const _ = require('../utils/under-dash');
const colCache = require('./../utils/col-cache');
const Range = require('./range');
const Row = require('./row');
const Column = require('./column');
const Enums = require('./enums');
const Image = require('./image');
const Table= require('./table');
const DataValidations = require('./data-validations');
const Encryptor = require('../utils/encryptor');
const PromiseLib = require('../utils/promise');
// Worksheet requirements
// Operate as sheet inside workbook or standalone
// Load and Save from file and stream
// Access/Add/Delete individual cells
// Manage column widths and row heights
class Worksheet {
constructor(options) {
options = options || {};
// in a workbook, each sheet will have a number
this.id = options.id;
this.orderNo = options.orderNo;
// and a name
this.name = options.name || `Sheet${this.id}`;
// add a state
this.state = options.state || 'visible';
// rows allows access organised by row. Sparse array of arrays indexed by row-1, col
// Note: _rows is zero based. Must subtract 1 to go from cell.row to index
this._rows = [];
// column definitions
this._columns = null;
// column keys (addRow convenience): key ==> this._collumns index
this._keys = {};
// keep record of all merges
this._merges = {};
// record of all row and column pageBreaks
this.rowBreaks = [];
this._workbook = options.workbook;
// for tabColor, default row height, outline levels, etc
this.properties = Object.assign(
{},
{
defaultRowHeight: 15,
dyDescent: 55,
outlineLevelCol: 0,
outlineLevelRow: 0,
},
options.properties
);
// for all things printing
this.pageSetup = Object.assign(
{},
{
margins: {left: 0.7, right: 0.7, top: 0.75, bottom: 0.75, header: 0.3, footer: 0.3},
orientation: 'portrait',
horizontalDpi: 4294967295,
verticalDpi: 4294967295,
fitToPage: !!(options.pageSetup && ((options.pageSetup.fitToWidth || options.pageSetup.fitToHeight) && !options.pageSetup.scale)),
pageOrder: 'downThenOver',
blackAndWhite: false,
draft: false,
cellComments: 'None',
errors: 'displayed',
scale: 100,
fitToWidth: 1,
fitToHeight: 1,
paperSize: undefined,
showRowColHeaders: false,
showGridLines: false,
firstPageNumber: undefined,
horizontalCentered: false,
verticalCentered: false,
rowBreaks: null,
colBreaks: null,
},
options.pageSetup
);
this.headerFooter = {
differentFirst: false,
differentOddEven: false,
oddHeader: null,
oddFooter: null,
evenHeader: null,
evenFooter: null,
firstHeader: null,
firstFooter: null,
};
this.dataValidations = new DataValidations();
// for freezepanes, split, zoom, gridlines, etc
this.views = options.views || [];
this.autoFilter = options.autoFilter || null;
// for images, etc
this._media = [];
// worksheet protection
this.sheetProtection = null;
// for tables
this.tables = {};
}
get workbook() {
return this._workbook;
}
// when you're done with this worksheet, call this to remove from workbook
destroy() {
this._workbook.removeWorksheetEx(this);
}
// Get the bounding range of the cells in this worksheet
get dimensions() {
const dimensions = new Range();
this._rows.forEach(row => {
if (row) {
const rowDims = row.dimensions;
if (rowDims) {
dimensions.expand(row.number, rowDims.min, row.number, rowDims.max);
}
}
});
return dimensions;
}
// =========================================================================
// Columns
// get the current columns array.
get columns() {
return this._columns;
}
// set the columns from an array of column definitions.
// Note: any headers defined will overwrite existing values.
set columns(value) {
// calculate max header row count
this._headerRowCount = value.reduce((pv, cv) => {
const headerCount = (cv.header && 1) || (cv.headers && cv.headers.length) || 0;
return Math.max(pv, headerCount);
}, 0);
// construct Column objects
let count = 1;
const columns = (this._columns = []);
value.forEach(defn => {
const column = new Column(this, count++, false);
columns.push(column);
column.defn = defn;
});
}
getColumnKey(key) {
return this._keys[key];
}
setColumnKey(key, value) {
this._keys[key] = value;
}
deleteColumnKey(key) {
delete this._keys[key];
}
eachColumnKey(f) {
_.each(this._keys, f);
}
// get a single column by col number. If it doesn't exist, create it and any gaps before it
getColumn(c) {
if (typeof c === 'string') {
// if it matches a key'd column, return that
const col = this._keys[c];
if (col) return col;
// otherwise, assume letter
c = colCache.l2n(c);
}
if (!this._columns) {
this._columns = [];
}
if (c > this._columns.length) {
let n = this._columns.length + 1;
while (n <= c) {
this._columns.push(new Column(this, n++));
}
}
return this._columns[c - 1];
}
spliceColumns(start, count) {
// each member of inserts is a column of data.
