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jrtechs-vis
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vis.js is a dynamic, browser-based visualization library
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jrtechs-vis/lib/network/modules/components/shared/Label.js

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let util = require('../../../../util');
/**
* Internal helper class used for splitting a label text into lines.
*
* This has been moved away from the label processing code for better undestanding upon reading.
*
* @private
*/
class LabelAccumulator {
constructor(measureText) {
this.measureText = measureText; // callback to determine text dimensions, using the parent label settings.
this.current = 0;
this.width = 0;
this.height = 0;
this.lines = [];
}
/**
* Append given text to the given line.
*
* @param {number} l index of line to add to
* @param {string} text string to append to line
* @param {boolean} mod id of multi-font to use, default 'normal'
* @private
*/
_add(l, text, mod = 'normal') {
if (text === undefined || text === "") return;
if (this.lines[l] === undefined) {
this.lines[l] = {
width : 0,
height: 0,
blocks: []
};
}
// Determine width and get the font properties
let result = this.measureText(text, mod);
let block = Object.assign({}, result.values);
block.text = text;
block.width = result.width;
block.mod = mod;
this.lines[l].blocks.push(block);
// Update the line width. We need this for
// determining if a string goes over max width
this.lines[l].width += result.width;
}
/**
* Returns the width in pixels of the current line.
*/
curWidth() {
let line = this.lines[this.current];
if (line === undefined) return 0;
return line.width;
}
/**
* Add text in block to current line
*/
append(text, mod = 'normal') {
this._add(this.current, text, mod);
}
/**
* Add text in block to current line and start a new line
*/
newLine(text, mod = 'normal') {
this._add(this.current, text, mod);
this.current++;
}
/**
* Set the sizes for all lines and the whole thing.
*/
finalize() {
// console.log(JSON.stringify(this.lines, null, 2));
// Determine the heights of the lines
// Note that width has already been set
for (let k = 0; k < this.lines.length; k++) {
let line = this.lines[k];
let height = 0;
for (let l = 0; l < line.blocks.length; l++) {
let block = line.blocks[l];
height += block.height;
}
line.height = height;
}
// Determine the full label size
let width = 0;
let height = 0;
for (let k = 0; k < this.lines.length; k++) {
let line = this.lines[k];
if (line.width > width) {
width = line.width;
}
height += line.height;
}
this.width = width;
this.height = height;
// Return a simple hash object for further processing.
return {
width : this.width,
height: this.height,
lines : this.lines
}
}
}
class Label {
constructor(body, options, edgelabel = false) {
this.body = body;
this.pointToSelf = false;
this.baseSize = undefined;
this.fontOptions = {};
this.setOptions(options);
this.size = {top: 0, left: 0, width: 0, height: 0, yLine: 0}; // could be cached
this.isEdgeLabel = edgelabel;
}
setOptions(options, allowDeletion = false) {
this.elementOptions = options;
// We want to keep the font options separated from the node options.
// The node options have to mirror the globals when they are not overruled.
this.fontOptions = util.deepExtend({},options.font, true);
if (options.label !== undefined) {
this.labelDirty = true;
}
if (options.font !== undefined) {
Label.parseOptions(this.fontOptions, options, allowDeletion);
if (typeof options.font === 'string') {
this.baseSize = this.fontOptions.size;
}
else if (typeof options.font === 'object') {
if (options.font.size !== undefined) {
this.baseSize = options.font.size;
}
}
}
}
static parseOptions(parentOptions, newOptions, allowDeletion = false) {
if (Label.parseFontString(parentOptions, newOptions.font)) {
parentOptions.vadjust = 0;
}
else if (typeof newOptions.font === 'object') {
util.fillIfDefined(parentOptions, newOptions.font, allowDeletion);
}
parentOptions.size = Number(parentOptions.size);
parentOptions.vadjust = Number(parentOptions.vadjust);
}
/**
* If in-variable is a string, parse it as a font specifier.
