Icard/angular-clarity-master(work.../node_modules/d3-scale/dist/d3-scale.js

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// https://d3js.org/d3-scale/ v4.0.2 Copyright 2010-2021 Mike Bostock
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports, require('d3-array'), require('d3-interpolate'), require('d3-format'), require('d3-time'), require('d3-time-format')) :
typeof define === 'function' && define.amd ? define(['exports', 'd3-array', 'd3-interpolate', 'd3-format', 'd3-time', 'd3-time-format'], factory) :
(global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.d3 = global.d3 || {}, global.d3, global.d3, global.d3, global.d3, global.d3));
})(this, (function (exports, d3Array, d3Interpolate, d3Format, d3Time, d3TimeFormat) { 'use strict';
function initRange(domain, range) {
switch (arguments.length) {
case 0: break;
case 1: this.range(domain); break;
default: this.range(range).domain(domain); break;
}
return this;
}
function initInterpolator(domain, interpolator) {
switch (arguments.length) {
case 0: break;
case 1: {
if (typeof domain === "function") this.interpolator(domain);
else this.range(domain);
break;
}
default: {
this.domain(domain);
if (typeof interpolator === "function") this.interpolator(interpolator);
else this.range(interpolator);
break;
}
}
return this;
}
const implicit = Symbol("implicit");
function ordinal() {
var index = new d3Array.InternMap(),
domain = [],
range = [],
unknown = implicit;
function scale(d) {
let i = index.get(d);
if (i === undefined) {
if (unknown !== implicit) return unknown;
index.set(d, i = domain.push(d) - 1);
}
return range[i % range.length];
}
scale.domain = function(_) {
if (!arguments.length) return domain.slice();
domain = [], index = new d3Array.InternMap();
for (const value of _) {
if (index.has(value)) continue;
index.set(value, domain.push(value) - 1);
}
return scale;
};
scale.range = function(_) {
return arguments.length ? (range = Array.from(_), scale) : range.slice();
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
scale.copy = function() {
return ordinal(domain, range).unknown(unknown);
};
initRange.apply(scale, arguments);
return scale;
}
function band() {
var scale = ordinal().unknown(undefined),
domain = scale.domain,
ordinalRange = scale.range,
r0 = 0,
r1 = 1,
step,
bandwidth,
round = false,
paddingInner = 0,
paddingOuter = 0,
align = 0.5;
delete scale.unknown;
function rescale() {
var n = domain().length,
reverse = r1 < r0,
start = reverse ? r1 : r0,
stop = reverse ? r0 : r1;
step = (stop - start) / Math.max(1, n - paddingInner + paddingOuter * 2);
if (round) step = Math.floor(step);
start += (stop - start - step * (n - paddingInner)) * align;
bandwidth = step * (1 - paddingInner);
if (round) start = Math.round(start), bandwidth = Math.round(bandwidth);
var values = d3Array.range(n).map(function(i) { return start + step * i; });
return ordinalRange(reverse ? values.reverse() : values);
}
scale.domain = function(_) {
return arguments.length ? (domain(_), rescale()) : domain();
};
scale.range = function(_) {
return arguments.length ? ([r0, r1] = _, r0 = +r0, r1 = +r1, rescale()) : [r0, r1];
};
scale.rangeRound = function(_) {
return [r0, r1] = _, r0 = +r0, r1 = +r1, round = true, rescale();
};
scale.bandwidth = function() {
return bandwidth;
};
scale.step = function() {
return step;
};
scale.round = function(_) {
return arguments.length ? (round = !!_, rescale()) : round;
};
scale.padding = function(_) {
