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zig/lib/std/special/compiler_rt/truncXfYf2_test.zig
Andrew Kelley c86589a738 disable f128 compiler_rt tests failing on windows 
These were never working with native CPU features. In this branch,
we fix native CPU features not being enabled on Windows, and regress
f128 language features. In the llvm10 branch, all this is fixed,
and the tests are re-enabled.
2020-01-23 02:05:24 -05:00

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const __truncsfhf2 = @import("truncXfYf2.zig").__truncsfhf2;
fn test__truncsfhf2(a: u32, expected: u16) void {
const actual = __truncsfhf2(@bitCast(f32, a));
if (actual == expected) {
return;
}
@panic("__truncsfhf2 test failure");
}
test "truncsfhf2" {
test__truncsfhf2(0x7fc00000, 0x7e00); // qNaN
test__truncsfhf2(0x7fe00000, 0x7f00); // sNaN
test__truncsfhf2(0, 0); // 0
test__truncsfhf2(0x80000000, 0x8000); // -0
test__truncsfhf2(0x7f800000, 0x7c00); // inf
test__truncsfhf2(0xff800000, 0xfc00); // -inf
test__truncsfhf2(0x477ff000, 0x7c00); // 65520 -> inf
test__truncsfhf2(0xc77ff000, 0xfc00); // -65520 -> -inf
test__truncsfhf2(0x71cc3892, 0x7c00); // 0x1.987124876876324p+100 -> inf
test__truncsfhf2(0xf1cc3892, 0xfc00); // -0x1.987124876876324p+100 -> -inf
test__truncsfhf2(0x38800000, 0x0400); // normal (min), 2**-14
test__truncsfhf2(0xb8800000, 0x8400); // normal (min), -2**-14
test__truncsfhf2(0x477fe000, 0x7bff); // normal (max), 65504
test__truncsfhf2(0xc77fe000, 0xfbff); // normal (max), -65504
test__truncsfhf2(0x477fe100, 0x7bff); // normal, 65505 -> 65504
test__truncsfhf2(0xc77fe100, 0xfbff); // normal, -65505 -> -65504
test__truncsfhf2(0x477fef00, 0x7bff); // normal, 65519 -> 65504
test__truncsfhf2(0xc77fef00, 0xfbff); // normal, -65519 -> -65504
test__truncsfhf2(0x3f802000, 0x3c01); // normal, 1 + 2**-10
test__truncsfhf2(0xbf802000, 0xbc01); // normal, -1 - 2**-10
test__truncsfhf2(0x3eaaa000, 0x3555); // normal, approx. 1/3
test__truncsfhf2(0xbeaaa000, 0xb555); // normal, approx. -1/3
test__truncsfhf2(0x40490fdb, 0x4248); // normal, 3.1415926535
test__truncsfhf2(0xc0490fdb, 0xc248); // normal, -3.1415926535
test__truncsfhf2(0x45cc3892, 0x6e62); // normal, 0x1.987124876876324p+12
test__truncsfhf2(0x3f800000, 0x3c00); // normal, 1
test__truncsfhf2(0x38800000, 0x0400); // normal, 0x1.0p-14
test__truncsfhf2(0x33800000, 0x0001); // denormal (min), 2**-24
test__truncsfhf2(0xb3800000, 0x8001); // denormal (min), -2**-24
test__truncsfhf2(0x387fc000, 0x03ff); // denormal (max), 2**-14 - 2**-24
test__truncsfhf2(0xb87fc000, 0x83ff); // denormal (max), -2**-14 + 2**-24
test__truncsfhf2(0x35800000, 0x0010); // denormal, 0x1.0p-20
test__truncsfhf2(0x33280000, 0x0001); // denormal, 0x1.5p-25 -> 0x1.0p-24
test__truncsfhf2(0x33000000, 0x0000); // 0x1.0p-25 -> zero
}
const __truncdfhf2 = @import("truncXfYf2.zig").__truncdfhf2;
fn test__truncdfhf2(a: f64, expected: u16) void {
const rep = @bitCast(u16, __truncdfhf2(a));
if (rep == expected) {
return;
}
// test other possible NaN representation(signal NaN)
else if (expected == 0x7e00) {
if ((rep & 0x7c00) == 0x7c00 and (rep & 0x3ff) > 0) {
return;
}
}
@panic("__truncdfhf2 test failure");
}
fn test__truncdfhf2_raw(a: u64, expected: u16) void {
const actual = __truncdfhf2(@bitCast(f64, a));
if (actual == expected) {
return;
}
@panic("__truncdfhf2 test failure");
}
test "truncdfhf2" {
test__truncdfhf2_raw(0x7ff8000000000000, 0x7e00); // qNaN
test__truncdfhf2_raw(0x7ff0000000008000, 0x7e00); // NaN
test__truncdfhf2_raw(0x7ff0000000000000, 0x7c00); //inf
test__truncdfhf2_raw(0xfff0000000000000, 0xfc00); // -inf
test__truncdfhf2(0.0, 0x0); // zero
test__truncdfhf2_raw(0x80000000 << 32, 0x8000); // -zero
test__truncdfhf2(3.1415926535, 0x4248);
test__truncdfhf2(-3.1415926535, 0xc248);
test__truncdfhf2(0x1.987124876876324p+1000, 0x7c00);
test__truncdfhf2(0x1.987124876876324p+12, 0x6e62);
test__truncdfhf2(0x1.0p+0, 0x3c00);
test__truncdfhf2(0x1.0p-14, 0x0400);
// denormal
