilWS () -> true"); t.is (s, "ab", " 'ab \\t\\ncd' : getUntilWS () -> 'ab'"); t.ok (n.getUntilWS (s), " ' \\t\\ncd' : getUntilWS () -> true"); t.is (s, "", " ' \\t\\ncd' : getUntilWS () -> ''"); t.ok (n.skipWS (), " 'cd' : skipWS () -> true"); t.ok (n.getUntilWS (s), " '' : getUntilWS () -> true"); t.is (s, "cd", " 'cd' : getUntilWS () -> 'cd'"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool skipN (const int quantity = 1); t.diag ("Nibbler::skipN"); n = Nibbler ("abcde"); t.ok (n.skipN (), " 'abcde' : skipN () -> true"); t.ok (n.skipN (2), " 'bcde' : skipN (2 -> true"); t.notok (n.skipN (3), " 'de' : skipN (3 -> false"); t.notok (n.depleted (), " 'de' : depleted () -> true"); // bool skip (char); t.diag ("Nibbler::skip"); n = Nibbler (" a"); t.ok (n.skip (' '), " ' a' : skip (' ') -> true"); t.ok (n.skip (' '), " ' a' : skip (' ') -> true"); t.notok (n.skip (' '), " 'a' : skip (' ') -> false"); t.notok (n.depleted (), " 'a' : depleted () -> false"); t.ok (n.skip ('a'), " 'a' : skip ('a') -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool skipAll (char); t.diag ("Nibbler::skipAll"); n = Nibbler ("aaaabb"); t.ok (n.skipAll ('a'), " 'aaaabb' : skipAll ('a') -> true"); t.notok (n.skipAll ('a'), " 'bb' : skipAll ('a') -> false"); t.ok (n.skipAll ('b'), " 'bb' : skipAll ('b') -> true"); t.notok (n.skipAll ('b'), " '' : skipAll ('b') -> false"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool skipAllOneOf (const std::string&); t.diag ("Nibbler::skipAllOneOf"); n = Nibbler ("abababcc"); t.ok (n.skipAllOneOf ("ab"), "'abababcc' : skipAllOneOf ('ab') -> true"); t.notok (n.skipAllOneOf ("ab"), " 'cc' : skipAllOneOf ('ab') -> false"); t.ok (n.skipAllOneOf ("c"), " 'cc' : skipAllOneOf ('ab') -> false"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool skipWS (); t.diag ("Nibbler::skipWS"); n = Nibbler (" \tfoo"); t.ok (n.skipWS (), " ' \\tfoo' : skipWS () -> true"); t.notok (n.skipWS (), " 'foo' : skipWS () -> false"); t.ok (n.getUntilEOS (s), " 'foo' : getUntilEOS () -> true"); t.is (s, "foo", " 'foo' : getUntilEOS () -> 'foo'"); t.ok (n.depleted (), " '' : depleted () -> true"); #ifdef NIBBLER_FEATURE_REGEX // bool skipRx (const std::string&); t.diag ("Nibbler::skipRx"); n = Nibbler ("one two"); t.ok (n.skipRx ("o."), " 'one two' : skipRx ('o.') -> true"); t.notok (n.skipRx ("A+"), " 'e two' : skipRx ('A+') -> false"); t.ok (n.skipRx ("e+"), " 'e two' : skipRx ('e+') -> true"); t.ok (n.skipRx ("...."), " ' two' : skipRx ('....') -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); #endif // bool backN (const int quantity = 1); t.diag ("Nibbler::backN"); n = Nibbler ("/a/b/"); t.ok (n.getQuoted ('/', s), " '/a/b/' : getQuoted ('/') -> true"); t.is (s, "a", " 'b/' : getQuoted ('/') -> 'a'"); t.ok (n.backN (), " 'b/' : backN () -> true"); t.ok (n.getQuoted ('/', s), " '/b/' : getQuoted ('/') -> true"); t.is (s, "b", " '/b/' : getQuoted ('/') -> 'b'"); // bool getQuoted (char, std::string&); t.diag ("Nibbler::getQuoted"); n = Nibbler ("''"); t.ok (n.getQuoted ('\'', s), " '''' : getQuoted (''') -> true"); t.is (s, "", " '''' : getQuoted (''') -> ''"); n = Nibbler ("'\"'"); t.ok (n.getQuoted ('\'', s), " ''\"'' : getQuoted (''') -> true"); t.is (s, "\"", " ''\"'' : getQuoted (''') -> '\"'"); n = Nibbler ("'x'"); t.ok (n.getQuoted ('\'', s), " ''x'' : getQuoted (''') -> true"); t.is (s, "x", " ''x'' : getQuoted (''') -> ''"); n = Nibbler ("'x"); t.notok (n.getQuoted ('\'', s), " ''x' : getQuoted (''') -> false"); n = Nibbler ("x"); t.notok (n.getQuoted ('\'', s), " 'x' : getQuoted (''') -> false"); // 90 n = Nibbler ("\"one\\\"two\""); t.notok (n.getQuoted ('\'', s), "\"one\\\"two\" : getQuoted (''') -> false"); n = Nibbler ("\"one\\\"two\""); t.ok (n.getQuoted ('"', s, false), "\"one\\\"two\" : getQuoted ('\"', false, false) -> true"); t.is (s, "one\\\"two", "getQuoted ('\"', false) -> one\\\"two"); n = Nibbler ("\"one\\\"two\""); t.ok (n.getQuoted ('"', s, true), "\"one\\\"two\" : getQuoted ('\"', false, true) -> true"); t.is (s, "\"one\\\"two\"", "getQuoted ('\"', true) -> \"one\\\"two\""); n = Nibbler ("\"one\\\"two\""); t.ok (n.getQuoted ('"', s, false), "\"one\\\"two\" : getQuoted ('\"', true, false) -> true"); t.is (s, "one\\\"two", "getQuoted ('\"', false) -> one\\\"two"); n = Nibbler ("\"one\\\"two\""); t.ok (n.getQuoted ('"', s, true), "\"one\\\"two\" : getQuoted ('\"', s, true) -> true"); t.is (s, "\"one\\\"two\"", "getQuoted ('\"', s, true) -> \"one\\\"two\""); n = Nibbler ("\"one\\\\\""); t.ok (n.getQuoted ('\"', s, true), "\"one\\\" : getQuoted ('\"', s, true) -> true"); t.is (s, "\"one\\\\\"", "getQuoted ('\"', s, true) -> \"one\\\\\""); n = Nibbler ("\"one\\\\\""); t.ok (n.getQuoted ('\"', s, false), "one\\ : getQuoted ('\"', s, false) -> true"); t.is (s, "one\\\\", "getQuoted ('\"', s, false) -> \"one\\\\\""); // bool getDigit (int&); t.diag ("Nibbler::getDigit"); n = Nibbler ("12x"); t.ok (n.getDigit (i), " '12x' : getDigit () -> true"); t.is (i, 1, " '12x' : getDigit () -> 1"); t.ok (n.getDigit (i), " '2x' : getDigit () -> true"); t.is (i, 2, " '2x' : getDigit () -> 2"); t.notok (n.getDigit (i), " 'x' : getDigit () -> false"); // bool getDigit6 (int&); t.diag ("Nibbler::getDigit6"); n = Nibbler ("654321"); t.ok (n.getDigit6 (i), " 654321 : getDigit6 () -> true"); t.is (i, 654321, " 654321 : getDigit6 () -> 654321"); // bool getDigit4 (int&); t.diag ("Nibbler::getDigit4"); n = Nibbler ("4321"); t.ok (n.getDigit4 (i), " 4321 : getDigit4 () -> true"); t.is (i, 4321, " 4321 : getDigit4 () -> 4321"); // bool getDigit2 (int&); t.diag ("Nibbler::getDigit2"); n = Nibbler ("21"); t.ok (n.getDigit2 (i), " 21 : getDigit2 () -> true"); t.is (i, 21, " 21 : getDigit2 () -> 21"); // bool getInt (int&); t.diag ("Nibbler::getInt"); n = Nibbler ("123 -4"); t.ok (n.getInt (i), " '123 -4' : getInt () -> true"); t.is (i, 123, " '123 -4' : getInt () -> '123'"); t.ok (n.skip (' '), " ' -4' : skip (' ') -> true"); t.ok (n.getInt (i), " '-4' : getInt () -> true"); t.is (i, -4, " '-4' : getInt () -> '-4'"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getUnsignedInt (int&i); t.diag ("Nibbler::getUnsignedInt"); n = Nibbler ("123 4"); t.ok (n.getUnsignedInt (i), " '123 4' : getUnsignedInt () -> true"); t.is (i, 123, " '123 4' : getUnsignedInt () -> '123'"); t.ok (n.skip (' '), " ' 4' : skip (' ') -> true"); t.ok (n.getUnsignedInt (i), " '4' : getUnsignedInt () -> true"); t.is (i, 4, " '4' : getUnsignedInt () -> '4'"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getNumber (double&); t.diag ("Nibbler::getNumber"); n = Nibbler ("-1.234 2.3e4"); t.ok (n.getNumber (d), "'-1.234 2.3e4' : getNumber () -> true"); t.is (d, -1.234, 0.000001, "'-1.234 2.3e4' : getNumber () -> '-1.234'"); t.ok (n.skip (' '), " ' 2.3e4' : skip (' ') -> true"); t.ok (n.getNumber (d), " '2.3e4' : getNumber () -> true"); t.is (d, 2.3e4, " '2.3e4' : getNumber () -> '2.3e4'"); t.ok (n.depleted (), " '' : depleted () -> true"); n = Nibbler ("2.0"); t.ok (n.getNumber (d), "'2.0' : getNumber () -> true"); t.is (d, 2.0, 0.000001, "'2.0' : getNumber () -> '2.0'"); t.ok (n.depleted (), " '' : depleted () -> true"); n = Nibbler ("-864000.00000"); t.ok (n.getNumber (d), "'-864000.00000' : getNumber () -> true"); t.is (d, -864000.0, "'-864000.00000' : getNumber () -> -864000.0"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getLiteral (const std::string&); t.diag ("Nibbler::getLiteral"); n = Nibbler ("foobar"); t.ok (n.getLiteral ("foo"), " 'foobar' : getLiteral ('foo') -> true"); t.notok (n.getLiteral ("foo"), " 'bar' : getLiteral ('foo') -> false"); t.ok (n.getLiteral ("bar"), " 'bar' : getLiteral ('bar') -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); #ifdef NIBBLER_FEATURE_REGEX // bool getRx (const std::string&, std::string&); t.diag ("Nibbler::getRx"); n = Nibbler ("one two three"); t.ok (n.getRx ("^(o..)", s), "'one two three' : getRx ('^(o..)') -> true"); t.is (s, "one", "'one two three' : getRx ('^(o..)') -> 'one'"); t.ok (n.skip (' '), " ' two three' : skip (' ') -> true"); t.ok (n.getRx ("t..", s), " 'two three' : getRx ('t..') -> true"); t.is (s, "two", " 'two three' : getRx ('t..') -> 'two'"); t.notok (n.getRx ("th...", s), " ' three' : getRx ('th...') -> false"); t.ok (n.skip (' '), " ' three' : skip (' ') -> true"); t.ok (n.getRx ("th...", s), " 'three' : getRx ('th...') -> true"); t.is (s, "three", " 'three' : getRx ('th...') -> 'three'"); t.ok (n.depleted (), " '' : depleted () -> true"); #endif // bool getUUID (std::string&); t.diag ("Nibbler::getUUID"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5"); t.ok (n.getUUID (s), "uuid 1 found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5", "uuid 1 -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("00000000-0000-0000-0000-000000000000,a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5"); t.ok (n.getUUID (s), "uuid 1 found"); t.is (s, "00000000-0000-0000-0000-000000000000", "uuid 1 -> correct"); t.ok (n.skip (','), "comma -> skipped"); t.ok (n.getUUID (s), "uuid 2 -> found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5", "uuid 2 -> correct"); t.ok (n.depleted (), "depleted"); // bool getPartialUUID (std::string&); t.diag ("Nibbler::getPartialUUID"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5"); t.ok (n.getPartialUUID (s), "partial uuid [36] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d5", "partial uuid [36] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d"); t.ok (n.getPartialUUID (s), "partial uuid [35] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4d", "partial uuid [35] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4"); t.ok (n.getPartialUUID (s), "partial uuid [34] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c4", "partial uuid [34] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c"); t.ok (n.getPartialUUID (s), "partial uuid [33] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3c", "partial uuid [33] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3"); t.ok (n.getPartialUUID (s), "partial uuid [32] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b3", "partial uuid [32] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b"); t.ok (n.getPartialUUID (s), "partial uuid [31] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2b", "partial uuid [31] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2"); t.ok (n.getPartialUUID (s), "partial uuid [30] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a2", "partial uuid [30] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1a"); t.ok (n.getPartialUUID (s), "partial uuid [29] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1a", "partial uuid [29] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F1"); t.ok (n.getPartialUUID (s), "partial uuid [28] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F1", "partial uuid [28] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0F"); t.ok (n.getPartialUUID (s), "partial uuid [27] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0F", "partial uuid [27] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E0"); t.ok (n.getPartialUUID (s), "partial uuid [26] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E0", "partial uuid [26] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-E"); t.ok (n.getPartialUUID (s), "partial uuid [25] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-E", "partial uuid [25] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9-"); t.ok (n.getPartialUUID (s), "partial uuid [24] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9-", "partial uuid [24] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D9"); t.ok (n.getPartialUUID (s), "partial uuid [23] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D9", "partial uuid [23] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8D"); t.ok (n.getPartialUUID (s), "partial uuid [22] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8D", "partial uuid [22] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C8"); t.ok (n.getPartialUUID (s), "partial uuid [21] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C8", "partial uuid [21] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-C"); t.ok (n.getPartialUUID (s), "partial uuid [20] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-C", "partial uuid [20] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7-"); t.ok (n.getPartialUUID (s), "partial uuid [19] found"); t.is (s, "a0b1c2d3-e4f5-A6B7-", "partial uuid [19] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B7"); t.ok (n.getPartialUUID (s), "partial uuid [18] found"); t.is (s, "a0b1c2d3-e4f5-A6B7", "partial uuid [18] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6B"); t.ok (n.getPartialUUID (s), "partial uuid [17] found"); t.is (s, "a0b1c2d3-e4f5-A6B", "partial uuid [17] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A6"); t.ok (n.getPartialUUID (s), "partial uuid [16] found"); t.is (s, "a0b1c2d3-e4f5-A6", "partial uuid [16] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-A"); t.ok (n.getPartialUUID (s), "partial uuid [15] found"); t.is (s, "a0b1c2d3-e4f5-A", "partial uuid [15] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5-"); t.ok (n.getPartialUUID (s), "partial uuid [14] found"); t.is (s, "a0b1c2d3-e4f5-", "partial uuid [14] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f5"); t.ok (n.getPartialUUID (s), "partial uuid [13] found"); t.is (s, "a0b1c2d3-e4f5", "partial uuid [13] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4f"); t.ok (n.getPartialUUID (s), "partial uuid [12] found"); t.is (s, "a0b1c2d3-e4f", "partial uuid [12] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e4"); t.ok (n.getPartialUUID (s), "partial uuid [11] found"); t.is (s, "a0b1c2d3-e4", "partial uuid [11] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-e"); t.ok (n.getPartialUUID (s), "partial uuid [10] found"); t.is (s, "a0b1c2d3-e", "partial uuid [10] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3-"); t.ok (n.getPartialUUID (s), "partial uuid [9] found"); t.is (s, "a0b1c2d3-", "partial uuid [9] -> correct"); t.ok (n.depleted (), "depleted"); n = Nibbler ("a0b1c2d3"); t.ok (n.getPartialUUID (s), "partial uuid [8] found"); t.is (s, "a0b1c2d3", "partial uuid [8] -> correct"); t.ok (n.depleted (), "not depleted"); // bool getDateISO (time_t&); t.diag ("Nibbler::getDateISO"); n = Nibbler ("19980119T070000Z"); t.ok (n.getDateISO (ti), "'19980119T070000Z': getDateISO () -> true"); t.is (ti, 885193200, "'19980119T070000Z': getDateISO () -> 885193200"); t.ok (n.depleted (), "depleted"); n = Nibbler ("20090213T233130Z"); t.ok (n.getDateISO (ti), "'20090213T233130Z': getDateISO () -> true"); t.is (ti, 1234567890, "'20090213T233130Z': getDateISO () -> 1234567890"); t.ok (n.depleted (), "depleted"); #ifdef NIBBLER_FEATURE_DATE // bool getDate (time_t&, const std::string&); t.diag ("Nibbler::getDate"); n = Nibbler ("1/1/2008"); t.ok (n.getDate ("m/d/Y", ti), "m/d/Y ok"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2008, "ctor (std::string) -> y"); n = Nibbler ("20080101"); t.ok (n.getDate ("YMD", ti), "YMD ok"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2008, "ctor (std::string) -> y"); n = Nibbler ("12/31/2007"); t.ok (n.getDate ("m/d/Y", ti), "m/d/Y ok"); dt = Date (ti); t.is (dt.month (), 12, "ctor (std::string) -> m"); t.is (dt.day (), 31, "ctor (std::string) -> d"); t.is (dt.year (), 2007, "ctor (std::string) -> y"); n = Nibbler ("20071231"); t.ok (n.getDate ("YMD", ti), "YMD ok"); dt = Date (ti); t.is (dt.month (), 12, "ctor (std::string) -> m"); t.is (dt.day (), 31, "ctor (std::string) -> d"); t.is (dt.year (), 2007, "ctor (std::string) -> y"); n = Nibbler ("Tue 01 Jan 2008 (01)"); t.ok (n.getDate ("a D b Y (V)", ti), "a D b Y (V)"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2008, "ctor (std::string) -> y"); n = Nibbler ("Tuesday, January 1, 2008"); t.ok (n.getDate ("A, B d, Y", ti), "A, B d, Y ok"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2008, "ctor (std::string) -> y"); n = Nibbler ("w01 Tue 2008-01-01"); t.ok (n.getDate ("wV a Y-M-D", ti), "wV a Y-M-D ok"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2008, "ctor (std::string) -> y"); n = Nibbler ("6/7/2010 1:23:45"); t.ok (n.getDate ("m/d/Y h:N:S", ti), "m/d/Y h:N:S ok"); dt = Date (ti); t.is (dt.month (), 6, "ctor (std::string) -> m"); t.is (dt.day (), 7, "ctor (std::string) -> d"); t.is (dt.year (), 2010, "ctor (std::string) -> Y"); t.is (dt.hour (), 1, "ctor (std::string) -> h"); t.is (dt.minute (), 23, "ctor (std::string) -> N"); t.is (dt.second (), 45, "ctor (std::string) -> S"); n = Nibbler ("6/7/2010 01:23:45"); t.ok (n.getDate ("m/d/Y H:N:S", ti), "m/d/Y H:N:S ok"); dt = Date (ti); t.is (dt.month (), 6, "ctor (std::string) -> m"); t.is (dt.day (), 7, "ctor (std::string) -> d"); t.is (dt.year (), 2010, "ctor (std::string) -> Y"); t.is (dt.hour (), 1, "ctor (std::string) -> h"); t.is (dt.minute (), 23, "ctor (std::string) -> N"); t.is (dt.second (), 45, "ctor (std::string) -> S"); n = Nibbler ("6/7/2010 12:34:56"); t.ok (n.getDate ("m/d/Y H:N:S", ti), "m/d/Y H:N:S ok"); dt = Date (ti); t.is (dt.month (), 6, "ctor (std::string) -> m"); t.is (dt.day (), 7, "ctor (std::string) -> d"); t.is (dt.year (), 2010, "ctor (std::string) -> Y"); t.is (dt.hour (), 12, "ctor (std::string) -> h"); t.is (dt.minute (), 34, "ctor (std::string) -> N"); t.is (dt.second (), 56, "ctor (std::string) -> S"); n = Nibbler ("2010"); t.ok (n.getDate ("Y", ti), "Y ok"); dt = Date (ti); t.is (dt.month (), 1, "ctor (std::string) -> m"); t.is (dt.day (), 1, "ctor (std::string) -> d"); t.is (dt.year (), 2010, "ctor (std::string) -> Y"); t.is (dt.hour (), 0, "ctor (std::string) -> h"); t.is (dt.minute (), 0, "ctor (std::string) -> N"); t.is (dt.second (), 0, "ctor (std::string) -> S"); n = Nibbler ("17:18:19"); t.ok (n.getDate ("H:N:S", ti), "H:N:S ok"); dt = Date (ti); Date now = Date (); t.is (dt.month (), now.month(), "ctor (std::string) -> m"); t.is (dt.day (), now.day(), "ctor (std::string) -> d"); t.is (dt.year (), now.year(), "ctor (std::string) -> Y"); t.is (dt.hour (), 17, "ctor (std::string) -> h"); t.is (dt.minute (), 18, "ctor (std::string) -> N"); t.is (dt.second (), 19, "ctor (std::string) -> S"); #endif // bool getOneOf (const std::vector <std::string>&, std::string&); t.diag ("Nibbler::getOneOf"); options.push_back ("one"); options.push_back ("two"); options.push_back ("three"); n = Nibbler ("onetwothreefour"); t.ok (n.getOneOf (options, s), "'onetwothreefour': getOneOf () -> true"); t.is (s, "one", "'onetwothreefour': getOneOf () -> one"); t.ok (n.getOneOf (options, s), " 'twothreefour': getOneOf () -> true"); t.is (s, "two", " 'twothreefour': getOneOf () -> two"); t.ok (n.getOneOf (options, s), " 'threefour': getOneOf () -> true"); t.is (s, "three", " 'threefour': getOneOf () -> three"); t.notok (n.getOneOf (options, s), " 