return arguments.length ? (paddingInner = Math.min(1, paddingOuter = +_), rescale()) : paddingInner;
};
scale.paddingInner = function(_) {
return arguments.length ? (paddingInner = Math.min(1, _), rescale()) : paddingInner;
};
scale.paddingOuter = function(_) {
return arguments.length ? (paddingOuter = +_, rescale()) : paddingOuter;
};
scale.align = function(_) {
return arguments.length ? (align = Math.max(0, Math.min(1, _)), rescale()) : align;
};
scale.copy = function() {
return band(domain(), [r0, r1])
.round(round)
.paddingInner(paddingInner)
.paddingOuter(paddingOuter)
.align(align);
};
return initRange.apply(rescale(), arguments);
}
function pointish(scale) {
var copy = scale.copy;
scale.padding = scale.paddingOuter;
delete scale.paddingInner;
delete scale.paddingOuter;
scale.copy = function() {
return pointish(copy());
};
return scale;
}
function point() {
return pointish(band.apply(null, arguments).paddingInner(1));
}
function constants(x) {
return function() {
return x;
};
}
function number$1(x) {
return +x;
}
var unit = [0, 1];
function identity$1(x) {
return x;
}
function normalize(a, b) {
return (b -= (a = +a))
? function(x) { return (x - a) / b; }
: constants(isNaN(b) ? NaN : 0.5);
}
function clamper(a, b) {
var t;
if (a > b) t = a, a = b, b = t;
return function(x) { return Math.max(a, Math.min(b, x)); };
}
// normalize(a, b)(x) takes a domain value x in [a,b] and returns the corresponding parameter t in [0,1].
// interpolate(a, b)(t) takes a parameter t in [0,1] and returns the corresponding range value x in [a,b].
function bimap(domain, range, interpolate) {
var d0 = domain[0], d1 = domain[1], r0 = range[0], r1 = range[1];
if (d1 < d0) d0 = normalize(d1, d0), r0 = interpolate(r1, r0);
else d0 = normalize(d0, d1), r0 = interpolate(r0, r1);
return function(x) { return r0(d0(x)); };
}
function polymap(domain, range, interpolate) {
var j = Math.min(domain.length, range.length) - 1,
d = new Array(j),
r = new Array(j),
i = -1;
// Reverse descending domains.
if (domain[j] < domain[0]) {
domain = domain.slice().reverse();
range = range.slice().reverse();
}
while (++i < j) {
d[i] = normalize(domain[i], domain[i + 1]);
r[i] = interpolate(range[i], range[i + 1]);
}
return function(x) {
var i = d3Array.bisect(domain, x, 1, j) - 1;
return r[i](d[i](x));
};
}
function copy$1(source, target) {
return target
.domain(source.domain())
.range(source.range())
.interpolate(source.interpolate())
.clamp(source.clamp())
.unknown(source.unknown());
}
function transformer$2() {
var domain = unit,
range = unit,
interpolate = d3Interpolate.interpolate,
transform,
untransform,
unknown,
clamp = identity$1,
piecewise,
output,
input;
function rescale() {
var n = Math.min(domain.length, range.length);
if (clamp !== identity$1) clamp = clamper(domain[0], domain[n - 1]);
piecewise = n > 2 ? polymap : bimap;
output = input = null;
return scale;
}
function scale(x) {
return x == null || isNaN(x = +x) ? unknown : (output || (output = piecewise(domain.map(transform), range, interpolate)))(transform(clamp(x)));
}
scale.invert = function(y) {
return clamp(untransform((input || (input = piecewise(range, domain.map(transform), d3Interpolate.interpolateNumber)))(y)));
};
scale.domain = function(_) {
return arguments.length ? (domain = Array.from(_, number$1), rescale()) : domain.slice();
};
scale.range = function(_) {
return arguments.length ? (range = Array.from(_), rescale()) : range.slice();
};
