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zig/lib/std/math/complex.zig
Andrew Kelley d29871977f remove redundant license headers from zig standard library 
We already have a LICENSE file that covers the Zig Standard Library. We
no longer need to remind everyone that the license is MIT in every single
file.

Previously this was introduced to clarify the situation for a fork of
Zig that made Zig's LICENSE file harder to find, and replaced it with
their own license that required annual payments to their company.
However that fork now appears to be dead. So there is no need to
reinforce the copyright notice in every single file.
2021-08-24 12:25:09 -07:00

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const std = @import("../std.zig");
const testing = std.testing;
const math = std.math;
pub const abs = @import("complex/abs.zig").abs;
pub const acosh = @import("complex/acosh.zig").acosh;
pub const acos = @import("complex/acos.zig").acos;
pub const arg = @import("complex/arg.zig").arg;
pub const asinh = @import("complex/asinh.zig").asinh;
pub const asin = @import("complex/asin.zig").asin;
pub const atanh = @import("complex/atanh.zig").atanh;
pub const atan = @import("complex/atan.zig").atan;
pub const conj = @import("complex/conj.zig").conj;
pub const cosh = @import("complex/cosh.zig").cosh;
pub const cos = @import("complex/cos.zig").cos;
pub const exp = @import("complex/exp.zig").exp;
pub const log = @import("complex/log.zig").log;
pub const pow = @import("complex/pow.zig").pow;
pub const proj = @import("complex/proj.zig").proj;
pub const sinh = @import("complex/sinh.zig").sinh;
pub const sin = @import("complex/sin.zig").sin;
pub const sqrt = @import("complex/sqrt.zig").sqrt;
pub const tanh = @import("complex/tanh.zig").tanh;
pub const tan = @import("complex/tan.zig").tan;
/// A complex number consisting of a real an imaginary part. T must be a floating-point value.
pub fn Complex(comptime T: type) type {
return struct {
const Self = @This();
/// Real part.
re: T,
/// Imaginary part.
im: T,
/// Deprecated, use init()
pub const new = init;
/// Create a new Complex number from the given real and imaginary parts.
pub fn init(re: T, im: T) Self {
return Self{
.re = re,
.im = im,
};
}
/// Returns the sum of two complex numbers.
pub fn add(self: Self, other: Self) Self {
return Self{
.re = self.re + other.re,
.im = self.im + other.im,
};
}
/// Returns the subtraction of two complex numbers.
pub fn sub(self: Self, other: Self) Self {
return Self{
.re = self.re - other.re,
.im = self.im - other.im,
};
}
/// Returns the product of two complex numbers.
pub fn mul(self: Self, other: Self) Self {
return Self{
.re = self.re * other.re - self.im * other.im,
.im = self.im * other.re + self.re * other.im,
};
}
/// Returns the quotient of two complex numbers.
pub fn div(self: Self, other: Self) Self {
const re_num = self.re * other.re + self.im * other.im;
const im_num = self.im * other.re - self.re * other.im;
const den = other.re * other.re + other.im * other.im;
return Self{
.re = re_num / den,
.im = im_num / den,
};
}
/// Returns the complex conjugate of a number.
pub fn conjugate(self: Self) Self {
return Self{
.re = self.re,
.im = -self.im,
};
}
/// Returns the reciprocal of a complex number.
pub fn reciprocal(self: Self) Self {
const m = self.re * self.re + self.im * self.im;
return Self{
.re = self.re / m,
.im = -self.im / m,
};
}
/// Returns the magnitude of a complex number.
pub fn magnitude(self: Self) T {
return math.sqrt(self.re * self.re + self.im * self.im);
}
};
}
const epsilon = 0.0001;
test "complex.add" {
const a = Complex(f32).init(5, 3);
const b = Complex(f32).init(2, 7);
const c = a.add(b);
try testing.expect(c.re == 7 and c.im == 10);
}
test "complex.sub" {
const a = Complex(f32).init(5, 3);
const b = Complex(f32).init(2, 7);
const c = a.sub(b);
try testing.expect(c.re == 3 and c.im == -4);
}
test "complex.mul" {
const a = Complex(f32).init(5, 3);
const b = Complex(f32).init(2, 7);
const c = a.mul(b);
try testing.expect(c.re == -11 and c.im == 41);
}
test "complex.div" {
const a = Complex(f32).init(5, 3);
const b = Complex(f32).init(2, 7);
const c = a.div(b);
try testing.expect(math.approxEqAbs(f32, c.re, @as(f32, 31) / 53, epsilon) and
math.approxEqAbs(f32, c.im, @as(f32, -29) / 53, epsilon));
}
test "complex.conjugate" {
const a = Complex(f32).init(5, 3);
const c = a.conjugate();
try testing.expect(c.re == 5 and c.im == -3);
}
test "complex.reciprocal" {
const a = Complex(f32).init(5, 3);
const c = a.reciprocal();
try testing.expect(math.approxEqAbs(f32, c.re, @as(f32, 5) / 34, epsilon) and
math.approxEqAbs(f32, c.im, @as(f32, -3) / 34, epsilon));
}
test "complex.magnitude" {
const a = Complex(f32).init(5, 3);
const c = a.magnitude();
try testing.expect(math.approxEqAbs(f32, c, 5.83095, epsilon));
}
test "complex.cmath" {
_ = @import("complex/abs.zig");
_ = @import("complex/acosh.zig");
_ = @import("complex/acos.zig");
_ = @import("complex/arg.zig");
_ = @import("complex/asinh.zig");
_ = @import("complex/asin.zig");
_ = @import("complex/atanh.zig");
_ = @import("complex/atan.zig");
_ = @import("complex/conj.zig");
_ = @import("complex/cosh.zig");
_ = @import("complex/cos.zig");
_ = @import("complex/exp.zig");
_ = @import("complex/log.zig");
_ = @import("complex/pow.zig");
_ = @import("complex/proj.zig");
_ = @import("complex/sinh.zig");
_ = @import("complex/sin.zig");
_ = @import("complex/sqrt.zig");
_ = @import("complex/tanh.zig");
_ = @import("complex/tan.zig");
}
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