Angular 8
¿Qué es Angular?
Framework JS
SPA: Single Page Applications
TypeScript
Código fuente y código compilado
¿Angular 2? ¿8? ¿AngularJS?
Entorno de desarrollo
IDE: Visual Studio Code
Configurar:
Format on Paste
Format on Save
"editor.codeActionsOnSave": {
"source.fixAll.tslint": true
}
Node.js y npm
Extensión Augury
Comandos básicos
Clonar un repositorio:
git clone URL
Descargar última versión del repositorio:
git pull origin master
Configuración proxy
git config --global http.proxy http://username:password@host:port
git config --global https.proxy http://username:password@host:port
npm
Instalar última versión después de instalar Node.js
(configurar proxy si es necesario): npm install -g npm
Repositorio de módulos distribuibles
Módulos globales y módulos locales
La carpeta node_modules
El archivo package.json:
Registro de dependencias
Dependencias de desarrollo y de producción
Versiones (SEMVER)
Comandos npm
Instalar un paquete globalmente:
npm install -g paquete
Instalar un paquete de producción:
npm install paquete
Instalar un paquete de desarrollo:
npm install paquete --save-dev
Instalar todas las dependencias:
npm install
Instalar las dependencias de producción:
npm install --production
Listar paquetes instalados:
npm list --depth=0 (locales)angular-cli
Instalación global:
npm install -g @angular/cli
Configuración proxy
npm config set proxy http://username:password@host:port
npm config set https-proxy http://username:password@host:port
JavaScript
Interpretado, compilado y ejecutado en el navegador
Cada navegador programa su propio motor de JS
Estandarización: ECMAScript
La versión ES6 o ES2015
Transpiladores: Babel, TypeScript
Organización del código JavaScript
Ejemplo de uso clásico de JS: utilizar un plugin de jQuery en nuestra web, o implementar alguna interacción con el usuario
Pocas líneas de código, todas en un mismo archivo
Organización del código JavaScript
(function($) {
$(document).ready(function() {
// Al hacer clic en una pestaña
$(".tab a").on("click", function(e) {
// Anulamos el link
e.preventDefault();
// Ocultamos todos los bloques de contenido
// y mostramos sólo el que se ha elegido
var content_id = $(this).attr("href");
$(".tab-content").hide();
$(content_id).show();
// Desmarcamos la pestaña que estuviera activa
// y marcamos la clicada como activa
$(".tab.active").removeClass("active");
$(this).closest(".tab").addClass("active");
})
})
})(jQuery);
<head>
<meta charset="UTF-8">
<title>Mi web</title>
<script src="vendor/jquery/jquery.min.js"></script>
<script src="js/tabs.js"></script>
</head>
24 líneas
Organización del código JavaScript
<head>
<meta charset="UTF-8">
<title>Mi web</title>
<script src="vendor/jquery/jquery.min.js"></script>
<script src="js/ui.js"></script>
</head>
(function($) {
$(document).ready(function() {
$(document).on('click', '.tab_new', offerGroupSwitchTabs);
$(document).on('click', '.navigationServices-li', jumpTo);
$('.load-more_new').on('click', loadMore).each(function() {
$(this).data('main', $(this).text());
});
})
var loadMore = function(e) {
e.preventDefault();
var $list = $(this).prev('.promos-list_new');
var button_text = $(this).data('main');
var button_alt_text = $(this).data('alt');
if ($(window).width() > 992) {
var hidden_classes = ".hidden";
var $hidden = $list.find(hidden_classes);
var n_show = 3;
} else if ($(window).width() > 768) {
var hidden_classes = ".hidden, .hidden-sm";
var $hidden = $list.find(hidden_classes);
var n_show = 2;
} else {
var hidden_classes = ".hidden, .hidden-sm, .hidden-xs";
var $hidden = $list.find(hidden_classes);
var n_show = 1;
}
if ($hidden.length == 0) {
$list.find(">li:nth-child(2)").addClass('hidden-xs');
$list.find(">li:nth-child(3)").addClass('hidden-xs hidden-sm');
$list.find(">li:nth-child(n+4)").addClass('hidden');
$(this).text(button_text);
} else {
$hidden.slice(0, n_show).each(function () {
$(this).removeClass(hidden_classes.replace(/[\.,\,]/g, ''));
});
if ($list.find(hidden_classes).length == 0) {
$(this).text(button_alt_text);
}
}
}
var offerGroupSwitchTabs = function(e) {
e.preventDefault();
var $info = $(this).closest('.info_new');
var target = $(this).attr('href');
var targetClass = target.replace('#', '.');
$info.find('.active').removeClass('active');
$info.find('[href=' + target + ']').addClass('active');
$(targetClass).addClass('active');
}
var jumpTo = function(e) {
e.preventDefault();
var target = $(this).find('a').attr('href');
var $target = $(target);
var targetTop = $target.offset().top;
$('html, body').animate({
scrollTop: targetTop - 200
}, {
duration: durationOnDistance(targetTop),
complete: function() {
window.location.hash = target;
}
});
}
var durationOnDistance = function(elementTop) {
var distance = elementTop - $(window).scrollTop();
var time = distance * 0.5;
return time;
}
})(jQuery)
75 líneas
Organización del código JavaScript
Programar toda la UI de una página
(function() {
CodeMirror.defineMode("javascript", function(config, parserConfig) {
var indentUnit = config.indentUnit;
var jsonMode = parserConfig.json;
// Tokenizer
var keywords = function(){
function kw(type) {return {type: type, style: "keyword"};}
var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");
var operator = kw("operator"), atom = {type: "atom", style: "atom"};
return {
"if": A, "while": A, "with": A, "else": B, "do": B, "try": B, "finally": B,
"return": C, "break": C, "continue": C, "new": C, "delete": C, "throw": C,
"var": kw("var"), "const": kw("var"), "let": kw("var"),
"function": kw("function"), "catch": kw("catch"),
"for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),
"in": operator, "typeof": operator, "instanceof": operator,
"true": atom, "false": atom, "null": atom, "undefined": atom, "NaN": atom, "Infinity": atom
};
}();
var isOperatorChar = /[+\-*&%=<>!?|]/;
function chain(stream, state, f) {
state.tokenize = f;
return f(stream, state);
}
function nextUntilUnescaped(stream, end) {
var escaped = false, next;
while ((next = stream.next()) != null) {
if (next == end && !escaped)
return false;
escaped = !escaped && next == "\\";
}
return escaped;
}
// Used as scratch variables to communicate multiple values without
// consing up tons of objects.
var type, content;
function ret(tp, style, cont) {
type = tp; content = cont;
return style;
}
function jsTokenBase(stream, state) {
var ch = stream.next();
if (ch == '"' || ch == "'")
return chain(stream, state, jsTokenString(ch));
else if (/[\[\]{}\(\),;\:\.]/.test(ch))
return ret(ch);
else if (ch == "0" && stream.eat(/x/i)) {
stream.eatWhile(/[\da-f]/i);
return ret("number", "number");
}
else if (/\d/.test(ch)) {
stream.match(/^\d*(?:\.\d*)?(?:[eE][+\-]?\d+)?/);
return ret("number", "number");
}
else if (ch == "/") {
if (stream.eat("*")) {
return chain(stream, state, jsTokenComment);
}
else if (stream.eat("/")) {
stream.skipToEnd();
return ret("comment", "comment");
}
else if (state.reAllowed) {
nextUntilUnescaped(stream, "/");
stream.eatWhile(/[gimy]/); // 'y' is "sticky" option in Mozilla
return ret("regexp", "string-2");
}
else {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
}
else if (ch == "#") {
stream.skipToEnd();
return ret("error", "error");
}
else if (isOperatorChar.test(ch)) {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
else {
stream.eatWhile(/[\w\$_]/);
var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];
return (known && state.kwAllowed) ? ret(known.type, known.style, word) :
ret("variable", "variable", word);
}
}
function jsTokenString(quote) {
return function(stream, state) {
if (!nextUntilUnescaped(stream, quote))
state.tokenize = jsTokenBase;
return ret("string", "string");
};
}
function jsTokenComment(stream, state) {
var maybeEnd = false, ch;
while (ch = stream.next()) {
if (ch == "/" && maybeEnd) {
state.tokenize = jsTokenBase;
break;
}
maybeEnd = (ch == "*");
}
return ret("comment", "comment");
}
// Parser
var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};
function JSLexical(indented, column, type, align, prev, info) {
this.indented = indented;
this.column = column;
this.type = type;
this.prev = prev;
this.info = info;
if (align != null) this.align = align;
}
function inScope(state, varname) {
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return true;
}
function parseJS(state, style, type, content, stream) {
var cc = state.cc;
// Communicate our context to the combinators.
