src/pkg/math/atan.go - go - Git at Google

 // Copyright 2009 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package math

 /*
 	Floating-point arctangent.

 	Atan returns the value of the arctangent of its
 	argument in the range [-pi/2,pi/2].
 	There are no error returns.
 	Coefficients are #5077 from Hart & Cheney. (19.56D)
 */

 // xatan evaluates a series valid in the
 // range [-0.414...,+0.414...]. (tan(pi/8))
 func xatan(arg float64) float64 {
 	const (
 		P4 = .161536412982230228262e2
 		P3 = .26842548195503973794141e3
 		P2 = .11530293515404850115428136e4
 		P1 = .178040631643319697105464587e4
 		P0 = .89678597403663861959987488e3
 		Q4 = .5895697050844462222791e2
 		Q3 = .536265374031215315104235e3
 		Q2 = .16667838148816337184521798e4
 		Q1 = .207933497444540981287275926e4
 		Q0 = .89678597403663861962481162e3
 	)
 	sq := arg * arg
 	value := ((((P4*sq+P3)*sq+P2)*sq+P1)*sq + P0)
 	value = value / (((((sq+Q4)*sq+Q3)*sq+Q2)*sq+Q1)*sq + Q0)
 	return value * arg
 }

 // satan reduces its argument (known to be positive)
 // to the range [0,0.414...] and calls xatan.
 func satan(arg float64) float64 {
 	if arg < Sqrt2-1 {
 		return xatan(arg)
 	}
 	if arg > Sqrt2+1 {
 		return Pi/2 - xatan(1/arg)
 	}
 	return Pi/4 + xatan((arg-1)/(arg+1))
 }

 // Atan returns the arctangent of x.
 //
 // Special cases are:
 //	Atan(±0) = ±0
 //	Atan(±Inf) = ±Pi/2
 func Atan(x float64) float64

 func atan(x float64) float64 {
 	if x == 0 {
 		return x
 	}
 	if x > 0 {
 		return satan(x)
 	}
 	return -satan(-x)
 }
	// Copyright 2009 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package math

	/*
	Floating-point arctangent.

	Atan returns the value of the arctangent of its
	argument in the range [-pi/2,pi/2].
	There are no error returns.
	Coefficients are #5077 from Hart & Cheney. (19.56D)
	*/

	// xatan evaluates a series valid in the
	// range [-0.414...,+0.414...]. (tan(pi/8))
	func xatan(arg float64) float64 {
	const (
	P4 = .161536412982230228262e2
	P3 = .26842548195503973794141e3
	P2 = .11530293515404850115428136e4
	P1 = .178040631643319697105464587e4
	P0 = .89678597403663861959987488e3
	Q4 = .5895697050844462222791e2
	Q3 = .536265374031215315104235e3
	Q2 = .16667838148816337184521798e4
	Q1 = .207933497444540981287275926e4
	Q0 = .89678597403663861962481162e3
	)
	sq := arg * arg
	value := ((((P4sq+P3)sq+P2)sq+P1)sq + P0)
	value = value / (((((sq+Q4)sq+Q3)sq+Q2)sq+Q1)sq + Q0)
	return value * arg
	}

	// satan reduces its argument (known to be positive)
	// to the range [0,0.414...] and calls xatan.
	func satan(arg float64) float64 {
	if arg < Sqrt2-1 {
	return xatan(arg)
	}
	if arg > Sqrt2+1 {
	return Pi/2 - xatan(1/arg)
	}
	return Pi/4 + xatan((arg-1)/(arg+1))
	}

	// Atan returns the arctangent of x.
	//
	// Special cases are:
	// Atan(±0) = ±0
	// Atan(±Inf) = ±Pi/2
	func Atan(x float64) float64

	func atan(x float64) float64 {
	if x == 0 {
	return x
	}
	if x > 0 {
	return satan(x)
	}
	return -satan(-x)
	}