*
* Note that following is not done here and have to be done after the call:
* - No number conversion (size)
* - Not all font options are set (vadjust, mod)
*
* @param inOptions {Object} font options to parse
* @param outOptions {Object} out-parameter, object in which to store the parse results (if any)
*
* @return true if font parsed as string, false otherwise
*/
static parseFontString(outOptions, inOptions) {
if (!inOptions || typeof inOptions !== 'string') return false;
let newOptionsArray = inOptions.split(" ");
outOptions.size = newOptionsArray[0].replace("px",'');
outOptions.face = newOptionsArray[1];
outOptions.color = newOptionsArray[2];
return true;
}
// set the width and height constraints based on 'nearest' value
constrain(elementOptions, options, defaultOptions) {
this.fontOptions.constrainWidth = false;
this.fontOptions.maxWdt = -1;
this.fontOptions.minWdt = -1;
let pile = [options, elementOptions, defaultOptions];
let widthConstraint = util.topMost(pile, 'widthConstraint');
if (typeof widthConstraint === 'number') {
this.fontOptions.maxWdt = Number(widthConstraint);
this.fontOptions.minWdt = Number(widthConstraint);
} else if (typeof widthConstraint === 'object') {
let widthConstraintMaximum = util.topMost(pile, ['widthConstraint', 'maximum']);
if (typeof widthConstraintMaximum === 'number') {
this.fontOptions.maxWdt = Number(widthConstraintMaximum);
}
let widthConstraintMinimum = util.topMost(pile, ['widthConstraint', 'minimum'])
if (typeof widthConstraintMinimum === 'number') {
this.fontOptions.minWdt = Number(widthConstraintMinimum);
}
}
this.fontOptions.constrainHeight = false;
this.fontOptions.minHgt = -1;
this.fontOptions.valign = 'middle';
let heightConstraint = util.topMost(pile, 'heightConstraint');
if (typeof heightConstraint === 'number') {
this.fontOptions.minHgt = Number(heightConstraint);
} else if (typeof heightConstraint === 'object') {
let heightConstraintMinimum = util.topMost(pile, ['heightConstraint', 'minimum']);
if (typeof heightConstraintMinimum === 'number') {
this.fontOptions.minHgt = Number(heightConstraintMinimum);
}
let heightConstraintValign = util.topMost(pile, ['heightConstraint', 'valign']);
if (typeof heightConstraintValign === 'string') {
if ((heightConstraintValign === 'top')||(heightConstraintValign === 'bottom')) {
this.fontOptions.valign = heightConstraintValign;
}
}
}
}
// set the selected functions based on 'nearest' value
choosify(elementOptions, options, defaultOptions) {
this.fontOptions.chooser = true;
let pile = [options, elementOptions, defaultOptions];
let chosen = util.topMost(pile, 'chosen');
if (typeof chosen === 'boolean') {
this.fontOptions.chooser = chosen;
} else if (typeof chosen === 'object') {
let chosenLabel = util.topMost(pile, ['chosen', 'label']);
if ((typeof chosenLabel === 'boolean') || (typeof chosenLabel === 'function')) {
this.fontOptions.chooser = chosenLabel;
}
}
}
// When margins are set in an element, adjust sizes is called to remove them
// from the width/height constraints. This must be done prior to label sizing.
adjustSizes(margins) {
let widthBias = (margins) ? (margins.right + margins.left) : 0;
if (this.fontOptions.constrainWidth) {
this.fontOptions.maxWdt -= widthBias;
this.fontOptions.minWdt -= widthBias;
}
let heightBias = (margins) ? (margins.top + margins.bottom) : 0;
if (this.fontOptions.constrainHeight) {
this.fontOptions.minHgt -= heightBias;
}
}
/**
* Collapse the font options for the multi-font to single objects, from
* the chain of option objects passed.
*
* If an option for a specific multi-font is not present, the parent
* option is checked for the given option.
