// Copyright 2017 PDFium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com #include "xfa/fgas/crt/cfgas_formatstring.h" #include #include #include "core/fpdfapi/cpdf_modulemgr.h" #include "testing/fx_string_testhelpers.h" #include "testing/gtest/include/gtest/gtest.h" #include "testing/test_support.h" #include "third_party/base/ptr_util.h" #include "xfa/fxfa/parser/cxfa_localemgr.h" class CFGAS_FormatStringTest : public testing::Test { public: CFGAS_FormatStringTest() { SetTZ("UTC"); CPDF_ModuleMgr::Get()->Init(); } ~CFGAS_FormatStringTest() override { CPDF_ModuleMgr::Get()->Destroy(); } void TearDown() override { fmt_.reset(); mgr_.reset(); } void SetTZ(const char* tz) { #if _FXM_PLATFORM_ == _FXM_PLATFORM_WINDOWS_ _putenv_s("TZ", tz); _tzset(); #else setenv("TZ", tz, 1); tzset(); #endif } // Note, this re-creates the fmt on each call. If you need to multiple // times store it locally. CFGAS_FormatString* fmt(const CFX_WideString& locale) { mgr_ = pdfium::MakeUnique(nullptr, locale); fmt_ = pdfium::MakeUnique(mgr_.get()); return fmt_.get(); } protected: std::unique_ptr mgr_; std::unique_ptr fmt_; }; // TODO(dsinclair): Looks like the formatter/parser does not handle the various // 'g' flags. TEST_F(CFGAS_FormatStringTest, DateFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = { {L"en", L"2002-10-25", L"MMMM DD, YYYY", L"October 25, 2002"}, // Note, this is in the doc as 5 but it's wrong and should be 3 by the // example in the Picture Clause Reference section. {L"en", L"20040722", L"'Week of the month is' w", L"Week of the month is 3"}, {L"en", L"20040722", L"e 'days after Sunday'", L"4 days after Sunday"}, {L"en", L"20040722", L"YYYY-'W'WW-e", L"2004-W30-4"}, {L"en", L"20040722", L"E 'days after Saturday'", L"5 days after Saturday"}, {L"en", L"2000-01-01", L"EEE, 'the' D 'of' MMMM, YYYY", L"Sat, the 1 of January, 2000"}, {L"en", L"2000-01-01", L"EEEE, 'the' D 'of' MMMM, YYYY", L"Saturday, the 1 of January, 2000"}, {L"en", L"19991202", L"MM/D/YY", L"12/2/99"}, {L"en", L"19990110", L"MMM D, YYYY", L"Jan 10, 1999"}, {L"en", L"19990202", L"J", L"33"}, {L"en", L"19990202", L"JJJ", L"033"}, {L"en", L"19991231", L"J", L"365"}, {L"en", L"20001231", L"J", L"366"}, {L"en", L"19990501", L"J", L"121"}, {L"en", L"19990901", L"J", L"244"}, {L"en", L"19990228", L"J", L"59"}, {L"en", L"20000229", L"J", L"60"}, {L"en", L"21000501", L"J", L"121"}, {L"en", L"19990102", L"M", L"1"}, {L"en", L"19990102", L"MMM", L"Jan"}, {L"en", L"19990102", L"YYYY G", L"1999 AD"}, // Week 01 of the year is the week containing Jan 04. // {L"en", L"19990102", L"WW", L"00"}, -- Returns 01 incorrectly // {L"en", L"19990104", L"WW", L"01"}, -- Returns 02 incorrectly // The ?*+ should format as whitespace. // {L"en", L"19990104", L"YYYY?