xsheetjs/testnocp.ts
2023-12-05 03:19:42 -05:00

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/* xlsx.js (C) 2013-present SheetJS -- http://sheetjs.com */
/* vim: set ts=2: */
/*jshint mocha:true */
/* eslint-env mocha */
/*global process, document, require */
/*global ArrayBuffer, Uint8Array */
/*::
declare type EmptyFunc = (() => void) | null;
declare var afterEach:(test:EmptyFunc)=>void;
declare var cptable: any;
*/
import * as assert_ from 'https://deno.land/std/testing/asserts.ts';
import * as base64_ from 'https://deno.land/std/encoding/base64.ts';
const assert: any = {...assert_};
assert.throws = function(f: () => void) { assert.assertThrows(function() { try { f(); } catch(e) { throw e instanceof Error ? e : new Error(e); }})};
assert.doesNotThrow = function(f: ()=>void) { f(); };
assert.equal = assert.assertEquals;
assert.notEqual = assert.assertNotEquals;
assert.deepEqual = (x: any,y: any, z?: string) => assert.equal(JSON.stringify(x), JSON.stringify(y), z);
// @deno-types="./types/index.d.ts"
import * as X from './xlsx.mjs';
var cptable: any;
import XLSX_ZAHL from './dist/xlsx.zahl.mjs';
var DIF_XL = true;
type BSEncoding = 'utf-8' | 'binary' | 'base64';
type BFEncoding = 'buffer';
type ShEncoding = BSEncoding | BFEncoding;
function readFileSync2(x: string): Uint8Array;
function readFileSync2(x: string, e: BSEncoding): string;
function readFileSync2(x: string, e: BFEncoding): Uint8Array;
function readFileSync2(x: string, e?: ShEncoding): Uint8Array | string {
const u8 = Deno.readFileSync(x);
if(!e) return u8;
switch(e) {
case 'utf-8': return new TextDecoder().decode(u8);
case 'base64': return base64_.encode(u8);
case 'buffer': return u8;
case 'binary': return Array.from({length: u8.length}, (_,i) => String.fromCharCode(u8[i])).join("");
}
throw new Error(`unsupported encoding ${e}`)
}
var fs = {
readFileSync: readFileSync2,
existsSync: (x: string): boolean => { try { Deno.readFileSync(x); } catch(e) { return false; } return true; },
readdirSync: (x: string) => ([...Deno.readDirSync(x)].filter(x => x.isFile).map(x => x.name))
};
var browser = false;
var Buffer_from = function(data: any, enc?: string): Uint8Array {
if(data instanceof Uint8Array) return data;
if((!enc || enc == "utf8") && typeof data == "string") return new TextEncoder().encode(data);
if(enc == "binary" && typeof data == "string") return Uint8Array.from({length: data.length}, (_,i) => data[i].charCodeAt(0))
throw `unsupported encoding ${enc}`;
}
var opts: any = {cellNF: true};
var TYPE: 'buffer' = "buffer";
opts.type = TYPE;
var fullex = [".xlsb", /*".xlsm",*/ ".xlsx"/*, ".xlml", ".xls"*/];
var ofmt: X.BookType[] = ["xlsb", "xlsm", "xlsx", "ods", "biff2", "biff5", "biff8", "xlml", "sylk", "dif", "dbf", "eth", "fods", "csv", "txt", "html"];
var ex = fullex.slice(); ex = ex.concat([".ods", ".xls", ".xml", ".fods"]);
opts.WTF = true;
opts.cellStyles = true;
if(Deno.env.get("FMTS") === "full") Deno.env.set("FMTS", ex.join(":"));
if(Deno.env.get("FMTS")) ex=(Deno.env.get("FMTS")||"").split(":").map(function(x){return x[0]==="."?x:"."+x;});
var exp = ex.map(function(x: string){ return x + ".pending"; });
function test_file(x: string){ return ex.indexOf(x.slice(-5))>=0||exp.indexOf(x.slice(-13))>=0 || ex.indexOf(x.slice(-4))>=0||exp.indexOf(x.slice(-12))>=0; }
var files: string[] = [], fileA: string[] = [];
if(!browser) {
var _files = fs.existsSync('tests.lst') ? fs.readFileSync('tests.lst', 'utf-8').split("\n").map(function(x) { return x.trim(); }) : fs.readdirSync('test_files');
for(var _filesi = 0; _filesi < _files.length; ++_filesi) if(test_file(_files[_filesi])) files.push(_files[_filesi]);
var _fileA = fs.existsSync('tests/testA.lst') ? fs.readFileSync('tests/testA.lst', 'utf-8').split("\n").map(function(x) { return x.trim(); }) : [];
for(var _fileAi = 0; _fileAi < _fileA.length; ++_fileAi) if(test_file(_fileA[_fileAi])) fileA.push(_fileA[_fileAi]);
}
var can_write_numbers = typeof Set !== "undefined" && typeof Array.prototype.findIndex == "function" && typeof Uint8Array !== "undefined" && typeof Uint8Array.prototype.indexOf == "function";
/* Excel enforces 31 character sheet limit, although technical file limit is 255 */
function fixsheetname(x: string): string { return x.substr(0,31); }
function stripbom(x: string): string { return x.replace(/^\ufeff/,""); }
function fixcsv(x: string): string { return stripbom(x).replace(/\t/g,",").replace(/#{255}/g,"").replace(/"/g,"").replace(/[\n\r]+/g,"\n").replace(/\n*$/,""); }
function fixjson(x: string): string { return x.replace(/[\r\n]+$/,""); }
var dir = "./test_files/";
var dirwp = dir + "artifacts/wps/", dirqp = dir + "artifacts/quattro/";
var paths: any = {
aadbf: dirwp + 'write.dbf',
aadif: dirwp + 'write.dif',
aaxls: dirwp + 'write.xls',
aaxlsx: dirwp + 'write.xlsx',
aaxml: dirwp + 'write.xml',
abcsv: dirqp + 'write_.csv',
abdif: dirqp + 'write_.dif',
abslk: dirqp + 'write_.slk',
abx57: dirqp + 'write_57.xls',
abwb2: dirqp + 'write_6.wb2',
abwb2b: dirqp + 'write_6b.wb2',
abwb3: dirqp + 'write_8.wb3',
abqpw: dirqp + 'write_9.qpw',
abx97: dirqp + 'write_97.xls',
abwks: dirqp + 'write_L1.wks',
abwk1: dirqp + 'write_L2.wk1',
abwk3: dirqp + 'write_L3.wk3',
abwk4: dirqp + 'write_L45.wk4',
ab123: dirqp + 'write_L9.123',
ab124: dirqp + 'write_L97.123',
abwke2: dirqp + 'write_Led.wke',
abwq1: dirqp + 'write_qpdos.wq1',
abwb1: dirqp + 'write_qpw.wb1',
afxls: dir + 'AutoFilter.xls',
afxml: dir + 'AutoFilter.xml',
afods: dir + 'AutoFilter.ods',
afxlsx: dir + 'AutoFilter.xlsx',
afxlsb: dir + 'AutoFilter.xlsb',
asxls: dir + 'author_snowman.xls',
asxls5: dir + 'author_snowman.xls5',
asxml: dir + 'author_snowman.xml',
asods: dir + 'author_snowman.ods',
asxlsx: dir + 'author_snowman.xlsx',
asxlsb: dir + 'author_snowman.xlsb',
cpxls: dir + 'custom_properties.xls',
cpxml: dir + 'custom_properties.xls.xml',
cpxlsx: dir + 'custom_properties.xlsx',
cpxlsb: dir + 'custom_properties.xlsb',
cssxls: dir + 'cell_style_simple.xls',
cssxml: dir + 'cell_style_simple.xml',
cssxlsx: dir + 'cell_style_simple.xlsx',
cssxlsb: dir + 'cell_style_simple.xlsb',
cstxls: dir + 'comments_stress_test.xls',
cstxml: dir + 'comments_stress_test.xls.xml',
cstxlsx: dir + 'comments_stress_test.xlsx',
cstxlsb: dir + 'comments_stress_test.xlsb',
cstods: dir + 'comments_stress_test.ods',
cwxls: dir + 'column_width.xls',
cwxls5: dir + 'column_width.biff5',
cwxml: dir + 'column_width.xml',
cwxlsx: dir + 'column_width.xlsx',
cwxlsb: dir + 'column_width.xlsb',
cwslk: dir + 'column_width.slk',
dnsxls: dir + 'defined_names_simple.xls',
dnsxml: dir + 'defined_names_simple.xml',
dnsxlsx: dir + 'defined_names_simple.xlsx',
dnsxlsb: dir + 'defined_names_simple.xlsb',
dnsslk: dir + 'defined_names_simple.slk',
dnuxls: dir + 'defined_names_unicode.xls',
dnuxml: dir + 'defined_names_unicode.xml',
dnuods: dir + 'defined_names_unicode.ods',
dnuxlsx: dir + 'defined_names_unicode.xlsx',
dnuxlsb: dir + 'defined_names_unicode.xlsb',
dtxls: dir + 'xlsx-stream-d-date-cell.xls',
dtxml: dir + 'xlsx-stream-d-date-cell.xls.xml',
dtxlsx: dir + 'xlsx-stream-d-date-cell.xlsx',
dtxlsb: dir + 'xlsx-stream-d-date-cell.xlsb',
dtfxlsx: dir + 'DataTypesFormats.xlsx',
fstxls: dir + 'formula_stress_test.xls',
fstxml: dir + 'formula_stress_test.xls.xml',
fstxlsx: dir + 'formula_stress_test.xlsx',
fstxlsb: dir + 'formula_stress_test.xlsb',
fstods: dir + 'formula_stress_test.ods',
hlxls: dir + 'hyperlink_stress_test_2011.xls',
hlxml: dir + 'hyperlink_stress_test_2011.xml',
hlxlsx: dir + 'hyperlink_stress_test_2011.xlsx',
hlxlsb: dir + 'hyperlink_stress_test_2011.xlsb',
ilxls: dir + 'internal_link.xls',
ilxls5: dir + 'internal_link.biff5',
ilxml: dir + 'internal_link.xml',
ilxlsx: dir + 'internal_link.xlsx',
ilxlsb: dir + 'internal_link.xlsb',
ilods: dir + 'internal_link.ods',
lonxls: dir + 'LONumbers.xls',
lonxlsx: dir + 'LONumbers.xlsx',
m19xlsx: dir + 'metadata_2019.xlsx',
m19xlsb: dir + 'metadata_2019.xlsb',
mcxls: dir + 'merge_cells.xls',
mcxml: dir + 'merge_cells.xls.xml',
mcxlsx: dir + 'merge_cells.xlsx',
mcxlsb: dir + 'merge_cells.xlsb',
mcods: dir + 'merge_cells.ods',
nfxls: dir + 'number_format.xls',
nfxml: dir + 'number_format.xls.xml',
nfxlsx: dir + 'number_format.xlsm',
nfxlsb: dir + 'number_format.xlsb',
olxls: dir + 'outline.xls',
olxls5: dir + 'outline.biff5',
olxlsx: dir + 'outline.xlsx',
olxlsb: dir + 'outline.xlsb',
olods: dir + 'outline.ods',
pmxls: dir + 'page_margins_2016.xls',
pmxls5: dir + 'page_margins_2016_5.xls',
pmxml: dir + 'page_margins_2016.xml',
pmxlsx: dir + 'page_margins_2016.xlsx',
pmxlsb: dir + 'page_margins_2016.xlsb',
rhxls: dir + 'row_height.xls',
rhxls5: dir + 'row_height.biff5',
rhxml: dir + 'row_height.xml',
rhxlsx: dir + 'row_height.xlsx',
rhxlsb: dir + 'row_height.xlsb',
rhslk: dir + 'row_height.slk',
svxls: dir + 'sheet_visibility.xls',
svxls5: dir + 'sheet_visibility5.xls',
svxml: dir + 'sheet_visibility.xml',
svxlsx: dir + 'sheet_visibility.xlsx',
svxlsb: dir + 'sheet_visibility.xlsb',
svods: dir + 'sheet_visibility.ods',
swcxls: dir + 'apachepoi_SimpleWithComments.xls',
swcxml: dir + '2011/apachepoi_SimpleWithComments.xls.xml',
swcxlsx: dir + 'apachepoi_SimpleWithComments.xlsx',
swcxlsb: dir + '2013/apachepoi_SimpleWithComments.xlsx.xlsb'
};
function pathit(p: string, ext: string[]) { return ext.map(function(n) { return paths[p + n]; }); }
var FSTPaths = pathit("fst", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var CSTPaths = pathit("cst", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var MCPaths = pathit("mc", ["xlsx", "xlsb", "xls", "xml", "ods"]);
var CSSPaths = pathit("css", ["xlsx", "xlsb", "xls", "xml"]);
var NFPaths = pathit("nf", ["xlsx", "xlsb", "xls", "xml"]);
var DTPaths = pathit("dt", ["xlsx", "xlsb", "xls", "xml"]);
var HLPaths = pathit("hl", ["xlsx", "xlsb", "xls", "xml"]);
var ILPaths = pathit("il", ["xlsx", "xlsb", "xls", "xml", "ods", "xls5"]);
var OLPaths = pathit("ol", ["xlsx", "xlsb", "xls", "ods", "xls5"]);
var PMPaths = pathit("pm", ["xlsx", "xlsb", "xls", "xml", "xls5"]);
var SVPaths = pathit("sv", ["xlsx", "xlsb", "xls", "xml", "xls5"]);
var CWPaths = pathit("cw", ["xlsx", "xlsb", "xls", "xml", "xls5", "slk"]);
var RHPaths = pathit("rh", ["xlsx", "xlsb", "xls", "xml", "xls5", "slk"]);
var artifax = [
"cstods", "cstxls", "cstxlsb", "cstxlsb", "cstxml", "aadbf", "aadif",
"aaxls", "aaxml", "aaxlsx", "ab123", "ab124", "abcsv", "abdif", "abqpw",
"abslk", "abwb1", "abwb2", "abwb3", "abwk1", "abwk3", "abwk4", "abwks",
"abwq1", "abx57", "abx97", "abwke2", "abwb2b"
].map(function(x) { return paths[x]; });
async function parsetest(x: string, wb: X.WorkBook, full: boolean, ext: string, t: Deno.TestContext) {
ext = (ext ? " [" + ext + "]": "");
if(!full && ext) return;
await t.step(x + ext + ' should have all bits', async function(t) {
var sname = dir + '2016/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
if(!fs.existsSync(sname)) sname = dir + '2011/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
if(!fs.existsSync(sname)) sname = dir + '2013/' + x.substr(x.lastIndexOf('/')+1) + '.sheetnames';
await t.step('should have all sheets', async function(t) {
wb.SheetNames.forEach(function(y) { assert.assert(wb.Sheets[y], 'bad sheet ' + y); });
});
if(fs.existsSync(sname)) await t.step('should have the right sheet names', async function(t) {
var file = fs.readFileSync(sname, 'utf-8').replace(/\r/g,"");
var names = wb.SheetNames.map(fixsheetname).join("\n") + "\n";
if(file.length && !x.match(/artifacts/)) assert.equal(names, file);
});
});
await t.step(x + ext + ' should generate CSV', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_csv(wb.Sheets[ws]);
});
}
});
await t.step(x + ext + ' should generate JSON', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_json(wb.Sheets[ws]);
});
}
});
await t.step(x + ext + ' should generate formulae', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
await t.step('#' + i + ' (' + ws + ')', async function(t) {
X.utils.sheet_to_formulae(wb.Sheets[ws]);
});
}
});
if(!full) return;
var getfile = function(dir: string, x: string, i: number, type: string) {
var name = (dir + x + '.' + i + type);
var root = "";
if(x.substr(-5) === ".xlsb") {
root = x.slice(0,-5);
if(!fs.existsSync(name)) name=(dir + root + '.xlsx.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsm.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xls.' + i + type);
}
if(x.substr(-4) === ".xls") {
root = x.slice(0,-4);
if(!fs.existsSync(name)) name=(dir + root + '.xlsx.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsm.' + i + type);
if(!fs.existsSync(name)) name=(dir + root + '.xlsb.' + i + type);
}
return name;
};
await t.step(x + ext + ' should generate correct CSV output', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
var name = getfile(dir, x, i, ".csv");
if(fs.existsSync(name)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(name, 'utf-8');
var csv = X.utils.sheet_to_csv(wb.Sheets[ws]);
assert.equal(fixcsv(csv), fixcsv(file), "CSV badness");
});
}
});
if(typeof JSON !== 'undefined') await t.step(x + ext + ' should generate correct JSON output', async function(t) {
for(var i = 0; i < wb.SheetNames.length; ++i) { var ws = wb.SheetNames[i];
var rawjson = getfile(dir, x, i, ".rawjson");
if(fs.existsSync(rawjson)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(rawjson, 'utf-8');
var json: Array<any> = X.utils.sheet_to_json(wb.Sheets[ws],{raw:true});
assert.equal(JSON.stringify(json), fixjson(file), "JSON badness");
});
var jsonf = getfile(dir, x, i, ".json");
if(fs.existsSync(jsonf)) await t.step('#' + i + ' (' + ws + ')', async function(t) {
var file = fs.readFileSync(jsonf, 'utf-8');
var json: Array<any> = X.utils.sheet_to_json(wb.Sheets[ws], {raw:false});
assert.equal(JSON.stringify(json), fixjson(file), "JSON badness");
});
}
});
if(fs.existsSync(dir + '2011/' + x + '.xml'))
await t.step(x + ext + '.xml from 2011', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + '2011/' + x + '.xml', opts);
});
});
if(fs.existsSync(dir + '2013/' + x + '.xlsb'))
await t.step(x + ext + '.xlsb from 2013', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + '2013/' + x + '.xlsb', opts);
});
});
if(fs.existsSync(dir + x + '.xml' + ext))
await t.step(x + '.xml', async function(t) {
await t.step('should parse', async function(t) {
/*var wb = */X.readFile(dir + x + '.xml', opts);
});
});
}
Deno.test('should parse test files', async function(t) {
var idx = 0, x = "";
for(idx = 0; idx < files.length; ++idx) { var x = files[idx];
if(x.slice(-8) == ".pending" || !fs.existsSync(dir + x)) continue;
await t.step(x, async function(t) {
var _wb = X.readFile(dir + x, opts);
await parsetest(x, _wb, true, "", t);
for(var fidx = 0; fidx < fullex.length; ++fidx) { var ext = fullex[fidx];
await t.step(x + ' [' + ext + ']', async function(t){
var wb = _wb;
wb = X.read(X.write(wb, {type:"buffer", bookType:(ext.replace(/\./,"") as X.BookType)}), {WTF:opts.WTF, cellNF: true});