*
* NOTE: naming of 'groupOptions' is a misnomer; the actual value passed
* is the new values to set from setOptions().
*/
propagateFonts(options, groupOptions, defaultOptions) {
if (!this.fontOptions.multi) return;
/**
* Resolve the font options path.
* If valid, return a reference to the object in question.
* Otherwise, just return null.
*
* param 'mod' is optional.
*
* options {Object} base object to determine path from
* mod {string|undefined} if present, sub path for the mod-font
*/
var pathP = function(options, mod) {
if (!options || !options.font) return null;
var opt = options.font;
if (mod) {
if (!opt[mod]) return null;
opt = opt[mod];
}
return opt;
};
/**
* Get property value from options.font[mod][property] if present.
* If mod not passed, use property value from options.font[property].
*
* @return value if found, null otherwise.
*/
var getP = function(options, mod, property) {
let opt = pathP(options, mod);
if (opt && opt.hasOwnProperty(property)) {
return opt[property];
}
return null;
};
let mods = [ 'bold', 'ital', 'boldital', 'mono' ];
for (const mod of mods) {
let modOptions = this.fontOptions[mod];
let modDefaults = defaultOptions.font[mod];
if (Label.parseFontString(modOptions, pathP(options, mod))) {
modOptions.vadjust = this.fontOptions.vadjust;
modOptions.mod = modDefaults.mod;
} else {
// We need to be crafty about loading the modded fonts. We want as
// much 'natural' versatility as we can get, so a simple global
// change propagates in an expected way, even if not stictly logical.
// 'face' has a special exception for mono, since we probably
// don't want to sync to the base font face.
modOptions.face =
getP(options , mod, 'face') ||
getP(groupOptions, mod, 'face') ||
(mod === 'mono'? modDefaults.face:null ) ||
getP(groupOptions, null, 'face') ||
this.fontOptions.face
;
// 'color' follows the standard flow
modOptions.color =
getP(options , mod, 'color') ||
getP(groupOptions, mod, 'color') ||
getP(groupOptions, null, 'color') ||
this.fontOptions.color
;
// 'mode' follows the standard flow
modOptions.mod =
getP(options , mod, 'mod') ||
getP(groupOptions, mod, 'mod') ||
getP(groupOptions, null, 'mod') ||
modDefaults.mod
;
// It's important that we size up defaults similarly if we're
// using default faces unless overriden. We want to preserve the
// ratios closely - but if faces have changed, all bets are off.
let ratio;
// NOTE: Following condition always fails, because modDefaults
// has no explicit font property. This is deliberate, see
// var's 'NodesHandler.defaultOptions.font[mod]'.
// However, I want to keep the original logic while refactoring;
// it appears to be working fine even if ratio is never set.
// TODO: examine if this is a bug, fix if necessary.
//
if ((modOptions.face === modDefaults.face) &&
(this.fontOptions.face === defaultOptions.font.face)) {
ratio = this.fontOptions.size / Number(defaultOptions.font.size);
}
modOptions.size =
getP(options , mod, 'size') ||
getP(groupOptions, mod, 'size') ||
(ratio? modDefaults.size * ratio: null) || // Scale the mod size using the same ratio
getP(groupOptions, null, 'size') ||
this.fontOptions.size
;
modOptions.vadjust =
getP(options , mod, 'vadjust') ||
getP(groupOptions, mod, 'vadjust') ||
(ratio? modDefaults.vadjust * Math.round(ratio): null) || // Scale it using the same ratio
this.fontOptions.vadjust
;
}
modOptions.size = Number(modOptions.size);
modOptions.vadjust = Number(modOptions.vadjust);
}
}
/**
* Main function. This is called from anything that wants to draw a label.
