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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
/**
* Basic use:
* let spanToEdit = document.getElementById("somespan");
*
* editableField({
* element: spanToEdit,
* done: function(value, commit, direction, key) {
* if (commit) {
* spanToEdit.textContent = value;
* }
* },
* trigger: "dblclick"
* });
*
* See editableField() for more options.
*/
"use strict";
const focusManager = Services.focus;
const isOSX = Services.appinfo.OS === "Darwin";
const { KeyCodes } = require("resource://devtools/client/shared/keycodes.js");
const EventEmitter = require("resource://devtools/shared/event-emitter.js");
const {
findMostRelevantCssPropertyIndex,
} = require("resource://devtools/client/shared/suggestion-picker.js");
const CONTENT_TYPES = {
PLAIN_TEXT: 0,
CSS_VALUE: 1,
CSS_MIXED: 2,
CSS_PROPERTY: 3,
};
// The limit of 500 autocomplete suggestions should not be reached but is kept
// for safety.
const MAX_POPUP_ENTRIES = 500;
const FOCUS_FORWARD = focusManager.MOVEFOCUS_FORWARD;
const FOCUS_BACKWARD = focusManager.MOVEFOCUS_BACKWARD;
const WORD_REGEXP = /\w/;
const isWordChar = function (str) {
return str && WORD_REGEXP.test(str);
};
const GRID_PROPERTY_NAMES = [
"grid-area",
"grid-row",
"grid-row-start",
"grid-row-end",
"grid-column",
"grid-column-start",
"grid-column-end",
];
const GRID_ROW_PROPERTY_NAMES = [
"grid-area",
"grid-row",
"grid-row-start",
"grid-row-end",
];
const GRID_COL_PROPERTY_NAMES = [
"grid-area",
"grid-column",
"grid-column-start",
"grid-column-end",
];
/**
* Helper to check if the provided key matches one of the expected keys.
* Keys will be prefixed with DOM_VK_ and should match a key in KeyCodes.
*
* @param {String} key
* the key to check (can be a keyCode).
* @param {...String} keys
* list of possible keys allowed.
* @return {Boolean} true if the key matches one of the keys.
*/
function isKeyIn(key, ...keys) {
return keys.some(expectedKey => {
return key === KeyCodes["DOM_VK_" + expectedKey];
});
}
/**
* Mark a span editable. |editableField| will listen for the span to
* be focused and create an InlineEditor to handle text input.
* Changes will be committed when the InlineEditor's input is blurred
* or dropped when the user presses escape.
*
* @param {Object} options: Options for the editable field
* @param {Element} options.element:
* (required) The span to be edited on focus.
* @param {String} options.inputClass:
* An optional class to be added to the input.
* @param {Function} options.canEdit:
* Will be called before creating the inplace editor. Editor
* won't be created if canEdit returns false.
* @param {Function} options.start:
* Will be called when the inplace editor is initialized.
* @param {Function} options.change:
* Will be called when the text input changes. Will be called
* with the current value of the text input.
* @param {Function} options.done:
* Called when input is committed or blurred. Called with
* current value, a boolean telling the caller whether to
* commit the change, the direction of the next element to be
* selected and the event keybode. Direction may be one of Services.focus.MOVEFOCUS_FORWARD,
* Services.focus.MOVEFOCUS_BACKWARD, or null (no movement).
* This function is called before the editor has been torn down.
* @param {Function} options.destroy:
* Called when the editor is destroyed and has been torn down.
* @param {Function} options.contextMenu:
* Called when the user triggers a contextmenu event on the input.
* @param {Object} options.advanceChars:
* This can be either a string or a function.
* If it is a string, then if any characters in it are typed,
* focus will advance to the next element.
* Otherwise, if it is a function, then the function will
* be called with three arguments: a key code, the current text,
* and the insertion point. If the function returns true,
* then the focus advance takes place. If it returns false,
* then the character is inserted instead.
* @param {Boolean} options.stopOnReturn:
* If true, the return key will not advance the editor to the next
* focusable element. Note that Ctrl/Cmd+Enter will still advance the editor
* @param {Boolean} options.stopOnTab:
* If true, the tab key will not advance the editor to the next
* focusable element.
* @param {Boolean} options.stopOnShiftTab:
* If true, shift tab will not advance the editor to the previous
* focusable element.
* @param {String} options.trigger: The DOM event that should trigger editing,
* defaults to "click"
* @param {Boolean} options.multiline: Should the editor be a multiline textarea?
* defaults to false
* @param {Function or options.Number} maxWidth:
* Should the editor wrap to remain below the provided max width. Only
* available if multiline is true. If a function is provided, it will be
* called when replacing the element by the inplace input.
* @param {Boolean} options.trimOutput: Should the returned string be trimmed?
* defaults to true
* @param {Boolean} options.preserveTextStyles: If true, do not copy text-related styles
* from `element` to the new input.
* defaults to false
* @param {Object} options.cssProperties: An instance of CSSProperties.
* @param {Object} options.getCssVariables: A function that returns a Map containing
* all CSS variables. The Map key is the variable name, the value is the variable value
* @param {Number} options.defaultIncrement: The value by which the input is incremented
* or decremented by default (0.1 for properties like opacity and 1 by default)
* @param {Function} options.getGridLineNames:
* Will be called before offering autocomplete sugestions, if the property is
* a member of GRID_PROPERTY_NAMES.
* @param {Boolean} options.showSuggestCompletionOnEmpty:
* If true, show the suggestions in case that the current text becomes empty.
* Defaults to false.
* @param {Boolean} options.focusEditableFieldAfterApply
* If true, try to focus the next editable field after the input value is commited.
* When set to true, focusEditableFieldContainerSelector is mandatory.
* If no editable field can be found within the element retrieved with
* focusEditableFieldContainerSelector, the focus will be moved to the next focusable
* element (which won't be an editable field)
* @param {String} options.focusEditableFieldContainerSelector
* A CSS selector that will be used to retrieve the container element into which
* the next focused element should be in, when focusEditableFieldAfterApply
* is set to true. This allows to bail out if we can't find a suitable
* focusable field.
* @param {String} options.inputAriaLabel
* Optional aria-label attribute value that will be added to the input.
* @param {String} options.inputAriaLabelledBy
* Optional aria-labelled-by attribute value that will be added to the input.
*/
function editableField(options) {
return editableItem(options, function (element, event) {
if (!options.element.inplaceEditor) {
new InplaceEditor(options, event);
}
});
}
exports.editableField = editableField;
/**
* Handle events for an element that should respond to
* clicks and sit in the editing tab order, and call
* a callback when it is activated.
*
* @param {Object} options
* The options for this editor, including:
* {Element} element: The DOM element.
* {String} trigger: The DOM event that should trigger editing,
* defaults to "click"
* @param {Function} callback
* Called when the editor is activated.
