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cmath: added arg, log and complex pow operations
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@ -160,6 +160,34 @@ pub fn (c Complex) ln() Complex {
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}
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}
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}
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}
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// Complex Log Base Complex
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// Based on
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// http://www.milefoot.com/math/complex/summaryops.htm
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pub fn (c Complex) log(base Complex) Complex {
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return base.ln().divide(c.ln())
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}
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// Complex Argument
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// Based on
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// http://mathworld.wolfram.com/ComplexArgument.html
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pub fn (c Complex) arg() f64 {
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return math.atan2(c.im,c.re)
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}
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// Complex raised to Complex Power
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// Based on
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// http://mathworld.wolfram.com/ComplexExponentiation.html
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pub fn (c Complex) cpow(p Complex) Complex {
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a := c.arg()
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b := math.pow(c.re,2) + math.pow(c.im,2)
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d := p.re * a + (1.0/2) * p.im * math.log(b)
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t1 := math.pow(b,p.re/2) * math.exp(-p.im*a)
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return Complex{
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t1 * math.cos(d),
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t1 * math.sin(d)
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}
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}
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// Complex Sin
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// Complex Sin
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// Based on
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// Based on
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// http://www.milefoot.com/math/complex/functionsofi.htm
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// http://www.milefoot.com/math/complex/functionsofi.htm
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@ -254,6 +254,69 @@ fn test_complex_ln() {
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assert result.str().eq(c2.str())
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assert result.str().eq(c2.str())
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}
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}
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fn test_complex_arg() {
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// Tests were also verified on Wolfram Alpha
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mut c1 := cmath.complex(5,7)
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mut c2 := cmath.complex(2.152033,0.950547)
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mut result := c1.arg()
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq('0.950547')
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c1 = cmath.complex(-3,4)
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c2 = cmath.complex(1.609438,2.214297)
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result = c1.arg()
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq('2.214297')
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c1 = cmath.complex(-1,-2)
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c2 = cmath.complex(0.804719,-2.034444)
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result = c1.arg()
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq('-2.034444')
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}
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fn test_complex_log() {
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// Tests were also verified on Wolfram Alpha
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mut c1 := cmath.complex(5,7)
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mut b1 := cmath.complex(-6,-2)
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mut c2 := cmath.complex(0.232873,-1.413175)
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mut result := c1.log(b1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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c1 = cmath.complex(-3,4)
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b1 = cmath.complex(3,-1)
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c2 = cmath.complex(0.152198,-0.409312)
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result = c1.log(b1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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c1 = cmath.complex(-1,-2)
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b1 = cmath.complex(0,9)
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c2 = cmath.complex(-0.298243,1.197981)
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result = c1.log(b1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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}
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fn test_complex_cpow() {
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// Tests were also verified on Wolfram Alpha
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mut c1 := cmath.complex(5,7)
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mut r1 := cmath.complex(2,2)
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mut c2 := cmath.complex(11.022341,-0.861785)
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mut result := c1.cpow(r1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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c1 = cmath.complex(-3,4)
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r1 = cmath.complex(-4,-2)
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c2 = cmath.complex(0.118303,0.063148)
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result = c1.cpow(r1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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c1 = cmath.complex(-1,-2)
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r1 = cmath.complex(8,-9)
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c2 = cmath.complex(-0.000000,0.000007)
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result = c1.cpow(r1)
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// Some issue with precision comparison in f64 using == operator hence serializing to string
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assert result.str().eq(c2.str())
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}
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fn test_complex_sin() {
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fn test_complex_sin() {
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// Tests were also verified on Wolfram Alpha
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// Tests were also verified on Wolfram Alpha
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mut c1 := cmath.complex(5,7)
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mut c1 := cmath.complex(5,7)
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