scale.rangeRound = function(_) {
return range = Array.from(_), interpolate = d3Interpolate.interpolateRound, rescale();
};
scale.clamp = function(_) {
return arguments.length ? (clamp = _ ? true : identity$1, rescale()) : clamp !== identity$1;
};
scale.interpolate = function(_) {
return arguments.length ? (interpolate = _, rescale()) : interpolate;
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
return function(t, u) {
transform = t, untransform = u;
return rescale();
};
}
function continuous() {
return transformer$2()(identity$1, identity$1);
}
function tickFormat(start, stop, count, specifier) {
var step = d3Array.tickStep(start, stop, count),
precision;
specifier = d3Format.formatSpecifier(specifier == null ? ",f" : specifier);
switch (specifier.type) {
case "s": {
var value = Math.max(Math.abs(start), Math.abs(stop));
if (specifier.precision == null && !isNaN(precision = d3Format.precisionPrefix(step, value))) specifier.precision = precision;
return d3Format.formatPrefix(specifier, value);
}
case "":
case "e":
case "g":
case "p":
case "r": {
if (specifier.precision == null && !isNaN(precision = d3Format.precisionRound(step, Math.max(Math.abs(start), Math.abs(stop))))) specifier.precision = precision - (specifier.type === "e");
break;
}
case "f":
case "%": {
if (specifier.precision == null && !isNaN(precision = d3Format.precisionFixed(step))) specifier.precision = precision - (specifier.type === "%") * 2;
break;
}
}
return d3Format.format(specifier);
}
function linearish(scale) {
var domain = scale.domain;
scale.ticks = function(count) {
var d = domain();
return d3Array.ticks(d[0], d[d.length - 1], count == null ? 10 : count);
};
scale.tickFormat = function(count, specifier) {
var d = domain();
return tickFormat(d[0], d[d.length - 1], count == null ? 10 : count, specifier);
};
scale.nice = function(count) {
if (count == null) count = 10;
var d = domain();
var i0 = 0;
var i1 = d.length - 1;
var start = d[i0];
var stop = d[i1];
var prestep;
var step;
var maxIter = 10;
if (stop < start) {
step = start, start = stop, stop = step;
step = i0, i0 = i1, i1 = step;
}
while (maxIter-- > 0) {
step = d3Array.tickIncrement(start, stop, count);
if (step === prestep) {
d[i0] = start;
d[i1] = stop;
return domain(d);
} else if (step > 0) {
start = Math.floor(start / step) * step;
stop = Math.ceil(stop / step) * step;
} else if (step < 0) {
start = Math.ceil(start * step) / step;
stop = Math.floor(stop * step) / step;
} else {
break;
}
prestep = step;
}
return scale;
};
return scale;
}
function linear() {
var scale = continuous();
scale.copy = function() {
return copy$1(scale, linear());
};
initRange.apply(scale, arguments);
return linearish(scale);
}
function identity(domain) {
var unknown;
function scale(x) {
return x == null || isNaN(x = +x) ? unknown : x;
}
scale.invert = scale;
scale.domain = scale.range = function(_) {
return arguments.length ? (domain = Array.from(_, number$1), scale) : domain.slice();
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
scale.copy = function() {
return identity(domain).unknown(unknown);
};
domain = arguments.length ? Array.from(domain, number$1) : [0, 1];
return linearish(scale);
}
function nice(domain, interval) {
domain = domain.slice();
var i0 = 0,
i1 = domain.length - 1,
x0 = domain[i0],
x1 = domain[i1],
t;
if (x1 < x0) {
t = i0, i0 = i1, i1 = t;
t = x0, x0 = x1, x1 = t;
}
domain[i0] = interval.floor(x0);
domain[i1] = interval.ceil(x1);
return domain;
}