* @return {Function} function which calls callback
*/
function editableItem(options, callback) {
const trigger = options.trigger || "click";
const element = options.element;
element.addEventListener(trigger, function (evt) {
if (evt.target.nodeName !== "a") {
const win = this.ownerDocument.defaultView;
const selection = win.getSelection();
if (trigger != "click" || selection.isCollapsed) {
callback(element, evt);
}
evt.stopPropagation();
}
});
// If focused by means other than a click, start editing by
// pressing enter or space.
element.addEventListener(
"keypress",
function (evt) {
if (evt.target.nodeName === "button") {
return;
}
if (isKeyIn(evt.keyCode, "RETURN") || isKeyIn(evt.charCode, "SPACE")) {
callback(element);
}
},
true
);
// Ugly workaround - the element is focused on mousedown but
// the editor is activated on click/mouseup. This leads
// to an ugly flash of the focus ring before showing the editor.
// So hide the focus ring while the mouse is down.
element.addEventListener("mousedown", function (evt) {
if (evt.target.nodeName !== "a") {
const cleanup = function () {
element.style.removeProperty("outline-style");
element.removeEventListener("mouseup", cleanup);
element.removeEventListener("mouseout", cleanup);
};
element.style.setProperty("outline-style", "none");
element.addEventListener("mouseup", cleanup);
element.addEventListener("mouseout", cleanup);
}
});
// Mark the element editable field for tab
// navigation while editing.
element._editable = true;
// And an attribute that can be used to target
element.setAttribute("editable", "");
// Save the trigger type so we can dispatch this later
element._trigger = trigger;
// Add button semantics to the element, to indicate that it can be activated.
element.setAttribute("role", "button");
return function turnOnEditMode() {
callback(element);
};
}
exports.editableItem = editableItem;
/*
* Various API consumers (especially tests) sometimes want to grab the
* inplaceEditor expando off span elements. However, when each global has its
* own compartment, those expandos live on Xray wrappers that are only visible
* within this JSM. So we provide a little workaround here.
*/
function getInplaceEditorForSpan(span) {
return span.inplaceEditor;
}
exports.getInplaceEditorForSpan = getInplaceEditorForSpan;
class InplaceEditor extends EventEmitter {
constructor(options, event) {
super();
this.elt = options.element;
const doc = this.elt.ownerDocument;
this.doc = doc;
this.elt.inplaceEditor = this;
this.cssProperties = options.cssProperties;
this.getCssVariables = options.getCssVariables
? options.getCssVariables.bind(this)
: null;
this.change = options.change;
this.done = options.done;
this.contextMenu = options.contextMenu;
this.defaultIncrement = options.defaultIncrement || 1;
this.destroy = options.destroy;
this.initial = options.initial ? options.initial : this.elt.textContent;
this.multiline = options.multiline || false;
this.maxWidth = options.maxWidth;
if (typeof this.maxWidth == "function") {
this.maxWidth = this.maxWidth();
}
this.trimOutput =
options.trimOutput === undefined ? true : !!options.trimOutput;
this.stopOnShiftTab = !!options.stopOnShiftTab;
this.stopOnTab = !!options.stopOnTab;
this.stopOnReturn = !!options.stopOnReturn;
this.contentType = options.contentType || CONTENT_TYPES.PLAIN_TEXT;
this.property = options.property;
this.popup = options.popup;
this.preserveTextStyles =
options.preserveTextStyles === undefined
? false
: !!options.preserveTextStyles;
this.showSuggestCompletionOnEmpty = !!options.showSuggestCompletionOnEmpty;
this.focusEditableFieldAfterApply =
options.focusEditableFieldAfterApply === true;
this.focusEditableFieldContainerSelector =
options.focusEditableFieldContainerSelector;
if (
this.focusEditableFieldAfterApply &&
!this.focusEditableFieldContainerSelector
) {
throw new Error(
"focusEditableFieldContainerSelector is mandatory when focusEditableFieldAfterApply is true"
);
}
this.#createInput(options);
// Hide the provided element and add our editor.
this.originalDisplay = this.elt.style.display;
this.elt.style.display = "none";
this.elt.parentNode.insertBefore(this.input, this.elt);
// After inserting the input to have all CSS styles applied, start autosizing.
this.#autosize();
this.inputCharDimensions = this.#getInputCharDimensions();
// Pull out character codes for advanceChars, listing the
// characters that should trigger a blur.
if (typeof options.advanceChars === "function") {
this.#advanceChars = options.advanceChars;
} else {
const advanceCharcodes = {};
const advanceChars = options.advanceChars || "";
for (let i = 0; i < advanceChars.length; i++) {
advanceCharcodes[advanceChars.charCodeAt(i)] = true;
}
this.#advanceChars = charCode => charCode in advanceCharcodes;
}
this.input.focus();
if (typeof options.selectAll == "undefined" || options.selectAll) {
this.input.select();
}
const win = doc.defaultView;
this.#abortController = new win.AbortController();
const eventListenerConfig = { signal: this.#abortController.signal };
this.input.addEventListener("blur", this.#onBlur, eventListenerConfig);
this.input.addEventListener(
"keypress",
this.#onKeyPress,
eventListenerConfig
);
this.input.addEventListener("wheel", this.#onWheel, eventListenerConfig);
this.input.addEventListener("input", this.#onInput, eventListenerConfig);
this.input.addEventListener(
"dblclick",
this.#stopEventPropagation,
eventListenerConfig
);
this.input.addEventListener(
"click",
this.#stopEventPropagation,
eventListenerConfig
);
this.input.addEventListener(
"mousedown",
this.#stopEventPropagation,
eventListenerConfig
);
this.input.addEventListener(
"contextmenu",
this.#onContextMenu,
eventListenerConfig
);
win.addEventListener("blur", this.#onWindowBlur, eventListenerConfig);
this.validate = options.validate;
if (this.validate) {
this.input.addEventListener("keyup", this.#onKeyup, eventListenerConfig);
}
this.#updateSize();
if (options.start) {
options.start(this, event);
}
this.#getGridNamesBeforeCompletion(options.getGridLineNames);
}
static CONTENT_TYPES = CONTENT_TYPES;
#abortController;
#advanceChars;
#applied;
#measurement;
#openPopupTimeout;
#pressedKey;
#preventSuggestions;
#selectedIndex;
#variableNames;
#variables;
get currentInputValue() {
const val = this.trimOutput ? this.input.value.trim() : this.input.value;
return val;
}
/**
* Create the input element.
*
* @param {Object} options
* @param {String} options.inputAriaLabel
* Optional aria-label attribute value that will be added to the input.
* @param {String} options.inputAriaLabelledBy
* Optional aria-labelledby attribute value that will be added to the input.
* @param {String} options.inputClass:
* Optional class to be added to the input.
*/
#createInput(options = {}) {
this.input = this.doc.createElementNS(
HTML_NS,
this.multiline ? "textarea" : "input"
);
this.input.inplaceEditor = this;
if (this.multiline) {
// Hide the textarea resize handle.
this.input.style.resize = "none";
this.input.style.overflow = "hidden";
// Also reset padding.
this.input.style.padding = "0";
}
this.input.classList.add("styleinspector-propertyeditor");
if (options.inputClass) {
this.input.classList.add(options.inputClass);
}
this.input.value = this.initial;
if (options.inputAriaLabel) {
this.input.setAttribute("aria-label", options.inputAriaLabel);
} else if (options.inputAriaLabelledBy) {
this.input.setAttribute("aria-labelledby", options.inputAriaLabelledBy);
}
if (!this.preserveTextStyles) {
copyTextStyles(this.elt, this.input);
}
}
/**
* Get rid of the editor.