// (Less wasteful than consing up a hundred closures on every call.)
cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = true;
while(true) {
var combinator = cc.length ? cc.pop() : jsonMode ? expression : statement;
if (combinator(type, content)) {
while(cc.length && cc[cc.length - 1].lex)
cc.pop()();
if (cx.marked) return cx.marked;
if (type == "variable" && inScope(state, content)) return "variable-2";
return style;
}
}
}
// Combinator utils
var cx = {state: null, column: null, marked: null, cc: null};
function pass() {
for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);
}
function cont() {
pass.apply(null, arguments);
return true;
}
function register(varname) {
var state = cx.state;
if (state.context) {
cx.marked = "def";
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return;
state.localVars = {name: varname, next: state.localVars};
}
}
// Combinators
var defaultVars = {name: "this", next: {name: "arguments"}};
function pushcontext() {
if (!cx.state.context) cx.state.localVars = defaultVars;
cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};
}
function popcontext() {
cx.state.localVars = cx.state.context.vars;
cx.state.context = cx.state.context.prev;
}
function pushlex(type, info) {
var result = function() {
var state = cx.state;
state.lexical = new JSLexical(state.indented, cx.stream.column(), type, null, state.lexical, info)
};
result.lex = true;
return result;
}
function poplex() {
var state = cx.state;
if (state.lexical.prev) {
if (state.lexical.type == ")")
state.indented = state.lexical.indented;
state.lexical = state.lexical.prev;
}
}
poplex.lex = true;
function expect(wanted) {
return function expecting(type) {
if (type == wanted) return cont();
else if (wanted == ";") return pass();
else return cont(arguments.callee);
};
}
function statement(type) {
if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);
if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);
if (type == "keyword b") return cont(pushlex("form"), statement, poplex);
if (type == "{") return cont(pushlex("}"), block, poplex);
if (type == ";") return cont();
if (type == "function") return cont(functiondef);
if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),
poplex, statement, poplex);
if (type == "variable") return cont(pushlex("stat"), maybelabel);
if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),
block, poplex, poplex);
if (type == "case") return cont(expression, expect(":"));
if (type == "default") return cont(expect(":"));
if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),
statement, poplex, popcontext);
return pass(pushlex("stat"), expression, expect(";"), poplex);
}
function expression(type) {
if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);
if (type == "function") return cont(functiondef);
if (type == "keyword c") return cont(maybeexpression);
if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);
if (type == "operator") return cont(expression);
if (type == "[") return cont(pushlex("]"), commasep(expression, "]"), poplex, maybeoperator);
if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
return cont();
}
function maybeexpression(type) {
if (type.match(/[;\}\)\],]/)) return pass();
return pass(expression);
}
function maybeoperator(type, value) {
if (type == "operator" && /\+\+|--/.test(value)) return cont(maybeoperator);
if (type == "operator") return cont(expression);
if (type == ";") return;
if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
if (type == ".") return cont(property, maybeoperator);
if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
}
function maybelabel(type) {
if (type == ":") return cont(poplex, statement);
return pass(maybeoperator, expect(";"), poplex);
}
function property(type) {
if (type == "variable") {cx.marked = "property"; return cont();}
}
function objprop(type) {
if (type == "variable") cx.marked = "property";
if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);
}
function commasep(what, end) {
function proceed(type) {
if (type == ",") return cont(what, proceed);
if (type == end) return cont();
return cont(expect(end));
}
return function commaSeparated(type) {
if (type == end) return cont();
else return pass(what, proceed);
};
}
function block(type) {
if (type == "}") return cont();
return pass(statement, block);
}
function vardef1(type, value) {
if (type == "variable"){register(value); return cont(vardef2);}
return cont();
}
function vardef2(type, value) {
if (value == "=") return cont(expression, vardef2);
if (type == ",") return cont(vardef1);
}
function forspec1(type) {
if (type == "var") return cont(vardef1, forspec2);
if (type == ";") return pass(forspec2);
if (type == "variable") return cont(formaybein);
return pass(forspec2);
}
function formaybein(type, value) {
if (value == "in") return cont(expression);
return cont(maybeoperator, forspec2);
}
function forspec2(type, value) {
if (type == ";") return cont(forspec3);
if (value == "in") return cont(expression);
return cont(expression, expect(";"), forspec3);
}
function forspec3(type) {
if (type != ")") cont(expression);
}
function functiondef(type, value) {
if (type == "variable") {register(value); return cont(functiondef);}
if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, statement, popcontext);
}
function funarg(type, value) {
if (type == "variable") {register(value); return cont();}
}
// Interface
return {
startState: function(basecolumn) {
return {
tokenize: jsTokenBase,
reAllowed: true,
kwAllowed: true,
cc: [],
lexical: new JSLexical((basecolumn || 0) - indentUnit, 0, "block", false),
localVars: null,
context: null,
indented: 0
};
},
token: function(stream, state) {
if (stream.sol()) {
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = false;
state.indented = stream.indentation();
}
if (stream.eatSpace()) return null;
var style = state.tokenize(stream, state);
if (type == "comment") return style;
state.reAllowed = type == "operator" || type == "keyword c" || type.match(/^[\[{}\(,;:]$/);
state.kwAllowed = type != '.';
return parseJS(state, style, type, content, stream);
},
indent: function(state, textAfter) {
if (state.tokenize != jsTokenBase) return 0;
var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical,
type = lexical.type, closing = firstChar == type;
if (type == "vardef") return lexical.indented + 4;
else if (type == "form" && firstChar == "{") return lexical.indented;
else if (type == "stat" || type == "form") return lexical.indented + indentUnit;
else if (lexical.info == "switch" && !closing)
return lexical.indented + (/^(?:case|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);
else if (lexical.align) return lexical.column + (closing ? 0 : 1);
else return lexical.indented + (closing ? 0 : indentUnit);
},
electricChars: ":{}"
};
});
CodeMirror.defineMIME("text/javascript", "javascript");
CodeMirror.defineMIME("application/json", {name: "javascript", json: true});
CodeMirror.defineMode("javascript", function(config, parserConfig) {
var indentUnit = config.indentUnit;
var jsonMode = parserConfig.json;
// Tokenizer
var keywords = function(){
function kw(type) {return {type: type, style: "keyword"};}
var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");
var operator = kw("operator"), atom = {type: "atom", style: "atom"};
return {
"if": A, "while": A, "with": A, "else": B, "do": B, "try": B, "finally": B,
"return": C, "break": C, "continue": C, "new": C, "delete": C, "throw": C,
"var": kw("var"), "const": kw("var"), "let": kw("var"),
"function": kw("function"), "catch": kw("catch"),
"for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),
"in": operator, "typeof": operator, "instanceof": operator,
"true": atom, "false": atom, "null": atom, "undefined": atom, "NaN": atom, "Infinity": atom
};
}();
var isOperatorChar = /[+\-*&%=<>!?|]/;
function chain(stream, state, f) {
state.tokenize = f;
return f(stream, state);
}
function nextUntilUnescaped(stream, end) {
var escaped = false, next;
while ((next = stream.next()) != null) {
if (next == end && !escaped)
return false;
escaped = !escaped && next == "\\";
}
return escaped;
}
// Used as scratch variables to communicate multiple values without
// consing up tons of objects.