function transformLog(x) {
return Math.log(x);
}
function transformExp(x) {
return Math.exp(x);
}
function transformLogn(x) {
return -Math.log(-x);
}
function transformExpn(x) {
return -Math.exp(-x);
}
function pow10(x) {
return isFinite(x) ? +("1e" + x) : x < 0 ? 0 : x;
}
function powp(base) {
return base === 10 ? pow10
: base === Math.E ? Math.exp
: x => Math.pow(base, x);
}
function logp(base) {
return base === Math.E ? Math.log
: base === 10 && Math.log10
|| base === 2 && Math.log2
|| (base = Math.log(base), x => Math.log(x) / base);
}
function reflect(f) {
return (x, k) => -f(-x, k);
}
function loggish(transform) {
const scale = transform(transformLog, transformExp);
const domain = scale.domain;
let base = 10;
let logs;
let pows;
function rescale() {
logs = logp(base), pows = powp(base);
if (domain()[0] < 0) {
logs = reflect(logs), pows = reflect(pows);
transform(transformLogn, transformExpn);
} else {
transform(transformLog, transformExp);
}
return scale;
}
scale.base = function(_) {
return arguments.length ? (base = +_, rescale()) : base;
};
scale.domain = function(_) {
return arguments.length ? (domain(_), rescale()) : domain();
};
scale.ticks = count => {
const d = domain();
let u = d[0];
let v = d[d.length - 1];
const r = v < u;
if (r) ([u, v] = [v, u]);
let i = logs(u);
let j = logs(v);
let k;
let t;
const n = count == null ? 10 : +count;
let z = [];
if (!(base % 1) && j - i < n) {
i = Math.floor(i), j = Math.ceil(j);
if (u > 0) for (; i <= j; ++i) {
for (k = 1; k < base; ++k) {
t = i < 0 ? k / pows(-i) : k * pows(i);
if (t < u) continue;
if (t > v) break;
z.push(t);
}
} else for (; i <= j; ++i) {
for (k = base - 1; k >= 1; --k) {
t = i > 0 ? k / pows(-i) : k * pows(i);
if (t < u) continue;
if (t > v) break;
z.push(t);
}
}
if (z.length * 2 < n) z = d3Array.ticks(u, v, n);
} else {
z = d3Array.ticks(i, j, Math.min(j - i, n)).map(pows);
}
return r ? z.reverse() : z;
};
scale.tickFormat = (count, specifier) => {
if (count == null) count = 10;
if (specifier == null) specifier = base === 10 ? "s" : ",";
if (typeof specifier !== "function") {
if (!(base % 1) && (specifier = d3Format.formatSpecifier(specifier)).precision == null) specifier.trim = true;
specifier = d3Format.format(specifier);
}
if (count === Infinity) return specifier;
const k = Math.max(1, base * count / scale.ticks().length); // TODO fast estimate?
return d => {
let i = d / pows(Math.round(logs(d)));
if (i * base < base - 0.5) i *= base;
return i <= k ? specifier(d) : "";
};
};
scale.nice = () => {
return domain(nice(domain(), {
floor: x => pows(Math.floor(logs(x))),
ceil: x => pows(Math.ceil(logs(x)))
}));
};
return scale;
}
function log() {
const scale = loggish(transformer$2()).domain([1, 10]);
scale.copy = () => copy$1(scale, log()).base(scale.base());
initRange.apply(scale, arguments);
return scale;
}
function transformSymlog(c) {
return function(x) {
return Math.sign(x) * Math.log1p(Math.abs(x / c));
};
}
function transformSymexp(c) {
return function(x) {
return Math.sign(x) * Math.expm1(Math.abs(x)) * c;
};
}
function symlogish(transform) {
var c = 1, scale = transform(transformSymlog(c), transformSymexp(c));
scale.constant = function(_) {
return arguments.length ? transform(transformSymlog(c = +_), transformSymexp(c)) : c;
};
return linearish(scale);
}
function symlog() {
var scale = symlogish(transformer$2());
scale.copy = function() {
return copy$1(scale, symlog()).constant(scale.constant());
};
