/* jshint maxcomplexity: false */
'use strict';
const svgjs = require('svg.js');
const shared = require('./shared.js')();
// Functions for turning ESRI Renderers into images
// Specifically, converting ESRI "Simple" symbols into images,
// and deriving the appropriate image for a feature based on
// a renderer
// layer symbology types
const SIMPLE = 'simple';
const UNIQUE_VALUE = 'uniqueValue';
const CLASS_BREAKS = 'classBreaks';
const CONTAINER_SIZE = 32; // size of the symbology item container
const CONTENT_SIZE = 24; // size of the symbology graphic
const CONTENT_IMAGE_SIZE = 28; // size of the symbology graphic if it's an image (images tend to already have a white boarder around them)
const CONTAINER_CENTER = CONTAINER_SIZE / 2;
const CONTENT_PADDING = (CONTAINER_SIZE - CONTENT_SIZE) / 2;
/**
* Will add extra properties to a renderer to support images.
* New properties .svgcode and .defaultsvgcode contains image source
* for app on each renderer item.
*
* @param {Object} renderer an ESRI renderer object in server JSON form. Param is modified in place
* @param {Object} legend object for the layer that maps legend label to data url of legend image
* @return {Promise} resolving when the renderer has been enhanced
*/
function enhanceRenderer(renderer, legend) {
// TODO note somewhere (user docs) that everything fails if someone publishes a legend with two identical labels
// quick lookup object of legend names to data URLs.
// our legend object is in ESRI format, but was generated by us and only has info for a single layer.
// so we just grab item 0, which is the only item.
const legendLookup = {};
// store svgcode in the lookup
const legendItemPromises = legend.layers[0].legend.map(legItem =>
legItem.then(data =>
legendLookup[data.label] = data.svgcode
));
// wait until all legend items are resolved and legend lookup is updated
return Promise.all(legendItemPromises).then(() => {
switch (renderer.type) {
case SIMPLE:
renderer.svgcode = legendLookup[renderer.label];
break;
case UNIQUE_VALUE:
if (renderer.defaultLabel) {
renderer.defaultsvgcode = legendLookup[renderer.defaultLabel];
}
renderer.uniqueValueInfos.forEach(uvi => {
uvi.svgcode = legendLookup[uvi.label];
});
break;
case CLASS_BREAKS:
if (renderer.defaultLabel) {
renderer.defaultsvgcode = legendLookup[renderer.defaultLabel];
}
renderer.classBreakInfos.forEach(cbi => {
cbi.svgcode = legendLookup[cbi.label];
});
break;
default:
// Renderer we dont support
console.warn('encountered unsupported renderer type: ' + renderer.type);
}
});
}
/**
* Given feature attributes, find the renderer node that would draw it
*
* @method searchRenderer
* @param {Object} attributes object of feature attribute key value pairs
* @param {Object} renderer an enhanced renderer (see function enhanceRenderer)
* @return {Object} an Object with svgcode and symbol properties for the matched renderer item
*/
function searchRenderer(attributes, renderer) {
let svgcode;
let symbol = {};
switch (renderer.type) {
case SIMPLE:
svgcode = renderer.svgcode;
symbol = renderer.symbol;
break;
case UNIQUE_VALUE:
// make a key value for the graphic in question, using comma-space delimiter if multiple fields
// put an empty string when key value is null
let graphicKey = attributes[renderer.field1] === null ? '' : attributes[renderer.field1];
// all key values are stored as strings. if the attribute is in a numeric column, we must convert it to a string to ensure the === operator still works.