*+MM", L"1999 01"}, // {L"en", L"1999-07-16", L"date{DD/MM/YY} '('date{MMM DD, YYYY}')'", // L"16/07/99 (Jul 16, 1999)"}, {L"de_CH", L"20041030", L"D. MMMM YYYY", L"30. Oktober 2004"}, {L"fr_CA", L"20041030", L"D MMMM YYYY", L"30 octobre 2004"}, {L"en", L"2002-10-25", L"date(fr){DD MMMM, YYYY}", L"25 octobre, 2002"}, {L"en", L"2002-10-25", L"date(es){EEEE, D 'de' MMMM 'de' YYYY}", L"viernes, 25 de octubre de 2002"}, // {L"en", L"2002-20-25", L"date.long(fr)()", L"25 octobre, 2002"}, // {L"ja", L"2003-11-03", L"gY/M/D", L"H15/11/3"}, // {L"ja", L"1989-01-08", L"ggY-M-D", L"\u5e731-1-8"}, // {L"ja", L"1989-11-03", L"gggYY/MM/DD", L"\u5e73\u621089/11/03"}, }; // Note, none of the full width date symbols are listed here // as they are not supported. In theory there are the full width versions // of DDD, DDDD, MMM, MMMM, E, e, gg, YYY, YYYYY. for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->FormatDateTime(tests[i].input, tests[i].pattern, FX_DATETIMETYPE_Date, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, TimeFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = {{L"en", L"01:01:11", L"h:M A", L"1:1 AM"}, {L"en", L"13:01:11", L"h:M A", L"1:1 PM"}, {L"en", L"01:01:11", L"hh:MM:SS A", L"01:01:11 AM"}, {L"en", L"13:01:11", L"hh:MM:SS A", L"01:01:11 PM"}, {L"en", L"01:01:11", L"hh:MM:SS A Z", L"01:01:11 AM GMT-02:00"}, {L"en", L"01:01:11", L"hh:MM:SS A z", L"01:01:11 AM -02:00"}, // {L"en", L"01:01:11", L"hh:MM:SS A zz", L"01:01:11 AM GMT"}, // Should change ?*+ into ' ' when formatting. // {L"en", L"01:01:11", L"hh:MM:SS?*+A", L"01:01:11 AM"}, {L"en", L"12:01:01", L"k:MM:SS", L"12:01:01"}, {L"en", L"14:01:01", L"k:MM:SS", L"2:01:01"}, {L"en", L"12:01:11", L"kk:MM", L"12:01"}, {L"en", L"14:01:11", L"kk:MM", L"02:01"}, {L"en", L"12:01:11 +04:30", L"kk:MM", L"05:31"}, {L"en", L"12:01:11", L"kk:MM A", L"12:01 PM"}, {L"en", L"00:01:01", L"H:M:S", L"0:1:1"}, {L"en", L"13:02:11", L"H:M:S", L"13:2:11"}, {L"en", L"00:01:11.001", L"HH:M:S.FFF", L"00:1:11.001"}, {L"en", L"13:02:11", L"HH:M", L"13:2"}, {L"en", L"00:01:11", L"K:M", L"24:1"}, {L"en", L"00:02:11", L"KK:M", L"24:2"}, {L"en", L"11:11:11", L"HH:MM:SS 'o''clock' A Z", L"11:11:11 o'clock AM GMT-02:00"}, {L"en", L"14:30:59", L"h:MM A", L"2:30 PM"}, {L"en", L"14:30:59", L"HH:MM:SS A Z", L"14:30:59 PM GMT-02:00"}}; // Note, none of the full width time symbols are listed here // as they are not supported. In theory there are the full // width versions of kkk, kkkk, HHH, HHHH, KKK, KKKK, MMM, MMMM, // SSS, SSSS plus 2 more that the spec apparently forgot to // list the symbol. // The z modifier only appends if the TZ is outside of +0 SetTZ("UTC+2"); for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->FormatDateTime(tests[i].input, tests[i].pattern, FX_DATETIMETYPE_Time, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } SetTZ("UTC"); } TEST_F(CFGAS_FormatStringTest, DateTimeFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = { {L"en", L"1999-07-16T10:30Z", L"'At' time{HH:MM