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66 lines
2.8 KiB
Plaintext
66 lines
2.8 KiB
Plaintext
module std::math;
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// Complex number aliases.
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alias Complexf = Complex {float};
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alias Complex = Complex {double};
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alias COMPLEX_IDENTITY @builtin = complex::IDENTITY {double};
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alias COMPLEXF_IDENTITY @builtin = complex::IDENTITY {float};
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alias IMAGINARY @builtin @deprecated("Use I") = complex::IMAGINARY { double };
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alias IMAGINARYF @builtin @deprecated("Use I_F") = complex::IMAGINARY { float };
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alias I @builtin = complex::IMAGINARY { double };
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alias I_F @builtin = complex::IMAGINARY { float };
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<*
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The generic complex number module, for float or double based complex number definitions.
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@require Real.kindof == FLOAT : "A complex number must use a floating type"
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*>
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module std::math::complex {Real};
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import std::io;
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union Complex (Printable)
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{
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struct
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{
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Real r, c;
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}
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Real[<2>] v;
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}
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const Complex IDENTITY = { 1, 0 };
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const Complex IMAGINARY = { 0, 1 };
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macro Complex Complex.add(self, Complex b) @operator(+) => { .v = self.v + b.v };
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macro Complex Complex.add_this(&self, Complex b) @operator(+=) => { .v = self.v += b.v };
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macro Complex Complex.add_real(self, Real r) @operator_s(+) => { .v = self.v + (Real[<2>]) { r, 0 } };
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macro Complex Complex.add_each(self, Real b) => { .v = self.v + b };
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macro Complex Complex.sub(self, Complex b) @operator(-) => { .v = self.v - b.v };
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macro Complex Complex.sub_this(&self, Complex b) @operator(-=) => { .v = self.v -= b.v };
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macro Complex Complex.sub_real(self, Real r) @operator(-) => { .v = self.v - (Real[<2>]) { r, 0 } };
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macro Complex Complex.sub_real_inverse(self, Real r) @operator_r(-) => { .v = (Real[<2>]) { r, 0 } - self.v };
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macro Complex Complex.sub_each(self, Real b) => { .v = self.v - b };
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macro Complex Complex.scale(self, Real r) @operator_s(*) => { .v = self.v * r };
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macro Complex Complex.mul(self, Complex b)@operator(*) => { self.r * b.r - self.c * b.c, self.r * b.c + b.r * self.c };
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macro Complex Complex.div_real(self, Real r) @operator(/) => { .v = self.v / r };
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macro Complex Complex.div_real_inverse(Complex c, Real r) @operator_r(/) => ((Complex) { .r = self }).div(c);
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macro Complex Complex.div(self, Complex b) @operator(/)
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{
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Real div = b.v.dot(b.v);
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return { (self.r * b.r + self.c * b.c) / div, (self.c * b.r - self.r * b.c) / div };
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}
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macro Complex Complex.inverse(self)
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{
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Real sqr = self.v.dot(self.v);
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return { self.r / sqr, -self.c / sqr };
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}
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macro Complex Complex.conjugate(self) => { .r = self.r, .c = -self.c };
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macro Complex Complex.negate(self) @operator(-) => { .v = -self.v };
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macro bool Complex.equals(self, Complex b) @operator(==) => self.v == b.v;
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macro bool Complex.equals_real(self, Real r) @operator_s(==) => self.v == { r, 0 };
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macro bool Complex.not_equals(self, Complex b) @operator(!=) => self.v != b.v;
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fn usz? Complex.to_format(&self, Formatter* f) @dynamic
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{
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return f.printf("%g%+gi", self.r, self.c);
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} |