* @param ctx
* @param x
* @param y
* @param selected
* @param baseline
*/
draw(ctx, x, y, selected, hover, baseline = 'middle') {
// if no label, return
if (this.elementOptions.label === undefined)
return;
// check if we have to render the label
let viewFontSize = this.fontOptions.size * this.body.view.scale;
if (this.elementOptions.label && viewFontSize < this.elementOptions.scaling.label.drawThreshold - 1)
return;
// update the size cache if required
this.calculateLabelSize(ctx, selected, hover, x, y, baseline);
// create the fontfill background
this._drawBackground(ctx);
// draw text
this._drawText(ctx, selected, hover, x, y, baseline);
}
/**
* Draws the label background
* @param {CanvasRenderingContext2D} ctx
* @private
*/
_drawBackground(ctx) {
if (this.fontOptions.background !== undefined && this.fontOptions.background !== "none") {
ctx.fillStyle = this.fontOptions.background;
let lineMargin = 2;
if (this.isEdgeLabel) {
switch (this.fontOptions.align) {
case 'middle':
ctx.fillRect(-this.size.width * 0.5, -this.size.height * 0.5, this.size.width, this.size.height);
break;
case 'top':
ctx.fillRect(-this.size.width * 0.5, -(this.size.height + lineMargin), this.size.width, this.size.height);
break;
case 'bottom':
ctx.fillRect(-this.size.width * 0.5, lineMargin, this.size.width, this.size.height);
break;
default:
ctx.fillRect(this.size.left, this.size.top - 0.5*lineMargin, this.size.width, this.size.height);
break;
}
} else {
ctx.fillRect(this.size.left, this.size.top - 0.5*lineMargin, this.size.width, this.size.height);
}
}
}
/**
*
* @param ctx
* @param x
* @param baseline
* @private
*/
_drawText(ctx, selected, hover, x, y, baseline = 'middle') {
let fontSize = this.fontOptions.size;
let viewFontSize = fontSize * this.body.view.scale;
// this ensures that there will not be HUGE letters on screen by setting an upper limit on the visible text size (regardless of zoomLevel)
if (viewFontSize >= this.elementOptions.scaling.label.maxVisible) {
fontSize = Number(this.elementOptions.scaling.label.maxVisible) / this.body.view.scale;
}
let yLine = this.size.yLine;
[x, yLine] = this._setAlignment(ctx, x, yLine, baseline);
ctx.textAlign = 'left'
x = x - this.size.width / 2; // Shift label 1/2-distance to the left
if ((this.fontOptions.valign) && (this.size.height > this.size.labelHeight)) {
if (this.fontOptions.valign === 'top') {
yLine -= (this.size.height - this.size.labelHeight) / 2;
}
if (this.fontOptions.valign === 'bottom') {
yLine += (this.size.height - this.size.labelHeight) / 2;
}
}
// draw the text
for (let i = 0; i < this.lineCount; i++) {
if (this.lines[i] && this.lines[i].blocks) {
let width = 0;
if (this.isEdgeLabel || this.fontOptions.align === 'center') {
width += (this.size.width - this.lines[i].width) / 2
} else if (this.fontOptions.align === 'right') {
width += (this.size.width - this.lines[i].width)
}
for (let j = 0; j < this.lines[i].blocks.length; j++) {
let block = this.lines[i].blocks[j];
ctx.font = block.font;
let [fontColor, strokeColor] = this._getColor(block.color, viewFontSize, block.strokeColor);
if (block.strokeWidth > 0) {
ctx.lineWidth = block.strokeWidth;
ctx.strokeStyle = strokeColor;
ctx.lineJoin = 'round';
}
ctx.fillStyle = fontColor;
if (block.strokeWidth > 0) {
ctx.strokeText(block.text, x + width, yLine + block.vadjust);
}
ctx.fillText(block.text, x + width, yLine + block.vadjust);
width += block.width;
}
yLine += this.lines[i].height;
}
}
}
_setAlignment(ctx, x, yLine, baseline) {
// check for label alignment (for edges)
// TODO: make alignment for nodes
if (this.isEdgeLabel && this.fontOptions.align !== 'horizontal' && this.pointToSelf === false) {
x = 0;
yLine = 0;
let lineMargin = 2;
if (this.fontOptions.align === 'top') {
ctx.textBaseline = 'alphabetic';
yLine -= 2 * lineMargin; // distance from edge, required because we use alphabetic. Alphabetic has less difference between browsers
}
else if (this.fontOptions.align === 'bottom') {
ctx.textBaseline = 'hanging';
yLine += 2 * lineMargin;// distance from edge, required because we use hanging. Hanging has less difference between browsers
}
else {
ctx.textBaseline = 'middle';
}
}
else {
ctx.textBaseline = baseline;
}
return [x,yLine];
}
/**
* fade in when relative scale is between threshold and threshold - 1.