if (typeof graphicKey !== 'string') {
graphicKey = graphicKey.toString();
}
if (renderer.field2) {
graphicKey = graphicKey + ', ' + attributes[renderer.field2];
if (renderer.field3) {
graphicKey = graphicKey + ', ' + attributes[renderer.field3];
}
}
// search the value maps for a matching entry. if no match found, use the default image
const uvi = renderer.uniqueValueInfos.find(uvi => uvi.value === graphicKey);
if (uvi) {
svgcode = uvi.svgcode;
symbol = uvi.symbol;
} else {
svgcode = renderer.defaultsvgcode;
symbol = renderer.defaultSymbol;
}
break;
case CLASS_BREAKS:
const gVal = parseFloat(attributes[renderer.field]);
const lower = renderer.minValue;
svgcode = renderer.defaultsvgcode;
symbol = renderer.defaultSymbol;
// check for outside range on the low end
if (gVal < lower) { break; }
// array of minimum values of the ranges in the renderer
let minSplits = renderer.classBreakInfos.map(cbi => cbi.classMaxValue);
minSplits.splice(0, 0, lower - 1); // put lower-1 at the start of the array and shift all other entries by 1
// attempt to find the range our gVal belongs in
const cbi = renderer.classBreakInfos.find((cbi, index) => gVal > minSplits[index] &&
gVal <= cbi.classMaxValue);
if (!cbi) { // outside of range on the high end
break;
}
svgcode = cbi.svgcode;
symbol = cbi.symbol;
break;
default:
// TODO set svgcode to blank image?
console.warn(`Unknown renderer type encountered - ${renderer.type}`);
}
// make an empty svg graphic in case nothing is found to avoid undefined inside the filters
if (typeof svgcode === 'undefined') {
svgcode = svgjs(window.document.createElement('div')).size(CONTAINER_SIZE, CONTAINER_SIZE).svg();
}
return { svgcode, symbol };
}
/**
* Given feature attributes, return the image URL for that feature/graphic object.
*
* @method getGraphicIcon
* @param {Object} attributes object of feature attribute key value pairs
* @param {Object} renderer an enhanced renderer (see function enhanceRenderer)
* @return {String} svgcode Url to the features symbology image
*/
function getGraphicIcon(attributes, renderer) {
const renderInfo = searchRenderer(attributes, renderer);
return renderInfo.svgcode;
}
/**
* Given feature attributes, return the symbol for that feature/graphic object.
*
* @method getGraphicSymbol
* @param {Object} attributes object of feature attribute key value pairs
* @param {Object} renderer an enhanced renderer (see function enhanceRenderer)
* @return {Object} an ESRI Symbol object in server format
*/
function getGraphicSymbol(attributes, renderer) {
const renderInfo = searchRenderer(attributes, renderer);
return renderInfo.symbol;
}
/**
* Generates svg symbology for WMS layers.
* @function generateWMSSymbology
* @param {String} name label for the symbology item (it's not used right now, but is required to be consistent with other symbology generating functions)
* @param {String} imageUri url or dataUrl of the legend image
* @return {Promise} a promise resolving with symbology svg code and its label
*/
function generateWMSSymbology(name, imageUri) {
const draw = svgjs(window.document.createElement('div'))
.size(CONTAINER_SIZE, CONTAINER_SIZE)
.viewbox(0, 0, 0, 0);
const symbologyItem = {
name,
svgcode: null
};
if (imageUri) {
const renderPromise = renderSymbologyImage(imageUri).then(svgcode => {
symbologyItem.svgcode = svgcode;
return symbologyItem;
});
return renderPromise;
} else {
symbologyItem.svgcode = draw.svg();
return Promise.resolve(symbologyItem);
}
}
/**
* Converts a config-supplied list of symbology to the format used by layer records.
*
* @private
* @function _listToSymbology
* @param {Function} conversionFunction a conversion function to wrap the supplied image into an image or an icon style symbology container
* @param {Array} list a list of config-supplied symbology items in the form of [ { text: <String>, image: <String> }, ... ] wher `image` can be dataURL or an actual url
* @return {Array} an array of converted symbology symbols in the form of [ { name: <String>, svgcode: <String> }, ... ]; items will be populated async as conversions are done
*/
function _listToSymbology(conversionFunction, list) {
const results = list.map(({ text, image }) => {
const result = {
name: text,
svgcode: null
};
conversionFunction(image).then(svgcode => {
result.svgcode = svgcode;
});
return result;
});
return results;
}
/**
* Renders a supplied image as an image-style symbology item (preserving the true image dimensions).