*/
#clear() {
if (!this.input) {
// Already cleared.
return;
}
this.#abortController.abort();
this.#stopAutosize();
this.elt.style.display = this.originalDisplay;
if (this.doc.activeElement == this.input) {
this.elt.focus();
}
this.input.remove();
this.input = null;
delete this.elt.inplaceEditor;
delete this.elt;
if (this.destroy) {
this.destroy();
}
}
/**
* Keeps the editor close to the size of its input string. This is pretty
* crappy, suggestions for improvement welcome.
*/
#autosize() {
// Create a hidden, absolutely-positioned span to measure the text
// in the input. Boo.
// We can't just measure the original element because a) we don't
// change the underlying element's text ourselves (we leave that
// up to the client), and b) without tweaking the style of the
// original element, it might wrap differently or something.
this.#measurement = this.doc.createElementNS(
HTML_NS,
this.multiline ? "pre" : "span"
);
this.#measurement.className = "autosizer";
this.elt.parentNode.appendChild(this.#measurement);
const style = this.#measurement.style;
style.visibility = "hidden";
style.position = "absolute";
style.top = "0";
style.left = "0";
if (this.multiline) {
style.whiteSpace = "pre-wrap";
style.wordWrap = "break-word";
if (this.maxWidth) {
style.maxWidth = this.maxWidth + "px";
// Use position fixed to measure dimensions without any influence from
// the container of the editor.
style.position = "fixed";
}
}
copyAllStyles(this.input, this.#measurement);
this.#updateSize();
}
/**
* Clean up the mess created by _autosize().
*/
#stopAutosize() {
if (!this.#measurement) {
return;
}
this.#measurement.remove();
this.#measurement = null;
}
/**
* Size the editor to fit its current contents.
*/
#updateSize() {
// Replace spaces with non-breaking spaces. Otherwise setting
// the span's textContent will collapse spaces and the measurement
// will be wrong.
let content = this.input.value;
const unbreakableSpace = "\u00a0";
// Make sure the content is not empty.
if (content === "") {
content = unbreakableSpace;
}
// If content ends with a new line, add a blank space to force the autosize
// element to adapt its height.
if (content.lastIndexOf("\n") === content.length - 1) {
content = content + unbreakableSpace;
}
if (!this.multiline) {
content = content.replace(/ /g, unbreakableSpace);
}
this.#measurement.textContent = content;
// Do not use offsetWidth: it will round floating width values.
let width = this.#measurement.getBoundingClientRect().width;
if (this.multiline) {
if (this.maxWidth) {
width = Math.min(this.maxWidth, width);
}
const height = this.#measurement.getBoundingClientRect().height;
this.input.style.height = height + "px";
}
this.input.style.width = width + "px";
}
/**
* Get the width and height of a single character in the input to properly
* position the autocompletion popup.
*/
#getInputCharDimensions() {
// Just make the text content to be 'x' to get the width and height of any
// character in a monospace font.
this.#measurement.textContent = "x";
const width = this.#measurement.clientWidth;
const height = this.#measurement.clientHeight;
return { width, height };
}
/**
* Increment property values in rule view.
*
* @param {Number} increment
* The amount to increase/decrease the property value.
* @return {Boolean} true if value has been incremented.
*/
#incrementValue(increment) {
const value = this.input.value;
const selectionStart = this.input.selectionStart;
const selectionEnd = this.input.selectionEnd;
const newValue = this.#incrementCSSValue(
value,
increment,
selectionStart,
selectionEnd
);
if (!newValue) {
return false;
}
this.input.value = newValue.value;
this.input.setSelectionRange(newValue.start, newValue.end);
this.#doValidation();
// Call the user's change handler if available.
if (this.change) {
this.change(this.currentInputValue);
}
return true;
}
/**
* Increment the property value based on the property type.
*
* @param {String} value
* Property value.
* @param {Number} increment
* Amount to increase/decrease the property value.
* @param {Number} selStart
* Starting index of the value.
* @param {Number} selEnd
* Ending index of the value.
* @return {Object} object with properties 'value', 'start', and 'end'.
*/
#incrementCSSValue(value, increment, selStart, selEnd) {
const range = this.#parseCSSValue(value, selStart);
const type = range?.type || "";
const rawValue = range ? value.substring(range.start, range.end) : "";
const preRawValue = range ? value.substr(0, range.start) : "";
const postRawValue = range ? value.substr(range.end) : "";
let info;
let incrementedValue = null,
selection;
if (type === "num") {
if (rawValue == "0") {
info = {};
info.units = this.#findCompatibleUnit(preRawValue, postRawValue);
}
const newValue = this.#incrementRawValue(rawValue, increment, info);
if (newValue !== null) {
incrementedValue = newValue;
selection = [0, incrementedValue.length];
}
} else if (type === "hex") {
const exprOffset = selStart - range.start;
const exprOffsetEnd = selEnd - range.start;
const newValue = this.#incHexColor(
rawValue,
increment,
exprOffset,
exprOffsetEnd
);
if (newValue) {
incrementedValue = newValue.value;
selection = newValue.selection;
}
} else {
if (type === "rgb" || type === "hsl" || type === "hwb") {
info = {};
const isCSS4Color = !value.includes(",");
// In case the value uses the new syntax of the CSS Color 4 specification,
// it is split by the spaces and the slash separating the alpha value
// between the different color components.
// Example: rgb(255 0 0 / 0.5)
// Otherwise, the value is represented using the old color syntax and is
// split by the commas between the color components.
// Example: rgba(255, 0, 0, 0.5)
const part =
value
.substring(range.start, selStart)
.split(isCSS4Color ? / ?\/ ?| / : ",").length - 1;
if (part === 3) {
// alpha
info.minValue = 0;
info.maxValue = 1;
} else if (type === "rgb") {
info.minValue = 0;
info.maxValue = 255;
} else if (part !== 0) {
// hsl or hwb percentage
info.minValue = 0;
info.maxValue = 100;
// select the previous number if the selection is at the end of a
// percentage sign.
if (value.charAt(selStart - 1) === "%") {
--selStart;
}
}
}
return this.#incrementGenericValue(
value,
increment,
selStart,
selEnd,
info
);
}
if (incrementedValue === null) {
return null;
}
return {
value: preRawValue + incrementedValue + postRawValue,
start: range.start + selection[0],
end: range.start + selection[1],
};
}
/**
* Find a compatible unit to use for a CSS number value inserted between the
* provided beforeValue and afterValue. The compatible unit will be picked
* from a selection of default units corresponding to supported CSS value
* dimensions (distance, angle, duration).
*
* @param {String} beforeValue
* The string preceeding the number value in the current property
* value.
* @param {String} afterValue
* The string following the number value in the current property value.