* If the relative scale would be smaller than threshold -1 the draw function would have returned before coming here.
*
* @param viewFontSize
* @returns {*[]}
* @private
*/
_getColor(color, viewFontSize, initialStrokeColor) {
let fontColor = color || '#000000';
let strokeColor = initialStrokeColor || '#ffffff';
if (viewFontSize <= this.elementOptions.scaling.label.drawThreshold) {
let opacity = Math.max(0, Math.min(1, 1 - (this.elementOptions.scaling.label.drawThreshold - viewFontSize)));
fontColor = util.overrideOpacity(fontColor, opacity);
strokeColor = util.overrideOpacity(strokeColor, opacity);
}
return [fontColor, strokeColor];
}
/**
*
* @param ctx
* @param selected
* @returns {{width: number, height: number}}
*/
getTextSize(ctx, selected = false, hover = false) {
this._processLabel(ctx, selected, hover);
return {
width: this.size.width,
height: this.size.height,
lineCount: this.lineCount
};
}
/**
*
* @param ctx
* @param selected
* @param x
* @param y
* @param baseline
*/
calculateLabelSize(ctx, selected, hover, x = 0, y = 0, baseline = 'middle') {
if (this.labelDirty === true) {
this._processLabel(ctx, selected, hover);
}
this.size.left = x - this.size.width * 0.5;
this.size.top = y - this.size.height * 0.5;
this.size.yLine = y + (1 - this.lineCount) * 0.5 * this.fontOptions.size;
if (baseline === "hanging") {
this.size.top += 0.5 * this.fontOptions.size;
this.size.top += 4; // distance from node, required because we use hanging. Hanging has less difference between browsers
this.size.yLine += 4; // distance from node
}
this.labelDirty = false;
}
/**
* normalize the markup system
*/
decodeMarkupSystem(markupSystem) {
let system = 'none';
if (markupSystem === 'markdown' || markupSystem === 'md') {
system = 'markdown';
} else if (markupSystem === true || markupSystem === 'html') {
system = 'html'
}
return system;
}
/**
* Explodes a piece of text into single-font blocks using a given markup
* @param text
* @param markupSystem
* @returns [{ text, mod }]
*/
splitBlocks(text, markupSystem) {
let system = this.decodeMarkupSystem(markupSystem);
if (system === 'none') {
return [{
text: text,
mod: 'normal'
}]
} else if (system === 'markdown') {
return this.splitMarkdownBlocks(text);
} else if (system === 'html') {
return this.splitHtmlBlocks(text);
}
}
splitMarkdownBlocks(text) {
let blocks = [];
let s = {
bold: false,
ital: false,
mono: false,
beginable: true,
spacing: false,
position: 0,
buffer: "",
modStack: []
};
s.mod = function() {
return (this.modStack.length === 0) ? 'normal' : this.modStack[0];
}
s.modName = function() {
if (this.modStack.length === 0)
return 'normal';
else if (this.modStack[0] === 'mono')
return 'mono';
else {
if (s.bold && s.ital) {
return 'boldital';
} else if (s.bold) {
return 'bold';
} else if (s.ital) {
return 'ital';
}
}
}
s.emitBlock = function(override = false) {
if (this.spacing) {
this.add(" ");
this.spacing = false;
}
if (this.buffer.length > 0) {
blocks.push({ text: this.buffer, mod: this.modName() });
this.buffer = "";
}
}
s.add = function(text) {
if (text === " ") {
s.spacing = true;
}
if (s.spacing) {
this.buffer += " ";
this.spacing = false;
}
if (text != " ") {
this.buffer += text;
}
}
