diff options
Diffstat (limited to 'tests')
| -rw-r--r-- | tests/numerics/t_amount.cc | 1477 | ||||
| -rw-r--r-- | tests/numerics/t_amount.h | 76 | ||||
| -rw-r--r-- | tests/python/numerics/t_amount.py | 1161 |
3 files changed, 1370 insertions, 1344 deletions
diff --git a/tests/numerics/t_amount.cc b/tests/numerics/t_amount.cc index 94e32c01..67ea1781 100644 --- a/tests/numerics/t_amount.cc +++ b/tests/numerics/t_amount.cc @@ -2,9 +2,9 @@ #define internalAmount(x) amount_t::exact(x) -CPPUNIT_TEST_SUITE_NAMED_REGISTRATION(BasicAmountTestCase, "numerics"); +CPPUNIT_TEST_SUITE_NAMED_REGISTRATION(AmountTestCase, "numerics"); -void BasicAmountTestCase::setUp() +void AmountTestCase::setUp() { ledger::set_session_context(&session); @@ -14,14 +14,14 @@ void BasicAmountTestCase::setUp() amount_t::stream_fullstrings = true; // makes error reports from UnitTests accurate } -void BasicAmountTestCase::tearDown() +void AmountTestCase::tearDown() { amount_t::stream_fullstrings = false; ledger::set_session_context(); } -void BasicAmountTestCase::testConstructors() +void AmountTestCase::testConstructors() { amount_t x0; amount_t x1(123456L); @@ -47,624 +47,20 @@ void BasicAmountTestCase::testConstructors() assertEqual(x10, x3); assertEqual(x10, x9); - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x5.valid()); - CPPUNIT_ASSERT(x6.valid()); - CPPUNIT_ASSERT(x7.valid()); - CPPUNIT_ASSERT(x8.valid()); - CPPUNIT_ASSERT(x9.valid()); - CPPUNIT_ASSERT(x10.valid()); - CPPUNIT_ASSERT(x11.valid()); + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x5.valid()); + assertTrue(x6.valid()); + assertTrue(x7.valid()); + assertTrue(x8.valid()); + assertTrue(x9.valid()); + assertTrue(x10.valid()); + assertTrue(x11.valid()); } -void BasicAmountTestCase::testAssignment() -{ - amount_t x0; - amount_t x1 = 123456L; - amount_t x2 = 123456UL; - amount_t x3 = 123.456; - amount_t x5 = "123456"; - amount_t x6 = "123.456"; - amount_t x7 = string("123456"); - amount_t x8 = string("123.456"); - amount_t x9 = x3; - amount_t x10 = amount_t(x6); - - assertEqual(amount_t(0L), x0); - assertEqual(x2, x1); - assertEqual(x5, x1); - assertEqual(x7, x1); - assertEqual(x6, x3); - assertEqual(x8, x3); - assertEqual(x10, x3); - assertEqual(x10, x9); - - x0 = amount_t(); - x1 = 123456L; - x2 = 123456UL; - x3 = 123.456; - x5 = "123456"; - x6 = "123.456"; - x7 = string("123456"); - x8 = string("123.456"); - x9 = x3; - x10 = amount_t(x6); - - assertEqual(amount_t(0L), x0); - assertEqual(x2, x1); - assertEqual(x5, x1); - assertEqual(x7, x1); - assertEqual(x6, x3); - assertEqual(x8, x3); - assertEqual(x10, x3); - assertEqual(x10, x9); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x5.valid()); - CPPUNIT_ASSERT(x6.valid()); - CPPUNIT_ASSERT(x7.valid()); - CPPUNIT_ASSERT(x8.valid()); - CPPUNIT_ASSERT(x9.valid()); - CPPUNIT_ASSERT(x10.valid()); -} - -void BasicAmountTestCase::testEquality() -{ - amount_t x1(123456L); - amount_t x2(456789L); - amount_t x3(333333L); - amount_t x4(123456.0); - amount_t x5("123456.0"); - amount_t x6(123456.0F); - - CPPUNIT_ASSERT(x1 == 123456L); - CPPUNIT_ASSERT(x1 != x2); - CPPUNIT_ASSERT(x1 == (x2 - x3)); - CPPUNIT_ASSERT(x1 == x4); - CPPUNIT_ASSERT(x4 == x5); - CPPUNIT_ASSERT(x4 == x6); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x4.valid()); - CPPUNIT_ASSERT(x5.valid()); - CPPUNIT_ASSERT(x6.valid()); -} - -void BasicAmountTestCase::testComparisons() -{ - amount_t x0; - amount_t x1(-123L); - amount_t x2(123L); - amount_t x3(-123.45); - amount_t x4(123.45); - amount_t x5("-123.45"); - amount_t x6("123.45"); - - CPPUNIT_ASSERT(x0 > x1); - CPPUNIT_ASSERT(x0 < x2); - CPPUNIT_ASSERT(x0 > x3); - CPPUNIT_ASSERT(x0 < x4); - CPPUNIT_ASSERT(x0 > x5); - CPPUNIT_ASSERT(x0 < x6); - - CPPUNIT_ASSERT(x1 > x3); - CPPUNIT_ASSERT(x3 <= x5); - CPPUNIT_ASSERT(x3 >= x5); - CPPUNIT_ASSERT(x3 < x1); - CPPUNIT_ASSERT(x3 < x4); - - CPPUNIT_ASSERT(x1 < 100L); - CPPUNIT_ASSERT(x1 < 100UL); - CPPUNIT_ASSERT(x1 < 100.0); - CPPUNIT_ASSERT(100L > x1); - CPPUNIT_ASSERT(100UL > x1); - CPPUNIT_ASSERT(100.0 > x1); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x4.valid()); - CPPUNIT_ASSERT(x5.valid()); - CPPUNIT_ASSERT(x6.valid()); -} - -void BasicAmountTestCase::testIntegerAddition() -{ - amount_t x1(123L); - amount_t y1(456L); - - assertEqual(amount_t(579L), x1 + y1); - assertEqual(amount_t(579L), x1 + 456L); - assertEqual(amount_t(579L), 456L + x1); - - x1 += amount_t(456L); - assertEqual(amount_t(579L), x1); - x1 += 456L; - assertEqual(amount_t(1035L), x1); - - amount_t x4("123456789123456789123456789"); - - assertEqual(amount_t("246913578246913578246913578"), x4 + x4); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x4.valid()); -} - -void BasicAmountTestCase::testFractionalAddition() -{ - amount_t x1(123.123); - amount_t y1(456.456); - - assertEqual(amount_t(579.579), x1 + y1); - assertEqual(amount_t(579.579), x1 + 456.456); - assertEqual(amount_t(579.579), 456.456 + x1); - - x1 += amount_t(456.456); - assertEqual(amount_t(579.579), x1); - x1 += 456.456; - assertEqual(amount_t(1036.035), x1); - x1 += 456L; - assertEqual(amount_t(1492.035), x1); - - amount_t x2("123456789123456789.123456789123456789"); - - assertEqual(amount_t("246913578246913578.246913578246913578"), x2 + x2); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x2.valid()); -} - -void BasicAmountTestCase::testIntegerSubtraction() -{ - amount_t x1(123L); - amount_t y1(456L); - - assertEqual(amount_t(333L), y1 - x1); - assertEqual(amount_t(-333L), x1 - y1); - assertEqual(amount_t(23L), x1 - 100L); - assertEqual(amount_t(-23L), 100L - x1); - - x1 -= amount_t(456L); - assertEqual(amount_t(-333L), x1); - x1 -= 456L; - assertEqual(amount_t(-789L), x1); - - amount_t x4("123456789123456789123456789"); - amount_t y4("8238725986235986"); - - assertEqual(amount_t("123456789115218063137220803"), x4 - y4); - assertEqual(amount_t("-123456789115218063137220803"), y4 - x4); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x4.valid()); - CPPUNIT_ASSERT(y4.valid()); -} - -void BasicAmountTestCase::testFractionalSubtraction() -{ - amount_t x1(123.123); - amount_t y1(456.456); - - assertEqual(amount_t(-333.333), x1 - y1); - assertEqual(amount_t(333.333), y1 - x1); - - x1 -= amount_t(456.456); - assertEqual(amount_t(-333.333), x1); - x1 -= 456.456; - assertEqual(amount_t(-789.789), x1); - x1 -= 456L; - assertEqual(amount_t(-1245.789), x1); - - amount_t x2("123456789123456789.123456789123456789"); - amount_t y2("9872345982459.248974239578"); - - assertEqual(amount_t("123446916777474329.874482549545456789"), x2 - y2); - assertEqual(amount_t("-123446916777474329.874482549545456789"), y2 - x2); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(y2.valid()); -} - -void BasicAmountTestCase::testIntegerMultiplication() -{ - amount_t x1(123L); - amount_t y1(456L); - - assertEqual(amount_t(0L), x1 * 0L); - assertEqual(amount_t(0L), amount_t(0L) * x1); - assertEqual(amount_t(0L), 0L * x1); - assertEqual(x1, x1 * 1L); - assertEqual(x1, amount_t(1L) * x1); - assertEqual(x1, 1L * x1); - assertEqual(- x1, x1 * -1L); - assertEqual(- x1, amount_t(-1L) * x1); - assertEqual(- x1, -1L * x1); - assertEqual(amount_t(56088L), x1 * y1); - assertEqual(amount_t(56088L), y1 * x1); - assertEqual(amount_t(56088L), x1 * 456L); - assertEqual(amount_t(56088L), amount_t(456L) * x1); - assertEqual(amount_t(56088L), 456L * x1); - - x1 *= amount_t(123L); - assertEqual(amount_t(15129L), x1); - x1 *= 123L; - assertEqual(amount_t(1860867L), x1); - - amount_t x4("123456789123456789123456789"); - - assertEqual(amount_t("15241578780673678546105778281054720515622620750190521"), - x4 * x4); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x4.valid()); -} - -void BasicAmountTestCase::testFractionalMultiplication() -{ - amount_t x1(123.123); - amount_t y1(456.456); - - assertEqual(amount_t(0L), x1 * 0L); - assertEqual(amount_t(0L), amount_t(0L) * x1); - assertEqual(amount_t(0L), 0L * x1); - assertEqual(x1, x1 * 1L); - assertEqual(x1, amount_t(1L) * x1); - assertEqual(x1, 1L * x1); - assertEqual(- x1, x1 * -1L); - assertEqual(- x1, amount_t(-1L) * x1); - assertEqual(- x1, -1L * x1); - assertEqual(amount_t("56200.232088"), x1 * y1); - assertEqual(amount_t("56200.232088"), y1 * x1); - assertEqual(amount_t("56200.232088"), x1 * 456.456); - assertEqual(amount_t("56200.232088"), amount_t(456.456) * x1); - assertEqual(amount_t("56200.232088"), 456.456 * x1); - - x1 *= amount_t(123.123); - assertEqual(amount_t("15159.273129"), x1); - x1 *= 123.123; - assertEqual(amount_t("1866455.185461867"), x1); - x1 *= 123L; - assertEqual(amount_t("229573987.811809641"), x1); - - amount_t x2("123456789123456789.123456789123456789"); - - assertEqual(amount_t("15241578780673678546105778311537878.046486820281054720515622620750190521"), - x2 * x2); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x2.valid()); -} - -void BasicAmountTestCase::testIntegerDivision() -{ - amount_t x1(123L); - amount_t y1(456L); - - assertThrow(x1 / 0L, amount_error); - assertEqual(amount_t(0L), amount_t(0L) / x1); - assertEqual(amount_t(0L), 0L / x1); - assertEqual(x1, x1 / 1L); - assertEqual(amount_t("0.008130"), amount_t(1L) / x1); - assertEqual(amount_t("0.008130"), 1L / x1); - assertEqual(- x1, x1 / -1L); - assertEqual(- amount_t("0.008130"), amount_t(-1L) / x1); - assertEqual(- amount_t("0.008130"), -1L / x1); - assertEqual(amount_t("0.269737"), x1 / y1); - assertEqual(amount_t("3.707317"), y1 / x1); - assertEqual(amount_t("0.269737"), x1 / 456L); - assertEqual(amount_t("3.707317"), amount_t(456L) / x1); - assertEqual(amount_t("3.707317"), 456L / x1); - - x1 /= amount_t(456L); - assertEqual(amount_t("0.269737"), x1); - x1 /= 456L; - assertEqual(amount_t("0.00059152850877193"), x1); - - amount_t x4("123456789123456789123456789"); - amount_t y4("56"); - - assertEqual(amount_t(1L), x4 / x4); - assertEqual(amount_t("2204585520061728377204585.517857"), x4 / y4); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x4.valid()); - CPPUNIT_ASSERT(y4.valid()); -} - -void BasicAmountTestCase::testFractionalDivision() -{ - amount_t x1(123.123); - amount_t y1(456.456); - - assertThrow(x1 / 0L, amount_error); - assertEqual(amount_t("0.008121959"), amount_t(1.0) / x1); - assertEqual(amount_t("0.008121959"), 1.0 / x1); - assertEqual(x1, x1 / 1.0); - assertEqual(amount_t("0.008121959"), amount_t(1.0) / x1); - assertEqual(amount_t("0.008121959"), 1.0 / x1); - assertEqual(- x1, x1 / -1.0); - assertEqual(- amount_t("0.008121959"), amount_t(-1.0) / x1); - assertEqual(- amount_t("0.008121959"), -1.0 / x1); - assertEqual(amount_t("0.269736842105263"), x1 / y1); - assertEqual(amount_t("3.707317073170732"), y1 / x1); - assertEqual(amount_t("0.269736842105263"), x1 / 456.456); - assertEqual(amount_t("3.707317073170732"), amount_t(456.456) / x1); - assertEqual(amount_t("3.707317073170732"), 456.456 / x1); - - x1 /= amount_t(456.456); - assertEqual(amount_t("0.269736842105263"), x1); - x1 /= 456.456; - assertEqual(amount_t("0.000590937225286255411255411255411255411"), x1); - x1 /= 456L; - assertEqual(amount_t("0.000001295914967733016252753094858358016252192982456140350877192982456140350877192982"), x1); - - amount_t