'four': getOneOf () -> false"); // bool getName (std::string&); t.diag ("Nibbler::getName"); n = Nibbler ("a1 one one.two 9 foo_bar"); t.ok (n.getName (s), "'a1 one one.two 9 foo_bar' getName -> ok"); t.is (s, "a1", " ' one one.two 9 foo_bar' getName -> 'a1'"); t.ok (n.skipWS (), " 'one one.two 9 foo_bar' skipWS -> ok"); t.ok (n.getName (s), " 'one one.two 9 foo_bar' getName -> ok"); t.is (s, "one", " ' one.two 9 foo_bar' getName -> 'one'"); t.ok (n.skipWS (), " 'one.two 9 foo_bar' skipWS -> ok"); t.ok (n.getName (s), " 'one.two 9 foo_bar' getName -> ok"); t.is (s, "one", " '.two 9 foo_bar' getName -> 'one'"); t.ok (n.skip ('.'), " 'two 9 foo_bar' skip . -> ok"); t.ok (n.getName (s), " 'two 9 foo_bar' getName -> ok"); t.is (s, "two", " ' 9 foo_bar' getName -> 'two'"); t.ok (n.skipWS (), " '9 foo_bar' skipWS -> ok"); t.notok (n.getName (s), " '9 foo_bar' getName -> not ok"); t.ok (n.skip ('9'), " ' foo_bar' skip 9 -> ok"); t.ok (n.skipWS (), " 'foo_bar' skipWS -> ok"); t.ok (n.getName (s), " 'foo_bar' getName -> ok"); t.is (s, "foo_bar", " '' getName -> 'foo_bar'"); t.ok (n.depleted (), "depleted"); n = Nibbler ("entrée"); t.ok (n.getName (s), "'entrée' -> ok"); t.is (s, "entrée", "'entrée' -> 'entrée'"); // bool getWord (std::string&); t.diag ("Nibbler::getWord"); n = Nibbler ("one two th3ee"); t.ok (n.getWord (s), "'one' getWord -> ok"); t.is (s, "one", "'one' getWord -> 'one'"); t.ok (n.skipWS (), "skipWS"); t.ok (n.getWord (s), "'two' getWord -> ok"); t.is (s, "two", "'two' getWord -> 'two'"); t.ok (n.skipWS (), "skipWS"); t.ok (n.getWord (s), "'th' getWord -> ok"); t.is (s, "th", "'th' getWord -> 'th'"); t.ok (n.skip ('3'), "skip(3)"); t.ok (n.getWord (s), "'ee' getWord -> ok"); t.is (s, "ee", "'ee' getWord -> 'ee'"); t.ok (n.depleted (), "depleted"); t.diag ("Nibbler::getWord"); n = Nibbler ("one TWO,three,f "); t.ok (n.getWord (s), "'one TWO,three,f ' getWord -> ok"); t.is (s, "one", " ' TWO,three,f ' getWord -> one"); t.ok (n.skipWS (), " 'TWO,three,f ' skipWS -> ok"); t.ok (n.getWord (s), " 'TWO,three,f ' getWord -> ok"); t.is (s, "TWO", " ',three,f ' getWord -> TWO"); t.ok (n.skip (','), " 'three,f ' skip , -> ok"); t.ok (n.getWord (s), " 'three,f ' getWord -> ok"); t.is (s, "three", " ',f ' getWord -> three"); t.ok (n.skip (','), " 'f ' skip , -> ok"); t.ok (n.getWord (s), " 'f ' getWord -> ok"); t.is (s, "f", " ' ' getWord -> f"); t.ok (n.skipWS (), " '' skip , -> ok"); t.ok (n.depleted (), " '' depleted -> true"); // bool getN (int, std::string&); t.diag ("Nibbler::getN"); n = Nibbler ("111223"); t.ok (n.getN (3, s), " '111223' : getN (3) -> true"); t.is (s, "111", " '111223' : getN (3) -> '111'"); t.ok (n.getN (2, s), " '223' : getN (2) -> true"); t.is (s, "22", " '223' : getN (2) -> '22'"); t.ok (n.getN (1, s), " '3' : getN (1) -> true"); t.is (s, "3", " '3' : getN (1) -> '1'"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getUntilEOL (std::string&); t.diag ("Nibbler::getUntilEOL"); n = Nibbler ("one\ntwo"); t.ok (n.getUntilEOL (s), "'one\\ntwo' : getUntilEOL () -> true"); t.is (s, "one", "'one\\ntwo' : getUntilEOL () -> 'one'"); t.ok (n.skip ('\n'), " '\\ntwo' : skip ('\\n') -> true"); t.ok (n.getUntilEOL (s), " 'two' : getUntilEOL () -> true"); t.is (s, "two", " 'two' : getUntilEOL () -> 'two'"); t.ok (n.depleted (), " '' : depleted () -> true"); // bool getUntilEOS (std::string&); t.diag ("Nibbler::getUntilEOS"); n = Nibbler ("one two"); t.ok (n.getUntilEOS (s), " 'one two' : getUntilEOS () -> 'one two'"); t.ok (n.depleted (), " '' : depleted () -> true"); // char next (); t.diag ("Nibbler::next"); n = Nibbler ("hello"); t.is (n.next (), 'h', " 'hello' : next () -> 'h'"); t.is (n.next (), 'h', " 'hello' : next () -> 'h'"); t.ok (n.skipN (4), " 'hello' : skipN (4) -> true"); t.is (n.next (), 'o', " 'o' : next () -> 'o'"); t.ok (n.skipN (1), " 'o' : skipN () -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); // std::string next (const int quantity); t.diag ("Nibbler::next"); n = Nibbler ("hello"); t.is (n.next (1), "h", " 'hello' : next (1) -> 'h'"); t.is (n.next (1), "h", " 'hello' : next (1) -> 'h'"); t.is (n.next (2), "he", " 'hello' : next (2) -> 'he'"); t.is (n.next (3), "hel", " 'hello' : next (3) -> 'hel'"); t.is (n.next (4), "hell", " 'hello' : next (4) -> 'hell'"); t.is (n.next (5), "hello", " 'hello' : next (5) -> 'hello'"); t.is (n.next (6), "", " 'hello' : next (6) -> ''"); // bool depleted (); t.diag ("Nibbler::depleted"); n = Nibbler (" "); t.notok (n.depleted (), " ' ' : depleted () -> false"); t.ok (n.skipN (), " '' : skip () -> true"); t.ok (n.depleted (), " '' : depleted () -> true"); // void save (); // void restore (); n = Nibbler ("abcde"); t.ok (n.skipN (), " 'abcde' : skip () -> true"); n.save (); t.ok (n.skipN (), " 'bcde' : skip () -> true"); t.ok (n.skipN (), " 'cde' : skip () -> true"); t.ok (n.skipN (), " 'de' : skip () -> true"); n.restore (); t.is (n.next (1), "b", " 'bcde' : skip () -> 'b'"); } catch (const std::string& e) {t.diag (e);} return 0; }
int main (int argc, char** argv) { UnitTest t (14); try { // Basic parsing tests. std::string input = "{}"; std::cout << "-- j1 -------------------\n" << "input: " << input << "\n"; JSON j1 (input); j1.tree ()->dump (); input = "{\"name\":123}"; std::cout << "-- j2 -------------------\n" << "input: " << input << "\n"; JSON j2 (input); j2.tree ()->dump (); input = "{\"name\":123, \"array\":[1,2,3.4], \"map\":{\"m1\":\"v1\", \"m2\":\"v2\"}}"; std::cout << "-- j3 -------------------\n" << "input: " << input << "\n"; JSON j3 (input); j3.tree ()->dump (); // Sample ticket as a parsing test. input = "{\n" "\"ticket\": { \"type\":\"add\", \"client\":\"taskwarrior 2.x\"},\n" "\"auth\": { \"user\":\"paul\", \"org\":\"gbf\", \"key\":\".........\",\n" " \"locale\":\"en-US\" },\n" "\n" "\"add\": { \"description\":\"Wash the dog\",\n" " \"project\":\"home\",\n" " \"due\":\"20101101T000000Z\" }\n" "}"; std::cout << "-- j4 -------------------\n" << "input: " << input << "\n"; JSON j4 (input); j4.tree ()->dump (); std::cout << "-------------------------\n"; // Regular unit tests. t.is (JSON::encode ("1\b2"), "1\\b2", "JSON::encode \\b -> \\\\b"); t.is (JSON::decode ("1\\b2"), "1\b2", "JSON::decode \\\\b -> \\b"); t.is (JSON::encode ("1\n2"), "1\\n2", "JSON::encode \\n -> \\\\n"); t.is (JSON::decode ("1\\n2"), "1\n2", "JSON::decode \\\\n -> \\n"); t.is (JSON::encode ("1\r2"), "1\\r2", "JSON::encode \\r -> \\\\r"); t.is (JSON::decode ("1\\r2"), "1\r2", "JSON::decode \\\\r -> \\r"); t.is (JSON::encode ("1\t2"), "1\\t2", "JSON::encode \\t -> \\\\t"); t.is (JSON::decode ("1\\t2"), "1\t2", "JSON::decode \\\\t -> \\t"); t.is (JSON::encode ("1\\2"), "1\\\\2", "JSON::encode \\ -> \\\\"); t.is (JSON::decode ("1\\\\2"), "1\\2", "JSON::decode \\\\ -> \\"); t.is (JSON::encode ("1\x2"), "1\x2", "JSON::encode \\x -> \\x (NOP)"); t.is (JSON::decode ("1\x2"), "1\x2", "JSON::decode \\x -> \\x (NOP)"); t.is (JSON::encode ("1€2"), "1€2", "JSON::encode € -> €"); t.is (JSON::decode ("1\\u20ac2"), "1€2", "JSON::decode \\u20ac -> €"); /* { "ticket": { "type":"synch", "client":"taskd-test-suite 1.0" }, "synch": { "user": { "data": [ { "uuid":"11111111-1111-1111-1111-111111111111", "status":"pending", "description":"This is a test", "entry":"20110111T124000Z" } ], "synch":"key" } }, "auth": { "org":"gbf", "user":"******", "key":"K", "locale":"en-US" } } */ input = "{\"ticket\":{\"type\":\"synch\",\"client\":\"taskd-test-suite 1.0\"},\"synch\":{\"user\":{\"data\":[{\"uuid\":\"11111111-1111-1111-1111-111111111111\",\"status\":\"pending\",\"description\":\"This is a test\",\"entry\":\"20110111T124000Z\"}],\"synch\":\"key\"}},\"auth\":{\"org\":\"gbf\",\"user\":\"Paul Beckingham\",\"key\":\"K\",\"locale\":\"en-US\"}}"; std::cout << "-- j4 -------------------\n" << "input: " << input << "\n"; JSON j5 (input); j5.tree ()->dump (); } catch (std::string& e) {t.diag (e);} return 0; }
int main (int argc, char** argv) { /* UnitTest t (15); */ UnitTest t (9); try { // Remove any residual test files. rmdir ("./extensions"); unlink ("./pending.data"); unlink ("./completed.data"); unlink ("./undo.data"); /* unlink ("./backlog.data"); */ unlink ("./synch.key"); // Set the context to allow GC. context.config.set ("gc", "on"); context.config.set ("debug", "on"); context.tdb2.set_location ("."); // Try reading an empty database. std::vector <Task> pending = context.tdb2.pending.get_tasks (); std::vector <Task> completed = context.tdb2.completed.get_tasks (); std::vector <std::string> undo = context.tdb2.undo.get_lines (); /* std::vector <Task> backlog = context.tdb2.backlog.get_tasks (); std::vector <std::string> synch_key = context.tdb2.synch_key.get_lines (); */ t.is ((int) pending.size (), 0, "TDB2 Read empty pending"); t.is ((int) completed.size (), 0, "TDB2 Read empty completed"); t.is ((int) undo.size (), 0, "TDB2 Read empty undo"); /* t.is ((int) backlog.size (), 0, "TDB2 Read empty backlog"); t.is ((int) synch_key.size (), 0, "TDB2 Read empty synch.key"); */ // Add a task. Task task ("[description:\"description\" name:\"value\"]"); context.tdb2.add (task); pending = context.tdb2.pending.get_tasks (); completed = context.tdb2.completed.get_tasks (); undo = context.tdb2.undo.get_lines (); /* backlog = context.tdb2.backlog.get_tasks (); synch_key = context.tdb2.synch_key.get_lines (); */ t.is ((int) pending.size (), 1, "TDB2 after add, 1 pending task"); t.is ((int) completed.size (), 0, "TDB2 after add, 0 completed tasks"); t.is ((int) undo.size (), 3, "TDB2 after add, 3 undo lines"); /* t.is ((int) backlog.size (), 1, "TDB2 after add, 1 backlog task"); t.is ((int) synch_key.size (), 0, "TDB2 after add, 0 synch.key"); */ task.set ("description", "This is a test"); context.tdb2.modify (task); pending = context.tdb2.pending.get_tasks (); completed = context.tdb2.completed.get_tasks (); undo = context.tdb2.undo.get_lines (); /* backlog = context.tdb2.backlog.get_tasks (); synch_key = context.tdb2.synch_key.get_lines (); */ t.is ((int) pending.size (), 1, "TDB2 after add, 1 pending task"); t.is ((int) completed.size (), 0, "TDB2 after add, 0 completed tasks"); t.is ((int) undo.size (), 7, "TDB2 after add, 7 undo lines"); /* t.is ((int) backlog.size (), 2, "TDB2 after add, 2 backlog task"); t.is ((int) synch_key.size (), 0, "TDB2 after add, 0 synch.key"); */ context.tdb2.commit (); // Reset for reuse. context.tdb2.clear (); context.tdb2.set_location ("."); // TODO commit // TODO complete a task // TODO gc } catch (std::string& error) { t.diag (error); return -1; } catch (...) { t.diag ("Unknown error."); return -2; } rmdir ("./extensions"); unlink ("./pending.data"); unlink ("./completed.data"); unlink ("./undo.data"); unlink ("./backlog.data"); unlink ("./synch.key"); return 0; }