Z} 'on' date{MMM DD, YYYY}", L"At 10:30 GMT on Jul 16, 1999"}, {L"en", L"1999-07-16T10:30", L"'At' time{HH:MM} 'on' date{MMM DD, YYYY}", L"At 10:30 on Jul 16, 1999"}, {L"en", L"1999-07-16T10:30Z", L"time{'At' HH:MM Z} date{'on' MMM DD, YYYY}", L"At 10:30 GMT on Jul 16, 1999"}, {L"en", L"1999-07-16T10:30Z", L"time{'At 'HH:MM Z}date{' on 'MMM DD, YYYY}", L"At 10:30 GMT on Jul 16, 1999"}}; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->FormatDateTime(tests[i].input, tests[i].pattern, FX_DATETIMETYPE_TimeDate, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, DateParse) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; CFX_DateTime output; } tests[] = { {L"en", L"12/2/99", L"MM/D/YY", CFX_DateTime(1999, 12, 2, 0, 0, 0, 0)}, {L"en", L"2/2/99", L"M/D/YY", CFX_DateTime(1999, 2, 2, 0, 0, 0, 0)}, {L"en", L"2/2/10", L"M/D/YY", CFX_DateTime(2010, 2, 2, 0, 0, 0, 0)}, {L"en", L"Jan 10, 1999", L"MMM D, YYYY", CFX_DateTime(1999, 1, 10, 0, 0, 0, 0)}, {L"en", L"Jan 10, 1999 AD", L"MMM D, YYYY G", CFX_DateTime(1999, 1, 10, 0, 0, 0, 0)}, // TODO(dsinclair): Should this be -2 instead of 2? {L"en", L"Jan 10, 0002 BC", L"MMM D, YYYY G", CFX_DateTime(2, 1, 10, 0, 0, 0, 0)}, {L"en", L"October 25, 2002", L"MMMM DD, YYYY", CFX_DateTime(2002, 10, 25, 0, 0, 0, 0)}, // TODO(dsinclair): The J and JJJ are ignored during parsing when they // could be turned back into a date. {L"en", L"1999-33", L"YYYY-J", CFX_DateTime(1999, 1, 1, 0, 0, 0, 0)}, {L"en", L"1999-033", L"YYYY-JJJ", CFX_DateTime(1999, 1, 1, 0, 0, 0, 0)}, {L"de_CH", L"30. Oktober 2004", L"D. MMMM YYYY", CFX_DateTime(2004, 10, 30, 0, 0, 0, 0)}, {L"fr_CA", L"30 octobre 2004", L"D MMMM YYYY", CFX_DateTime(2004, 10, 30, 0, 0, 0, 0)}, {L"en", L"Saturday, the 1 of January, 2000", L"EEEE, 'the' D 'of' MMMM, YYYY", CFX_DateTime(2000, 1, 1, 0, 0, 0, 0)}, {L"en", L"Sat, the 1 of January, 2000", L"EEE, 'the' D 'of' MMMM, YYYY", CFX_DateTime(2000, 1, 1, 0, 0, 0, 0)}, {L"en", L"7, the 1 of January, 2000", // 7 == Saturday as 1 == Sunday L"E, 'the' D 'of' MMMM, YYYY", CFX_DateTime(2000, 1, 1, 0, 0, 0, 0)}, {L"en", L"6, the 1 of January, 2000", // 6 == Saturday as 1 == Monday L"e, 'the' D 'of' MMMM, YYYY", CFX_DateTime(2000, 1, 1, 0, 0, 0, 0)}, {L"en", L"2004-07-22 Week of the month is 3", L"YYYY-MM-DD 'Week of the month is' w", CFX_DateTime(2004, 7, 22, 0, 0, 0, 0)}, {L"en", L"2004-07-22 Week of the year is 03", L"YYYY-MM-DD 'Week of the year is' WW", CFX_DateTime(2004, 7, 22, 0, 0, 0, 0)} // {L"ja", L"H15/11/3", L"gY/M/D", CFX_DateTime(2003, 11, 3, 0, 0, 0, 0)}, // {L"ja", L"\u5e731-1-8", L"ggY-M-D", CFX_DateTime(1989, 1, 8, 0, 0, 0, // 0)}, {L"ja", L"\u5e73\u621089/11/03", L"gggYY/MM/DD", // CFX_DateTime(1989, 11, 3, 0, 0, 0, 