return initRange.apply(scale, arguments);
}
function transformPow(exponent) {
return function(x) {
return x < 0 ? -Math.pow(-x, exponent) : Math.pow(x, exponent);
};
}
function transformSqrt(x) {
return x < 0 ? -Math.sqrt(-x) : Math.sqrt(x);
}
function transformSquare(x) {
return x < 0 ? -x * x : x * x;
}
function powish(transform) {
var scale = transform(identity$1, identity$1),
exponent = 1;
function rescale() {
return exponent === 1 ? transform(identity$1, identity$1)
: exponent === 0.5 ? transform(transformSqrt, transformSquare)
: transform(transformPow(exponent), transformPow(1 / exponent));
}
scale.exponent = function(_) {
return arguments.length ? (exponent = +_, rescale()) : exponent;
};
return linearish(scale);
}
function pow() {
var scale = powish(transformer$2());
scale.copy = function() {
return copy$1(scale, pow()).exponent(scale.exponent());
};
initRange.apply(scale, arguments);
return scale;
}
function sqrt() {
return pow.apply(null, arguments).exponent(0.5);
}
function square(x) {
return Math.sign(x) * x * x;
}
function unsquare(x) {
return Math.sign(x) * Math.sqrt(Math.abs(x));
}
function radial() {
var squared = continuous(),
range = [0, 1],
round = false,
unknown;
function scale(x) {
var y = unsquare(squared(x));
return isNaN(y) ? unknown : round ? Math.round(y) : y;
}
scale.invert = function(y) {
return squared.invert(square(y));
};
scale.domain = function(_) {
return arguments.length ? (squared.domain(_), scale) : squared.domain();
};
scale.range = function(_) {
return arguments.length ? (squared.range((range = Array.from(_, number$1)).map(square)), scale) : range.slice();
};
scale.rangeRound = function(_) {
return scale.range(_).round(true);
};
scale.round = function(_) {
return arguments.length ? (round = !!_, scale) : round;
};
scale.clamp = function(_) {
return arguments.length ? (squared.clamp(_), scale) : squared.clamp();
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
scale.copy = function() {
return radial(squared.domain(), range)
.round(round)
.clamp(squared.clamp())
.unknown(unknown);
};
initRange.apply(scale, arguments);
return linearish(scale);
}
function quantile() {
var domain = [],
range = [],
thresholds = [],
unknown;
function rescale() {
var i = 0, n = Math.max(1, range.length);
thresholds = new Array(n - 1);
while (++i < n) thresholds[i - 1] = d3Array.quantileSorted(domain, i / n);
return scale;
}
function scale(x) {
return x == null || isNaN(x = +x) ? unknown : range[d3Array.bisect(thresholds, x)];
}
scale.invertExtent = function(y) {
var i = range.indexOf(y);
return i < 0 ? [NaN, NaN] : [
i > 0 ? thresholds[i - 1] : domain[0],
i < thresholds.length ? thresholds[i] : domain[domain.length - 1]
];
};
scale.domain = function(_) {
if (!arguments.length) return domain.slice();
domain = [];
for (let d of _) if (d != null && !isNaN(d = +d)) domain.push(d);
domain.sort(d3Array.ascending);
return rescale();
};
scale.range = function(_) {
return arguments.length ? (range = Array.from(_), rescale()) : range.slice();
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
scale.quantiles = function() {
return thresholds.slice();
};
scale.copy = function() {
return quantile()
.domain(domain)
.range(range)
.unknown(unknown);
};
return initRange.apply(scale, arguments);
}
function quantize() {
var x0 = 0,
x1 = 1,
n = 1,
domain = [0.5],
range = [0, 1],
unknown;
function scale(x) {
return x != null && x <= x ? range[d3Array.bisect(domain, x, 0, n)] : unknown;
}