* @return {String} a valid unit that can be used for this number value or
* empty string if no match could be found.
*/
#findCompatibleUnit(beforeValue, afterValue) {
if (!this.property || !this.property.name) {
return "";
}
// A DOM element is used to test the validity of various units. This is to
// avoid having to do an async call to the server to get this information.
const el = this.doc.createElement("div");
// Cycle through unitless (""), pixels, degrees and seconds.
const units = ["", "px", "deg", "s"];
for (const unit of units) {
const value = beforeValue + "1" + unit + afterValue;
el.style.setProperty(this.property.name, "");
el.style.setProperty(this.property.name, value);
// The property was set to `""` first, so if the value is no longer `""`,
// it means that the second `setProperty` call set a valid property and we
// can use this unit.
if (el.style.getPropertyValue(this.property.name) !== "") {
return unit;
}
}
return "";
}
/**
* Parses the property value and type.
*
* @param {String} value
* Property value.
* @param {Number} offset
* Starting index of value.
* @return {Object} object with properties 'value', 'start', 'end', and
* 'type'.
*/
#parseCSSValue(value, offset) {
/* eslint-disable max-len */
const reSplitCSS =
/(?<url>url\("?[^"\)]+"?\)?)|(?<rgb>rgba?\([^)]*\)?)|(?<hsl>hsla?\([^)]*\)?)|(?<hwb>hwb\([^)]*\)?)|(?<hex>#[\dA-Fa-f]+)|(?<number>-?\d*\.?\d+(%|[a-z]{1,4})?)|"([^"]*)"?|'([^']*)'?|([^,\s\/!\(\)]+)|(!(.*)?)/;
/* eslint-enable */
let start = 0;
let m;
// retreive values from left to right until we find the one at our offset
while ((m = reSplitCSS.exec(value)) && m.index + m[0].length < offset) {
value = value.substring(m.index + m[0].length);
start += m.index + m[0].length;
offset -= m.index + m[0].length;
}
if (!m) {
return null;
}
let type;
if (m.groups.url) {
type = "url";
} else if (m.groups.rgb) {
type = "rgb";
} else if (m.groups.hsl) {
type = "hsl";
} else if (m.groups.hwb) {
type = "hwb";
} else if (m.groups.hex) {
type = "hex";
} else if (m.groups.number) {
type = "num";
}
return {
value: m[0],
start: start + m.index,
end: start + m.index + m[0].length,
type,
};
}
/**
* Increment the property value for types other than
* number or hex, such as rgb, hsl, hwb, and file names.
*
* @param {String} value
* Property value.
* @param {Number} increment
* Amount to increment/decrement.
* @param {Number} offset
* Starting index of the property value.
* @param {Number} offsetEnd
* Ending index of the property value.
* @param {Object} info
* Object with details about the property value.
* @return {Object} object with properties 'value', 'start', and 'end'.
*/
#incrementGenericValue(value, increment, offset, offsetEnd, info) {
// Try to find a number around the cursor to increment.
let start, end;
// Check if we are incrementing in a non-number context (such as a URL)
if (
/^-?[0-9.]/.test(value.substring(offset, offsetEnd)) &&
!/\d/.test(value.charAt(offset - 1) + value.charAt(offsetEnd))
) {
// We have a number selected, possibly with a suffix, and we are not in
// the disallowed case of just part of a known number being selected.
// Use that number.
start = offset;
end = offsetEnd;
} else {
// Parse periods as belonging to the number only if we are in a known
// number context. (This makes incrementing the 1 in 'image1.gif' work.)
const pattern = "[" + (info ? "0-9." : "0-9") + "]*";
const before = new RegExp(pattern + "$").exec(value.substr(0, offset))[0]
.length;
const after = new RegExp("^" + pattern).exec(value.substr(offset))[0]
.length;
start = offset - before;
end = offset + after;
// Expand the number to contain an initial minus sign if it seems
// free-standing.
if (
value.charAt(start - 1) === "-" &&
(start - 1 === 0 || /[ (:,='"]/.test(value.charAt(start - 2)))
) {
--start;
}
}
if (start !== end) {
// Include percentages as part of the incremented number (they are
// common enough).
if (value.charAt(end) === "%") {
++end;
}
const first = value.substr(0, start);
let mid = value.substring(start, end);
const last = value.substr(end);
mid = this.#incrementRawValue(mid, increment, info);
if (mid !== null) {
return {
value: first + mid + last,
start,
end: start + mid.length,
};
}
}
return null;
}
/**
* Increment the property value for numbers.
*
* @param {String} rawValue
* Raw value to increment.
* @param {Number} increment
* Amount to increase/decrease the raw value.
* @param {Object} info
* Object with info about the property value.
* @return {String} the incremented value.
*/
#incrementRawValue(rawValue, increment, info) {
const num = parseFloat(rawValue);
if (isNaN(num)) {
return null;
}
const number = /\d+(\.\d+)?/.exec(rawValue);
let units = rawValue.substr(number.index + number[0].length);
if (info && "units" in info) {
units = info.units;
}
// avoid rounding errors
let newValue = Math.round((num + increment) * 1000) / 1000;
if (info && "minValue" in info) {
newValue = Math.max(newValue, info.minValue);
}
if (info && "maxValue" in info) {
newValue = Math.min(newValue, info.maxValue);
}
newValue = newValue.toString();
return newValue + units;
}
/**
* Increment the property value for hex.
*
* @param {String} value
* Property value.
* @param {Number} increment
* Amount to increase/decrease the property value.
* @param {Number} offset
* Starting index of the property value.
* @param {Number} offsetEnd
* Ending index of the property value.
* @return {Object} object with properties 'value' and 'selection'.
*/
#incHexColor(rawValue, increment, offset, offsetEnd) {
// Return early if no part of the rawValue is selected.
if (offsetEnd > rawValue.length && offset >= rawValue.length) {
return null;
}
if (offset < 1 && offsetEnd <= 1) {
return null;
}
// Ignore the leading #.
rawValue = rawValue.substr(1);
--offset;
--offsetEnd;
// Clamp the selection to within the actual value.
offset = Math.max(offset, 0);
offsetEnd = Math.min(offsetEnd, rawValue.length);
offsetEnd = Math.max(offsetEnd, offset);
// Normalize #ABC -> #AABBCC.
if (rawValue.length === 3) {
rawValue =
rawValue.charAt(0) +
rawValue.charAt(0) +
rawValue.charAt(1) +
rawValue.charAt(1) +
rawValue.charAt(2) +
rawValue.charAt(2);
offset *= 2;
offsetEnd *= 2;
}
// Normalize #ABCD -> #AABBCCDD.
if (rawValue.length === 4) {
rawValue =
rawValue.charAt(0) +
rawValue.charAt(0) +
rawValue.charAt(1) +
rawValue.charAt(1) +
rawValue.charAt(2) +
rawValue.charAt(2) +
rawValue.charAt(3) +
rawValue.charAt(3);
offset *= 2;
offsetEnd *= 2;
}
if (rawValue.length !== 6 && rawValue.length !== 8) {
return null;
}
// If no selection, increment an adjacent color, preferably one to the left.