while (s.position < text.length) {
let ch = text.charAt(s.position);
if (/[ \t]/.test(ch)) {
if (!s.mono) {
s.spacing = true;
} else {
s.add(ch);
}
s.beginable = true
} else if (/\\/.test(ch)) {
if (s.position < text.length+1) {
s.position++;
ch = text.charAt(s.position);
if (/ \t/.test(ch)) {
s.spacing = true;
} else {
s.add(ch);
s.beginable = false;
}
}
} else if (!s.mono && !s.bold && (s.beginable || s.spacing) && /\*/.test(ch)) {
s.emitBlock();
s.bold = true;
s.modStack.unshift("bold");
} else if (!s.mono && !s.ital && (s.beginable || s.spacing) && /\_/.test(ch)) {
s.emitBlock();
s.ital = true;
s.modStack.unshift("ital");
} else if (!s.mono && (s.beginable || s.spacing) && /`/.test(ch)) {
s.emitBlock();
s.mono = true;
s.modStack.unshift("mono");
} else if (!s.mono && (s.mod() === "bold") && /\*/.test(ch)) {
if ((s.position === text.length-1) || /[.,_` \t\n]/.test(text.charAt(s.position+1))) {
s.emitBlock();
s.bold = false;
s.modStack.shift();
} else {
s.add(ch);
}
} else if (!s.mono && (s.mod() === "ital") && /\_/.test(ch)) {
if ((s.position === text.length-1) || /[.,*` \t\n]/.test(text.charAt(s.position+1))) {
s.emitBlock();
s.ital = false;
s.modStack.shift();
} else {
s.add(ch);
}
} else if (s.mono && (s.mod() === "mono") && /`/.test(ch)) {
if ((s.position === text.length-1) || (/[.,*_ \t\n]/.test(text.charAt(s.position+1)))) {
s.emitBlock();
s.mono = false;
s.modStack.shift();
} else {
s.add(ch);
}
} else {
s.add(ch);
s.beginable = false;
}
s.position++
}
s.emitBlock();
return blocks;
}
splitHtmlBlocks(text) {
let blocks = [];
let s = {
bold: false,
ital: false,
mono: false,
spacing: false,
position: 0,
buffer: "",
modStack: []
};
s.mod = function() {
return (this.modStack.length === 0) ? 'normal' : this.modStack[0];
}
s.modName = function() {
if (this.modStack.length === 0)
return 'normal';
else if (this.modStack[0] === 'mono')
return 'mono';
else {
if (s.bold && s.ital) {
return 'boldital';
} else if (s.bold) {
return 'bold';
} else if (s.ital) {
return 'ital';
}
}
}
s.emitBlock = function(override = false) {
if (this.spacing) {
this.add(" ");
this.spacing = false;
}
if (this.buffer.length > 0) {
blocks.push({ text: this.buffer, mod: this.modName() });
this.buffer = "";
}
}
s.add = function(text) {
if (text === " ") {
s.spacing = true;
}
if (s.spacing) {
this.buffer += " ";
this.spacing = false;
}
if (text != " ") {
this.buffer += text;
}
}
while (s.position < text.length) {
let ch = text.charAt(s.position);
if (/[ \t]/.test(ch)) {
if (!s.mono) {
s.spacing = true;
} else {
s.add(ch);
}
} else if (/</.test(ch)) {
if (!s.mono && !s.bold && /<b>/.test(text.substr(s.position,3))) {
s.emitBlock();
s.bold = true;
s.modStack.unshift("bold");
s.position += 2;
} else if (!s.mono && !s.ital && /<i>/.test(text.substr(s.position,3))) {
s.emitBlock();
s.ital = true;
s.modStack.unshift("ital");
s.position += 2;
} else if (!s.mono && /<code>/.test(text.substr(s.position,6))) {
s.emitBlock();
s.mono = true;
s.modStack.unshift("mono");
s.position += 5;
} else if (!s.mono && (s.mod() === 'bold') && /<\/b>/.test(text.substr(s.position,4))) {
s.emitBlock();
s.bold = false;
s.modStack.shift();
s.position += 3;