*
* @function renderSymbologyImage
* @param {String} imageUri a image dataUrl or a regular url
* @param {Object} draw [optional=null] an svg container to draw the image on; if not supplied, a new one is created
*/
function renderSymbologyImage(imageUri, draw = null) {
if (draw === null) {
draw = svgjs(window.document.createElement('div'))
.size(CONTAINER_SIZE, CONTAINER_SIZE)
.viewbox(0, 0, 0, 0);
}
const symbologyPromise = shared.convertImagetoDataURL(imageUri)
.then(imageUri =>
svgDrawImage(draw, imageUri))
.then(({ loader }) => {
draw.viewbox(0, 0, loader.width, loader.height);
return draw.svg();
})
.catch(err => {
console.error('Cannot draw symbology iamge; returning empty', err);
return draw.svg();
});
return symbologyPromise;
}
/**
* Renders a supplied image as an icon-style symbology item (fitting an image inside an icon container, usually 32x32 pixels).
*
* @function renderSymbologyIcon
* @param {String} imageUri a image dataUrl or a regular url
* @param {Object} draw [optional=null] an svg container to draw the image on; if not supplied, a new one is created
*/
function renderSymbologyIcon(imageUri, draw = null) {
if (draw === null) {
// create a temporary svg element and add it to the page; if not added, the element's bounding box cannot be calculated correctly
const container = window.document.createElement('div');
container.setAttribute('style', 'opacity:0;position:fixed;left:100%;top:100%;overflow:hidden');
window.document.body.appendChild(container);
draw = svgjs(container)
.size(CONTAINER_SIZE, CONTAINER_SIZE)
.viewbox(0, 0, CONTAINER_SIZE, CONTAINER_SIZE);
}
// need to draw the image to get its size (technically not needed if we have a url, but this is simpler)
const picturePromise = shared.convertImagetoDataURL(imageUri)
.then(imageUri =>
svgDrawImage(draw, imageUri))
.then(({ image }) => {
image.center(CONTAINER_CENTER, CONTAINER_CENTER);
// scale image to fit into the symbology item container
fitInto(image, CONTENT_IMAGE_SIZE);
return draw.svg();
});
return picturePromise;
}
/**
* Generates a placeholder symbology graphic. Returns a promise for consistency
* @function generatePlaceholderSymbology
* @private
* @param {String} name label symbology label
* @param {String} colour colour to use in the graphic
* @return {Object} symbology svg code and its label
*/
function generatePlaceholderSymbology(name, colour = '#000') {
const draw = svgjs(window.document.createElement('div'))
.size(CONTAINER_SIZE, CONTAINER_SIZE)
.viewbox(0, 0, CONTAINER_SIZE, CONTAINER_SIZE);
draw.rect(CONTENT_IMAGE_SIZE, CONTENT_IMAGE_SIZE)
.center(CONTAINER_CENTER, CONTAINER_CENTER)
.fill(colour);
draw
.text(name[0].toUpperCase()) // take the first letter
.size(23)
.fill('#fff')
.attr({
'font-weight': 'bold',
'font-family': 'Roboto'
})
.center(CONTAINER_CENTER, CONTAINER_CENTER);
return {
name,
svgcode: draw.svg()
};
}
/**
* Generate a legend item for an ESRI symbol.