var type, content;
function ret(tp, style, cont) {
type = tp; content = cont;
return style;
}
function jsTokenBase(stream, state) {
var ch = stream.next();
if (ch == '"' || ch == "'")
return chain(stream, state, jsTokenString(ch));
else if (/[\[\]{}\(\),;\:\.]/.test(ch))
return ret(ch);
else if (ch == "0" && stream.eat(/x/i)) {
stream.eatWhile(/[\da-f]/i);
return ret("number", "number");
}
else if (/\d/.test(ch)) {
stream.match(/^\d*(?:\.\d*)?(?:[eE][+\-]?\d+)?/);
return ret("number", "number");
}
else if (ch == "/") {
if (stream.eat("*")) {
return chain(stream, state, jsTokenComment);
}
else if (stream.eat("/")) {
stream.skipToEnd();
return ret("comment", "comment");
}
else if (state.reAllowed) {
nextUntilUnescaped(stream, "/");
stream.eatWhile(/[gimy]/); // 'y' is "sticky" option in Mozilla
return ret("regexp", "string-2");
}
else {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
}
else if (ch == "#") {
stream.skipToEnd();
return ret("error", "error");
}
else if (isOperatorChar.test(ch)) {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
else {
stream.eatWhile(/[\w\$_]/);
var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];
return (known && state.kwAllowed) ? ret(known.type, known.style, word) :
ret("variable", "variable", word);
}
}
function jsTokenString(quote) {
return function(stream, state) {
if (!nextUntilUnescaped(stream, quote))
state.tokenize = jsTokenBase;
return ret("string", "string");
};
}
function jsTokenComment(stream, state) {
var maybeEnd = false, ch;
while (ch = stream.next()) {
if (ch == "/" && maybeEnd) {
state.tokenize = jsTokenBase;
break;
}
maybeEnd = (ch == "*");
}
return ret("comment", "comment");
}
// Parser
var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};
function JSLexical(indented, column, type, align, prev, info) {
this.indented = indented;
this.column = column;
this.type = type;
this.prev = prev;
this.info = info;
if (align != null) this.align = align;
}
function inScope(state, varname) {
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return true;
}
function parseJS(state, style, type, content, stream) {
var cc = state.cc;
// Communicate our context to the combinators.
// (Less wasteful than consing up a hundred closures on every call.)
cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = true;
while(true) {
var combinator = cc.length ? cc.pop() : jsonMode ? expression : statement;
if (combinator(type, content)) {
while(cc.length && cc[cc.length - 1].lex)
cc.pop()();
if (cx.marked) return cx.marked;
if (type == "variable" && inScope(state, content)) return "variable-2";
return style;
}
}
}
// Combinator utils
var cx = {state: null, column: null, marked: null, cc: null};
function pass() {
for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);
}
function cont() {
pass.apply(null, arguments);
return true;
}
function register(varname) {
var state = cx.state;
if (state.context) {
cx.marked = "def";
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return;
state.localVars = {name: varname, next: state.localVars};
}
}
// Combinators
var defaultVars = {name: "this", next: {name: "arguments"}};
function pushcontext() {
if (!cx.state.context) cx.state.localVars = defaultVars;
cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};
}
function popcontext() {
cx.state.localVars = cx.state.context.vars;
cx.state.context = cx.state.context.prev;
}
function pushlex(type, info) {
var result = function() {
var state = cx.state;
state.lexical = new JSLexical(state.indented, cx.stream.column(), type, null, state.lexical, info)
};
result.lex = true;
return result;
}
function poplex() {
var state = cx.state;
if (state.lexical.prev) {
if (state.lexical.type == ")")
state.indented = state.lexical.indented;
state.lexical = state.lexical.prev;
}
}
poplex.lex = true;
function expect(wanted) {
return function expecting(type) {
if (type == wanted) return cont();
else if (wanted == ";") return pass();
else return cont(arguments.callee);
};
}
function statement(type) {
if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);
if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);
if (type == "keyword b") return cont(pushlex("form"), statement, poplex);
if (type == "{") return cont(pushlex("}"), block, poplex);
if (type == ";") return cont();
if (type == "function") return cont(functiondef);
if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),
poplex, statement, poplex);
if (type == "variable") return cont(pushlex("stat"), maybelabel);
if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),
block, poplex, poplex);
if (type == "case") return cont(expression, expect(":"));
if (type == "default") return cont(expect(":"));
if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),
statement, poplex, popcontext);
return pass(pushlex("stat"), expression, expect(";"), poplex);
}
function expression(type) {
if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);
if (type == "function") return cont(functiondef);
if (type == "keyword c") return cont(maybeexpression);
if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);
if (type == "operator") return cont(expression);
if (type == "[") return cont(pushlex("]"), commasep(expression, "]"), poplex, maybeoperator);
if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
return cont();
}
function maybeexpression(type) {
if (type.match(/[;\}\)\],]/)) return pass();
return pass(expression);
}
function maybeoperator(type, value) {
if (type == "operator" && /\+\+|--/.test(value)) return cont(maybeoperator);
if (type == "operator") return cont(expression);
if (type == ";") return;
if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
if (type == ".") return cont(property, maybeoperator);
if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
}
function maybelabel(type) {
if (type == ":") return cont(poplex, statement);
return pass(maybeoperator, expect(";"), poplex);
}
function property(type) {
if (type == "variable") {cx.marked = "property"; return cont();}
}
function objprop(type) {
if (type == "variable") cx.marked = "property";
if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);
}
function commasep(what, end) {
function proceed(type) {
if (type == ",") return cont(what, proceed);
if (type == end) return cont();
return cont(expect(end));
}
return function commaSeparated(type) {
if (type == end) return cont();
else return pass(what, proceed);
};
}
function block(type) {
if (type == "}") return cont();
return pass(statement, block);
}
function vardef1(type, value) {
if (type == "variable"){register(value); return cont(vardef2);}
return cont();
}
function vardef2(type, value) {
if (value == "=") return cont(expression, vardef2);
if (type == ",") return cont(vardef1);
}
function forspec1(type) {
if (type == "var") return cont(vardef1, forspec2);
if (type == ";") return pass(forspec2);
if (type == "variable") return cont(formaybein);
return pass(forspec2);
}
function formaybein(type, value) {
if (value == "in") return cont(expression);
return cont(maybeoperator, forspec2);
}
function forspec2(type, value) {
if (type == ";") return cont(forspec3);
if (value == "in") return cont(expression);
return cont(expression, expect(";"), forspec3);
}
function forspec3(type) {
if (type != ")") cont(expression);
}
function functiondef(type, value) {
if (type == "variable") {register(value); return cont(functiondef);}
if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, statement, popcontext);
}
function funarg(type, value) {
if (type == "variable") {register(value); return cont();}
}
// Interface
return {
startState: function(basecolumn) {
return {
tokenize: jsTokenBase,
reAllowed: true,
kwAllowed: true,
cc: [],
lexical: new JSLexical((basecolumn || 0) - indentUnit, 0, "block", false),
localVars: null,
context: null,
indented: 0
};
},
token: function(stream, state) {
if (stream.sol()) {
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = false;
state.indented = stream.indentation();
}
if (stream.eatSpace()) return null;
var style = state.tokenize(stream, state);
if (type == "comment") return style;
state.reAllowed = type == "operator" || type == "keyword c" || type.match(/^[\[{}\(,;:]$/);
state.kwAllowed = type != '.';
return parseJS(state, style, type, content, stream);
},
indent: function(state, textAfter) {
if (state.tokenize != jsTokenBase) return 0;
var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical,
type = lexical.type, closing = firstChar == type;
if (type == "vardef") return lexical.indented + 4;
else if (type == "form" && firstChar == "{") return lexical.indented;
else if (type == "stat" || type == "form") return lexical.indented + indentUnit;
else if (lexical.info == "switch" && !closing)
return lexical.indented + (/^(?:case|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);
else if (lexical.align) return lexical.column + (closing ? 0 : 1);
else return lexical.indented + (closing ? 0 : indentUnit);
},
electricChars: ":{}"
};
});
CodeMirror.defineMIME("text/javascript", "javascript");
CodeMirror.defineMIME("application/json", {name: "javascript", json: true});
CodeMirror.defineMode("javascript", function(config, parserConfig) {
var indentUnit = config.indentUnit;
var jsonMode = parserConfig.json;
// Tokenizer
var keywords = function(){
function kw(type) {return {type: type, style: "keyword"};}
var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");
var operator = kw("operator"), atom = {type: "atom", style: "atom"};
return {
"if": A, "while": A, "with": A, "else": B, "do": B, "try": B, "finally": B,
"return": C, "break": C, "continue": C, "new": C, "delete": C, "throw": C,
"var": kw("var"), "const": kw("var"), "let": kw("var"),
"function": kw("function"), "catch": kw("catch"),
"for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),
"in": operator, "typeof": operator, "instanceof": operator,
"true": atom, "false": atom, "null": atom, "undefined": atom, "NaN": atom, "Infinity": atom
};
}();
var isOperatorChar = /[+\-*&%=<>!?|]/;
function chain(stream, state, f) {
state.tokenize = f;
return f(stream, state);
}
function nextUntilUnescaped(stream, end) {
var escaped = false, next;
while ((next = stream.next()) != null) {
if (next == end && !escaped)
return false;
escaped = !escaped && next == "\\";
}
return escaped;
}
// Used as scratch variables to communicate multiple values without
// consing up tons of objects.