int main (int argc, char** argv) { UnitTest t (21); // (blank) bool good = true; Record record; try {record = Record ("");} catch (std::string& e){t.diag (e); good = false;} t.notok (good, "Record::Record ('')"); // [] good = true; try {record = Record ("[]");} catch (std::string& e){t.diag (e); good = false;} t.notok (good, "Record::Record ('[]')"); // [name:value] good = true; try {record = Record ("[name:value]");} catch (std::string& e){t.diag (e); good = false;} t.ok (good, "Record::Record ('[name:value]')"); t.is (record.get ("name"), "value", "name=value"); // [name:"value"] good = true; try {record = Record ("[name:\"value\"]");} catch (std::string& e){t.diag (e); good = false;} t.ok (good, "Record::Record ('[name:\"value\"]')"); t.is (record.get ("name"), "value", "name=value"); // [name:"one two"] good = true; try {record = Record ("[name:\"one two\"]");} catch (std::string& e){t.diag (e); good = false;} t.ok (good, "Record::Record ('[name:\"one two\"]')"); t.is (record.get ("name"), "one two", "name=one two"); // [one:two three:four] good = true; try {record = Record ("[one:\"two\" three:\"four\"]");} catch (std::string& e){t.diag (e); good = false;} t.ok (good, "Record::Record ('[one:\"two\" three:\"four\"]')"); t.is (record.get ("one"), "two", "one=two"); t.is (record.get ("three"), "four", "three=four"); // Record::set record.clear (); record.set ("name", "value"); t.is (record.composeF4 (), "[name:\"value\"]\n", "Record::set"); // Record::has t.ok (record.has ("name"), "Record::has"); t.notok (record.has ("woof"), "Record::has not"); // Record::get_int record.set ("one", 1); t.is (record.composeF4 (), "[name:\"value\" one:\"1\"]\n", "Record::set"); t.is (record.get_int ("one"), 1, "Record::get_int"); // Record::get_ulong record.set ("two", "4294967295"); t.is (record.composeF4 (), "[name:\"value\" one:\"1\" two:\"4294967295\"]\n", "Record::set"); t.is ((size_t)record.get_ulong ("two"), (size_t)4294967295, "Record::get_ulong"); // Record::remove record.remove ("one"); record.remove ("two"); t.is (record.composeF4 (), "[name:\"value\"]\n", "Record::remove"); // Record::all std::vector <Att> all = record.all (); t.is (all.size (), (size_t)1, "Record::all size"); t.is (all[0].name (), "name", "Record::all[0].name ()"); return 0; }
int main (int argc, char** argv) { UnitTest t (NUM_POSITIVE_TESTS + NUM_NEGATIVE_TESTS + 22); // Positive tests. for (int i = 0; i < NUM_POSITIVE_TESTS; ++i) { try { json::value* root = json::parse (positive_tests[i]); t.ok (root, std::string ("positive: ") + positive_tests[i]); if (root) { t.diag (root->dump ()); delete root; } } catch (const std::string& e) { t.diag (e); } catch (...) { t.diag ("Unknown error"); } } // Negative tests. for (int i = 0; i < NUM_NEGATIVE_TESTS; ++i) { try { json::value* root = json::parse (negative_tests[i]); t.is ((const char*) root, (const char*) NULL, std::string ("negative: ") + negative_tests[i]); } catch (const std::string& e) { t.pass (e); } catch (...) { t.fail ("Unknown error"); } } // Other tests. try { // Regular unit tests. t.is (json::encode ("1\b2"), "1\\b2", "json::encode \\b -> \\\\b"); t.is (json::decode ("1\\b2"), "1\b2", "json::decode \\\\b -> \\b"); t.is (json::encode ("1\n2"), "1\\n2", "json::encode \\n -> \\\\n"); t.is (json::decode ("1\\n2"), "1\n2", "json::decode \\\\n -> \\n"); t.is (json::encode ("1\r2"), "1\\r2", "json::encode \\r -> \\\\r"); t.is (json::decode ("1\\r2"), "1\r2", "json::decode \\\\r -> \\r"); t.is (json::encode ("1\t2"), "1\\t2", "json::encode \\t -> \\\\t"); t.is (json::decode ("1\\t2"), "1\t2", "json::decode \\\\t -> \\t"); t.is (json::encode ("1\\2"), "1\\\\2", "json::encode \\ -> \\\\"); t.is (json::decode ("1\\\\2"), "1\\2", "json::decode \\\\ -> \\"); t.is (json::encode ("1\x2"), "1\x2", "json::encode \\x -> \\x (NOP)"); t.is (json::decode ("1\x2"), "1\x2", "json::decode \\x -> \\x (NOP)"); t.is (json::encode ("1€2"), "1€2", "json::encode € -> €"); t.is (json::decode ("1\\u20ac2"), "1€2", "json::decode \\u20ac -> €"); std::string encoded = json::encode ("one\\"); t.is (encoded, "one\\\\", "json::encode one\\\\ -> one\\\\\\\\"); t.is ((int)encoded.length (), 5, "json::encode one\\\\ -> length 5"); t.is (encoded[0], 'o', "json::encode one\\\\[0] -> o"); t.is (encoded[1], 'n', "json::encode one\\\\[1] -> n"); t.is (encoded[2], 'e', "json::encode one\\\\[2] -> e"); t.is (encoded[3], '\\', "json::encode one\\\\[3] -> \\"); t.is (encoded[4], '\\', "json::encode one\\\\[4] -> \\"); t.is (json::decode (encoded), "one\\", "json::decode one\\\\\\\\ -> one\\\\"); } catch (std::string& e) {t.diag (e);} return 0; }
int main (int argc, char** argv) { UnitTest t (211); // Ensure environment has no influence. unsetenv ("TASKDATA"); unsetenv ("TASKRC"); try { Date now; Date yesterday; yesterday -= 86400; Date tomorrow; tomorrow += 86400; t.ok (yesterday <= now, "yesterday <= now"); t.ok (yesterday < now, "yesterday < now"); t.notok (yesterday == now, "!(yesterday == now)"); t.ok (yesterday != now, "yesterday != now"); t.ok (now >= yesterday, "now >= yesterday"); t.ok (now > yesterday, "now > yesterday"); t.ok (tomorrow >= now, "tomorrow >= now"); t.ok (tomorrow > now, "tomorrow > now"); t.notok (tomorrow == now, "!(tomorrow == now)"); t.ok (tomorrow != now, "tomorrow != now"); t.ok (now <= tomorrow, "now <= tomorrow"); t.ok (now < tomorrow, "now < tomorrow"); // Date::Date ("now") context.config.set ("weekstart", "monday"); Date relative_now ("now"); t.ok (relative_now.sameHour (now), "Date ().sameHour (Date (now))"); t.ok (relative_now.sameDay (now), "Date ().sameDay (Date (now))"); t.ok (relative_now.sameWeek (now), "Date ().sameWeek (Date (now))"); t.ok (relative_now.sameMonth (now), "Date ().sameMonth (Date (now))"); t.ok (relative_now.sameYear (now), "Date ().sameYear (Date (now))"); // Loose comparisons. Date left ("7/4/2008"); Date comp1 ("7/4/2008"); t.ok (left.sameDay (comp1), "7/4/2008 is on the same day as 7/4/2008"); t.ok (left.sameWeek (comp1), "7/4/2008 is on the same week as 7/4/2008"); t.ok (left.sameMonth (comp1), "7/4/2008 is in the same month as 7/4/2008"); t.ok (left.sameYear (comp1), "7/4/2008 is in the same year as 7/4/2008"); Date comp2 ("7/5/2008"); t.notok (left.sameDay (comp2), "7/4/2008 is not on the same day as 7/5/2008"); t.ok (left.sameMonth (comp2), "7/4/2008 is in the same month as 7/5/2008"); t.ok (left.sameYear (comp2), "7/4/2008 is in the same year as 7/5/2008"); Date comp3 ("8/4/2008"); t.notok (left.sameDay (comp3), "7/4/2008 is not on the same day as 8/4/2008"); t.notok (left.sameWeek (comp3), "7/4/2008 is not on the same week as 8/4/2008"); t.notok (left.sameMonth (comp3), "7/4/2008 is not in the same month as 8/4/2008"); t.ok (left.sameYear (comp3), "7/4/2008 is in the same year as 8/4/2008"); Date comp4 ("7/4/2009"); t.notok (left.sameDay (comp4), "7/4/2008 is not on the same day as 7/4/2009"); t.notok (left.sameWeek (comp3), "7/4/2008 is not on the same week as 7/4/2009"); t.notok (left.sameMonth (comp4), "7/4/2008 is not in the same month as 7/4/2009"); t.notok (left.sameYear (comp4), "7/4/2008 is not in the same year as 7/4/2009"); // Validity. t.ok (Date::valid (2, 29, 2008), "valid: 2/29/2008"); t.notok (Date::valid (2, 29, 2007), "invalid: 2/29/2007"); t.ok (Date::valid ("2/29/2008"), "valid: 2/29/2008"); t.notok (Date::valid ("2/29/2007"), "invalid: 2/29/2007"); t.ok (Date::valid (366, 2008), "valid: 366 days in 2008"); t.notok (Date::valid (366, 2007), "invalid: 366 days in 2007"); // Time validity. t.ok (Date::valid (2, 28, 2010, 0, 0, 0), "valid 2/28/2010 0:00:00"); t.ok (Date::valid (2, 28, 2010, 23, 59, 59), "valid 2/28/2010 23:59:59"); t.notok (Date::valid (2, 28, 2010, 24, 59, 59), "valid 2/28/2010 24:59:59"); t.notok (Date::valid (2, 28, 2010, -1, 0, 0), "valid 2/28/2010 -1:00:00"); // Leap year. t.ok (Date::leapYear (2008), "2008 is a leap year"); t.notok (Date::leapYear (2007), "2007 is not a leap year"); t.ok (Date::leapYear (2000), "2000 is a leap year"); t.notok (Date::leapYear (1900), "1900 is not a leap year"); // Days in month. t.is (Date::daysInMonth (2, 2008), 29, "29 days in February 2008"); t.is (Date::daysInMonth (2, 2007), 28, "28 days in February 2007"); // Names. t.is (Date::monthName (1), "January", "1 = January"); t.is (Date::monthName (2), "February", "2 = February"); t.is (Date::monthName (3), "March", "3 = March"); t.is (Date::monthName (4), "April", "4 = April"); t.is (Date::monthName (5), "May", "5 = May"); t.is (Date::monthName (6), "June", "6 = June"); t.is (Date::monthName (7), "July", "7 = July"); t.is (Date::monthName (8), "August", "8 = August"); t.is (Date::monthName (9), "September", "9 = September"); t.is (Date::monthName (10), "October", "10 = October"); t.is (Date::monthName (11), "November", "11 = November"); t.is (Date::monthName (12), "December", "12 = December"); t.is (Date::dayName (0), "Sunday", "0 == Sunday"); t.is (Date::dayName (1), "Monday", "1 == Monday"); t.is (Date::dayName (2), "Tuesday", "2 == Tuesday"); t.is (Date::dayName (3), "Wednesday", "3 == Wednesday"); t.is (Date::dayName (4), "Thursday", "4 == Thursday"); t.is (Date::dayName (5), "Friday", "5 == Friday"); t.is (Date::dayName (6), "Saturday", "6 == Saturday"); t.is (Date::dayOfWeek ("SUNDAY"), 0, "SUNDAY == 0"); t.is (Date::dayOfWeek ("sunday"), 0, "sunday == 0"); t.is (Date::dayOfWeek ("Sunday"), 0, "Sunday == 0"); t.is (Date::dayOfWeek ("Monday"), 1, "Monday == 1"); t.is (Date::dayOfWeek ("Tuesday"), 2, "Tuesday == 2"); t.is (Date::dayOfWeek ("Wednesday"), 3, "Wednesday == 3"); t.is (Date::dayOfWeek ("Thursday"), 4, "Thursday == 4"); t.is (Date::dayOfWeek ("Friday"), 5, "Friday == 5"); t.is (Date::dayOfWeek ("Saturday"), 6, "Saturday == 6"); Date happyNewYear (1, 1, 2008); t.is (happyNewYear.dayOfWeek (), 2, "1/1/2008 == Tuesday"); t.is (happyNewYear.month (), 1, "1/1/2008 == January"); t.is (happyNewYear.day (), 1, "1/1/2008 == 1"); t.is (happyNewYear.year (), 2008, "1/1/2008 == 2008"); t.is (happyNewYear.toString (), "1/1/2008", "toString 1/1/2008"); int m, d, y; happyNewYear.toMDY (m, d, y); t.is (m, 1, "1/1/2008 == January"); t.is (d, 1, "1/1/2008 == 1"); t.is (y, 2008, "1/1/2008 == 2008"); Date epoch (9, 8, 2001); t.ok ((int)epoch.toEpoch () < 1000000000, "9/8/2001 < 1,000,000,000"); epoch += 172800; t.ok ((int)epoch.toEpoch () > 1000000000, "9/10/2001 > 1,000,000,000"); Date fromEpoch (epoch.toEpoch ()); t.is (fromEpoch.toString (), epoch.toString (), "ctor (time_t)"); Date iso (1000000000); t.is (iso.toISO (), "20010909T014640Z", "1,000,000,000 -> 20010909T014640Z"); // Quantization. Date quant (1234526400); t.is (quant.startOfDay ().toString ("YMDHNS"), "20090213000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/13/2009 0:00:00"); t.is (quant.startOfWeek ().toString ("YMDHNS"), "20090208000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/8/2009 0:00:00"); t.is (quant.startOfMonth ().toString ("YMDHNS"), "20090201000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/1/2009 0:00:00"); t.is (quant.startOfYear ().toString ("YMDHNS"), "20090101000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 1/1/2009 0:00:00"); // Date parsing. Date fromString1 ("1/1/2008"); t.is (fromString1.month (), 1, "ctor (std::string) -> m"); t.is (fromString1.day (), 1, "ctor (std::string) -> d"); t.is (fromString1.year (), 2008, "ctor (std::string) -> y"); Date fromString2 ("1/1/2008", "m/d/Y"); t.is (fromString2.month (), 1, "ctor (std::string) -> m"); t.is (fromString2.day (), 1, "ctor (std::string) -> d"); t.is (fromString2.year (), 2008, "ctor (std::string) -> y"); Date fromString3 ("20080101", "YMD"); t.is (fromString3.month (), 1, "ctor (std::string) -> m"); t.is (fromString3.day (), 1, "ctor (std::string) -> d"); t.is (fromString3.year (), 2008, "ctor (std::string) -> y"); Date fromString4 ("12/31/2007"); t.is (fromString4.month (), 12, "ctor (std::string) -> m"); t.is (fromString4.day (), 31, "ctor (std::string) -> d"); t.is (fromString4.year (), 2007, "ctor (std::string) -> y"); Date fromString5 ("12/31/2007", "m/d/Y"); t.is (fromString5.month (), 12, "ctor (std::string) -> m"); t.is (fromString5.day (), 31, "ctor (std::string) -> d"); t.is (fromString5.year (), 2007, "ctor (std::string) -> y"); Date fromString6 ("20071231", "YMD"); t.is (fromString6.month (), 12, "ctor (std::string) -> m"); t.is (fromString6.day (), 31, "ctor (std::string) -> d"); t.is (fromString6.year (), 2007, "ctor (std::string) -> y"); Date fromString7 ("01/01/2008", "m/d/Y"); t.is (fromString7.month (), 1, "ctor (std::string) -> m"); t.is (fromString7.day (), 1, "ctor (std::string) -> d"); t.is (fromString7.year (), 2008, "ctor (std::string) -> y"); Date fromString8 ("Tue 05 Feb 2008 (06)", "a D b Y (V)"); t.is (fromString8.month (), 2, "ctor (std::string) -> m"); t.is (fromString8.day (), 5, "ctor (std::string) -> d"); t.is (fromString8.year (), 2008, "ctor (std::string) -> y"); Date fromString9 ("Tuesday, February 5, 2008", "A, B d, Y"); t.is (fromString9.month (), 2, "ctor (std::string) -> m"); t.is (fromString9.day (), 5, "ctor (std::string) -> d"); t.is (fromString9.year (), 2008, "ctor (std::string) -> y"); Date fromString10 ("w01 Tue 2008-01-01", "wV a Y-M-D"); t.is (fromString10.month (), 1, "ctor (std::string) -> m"); t.is (fromString10.day (), 1, "ctor (std::string) -> d"); t.is (fromString10.year (), 2008, "ctor (std::string) -> y"); Date fromString11 ("6/7/2010 1:23:45", "m/d/Y h:N:S"); t.is (fromString11.month (), 6, "ctor (std::string) -> m"); t.is (fromString11.day (), 7, "ctor (std::string) -> d"); t.is (fromString11.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString11.hour (), 1, "ctor (std::string) -> h"); t.is (fromString11.minute (), 23, "ctor (std::string) -> N"); t.is (fromString11.second (), 45, "ctor (std::string) -> S"); Date fromString12 ("6/7/2010 01:23:45", "m/d/Y H:N:S"); t.is (fromString12.month (), 6, "ctor (std::string) -> m"); t.is (fromString12.day (), 7, "ctor (std::string) -> d"); t.is (fromString12.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString12.hour (), 1, "ctor (std::string) -> h"); t.is (fromString12.minute (), 23, "ctor (std::string) -> N"); t.is (fromString12.second (), 45, "ctor (std::string) -> S"); Date fromString13 ("6/7/2010 12:34:56", "m/d/Y H:N:S"); t.is (fromString13.month (), 6, "ctor (std::string) -> m"); t.is (fromString13.day (), 7, "ctor (std::string) -> d"); t.is (fromString13.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString13.hour (), 12, "ctor (std::string) -> h"); t.is (fromString13.minute (), 34, "ctor (std::string) -> N"); t.is (fromString13.second (), 56, "ctor (std::string) -> S"); // Day of year t.is (Date ("1/1/2011", "m/d/Y").dayOfYear (), 1, "dayOfYear (1/1/2011) -> 1"); t.is (Date ("5/1/2011", "m/d/Y").dayOfYear (), 121, "dayOfYear (5/1/2011) -> 121"); t.is (Date ("12/31/2011", "m/d/Y").dayOfYear (), 365, "dayOfYear (12/31/2011) -> 365"); // Easter Date e1 (Date::easter(1980)); t.is (e1.toString (), "4/6/1980", "Easter 4/6/1980"); Date e2 (Date::easter(1995)); t.is (e2.toString (), "4/16/1995", "Easter 4/16/1995"); Date e3 (Date::easter(2000)); t.is (e3.toString (), "4/23/2000", "Easter 4/23/2000"); Date e4 (Date::easter(2009)); t.is (e4.toString (), "4/12/2009", "Easter 4/12/2009"); Date e5 (Date::easter(2010)); t.is (e5.toString (), "4/4/2010", "Easter 4/4/2010"); Date e6 (Date::easter(2011)); t.is (e6.toString (), "4/24/2011", "Easter 4/24/2011"); Date e7 (Date::easter(2012)); t.is (e7.toString (), "4/8/2012", "Easter 4/8/2012"); Date e8 (Date::easter(2020)); t.is (e8.toString (), "4/12/2020", "Easter 4/12/2020"); // Relative dates. Date r1 ("today"); t.ok (r1.sameDay (now), "today = now"); Date r4 ("sunday"); if (now.dayOfWeek () >= 0) t.ok (r4.sameDay (now + (0 - now.dayOfWeek () + 7) * 86400), "next sunday"); else t.ok (r4.sameDay (now + (0 - now.dayOfWeek ()) * 86400), "next sunday");; Date r5 ("monday"); if (now.dayOfWeek () >= 1) t.ok (r5.sameDay (now + (1 - now.dayOfWeek () + 7) * 86400), "next monday"); else t.ok (r5.sameDay (now + (1 - now.dayOfWeek ()) * 86400), "next monday");; Date r6 ("tuesday"); if (now.dayOfWeek () >= 2) t.ok (r6.sameDay (now + (2 - now.dayOfWeek () + 7) * 86400), "next tuesday"); else t.ok (r6.sameDay (now + (2 - now.dayOfWeek ()) * 86400), "next tuesday");; Date r7 ("wednesday"); if (now.dayOfWeek () >= 3) t.ok (r7.sameDay (now + (3 - now.dayOfWeek () + 7) * 86400), "next wednesday"); else t.ok (r7.sameDay (now + (3 - now.dayOfWeek ()) * 86400), "next wednesday");; Date r8 ("thursday"); if (now.dayOfWeek () >= 4) t.ok (r8.sameDay (now + (4 - now.dayOfWeek () + 7) * 86400), "next thursday"); else t.ok (r8.sameDay (now + (4 - now.dayOfWeek ()) * 86400), "next thursday");; Date r9 ("friday"); if (now.dayOfWeek () >= 5) t.ok (r9.sameDay (now + (5 - now.dayOfWeek () + 7) * 86400), "next friday"); else t.ok (r9.sameDay (now + (5 - now.dayOfWeek ()) * 86400), "next friday");; Date r10 ("saturday"); if (now.dayOfWeek () >= 6) t.ok (r10.sameDay (now + (6 - now.dayOfWeek () + 7) * 86400), "next saturday"); else t.ok (r10.sameDay (now + (6 - now.dayOfWeek ()) * 86400), "next saturday");; Date r11 ("eow"); t.ok (r11 < now + (8 * 86400), "eow < 7 days away"); Date r12 ("eocw"); t.ok (r12 > now - (8 * 86400), "eocw < 7 days in the past"); Date r13 ("eom"); t.ok (r13.sameMonth (now), "eom in same month as now"); Date r14 ("eocm"); t.ok (r14.sameMonth (now), "eocm in same month as now"); Date r15 ("eoy"); t.ok (r15.sameYear (now), "eoy in same year as now"); Date r16 ("sow"); t.ok (r16 < now + (8 * 86400), "sow < 7 days