* @private
* @param {Object} symbol an ESRI symbol object in server format
* @param {String} label label of the legend item
* @param {Object} window reference to the browser window
* @return {Object} a legend object populated with the symbol and label
*/
function symbolToLegend(symbol, label, window) {
// create a temporary svg element and add it to the page; if not added, the element's bounding box cannot be calculated correctly
const container = window.document.createElement('div');
container.setAttribute('style', 'opacity:0;position:fixed;left:100%;top:100%;overflow:hidden');
window.document.body.appendChild(container);
const draw = svgjs(container)
.size(CONTAINER_SIZE, CONTAINER_SIZE)
.viewbox(0, 0, CONTAINER_SIZE, CONTAINER_SIZE);
// functions to draw esri simple marker symbols
// jscs doesn't like enhanced object notation
// jscs:disable requireSpacesInAnonymousFunctionExpression
const esriSimpleMarkerSimbol = {
esriSMSPath({ size, path }) {
return draw.path(path).size(size);
},
esriSMSCircle({ size }) {
return draw.circle(size);
},
esriSMSCross({ size }) {
return draw.path('M 0,10 L 20,10 M 10,0 L 10,20').size(size);
},
esriSMSX({ size }) {
return draw.path('M 0,0 L 20,20 M 20,0 L 0,20').size(size);
},
esriSMSTriangle({ size }) {
return draw.path('M 20,20 L 10,0 0,20 Z').size(size);
},
esriSMSDiamond({ size }) {
return draw.path('M 20,10 L 10,0 0,10 10,20 Z').size(size);
},
esriSMSSquare({ size }) {
return draw.path('M 0,0 20,0 20,20 0,20 Z').size(size);
}
};
// jscs:enable requireSpacesInAnonymousFunctionExpression
// line dash styles
const ESRI_DASH_MAPS = {
esriSLSSolid: 'none',
esriSLSDash: '5.333,4',
esriSLSDashDot: '5.333,4,1.333,4',
esriSLSLongDashDotDot: '10.666,4,1.333,4,1.333,4',
esriSLSDot: '1.333,4',
esriSLSLongDash: '10.666,4',
esriSLSLongDashDot: '10.666,4,1.333,4',
esriSLSShortDash: '5.333,1.333',
esriSLSShortDashDot: '5.333,1.333,1.333,1.333',
esriSLSShortDashDotDot: '5.333,1.333,1.333,1.333,1.333,1.333',
esriSLSShortDot: '1.333,1.333',
esriSLSNull: 'none'
};
// default stroke style
const DEFAULT_STROKE = {
color: '#000',
opacity: 1,
width: 1,
linecap: 'square',
linejoin: 'miter',
miterlimit: 4
};
// this is a null outline in case a supplied symbol doesn't have one
const DEFAULT_OUTLINE = {
color: [0, 0, 0, 0],
width: 0,
style: ESRI_DASH_MAPS.esriSLSNull
};
// 5x5 px patter with coloured diagonal lines
const esriSFSFills = {
esriSFSSolid: symbolColour => {
return {
color: symbolColour.colour,
opacity: symbolColour.opacity
};
},
esriSFSNull: () => 'transparent',
esriSFSHorizontal: (symbolColour, symbolStroke) => {
const cellSize = 5;
// patter fill: horizonal line in a 5x5 px square
return draw.pattern(cellSize, cellSize, add =>
add.line(0, cellSize / 2, cellSize, cellSize / 2)).stroke(symbolStroke);
},
esriSFSVertical: (symbolColour, symbolStroke) => {
const cellSize = 5;
// patter fill: vertical line in a 5x5 px square
return draw.pattern(cellSize, cellSize, add =>
add.line(cellSize / 2, 0, cellSize / 2, cellSize)).stroke(symbolStroke);
},
esriSFSForwardDiagonal: (symbolColour, symbolStroke) => {
const cellSize = 5;
// patter fill: forward diagonal line in a 5x5 px square; two more diagonal lines offset to cover the corners when the main line is cut off
return draw.pattern(cellSize, cellSize, add => {
add.line(0, 0, cellSize, cellSize).stroke(symbolStroke);
add.line(0, 0, cellSize, cellSize).move(0, cellSize).stroke(symbolStroke);
add.line(0, 0, cellSize, cellSize).move(cellSize, 0).stroke(symbolStroke);
});
},
esriSFSBackwardDiagonal: (symbolColour, symbolStroke) => {
const cellSize = 5;
// patter fill: backward diagonal line in a 5x5 px square; two more diagonal lines offset to cover the corners when the main line is cut off
