const std = @import("../../std.zig"); const testing = std.testing; const math = std.math; const cmath = math.complex; const Complex = cmath.Complex; // Returns the arc-sine of z. pub fn asin(z: anytype) Complex(@TypeOf(z.re, z.im)) { const T = @TypeOf(z.re, z.im); const x = z.re; const y = z.im; const p = Complex(T).init(1.0 - (x - y) * (x + y), -2.0 * x * y); const q = Complex(T).init(-y, x); const r = cmath.log(q.add(cmath.sqrt(p))); return Complex(T).init(r.im, -r.re); } const epsilon = 0.0001; test asin { const a = Complex(f32).init(5, 3); const c = asin(a); try testing.expect(math.approxEqAbs(f32, c.re, 1.023822, epsilon)); try testing.expect(math.approxEqAbs(f32, c.im, 2.452914, epsilon)); }