"use strict";
const Break = {};
// FIXME: Figure out a way to document non-function entities too.
class Position {
constructor(column, row, sheet) {
this.column = column;
this.row = row;
this.sheet = sheet ?? thisSheet;
this.name = `${column}${row}`;
}
get contents() {
return this.sheet.get_real_cell_contents(this.name);
}
set contents(value) {
value = `${value}`;
this.sheet.set_real_cell_contents(this.name, value);
return value;
}
static from_name(name) {
let sheet = thisSheet;
let obj = sheet.parse_cell_name(name);
return new Position(obj.column, obj.row, sheet);
}
up(how_many) {
how_many = how_many ?? 1;
const row = Math.max(0, this.row - how_many);
return new Position(this.column, row, this.sheet);
}
down(how_many) {
how_many = how_many ?? 1;
const row = Math.max(0, this.row + how_many);
return new Position(this.column, row, this.sheet);
}
left(how_many) {
how_many = how_many ?? 1;
return new Position(
this.sheet.column_arithmetic(this.column, -how_many),
this.row,
this.sheet
);
}
right(how_many) {
how_many = how_many ?? 1;
return new Position(
this.sheet.column_arithmetic(this.column, how_many),
this.row,
this.sheet
);
}
range_up() {
if (this.row === 0) throw new Error(`No cells above this cell`);
const up_one = this.up(1);
let current_point = up_one;
for (
let point = current_point.up(1);
current_point.row !== 0 && point.value() !== "";
point = current_point.up(1)
)
current_point = point;
const sheetName = Object.is(this.sheet, thisSheet)
? ""
: `sheet(${JSON.stringify(this.sheet.name)}):`;
return R(sheetName + current_point.name + ":" + up_one.name);
}
range_down() {
let down_one = this.down(1);
let current_point = down_one;
for (let point = current_point.down(1); point.value() !== ""; point = current_point.down(1))
current_point = point;
const sheetName = Object.is(this.sheet, thisSheet)
? ""
: `sheet(${JSON.stringify(this.sheet.name)}):`;
return R(sheetName + current_point.name + ":" + down_one.name);
}
range_left() {
if (this.column === "A") throw new Error(`No cells to the left of this cell`);
const left_one = this.left(1);
let current_point = left_one;
for (
let point = current_point.left(1);
current_point.column !== "A" && point.value() !== "";
point = current_point.left(1)
)
current_point = point;
const sheetName = Object.is(this.sheet, thisSheet)
? ""
: `sheet(${JSON.stringify(this.sheet.name)}):`;
return R(sheetName + current_point.name + ":" + left_one.name);
}
range_right() {
let right_one = this.right(1);
let current_point = right_one;
for (
let point = current_point.right(1);
point.value() !== "";
point = current_point.right(1)
)
current_point = point;
const sheetName = Object.is(this.sheet, thisSheet)
? ""
: `sheet(${JSON.stringify(this.sheet.name)}):`;
return R(sheetName + current_point.name + ":" + right_one.name);
}
with_column(value) {
return new Position(value, this.row, this.sheet);
}
with_row(value) {
return new Position(this.column, value, this.sheet);
}
in_sheet(the_sheet) {
return new Position(this.column, this.row, sheet(the_sheet));
}
value() {
return this.sheet[this.name];
}
valueOf() {
return value();
}
toString() {
return `<Cell at ${this.name}${
Object.is(this.sheet, thisSheet) ? "" : ` in sheet(${JSON.stringify(this.sheet.name)})`
}>`;
}
}
class CommonRange {
at(wantedIx) {
let ix = 0;
let found = null;
this.forEach(cell => {
if (ix++ === wantedIx) {
found = cell;
return Break;
}
});
return found;
}
findIndex(matcher) {
let i = 0;
let found = false;
this.forEach(cell => {
if (matcher(cell, i)) {
found = true;
return Break;
}
++i;
});
return found ? i : -1;
}
find(matcher) {
let value = null;
let i = 0;
this.forEach(cell => {
if (matcher(cell, i)) {
value = cell;
return Break;
}
++i;
});
return value;
}
indexOf(name) {
let i = 0;
let found = false;
this.forEach(cell => {
if (cell.name === name) {
found = true;
return Break;
}
++i;
});
return found ? i : -1;
}
has(name) {
return this.indexOf(name) !== -1;
}
toArray() {
const cells = [];
this.forEach(val => cells.push(val));
return cells;
}
filter(matches) {
const cells = [];
this.forEach(cell => {
if (matches(cell)) cells.push(cell);
});
return new SplitRange(cells);
}
unique() {
const cells = [];
const values = new Set();
this.forEach(cell => {
const value = cell.value();
if (!values.has(value)) {
values.add(value);
cells.push(cell);
}
});
return new SplitRange(cells);
}
}
class SplitRange extends CommonRange {
constructor(cells) {
super();
this.cells = cells;
}
static fromNames(...cellNames) {
return new SplitRange(cellNames.map(Position.from_name));
}
first() {
return this.cellNames[0];
}