var type, content;
function ret(tp, style, cont) {
type = tp; content = cont;
return style;
}
function jsTokenBase(stream, state) {
var ch = stream.next();
if (ch == '"' || ch == "'")
return chain(stream, state, jsTokenString(ch));
else if (/[\[\]{}\(\),;\:\.]/.test(ch))
return ret(ch);
else if (ch == "0" && stream.eat(/x/i)) {
stream.eatWhile(/[\da-f]/i);
return ret("number", "number");
}
else if (/\d/.test(ch)) {
stream.match(/^\d*(?:\.\d*)?(?:[eE][+\-]?\d+)?/);
return ret("number", "number");
}
else if (ch == "/") {
if (stream.eat("*")) {
return chain(stream, state, jsTokenComment);
}
else if (stream.eat("/")) {
stream.skipToEnd();
return ret("comment", "comment");
}
else if (state.reAllowed) {
nextUntilUnescaped(stream, "/");
stream.eatWhile(/[gimy]/); // 'y' is "sticky" option in Mozilla
return ret("regexp", "string-2");
}
else {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
}
else if (ch == "#") {
stream.skipToEnd();
return ret("error", "error");
}
else if (isOperatorChar.test(ch)) {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
else {
stream.eatWhile(/[\w\$_]/);
var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];
return (known && state.kwAllowed) ? ret(known.type, known.style, word) :
ret("variable", "variable", word);
}
}
function jsTokenString(quote) {
return function(stream, state) {
if (!nextUntilUnescaped(stream, quote))
state.tokenize = jsTokenBase;
return ret("string", "string");
};
}
function jsTokenComment(stream, state) {
var maybeEnd = false, ch;
while (ch = stream.next()) {
if (ch == "/" && maybeEnd) {
state.tokenize = jsTokenBase;
break;
}
maybeEnd = (ch == "*");
}
return ret("comment", "comment");
}
// Parser
var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};
function JSLexical(indented, column, type, align, prev, info) {
this.indented = indented;
this.column = column;
this.type = type;
this.prev = prev;
this.info = info;
if (align != null) this.align = align;
}
function inScope(state, varname) {
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return true;
}
function parseJS(state, style, type, content, stream) {
var cc = state.cc;
// Communicate our context to the combinators.
// (Less wasteful than consing up a hundred closures on every call.)
cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = true;
while(true) {
var combinator = cc.length ? cc.pop() : jsonMode ? expression : statement;
if (combinator(type, content)) {
while(cc.length && cc[cc.length - 1].lex)
cc.pop()();
if (cx.marked) return cx.marked;
if (type == "variable" && inScope(state, content)) return "variable-2";
return style;
}
}
}
// Combinator utils
var cx = {state: null, column: null, marked: null, cc: null};
function pass() {
for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);
}
function cont() {
pass.apply(null, arguments);
return true;
}
function register(varname) {
var state = cx.state;
if (state.context) {
cx.marked = "def";
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return;
state.localVars = {name: varname, next: state.localVars};
}
}
// Combinators
var defaultVars = {name: "this", next: {name: "arguments"}};
function pushcontext() {
if (!cx.state.context) cx.state.localVars = defaultVars;
cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};
}
function popcontext() {
cx.state.localVars = cx.state.context.vars;
cx.state.context = cx.state.context.prev;
}
function pushlex(type, info) {
var result = function() {
var state = cx.state;
state.lexical = new JSLexical(state.indented, cx.stream.column(), type, null, state.lexical, info)
};
result.lex = true;
return result;
}
function poplex() {
var state = cx.state;
if (state.lexical.prev) {
if (state.lexical.type == ")")
state.indented = state.lexical.indented;
state.lexical = state.lexical.prev;
}
}
poplex.lex = true;
function expect(wanted) {
return function expecting(type) {
if (type == wanted) return cont();
else if (wanted == ";") return pass();
else return cont(arguments.callee);
};
}
function statement(type) {
if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);
if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);
if (type == "keyword b") return cont(pushlex("form"), statement, poplex);
if (type == "{") return cont(pushlex("}"), block, poplex);
if (type == ";") return cont();
if (type == "function") return cont(functiondef);
if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),
poplex, statement, poplex);
if (type == "variable") return cont(pushlex("stat"), maybelabel);
if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),
block, poplex, poplex);
if (type == "case") return cont(expression, expect(":"));
if (type == "default") return cont(expect(":"));
if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),
statement, poplex, popcontext);
return pass(pushlex("stat"), expression, expect(";"), poplex);
}
function expression(type) {
if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);
if (type == "function") return cont(functiondef);
if (type == "keyword c") return cont(maybeexpression);
if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);
if (type == "operator") return cont(expression);
if (type == "[") return cont(pushlex("]"), commasep(expression, "]"), poplex, maybeoperator);
if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
return cont();
}
function maybeexpression(type) {
if (type.match(/[;\}\)\],]/)) return pass();
return pass(expression);
}
function maybeoperator(type, value) {
if (type == "operator" && /\+\+|--/.test(value)) return cont(maybeoperator);
if (type == "operator") return cont(expression);
if (type == ";") return;
if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
if (type == ".") return cont(property, maybeoperator);
if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
}
function maybelabel(type) {
if (type == ":") return cont(poplex, statement);
return pass(maybeoperator, expect(";"), poplex);
}
function property(type) {
if (type == "variable") {cx.marked = "property"; return cont();}
}
function objprop(type) {
if (type == "variable") cx.marked = "property";
if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);
}
function commasep(what, end) {
function proceed(type) {
if (type == ",") return cont(what, proceed);
if (type == end) return cont();
return cont(expect(end));
}
return function commaSeparated(type) {
if (type == end) return cont();
else return pass(what, proceed);
