const std = @import("../index.zig"); const math = std.math; const assert = std.debug.assert; pub fn isInf(x: var) bool { const T = @typeOf(x); switch (T) { f32 => { const bits = @bitCast(u32, x); return bits & 0x7FFFFFFF == 0x7F800000; }, f64 => { const bits = @bitCast(u64, x); return bits & (@maxValue(u64) >> 1) == (0x7FF << 52); }, else => { @compileError("isInf not implemented for " ++ @typeName(T)); }, } } pub fn isPositiveInf(x: var) bool { const T = @typeOf(x); switch (T) { f32 => { return @bitCast(u32, x) == 0x7F800000; }, f64 => { return @bitCast(u64, x) == 0x7FF << 52; }, else => { @compileError("isPositiveInf not implemented for " ++ @typeName(T)); }, } } pub fn isNegativeInf(x: var) bool { const T = @typeOf(x); switch (T) { f32 => { return @bitCast(u32, x) == 0xFF800000; }, f64 => { return @bitCast(u64, x) == 0xFFF << 52; }, else => { @compileError("isNegativeInf not implemented for " ++ @typeName(T)); }, } } test "math.isInf" { assert(!isInf(f32(0.0))); assert(!isInf(f32(-0.0))); assert(!isInf(f64(0.0))); assert(!isInf(f64(-0.0))); assert(isInf(math.inf(f32))); assert(isInf(-math.inf(f32))); assert(isInf(math.inf(f64))); assert(isInf(-math.inf(f64))); } test "math.isPositiveInf" { assert(!isPositiveInf(f32(0.0))); assert(!isPositiveInf(f32(-0.0))); assert(!isPositiveInf(f64(0.0))); assert(!isPositiveInf(f64(-0.0))); assert(isPositiveInf(math.inf(f32))); assert(!isPositiveInf(-math.inf(f32))); assert(isPositiveInf(math.inf(f64))); assert(!isPositiveInf(-math.inf(f64))); } test "math.isNegativeInf" { assert(!isNegativeInf(f32(0.0))); assert(!isNegativeInf(f32(-0.0))); assert(!isNegativeInf(f64(0.0))); assert(!isNegativeInf(f64(-0.0))); assert(!isNegativeInf(math.inf(f32))); assert(isNegativeInf(-math.inf(f32))); assert(!isNegativeInf(math.inf(f64))); assert(isNegativeInf(-math.inf(f64))); }