forEach(callback) {
for (const cell of this.cells) {
if (callback(cell) === Break) return;
}
}
toString() {
const namesFormatted = this.cells.map(cell => '"' + cell.name + '"').join(", ");
return `SplitRange.fromNames(${namesFormatted})`;
}
}
class Ranges extends CommonRange {
constructor(ranges) {
super();
this.ranges = ranges;
}
first() {
return this.ranges[0].first();
}
static from(...ranges) {
return new Ranges(ranges);
}
forEach(callback) {
for (const range of this.ranges) {
if (range.forEach(callback) === Break) break;
}
}
union(other, direction = "right") {
if (direction === "left") {
if (other instanceof Ranges) return Ranges.from(...other.ranges, ...this.ranges);
return Ranges.from(other, ...this.ranges);
} else if (direction === "right") {
if (other instanceof Ranges) return Ranges.from(...this.ranges, ...other.ranges);
return Ranges.from(...this.ranges, other);
} else {
throw new Error(`Invalid direction '${direction}'`);
}
}
toString() {
return `Ranges.from(${this.ranges.map(r => r.toString()).join(", ")})`;
}
}
class Range extends CommonRange {
constructor(
startingColumnName,
endingColumnName,
startingRow,
endingRow,
columnStep,
rowStep,
sheet
) {
super();
// using == to account for '0' since js will parse `+'0'` to 0
if (columnStep == 0 || rowStep == 0)
throw new Error("rowStep or columnStep is 0, this will cause an infinite loop");
if (typeof startingRow === "string" || typeof endingRow === "string")
throw new Error(
"startingRow or endingRow is a string, this will cause an infinite loop"
);
this.startingColumnName = startingColumnName;
this.endingColumnName = endingColumnName;
this.startingRow = startingRow;
this.endingRow = endingRow;
this.columnStep = columnStep ?? 1;
this.rowStep = rowStep ?? 1;
this.spansEntireColumn = endingRow === undefined;
this.sheet = sheet;
if (!this.spansEntireColumn && startingRow === undefined)
throw new Error("A Range with a defined end row must also have a defined start row");
this.normalize();
}
first() {
return new Position(this.startingColumnName, this.startingRow, this.sheet);
}
forEach(callback) {
const ranges = [];
let startingColumnIndex = this.sheet.column_index(this.startingColumnName);
let endingColumnIndex = this.sheet.column_index(this.endingColumnName);
let columnDistance = endingColumnIndex - startingColumnIndex;
for (
let columnOffset = 0;
columnOffset <= columnDistance;
columnOffset += this.columnStep
) {
const columnName = this.sheet.column_arithmetic(this.startingColumnName, columnOffset);
ranges.push({
column: columnName,
rowStart: this.startingRow,
rowEnd: this.spansEntireColumn
? this.sheet.get_column_bound(columnName)
: this.endingRow,
});
}
outer: for (const range of ranges) {
for (let row = range.rowStart; row <= range.rowEnd; row += this.rowStep) {
if (callback(new Position(range.column, row, this.sheet)) === Break) break outer;
}
}
}
union(other) {
if (other instanceof Ranges) return other.union(this, "left");
if (other instanceof Range) return Ranges.from(this, other);
throw new Error(`Cannot add ${other} to a Range`);
}
normalize() {
const startColumnIndex = this.sheet.column_index(this.startingColumnName);
const endColumnIndex = this.sheet.column_index(this.endingColumnName);
if (startColumnIndex > endColumnIndex) {
const temp = this.startingColumnName;
this.startingColumnName = this.endingColumnName;
this.endingColumnName = temp;
}
if (this.startingRow !== undefined && this.endingRow !== undefined) {
if (this.startingRow > this.endingRow) {
const temp = this.startingRow;
this.startingRow = this.endingRow;
this.endingRow = temp;
}
}
}
toString() {
const endingRow = this.endingRow ?? "";
const showSteps = this.rowStep !== 1 || this.columnStep !== 1;
const steps = showSteps ? `:${this.columnStep}:${this.rowStep}` : "";
const sheetName = Object.is(thisSheet, this.sheet)
? ""
: `sheet(${JSON.stringify(this.sheet.name)}):`;
return `R\`${sheetName}${this.startingColumnName}${this.startingRow}:${this.endingColumnName}${endingRow}${steps}\``;
}
}
const R_FORMAT =
/^(?:sheet\(("(?:[^"]|\\")*")\):)?([a-zA-Z_]+)(?:(\d+):([a-zA-Z_]+)(\d+)?(?::(\d+):(\d+))?)?$/;
function R(fmt, ...args) {
if (args.length !== 0) throw new TypeError("R`` format must be a literal");
// done because:
// const myFunc = xyz => JSON.stringify(xyz)
// myFunc("ABC") => ""ABC""
// myFunc`ABC` => "["ABC"]"
if (Array.isArray(fmt)) fmt = fmt[0];
if (!R_FORMAT.test(fmt))
throw new Error(
'Invalid Format. Expected Format: R`A` or R`A0:A1` or R`A0:A2:1:2` or R`sheet("sheetName"):...`'
);
// Format: (sheet("sheetName"):)?Col(Row:Col(Row)?(:ColStep:RowStep)?)?