const inserts = Array.prototype.slice.call(arguments, 2);
const rows = this._rows;
const nRows = rows.length;
if (inserts.length > 0) {
// must iterate over all rows whether they exist yet or not
for (let i = 0; i < nRows; i++) {
const rowArguments = [start, count];
// eslint-disable-next-line no-loop-func
inserts.forEach(insert => {
rowArguments.push(insert[i] || null);
});
const row = this.getRow(i + 1);
// eslint-disable-next-line prefer-spread
row.splice.apply(row, rowArguments);
}
} else {
// nothing to insert, so just splice all rows
this._rows.forEach(r => {
if (r) {
r.splice(start, count);
}
});
}
// splice column definitions
const nExpand = inserts.length - count;
const nKeep = start + count;
const nEnd = this._columns.length;
if (nExpand < 0) {
for (let i = start + inserts.length; i <= nEnd; i++) {
this.getColumn(i).defn = this.getColumn(i - nExpand).defn;
}
} else if (nExpand > 0) {
for (let i = nEnd; i >= nKeep; i--) {
this.getColumn(i + nExpand).defn = this.getColumn(i).defn;
}
}
for (let i = start; i < start + inserts.length; i++) {
this.getColumn(i).defn = null;
}
// account for defined names
this.workbook.definedNames.spliceColumns(this.name, start, count, inserts.length);
}
get columnCount() {
let maxCount = 0;
this.eachRow(row => {
maxCount = Math.max(maxCount, row.cellCount);
});
return maxCount;
}
get actualColumnCount() {
// performance nightmare - for each row, counts all the columns used
const counts = [];
let count = 0;
this.eachRow(row => {
row.eachCell(({col}) => {
if (!counts[col]) {
counts[col] = true;
count++;
}
});
});
return count;
}
// =========================================================================
// Rows
_commitRow() {
// nop - allows streaming reader to fill a document
}
get _lastRowNumber() {
// need to cope with results of splice
const rows = this._rows;
let n = rows.length;
while (n > 0 && rows[n - 1] === undefined) {
n--;
}
return n;
}
get _nextRow() {
return this._lastRowNumber + 1;
}
get lastRow() {
if (this._rows.length) {
return this._rows[this._rows.length - 1];
}
return undefined;
}
// find a row (if exists) by row number
findRow(r) {
return this._rows[r - 1];
}
get rowCount() {
return this._lastRowNumber;
}
get actualRowCount() {
// counts actual rows that have actual data
let count = 0;
this.eachRow(() => {
count++;
});
return count;
}
// get a row by row number.
getRow(r) {
let row = this._rows[r - 1];
if (!row) {
row = this._rows[r - 1] = new Row(this, r);
}
return row;
}
addRow(value) {
const row = this.getRow(this._nextRow);
row.values = value;
return row;
}
addRows(value) {
value.forEach(row => {
this.addRow(row);
});
}
spliceRows(start, count) {
// same problem as row.splice, except worse.