await parsetest(x, wb, ext.replace(/\./,"") !== "xlsb", ext, t);
});
}
});
}
for(idx = 0; idx < fileA.length; ++idx) { var x = fileA[idx];
if(x.slice(-8) == ".pending" || !fs.existsSync(dir + x)) continue;
await t.step(x, async function(t) {
var wb = X.readFile(dir + x, {WTF:opts.WTF, sheetRows:10});
await parsetest(x, wb, false, "", t);
});
}
});
function get_cell(ws: X.WorkSheet, addr: string) {
if(!Array.isArray(ws)) return ws[addr];
var a = X.utils.decode_cell(addr);
return (ws[a.r]||[])[a.c];
}
function each_cell(ws: X.WorkSheet, f: (c: X.CellObject) => any) {
if(Array.isArray(ws)) ws.forEach(function(row) { if(row) row.forEach(f); });
else Object.keys(ws).forEach(function(addr) { if(addr[0] === "!" || !ws.hasOwnProperty(addr)) return; f(ws[addr]); });
}
function each_sheet(wb: X.WorkBook, f: (ws: X.WorkSheet, i: number)=>any) { wb.SheetNames.forEach(function(n, i) { f(wb.Sheets[n], i); }); }
/* comments_stress_test family */
function check_comments(wb: X.WorkBook) {
var ws0 = wb.Sheets["Sheet2"];
assert.equal(get_cell(ws0,"A1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"A1").c[0].t, 'Author:\nGod thinks this is good');
assert.equal(get_cell(ws0,"C1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"C1").c[0].t, 'I really hope that xlsx decides not to use magic like rPr');
var ws3 = wb.Sheets["Sheet4"];
assert.equal(get_cell(ws3,"B1").c[0].a, 'Author');
assert.equal(get_cell(ws3,"B1").c[0].t, 'The next comment is empty');
assert.equal(get_cell(ws3,"B2").c[0].a, 'Author');
assert.equal(get_cell(ws3,"B2").c[0].t, '');
}
Deno.test('parse options', async function(t) {
var html_cell_types = ['s'];
await t.step('cell', async function(t) {
await t.step('XLSX should generate HTML by default', async function(t) {
var wb = X.read(fs.readFileSync(paths.cstxlsx), {type:TYPE});
var ws = wb.Sheets["Sheet1"];
each_cell(ws, function(cell) {
assert.assert(html_cell_types.indexOf(cell.t) === -1 || cell.h);
});
});
await t.step('XLSX should not generate HTML when requested', async function(t) {
var wb = X.read(fs.readFileSync(paths.cstxlsx), {type:TYPE, cellHTML:false});
var ws = wb.Sheets["Sheet1"];
each_cell(ws, function(cell) {
assert.assert(typeof cell.h === 'undefined');
});
});
await t.step('should generate formulae by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
var found = false;
wb.SheetNames.forEach(function(s) {
each_cell(wb.Sheets[s], function(cell) {
if(typeof cell.f !== 'undefined') return (found = true);
});
});
assert.assert(found);
});
});
await t.step('should not generate formulae when requested', async function(t) {
FSTPaths.forEach(function(p) {
var wb =X.read(fs.readFileSync(p),{type:TYPE,cellFormula:false});
wb.SheetNames.forEach(function(s) {
each_cell(wb.Sheets[s], function(cell) {
assert.assert(typeof cell.f === 'undefined');
});
});
});
});
await t.step('should generate formatted text by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p),{type:TYPE});
var found = false;
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
if(typeof cell.w !== 'undefined') return (found = true);
});
});
assert.assert(found);
});
});
await t.step('should not generate formatted text when requested', async function(t) {
FSTPaths.forEach(function(p) {
var wb =X.read(fs.readFileSync(p),{type:TYPE, cellText:false});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.w === 'undefined');
});
});
});
});
await t.step('should not generate number formats by default', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.z === 'undefined');
});
});
});
});
await t.step('should generate number formats when requested', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellNF: true});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(cell.t!== 'n' || typeof cell.z !== 'undefined');
});
});
});
});
await t.step('should not generate cell styles by default', async function(t) {
CSSPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, WTF:true});
wb.SheetNames.forEach(function(s) {
var ws = wb.Sheets[s];
each_cell(ws, function(cell) {
assert.assert(typeof cell.s === 'undefined');
});
});
});
});
await t.step('should generate cell styles when requested', async function(t) {
/* TODO: XLS / XLML */
[paths.cssxlsx /*, paths.cssxlsb, paths.cssxls, paths.cssxml*/].forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true});
var found = false;
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
if(typeof cell.s !== 'undefined') return (found = true);
}); });
assert.assert(found);
});
});
await t.step('should not generate cell dates by default', async function(t) {
DTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
assert.assert(cell.t !== 'd');
}); });
});
});
await t.step('should generate cell dates when requested', async function(t) {
DTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, cellDates: true, WTF:true});
var found = false;
each_sheet(wb, function(ws/*::, i*/) { /*:: void i; */each_cell(ws, function(cell) {
if(cell.t === 'd') return (found = true);
}); });
assert.assert(found);
});
});
await t.step('should preserve `_xlfn.` only when requested', async function(t) {
var wb = { SheetNames: ["Sheet1"], Sheets: { Sheet1: {
"!ref": "A1:A1",
"A1": { t:"n", v:2, f:"_xlfn.IFS(2>3,1,3>2,2)"}
} } };
var str = X.write(wb, {bookType: "xlsx", type: "binary"});
var wb2 = X.read(str, {type: "binary"});
/*jshint -W069 */
assert.equal(wb2.Sheets["Sheet1"]["A1"].f, "IFS(2>3,1,3>2,2)");
var wb3 = X.read(str, {type: "binary", xlfn: true});
assert.equal(wb3.Sheets["Sheet1"]["A1"].f, "_xlfn.IFS(2>3,1,3>2,2)");
/*jshint +W069 */
});
});
await t.step('sheet', async function(t) {
await t.step('should not generate sheet stubs by default', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
assert.throws(function() { return get_cell(wb.Sheets["Merge"], "A2").v; });
});
});
await t.step('should generate sheet stubs when requested', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, sheetStubs:true});
assert.assert(get_cell(wb.Sheets["Merge"], "A2").t == 'z');
});
});
await t.step('should handle stub cells', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, sheetStubs:true});
X.utils.sheet_to_csv(wb.Sheets["Merge"]);
X.utils.sheet_to_json(wb.Sheets["Merge"]);
X.utils.sheet_to_formulae(wb.Sheets["Merge"]);
ofmt.forEach(function(f) { if(f != "dbf") X.write(wb, {type:TYPE, bookType:f}); });
});
});
function checkcells(wb: X.WorkBook, A46: boolean, B26: boolean, C16: boolean, D2: boolean) {
([ ["A46", A46], ["B26", B26], ["C16", C16], ["D2", D2] ] as Array<[string, boolean]>).forEach(function(r: [string, boolean]) {
assert.assert((typeof get_cell(wb.Sheets["Text"], r[0]) !== 'undefined') == r[1]);
});
}
await t.step('should read all cells by default', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE}), true, true, true, true);
}); });
await t.step('sheetRows n=30', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:30}), false, true, true, true);
}); });
await t.step('sheetRows n=20', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:20}), false, false, true, true);
}); });
await t.step('sheetRows n=10', async function(t) { FSTPaths.forEach(function(p) {
checkcells(X.read(fs.readFileSync(p), {type:TYPE, sheetRows:10}), false, false, false, true);
}); });
await t.step('sheetRows n=1', async function(t) { ofmt.forEach(function(fmt) {
([TYPE, "base64", "binary", "array"] as Array<'binary' | 'base64' | 'binary' | 'array'>).forEach(function(ot) {
var data = [[1,2],[3,4],[5,6]];
var ws = X.utils.aoa_to_sheet(data);
assert.assert(ws['!ref'] === "A1:B3");
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, ws, "Sheet1");
var bs = X.write(wb, { bookType: fmt, type: ot, WTF:true });
var wb0 = X.read(bs, { type: ot, WTF:true });
var ws0 = wb0.Sheets["Sheet1"];
assert.equal(ws0['!ref'], "A1:B3");
assert.equal(get_cell(ws0, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws0, "B2").v, 4);
assert.equal(get_cell(ws0, "A3").v, 5);
var wb1 = X.read(bs, { type: ot, sheetRows: 1 });
var ws1 = wb1.Sheets["Sheet1"];
assert.equal(ws1['!ref'], "A1:B1");
assert.equal(get_cell(ws1, "A1").v, fmt == "dbf" ? "1" : 1);
assert.assert(!get_cell(ws1, "B2"));
assert.assert(!get_cell(ws1, "A3"));
if(ws1['!fullref']) assert.equal(ws1['!fullref'], "A1:B3");
var wb2 = X.read(bs, { type: ot, sheetRows: 2 });
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2['!ref'], "A1:B2");
assert.equal(get_cell(ws2, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws2, "B2").v, 4);
assert.assert(!get_cell(ws2, "A3"));
if(ws2['!fullref']) assert.equal(ws2['!fullref'], "A1:B3");
var wb3 = X.read(bs, { type: ot, sheetRows: 3 });
var ws3 = wb3.Sheets["Sheet1"];
assert.equal(ws3['!ref'], "A1:B3");
assert.equal(get_cell(ws3, "A1").v, fmt == "dbf" ? "1" : 1);
assert.equal(get_cell(ws3, "B2").v, 4);
assert.equal(get_cell(ws3, "A3").v, 5);
if(ws3['!fullref']) assert.equal(ws3['!fullref'], "A1:B3");
}); }); });
});
await t.step('book', async function(t) {
await t.step('bookSheets should not generate sheets', async function(t) {
MCPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookSheets:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
await t.step('bookProps should not generate sheets', async function(t) {
NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookProps:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
await t.step('bookProps && bookSheets should not generate sheets', async function(t) {
PMPaths.forEach(function(p) {
if(!fs.existsSync(p)) return;
var wb = X.read(fs.readFileSync(p), {type:TYPE, bookProps:true, bookSheets:true});
assert.assert(typeof wb.Sheets === 'undefined');
});
});
var FSTXL = [
[paths.fstxlsx, true],
[paths.fstxlsb, true],
[paths.fstxls, false]
];
await t.step('should not generate deps by default', async function(t) {
FSTPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE});
//assert.assert(typeof wb.Deps === 'undefined' || !(wb.Deps && wb.Deps.length>0));
});
});
await t.step('bookDeps should generate deps (XLSX/XLSB)', async function(t) {
FSTXL.forEach(function(p) {
if(!p[1]) return;
var wb = X.read(fs.readFileSync(p[0]), {type:TYPE, bookDeps:true});
//assert.assert(typeof wb.Deps !== 'undefined' && wb.Deps.length > 0);
});
});
var ckf = function(wb: X.WorkBook, fields: string[], exists: boolean) { fields.forEach(function(f) { assert.assert((typeof (wb as any)[f] !== 'undefined') == exists); }); };
await t.step('should not generate book files by default', async function(t) {FSTXL.forEach(function(r) {
var wb = X.read(fs.readFileSync(r[0]), {type:TYPE});
ckf(wb, r[1] ? ['files', 'keys'] : ['cfb'], false);
}); });
await t.step('bookFiles should generate book files', async function(t) {FSTXL.forEach(function(r) {
var wb = X.read(fs.readFileSync(r[0]), {type:TYPE, bookFiles:true});
ckf(wb, r[1] ? ['files', 'keys'] : ['cfb'], true);
}); });
var NFVBA = ["nfxlsx", "nfxlsb", "nfxls"].map(function(n) { return paths[n]; });
await t.step('should not generate VBA by default', async function(t) { NFPaths.forEach(function(p) {
var wb = X.read(fs.readFileSync(p), {type:TYPE}); assert.assert(typeof wb.vbaraw === 'undefined');
}); });
await t.step('bookVBA should generate vbaraw', async function(t) { NFVBA.forEach(function(p) {
var wb = X.read(fs.readFileSync(p),{type: TYPE, bookVBA: true});
assert.assert(wb.vbaraw);
var cfb = X.CFB.read(wb.vbaraw, {type: 'array'});
assert.assert(X.CFB.find(cfb, '/VBA/ThisWorkbook'));
}); });
});
});
Deno.test('input formats', async function(t) {
await t.step('should read binary strings', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'binary'), {type: 'binary'});
}); });
await t.step('should read base64 strings', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'base64'), {type: 'base64'});
}); });
await t.step('handles base64 within data URI scheme (gh-2762)', async function(t) {
var data = 'TmFtZXMNCkhhZmV6DQpTYW0NCg==';
var wb0 = X.read(data, { type: 'base64' }); // raw base64 string
var wb1 = X.read('data:;base64,' + data, { type: 'base64' }); // data URI, no media type
var wb2 = X.read('data:text/csv;base64,' + data, { type: 'base64' }); // data URI, CSV type
var wb3 = X.read('data:application/vnd.ms-excel;base64,' + data, { type: 'base64' }); // data URI, Excel
[wb0, wb1, wb2, wb3].forEach(function(wb) {
var ws = wb.Sheets.Sheet1;
assert.equal(ws["!ref"], "A1:A3");
assert.equal(get_cell(ws, "A1").v, "Names");
assert.equal(get_cell(ws, "A2").v, "Hafez");
assert.equal(get_cell(ws, "A3").v, "Sam");
});
});
if(typeof Uint8Array !== 'undefined') await t.step('should read array', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p, 'binary').split("").map(function(x) { return x.charCodeAt(0); }), {type:'array'});
}); });
await t.step('should read Buffers', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p), {type: 'buffer'});
}); });
if(typeof Uint8Array !== 'undefined') await t.step('should read ArrayBuffer / Uint8Array', async function(t) { artifax.forEach(function(p) {
var payload: any = fs.readFileSync(p, "buffer");
var ab = new ArrayBuffer(payload.length), vu = new Uint8Array(ab);
for(var i = 0; i < payload.length; ++i) vu[i] = payload[i];
X.read(ab, {type: 'array'});
X.read(vu, {type: 'array'});
}); });
await t.step('should throw if format is unknown', async function(t) { artifax.forEach(function(p) {
assert.throws(function() { X.read(fs.readFileSync(p), ({type: 'dafuq'} as any)); });
}); });
var T = browser ? 'base64' : 'buffer';
await t.step('should default to "' + T + '" type', async function(t) { artifax.forEach(function(p) {
X.read(fs.readFileSync(p));
}); });
if(!browser) await t.step('should read files', async function(t) { artifax.forEach(function(p) { X.readFile(p); }); });
});
Deno.test('output formats', async function(t) {
var fmts = [
/* fmt unicode str */
["xlsx", true, false],
["xlsb", true, false],
["xls", true, false],
["xlml", true, true],
["ods", true, false],
["fods", true, true],
["csv", true, true],
["txt", true, true],
["rtf", false, true],
["sylk", false, true],
["eth", false, true],
["html", true, true],
["dif", false, true],
["dbf", false, false],
["prn", false, true]
];
function RT(T: 'string' | 'binary' | 'base64' | 'array' | 'buffer') {
fmts.forEach(function(fmt) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([['R',"\u2603"],["\u0BEE",2]]), "Sheet1");
if(T == 'string' && !fmt[2]) return assert.throws(function() {X.write(wb, {type: T, bookType:(fmt[0] as X.BookType), WTF:true});});
var out = X.write(wb, {type: T, bookType:(fmt[0] as X.BookType), WTF:true});
var nwb = X.read(out, {type: T, PRN: fmt[0] == 'prn', WTF:true});
var nws = nwb.Sheets[nwb.SheetNames[0]];
assert.equal(get_cell(nws, "B2").v, 2);
assert.equal(get_cell(nws, "A1").v, "R");
if(fmt[1] && fmt[0] != "txt") assert.equal(get_cell(nws, "A2").v, "\u0BEE");
if(fmt[1] && fmt[0] != "txt") assert.equal(get_cell(nws, "B1").v, "\u2603");
});
}
await t.step('should write binary strings', async function(t) { RT('binary'); });
await t.step('should write base64 strings', async function(t) { RT('base64'); });