0)}, // {L"ja", L"u337b99/01/08", L"\u0067\u0067YY/MM/DD", // CFX_DateTime(1999, 1, 8, 0, 0, 0, 0)} }; // Note, none of the full width date symbols are listed here as they are // not supported. In theory there are the full width versions of DDD, // DDDD, MMM, MMMM, E, e, gg, YYY, YYYYY. for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_DateTime result; EXPECT_TRUE(fmt(tests[i].locale) ->ParseDateTime(tests[i].input, tests[i].pattern, FX_DATETIMETYPE_Date, &result)); EXPECT_EQ(tests[i].output, result) << " TEST: " << i; } } // TODO(dsinclair): GetDateTimeFormat is broken and doesn't allow just returning // a parsed Time. It will assume it's a Date. The method needs to be re-written. // TEST_F(CFGAS_FormatStringTest, TimeParse) { // struct { // const wchar_t* locale; // const wchar_t* input; // const wchar_t* pattern; // CFX_DateTime output; // } tests[] = { // {L"en", L"18:00", L"HH:MM", CFX_DateTime(0, 0, 0, 18, 0, 0, 0)}, // {L"en", L"12.59 Uhr", L"H.MM 'Uhr'", CFX_DateTime(0, 0, 0, 12, 59, 0, // 0)}, {L"en", L"1:05:10 PM PST", L"h:MM:SS A Z", // CFX_DateTime(0, 0, 0, 17, 05, 10, 0)}}; // // Note, none of the full width date symbols are listed here as they are // // not supported. In theory there are the full width versions of kkk, // // kkkk, HHH, HHHH, KKK, KKKK, MMM, MMMM, SSS, SSSS plus 2 more that the // // spec apparently forgot to list the symbol. // for (size_t i = 0; i < FX_ArraySize(tests); ++i) { // CFX_DateTime result; // EXPECT_TRUE(fmt(tests[i].locale) // ->ParseDateTime(tests[i].input, tests[i].pattern, // FX_DATETIMETYPE_Time, &result)); // EXPECT_EQ(tests[i].output, result) << " TEST: " << i; // } // } TEST_F(CFGAS_FormatStringTest, SplitFormatString) { std::vector results; fmt(L"en")->SplitFormatString( L"null{'No data'} | null{} | text{999*9999} | text{999*999*9999}", &results); EXPECT_EQ(4UL, results.size()); const wchar_t* patterns[] = {L"null{'No data'} ", L" null{} ", L" text{999*9999} ", L" text{999*999*9999}"}; for (size_t i = 0; i < results.size(); ++i) { EXPECT_STREQ(patterns[i], results[i].c_str()); } } TEST_F(CFGAS_FormatStringTest, NumParse) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = { // {L"en", L"€100.00", L"num(en_GB){$z,zz9.99}", L"100"}, // {L"en", L"1050", L"99V99", L"10.50"}, // {L"en", L"3125", L"99V99", L"31.25"}, {L"en", L"12.345e3", L"99.999E", L"12345.000000"}, {L"en", L"12.345e+3", L"99.999E", L"12345.000000"}, {L"en", L"12.345E-2", L"99.999E", L"0.123450"}, // TODO(dsinclair): Returns 0.000? // {L"en", L"12e-2", L"99E", L"0.12"}, {L"en", L"150", L"z999", L"150"}, {L"en", L"150.50$", L"zzz.zz$", L"150.50"}, {L"en", L"0150", L"z999", L"0150"}, {L"en", L"123CR", L"999cr", L"-123"}, {L"en", L"123", L"999cr", L"123"}, {L"en", L"123CR", L"999CR", L"-123"}, {L"en", L"123 ", L"999CR", L"123"}, {L"en", L"123DB", L"999db", L"-123"}, {L"en", L"123", L"999db", L"123"}, {L"en", L"123DB", L"999DB", L"-123"}, {L"en", L"123 ", L"999DB", L"123"}, {L"en", L"123.5CR", L"999.9cr", L"-123.5"}, {L"en", L"123.5", L"999.9cr", L"123.5"}, {L"en", L"123.5CR", L"999.9CR", L"-123.5"}, // {L"en", L"123.5 ", L"999.9CR", L"123.5"}, {L"en", L"123.5DB", L"999.9db", L"-123.5"}, {L"en", L"123.5", L"999.9db", L"123.5"}, {L"en", L"123.5DB", L"999.9DB", L"-123.5"}, // {L"en", L"123.5 ", L"999.9DB", L"123.5"}, {L"en", L"10.50", L"z,zz9.99", L"10.50"}, {L"en", L"3,125.00", L"z,zz9.99", L"3125.00"}, {L"en", L"$1,234.00", L"$z,zz9.99DB", L"1234.00"}, // TODO(dsinclair): Comes out as 1234 instead of -1234. // {L"en", L"$,1234.00DB", L"$z,zz9.99DB", L"-1234.00"}, {L"en", L"1.234", L"zz9.zzz", L"1.234"}, {L"en", L"1 text", L"num{z 'text'}", L"1"}, {L"en", L"1.234 text", L"z.zzz 'text'", L"1.234"}, {L"en", L" 1.234", L"ZZ9.ZZZ", L"1.234"}, {L"en", L"12.345", L"zz9.zzz", L"12.345"}, {L"en", L" 12.345", L"ZZ9.ZZZ", L"12.345"}, {L"en", L"123.456", L"zz9.zzz", L"123.456"}, {L"en", L"123.456", L"ZZ9.ZZZ", L"123.456"}, {L"en", L"123.456-", L"ZZ9.ZZZS", L"-123.456"}, {L"en", L"123.456+", L"ZZ9.ZZZS", L"123.456"}, {L"en", L"123.456 ", L"ZZ9.ZZZS", L"123.456"}, {L"en", L"123.456-", L"ZZ9.ZZZS", L"-123.456"}, {L"en", L"123.456+", L"ZZ9.ZZZS", L"123.456"}, {L"en", L"123", L"zz9.zzz", L"123"}, {L"en", L"123.", L"ZZ9.ZZZ", L"123."}, {L"en", L"123.", L"zz9.zzz", L"123."}, {L"en", L"123.", L"ZZ9.ZZZ", L"123."}, {L"en", L"123.0", L"zz9.zzz", L"123.0"}, {L"en", L"123.0", L"ZZ9.ZZZ", L"123.0"}, {L"en", L"123.000", L"zz9.zzz", L"123.000"}, {L"en", L"123.000", L"ZZ9.ZZZ", L"123.000"}, {L"en", L"12,345.67", L"zzz,zz9.88888888", L"12345.67"}, {L"en", L"12,345.0000", L"zzz,zz9.88888888", L"12345.0000"}, {L"en", L"12,345.6789", L"zzz,zz9.8", L"12345.6789"}, {L"en", L"12,345.", L"zzz,zz9.8", L"12345."}, {L"en", L"123,456.000", L"zzz,zz9.8888", L"123456.000"}, {L"en", L"123,456.0", L"zzz,zz9.8888", L"123456.0"}, {L"en", L"123,456", L"zzz,zz9.8888", L"123456"}, {L"en", L"123,456", L"ZZZ,ZZ9.88", L"123456"}, {L"en", L"12,345.67", L"zzz,zz9.88888888", L"12345.67"}, {L"en", L"12,345.0000", L"zzz,zz9.88888888", L"12345.0000"}, {L"en", L"12,345.6789", L"zzz,zz9.8", L"12345.6789"}, {L"en", L"12,345.", L"zzz,zz9.8", L"12345."}, // TODO(dsinclair): Parses to 0 // {L"en", L"12%", L"zz9.%%", L".12"}, {L"en", L"1,234.50%", L"zzz,zz9.99%%", L"12.345"}, // {L"en", L"-00123", L"S999v99", L"-1.23"}, {L"en", L" 001.23", L"S999V99", L"001.23"}, // {L"en", L" 123.00", L"S999V99", L"123"}, {L"en", L" 12.30", L"SZZ9.99", L"12.30"}, {L"en", L"- 12.30", L"SZ99.99", L"-12.30"}, {L"en", L"123.00", L"szz9.99", L"123.00"}, {L"en", L"-123.00", L"szz9.99", L"-123.00"}, // {L"en", L"$ 1,234.00 ", L"$ZZ,ZZ9.99CR", L"1234"}, // {L"en", L"$ 