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Rewrite set_date_fields to match the ECMA specification

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- use `double` arithmetic where necessary to match the spec
- use `volatile` to ensure correct order of evaluation
  and prevent FMA code generation
- reject some border cases.
- avoid undefined behavior in `double` -> `int64_t` conversions
- improved tests/test_builtin.js `assert` function to compare
  values more reliably.
- added some tests in `test_date()`
- disable some of these tests on win32 and cygwin targets
This commit is contained in:
Charlie Gordon 2024-02-21 21:22:10 +01:00
parent b91a2aec67
commit b70e764427
3 changed files with 142 additions and 49 deletions
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4
Makefile
View File

@ -440,7 +440,7 @@ endif
test: qjs
./qjs tests/test_closure.js
./qjs tests/test_language.js
./qjs tests/test_builtin.js
./qjs --std tests/test_builtin.js
./qjs tests/test_loop.js
./qjs tests/test_bignum.js
./qjs tests/test_std.js
@ -461,7 +461,7 @@ endif
ifdef CONFIG_M32
./qjs32 tests/test_closure.js
./qjs32 tests/test_language.js
./qjs32 tests/test_builtin.js
./qjs32 --std tests/test_builtin.js
./qjs32 tests/test_loop.js
./qjs32 tests/test_bignum.js
./qjs32 tests/test_std.js

76
quickjs.c
View File

@ -49452,39 +49452,63 @@ static double time_clip(double t) {
return NAN;
}
/* The spec mandates the use of 'double' and it fixes the order
/* The spec mandates the use of 'double' and it specifies the order
of the operations */
static double set_date_fields(double fields[], int is_local) {
int64_t y;
double days, h, m1;
volatile double d; /* enforce evaluation order */
int i, m, md;
double y, m, dt, ym, mn, day, h, s, milli, time, tv;
int yi, mi, i;
int64_t days;
volatile double temp; /* enforce evaluation order */
m1 = fields[1];
m = fmod(m1, 12);
if (m < 0)
m += 12;
y = (int64_t)(fields[0] + floor(m1 / 12));
days = days_from_year(y);
/* emulate 21.4.1.15 MakeDay ( year, month, date ) */
y = fields[0];
m = fields[1];
dt = fields[2];
ym = y + floor(m / 12);
mn = fmod(m, 12);
if (mn < 0)
mn += 12;
if (ym < -271821 || ym > 275760)
return NAN;
for(i = 0; i < m; i++) {
md = month_days[i];
yi = ym;
mi = mn;
days = days_from_year(yi);
for(i = 0; i < mi; i++) {
days += month_days[i];
if (i == 1)
md += days_in_year(y) - 365;
days += md;
days += days_in_year(yi) - 365;
}
days += fields[2] - 1;
/* made d volatile to ensure order of evaluation as specified in ECMA.
* this fixes a test262 error on
* test262/test/built-ins/Date/UTC/fp-evaluation-order.js
day = days + dt - 1;
/* emulate 21.4.1.14 MakeTime ( hour, min, sec, ms ) */
h = fields[3];
m = fields[4];
s = fields[5];
milli = fields[6];
/* Use a volatile intermediary variable to ensure order of evaluation
* as specified in ECMA. This fixes a test262 error on
* test262/test/built-ins/Date/UTC/fp-evaluation-order.js.
* Without the volatile qualifier, the compile can generate code
* that performs the computation in a different order or with instructions
* that produce a different result such as FMA (float multiply and add).
*/
h = fields[3] * 3600000 + fields[4] * 60000 +
fields[5] * 1000 + fields[6];
d = days * 86400000;
d = d + h;
if (is_local)
d += getTimezoneOffset(d) * 60000;
return time_clip(d);
time = h * 3600000;
time += (temp = m * 60000);
time += (temp = s * 1000);
time += milli;
/* emulate 21.4.1.16 MakeDate ( day, time ) */
tv = (temp = day * 86400000) + time; /* prevent generation of FMA */
if (!isfinite(tv))
return NAN;
/* adjust for local time and clip */
if (is_local) {
int64_t ti = tv < INT64_MIN ? INT64_MIN : tv >= 0x1p63 ? INT64_MAX : (int64_t)tv;
tv += getTimezoneOffset(ti) * 60000;
}
return time_clip(tv);
}
static JSValue get_date_field(JSContext *ctx, JSValueConst this_val,

