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180 lines
4.2 KiB
V
180 lines
4.2 KiB
V
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module math
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import math.internal
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const (
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sin_data = [
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-0.3295190160663511504173,
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0.0025374284671667991990,
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0.0006261928782647355874,
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-4.6495547521854042157541e-06,
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-5.6917531549379706526677e-07,
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3.7283335140973803627866e-09,
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3.0267376484747473727186e-10,
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-1.7400875016436622322022e-12,
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-1.0554678305790849834462e-13,
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5.3701981409132410797062e-16,
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2.5984137983099020336115e-17,
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-1.1821555255364833468288e-19,
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]
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sin_cs = ChebSeries{
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c: sin_data
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order: 11
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a: -1
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b: 1
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}
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cos_data = [
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0.165391825637921473505668118136,
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-0.00084852883845000173671196530195,
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-0.000210086507222940730213625768083,
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1.16582269619760204299639757584e-6,
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1.43319375856259870334412701165e-7,
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-7.4770883429007141617951330184e-10,
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-6.0969994944584252706997438007e-11,
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2.90748249201909353949854872638e-13,
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1.77126739876261435667156490461e-14,
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-7.6896421502815579078577263149e-17,
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-3.7363121133079412079201377318e-18,
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]
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cos_cs = ChebSeries{
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c: cos_data
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order: 10
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a: -1
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b: 1
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}
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)
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pub fn sin(x f64) f64 {
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p1 := 7.85398125648498535156e-1
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p2 := 3.77489470793079817668e-8
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p3 := 2.69515142907905952645e-15
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sgn_x := if x < 0 { -1 } else { 1 }
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abs_x := abs(x)
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if abs_x < internal.root4_f64_epsilon {
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x2 := x * x
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return x * (1.0 - x2 / 6.0)
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} else {
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mut sgn_result := sgn_x
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mut y := floor(abs_x / (0.25 * pi))
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mut octant := int(y - ldexp(floor(ldexp(y, -3)), 3))
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if (octant & 1) == 1 {
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octant++
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octant &= 7
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y += 1.0
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}
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if octant > 3 {
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octant -= 4
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sgn_result = -sgn_result
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}
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z := ((abs_x - y * p1) - y * p2) - y * p3
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mut result := 0.0
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if octant == 0 {
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t := 8.0 * abs(z) / pi - 1.0
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sin_cs_val, _ := math.sin_cs.eval_e(t)
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result = z * (1.0 + z * z * sin_cs_val)
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} else {
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t := 8.0 * abs(z) / pi - 1.0
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cos_cs_val, _ := math.cos_cs.eval_e(t)
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result = 1.0 - 0.5 * z * z * (1.0 - z * z * cos_cs_val)
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}
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result *= sgn_result
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return result
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}
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}
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pub fn cos(x f64) f64 {
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p1 := 7.85398125648498535156e-1
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p2 := 3.77489470793079817668e-8
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p3 := 2.69515142907905952645e-15
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abs_x := abs(x)
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if abs_x < internal.root4_f64_epsilon {
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x2 := x * x
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return 1.0 - 0.5 * x2
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} else {
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mut sgn_result := 1
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mut y := floor(abs_x / (0.25 * pi))
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mut octant := int(y - ldexp(floor(ldexp(y, -3)), 3))
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if (octant & 1) == 1 {
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octant++
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octant &= 7
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y += 1.0
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}
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if octant > 3 {
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octant -= 4
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sgn_result = -sgn_result
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}
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if octant > 1 {
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sgn_result = -sgn_result
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}
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z := ((abs_x - y * p1) - y * p2) - y * p3
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mut result := 0.0
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if octant == 0 {
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t := 8.0 * abs(z) / pi - 1.0
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cos_cs_val, _ := math.cos_cs.eval_e(t)
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result = 1.0 - 0.5 * z * z * (1.0 - z * z * cos_cs_val)
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} else {
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t := 8.0 * abs(z) / pi - 1.0
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sin_cs_val, _ := math.sin_cs.eval_e(t)
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result = z * (1.0 + z * z * sin_cs_val)
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}
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result *= sgn_result
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return result
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}
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}
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// cosf calculates cosine. (float32).
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[inline]
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pub fn cosf(a f32) f32 {
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return f32(cos(a))
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}
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// sinf calculates sine. (float32)
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[inline]
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pub fn sinf(a f32) f32 {
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return f32(sin(a))
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}
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pub fn sincos(x f64) (f64, f64) {
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p1 := 7.85398125648498535156e-1
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p2 := 3.77489470793079817668e-8
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p3 := 2.69515142907905952645e-15
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sgn_x := if x < 0 { -1 } else { 1 }
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abs_x := abs(x)
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if abs_x < internal.root4_f64_epsilon {
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x2 := x * x
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return x * (1.0 - x2 / 6.0), 1.0 - 0.5 * x2
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} else {
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mut sgn_result_sin := sgn_x
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mut sgn_result_cos := 1
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mut y := floor(abs_x / (0.25 * pi))
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mut octant := int(y - ldexp(floor(ldexp(y, -3)), 3))
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if (octant & 1) == 1 {
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octant++
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octant &= 7
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y += 1.0
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}
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if octant > 3 {
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octant -= 4
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sgn_result_sin = -sgn_result_sin
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sgn_result_cos = -sgn_result_cos
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}
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sgn_result_cos = if octant > 1 { -sgn_result_cos } else { sgn_result_cos }
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z := ((abs_x - y * p1) - y * p2) - y * p3
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t := 8.0 * abs(z) / pi - 1.0
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sin_cs_val, _ := math.sin_cs.eval_e(t)
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cos_cs_val, _ := math.cos_cs.eval_e(t)
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mut result_sin := 0.0
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mut result_cos := 0.0
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if octant == 0 {
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result_sin = z * (1.0 + z * z * sin_cs_val)
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result_cos = 1.0 - 0.5 * z * z * (1.0 - z * z * cos_cs_val)
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} else {
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result_sin = 1.0 - 0.5 * z * z * (1.0 - z * z * cos_cs_val)
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result_cos = z * (1.0 + z * z * sin_cs_val)
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}
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result_sin *= sgn_result_sin
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result_cos *= sgn_result_cos
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return result_sin, result_cos
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}
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}
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