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zig/lib/compiler_rt/exp.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/expf.c
// https://git.musl-libc.org/cgit/musl/tree/src/math/exp.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");
pub const panic = common.panic;
comptime {
@export(__exph, .{ .name = "__exph", .linkage = common.linkage });
@export(expf, .{ .name = "expf", .linkage = common.linkage });
@export(exp, .{ .name = "exp", .linkage = common.linkage });
@export(__expx, .{ .name = "__expx", .linkage = common.linkage });
const expq_sym_name = if (common.want_ppc_abi) "expf128" else "expq";
@export(expq, .{ .name = expq_sym_name, .linkage = common.linkage });
@export(expl, .{ .name = "expl", .linkage = common.linkage });
}
pub fn __exph(a: f16) callconv(.C) f16 {
// TODO: more efficient implementation
return @floatCast(f16, expf(a));
}
pub fn expf(x_: f32) callconv(.C) f32 {
const half = [_]f32{ 0.5, -0.5 };
const ln2hi = 6.9314575195e-1;
const ln2lo = 1.4286067653e-6;
const invln2 = 1.4426950216e+0;
const P1 = 1.6666625440e-1;
const P2 = -2.7667332906e-3;
var x = x_;
var hx = @bitCast(u32, x);
const sign = @intCast(i32, hx >> 31);
hx &= 0x7FFFFFFF;
if (math.isNan(x)) {
return x;
}
// |x| >= -87.33655 or nan
if (hx >= 0x42AEAC50) {
// nan
if (hx > 0x7F800000) {
return x;
}
// x >= 88.722839
if (hx >= 0x42b17218 and sign == 0) {
return x * 0x1.0p127;
}
if (sign != 0) {
math.doNotOptimizeAway(-0x1.0p-149 / x); // overflow
// x <= -103.972084
if (hx >= 0x42CFF1B5) {
return 0;
}
}
}
var k: i32 = undefined;
var hi: f32 = undefined;
var lo: f32 = undefined;
// |x| > 0.5 * ln2
if (hx > 0x3EB17218) {
// |x| > 1.5 * ln2
if (hx > 0x3F851592) {
k = @floatToInt(i32, invln2 * x + half[@intCast(usize, sign)]);
} else {
k = 1 - sign - sign;
}
const fk = @intToFloat(f32, k);
hi = x - fk * ln2hi;
lo = fk * ln2lo;
x = hi - lo;
}
// |x| > 2^(-14)
else if (hx > 0x39000000) {
k = 0;
hi = x;
lo = 0;
} else {
math.doNotOptimizeAway(0x1.0p127 + x); // inexact
return 1 + x;
}
const xx = x * x;
const c = x - xx * (P1 + xx * P2);
const y = 1 + (x * c / (2 - c) - lo + hi);
if (k == 0) {
return y;
} else {
return math.scalbn(y, k);
}
}
pub fn exp(x_: f64) callconv(.C) f64 {
const half = [_]f64{ 0.5, -0.5 };
const ln2hi: f64 = 6.93147180369123816490e-01;
const ln2lo: f64 = 1.90821492927058770002e-10;
const invln2: f64 = 1.44269504088896338700e+00;
const P1: f64 = 1.66666666666666019037e-01;
const P2: f64 = -2.77777777770155933842e-03;
const P3: f64 = 6.61375632143793436117e-05;
const P4: f64 = -1.65339022054652515390e-06;
const P5: f64 = 4.13813679705723846039e-08;
var x = x_;
var ux = @bitCast(u64, x);
var hx = ux >> 32;
const sign = @intCast(i32, hx >> 31);
hx &= 0x7FFFFFFF;
if (math.isNan(x)) {
return x;
}
// |x| >= 708.39 or nan
if (hx >= 0x4086232B) {
// nan
if (hx > 0x7FF00000) {
return x;
}
if (x > 709.782712893383973096) {
// overflow if x != inf
if (!math.isInf(x)) {
math.raiseOverflow();
}
return math.inf(f64);
}
if (x < -708.39641853226410622) {
// underflow if x != -inf
// math.doNotOptimizeAway(@as(f32, -0x1.0p-149 / x));
if (x < -745.13321910194110842) {
return 0;
}
}
}
// argument reduction
var k: i32 = undefined;
var hi: f64 = undefined;
var lo: f64 = undefined;
// |x| > 0.5 * ln2
if (hx > 0x3FD62E42) {
// |x| >= 1.5 * ln2
if (hx > 0x3FF0A2B2) {
k = @floatToInt(i32, invln2 * x + half[@intCast(usize, sign)]);
} else {
k = 1 - sign - sign;
}
const dk = @intToFloat(f64, k);
hi = x - dk * ln2hi;
lo = dk * ln2lo;
x = hi - lo;
}
// |x| > 2^(-28)
else if (hx > 0x3E300000) {
k = 0;
hi = x;
lo = 0;
} else {
// inexact if x != 0
// math.doNotOptimizeAway(0x1.0p1023 + x);
return 1 + x;
}
const xx = x * x;
const c = x - xx * (P1 + xx * (P2 + xx * (P3 + xx * (P4 + xx * P5))));
const y = 1 + (x * c / (2 - c) - lo + hi);
if (k == 0) {
return y;
} else {
return math.scalbn(y, k);
}
}
pub fn __expx(a: f80) callconv(.C) f80 {
// TODO: more efficient implementation
return @floatCast(f80, expq(a));
}
pub fn expq(a: f128) callconv(.C) f128 {
// TODO: more correct implementation
return exp(@floatCast(f64, a));
}
pub fn expl(x: c_longdouble) callconv(.C) c_longdouble {
switch (@typeInfo(c_longdouble).Float.bits) {
16 => return __exph(x),
32 => return expf(x),
64 => return exp(x),
80 => return __expx(x),
128 => return expq(x),
else => @compileError("unreachable"),
}
}
test "exp32" {
const epsilon = 0.000001;
try expect(expf(0.0) == 1.0);
try expect(math.approxEqAbs(f32, expf(0.0), 1.0, epsilon));
try expect(math.approxEqAbs(f32, expf(0.2), 1.221403, epsilon));
try expect(math.approxEqAbs(f32, expf(0.8923), 2.440737, epsilon));
try expect(math.approxEqAbs(f32, expf(1.5), 4.481689, epsilon));
}
test "exp64" {
const epsilon = 0.000001;
try expect(exp(0.0) == 1.0);
try expect(math.approxEqAbs(f64, exp(0.0), 1.0, epsilon));
try expect(math.approxEqAbs(f64, exp(0.2), 1.221403, epsilon));
try expect(math.approxEqAbs(f64, exp(0.8923), 2.440737, epsilon));
try expect(math.approxEqAbs(f64, exp(1.5), 4.481689, epsilon));
}
test "exp32.special" {
try expect(math.isPositiveInf(expf(math.inf(f32))));
try expect(math.isNan(expf(math.nan(f32))));
}
test "exp64.special" {
try expect(math.isPositiveInf(exp(math.inf(f64))));
try expect(math.isNan(exp(math.nan(f64))));
}
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