await t.step('should write JS strings', async function(t) { RT('string'); });
if(typeof ArrayBuffer !== 'undefined') await t.step('should write array buffers', async function(t) { RT('array'); });
if(!browser) await t.step('should write buffers', async function(t) { RT('buffer'); });
await t.step('should throw if format is unknown', async function(t) { assert.throws(function() { RT('dafuq' as any); }); });
});
function eqarr(a: any[],b: any[]) {
assert.equal(a.length, b.length);
a.forEach(function(x, i) { assert.equal(x, b[i]); });
}
Deno.test('API', async function(t) {
await t.step('book_append_sheet', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]), "A");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]), "B");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2,3],[4],[5]]));
eqarr(wb.SheetNames, ["A","Sheet1","Sheet2","B","Sheet3"]);
});
await t.step('sheet_add_json', async function(t) {
var ws = X.utils.json_to_sheet([{A:"S", B:"h", C:"e", D:"e", E:"t", F:"J", G:"S"}], {header:["A","B","C","D","E","F","G"], skipHeader:true});
X.utils.sheet_add_json(ws, [{A:1, B:2}, {A:2, B:3}, {A:3, B:4}], {skipHeader:true, origin:"A2"});
X.utils.sheet_add_json(ws, [{A:5, B:6, C:7}, {A:6, B:7, C:8}, {A:7, B:8, C:9}], {skipHeader:true, origin:{r:1, c:4}, header:["A","B","C"]});
X.utils.sheet_add_json(ws, [{A:4, B:5, C:6, D:7, E:8, F:9, G:0}], {header:["A","B","C","D","E","F","G"], skipHeader:true, origin:-1});
assert.equal(X.utils.sheet_to_csv(ws).trim(), "S,h,e,e,t,J,S\n1,2,,,5,6,7\n2,3,,,6,7,8\n3,4,,,7,8,9\n4,5,6,7,8,9,0");
});
await t.step('sheet_add_aoa', async function(t) {
var ws = X.utils.aoa_to_sheet([ "SheetJS".split("") ]);
X.utils.sheet_add_aoa(ws, [[1,2], [2,3], [3,4]], {origin: "A2"});
X.utils.sheet_add_aoa(ws, [[5,6,7], [6,7,8], [7,8,9]], {origin:{r:1, c:4}});
X.utils.sheet_add_aoa(ws, [[4,5,6,7,8,9,0]], {origin: -1});
assert.equal(X.utils.sheet_to_csv(ws).trim(), "S,h,e,e,t,J,S\n1,2,,,5,6,7\n2,3,,,6,7,8\n3,4,,,7,8,9\n4,5,6,7,8,9,0");
});
await t.step('sheet_add_aoa support object cell', async function(t) {
var data = X.utils.aoa_to_sheet([
['url', 'name', 'id'],
[ { l: { Target: 'https://123.com' }, v: 'url', t: 's' }, 'tom', 'xxx' ]
]);
if(assert.deepEqual) assert.deepEqual(data.A2, { l: { Target: 'https://123.com' }, v: 'url', t: 's' });
});
await t.step('decode_range', async function(t) {
var _c = "ABC", _r = "123", _C = "DEF", _R = "456";
var r = X.utils.decode_range(_c + _r + ":" + _C + _R);
assert.assert(r.s != r.e);
assert.equal(r.s.c, X.utils.decode_col(_c)); assert.equal(r.s.r, X.utils.decode_row(_r));
assert.equal(r.e.c, X.utils.decode_col(_C)); assert.equal(r.e.r, X.utils.decode_row(_R));
r = X.utils.decode_range(_c + _r);
assert.assert(r.s != r.e);
assert.equal(r.s.c, X.utils.decode_col(_c)); assert.equal(r.s.r, X.utils.decode_row(_r));
assert.equal(r.e.c, X.utils.decode_col(_c)); assert.equal(r.e.r, X.utils.decode_row(_r));
});
});
function coreprop(props: X.Properties) {
assert.equal(props.Title, 'Example with properties');
assert.equal(props.Subject, 'Test it before you code it');
assert.equal(props.Author, 'Pony Foo');
assert.equal(props.Manager, 'Despicable Drew');
assert.equal(props.Company, 'Vector Inc');
assert.equal(props.Category, 'Quirky');
assert.equal(props.Keywords, 'example humor');
assert.equal(props.Comments, 'some comments');
assert.equal(props.LastAuthor, 'Hugues');
}
function custprop(props: any) {
assert.equal(props['I am a boolean'], true);
assert.equal(props['Date completed'].toISOString(), '1967-03-09T16:30:00.000Z');
assert.equal(props.Status, 2);
assert.equal(props.Counter, -3.14);
}
function cmparr(x: any[]){ for(var i=1;i<x.length;++i) assert.deepEqual(x[0], x[i]); }
function deepcmp(x: any, y: any, k: string, m?: string, c: number = 0): void {
var s = k.indexOf(".");
m = (m||"") + "|" + (s > -1 ? k.substr(0,s) : k);
if(s < 0) return assert[c<0?'notEqual':'equal'](x[k], y[k], m);
return deepcmp(x[k.substr(0,s)],y[k.substr(0,s)],k.substr(s+1),m,c);
}
var styexc = [
'A2|H10|bgColor.rgb',
'F6|H1|patternType'
];
var stykeys = [
"patternType",
"fgColor.rgb",
"bgColor.rgb"
];
function diffsty(ws: X.WorkSheet, r1: string,r2: string) {
var c1 = get_cell(ws,r1).s, c2 = get_cell(ws,r2).s;
stykeys.forEach(function(m) {
var c = -1;
if(styexc.indexOf(r1+"|"+r2+"|"+m) > -1) c = 1;
else if(styexc.indexOf(r2+"|"+r1+"|"+m) > -1) c = 1;
deepcmp(c1,c2,m,r1+","+r2,c);
});
}
function hlink1(ws: X.WorkSheet) {[
["A1", "http://www.sheetjs.com"],
["A2", "http://oss.sheetjs.com"],
["A3", "http://oss.sheetjs.com#foo"],
["A4", "mailto:dev@sheetjs.com"],
["A5", "mailto:dev@sheetjs.com?subject=hyperlink"],
["A6", "../../sheetjs/Documents/Test.xlsx"],
["A7", "http://sheetjs.com", "foo bar baz"]
].forEach(function(r) {
assert.equal(get_cell(ws, r[0]).l.Target, r[1]);
if(r[2]) assert.equal(get_cell(ws, r[0]).l.Tooltip, r[2]);
}); }
function hlink2(ws: X.WorkSheet) { [
["A1", "#Sheet2!A1"],
["A2", "#WBScope"],
["A3", "#Sheet1!WSScope1", "#Sheet1!C7:E8"],
["A5", "#Sheet1!A5"]
].forEach(function(r) {
if(r[2] && get_cell(ws, r[0]).l.Target == r[2]) return;
assert.equal(get_cell(ws, r[0]).l.Target, r[1]);
}); }
function check_margin(margins: X.MarginInfo, exp: number[]) {
(["left", "right", "top", "bottom", "header", "footer"] as Array<keyof X.MarginInfo>).forEach(function(m: keyof X.MarginInfo, i: number) {
assert.equal(margins[m], exp[i]);
});
}
Deno.test('parse features', async function(t) {
await t.step('sheet visibility', async function(t) {
var wbs = SVPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE}); });
await t.step('should detect visible sheets', async function(t) {
wbs.forEach(function(wb) {
assert.assert(!wb?.Workbook?.Sheets?.[0]?.Hidden);
});
});
await t.step('should detect all hidden sheets', async function(t) {
wbs.forEach(function(wb) {
assert.assert(wb?.Workbook?.Sheets?.[1]?.Hidden);
assert.assert(wb?.Workbook?.Sheets?.[2]?.Hidden);
});
});
await t.step('should distinguish very hidden sheets', async function(t) {
wbs.forEach(function(wb) {
assert.equal(wb?.Workbook?.Sheets?.[1]?.Hidden,1);
assert.equal(wb?.Workbook?.Sheets?.[2]?.Hidden,2);
});
});
});
await t.step('comments', async function(t) {
if(fs.existsSync(paths.swcxlsx)) await t.step('should have comment as part of cell properties', async function(t){
var sheet = 'Sheet1';
var wb1=X.read(fs.readFileSync(paths.swcxlsx), {type:TYPE});
var wb2=X.read(fs.readFileSync(paths.swcxlsb), {type:TYPE});
var wb3=X.read(fs.readFileSync(paths.swcxls), {type:TYPE});
var wb4=X.read(fs.readFileSync(paths.swcxml), {type:TYPE});
[wb1,wb2,wb3,wb4].map(function(wb: X.WorkBook) { return wb.Sheets[sheet]; }).forEach(function(ws, i) {
assert.equal(get_cell(ws, "B1").c.length, 1,"must have 1 comment");
assert.equal(get_cell(ws, "B1").c[0].a, "Yegor Kozlov","must have the same author");
assert.equal(get_cell(ws, "B1").c[0].t, "Yegor Kozlov:\nfirst cell", "must have the concatenated texts");
if(i > 0) return;
assert.equal(get_cell(ws, "B1").c[0].r, '<r><rPr><b/><sz val="8"/><color indexed="81"/><rFont val="Tahoma"/></rPr><t>Yegor Kozlov:</t></r><r><rPr><sz val="8"/><color indexed="81"/><rFont val="Tahoma"/></rPr><t xml:space="preserve">\r\nfirst cell</t></r>', "must have the rich text representation");
assert.equal(get_cell(ws, "B1").c[0].h, '<span style="font-size:8pt;"><b>Yegor Kozlov:</b></span><span style="font-size:8pt;"><br/>first cell</span>', "must have the html representation");
});
});
var stst = [
['xlsx', paths.cstxlsx],
['xlsb', paths.cstxlsb],
['xls', paths.cstxls],
['xlml', paths.cstxml],
['ods', paths.cstods]
]; for(var ststi = 0; ststi < stst.length; ++ststi) { let m = stst[ststi]; await t.step(m[0] + ' stress test', async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
check_comments(wb);
var ws0 = wb.Sheets["Sheet2"];
assert.equal(get_cell(ws0,"A1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"A1").c[0].t, 'Author:\nGod thinks this is good');
assert.equal(get_cell(ws0,"C1").c[0].a, 'Author');
assert.equal(get_cell(ws0,"C1").c[0].t, 'I really hope that xlsx decides not to use magic like rPr');
}); }
});
await t.step('should parse core properties and custom properties', async function(t) {
var wbs = [
X.read(fs.readFileSync(paths.cpxlsx), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxlsb), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxls), {type:TYPE, WTF:true}),
X.read(fs.readFileSync(paths.cpxml), {type:TYPE, WTF:true})
];
var s1 = ['XLSX', 'XLSB', 'XLS', 'XML']; for(var i = 0; i < s1.length; ++i) { let x = s1[i];
await t.step(x + ' should parse core properties', async function(t) { var P = wbs?.[i]?.Props; if(typeof P == "undefined") throw "missing props"; coreprop(P); });
await t.step(x + ' should parse custom properties', async function(t) { custprop(wbs?.[i]?.Custprops); });
}
var s2 = [
//["asxls", "BIFF8", "\u2603"],
["asxls5", "BIFF5", "_"],
["asxml", "XLML", "\u2603"],
["asods", "ODS", "God"],
["asxlsx", "XLSX", "\u2603"],
["asxlsb", "XLSB", "\u2603"]
]; for(var ii = 0; ii < s2.length; ++ii) { let x = s2[ii];
await t.step(x[1] + ' should read ' + (x[2] == "\u2603" ? 'unicode ' : "") + 'author', async function(t) {
var wb = X.read(fs.readFileSync(paths[x[0]]), {type:TYPE});
assert.equal(wb?.Props?.Author, x[2]);
}); }
var BASE = "இராமா";
/* TODO: ODS, XLS */
var s3:Array<X.BookType> = [ "xlsx", "xlsb", "xlml"/*, "ods", "xls" */]; for(var i = 0; i < s3.length; ++i) { let n = s3[i];
await t.step(n + ' should round-trip unicode category', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([["a"]]), "Sheet1");
if(!wb.Props) wb.Props = {};
(wb.Props || (wb.Props = {})).Category = BASE;
var wb2 = X.read(X.write(wb, {bookType:n, type:TYPE}), {type:TYPE});
assert.equal(wb2?.Props?.Category,BASE);
}); }
});
await t.step('sheetRows', async function(t) {
await t.step('should use original range if not set', async function(t) {
var opts: X.ParsingOptions = {type:TYPE};
FSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); }).forEach(function(wb) {
assert.equal(wb.Sheets["Text"]["!ref"],"A1:F49");
});
});
await t.step('should adjust range if set', async function(t) {
var opts = {type:TYPE, sheetRows:10};
var wbs = FSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); });
/* TODO: XLS, XML, ODS */
wbs.slice(0,2).forEach(function(wb) {
assert.equal(wb.Sheets["Text"]["!fullref"],"A1:F49");
assert.equal(wb.Sheets["Text"]["!ref"],"A1:F10");
});
});
await t.step('should not generate comment cells', async function(t) {
var opts = {type:TYPE, sheetRows:10};
var wbs = CSTPaths.map(function(p) { return X.read(fs.readFileSync(p), opts); });
/* TODO: XLS, XML, ODS */
wbs.slice(0,2).forEach(function(wb) {
assert.equal(wb.Sheets["Sheet7"]["!fullref"],"A1:N34");
assert.equal(wb.Sheets["Sheet7"]["!ref"],"A1");
});
});
});
await t.step('column properties', async function(t) {
var wbs: X.WorkBook[] = [], wbs_no_slk: X.WorkBook[] = [];
wbs = CWPaths.map(function(n) { return X.read(fs.readFileSync(n), {type:TYPE, cellStyles:true}); });
wbs_no_slk = wbs.slice(0, 5);
await t.step('should have "!cols"', async function(t) {
wbs.forEach(function(wb) { assert.assert(wb.Sheets["Sheet1"]['!cols']); });
});
await t.step('should have correct widths', async function(t) {
/* SYLK rounds wch so skip non-integral */
wbs_no_slk.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[1]?.width, 0.1640625);
assert.equal(x?.[2]?.width, 16.6640625);
assert.equal(x?.[3]?.width, 1.6640625);
});
wbs.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[4]?.width, 4.83203125);
assert.equal(x?.[5]?.width, 8.83203125);
assert.equal(x?.[6]?.width, 12.83203125);
assert.equal(x?.[7]?.width, 16.83203125);
});
});
await t.step('should have correct pixels', async function(t) {
/* SYLK rounds wch so skip non-integral */
wbs_no_slk.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[1].wpx, 1);
assert.equal(x?.[2].wpx, 100);
assert.equal(x?.[3].wpx, 10);
});
wbs.map(function(x) { return x.Sheets["Sheet1"]['!cols']; }).forEach(function(x) {
assert.equal(x?.[4].wpx, 29);
assert.equal(x?.[5].wpx, 53);
assert.equal(x?.[6].wpx, 77);
assert.equal(x?.[7].wpx, 101);
});
});
});
await t.step('row properties', async function(t) {
var wbs = RHPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true}); });
/* */
var ols = OLPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, cellStyles:true}); });
await t.step('should have "!rows"', async function(t) {
wbs.forEach(function(wb) { assert.assert(wb.Sheets["Sheet1"]['!rows']); });
});
await t.step('should have correct points', async function(t) {
wbs.map(function(x) { return x.Sheets["Sheet1"]['!rows']; }).forEach(function(x) {
assert.equal(x?.[1].hpt, 1);
assert.equal(x?.[2].hpt, 10);
assert.equal(x?.[3].hpt, 100);
});
});
await t.step('should have correct pixels', async function(t) {
wbs.map(function(x) { return x.Sheets["Sheet1"]['!rows']; }).forEach(function(x) {
/* note: at 96 PPI hpt == hpx */
assert.equal(x?.[1].hpx, 1);
assert.equal(x?.[2].hpx, 10);
assert.equal(x?.[3].hpx, 100);
});
});
await t.step('should have correct outline levels', async function(t) {
ols.map(function(x) { return x.Sheets["Sheet1"]; }).forEach(function(ws) {
var rows = ws['!rows'];
for(var i = 0; i < 29; ++i) {
var cell = get_cell(ws, "A" + X.utils.encode_row(i));
var lvl = (rows?.[i]||{}).level||0;
if(!cell || cell.t == 's') assert.equal(lvl, 0);
else if(cell.t == 'n') {
if(cell.v === 0) assert.equal(lvl, 0);
else assert.equal(lvl, cell.v);
}
}
assert.equal(rows?.[29]?.level, 7);
});
});
});
await t.step('merge cells',async function(t) {
var wbs = MCPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE}); });
await t.step('should have !merges', async function(t) {
wbs.forEach(function(wb) {
assert.assert(wb.Sheets["Merge"]['!merges']);
});
var m = wbs.map(function(x) { return x.Sheets["Merge"]?.['!merges']?.map(function(y) { return X.utils.encode_range(y); });});
m?.slice(1)?.forEach(function(x) {
assert.deepEqual(m?.[0]?.sort(),x?.sort());
});
});
});
await t.step('should find hyperlinks', async function(t) {
var wb1 = HLPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var wb2 = ILPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var ext1 = ['xlsx', 'xlsb', 'xls', 'xml']; for(let i = 0; i < ext1.length; ++i) { let x = ext1[i];
await t.step(x + " external", async function(t) { hlink1(wb1[i].Sheets["Sheet1"]); });
}
var ext2 = ['xlsx', 'xlsb', 'xls', 'xml', 'ods']; for(let i = 0; i < ext2.length; ++i) { let x = ext2[i];
await t.step(x + " internal", async function(t) { hlink2(wb2[i].Sheets["Sheet1"]); });
}
});
await t.step('should parse cells with date type (XLSX/XLSM)', async function(t) {
await t.step('Must have read the date', async function(t) {
var wb: X.WorkBook, ws: X.WorkSheet;
var sheetName = 'Sheet1';
wb = X.read(fs.readFileSync(paths.dtxlsx), {type:TYPE});
ws = wb.Sheets[sheetName];
var sheet: Array<any> = X.utils.sheet_to_json(ws, {raw: false});
assert.equal(sheet[3]['てすと'], '2/14/14');
});