return draw.pattern(cellSize, cellSize, add => {
add.line(cellSize, 0, 0, cellSize).stroke(symbolStroke);
add.line(cellSize, 0, 0, cellSize).move(cellSize / 2, cellSize / 2).stroke(symbolStroke);
add.line(cellSize, 0, 0, cellSize).move(-cellSize / 2, -cellSize / 2).stroke(symbolStroke);
});
},
esriSFSCross: (symbolColour, symbolStroke) => {
const cellSize = 5;
// patter fill: horizonal and vertical lines in a 5x5 px square
return draw.pattern(cellSize, cellSize, add => {
add.line(cellSize / 2, 0, cellSize / 2, cellSize).stroke(symbolStroke);
add.line(0, cellSize / 2, cellSize, cellSize / 2).stroke(symbolStroke);
});
},
esriSFSDiagonalCross: (symbolColour, symbolStroke) => {
const cellSize = 7;
// patter fill: crossing diagonal lines in a 7x7 px square
return draw.pattern(cellSize, cellSize, add => {
add.line(0, 0, cellSize, cellSize).stroke(symbolStroke);
add.line(cellSize, 0, 0, cellSize).stroke(symbolStroke);
});
}
};
// jscs doesn't like enhanced object notation
// jscs:disable requireSpacesInAnonymousFunctionExpression
const symbolTypes = {
esriSMS() { // ESRI Simple Marker Symbol
const symbolColour = parseEsriColour(symbol.color);
symbol.outline = symbol.outline || DEFAULT_OUTLINE;
const outlineColour = parseEsriColour(symbol.outline.color);
const outlineStroke = makeStroke({
color: outlineColour.colour,
opacity: outlineColour.opacity,
width: symbol.outline.width,
dasharray: ESRI_DASH_MAPS[symbol.outline.style]
});
// make an ESRI simple symbol and apply fill and outline to it
const marker = esriSimpleMarkerSimbol[symbol.style](symbol)
.fill({
color: symbolColour.colour,
opacity: symbolColour.opacity
})
.stroke(outlineStroke)
.center(CONTAINER_CENTER, CONTAINER_CENTER)
.rotate(symbol.angle || 0);
fitInto(marker, CONTENT_SIZE);
},
esriSLS() { // ESRI Simple Line Symbol
const lineColour = parseEsriColour(symbol.color);
const lineStroke = makeStroke({
color: lineColour.colour,
opacity: lineColour.opacity,
width: symbol.width,
linecap: 'butt',
dasharray: ESRI_DASH_MAPS[symbol.style]
});
const min = CONTENT_PADDING;
const max = CONTAINER_SIZE - CONTENT_PADDING;
draw.line(min, min, max, max)
.stroke(lineStroke);
},
esriCLS() { // ESRI Fancy Line Symbol
this.esriSLS();
},
esriSFS() { // ESRI Simple Fill Symbol
const symbolColour = parseEsriColour(symbol.color);
const symbolStroke = makeStroke({
color: symbolColour.colour,
opacity: symbolColour.opacity
});
const symbolFill = esriSFSFills[symbol.style](symbolColour, symbolStroke);
symbol.outline = symbol.outline || DEFAULT_OUTLINE;
const outlineColour = parseEsriColour(symbol.outline.color);
const outlineStroke = makeStroke({
color: outlineColour.colour,
opacity: outlineColour.opacity,
width: symbol.outline.width,
linecap: 'butt',
dasharray: ESRI_DASH_MAPS[symbol.outline.style]
});
draw.rect(CONTENT_SIZE, CONTENT_SIZE)
.center(CONTAINER_CENTER, CONTAINER_CENTER)
.fill(symbolFill)
.stroke(outlineStroke);
},
esriTS() {
console.error('no support for feature service legend of text symbols');
},
esriPFS() { // ESRI Picture Fill Symbol
// imageUri can be just an image url is specified or a dataUri string
const imageUri = symbol.imageData ? `data:${symbol.contentType};base64,${symbol.imageData}` : symbol.url;
const imageWidth = symbol.width * symbol.xscale;
const imageHeight = symbol.height * symbol.yscale;
symbol.outline = symbol.outline || DEFAULT_OUTLINE;
const outlineColour = parseEsriColour(symbol.outline.color);
const outlineStroke = makeStroke({
color: outlineColour.colour,
opacity: outlineColour.opacity,
width: symbol.outline.width,
dasharray: ESRI_DASH_MAPS[symbol.outline.style]
});
const picturePromise = shared.convertImagetoDataURL(imageUri)
