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cmath: Added Cot,Sec,Cosec support for complex
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@ -187,6 +187,27 @@ pub fn (c Complex) tan() Complex {
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return c.sin().divide(c.cos())
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}
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// Complex Cotangent
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// Based on
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// http://www.suitcaseofdreams.net/Trigonometric_Functions.htm
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pub fn (c Complex) cot() Complex {
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return c.cos().divide(c.sin())
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}
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// Complex Secant
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// Based on
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// http://www.suitcaseofdreams.net/Trigonometric_Functions.htm
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pub fn (c Complex) sec() Complex {
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return complex(1,0).divide(c.cos())
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}
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// Complex Cosecant
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// Based on
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// http://www.suitcaseofdreams.net/Trigonometric_Functions.htm
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pub fn (c Complex) csc() Complex {
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return complex(1,0).divide(c.sin())
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}
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// Complex Arc Sin / Sin Inverse
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// Based on
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// http://www.milefoot.com/math/complex/summaryops.htm
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@ -234,6 +255,27 @@ pub fn (c Complex) atan() Complex {
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)
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}
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// Complex Arc Cotangent / Cotangent Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse_Functions.htm
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pub fn (c Complex) acot() Complex {
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return complex(1,0).divide(c).atan()
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}
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// Complex Arc Secant / Secant Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse_Functions.htm
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pub fn (c Complex) asec() Complex {
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return complex(1,0).divide(c).acos()
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}
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// Complex Arc Cosecant / Cosecant Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse_Functions.htm
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pub fn (c Complex) acsc() Complex {
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return complex(1,0).divide(c).asin()
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}
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// Complex Hyperbolic Sin
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// Based on
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// http://www.milefoot.com/math/complex/functionsofi.htm
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@ -261,6 +303,27 @@ pub fn (c Complex) tanh() Complex {
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return c.sinh().divide(c.cosh())
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}
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// Complex Hyperbolic Cotangent
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// Based on
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// http://www.suitcaseofdreams.net/Hyperbolic_Functions.htm
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pub fn (c Complex) coth() Complex {
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return c.cosh().divide(c.sinh())
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}
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// Complex Hyperbolic Secant
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// Based on
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// http://www.suitcaseofdreams.net/Hyperbolic_Functions.htm
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pub fn (c Complex) sech() Complex {
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return complex(1,0).divide(c.cosh())
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}
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// Complex Hyperbolic Cosecant
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// Based on
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// http://www.suitcaseofdreams.net/Hyperbolic_Functions.htm
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pub fn (c Complex) csch() Complex {
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return complex(1,0).divide(c.sinh())
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}
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// Complex Hyperbolic Arc Sin / Sin Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse__Hyperbolic_Functions.htm
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@ -300,8 +363,8 @@ pub fn (c Complex) acosh() Complex {
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// Based on
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// http://www.suitcaseofdreams.net/Inverse__Hyperbolic_Functions.htm
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pub fn (c Complex) atanh() Complex {
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one := complex(1,0)
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if(c.re < 1) {
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one := complex(1,0)
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return complex(1.0/2,0).multiply(
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one
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.add(c)
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@ -313,7 +376,6 @@ pub fn (c Complex) atanh() Complex {
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)
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}
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else {
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one := complex(1,0)
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return complex(1.0/2,0).multiply(
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one
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.add(c)
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@ -327,6 +389,91 @@ pub fn (c Complex) atanh() Complex {
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}
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}
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// Complex Hyperbolic Arc Cotangent / Cotangent Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse__Hyperbolic_Functions.htm
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pub fn (c Complex) acoth() Complex {
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one := complex(1,0)
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if(c.re < 0 || c.re > 1) {
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return complex(1.0/2,0).multiply(
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c
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.add(one)
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.divide(
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c.subtract(one)
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)
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.ln()
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)
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}
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else {
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div := one.divide(c)
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return complex(1.0/2,0).multiply(
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one
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.add(div)
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.ln()
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.subtract(
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one
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.subtract(div)
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.ln()
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)
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)
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}
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}
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// Complex Hyperbolic Arc Secant / Secant Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse__Hyperbolic_Functions.htm
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// For certain scenarios, Result mismatch in crossverification with Wolfram Alpha - analysis pending
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// pub fn (c Complex) asech() Complex {
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// one := complex(1,0)
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// if(c.re < -1.0) {
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// return one.subtract(
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// one.subtract(
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// c.pow(2)
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// )
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// .root(2)
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// )
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// .divide(c)
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// .ln()
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// }
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// else {
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// return one.add(
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// one.subtract(
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// c.pow(2)
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// )
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// .root(2)
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// )
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// .divide(c)
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// .ln()
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// }
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// }
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// Complex Hyperbolic Arc Cosecant / Cosecant Inverse
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// Based on
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// http://www.suitcaseofdreams.net/Inverse__Hyperbolic_Functions.htm
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pub fn (c Complex) acsch() Complex {
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one := complex(1,0)
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if(c.re < 0) {
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return one.subtract(
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one.add(
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c.pow(2)
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)
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.root(2)
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)
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.divide(c)
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.ln()
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}
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if(c.re > 0) {
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return one.add(
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one.add(
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c.pow(2)
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)
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.root(2)