} else if (!s.mono && (s.mod() === 'ital') && /<\/i>/.test(text.substr(s.position,4))) {
s.emitBlock();
s.ital = false;
s.modStack.shift();
s.position += 3;
} else if ((s.mod() === 'mono') && /<\/code>/.test(text.substr(s.position,7))) {
s.emitBlock();
s.mono = false;
s.modStack.shift();
s.position += 6;
} else {
s.add(ch);
}
} else if (/&/.test(ch)) {
if (/&lt;/.test(text.substr(s.position,4))) {
s.add("<");
s.position += 3;
} else if (/&amp;/.test(text.substr(s.position,5))) {
s.add("&");
s.position += 4;
} else {
s.add("&");
}
} else {
s.add(ch);
}
s.position++
}
s.emitBlock();
return blocks;
}
getFormattingValues(ctx, selected, hover, mod) {
var getValue = function(fontOptions, mod, option) {
if (mod === "normal") {
if (option === 'mod' ) return "";
return fontOptions[option];
}
if (fontOptions[mod][option]) {
return fontOptions[mod][option];
} else {
// Take from parent font option
return fontOptions[option];
}
};
let values = {
color : getValue(this.fontOptions, mod, 'color' ),
size : getValue(this.fontOptions, mod, 'size' ),
face : getValue(this.fontOptions, mod, 'face' ),
mod : getValue(this.fontOptions, mod, 'mod' ),
vadjust: getValue(this.fontOptions, mod, 'vadjust'),
strokeWidth: this.fontOptions.strokeWidth,
strokeColor: this.fontOptions.strokeColor
};
if (selected || hover) {
if (mod === "normal" && (this.fontOptions.chooser === true) && (this.elementOptions.labelHighlightBold)) {
values.mod = 'bold';
} else {
if (typeof this.fontOptions.chooser === 'function') {
this.fontOptions.chooser(values, this.elementOptions.id, selected, hover);
}
}
}
ctx.font = (values.mod + " " + values.size + "px " + values.face).replace(/"/g, "");
values.font = ctx.font;
values.height = values.size;
return values;
}
differentState(selected, hover) {
return ((selected !== this.fontOptions.selectedState) && (hover !== this.fontOptions.hoverState));
}
/**
* This explodes the passed text into lines and determines the width, height and number of lines.
*
* @param ctx
* @param selected
* @param hover
* @param {String} text the text to explode
* @private
*/
_processLabelText(ctx, selected, hover, text) {
let self = this;
/**
* Callback to determine text width; passed to LabelAccumulator instance
*
* @param {String} text string to determine width of
* @param {String} mod font type to use for this text
* @return {Object} { width, values} width in pixels and font attributes
*/
let textWidth = function(text, mod) {
if (text === undefined) return 0;
// TODO: This can be done more efficiently with caching
let values = self.getFormattingValues(ctx, selected, hover, mod);
let width = 0;
if (text !== '') {
// NOTE: The following may actually be *incorrect* for the mod fonts!
// This returns the size with a regular font, bold etc. may
// have different sizes.
let measure = ctx.measureText(text);
width = measure.width;
}
return {width, values: values};
};
let lines = new LabelAccumulator(textWidth);
if (text === undefined || text === "") {
return lines.finalize();
}
let overMaxWidth = function(text) {
let width = ctx.measureText(text).width;
return (lines.curWidth() + width > self.fontOptions.maxWdt);
}
/**
* Determine the longest part of the sentence which still fits in the
* current max width.