};
}
function block(type) {
if (type == "}") return cont();
return pass(statement, block);
}
function vardef1(type, value) {
if (type == "variable"){register(value); return cont(vardef2);}
return cont();
}
function vardef2(type, value) {
if (value == "=") return cont(expression, vardef2);
if (type == ",") return cont(vardef1);
}
function forspec1(type) {
if (type == "var") return cont(vardef1, forspec2);
if (type == ";") return pass(forspec2);
if (type == "variable") return cont(formaybein);
return pass(forspec2);
}
function formaybein(type, value) {
if (value == "in") return cont(expression);
return cont(maybeoperator, forspec2);
}
function forspec2(type, value) {
if (type == ";") return cont(forspec3);
if (value == "in") return cont(expression);
return cont(expression, expect(";"), forspec3);
}
function forspec3(type) {
if (type != ")") cont(expression);
}
function functiondef(type, value) {
if (type == "variable") {register(value); return cont(functiondef);}
if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, statement, popcontext);
}
function funarg(type, value) {
if (type == "variable") {register(value); return cont();}
}
// Interface
return {
startState: function(basecolumn) {
return {
tokenize: jsTokenBase,
reAllowed: true,
kwAllowed: true,
cc: [],
lexical: new JSLexical((basecolumn || 0) - indentUnit, 0, "block", false),
localVars: null,
context: null,
indented: 0
};
},
token: function(stream, state) {
if (stream.sol()) {
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = false;
state.indented = stream.indentation();
}
if (stream.eatSpace()) return null;
var style = state.tokenize(stream, state);
if (type == "comment") return style;
state.reAllowed = type == "operator" || type == "keyword c" || type.match(/^[\[{}\(,;:]$/);
state.kwAllowed = type != '.';
return parseJS(state, style, type, content, stream);
},
indent: function(state, textAfter) {
if (state.tokenize != jsTokenBase) return 0;
var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical,
type = lexical.type, closing = firstChar == type;
if (type == "vardef") return lexical.indented + 4;
else if (type == "form" && firstChar == "{") return lexical.indented;
else if (type == "stat" || type == "form") return lexical.indented + indentUnit;
else if (lexical.info == "switch" && !closing)
return lexical.indented + (/^(?:case|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);
else if (lexical.align) return lexical.column + (closing ? 0 : 1);
else return lexical.indented + (closing ? 0 : indentUnit);
},
electricChars: ":{}"
};
});
CodeMirror.defineMIME("text/javascript", "javascript");
CodeMirror.defineMIME("application/json", {name: "javascript", json: true});
CodeMirror.defineMode("javascript", function(config, parserConfig) {
var indentUnit = config.indentUnit;
var jsonMode = parserConfig.json;
// Tokenizer
var keywords = function(){
function kw(type) {return {type: type, style: "keyword"};}
var A = kw("keyword a"), B = kw("keyword b"), C = kw("keyword c");
var operator = kw("operator"), atom = {type: "atom", style: "atom"};
return {
"if": A, "while": A, "with": A, "else": B, "do": B, "try": B, "finally": B,
"return": C, "break": C, "continue": C, "new": C, "delete": C, "throw": C,
"var": kw("var"), "const": kw("var"), "let": kw("var"),
"function": kw("function"), "catch": kw("catch"),
"for": kw("for"), "switch": kw("switch"), "case": kw("case"), "default": kw("default"),
"in": operator, "typeof": operator, "instanceof": operator,
"true": atom, "false": atom, "null": atom, "undefined": atom, "NaN": atom, "Infinity": atom
};
}();
var isOperatorChar = /[+\-*&%=<>!?|]/;
function chain(stream, state, f) {
state.tokenize = f;
return f(stream, state);
}
function nextUntilUnescaped(stream, end) {
var escaped = false, next;
while ((next = stream.next()) != null) {
if (next == end && !escaped)
return false;
escaped = !escaped && next == "\\";
}
return escaped;
}
// Used as scratch variables to communicate multiple values without
// consing up tons of objects.
var type, content;
function ret(tp, style, cont) {
type = tp; content = cont;
return style;
}
function jsTokenBase(stream, state) {
var ch = stream.next();
if (ch == '"' || ch == "'")
return chain(stream, state, jsTokenString(ch));
else if (/[\[\]{}\(\),;\:\.]/.test(ch))
return ret(ch);
else if (ch == "0" && stream.eat(/x/i)) {
stream.eatWhile(/[\da-f]/i);
return ret("number", "number");
}
else if (/\d/.test(ch)) {
stream.match(/^\d*(?:\.\d*)?(?:[eE][+\-]?\d+)?/);
return ret("number", "number");
}
else if (ch == "/") {
if (stream.eat("*")) {
return chain(stream, state, jsTokenComment);
}
else if (stream.eat("/")) {
stream.skipToEnd();
return ret("comment", "comment");
}
else if (state.reAllowed) {
nextUntilUnescaped(stream, "/");
stream.eatWhile(/[gimy]/); // 'y' is "sticky" option in Mozilla
return ret("regexp", "string-2");
}
else {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
}
else if (ch == "#") {
stream.skipToEnd();
return ret("error", "error");
}
else if (isOperatorChar.test(ch)) {
stream.eatWhile(isOperatorChar);
return ret("operator", null, stream.current());
}
else {
stream.eatWhile(/[\w\$_]/);
var word = stream.current(), known = keywords.propertyIsEnumerable(word) && keywords[word];
return (known && state.kwAllowed) ? ret(known.type, known.style, word) :
ret("variable", "variable", word);
}
}
function jsTokenString(quote) {
return function(stream, state) {
if (!nextUntilUnescaped(stream, quote))
state.tokenize = jsTokenBase;
return ret("string", "string");
};
}
function jsTokenComment(stream, state) {
var maybeEnd = false, ch;
while (ch = stream.next()) {
if (ch == "/" && maybeEnd) {
state.tokenize = jsTokenBase;
break;
}
maybeEnd = (ch == "*");
}
return ret("comment", "comment");
}
// Parser
var atomicTypes = {"atom": true, "number": true, "variable": true, "string": true, "regexp": true};
function JSLexical(indented, column, type, align, prev, info) {
this.indented = indented;
this.column = column;
this.type = type;
this.prev = prev;
this.info = info;
if (align != null) this.align = align;
}
function inScope(state, varname) {
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return true;
}
function parseJS(state, style, type, content, stream) {
var cc = state.cc;
// Communicate our context to the combinators.
// (Less wasteful than consing up a hundred closures on every call.)