// Ignore the first element of the match array as that will be the whole match.
const [, ...matches] = fmt.match(R_FORMAT);
const [sheetExpression, startCol, startRow, endCol, endRow, colStep, rowStep] = matches;
const sheetFromName = name => {
if (name == null || name === "") return thisSheet;
return sheet(JSON.parse(name));
};
return new Range(
startCol,
endCol ?? startCol,
integer(startRow ?? 0),
// Don't make undefined an integer, because then it becomes 0.
!!endRow ? integer(endRow) : endRow,
integer(colStep ?? 1),
integer(rowStep ?? 1),
sheetFromName(sheetExpression)
);
}
function select(criteria, t, f) {
if (criteria) return t;
return f;
}
function choose(index, ...args) {
if (index > args.length) return undefined;
if (index < 0) return undefined;
return args[index];
}
function now() {
return new Date();
}
function repeat(count, str) {
return Array(count + 1).join(str);
}
function randRange(min, max) {
return Math.random() * (max - min) + min;
}
function integer(value) {
const typeVal = typeof value;
if ((typeVal !== "number" && typeVal !== "string") || Number.isNaN(Number(value)))
throw new Error(`integer() called with unexpected type "${typeVal}"`);
return value | 0;
}
function sheet(name) {
return workbook.sheet(name);
}
function reduce(op, accumulator, cells) {
return resolve(cells).reduce(op, accumulator);
}
function numericReduce(op, accumulator, cells) {
return numericResolve(cells).reduce(op, accumulator);
}
function numericResolve(cells) {
return resolve(cells).map(val => parseFloat(val));
}
function resolve(cells) {
if (!(cells instanceof Array)) {
cells = [cells];
}
return cells.map(resolveRange).flat();
}
function resolveRange(cells) {
const isRange = cells instanceof CommonRange;
return isRange ? cells.toArray().map(cell => cell.value()) : cells;
}
// Statistics
function sum(...cells) {
return numericReduce((acc, x) => acc + x, 0, cells);
}
function sumIf(condition, ...cells) {
return numericReduce((acc, x) => (condition(x) ? acc + x : acc), 0, cells);
}
function count(...cells) {
return reduce((acc, x) => acc + 1, 0, cells);
}
function countIf(condition, ...cells) {
return reduce((acc, x) => (condition(x) ? acc + 1 : acc), 0, cells);
}
function average(...cells) {
const sumAndCount = numericReduce((acc, x) => [acc[0] + x, acc[1] + 1], [0, 0], cells);
return sumAndCount[0] / sumAndCount[1];
}
function averageIf(condition, ...cells) {
const sumAndCount = numericReduce(
(acc, x) => (condition(x) ? [acc[0] + x, acc[1] + 1] : acc),
[0, 0],
cells
);
return sumAndCount[0] / sumAndCount[1];
}
function maxIf(condition, ...cells) {
return Math.max(...numericResolve(cells).filter(condition));
}
function max(...cells) {
return maxIf(() => true, ...cells);
}
function minIf(condition, ...cells) {
return Math.min(...numericResolve(cells).filter(condition));
}
function min(...cells) {
return minIf(() => true, ...cells);
}
function sumProductIf(condition, rangeOne, rangeTwo) {
const rangeOneNums = numericResolve(rangeOne);
const rangeTwoNums = numericResolve(rangeTwo);
return rangeOneNums.reduce((accumulator, curr, i) => {
const prod = curr * rangeTwoNums[i];
if (!condition(curr, rangeTwoNums[i], prod)) return accumulator;
return accumulator + prod;
}, 0);
}
function sumProduct(rangeOne, rangeTwo) {
return sumProductIf(() => true, rangeOne, rangeTwo);
}
function median(...cells) {
const values = numericResolve(cells);
if (values.length === 0) return 0;
function qselect(arr, idx) {
if (arr.length === 1) return arr[0];
const pivot = arr[0];
const ls = arr.filter(x => x < pivot);
const hs = arr.filter(x => x > pivot);
const eqs = arr.filter(x => x === pivot);
if (idx < ls.length) return qselect(ls, k);
if (idx < ls.length + eqs.length) return pivot;
return qselect(hs, idx - ls.length - eqs.length);
}
if (values.length % 2) return qselect(values, values.length / 2);
return (qselect(values, values.length / 2) + qselect(values, values.length / 2 - 1)) / 2;
}
function variance(...cells) {
const sumsAndSquaresAndCount = numericReduce(
(acc, x) => [acc[0] + x, acc[1] + x * x, acc[2] + 1],
[0, 0, 0],
cells
);
let sums = sumsAndSquaresAndCount[0];
let squares = sumsAndSquaresAndCount[1];
let count = sumsAndSquaresAndCount[2];
return (count * squares - sums * sums) / count;
}
function mode(...cells) {
