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// @flow
import assert from 'assert';
import type {StylePropertySpecification} from '../style-spec';
export default convertFunction;
function convertLiteral(value) {
return typeof value === 'object' ? ['literal', value] : value;
}
function convertFunction(parameters: any, propertySpec: StylePropertySpecification) {
let stops = parameters.stops;
if (!stops) {
// identity function
return convertIdentityFunction(parameters, propertySpec);
}
const zoomAndFeatureDependent = stops && typeof stops[0][0] === 'object';
const featureDependent = zoomAndFeatureDependent || parameters.property !== undefined;
const zoomDependent = zoomAndFeatureDependent || !featureDependent;
stops = stops.map((stop) => {
if (!featureDependent && propertySpec.tokens && typeof stop[1] === 'string') {
return [stop[0], convertTokenString(stop[1])];
}
return [stop[0], convertLiteral(stop[1])];
});
if (zoomAndFeatureDependent) {
return convertZoomAndPropertyFunction(parameters, propertySpec, stops);
} else if (zoomDependent) {
return convertZoomFunction(parameters, propertySpec, stops);
} else {
return convertPropertyFunction(parameters, propertySpec, stops);
}
}
function convertIdentityFunction(parameters, propertySpec): Array {
const get = ['get', parameters.property];
if (parameters.default === undefined) {
// By default, expressions for string-valued properties get coerced. To preserve
// legacy function semantics, insert an explicit assertion instead.
return propertySpec.type === 'string' ? ['string', get] : get;
} else if (propertySpec.type === 'enum') {
return [
'match',
get,
Object.keys(propertySpec.values),
get,
parameters.default
];
} else {
const expression = [propertySpec.type === 'color' ? 'to-color' : propertySpec.type, get, convertLiteral(parameters.default)];
if (propertySpec.type === 'array') {
expression.splice(1, 0, propertySpec.value, propertySpec.length || null);
}
return expression;
}
}
function getInterpolateOperator(parameters) {
switch (parameters.colorSpace) {
case 'hcl': return 'interpolate-hcl';
case 'lab': return 'interpolate-lab';
default: return 'interpolate';
}
}
function convertZoomAndPropertyFunction(parameters, propertySpec, stops) {
const featureFunctionParameters = {};
const featureFunctionStops = {};
const zoomStops = [];
for (let s = 0; s < stops.length; s++) {
const stop = stops[s];
const zoom = stop[0].zoom;
if (featureFunctionParameters[zoom] === undefined) {
featureFunctionParameters[zoom] = {
zoom,
type: parameters.type,
property: parameters.property,
default: parameters.default,
};
featureFunctionStops[zoom] = [];
zoomStops.push(zoom);
}
featureFunctionStops[zoom].push([stop[0].value, stop[1]]);
}
// the interpolation type for the zoom dimension of a zoom-and-property
// function is determined directly from the style property specification
// for which it's being used: linear for interpolatable properties, step
// otherwise.
const functionType = getFunctionType({}, propertySpec);
if (functionType === 'exponential') {
const expression = [getInterpolateOperator(parameters), ['linear'], ['zoom']];
for (const z of zoomStops) {
const output = convertPropertyFunction(featureFunctionParameters[z], propertySpec, featureFunctionStops[z]);
appendStopPair(expression, z, output, false);
}
return expression;
} else {
const expression = ['step', ['zoom']];
for (const z of zoomStops) {
const output = convertPropertyFunction(featureFunctionParameters[z], propertySpec, featureFunctionStops[z]);
appendStopPair(expression, z, output, true);
}
fixupDegenerateStepCurve(expression);
return expression;
}
}
function coalesce(a, b) {
if (a !== undefined) return a;
if (b !== undefined) return b;
}
function getFallback(parameters, propertySpec) {
const defaultValue = convertLiteral(coalesce(parameters.default, propertySpec.default));
/*
* Some fields with type: resolvedImage have an undefined default.
* Because undefined is an invalid value for resolvedImage, set fallback to
* an empty string instead of undefined to ensure output
* passes validation.