1,234.00CR", L"$ZZ,ZZ9.99CR", L"-1234"}, // {L"en", L"$1,23400", L"$z,zz9.99DB", L"1234"}, {L"en", L"$1,234.00DB", L"$z,zz9.99DB", L"-1234.00"}, {L"en", L"1\xA0" L"234", L"num(fr){z,zzz}", L"1234"}, // TODO(dsinclair): Parses to blank // {L"en", L"1,234%", L"num.percent{}", L"12.34"}, // {L"en", L"1\xA0" L"234%%", L"num(fr).percent{}", L"12.34"}, // TODO(dsinclair): Parses to blank // {L"en", L"1,234%", L"num{9,999%%}", L"12.34"}, {L"fr", L"123\xA0" L"456", L"zzz,zzz", L"123456"}, {L"en", L"12%", L"zz%", L"0.12"}, {L"en", L"(123", L"(zzz", L"-123"}, {L"en", L"123)", L"zzz)", L"-123"}, {L"en", L"(123)", L"(zzz)", L"-123"}, {L"en", L"123 ", L"zzz)", L"123"}, {L"en", L" 123", L"(zzz", L"123"}, {L"en", L" 123 ", L"(zzz)", L"123"}, {L"en", L"123.5(", L"zzz.z(", L"-123.5"}, {L"en", L"123.5)", L"zzz.z)", L"-123.5"}, {L"en", L"123.5 ", L"zzz.z)", L"123.5"}, {L"en", L"123.5 ", L"zzz.z(", L"123.5"}, {L"en", L"123.545,4", L"zzz.zzz,z", L"123.5454"}, }; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->ParseNum(tests[i].input, tests[i].pattern, &result)) << " TEST: " << i; EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, NumFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = { {L"en", L"1.234", L"zz9.zzz", L"1.234"}, {L"en", L"1", L"num{z 'text'}", L"1 text"}, {L"en", L"1", L"num{'text' z}", L"text 1"}, {L"en", L"1.234", L"ZZ9.ZZZ", L" 1.234"}, {L"en", L"12.345", L"zz9.zzz", L"12.345"}, {L"en", L"12.345", L"ZZ9.ZZZ", L" 12.345"}, {L"en", L"123.456", L"zz9.zzz", L"123.456"}, {L"en", L"123.456", L"ZZ9.ZZZ", L"123.456"}, {L"en", L"123", L"zz9.zzz", L"123"}, {L"en", L"123", L"ZZ9.ZZZ", L"123.000"}, {L"en", L"123.", L"zz9.zzz", L"123."}, {L"en", L"123.", L"ZZ9.ZZZ", L"123.000"}, {L"en", L"123.0", L"zz9.zzz", L"123"}, {L"en", L"123.0", L"ZZ9.ZZZ", L"123.000"}, {L"en", L"123.000", L"zz9.zzz", L"123"}, {L"en", L"123.000", L"ZZ9.ZZZ", L"123.000"}, // {L"en", L"12345.67", L"zzz,zz9.88888888", L"12,345.67"}, // {L"en", L"12345.0000", L"zzz,zz9.88888888", L"12,345.0000"}, // {L"en", L"12345.6789", L"zzz,zz9.8", L"12,345.6789"}, // {L"en", L"12345.", L"zzz,zz9.8", L"12,345"}, // {L"en", L"123456.000", L"zzz,zz9.8888", L"123,456.000"}, // {L"en", L"123456.0", L"zzz,zz9.8888", L"123,456.0"}, {L"en", L"123456", L"zzz,zz9.8888", L"123,456"}, {L"en", L"123456", L"ZZZ,ZZ9.88", L"123,456"}, // {L"en", L"12345.67", L"zzz,zz9.88888888", L"12,345.67"}, // {L"en", L"12345.0000", L"zzz,zz9.88888888", L"12,345.0000"}, // {L"en", L"12345.6789", L"zzz,zz9.8", L"12,345.6789"}, // {L"en", L"12345.", L"zzz,zz9.8", L"12,345"}, // {L"en", L"12%%", L"zz9.