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Diffstat (limited to 'std/math/complex/atan.zig')
| -rw-r--r-- | std/math/complex/atan.zig | 130 |
1 files changed, 130 insertions, 0 deletions
diff --git a/std/math/complex/atan.zig b/std/math/complex/atan.zig new file mode 100644 index 0000000000..b7bbf930eb --- /dev/null +++ b/std/math/complex/atan.zig @@ -0,0 +1,130 @@ +const std = @import("../../index.zig"); +const debug = std.debug; +const math = std.math; +const cmath = math.complex; +const Complex = cmath.Complex; + +pub fn atan(z: var) Complex(@typeOf(z.re)) { + const T = @typeOf(z.re); + return switch (T) { + f32 => atan32(z), + f64 => atan64(z), + else => @compileError("atan not implemented for " ++ @typeName(z)), + }; +} + +fn redupif32(x: f32) f32 { + const DP1 = 3.140625; + const DP2 = 9.67502593994140625e-4; + const DP3 = 1.509957990978376432e-7; + + var t = x / math.pi; + if (t >= 0.0) { + t += 0.5; + } else { + t -= 0.5; + } + + const u = f32(i32(t)); + return ((x - u * DP1) - u * DP2) - t * DP3; +} + +fn atan32(z: &const Complex(f32)) Complex(f32) { + const maxnum = 1.0e38; + + const x = z.re; + const y = z.im; + + if ((x == 0.0) and (y > 1.0)) { + // overflow + return Complex(f32).new(maxnum, maxnum); + } + + const x2 = x * x; + var a = 1.0 - x2 - (y * y); + if (a == 0.0) { + // overflow + return Complex(f32).new(maxnum, maxnum); + } + + var t = 0.5 * math.atan2(f32, 2.0 * x, a); + var w = redupif32(t); + + t = y - 1.0; + a = x2 + t * t; + if (a == 0.0) { + // overflow + return Complex(f32).new(maxnum, maxnum); + } + + t = y + 1.0; + a = (x2 + (t * t)) / a; + return Complex(f32).new(w, 0.25 * math.ln(a)); +} + +fn redupif64(x: f64) f64 { + const DP1 = 3.14159265160560607910; + const DP2 = 1.98418714791870343106e-9; + const DP3 = 1.14423774522196636802e-17; + + var t = x / math.pi; + if (t >= 0.0) { + t += 0.5; + } else { + t -= 0.5; + } + + const u = f64(i64(t)); + return ((x - u * DP1) - u * DP2) - t * DP3; +} + +fn atan64(z: &const Complex(f64)) Complex(f64) { + const maxnum = 1.0e308; + + const x = z.re; + const y = z.im; + + if ((x == 0.0) and (y > 1.0)) { + // overflow + return Complex(f64).new(maxnum, maxnum); + } + + const x2 = x * x; + var a = 1.0 - x2 - (y * y); + if (a == 0.0) { + // overflow + return Complex(f64).new(maxnum, maxnum); + } + + var t = 0.5 * math.atan2(f64, 2.0 * x, a); + var w = redupif64(t); + + t = y - 1.0; + a = x2 + t * t; + if (a == 0.0) { + // overflow + return Complex(f64).new(maxnum, maxnum); + } + + t = y + 1.0; + a = (x2 + (t * t)) / a; + return Complex(f64).new(w, 0.25 * math.ln(a)); +} + +const epsilon = 0.0001; + +test "complex.catan32" { + const a = Complex(f32).new(5, 3); + const c = atan(a); + + debug.assert(math.approxEq(f32, c.re, 1.423679, epsilon)); + debug.assert(math.approxEq(f32, c.im, 0.086569, epsilon)); +} + +test "complex.catan64" { + const a = Complex(f64).new(5, 3); + const c = atan(a); + + debug.assert(math.approxEq(f64, c.re, 1.423679, epsilon)); + debug.assert(math.approxEq(f64, c.im, 0.086569, epsilon)); +} |