const counts = numericReduce(
(map, x) => {
if (!map.has(x)) map.set(x, 0);
map.set(x, map.get(x) + 1);
return map;
},
new Map(),
cells
);
let mostCommonValue = undefined;
let mostCommonCount = -1;
counts.forEach((count, value) => {
if (count > mostCommonCount) {
mostCommonCount = count;
mostCommonValue = value;
}
});
return mostCommonValue;
}
function stddev(...cells) {
return Math.sqrt(variance(...cells));
}
// Lookup
function row() {
return thisSheet.current_cell_position().row;
}
function column() {
return thisSheet.current_cell_position().column;
}
function here() {
const position = thisSheet.current_cell_position();
return new Position(position.column, position.row, thisSheet);
}
function internal_lookup(
req_lookup_value,
lookup_inputs,
lookup_outputs,
if_missing,
mode,
reference
) {
if_missing = if_missing ?? undefined;
const missing = () => {
if (if_missing !== undefined) return if_missing;
throw new Error(`Failed to find ${req_lookup_value} in ${lookup_inputs}`);
};
mode = mode ?? "exact";
const lookup_value = req_lookup_value;
let matches = null;
if (mode === "exact") {
matches = value => value === lookup_value;
} else if (mode === "nextlargest") {
matches = value => value >= lookup_value;
} else if (mode === "nextsmallest") {
matches = value => value <= lookup_value;
} else {
throw new Error(`Match mode '${mode}' not supported`);
}
let i = 0;
let value = null;
let found_input = null;
lookup_inputs.forEach(cell => {
value = cell.value();
if (matches(value)) {
found_input = cell;
return Break;
}
++i;
});
if (found_input == null) return missing();
if (lookup_outputs === undefined) {
if (reference) return found_input;
return value;
}
const found_output = lookup_outputs.at(i);
if (found_output == null)
throw new Error("Lookup target length must not be smaller than lookup source length");
if (reference) return found_output;
return found_output.value();
}
function lookup(req_lookup_value, lookup_inputs, lookup_outputs, if_missing, mode) {
return internal_lookup(
req_lookup_value,
lookup_inputs,
lookup_outputs,
if_missing,
mode,
false
);
}
function reflookup(req_lookup_value, lookup_inputs, lookup_outputs, if_missing, mode) {
return internal_lookup(req_lookup_value, lookup_inputs, lookup_outputs, if_missing, mode, true);
}
// Cheat the system and add documentation
R.__documentation = JSON.stringify({
name: "R",
argc: 1,
argnames: ["range specifier"],
doc:
"Generates a Range object, from the given" +
"range specifier, which must conform to the syntax shown below",
examples: {
"R`A`": "Generate a Range representing all the cells in the column A",
"R`A:C`": "Generate a Range representing all the cells in the columns A through C",
"R`A:C:2:2`":
"Generate a Range representing every other cells in every other column in A through C",
"R`A1:C4`":
"Generate a Range representing all cells in a rectangle with the top-left cell A1, and the bottom-right cell C4",
"R`A0:B10:1:2`":
"Generate a Range representing all cells in a rectangle with the top-left cell A1, and the bottom-right cell C4, with every column, and skipping every other row",
},
});
select.__documentation = JSON.stringify({
name: "select",
argc: 3,
argnames: ["criteria", "true value", "false value"],
doc: "Selects between the two `true` and `false` values based on the value of `criteria`",
examples: {
"select(A1, A2, A3)": "Evaluates to A2 if A1 is true, A3 otherwise",
},
});
choose.__documentation = JSON.stringify({
name: "choose",
argc: 1,
argnames: ["index"],
doc: "Selects an argument by the given `index`, starting at zero",
examples: {
"choose(A3, 'Sun', 'Mon', 'Tue', 'Wed', 'Thu', 'Fri', 'Sat')":
"Get the day name by the number in A3",
"choose(randRange(0, 2), 'Well', 'Hello', 'Friends')":
"Randomly pick one of the three words 'well', 'hello' and 'friends'",
},
});
now.__documentation = JSON.stringify({
name: "now",
argc: 0,
argnames: [],
doc: "Returns a Date instance for the current moment",
examples: {
"now().toString()":
"Returns a string containing the current date. Ex: 'Tue Sep 21 2021 02:38:10 GMT+0000 (UTC)'",
"now().getFullYear()": "Returns the current year. Ex: 2021",
},
});
repeat.__documentation = JSON.stringify({
name: "repeat",
argc: 2,
argnames: ["string", "count"],
doc: "Returns a string equivalent to `string` repeated `count` times",