.then(imageUri => {
// make a fill from a tiled image
const symbolFill = draw.pattern(imageWidth, imageHeight, add =>
add.image(imageUri, imageWidth, imageHeight, true));
draw.rect(CONTENT_SIZE, CONTENT_SIZE)
.center(CONTAINER_CENTER, CONTAINER_CENTER)
.fill(symbolFill)
.stroke(outlineStroke);
});
return picturePromise;
},
esriPMS() { // ESRI PMS? Picture Marker Symbol
// imageUri can be just an image url is specified or a dataUri string
const imageUri = symbol.imageData ? `data:${symbol.contentType};base64,${symbol.imageData}` : symbol.url;
// need to draw the image to get its size (technically not needed if we have a url, but this is simpler)
const picturePromise = shared.convertImagetoDataURL(imageUri)
.then(imageUri =>
svgDrawImage(draw, imageUri))
.then(({ image }) => {
image
.center(CONTAINER_CENTER, CONTAINER_CENTER)
.rotate(symbol.angle || 0);
// scale image to fit into the symbology item container
fitInto(image, CONTENT_IMAGE_SIZE);
});
return picturePromise;
}
};
// jscs:enable requireSpacesInAnonymousFunctionExpression
// console.log(symbol.type, label, '--START--');
// console.log(symbol);
return Promise.resolve(symbolTypes[symbol.type]())
.then(() => {
// console.log(symbol.type, label, '--DONE--');
// remove element from the page
window.document.body.removeChild(container);
return { label, svgcode: draw.svg() };
}).catch(error => console.log(error));
/**
* Creates a stroke style by applying custom rules to the default stroke.
* @param {Object} overrides any custom rules to apply on top of the defaults
* @return {Object} a stroke object
* @private
*/
function makeStroke(overrides) {
return Object.assign({}, DEFAULT_STROKE, overrides);
}
/**
* Convert an ESRI colour object to SVG rgb format.
* @private
* @param {Array} c ESRI Colour array
* @return {Object} colour and opacity in SVG format
*/
function parseEsriColour(c) {
if (c) {
return {
colour: `rgb(${c[0]},${c[1]},${c[2]})`,
opacity: c[3] / 255
};
} else {
return {
colour: 'rgb(0, 0, 0)',
opacity: 0
};
}
}
}
/**
* Renders a specified image on an svg element. This is a helper function that wraps around async `draw.image` call in the svg library.
*
* @function svgDrawImage
* @private
* @param {Object} draw svg element to render the image onto
* @param {String} imageUri image url or dataURL of the image to render
* @param {Number} width [optional = 0] width of the image
* @param {Number} height [optional = 0] height of the image
* @param {Boolean} crossOrigin [optional = true] specifies if the image should be loaded as crossOrigin
* @return {Promise} promise resolving with the loaded image and its loader object (see svg.js http://documentup.com/wout/svg.js#image for details)
*/
function svgDrawImage(draw, imageUri, width = 0, height = 0, crossOrigin = true) {
const promise = new Promise((resolve, reject) => {
const image = draw.image(imageUri, width, height, crossOrigin)
.loaded(loader =>
resolve({ image, loader }))
.error(err => {
reject(err);
console.error(err);
});
});
return promise;
}
/**
* Fits svg element in the size specified
* @param {Ojbect} element svg element to fit
* @param {Number} CONTAINER_SIZE width/height of a container to fit the element into
*/
function fitInto(element, CONTAINER_SIZE) {
// const elementRbox = element.rbox();
// const elementRbox = element.screenBBox();
const elementRbox = element.node.getBoundingClientRect(); // marker.rbox(); //rbox doesn't work properly in Chrome for some reason
const scale = CONTAINER_SIZE / Math.max(elementRbox.width, elementRbox.height);
if (scale < 1) {
element.scale(scale);
}
}
/**
* Generate an array of legend items for an ESRI unique value or class breaks renderer.