if (offset === offsetEnd) {
if (offset === 0) {
offsetEnd = 1;
} else {
offset = offsetEnd - 1;
}
}
// Make the selection cover entire parts.
offset -= offset % 2;
offsetEnd += offsetEnd % 2;
// Remap the increments from [0.1, 1, 10] to [1, 1, 16].
if (increment > -1 && increment < 1) {
increment = increment < 0 ? -1 : 1;
}
if (Math.abs(increment) === 10) {
increment = increment < 0 ? -16 : 16;
}
const isUpper = rawValue.toUpperCase() === rawValue;
for (let pos = offset; pos < offsetEnd; pos += 2) {
// Increment the part in [pos, pos+2).
let mid = rawValue.substr(pos, 2);
const value = parseInt(mid, 16);
if (isNaN(value)) {
return null;
}
mid = Math.min(Math.max(value + increment, 0), 255).toString(16);
while (mid.length < 2) {
mid = "0" + mid;
}
if (isUpper) {
mid = mid.toUpperCase();
}
rawValue = rawValue.substr(0, pos) + mid + rawValue.substr(pos + 2);
}
return {
value: "#" + rawValue,
selection: [offset + 1, offsetEnd + 1],
};
}
/**
* Cycle through the autocompletion suggestions in the popup.
*
* @param {Boolean} reverse
* true to select previous item from the popup.
* @param {Boolean} noSelect
* true to not select the text after selecting the newly selectedItem
* from the popup.
*/
#cycleCSSSuggestion(reverse, noSelect) {
// selectedItem can be null when nothing is selected in an empty editor.
const { label, preLabel } = this.popup.selectedItem || {
label: "",
preLabel: "",
};
if (reverse) {
this.popup.selectPreviousItem();
} else {
this.popup.selectNextItem();
}
this.#selectedIndex = this.popup.selectedIndex;
const input = this.input;
let pre = "";
if (input.selectionStart < input.selectionEnd) {
pre = input.value.slice(0, input.selectionStart);
} else {
pre = input.value.slice(
0,
input.selectionStart - label.length + preLabel.length
);
}
const post = input.value.slice(input.selectionEnd, input.value.length);
const item = this.popup.selectedItem;
const toComplete = item.label.slice(item.preLabel.length);
input.value = pre + toComplete + post;
if (!noSelect) {
input.setSelectionRange(pre.length, pre.length + toComplete.length);
} else {
input.setSelectionRange(
pre.length + toComplete.length,
pre.length + toComplete.length
);
}
this.#updateSize();
// This emit is mainly for the purpose of making the test flow simpler.
this.emit("after-suggest");
}
/**
* Call the client's done handler and clear out.
*/
#apply(direction, key) {
if (this.#applied) {
return null;
}
this.#applied = true;
if (this.done) {
const val = this.cancelled ? this.initial : this.currentInputValue;
return this.done(val, !this.cancelled, direction, key);
}
return null;
}
/**
* Hide the popup and cancel any pending popup opening.
*/
#onWindowBlur = () => {
if (this.popup && this.popup.isOpen) {
this.popup.hidePopup();
}
if (this.#openPopupTimeout) {
this.doc.defaultView.clearTimeout(this.#openPopupTimeout);
}
};
/**
* Event handler called when the inplace-editor's input loses focus.
*/
#onBlur = event => {
if (
event &&
this.popup &&
this.popup.isOpen &&
this.popup.selectedIndex >= 0
) {
this.#acceptPopupSuggestion();
} else {
this.#apply();
this.#clear();
}
};
/**
* Before offering autocomplete, set this.gridLineNames as the line names
* of the current grid, if they exist.
*
* @param {Function} getGridLineNames
* A function which gets the line names of the current grid.
*/
async #getGridNamesBeforeCompletion(getGridLineNames) {
if (
getGridLineNames &&
this.property &&
GRID_PROPERTY_NAMES.includes(this.property.name)
) {
this.gridLineNames = await getGridLineNames();
}
if (
this.contentType == CONTENT_TYPES.CSS_VALUE &&
this.input &&
this.input.value == ""
) {
this.#maybeSuggestCompletion(false);
}
}
/**
* Event handler called by the autocomplete popup when receiving a click
* event.
*/
#onAutocompletePopupClick = () => {
this.#acceptPopupSuggestion();
};
#acceptPopupSuggestion() {
let label, preLabel;
if (this.#selectedIndex === undefined) {
({ label, preLabel } = this.popup.getItemAtIndex(
this.popup.selectedIndex
));
} else {
({ label, preLabel } = this.popup.getItemAtIndex(this.#selectedIndex));
}
const input = this.input;
let pre = "";
// CSS_MIXED needs special treatment here to make it so that
// multiple presses of tab will cycle through completions, but
// without selecting the completed text. However, this same
// special treatment will do the wrong thing for other editing
// styles.
if (
input.selectionStart < input.selectionEnd ||
this.contentType !== CONTENT_TYPES.CSS_MIXED
) {
pre = input.value.slice(0, input.selectionStart);
} else {
pre = input.value.slice(
0,
input.selectionStart - label.length + preLabel.length
);
}
const post = input.value.slice(input.selectionEnd, input.value.length);
const item = this.popup.selectedItem;
this.#selectedIndex = this.popup.selectedIndex;
const toComplete = item.label.slice(item.preLabel.length);
input.value = pre + toComplete + post;
input.setSelectionRange(
pre.length + toComplete.length,
pre.length + toComplete.length
);
this.#updateSize();
// Wait for the popup to hide and then focus input async otherwise it does
// not work.
const onPopupHidden = () => {
this.popup.off("popup-closed", onPopupHidden);
this.doc.defaultView.setTimeout(() => {
input.focus();
this.emit("after-suggest");
}, 0);
};
this.popup.on("popup-closed", onPopupHidden);
this.#hideAutocompletePopup();
}
/**
* Handle the input field's keypress event.
*/
// eslint-disable-next-line complexity
#onKeyPress = event => {
let prevent = false;
const key = event.keyCode;
const input = this.input;
// We want to autoclose some characters, remember the pressed key in order to process
// it later on in maybeSuggestionCompletion().
this.#pressedKey = event.key;
const multilineNavigation =
!this.#isSingleLine() && isKeyIn(key, "UP", "DOWN", "LEFT", "RIGHT");
const isPlainText = this.contentType == CONTENT_TYPES.PLAIN_TEXT;
const isPopupOpen = this.popup && this.popup.isOpen;
let increment = 0;
if (!isPlainText && !multilineNavigation) {
increment = this.#getIncrement(event);
}
if (isKeyIn(key, "PAGE_UP", "PAGE_DOWN")) {
this.#preventSuggestions = true;
}
let cycling = false;
if (increment && this.#incrementValue(increment)) {
this.#updateSize();
prevent = true;
cycling = true;
}
if (isPopupOpen && isKeyIn(key, "UP", "DOWN", "PAGE_UP", "PAGE_DOWN")) {
prevent = true;
cycling = true;
this.#cycleCSSSuggestion(isKeyIn(key, "UP", "PAGE_UP"));
this.#doValidation();
}
if (isKeyIn(key, "BACK_SPACE", "DELETE", "LEFT", "RIGHT", "HOME", "END")) {
if (isPopupOpen && this.currentInputValue !== "") {
this.#hideAutocompletePopup();
}
} else if (
// We may show the suggestion completion if Ctrl+space is pressed, or if an
// otherwise unhandled key is pressed and the user is not cycling through the
// options in the pop-up menu, it is not an expanded shorthand property, and no
// modifier key is pressed.
