Revision 4816f2a300d7bbae1084b1940959ea35973104e1 authored by Mingzhi Lin on 23 August 2017, 14:12:59 UTC, committed by Mingzhi Lin on 23 August 2017, 14:12:59 UTC
1 parent 4453664
nucl_cov.go
package mcorr
import (
"bytes"
"fmt"
)
// NuclCov contains covariance of nucleotide acid in a DNA sequence.
type NuclCov struct {
Doublets []int
Alphabet []byte
}
// NewNuclCov return a NuclCov given the alphabet.
func NewNuclCov(alphabet []byte) *NuclCov {
sizeOfAlphabet := len(alphabet)
nc := NuclCov{Alphabet: alphabet}
nc.Doublets = make([]int, sizeOfAlphabet*sizeOfAlphabet)
return &nc
}
// Add insert a pair of nucliotide acids.
// It returns error when the nucliotide acid is not in the alphabet.
func (nc *NuclCov) Add(a, b byte) error {
indexA := bytes.IndexByte(nc.Alphabet, a)
indexB := bytes.IndexByte(nc.Alphabet, b)
sizeOfAlphabet := len(nc.Alphabet)
if indexA >= 0 && indexB >= 0 {
nc.Doublets[indexA*sizeOfAlphabet+indexB]++
return nil
}
var err error
if indexA < 0 && indexB < 0 {
err = fmt.Errorf("%c and %c are not in Alphabet: %s", a, b, string(nc.Alphabet))
} else if indexA < 0 {
err = fmt.Errorf("%c is not in Alphabet: %s", a, string(nc.Alphabet))
} else {
err = fmt.Errorf("%c is not in Alphabet: %s", b, string(nc.Alphabet))
}
return err
}
// Count returns the total number of pairs.
func (nc *NuclCov) Count() int {
n := 0
for _, a := range nc.Doublets {
n += a
}
return n
}
// XBar return the count of 1 at the first position
func (nc *NuclCov) XBar() (x float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc.Doublets[j])
if i/sizeOfAlphabet != j/sizeOfAlphabet {
x += c
}
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
}
}
return
}
// YBar return the count of 1 at the first position
func (nc *NuclCov) YBar() (x float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc.Doublets[j])
if i%sizeOfAlphabet != j%sizeOfAlphabet {
x += c
}
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
}
}
return
}
// P00 returns the covariance.
func (nc *NuclCov) P00() (xy float64, n int) {
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
xy += float64(nc.Doublets[i] * (nc.Doublets[i] - 1) / 2)
}
}
return
}
// P01 returns the covariance.
func (nc *NuclCov) P01() (xy float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc.Doublets[j])
if i%sizeOfAlphabet != j%sizeOfAlphabet {
xy += c
}
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
}
}
return
}
// P10 returns the covariance.
func (nc *NuclCov) P10() (xy float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc.Doublets[j])
if i/sizeOfAlphabet != j/sizeOfAlphabet {
xy += c
}
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
}
}
return
}
// P11 returns the covariance.
func (nc *NuclCov) P11() (xy float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := i + 1; j < len(nc.Doublets); j++ {
if nc.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc.Doublets[j])
if i%sizeOfAlphabet != j%sizeOfAlphabet && i/sizeOfAlphabet != j/sizeOfAlphabet {
xy += c
}
n += nc.Doublets[i] * nc.Doublets[j]
}
}
n += nc.Doublets[i] * (nc.Doublets[i] - 1) / 2
}
}
return
}
// MateP11 calculate covariance between two clusters.
func (nc *NuclCov) MateP11(nc2 *NuclCov) (xy float64, n int) {
sizeOfAlphabet := len(nc.Alphabet)
for i := 0; i < len(nc.Doublets); i++ {
if nc.Doublets[i] > 0 {
for j := 0; j < len(nc2.Doublets); j++ {
if i != j && nc2.Doublets[j] > 0 {
c := float64(nc.Doublets[i] * nc2.Doublets[j])
if i%sizeOfAlphabet != j%sizeOfAlphabet && i/sizeOfAlphabet != j/sizeOfAlphabet {
xy += c
}
}
}
}
}
n1 := 0
n2 := 0
for i := 0; i < len(nc.Doublets); i++ {
n1 += nc.Doublets[i]
n2 += nc2.Doublets[i]
}
n = n1 * n2
return
}
// MateP00 calculate covariance between two clusters.
func (nc *NuclCov) MateP00(nc2 *NuclCov) (xy float64, n int) {
n1, n2 := 0, 0
for i := 0; i < len(nc.Doublets); i++ {
xy += float64(nc.Doublets[i] * nc2.Doublets[i])
n1 += nc.Doublets[i]
n2 += nc2.Doublets[i]
}
n = n1 * n2
return
}
// Append another NuclCov.
func (nc *NuclCov) Append(nc2 *NuclCov) error {
// Check alphabet
diffAlphabetError := fmt.Errorf("Different alphbet %s, %s", string(nc.Alphabet), string(nc2.Alphabet))
if len(nc.Alphabet) != len(nc2.Alphabet) {
return diffAlphabetError
}
for i, a := range nc.Alphabet {
b := nc2.Alphabet[i]
if a != b {
return diffAlphabetError
}
}
for i := 0; i < len(nc.Doublets); i++ {
nc.Doublets[i] += nc2.Doublets[i]
}
return nil
}
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