%%", L"12%%"}, // {L"en", L"1,234.5%%", L"zzz,zz9.99%%", L"1,234.50%%"}, {L"en", L"-1.23", L"S999v99", L"-00123"}, {L"en", L"1.23", L"S999V99", L" 001.23"}, {L"en", L"123", L"S999V99", L" 123.00"}, {L"en", L"12.3", L"SZZ9.99", L" 12.30"}, {L"en", L"-12.3", L"SZ99.99", L"- 12.30"}, {L"en", L"123", L"szz9.99", L"123.00"}, {L"en", L"-123", L"szz9.99", L"-123.00"}, // {L"en", L"1234", L"$ZZ,ZZ9.99CR", L"$ 1,234.00 "}, // {L"en", L"-1234", L"$ZZ,ZZ9.99CR", L"$ 1,234.00CR"}, // {L"en", L"1234", L"$z,zz9.99DB", L"$1,234.00"}, {L"en", L"-1234", L"$z,zz9.99DB", L"$1,234.00DB"}, {L"en", L"12345", L"99.999E", L"12.345E+3"}, {L"en", L"12345", L"99999E", L"12345E+0"}, {L"en", L".12345", L"99.999E", L"12.345E-2"}, {L"en", L"12345", L"99,999", L"12,345"}, {L"en", L"1234", L"num(fr){z,zzz}", L"1\xA0" L"234"}, {L"en", L"12.34", L"num.percent{}", L"1,234%"}, {L"en", L"12.34", L"num(fr).percent{}", L"1\xA0" L"234%"}, // {L"en", L"12.34", L"num{9,999%%}", L"1,234%"}, {L"en", L"-123", L"zzzCR", L"123CR"}, {L"en", L"123", L"zzzCR", L"123 "}, {L"en", L"-123", L"zzzcr", L"123CR"}, {L"en", L"123", L"zzzcr", L"123"}, {L"en", L"123", L"zzz$", L"123$"}, {L"en", L"-123.5", L"zzz.zCR", L"123.5CR"}, {L"en", L"123.5", L"zzz.zCR", L"123.5 "}, {L"en", L"-123.5", L"zzz.zcr", L"123.5CR"}, {L"en", L"123.5", L"zzz.zcr", L"123.5"}, {L"en", L"-123.5", L"999.9db", L"123.5db"}, {L"en", L"123.5", L"999.9db", L"123.5"}, {L"en", L"-123.5", L"999.9DB", L"123.5DB"}, {L"en", L"123.5", L"999.9DB", L"123.5 "}, {L"en", L"-123", L"(zzz", L"(123"}, // {L"en", L"-123", L"zzz)", L"123)"}, {L"en", L"-123", L"(zzz)", L"(123)"}, {L"en", L"123", L"zzz)", L"123 "}, {L"en", L"123", L"(zzz", L" 123"}, {L"en", L"123", L"(zzz)", L" 123 "}, {L"en", L"-123.5", L"zzz.z(", L"123.5("}, // {L"en", L"-123.5", L"zzz.z)", L"123.5)"}, {L"en", L"123.5", L"zzz.z)", L"123.5 "}, {L"en", L"123.5", L"zzz.z(", L"123.5 "}, }; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->FormatNum(tests[i].input, tests[i].pattern, &result)) << " TEST: " << i; EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, TextParse) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = {// TODO(dsinclair) Missing support for the global modifiers: // ? - wildcard // * - zero or more whitespace // + - one or more whitespace // {L"en", L"555-1212", L"text(th_TH){999*9999}", L"5551212"}, {L"en", L"ABC-1234-5", L"AAA-9999-X", L"ABC12345"}, {L"en", L"ABC-1234-D", L"AAA-9999-X", L"ABC1234D"}, {L"en", L"A1C-1234-D", L"OOO-9999-X", L"A1C1234D"}, {L"en", L"A1C-1234-D", L"000-9999-X", L"A1C1234D"}, {L"en", L"A1C-1234-D text", L"000-9999-X 'text'", L"A1C1234D"}}; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->ParseText(tests[i].input, tests[i].pattern, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, InvalidTextParse) { // Input does not match mask. CFX_WideString result; EXPECT_FALSE(fmt(L"en")->ParseText(L"123-4567-8", L"AAA-9999-X", &result)); } TEST_F(CFGAS_FormatStringTest, TextFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = { {L"en", L"K1S5K2", L"A9A 9A9", L"K1S 5K2"}, {L"en", L"K1S5K2", L"text(fr){A9A 9A9}", L"K1S 5K2"}, {L"en", L"6135551212", L"'+1 ('9\u002399') '999-9999", L"+1 (6#13) 