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)
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.divide(c)
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.ln()
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}
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}
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// Complex Equals
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pub fn (c1 Complex) equals(c2 Complex) bool {
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return (c1.re == c2.re) && (c1.im == c2.im)
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@ -311,6 +311,63 @@ fn test_complex_tan() {
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assert result.str().eq(c2.str())
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}
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fn test_complex_cot() {
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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(-0.000001,-0.999999)
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mut result := c1.cot()
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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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c2 = cmath.complex(0.000188,-1.000644)
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result = c1.cot()
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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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c2 = cmath.complex(-0.032798,0.984329)
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result = c1.cot()
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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_sec() {
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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(0.000517,-0.001749)
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mut result := c1.sec()
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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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c2 = cmath.complex(-0.036253,-0.005164)
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result = c1.sec()
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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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c2 = cmath.complex(0.151176,0.226974)
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result = c1.sec()
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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_csc() {
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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(-0.001749,-0.000517)
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mut result := c1.csc()
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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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c2 = cmath.complex(-0.005174,0.036276)
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result = c1.csc()
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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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c2 = cmath.complex(-0.228375,0.141363)
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result = c1.csc()
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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_asin() {
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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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@ -368,6 +425,63 @@ fn test_complex_atan() {
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assert result.str().eq(c2.str())
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}
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fn test_complex_acot() {
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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(0.068069,-0.094441)
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mut result := c1.acot()
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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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c2 = cmath.complex(-0.122489,-0.158997)
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result = c1.acot()
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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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c2 = cmath.complex(-0.231824,0.402359)
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result = c1.acot()
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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_asec() {
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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(1.503480,0.094668)
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mut result := c1.asec()
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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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c2 = cmath.complex(1.689547,0.160446)
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result = c1.asec()
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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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c2 = cmath.complex(1.757114,-0.396568)
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result = c1.asec()
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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_acsc() {
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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(0.067317,-0.094668)
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mut result := c1.acsc()
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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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c2 = cmath.complex(-0.118751,-0.160446)
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result = c1.acsc()
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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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c2 = cmath.complex(-0.186318,0.396568)
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result = c1.acsc()
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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_sinh() {
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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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@ -425,6 +539,63 @@ fn test_complex_tanh() {
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assert result.str().eq(c2.str())
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}
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fn test_complex_coth() {
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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(1.000012,-0.000090)
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mut result := c1.coth()
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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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c2 = cmath.complex(-0.999267,-0.004901)
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result = c1.coth()
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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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c2 = cmath.complex(-0.821330,-0.171384)
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result = c1.coth()
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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_sech() {
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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(0.010160,-0.008853)
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mut result := c1.sech()
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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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c2 = cmath.complex(-0.065294,-0.075225)
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result = c1.sech()
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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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c2 = cmath.complex(-0.413149,-0.687527)
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result = c1.sech()
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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_csch() {
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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(0.010159,-0.008854)
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mut result := c1.csch()
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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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c2 = cmath.complex(0.064877,0.075490)
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result = c1.csch()
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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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c2 = cmath.complex(0.221501,0.635494)
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result = c1.csch()
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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_asinh() {
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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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@ -481,3 +652,60 @@ fn test_complex_atanh() {
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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_acoth() {
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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(0.067066,-0.094740)
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mut result := c1.acoth()
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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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c2 = cmath.complex(-0.117501,-0.160875)
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result = c1.acoth()
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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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c2 = cmath.complex(-0.173287,0.392699)
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result = c1.acoth()
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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_asech() {
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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(0.094668,-1.503480)
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// mut result := c1.asech()
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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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// c2 = cmath.complex(0.160446,-1.689547)
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// result = c1.asech()
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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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// c2 = cmath.complex(0.396568,1.757114)
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// result = c1.asech()
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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_acsch() {
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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(0.067819,-0.094518)
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mut result := c1.acsch()
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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())
|
||||
c1 = cmath.complex(-3,4)
|
||||
c2 = cmath.complex(-0.121246,-0.159507)
|
||||
result = c1.acsch()
|
||||
// Some issue with precision comparison in f64 using == operator hence serializing to string
|
||||
assert result.str().eq(c2.str())
|
||||
c1 = cmath.complex(-1,-2)
|
||||
c2 = cmath.complex(-0.215612,0.401586)
|
||||
result = c1.acsch()
|
||||
// Some issue with precision comparison in f64 using == operator hence serializing to string
|
||||
assert result.str().eq(c2.str())
|
||||
}
|
Loading…
Reference in New Issue
Block a user