*
* @param {Array} words Array of strings signifying a text lines
* @return index of first item in string making string go over max
*/
let getLongestFit = function(words) {
let text = '';
let w = 0;
while (w < words.length) {
let pre = (text === '') ? '' : ' ';
let newText = text + pre + words[w];
if (overMaxWidth(newText)) break;
text = newText;
w++;
}
return w;
}
/**
* Determine the longest part of th string which still fits in the
* current max width.
*
* @param {Array} words Array of strings signifying a text lines
* @return index of first item in string making string go over max
*/
let getLongestFitWord = function(word) {
let w = 0;
while (w < word.length) {
if (overMaxWidth(word.slice(0,w))) break;
w++;
}
return w;
}
let splitStringIntoLines = function(str, mod = 'normal', appendLast = false) {
let words = str.split(" ");
while (words.length > 0) {
let w = getLongestFit(words);
if (w === 0) {
// Special case: the first word may already
// be larger than the max width.
let word = words[0];
// Break the word to the largest part that fits the line
let x = getLongestFitWord(word);
lines.newLine(word.slice(0, x), mod);
// Adjust the word, so that the rest will be done next iteration
words[0] = word.slice(x);
} else {
let text = words.slice(0, w).join(" ");
if (w == words.length && appendLast) {
lines.append(text, mod);
} else {
lines.newLine(text, mod);
}
words = words.slice(w);
}
}
}
let nlLines = String(text).split('\n');
let lineCount = nlLines.length;
if (this.elementOptions.font.multi) {
// Multi-font case: styling tags active
for (let i = 0; i < lineCount; i++) {
let blocks = this.splitBlocks(nlLines[i], this.elementOptions.font.multi);
if (blocks === undefined) continue;
if (blocks.length === 0) {
lines.newLine("");
continue;
}
if (this.fontOptions.maxWdt > 0) {
// widthConstraint.maximum defined
//console.log('Running widthConstraint multi, max: ' + this.fontOptions.maxWdt);
for (let j = 0; j < blocks.length; j++) {
let mod = blocks[j].mod;
let text = blocks[j].text;
splitStringIntoLines(text, mod, true);
}
} else {
// widthConstraint.maximum NOT defined
for (let j = 0; j < blocks.length; j++) {
let mod = blocks[j].mod;
let text = blocks[j].text;
lines.append(text, mod);
}
}
lines.newLine();
}
} else {
// Single-font case
if (this.fontOptions.maxWdt > 0) {
// widthConstraint.maximum defined
// console.log('Running widthConstraint normal, max: ' + this.fontOptions.maxWdt);
for (let i = 0; i < lineCount; i++) {
splitStringIntoLines(nlLines[i]);
}
} else {
// widthConstraint.maximum NOT defined
for (let i = 0; i < lineCount; i++) {
lines.newLine(nlLines[i]);
}
}
}
return lines.finalize();
}
/**
* This explodes the label string into lines and sets the width, height and number of lines.
* @param ctx
* @param selected
* @param hover
* @private
*/
_processLabel(ctx, selected, hover) {
let state = this._processLabelText(ctx, selected, hover, this.elementOptions.label);
if ((this.fontOptions.minWdt > 0) && (state.width < this.fontOptions.minWdt)) {
state.width = this.fontOptions.minWdt;
}
this.size.labelHeight =state.height;
if ((this.fontOptions.minHgt > 0) && (state.height < this.fontOptions.minHgt)) {
state.height = this.fontOptions.minHgt;
}
this.lines = state.lines;
this.lineCount = state.lines.length;
this.size.width = state.width;
this.size.height = state.height;
this.selectedState = selected;
this.hoverState = hover;
}
}
export default Label;