X-Git-Url: http://git.scottworley.com/inverse-tax/blobdiff_plain/0993d859b81ccc99c56b5ded5ed85067dfe8196f..82b7a49862ffba0bcd9e6b5500b4ed2e901444e8:/tax.js diff --git a/tax.js b/tax.js index 2b5bd4a..7f32f74 100644 --- a/tax.js +++ b/tax.js @@ -7,11 +7,15 @@ function parse_table(as_text) { return as_text.trim().split('\n').map(parse_line); } -function parse_tax_table(as_text) { - return parse_table(as_text).map(([start, rate], i, table) => +function tax_table_from_table(table) { + return table.map(([start, rate], i, table) => [start, i < table.length - 1 ? table[i+1][0] : Infinity, rate / 100.0]); } +function parse_tax_table(as_text) { + return tax_table_from_table(parse_table(as_text)); +} + function sum(nums) { return nums.reduce((total, num) => total + num, 0); } @@ -28,8 +32,8 @@ function apply_deductible(table, deductible) { function merge_tax_tables(t1, t2) { if (t1.length == 0) return t2; if (t2.length == 0) return t1; - [start1, end1, rate1] = t1[0]; - [start2, end2, rate2] = t2[0]; + const [start1, end1, rate1] = t1[0]; + const [start2, end2, rate2] = t2[0]; if (start1 == start2) { if (end1 == end2) { return [[start1, end1, rate1 + rate2]].concat(merge_tax_tables(t1.slice(1), t2.slice(1))); @@ -47,3 +51,44 @@ function merge_tax_tables(t1, t2) { } return merge_tax_tables(t2, t1); } + +function invert(table) { + if (table.length == 0) return x => x; + + // Here we solve + // net = m * gross + b + // for gross: + // net - b = m * gross + // (net - b) / m = gross + // and the calculate the inverse's bounds + + const ms = table.map(([start, end, rate]) => 1 - rate); + const full_brackets = [[0]].concat(table.map(([start, end, rate]) => (end - start) * rate)).slice(0, table.length); + function sum_lower_brackets(remaining_brackets, acc = 0) { + if (remaining_brackets.length == 0) return []; + return [acc + remaining_brackets[0]].concat(sum_lower_brackets(remaining_brackets.slice(1), acc + remaining_brackets[0])); + } + const bs = sum_lower_brackets(full_brackets).map((lower_brackets, i) => { + const [start, end, rate] = table[i]; + // Finding b: + // net = gross - lower_brackets - rate * (gross - start) + // net = gross - lower_brackets - rate * gross + rate * start + // net = gross - rate * gross - lower_brackets + rate * start + // net = (1 - rate) * gross - lower_brackets + rate * start + // net = m * gross - lower_brackets + rate * start + // \_____________________________/ - here is b + return rate * start - lower_brackets; + }); + const inverse_table = table.map(([start, end, rate], i) => { + const m = ms[i]; + const b = bs[i]; + return [(start - b) / m, (end - b) / m, m, b]; + }); + return function(net) { + for (const [start, end, m, b] of inverse_table) { + if (start < net && net < end) { + return (net - b) / m; + } + } + }; +}