examples: {
'repeat("a", 10)': 'Generates the string "aaaaaaaaaa"',
},
});
randRange.__documentation = JSON.stringify({
name: "randRange",
argc: 2,
argnames: ["start", "end"],
doc: "Returns a random number in the range (`start`, `end`)",
examples: {
"randRange(0, 10)": "Returns a number from 0 through 10. Ex: 5.185799582250052",
},
});
integer.__documentation = JSON.stringify({
name: "integer",
argc: 1,
argnames: ["value"],
doc: "Returns the integer value of `value`",
examples: {
"A1 = integer(A0)": "Sets the value of the cell A1 to the integer value of the cell A0",
},
});
sheet.__documentation = JSON.stringify({
name: "sheet",
argc: 1,
argnames: ["name or index"],
doc: "Returns a reference to another sheet, identified by _name_ or _index_",
examples: {
"sheet('Sheet 1').A4": "Read the value of the cell A4 in a sheet named 'Sheet 1'",
"sheet(0).A0 = 123": "Set the value of the cell A0 in the first sheet to 123",
},
});
reduce.__documentation = JSON.stringify({
name: "reduce",
argc: 3,
argnames: ["reduction function", "accumulator", "cells"],
doc:
"Reduces the entries in `cells` with repeated applications of the `reduction function` " +
"to the `accumulator`\n The `reduction function` should be a function of arity 2, taking " +
"first the accumulator, then the current value, and returning the new accumulator value\n\n" +
"Please keep in mind that this function respects the cell type, and can yield non-numeric " +
"values to the `current value`.",
examples: {
"reduce((acc, x) => acc * x, 1, R`A0:A5`)":
"Calculate the product of all values in the range A0:A5",
},
});
numericReduce.__documentation = JSON.stringify({
name: "numericReduce",
argc: 3,
argnames: ["reduction function", "accumulator", "cells"],
doc:
"Reduces the entries in `cells` with repeated applications of the `reduction function` to the " +
"`accumulator`\n The `reduction function` should be a function of arity 2, taking first the " +
"accumulator, then the current value, and returning the new accumulator value\n\nThis function, " +
"unlike [`reduce`](spreadsheet://doc/reduce), casts the values to a number before passing them to the `reduction function`.",
examples: {
"numericReduce((acc, x) => acc * x, 1, R`A0:A5`)":
"Calculate the numeric product of all values in the range A0:A5",
},
});
sum.__documentation = JSON.stringify({
name: "sum",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the total of the numbers or cell values in `numbers or cell names`",
examples: {
"sum(R`A0:C3`)":
"Calculate the sum of the values in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
"sum(1, 2, 3)": "Calculate the sum of 1, 2, and 3 (Sum = 6)",
},
});
sumIf.__documentation = JSON.stringify({
name: "sumIf",
argc: 2,
argnames: ["condition", "numbers or cell names"],
doc: "Calculates the sum of all numbers or cell values which evaluate to true when passed to `condition`",
examples: {
"sumIf(x => x instanceof Number, R`A1:C4`)":
"Calculates the sum of all numbers within A1:C4",
},
});
count.__documentation = JSON.stringify({
name: "count",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Counts the number of inputs or cells in a given range",
examples: {
"count(R`A0:C3`)":
"Count the number of cells in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
},
});
countIf.__documentation = JSON.stringify({
name: "countIf",
argc: 2,
argnames: ["condition", "numbers or cell names"],
doc: "Counts inputs or cell values which evaluate to true when passed to `condition`",
examples: {
"countIf(x => x instanceof Number, R`A1:C3`)":
"Count the number of cells which have numbers within A1:C3",
},
});
average.__documentation = JSON.stringify({
name: "average",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the average of the numbers or cell values in `numbers or cell names`",
examples: {
"average(R`A0:C3`)":
"Calculate the average of the values in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
"average(4, 6)": "Calculate the average of 4 and 6 (Average = 5)",
},
});
averageIf.__documentation = JSON.stringify({
name: "averageIf",
argc: 2,
argnames: ["condition", "numbers or cell names"],
doc: "Calculates the average of all numbers or cell values which evaluate to true when passed to `condition`",
examples: {
"averageIf(x => x > 4, R`A1:C4`)":