x4("1234567891234567.89123456789"); - amount_t y4("56.789"); - - assertEqual(amount_t(1.0), x4 / x4); - assertEqual(amount_t("21739560323910.7554497273748437197344556164046"), x4 / y4); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(y1.valid()); - CPPUNIT_ASSERT(x4.valid()); - CPPUNIT_ASSERT(y4.valid()); -} - -void BasicAmountTestCase::testNegation() -{ - amount_t x0; - amount_t x1(-123456L); - amount_t x3(-123.456); - amount_t x5("-123456"); - amount_t x6("-123.456"); - amount_t x7(string("-123456")); - amount_t x8(string("-123.456")); - amount_t x9(- x3); - - assertEqual(amount_t(0L), x0); - assertEqual(x5, x1); - assertEqual(x7, x1); - assertEqual(x6, x3); - assertEqual(x8, x3); - assertEqual(- x6, x9); - assertEqual(x3.negate(), x9); - - amount_t x10(x9.negate()); - - assertEqual(x3, x10); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x5.valid()); - CPPUNIT_ASSERT(x6.valid()); - CPPUNIT_ASSERT(x7.valid()); - CPPUNIT_ASSERT(x8.valid()); - CPPUNIT_ASSERT(x9.valid()); - CPPUNIT_ASSERT(x10.valid()); -} - -void BasicAmountTestCase::testAbs() -{ - amount_t x0; - amount_t x1(-1234L); - amount_t x2(1234L); - - assertEqual(amount_t(), x0.abs()); - assertEqual(amount_t(1234L), x1.abs()); - assertEqual(amount_t(1234L), x2.abs()); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); -} - -void BasicAmountTestCase::testFractionalRound() -{ - amount_t x1("1234.567890"); - - assertEqual(amount_t("1234.56789"), x1.round(6)); - assertEqual(amount_t("1234.56789"), x1.round(5)); - assertEqual(amount_t("1234.5679"), x1.round(4)); - assertEqual(amount_t("1234.568"), x1.round(3)); - assertEqual(amount_t("1234.57"), x1.round(2)); - assertEqual(amount_t("1234.6"), x1.round(1)); - assertEqual(amount_t("1235"), x1.round(0)); - - amount_t x2("9876.543210"); - - assertEqual(amount_t("9876.543210"), x2.round(6)); - assertEqual(amount_t("9876.54321"), x2.round(5)); - assertEqual(amount_t("9876.5432"), x2.round(4)); - assertEqual(amount_t("9876.543"), x2.round(3)); - assertEqual(amount_t("9876.54"), x2.round(2)); - assertEqual(amount_t("9876.5"), x2.round(1)); - assertEqual(amount_t("9877"), x2.round(0)); - - amount_t x3("-1234.567890"); - - assertEqual(amount_t("-1234.56789"), x3.round(6)); - assertEqual(amount_t("-1234.56789"), x3.round(5)); - assertEqual(amount_t("-1234.5679"), x3.round(4)); - assertEqual(amount_t("-1234.568"), x3.round(3)); - assertEqual(amount_t("-1234.57"), x3.round(2)); - assertEqual(amount_t("-1234.6"), x3.round(1)); - assertEqual(amount_t("-1235"), x3.round(0)); - - amount_t x4("-9876.543210"); - - assertEqual(amount_t("-9876.543210"), x4.round(6)); - assertEqual(amount_t("-9876.54321"), x4.round(5)); - assertEqual(amount_t("-9876.5432"), x4.round(4)); - assertEqual(amount_t("-9876.543"), x4.round(3)); - assertEqual(amount_t("-9876.54"), x4.round(2)); - assertEqual(amount_t("-9876.5"), x4.round(1)); - assertEqual(amount_t("-9877"), x4.round(0)); - - amount_t x5("0.0000000000000000000000000000000000001"); - - assertEqual(amount_t("0.0000000000000000000000000000000000001"), - x5.round(37)); - assertEqual(amount_t(), x5.round(36)); - - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x4.valid()); -} - -void BasicAmountTestCase::testReduction() -{ - amount_t x1("60s"); - amount_t x2("600s"); - amount_t x3("6000s"); - amount_t x4("360000s"); - amount_t x5("10m"); // 600s - amount_t x6("100m"); // 6000s - amount_t x7("1000m"); // 60000s - amount_t x8("10000m"); // 600000s - amount_t x9("10h"); // 36000s - amount_t x10("100h"); // 360000s - amount_t x11("1000h"); // 3600000s - amount_t x12("10000h"); // 36000000s - - assertEqual(x2, x5); - assertEqual(x3, x6); - assertEqual(x4, x10); -} - -void BasicAmountTestCase::testSign() -{ - amount_t x0; - amount_t x1("0.0000000000000000000000000000000000001"); - amount_t x2("-0.0000000000000000000000000000000000001"); - amount_t x3("1"); - amount_t x4("-1"); - - CPPUNIT_ASSERT(! x0.sign()); - CPPUNIT_ASSERT(x1.sign() > 0); - CPPUNIT_ASSERT(x2.sign() < 0); - CPPUNIT_ASSERT(x3.sign() > 0); - CPPUNIT_ASSERT(x4.sign() < 0); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); - CPPUNIT_ASSERT(x3.valid()); - CPPUNIT_ASSERT(x4.valid()); -} - -void BasicAmountTestCase::testTruth() -{ - amount_t x0; - amount_t x1("1234"); - amount_t x2("1234.56"); - - if (x0) - CPPUNIT_ASSERT(false); - else - CPPUNIT_ASSERT(true); - - if (x1) - CPPUNIT_ASSERT(true); - else - CPPUNIT_ASSERT(false); - - if (x2) - CPPUNIT_ASSERT(true); - else - CPPUNIT_ASSERT(false); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); - CPPUNIT_ASSERT(x2.valid()); -} - -void BasicAmountTestCase::testForZero() -{ - amount_t x0; - amount_t x1("0.000000000000000000001"); - - CPPUNIT_ASSERT(! x0); - CPPUNIT_ASSERT(x1); - CPPUNIT_ASSERT(x0.is_zero()); - CPPUNIT_ASSERT(x0.is_realzero()); - CPPUNIT_ASSERT(! x1.is_zero()); - CPPUNIT_ASSERT(! x1.is_realzero()); - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); -} - -void BasicAmountTestCase::testIntegerConversion() -{ - amount_t x1(123456L); - - assertEqual(true, bool(x1)); - assertEqual(123456L, x1.to_long()); - assertEqual(123456.0, x1.to_double()); - assertEqual(string("123456"), x1.to_string()); - assertEqual(string("123456"), x1.quantity_string()); - - CPPUNIT_ASSERT(x1.valid()); -} - -void BasicAmountTestCase::testFractionalConversion() -{ - amount_t x1(1234.56); - - assertEqual(true, bool(x1)); - assertThrow(x1.to_long(), amount_error); // loses precision - assertEqual(1234L, x1.to_long(true)); - assertEqual(1234.56, x1.to_double()); - assertEqual(string("1234.56"), x1.to_string()); - assertEqual(string("1234.56"), x1.quantity_string()); - - CPPUNIT_ASSERT(x1.valid()); -} - -void BasicAmountTestCase::testPrinting() -{ - amount_t x0; - amount_t x1("982340823.380238098235098235098235098"); - - { - std::ostringstream bufstr; - bufstr << x0; - - assertEqual(std::string("0"), bufstr.str()); - } - - { - std::ostringstream bufstr; - bufstr << x1; - - assertEqual(std::string("982340823.380238098235098235098235098"), - bufstr.str()); - } - - CPPUNIT_ASSERT(x0.valid()); - CPPUNIT_ASSERT(x1.valid()); -} - -void BasicAmountTestCase::testCommodityConstructors() +void AmountTestCase::testCommodityConstructors() { amount_t x1("$123.45"); amount_t x2("-$123.45"); @@ -711,62 +107,61 @@ void BasicAmountTestCase::testCommodityConstructors() assertValid(x10); } -void BasicAmountTestCase::testCommodityNegation() +void AmountTestCase::testAssignment() { - amount_t x1("$123.45"); - amount_t x2("-$123.45"); - amount_t x3("$-123.45"); - amount_t x4("DM 123.45"); - amount_t x5("-DM 123.45"); - amount_t x6("DM -123.45"); - amount_t x7("123.45 euro"); - amount_t x8("-123.45 euro"); - amount_t x9("123.45€"); - amount_t x10("-123.45€"); - - assertEqual(amount_t("$-123.45"), - x1); - assertEqual(amount_t("$123.45"), - x2); - assertEqual(amount_t("$123.45"), - x3); - assertEqual(amount_t("DM -123.45"), - x4); - assertEqual(amount_t("DM 123.45"), - x5); - assertEqual(amount_t("DM 123.45"), - x6); - assertEqual(amount_t("-123.45 euro"), - x7); - assertEqual(amount_t("123.45 euro"), - x8); - assertEqual(amount_t("-123.45€"), - x9); - assertEqual(amount_t("123.45€"), - x10); + amount_t x0; + amount_t x1 = 123456L; + amount_t x2 = 123456UL; + amount_t x3 = 123.456; + amount_t x5 = "123456"; + amount_t x6 = "123.456"; + amount_t x7 = string("123456"); + amount_t x8 = string("123.456"); + amount_t x9 = x3; + amount_t x10 = amount_t(x6); - assertEqual(amount_t("$-123.45"), x1.negate()); - assertEqual(amount_t("$123.45"), x2.negate()); - assertEqual(amount_t("$123.45"), x3.negate()); + assertEqual(amount_t(0L), x0); + assertEqual(x2, x1); + assertEqual(x5, x1); + assertEqual(x7, x1); + assertEqual(x6, x3); + assertEqual(x8, x3); + assertEqual(x10, x3); + assertEqual(x10, x9); - assertEqual(string("$-123.45"), (- x1).to_string()); - assertEqual(string("$123.45"), (- x2).to_string()); - assertEqual(string("$123.45"), (- x3).to_string()); - assertEqual(string("DM -123.45"), (- x4).to_string()); - assertEqual(string("DM 123.45"), (- x5).to_string()); - assertEqual(string("DM 123.45"), (- x6).to_string()); - assertEqual(string("-123.45 euro"), (- x7).to_string()); - assertEqual(string("123.45 euro"), (- x8).to_string()); - assertEqual(string("-123.45€"), (- x9).to_string()); - assertEqual(string("123.45€"), (- x10).to_string()); + x0 = amount_t(); + x1 = 123456L; + x2 = 123456UL; + x3 = 123.456; + x5 = "123456"; + x6 = "123.456"; + x7 = string("123456"); + x8 = string("123.456"); + x9 = x3; + x10 = amount_t(x6); - assertEqual(amount_t("$-123.45"), x1.negate()); - assertEqual(amount_t("$123.45"), x2.negate()); - assertEqual(amount_t("$123.45"), x3.negate()); + assertEqual(amount_t(0L), x0); + assertEqual(x2, x1); + assertEqual(x5, x1); + assertEqual(x7, x1); + assertEqual(x6, x3); + assertEqual(x8, x3); + assertEqual(x10, x3); + assertEqual(x10, x9); - assertValid(x1); - assertValid(x2); - assertValid(x3); - assertValid(x4); - assertValid(x5); - assertValid(x6); - assertValid(x7); - assertValid(x8); - assertValid(x9); - assertValid(x10); + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x5.valid()); + assertTrue(x6.valid()); + assertTrue(x7.valid()); + assertTrue(x8.valid()); + assertTrue(x9.valid()); + assertTrue(x10.valid()); } -void BasicAmountTestCase::testCommodityAssignment() +void AmountTestCase::testCommodityAssignment() { amount_t x1 = "$123.45"; amount_t x2 = "-$123.45"; @@ -813,7 +208,31 @@ void BasicAmountTestCase::testCommodityAssignment() assertValid(x10); } -void BasicAmountTestCase::testCommodityEquality() +void AmountTestCase::testEquality() +{ + amount_t x1(123456L); + amount_t x2(456789L); + amount_t x3(333333L); + amount_t x4(123456.0); + amount_t x5("123456.0"); + amount_t x6(123456.0F); + + assertTrue(x1 == 123456L); + assertTrue(x1 != x2); + assertTrue(x1 == (x2 - x3)); + assertTrue(x1 == x4); + assertTrue(x4 == x5); + assertTrue(x4 == x6); + + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x4.valid()); + assertTrue(x5.valid()); + assertTrue(x6.valid()); +} + +void AmountTestCase::testCommodityEquality() { amount_t x0; amount_t x1 = "$123.45"; @@ -858,7 +277,128 @@ void BasicAmountTestCase::testCommodityEquality() assertValid(x10); } -void BasicAmountTestCase::testCommodityAddition() +void AmountTestCase::testComparisons() +{ + amount_t x0; + amount_t x1(-123L); + amount_t x2(123L); + amount_t x3(-123.45); + amount_t x4(123.45); + amount_t x5("-123.45"); + amount_t x6("123.45"); + + assertTrue(x0 > x1); + assertTrue(x0 < x2); + assertTrue(x0 > x3); + assertTrue(x0 < x4); + assertTrue(x0 > x5); + assertTrue(x0 < x6); + + assertTrue(x1 > x3); + assertTrue(x3 <= x5); + assertTrue(x3 >= x5); + assertTrue(x3 < x1); + assertTrue(x3 < x4); + + assertTrue(x1 < 100L); + assertTrue(x1 < 100UL); + assertTrue(x1 < 100.0); + assertTrue(100L > x1); + assertTrue(100UL > x1); + assertTrue(100.0 > x1); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x4.valid()); + assertTrue(x5.valid()); + assertTrue(x6.valid()); +} + +void AmountTestCase::testCommodityComparisons() +{ + amount_t x0; + amount_t x1("$-123"); + amount_t x2("$123.00"); + amount_t x3(internalAmount("$-123.4544")); + amount_t