await t.step('cellDates should not affect formatted text', async function(t) {
var sheetName = 'Sheet1';
var ws1 = X.read(fs.readFileSync(paths.dtxlsx), {type:TYPE}).Sheets[sheetName];
var ws2 = X.read(fs.readFileSync(paths.dtxlsb), {type:TYPE}).Sheets[sheetName];
assert.equal(X.utils.sheet_to_csv(ws1),X.utils.sheet_to_csv(ws2));
});
});
await t.step('cellDates', async function(t) {
var fmts = [
/* desc path sheet cell formatted */
['XLSX', paths.dtxlsx, 'Sheet1', 'B5', '2/14/14'],
['XLSB', paths.dtxlsb, 'Sheet1', 'B5', '2/14/14'],
['XLS', paths.dtxls, 'Sheet1', 'B5', '2/14/14'],
['XLML', paths.dtxml, 'Sheet1', 'B5', '2/14/14'],
['XLSM', paths.nfxlsx, 'Implied', 'B13', '18-Oct-33']
];
await t.step('should not generate date cells by default', async function(t) { fmts.forEach(function(f) {
var wb, ws;
wb = X.read(fs.readFileSync(f[1]), {type:TYPE});
ws = wb.Sheets[f[2]];
assert.equal(get_cell(ws, f[3]).w, f[4]);
assert.equal(get_cell(ws, f[3]).t, 'n');
}); });
await t.step('should generate date cells if cellDates is true', async function(t) { fmts.forEach(function(f) {
var wb, ws;
wb = X.read(fs.readFileSync(f[1]), {type:TYPE, cellDates:true});
ws = wb.Sheets[f[2]];
assert.equal(get_cell(ws, f[3]).w, f[4]);
assert.equal(get_cell(ws, f[3]).t, 'd');
}); });
});
await t.step('defined names', async function(t) {var dnp = [
/* desc path cmnt */
['xlsx', paths.dnsxlsx, true],
['xlsb', paths.dnsxlsb, true],
['xls', paths.dnsxls, true],
['xlml', paths.dnsxml, false],
['slk', paths.dnsslk, false]
] as Array<[string, string, boolean]>; for(var i = 0; i < dnp.length; ++i) { let m: [string, string, boolean] = dnp[i]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
var names = wb?.Workbook?.Names;
if(names) {
if(m[0] != 'slk') {
for(var i = 0; i < names?.length; ++i) if(names[i].Name == "SheetJS") break;
assert.assert(i < names?.length, "Missing name");
assert.equal(names[i].Sheet, void 0);
assert.equal(names[i].Ref, "Sheet1!$A$1");
if(m[2]) assert.equal(names[i].Comment, "defined names just suck excel formulae are bad MS should feel bad");
}
for(i = 0; i < names.length; ++i) if(names[i].Name == "SHEETjs") break;
assert.assert(i < names.length, "Missing name");
assert.equal(names[i].Sheet, 0);
assert.equal(names[i].Ref, "Sheet1!$A$2");
}
}); } });
await t.step('defined names unicode', async function(t) {var dnu=[
/* desc path RT */
['xlsx', paths.dnuxlsx, true],
['xlsb', paths.dnuxlsb, true],
['ods', paths.dnuods, true],
['xls', paths.dnuxls, false],
['xlml', paths.dnuxml, false]
]; for(var i = 0; i < dnu.length; ++i) { let m = dnu[i]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
var wb2 = X.read(X.write(wb, {type:TYPE, bookType: m[0]}), {type:TYPE});
[
"NoContainsJapanese",
"\u65E5\u672C\u8a9e\u306e\u307f",
"sheet\u65e5\u672c\u8a9e",
"\u65e5\u672c\u8a9esheet",
"sheet\u65e5\u672c\u8a9esheet"
].forEach(function(n, i) { assert.equal(wb.SheetNames[i], n); });
[
["name\u65e5\u672c\u8a9e", "sheet\u65e5\u672c\u8a9e!$A$1"],
["name\u65e5\u672c\u8a9ename", "sheet\u65e5\u672c\u8a9esheet!$B$2"],
["NoContainsJapaneseName", "\u65e5\u672c\u8a9e\u306e\u307f!$A$1"],
["sheet\u65e5\u672c\u8a9e", "sheet\u65e5\u672c\u8a9e!$A$1"],
["\u65e5\u672c\u8a9e", "NoContainsJapanese!$A$1"],
["\u65e5\u672c\u8a9ename", "\u65e5\u672c\u8a9esheet!$I$2"]
].forEach(function(n) {(m[2] ? [ wb, wb2 ] : [ wb ]).forEach(function(wb) {
var DN = null;
var arr = wb?.Workbook?.Names;
if(arr) for(var j = 0; j < arr.length; ++j) if(arr[j]?.Name == n?.[0]) DN = arr[j];
assert.assert(DN);
// $FlowIgnore
assert.equal(DN?.Ref, n?.[1]);
}); });
}); } });
await t.step('workbook codename unicode', async function(t) {
var wb = X.utils.book_new();
var ws = X.utils.aoa_to_sheet([[1]]);
X.utils.book_append_sheet(wb, ws, "Sheet1");
wb.Workbook = { WBProps: { CodeName: "本工作簿" } };
var exts = ['xlsx', 'xlsb'] as Array<X.BookType>; for(var i = 0; i < exts.length; ++i) { var m = exts[i]; await t.step(m, async function(t) {
var bstr = X.write(wb, {type: "binary", bookType: m});
var nwb = X.read(bstr, {type: "binary"});
assert.equal(nwb?.Workbook?.WBProps?.CodeName, wb?.Workbook?.WBProps?.CodeName);
}); }
});
await t.step('auto filter', async function(t) {var af = [
['xlsx', paths.afxlsx],
['xlsb', paths.afxlsb],
['xls', paths.afxls],
['xlml', paths.afxml],
['ods', paths.afods]
]; for(var j = 0; j < af.length; ++j) { var m = af[j]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type:TYPE});
assert.assert(!wb.Sheets[wb.SheetNames[0]]['!autofilter']);
for(var i = 1; i < wb.SheetNames.length; ++i) {
assert.assert(wb.Sheets[wb.SheetNames[i]]['!autofilter']);
assert.equal(wb.Sheets[wb.SheetNames[i]]?.['!autofilter']?.ref,"A1:E22");
}
}); } });
await t.step('HTML', async function(t) {
var ws = X.utils.aoa_to_sheet([
["a","b","c"],
["&","<",">","\n"]
]);
var wb = {SheetNames:["Sheet1"],Sheets:{Sheet1:ws}};
var m: 'xlsx' = 'xlsx'; await t.step(m, async function(t) {
var wb2 = X.read(X.write(wb, {bookType:m, type:TYPE}),{type:TYPE, cellHTML:true});
assert.equal(get_cell(wb2.Sheets["Sheet1"], "A2").h, "&amp;");
assert.equal(get_cell(wb2.Sheets["Sheet1"], "B2").h, "&lt;");
assert.equal(get_cell(wb2.Sheets["Sheet1"], "C2").h, "&gt;");
var h = get_cell(wb2.Sheets["Sheet1"], "D2").h;
assert.assert(h == "&#x000a;" || h == "<br/>");
});
});
await t.step('page margins', async function(t) {
var wbs = PMPaths.map(function(p) { return X.read(fs.readFileSync(p), {type:TYPE, WTF:true}); });
var pm = ([
/* Sheet Name Margins: left right top bottom head foot */
["Normal", [0.70, 0.70, 0.75, 0.75, 0.30, 0.30]],
["Wide", [1.00, 1.00, 1.00, 1.00, 0.50, 0.50]],
["Narrow", [0.25, 0.25, 0.75, 0.75, 0.30, 0.30]],
["Custom 1 Inch Centered", [1.00, 1.00, 1.00, 1.00, 0.30, 0.30]],
["1 Inch HF", [0.70, 0.70, 0.75, 0.75, 1.00, 1.00]]
] as Array<[string, number[]]>); for(var pmi = 0; pmi < pm.length; ++pmi) { let tt = pm[pmi]; await t.step('should parse ' + tt[0] + ' margin', async function(t) { wbs.forEach(function(wb) {
check_margin(wb.Sheets[""+tt[0]]?.["!margins"] as any, tt[1]);
}); }); }
});
await t.step('should correctly handle styles', async function(t) {
var wsxls=X.read(fs.readFileSync(paths.cssxls), {type:TYPE,cellStyles:true,WTF:true}).Sheets["Sheet1"];
var wsxlsx=X.read(fs.readFileSync(paths.cssxlsx), {type:TYPE,cellStyles:true,WTF:true}).Sheets["Sheet1"];
var rn = function(range: string): string[] {
var r = X.utils.decode_range(range);
var out: string[] = [];
for(var R = r.s.r; R <= r.e.r; ++R) for(var C = r.s.c; C <= r.e.c; ++C)
out.push(X.utils.encode_cell({c:C,r:R}));
return out;
};
var rn2 = function(r: string): string[] { return ([] as string[]).concat.apply(([] as string[]), r.split(",").map(rn)); };
var ranges = [
'A1:D1,F1:G1', 'A2:D2,F2:G2', /* rows */
'A3:A10', 'B3:B10', 'E1:E10', 'F6:F8', /* cols */
'H1:J4', 'H10' /* blocks */
];
/*eslint-disable */
var exp/*:Array<any>*/ = [
{ patternType: 'darkHorizontal',
fgColor: { theme: 9, raw_rgb: 'F79646' },
bgColor: { theme: 5, raw_rgb: 'C0504D' } },
{ patternType: 'darkUp',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 7, raw_rgb: '8064A2' } },
{ patternType: 'darkGray',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 1, raw_rgb: '000000' } },
{ patternType: 'lightGray',
fgColor: { theme: 6, raw_rgb: '9BBB59' },
bgColor: { theme: 2, raw_rgb: 'EEECE1' } },
{ patternType: 'lightDown',
fgColor: { theme: 4, raw_rgb: '4F81BD' },
bgColor: { theme: 7, raw_rgb: '8064A2' } },
{ patternType: 'lightGrid',
fgColor: { theme: 6, raw_rgb: '9BBB59' },
bgColor: { theme: 9, raw_rgb: 'F79646' } },
{ patternType: 'lightGrid',
fgColor: { theme: 4, raw_rgb: '4F81BD' },
bgColor: { theme: 2, raw_rgb: 'EEECE1' } },
{ patternType: 'lightVertical',
fgColor: { theme: 3, raw_rgb: '1F497D' },
bgColor: { theme: 7, raw_rgb: '8064A2' } }
];
/*eslint-enable */
for(var rangei = 0; rangei < ranges.length; ++rangei) { let rng = ranges[rangei];
await t.step('XLS | ' + rng,async function(t){cmparr(rn2(rng).map(function(x){ return get_cell(wsxls,x).s; }));});
await t.step('XLSX | ' + rng,async function(t){cmparr(rn2(rng).map(function(x){ return get_cell(wsxlsx,x).s; }));});
}
await t.step('different styles', async function(t) {
for(var i = 0; i != ranges.length-1; ++i) {
for(var j = i+1; j != ranges.length; ++j) {
diffsty(wsxlsx, rn2(ranges[i])[0], rn2(ranges[j])[0]);
/* TODO: XLS */
//diffsty(wsxls, rn2(ranges[i])[0], rn2(ranges[j])[0]);
}
}
});
await t.step('correct styles', async function(t) {
//var stylesxls = ranges.map(function(r) { return rn2(r)[0]; }).map(function(r) { return get_cell(wsxls,r).s; });
var stylesxlsx = ranges.map(function(r) { return rn2(r)[0]; }).map(function(r) { return get_cell(wsxlsx,r).s; });
exp.forEach(function(e, i) {
[
"fgColor.theme","fgColor.raw_rgb",
"bgColor.theme","bgColor.raw_rgb",
"patternType"
].forEach(function(k) {
deepcmp(e, stylesxlsx[i], k, i + ":" + k, 0);
/* TODO: XLS */
//deepcmp(e, stylesxls[i], k, i + ":" + k, 0);
});
});
});
});
await t.step('data types formats', async function(t) {var dtf = [
['xlsx', paths.dtfxlsx]
]; for(var j = 0; j < dtf.length; ++j) { var m = dtf[j]; await t.step(m[0], async function(t) {
var wb = X.read(fs.readFileSync(m[1]), {type: TYPE, cellDates: true});
var ws = wb.Sheets[wb.SheetNames[0]];
var data1 = X.utils.sheet_to_json<any>(ws, { header: 1, raw: true, rawNumbers: false });
var data2 = X.utils.sheet_to_json<any>(ws, { header: 1, raw: false, rawNumbers: true });
assert.assert(data1[0][1] instanceof Date);
assert.assert(data1[1][1] instanceof Date);
assert.equal(data1[2][1], '$123.00');
assert.equal(data1[3][1], '98.76%');
assert.equal(data1[4][1], '456.00');
assert.equal(data1[5][1], '7,890');
assert.equal(data2[0][1], '7/23/2020');
assert.equal(data2[5][1], 7890);
}); } });
await t.step('date system', async function(t) {[
"biff5", "ods", "slk", "xls", "xlsb", "xlsx", "xml"
].forEach(function(ext) {
// TODO: verify actual date values
var wb0 = X.read(fs.readFileSync("./test_files/1904/1900." + ext), {type: TYPE, cellNF: true});
assert.assert(!(wb0?.Workbook?.WBProps?.date1904));
assert.equal(X.utils.sheet_to_csv(wb0.Sheets[wb0.SheetNames[0]]), [
"1,1900-01-01,1900-01-01,1900-01-01",
"11,1900-01-11,1900-01-11,1900-01-11",
"111,1900-04-20,1900-04-20,1900-04-20",
"1111,1903-01-15,1903-01-15,1903-01-15",
"11111,1930-06-02,1930-06-02,1930-06-02"
].join("\n"));
var wb4 = X.read(fs.readFileSync("./test_files/1904/1904." + ext), {type: TYPE, cellNF: true});
assert.assert(wb4?.Workbook?.WBProps?.date1904);
assert.equal(X.utils.sheet_to_csv(wb4.Sheets[wb4.SheetNames[0]]), [
"1,1904-01-02,1904-01-02,1904-01-02",
"11,1904-01-12,1904-01-12,1904-01-12",
"111,1904-04-21,1904-04-21,1904-04-21",
"1111,1907-01-16,1907-01-16,1907-01-16",
"11111,1934-06-03,1934-06-03,1934-06-03"
].join("\n"));
}); });
await t.step('bookType metadata', async function(t) {
([
// TODO: keep in sync with BookType, support other formats
"xlsx"/*, "xlsm" */, "xlsb"/* xls / xla / biff# */, "xlml", "ods", "fods"/*, "csv", "txt", */, "sylk", "html", "dif", "rtf"/*, "prn", "eth"*/, "dbf", "numbers"
] as X.BookType[]).forEach(function(r: X.BookType) {
if(r == "numbers" && !can_write_numbers) return;
var ws = X.utils.aoa_to_sheet([ ["a", "b", "c"], [1, 2, 3] ]);
var wb = X.utils.book_new(); X.utils.book_append_sheet(wb, ws, "Sheet1");
var data = X.write(wb, {type: TYPE, bookType: r, WTF: true, numbers:XLSX_ZAHL });
assert.equal(X.read(data, {type: TYPE, WTF: true}).bookType, r);
}); });
});
Deno.test('write features', async function(t) {
await t.step('props', async function(t) {
await t.step('core', async function(t) {
var baseprops: X.FullProperties = {
Category: "Newspaper",
ContentStatus: "Published",
Keywords: "☃",
LastAuthor: "Perry White",
LastPrinted: "1978-12-15",
//RevNumber: 6969, // TODO: this should actually be Revision
//AppVersion: 69, // TODO: this should actually be a number
Author: "Lois Lane",
Comments: "Needs work",
Identifier: "1d",
Language: "English",
Subject: "Superman",
Title: "Man of Steel"
};
var ws = X.utils.aoa_to_sheet([["a","b","c"],[1,2,3]]);
var bt1 = (['xlml', 'xlsx', 'xlsb'] as Array<X.BookType>); for(var bti = 0; bti < bt1.length; ++bti) { let w: X.BookType = bt1[bti]; await t.step(w, async function(t) {
var wb: X.WorkBook = {
Props: ({} as X.FullProperties),
SheetNames: ["Sheet1"],
Sheets: {Sheet1: ws}
};
(Object.keys(baseprops) as Array<keyof X.FullProperties>).forEach(function(k: keyof X.FullProperties) { if(wb.Props) (wb.Props as any)[k] = baseprops[k]; });
var wb2 = X.read(X.write(wb, {bookType:w, type:TYPE}), {type:TYPE});
(Object.keys(baseprops) as Array<keyof X.FullProperties>).forEach(function(k) { assert.equal(baseprops[k], wb2?.Props?.[k]); });
var wb3 = X.read(X.write(wb2, {bookType:w, type:TYPE, Props: {Author:"SheetJS"}}), {type:TYPE});
assert.equal("SheetJS", wb3?.Props?.Author);
}); }
});
});
await t.step('HTML', async function(t) {
await t.step('should use `h` value when present', async function(t) {
var sheet = X.utils.aoa_to_sheet([["abc"]]);
get_cell(sheet, "A1").h = "<b>abc</b>";
var wb = {SheetNames:["Sheet1"], Sheets:{Sheet1:sheet}};
var str = X.write(wb, {bookType:"html", type:"binary"});
assert.assert(str.indexOf("<b>abc</b>") > 0);
});
});
await t.step('sheet range limits', async function(t) { var b = ([
["biff2", "IV16384"],
["biff5", "IV16384"],
["biff8", "IV65536"],
["xlsx", "XFD1048576"],
["xlsb", "XFD1048576"]
] as Array<['biff2' | 'biff5' | 'biff8' | 'xlsx' | 'xlsb', string]>); for(var j = 0; j < b.length; ++j) { var r = b[j]; await t.step(r[0], async function(t) {
var C = X.utils.decode_cell(r[1]);
var wopts: X.WritingOptions = {bookType:r[0], type:'binary', WTF:true};
var wb = { SheetNames: ["Sheet1"], Sheets: { Sheet1: ({} as X.WorkSheet) } };
wb.Sheets["Sheet1"]['!ref'] = "A1:" + X.utils.encode_cell({r:0, c:C.c});
X.write(wb, wopts);
wb.Sheets["Sheet1"]['!ref'] = "A" + X.utils.encode_row(C.r - 5) + ":" + X.utils.encode_cell({r:C.r, c:0});
X.write(wb, wopts);
wb.Sheets["Sheet1"]['!ref'] = "A1:" + X.utils.encode_cell({r:0, c:C.c+1});
assert.throws(function() { X.write(wb, wopts); });
wb.Sheets["Sheet1"]['!ref'] = "A" + X.utils.encode_row(C.r - 5) + ":" + X.utils.encode_cell({r:C.r+1, c:0});
assert.throws(function() { X.write(wb, wopts); });
}); } });
await t.step('single worksheet formats', async function(t) {
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[1,2],[3,4]]), "Sheet1");
X.utils.book_append_sheet(wb, X.utils.aoa_to_sheet([[5,6],[7,8]]), "Sheet2");
assert.equal(X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet1"}), "1,2\n3,4");
assert.equal(X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet2"}), "5,6\n7,8");
assert.throws(function() { X.write(wb, {type:"string", bookType:"csv", sheet:"Sheet3"}); });
});
await t.step('should create/update autofilter defined name on write', async function(t) {([
"xlsx", "xlsb", /* "xls", */ "xlml" /*, "ods" */
] as Array<X.BookType>).forEach(function(fmt) {
var wb = X.utils.book_new();
var ws = X.utils.aoa_to_sheet([["A","B","C"],[1,2,3]]);