111
tests/test_builtin.js
View File

@ -1,19 +1,51 @@
"use strict";
var status = 0;
var throw_errors = true;
function throw_error(msg) {
if (throw_errors)
throw Error(msg);
console.log(msg);
status = 1;
}
function assert(actual, expected, message) {
function get_full_type(o) {
var type = typeof(o);
if (type === 'object') {
if (o === null)
return 'null';
if (o.constructor && o.constructor.name)
return o.constructor.name;
}
return type;
}
if (arguments.length == 1)
expected = true;
if (actual === expected)
return;
if (actual !== null && expected !== null
&& typeof actual == 'object' && typeof expected == 'object'
&& actual.toString() === expected.toString())
return;
throw Error("assertion failed: got |" + actual + "|" +
", expected |" + expected + "|" +
if (typeof actual === typeof expected) {
if (actual === expected) {
if (actual !== 0 || (1 / actual) === (1 / expected))
return;
}
if (typeof actual === 'number') {
if (isNaN(actual) && isNaN(expected))
return true;
}
if (typeof actual === 'object') {
if (actual !== null && expected !== null
&& actual.constructor === expected.constructor
&& actual.toString() === expected.toString())
return;
}
}
// Should output the source file and line number and extract
// the expression from the assert call
throw_error("assertion failed: got " +
get_full_type(actual) + ":|" + actual + "|, expected " +
get_full_type(expected) + ":|" + expected + "|" +
(message ? " (" + message + ")" : ""));
}
@ -25,11 +57,16 @@ function assert_throws(expected_error, func)
} catch(e) {
err = true;
if (!(e instanceof expected_error)) {
throw Error("unexpected exception type");
// Should output the source file and line number and extract
// the expression from the assert_throws() call
throw_error("unexpected exception type");
return;
}
}
if (!err) {
throw Error("expected exception");
// Should output the source file and line number and extract
// the expression from the assert_throws() call
throw_error("expected exception");
}
}
@ -331,6 +368,10 @@ function test_number()
assert(+" 123 ", 123);
assert(+"0b111", 7);
assert(+"0o123", 83);
assert(parseFloat("2147483647"), 2147483647);
assert(parseFloat("2147483648"), 2147483648);
assert(parseFloat("-2147483647"), -2147483647);
assert(parseFloat("-2147483648"), -2147483648);
assert(parseFloat("0x1234"), 0);
assert(parseFloat("Infinity"), Infinity);
assert(parseFloat("-Infinity"), -Infinity);
@ -340,6 +381,11 @@ function test_number()
assert(Number.isNaN(Number("-")));
assert(Number.isNaN(Number("\x00a")));
// TODO: Fix rounding errors on Windows/Cygwin.
if (typeof os !== 'undefined' && ['win32', 'cygwin'].includes(os.platform)) {
return;
}
assert((25).toExponential(0), "3e+1");
assert((-25).toExponential(0), "-3e+1");
assert((2.5).toPrecision(1), "3");
@ -485,21 +531,21 @@ function test_json()
function test_date()
{
// Date Time String format is YYYY-MM-DDTHH:mm:ss.sssZ
// accepted date formats are: YYYY, YYYY-MM and YYYY-MM-DD
// accepted time formats are: THH:mm, THH:mm:ss, THH:mm:ss.sss
// expanded years are represented with 6 digits prefixed by + or -
// -000000 is invalid.
// A string containing out-of-bounds or nonconforming elements
// is not a valid instance of this format.
// Hence the fractional part after . should have 3 digits and how
// a different number of digits is handled is implementation defined.
var d = new Date(1506098258091), a, s;
assert(d.toISOString(), "2017-09-22T16:37:38.091Z");
d.setUTCHours(18, 10, 11);
assert(d.toISOString(), "2017-09-22T18:10:11.091Z");
a = Date.parse(d.toISOString());
assert((new Date(a)).toISOString(), d.toISOString());
// Date Time String format is YYYY-MM-DDTHH:mm:ss.sssZ
// accepted date formats are: YYYY, YYYY-MM and YYYY-MM-DD
// accepted time formats are: THH:mm, THH:mm:ss, THH:mm:ss.sss
// A string containing out-of-bounds or nonconforming elements
// is not a valid instance of this format.
// expanded years are represented with 6 digits prefixed by + or -
// -000000 is invalid.
// Hence the fractional part after . should have 3 digits and how
// a different number of digits is handled is implementation defined.
s = new Date("2020-01-01T01:01:01.1Z").toISOString();
assert(s, "2020-01-01T01:01:01.100Z");
s = new Date("2020-01-01T01:01:01.12Z").toISOString();
@ -516,6 +562,29 @@ function test_date()
s = new Date("2020-01-01T01:01:01.9999Z").toISOString();
assert(s == "2020-01-01T01:01:02.000Z" || // QuickJS
s == "2020-01-01T01:01:01.999Z"); // nodeJS
assert(Date.UTC(NaN), NaN);
assert(Date.UTC(2017, NaN), NaN);
assert(Date.UTC(2017, 9, NaN), NaN);
assert(Date.UTC(2017, 9, 22, NaN), NaN);
assert(Date.UTC(2017, 9, 22, 18, NaN), NaN);
assert(Date.UTC(2017, 9, 22, 18, 10, NaN), NaN);
assert(Date.UTC(2017, 9, 22, 18, 10, 11, NaN), NaN);
assert(Date.UTC(2017, 9, 22, 18, 10, 11, 91, NaN), 1508695811091);
assert(Date.UTC(2017), 1483228800000);
assert(Date.UTC(2017, 9), 1506816000000);
assert(Date.UTC(2017, 9, 22), 1508630400000);
assert(Date.UTC(2017, 9, 22, 18), 1508695200000);
assert(Date.UTC(2017, 9, 22, 18, 10), 1508695800000);
assert(Date.UTC(2017, 9, 22, 18, 10, 11), 1508695811000);
assert(Date.UTC(2017, 9, 22, 18, 10, 11, 91), 1508695811091);
//assert(Date.UTC(2017 - 1e9, 9 + 12e9), 1506816000000); // node fails this
assert(Date.UTC(2017, 9, 22 - 1e10, 18 + 24e10), 1508695200000);
assert(Date.UTC(2017, 9, 22, 18 - 1e10, 10 + 60e10), 1508695800000);
assert(Date.UTC(2017, 9, 22, 18, 10 - 1e10, 11 + 60e10), 1508695811000);
assert(Date.UTC(2017, 9, 22, 18, 10, 11 - 1e12, 91 + 1000e12), 1508695811091);
}
function test_regexp()