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zig/lib/compiler_rt/sin.zig
Andrew Kelley 0556a2ba53 compiler-rt: finish cleanups 
Finishes cleanups that I started in other commits in this branch.

 * Use common.linkage for all exports instead of redoing the logic in
   each file.
 * Remove pointless `@setRuntimeSafety` calls.
 * Avoid redundantly exporting multiple versions of functions. For
   example, if PPC wants `ceilf128` then don't also export `ceilq`;
   similarly if ARM wants `__aeabi_ddiv` then don't also export
   `__divdf3`.
 * Use `inline` for helper functions instead of making inline calls at
   callsites.
2022-06-17 18:10:00 -07:00

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//! Ported from musl, which is licensed under the MIT license:
//! https://git.musl-libc.org/cgit/musl/tree/COPYRIGHT
//!
//! https://git.musl-libc.org/cgit/musl/tree/src/math/sinf.c
//! https://git.musl-libc.org/cgit/musl/tree/src/math/sin.c
const std = @import("std");
const builtin = @import("builtin");
const arch = builtin.cpu.arch;
const math = std.math;
const expect = std.testing.expect;
const common = @import("common.zig");
const trig = @import("trig.zig");
const rem_pio2 = @import("rem_pio2.zig").rem_pio2;
const rem_pio2f = @import("rem_pio2f.zig").rem_pio2f;
pub const panic = common.panic;
comptime {
@export(__sinh, .{ .name = "__sinh", .linkage = common.linkage });
@export(sinf, .{ .name = "sinf", .linkage = common.linkage });
@export(sin, .{ .name = "sin", .linkage = common.linkage });
@export(__sinx, .{ .name = "__sinx", .linkage = common.linkage });
const sinq_sym_name = if (common.want_ppc_abi) "sinf128" else "sinq";
@export(sinq, .{ .name = sinq_sym_name, .linkage = common.linkage });
@export(sinl, .{ .name = "sinl", .linkage = common.linkage });
}
pub fn __sinh(x: f16) callconv(.C) f16 {
// TODO: more efficient implementation
return @floatCast(f16, sinf(x));
}
pub fn sinf(x: f32) callconv(.C) f32 {
// Small multiples of pi/2 rounded to double precision.
const s1pio2: f64 = 1.0 * math.pi / 2.0; // 0x3FF921FB, 0x54442D18
const s2pio2: f64 = 2.0 * math.pi / 2.0; // 0x400921FB, 0x54442D18
const s3pio2: f64 = 3.0 * math.pi / 2.0; // 0x4012D97C, 0x7F3321D2
const s4pio2: f64 = 4.0 * math.pi / 2.0; // 0x401921FB, 0x54442D18
var ix = @bitCast(u32, x);
const sign = ix >> 31 != 0;
ix &= 0x7fffffff;
if (ix <= 0x3f490fda) { // |x| ~<= pi/4
if (ix < 0x39800000) { // |x| < 2**-12
// raise inexact if x!=0 and underflow if subnormal
math.doNotOptimizeAway(if (ix < 0x00800000) x / 0x1p120 else x + 0x1p120);
return x;
}
return trig.__sindf(x);
}
if (ix <= 0x407b53d1) { // |x| ~<= 5*pi/4
if (ix <= 0x4016cbe3) { // |x| ~<= 3pi/4
if (sign) {
return -trig.__cosdf(x + s1pio2);
} else {
return trig.__cosdf(x - s1pio2);
}
}
return trig.__sindf(if (sign) -(x + s2pio2) else -(x - s2pio2));
}
if (ix <= 0x40e231d5) { // |x| ~<= 9*pi/4
if (ix <= 0x40afeddf) { // |x| ~<= 7*pi/4
if (sign) {
return trig.__cosdf(x + s3pio2);
} else {
return -trig.__cosdf(x - s3pio2);
}
}
return trig.__sindf(if (sign) x + s4pio2 else x - s4pio2);
}
// sin(Inf or NaN) is NaN