x4(internalAmount("$123.4544")); + amount_t x5("$-123.45"); + amount_t x6("$123.45"); + + assertTrue(x0 > x1); + assertTrue(x0 < x2); + assertTrue(x0 > x3); + assertTrue(x0 < x4); + assertTrue(x0 > x5); + assertTrue(x0 < x6); + + assertTrue(x1 > x3); + assertTrue(x3 <= x5); + assertTrue(x3 < x5); + assertTrue(x3 <= x5); + assertFalse(x3 == x5); + assertTrue(x3 < x1); + assertTrue(x3 < x4); + + assertValid(x0); + assertValid(x1); + assertValid(x2); + assertValid(x3); + assertValid(x4); + assertValid(x5); + assertValid(x6); +} + +void AmountTestCase::testIntegerAddition() +{ + amount_t x1(123L); + amount_t y1(456L); + + assertEqual(amount_t(579L), x1 + y1); + assertEqual(amount_t(579L), x1 + 456L); + assertEqual(amount_t(579L), 456L + x1); + + x1 += amount_t(456L); + assertEqual(amount_t(579L), x1); + x1 += 456L; + assertEqual(amount_t(1035L), x1); + + amount_t x4("123456789123456789123456789"); + + assertEqual(amount_t("246913578246913578246913578"), x4 + x4); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x4.valid()); +} + +void AmountTestCase::testFractionalAddition() +{ + amount_t x1(123.123); + amount_t y1(456.456); + + assertEqual(amount_t(579.579), x1 + y1); + assertEqual(amount_t(579.579), x1 + 456.456); + assertEqual(amount_t(579.579), 456.456 + x1); + + x1 += amount_t(456.456); + assertEqual(amount_t(579.579), x1); + x1 += 456.456; + assertEqual(amount_t(1036.035), x1); + x1 += 456L; + assertEqual(amount_t(1492.035), x1); + + amount_t x2("123456789123456789.123456789123456789"); + + assertEqual(amount_t("246913578246913578.246913578246913578"), x2 + x2); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x2.valid()); +} + +void AmountTestCase::testCommodityAddition() { amount_t x0; amount_t x1("$123.45"); @@ -912,7 +452,61 @@ void BasicAmountTestCase::testCommodityAddition() assertValid(x7); } -void BasicAmountTestCase::testCommoditySubtraction() +void AmountTestCase::testIntegerSubtraction() +{ + amount_t x1(123L); + amount_t y1(456L); + + assertEqual(amount_t(333L), y1 - x1); + assertEqual(amount_t(-333L), x1 - y1); + assertEqual(amount_t(23L), x1 - 100L); + assertEqual(amount_t(-23L), 100L - x1); + + x1 -= amount_t(456L); + assertEqual(amount_t(-333L), x1); + x1 -= 456L; + assertEqual(amount_t(-789L), x1); + + amount_t x4("123456789123456789123456789"); + amount_t y4("8238725986235986"); + + assertEqual(amount_t("123456789115218063137220803"), x4 - y4); + assertEqual(amount_t("-123456789115218063137220803"), y4 - x4); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x4.valid()); + assertTrue(y4.valid()); +} + +void AmountTestCase::testFractionalSubtraction() +{ + amount_t x1(123.123); + amount_t y1(456.456); + + assertEqual(amount_t(-333.333), x1 - y1); + assertEqual(amount_t(333.333), y1 - x1); + + x1 -= amount_t(456.456); + assertEqual(amount_t(-333.333), x1); + x1 -= 456.456; + assertEqual(amount_t(-789.789), x1); + x1 -= 456L; + assertEqual(amount_t(-1245.789), x1); + + amount_t x2("123456789123456789.123456789123456789"); + amount_t y2("9872345982459.248974239578"); + + assertEqual(amount_t("123446916777474329.874482549545456789"), x2 - y2); + assertEqual(amount_t("-123446916777474329.874482549545456789"), y2 - x2); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x2.valid()); + assertTrue(y2.valid()); +} + +void AmountTestCase::testCommoditySubtraction() { amount_t x0; amount_t x1("$123.45"); @@ -991,7 +585,79 @@ void BasicAmountTestCase::testCommoditySubtraction() assertValid(x8); } -void BasicAmountTestCase::testCommodityMultiplication() +void AmountTestCase::testIntegerMultiplication() +{ + amount_t x1(123L); + amount_t y1(456L); + + assertEqual(amount_t(0L), x1 * 0L); + assertEqual(amount_t(0L), amount_t(0L) * x1); + assertEqual(amount_t(0L), 0L * x1); + assertEqual(x1, x1 * 1L); + assertEqual(x1, amount_t(1L) * x1); + assertEqual(x1, 1L * x1); + assertEqual(- x1, x1 * -1L); + assertEqual(- x1, amount_t(-1L) * x1); + assertEqual(- x1, -1L * x1); + assertEqual(amount_t(56088L), x1 * y1); + assertEqual(amount_t(56088L), y1 * x1); + assertEqual(amount_t(56088L), x1 * 456L); + assertEqual(amount_t(56088L), amount_t(456L) * x1); + assertEqual(amount_t(56088L), 456L * x1); + + x1 *= amount_t(123L); + assertEqual(amount_t(15129L), x1); + x1 *= 123L; + assertEqual(amount_t(1860867L), x1); + + amount_t x4("123456789123456789123456789"); + + assertEqual(amount_t("15241578780673678546105778281054720515622620750190521"), + x4 * x4); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x4.valid()); +} + +void AmountTestCase::testFractionalMultiplication() +{ + amount_t x1(123.123); + amount_t y1(456.456); + + assertEqual(amount_t(0L), x1 * 0L); + assertEqual(amount_t(0L), amount_t(0L) * x1); + assertEqual(amount_t(0L), 0L * x1); + assertEqual(x1, x1 * 1L); + assertEqual(x1, amount_t(1L) * x1); + assertEqual(x1, 1L * x1); + assertEqual(- x1, x1 * -1L); + assertEqual(- x1, amount_t(-1L) * x1); + assertEqual(- x1, -1L * x1); + assertEqual(amount_t("56200.232088"), x1 * y1); + assertEqual(amount_t("56200.232088"), y1 * x1); + assertEqual(amount_t("56200.232088"), x1 * 456.456); + assertEqual(amount_t("56200.232088"), amount_t(456.456) * x1); + assertEqual(amount_t("56200.232088"), 456.456 * x1); + + x1 *= amount_t(123.123); + assertEqual(amount_t("15159.273129"), x1); + x1 *= 123.123; + assertEqual(amount_t("1866455.185461867"), x1); + x1 *= 123L; + assertEqual(amount_t("229573987.811809641"), x1); + + amount_t x2("123456789123456789.123456789123456789"); + + assertEqual(amount_t("15241578780673678546105778311537878.046486820281054720515622620750190521"), + x2 * x2); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x2.valid()); +} + +void AmountTestCase::testCommodityMultiplication() { amount_t x1("$123.12"); amount_t y1("$456.45"); @@ -1045,7 +711,83 @@ void BasicAmountTestCase::testCommodityMultiplication() assertValid(x7); } -void BasicAmountTestCase::testCommodityDivision() +void AmountTestCase::testIntegerDivision() +{ + amount_t x1(123L); + amount_t y1(456L); + + assertThrow(x1 / 0L, amount_error); + assertEqual(amount_t(0L), amount_t(0L) / x1); + assertEqual(amount_t(0L), 0L / x1); + assertEqual(x1, x1 / 1L); + assertEqual(amount_t("0.008130"), amount_t(1L) / x1); + assertEqual(amount_t("0.008130"), 1L / x1); + assertEqual(- x1, x1 / -1L); + assertEqual(- amount_t("0.008130"), amount_t(-1L) / x1); + assertEqual(- amount_t("0.008130"), -1L / x1); + assertEqual(amount_t("0.269737"), x1 / y1); + assertEqual(amount_t("3.707317"), y1 / x1); + assertEqual(amount_t("0.269737"), x1 / 456L); + assertEqual(amount_t("3.707317"), amount_t(456L) / x1); + assertEqual(amount_t("3.707317"), 456L / x1); + + x1 /= amount_t(456L); + assertEqual(amount_t("0.269737"), x1); + x1 /= 456L; + assertEqual(amount_t("0.00059152850877193"), x1); + + amount_t x4("123456789123456789123456789"); + amount_t y4("56"); + + assertEqual(amount_t(1L), x4 / x4); + assertEqual(amount_t("2204585520061728377204585.517857"), x4 / y4); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x4.valid()); + assertTrue(y4.valid()); +} + +void AmountTestCase::testFractionalDivision() +{ + amount_t x1(123.123); + amount_t y1(456.456); + + assertThrow(x1 / 0L, amount_error); + assertEqual(amount_t("0.008121959"), amount_t(1.0) / x1); + assertEqual(amount_t("0.008121959"), 1.0 / x1); + assertEqual(x1, x1 / 1.0); + assertEqual(amount_t("0.008121959"), amount_t(1.0) / x1); + assertEqual(amount_t("0.008121959"), 1.0 / x1); + assertEqual(- x1, x1 / -1.0); + assertEqual(- amount_t("0.008121959"), amount_t(-1.0) / x1); + assertEqual(- amount_t("0.008121959"), -1.0 / x1); + assertEqual(amount_t("0.269736842105263"), x1 / y1); + assertEqual(amount_t("3.707317073170732"), y1 / x1); + assertEqual(amount_t("0.269736842105263"), x1 / 456.456); + assertEqual(amount_t("3.707317073170732"), amount_t(456.456) / x1); + assertEqual(amount_t("3.707317073170732"), 456.456 / x1); + + x1 /= amount_t(456.456); + assertEqual(amount_t("0.269736842105263"), x1); + x1 /= 456.456; + assertEqual(amount_t("0.000590937225286255411255411255411255411"), x1); + x1 /= 456L; + assertEqual(amount_t("0.000001295914967733016252753094858358016252192982456140350877192982456140350877192982"), x1); + + amount_t x4("1234567891234567.89123456789"); + amount_t y4("56.789"); + + assertEqual(amount_t(1.0), x4 / x4); + assertEqual(amount_t("21739560323910.7554497273748437197344556164046"), x4 / y4); + + assertTrue(x1.valid()); + assertTrue(y1.valid()); + assertTrue(x4.valid()); + assertTrue(y4.valid()); +} + +void AmountTestCase::testCommodityDivision() { amount_t x1("$123.12"); amount_t y1("$456.45"); @@ -1104,21 +846,181 @@ void BasicAmountTestCase::testCommodityDivision() assertValid(x7); } -void BasicAmountTestCase::testCommodityConversion() +void AmountTestCase::testNegation() { - amount_t x1("$1234.56"); + amount_t x0; + amount_t x1(-123456L); + amount_t x3(-123.456); + amount_t x5("-123456"); + amount_t x6("-123.456"); + amount_t x7(string("-123456")); + amount_t x8(string("-123.456")); + amount_t x9(- x3); - assertEqual(true, bool(x1)); - assertThrow(x1.to_long(), amount_error); // loses precision - assertEqual(1234L, x1.to_long(true)); - assertEqual(1234.56, x1.to_double()); - assertEqual(string("$1234.56"), x1.to_string()); - assertEqual(string("1234.56"), x1.quantity_string()); + assertEqual(amount_t(0L), x0); + assertEqual(x5, x1); + assertEqual(x7, x1); + assertEqual(x6, x3); + assertEqual(x8, x3); + assertEqual(- x6, x9); + assertEqual(x3.negate(), x9); + + amount_t x10(x9.negate()); + + assertEqual(x3, x10); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x3.valid()); + assertTrue(x5.valid()); + assertTrue(x6.valid()); + assertTrue(x7.valid()); + assertTrue(x8.valid()); + assertTrue(x9.valid()); + assertTrue(x10.valid()); +} + +void AmountTestCase::testCommodityNegation() +{ + amount_t x1("$123.45"); + amount_t x2("-$123.45"); + amount_t x3("$-123.45"); + amount_t x4("DM 123.45"); + amount_t x5("-DM 123.45"); + amount_t x6("DM -123.45"); + amount_t x7("123.45 euro"); + amount_t x8("-123.45 euro"); + amount_t x9("123.45€"); + amount_t x10("-123.45€"); + + assertEqual(amount_t("$-123.45"), - x1); + assertEqual(amount_t("$123.45"), - x2); + assertEqual(amount_t("$123.45"), - x3); + assertEqual(amount_t("DM -123.45"), - x4); + assertEqual(amount_t("DM 123.45"), - x5); + assertEqual(amount_t("DM 123.45"), - x6); + assertEqual(amount_t("-123.45 euro"), - x7); + assertEqual(amount_t("123.45 euro"), - x8); + assertEqual(amount_t("-123.45€"), - x9); + assertEqual(amount_t("123.45€"), - x10); + + assertEqual(amount_t("$-123.45"), x1.negate()); + assertEqual(amount_t("$123.45"), x2.negate()); + assertEqual(amount_t("$123.45"), x3.negate()); + + assertEqual(string("$-123.45"), (- x1).to_string()); + assertEqual(string("$123.45"), (- x2).to_string()); + assertEqual(string("$123.45"), (- x3).to_string()); + assertEqual(string("DM -123.45"), (- x4).to_string()); + assertEqual(string("DM 123.45"), (- x5).to_string()); + assertEqual(string("DM 123.45"), (- x6).to_string()); + assertEqual(string("-123.45 euro"), (- x7).to_string()); + assertEqual(string("123.45 