"Calculate the average of all numbers larger then 4 within A1:C4",
},
});
max.__documentation = JSON.stringify({
name: "max",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the largest number or cell value in `numbers or cell names`",
examples: {
"max(R`A1:C4`)": "Finds the largest number within A1:C4",
"max(1, 2, 3)": "Returns the largest of 1, 2, and 3 (Max = 3)",
},
});
maxIf.__documentation = JSON.stringify({
name: "maxIf",
argc: 1,
argnames: ["condition", "numbers or cell names"],
doc: "Calculates the largest of all numbers or cell values which evaluate to true when passed to `condition`",
examples: {
"maxIf(x => x > 4, R`A1:C4`)":
"Finds the largest number within A1:C4 that is greater than 4",
},
});
min.__documentation = JSON.stringify({
name: "min",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the smallest number or cell value in `numbers or cell names`",
examples: {
"min(R`A1:C4`)": "Finds the smallest number within A1:C4",
"min(1, 2, 3)": "Returns the smallest of 1, 2, and 3 (Min = 1)",
},
});
minIf.__documentation = JSON.stringify({
name: "minIf",
argc: 1,
argnames: ["condition", "numbers or cell names"],
doc: "Calculates the smallest of all numbers or cell values which evaluate to true when passed to `condition`",
examples: {
"minIf(x => x > 4, R`A1:C4`)":
"Finds the smallest number within A1:C4 that is greater than 4",
},
});
sumProduct.__documentation = JSON.stringify({
name: "sumProduct",
argc: 2,
argnames: ["range one", "range two"],
doc: "For each cell in the first range, multiply it by the cell at the same index in range two, then add the result to a sum",
example_data: {
"sumProductIf((a, b, prod) => a > 2, R`A0:A`, R`B0:B`)":
"Calculate the product of each cell in a times it's equivalent cell in b, then adds the products, [Click to view](spreadsheet://example/sumProductIf#sum_product)",
},
});
sumProductIf.__documentation = JSON.stringify({
name: "sumProductIf",
argc: 3,
argnames: ["condition", "range one", "range two"],
doc: "For each cell in the first range, multiply it by the cell at the same index in range two, then add the result to a sum, if the condition evaluated to true",
examples: {
"sumProductIf((a, b, prod) => a > 2, R`A0:A`, R`B0:B`)":
"Calculate the product of each cell in a times it's equivalent cell in b, then adds the products if a's value was greater than 2, [Click to view](spreadsheet://example/sumProductIf#sum_product)",
},
example_data: {
sum_product: {
name: "Sum Product",
columns: ["A", "B", "C"],
rows: 3,
cells: {
C0: {
kind: "Formula",
source: "sumProduct(R`A0:A`, R`B0:B`)",
value: "300.0",
type: "Numeric",
type_metadata: {
format: "sumProduct: %f",
},
},
C1: {
kind: "Formula",
source: "sumProductIf((a, b, prod) => a > 2, R`A0:A`, R`B0:B`)",
value: "250.0",
type: "Numeric",
type_metadata: {
format: "sumProductIf: %f",
},
},
...Array.apply(null, { length: 4 })
.map((_, i) => i)
.reduce((acc, i) => {
return {
...acc,
[`A${i}`]: {
kind: "LiteralString",
value: `${i + 1}`,
type: "Numeric",
},
[`B${i}`]: {
kind: "LiteralString",
value: `${(i + 1) * 10}`,
type: "Numeric",
},
};
}, {}),
},
},
},
});
median.__documentation = JSON.stringify({
name: "median",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the median number or cell value in `numbers or cell names`",
examples: {
"median(R`A0:C3`)":
"Calculate the median of the values in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
"median(1, 2, 5)": "Calculate the median of 1, 2, and 5 (Median = 2)",
},
});
variance.__documentation = JSON.stringify({
name: "variance",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the variance of the numbers or cell values in `numbers or cell names`",
examples: {
"variance(R`A0:C3`)":
"Calculate the variance of the values in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
},
example_data: {
simple: {
name: "Simple Statistics",
columns: ["A", "B", "C", "D", "E"],
rows: 6,
cells: {
E0: {
kind: "Formula",
source: "stddev(R`A0:C3`)",
value: "5.329165",
type: "Numeric",
type_metadata: {
format: "stddev: %f",
},
},
E1: {
kind: "Formula",
source: "variance(R`A0:C3`)",
value: "28.39999999",
type: "Numeric",
type_metadata: {
format: "variance: %f",
},
},
E2: {
kind: "Formula",
source: "median(R`A0:C3`)",
value: "1",
type: "Numeric",
type_metadata: {
format: "median: %f",
