export default { query(property) { return { [property]: { $type: 'array', $type: ['int', 'long'], }, $nor: [ { [property]: { $gt: this.maxInt } }, { [property]: { $lt: 0 } }, ] } }, get before() { return [] }, get after() { return [this.maxInt+1] }, between(a, b) { // Strip zeros and find common length const aLength = this.lengthWithoutZeros(a) const bLength = this.lengthWithoutZeros(b) const minLength = Math.min(aLength, bLength) // Initialize output const out = [] // Find the break point where a[i] != b[i] let i = 0 while (i < minLength && a[i] == b[i]) { out.push(a[i]) i++ } // Initialize upper and lower bounds for // sampling the last digit let lowerBound = 1 let upperBound = this.maxInt if (i < minLength) { // If the break happened before we hit // the end of one of the arrays if (Math.abs(a[i] - b[i]) > 1) { // If a[i] and b[i] are more than one // away from each other, just sample // between them lowerBound = Math.min(a[i], b[i]) + 1 upperBound = Math.max(a[i], b[i]) - 1 } else { // If they are one away no integers // will fit in between, so add new layer const lesser = (a[i] < b[i])? a : b out.push(lesser[i]) i++ while (i < lesser.length && lesser[i] >= this.maxInt) { // If the lesser is at it's limit, // we will need to add even more layers out.push(lesser[i]) i++ } if (i < lesser.length) { // Sample something greater than // the lesser digit lowerBound = lesser[i] + 1 } } } else { // The break happened because we hit // the end of one of the arrays. if (aLength == bLength) { // If they are entirely equal, // there is nothing in between // just return what we have return out } const longerLength = Math.max(aLength, bLength) const longer = (a.length == longerLength)? a : b while (i < longerLength && longer[i] == 0) { // Skip past the zeros because we can't sample // for digits less than zero out.push(0) i++ } if (i < longerLength) { if (longer[i] == 1) { // If longer is at it's limit, // we still need to add another layer out.push(0) } else { upperBound = longer[i] - 1 } } } // Finally, sample between the upper and // lower bounds out.push(Math.floor(Math.random() * (upperBound + 1 - lowerBound)) + lowerBound) return out }, compare(a, b) { // Strip zeros and find common length const aLength = this.lengthWithoutZeros(a) const bLength = this.lengthWithoutZeros(b) const minLength = Math.min(aLength, bLength) // See if there are any differences for (let i = 0; i < minLength; i++) { if (a[i] > b[i]) { return 1 } else if (a[i] < b[i]) { return -1 } } // If they are all the same up til now, // the longer one is bigger if (aLength > bLength) { return 1 } else if (aLength < bLength) { return -1 } else { return 0 } }, lengthWithoutZeros(a) { let length = a.length while (length > 0 && a[length - 1] == 0) { length-- } return length }, maxInt: 9007199254740991, }