ed36dbbd9c
that's all this commit does. further commits will fix cli flags and such. see #2221
123 lines
3.9 KiB
Zig
123 lines
3.9 KiB
Zig
// Ported from:
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//
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// https://github.com/llvm/llvm-project/commit/d674d96bc56c0f377879d01c9d8dfdaaa7859cdb/compiler-rt/lib/builtins/comparesf2.c
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const std = @import("std");
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const builtin = @import("builtin");
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const is_test = builtin.is_test;
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const fp_t = f32;
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const rep_t = u32;
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const srep_t = i32;
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const typeWidth = rep_t.bit_count;
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const significandBits = std.math.floatMantissaBits(fp_t);
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const exponentBits = std.math.floatExponentBits(fp_t);
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const signBit = (rep_t(1) << (significandBits + exponentBits));
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const absMask = signBit - 1;
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const implicitBit = rep_t(1) << significandBits;
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const significandMask = implicitBit - 1;
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const exponentMask = absMask ^ significandMask;
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const infRep = @bitCast(rep_t, std.math.inf(fp_t));
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// TODO https://github.com/ziglang/zig/issues/641
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// and then make the return types of some of these functions the enum instead of c_int
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const LE_LESS = c_int(-1);
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const LE_EQUAL = c_int(0);
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const LE_GREATER = c_int(1);
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const LE_UNORDERED = c_int(1);
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pub extern fn __lesf2(a: fp_t, b: fp_t) c_int {
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@setRuntimeSafety(is_test);
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const aInt: srep_t = @bitCast(srep_t, a);
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const bInt: srep_t = @bitCast(srep_t, b);
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const aAbs: rep_t = @bitCast(rep_t, aInt) & absMask;
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const bAbs: rep_t = @bitCast(rep_t, bInt) & absMask;
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// If either a or b is NaN, they are unordered.
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if (aAbs > infRep or bAbs > infRep) return LE_UNORDERED;
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// If a and b are both zeros, they are equal.
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if ((aAbs | bAbs) == 0) return LE_EQUAL;
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// If at least one of a and b is positive, we get the same result comparing
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// a and b as signed integers as we would with a fp_ting-point compare.
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if ((aInt & bInt) >= 0) {
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if (aInt < bInt) {
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return LE_LESS;
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} else if (aInt == bInt) {
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return LE_EQUAL;
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} else return LE_GREATER;
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}
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// Otherwise, both are negative, so we need to flip the sense of the
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// comparison to get the correct result. (This assumes a twos- or ones-
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// complement integer representation; if integers are represented in a
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// sign-magnitude representation, then this flip is incorrect).
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else {
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if (aInt > bInt) {
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return LE_LESS;
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} else if (aInt == bInt) {
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return LE_EQUAL;
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} else return LE_GREATER;
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}
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}
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// TODO https://github.com/ziglang/zig/issues/641
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// and then make the return types of some of these functions the enum instead of c_int
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const GE_LESS = c_int(-1);
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const GE_EQUAL = c_int(0);
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const GE_GREATER = c_int(1);
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const GE_UNORDERED = c_int(-1); // Note: different from LE_UNORDERED
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pub extern fn __gesf2(a: fp_t, b: fp_t) c_int {
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@setRuntimeSafety(is_test);
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const aInt: srep_t = @bitCast(srep_t, a);
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const bInt: srep_t = @bitCast(srep_t, b);
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const aAbs: rep_t = @bitCast(rep_t, aInt) & absMask;
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const bAbs: rep_t = @bitCast(rep_t, bInt) & absMask;
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if (aAbs > infRep or bAbs > infRep) return GE_UNORDERED;
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if ((aAbs | bAbs) == 0) return GE_EQUAL;
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if ((aInt & bInt) >= 0) {
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if (aInt < bInt) {
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return GE_LESS;
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} else if (aInt == bInt) {
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return GE_EQUAL;
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} else return GE_GREATER;
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} else {
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if (aInt > bInt) {
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return GE_LESS;
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} else if (aInt == bInt) {
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return GE_EQUAL;
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} else return GE_GREATER;
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}
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}
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pub extern fn __unordsf2(a: fp_t, b: fp_t) c_int {
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@setRuntimeSafety(is_test);
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const aAbs: rep_t = @bitCast(rep_t, a) & absMask;
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const bAbs: rep_t = @bitCast(rep_t, b) & absMask;
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return @boolToInt(aAbs > infRep or bAbs > infRep);
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}
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pub extern fn __eqsf2(a: fp_t, b: fp_t) c_int {
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return __lesf2(a, b);
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}
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pub extern fn __ltsf2(a: fp_t, b: fp_t) c_int {
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return __lesf2(a, b);
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}
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pub extern fn __nesf2(a: fp_t, b: fp_t) c_int {
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return __lesf2(a, b);
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}
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pub extern fn __gtsf2(a: fp_t, b: fp_t) c_int {
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return __gesf2(a, b);
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}
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test "import comparesf2" {
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_ = @import("comparesf2_test.zig");
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}
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