* @private
* @param {Object} renderer an ESRI unique value or class breaks renderer
* @param {Array} childList array of children items of the renderer
* @param {Object} window reference to the browser window
* @return {Array} a legend object populated with the symbol and label
*/
function scrapeListRenderer(renderer, childList, window) {
const legend = childList.map(child => {
return symbolToLegend(child.symbol, child.label, window);
});
if (renderer.defaultSymbol) {
// class breaks dont have default label
// TODO perhaps put in a default of "Other", would need to be in proper language
legend.push(symbolToLegend(renderer.defaultSymbol, renderer.defaultLabel || '', window));
}
return legend;
}
function buildRendererToLegend(window) {
/**
* Generate a legend object based on an ESRI renderer.
* @private
* @param {Object} renderer an ESRI renderer object in server JSON form
* @param {Integer} index the layer index of this renderer
* @return {Object} an object matching the form of an ESRI REST API legend
*/
return (renderer, index) => {
// make basic shell object with .layers array
const legend = {
layers: [{
layerId: index,
legend: []
}]
};
switch (renderer.type) {
case SIMPLE:
legend.layers[0].legend.push(symbolToLegend(renderer.symbol, renderer.label, window));
break;
case UNIQUE_VALUE:
legend.layers[0].legend = scrapeListRenderer(renderer, renderer.uniqueValueInfos, window);
break;
case CLASS_BREAKS:
legend.layers[0].legend = scrapeListRenderer(renderer, renderer.classBreakInfos, window);
break;
default:
// FIXME make a basic blank entry (error msg as label?) to prevent things from breaking
// Renderer we dont support
console.error('encountered unsupported renderer legend type: ' + renderer.type);
}
return legend;
};
}
/**
* Returns the legend information of an ESRI map service.
*
* @function getMapServerLegend
* @private
* @param {String} layerUrl service url (root service, not indexed endpoint)
* @param {Object} esriBundle collection of ESRI API objects
* @returns {Promise} resolves in an array of legend data
*
*/
function getMapServerLegend(layerUrl, esriBundle) {
// standard json request with error checking
const defService = esriBundle.esriRequest({
url: `${layerUrl}/legend`,
content: { f: 'json' },
callbackParamName: 'callback',
handleAs: 'json',
});
// wrap in promise to contain dojo deferred
return new Promise((resolve, reject) => {
defService.then(srvResult => {
if (srvResult.error) {
reject(srvResult.error);
} else {
resolve(srvResult);
}
}, error => {
reject(error);
});
});
}
/**
* Our symbology engine works off of renderers. When dealing with layers with no renderers,
* we need to take server-side legend and convert it to a fake renderer, which lets us
* leverage all the existing symbology code.
*
* @function mapServerLegendToRenderer
* @private
* @param {Object} serverLegend legend json from an esri map server
* @param {Integer} layerIndex the index of the layer in the legend we are interested in
* @returns {Object} a fake unique value renderer based off the legend
*
*/
function mapServerLegendToRenderer(serverLegend, layerIndex) {
const layerLegend = serverLegend.layers.find(l => {
return l.layerId === layerIndex;
});
// make the mock renderer
return {
type: 'uniqueValue',
uniqueValueInfos: layerLegend.legend.map(ll => {
return {
label: ll.label,
symbol: {
type: 'esriPMS',
imageData: ll.imageData,
contentType: ll.contentType
}
};
})
};
}
/**
* Our symbology engine works off of renderers. When dealing with layers with no renderers,
* we need to take server-side legend and convert it to a fake renderer, which lets us
* leverage all the existing symbology code.