function rescale() {
var i = -1;
domain = new Array(n);
while (++i < n) domain[i] = ((i + 1) * x1 - (i - n) * x0) / (n + 1);
return scale;
}
scale.domain = function(_) {
return arguments.length ? ([x0, x1] = _, x0 = +x0, x1 = +x1, rescale()) : [x0, x1];
};
scale.range = function(_) {
return arguments.length ? (n = (range = Array.from(_)).length - 1, rescale()) : range.slice();
};
scale.invertExtent = function(y) {
var i = range.indexOf(y);
return i < 0 ? [NaN, NaN]
: i < 1 ? [x0, domain[0]]
: i >= n ? [domain[n - 1], x1]
: [domain[i - 1], domain[i]];
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : scale;
};
scale.thresholds = function() {
return domain.slice();
};
scale.copy = function() {
return quantize()
.domain([x0, x1])
.range(range)
.unknown(unknown);
};
return initRange.apply(linearish(scale), arguments);
}
function threshold() {
var domain = [0.5],
range = [0, 1],
unknown,
n = 1;
function scale(x) {
return x != null && x <= x ? range[d3Array.bisect(domain, x, 0, n)] : unknown;
}
scale.domain = function(_) {
return arguments.length ? (domain = Array.from(_), n = Math.min(domain.length, range.length - 1), scale) : domain.slice();
};
scale.range = function(_) {
return arguments.length ? (range = Array.from(_), n = Math.min(domain.length, range.length - 1), scale) : range.slice();
};
scale.invertExtent = function(y) {
var i = range.indexOf(y);
return [domain[i - 1], domain[i]];
};
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
scale.copy = function() {
return threshold()
.domain(domain)
.range(range)
.unknown(unknown);
};
return initRange.apply(scale, arguments);
}
function date(t) {
return new Date(t);
}
function number(t) {
return t instanceof Date ? +t : +new Date(+t);
}
function calendar(ticks, tickInterval, year, month, week, day, hour, minute, second, format) {
var scale = continuous(),
invert = scale.invert,
domain = scale.domain;
var formatMillisecond = format(".%L"),
formatSecond = format(":%S"),
formatMinute = format("%I:%M"),
formatHour = format("%I %p"),
formatDay = format("%a %d"),
formatWeek = format("%b %d"),
formatMonth = format("%B"),
formatYear = format("%Y");
function tickFormat(date) {
return (second(date) < date ? formatMillisecond
: minute(date) < date ? formatSecond
: hour(date) < date ? formatMinute
: day(date) < date ? formatHour
: month(date) < date ? (week(date) < date ? formatDay : formatWeek)
: year(date) < date ? formatMonth
: formatYear)(date);
}
scale.invert = function(y) {
return new Date(invert(y));
};
scale.domain = function(_) {
return arguments.length ? domain(Array.from(_, number)) : domain().map(date);
};
scale.ticks = function(interval) {
var d = domain();
return ticks(d[0], d[d.length - 1], interval == null ? 10 : interval);
};
scale.tickFormat = function(count, specifier) {
return specifier == null ? tickFormat : format(specifier);
};
scale.nice = function(interval) {
var d = domain();
if (!interval || typeof interval.range !== "function") interval = tickInterval(d[0], d[d.length - 1], interval == null ? 10 : interval);
return interval ? domain(nice(d, interval)) : scale;
};
scale.copy = function() {
return copy$1(scale, calendar(ticks, tickInterval, year, month, week, day, hour, minute, second, format));
};
return scale;
}
function time() {
return initRange.apply(calendar(d3Time.timeTicks, d3Time.timeTickInterval, d3Time.timeYear, d3Time.timeMonth, d3Time.timeWeek, d3Time.timeDay, d3Time.timeHour, d3Time.timeMinute, d3Time.timeSecond, d3TimeFormat.timeFormat).domain([new Date(2000, 0, 1), new Date(2000, 0, 2)]), arguments);
