mirror of
https://github.com/gristlabs/grist-core.git
synced 2024-10-27 20:44:07 +00:00
8be920dd25
Summary: Creator panel allows now to edit multiple columns at once for some options that are common for them. Options that are not common are disabled. List of options that can be edited for multiple columns: - Column behavior (but limited to empty/formula columns) - Alignment and wrapping - Default style - Number options (for numeric columns) - Column types (but only for empty/formula columns) If multiple columns of the same type are selected, most of the options are available to change, except formula, trigger formula and conditional styles. Editing column label or column id is disabled by default for multiple selection. Not related: some tests were fixed due to the change in the column label and id widget in grist-core (disabled attribute was replaced by readonly). Test Plan: Updated and new tests. Reviewers: georgegevoian Reviewed By: georgegevoian Differential Revision: https://phab.getgrist.com/D3598
232 lines
7.9 KiB
JavaScript
232 lines
7.9 KiB
JavaScript
var _ = require('underscore');
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var ko = require('knockout');
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/**
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* This is typed to declare that the observable/computed supports subscribable.fn methods
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* added in this utility.
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*/
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function withKoUtils(obj) {
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return obj;
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}
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exports.withKoUtils = withKoUtils;
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/**
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* subscribeInit is a convenience method, equivalent to knockout's observable.subscribe(), but
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* also calls the callback immediately with the observable's current value.
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*
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* It is added to the prototype for all observables, as long as this module is included anywhere.
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*/
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ko.subscribable.fn.subscribeInit = function(callback, target, event) {
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var sub = this.subscribe(callback, target, event);
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callback.call(target, this.peek());
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return sub;
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};
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/**
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* Add a named method `assign` to knockout subscribables (including observables) to assign a new
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* value. This way we can move away from using callable objects for everything, since callable
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* objects require hacking at prototypes.
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*/
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ko.subscribable.fn.assign = function(value) {
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this(value);
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};
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/**
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* Convenience method to modify a non-primitive value and assign it back. E.g. if foo() is an
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* observable whose value is an array, then
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*
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* foo.modifyAssign(function(array) { array.push("test"); });
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*
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* is one-liner equivalent to:
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*
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* var array = foo.peek();
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* array.push("text");
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* foo(array);
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*
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* Whenever using a non-primitive value, be careful that it's not shared with other code, which
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* might modify it without any observable subscriptions getting triggered.
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*/
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ko.subscribable.fn.modifyAssign = function(modifierFunc) {
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var value = this.peek();
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modifierFunc(value);
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this(value);
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};
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/**
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* Tells a computed observable which may return non-primitive values (e.g. objects) that it should
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* only notify subscribers when the computed value is not equal to the last one (using "===").
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*/
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ko.subscribable.fn.onlyNotifyUnequal = function() {
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this.equalityComparer = function(a, b) { return a === b; };
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return this;
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};
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/**
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* Notifies only about distinct defined values. If the first value is undefined it will still be
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* returned.
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*/
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ko.subscribable.fn.previousOnUndefined = function() {
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this.equalityComparer = function(a, b) { return a === b || b === undefined; };
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return this;
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};
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let _handlerFunc = (err) => {};
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let _origKoComputed = ko.computed;
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/**
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* If setComputedErrorHandler is used, this wrapper catches and swallows errors from the
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* evaluation of any computed. Any exception gets passed to _handlerFunc, and the computed
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* evaluates successfully to its previous value (or _handlerFunc may rethrow the error).
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*/
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function _wrapComputedRead(readFunc) {
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let lastValue;
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return function() {
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try {
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return (lastValue = readFunc.call(this));
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} catch (err) {
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console.error("ERROR in ko.computed: %s", err);
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_handlerFunc(err);
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return lastValue;
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}
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};
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}
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/**
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* If called, exceptions thrown while evaluating any ko.computed observable will get passed to
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* handlerFunc and swallowed. Unless the handlerFunc rethrows them, the computed will evaluate
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* successfully to its previous value.
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*
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* Note that this is merely an attempt to do the best we can to keep going in the face of
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* application bugs. The returned value is not actually correct, and relying on this incorrect
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* value may cause even worse bugs elsewhere in the application. It is important that any errors
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* caught via this mechanism get reported, debugged, and fixed.