*/
if (defaultValue === undefined && propertySpec.type === 'resolvedImage') {
return '';
}
return defaultValue;
}
function convertPropertyFunction(parameters, propertySpec, stops) {
const type = getFunctionType(parameters, propertySpec);
const get = ['get', parameters.property];
if (type === 'categorical' && typeof stops[0][0] === 'boolean') {
assert(parameters.stops.length > 0 && parameters.stops.length <= 2);
const expression = ['case'];
for (const stop of stops) {
expression.push(['==', get, stop[0]], stop[1]);
}
expression.push(getFallback(parameters, propertySpec));
return expression;
} else if (type === 'categorical') {
const expression = ['match', get];
for (const stop of stops) {
appendStopPair(expression, stop[0], stop[1], false);
}
expression.push(getFallback(parameters, propertySpec));
return expression;
} else if (type === 'interval') {
const expression = ['step', ['number', get]];
for (const stop of stops) {
appendStopPair(expression, stop[0], stop[1], true);
}
fixupDegenerateStepCurve(expression);
return parameters.default === undefined ? expression : [
'case',
['==', ['typeof', get], 'number'],
expression,
convertLiteral(parameters.default)
];
} else if (type === 'exponential') {
const base = parameters.base !== undefined ? parameters.base : 1;
const expression = [
getInterpolateOperator(parameters),
base === 1 ? ["linear"] : ["exponential", base],
["number", get]
];
for (const stop of stops) {
appendStopPair(expression, stop[0], stop[1], false);
}
return parameters.default === undefined ? expression : [
'case',
['==', ['typeof', get], 'number'],
expression,
convertLiteral(parameters.default)
];
} else {
throw new Error(`Unknown property function type ${type}`);
}
}
function convertZoomFunction(parameters, propertySpec, stops, input = ['zoom']) {
const type = getFunctionType(parameters, propertySpec);
let expression;
let isStep = false;
if (type === 'interval') {
expression = ['step', input];
isStep = true;
} else if (type === 'exponential') {
const base = parameters.base !== undefined ? parameters.base : 1;
expression = [getInterpolateOperator(parameters), base === 1 ? ["linear"] : ["exponential", base], input];
} else {
throw new Error(`Unknown zoom function type "${type}"`);
}
for (const stop of stops) {
appendStopPair(expression, stop[0], stop[1], isStep);
}
fixupDegenerateStepCurve(expression);
return expression;
}
function fixupDegenerateStepCurve(expression) {
// degenerate step curve (i.e. a constant function): add a noop stop
if (expression[0] === 'step' && expression.length === 3) {
expression.push(0);
expression.push(expression[3]);
}
}
function appendStopPair(curve, input, output, isStep) {
// Skip duplicate stop values. They were not validated for functions, but they are for expressions.
// https://github.com/mapbox/mapbox-gl-js/issues/4107
if (curve.length > 3 && input === curve[curve.length - 2]) {
return;
}
// step curves don't get the first input value, as it is redundant.
if (!(isStep && curve.length === 2)) {
curve.push(input);
}
curve.push(output);
}
function getFunctionType(parameters, propertySpec) {
if (parameters.type) {
return parameters.type;
} else {
assert(propertySpec.expression);
return (propertySpec.expression: any).interpolated ? 'exponential' : 'interval';
}
}
// "String with {name} token" => ["concat", "String with ", ["get", "name"], " token"]
export function convertTokenString(s: string) {
const result = ['concat'];
const re = /{([^{}]+)}/g;
let pos = 0;
for (let match = re.exec(s); match !== null; match = re.exec(s)) {
const literal = s.slice(pos, re.lastIndex - match[0].length);
pos = re.lastIndex;
if (literal.length > 0) result.push(literal);
result.push(['get', match[1]]);
}
if (result.length === 1) {
return s;
}
if (pos < s.length) {
result.push(s.slice(pos));
} else if (result.length === 2) {
return ['to-string', result[1]];
}
return result;
}