555-1212"}, {L"en", L"6135551212", L"999.999.9999", L"613.555.1212"}, {L"en", L"6135551212", L"999\u0023999\u002A9999", L"613#555*1212"}, {L"en", L"K1#5K2", L"00X OO9", L"K1# 5K2"}, }; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale) ->FormatText(tests[i].input, tests[i].pattern, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, NullParse) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; } tests[] = { {L"en", L"", L"null{}"}, {L"en", L"No data", L"null{'No data'}"}, }; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { EXPECT_TRUE( fmt(tests[i].locale)->ParseNull(tests[i].input, tests[i].pattern)) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, NullFormat) { struct { const wchar_t* locale; const wchar_t* pattern; const wchar_t* output; } tests[] = {{L"en", L"null{'n/a'}", L"n/a"}, {L"en", L"null{}", L""}}; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE(fmt(tests[i].locale)->FormatNull(tests[i].pattern, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, ZeroParse) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; } tests[] = {{L"en", L"", L"zero{}"}, {L"en", L"9", L"zero{9}"}, {L"en", L"a", L"zero{'a'}"}}; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { EXPECT_TRUE( fmt(tests[i].locale)->ParseZero(tests[i].input, tests[i].pattern)) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, ZeroFormat) { struct { const wchar_t* locale; const wchar_t* input; const wchar_t* pattern; const wchar_t* output; } tests[] = {// TODO(dsinclair): The zero format can take a number specifier // which we don't take into account. // {L"en", L"", L"zero {9}", L""}, // {L"en", L"0", L"zero {9}", L"0"}, // {L"en", L"0.0", L"zero{9}", L"0"}, {L"en", L"0", L"zero{}", L""}}; for (size_t i = 0; i < FX_ArraySize(tests); ++i) { CFX_WideString result; EXPECT_TRUE( fmt(tests[i].locale) ->FormatZero(/* tests[i].input,*/ tests[i].pattern, &result)); EXPECT_STREQ(tests[i].output, result.c_str()) << " TEST: " << i; } } TEST_F(CFGAS_FormatStringTest, GetCategory) { CFGAS_FormatString* f = fmt(L"en"); EXPECT_EQ(FX_LOCALECATEGORY_Unknown, f->GetCategory(L"'just text'")); EXPECT_EQ(FX_LOCALECATEGORY_Null, f->GetCategory(L"null{}")); EXPECT_EQ(FX_LOCALECATEGORY_Zero, f->GetCategory(L"zero{}")); EXPECT_EQ(FX_LOCALECATEGORY_Num, f->GetCategory(L"num{}")); EXPECT_EQ(FX_LOCALECATEGORY_Text, f->GetCategory(L"text{}")); EXPECT_EQ(FX_LOCALECATEGORY_DateTime, f->GetCategory(L"datetime{}")); EXPECT_EQ(FX_LOCALECATEGORY_Time, f->GetCategory(L"time{}")); EXPECT_EQ(FX_LOCALECATEGORY_Date, f->GetCategory(L"date{}")); EXPECT_EQ(FX_LOCALECATEGORY_DateTime, f->GetCategory(L"time{} date{}")); EXPECT_EQ(FX_LOCALECATEGORY_DateTime, f->GetCategory(L"date{} time{}")); EXPECT_EQ(FX_LOCALECATEGORY_Num, f->GetCategory(L"num(en_GB){}")); EXPECT_EQ(FX_LOCALECATEGORY_Date, f->GetCategory(L"date.long{}")); }