ws["!autofilter"] = { ref: (ws["!ref"] as string) };
X.utils.book_append_sheet(wb, ws, "Sheet1");
var wb2 = X.read(X.write(wb, {bookType:fmt, type:TYPE}), {type:TYPE});
var Name: X.DefinedName = (null as any);
((wb2.Workbook||{}).Names || []).forEach(function(dn) { if(dn.Name == "_xlnm._FilterDatabase" && dn.Sheet == 0) Name = dn; });
assert.assert(!!Name, "Could not find _xlnm._FilterDatabases name WR");
assert.equal(Name.Ref, "Sheet1!$A$1:$C$2");
X.utils.sheet_add_aoa(wb2.Sheets["Sheet1"], [[4,5,6]], { origin: -1 });
(wb2.Sheets["Sheet1"]["!autofilter"] as any).ref = wb2.Sheets["Sheet1"]["!ref"];
var wb3 = X.read(X.write(wb2, {bookType:fmt, type:TYPE}), {type:TYPE});
Name = (null as any);
((wb3.Workbook||{}).Names || []).forEach(function(dn) { if(dn.Name == "_xlnm._FilterDatabase" && dn.Sheet == 0) Name = dn; });
assert.assert(!!Name, "Could not find _xlnm._FilterDatabases name WRWR");
assert.equal(Name.Ref, "Sheet1!$A$1:$C$3");
assert.equal(((wb2.Workbook as any).Names as any).length, ((wb3.Workbook as any).Names as any).length);
}); });
await t.step('should handle non-string values for "s" cells', async function(t) {([
"xlsx", "xlsb", "xls", "biff5", "biff2", "xlml", "numbers", "ods", "fods", "wk3", "csv", "txt", "sylk", "html", "dif", "dbf", "wk1", "rtf", "prn"
] as Array<X.BookType>).forEach(function(fmt) {
if(fmt == "numbers" && !can_write_numbers) return;
var ws = X.utils.aoa_to_sheet([
["String", "123"],
["Number", 123],
["Boolean", true],
["Date", new Date()],
], { cellDates: true });
ws["B2"].t = ws["B3"].t = ws["B4"].t = "s"
var wb = X.utils.book_new();
X.utils.book_append_sheet(wb, ws, "Sheet1");
X.write(wb, {type: TYPE, bookType: fmt, bookSST: false, numbers:XLSX_ZAHL});
X.write(wb, {type: TYPE, bookType: fmt, bookSST: true, numbers:XLSX_ZAHL});
}); });
});
function seq(end: number, start?: number): Array<number> {
var s = start || 0;
var o = new Array(end - s);
for(var i = 0; i != o.length; ++i) o[i] = s + i;
return o;
}
var dnthresh = /*#__PURE__*/Date.UTC(1899, 11, 30, 0, 0, 0); // -2209161600000
var dnthresh1 = /*#__PURE__*/Date.UTC(1899, 11, 31, 0, 0, 0); // -2209075200000
var dnthresh2 = /*#__PURE__*/Date.UTC(1904, 0, 1, 0, 0, 0); // -2209075200000
function datenum(v: Date, date1904?: boolean): number {
var epoch = /*#__PURE__*/v.getTime();
var res = (epoch - dnthresh) / (24 * 60 * 60 * 1000);
if(date1904) return res - 1462;
return res < 60 ? res - 1 : res;
}
/* Blame https://bugs.chromium.org/p/v8/issues/detail?id=7863 for the regexide */
var pdre1 = /^(\d+):(\d+)(:\d+)?(\.\d+)?$/; // HH:MM[:SS[.UUU]]
var pdre2 = /^(\d+)-(\d+)-(\d+)$/; // YYYY-mm-dd
var pdre3 = /^(\d+)-(\d+)-(\d+)[T ](\d+):(\d+)(:\d+)?(\.\d+)?$/; // YYYY-mm-dd(T or space)HH:MM[:SS[.UUU]] sans "Z"
/* parses a date string as a UTC date */
function parseDate(str: string|Date, date1904?: boolean): Date {
if(str instanceof Date) return str;
var m = str.match(pdre1);
if(m) return new Date((date1904 ? dnthresh2 : dnthresh1) + ((parseInt(m[1], 10)*60 + parseInt(m[2], 10))*60 + (m[3] ? parseInt(m[3].slice(1), 10) : 0))*1000 + (m[4] ? parseInt((m[4]+"000").slice(1,4), 10) : 0));
m = str.match(pdre2);
if(m) return new Date(Date.UTC(+m[1], +m[2]-1, +m[3], 0, 0, 0, 0));
m = str.match(pdre3);
if(m) return new Date(Date.UTC(+m[1], +m[2]-1, +m[3], +m[4], +m[5], ((m[6] && parseInt(m[6].slice(1), 10))|| 0), ((m[7] && parseInt(m[7].slice(1), 10))||0)));
var d = new Date(str);
return d;
}
var fixdate = browser ? parseDate("2014-02-19T14:30:00.000Z") : new Date("2014-02-19T14:30Z");
Deno.test('roundtrip features', async function(t) {
await t.step('should preserve core properties', async function(t) { var cp = [
['xls', paths.cpxls],
['xlml', paths.cpxml],
['xlsx', paths.cpxlsx],
['xlsb', paths.cpxlsb]
]; for(var cpi = 0; cpi < cp.length; ++cpi) { var w = cp[cpi];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
coreprop(wb1.Props as any);
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
coreprop(wb2.Props as any);
});
} });
await t.step('should preserve custom properties', async function(t) { var cp = [
['xls', paths.cpxls],
['xlml', paths.cpxml],
['xlsx', paths.cpxlsx],
['xlsb', paths.cpxlsb]
]; for(var cpi = 0; cpi < cp.length; ++cpi) { var w = cp[cpi];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
custprop(wb1.Custprops);
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
custprop(wb2.Custprops);
});
} });
await t.step('should preserve merge cells', async function(t) {
var mcf = ["xlsx", "xlsb", "xlml", "ods", "biff8", "numbers"] as Array<X.BookType>; for(let mci = 0; mci < mcf.length; ++mci) { let f = mcf[mci]; await t.step(f, async function(t) {
if(f == "numbers" && !can_write_numbers) return;
var wb1 = X.read(fs.readFileSync(paths.mcxlsx), {type:TYPE});
var wb2 = X.read(X.write(wb1,{bookType:f,type:'binary',numbers:XLSX_ZAHL}),{type:'binary'});
var m1 = wb1.Sheets["Merge"]?.['!merges']?.map(X.utils.encode_range);
var m2 = wb2.Sheets["Merge"]?.['!merges']?.map(X.utils.encode_range);
assert.equal(m1?.length, m2?.length);
if(m1 && m2) for(var i = 0; i < m1?.length; ++i) assert.assert(m1?.indexOf(m2?.[i]) > -1);
}); }
});
await t.step('should preserve dates', async function(t) {
for(var n = 0; n < 16; ++n) {
var d = (n & 1) ? 'd' : 'n', dk = d === 'd';
var c = (n & 2) ? 'd' : 'n', dj = c === 'd';
var b = (n & 4) ? 'd' : 'n', di = b === 'd';
var a = (n & 8) ? 'd' : 'n', dh = a === 'd';
var f: string, sheet: string, addr: string;
if(dh) { f = paths.dtxlsx; sheet = 'Sheet1'; addr = 'B5'; }
else { f = paths.nfxlsx; sheet = '2011'; addr = 'J36'; }
await t.step('[' + a + '] -> (' + b + ') -> [' + c + '] -> (' + d + ')', async function(t) {
var wb1 = X.read(fs.readFileSync(f), {type:TYPE, cellNF: true, cellDates: di, WTF: opts.WTF});
var _f = X.write(wb1, {type:'binary', cellDates:dj, WTF:opts.WTF});
var wb2 = X.read(_f, {type:'binary', cellDates: dk, WTF: opts.WTF});
var m = [wb1,wb2].map(function(x: X.WorkBook) { return get_cell(x.Sheets[sheet], addr); });
assert.equal(m[0].w, m[1].w);
assert.equal(m[0].t, b);
assert.equal(m[1].t, d);
if(m[0].t === 'n' && m[1].t === 'n') assert.equal(m[0].v, m[1].v);
else if(m[0].t === 'd' && m[1].t === 'd') assert.equal(m[0].v.toString(), m[1].v.toString());
else if(m[1].t === 'n') assert.assert(Math.abs(datenum(browser ? parseDate(m[0].v) : new Date(m[0].v)) - m[1].v) < 0.01);
});
}
});
await t.step('should preserve formulae', async function(t) { var ff = [
['xlml', paths.fstxml],
['xlsx', paths.fstxlsx],
['ods', paths.fstods]
]; for(let ii = 0; ii < ff.length; ++ii) { let w = ff[ii]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE, cellFormula:true, WTF:true});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {cellFormula:true, type:TYPE, WTF:true});
wb1.SheetNames.forEach(function(n) {
assert.equal(
X.utils.sheet_to_formulae(wb1.Sheets[n]).sort().join("\n"),
X.utils.sheet_to_formulae(wb2.Sheets[n]).sort().join("\n")
);
});
}); } });
await t.step('should preserve dynamic array formulae', async function(t) { var m19 = [
['xlsx', paths.m19xlsx]
]; for(var h1 = 0; h1 < m19.length; ++h1) { var w = m19[h1]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {xlfn: true, type:TYPE, cellFormula:true, WTF:true});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {cellFormula:true, xlfn: true, type:TYPE, WTF:true});
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "B3").D, true);
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "B13").D, true);
assert.equal(!!get_cell(wb2.Sheets["Sheet1"], "C13").D, true);
get_cell(wb2.Sheets["Sheet1"], "B3").D = false;
var wb3 = X.read(X.write(wb2, {bookType:w[0], type:TYPE}), {cellFormula:true, xlfn: true, type:TYPE, WTF:true});
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "B3").D, false);
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "B13").D, true);
assert.equal(!!get_cell(wb3.Sheets["Sheet1"], "C13").D, true);
}); } });
await t.step('should preserve hyperlink', async function(t) { var hl = [
['xlml', paths.hlxml, true],
['xls', paths.hlxls, true],
['xlsx', paths.hlxlsx, true],
['xlsb', paths.hlxlsb, true],
['xlml', paths.ilxml, false],
['xls', paths.ilxls, false],
['xlsx', paths.ilxlsx, false],
['xlsb', paths.ilxlsb, false],
['ods', paths.ilods, false]
]; for(var h1 = 0; h1 < hl.length; ++h1) { var w = hl[h1]; await t.step(w[0]+" "+(w[2]?"ex":"in")+ "ternal", async function(t) {
var wb = X.read(fs.readFileSync(w[1]), {type:TYPE, WTF:opts.WTF});
var hlink = (w[2] ? hlink1 : hlink2); hlink(wb.Sheets["Sheet1"]);
wb = X.read(X.write(wb, {bookType:w[0], type:TYPE, WTF:opts.WTF}), {type:TYPE, WTF:opts.WTF});
hlink(wb.Sheets["Sheet1"]);
}); } });
await t.step('should preserve page margins', async function(t) { var pm = [
['xlml', paths.pmxml],
['xlsx', paths.pmxlsx],
['xlsb', paths.pmxlsb]
]; for(var p1 = 0; p1 < pm.length; ++p1) {var w = pm[p1]; await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:"binary"}), {type:"binary"});
([
/* Sheet Name Margins: left right top bottom head foot */
["Normal", [0.70, 0.70, 0.75, 0.75, 0.30, 0.30]],
["Wide", [1.00, 1.00, 1.00, 1.00, 0.50, 0.50]],
["Narrow", [0.25, 0.25, 0.75, 0.75, 0.30, 0.30]],
["Custom 1 Inch Centered", [1.00, 1.00, 1.00, 1.00, 0.30, 0.30]],
["1 Inch HF", [0.70, 0.70, 0.75, 0.75, 1.00, 1.00]]
] as Array<[string, number[]]>).forEach(function(t) {
check_margin(wb2.Sheets[t[0]]?.["!margins"] as X.MarginInfo, t[1]);
});
}); } });
await t.step('should preserve sheet visibility', async function(t) { var sv = [
['xlml', paths.svxml],
['xlsx', paths.svxlsx],
['xlsb', paths.svxlsb],
['xls', paths.svxls],
['biff5', paths.svxls5]
// ['ods', paths.svods]
] as Array<[X.BookType, string]>; for(var s1 = 0; s1 < sv.length; ++s1) { var w = sv[s1];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
var wbs1 = wb1?.Workbook?.Sheets;
var wbs2 = wb2?.Workbook?.Sheets;
assert.equal(wbs1?.length, wbs2?.length);
if(wbs1) for(var i = 0; i < wbs1?.length; ++i) {
assert.equal(wbs1?.[i].name, wbs2?.[i].name);
assert.equal(wbs1?.[i].Hidden, wbs2?.[i].Hidden);
}
});
}
});
await t.step('should preserve column properties', async function(t) { var bt = [
/*'xlml',*/ /*'biff2', 'biff8', */ 'xlsx', 'xlsb', 'slk'
] as Array<X.BookType>; for(var bti = 0; bti < bt.length; ++bti) { var w = bt[bti]; await t.step(w, async function(t) {
var ws1 = X.utils.aoa_to_sheet([["hpx12", "hpt24", "hpx48", "hidden"]]);
ws1['!cols'] = [{wch:9},{wpx:100},{width:80},{hidden:true}];
var wb1 = {SheetNames:["Sheet1"], Sheets:{Sheet1:ws1}};
var wb2 = X.read(X.write(wb1, {bookType:w, type:TYPE}), {type:TYPE, cellStyles:true});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2?.['!cols']?.[3].hidden, true);
assert.equal(ws2?.['!cols']?.[0].wch, 9);
if(w == 'slk') return;
assert.equal(ws2?.['!cols']?.[1].wpx, 100);
/* xlml stores integral pixels -> approximate width */
if(w == 'xlml') assert.equal(Math.round(ws2['!cols']?.[2]?.width||0), 80);
else assert.equal(ws2['!cols']?.[2].width, 80);
}); }
});
/* TODO: ODS and BIFF5/8 */
await t.step('should preserve row properties', async function(t) { var bt = [
'xlml', /*'biff2', 'biff8', */ 'xlsx', 'xlsb', 'slk'
] as Array<X.BookType>; for(var bti = 0; bti < bt.length; ++bti) { var w = bt[bti]; await t.step(w, async function(t) {
var ws1 = X.utils.aoa_to_sheet([["hpx12"],["hpt24"],["hpx48"],["hidden"]]);
ws1['!rows'] = [{hpx:12},{hpt:24},{hpx:48},{hidden:true}];
for(var i = 0; i <= 7; ++i) ws1['!rows'].push({level:i});
var wb1 = {SheetNames:["Sheet1"], Sheets:{Sheet1:ws1}};
var wb2 = X.read(X.write(wb1, {bookType:w, type:TYPE, cellStyles:true}), {type:TYPE, cellStyles:true});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2?.['!rows']?.[0]?.hpx, 12);
assert.equal(ws2?.['!rows']?.[1]?.hpt, 24);
assert.equal(ws2?.['!rows']?.[2]?.hpx, 48);
assert.equal(ws2?.['!rows']?.[3]?.hidden, true);
if(w == 'xlsb' || w == 'xlsx') for(i = 0; i <= 7; ++i) assert.equal((ws2?.['!rows']?.[4+i]||{}).level||0, i);
}); }
});
/* TODO: ODS and XLS */
await t.step('should preserve cell comments', async function(t) { var cc = [
['xlsx', paths.cstxlsx],
['xlsb', paths.cstxlsb],
//['xls', paths.cstxls],
['xlml', paths.cstxml]
//['ods', paths.cstods]
]; for(var cci = 0; cci < cc.length; ++cci) { let w = cc[cci];
await t.step(w[0], async function(t) {
var wb1 = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb1, {bookType:w[0], type:TYPE}), {type:TYPE});
check_comments(wb1);
check_comments(wb2);
});
}
});
await t.step('should preserve JS objects', async function(t) {
var data: Array<any> = [
{a:1},
{b:2,c:3},
{b:"a",d:"b"},
{a:true, c:false},
{c:fixdate}
];
var o: Array<any> = X.utils.sheet_to_json(X.utils.json_to_sheet(data, {cellDates:true}));
data.forEach(function(row, i) {
Object.keys(row).forEach(function(k) { assert.equal(row[k], o[i][k]); });
});
});
await t.step('should preserve autofilter settings', async function(t) {[
['xlsx', paths.afxlsx],
['xlsb', paths.afxlsb],
// TODO:
//['xls', paths.afxls],
['xlml', paths.afxml]
//['ods', paths.afods]
].forEach(function(w) {
var wb = X.read(fs.readFileSync(w[1]), {type:TYPE});
var wb2 = X.read(X.write(wb, {bookType:w[0], type: TYPE}), {type:TYPE});
assert.assert(!wb2.Sheets[wb2.SheetNames[0]]['!autofilter']);
for(var i = 1; i < wb2.SheetNames.length; ++i) {
assert.assert(wb2.Sheets[wb2.SheetNames[i]]['!autofilter']);
assert.equal((wb2.Sheets[wb2.SheetNames[i]]['!autofilter'] as any).ref,"A1:E22");
}
}); });
await t.step('should preserve date system', async function(t) {([
"biff5", "ods", "slk", "xls", "xlsb", "xlsx", "xml"
] as X.BookType[]).forEach(function(ext) {
// TODO: check actual date codes and actual date values
var wb0 = X.read(fs.readFileSync("./test_files/1904/1900." + ext), {type: TYPE});
assert.assert(!wb0.Workbook?.WBProps?.date1904);
var wb1 = X.read(X.write(wb0, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(!wb1.Workbook?.WBProps?.date1904);
var wb2 = X.utils.book_new(); X.utils.book_append_sheet(wb2, X.utils.aoa_to_sheet([[1]]), "Sheet1");
wb2.Workbook = { WBProps: { date1904: false } };
assert.assert(!wb2.Workbook?.WBProps?.date1904);
var wb3 = X.read(X.write(wb2, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(!wb3.Workbook?.WBProps?.date1904);
var wb4 = X.read(fs.readFileSync("./test_files/1904/1904." + ext), {type: TYPE});
assert.assert(wb4.Workbook?.WBProps?.date1904);
var wb5 = X.read(X.write(wb4, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(wb5.Workbook?.WBProps?.date1904); // xlsb, xml
var wb6 = X.utils.book_new(); X.utils.book_append_sheet(wb6, X.utils.aoa_to_sheet([[1]]), "Sheet1");
wb6.Workbook = { WBProps: { date1904: true } };
assert.assert(wb6.Workbook?.WBProps?.date1904);
var wb7 = X.read(X.write(wb6, {type: TYPE, bookType: ext}), {type: TYPE});
assert.assert(wb7.Workbook?.WBProps?.date1904);
}); });
});
//function password_file(x){return x.match(/^password.*\.xls$/); }
var password_files = [
//"password_2002_40_972000.xls",
"password_2002_40_xor.xls"
];
Deno.test('invalid files', async function(t) {