cx.state = state; cx.stream = stream; cx.marked = null, cx.cc = cc;
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = true;
while(true) {
var combinator = cc.length ? cc.pop() : jsonMode ? expression : statement;
if (combinator(type, content)) {
while(cc.length && cc[cc.length - 1].lex)
cc.pop()();
if (cx.marked) return cx.marked;
if (type == "variable" && inScope(state, content)) return "variable-2";
return style;
}
}
}
// Combinator utils
var cx = {state: null, column: null, marked: null, cc: null};
function pass() {
for (var i = arguments.length - 1; i >= 0; i--) cx.cc.push(arguments[i]);
}
function cont() {
pass.apply(null, arguments);
return true;
}
function register(varname) {
var state = cx.state;
if (state.context) {
cx.marked = "def";
for (var v = state.localVars; v; v = v.next)
if (v.name == varname) return;
state.localVars = {name: varname, next: state.localVars};
}
}
// Combinators
var defaultVars = {name: "this", next: {name: "arguments"}};
function pushcontext() {
if (!cx.state.context) cx.state.localVars = defaultVars;
cx.state.context = {prev: cx.state.context, vars: cx.state.localVars};
}
function popcontext() {
cx.state.localVars = cx.state.context.vars;
cx.state.context = cx.state.context.prev;
}
function pushlex(type, info) {
var result = function() {
var state = cx.state;
state.lexical = new JSLexical(state.indented, cx.stream.column(), type, null, state.lexical, info)
};
result.lex = true;
return result;
}
function poplex() {
var state = cx.state;
if (state.lexical.prev) {
if (state.lexical.type == ")")
state.indented = state.lexical.indented;
state.lexical = state.lexical.prev;
}
}
poplex.lex = true;
function expect(wanted) {
return function expecting(type) {
if (type == wanted) return cont();
else if (wanted == ";") return pass();
else return cont(arguments.callee);
};
}
function statement(type) {
if (type == "var") return cont(pushlex("vardef"), vardef1, expect(";"), poplex);
if (type == "keyword a") return cont(pushlex("form"), expression, statement, poplex);
if (type == "keyword b") return cont(pushlex("form"), statement, poplex);
if (type == "{") return cont(pushlex("}"), block, poplex);
if (type == ";") return cont();
if (type == "function") return cont(functiondef);
if (type == "for") return cont(pushlex("form"), expect("("), pushlex(")"), forspec1, expect(")"),
poplex, statement, poplex);
if (type == "variable") return cont(pushlex("stat"), maybelabel);
if (type == "switch") return cont(pushlex("form"), expression, pushlex("}", "switch"), expect("{"),
block, poplex, poplex);
if (type == "case") return cont(expression, expect(":"));
if (type == "default") return cont(expect(":"));
if (type == "catch") return cont(pushlex("form"), pushcontext, expect("("), funarg, expect(")"),
statement, poplex, popcontext);
return pass(pushlex("stat"), expression, expect(";"), poplex);
}
function expression(type) {
if (atomicTypes.hasOwnProperty(type)) return cont(maybeoperator);
if (type == "function") return cont(functiondef);
if (type == "keyword c") return cont(maybeexpression);
if (type == "(") return cont(pushlex(")"), maybeexpression, expect(")"), poplex, maybeoperator);
if (type == "operator") return cont(expression);
if (type == "[") return cont(pushlex("]"), commasep(expression, "]"), poplex, maybeoperator);
if (type == "{") return cont(pushlex("}"), commasep(objprop, "}"), poplex, maybeoperator);
return cont();
}
function maybeexpression(type) {
if (type.match(/[;\}\)\],]/)) return pass();
return pass(expression);
}
function maybeoperator(type, value) {
if (type == "operator" && /\+\+|--/.test(value)) return cont(maybeoperator);
if (type == "operator") return cont(expression);
if (type == ";") return;
if (type == "(") return cont(pushlex(")"), commasep(expression, ")"), poplex, maybeoperator);
if (type == ".") return cont(property, maybeoperator);
if (type == "[") return cont(pushlex("]"), expression, expect("]"), poplex, maybeoperator);
}
function maybelabel(type) {
if (type == ":") return cont(poplex, statement);
return pass(maybeoperator, expect(";"), poplex);
}
function property(type) {
if (type == "variable") {cx.marked = "property"; return cont();}
}
function objprop(type) {
if (type == "variable") cx.marked = "property";
if (atomicTypes.hasOwnProperty(type)) return cont(expect(":"), expression);
}
function commasep(what, end) {
function proceed(type) {
if (type == ",") return cont(what, proceed);
if (type == end) return cont();
return cont(expect(end));
}
return function commaSeparated(type) {
if (type == end) return cont();
else return pass(what, proceed);
};
}
function block(type) {
if (type == "}") return cont();
return pass(statement, block);
}
function vardef1(type, value) {
if (type == "variable"){register(value); return cont(vardef2);}
return cont();
}
function vardef2(type, value) {
if (value == "=") return cont(expression, vardef2);
if (type == ",") return cont(vardef1);
}
function forspec1(type) {
if (type == "var") return cont(vardef1, forspec2);
if (type == ";") return pass(forspec2);
if (type == "variable") return cont(formaybein);
return pass(forspec2);
}
function formaybein(type, value) {
if (value == "in") return cont(expression);
return cont(maybeoperator, forspec2);
}
function forspec2(type, value) {
if (type == ";") return cont(forspec3);
if (value == "in") return cont(expression);
return cont(expression, expect(";"), forspec3);
}
function forspec3(type) {
if (type != ")") cont(expression);
}
function functiondef(type, value) {
if (type == "variable") {register(value); return cont(functiondef);}
if (type == "(") return cont(pushlex(")"), pushcontext, commasep(funarg, ")"), poplex, statement, popcontext);
}
function funarg(type, value) {
if (type == "variable") {register(value); return cont();}
}
// Interface
return {
startState: function(basecolumn) {
return {
tokenize: jsTokenBase,
reAllowed: true,
kwAllowed: true,
cc: [],
lexical: new JSLexical((basecolumn || 0) - indentUnit, 0, "block", false),
localVars: null,
context: null,
indented: 0
};
},
token: function(stream, state) {
if (stream.sol()) {
if (!state.lexical.hasOwnProperty("align"))
state.lexical.align = false;
state.indented = stream.indentation();
}
if (stream.eatSpace()) return null;
var style = state.tokenize(stream, state);
if (type == "comment") return style;
state.reAllowed = type == "operator" || type == "keyword c" || type.match(/^[\[{}\(,;:]$/);
state.kwAllowed = type != '.';
return parseJS(state, style, type, content, stream);
},
indent: function(state, textAfter) {
if (state.tokenize != jsTokenBase) return 0;
var firstChar = textAfter && textAfter.charAt(0), lexical = state.lexical,
type = lexical.type, closing = firstChar == type;
if (type == "vardef") return lexical.indented + 4;
else if (type == "form" && firstChar == "{") return lexical.indented;
else if (type == "stat" || type == "form") return lexical.indented + indentUnit;
else if (lexical.info == "switch" && !closing)
return lexical.indented + (/^(?:case|default)\b/.test(textAfter) ? indentUnit : 2 * indentUnit);
else if (lexical.align) return lexical.column + (closing ? 0 : 1);
else return lexical.indented + (closing ? 0 : indentUnit);
},
electricChars: ":{}"
};
});
CodeMirror.defineMIME("text/javascript", "javascript");
CodeMirror.defineMIME("application/json", {name: "javascript", json: true});
})();
1445
líneas
Organización del código JavaScript
¿2000 líneas en un solo archivo?
Ventajas
Inconvenientes
Organización del código JavaScript
Optimización: dividir el código en varios archivos/módulos
<head>
<meta charset="UTF-8">
<title>Mi web</title>
<script src="vendor/jquery/jquery.min.js"></script>
<script src="js/modules/tabs.js"></script>
<script src="js/modules/banners.js"></script>
<script src="js/modules/lightbox.js"></script>
<script src="js/modules/scroll.js"></script>
<script src="js/modules/carousel.js"></script>
<script src="js/modules/slideshow.js"></script>
<script src="js/modules/gallery.js"></script>
<script src="js/modules/navigation.js"></script>
</head>
Organización del código JavaScript
Ventajas
Inconvenientes
<head>
<meta charset="UTF-8">
<title>Mi web</title>
<script src="vendor/jquery/jquery.min.js"></script>
<script src="js/modules/tabs.js"></script>
<script src="js/modules/banners.js"></script>
<script src="js/modules/lightbox.js"></script>
<script src="js/modules/scroll.js"></script>
<script src="js/modules/carousel.js"></script>
<script src="js/modules/slideshow.js"></script>
<script src="js/modules/gallery.js"></script>
<script src="js/modules/navigation.js"></script>
</head>
Organización del código JavaScript
Dependencias: es difícil asegurar el orden, y no es posible tener dependencias circulares
<head>
<meta charset="UTF-8">
<title>Mi web</title>
<script src="vendor/jquery/jquery.min.js"></script>
<script src="js/modules/tabs.js"></script>
<script src="js/modules/banners.js"></script>
<script src="js/modules/lightbox.js"></script>
<script src="js/modules/scroll.js"></script>
<script src="js/modules/carousel.js"></script>
<script src="js/modules/slideshow.js"></script>
<script src="js/modules/gallery.js"></script>
<script src="js/modules/navigation.js"></script>
</head>
Organización del código JavaScript: módulos
Module loaders: ellos gestionan las dependencias y cargan los módulos (RequireJS, SystemJS)
Ventajas
Inconvenientes
Organización del código JavaScript: módulos
Module bundlers: además de lo anterior, generan un solo código encadenado y minificado (Browserify, webpack, Parcel)
Ventajas
Organización del código JavaScript: módulos
¿Puedo escribir mis módulos como yo quiera? ¿hay un estándar?