const inserts = Array.prototype.slice.call(arguments, 2);
const nKeep = start + count;
const nExpand = inserts.length - count;
const nEnd = this._rows.length;
let i;
let rSrc;
if (nExpand < 0) {
// remove rows
for (i = nKeep; i <= nEnd; i++) {
rSrc = this._rows[i - 1];
if (rSrc) {
const rDst = this.getRow(i + nExpand);
rDst.values = rSrc.values;
rDst.style = rSrc.style;
// eslint-disable-next-line no-loop-func
rSrc.eachCell({includeEmpty: true}, (cell, colNumber) => {
rDst.getCell(colNumber).style = cell.style;
});
this._rows[i - 1] = undefined;
} else {
this._rows[i + nExpand - 1] = undefined;
}
}
} else if (nExpand > 0) {
// insert new cells
for (i = nEnd; i >= nKeep; i--) {
rSrc = this._rows[i - 1];
if (rSrc) {
const rDst = this.getRow(i + nExpand);
rDst.values = rSrc.values;
rDst.style = rSrc.style;
// eslint-disable-next-line no-loop-func
rSrc.eachCell({includeEmpty: true}, (cell, colNumber) => {
rDst.getCell(colNumber).style = cell.style;
});
} else {
this._rows[i + nExpand - 1] = undefined;
}
}
}
// now copy over the new values
for (i = 0; i < inserts.length; i++) {
const rDst = this.getRow(start + i);
rDst.style = {};
rDst.values = inserts[i];
}
// account for defined names
this.workbook.definedNames.spliceRows(this.name, start, count, inserts.length);
}
// iterate over every row in the worksheet, including maybe empty rows
eachRow(options, iteratee) {
if (!iteratee) {
iteratee = options;
options = undefined;
}
if (options && options.includeEmpty) {
const n = this._rows.length;
for (let i = 1; i <= n; i++) {
iteratee(this.getRow(i), i);
}
} else {
this._rows.forEach(row => {
if (row && row.hasValues) {
iteratee(row, row.number);
}
});
}
}
// return all rows as sparse array
getSheetValues() {
const rows = [];
this._rows.forEach(row => {
if (row) {
rows[row.number] = row.values;
}
});
return rows;
}
// =========================================================================
// Cells
// returns the cell at [r,c] or address given by r. If not found, return undefined
findCell(r, c) {
const address = colCache.getAddress(r, c);
const row = this._rows[address.row - 1];
return row ? row.findCell(address.col) : undefined;
}
// return the cell at [r,c] or address given by r. If not found, create a new one.
getCell(r, c) {
const address = colCache.getAddress(r, c);
const row = this.getRow(address.row);
return row.getCellEx(address);
}
// =========================================================================
// Merge
// convert the range defined by ['tl:br'], [tl,br] or [t,l,b,r] into a single 'merged' cell
mergeCells() {
const dimensions = new Range(Array.prototype.slice.call(arguments, 0)); // convert arguments into Array
// check cells aren't already merged
_.each(this._merges, merge => {
if (merge.intersects(dimensions)) {
throw new Error('Cannot merge already merged cells');
}
});
// apply merge
const master = this.getCell(dimensions.top, dimensions.left);
for (let i = dimensions.top; i <= dimensions.bottom; i++) {
for (let j = dimensions.left; j <= dimensions.right; j++) {
// merge all but the master cell
if (i > dimensions.top || j > dimensions.left) {
this.getCell(i, j).merge(master);
}
}
}
// index merge
this._merges[master.address] = dimensions;
}
_unMergeMaster(master) {
// master is always top left of a rectangle
const merge = this._merges[master.address];
if (merge) {
for (let i = merge.top; i <= merge.bottom; i++) {
for (let j = merge.left; j <= merge.right; j++) {
this.getCell(i, j).unmerge();
}
}
delete this._merges[master.address];
}
}
get hasMerges() {
// return true if this._merges has a merge object
return _.some(this._merges, Boolean);
}
// scan the range defined by ['tl:br'], [tl,br] or [t,l,b,r] and if any cell is part of a merge,
// un-merge the group. Note this function can affect multiple merges and merge-blocks are
// atomic - either they're all merged or all un-merged.