euro"), (- x8).to_string()); + assertEqual(string("-123.45€"), (- x9).to_string()); + assertEqual(string("123.45€"), (- x10).to_string()); + + assertEqual(amount_t("$-123.45"), x1.negate()); + assertEqual(amount_t("$123.45"), x2.negate()); + assertEqual(amount_t("$123.45"), x3.negate()); assertValid(x1); + assertValid(x2); + assertValid(x3); + assertValid(x4); + assertValid(x5); + assertValid(x6); + assertValid(x7); + assertValid(x8); + assertValid(x9); + assertValid(x10); } -void BasicAmountTestCase::testCommodityRound() +void AmountTestCase::testAbs() +{ + amount_t x0; + amount_t x1(-1234L); + amount_t x2(1234L); + + assertEqual(amount_t(), x0.abs()); + assertEqual(amount_t(1234L), x1.abs()); + assertEqual(amount_t(1234L), x2.abs()); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); +} + +void AmountTestCase::testCommodityAbs() +{ + amount_t x0; + amount_t x1("$-1234.56"); + amount_t x2("$1234.56"); + + assertEqual(amount_t(), x0.abs()); + assertEqual(amount_t("$1234.56"), x1.abs()); + assertEqual(amount_t("$1234.56"), x2.abs()); + + assertValid(x0); + assertValid(x1); + assertValid(x2); +} + +void AmountTestCase::testFractionalRound() +{ + amount_t x1("1234.567890"); + + assertEqual(amount_t("1234.56789"), x1.round(6)); + assertEqual(amount_t("1234.56789"), x1.round(5)); + assertEqual(amount_t("1234.5679"), x1.round(4)); + assertEqual(amount_t("1234.568"), x1.round(3)); + assertEqual(amount_t("1234.57"), x1.round(2)); + assertEqual(amount_t("1234.6"), x1.round(1)); + assertEqual(amount_t("1235"), x1.round(0)); + + amount_t x2("9876.543210"); + + assertEqual(amount_t("9876.543210"), x2.round(6)); + assertEqual(amount_t("9876.54321"), x2.round(5)); + assertEqual(amount_t("9876.5432"), x2.round(4)); + assertEqual(amount_t("9876.543"), x2.round(3)); + assertEqual(amount_t("9876.54"), x2.round(2)); + assertEqual(amount_t("9876.5"), x2.round(1)); + assertEqual(amount_t("9877"), x2.round(0)); + + amount_t x3("-1234.567890"); + + assertEqual(amount_t("-1234.56789"), x3.round(6)); + assertEqual(amount_t("-1234.56789"), x3.round(5)); + assertEqual(amount_t("-1234.5679"), x3.round(4)); + assertEqual(amount_t("-1234.568"), x3.round(3)); + assertEqual(amount_t("-1234.57"), x3.round(2)); + assertEqual(amount_t("-1234.6"), x3.round(1)); + assertEqual(amount_t("-1235"), x3.round(0)); + + amount_t x4("-9876.543210"); + + assertEqual(amount_t("-9876.543210"), x4.round(6)); + assertEqual(amount_t("-9876.54321"), x4.round(5)); + assertEqual(amount_t("-9876.5432"), x4.round(4)); + assertEqual(amount_t("-9876.543"), x4.round(3)); + assertEqual(amount_t("-9876.54"), x4.round(2)); + assertEqual(amount_t("-9876.5"), x4.round(1)); + assertEqual(amount_t("-9877"), x4.round(0)); + + amount_t x5("0.0000000000000000000000000000000000001"); + + assertEqual(amount_t("0.0000000000000000000000000000000000001"), + x5.round(37)); + assertEqual(amount_t(), x5.round(36)); + + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x4.valid()); + assertTrue(x5.valid()); +} + +void AmountTestCase::testCommodityRound() { amount_t x1(internalAmount("$1234.567890")); @@ -1176,7 +1078,7 @@ void BasicAmountTestCase::testCommodityRound() assertValid(x5); } -void BasicAmountTestCase::testCommodityDisplayRound() +void AmountTestCase::testCommodityDisplayRound() { amount_t x1("$0.85"); amount_t x2("$0.1"); @@ -1198,26 +1100,123 @@ void BasicAmountTestCase::testCommodityDisplayRound() assertEqual(string("$1.13"), x1.to_string()); } -void BasicAmountTestCase::testCommodityTruth() +void AmountTestCase::testReduction() +{ + amount_t x1("60s"); + amount_t x2("600s"); + amount_t x3("6000s"); + amount_t x4("360000s"); + amount_t x5("10m"); // 600s + amount_t x6("100m"); // 6000s + amount_t x7("1000m"); // 60000s + amount_t x8("10000m"); // 600000s + amount_t x9("10h"); // 36000s + amount_t x10("100h"); // 360000s + amount_t x11("1000h"); // 3600000s + amount_t x12("10000h"); // 36000000s + + assertEqual(x2, x5); + assertEqual(x3, x6); + assertEqual(x4, x10); +} + +void AmountTestCase::testSign() +{ + amount_t x0; + amount_t x1("0.0000000000000000000000000000000000001"); + amount_t x2("-0.0000000000000000000000000000000000001"); + amount_t x3("1"); + amount_t x4("-1"); + + assertEqual(x0.sign(), 0); + assertTrue(x1.sign() > 0); + assertTrue(x2.sign() < 0); + assertTrue(x3.sign() > 0); + assertTrue(x4.sign() < 0); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); + assertTrue(x3.valid()); + assertTrue(x4.valid()); +} + +void AmountTestCase::testCommoditySign() +{ + amount_t x0; + amount_t x1(internalAmount("$0.0000000000000000000000000000000000001")); + amount_t x2(internalAmount("$-0.0000000000000000000000000000000000001")); + amount_t x3("$1"); + amount_t x4("$-1"); + + assertFalse(x0.sign()); + assertTrue(x1.sign() != 0); + assertTrue(x2.sign() != 0); + assertTrue(x3.sign() > 0); + assertTrue(x4.sign() < 0); + + assertValid(x0); + assertValid(x1); + assertValid(x2); + assertValid(x3); + assertValid(x4); +} + +void AmountTestCase::testTruth() +{ + amount_t x0; + amount_t x1("1234"); + amount_t x2("1234.56"); + + if (x0) + assertTrue(false); + else + assertTrue(true); + + assertTrue(x1); + assertTrue(x2); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); + assertTrue(x2.valid()); +} + +void AmountTestCase::testCommodityTruth() { amount_t x1("$1234"); amount_t x2("$1234.56"); if (x1) - CPPUNIT_ASSERT(true); + assertTrue(true); else - CPPUNIT_ASSERT(false); + assertTrue(false); if (x2) - CPPUNIT_ASSERT(true); + assertTrue(true); else - CPPUNIT_ASSERT(false); + assertTrue(false); assertValid(x1); assertValid(x2); } -void BasicAmountTestCase::testCommodityForZero() +void AmountTestCase::testForZero() +{ + amount_t x0; + amount_t x1("0.000000000000000000001"); + + assertFalse(x0); + assertTrue(x1); + assertTrue(x0.is_zero()); + assertTrue(x0.is_realzero()); + assertFalse(x1.is_zero()); + assertFalse(x1.is_realzero()); + + assertTrue(x0.valid()); + assertTrue(x1.valid()); +} + +void AmountTestCase::testCommodityForZero() { amount_t x1(internalAmount("$0.000000000000000000001")); @@ -1228,77 +1227,69 @@ void BasicAmountTestCase::testCommodityForZero() assertValid(x1); } -void BasicAmountTestCase::testCommodityComparisons() +void AmountTestCase::testIntegerConversion() { - amount_t x0; - amount_t x1("$-123"); - amount_t x2("$123.00"); - amount_t x3(internalAmount("$-123.4544")); - amount_t x4(internalAmount("$123.4544")); - amount_t x5("$-123.45"); - amount_t x6("$123.45"); + amount_t x1(123456L); - assertTrue(x0 > x1); - assertTrue(x0 < x2); - assertTrue(x0 > x3); - assertTrue(x0 < x4); - assertTrue(x0 > x5); - assertTrue(x0 < x6); + assertEqual(123456L, x1.to_long()); + assertEqual(123456.0, x1.to_double()); + assertEqual(string("123456"), x1.to_string()); + assertEqual(string("123456"), x1.quantity_string()); - assertTrue(x1 > x3); - assertTrue(x3 <= x5); - assertTrue(x3 < x5); - assertTrue(x3 <= x5); - assertFalse(x3 == x5); - assertTrue(x3 < x1); - assertTrue(x3 < x4); + assertTrue(x1.valid()); +} - assertValid(x0); - assertValid(x1); - assertValid(x2); - assertValid(x3); - assertValid(x4); - assertValid(x5); - assertValid(x6); +void AmountTestCase::testFractionalConversion() +{ + amount_t x1(1234.56); + + assertThrow(x1.to_long(), amount_error); // loses precision + assertEqual(1234L, x1.to_long(true)); + assertEqual(1234.56, x1.to_double()); + assertEqual(string("1234.56"), x1.to_string()); + assertEqual(string("1234.56"), x1.quantity_string()); + + assertTrue(x1.valid()); } -void BasicAmountTestCase::testCommoditySign() +void AmountTestCase::testCommodityConversion() { - amount_t x0; - amount_t x1(internalAmount("$0.0000000000000000000000000000000000001")); - amount_t x2(internalAmount("$-0.0000000000000000000000000000000000001")); - amount_t x3("$1"); - amount_t x4("$-1"); + amount_t x1("$1234.56"); - assertFalse(x0.sign()); - assertTrue(x1.sign() != 0); - assertTrue(x2.sign() != 0); - assertTrue(x3.sign() > 0); - assertTrue(x4.sign() < 0); + assertThrow(x1.to_long(), amount_error); // loses precision + assertEqual(1234L, x1.to_long(true)); + assertEqual(1234.56, x1.to_double()); + assertEqual(string("$1234.56"), x1.to_string()); + assertEqual(string("1234.56"), x1.quantity_string()); - assertValid(x0); assertValid(x1); - assertValid(x2); - assertValid(x3); - assertValid(x4); } -void BasicAmountTestCase::testCommodityAbs() +void AmountTestCase::testPrinting() { amount_t x0; - amount_t x1("$-1234.56"); - amount_t x2("$1234.56"); + amount_t x1("982340823.380238098235098235098235098"); - assertEqual(amount_t(), x0.abs()); - assertEqual(amount_t("$1234.56"), x1.abs()); - assertEqual(amount_t("$1234.56"), x2.abs()); + { + std::ostringstream bufstr; + bufstr << x0; - assertValid(x0); - assertValid(x1); - assertValid(x2); + assertEqual(std::string("0"), bufstr.str()); + } + + { + std::ostringstream bufstr; + bufstr << x1; + + assertEqual(std::string("982340823.380238098235098235098235098"), + bufstr.str()); + } + + assertTrue(x0.valid()); + assertTrue(x1.valid()); } -void BasicAmountTestCase::testCommodityPrinting() +void AmountTestCase::testCommodityPrinting() { amount_t x0; amount_t x1(internalAmount("$982340823.386238098235098235098235098")); diff --git a/tests/numerics/t_amount.h b/tests/numerics/t_amount.h index ee227a5c..0bf0017f 100644 --- a/tests/numerics/t_amount.h +++ b/tests/numerics/t_amount.h @@ -3,48 +3,48 @@ #include "UnitTests.h" -class BasicAmountTestCase : public CPPUNIT_NS::TestCase +class AmountTestCase : public CPPUNIT_NS::TestCase { - CPPUNIT_TEST_SUITE(BasicAmountTestCase); + CPPUNIT_TEST_SUITE(AmountTestCase); CPPUNIT_TEST(testConstructors); + CPPUNIT_TEST(testCommodityConstructors); CPPUNIT_TEST(testAssignment); + CPPUNIT_TEST(testCommodityAssignment); CPPUNIT_TEST(testEquality); + CPPUNIT_TEST(testCommodityEquality); CPPUNIT_TEST(testComparisons); + CPPUNIT_TEST(testCommodityComparisons); CPPUNIT_TEST(testIntegerAddition); CPPUNIT_TEST(testFractionalAddition); + CPPUNIT_TEST(testCommodityAddition); CPPUNIT_TEST(testIntegerSubtraction); CPPUNIT_TEST(testFractionalSubtraction); + CPPUNIT_TEST(testCommoditySubtraction); CPPUNIT_TEST(testIntegerMultiplication); CPPUNIT_TEST(testFractionalMultiplication); + CPPUNIT_TEST(testCommodityMultiplication); CPPUNIT_TEST(testIntegerDivision); CPPUNIT_TEST(testFractionalDivision); + CPPUNIT_TEST(testCommodityDivision); CPPUNIT_TEST(testNegation); + CPPUNIT_TEST(testCommodityNegation); CPPUNIT_TEST(testAbs); + CPPUNIT_TEST(testCommodityAbs); CPPUNIT_TEST(testFractionalRound); + CPPUNIT_TEST(testCommodityRound); + CPPUNIT_TEST(testCommodityDisplayRound); CPPUNIT_TEST(testReduction); CPPUNIT_TEST(testSign); + CPPUNIT_TEST(testCommoditySign); CPPUNIT_TEST(testTruth); + CPPUNIT_TEST(testCommodityTruth); CPPUNIT_TEST(testForZero); + CPPUNIT_TEST(testCommodityForZero); CPPUNIT_TEST(testIntegerConversion); CPPUNIT_TEST(testFractionalConversion); - CPPUNIT_TEST(testPrinting); - CPPUNIT_TEST(testCommodityConstructors); - CPPUNIT_TEST(testCommodityNegation); - CPPUNIT_TEST(testCommodityAssignment); - CPPUNIT_TEST(testCommodityEquality); - CPPUNIT_TEST(testCommodityAddition); - CPPUNIT_TEST(testCommoditySubtraction); - CPPUNIT_TEST(testCommodityMultiplication); - CPPUNIT_TEST(testCommodityDivision); CPPUNIT_TEST(testCommodityConversion); - CPPUNIT_TEST(testCommodityRound); - CPPUNIT_TEST(testCommodityDisplayRound); - CPPUNIT_TEST(testCommodityTruth); - CPPUNIT_TEST(testCommodityForZero); - CPPUNIT_TEST(testCommodityComparisons); - CPPUNIT_TEST(testCommoditySign); - CPPUNIT_TEST(testCommodityAbs); + CPPUNIT_TEST(testPrinting); CPPUNIT_TEST(testCommodityPrinting); CPPUNIT_TEST_SUITE_END(); @@ -52,55 +52,55 @@ class BasicAmountTestCase : public CPPUNIT_NS::TestCase public: ledger::session_t session; - BasicAmountTestCase() {} - virtual ~BasicAmountTestCase() {} + AmountTestCase() {} + virtual ~AmountTestCase() {} virtual void setUp(); virtual void tearDown(); void testConstructors(); + void testCommodityConstructors(); void testAssignment(); + void testCommodityAssignment(); void testEquality(); + void testCommodityEquality(); void testComparisons(); + void testCommodityComparisons(); void testIntegerAddition(); void testFractionalAddition(); + void testCommodityAddition(); void testIntegerSubtraction(); void testFractionalSubtraction(); + void testCommoditySubtraction(); void testIntegerMultiplication(); void testFractionalMultiplication(); + void testCommodityMultiplication(); void testIntegerDivision(); void testFractionalDivision(); + void testCommodityDivision(); void testNegation(); + void testCommodityNegation(); void testAbs(); + void testCommodityAbs(); void testFractionalRound(); + void testCommodityRound(); + void testCommodityDisplayRound(); void testReduction(); void testSign(); + void testCommoditySign(); void testTruth(); + void testCommodityTruth(); void testForZero(); + void testCommodityForZero(); void testIntegerConversion(); void testFractionalConversion(); - void testPrinting(); - void testCommodityConstructors(); - void testCommodityNegation(); - void testCommodityAssignment(); - void testCommodityEquality(); - void testCommodityAddition(); - void testCommoditySubtraction(); - void testCommodityMultiplication(); - void testCommodityDivision(); void testCommodityConversion(); - void testCommodityRound(); - void testCommodityDisplayRound(); - void testCommodityTruth(); - void testCommodityForZero(); - void testCommodityComparisons(); - void testCommoditySign(); - void testCommodityAbs(); + void testPrinting(); void testCommodityPrinting(); private: - BasicAmountTestCase(const BasicAmountTestCase ©); - void operator=(const BasicAmountTestCase ©); + AmountTestCase(const AmountTestCase ©); + void operator=(const AmountTestCase ©); }; #endif // _T_AMOUNT_H diff --git a/tests/python/numerics/t_amount.py b/tests/python/numerics/t_amount.py index 70ac0852..dd87b2cd 100644 --- a/tests/python/numerics/t_amount.py +++ b/tests/python/numerics/t_amount.py @@ -10,7 +10,6 @@ from ledger import amount internalAmount = amount.exact - class AmountTestCase(unittest.TestCase): def setUp(self): # Cause the display precision for dollars to be initialized to 2. @@ -35,6 +34,9 @@ class AmountTestCase(unittest.TestCase): x10 = amount(x6) self.assertEqual(amount(0), x0) + self.assertEqual(amount(), x0) + self.assertEqual(amount("0"), x0) + self.assertEqual(amount("0.0"), x0) self.assertEqual(x2, x1) self.assertEqual(x5, x1) self.assertEqual(x6, x3) @@ -50,29 +52,48 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x9) self.assertValid(x10) - def testNegation(self): - x0 = amount() - x1 = amount(-123456) - x3 = amount(-123.456) - x5 = amount("-123456") - x6 = amount("-123.456") - x9 = amount(- x3) - - self.assertEqual(amount(0), x0) - self.assertEqual(x5, x1) - self.assertEqual(x6, x3) - self.assertEqual(- x6, x9) - self.assertEqual(x3.negate(), x9) + def testCommodityConstructors(self): + x1 = amount("$123.45") + x2 = amount("-$123.45") + x3 = amount("$-123.45") + x4 = amount("DM 123.45") + x5 = amount("-DM 123.45") + x6 = amount("DM -123.45") + x7 = amount("123.45 euro") + x8 = amount("-123.45 euro") + x9 = amount("123.45€") + x10 = amount("-123.45€") - x10 = amount(x9.negate()) + self.assertEqual(amount("$123.45"), x1) + self.assertEqual(amount("-$123.45"), x2) + self.assertEqual(amount("$-123.45"), x3) + self.assertEqual(amount("DM 123.45"), x4) + self.assertEqual(amount("-DM 123.45"), x5) + self.assertEqual(amount("DM -123.45"), x6) + self.assertEqual(amount("123.45 euro"), x7) + self.assertEqual(amount("-123.45 euro"), x8) + self.assertEqual(amount("123.45€"), x9) + self.assertEqual(amount("-123.45€"), x10) - self.assertEqual(x3, x10) + self.assertEqual("$123.45", x1.to_string()) + self.assertEqual("$-123.45", x2.to_string()) + self.assertEqual("$-123.45", x3.to_string()) + self.assertEqual("DM 123.45", x4.to_string()) + self.assertEqual("DM -123.45", x5.to_string()) + self.assertEqual("DM -123.45", x6.to_string()) + self.assertEqual("123.45 euro", x7.to_string()) + self.assertEqual("-123.45 euro", x8.to_string()) + self.assertEqual("123.45€", x9.to_string()) + self.assertEqual("-123.45€", x10.to_string()) - self.assertValid(x0) self.assertValid(x1) + self.assertValid(x2) self.assertValid(x3) + self.assertValid(x4) self.assertValid(x5) self.assertValid(x6) + self.assertValid(x7) + self.assertValid(x8) self.assertValid(x9) self.assertValid(x10) @@ -118,6 +139,51 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x9) self.assertValid(x10) + def testCommodityAssignment(self): + x1 = amount("$123.45") + x2 = amount("-$123.45") + x3 = amount("$-123.45") + x4 = amount("DM 123.45") + x5 = amount("-DM 123.45") + x6 = amount("DM -123.45") + x7 = amount("123.45 euro") + x8 = amount("-123.45 euro") + x9 = amount("123.45€") + x10 = amount("-123.45€") + + self.assertEqual(amount("$123.45"), x1) + self.assertEqual(amount("-$123.45"), x2) + self.assertEqual(amount("$-123.45"), x3) + self.assertEqual(amount("DM 123.45"), x4) + self.assertEqual(amount("-DM 123.45"), x5) + self.assertEqual(amount("DM -123.45"), x6) + self.assertEqual(amount("123.45 euro"), x7) + self.assertEqual(amount("-123.45 euro"), x8) + self.assertEqual(amount("123.45€"), x9) + self.assertEqual(amount("-123.45€"), x10) + + self.assertEqual("$123.45", x1.to_string()) + self.assertEqual("$-123.45", x2.to_string()) + self.assertEqual("$-123.45", x3.to_string()) + self.assertEqual("DM 123.45", x4.to_string()) + self.assertEqual("DM -123.45", x5.to_string()) + self.assertEqual("DM -123.45", x6.to_string()) + self.assertEqual("123.45 euro", x7.to_string()) + self.assertEqual("-123.45 euro", x8.to_string()) + self.assertEqual("123.45€", x9.to_string()) + self.assertEqual("-123.45€", x10.to_string()) + + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + self.assertValid(x7) + self.assertValid(x8) + self.assertValid(x9) + self.assertValid(x10) + def testEquality(self): x1 = amount(123456) x2 = amount(456789) @@ -137,6 +203,118 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x4) self.assertValid(x5) + def testCommodityEquality(self): + x0 = amount() + x1 = amount("$123.45") + x2 = amount("-$123.45") + x3 = amount("$-123.45") + x4 = amount("DM 123.45") + x5 = amount("-DM 123.45") + x6 = amount("DM -123.45") + x7 = amount("123.45 euro") + x8 = amount("-123.45 euro") + x9 = amount("123.45€") + x10 = amount("-123.45€") + + self.assertTrue(x0.is_null()) + self.assertTrue(x0.is_zero()) + self.assertTrue(x0.is_realzero()) + self.assertTrue(x0.sign() == 0) + self.assertTrue(x0.compare(x1) < 0) + self.assertTrue(x0.compare(x2) > 0) + self.assertTrue(x0.compare(x0) == 0) + + self.assertTrue(x1 != x2) + self.assertTrue(x1 != x4) + self.assertTrue(x1 != x7) + self.assertTrue(x1 != x9) + self.assertTrue(x2 == x3) + self.assertTrue(x4 != x5) + self.assertTrue(x5 == x6) + self.assertTrue(x7 == - x8) + self.assertTrue(x9 == - x10) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + self.assertValid(x7) + self.assertValid(x8) + self.assertValid(x9) + self.assertValid(x10) + + def testComparisons(self): + x0 = amount() + x1 = amount(-123) + x2 = amount(123) + x3 = amount(-123.45) + x4 = amount(123.45) + x5 = amount("-123.45") + x6 = amount("123.45") + + self.assertTrue(x0 > x1) + self.assertTrue(x0 < x2) + self.assertTrue(x0 > x3) + self.assertTrue(x0 < x4) + self.assertTrue(x0 > x5) + self.assertTrue(x0 < x6) + + self.assertTrue(x1 > x3) + self.assertTrue(x3 <= x5) + self.assertTrue(x3 >= x5) + self.assertTrue(x3 < x1) + self.assertTrue(x3 < x4) + + self.assertTrue(x1 < 100) + self.assertTrue(x1 < 100L) + self.assertTrue(x1 < 100.0) + self.assertTrue(100 > x1) + self.assertTrue(100L > x1) + self.assertTrue(100.0 > x1) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + + def testCommodityComparisons(self): + x0 = amount() + x1 = amount("$-123") + x2 = amount("$123.00") + x3 = amount(internalAmount("$-123.4544")) + x4 = amount(internalAmount("$123.4544")) + x5 = amount("$-123.45") + x6 = amount("$123.45") + + self.assertTrue(x0 > x1) + self.assertTrue(x0 < x2) + self.assertTrue(x0 > x3) + self.assertTrue(x0 < x4) + self.assertTrue(x0 > x5) + self.assertTrue(x0 < x6) + + self.assertTrue(x1 > x3) + self.assertTrue(x3 <= x5) + self.assertTrue(x3 < x5) + self.assertTrue(x3 <= x5) + self.assertFalse(x3 == x5) + self.assertTrue(x3 < x1) + self.assertTrue(x3 < x4) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + def testIntegerAddition(self): x1 = amount(123) y1 = amount(456) @@ -181,6 +359,58 @@ class AmountTestCase(unittest.TestCase): self.assertValid(y1) self.assertValid(x2) + def testCommodityAddition(self): + x0 = amount() + x1 = amount("$123.45") + x2 = amount(internalAmount("$123.456789")) + x3 = amount("DM 123.45") + x4 = amount("123.45 euro") + x5 = amount("123.45€") + x6 = amount("123.45") + + self.assertEqual(amount("$246.90"), x1 + x1) + self.assertNotEqual(amount("$246.91"), x1 + x2) + self.assertEqual(internalAmount("$246.906789"), x1 + x2) + + # Converting to string drops internal precision + self.assertEqual("$246.90", (x1 + x1).to_string()) + self.assertEqual("$246.91", (x1 + x2).to_string()) + + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x0) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x3) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x4) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x5) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x6) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, 123.45) + self.assertRaises(exceptions.ArithmeticError, operator.add, x1, 123) + + self.assertEqual(amount("DM 246.90"), x3 + x3) + self.assertEqual(amount("246.90 euro"), x4 + x4) + self.assertEqual(amount("246.90€"), x5 + x5) + + self.assertEqual("DM 246.90", (x3 + x3).to_string()) + self.assertEqual("246.90 euro", (x4 + x4).to_string()) + self.assertEqual("246.90€", (x5 + x5).to_string()) + + x1 += amount("$456.45") + self.assertEqual(amount("$579.90"), x1) + x1 += amount("$456.45") + self.assertEqual(amount("$1036.35"), x1) + x1 += amount("$456") + self.assertEqual(amount("$1492.35"), x1) + + x7 = amount(internalAmount("$123456789123456789.123456789123456789")) + + self.assertEqual(internalAmount("$246913578246913578.246913578246913578"), x7 + x7) + + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + self.assertValid(x7) + def testIntegerSubtraction(self): x1 = amount(123) y1 = amount(456) @@ -231,6 +461,83 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x2) self.assertValid(y2) + def