AMD: Asynchronous Module Definition
CommonJS
UMD: Universal Module Definition
ES6 Modules
define(['myModule', 'myOtherModule'], function(myModule, myOtherModule) {
return {
hello: function() {
console.log('hello');
},
goodbye: function() {
console.log('goodbye');
}
};
});
var myModuleA = require('myModuleA');
function myModuleB() {
this.hello = function() {
return 'hello!';
}
this.goodbye = function() {
return 'goodbye!';
}
}
module.exports = myModuleB;
(function (root, factory) {
if (typeof define === 'function' && define.amd) {
// AMD
define(['myModule', 'myOtherModule'], factory);
} else if (typeof exports === 'object') {
// CommonJS
module.exports = factory(require('myModule'), require('myOtherModule'));
} else {
// Browser globals (Note: root is window)
root.returnExports = factory(root.myModule, root.myOtherModule);
}
}(this, function (myModule, myOtherModule) {
// Methods
function notHelloOrGoodbye(){}; // A private method
function hello(){}; // A public method because it's returned (see below)
function goodbye(){}; // A public method because it's returned (see below)
// Exposed public methods
return {
hello: hello,
goodbye: goodbye
}
}));
import { method1 } from './moduleA.js';
method1("hello");
export let method2 = function() {
console.log("Method 2");
}
Organización del código JavaScript: módulos
¿AMD, CommonJS, UMD, ES6?
Compatibilidad de los módulos ES6 en navegadores
¡Webpack!
TypeScript usa la sintaxis ES6
TS -> ES5 -> webpack -> bundle -> browser =
Angular CLI
ES6
let y const
let a = 3;
let a = 10; // Error
var a = 12; // Error
const b = 10;
b = 3; // Error
const obj = {
x: 10,
y: 12
}
obj.x = 15; // OK
obj = { // Error
x: 15,
y: 12
}
ES6
let y const
Template literals
let nombre = "Antonio";
let cuadrado = function(x) {
return x * x;
}
let n = Math.floor(Math.random() * 10);
let saludo1 = "Hola, " + nombre + ". El cuadrado de " + n + " es " + cuadrado(n) + ".";
let saludo2 = `Hola, ${nombre}. El cuadrado de ${n} es ${cuadrado(n)}.`;
ES6
let y const
Template literals
for ... of
let nombres = ["Patricia", "Zacarías", "Miguel", "Maite"];
for (let i in nombres) {
console.log(nombres[i]);
}
for (let nombre of nombres) {
console.log(nombre);
}
let obj = {
x: 3,
y: 4
}
for (let i in obj) {
console.log(obj[i]);
}
let nombre = "Antonio Jesús";
for (let c of nombre) {
console.log(c);
}
ES6
let y const
Template literals
for ... of
Funciones
Parámetros por defecto
function potencia(x, y = 2) {
return Math.pow(x, y);
}
console.log(`10 elevado a 8 es ${potencia(10, 8)}`);
console.log(`El cuadrado de 5 es ${potencia(5)}`);
ES6
let y const
Template literals
for ... of
Funciones
Parámetros por defecto
Función arrow:
(parámetros) => expresión_devuelta;const potencia = function (x, y = 2) {
return Math.pow(x, y);
}
const potencia = (x, y = 2) => Math.pow(x, y);
setTimeout(() => console.log("pausa"), 2000);
ES6
Operador spread
Parámetros en funciones
Enviar varios parámetros a partir de un array
push y unshift
Intercalar un array dentro de otro
Copiar un array en otro
Copiar un objeto en otro
// function(a, b, c)
let nums = [1, 3, 6];
function sumar(a, b, c) {
console.log(a + b + c);
}
sumar(...nums);
// function(n parámetros)
let a = 3;
let b = 7;
let c = 8;
function sumar(...nums) {
let suma = 0;
for (n of nums) {
suma += n;
}
console.log("La suma es " + suma);
}
sumar(a, b, c);
// push y unshift
let nums1 = [1, 3, 6];
let nums2 = [0, 52, 15, 9];
nums1.push(...nums2);
console.log(nums1);
nums1.unshift(...nums2);
console.log(nums1);
// meter un array en medio de otra
let nums1 = [1, 3, 6];
let nums2 = [0, 52, 15, 9];
nums1.splice(1, 0, ...nums2);
console.log(nums1);
// copiar un array
let nums1 = [1, 3, 6];
let nums2 = [...nums1];
// mergear un objeto con defaults (ES2018)
let defaults = {
ancho: 100,
alto: 200,
color: "rojo"
}
let o1 = {
ancho: 200,
grosor: 10000
}
o1 = { ...defaults, ...o1 };
// convertir un NodeList a un array
let lis = [...document.getElementsByTagName("li")];
ES6
Clases
Propiedades y métodos
class A {
constructor(z) {
this.x = 3;
this.y = 10;
this.z = z;
}
suma() {
return this.x + this.y + this.z;
}
}
let a = new A(20);
console.log(a.suma());
ES6
Clases
Propiedades y métodos
Getters y setters
class A {
constructor(z) {
this.x = 3;
this.y = 10;
this.z = z;
}
suma() {
return this.x + this.y + this.z;
}
set zeta(z) {
this.z = z * 2;
}
get zeta() {
return this.z / 2;
}
}
let a = new A(20);
a.zeta = 15;
console.log(a.zeta);
ES6
Clases
Propiedades y métodos
Getters y setters
Métodos estáticos
class A {
constructor(z) {
this.x = 3;
this.y = 10;
this.z = z;
}
static getPI() {
return 3.14159;
}
suma() {
return this.x + this.y + this.z;
}
set zeta(z) {
this.z = z * 2;
}
get zeta() {
return this.z / 2;
}
}
let a = new A(20);
a.zeta = 15;
console.log(a.zeta);
console.log(A.getPI());
ES6
Clases
Propiedades y métodos
Getters y setters
Métodos estáticos
Herencia con extends y super()
class A {
constructor(z) {
this.x = 3;
this.y = 10;
this.z = z;
}
static getPI() {
return 3.14159;
}
suma() {
return this.x + this.y + this.z;
}
set zeta(z) {
this.z = z * 2;
}
get zeta() {
return this.z / 2;
}
}
class B extends A {
constructor() {
super(100);
this.x = 20;
}
suma() {
return this.x + this.z;
}
resta() {
return this.x - this.z;
}
}
let b = new B();
console.log(b.suma());
console.log(b.resta());
ES6
Módulos
import
import { literal } from 'ruta_modulo';Programación funcional con arrays
Métodos:
map
let nombres = ["juan", "luisa", "amparo", "arturo"];
nombres = nombres.map(nombre => nombre.toUpperCase());
console.log(nombres);
Programación funcional con arrays
Métodos:
map
filter
let personas = [
{
nombre: "juan",
edad: 15
},
{
nombre: "luisa",
edad: 35
},
{
nombre: "amparo",
edad: 17
},
{
nombre: "arturo",
edad: 32
}
];
let mayoresEdad = personas.filter(persona => persona.edad >= 18);
console.log(mayoresEdad);
Programación funcional con arrays
Métodos:
map
filter
reduce
let nums = [2, 4, 10, 15, 12];
let suma = nums.reduce((x, y) => x + y);
let objs = [
{
x: 3,
y: 2
},
{
x: 8,
y: 10
},
{
x: 10,
y: 15
}
]
let sumaX = objs.reduce((x, o2) => x + o2.x, 0); // Método 1
let sumaX = objs.map(o => o.x).reduce((x, y) => x + y); // Método 2
Programación funcional con arrays
Métodos:
map
filter
reduce
find
Encadenamiento
let notas = [
{
nombre: "juan",
nota: 6
},
{
nombre: "luisa",
nota: 8
},
{
nombre: "amparo",
nota: 4
},
{
nombre: "arturo",
nota: 3
}
];
let notasAprobados = notas.filter(n => n.nota >= 5).map(n => n.nota);
console.log(notasAprobados);
TypeScript
Superconjunto de JavaScript
Transpila a ES5 (o a otra versión)
TypeScript
Superconjunto de JavaScript
Transpila a ES5 (o a otra versión)
Tipado
Errores en tiempo de compilación
TypeScript
Superconjunto de JavaScript
Transpila a ES5 (o a otra versión)
Tipado
Errores en tiempo de compilación
tsconfig.json
{
"compilerOptions": {
"target": "es5",
"module": "es2015",
"moduleResolution": "node",
"sourceMap": true,
"outDir": "./public/js/",
}
}
tsconfig.json
TypeScript - Tipos
Tipos básicos:
number
string
boolean
Array
any
void
let peso: number;
peso = 89.5;
let saludo: string;
saludo = 'Vais a petarlo con TypeScript';
let esVerano: boolean;
esVerano = false;
let nums: Array<number>;
nums = [10, 55, -3, 4.14];
let nombres: string[];
nombres = ['Juan', 'Paqui', 'Lorenzo', 'Alicia'];
let cosas: any[];
cosas = [10, 'Teruel', -5, true, [0, -10, 15], false];
function imprimeSaludo(s: string): void {
console.log(s);
}
imprimeSaludo('Buenas tardes');
TypeScript - Tipos
Tipos básicos:
number
string
boolean
Array
any
void
Enum
enum FormasPago {
TPV,
PayPal,
transferencia
}
let pago: FormasPago;
pago = FormasPago.PayPal;
procesarPago(pago);
function procesarPago(formaPago: FormasPago): void {
switch (formaPago) {
case FormasPago.TPV:
// ...