await t.step('parse', async function(t) { var fl = [
['KEY files', 'numbers/Untitled.key'],
['PAGES files', 'numbers/Untitled.pages'],
['password', 'apachepoi_password.xls'],
['passwords', 'apachepoi_xor-encryption-abc.xls'],
['DOC files', 'word_doc.doc']
]; for(var f1 = 0; f1 < fl.length; ++f1) { let w = fl[f1]; await t.step('should fail on ' + w[0], async function(t) {
assert.throws(function() { X.read(fs.readFileSync(dir + w[1], 'binary'), {type:'binary'}); });
assert.throws(function() { X.read(fs.readFileSync(dir + w[1], 'base64'), {type:'base64'}); });
}); } });
await t.step('write', async function(t) {
await t.step('should pass -> XLSX', async function(t) { FSTPaths.forEach(function(p) {
X.write(X.read(fs.readFileSync(p), {type:TYPE}), {type:TYPE});
}); });
await t.step('should pass if a sheet is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE}); delete wb.Sheets[wb.SheetNames[0]];
X.read(X.write(wb, {type:'binary'}), {type:'binary'});
});
var k1 = ['Props', 'Custprops', 'SSF']; for(var k1i = 0; k1i < k1.length; ++k1i) { var tt = k1[k1i]; await t.step('should pass if ' + tt + ' is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
assert.doesNotThrow(function() { delete (wb as any)[tt]; X.write(wb, {type:'binary'}); });
}); }
var k2 = ['SheetNames', 'Sheets']; for(var k2i = 0; k2i < k2.length; ++k2i) { var tt = k2[k2i]; await t.step('should fail if ' + tt + ' is missing', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
assert.throws(function() { delete (wb as any)[tt]; X.write(wb, {type:'binary'}); });
}); }
await t.step('should fail if SheetNames has duplicate entries', async function(t) {
var wb = X.read(fs.readFileSync(paths.fstxlsx), {type:TYPE});
wb.SheetNames.push(wb.SheetNames[0]);
assert.throws(function() { X.write(wb, {type:'binary'}); });
});
await t.step('should fail if sheet name is not valid', async function(t) {
var names = [
"", // cannot be blank
"abcdefghijklmnopqrstuvwxyz1234567890", // cannot exceed 31 chars
"'sheetjs", "sheetjs'", // cannot start or end with apostrophe
"History", // cannot be History
"Sheet:JS", "Sheet]JS", "Sheet[JS", "Sheet*JS", // bad characters
"Sheet?JS", "Sheet\\JS", "Sheet\/JS"
];
names.forEach(function(n) { assert.throws(function() {
var wb: X.WorkBook = { SheetNames: [n], Sheets: {} };
wb.Sheets[n] = X.utils.aoa_to_sheet([["SheetJS"]]);
X.write(wb, {type:"binary", bookType:"xlsx"});
}); });
});
});
});
Deno.test('json output', async function(t) {
function seeker(json: Array<any>, _keys: string | any[], val: any) {
var keys: any[] = typeof _keys == "string" ? _keys.split("") : _keys;
for(var i = 0; i != json.length; ++i) {
for(var j = 0; j != keys.length; ++j) {
if(json[i][keys[j]] === val) throw new Error("found " + val + " in row " + i + " key " + keys[j]);
}
}
}
var data = [
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", undefined, "qux"]
];
var ws = X.utils.aoa_to_sheet(data);
await t.step('should use first-row headers and full sheet by default', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {raw: false});
assert.equal(json.length, data.length - 1);
assert.equal(json[0][1], "TRUE");
assert.equal(json[1][2], "bar");
assert.equal(json[2][3], "qux");
assert.doesNotThrow(function() { seeker(json, [1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [1,2,3], "baz"); });
});
await t.step('should create array of arrays if header == 1', async function(t) {
var json: Array<Array<any>> = X.utils.sheet_to_json(ws, {header:1, raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1][0], "TRUE");
assert.equal(json[2][1], "bar");
assert.equal(json[3][2], "qux");
assert.doesNotThrow(function() { seeker(json, [0,1,2], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2], "baz"); });
});
await t.step('should use column names if header == "A"', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {header:'A', raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1].A, "TRUE");
assert.equal(json[2].B, "bar");
assert.equal(json[3].C, "qux");
assert.doesNotThrow(function() { seeker(json, "ABC", "sheetjs"); });
assert.throws(function() { seeker(json, "ABCD", "sheetjs"); });
assert.throws(function() { seeker(json, "ABC", "baz"); });
});
await t.step('should use column labels if specified', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {header:["O","D","I","N"], raw:false});
assert.equal(json.length, data.length);
assert.equal(json[1].O, "TRUE");
assert.equal(json[2].D, "bar");
assert.equal(json[3].I, "qux");
assert.doesNotThrow(function() { seeker(json, "ODI", "sheetjs"); });
assert.throws(function() { seeker(json, "ODIN", "sheetjs"); });
assert.throws(function() { seeker(json, "ODIN", "baz"); });
});
var payload = [["string", "A2:D4"], ["numeric", 1], ["object", {s:{r:1,c:0},e:{r:3,c:3}}]];
for(var payloadi = 0; payloadi < payload.length; ++payloadi) { var w = payload[payloadi];
await t.step('should accept custom ' + w[0] + ' range', async function(t) {
var json: any[][] = X.utils.sheet_to_json(ws, {header:1, range:w[1]});
assert.equal(json.length, 3);
assert.equal(json[0][0], true);
assert.equal(json[1][1], "bar");
assert.equal(json[2][2], "qux");
assert.doesNotThrow(function() { seeker(json, [0,1,2], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [0,1,2], "baz"); });
});
}
await t.step('should use defval if requested', async function(t) {
var json: Array<any> = X.utils.sheet_to_json(ws, {defval: 'jimjin'});
assert.equal(json.length, data.length - 1);
assert.equal(json[0][1], true);
assert.equal(json[1][2], "bar");
assert.equal(json[2][3], "qux");
assert.equal(json[2][2], "jimjin");
assert.equal(json[0][3], "jimjin");
assert.doesNotThrow(function() { seeker(json, [1,2,3], "sheetjs"); });
assert.throws(function() { seeker(json, [1,2,3], "baz"); });
X.utils.sheet_to_json(ws, {raw:true});
X.utils.sheet_to_json(ws, {raw:true, defval: 'jimjin'});
});
await t.step('should handle skipHidden for rows if requested', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[0]["1"], true);
assert.equal(json[2]["3"], "qux");
ws2["!rows"] = []; ws2["!rows"][1] = {hidden:true}; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[0]["1"], "foo");
assert.equal(json[1]["3"], "qux");
});
await t.step('should handle skipHidden for columns if requested', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[1]["2"], "bar");
assert.equal(json[2]["3"], "qux");
ws2["!cols"] = []; ws2["!cols"][1] = {hidden:true}; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[1]["2"], void 0);
assert.equal(json[2]["3"], "qux");
});
await t.step('should handle skipHidden when first row is hidden', async function(t) {
var ws2 = X.utils.aoa_to_sheet(data), json: Array<any> = X.utils.sheet_to_json(ws2);
assert.equal(json[0]["1"], true);
assert.equal(json[2]["3"], "qux");
ws2["!rows"] = [{hidden:true}]; json = X.utils.sheet_to_json(ws2, {skipHidden: true});
assert.equal(json[1]["1"], "foo");
assert.equal(json[2]["3"], "qux");
});
await t.step('should disambiguate headers', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: any[] = X.utils.sheet_to_json(_ws);
for(var i = 0; i < json.length; ++i) {
assert.equal(json[i].S, 1 + i);
assert.equal(json[i].h, 2 + i);
assert.equal(json[i].e, 3 + i);
assert.equal(json[i].e_1, 4 + i);
assert.equal(json[i].t, 5 + i);
assert.equal(json[i].J, 6 + i);
assert.equal(json[i].S_1, 7 + i);
}
});
await t.step('should handle collisions in disambiguation', async function(t) {
var _data = [["a_1","a","a"],[1,2,3]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: any = X.utils.sheet_to_json(_ws);
assert.equal(json[0].a, 2);
assert.equal(json[0].a_1, 1);
assert.equal(json[0].a_2, 3);
});
await t.step('should handle raw data if requested', async function(t) {
var _ws = X.utils.aoa_to_sheet(data, {cellDates:true});
var json: Array<Array<any>> = X.utils.sheet_to_json(_ws, {header:1, raw:true});
assert.equal(json.length, data.length);
assert.equal(json[1][0], true);
assert.assert(json[1][2] == null);
assert.equal(json[2][1], "bar");
assert.equal(json[2][2].getTime(), fixdate.getTime());
assert.equal(json[3][2], "qux");
});
await t.step('should include __rowNum__', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json: Array<any> = X.utils.sheet_to_json(_ws);
assert.equal(json[0].__rowNum__, 1);
assert.equal(json[1].__rowNum__, 3);
});
await t.step('should handle blankrows', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws);
assert.equal(json1.length, 2); // = 2 non-empty records
var json2: Array<any> = X.utils.sheet_to_json(_ws, {header:1});
assert.equal(json2.length, 4); // = 4 sheet rows
var json3: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:true});
assert.equal(json3.length, 3); // = 2 records + 1 blank row
var json4: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:true, header:1});
assert.equal(json4.length, 4); // = 4 sheet rows
var json5: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:false});
assert.equal(json5.length, 2); // = 2 records
var json6: Array<any> = X.utils.sheet_to_json(_ws, {blankrows:false, header:1});
assert.equal(json6.length, 3); // = 4 sheet rows - 1 blank row
});
await t.step('should have an index that starts with zero when selecting range', async function(t) {
var _data = [["S","h","e","e","t","J","S"],[1,2,3,4,5,6,7],[7,6,5,4,3,2,1],[2,3,4,5,6,7,8]];
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws, { header:1, raw: true, range: "B1:F3" });
assert.equal(json1[0][3], "t");
assert.equal(json1[1][0], 2);
assert.equal(json1[2][1], 5);
assert.equal(json1[2][3], 3);
});
await t.step('should preserve values when column header is missing', async function(t) {
/*jshint elision:true */
var _data = [[,"a","b",,"c"], [1,2,3,,5],[,3,4,5,6]]; // eslint-disable-line no-sparse-arrays
/*jshint elision:false */
var _ws = X.utils.aoa_to_sheet(_data);
var json1: Array<any> = X.utils.sheet_to_json(_ws, { raw: true });
assert.equal(json1[0].__EMPTY, 1);
assert.equal(json1[1].__EMPTY_1, 5);
});
await t.step('should ignore errors and support default values', async function(t) {
var ws = {
A1: {t:'s', v:"Field"}, B1: {t:'s', v:"Text"},
A2: {t:'e', v:0x2A, w:"#N/A" }, B2: {t:'s', v:"#N/A"},
A3: {t:'e', v:0x0F }, B3: {t:'s', v:"#VALUE!"},
A4: {t:'e', w:"#NAME?" }, B4: {t:'s', v:"#NAME?"},
"!ref": "A1:B4" };
seq(8).forEach(function(n) {
var opts: X.Sheet2JSONOpts = {};
if(n & 1) opts.header = 1;
if(n & 2) opts.raw = true;
if(n & 4) opts.defval = null;
var J: Array<any> = X.utils.sheet_to_json(ws, opts);
for(var i = 0; i < 3; ++i) {
var k = ((n&1) ? J[i+1][0] : J[i].Field);
assert.assert((n&4) ? (k === null) : (k !== null));
}
});
});
await t.step('should force UTC in formatted strings', async function(t) {
var ws: X.WorkSheet = { "!ref": "A1", "A1": { t: 'd', v: new Date(Date.UTC(2002, 11, 24, 0, 0, 0, 0)) } };
assert.equal(X.utils.sheet_to_json<string[]>(ws, {header: 1, UTC: true, raw: false, dateNF: 'd"/"m"/"yyyy'})[0][0], "24/12/2002");
delete ws.A1.w;
assert.equal(X.utils.sheet_to_json<string[]>(ws, {header: 1, UTC: false, raw: false, dateNF: 'd"/"m"/"yyyy'})[0][0], "24/12/2002");
assert.equal(X.utils.sheet_to_json<number[]>(ws, {header: 1, UTC: true, raw: true, dateNF: 'd"/"m"/"yyyy'})[0][0].valueOf(), 1040688000000);
assert.equal(X.utils.sheet_to_json<number[]>(ws, {header: 1, UTC: false, raw: true, dateNF: 'd"/"m"/"yyyy'})[0][0].valueOf(), 1040688000000 + new Date("2002-12-24T00:00:00.000Z").getTimezoneOffset()*60000);
});
});
var codes = [["あ 1", "\u00E3\u0081\u0082 1"]];
var plaintext_val = ([
["A1", 'n', -0.08, "-0.08"],
["B1", 'n', 4001, "4,001"],
["C1", 's', "あ 1", "あ 1"],
["A2", 'n', 41.08, "$41.08"],
["B2", 'n', 0.11, "11%"],
["C3", 'b', true, "TRUE"],
["D3", 'b', false, "FALSE"],
["B3", 's', " ", " "],
["A3"]
] as Array<[string, string, any, string] | [string] >);
function plaintext_test(wb: X.WorkBook, raw: boolean) {
var sheet = wb.Sheets[wb.SheetNames[0]];
plaintext_val.forEach(function(x) {
var cell = get_cell(sheet, x[0]);
var tcval = x[2+(!!raw ? 1 : 0)];
var type = raw ? 's' : x[1];
if(x.length == 1) { if(cell) { assert.equal(cell.t, 'z'); assert.assert(!cell.v); } return; }
assert.equal(cell.v, tcval); assert.equal(cell.t, type);
});
}
function make_html_str(idx: number) { return ["<table>",
"<tr><td>-0.08</td><td>4,001</td><td>", codes[0][idx], "</td></tr>",
"<tr><td>$41.08</td><td>11%</td></tr>",
"<tr><td></td><td> \n&nbsp;</td><td>TRUE</td><td>FALSE</td></tr>",
"</table>" ].join(""); }
function make_csv_str(idx: number) { return [ (idx == 1 ? '\u00EF\u00BB\u00BF' : "") +
'-0.08,"4,001",' + codes[0][idx] + '',
'$41.08,11%',
', ,TRUE,FALSE'
].join("\n"); }
var html_bstr = make_html_str(1), html_str = make_html_str(0);
var csv_bstr = make_csv_str(1), csv_str = make_csv_str(0);
Deno.test('CSV', async function(t) {
await t.step('input', async function(t){
var b = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,\n";
await t.step('should generate date numbers by default', async function(t) {
var opts: X.ParsingOptions = {type:"binary"};
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
assert.equal(cell.t, 'n');
assert.assert(typeof cell.v == "number");
});
await t.step('should generate dates when requested', async function(t) {
var opts: X.ParsingOptions = {type:"binary", cellDates:true};
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
assert.equal(cell.t, 'd');
assert.assert(cell.v instanceof Date || typeof cell.v == "string");
});
await t.step('should use US date code 14 by default', async function(t) {
var opts: X.ParsingOptions = { type:"binary" };
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
opts.cellDates = true;
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '2/19/14');
});
await t.step('should honor dateNF override', async function(t) {
var opts: X.ParsingOptions = ({type:"binary", dateNF:"YYYY-MM-DD", cellNF: true});
var cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
/* NOTE: IE interprets 2-digit years as 19xx */
assert.assert(cell.w == '2014-02-19' || cell.w == '1914-02-19' || cell.w == "2/19/14");
assert.equal(cell.z, "YYYY-MM-DD");
opts.cellDates = true; opts.dateNF = "YY-MM-DD";
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.assert(cell.w == '14-02-19' || cell.w == "2/19/14");
opts = ({type:"binary", dateNF:"YYYY-MM-DD", UTC: true}/*:any*/);
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
/* NOTE: IE interprets 2-digit years as 19xx */
assert.assert(cell.w == '2014-02-19' || cell.w == '1914-02-19');
opts.cellDates = true; opts.dateNF = "YY-MM-DD";
cell = get_cell(X.read(b, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.w, '14-02-19');
});
await t.step('should interpret dateNF', async function(t) {
var bb = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/3/14,0.3\n,,,\nbaz,,qux,\n";
var opts: X.ParsingOptions = {type:"binary", cellDates:true, dateNF:'m/d/yy'};
var cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getMonth(), 1);
assert.equal(cell.w, "2/3/14");
opts.dateNF = 'd/m/yy';
cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getMonth(), 2);
assert.equal(cell.w, "2/3/14");
opts = {type:"binary", cellDates:true, dateNF:'m/d/yy', UTC: true};
cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getUTCMonth(), 1);
assert.equal(cell.w, "2/3/14");
opts.dateNF = 'd/m/yy';
cell = get_cell(X.read(bb, opts).Sheets["Sheet1"], "C3");
assert.equal(cell.v.getUTCMonth(), 2);
assert.equal(cell.w, "2/3/14");
});
await t.step('should interpret values by default', async function(t) { plaintext_test(X.read(csv_bstr, {type:"binary"}), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.read(csv_str, {type:"string", raw:true}), true); });
await t.step('should handle formulae', async function(t) {
var bb = '=,=1+1,="100"';
var sheet = X.read(bb, {type:"binary"}).Sheets["Sheet1"];
assert.equal(get_cell(sheet, "A1").t, 's');
assert.equal(get_cell(sheet, "A1").v, '=');
assert.equal(get_cell(sheet, "B1").f, '1+1');
assert.equal(get_cell(sheet, "C1").t, 's');
assert.equal(get_cell(sheet, "C1").v, '100');
});
await t.step('should interpret CRLF newlines', async function(t) {
var wb = X.read("sep=&\r\n1&2&3\r\n4&5&6", {type: "string"});
assert.equal(wb.Sheets["Sheet1"]["!ref"], "A1:C2");
});
if(false && (!browser || typeof cptable !== 'undefined')) await t.step('should honor codepage for binary strings', async function(t) {
var data = "abc,def\nghi,j\xD3l";
([[1251, 'У'],[1252, 'Ó'], [1253, 'Σ'], [1254, 'Ó'], [1255, '׃'], [1256, 'س'], [10000, '”']] as Array<[number, string]>).forEach(function(m) {
var ws = X.read(data, {type:"binary", codepage:m[0]}).Sheets["Sheet1"];
assert.equal(get_cell(ws, "B2").v, "j" + m[1] + "l");
});
});
await t.step('should parse date-less meridien time values', async function(t) {
var aoa = [
["3a", "3 a", "3 a-1"],
["3b", "3 b", "3 b-1"],
["3p", "3 P", "3 p-1"]
];
var ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: true, UTC: false}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
var B1 = get_cell(ws, "B1"); assert.equal(B1.t, "d"); assert.equal(B1.v.getHours(), 3);
var B3 = get_cell(ws, "B3"); assert.equal(B3.t, "d"); assert.equal(B3.v.getHours(), 15);
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: false, UTC: false}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: true, UTC: true}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
B1 = get_cell(ws, "B1"); assert.equal(B1.t, "d"); assert.equal(B1.v.getUTCHours(), 3);
B3 = get_cell(ws, "B3"); assert.equal(B3.t, "d"); assert.equal(B3.v.getUTCHours(), 15);
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: false, UTC: true}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
B1 = get_cell(ws, "B1"); assert.equal(B1.t, "n"); assert.equal(B1.v * 24, 3);
B3 = get_cell(ws, "B3"); assert.equal(B3.t, "n"); assert.equal(B3.v * 24, 15);
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: true}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
B1 = get_cell(ws, "B1"); assert.equal(B1.t, "d"); assert.equal(B1.v.getUTCHours(), 3);
B3 = get_cell(ws, "B3"); assert.equal(B3.t, "d"); assert.equal(B3.v.getUTCHours(), 15);
ws = X.read(aoa.map(function(row) { return row.join(","); }).join("\n"), {type: "string", cellDates: false}).Sheets.Sheet1;
for(var R = 0; R < 3; ++R) {
assert.equal(get_cell(ws, "A" + (R+1)).v, aoa[R][0]);
assert.equal(get_cell(ws, "C" + (R+1)).v, aoa[R][2]);
}
assert.equal(get_cell(ws, "B2").v, "3 b");
B1 = get_cell(ws, "B1"); assert.equal(B1.t, "n"); assert.equal(B1.v * 24, 3);
B3 = get_cell(ws, "B3"); assert.equal(B3.t, "n"); assert.equal(B3.v * 24, 15);
});
});
await t.step('output', async function(t){
var data = [
[1,2,3,null],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
[null, null, null],
["baz", undefined, "qux"]
];
var ws = X.utils.aoa_to_sheet(data);
await t.step('should generate csv', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
assert.equal(baseline, X.utils.sheet_to_csv(ws));
});
await t.step('should handle FS', async function(t) {
assert.equal(X.utils.sheet_to_csv(ws, {FS:"|"}).replace(/[|]/g,","), X.utils.sheet_to_csv(ws));
assert.equal(X.utils.sheet_to_csv(ws, {FS:";"}).replace(/[;]/g,","), X.utils.sheet_to_csv(ws));
});
await t.step('should handle RS', async function(t) {
assert.equal(X.utils.sheet_to_csv(ws, {RS:"|"}).replace(/[|]/g,"\n"), X.utils.sheet_to_csv(ws));
assert.equal(X.utils.sheet_to_csv(ws, {RS:";"}).replace(/[;]/g,"\n"), X.utils.sheet_to_csv(ws));
});
await t.step('should handle dateNF', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,20140219,0.3\n,,,\nbaz,,qux,";
var _ws = X.utils.aoa_to_sheet(data, {cellDates:true});
delete get_cell(_ws,"C3").w;
delete get_cell(_ws,"C3").z;
assert.equal(baseline, X.utils.sheet_to_csv(_ws, {dateNF:"YYYYMMDD"}));
});
await t.step('should handle strip', async function(t) {
var baseline = "1,2,3\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n\nbaz,,qux";
assert.equal(baseline, X.utils.sheet_to_csv(ws, {strip:true}));
});
await t.step('should handle blankrows', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\nbaz,,qux,";
assert.equal(baseline, X.utils.sheet_to_csv(ws, {blankrows:false}));
});
await t.step('should handle various line endings', async function(t) {
var data = ["1,a", "2,b", "3,c"];
[ "\r", "\n", "\r\n" ].forEach(function(RS) {
var wb = X.read(data.join(RS), {type:'binary'});
assert.equal(get_cell(wb.Sheets["Sheet1"], "A1").v, 1);
assert.equal(get_cell(wb.Sheets["Sheet1"], "B3").v, "c");
assert.equal(wb.Sheets["Sheet1"]['!ref'], "A1:B3");
});
});
await t.step('should handle skipHidden for rows if requested', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
delete ws["!rows"];
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), baseline);
ws["!rows"] = ([,{hidden:true},,] as any);
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "1,2,3,\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,");
delete ws["!rows"];
});
await t.step('should handle skipHidden for columns if requested', async function(t) {
var baseline = "1,2,3,\nTRUE,FALSE,,sheetjs\nfoo,bar,2/19/14,0.3\n,,,\nbaz,,qux,";
delete ws["!cols"];
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), baseline);
ws["!cols"] = ([,{hidden:true},,] as any);
assert.equal(X.utils.sheet_to_csv(ws), baseline);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "1,3,\nTRUE,,sheetjs\nfoo,2/19/14,0.3\n,,\nbaz,qux,");
ws["!cols"] = ([{hidden:true},,,] as any);
assert.equal(X.utils.sheet_to_csv(ws, {skipHidden:true}), "2,3,\nFALSE,,sheetjs\nbar,2/19/14,0.3\n,,\n,qux,");
delete ws["!cols"];
});
await t.step('should properly handle blankrows and strip options', async function(t) {
var _ws = X.utils.aoa_to_sheet([[""],[],["", ""]]);
assert.equal(X.utils.sheet_to_csv(_ws, {}), ",\n,\n,");
assert.equal(X.utils.sheet_to_csv(_ws, {strip: true}), "\n\n");
assert.equal(X.utils.sheet_to_csv(_ws, {blankrows: false}), ",\n,");
assert.equal(X.utils.sheet_to_csv(_ws, {blankrows: false, strip: true}), "");
});
});
});
Deno.test('sylk', async function(t) {
await t.step('input', async function(t){
false && await t.step('codepage', async function(t) {
var str = "ID;PWXL;N;E\r\nC;X1;Y1;K\"a b\"\r\nE", A1 = "a b";
assert.equal(get_cell(X.read(str, {type:"string"}).Sheets["Sheet1"], "A1").v, A1);
assert.equal(get_cell(X.read(str.replace(//, "\x96"), {type:"binary", codepage:1252}).Sheets["Sheet1"], "A1").v, A1);
if(true) {
assert.equal(get_cell(X.read(Buffer_from(str), {type:"buffer", codepage:65001}).Sheets["Sheet1"], "A1").v, A1);
assert.equal(get_cell(X.read(Buffer_from(str.replace(//, "\x96"), "binary"), {type:"buffer", codepage:1252}).Sheets["Sheet1"], "A1").v, A1);
}
});
});
await t.step('date system', async function(t) {
function make_slk(d1904?: number) { return "ID;PSheetJS\nP;Pd\\/m\\/yy\nP;Pd\\/m\\/yyyy\n" + (d1904 != null ? "O;D;V" + d1904 : "") + "\nF;P0;FG0G;X1;Y1\nC;K1\nE"; }
await t.step('should default to 1900', async function(t) {
assert.equal(get_cell(X.read(make_slk(), {type: "binary"}).Sheets["Sheet1"], "A1").v, 1);
assert.assert(get_cell(X.read(make_slk(), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() < 1902);
assert.equal(get_cell(X.read(make_slk(5), {type: "binary"}).Sheets["Sheet1"], "A1").v, 1);
assert.assert(get_cell(X.read(make_slk(5), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() < 1902);
});
await t.step('should use 1904 when specified', async function(t) {
assert.assert(get_cell(X.read(make_slk(1), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() > 1902);
assert.assert(get_cell(X.read(make_slk(4), {type: "binary", cellDates: true}).Sheets["Sheet1"], "A1").v.getFullYear() > 1902);
});
});
});
if(typeof Uint8Array !== "undefined")
Deno.test('numbers', async function(t) {
await t.step('should parse files from Numbers 6.x', async function(t) {
var wb = X.read(fs.readFileSync(dir + 'numbers/types_61.numbers'), {type:TYPE, WTF:true});
var ws = wb.Sheets["Sheet 1"];
assert.equal(get_cell(ws, "A1").v, "Sheet");
assert.equal(get_cell(ws, "B1").v, "JS");
assert.equal(get_cell(ws, "B2").v, 123);
assert.equal(get_cell(ws, "B11").v, true);
assert.equal(get_cell(ws, "B13").v, 50);
});
if(can_write_numbers) await t.step('should cap cols at 1000 (ALL)', async function(t) {
var aoa = [[1], [], []]; aoa[1][999] = 2; aoa[2][1000] = 3;
var ws1 = X.utils.aoa_to_sheet(aoa);
var wb1 = X.utils.book_new(); X.utils.book_append_sheet(wb1, ws1, "Sheet1");
var wb2 = X.read(X.write(wb1,{bookType:"numbers",type:'binary',numbers:XLSX_ZAHL}),{type:'binary'});
var ws2 = wb2.Sheets["Sheet1"];
assert.equal(ws2["!ref"], "A1:ALL3");
assert.equal(get_cell(ws2, "A1").v, 1);
assert.equal(get_cell(ws2, "ALL2").v, 2);
});
await t.step('should support icloud.com files', async function(t) {
var wb = X.read(fs.readFileSync(dir + 'Attendance.numbers'), {type:TYPE, WTF:true});
var ws = wb.Sheets["Attendance"];
assert.equal(get_cell(ws, "A1").v, "Date");
});
});
Deno.test('dbf', async function(t) {
var wbs: Array<[string, string]> = ([
['d11', dir + 'dbf/d11.dbf'],
['vfp3', dir + 'dbf/vfp3.dbf']
]);
var wbsfalse: Array<[string, X.WorkBook]> = ([]);
var wbstrue: Array<[string, X.WorkBook]> = ([]);
wbsfalse = wbs.map(function(x) { return [x[0], X.read(fs.readFileSync(x[1]), { type:TYPE, cellDates: false })]; });
wbstrue = wbs.map(function(x) { return [x[0], X.read(fs.readFileSync(x[1]), { type:TYPE, cellDates: true })]; });
await t.step(wbs[1][0], async function(t) {
var wsfalse = wbsfalse[1][1].Sheets["Sheet1"];
([
["A1", "v", "CHAR10"], ["A2", "v", "test1"], ["B2", "v", 123.45], ["C2", "v", 12.345], ["D2", "v", 1234.1],
["E2", "v", 6260], ["E2", "w", "19170219"],
["F2", "v", 6260], ["F2", "w", "19170219"],
["G2", "v", 1231.4], ["H2", "v", 123234], ["I2", "v", true], ["L2", "v", "SheetJS"]
] as Array<[string, string, any]>).forEach(function(r) {
assert.equal(get_cell(wsfalse, r[0])[r[1]], r[2]);
});
var wstrue = wbstrue[1][1].Sheets["Sheet1"];
([
["E2", "v", Date.UTC(1917,1,19,0,0,0,0)], ["E2", "w", "19170219"],
["F2", "v", Date.UTC(1917,1,19,0,0,0,0)], ["F2", "w", "19170219"],
] as Array<[string, string, any]>).forEach(function(r) {
assert.equal(get_cell(wstrue, r[0])[r[1]].valueOf(), r[2].valueOf());
});
});
if(false) await t.step("Ś╫êëτ⌡ś and Š╫ěéτ⌡š", async function(t) {
([ [620, "Ś╫êëτ⌡ś"], [895, "Š╫ěéτ⌡š"] ] as Array<[number,string]>).forEach(function(r) {
var book = X.utils.book_new();
var sheet = X.utils.aoa_to_sheet([["ASCII", "encoded"], ["Test", r[1]]]);
X.utils.book_append_sheet(book, sheet, "sheet1");
var data = X.write(book, {type: TYPE, bookType: "dbf", codepage:r[0]});
var wb = X.read(data, {type: TYPE});
assert.equal(wb.Sheets.Sheet1.B2.v, r[1]);
});
});
});
const JSDOM = false; //import { JSDOM } from 'jsdom'; // breaks in latest deno
var domtest = false; // error: Error: Not implemented: isContext
var inserted_dom_elements = [];
function get_dom_element(html: string) {
if(browser) {
var domelt = document.createElement('div');
domelt.innerHTML = html;
if(document.body) document.body.appendChild(domelt);
inserted_dom_elements.push(domelt);
return domelt.children[0];
}
if(!JSDOM) throw new Error("Browser test fail");
// @ts-ignore
return new JSDOM(html).window.document.body.children[0];
}
Deno.test('HTML', async function(t) {
await t.step('input string', async function(t) {
await t.step('should interpret values by default', async function(t) { plaintext_test(X.read(html_bstr, {type:"binary"}), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.read(html_bstr, {type:"binary", raw:true}), true); });
await t.step('should handle "string" type', async function(t) { plaintext_test(X.read(html_str, {type:"string"}), false); });
await t.step('should handle newlines correctly', async function(t) {
var table = "<table><tr><td>foo<br/>bar</td><td>baz</td></tr></table>";
var wb = X.read(table, {type:"string"});
assert.equal(get_cell(wb.Sheets["Sheet1"], "A1").v, "foo\nbar");
});
await t.step('should generate multi-sheet workbooks', async function(t) {
var table = "";
for(var i = 0; i < 4; ++i) table += "<table><tr><td>" + X.utils.encode_col(i) + "</td><td>" + i + "</td></tr></table>";
table += table; table += table;
var wb = X.read(table, {type: "string"});
assert.equal(wb.SheetNames.length, 16);
assert.equal(wb.SheetNames[1], "Sheet2");
for(var j = 0; j < 4; ++j) {
assert.equal(get_cell(wb.Sheets["Sheet" + (j+1)], "A1").v, X.utils.encode_col(j));
assert.equal(get_cell(wb.Sheets["Sheet" + (j+1)], "B1").v, j);
}
});
});
if(domtest) await t.step('input DOM', async function(t) {
await t.step('should interpret values by default', async function(t) { plaintext_test(X.utils.table_to_book(get_dom_element(html_str)), false); });
await t.step('should generate strings if raw option is passed', async function(t) { plaintext_test(X.utils.table_to_book(get_dom_element(html_str), {raw:true}), true); });
await t.step('should handle newlines correctly', async function(t) {
var table = get_dom_element("<table><tr><td>foo<br/>bar</td><td>baz</td></tr></table>");
var ws = X.utils.table_to_sheet(table);
assert.equal(get_cell(ws, "A1").v, "foo\nbar");
});
await t.step('should trim whitespace', async function(t) {
if(get_dom_element("foo <br> bar").innerHTML != "foo <br> bar") return;
var table = get_dom_element("<table><tr><td> foo <br/> bar </td><td> baz qux </td></tr></table>");
var ws = X.utils.table_to_sheet(table);
assert.equal(get_cell(ws, "A1").v.replace(/\n/g, "|"), "foo | bar");
assert.equal(get_cell(ws, "B1").v, "baz qux");
});
});
if(domtest) await t.step('should handle entities', async function(t) {
var html = "<table><tr><td>A&amp;B</td><td>A&middot;B</td></tr></table>";
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(get_cell(ws, "A1").v, "A&B");
assert.equal(get_cell(ws, "B1").v, "A·B");
});
if(domtest) await t.step('should honor sheetRows', async function(t) {
var html = X.utils.sheet_to_html(X.utils.aoa_to_sheet([[1,2],[3,4],[5,6]]));
// $FlowIgnore
html = /<body[^>]*>([\s\S]*)<\/body>/i.exec(html)?.[1] || "";
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(ws['!ref'], "A1:B3");