away"); Date r23 ("socw"); t.ok (r23 > now - (8 * 86400), "sow < 7 days in the past"); Date r17 ("som"); t.notok (r17.sameMonth (now), "som not in same month as now"); Date r18 ("socm"); t.ok (r18.sameMonth (now), "socm in same month as now"); Date r19 ("soy"); t.notok (r19.sameYear (now), "soy not in same year as now"); Date first ("1st"); t.notok (first.sameMonth (now), "1st not in same month as now"); t.is (first.day (), 1, "1st day is 1"); Date later ("later"); t.is (later.month (), 1, "later -> m = 1"); t.is (later.day (), 18, "later -> d = 18"); t.is (later.year (), 2038, "later -> y = 2038"); // Quarters Date soq ("soq"); Date eoq ("eoq"); t.is (soq.day (), 1, "soq is the first day of a month"); t.is (eoq.day () / 10, 3, "eoq is the 30th or 31th of a month"); t.is (soq.month () % 3, 1, "soq month is 1, 4, 7 or 10"); t.is (eoq.month () % 3, 0, "eoq month is 3, 6, 9 or 12"); // Note: these fail during the night of daylight savings end. t.ok (soq.sameYear (now) || (now.month () >= 10 && soq.year () == now.year () + 1), "soq is in same year as now"); t.ok (eoq.sameYear (now), "eoq is in same year as now"); // Date::sameHour Date r20 ("6/7/2010 01:00:00", "m/d/Y H:N:S"); Date r21 ("6/7/2010 01:59:59", "m/d/Y H:N:S"); t.ok (r20.sameHour (r21), "two dates within the same hour"); Date r22 ("6/7/2010 00:59:59", "m/d/Y H:N:S"); t.notok (r20.sameHour (r22), "two dates not within the same hour"); // Date::operator- Date r25 (1234567890); t.is ((r25 - 1).toEpoch (), 1234567889, "1234567890 - 1 = 1234567889"); // Date::operator-- Date r26 (11, 7, 2010, 23, 59, 59); r26--; t.is (r26.toString ("YMDHNS"), "20101106235959", "decrement across fall DST boundary"); Date r27 (3, 14, 2010, 23, 59, 59); r27--; t.is (r27.toString ("YMDHNS"), "20100313235959", "decrement across spring DST boundary"); // Date::operator++ Date r28 (11, 6, 2010, 23, 59, 59); r28++; t.is (r28.toString ("YMDHNS"), "20101107235959", "increment across fall DST boundary"); Date r29 (3, 13, 2010, 23, 59, 59); r29++; t.is (r29.toString ("YMDHNS"), "20100314235959", "increment across spring DST boundary"); // int Date::length (const std::string&); t.is (Date::length ("m"), 2, "length 'm' --> 2"); t.is (Date::length ("M"), 2, "length 'M' --> 2"); t.is (Date::length ("d"), 2, "length 'd' --> 2"); t.is (Date::length ("D"), 2, "length 'D' --> 2"); t.is (Date::length ("y"), 2, "length 'y' --> 2"); t.is (Date::length ("Y"), 4, "length 'Y' --> 4"); t.is (Date::length ("a"), 3, "length 'a' --> 3"); t.is (Date::length ("A"), 10, "length 'A' --> 10"); t.is (Date::length ("b"), 3, "length 'b' --> 3"); t.is (Date::length ("B"), 10, "length 'B' --> 10"); t.is (Date::length ("v"), 2, "length 'v' --> 2"); t.is (Date::length ("V"), 2, "length 'V' --> 2"); t.is (Date::length ("h"), 2, "length 'h' --> 2"); t.is (Date::length ("H"), 2, "length 'H' --> 2"); t.is (Date::length ("n"), 2, "length 'n' --> 2"); t.is (Date::length ("N"), 2, "length 'N' --> 2"); t.is (Date::length ("s"), 2, "length 's' --> 2"); t.is (Date::length ("S"), 2, "length 'S' --> 2"); t.is (Date::length ("j"), 3, "length 'j' --> 3"); t.is (Date::length ("J"), 3, "length 'J' --> 3"); t.is (Date::length (" "), 1, "length ' ' --> 1"); // Depletion requirement. Date r30 ("Mon Jun 30 2014", "a b D Y", false, false); t.is (r30.toString ("YMDHNS"), "20140630000000", "Depletion required on complex format with spaces"); std::string::size_type i = 0; Date r31 ("Mon Jun 30 2014 xxx", i, "a b D Y", false, false); t.is (r31.toString ("YMDHNS"), "20140630000000", "Depletion not required on complex format with spaces"); t.is ((int)i, 15, "Depletion not required on complex format with spaces, 15 chars"); } catch (const std::string& e) { t.fail ("Exception thrown."); t.diag (e); } return 0; }
int main (int, char**) { UnitTest t (966); ISO8601d iso; std::string::size_type start = 0; t.notok (iso.parse ("foo", start), "foo --> false"); t.is ((int)start, 0, "foo[0]"); // Determine local and UTC time. time_t now = time (NULL); struct tm* local_now = localtime (&now); int local_s = (local_now->tm_hour * 3600) + (local_now->tm_min * 60) + local_now->tm_sec; local_now->tm_hour = 0; local_now->tm_min = 0; local_now->tm_sec = 0; local_now->tm_isdst = -1; time_t local = mktime (local_now); std::cout << "# local midnight today " << local << "\n"; local_now->tm_year = 2013 - 1900; local_now->tm_mon = 12 - 1; local_now->tm_mday = 6; local_now->tm_isdst = 0; time_t local6 = mktime (local_now); std::cout << "# local midnight 2013-12-06 " << local6 << "\n"; local_now->tm_year = 2013 - 1900; local_now->tm_mon = 12 - 1; local_now->tm_mday = 1; local_now->tm_isdst = 0; time_t local1 = mktime (local_now); std::cout << "# local midnight 2013-12-01 " << local1 << "\n"; struct tm* utc_now = gmtime (&now); int utc_s = (utc_now->tm_hour * 3600) + (utc_now->tm_min * 60) + utc_now->tm_sec; utc_now->tm_hour = 0; utc_now->tm_min = 0; utc_now->tm_sec = 0; utc_now->tm_isdst = -1; time_t utc = timegm (utc_now); std::cout << "# utc midnight today " << utc << "\n"; utc_now->tm_year = 2013 - 1900; utc_now->tm_mon = 12 - 1; utc_now->tm_mday = 6; utc_now->tm_isdst = 0; time_t utc6 = timegm (utc_now); std::cout << "# utc midnight 2013-12-06 " << utc6 << "\n"; utc_now->tm_year = 2013 - 1900; utc_now->tm_mon = 12 - 1; utc_now->tm_mday = 1; utc_now->tm_isdst = 0; time_t utc1 = timegm (utc_now); std::cout << "# utc midnight 2013-12-01 " << utc1 << "\n"; int hms = (12 * 3600) + (34 * 60) + 56; // The time 12:34:56 in seconds. int hm = (12 * 3600) + (34 * 60); // The time 12:34:00 in seconds. int z = 3600; // TZ offset. int ld = local_s > hms ? 86400 : 0; // Local extra day if now > hms. int ud = utc_s > hms ? 86400 : 0; // UTC extra day if now > hms. std::cout << "# ld " << ld << "\n"; std::cout << "# ud " << ud << "\n"; // Aggregated. // input i Year Mo Wk WD Jul Da Secs TZ UTC time_t testParse (t, "12:34:56 ", 8, 0, 0, 0, 0, 0, 0, hms, 0, false, local+hms+ld ); // time-ext // input i Year Mo Wk WD Jul Da Secs TZ UTC time_t testParse (t, "12:34:56Z", 9, 0, 0, 0, 0, 0, 0, hms, 0, true, utc+hms+ud ); testParse (t, "12:34Z", 6, 0, 0, 0, 0, 0, 0, hm, 0, true, utc+hm+ud ); testParse (t, "12:34:56+01:00", 14, 0, 0, 0, 0, 0, 0, hms, 3600, false, utc+hms-z+ud ); testParse (t, "12:34:56+01", 11, 0, 0, 0, 0, 0, 0, hms, 3600, false, utc+hms-z+ud ); testParse (t, "12:34+01:00", 11, 0, 0, 0, 0, 0, 0, hm, 3600, false, utc+hm-z+ud ); testParse (t, "12:34+01", 8, 0, 0, 0, 0, 0, 0, hm, 3600, false, utc+hm-z+ud ); testParse (t, "12:34:56", 8, 0, 0, 0, 0, 0, 0, hms, 0, false, local+hms+ld ); testParse (t, "12:34", 5, 0, 0, 0, 0, 0, 0, hm, 0, false, local+hm+ld ); // datetime-ext // input i Year Mo Wk WD Jul Da Secs TZ UTC time_t testParse (t, "2013-12-06", 10, 2013, 12, 0, 0, 0, 6, 0, 0, false, local6 ); testParse (t, "2013-340", 8, 2013, 0, 0, 0, 340, 0, 0, 0, false, local6 ); testParse (t, "2013-W49-5", 10, 2013, 0, 49, 5, 0, 0, 0, 0, false, local6 ); testParse (t, "2013-W49", 8, 2013, 0, 49, 0, 0, 0, 0, 0, false, local1 ); testParse (t, "2013-12-06T12:34:56", 19, 2013, 12, 0, 0, 0, 6, hms, 0, false, local6+hms); testParse (t, "2013-12-06T12:34", 16, 2013, 12, 0, 0, 0, 6, hm, 0, false, local6+hm ); testParse (t, "2013-340T12:34:56", 17, 2013, 0, 0, 0, 340, 0, hms, 0, false, local6+hms); testParse (t, "2013-340T12:34", 14, 2013, 0, 0, 0, 340, 0, hm, 0, false, local6+hm ); testParse (t, "2013-W49-5T12:34:56", 19, 2013, 0, 49, 5, 0, 0, hms, 0, false, local6+hms); testParse (t, "2013-W49-5T12:34", 16, 2013, 0, 49, 5, 0, 0, hm, 0, false, local6+hm ); testParse (t, "2013-W49T12:34:56", 17, 2013, 0, 49, 0, 0, 0, hms, 0, false, local1+hms); testParse (t, "2013-W49T12:34", 14, 2013, 0, 49, 0, 0, 0, hm, 0, false, local1+hm ); testParse (t, "2013-12-06T12:34:56Z", 20, 2013, 12, 0, 0, 0, 6, hms, 0, true, utc6+hms ); testParse (t, "2013-12-06T12:34Z", 17, 2013, 12, 0, 0, 0, 6, hm, 0, true, utc6+hm ); testParse (t, "2013-340T12:34:56Z", 18, 2013, 0, 0, 0, 340, 0, hms, 0, true, utc6+hms ); testParse (t, "2013-340T12:34Z", 15, 2013, 0, 0, 0, 340, 0, hm, 0, true, utc6+hm ); testParse (t, "2013-W49-5T12:34:56Z", 20, 2013, 0, 49, 5, 0, 0, hms, 0, true, utc6+hms ); testParse (t, "2013-W49-5T12:34Z", 17, 2013, 0, 49, 5, 0, 0, hm, 0, true, utc6+hm ); testParse (t, "2013-W49T12:34:56Z", 18, 2013, 0, 49, 0, 0, 0, hms, 0, true, utc1+hms ); testParse (t, "2013-W49T12:34Z", 15, 2013, 0, 49, 0, 0, 0, hm, 0, true, utc1+hm ); testParse (t, "2013-12-06T12:34:56+01:00", 25, 2013, 12, 0, 0, 0, 6, hms, 3600, false, utc6+hms-z); testParse (t, "2013-12-06T12:34:56+01", 22, 2013, 12, 0, 0, 0, 6, hms, 3600, false, utc6+hms-z); testParse (t, "2013-12-06T12:34:56-01:00", 25, 2013, 12, 0, 0, 0, 6, hms, -3600, false, utc6+hms+z); testParse (t, "2013-12-06T12:34:56-01", 22, 2013, 12, 0, 0, 0, 6, hms, -3600, false, utc6+hms+z); testParse (t, "2013-12-06T12:34+01:00", 22, 2013, 12, 0, 0, 0, 6, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-12-06T12:34+01", 19, 2013, 12, 0, 0, 0, 6, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-12-06T12:34-01:00", 22, 2013, 12, 0, 0, 0, 6, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-12-06T12:34-01", 19, 2013, 12, 0, 0, 0, 6, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-340T12:34:56+01:00", 23, 2013, 0, 0, 0, 340, 0, hms, 3600, false, utc6+hms-z); testParse (t, "2013-340T12:34:56+01", 20, 2013, 0, 0, 0, 340, 0, hms, 3600, false, utc6+hms-z); testParse (t, "2013-340T12:34:56-01:00", 23, 2013, 