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*/
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function setComputedErrorHandler(handlerFunc) {
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_handlerFunc = handlerFunc;
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// Note that ko.pureComputed calls to ko.computed, so doesn't need its own override.
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ko.computed = function(funcOrOptions, funcTarget, options) {
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if (typeof funcOrOptions === 'function') {
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funcOrOptions = _wrapComputedRead(funcOrOptions);
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} else {
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funcOrOptions.read = _wrapComputedRead(funcOrOptions.read);
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}
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return _origKoComputed(funcOrOptions, funcTarget, options);
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};
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}
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exports.setComputedErrorHandler = setComputedErrorHandler;
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/**
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* Returns an observable which mirrors the passed-in argument, but returns a default value if the
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* underlying field is falsy and has non-boolean type. Writes to the returned observable translate
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* directly to writes to the underlying one. The default may be a function, evaluated as for computed
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* observables, with optContext as the context.
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*/
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function observableWithDefault(obs, defaultOrFunc, optContext) {
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if (typeof defaultOrFunc !== 'function') {
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var def = defaultOrFunc;
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defaultOrFunc = function() { return def; };
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}
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return ko.pureComputed({
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read: function() {
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const value = obs();
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if (typeof value === 'boolean') {
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return value;
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}
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return value || defaultOrFunc.call(this);
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},
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write: function(val) { obs(val); },
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owner: optContext
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});
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}
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exports.observableWithDefault = observableWithDefault;
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/**
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* Return an observable which mirrors the passed-in argument, but convert to Number value. Write to
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* to the returned observable translate to write to the underlying one a Number value.
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*/
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function observableNumber(obs) {
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return ko.pureComputed({
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read: () => Number(obs()),
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write: (val) => {
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obs(Number(val));
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}
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});
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}
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exports.observableNumber = observableNumber;
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/**
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* Same interface as ko.computed(), except that it disposes the values it evaluates to. If an
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* observable is set to values which are created on the fly and need to be disposed (e.g.
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* components), use foo = computedAutoDispose(...). Whenever the value of foo() changes (and when
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* foo itself is disposed), the previous value's `dispose` method gets called.
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*/
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function computedAutoDispose(optionsOrReadFunc, target, options) {
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// Note: this isn't quite possible to do as a knockout extender, specifically to get correct the
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// pure vs non-pure distinction (sometimes the computed must be pure to avoid evaluation;
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// sometimes it has side-effects and must not be pure).
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var value = null;
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function setNewValue(newValue) {
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if (value && value !== newValue) {
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ko.ignoreDependencies(value.dispose, value);
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}
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value = newValue;
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return newValue;
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}
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var origRead;
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if (typeof optionsOrReadFunc === "object") {
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// Single-parameter syntax.
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origRead = optionsOrReadFunc.read;
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options = _.clone(optionsOrReadFunc);
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} else {
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origRead = optionsOrReadFunc;
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options = _.defaults({ owner: target }, options || {});
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}
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options.read = function() {
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return setNewValue(origRead.call(this));
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};
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var result = ko.computed(options);
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var origDispose = result.dispose;
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result.dispose = function() {
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setNewValue(null);
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origDispose.call(result);
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};
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return result;
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}
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exports.computedAutoDispose = computedAutoDispose;
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/**
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* Helper for building disposable components that depend on a few observables. The callback is
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* evaluated as for a knockout computed observable, which creates dependencies on any observables
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* mentioned in it. But the return value of the callback should be a function ("builder"), which
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* is called to build the resulting value. Observables mentioned in the evaluation of the builder
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* do NOT create dependencies. In addition, the built value gets disposed automatically when it
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* changes.
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*
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* The optContext argument serves as the context for the callback.
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*
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* For example,
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* var foo = ko.observable();
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* koUtil.computedBuilder(function() {
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* return MyComponent.create.bind(MyComponent, foo());
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* }, this);
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*
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* In this case, whenever foo() changes, MyComponent.create(foo()) gets called, and
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* previously-returned component gets disposed. Observables mentioned during MyComponent's
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* construction do not trigger its rebuilding (as they would if a plain ko.computed() were used).
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*/
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function computedBuilder(callback, optContext) {
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return computedAutoDispose(function() {
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var builder = callback.call(optContext);
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return builder ? ko.ignoreDependencies(builder) : null;
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}, null, { pure: false });
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}
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exports.computedBuilder = computedBuilder;
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