(event.key === " " && event.ctrlKey) ||
(!cycling &&
!multilineNavigation &&
!event.metaKey &&
!event.altKey &&
!event.ctrlKey)
) {
this.#maybeSuggestCompletion(true);
}
if (this.multiline && event.shiftKey && isKeyIn(key, "RETURN")) {
prevent = false;
} else if (
this.#advanceChars(event.charCode, input.value, input.selectionStart) ||
isKeyIn(key, "RETURN", "TAB")
) {
prevent = true;
const ctrlOrCmd = isOSX ? event.metaKey : event.ctrlKey;
let direction;
if (
(this.stopOnReturn && isKeyIn(key, "RETURN") && !ctrlOrCmd) ||
(this.stopOnTab && !event.shiftKey && isKeyIn(key, "TAB")) ||
(this.stopOnShiftTab && event.shiftKey && isKeyIn(key, "TAB"))
) {
direction = null;
} else if (event.shiftKey && isKeyIn(key, "TAB")) {
direction = FOCUS_BACKWARD;
} else {
direction = FOCUS_FORWARD;
}
// Now we don't want to suggest anything as we are moving out.
this.#preventSuggestions = true;
// But we still want to show suggestions for css values. i.e. moving out
// of css property input box in forward direction
if (
this.contentType == CONTENT_TYPES.CSS_PROPERTY &&
direction == FOCUS_FORWARD
) {
this.#preventSuggestions = false;
}
if (isKeyIn(key, "TAB") && this.contentType == CONTENT_TYPES.CSS_MIXED) {
if (this.popup && input.selectionStart < input.selectionEnd) {
event.preventDefault();
input.setSelectionRange(input.selectionEnd, input.selectionEnd);
this.emit("after-suggest");
return;
} else if (this.popup && this.popup.isOpen) {
event.preventDefault();
this.#cycleCSSSuggestion(event.shiftKey, true);
return;
}
}
this.#apply(direction, key);
// Close the popup if open
if (this.popup && this.popup.isOpen) {
this.#hideAutocompletePopup();
}
if (direction !== null && focusManager.focusedElement === input) {
// If the focused element wasn't changed by the done callback,
// move the focus as requested.
const next = moveFocus(
this.doc.defaultView,
direction,
this.focusEditableFieldAfterApply,
this.focusEditableFieldContainerSelector
);
// If the next node to be focused has been tagged as an editable
// node, trigger editing using the configured event
if (next && next.ownerDocument === this.doc && next._editable) {
const e = this.doc.createEvent("Event");
e.initEvent(next._trigger, true, true);
next.dispatchEvent(e);
}
}
this.#clear();
} else if (isKeyIn(key, "ESCAPE")) {
// Cancel and blur ourselves.
// Now we don't want to suggest anything as we are moving out.
this.#preventSuggestions = true;
// Close the popup if open
if (this.popup && this.popup.isOpen) {
this.#hideAutocompletePopup();
} else {
this.cancelled = true;
this.#apply();
this.#clear();
}
prevent = true;
event.stopPropagation();
} else if (isKeyIn(key, "SPACE")) {
// No need for leading spaces here. This is particularly
// noticable when adding a property: it's very natural to type
// <name>: (which advances to the next property) then spacebar.
prevent = !input.value;
}
if (prevent) {
event.preventDefault();
}
};
#onContextMenu = event => {
if (this.contextMenu) {
// Call stopPropagation() and preventDefault() here so that avoid to show default
event.stopPropagation();
event.preventDefault();
this.contextMenu(event);
}
};
/**
* Open the autocomplete popup, adding a custom click handler and classname.
*
* @param {Number} offset
* X-offset relative to the input starting edge.
* @param {Number} selectedIndex
* The index of the item that should be selected. Use -1 to have no
* item selected.
*/
#openAutocompletePopup(offset, selectedIndex) {
this.popup.on("popup-click", this.#onAutocompletePopupClick);
this.popup.openPopup(this.input, offset, 0, selectedIndex);
}
/**
* Remove the custom classname and click handler and close the autocomplete
* popup.
*/
#hideAutocompletePopup() {
this.popup.off("popup-click", this.#onAutocompletePopupClick);
this.popup.hidePopup();
}
/**
* Get the increment/decrement step to use for the provided key or wheel
* event.
*
* @param {Event} event
* The event from which the increment should be comuted
* @return {number} The computed increment value.
*/
#getIncrement(event) {
const largeIncrement = 100;
const mediumIncrement = 10;
const smallIncrement = 0.1;
let increment = 0;
let wheelUp = false;
let wheelDown = false;
if (event.type === "wheel") {
if (event.wheelDelta > 0) {
wheelUp = true;
} else if (event.wheelDelta < 0) {
wheelDown = true;
}
}
const key = event.keyCode;
if (wheelUp || isKeyIn(key, "UP", "PAGE_UP")) {
increment = 1 * this.defaultIncrement;
} else if (wheelDown || isKeyIn(key, "DOWN", "PAGE_DOWN")) {
increment = -1 * this.defaultIncrement;
}
const largeIncrementKeyPressed = event.shiftKey;
const smallIncrementKeyPressed = this.#isSmallIncrementKeyPressed(event);
if (largeIncrementKeyPressed && !smallIncrementKeyPressed) {
if (isKeyIn(key, "PAGE_UP", "PAGE_DOWN")) {
increment *= largeIncrement;
} else {
increment *= mediumIncrement;
}
} else if (smallIncrementKeyPressed && !largeIncrementKeyPressed) {
increment *= smallIncrement;
}
return increment;
}
#isSmallIncrementKeyPressed = evt => {
if (isOSX) {
return evt.altKey;
}
return evt.ctrlKey;
};
/**
* Handle the input field's keyup event.
*/
#onKeyup = () => {
this.#applied = false;
};
/**
* Handle changes to the input text.
*/
#onInput = () => {
// Validate the entered value.
this.#doValidation();
// Update size if we're autosizing.
if (this.#measurement) {
this.#updateSize();
}
// Call the user's change handler if available.
if (this.change) {
this.change(this.currentInputValue);
}
// In case that the current value becomes empty, show the suggestions if needed.
if (this.currentInputValue === "" && this.showSuggestCompletionOnEmpty) {
this.#maybeSuggestCompletion(false);
}
};
/**
* Handle the input field's wheel event.
