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16b3d1004e
Follow up to #19079, which made test names fully qualified. This fixes tests that now-redundant information in their test names. For example here's a fully qualified test name before the changes in this commit: "priority_queue.test.std.PriorityQueue: shrinkAndFree" and the same test's name after the changes in this commit: "priority_queue.test.shrinkAndFree"
214 lines
6.1 KiB
Zig
214 lines
6.1 KiB
Zig
const std = @import("../std.zig");
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const testing = std.testing;
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const math = std.math;
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pub const abs = @import("complex/abs.zig").abs;
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pub const acosh = @import("complex/acosh.zig").acosh;
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pub const acos = @import("complex/acos.zig").acos;
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pub const arg = @import("complex/arg.zig").arg;
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pub const asinh = @import("complex/asinh.zig").asinh;
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pub const asin = @import("complex/asin.zig").asin;
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pub const atanh = @import("complex/atanh.zig").atanh;
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pub const atan = @import("complex/atan.zig").atan;
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pub const conj = @import("complex/conj.zig").conj;
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pub const cosh = @import("complex/cosh.zig").cosh;
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pub const cos = @import("complex/cos.zig").cos;
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pub const exp = @import("complex/exp.zig").exp;
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pub const log = @import("complex/log.zig").log;
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pub const pow = @import("complex/pow.zig").pow;
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pub const proj = @import("complex/proj.zig").proj;
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pub const sinh = @import("complex/sinh.zig").sinh;
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pub const sin = @import("complex/sin.zig").sin;
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pub const sqrt = @import("complex/sqrt.zig").sqrt;
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pub const tanh = @import("complex/tanh.zig").tanh;
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pub const tan = @import("complex/tan.zig").tan;
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/// A complex number consisting of a real an imaginary part. T must be a floating-point value.
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pub fn Complex(comptime T: type) type {
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return struct {
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const Self = @This();
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/// Real part.
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re: T,
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/// Imaginary part.
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im: T,
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/// Create a new Complex number from the given real and imaginary parts.
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pub fn init(re: T, im: T) Self {
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return Self{
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.re = re,
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.im = im,
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};
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}
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/// Returns the sum of two complex numbers.
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pub fn add(self: Self, other: Self) Self {
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return Self{
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.re = self.re + other.re,
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.im = self.im + other.im,
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};
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}
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/// Returns the subtraction of two complex numbers.
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pub fn sub(self: Self, other: Self) Self {
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return Self{
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.re = self.re - other.re,
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.im = self.im - other.im,
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};
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}
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/// Returns the product of two complex numbers.
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pub fn mul(self: Self, other: Self) Self {
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return Self{
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.re = self.re * other.re - self.im * other.im,
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.im = self.im * other.re + self.re * other.im,
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};
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}
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/// Returns the quotient of two complex numbers.
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pub fn div(self: Self, other: Self) Self {
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const re_num = self.re * other.re + self.im * other.im;
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const im_num = self.im * other.re - self.re * other.im;
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const den = other.re * other.re + other.im * other.im;
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return Self{
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.re = re_num / den,
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.im = im_num / den,
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};
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}
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/// Returns the complex conjugate of a number.
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pub fn conjugate(self: Self) Self {
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return Self{
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.re = self.re,
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.im = -self.im,
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};
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}
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/// Returns the negation of a complex number.
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pub fn neg(self: Self) Self {
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return Self{
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.re = -self.re,
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.im = -self.im,
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};
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}
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/// Returns the product of complex number and i=sqrt(-1)
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pub fn mulbyi(self: Self) Self {
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return Self{
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.re = -self.im,
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.im = self.re,
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};
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}
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/// Returns the reciprocal of a complex number.
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pub fn reciprocal(self: Self) Self {
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const m = self.re * self.re + self.im * self.im;
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return Self{
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.re = self.re / m,
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.im = -self.im / m,
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};
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}
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/// Returns the magnitude of a complex number.
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pub fn magnitude(self: Self) T {
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return @sqrt(self.re * self.re + self.im * self.im);
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}
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};
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}
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const epsilon = 0.0001;
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test "add" {
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const a = Complex(f32).init(5, 3);
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const b = Complex(f32).init(2, 7);
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const c = a.add(b);
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try testing.expect(c.re == 7 and c.im == 10);
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}
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test "sub" {
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const a = Complex(f32).init(5, 3);
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const b = Complex(f32).init(2, 7);
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const c = a.sub(b);
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try testing.expect(c.re == 3 and c.im == -4);
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}
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test "mul" {
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const a = Complex(f32).init(5, 3);
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const b = Complex(f32).init(2, 7);
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const c = a.mul(b);
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try testing.expect(c.re == -11 and c.im == 41);
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}
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test "div" {
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const a = Complex(f32).init(5, 3);
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const b = Complex(f32).init(2, 7);
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const c = a.div(b);
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try testing.expect(math.approxEqAbs(f32, c.re, @as(f32, 31) / 53, epsilon) and
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math.approxEqAbs(f32, c.im, @as(f32, -29) / 53, epsilon));
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}
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test "conjugate" {
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const a = Complex(f32).init(5, 3);
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const c = a.conjugate();
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try testing.expect(c.re == 5 and c.im == -3);
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}
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test "neg" {
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const a = Complex(f32).init(5, 3);
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const c = a.neg();
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try testing.expect(c.re == -5 and c.im == -3);
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}
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test "mulbyi" {
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const a = Complex(f32).init(5, 3);
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const c = a.mulbyi();
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try testing.expect(c.re == -3 and c.im == 5);
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}
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test "reciprocal" {
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const a = Complex(f32).init(5, 3);
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const c = a.reciprocal();
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try testing.expect(math.approxEqAbs(f32, c.re, @as(f32, 5) / 34, epsilon) and
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math.approxEqAbs(f32, c.im, @as(f32, -3) / 34, epsilon));
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}
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test "magnitude" {
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const a = Complex(f32).init(5, 3);
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const c = a.magnitude();
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try testing.expect(math.approxEqAbs(f32, c, 5.83095, epsilon));
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}
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test {
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_ = @import("complex/abs.zig");
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_ = @import("complex/acosh.zig");
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_ = @import("complex/acos.zig");
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_ = @import("complex/arg.zig");
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_ = @import("complex/asinh.zig");
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_ = @import("complex/asin.zig");
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_ = @import("complex/atanh.zig");
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_ = @import("complex/atan.zig");
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_ = @import("complex/conj.zig");
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_ = @import("complex/cosh.zig");
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_ = @import("complex/cos.zig");
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_ = @import("complex/exp.zig");
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_ = @import("complex/log.zig");
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_ = @import("complex/pow.zig");
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_ = @import("complex/proj.zig");
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_ = @import("complex/sinh.zig");
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_ = @import("complex/sin.zig");
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_ = @import("complex/sqrt.zig");
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_ = @import("complex/tanh.zig");
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_ = @import("complex/tan.zig");
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}
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