ws = X.utils.table_to_sheet(get_dom_element(html), {sheetRows:1});
assert.equal(ws['!ref'], "A1:B1");
assert.equal(ws['!fullref'], "A1:B3");
ws = X.utils.table_to_sheet(get_dom_element(html), {sheetRows:2});
assert.equal(ws['!ref'], "A1:B2");
assert.equal(ws['!fullref'], "A1:B3");
});
if(domtest) await t.step('should hide hidden rows', async function(t) {
var html = "<table><tr style='display: none;'><td>Foo</td></tr><tr><td style='display: none;'>Bar</td></tr><tr class='hidden'><td>Baz</td></tr></table><style>.hidden {display: none}</style>";
var ws = X.utils.table_to_sheet(get_dom_element(html));
var expected_rows = [];
expected_rows[0] = expected_rows[2] = {hidden: true};
assert.equal(ws['!ref'], "A1:A3");
try {
assert.deepEqual(ws['!rows'], expected_rows);
} catch(e) {
expected_rows[1] = {};
assert.deepEqual(ws['!rows'], expected_rows);
}
assert.equal(get_cell(ws, "A1").v, "Foo");
assert.equal(get_cell(ws, "A2").v, "Bar");
assert.equal(get_cell(ws, "A3").v, "Baz");
});
if(domtest) await t.step('should ignore hidden rows and cells when the `display` option is on', async function(t) {
var html = "<table><tr style='display: none;'><td>1</td><td>2</td><td>3</td></tr><tr><td class='hidden'>Foo</td><td>Bar</td><td style='display: none;'>Baz</td></tr></table><style>.hidden {display: none}</style>";
var ws = X.utils.table_to_sheet(get_dom_element(html), {display: true});
assert.equal(ws['!ref'], "A1");
assert.assert(ws.hasOwnProperty('!rows') == false || !ws["!rows"]?.[0] || !ws["!rows"]?.[0]?.hidden);
assert.equal(get_cell(ws, "A1").v, "Bar");
});
await t.step('type override', async function(t) {
function chk(ws: X.WorkSheet) {
assert.equal(get_cell(ws, "A1").t, "s");
assert.equal(get_cell(ws, "A1").v, "1234567890");
assert.equal(get_cell(ws, "B1").t, "n");
assert.equal(get_cell(ws, "B1").v, 1234567890);
}
var html = "<table><tr><td t=\"s\">1234567890</td><td>1234567890</td></tr></table>";
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"]; chk(ws);
chk(X.read(X.utils.sheet_to_html(ws), {type:'string'}).Sheets["Sheet1"]);
});
if(domtest) await t.step('DOM', async function(t) { chk(X.utils.table_to_sheet(get_dom_element(html))); });
});
await t.step('TH/THEAD/TBODY/TFOOT elements', async function(t) {
var html = "<table><thead><tr><th>A</th><th>B</th></tr></thead><tbody><tr><td>1</td><td>2</td></tr><tr><td>3</td><td>4</td></tr></tbody><tfoot><tr><th>4</th><th>6</th></tr></tfoot></table>";
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"];
assert.equal(X.utils.sheet_to_csv(ws), "A,B\n1,2\n3,4\n4,6");
});
if(domtest) await t.step('DOM', async function(t) {
var ws = X.utils.table_to_sheet(get_dom_element(html));
assert.equal(X.utils.sheet_to_csv(ws), "A,B\n1,2\n3,4\n4,6");
});
});
await t.step('empty cell containing html element should increment cell index', async function(t) {
var html = "<table><tr><td>abc</td><td><b> </b></td><td>def</td></tr></table>";
var expectedCellCount = 3;
await t.step('HTML string', async function(t) {
var ws = X.read(html, {type:'string'}).Sheets["Sheet1"];
var range = X.utils.decode_range(ws['!ref']||"A1");
assert.equal(range.e.c,expectedCellCount - 1);
});
if(domtest) await t.step('DOM', async function(t) {
var ws = X.utils.table_to_sheet(get_dom_element(html));
var range = X.utils.decode_range(ws['!ref']||"A1");
assert.equal(range.e.c, expectedCellCount - 1);
});
});
});
Deno.test('js -> file -> js', async function(t) {
var BIN: 'binary' ="binary";
var ws = X.utils.aoa_to_sheet([
["number", "bool", "string", "date"],
[1, true, "sheet"],
[2, false, "dot"],
[6.9, false, "JS", fixdate],
[72.62, true, "0.3"]
]);
var wb = { SheetNames: ['Sheet1'], Sheets: {Sheet1: ws} };
function eqcell(wb1: X.WorkBook, wb2: X.WorkBook, s: string, a: string) {
assert.equal(get_cell(wb1.Sheets[s], a).v, get_cell(wb2.Sheets[s], a).v);
assert.equal(get_cell(wb1.Sheets[s], a).t, get_cell(wb2.Sheets[s], a).t);
}
for(var ofmti = 0; ofmti < ofmt.length; ++ofmti) { var f = ofmt[ofmti];
await t.step(f, async function(t) {
var newwb = X.read(X.write(wb, {type:BIN, bookType: f}), {type:BIN});
var cb = function(cell: string) { eqcell(wb, newwb, 'Sheet1', cell); };
['A2', 'A3'].forEach(cb); /* int */
['A4', 'A5'].forEach(cb); /* double */
['B2', 'B3'].forEach(cb); /* bool */
['C2', 'C3'].forEach(cb); /* string */
if(!DIF_XL) cb('D4'); /* date */
if(f != 'csv' && f != 'txt') eqcell(wb, newwb, 'Sheet1', 'C5');
});
}
await t.step('should roundtrip DIF strings', async function(t) {
var wb1 = X.read(X.write(wb, {type:BIN, bookType: 'dif'}), {type:BIN});
var wb2 = X.read(X.write(wb1, {type:BIN, bookType: 'dif'}), {type:BIN});
eqcell(wb, wb1, 'Sheet1', 'C5');
eqcell(wb, wb2, 'Sheet1', 'C5');
});
});
Deno.test('rtf', async function(t) {
await t.step('roundtrip should be idempotent', async function(t) {
var ws = X.utils.aoa_to_sheet([
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", null, "q\"ux"]
]);
var wb1 = X.utils.book_new();
X.utils.book_append_sheet(wb1, ws, "Sheet1");
var rtf1 = X.write(wb1, {bookType: "rtf", type: "string"});
var wb2 = X.read(rtf1, {type: "string"});
var rtf2 = X.write(wb2, {bookType: "rtf", type: "string"});
assert.equal(rtf1, rtf2);
});
});
Deno.test('corner cases', async function(t) {
await t.step('output functions', async function(t) {
var ws = X.utils.aoa_to_sheet([
[1,2,3],
[true, false, null, "sheetjs"],
["foo", "bar", fixdate, "0.3"],
["baz", null, "q\"ux"]
]);
get_cell(ws,"A1").f = ""; get_cell(ws,"A1").w = "";
delete get_cell(ws,"C3").w; delete get_cell(ws,"C3").z; get_cell(ws,"C3").XF = {ifmt:14};
get_cell(ws,"A4").t = "e";
X.utils.sheet_to_formulae(ws);
X.utils.sheet_to_csv(ws);
X.utils.sheet_to_json(ws);
ws['!cols'] = [ {wch:6}, {wch:7}, {wch:10}, {wch:20} ];
var wb = {SheetNames:['sheetjs'], Sheets:{sheetjs:ws}};
X.write(wb, {type: "binary", bookType: 'xlsx'});
X.write(wb, {type: TYPE, bookType: 'xlsm'});
X.write(wb, {type: "base64", bookType: 'xlsb'});
X.write(wb, {type: "binary", bookType: 'ods'});
X.write(wb, {type: "binary", bookType: 'biff2'});
X.write(wb, {type: "binary", bookType: 'biff5'});
X.write(wb, {type: "binary", bookType: 'biff8'});
get_cell(ws,"A2").t = "f";
assert.throws(function() { X.utils.sheet_to_json(ws); });
});
await t.step('SSF', async function(t) {
X.SSF.format("General", "dafuq");
assert.throws(function() { return X.SSF.format("General", {sheet:"js"});});
X.SSF.format("b e ddd hh AM/PM", 41722.4097222222);
X.SSF.format("b ddd hh m", 41722.4097222222);
["hhh","hhh A/P","hhmmm","sss","[hhh]","G eneral"].forEach(function(f) {
assert.throws(function() { return X.SSF.format(f, 12345.6789);});
});
["[m]","[s]"].forEach(function(f) {
assert.doesNotThrow(function() { return X.SSF.format(f, 12345.6789);});
});
});
if(typeof JSON !== 'undefined') await t.step('SSF oddities', async function(t) {
// $FlowIgnore
var ssfdata: Array<any> = JSON.parse(fs.readFileSync('./misc/ssf.json', 'utf-8'));
var cb = function(d: any, j: any) { return function() { return X.SSF.format(d[0], d[j][0]); }; };
ssfdata.forEach(function(d) {
for(var j=1;j<d.length;++j) {
if(d[j].length == 2) {
var expected = d[j][1], actual = X.SSF.format(d[0], d[j][0], {});
assert.equal(actual, expected);
} else if(d[j][2] !== "#") assert.throws(cb(d, j));
}
});
});
await t.step('codepage', async function(t) {
X.read(fs.readFileSync(dir + "biff5/number_format_greek.xls"), {type:TYPE});
});
await t.step('large binary files', async function(t) {
var data: Array<Array<string|number> > = [["Row Number"]];
for(var j = 0; j < 19; ++j) data[0].push("Column " + j+1);
for(var i = 0; i < 499; ++i) {
var o: Array<string|number> = ["Row " + i];
for(j = 0; j < 19; ++j) o.push(i + j);
data.push(o);
}
var ws = X.utils.aoa_to_sheet(data);
var wb = { Sheets:{ Sheet1: ws }, SheetNames: ["Sheet1"] };
var type: 'binary' = "binary";
(["xlsb", "biff8", "biff5", "biff2"] as Array<X.BookType>).forEach(function(btype) {
void X.read(X.write(wb, {bookType:btype, type:type}), {type:type});
});
});
if(fs.existsSync(dir + 'wtf_path.xlsx')) await t.step('OPC oddities', async function(t) {
X.read(fs.readFileSync(dir + 'wtf_path.xlsx'), {WTF:true, type:TYPE});
X.read(fs.readFileSync(dir + 'wtf_path.xlsb'), {WTF:true, type:TYPE});
});
await t.step("should quote unicode sheet names in formulae", async function(t) {
var wb = X.read(fs.readFileSync(dir + "cross-sheet_formula_names.xlsb"), {WTF:true, type:TYPE});
assert.equal(wb.Sheets["Sheet1"].A1.f, "'a-b'!A1");
assert.equal(wb.Sheets["Sheet1"].A2.f, "'a#b'!A1");
assert.equal(wb.Sheets["Sheet1"].A3.f, "'a^b'!A1");
assert.equal(wb.Sheets["Sheet1"].A4.f, "'a%b'!A1");
assert.equal(wb.Sheets["Sheet1"].A5.f, "'a\u066ab'!A1");
assert.equal(wb.Sheets["Sheet1"].A6.f, "'☃️'!A1");
assert.equal(wb.Sheets["Sheet1"].A7.f, "'\ud83c\udf63'!A1");
assert.equal(wb.Sheets["Sheet1"].A8.f, "'a!!b'!A1");
assert.equal(wb.Sheets["Sheet1"].A9.f, "'a$b'!A1");
assert.equal(wb.Sheets["Sheet1"].A10.f, "'a!b'!A1");
assert.equal(wb.Sheets["Sheet1"].A11.f, "'a b'!A1");
});
if(false) await t.step('should parse CSV date values with preceding space', async function(t) {
function check_ws(ws: X.WorkSheet, dNF?: any) {
//var d = X.SSF.parse_date_code(ws.B1.v);
assert.equal(ws.B1.w, dNF ? '2018-03-24' : "3/23/18");
//assert.equal(d.d, 24);
//assert.equal(d.m, 3);
//assert.equal(d.y, 2018);
}
[true, false].forEach(function(cD: boolean) {
[void 0, 'yyyy-mm-dd'].forEach(function(dNF) {
var ws1 = X.read(
'7,2018-03-24',
{cellDates: cD, dateNF: dNF, type:'string'}
).Sheets["Sheet1"];
check_ws(ws1, dNF);
var ws2 = X.read(
'7, 2018-03-24',
{cellDates: cD, dateNF: dNF, type:'string'}
).Sheets["Sheet1"];
check_ws(ws2, dNF);
});
});
});
await t.step('should handle \\r and \\n', async function(t) {
var base = "./test_files/crlf/";
[
"CRLFR9.123",
"CRLFR9.WK1",
"CRLFR9.WK3",
"CRLFR9.WK4",
"CRLFR9.XLS",
"CRLFR9_4.XLS",
"CRLFR9_5.XLS",
"CRLFX5_2.XLS",
"CRLFX5_3.XLS",
"CRLFX5_4.XLS",
"CRLFX5_5.XLS",
"crlf.csv",
"crlf.fods",
"crlf.htm",
"crlf.numbers",
"crlf.ods",
"crlf.rtf",
"crlf.slk",
"crlf.xls",
"crlf.xlsb",
"crlf.xlsx",
"crlf.xml",
"crlf5.xls",
"crlfq9.qpw",
"crlfq9.wb1",
"crlfq9.wb2",
"crlfq9.wb3",
"crlfq9.wk1",
"crlfq9.wk3",
"crlfq9.wk4",
"crlfq9.wks",
"crlfq9.wq1",
"crlfw4_2.wks",
"crlfw4_3.wks",
"crlfw4_4.wks"
].map(function(path) { return base + path; }).forEach(function(w) {
var wb = X.read(fs.readFileSync(w), {type:TYPE});
var ws = wb.Sheets[wb.SheetNames[0]];
var B1 = get_cell(ws, "B1"), B2 = get_cell(ws, "B2");
var lio = w.match(/\.[^\.]*$/)?.index || 0, stem = w.slice(0, lio).toLowerCase(), ext = w.slice(lio + 1).toLowerCase();
switch(ext) {
case 'fm3': break;
case '123':
assert.equal(B1.v, "abc\ndef");
// TODO: parse formula // assert.equal(B1.v, "abc\r\ndef");
break;
case 'qpw':
case 'wb1':
case 'wb2':
case 'wb3':
case 'wk1':
case 'wk3':
case 'wk4':
case 'wq1':
assert.assert(B1.v == "abcdef" || B1.v == "abc\ndef");
// TODO: formula -> string values
if(B2 && B2.t != "e" && B2.v != "") assert.assert(B2.v == "abcdef" || B2.v == "abc\r\ndef");
break;
case 'wks':
if(stem.match(/w4/)) {
assert.equal(B1.v, "abc\ndef");
assert.assert(!B2 || B2.t == "z"); // Works4 did not support CODE / CHAR
} else if(stem.match(/q9/)) {
assert.equal(B1.v, "abcdef");
assert.equal(B2.v, "abc\r\ndef");
} else {
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\r\ndef");
}
break;
case 'xls':
if(stem.match(/CRLFR9/i)) {
assert.equal(B1.v, "abc\r\ndef");
} else {
assert.equal(B1.v, "abc\ndef");
}
assert.equal(B2.v, "abc\r\ndef");
break;
case 'rtf':
case 'htm':
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\n\ndef");
break;
case 'xlsx':
case 'xlsb':
case 'xml':
case 'slk':
case 'csv':
assert.equal(B1.v, "abc\ndef");
assert.equal(B2.v, "abc\r\ndef");
break;
case 'fods':
case 'ods':
assert.equal(B1.v, "abc\nDef");
assert.equal(B2.v, "abc\r\ndef");
break;
case 'numbers':
assert.equal(B1.v, "abc\ndef");
// TODO: B2 should be a formula error
break;
default: throw ext;
}
});
});
});
Deno.test('encryption', async function(t) {
for(var pfi = 0; pfi < password_files.length; ++pfi) { var x = password_files[pfi];
await t.step(x, async function(t) {
await t.step('should throw with no password', async function(t) {assert.throws(function() { X.read(fs.readFileSync(dir + x), {type:TYPE}); }); });
await t.step('should throw with wrong password', async function(t) {
try {
X.read(fs.readFileSync(dir + x), {type:TYPE,password:'Password',WTF:opts.WTF});
throw new Error("incorrect password was accepted");
} catch(e) {
if(e.message != "Password is incorrect") throw e;
}
});
await t.step('should recognize correct password', async function(t) {
try {
X.read(fs.readFileSync(dir + x), {type:TYPE,password:'password',WTF:opts.WTF});
} catch(e) {
if(e.message == "Password is incorrect") throw e;
}
});
if(false) await t.step('should decrypt file', async function(t) {
/*var wb = */X.read(fs.readFileSync(dir + x), {type:TYPE,password:'password',WTF:opts.WTF});
});
});
};
});
if(!browser || typeof cptable !== 'undefined')
Deno.test('multiformat tests', async function(t) {
var mfopts = opts;
var mft = fs.readFileSync('multiformat.lst','utf-8').replace(/\r/g,"").split("\n").map(function(x) { return x.trim(); });
var csv = true, formulae = false;
for(var mfti = 0; mfti < mft.length; ++mfti) { var x = mft[mfti];
if(x.charAt(0)!="#") await t.step('MFT ' + x, async function(t) {
var f: Array<X.WorkBook> = [], r = x.split(/\s+/);
if(r.length < 3) return;
if(!fs.existsSync(dir + r[0] + r[1])) return;
await t.step('should parse all', async function(t) {
for(var j = 1; j < r.length; ++j) f[j-1] = X.read(fs.readFileSync(dir + r[0] + r[j]), mfopts);
});
await t.step('should have the same sheetnames', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
});
await t.step('should have the same ranges', async function(t) {
f[0].SheetNames.forEach(function(s) {
var ss = f.map(function(x) { return x.Sheets[s]; });
cmparr(ss.map(function(s) { return s['!ref']; }));
});
});
await t.step('should have the same merges', async function(t) {
f[0].SheetNames.forEach(function(s) {
var ss = f.map(function(x) { return x.Sheets[s]; });
cmparr(ss.map(function(s) { return (s['!merges']||[]).map(function(y) { return X.utils.encode_range(y); }).sort(); }));
});
});
if(csv) await t.step('should have the same CSV', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
f[0].SheetNames.forEach(function(name) {
cmparr(f.map(function(x) { return X.utils.sheet_to_csv(x.Sheets[name]); }));
});
});
if(formulae) await t.step('should have the same formulae', async function(t) {
cmparr(f.map(function(x) { return x.SheetNames; }));
f[0].SheetNames.forEach(function(name: string) {
cmparr(f.map(function(x) { return X.utils.sheet_to_formulae(x.Sheets[name]).sort(); }));
});
});
});
else x.split(/\s+/).forEach(function(w: string) { switch(w) {
case "no-csv": csv = false; break;
case "yes-csv": csv = true; break;
case "no-formula": formulae = false; break;
case "yes-formula": formulae = true; break;
}});
} });