testCommoditySubtraction(self): + x0 = amount() + x1 = amount("$123.45") + x2 = amount(internalAmount("$123.456789")) + x3 = amount("DM 123.45") + x4 = amount("123.45 euro") + x5 = amount("123.45€") + x6 = amount("123.45") + + self.assertNotEqual(amount(), x1 - x1) + self.assertEqual(amount("$0"), x1 - x1) + self.assertEqual(amount("$23.45"), x1 - amount("$100.00")) + self.assertEqual(amount("$-23.45"), amount("$100.00") - x1) + self.assertNotEqual(amount("$-0.01"), x1 - x2) + self.assertEqual(internalAmount("$-0.006789"), x1 - x2) + + # Converting to string drops internal precision. If an amount is + # zero, it drops the commodity as well. + self.assertEqual("$0.00", (x1 - x1).to_string()) + self.assertEqual("$-0.01", (x1 - x2).to_string()) + + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x0) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x3) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x4) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x5) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x6) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, 123.45) + self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, 123) + + self.assertEqual(amount("DM 0.00"), x3 - x3) + self.assertEqual(amount("DM 23.45"), x3 - amount("DM 100.00")) + self.assertEqual(amount("DM -23.45"), amount("DM 100.00") - x3) + self.assertEqual(amount("0.00 euro"), x4 - x4) + self.assertEqual(amount("23.45 euro"), x4 - amount("100.00 euro")) + self.assertEqual(amount("-23.45 euro"), amount("100.00 euro") - x4) + self.assertEqual(amount("0.00€"), x5 - x5) + self.assertEqual(amount("23.45€"), x5 - amount("100.00€")) + self.assertEqual(amount("-23.45€"), amount("100.00€") - x5) + + self.assertEqual("DM 0.00", (x3 - x3).to_string()) + self.assertEqual("DM 23.45", (x3 - amount("DM 100.00")).to_string()) + self.assertEqual("DM -23.45", (amount("DM 100.00") - x3).to_string()) + self.assertEqual("0.00 euro", (x4 - x4).to_string()) + self.assertEqual("23.45 euro", (x4 - amount("100.00 euro")).to_string()) + self.assertEqual("-23.45 euro", (amount("100.00 euro") - x4).to_string()) + self.assertEqual("0.00€", (x5 - x5).to_string()) + self.assertEqual("23.45€", (x5 - amount("100.00€")).to_string()) + self.assertEqual("-23.45€", (amount("100.00€") - x5).to_string()) + + x1 -= amount("$456.45") + self.assertEqual(amount("$-333.00"), x1) + x1 -= amount("$456.45") + self.assertEqual(amount("$-789.45"), x1) + x1 -= amount("$456") + self.assertEqual(amount("$-1245.45"), x1) + + x7 = amount(internalAmount("$123456789123456789.123456789123456789")) + x8 = amount(internalAmount("$2354974984698.98459845984598")) + + self.assertEqual(internalAmount("$123454434148472090.138858329277476789"), x7 - x8) + self.assertEqual("$123454434148472090.138858329277476789", (x7 - x8).to_string()) + self.assertEqual("$123454434148472090.14", + (amount("$1.00") * (x7 - x8)).to_string()) + self.assertEqual(internalAmount("$-123454434148472090.138858329277476789"), x8 - x7) + self.assertEqual("$-123454434148472090.138858329277476789", (x8 - x7).to_string()) + self.assertEqual("$-123454434148472090.14", + (amount("$1.00") * (x8 - x7)).to_string()) + + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x6) + self.assertValid(x7) + self.assertValid(x8) + def testIntegerMultiplication(self): x1 = amount(123) y1 = amount(456) @@ -299,6 +606,58 @@ class AmountTestCase(unittest.TestCase): self.assertValid(y1) self.assertValid(x2) + def testCommodityMultiplication(self): + x1 = amount("$123.12") + y1 = amount("$456.45") + x2 = amount(internalAmount("$123.456789")) + x3 = amount("DM 123.45") + x4 = amount("123.45 euro") + x5 = amount("123.45€") + + self.assertEqual(amount("$0.00"), x1 * 0) + self.assertEqual(amount("$0.00"), 0 * x1) + self.assertEqual(x1, x1 * 1) + self.assertEqual(x1, 1 * x1) + self.assertEqual(- x1, x1 * -1) + self.assertEqual(- x1, -1 * x1) + self.assertEqual(internalAmount("$56198.124"), x1 * y1) + self.assertEqual("$56198.12", (x1 * y1).to_string()) + self.assertEqual(internalAmount("$56198.124"), y1 * x1) + self.assertEqual("$56198.12", (y1 * x1).to_string()) + + # Internal amounts retain their precision, even when being + # converted to strings + self.assertEqual(internalAmount("$15199.99986168"), x1 * x2) + self.assertEqual(internalAmount("$15199.99986168"), x2 * x1) + self.assertEqual("$15200.00", (x1 * x2).to_string()) + self.assertEqual("$15199.99986168", (x2 * x1).to_string()) + + self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x3) + self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x4) + self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x5) + + x1 *= amount("123.12") + self.assertEqual(internalAmount("$15158.5344"), x1) + self.assertEqual("$15158.53", x1.to_string()) + x1 *= 123.12 + self.assertEqual(internalAmount("$1866318.755328"), x1) + self.assertEqual("$1866318.76", x1.to_string()) + x1 *= 123 + self.assertEqual(internalAmount("$229557206.905344"), x1) + self.assertEqual("$229557206.91", x1.to_string()) + + x7 = amount(internalAmount("$123456789123456789.123456789123456789")) + + self.assertEqual(internalAmount("$15241578780673678546105778311537878.046486820281054720515622620750190521"), + x7 * x7) + + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + self.assertValid(x5) + self.assertValid(x7) + def divideByZero(self, amt): return amt / 0 @@ -375,214 +734,86 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x4) self.assertValid(y4) - def testIntegerConversion(self): - x1 = amount(123456) - - self.assertTrue(x1) - self.assertEqual(123456, int(x1)) - self.assertEqual(123456.0, float(x1)) - self.assertEqual("123456", x1.to_string()) - self.assertEqual("123456", x1.quantity_string()) - - self.assertValid(x1) - - def testFractionalConversion(self): - x1 = amount(1234.56) - - self.assertTrue(x1) - self.assertRaises(exceptions.ArithmeticError, amount.to_long, x1) - self.assertEqual(1234, x1.to_long(True)) - self.assertEqual(1234.56, float(x1)) - self.assertEqual("1234.56", x1.to_string()) - self.assertEqual("1234.56", x1.quantity_string()) - - self.assertValid(x1) - - def testFractionalRound(self): - x1 = amount("1234.567890") - - self.assertEqual(amount("1234.56789"), x1.round(6)) - self.assertEqual(amount("1234.56789"), x1.round(5)) - self.assertEqual(amount("1234.5679"), x1.round(4)) - self.assertEqual(amount("1234.568"), x1.round(3)) - self.assertEqual(amount("1234.57"), x1.round(2)) - self.assertEqual(amount("1234.6"), x1.round(1)) - self.assertEqual(amount("1235"), x1.round(0)) - - x2 = amount("9876.543210") - - self.assertEqual(amount("9876.543210"), x2.round(6)) - self.assertEqual(amount("9876.54321"), x2.round(5)) - self.assertEqual(amount("9876.5432"), x2.round(4)) - self.assertEqual(amount("9876.543"), x2.round(3)) - self.assertEqual(amount("9876.54"), x2.round(2)) - self.assertEqual(amount("9876.5"), x2.round(1)) - self.assertEqual(amount("9877"), x2.round(0)) - - x3 = amount("-1234.567890") - - self.assertEqual(amount("-1234.56789"), x3.round(6)) - self.assertEqual(amount("-1234.56789"), x3.round(5)) - self.assertEqual(amount("-1234.5679"), x3.round(4)) - self.assertEqual(amount("-1234.568"), x3.round(3)) - self.assertEqual(amount("-1234.57"), x3.round(2)) - self.assertEqual(amount("-1234.6"), x3.round(1)) - self.assertEqual(amount("-1235"), x3.round(0)) - - x4 = amount("-9876.543210") - - self.assertEqual(amount("-9876.543210"), x4.round(6)) - self.assertEqual(amount("-9876.54321"), x4.round(5)) - self.assertEqual(amount("-9876.5432"), x4.round(4)) - self.assertEqual(amount("-9876.543"), x4.round(3)) - self.assertEqual(amount("-9876.54"), x4.round(2)) - self.assertEqual(amount("-9876.5"), x4.round(1)) - self.assertEqual(amount("-9877"), x4.round(0)) - - self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - - def testTruth(self): - x0 = amount() - x1 = amount("1234") - x2 = amount("1234.56") - - self.assertFalse(x0) - self.assertTrue(x1) - self.assertTrue(x2) - - self.assertValid(x0) - self.assertValid(x1) - self.assertValid(x2) - - def testForZero(self): - x0 = amount() - x1 = amount("0.000000000000000000001") + def testCommodityDivision(self): + x1 = amount("$123.12") + y1 = amount("$456.45") + x2 = amount(internalAmount("$123.456789")) + x3 = amount("DM 123.45") + x4 = amount("123.45 euro") + x5 = amount("123.45€") - self.assertFalse(x0) - self.assertTrue(x1) - self.assertTrue(x0.is_zero()) - self.assertTrue(x0.is_realzero()) - self.assertFalse(x1.is_zero()) - self.assertFalse(x1.is_realzero()) + self.assertRaises(exceptions.ArithmeticError, operator.div, x1, 0) + self.assertEqual(amount("$0.00"), 0 / x1) + self.assertEqual(x1, x1 / 1) + self.assertEqual(internalAmount("$0.00812216"), 1 / x1) + self.assertEqual(- x1, x1 / -1) + self.assertEqual(internalAmount("$-0.00812216"), -1 / x1) + self.assertEqual(internalAmount("$0.26973382"), x1 / y1) + self.assertEqual("$0.27", (x1 / y1).to_string()) + self.assertEqual(internalAmount("$3.70735867"), y1 / x1) + self.assertEqual("$3.71", (y1 / x1).to_string()) - self.assertValid(x0) - self.assertValid(x1) + # Internal amounts retain their precision, even when being + # converted to strings + self.assertEqual(internalAmount("$0.99727201"), x1 / x2) + self.assertEqual(internalAmount("$1.00273545321637426901"), x2 / x1) + self.assertEqual("$1.00", (x1 / x2).to_string()) + self.assertEqual("$1.00273545321637426901", (x2 / x1).to_string()) - def testComparisons(self): - x0 = amount() - x1 = amount(-123) - x2 = amount(123) - x3 = amount(-123.45) - x4 = amount(123.45) - x5 = amount("-123.45") - x6 = amount("123.45") + self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x3) + self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x4) + self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x5) - self.assertTrue(x0 > x1) - self.assertTrue(x0 < x2) - self.assertTrue(x0 > x3) - self.assertTrue(x0 < x4) - self.assertTrue(x0 > x5) - self.assertTrue(x0 < x6) + x1 /= amount("123.12") + self.assertEqual(internalAmount("$1.00"), x1) + self.assertEqual("$1.00", x1.to_string()) + x1 /= 123.12 + self.assertEqual(internalAmount("$0.00812216"), x1) + self.assertEqual("$0.01", x1.to_string()) + x1 /= 123 + self.assertEqual(internalAmount("$0.00006603"), x1) + self.assertEqual("$0.00", x1.to_string()) - self.assertTrue(x1 > x3) - self.assertTrue(x3 <= x5) - self.assertTrue(x3 >= x5) - self.assertTrue(x3 < x1) - self.assertTrue(x3 < x4) + x6 = amount(internalAmount("$237235987235987.98723987235978")) + x7 = amount(internalAmount("$123456789123456789.123456789123456789")) - self.assertTrue(x1 < 100) - self.assertTrue(x1 < 100.0) - self.assertTrue(100 > x1) - self.assertTrue(100.0 > x1) + self.assertEqual(amount("$1"), x7 / x7) + self.assertEqual(internalAmount("$0.0019216115121765559608381226612019501046413574469262"), + x6 / x7) + self.assertEqual(internalAmount("$520.39654928343335571379527154924040947271699678158689736256"), + x7 / x6) - self.assertValid(x0) self.assertValid(x1) self.assertValid(x2) self.assertValid(x3) self.assertValid(x4) self.assertValid(x5) self.assertValid(x6) + self.assertValid(x7) - def testSign(self): + def