break;
case FormasPago.PayPal:
// ...
break;
case FormasPago.transferencia:
// ...
break;
}
}
TypeScript - Tipos
Tipos básicos:
number
string
boolean
Array
any
void
Enum
Union types
let numeros: Array<number | string>;
numeros = ['3', 6, '15.8', 0];
function procesar(a: string | number): void {
if (typeof a === 'string') {
console.log(a.toUpperCase());
} else {
console.log(a.toFixed(2));
}
}
TypeScript - Tipos
Tipos básicos:
number
string
boolean
Array
any
void
Enum
Union types
Genéricos
function verDoble<T>(elem: T): T[] {
let elemDoble: T[] = [elem, elem];
return elemDoble;
}
TypeScript - Tipos
Tipos básicos:
number
string
boolean
Array
any
void
Enum
Union types
Genéricos
Type assertion
const inputText = <HTMLInputElement>document.getElementById("nombre");
inputText.select();
TypeScript - Funciones
Sin flexibilidad en el número de parámetros
function sumar(a: number, b: number): number {
return a + b;
}
sumar(); // Error
sumar(3); // Error
sumar(10, 2); // OK
sumar(4, -3, 10, 8) // Error
TypeScript - Funciones
Sin flexibilidad en el número de parámetros
Parámetros opcionales
function sumar(a: number, b: number, c?: number): number {
if (c) {
return a + b + c;
} else {
return a + b;
}
}
sumar(10, 2);
sumar(10, 2, 15);
TypeScript - Funciones
Sin flexibilidad en el número de parámetros
Parámetros opcionales
Sobrecarga
function nChars(a: number): string;
function nChars(a: string): number;
function nChars(a: string | number): number | string {
if (typeof a === 'number') {
return '¡Es un número!';
} else if (typeof a === 'string') {
return a.length;
}
}
type RGB = [number, number, number];
function convierteColor(color: string): RGB;
function convierteColor(color: RGB): string;
function convierteColor(color: string | RGB): string | RGB {
if (typeof color === 'string') {
return [0, 128, 0];
} else {
return '#006600';
}
}
const colorRGB = convierteColor('#006600');
const colorHEX = convierteColor([0, 128, 0]);
TypeScript - Funciones
Sin flexibilidad en el número de parámetros
Parámetros opcionales
Sobrecarga
Function types
function transformaNumero(x: number, callback: (n: number) => void) {
callback(x);
}
let a = 10;
transformaNumero(a, m => console.log(m * 2));
TypeScript - Módulos
import { literal } from 'ruta_modulo';
import literal from 'ruta_modulo';TypeScript - Módulos
TypeScript - Clases
class Factura {
numero: string;
base: number;
tipoIva: number;
constructor(numero: string, base: number, tipoIva: number = 21) {
this.numero = numero;
this.base = base;
this.tipoIva = tipoIva;
}
}
TypeScript - Clases
class Factura {
private static caracteresSerie = 2;
public num: string;
public serie: string;
public base: number;
private readonly intTipoIva: number;
constructor(base: number, tipoIva: number = 21) {
this.base = base;
this.intTipoIva = tipoIva;
}
get numero(): string {
return this.serie + this.num;
}
set numero(n: string) {
this.serie = n.slice(0, Factura.caracteresSerie - 1);
this.num = n.slice(Factura.caracteresSerie);
}
}
let f = new Factura(100);
f.numero = 'AB600';
console.log(f.numero);
TypeScript - Clases
abstract class Vehiculo {
public manual: boolean;
constructor(public ruedas: number, public motor: Motor) {
this.manual = this.motor === Motor.ninguno;
}
public abstract arrancar(): void;
}
class Bici extends Vehiculo {
public arrancar(): void {
console.log('Me pongo de pie y pedaleo');
}
}
TypeScript - Clases
interface Arrancable {
arrancar(): void;
apagar(): void;
}
abstract class Vehiculo {
public manual: boolean;
constructor(public ruedas: number, public motor: Motor) {
this.manual = this.motor === Motor.ninguno;
}
}
class Bici extends Vehiculo implements Arrancable {
public arrancar(): void {
console.log('Me pongo de pie y pedaleo');
}
public apagar(): void {
console.log('Me bajo de la bici');
}
}
interface Cliente {
id: number;
login: string;
nombre: string;
tipo: TiposCliente;
fechaAlta: Date;
}
function getClientes(): Cliente[] {
let clientes: Cliente[] = conectaBD('clientes');
return clientes;
}
TypeScript - Decoradores
@
Asignar metadatos
Muy utilizados en Angular
import { Component, Input } from '@angular/core';
@Component({
selector: 'app-factura',
templateUrl: './factura.component.html',
styleUrls: ['./factura.component.css']
})
export class FacturaComponent {
@Input()
facturaId: number;
}
Primeros pasos
ng new para generar la app:
ng new <nombre-app> --prefix <prefijo>
ng serve -o para ejecutarla y verla en el navegador
Entornos dev y prod
Módulos, componentes y vistas
Creando piezas con ng generate
Archivos de configuración
Esqueleto de una pieza en Angular
clase =>
=> clase exportada =>
=> clase exportada y decorada =>
=> dependencias
Examinando un módulo
Metadata
declarations
imports /exports
providers
bootstrap
Examinando un componente
Metadata
selector
template / templateUrl
styles / styleUrls
ngOnInit
ngOnDestroy
Examinando un template
Custom elements
Data binding
Interpolation
Property binding
Class & style binding
Event binding
Two-way binding
Examinando un template
Directivas de atributo
ngClass
ngStyle
Directivas estructurales
ngIf
ngFor
ngSwitch
Pipes
@Pipe, PipeTransform
Directivas propias
De atributo (ElementRef.nativeElement)
Estructurales (ViewContainerRef y TemplateRef)
Servicios
Dependency Injection
Injectable()
Proveedores
Singleton
Formularios
[(ngModel)]: Two-way binding
ngForm, ngModel y ngSubmit
Variables de template con #
Validaciones: los diferentes estados
Resetear los estados
Template driven y Reactive forms
Conexiones con el servidor
Asincronía
Observables
Suscripciones
API REST
El módulo HttpClientModule
Módulo HttpClientModule y servicio HttpClient
Métodos del servicio HttpClient:
get(), post(), put(), patch(), delete()
Obteniendo la respuesta completa:
{ observe: 'response' }
Interceptors y autentificación
Navegación por la app
El router
El RouterOutlet
Las rutas
Navegación por la app
El router
El RouterOutlet
Las rutas
Página por defecto
404
Parámetros: los observables paramMap y data de ActivatedRoute
Guards y resolvers
Links de navegación: routerLink y routerLinkActive
router.navigate()
Lazy loading
El servicio Title
Despliegue a producción
Pruebas con ng build
ng build:
--prod: código optimizado para producción
--base-href=: cambia el directorio base
--sourcemaps: genera los source maps
Entornos propios
Links