}
function utcTime() {
return initRange.apply(calendar(d3Time.utcTicks, d3Time.utcTickInterval, d3Time.utcYear, d3Time.utcMonth, d3Time.utcWeek, d3Time.utcDay, d3Time.utcHour, d3Time.utcMinute, d3Time.utcSecond, d3TimeFormat.utcFormat).domain([Date.UTC(2000, 0, 1), Date.UTC(2000, 0, 2)]), arguments);
}
function transformer$1() {
var x0 = 0,
x1 = 1,
t0,
t1,
k10,
transform,
interpolator = identity$1,
clamp = false,
unknown;
function scale(x) {
return x == null || isNaN(x = +x) ? unknown : interpolator(k10 === 0 ? 0.5 : (x = (transform(x) - t0) * k10, clamp ? Math.max(0, Math.min(1, x)) : x));
}
scale.domain = function(_) {
return arguments.length ? ([x0, x1] = _, t0 = transform(x0 = +x0), t1 = transform(x1 = +x1), k10 = t0 === t1 ? 0 : 1 / (t1 - t0), scale) : [x0, x1];
};
scale.clamp = function(_) {
return arguments.length ? (clamp = !!_, scale) : clamp;
};
scale.interpolator = function(_) {
return arguments.length ? (interpolator = _, scale) : interpolator;
};
function range(interpolate) {
return function(_) {
var r0, r1;
return arguments.length ? ([r0, r1] = _, interpolator = interpolate(r0, r1), scale) : [interpolator(0), interpolator(1)];
};
}
scale.range = range(d3Interpolate.interpolate);
scale.rangeRound = range(d3Interpolate.interpolateRound);
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
return function(t) {
transform = t, t0 = t(x0), t1 = t(x1), k10 = t0 === t1 ? 0 : 1 / (t1 - t0);
return scale;
};
}
function copy(source, target) {
return target
.domain(source.domain())
.interpolator(source.interpolator())
.clamp(source.clamp())
.unknown(source.unknown());
}
function sequential() {
var scale = linearish(transformer$1()(identity$1));
scale.copy = function() {
return copy(scale, sequential());
};
return initInterpolator.apply(scale, arguments);
}
function sequentialLog() {
var scale = loggish(transformer$1()).domain([1, 10]);
scale.copy = function() {
return copy(scale, sequentialLog()).base(scale.base());
};
return initInterpolator.apply(scale, arguments);
}
function sequentialSymlog() {
var scale = symlogish(transformer$1());
scale.copy = function() {
return copy(scale, sequentialSymlog()).constant(scale.constant());
};
return initInterpolator.apply(scale, arguments);
}
function sequentialPow() {
var scale = powish(transformer$1());
scale.copy = function() {
return copy(scale, sequentialPow()).exponent(scale.exponent());
};
return initInterpolator.apply(scale, arguments);
}
function sequentialSqrt() {
return sequentialPow.apply(null, arguments).exponent(0.5);
}
function sequentialQuantile() {
var domain = [],
interpolator = identity$1;
function scale(x) {
if (x != null && !isNaN(x = +x)) return interpolator((d3Array.bisect(domain, x, 1) - 1) / (domain.length - 1));
}
scale.domain = function(_) {
if (!arguments.length) return domain.slice();
domain = [];
for (let d of _) if (d != null && !isNaN(d = +d)) domain.push(d);
domain.sort(d3Array.ascending);
return scale;
};
scale.interpolator = function(_) {
return arguments.length ? (interpolator = _, scale) : interpolator;
};
scale.range = function() {
return domain.map((d, i) => interpolator(i / (domain.length - 1)));
};
scale.quantiles = function(n) {
return Array.from({length: n + 1}, (_, i) => d3Array.quantile(domain, i / n));
};
scale.copy = function() {
return sequentialQuantile(interpolator).domain(domain);
};