*
* @param {WheelEvent} event
*/
#onWheel = event => {
const isPlainText = this.contentType == CONTENT_TYPES.PLAIN_TEXT;
let increment = 0;
if (!isPlainText) {
increment = this.#getIncrement(event);
}
if (increment && this.#incrementValue(increment)) {
this.#updateSize();
event.preventDefault();
}
};
/**
* Stop propagation on the provided event
*/
#stopEventPropagation(e) {
e.stopPropagation();
}
/**
* Fire validation callback with current input
*/
#doValidation() {
if (this.validate && this.input) {
this.validate(this.input.value);
}
}
/**
* Handles displaying suggestions based on the current input.
*
* @param {Boolean} autoInsert
* Pass true to automatically insert the most relevant suggestion.
*/
#maybeSuggestCompletion(autoInsert) {
// Input can be null in cases when you intantaneously switch out of it.
if (!this.input) {
return;
}
const preTimeoutQuery = this.input.value;
// Since we are calling this method from a keypress event handler, the
// |input.value| does not include currently typed character. Thus we perform
// this method async.
// eslint-disable-next-line complexity
this.#openPopupTimeout = this.doc.defaultView.setTimeout(() => {
if (this.#preventSuggestions) {
this.#preventSuggestions = false;
return;
}
if (this.contentType == CONTENT_TYPES.PLAIN_TEXT) {
return;
}
if (!this.input) {
return;
}
const input = this.input;
// The length of input.value should be increased by 1
if (input.value.length - preTimeoutQuery.length > 1) {
return;
}
const query = input.value.slice(0, input.selectionStart);
let startCheckQuery = query;
if (query == null) {
return;
}
// If nothing is selected and there is a word (\w) character after the cursor, do
// not autocomplete.
if (
input.selectionStart == input.selectionEnd &&
input.selectionStart < input.value.length
) {
const nextChar = input.value.slice(input.selectionStart)[0];
// Check if the next character is a valid word character, no suggestion should be
// provided when preceeding a word.
if (/[\w-]/.test(nextChar)) {
// This emit is mainly to make the test flow simpler.
this.emit("after-suggest", "nothing to autocomplete");
return;
}
}
let list = [];
let postLabelValues = [];
if (this.contentType == CONTENT_TYPES.CSS_PROPERTY) {
list = this.#getCSSVariableNames().concat(this.#getCSSPropertyList());
} else if (this.contentType == CONTENT_TYPES.CSS_VALUE) {
// Get the last query to be completed before the caret.
const match = /([^\s,.\/]+$)/.exec(query);
if (match) {
startCheckQuery = match[0];
} else {
startCheckQuery = "";
}
// Check if the query to be completed is a CSS variable.
const varMatch = /^var\(([^\s]+$)/.exec(startCheckQuery);
if (varMatch && varMatch.length == 2) {
startCheckQuery = varMatch[1];
list = this.#getCSSVariableNames();
postLabelValues = list.map(varName =>
this.#getCSSVariableValue(varName)
);
} else {
list = [
"!important",
...this.#getCSSValuesForPropertyName(this.property.name),
];
}
if (query == "") {
// Do not suggest '!important' without any manually typed character.
list.splice(0, 1);
}
} else if (
this.contentType == CONTENT_TYPES.CSS_MIXED &&
/^\s*style\s*=/.test(query)
) {
// Check if the style attribute is closed before the selection.
const styleValue = query.replace(/^\s*style\s*=\s*/, "");
// Look for a quote matching the opening quote (single or double).
if (/^("[^"]*"|'[^']*')/.test(styleValue)) {
// This emit is mainly to make the test flow simpler.
this.emit("after-suggest", "nothing to autocomplete");
return;
}
// Detecting if cursor is at property or value;
const match = query.match(/([:;"'=]?)\s*([^"';:=]+)?$/);
if (match && match.length >= 2) {
if (match[1] == ":") {
// We are in CSS value completion
const propertyName = query.match(
/[;"'=]\s*([^"';:= ]+)\s*:\s*[^"';:=]*$/
)[1];
list = [
"!important;",
...this.#getCSSValuesForPropertyName(propertyName),
];
const matchLastQuery = /([^\s,.\/]+$)/.exec(match[2] || "");
if (matchLastQuery) {
startCheckQuery = matchLastQuery[0];
} else {
startCheckQuery = "";
}
if (!match[2]) {
// Don't suggest '!important' without any manually typed character
list.splice(0, 1);
}
} else if (match[1]) {
// We are in CSS property name completion
list = this.#getCSSVariableNames().concat(
this.#getCSSPropertyList()
);
startCheckQuery = match[2];
}
if (startCheckQuery == null) {
// This emit is mainly to make the test flow simpler.
this.emit("after-suggest", "nothing to autocomplete");
return;
}
}
}
if (!this.popup) {
// This emit is mainly to make the test flow simpler.
this.emit("after-suggest", "no popup");
return;
}
const finalList = [];
const length = list.length;
for (let i = 0, count = 0; i < length && count < MAX_POPUP_ENTRIES; i++) {
if (startCheckQuery != null && list[i].startsWith(startCheckQuery)) {
count++;
finalList.push({
preLabel: startCheckQuery,
label: list[i],
postLabel: postLabelValues[i] ? postLabelValues[i] : "",
});
} else if (count > 0) {
// Since count was incremented, we had already crossed the entries
// which would have started with query, assuming that list is sorted.
break;
} else if (startCheckQuery != null && list[i][0] > startCheckQuery[0]) {
// We have crossed all possible matches alphabetically.
break;
}
}
// Sort items starting with [a-z0-9] first, to make sure vendor-prefixed
// values and "!important" are suggested only after standard values.
finalList.sort((item1, item2) => {
// Get the expected alphabetical comparison between the items.
let comparison = item1.label.localeCompare(item2.label);
if (/^\w/.test(item1.label) != /^\w/.test(item2.label)) {
// One starts with [a-z0-9], one does not: flip the comparison.
comparison = -1 * comparison;
}
return comparison;
});
let index = 0;
if (startCheckQuery) {
// Only select a "best" suggestion when the user started a query.
const cssValues = finalList.map(item => item.label);
index = findMostRelevantCssPropertyIndex(cssValues);
}
// Insert the most relevant item from the final list as the input value.
if (autoInsert && finalList[index]) {
const item = finalList[index].label;
input.value =
query +
item.slice(startCheckQuery.length) +
input.value.slice(query.length);
input.setSelectionRange(
query.length,
query.length + item.length - startCheckQuery.length
);
this.#updateSize();
}
// Display the list of suggestions if there are more than one.
if (finalList.length > 1) {
// Calculate the popup horizontal offset.
const indent = this.input.selectionStart - startCheckQuery.length;
let offset = indent * this.inputCharDimensions.width;
offset = this.#isSingleLine() ? offset : 0;
// Select the most relevantItem if autoInsert is allowed
const selectedIndex = autoInsert ? index : -1;
// Open the suggestions popup.
this.popup.setItems(finalList, selectedIndex);
this.#openAutocompletePopup(offset, selectedIndex);
} else {
this.#hideAutocompletePopup();
}
this.#autocloseParenthesis();
// This emit is mainly for the purpose of making the test flow simpler.
this.emit("after-suggest");
this.#doValidation();
}, 0);
}
/**
* Automatically add closing parenthesis and skip closing parenthesis when needed.