testNegation(self): x0 = amount() - x1 = amount("0.0000000000000000000000000000000000001") - x2 = amount("-0.0000000000000000000000000000000000001") - x3 = amount("1") - x4 = amount("-1") - - self.assertEqual(x0.sign(), 0) - self.assertTrue(x1.sign() > 0) - self.assertTrue(x2.sign() < 0) - self.assertTrue(x3.sign() > 0) - self.assertTrue(x4.sign() < 0) + x1 = amount(-123456) + x3 = amount(-123.456) + x5 = amount("-123456") + x6 = amount("-123.456") + x9 = amount(- x3) - self.assertValid(x0) - self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) + self.assertEqual(amount(0), x0) + self.assertEqual(x5, x1) + self.assertEqual(x6, x3) + self.assertEqual(- x6, x9) + self.assertEqual(x3.negate(), x9) - def testAbs(self): - x0 = amount() - x1 = amount(-1234) - x2 = amount(1234) + x10 = amount(x9.negate()) - self.assertEqual(amount(), abs(x0)) - self.assertEqual(amount(1234), abs(x1)) - self.assertEqual(amount(1234), abs(x2)) + self.assertEqual(x3, x10) self.assertValid(x0) self.assertValid(x1) - self.assertValid(x2) - - def testPrinting(self): - pass - - def testCommodityConstructors(self): - x1 = amount("$123.45") - x2 = amount("-$123.45") - x3 = amount("$-123.45") - x4 = amount("DM 123.45") - x5 = amount("-DM 123.45") - x6 = amount("DM -123.45") - x7 = amount("123.45 euro") - x8 = amount("-123.45 euro") - x9 = amount("123.45€") - x10 = amount("-123.45€") - - self.assertEqual(amount("$123.45"), x1) - self.assertEqual(amount("-$123.45"), x2) - self.assertEqual(amount("$-123.45"), x3) - self.assertEqual(amount("DM 123.45"), x4) - self.assertEqual(amount("-DM 123.45"), x5) - self.assertEqual(amount("DM -123.45"), x6) - self.assertEqual(amount("123.45 euro"), x7) - self.assertEqual(amount("-123.45 euro"), x8) - self.assertEqual(amount("123.45€"), x9) - self.assertEqual(amount("-123.45€"), x10) - - self.assertEqual("$123.45", x1.to_string()) - self.assertEqual("$-123.45", x2.to_string()) - self.assertEqual("$-123.45", x3.to_string()) - self.assertEqual("DM 123.45", x4.to_string()) - self.assertEqual("DM -123.45", x5.to_string()) - self.assertEqual("DM -123.45", x6.to_string()) - self.assertEqual("123.45 euro", x7.to_string()) - self.assertEqual("-123.45 euro", x8.to_string()) - self.assertEqual("123.45€", x9.to_string()) - self.assertEqual("-123.45€", x10.to_string()) - - self.assertValid(x1) - self.assertValid(x2) self.assertValid(x3) - self.assertValid(x4) self.assertValid(x5) self.assertValid(x6) - self.assertValid(x7) - self.assertValid(x8) self.assertValid(x9) self.assertValid(x10) @@ -639,343 +870,84 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x9) self.assertValid(x10) - def testCommodityAssignment(self): - x1 = amount("$123.45") - x2 = amount("-$123.45") - x3 = amount("$-123.45") - x4 = amount("DM 123.45") - x5 = amount("-DM 123.45") - x6 = amount("DM -123.45") - x7 = amount("123.45 euro") - x8 = amount("-123.45 euro") - x9 = amount("123.45€") - x10 = amount("-123.45€") - - self.assertEqual(amount("$123.45"), x1) - self.assertEqual(amount("-$123.45"), x2) - self.assertEqual(amount("$-123.45"), x3) - self.assertEqual(amount("DM 123.45"), x4) - self.assertEqual(amount("-DM 123.45"), x5) - self.assertEqual(amount("DM -123.45"), x6) - self.assertEqual(amount("123.45 euro"), x7) - self.assertEqual(amount("-123.45 euro"), x8) - self.assertEqual(amount("123.45€"), x9) - self.assertEqual(amount("-123.45€"), x10) - - self.assertEqual("$123.45", x1.to_string()) - self.assertEqual("$-123.45", x2.to_string()) - self.assertEqual("$-123.45", x3.to_string()) - self.assertEqual("DM 123.45", x4.to_string()) - self.assertEqual("DM -123.45", x5.to_string()) - self.assertEqual("DM -123.45", x6.to_string()) - self.assertEqual("123.45 euro", x7.to_string()) - self.assertEqual("-123.45 euro", x8.to_string()) - self.assertEqual("123.45€", x9.to_string()) - self.assertEqual("-123.45€", x10.to_string()) - - self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x6) - self.assertValid(x7) - self.assertValid(x8) - self.assertValid(x9) - self.assertValid(x10) - - def testCommodityEquality(self): + def testAbs(self): x0 = amount() - x1 = amount("$123.45") - x2 = amount("-$123.45") - x3 = amount("$-123.45") - x4 = amount("DM 123.45") - x5 = amount("-DM 123.45") - x6 = amount("DM -123.45") - x7 = amount("123.45 euro") - x8 = amount("-123.45 euro") - x9 = amount("123.45€") - x10 = amount("-123.45€") - - self.assertTrue(x0.is_null()) - self.assertTrue(x0.is_zero()) - self.assertTrue(x0.is_realzero()) - self.assertTrue(x0.sign() == 0) - self.assertTrue(x0.compare(x1) < 0) - self.assertTrue(x0.compare(x2) > 0) - self.assertTrue(x0.compare(x0) == 0) + x1 = amount(-1234) + x2 = amount(1234) - self.assertTrue(x1 != x2) - self.assertTrue(x1 != x4) - self.assertTrue(x1 != x7) - self.assertTrue(x1 != x9) - self.assertTrue(x2 == x3) - self.assertTrue(x4 != x5) - self.assertTrue(x5 == x6) - self.assertTrue(x7 == - x8) - self.assertTrue(x9 == - x10) + self.assertEqual(amount(), abs(x0)) + self.assertEqual(amount(1234), abs(x1)) + self.assertEqual(amount(1234), abs(x2)) self.assertValid(x0) self.assertValid(x1) self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x6) - self.assertValid(x7) - self.assertValid(x8) - self.assertValid(x9) - self.assertValid(x10) - - def testCommodityAddition(self): - x0 = amount() - x1 = amount("$123.45") - x2 = amount(internalAmount("$123.456789")) - x3 = amount("DM 123.45") - x4 = amount("123.45 euro") - x5 = amount("123.45€") - x6 = amount("123.45") - - self.assertEqual(amount("$246.90"), x1 + x1) - self.assertNotEqual(amount("$246.91"), x1 + x2) - self.assertEqual(internalAmount("$246.906789"), x1 + x2) - - # Converting to string drops internal precision - self.assertEqual("$246.90", (x1 + x1).to_string()) - self.assertEqual("$246.91", (x1 + x2).to_string()) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x0) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x3) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x4) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x5) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, x6) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, 123.45) - self.assertRaises(exceptions.ArithmeticError, operator.add, x1, 123) - - self.assertEqual(amount("DM 246.90"), x3 + x3) - self.assertEqual(amount("246.90 euro"), x4 + x4) - self.assertEqual(amount("246.90€"), x5 + x5) - - self.assertEqual("DM 246.90", (x3 + x3).to_string()) - self.assertEqual("246.90 euro", (x4 + x4).to_string()) - self.assertEqual("246.90€", (x5 + x5).to_string()) - - x1 += amount("$456.45") - self.assertEqual(amount("$579.90"), x1) - x1 += amount("$456.45") - self.assertEqual(amount("$1036.35"), x1) - x1 += amount("$456") - self.assertEqual(amount("$1492.35"), x1) - - x7 = amount(internalAmount("$123456789123456789.123456789123456789")) - - self.assertEqual(internalAmount("$246913578246913578.246913578246913578"), x7 + x7) - - self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x6) - self.assertValid(x7) - - def testCommoditySubtraction(self): + def testCommodityAbs(self): x0 = amount() - x1 = amount("$123.45") - x2 = amount(internalAmount("$123.456789")) - x3 = amount("DM 123.45") - x4 = amount("123.45 euro") - x5 = amount("123.45€") - x6 = amount("123.45") - - self.assertNotEqual(amount(), x1 - x1) - self.assertEqual(amount("$0"), x1 - x1) - self.assertEqual(amount("$23.45"), x1 - amount("$100.00")) - self.assertEqual(amount("$-23.45"), amount("$100.00") - x1) - self.assertNotEqual(amount("$-0.01"), x1 - x2) - self.assertEqual(internalAmount("$-0.006789"), x1 - x2) - - # Converting to string drops internal precision. If an amount is - # zero, it drops the commodity as well. - self.assertEqual("$0.00", (x1 - x1).to_string()) - self.assertEqual("$-0.01", (x1 - x2).to_string()) - - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x0) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x3) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x4) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x5) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, x6) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, 123.45) - self.assertRaises(exceptions.ArithmeticError, operator.sub, x1, 123) - - self.assertEqual(amount("DM 0.00"), x3 - x3) - self.assertEqual(amount("DM 23.45"), x3 - amount("DM 100.00")) - self.assertEqual(amount("DM -23.45"), amount("DM 100.00") - x3) - self.assertEqual(amount("0.00 euro"), x4 - x4) - self.assertEqual(amount("23.45 euro"), x4 - amount("100.00 euro")) - self.assertEqual(amount("-23.45 euro"), amount("100.00 euro") - x4) - self.assertEqual(amount("0.00€"), x5 - x5) - self.assertEqual(amount("23.45€"), x5 - amount("100.00€")) - self.assertEqual(amount("-23.45€"), amount("100.00€") - x5) - - self.assertEqual("DM 0.00", (x3 - x3).to_string()) - self.assertEqual("DM 23.45", (x3 - amount("DM 100.00")).to_string()) - self.assertEqual("DM -23.45", (amount("DM 100.00") - x3).to_string()) - self.assertEqual("0.00 euro", (x4 - x4).to_string()) - self.assertEqual("23.45 euro", (x4 - amount("100.00 euro")).to_string()) - self.assertEqual("-23.45 euro", (amount("100.00 euro") - x4).to_string()) - self.assertEqual("0.00€", (x5 - x5).to_string()) - self.assertEqual("23.45€", (x5 - amount("100.00€")).to_string()) - self.assertEqual("-23.45€", (amount("100.00€") - x5).to_string()) - - x1 -= amount("$456.45") - self.assertEqual(amount("$-333.00"), x1) - x1 -= amount("$456.45") - self.assertEqual(amount("$-789.45"), x1) - x1 -= amount("$456") - self.assertEqual(amount("$-1245.45"), x1) - - x7 = amount(internalAmount("$123456789123456789.123456789123456789")) - x8 = amount(internalAmount("$2354974984698.98459845984598")) + x1 = amount("$-1234.56") + x2 = amount("$1234.56") - self.assertEqual(internalAmount("$123454434148472090.138858329277476789"), x7 - x8) - self.assertEqual("$123454434148472090.138858329277476789", (x7 - x8).to_string()) - self.assertEqual("$123454434148472090.14", - (amount("$1.00") * (x7 - x8)).to_string()) - self.assertEqual(internalAmount("$-123454434148472090.138858329277476789"), x8 - x7) - self.assertEqual("$-123454434148472090.138858329277476789", (x8 - x7).to_string()) - self.assertEqual("$-123454434148472090.14", - (amount("$1.00") * (x8 - x7)).to_string()) + self.assertEqual(amount(), abs(x0)) + self.assertEqual(amount("$1234.56"), abs(x1)) + self.assertEqual(amount("$1234.56"), abs(x2)) + self.assertValid(x0) self.assertValid(x1) self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x6) - self.assertValid(x7) - self.assertValid(x8) - - def testCommodityMultiplication(self): - x1 = amount("$123.12") - y1 = amount("$456.45") - x2 = amount(internalAmount("$123.456789")) - x3 = amount("DM 123.45") - x4 = amount("123.45 euro") - x5 = amount("123.45€") - - self.assertEqual(amount("$0.00"), x1 * 0) - self.assertEqual(amount("$0.00"), 0 * x1) - self.assertEqual(x1, x1 * 1) - self.assertEqual(x1, 1 * x1) - self.assertEqual(- x1, x1 * -1) - self.assertEqual(- x1, -1 * x1) - self.assertEqual(internalAmount("$56198.124"), x1 * y1) - self.assertEqual("$56198.12", (x1 * y1).to_string()) - self.assertEqual(internalAmount("$56198.124"), y1 * x1) - self.assertEqual("$56198.12", (y1 * x1).to_string()) - # Internal amounts retain their precision, even when being - # converted to strings - self.assertEqual(internalAmount("$15199.99986168"), x1 * x2) - self.assertEqual(internalAmount("$15199.99986168"), x2 * x1) - self.assertEqual("$15200.00", (x1 * x2).to_string()) - self.assertEqual("$15199.99986168", (x2 * x1).to_string()) - - self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x3) - self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x4) - self.assertRaises(exceptions.ArithmeticError, operator.mul, x1, x5) - - x1 *= amount("123.12") - self.assertEqual(internalAmount("$15158.5344"), x1) - self.assertEqual("$15158.53", x1.to_string()) - x1 *= 123.12 - self.assertEqual(internalAmount("$1866318.755328"), x1) - self.assertEqual("$1866318.76", x1.to_string()) - x1 *= 123 - self.assertEqual(internalAmount("$229557206.905344"), x1) - self.assertEqual("$229557206.91", x1.to_string()) - - x7 = amount(internalAmount("$123456789123456789.123456789123456789")) + def testFractionalRound(self): + x1 = amount("1234.567890") - self.assertEqual(internalAmount("$15241578780673678546105778311537878.046486820281054720515622620750190521"), - x7 * x7) + self.assertEqual(amount("1234.56789"), x1.round(6)) + self.assertEqual(amount("1234.56789"), x1.round(5)) + self.assertEqual(amount("1234.5679"), x1.round(4)) + self.assertEqual(amount("1234.568"), x1.round(3)) + self.assertEqual(amount("1234.57"), x1.round(2)) + self.assertEqual(amount("1234.6"), x1.round(1)) + self.assertEqual(amount("1235"), x1.round(0)) - self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x7) + x2 = amount("9876.543210") - def testCommodityDivision(self): - x1 = amount("$123.12") - y1 = amount("$456.45") - x2 = amount(internalAmount("$123.456789")) - x3 = amount("DM 123.45") - x4 = amount("123.45 euro") - x5 = amount("123.45€") + self.assertEqual(amount("9876.543210"), x2.round(6)) + self.assertEqual(amount("9876.54321"), x2.round(5)) + self.assertEqual(amount("9876.5432"), x2.round(4)) + self.assertEqual(amount("9876.543"), x2.round(3)) + self.assertEqual(amount("9876.54"), x2.round(2)) + self.assertEqual(amount("9876.5"), x2.round(1)) + self.assertEqual(amount("9877"), x2.round(0)) - self.assertRaises(exceptions.ArithmeticError, operator.div, x1, 0) - self.assertEqual(amount("$0.00"), 0 / x1) - self.assertEqual(x1, x1 / 1) - self.assertEqual(internalAmount("$0.00812216"), 1 / x1) - self.assertEqual(- x1, x1 / -1) - self.assertEqual(internalAmount("$-0.00812216"), -1 / x1) - self.assertEqual(internalAmount("$0.26973382"), x1 / y1) - self.assertEqual("$0.27", (x1 / y1).to_string()) - self.assertEqual(internalAmount("$3.70735867"), y1 / x1) - self.assertEqual("$3.71", (y1 / x1).to_string()) + x3 = amount("-1234.567890") - # Internal amounts retain their precision, even when being - # converted to strings - self.assertEqual(internalAmount("$0.99727201"), x1 / x2) - self.assertEqual(internalAmount("$1.00273545321637426901"), x2 / x1) - self.assertEqual("$1.00", (x1 / x2).to_string()) - self.assertEqual("$1.00273545321637426901", (x2 / x1).to_string()) + self.assertEqual(amount("-1234.56789"), x3.round(6)) + self.assertEqual(amount("-1234.56789"), x3.round(5)) + self.assertEqual(amount("-1234.5679"), x3.round(4)) + self.assertEqual(amount("-1234.568"), x3.round(3)) + self.assertEqual(amount("-1234.57"), x3.round(2)) + self.assertEqual(amount("-1234.6"), x3.round(1)) + self.assertEqual(amount("-1235"), x3.round(0)) - self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x3) - self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x4) - self.assertRaises(exceptions.ArithmeticError, operator.div, x1, x5) + x4 = amount("-9876.543210") - x1 /= amount("123.12") - self.assertEqual(internalAmount("$1.00"), x1) - self.assertEqual("$1.00", x1.to_string()) - x1 /= 123.12 - self.assertEqual(internalAmount("$0.00812216"), x1) - self.assertEqual("$0.01", x1.to_string()) - x1 /= 123 - self.assertEqual(internalAmount("$0.00006603"), x1) - self.assertEqual("$0.00", x1.to_string()) + self.assertEqual(amount("-9876.543210"), x4.round(6)) + self.assertEqual(amount("-9876.54321"), x4.round(5)) + self.assertEqual(amount("-9876.5432"), x4.round(4)) + self.assertEqual(amount("-9876.543"), x4.round(3)) + self.assertEqual(amount("-9876.54"), x4.round(2)) + self.assertEqual(amount("-9876.5"), x4.round(1)) + self.assertEqual(amount("-9877"), x4.round(0)) - x6 = amount(internalAmount("$237235987235987.98723987235978")) - x7 = amount(internalAmount("$123456789123456789.123456789123456789")) + x5 = amount("0.0000000000000000000000000000000000001") - self.assertEqual(amount("$1"), x7 / x7) - self.assertEqual(internalAmount("$0.0019216115121765559608381226612019501046413574469262"), - x6 / x7) - self.assertEqual(internalAmount("$520.39654928343335571379527154924040947271699678158689736256"), - x7 / x6) + self.assertEqual(amount("0.0000000000000000000000000000000000001"), + x5.round(37)) + self.assertEqual(amount(), x5.round(36)) self.assertValid(x1) self.assertValid(x2) self.assertValid(x3) self.assertValid(x4) self.assertValid(x5) - self.assertValid(x6) - self.assertValid(x7) - - def testCommodityConversion(self): - x1 = amount("$1234.56") - - self.assertEqual(True, bool(x1)) - self.assertRaises(exceptions.ArithmeticError, amount.to_long, x1) - self.assertEqual(1234, x1.to_long(True)) - self.assertEqual(1234.56, float(x1)) - self.assertEqual("$1234.56", x1.to_string()) - self.assertEqual("1234.56", x1.quantity_string()) - - self.assertValid(x1) def testCommodityRound(self): x1 = amount(internalAmount("$1234.567890")) @@ -1018,10 +990,20 @@ class AmountTestCase(unittest.TestCase): self.assertEqual(amount("$-9876.5"), x4.round(1)) self.assertEqual(amount("$-9877"), x4.round(0)) + x5 = amount("$123.45") + + x5 *= 100.12 + + self.assertEqual(internalAmount("$12359.814"), x5) + self.assertEqual("$12359.81", x5.to_string()) + self.assertEqual("$12359.814", x5.to_fullstring()) + self.assertEqual("$12359.814", x5.unround().to_string()) + self.assertValid(x1) self.assertValid(x2) self.assertValid(x3) self.assertValid(x4) + self.assertValid(x5) def testCommodityDisplayRound(self): x1 = amount("$0.85") @@ -1043,6 +1025,75 @@ class AmountTestCase(unittest.TestCase): self.assertEqual(internalAmount("$1.1305"), x1) self.assertEqual("$1.13", x1.to_string()) + def testReduction(self): + x1 = amount("60s") + x2 = amount("600s") + x3 = amount("6000s") + x4 = amount("360000s") + x5 = amount("10m") # 600s + x6 = amount("100m") # 6000s + x7 = amount("1000m") # 60000s + x8 = amount("10000m") # 600000s + x9 = amount("10h") # 36000s + x10 = amount("100h") # 360000s + x11 = amount("1000h") # 3600000s + x12 = amount("10000h") # 36000000s + + self.assertEqual(x2, x5) + self.assertEqual(x3, x6) + self.assertEqual(x4, x10) + + def testSign(self): + x0 = amount() + x1 = amount("0.0000000000000000000000000000000000001") + x2 = amount("-0.0000000000000000000000000000000000001") + x3 = amount("1") + x4 = amount("-1") + + self.assertEqual(x0.sign(), 0) + self.assertTrue(x1.sign() > 0) + self.assertTrue(x2.sign() < 0) + self.assertTrue(x3.sign() > 0) + self.assertTrue(x4.sign() < 0) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + + def testCommoditySign(self): + x0 = amount() + x1 = amount(internalAmount("$0.0000000000000000000000000000000000001")) + x2 = amount(internalAmount("$-0.0000000000000000000000000000000000001")) + x3 = amount("$1") + x4 = amount("$-1") + + self.assertFalse(x0.sign()) + self.assertTrue(x1.sign() != 0) + self.assertTrue(x2.sign() != 0) + self.assertTrue(x3.sign() > 0) + self.assertTrue(x4.sign() < 0) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + self.assertValid(x3) + self.assertValid(x4) + + def testTruth(self): + x0 = amount() + x1 = amount("1234") + x2 = amount("1234.56") + + self.assertFalse(x0) + self.assertTrue(x1) + self.assertTrue(x2) + + self.assertValid(x0) + self.assertValid(x1) + self.assertValid(x2) + def testCommodityTruth(self): x1 = amount("$1234") x2 = amount("$1234.56") @@ -1060,6 +1111,20 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x1) self.assertValid(x2) + def testForZero(self): + x0 = amount() + x1 = amount("0.000000000000000000001") + + self.assertFalse(x0) + self.assertTrue(x1) + self.assertTrue(x0.is_zero()) + self.assertTrue(x0.is_realzero()) + self.assertFalse(x1.is_zero()) + self.assertFalse(x1.is_realzero()) + + self.assertValid(x0) + self.assertValid(x1) + def testCommodityForZero(self): x1 = amount(internalAmount("$0.000000000000000000001")) @@ -1069,73 +1134,43 @@ class AmountTestCase(unittest.TestCase): self.assertValid(x1) - def testCommodityComparisons(self): - x0 = amount() - x1 = amount("$-123") - x2 = amount("$123.00") - x3 = amount(internalAmount("$-123.4544")) - x4 = amount(internalAmount("$123.4544")) - x5 = amount("$-123.45") - x6 = amount("$123.45") - - self.assertTrue(x0 > x1) - self.assertTrue(x0 < x2) - self.assertTrue(x0 > x3) - self.assertTrue(x0 < x4) - self.assertTrue(x0 > x5) - self.assertTrue(x0 < x6) + def testIntegerConversion(self): + x1 = amount(123456) - self.assertTrue(x1 > x3) - self.assertTrue(x3 <= x5) - self.assertTrue(x3 < x5) - self.assertTrue(x3 <= x5) - self.assertFalse(x3 == x5) - self.assertTrue(x3 < x1) - self.assertTrue(x3 < x4) + self.assertEqual(123456, int(x1)) + self.assertEqual(123456.0, float(x1)) + self.assertEqual("123456", x1.to_string()) + self.assertEqual("123456", x1.quantity_string()) - self.assertValid(x0) self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - self.assertValid(x5) - self.assertValid(x6) - def testCommoditySign(self): - x0 = amount() - x1 = amount(internalAmount("$0.0000000000000000000000000000000000001")) - x2 = amount(internalAmount("$-0.0000000000000000000000000000000000001")) - x3 = amount("$1") - x4 = amount("$-1") + def testFractionalConversion(self): + x1 = amount(1234.56) - self.assertFalse(x0.sign()) - self.assertTrue(x1.sign() != 0) - self.assertTrue(x2.sign() != 0) - self.assertTrue(x3.sign() > 0) - self.assertTrue(x4.sign() < 0) + self.assertRaises(exceptions.ArithmeticError, amount.to_long, x1) + self.assertEqual(1234, x1.to_long(True)) + self.assertEqual(1234.56, float(x1)) + self.assertEqual("1234.56", x1.to_string()) + self.assertEqual("1234.56", x1.quantity_string()) - self.assertValid(x0) self.assertValid(x1) - self.assertValid(x2) - self.assertValid(x3) - self.assertValid(x4) - def testCommodityAbs(self): - x0 = amount() - x1 = amount("$-1234.56") - x2 = amount("$1234.56") + def testCommodityConversion(self): + x1 = amount("$1234.56") - self.assertEqual(amount(), abs(x0)) - self.assertEqual(amount("$1234.56"), abs(x1)) - self.assertEqual(amount("$1234.56"), abs(x2)) + self.assertRaises(exceptions.ArithmeticError, amount.to_long, x1) + self.assertEqual(1234, x1.to_long(True)) + self.assertEqual(1234.56, float(x1)) + self.assertEqual("$1234.56", x1.to_string()) + self.assertEqual("1234.56", x1.quantity_string()) - self.assertValid(x0) self.assertValid(x1) - self.assertValid(x2) - def testCommodityPrinting(self): + def testPrinting(self): pass + def testCommodityPrinting(self): + pass def suite(): return unittest.TestLoader().loadTestsFromTestCase(AmountTestCase) |