return initInterpolator.apply(scale, arguments);
}
function transformer() {
var x0 = 0,
x1 = 0.5,
x2 = 1,
s = 1,
t0,
t1,
t2,
k10,
k21,
interpolator = identity$1,
transform,
clamp = false,
unknown;
function scale(x) {
return isNaN(x = +x) ? unknown : (x = 0.5 + ((x = +transform(x)) - t1) * (s * x < s * t1 ? k10 : k21), interpolator(clamp ? Math.max(0, Math.min(1, x)) : x));
}
scale.domain = function(_) {
return arguments.length ? ([x0, x1, x2] = _, t0 = transform(x0 = +x0), t1 = transform(x1 = +x1), t2 = transform(x2 = +x2), k10 = t0 === t1 ? 0 : 0.5 / (t1 - t0), k21 = t1 === t2 ? 0 : 0.5 / (t2 - t1), s = t1 < t0 ? -1 : 1, scale) : [x0, x1, x2];
};
scale.clamp = function(_) {
return arguments.length ? (clamp = !!_, scale) : clamp;
};
scale.interpolator = function(_) {
return arguments.length ? (interpolator = _, scale) : interpolator;
};
function range(interpolate) {
return function(_) {
var r0, r1, r2;
return arguments.length ? ([r0, r1, r2] = _, interpolator = d3Interpolate.piecewise(interpolate, [r0, r1, r2]), scale) : [interpolator(0), interpolator(0.5), interpolator(1)];
};
}
scale.range = range(d3Interpolate.interpolate);
scale.rangeRound = range(d3Interpolate.interpolateRound);
scale.unknown = function(_) {
return arguments.length ? (unknown = _, scale) : unknown;
};
return function(t) {
transform = t, t0 = t(x0), t1 = t(x1), t2 = t(x2), k10 = t0 === t1 ? 0 : 0.5 / (t1 - t0), k21 = t1 === t2 ? 0 : 0.5 / (t2 - t1), s = t1 < t0 ? -1 : 1;
return scale;
};
}
function diverging() {
var scale = linearish(transformer()(identity$1));
scale.copy = function() {
return copy(scale, diverging());
};
return initInterpolator.apply(scale, arguments);
}
function divergingLog() {
var scale = loggish(transformer()).domain([0.1, 1, 10]);
scale.copy = function() {
return copy(scale, divergingLog()).base(scale.base());
};
return initInterpolator.apply(scale, arguments);
}
function divergingSymlog() {
var scale = symlogish(transformer());
scale.copy = function() {
return copy(scale, divergingSymlog()).constant(scale.constant());
};
return initInterpolator.apply(scale, arguments);
}
function divergingPow() {
var scale = powish(transformer());
scale.copy = function() {
return copy(scale, divergingPow()).exponent(scale.exponent());
};
return initInterpolator.apply(scale, arguments);
}
function divergingSqrt() {
return divergingPow.apply(null, arguments).exponent(0.5);
}
exports.scaleBand = band;
exports.scaleDiverging = diverging;
exports.scaleDivergingLog = divergingLog;
exports.scaleDivergingPow = divergingPow;
exports.scaleDivergingSqrt = divergingSqrt;
exports.scaleDivergingSymlog = divergingSymlog;
exports.scaleIdentity = identity;
exports.scaleImplicit = implicit;
exports.scaleLinear = linear;
exports.scaleLog = log;
exports.scaleOrdinal = ordinal;
exports.scalePoint = point;
exports.scalePow = pow;
exports.scaleQuantile = quantile;
exports.scaleQuantize = quantize;
exports.scaleRadial = radial;
exports.scaleSequential = sequential;
exports.scaleSequentialLog = sequentialLog;
exports.scaleSequentialPow = sequentialPow;
exports.scaleSequentialQuantile = sequentialQuantile;
exports.scaleSequentialSqrt = sequentialSqrt;
exports.scaleSequentialSymlog = sequentialSymlog;
exports.scaleSqrt = sqrt;
exports.scaleSymlog = symlog;
exports.scaleThreshold = threshold;
exports.scaleTime = time;
exports.scaleUtc = utcTime;
exports.tickFormat = tickFormat;
Object.defineProperty(exports, '__esModule', { value: true });
}));