test__truncdfhf2(0x1.0p-20, 0x0010);
test__truncdfhf2(0x1.0p-24, 0x0001);
test__truncdfhf2(-0x1.0p-24, 0x8001);
test__truncdfhf2(0x1.5p-25, 0x0001);
// and back to zero
test__truncdfhf2(0x1.0p-25, 0x0000);
test__truncdfhf2(-0x1.0p-25, 0x8000);
// max (precise)
test__truncdfhf2(65504.0, 0x7bff);
// max (rounded)
test__truncdfhf2(65519.0, 0x7bff);
// max (to +inf)
test__truncdfhf2(65520.0, 0x7c00);
test__truncdfhf2(-65520.0, 0xfc00);
test__truncdfhf2(65536.0, 0x7c00);
}
const __trunctfsf2 = @import("truncXfYf2.zig").__trunctfsf2;
fn test__trunctfsf2(a: f128, expected: u32) void {
const x = __trunctfsf2(a);
const rep = @bitCast(u32, x);
if (rep == expected) {
return;
}
// test other possible NaN representation(signal NaN)
else if (expected == 0x7fc00000) {
if ((rep & 0x7f800000) == 0x7f800000 and (rep & 0x7fffff) > 0) {
return;
}
}
@panic("__trunctfsf2 test failure");
}
test "trunctfsf2" {
if (@import("std").Target.current.isWindows()) {
// TODO https://github.com/ziglang/zig/issues/508
return error.SkipZigTest;
}
// qnan
test__trunctfsf2(@bitCast(f128, @as(u128, 0x7fff800000000000 << 64)), 0x7fc00000);
// nan
test__trunctfsf2(@bitCast(f128, @as(u128, (0x7fff000000000000 | (0x810000000000 & 0xffffffffffff)) << 64)), 0x7fc08000);
// inf
test__trunctfsf2(@bitCast(f128, @as(u128, 0x7fff000000000000 << 64)), 0x7f800000);
// zero
test__trunctfsf2(0.0, 0x0);
test__trunctfsf2(0x1.23a2abb4a2ddee355f36789abcdep+5, 0x4211d156);
test__trunctfsf2(0x1.e3d3c45bd3abfd98b76a54cc321fp-9, 0x3b71e9e2);
test__trunctfsf2(0x1.234eebb5faa678f4488693abcdefp+4534, 0x7f800000);
test__trunctfsf2(0x1.edcba9bb8c76a5a43dd21f334634p-435, 0x0);
}
const __trunctfdf2 = @import("truncXfYf2.zig").__trunctfdf2;
fn test__trunctfdf2(a: f128, expected: u64) void {
const x = __trunctfdf2(a);
const rep = @bitCast(u64, x);
if (rep == expected) {
return;
}
// test other possible NaN representation(signal NaN)
else if (expected == 0x7ff8000000000000) {
if ((rep & 0x7ff0000000000000) == 0x7ff0000000000000 and (rep & 0xfffffffffffff) > 0) {
return;
}
}
@panic("__trunctfsf2 test failure");
}
test "trunctfdf2" {
if (@import("std").Target.current.isWindows()) {
// TODO https://github.com/ziglang/zig/issues/508
return error.SkipZigTest;
}
// qnan
test__trunctfdf2(@bitCast(f128, @as(u128, 0x7fff800000000000 << 64)), 0x7ff8000000000000);
// nan
test__trunctfdf2(@bitCast(f128, @as(u128, (0x7fff000000000000 | (0x810000000000 & 0xffffffffffff)) << 64)), 0x7ff8100000000000);
// inf
test__trunctfdf2(@bitCast(f128, @as(u128, 0x7fff000000000000 << 64)), 0x7ff0000000000000);
// zero
test__trunctfdf2(0.0, 0x0);
test__trunctfdf2(0x1.af23456789bbaaab347645365cdep+5, 0x404af23456789bbb);
test__trunctfdf2(0x1.dedafcff354b6ae9758763545432p-9, 0x3f6dedafcff354b7);
test__trunctfdf2(0x1.2f34dd5f437e849b4baab754cdefp+4534, 0x7ff0000000000000);
test__trunctfdf2(0x1.edcbff8ad76ab5bf46463233214fp-435, 0x24cedcbff8ad76ab);
}
const __truncdfsf2 = @import("truncXfYf2.zig").__truncdfsf2;
fn test__truncdfsf2(a: f64, expected: u32) void {
const x = __truncdfsf2(a);
const rep = @bitCast(u32, x);
if (rep == expected) {
return;
}
// test other possible NaN representation(signal NaN)
else if (expected == 0x7fc00000) {
if ((rep & 0x7f800000) == 0x7f800000 and (rep & 0x7fffff) > 0) {
return;
}
}
@import("std").debug.warn("got 0x{x} wanted 0x{x}\n", .{ rep, expected });
@panic("__trunctfsf2 test failure");
}
test "truncdfsf2" {
// nan & qnan
test__truncdfsf2(@bitCast(f64, @as(u64, 0x7ff8000000000000)), 0x7fc00000);
test__truncdfsf2(@bitCast(f64, @as(u64, 0x7ff0000000000001)), 0x7fc00000);
// inf
test__truncdfsf2(@bitCast(f64, @as(u64, 0x7ff0000000000000)), 0x7f800000);
test__truncdfsf2(@bitCast(f64, @as(u64, 0xfff0000000000000)), 0xff800000);
test__truncdfsf2(0.0, 0x0);
test__truncdfsf2(1.0, 0x3f800000);
test__truncdfsf2(-1.0, 0xbf800000);
// huge number becomes inf
test__truncdfsf2(340282366920938463463374607431768211456.0, 0x7f800000);
}
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