},
},
E3: {
kind: "Formula",
source: "average(R`A0:C3`)",
value: "1.1999999",
type: "Numeric",
type_metadata: {
format: "average: %f",
},
},
E4: {
kind: "Formula",
source: "mode(R`A0:C3`)",
value: "1",
type: "Numeric",
type_metadata: {
format: "mode: %d",
},
},
E5: {
kind: "Formula",
source: "count(R`A0:C3`)",
value: "12",
type: "Numeric",
type_metadata: {
format: "count: %d",
},
},
E6: {
kind: "Formula",
source: "sum(R`A0:C3`)",
value: "18",
type: "Numeric",
type_metadata: {
format: "sum: %d",
},
},
...Array.apply(null, { length: 4 })
.map((_, i) => i)
.reduce((acc, i) => {
return {
...acc,
[`A${i}`]: {
kind: "LiteralString",
value: `${i}`,
type: "Numeric",
},
[`B${i}`]: {
kind: "LiteralString",
value: `${i + 1}`,
type: "Numeric",
},
[`C${i}`]: {
kind: "LiteralString",
value: `${i - 1}`,
type: "Numeric",
},
};
}, {}),
},
},
},
});
mode.__documentation = JSON.stringify({
name: "mode",
argc: 1,
argnames: ["numbers or cell names"],
doc: "Calculates the mode (most common value) of the numbers or cell values in `numbers or cell names`",
examples: {
"mode(R`A2:A14`)":
"Calculate the mode of the values in A2:A14, [Click to view](spreadsheet://example/variance#simple)",
"mode(1, 2, 2)": "Calculate the mode of 1, 2, and 2 (Mode = 2)",
},
});
stddev.__documentation = JSON.stringify({
name: "stddev",
argc: 1,
argnames: ["cell names"],
doc: "Calculates the standard deviation (square root of variance) of the numbers or cell values in `numbers or cell names`",
examples: {
"stddev(R`A0:C3`)":
"Calculate the standard deviation of the values in A0:C3, [Click to view](spreadsheet://example/variance#simple)",
},
});
row.__documentation = JSON.stringify({
name: "row",
argc: 0,
argnames: [],
doc: "Returns the row number of the current cell",
examples: {
"row()": "Evaluates to 6 if placed in A6",
},
});
column.__documentation = JSON.stringify({
name: "column",
argc: 0,
argnames: [],
doc: "Returns the column name of the current cell",
examples: {
"column()": "Evaluates to A if placed in A6",
},
});
here.__documentation = JSON.stringify({
name: "here",
argc: 0,
argnames: [],
doc:
"Returns an object representing the current cell's position, see `Position` below.\n\n" +
"## Position\na `Position` is an object representing a given cell position in a given sheet.\n" +
"### Methods:\n" +
"- `up(count = 1)`: goes up count cells, or returns the top position if at the top\n" +
"- `down(count = 1)`: goes down count cells\n" +
"- `left(count = 1)`: Goes left count cells, or returns the leftmost position if the edge\n" +
"- `right(count = 1)`: Goes right count cells.\n" +
"- `range_up()`: make a range from the cell above this cell, upward, until there is a cell with no number in it.\n" +
"- `range_down()`: make a range from the cell below this cell, downward, until there is a cell with no number in it.\n" +
"- `range_left()`: make a range from the cell to the left of this cell, going left, until there is a cell with no number in it.\n" +
"- `range_right()`: make a range from the cell to the right of this cell, going right, until there is a cell with no number in it.\n" +
"- `with_row(row)`: Returns a Position with its column being this object's, and its row being the provided the value.\n" +
"- `with_column(column)`: Similar to `with_row()`, but changes the column instead.\n" +
"- `in_sheet(the_sheet)`: Returns a Position with the same column and row as this one, but with its sheet being `the_sheet`.\n" +
"- `value()`: Returns the value at the position which it represents, in the object's sheet (current sheet by default).\n" +
"- `contents`: An accessor for the real contents of the cell (i.e. the text as typed in the cell editor)\n",
examples: {
"here().up().value()": "Get the value of the cell above this one",
"here().up().with_column('A')":
"Get a Position above this one in column A, for instance, evaluates to A2 if run in B3, [Click to view](spreadsheet://example/here#with_column)",
},
example_data: {
with_column: {
name: "here() With Column",
columns: ["A", "B"],
rows: 4,
cells: {
B3: {
kind: "Formula",
source: "here().up().with_column('A').name",
value: '"A2"',
type: "Identity",
},
},
},
},
});
lookup.__documentation = JSON.stringify({
name: "lookup",
argc: 2,
argnames: [
"lookup value",
"lookup source",
"lookup target",