0, 0, 0, 340, 0, hms, -3600, false, utc6+hms+z); testParse (t, "2013-340T12:34:56-01", 20, 2013, 0, 0, 0, 340, 0, hms, -3600, false, utc6+hms+z); testParse (t, "2013-340T12:34+01:00", 20, 2013, 0, 0, 0, 340, 0, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-340T12:34+01", 17, 2013, 0, 0, 0, 340, 0, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-340T12:34-01:00", 20, 2013, 0, 0, 0, 340, 0, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-340T12:34-01", 17, 2013, 0, 0, 0, 340, 0, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-W49-5T12:34:56+01:00", 25, 2013, 0, 49, 5, 0, 0, hms, 3600, false, utc6+hms-z); testParse (t, "2013-W49-5T12:34:56+01", 22, 2013, 0, 49, 5, 0, 0, hms, 3600, false, utc6+hms-z); testParse (t, "2013-W49-5T12:34:56-01:00", 25, 2013, 0, 49, 5, 0, 0, hms, -3600, false, utc6+hms+z); testParse (t, "2013-W49-5T12:34:56-01", 22, 2013, 0, 49, 5, 0, 0, hms, -3600, false, utc6+hms+z); testParse (t, "2013-W49-5T12:34+01:00", 22, 2013, 0, 49, 5, 0, 0, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-W49-5T12:34+01", 19, 2013, 0, 49, 5, 0, 0, hm, 3600, false, utc6+hm-z ); testParse (t, "2013-W49-5T12:34-01:00", 22, 2013, 0, 49, 5, 0, 0, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-W49-5T12:34-01", 19, 2013, 0, 49, 5, 0, 0, hm, -3600, false, utc6+hm+z ); testParse (t, "2013-W49T12:34:56+01:00", 23, 2013, 0, 49, 0, 0, 0, hms, 3600, false, utc1+hms-z); testParse (t, "2013-W49T12:34:56+01", 20, 2013, 0, 49, 0, 0, 0, hms, 3600, false, utc1+hms-z); testParse (t, "2013-W49T12:34:56-01:00", 23, 2013, 0, 49, 0, 0, 0, hms, -3600, false, utc1+hms+z); testParse (t, "2013-W49T12:34:56-01", 20, 2013, 0, 49, 0, 0, 0, hms, -3600, false, utc1+hms+z); testParse (t, "2013-W49T12:34+01:00", 20, 2013, 0, 49, 0, 0, 0, hm, 3600, false, utc1+hm-z ); testParse (t, "2013-W49T12:34+01", 17, 2013, 0, 49, 0, 0, 0, hm, 3600, false, utc1+hm-z ); testParse (t, "2013-W49T12:34-01:00", 20, 2013, 0, 49, 0, 0, 0, hm, -3600, false, utc1+hm+z ); testParse (t, "2013-W49T12:34-01", 17, 2013, 0, 49, 0, 0, 0, hm, -3600, false, utc1+hm+z ); // The only non-extended forms. testParse (t, "20131206T123456Z", 16, 2013, 12, 0, 0, 0, 6, hms, 0, true, utc6+hms ); testParse (t, "20131206T123456", 15, 2013, 12, 0, 0, 0, 6, hms, 0, false, local6+hms); try { ISO8601d now; t.ok (now.toISO ().find ("1969") == std::string::npos, "'now' != 1969"); ISO8601d yesterday; yesterday -= 86400; ISO8601d tomorrow; tomorrow += 86400; t.ok (yesterday <= now, "yesterday <= now"); t.ok (yesterday < now, "yesterday < now"); t.notok (yesterday == now, "!(yesterday == now)"); t.ok (yesterday != now, "yesterday != now"); t.ok (now >= yesterday, "now >= yesterday"); t.ok (now > yesterday, "now > yesterday"); t.ok (tomorrow >= now, "tomorrow >= now"); t.ok (tomorrow > now, "tomorrow > now"); t.notok (tomorrow == now, "!(tomorrow == now)"); t.ok (tomorrow != now, "tomorrow != now"); t.ok (now <= tomorrow, "now <= tomorrow"); t.ok (now < tomorrow, "now < tomorrow"); // ctor ("now") context.config.set ("weekstart", "monday"); ISO8601d relative_now; t.ok (relative_now.sameHour (now), "ISO8601d ().sameHour (ISO8601d (now))"); t.ok (relative_now.sameDay (now), "ISO8601d ().sameDay (ISO8601d (now))"); t.ok (relative_now.sameWeek (now), "ISO8601d ().sameWeek (ISO8601d (now))"); t.ok (relative_now.sameMonth (now), "ISO8601d ().sameMonth (ISO8601d (now))"); t.ok (relative_now.sameYear (now), "ISO8601d ().sameYear (ISO8601d (now))"); // Loose comparisons. ISO8601d left ("7/4/2008", "m/d/Y"); ISO8601d comp1 ("7/4/2008", "m/d/Y"); t.ok (left.sameDay (comp1), "7/4/2008 is on the same day as 7/4/2008"); t.ok (left.sameWeek (comp1), "7/4/2008 is on the same week as 7/4/2008"); t.ok (left.sameMonth (comp1), "7/4/2008 is in the same month as 7/4/2008"); t.ok (left.sameYear (comp1), "7/4/2008 is in the same year as 7/4/2008"); ISO8601d comp2 ("7/5/2008", "m/d/Y"); t.notok (left.sameDay (comp2), "7/4/2008 is not on the same day as 7/5/2008"); t.ok (left.sameMonth (comp2), "7/4/2008 is in the same month as 7/5/2008"); t.ok (left.sameYear (comp2), "7/4/2008 is in the same year as 7/5/2008"); ISO8601d comp3 ("8/4/2008", "m/d/Y"); t.notok (left.sameDay (comp3), "7/4/2008 is not on the same day as 8/4/2008"); t.notok (left.sameWeek (comp3), "7/4/2008 is not on the same week as 8/4/2008"); t.notok (left.sameMonth (comp3), "7/4/2008 is not in the same month as 8/4/2008"); t.ok (left.sameYear (comp3), "7/4/2008 is in the same year as 8/4/2008"); ISO8601d comp4 ("7/4/2009", "m/d/Y"); t.notok (left.sameDay (comp4), "7/4/2008 is not on the same day as 7/4/2009"); t.notok (left.sameWeek (comp3), "7/4/2008 is not on the same week as 7/4/2009"); t.notok (left.sameMonth (comp4), "7/4/2008 is not in the same month as 7/4/2009"); t.notok (left.sameYear (comp4), "7/4/2008 is not in the same year as 7/4/2009"); // Validity. t.ok (ISO8601d::valid (2, 29, 2008), "valid: 2/29/2008"); t.notok (ISO8601d::valid (2, 29, 2007), "invalid: 2/29/2007"); t.ok (ISO8601d::valid ("2/29/2008", "m/d/Y"), "valid: 2/29/2008"); t.notok (ISO8601d::valid ("2/29/2007", "m/d/Y"), "invalid: 2/29/2007"); t.ok (ISO8601d::valid (366, 2008), "valid: 366 days in 2008"); t.notok (ISO8601d::valid (366, 2007), "invalid: 366 days in 2007"); // Time validity. t.ok (ISO8601d::valid (2, 28, 2010, 0, 0, 0), "valid 2/28/2010 0:00:00"); t.ok (ISO8601d::valid (2, 28, 2010, 23, 59, 59), "valid 2/28/2010 23:59:59"); t.notok (ISO8601d::valid (2, 28, 2010, 24, 59, 59), "valid 2/28/2010 24:59:59"); t.notok (ISO8601d::valid (2, 28, 2010, -1, 0, 0), "valid 2/28/2010 -1:00:00"); // Leap year. t.ok (ISO8601d::leapYear (2008), "2008 is a leap year"); t.notok (ISO8601d::leapYear (2007), "2007 is not a leap year"); t.ok (ISO8601d::leapYear (2000), "2000 is a leap year"); t.notok (ISO8601d::leapYear (1900), "1900 is not a leap year"); // Days in year. t.is (ISO8601d::daysInYear (2016), 366, "366 days in 2016"); t.is (ISO8601d::daysInYear (2015), 365, "365 days in 2015"); // Days in month. t.is (ISO8601d::daysInMonth (2, 2008), 29, "29 days in February 2008"); t.is (ISO8601d::daysInMonth (2, 2007), 28, "28 days in February 2007"); // Names. t.is (ISO8601d::monthName (1), "January", "1 = January"); t.is (ISO8601d::monthName (2), "February", "2 = February"); t.is (ISO8601d::monthName (3), "March", "3 = March"); t.is (ISO8601d::monthName (4), "April", "4 = April"); t.is (ISO8601d::monthName (5), "May", "5 = May"); t.is (ISO8601d::monthName (6), "June", "6 = June"); t.is (ISO8601d::monthName (7), "July", "7 = July"); t.is (ISO8601d::monthName (8), "August", "8 = August"); t.is (ISO8601d::monthName (9), "September", "9 = September"); t.is (ISO8601d::monthName (10), "October", "10 = October"); t.is (ISO8601d::monthName (11), "November", "11 = November"); t.is (ISO8601d::monthName (12), "December", "12 = December"); // Names. t.is (ISO8601d::monthOfYear ("January"), 1, "January = 1"); t.is (ISO8601d::monthOfYear ("February"), 2, "February = 2"); t.is (ISO8601d::monthOfYear ("March"), 3, "March = 3"); t.is (ISO8601d::monthOfYear ("April"), 4, "April = 4"); t.is (ISO8601d::monthOfYear ("May"), 5, "May = 5"); t.is (ISO8601d::monthOfYear ("June"), 6, "June = 6"); t.is (ISO8601d::monthOfYear ("July"), 7, "July = 7"); t.is (ISO8601d::monthOfYear ("August"), 8, "August = 8"); t.is (ISO8601d::monthOfYear ("September"), 9, "September = 9"); t.is (ISO8601d::monthOfYear ("October"), 10, "October = 10"); t.is (ISO8601d::monthOfYear ("November"), 11, "November = 11"); t.is (ISO8601d::monthOfYear ("December"), 12, "December = 12"); t.is (ISO8601d::dayName (0), "Sunday", "0 == Sunday"); t.is (ISO8601d::dayName (1), "Monday", "1 == Monday"); t.is (ISO8601d::dayName (2), "Tuesday", "2 == Tuesday"); t.is (ISO8601d::dayName (3), "Wednesday", "3 == Wednesday"); t.is (ISO8601d::dayName (4), "Thursday", "4 == Thursday"); t.is (ISO8601d::dayName (5), "Friday", "5 == Friday"); t.is (ISO8601d::dayName (6), "Saturday", "6 == Saturday"); t.is (ISO8601d::dayOfWeek ("SUNDAY"), 0, "SUNDAY == 0"); t.is (ISO8601d::dayOfWeek ("sunday"), 0, "sunday == 0"); t.is (ISO8601d::dayOfWeek ("Sunday"), 0, "Sunday == 0"); t.is (ISO8601d::dayOfWeek ("Monday"), 1, "Monday == 1"); t.is (ISO8601d::dayOfWeek ("Tuesday"), 2, "Tuesday == 2"); t.is (ISO8601d::dayOfWeek ("Wednesday"), 3, "Wednesday == 3"); t.is (ISO8601d::dayOfWeek ("Thursday"), 4, "Thursday == 4"); t.is (ISO8601d::dayOfWeek ("Friday"), 5, "Friday == 5"); t.is (ISO8601d::dayOfWeek ("Saturday"), 6, "Saturday == 6"); ISO8601d happyNewYear (1, 1, 2008); t.is (happyNewYear.dayOfWeek (), 2, "1/1/2008 == Tuesday"); t.is (happyNewYear.month (), 1, "1/1/2008 == January"); t.is (happyNewYear.day (), 1, "1/1/2008 == 1"); t.is (happyNewYear.year (), 2008, "1/1/2008 == 2008"); t.is (happyNewYear.toString (), "1/1/2008", "toString 1/1/2008"); int m, d, y; happyNewYear.toMDY (m, d, y); t.is (m, 1, "1/1/2008 == January"); t.is (d, 1, "1/1/2008 == 1"); t.is (y, 2008, "1/1/2008 == 2008"); ISO8601d epoch (9, 8, 2001); t.ok ((int)epoch.toEpoch () < 1000000000, "9/8/2001 < 1,000,000,000"); epoch += 172800; t.ok ((int)epoch.toEpoch () > 1000000000, "9/10/2001 > 1,000,000,000"); ISO8601d fromEpoch (epoch.toEpoch ()); t.is (fromEpoch.toString (), epoch.toString (), "ctor (time_t)"); ISO8601d iso (1000000000); t.is (iso.toISO (), "20010909T014640Z", "1,000,000,000 -> 20010909T014640Z"); // Quantization. ISO8601d quant (1234526400); t.is (quant.startOfDay ().toString ("YMDHNS"), "20090213000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/13/2009 0:00:00"); t.is (quant.startOfWeek ().toString ("YMDHNS"), "20090208000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/8/2009 0:00:00"); t.is (quant.startOfMonth ().toString ("YMDHNS"), "20090201000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 2/1/2009 0:00:00"); t.is (quant.startOfYear ().toString ("YMDHNS"), "20090101000000", "1234526400 -> 2/13/2009 12:00:00 UTC -> 1/1/2009 0:00:00"); // Format parsing. ISO8601d fromString1 ("1/1/2008", "m/d/Y"); t.is (fromString1.month (), 1, "ctor (std::string) -> m"); t.is (fromString1.day (), 1, "ctor (std::string) -> d"); t.is (fromString1.