simple-squiggle/node_modules/mathjs/lib/cjs/function/algebra/sparse/csLeaf.js

"use strict";

Object.defineProperty(exports, "__esModule", {
  value: true
});
exports.csLeaf = csLeaf;

/**
 * This function determines if j is a leaf of the ith row subtree.
 * Consider A(i,j), node j in ith row subtree and return lca(jprev,j)
 *
 * @param {Number}  i               The ith row subtree
 * @param {Number}  j               The node to test
 * @param {Array}   w               The workspace array
 * @param {Number}  first           The index offset within the workspace for the first array
 * @param {Number}  maxfirst        The index offset within the workspace for the maxfirst array
 * @param {Number}  prevleaf        The index offset within the workspace for the prevleaf array
 * @param {Number}  ancestor        The index offset within the workspace for the ancestor array
 *
 * @return {Object}
 *
 * Reference: http://faculty.cse.tamu.edu/davis/publications.html
 */
function csLeaf(i, j, w, first, maxfirst, prevleaf, ancestor) {
  var s, sparent; // our result

  var jleaf = 0;
  var q; // check j is a leaf

  if (i <= j || w[first + j] <= w[maxfirst + i]) {
    return -1;
  } // update max first[j] seen so far


  w[maxfirst + i] = w[first + j]; // jprev = previous leaf of ith subtree

  var jprev = w[prevleaf + i];
  w[prevleaf + i] = j; // check j is first or subsequent leaf

  if (jprev === -1) {
    // 1st leaf, q = root of ith subtree
    jleaf = 1;
    q = i;
  } else {
    // update jleaf
    jleaf = 2; // q = least common ancester (jprev,j)

    for (q = jprev; q !== w[ancestor + q]; q = w[ancestor + q]) {
      ;
    }

    for (s = jprev; s !== q; s = sparent) {
      // path compression
      sparent = w[ancestor + s];
      w[ancestor + s] = q;
    }
  }

  return {
    jleaf: jleaf,
    q: q
  };
}