"value if no match",
"match method",
],
doc:
"Allows for finding things in a table or tabular data, by looking for matches in one range, and " +
"grabbing the corresponding output value from another range.\n" +
"if `lookup target` is not specified or is nullish, it is assumed to be the same as the `lookup source`\n." +
"if nothing matches, either the value `value if no match` (if not `undefined`) is returned, or " +
"an error is thrown.\nBy setting the `match method`, the function can be altered to return " +
"the closest ordered value (above or below) instead of an exact match. The valid choices for `match method` are:\n" +
"- `'exact'`: The default method. Uses strict equality to match values.\n" +
"- `'nextlargest'`: Uses the greater-or-equal operator to match values.\n" +
"- `'nextsmallest'`: Uses the less-than-or-equal operator to match values.\n",
examples: {
"lookup(F3, R`B2:B11`, R`D2:D11`)":
"Look for the value of F3 in the range B2:B11, and return the corresponding value from the D column",
"lookup(E2, R`C2:C5`, R`B2:B5`, 0, 'nextlargest')":
"Find the closest (larger) value to E2 in range C2:C5, and evaluate to 0 if no value in that range is larger.",
},
});
reflookup.__documentation = JSON.stringify({
name: "reflookup",
argc: 2,
argnames: [
"lookup value",
"lookup source",
"lookup target",
"value if no match",
"match method",
],
doc:
"Allows for finding references to things in a table or tabular data, by looking for matches in one range, and " +
"grabbing the corresponding output value from another range.\n" +
"if `lookup target` is not specified or is nullish, it is assumed to be the same as the `lookup source`\n." +
"if nothing matches, either the value `value if no match` (if not `undefined`) is returned, or " +
"an error is thrown.\nBy setting the `match method`, the function can be altered to return " +
"the closest ordered value (above or below) instead of an exact match. The valid choices for `match method` are:\n" +
"- `'exact'`: The default method. Uses strict equality to match values.\n" +
"- `'nextlargest'`: Uses the greater-or-equal operator to match values.\n" +
"- `'nextsmallest'`: Uses the less-than-or-equal operator to match values.\n" +
"\nThis function return a `Position` (see [`here()`](spreadsheet://doc/here))",
examples: {
"reflookup(A0, R`B1:B5`, R`C1:C5`)":
"Look for the value of A0 in the range B1:B5, and return the corresponding cell name from the C column," +
"[Click to view](spreadsheet://example/reflookup#simple)",
"reflookup(A0, R`C2:C5`, R`B2:B5`, here(), 'nextlargest')":
"Find the cell with the closest (larger) value to A0 in range C2:C5, and give the corresponding cell in range C1:C5, " +
"evaluating to the current cell if no value in that range is larger, [Click to view](spreadsheet://example/reflookup#nextlargest)",
},
example_data: {
simple: {
name: "Simple",
columns: ["A", "B", "C"],
rows: 6,
cells: {
B1: {
kind: "LiteralString",
value: "1",
},
B0: {
kind: "Formula",
source: "reflookup(A0, R`B1:B5`, R`C1:C5`).value()",
value: '"C"',
type: "Identity",
},
C3: {
kind: "LiteralString",
value: "C",
type: "Identity",
},
C2: {
kind: "LiteralString",
value: "B",
type: "Identity",
},
B2: {
kind: "LiteralString",
value: "2",
},
C4: {
kind: "LiteralString",
value: "D",
type: "Identity",
},
A0: {
kind: "LiteralString",
value: "3",
},
C1: {
kind: "LiteralString",
value: "A",
type: "Identity",
},
C5: {
kind: "LiteralString",
value: "E",
type: "Identity",
},
B3: {
kind: "LiteralString",
value: "3",
},
B5: {
kind: "LiteralString",
value: "5",
},
B4: {
kind: "LiteralString",
value: "4",
},
},
},
nextlargest: {
name: "Next Largest",
columns: ["A", "B", "C"],
rows: 6,
cells: {
B0: {
kind: "Formula",
source: "reflookup(A0, R`C2:C5`, R`B2:B5`, here(), 'nextlargest').name",
value: '"B2"',
type: "Identity",
},
C3: {
kind: "LiteralString",
value: "3",
},
C2: {
kind: "LiteralString",
value: "2",
},
B2: {
kind: "LiteralString",
value: "B",
type: "Identity",
},
C4: {
kind: "LiteralString",
value: "4",
},
A0: {
kind: "LiteralString",
value: "1",
},
C5: {
kind: "LiteralString",
value: "5",
},
B3: {
kind: "LiteralString",
value: "C",
type: "Identity",
},
B5: {
kind: "LiteralString",
value: "E",
type: "Identity",
},
B4: {
kind: "LiteralString",
value: "D",
type: "Identity",
},
},
},
},
});