*/
#autocloseParenthesis() {
// Split the current value at the cursor index to rebuild the string.
const parts = this.#splitStringAt(
this.input.value,
this.input.selectionStart
);
// Lookup the character following the caret to know if the string should be modified.
const nextChar = parts[1][0];
// Autocomplete closing parenthesis if the last key pressed was "(" and the next
// character is not a "word" character.
if (this.#pressedKey == "(" && !isWordChar(nextChar)) {
this.#updateValue(parts[0] + ")" + parts[1]);
}
// Skip inserting ")" if the next character is already a ")" (note that we actually
// insert and remove the extra ")" here, as the input has already been modified).
if (this.#pressedKey == ")" && nextChar == ")") {
this.#updateValue(parts[0] + parts[1].substring(1));
}
this.#pressedKey = null;
}
/**
* Update the current value of the input while preserving the caret position.
*/
#updateValue(str) {
const start = this.input.selectionStart;
this.input.value = str;
this.input.setSelectionRange(start, start);
this.#updateSize();
}
/**
* Split the provided string at the provided index. Returns an array of two strings.
* _splitStringAt("1234567", 3) will return ["123", "4567"]
*/
#splitStringAt(str, index) {
return [str.substring(0, index), str.substring(index, str.length)];
}
/**
* Check if the current input is displaying more than one line of text.
*
* @return {Boolean} true if the input has a single line of text
*/
#isSingleLine() {
if (!this.multiline) {
// Checking the inputCharDimensions.height only makes sense with multiline
// editors, because the textarea is directly sized using
// inputCharDimensions (see _updateSize()).
// By definition if !this.multiline, then we are in single line mode.
return true;
}
const inputRect = this.input.getBoundingClientRect();
return inputRect.height < 2 * this.inputCharDimensions.height;
}
/**
* Returns the list of CSS properties to use for the autocompletion. This
* method is overridden by tests in order to use mocked suggestion lists.
*
* @return {Array} array of CSS property names (Strings)
*/
#getCSSPropertyList() {
return this.cssProperties.getNames().sort();
}
/**
* Returns a list of CSS values valid for a provided property name to use for
* the autocompletion. This method is overridden by tests in order to use
* mocked suggestion lists.
*
* @param {String} propertyName
* @return {Array} array of CSS property values (Strings)
*/
#getCSSValuesForPropertyName(propertyName) {
const gridLineList = [];
if (this.gridLineNames) {
if (GRID_ROW_PROPERTY_NAMES.includes(this.property.name)) {
gridLineList.push(...this.gridLineNames.rows);
}
if (GRID_COL_PROPERTY_NAMES.includes(this.property.name)) {
gridLineList.push(...this.gridLineNames.cols);
}
}
// Must be alphabetically sorted before comparing the results with
// the user input, otherwise we will lose some results.
return gridLineList
.concat(this.cssProperties.getValues(propertyName))
.sort();
}
#getCSSVariablesMap() {
if (!this.getCssVariables) {
return null;
}
if (!this.#variables) {
this.#variables = this.getCssVariables();
}
return this.#variables;
}
/**
* Returns the list of all CSS variables to use for the autocompletion.
*
* @return {Array} array of CSS variable names (Strings)
*/
#getCSSVariableNames() {
if (!this.#variableNames) {
const variables = this.#getCSSVariablesMap();
if (!variables) {
return [];
}
this.#variableNames = Array.from(variables.keys()).sort();
}
return this.#variableNames;
}
/**
* Returns the variable's value for the given CSS variable name.
*
* @param {String} varName
* The variable name to retrieve the value of
* @return {String} the variable value to the given CSS variable name
*/
#getCSSVariableValue(varName) {
return this.#getCSSVariablesMap()?.get(varName);
}
}
exports.InplaceEditor = InplaceEditor;
/**
* Copy text-related styles from one element to another.
*/
function copyTextStyles(from, to) {
const win = from.ownerDocument.defaultView;
const style = win.getComputedStyle(from);
to.style.fontFamily = style.fontFamily;
to.style.fontSize = style.fontSize;
to.style.fontWeight = style.fontWeight;
to.style.fontStyle = style.fontStyle;
}
/**
* Copy all styles which could have an impact on the element size.
*/
function copyAllStyles(from, to) {
const win = from.ownerDocument.defaultView;
const style = win.getComputedStyle(from);
copyTextStyles(from, to);
to.style.lineHeight = style.lineHeight;
// If box-sizing is set to border-box, box model styles also need to be
// copied.
const boxSizing = style.boxSizing;
if (boxSizing === "border-box") {
to.style.boxSizing = boxSizing;
copyBoxModelStyles(from, to);
}
}
/**
* Copy box model styles that can impact width and height measurements when box-
* sizing is set to "border-box" instead of "content-box".
*
* @param {DOMNode} from
* the element from which styles are copied
* @param {DOMNode} to
* the element on which copied styles are applied
*/
function copyBoxModelStyles(from, to) {
const properties = [
// Copy all paddings.
"paddingTop",
"paddingRight",
"paddingBottom",
"paddingLeft",
// Copy border styles.
"borderTopStyle",
"borderRightStyle",
"borderBottomStyle",
"borderLeftStyle",
// Copy border widths.
"borderTopWidth",
"borderRightWidth",
"borderBottomWidth",
"borderLeftWidth",
];
const win = from.ownerDocument.defaultView;
const style = win.getComputedStyle(from);
for (const property of properties) {
to.style[property] = style[property];
}
}
/**
* Trigger a focus change similar to pressing tab/shift-tab.
*
* @param {Window} win: The window into which the focus should be moved
* @param {Number} direction: See Services.focus.MOVEFOCUS_*
* @param {Boolean} focusEditableField: Set to true to move the focus to the previous/next
* editable field. If not set, the focus will be set on the next focusable element.
* The function might still put the focus on a non-editable field, if none is found
* within the element matching focusEditableFieldContainerSelector
* @param {String} focusEditableFieldContainerSelector: A CSS selector the editabled element
* we want to focus should be in. This is only used when focusEditableField is set
* to true.
* It's important to pass a boundary otherwise we might hit an infinite loop
* @returns {Element} The element that received the focus
*/
function moveFocus(
win,
direction,
focusEditableField,
focusEditableFieldContainerSelector
) {
if (!focusEditableField) {
return focusManager.moveFocus(win, null, direction, 0);
}
if (!win.document.querySelector(focusEditableFieldContainerSelector)) {
console.error(
focusEditableFieldContainerSelector,
"can't be found in document.",
`focusEditableFieldContainerSelector should match an existing element`
);
return focusManager.moveFocus(win, null, direction, 0);
}
// Let's look for the next/previous editable element to focus
while (true) {
const focusedElement = focusManager.moveFocus(win, null, direction, 0);
// The _editable property is set by the InplaceEditor on the target element
if (focusedElement._editable) {
return focusedElement;
}
// If the focus was moved outside of the container, simply return the focused element
if (!focusedElement.closest(focusEditableFieldContainerSelector)) {
return focusedElement;
}
}
}