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString2 ("20080101", "YMD"); t.is (fromString2.month (), 1, "ctor (std::string) -> m"); t.is (fromString2.day (), 1, "ctor (std::string) -> d"); t.is (fromString2.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString3 ("12/31/2007", "m/d/Y"); t.is (fromString3.month (), 12, "ctor (std::string) -> m"); t.is (fromString3.day (), 31, "ctor (std::string) -> d"); t.is (fromString3.year (), 2007, "ctor (std::string) -> y"); ISO8601d fromString4 ("01/01/2008", "m/d/Y"); t.is (fromString4.month (), 1, "ctor (std::string) -> m"); t.is (fromString4.day (), 1, "ctor (std::string) -> d"); t.is (fromString4.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString5 ("Tue 05 Feb 2008 (06)", "a D b Y (V)"); t.is (fromString5.month (), 2, "ctor (std::string) -> m"); t.is (fromString5.day (), 5, "ctor (std::string) -> d"); t.is (fromString5.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString6 ("Tuesday, February 5, 2008", "A, B d, Y"); t.is (fromString6.month (), 2, "ctor (std::string) -> m"); t.is (fromString6.day (), 5, "ctor (std::string) -> d"); t.is (fromString6.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString7 ("w01 Tue 2008-01-01", "wV a Y-M-D"); t.is (fromString7.month (), 1, "ctor (std::string) -> m"); t.is (fromString7.day (), 1, "ctor (std::string) -> d"); t.is (fromString7.year (), 2008, "ctor (std::string) -> y"); ISO8601d fromString8 ("6/7/2010 1:23:45", "m/d/Y h:N:S"); t.is (fromString8.month (), 6, "ctor (std::string) -> m"); t.is (fromString8.day (), 7, "ctor (std::string) -> d"); t.is (fromString8.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString8.hour (), 1, "ctor (std::string) -> h"); t.is (fromString8.minute (), 23, "ctor (std::string) -> N"); t.is (fromString8.second (), 45, "ctor (std::string) -> S"); ISO8601d fromString9 ("6/7/2010 01:23:45", "m/d/Y H:N:S"); t.is (fromString9.month (), 6, "ctor (std::string) -> m"); t.is (fromString9.day (), 7, "ctor (std::string) -> d"); t.is (fromString9.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString9.hour (), 1, "ctor (std::string) -> h"); t.is (fromString9.minute (), 23, "ctor (std::string) -> N"); t.is (fromString9.second (), 45, "ctor (std::string) -> S"); ISO8601d fromString10 ("6/7/2010 12:34:56", "m/d/Y H:N:S"); t.is (fromString10.month (), 6, "ctor (std::string) -> m"); t.is (fromString10.day (), 7, "ctor (std::string) -> d"); t.is (fromString10.year (), 2010, "ctor (std::string) -> Y"); t.is (fromString10.hour (), 12, "ctor (std::string) -> h"); t.is (fromString10.minute (), 34, "ctor (std::string) -> N"); t.is (fromString10.second (), 56, "ctor (std::string) -> S"); // Day of year t.is (ISO8601d ("1/1/2011", "m/d/Y").dayOfYear (), 1, "dayOfYear (1/1/2011) -> 1"); t.is (ISO8601d ("5/1/2011", "m/d/Y").dayOfYear (), 121, "dayOfYear (5/1/2011) -> 121"); t.is (ISO8601d ("12/31/2011", "m/d/Y").dayOfYear (), 365, "dayOfYear (12/31/2011) -> 365"); // Relative dates. ISO8601d r1 ("today"); t.ok (r1.sameDay (now), "today = now"); ISO8601d r4 ("sunday"); if (now.dayOfWeek () >= 0) t.ok (r4.sameDay (now + (0 - now.dayOfWeek () + 7) * 86400), "next sunday"); else t.ok (r4.sameDay (now + (0 - now.dayOfWeek ()) * 86400), "next sunday");; ISO8601d r5 ("monday"); if (now.dayOfWeek () >= 1) t.ok (r5.sameDay (now + (1 - now.dayOfWeek () + 7) * 86400), "next monday"); else t.ok (r5.sameDay (now + (1 - now.dayOfWeek ()) * 86400), "next monday");; ISO8601d r6 ("tuesday"); if (now.dayOfWeek () >= 2) t.ok (r6.sameDay (now + (2 - now.dayOfWeek () + 7) * 86400), "next tuesday"); else t.ok (r6.sameDay (now + (2 - now.dayOfWeek ()) * 86400), "next tuesday");; ISO8601d r7 ("wednesday"); if (now.dayOfWeek () >= 3) t.ok (r7.sameDay (now + (3 - now.dayOfWeek () + 7) * 86400), "next wednesday"); else t.ok (r7.sameDay (now + (3 - now.dayOfWeek ()) * 86400), "next wednesday");; ISO8601d r8 ("thursday"); if (now.dayOfWeek () >= 4) t.ok (r8.sameDay (now + (4 - now.dayOfWeek () + 7) * 86400), "next thursday"); else t.ok (r8.sameDay (now + (4 - now.dayOfWeek ()) * 86400), "next thursday");; ISO8601d r9 ("friday"); if (now.dayOfWeek () >= 5) t.ok (r9.sameDay (now + (5 - now.dayOfWeek () + 7) * 86400), "next friday"); else t.ok (r9.sameDay (now + (5 - now.dayOfWeek ()) * 86400), "next friday");; ISO8601d r10 ("saturday"); if (now.dayOfWeek () >= 6) t.ok (r10.sameDay (now + (6 - now.dayOfWeek () + 7) * 86400), "next saturday"); else t.ok (r10.sameDay (now + (6 - now.dayOfWeek ()) * 86400), "next saturday");; ISO8601d r11 ("eow"); t.ok (r11 < now + (8 * 86400), "eow < 7 days away"); ISO8601d r12 ("eocw"); t.ok (r12 > now - (8 * 86400), "eocw < 7 days in the past"); ISO8601d r13 ("eom"); t.ok (r13.sameMonth (now), "eom in same month as now"); ISO8601d r14 ("eocm"); t.ok (r14.sameMonth (now), "eocm in same month as now"); ISO8601d r15 ("eoy"); t.ok (r15.sameYear (now), "eoy in same year as now"); ISO8601d r16 ("sow"); t.ok (r16 < now + (8 * 86400), "sow < 7 days away"); ISO8601d r23 ("socw"); t.ok (r23 > now - (8 * 86400), "sow < 7 days in the past"); ISO8601d r17 ("som"); t.notok (r17.sameMonth (now), "som not in same month as now"); ISO8601d r18 ("socm"); t.ok (r18.sameMonth (now), "socm in same month as now"); ISO8601d r19 ("soy"); t.notok (r19.sameYear (now), "soy not in same year as now"); ISO8601d first ("1st"); t.notok (first.sameMonth (now), "1st not in same month as now"); t.is (first.day (), 1, "1st day is 1"); ISO8601d later ("later"); t.is (later.month (), 1, "later -> m = 1"); t.is (later.day (), 18, "later -> d = 18"); t.is (later.year (), 2038, "later -> y = 2038"); // Quarters ISO8601d soq ("soq"); ISO8601d eoq ("eoq"); t.is (soq.day (), 1, "soq is the first day of a month"); t.is (eoq.day () / 10, 3, "eoq is the 30th or 31th of a month"); t.is (soq.month () % 3, 1, "soq month is 1, 4, 7 or 10"); t.is (eoq.month () % 3, 0, "eoq month is 3, 6, 9 or 12"); // Note: these fail during the night of daylight savings end. t.ok (soq.sameYear (now) || (now.month () >= 10 && soq.year () == now.year () + 1), "soq is in same year as now"); t.ok (eoq.sameYear (now), "eoq is in same year as now"); // ISO8601d::sameHour ISO8601d r20 ("6/7/2010 01:00:00", "m/d/Y H:N:S"); ISO8601d r21 ("6/7/2010 01:59:59", "m/d/Y H:N:S"); t.ok (r20.sameHour (r21), "two dates within the same hour"); ISO8601d r22 ("6/7/2010 00:59:59", "m/d/Y H:N:S"); t.notok (r20.sameHour (r22), "two dates not within the same hour"); // ISO8601d::operator- ISO8601d r25 (1234567890); t.is ((r25 - 1).toEpoch (), 1234567889, "1234567890 - 1 = 1234567889"); // ISO8601d::operator-- ISO8601d r26 (11, 7, 2010, 23, 59, 59); r26--; t.is (r26.toString ("YMDHNS"), "20101106235959", "decrement across fall DST boundary"); ISO8601d r27 (3, 14, 2010, 23, 59, 59); r27--; t.is (r27.toString ("YMDHNS"), "20100313235959", "decrement across spring DST boundary"); // ISO8601d::operator++ ISO8601d r28 (11, 6, 2010, 23, 59, 59); r28++; t.is (r28.toString ("YMDHNS"), "20101107235959", "increment across fall DST boundary"); ISO8601d r29 (3, 13, 2010, 23, 59, 59); r29++; t.is (r29.toString ("YMDHNS"), "20100314235959", "increment across spring DST boundary"); // int ISO8601d::length (const std::string&); t.is (ISO8601d::length ("m"), 2, "length 'm' --> 2"); t.is (ISO8601d::length ("M"), 2, "length 'M' --> 2"); t.is (ISO8601d::length ("d"), 2, "length 'd' --> 2"); t.is (ISO8601d::length ("D"), 2, "length 'D' --> 2"); t.is (ISO8601d::length ("y"), 2, "length 'y' --> 2"); t.is (ISO8601d::length ("Y"), 4, "length 'Y' --> 4"); t.is (ISO8601d::length ("a"), 3, "length 'a' --> 3"); t.is (ISO8601d::length ("A"), 10, "length 'A' --> 10"); t.is (ISO8601d::length ("b"), 3, "length 'b' --> 3"); t.is (ISO8601d::length ("B"), 10, "length 'B' --> 10"); t.is (ISO8601d::length ("v"), 2, "length 'v' --> 2"); t.is (ISO8601d::length ("V"), 2, "length 'V' --> 2"); t.is (ISO8601d::length ("h"), 2, "length 'h' --> 2"); t.is (ISO8601d::length ("H"), 2, "length 'H' --> 2"); t.is (ISO8601d::length ("n"), 2, "length 'n' --> 2"); t.is (ISO8601d::length ("N"), 2, "length 'N' --> 2"); t.is (ISO8601d::length ("s"), 2, "length 's' --> 2"); t.is (ISO8601d::length ("S"), 2, "length 'S' --> 2"); t.is (ISO8601d::length ("j"), 3, "length 'j' --> 3"); t.is (ISO8601d::length ("J"), 3, "length 'J' --> 3"); t.is (ISO8601d::length (" "), 1, "length ' ' --> 1"); // Depletion requirement. ISO8601d r30 ("Mon Jun 30 2014", "a b D Y"); t.is (r30.toString ("YMDHNS"), "20140630000000", "Depletion required on complex format with spaces"); ISO8601d r31 ("Mon Jun 30 2014 xxx", "a b D Y"); t.is (r31.toString ("YMDHNS"), "20140630000000", "Depletion not required on complex format with spaces"); } catch (const std::string& e) { t.fail ("Exception thrown."); t.diag (e); } return 0; }