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Merge pull request #15 from Kanaries/feat_subspace_new_alg
Feat: subspace new algorithm
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Original file line number | Diff line number | Diff line change |
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@@ -1,45 +1,109 @@ | ||
import { DataSource } from "../commonTypes"; | ||
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export function chiSquared(matrix: number[][] = [[]]): number { | ||
let rowSums = matrix.map(m => 0); | ||
let colSums = matrix[0].map(m => 0); | ||
type nestTree = Map<string, Map<string, number>>; | ||
export function chiSquared(nestTree: nestTree, xSet: Set<string>, ySet: Set<string>): number { | ||
if (typeof nestTree === 'undefined' || typeof xSet === 'undefined' || typeof ySet === 'undefined') { | ||
return 0; | ||
} | ||
let rowSums = new Map<string, number>(); | ||
let colSums = new Map<string, number>(); | ||
let totalSum = 0; | ||
for (let i = 0; i < matrix.length; i++) { | ||
for (let j = 0; j < matrix[i].length; j++) { | ||
rowSums[i] += matrix[i][j]; | ||
colSums[j] += matrix[i][j]; | ||
totalSum += matrix[i][j]; | ||
for (let x of xSet) { | ||
rowSums.set(x, 0); | ||
} | ||
for (let y of ySet) { | ||
colSums.set(y, 0); | ||
} | ||
for (let [x, node] of nestTree) { | ||
for (let [y, counter] of node) { | ||
rowSums.set(x, rowSums.get(x) + counter); | ||
colSums.set(y, colSums.get(y) + counter); | ||
totalSum += counter; | ||
} | ||
} | ||
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let chis = 0; | ||
for (let i = 0; i < matrix.length; i++) { | ||
for (let j = 0; j < matrix[i].length; j++) { | ||
let observed = matrix[i][j]; | ||
let expected = rowSums[i] * colSums[j] / totalSum; | ||
for (let [x, node] of nestTree) { | ||
for (let [y, observed] of node) { | ||
let expected = rowSums.get(x) * colSums.get(y) / totalSum; | ||
chis += (observed - expected) ** 2 / expected; | ||
} | ||
} | ||
return chis; | ||
} | ||
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export function crammersV(dataSource: DataSource, fieldX: string, fieldY: string) { | ||
const xSet = new Set(dataSource.map(d => d[fieldX])) | ||
const ySet = new Set(dataSource.map(d => d[fieldY])) | ||
const xMembers = [...xSet]; | ||
const yMembers = [...ySet]; | ||
let xDict = {}; | ||
let yDict = {}; | ||
for (let i = 0; i < xMembers.length; i++) { | ||
xDict[xMembers[i]] = i; | ||
} | ||
for (let i = 0; i < yMembers.length; i++) { | ||
yDict[yMembers[i]] = i; | ||
} | ||
let matrix: number[][] = xMembers.map(x => yMembers.map(y => 0)); | ||
for (let record of dataSource) { | ||
matrix[xDict[record[fieldX]]][yDict[record[fieldY]]]++; | ||
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export function crammersV(dataSource: DataSource, fieldX: string, fieldY: string): number { | ||
const xSet = new Set<string>() | ||
const ySet = new Set<string>() | ||
const nestTree = new Map<string, Map<string, number>>(); | ||
let len = dataSource.length; | ||
for (let i = 0; i < len; i++) { | ||
let record = dataSource[i]; | ||
xSet.add(record[fieldX]) | ||
ySet.add(record[fieldY]); | ||
if (!nestTree.has(record[fieldX])) { | ||
nestTree.set(record[fieldX], new Map()); | ||
} | ||
let node = nestTree.get(record[fieldX]); | ||
if (!node.has(record[fieldY])) { | ||
node.set(record[fieldY], 0); | ||
} | ||
node.set(record[fieldY], node.get(record[fieldY]) + 1); | ||
} | ||
const chis = chiSquared(matrix); | ||
const V = Math.sqrt(chis / (dataSource.length * Math.min(xMembers.length - 1, yMembers.length - 1))) | ||
const chis = chiSquared(nestTree, xSet, ySet); | ||
const V = Math.sqrt(chis / (dataSource.length * Math.min(xSet.size - 1, ySet.size - 1))) | ||
return V; | ||
} | ||
} | ||
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// can be used for test | ||
// export function crammersV(dataSource: DataSource, fieldX: string, fieldY: string): number { | ||
// const xSet = new Set(dataSource.map(d => d[fieldX])) | ||
// const ySet = new Set(dataSource.map(d => d[fieldY])) | ||
// const xMembers = [...xSet]; | ||
// const yMembers = [...ySet]; | ||
// let xDict = {}; | ||
// let yDict = {}; | ||
// for (let i = 0; i < xMembers.length; i++) { | ||
// xDict[xMembers[i]] = i; | ||
// } | ||
// for (let i = 0; i < yMembers.length; i++) { | ||
// yDict[yMembers[i]] = i; | ||
// } | ||
// // let matrix: number[][] = xMembers.map(x => yMembers.map(y => 0)); | ||
// let matrix: number[][] = []; | ||
// for (let i = 0; i < xMembers.length; i++) { | ||
// matrix.push([]); | ||
// for (let j = 0; j < yMembers.length; j++) { | ||
// matrix[i].push(0); | ||
// } | ||
// } | ||
// for (let record of dataSource) { | ||
// matrix[xDict[record[fieldX]]][yDict[record[fieldY]]]++; | ||
// } | ||
// const chis = chiSquared(matrix); | ||
// const V = Math.sqrt(chis / (dataSource.length * Math.min(xMembers.length - 1, yMembers.length - 1))) | ||
// return V; | ||
// } | ||
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// export function chiSquared(matrix: number[][] = [[]]): number { | ||
// let rowSums = matrix.map(m => 0); | ||
// let colSums = matrix[0].map(m => 0); | ||
// let totalSum = 0; | ||
// for (let i = 0; i < matrix.length; i++) { | ||
// for (let j = 0; j < matrix[i].length; j++) { | ||
// rowSums[i] += matrix[i][j]; | ||
// colSums[j] += matrix[i][j]; | ||
// totalSum += matrix[i][j]; | ||
// } | ||
// } | ||
// let chis = 0; | ||
// for (let i = 0; i < matrix.length; i++) { | ||
// for (let j = 0; j < matrix[i].length; j++) { | ||
// let observed = matrix[i][j]; | ||
// let expected = rowSums[i] * colSums[j] / totalSum; | ||
// chis += (observed - expected) ** 2 / expected; | ||
// } | ||
// } | ||
// return chis; | ||
// } |
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