unMergeCells() {
const dimensions = new Range(Array.prototype.slice.call(arguments, 0)); // convert arguments into Array
// find any cells in that range and unmerge them
for (let i = dimensions.top; i <= dimensions.bottom; i++) {
for (let j = dimensions.left; j <= dimensions.right; j++) {
const cell = this.findCell(i, j);
if (cell) {
if (cell.type === Enums.ValueType.Merge) {
// this cell merges to another master
this._unMergeMaster(cell.master);
} else if (this._merges[cell.address]) {
// this cell is a master
this._unMergeMaster(cell);
}
}
}
}
}
// ===========================================================================
// Shared Formula
fillFormula(range, formula, results) {
// Define formula for top-left cell and share to rest
const decoded = colCache.decode(range);
const {top, left, bottom, right} = decoded;
const width = right - left + 1;
const masterAddress = colCache.encodeAddress(top, left);
// work out result accessor
let getResult;
if (typeof results === 'function') {
getResult = results;
} else if (Array.isArray(results)) {
if (Array.isArray(results[0])) {
getResult = (row, col) => results[row - top][col - left];
} else {
getResult = (row, col) => results[((row - top) * width) + (col - left)];
}
} else {
getResult = () => undefined;
}
let first = true;
for (let r = top; r <= bottom; r++) {
for (let c = left; c <= right; c++) {
if (first) {
this.getCell(r, c).value = {
formula,
result: getResult(r, c),
};
first = false;
} else {
this.getCell(r, c).value = {
sharedFormula: masterAddress,
result: getResult(r, c),
};
}
}
}
}
// =========================================================================
// Images
addImage(imageId, range) {
const model = {
type: 'image',
imageId,
range,
};
this._media.push(new Image(this, model));
}
getImages() {
return this._media.filter(m => m.type === 'image');
}
addBackgroundImage(imageId) {
const model = {
type: 'background',
imageId,
};
this._media.push(new Image(this, model));
}
getBackgroundImageId() {
const image = this._media.find(m => m.type === 'background');
return image && image.imageId;
}
// =========================================================================
// Worksheet Protection
protect(password, options){
// TODO: make this function truly async
// perhaps marshal to worker thread or something
return new PromiseLib.Promise(resolve => {
this.sheetProtection = {
sheet : true,
};
if (password) {
this.sheetProtection.algorithmName = 'SHA-512';
this.sheetProtection.saltValue = Encryptor.randomBytes(16).toString('base64');
this.sheetProtection.spinCount = 100000;
this.sheetProtection.hashValue = Encryptor.convertPasswordToHash(password, 'SHA512', this.sheetProtection.saltValue, this.sheetProtection.spinCount);
}
if(options){
this.sheetProtection = Object.assign(this.sheetProtection, options);
}
resolve();
});
}
unprotect(){
this.sheetProtection = null;
}
// =========================================================================
// Tables
addTable(model) {
const table = new Table(this, model);
this.tables[model.name] = table;
return table;
}
getTable(name) {
return this.tables[name];
}
removeTable(name) {
delete this.tables[name];
}
getTables() {
return Object.values(this.tables);
}
// ===========================================================================
// Deprecated
get tabColor() {
// eslint-disable-next-line no-console
console.trace('worksheet.tabColor property is now deprecated. Please use worksheet.properties.tabColor');
return this.properties.tabColor;
}
set tabColor(value) {
// eslint-disable-next-line no-console
console.trace('worksheet.tabColor property is now deprecated. Please use worksheet.properties.tabColor');
this.properties.tabColor = value;
}
// ===========================================================================
// Model
get model() {
const model = {
id: this.id,
name: this.name,
dataValidations: this.dataValidations.model,
properties: this.properties,
state: this.state,
pageSetup: this.pageSetup,
headerFooter: this.headerFooter,
rowBreaks: this.rowBreaks,
views: this.views,
autoFilter: this.autoFilter,
media: this._media.map(medium => medium.model),
sheetProtection: this.sheetProtection,
tables: Object.values(this.tables).map(table => table.model),
};
// =================================================
// columns
model.cols = Column.toModel(this.columns);
// ==========================================================
// Rows
const rows = (model.rows = []);
const dimensions = (model.dimensions = new Range());
this._rows.forEach(row => {
const rowModel = row && row.model;
if (rowModel) {
dimensions.expand(rowModel.number, rowModel.min, rowModel.number, rowModel.max);
rows.push(rowModel);
}
});
// ==========================================================
// Merges
model.merges = [];
_.each(this._merges, merge => {
model.merges.push(merge.range);
});
return model;
}
_parseRows(model) {
this._rows = [];
model.rows.forEach(rowModel => {
const row = new Row(this, rowModel.number);
this._rows[row.number - 1] = row;
row.model = rowModel;
});
}
_parseMergeCells(model) {
_.each(model.mergeCells, merge => {
this.mergeCells(merge);
});
}
set model(value) {
this.name = value.name;
this._columns = Column.fromModel(this, value.cols);
this._parseRows(value);
this._parseMergeCells(value);
this.dataValidations = new DataValidations(value.dataValidations);
this.properties = value.properties;
this.pageSetup = value.pageSetup;
this.headerFooter = value.headerFooter;
this.views = value.views;
this.autoFilter = value.autoFilter;
this._media = value.media.map(medium => new Image(this, medium));
this.sheetProtection = value.sheetProtection;
this.tables = value.tables.reduce(
(tables, table) => {
const t = new Table;
t.model = table;
tables[table.name] = t;
return tables;
},
{}
);
}
}
module.exports = Worksheet;