*
* Same as mapServerLegendToRenderer function but combines all layer renderers.
*
* @function mapServerLegendToRendererAll
* @private
* @param {Object} serverLegend legend json from an esri map server
* @returns {Object} a fake unique value renderer based off the legend
*/
function mapServerLegendToRendererAll(serverLegend) {
const layerRenders = serverLegend.layers.map(layer =>
layer.legend.map(layerLegend => ({
label: layerLegend.label,
symbol: {
type: 'esriPMS',
imageData: layerLegend.imageData,
contentType: layerLegend.contentType
}
}))
);
return {
type: 'uniqueValue',
uniqueValueInfos: [].concat(...layerRenders)
};
}
function buildMapServerToLocalLegend(esriBundle, geoApi) {
/**
* Orchestrator function that will:
* - Fetch a legend from an esri map server
* - Extract legend for a specific sub layer
* - Convert server legend to a temporary renderer
* - Convert temporary renderer to a viewer-formatted legend (return value)
*
* @function mapServerToLocalLegend
* @param {String} mapServerUrl service url (root service, not indexed endpoint)
* @param {Integer} [layerIndex] the index of the layer in the legend we are interested in. If not provided, all layers will be collapsed into a single legend
* @returns {Promise} resolves in a viewer-compatible legend for the given server and layer index
*
*/
return (mapServerUrl, layerIndex) => {
// get esri legend from server
return getMapServerLegend(mapServerUrl, esriBundle).then(serverLegendData => {
// derive renderer for specified layer
let fakeRenderer;
let intIndex;
if (typeof layerIndex === 'undefined') {
intIndex = 0;
fakeRenderer = mapServerLegendToRendererAll(serverLegendData);
} else {
intIndex = parseInt(layerIndex); // sometimes a stringified value comes in. careful now.
fakeRenderer = mapServerLegendToRenderer(serverLegendData, intIndex);
}
// convert renderer to viewer specific legend
return geoApi.symbology.rendererToLegend(fakeRenderer, intIndex);
});
};
}
// TODO getZoomLevel should probably live in a file not named symbology
/**
* Takes the lod list and finds level as close to and above scale limit
*
* @param {Array} lods array of esri LODs https://developers.arcgis.com/javascript/jsapi/lod-amd.html
* @param {Integer} maxScale object largest zoom level for said layer
* @returns {Number} current LOD
*/
function getZoomLevel(lods, maxScale) {
// Find level as close to and above scaleLimit
const scaleLimit = maxScale; // maxScale obj in returned config
let found = false;
let currentLod = Math.ceil(lods.length / 2);
let lowLod = 0;
let highLod = lods.length - 1;
if (maxScale === 0) {
return lods.length - 1;
}
// Binary Search
while (!found) {
if (lods[currentLod].scale >= scaleLimit) {
lowLod = currentLod;
} else {
highLod = currentLod;
}
currentLod = Math.floor((highLod + lowLod) / 2);
if (highLod === lowLod + 1) {
found = true;
}
}
return currentLod;
}
module.exports = (esriBundle, geoApi, window) => {
return {
getGraphicIcon,
getGraphicSymbol,
rendererToLegend: buildRendererToLegend(window),
generatePlaceholderSymbology,
generateWMSSymbology,
listToIconSymbology: list => _listToSymbology(renderSymbologyIcon, list),
listToImageSymbology: list => _listToSymbology(renderSymbologyImage, list),
getZoomLevel,
enhanceRenderer,
mapServerToLocalLegend: buildMapServerToLocalLegend(esriBundle, geoApi)
};
};