third_party/golibs/vendor/gonum.org/v1/gonum/dsp/fourier/internal/fftpack/array_no_bounds_checks.go - fuchsia - Git at Google

 // Copyright ©2018 The Gonum Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // This file must be kept in sync with array_bound_checks.go.

 // +build !bounds

 package fftpack

 // The types in array.go implement Fortran-like arrays for bootstrapping
 // the implementation of the FFT functions translated from FFTPACK; they
 // are column-major.

 type twoArray struct {
 	jStride int
 	data    []float64
 }

 func newTwoArray(i, j int, data []float64) twoArray {
 	if len(data) < i*j {
 		panic("fourier: short data")
 	}
 	return twoArray{
 		jStride: i,
 		data:    data[:i*j],
 	}
 }

 func (a twoArray) at(i, j int) float64 {
 	return a.data[i+a.jStride*j]
 }

 func (a twoArray) atCmplx(i, j int) complex128 {
 	return complex(a.data[i+a.jStride*j], a.data[i+a.jStride*j+1])
 }

 func (a twoArray) set(i, j int, v float64) {
 	a.data[i+a.jStride*j] = v
 }

 func (a twoArray) setCmplx(i, j int, v complex128) {
 	a.data[i+a.jStride*j] = real(v)
 	a.data[i+a.jStride*j+1] = imag(v)
 }

 func (a twoArray) add(i, j int, v float64) {
 	a.data[i+a.jStride*j] += v
 }

 type threeArray struct {
 	jStride, kStride int
 	data             []float64
 }

 func newThreeArray(i, j, k int, data []float64) threeArray {
 	if len(data) < i*j*k {
 		panic("fourier: short data")
 	}
 	return threeArray{
 		jStride: i,
 		kStride: i * j,
 		data:    data[:i*j*k],
 	}
 }

 func (a threeArray) at(i, j, k int) float64 {
 	return a.data[i+a.jStride*j+a.kStride*k]
 }

 func (a threeArray) atCmplx(i, j, k int) complex128 {
 	return complex(a.data[i+a.jStride*j+a.kStride*k], a.data[i+a.jStride*j+a.kStride*k+1])
 }

 func (a threeArray) set(i, j, k int, v float64) {
 	a.data[i+a.jStride*j+a.kStride*k] = v
 }

 func (a threeArray) setCmplx(i, j, k int, v complex128) {
 	a.data[i+a.jStride*j+a.kStride*k] = real(v)
 	a.data[i+a.jStride*j+a.kStride*k+1] = imag(v)
 }
	// Copyright ©2018 The Gonum Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// This file must be kept in sync with array_bound_checks.go.

	// +build !bounds

	package fftpack

	// The types in array.go implement Fortran-like arrays for bootstrapping
	// the implementation of the FFT functions translated from FFTPACK; they
	// are column-major.

	type twoArray struct {
	jStride int
	data []float64
	}

	func newTwoArray(i, j int, data []float64) twoArray {
	if len(data) < i*j {
	panic("fourier: short data")
	}
	return twoArray{
	jStride: i,
	data: data[:i*j],
	}
	}

	func (a twoArray) at(i, j int) float64 {
	return a.data[i+a.jStride*j]
	}

	func (a twoArray) atCmplx(i, j int) complex128 {
	return complex(a.data[i+a.jStridej], a.data[i+a.jStridej+1])
	}

	func (a twoArray) set(i, j int, v float64) {
	a.data[i+a.jStride*j] = v
	}

	func (a twoArray) setCmplx(i, j int, v complex128) {
	a.data[i+a.jStride*j] = real(v)
	a.data[i+a.jStride*j+1] = imag(v)
	}

	func (a twoArray) add(i, j int, v float64) {
	a.data[i+a.jStride*j] += v
	}

	type threeArray struct {
	jStride, kStride int
	data []float64
	}

	func newThreeArray(i, j, k int, data []float64) threeArray {
	if len(data) < ijk {
	panic("fourier: short data")
	}
	return threeArray{
	jStride: i,
	kStride: i * j,
	data: data[:ijk],
	}
	}

	func (a threeArray) at(i, j, k int) float64 {
	return a.data[i+a.jStridej+a.kStridek]
	}

	func (a threeArray) atCmplx(i, j, k int) complex128 {
	return complex(a.data[i+a.jStridej+a.kStridek], a.data[i+a.jStridej+a.kStridek+1])
	}

	func (a threeArray) set(i, j, k int, v float64) {
	a.data[i+a.jStridej+a.kStridek] = v
	}

	func (a threeArray) setCmplx(i, j, k int, v complex128) {
	a.data[i+a.jStridej+a.kStridek] = real(v)
	a.data[i+a.jStridej+a.kStridek+1] = imag(v)
	}