diff options
| author | Arseny Kapoulkine <arseny.kapoulkine@gmail.com> | 2014-11-03 07:50:00 +0100 |
|---|---|---|
| committer | Arseny Kapoulkine <arseny.kapoulkine@gmail.com> | 2014-11-03 07:50:00 +0100 |
| commit | 97a515f8733d9555278b6eb3f3dc244a9580c308 (patch) | |
| tree | 18ae4457ce39d554c7389cc09459473d25f0cd8f | |
| parent | e9948b4b05ca23cb95a6ca75ce4ee840e1fbda9b (diff) | |
tests: Add more XPath mod tests
| -rw-r--r-- | tests/test_xpath_operators.cpp | 48 |
1 files changed, 48 insertions, 0 deletions
diff --git a/tests/test_xpath_operators.cpp b/tests/test_xpath_operators.cpp index c028224..57e3755 100644 --- a/tests/test_xpath_operators.cpp +++ b/tests/test_xpath_operators.cpp @@ -481,4 +481,52 @@ TEST(xpath_operators_associativity_arithmetic) CHECK_XPATH_NUMBER(c, STR("1-1+1"), 1); } +TEST(xpath_operators_mod) +{ + // Check that mod operator conforms to Java spec (since this is the only concrete source of information about XPath mod) + xml_node c; + + // Basic tests from spec + CHECK_XPATH_NUMBER(c, STR("5 mod 3"), 2); + CHECK_XPATH_NUMBER(c, STR("5 mod -3"), 2); + CHECK_XPATH_NUMBER(c, STR("-5 mod 3"), -2); + CHECK_XPATH_NUMBER(c, STR("-5 mod -3"), -2); + + // If either operand is NaN, the result is NaN + CHECK_XPATH_NUMBER_NAN(c, STR("(0 div 0) mod 3")); + CHECK_XPATH_NUMBER_NAN(c, STR("3 mod (0 div 0)")); + CHECK_XPATH_NUMBER_NAN(c, STR("(0 div 0) mod (0 div 0)")); + + // If the dividend is an infinity, or the divisor is a zero, or both, the result is NaN + CHECK_XPATH_NUMBER_NAN(c, STR("(1 div 0) mod 3")); + CHECK_XPATH_NUMBER_NAN(c, STR("(1 div 0) mod -3")); + CHECK_XPATH_NUMBER_NAN(c, STR("(-1 div 0) mod 3")); + CHECK_XPATH_NUMBER_NAN(c, STR("1 mod 0")); + CHECK_XPATH_NUMBER_NAN(c, STR("-1 mod 0")); + CHECK_XPATH_NUMBER_NAN(c, STR("(1 div 0) mod 0")); + CHECK_XPATH_NUMBER_NAN(c, STR("(-1 div 0) mod 0")); + + // If the dividend is finite and the divisor is an infinity, the result equals the dividend + CHECK_XPATH_NUMBER(c, STR("1 mod (1 div 0)"), 1); + CHECK_XPATH_NUMBER(c, STR("1 mod (-1 div 0)"), 1); + CHECK_XPATH_NUMBER(c, STR("-1 mod (1 div 0)"), -1); + CHECK_XPATH_NUMBER(c, STR("0 mod (1 div 0)"), 0); + CHECK_XPATH_NUMBER(c, STR("0 mod (-1 div 0)"), 0); + CHECK_XPATH_NUMBER(c, STR("100000 mod (1 div 0)"), 100000); + + // If the dividend is a zero and the divisor is finite, the result equals the dividend. + CHECK_XPATH_NUMBER(c, STR("0 mod 1000000"), 0); + CHECK_XPATH_NUMBER(c, STR("0 mod -1000000"), 0); + + // In the remaining cases ... the floating-point remainder r from the division of a dividend n by a divisor d + // is defined by the mathematical relation r = n - (d * q) where q is an integer that is negative only if n/d is + // negative and positive only if n/d is positive, and whose magnitude is as large as possible without exceeding the magnitude of the true + // mathematical quotient of n and d. + CHECK_XPATH_NUMBER(c, STR("9007199254740991 mod 2"), 1); + CHECK_XPATH_NUMBER(c, STR("9007199254740991 mod 3"), 1); + CHECK_XPATH_NUMBER(c, STR("18446744073709551615 mod 2"), 0); + CHECK_XPATH_NUMBER(c, STR("18446744073709551615 mod 3"), 1); + CHECK_XPATH_NUMBER(c, STR("115792089237316195423570985008687907853269984665640564039457584007913129639935 mod 2"), 0); + CHECK_XPATH_NUMBER(c, STR("115792089237316195423570985008687907853269984665640564039457584007913129639935 mod 3"), 1); +} #endif |