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Partially implemented solver for 2-coloring contract
Implemented the case for the 2-coloring solver to validate that entered colorings are proper. Still needs a case for when no solution exists. Also, changed the data from type [number, number][] to [number, [number, number][]], so that the number of vertices in the graph can be the first parameter.
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@ -1310,10 +1310,10 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
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name: "Proper 2-Coloring of a Graph",
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difficulty: 6,
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numTries: 5,
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desc: (data: [number, number][]): string => {
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return `test description, submit "${JSON.stringify(data)}"`;
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desc: (data: [number, [number, number][]]): string => {
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return `test description: "${JSON.stringify(data)}"`;
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},
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gen: (): [number, number][] => {
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gen: (): [number, [number, number][]] => {
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//Generate two partite sets
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const n = Math.floor(Math.random() * 5) + 3;
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const m = Math.floor(Math.random() * 5) + 3;
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@ -1331,7 +1331,7 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
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//Add an edge at random with no regard to partite sets
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let a = Math.floor(Math.random() * (n + m));
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let b = Math.floor(Math.random() * (n + m));
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if (a > b) [a, b] = [b, a]; //Enforce a <= b
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if (a > b) [a, b] = [b, a]; //Enforce lower numbers come first
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if (a != b && !edges.includes([a, b])) {
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edges.push([a, b]);
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}
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@ -1346,15 +1346,44 @@ export const codingContractTypesMetadata: ICodingContractTypeMetadata[] = [
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//Replace instances of the original vertex names in-place
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for (let i = 0; i < edges.length; i++) {
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edges[i] = [shuffler[edges[i][0]], shuffler[edges[i][1]]];
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if (edges[i][0] > edges[i][1]) {
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//Enforce lower numbers come first
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[edges[i][0], edges[i][1]] = [edges[i][1], edges[i][0]];
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}
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}
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return edges;
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return [n + m, edges];
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},
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solver: (data: [number, number][], ans: string): boolean => {
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//TODO: Return false for invalid inputs.
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//TODO: Check the no solution case.
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//TODO: Check if the given 2-coloring is proper.
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return JSON.stringify(data) == ans;
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solver: (data: [number, [number, number][]], ans: string): boolean => {
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//No solution case
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if (ans == "[]") {
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//TODO: Check if there is no solution
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return true;
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}
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//Sanitize player input
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const sanitizedPlayerAns: string = removeBracketsFromArrayString(ans);
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const sanitizedPlayerAnsArr: string[] = sanitizedPlayerAns.split(",");
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const coloring: number[] = sanitizedPlayerAnsArr.map((val) => parseInt(val));
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//Solution provided case
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if (coloring.length == data[0]) {
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const edges = data[1];
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const validColors = [0, 1];
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//Check that the provided solution is a proper 2-coloring
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return edges.every(([a, b]) => {
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const aColor = coloring[a];
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const bColor = coloring[b];
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return (
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validColors.includes(aColor) && //Enforce the first endpoint is color 0 or 1
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validColors.includes(bColor) && //Enforce the second endpoint is color 0 or 1
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aColor != bColor //Enforce the endpoints are different colors
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);
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});
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}
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//Return false if the coloring is the wrong size
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else return false;
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},
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},
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];
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