if (ix >= 0x7f800000) {
return x - x;
}
var y: f64 = undefined;
const n = rem_pio2f(x, &y);
return switch (n & 3) {
0 => trig.__sindf(y),
1 => trig.__cosdf(y),
2 => trig.__sindf(-y),
else => -trig.__cosdf(y),
};
}
pub fn sin(x: f64) callconv(.C) f64 {
var ix = @bitCast(u64, x) >> 32;
ix &= 0x7fffffff;
// |x| ~< pi/4
if (ix <= 0x3fe921fb) {
if (ix < 0x3e500000) { // |x| < 2**-26
// raise inexact if x != 0 and underflow if subnormal
math.doNotOptimizeAway(if (ix < 0x00100000) x / 0x1p120 else x + 0x1p120);
return x;
}
return trig.__sin(x, 0.0, 0);
}
// sin(Inf or NaN) is NaN
if (ix >= 0x7ff00000) {
return x - x;
}
var y: [2]f64 = undefined;
const n = rem_pio2(x, &y);
return switch (n & 3) {
0 => trig.__sin(y[0], y[1], 1),
1 => trig.__cos(y[0], y[1]),
2 => -trig.__sin(y[0], y[1], 1),
else => -trig.__cos(y[0], y[1]),
};
}
pub fn __sinx(x: f80) callconv(.C) f80 {
// TODO: more efficient implementation
return @floatCast(f80, sinq(x));
}
pub fn sinq(x: f128) callconv(.C) f128 {
// TODO: more correct implementation
return sin(@floatCast(f64, x));
}
pub fn sinl(x: c_longdouble) callconv(.C) c_longdouble {
switch (@typeInfo(c_longdouble).Float.bits) {
16 => return __sinh(x),
32 => return sinf(x),
64 => return sin(x),
80 => return __sinx(x),
128 => return sinq(x),
else => @compileError("unreachable"),
}
}
test "sin32" {
const epsilon = 0.00001;
try expect(math.approxEqAbs(f32, sinf(0.0), 0.0, epsilon));
try expect(math.approxEqAbs(f32, sinf(0.2), 0.198669, epsilon));
try expect(math.approxEqAbs(f32, sinf(0.8923), 0.778517, epsilon));
try expect(math.approxEqAbs(f32, sinf(1.5), 0.997495, epsilon));
try expect(math.approxEqAbs(f32, sinf(-1.5), -0.997495, epsilon));
try expect(math.approxEqAbs(f32, sinf(37.45), -0.246544, epsilon));
try expect(math.approxEqAbs(f32, sinf(89.123), 0.916166, epsilon));
}
test "sin64" {
const epsilon = 0.000001;
try expect(math.approxEqAbs(f64, sin(0.0), 0.0, epsilon));
try expect(math.approxEqAbs(f64, sin(0.2), 0.198669, epsilon));
try expect(math.approxEqAbs(f64, sin(0.8923), 0.778517, epsilon));
try expect(math.approxEqAbs(f64, sin(1.5), 0.997495, epsilon));
try expect(math.approxEqAbs(f64, sin(-1.5), -0.997495, epsilon));
try expect(math.approxEqAbs(f64, sin(37.45), -0.246543, epsilon));
try expect(math.approxEqAbs(f64, sin(89.123), 0.916166, epsilon));
}
test "sin32.special" {
try expect(sinf(0.0) == 0.0);
try expect(sinf(-0.0) == -0.0);
try expect(math.isNan(sinf(math.inf(f32))));
try expect(math.isNan(sinf(-math.inf(f32))));
try expect(math.isNan(sinf(math.nan(f32))));
}
test "sin64.special" {
try expect(sin(0.0) == 0.0);
try expect(sin(-0.0) == -0.0);
try expect(math.isNan(sin(math.inf(f64))));
try expect(math.isNan(sin(-math.inf(f64))));
try expect(math.isNan(sin(math.nan(f64))));
}
test "sin32 #9901" {
const float = @bitCast(f32, @as(u32, 0b11100011111111110000000000000000));
_ = sinf(float);
}
test "sin64 #9901" {
const float = @bitCast(f64, @as(u64, 0b1111111101000001000000001111110111111111100000000000000000000001));
_ = sin(float);
}
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