File: /www/wwwroot/oura.mlazu.com/node_modules/recharts/lib/state/cartesianAxisSlice.js
"use strict";
Object.defineProperty(exports, "__esModule", {
value: true
});
exports.updateYAxisWidth = exports.replaceZAxis = exports.replaceYAxis = exports.replaceXAxis = exports.removeZAxis = exports.removeYAxis = exports.removeXAxis = exports.defaultAxisId = exports.cartesianAxisReducer = exports.addZAxis = exports.addYAxis = exports.addXAxis = void 0;
var _toolkit = require("@reduxjs/toolkit");
var _immer = require("immer");
function ownKeys(e, r) { var t = Object.keys(e); if (Object.getOwnPropertySymbols) { var o = Object.getOwnPropertySymbols(e); r && (o = o.filter(function (r) { return Object.getOwnPropertyDescriptor(e, r).enumerable; })), t.push.apply(t, o); } return t; }
function _objectSpread(e) { for (var r = 1; r < arguments.length; r++) { var t = null != arguments[r] ? arguments[r] : {}; r % 2 ? ownKeys(Object(t), !0).forEach(function (r) { _defineProperty(e, r, t[r]); }) : Object.getOwnPropertyDescriptors ? Object.defineProperties(e, Object.getOwnPropertyDescriptors(t)) : ownKeys(Object(t)).forEach(function (r) { Object.defineProperty(e, r, Object.getOwnPropertyDescriptor(t, r)); }); } return e; }
function _defineProperty(e, r, t) { return (r = _toPropertyKey(r)) in e ? Object.defineProperty(e, r, { value: t, enumerable: !0, configurable: !0, writable: !0 }) : e[r] = t, e; }
function _toPropertyKey(t) { var i = _toPrimitive(t, "string"); return "symbol" == typeof i ? i : i + ""; }
function _toPrimitive(t, r) { if ("object" != typeof t || !t) return t; var e = t[Symbol.toPrimitive]; if (void 0 !== e) { var i = e.call(t, r || "default"); if ("object" != typeof i) return i; throw new TypeError("@@toPrimitive must return a primitive value."); } return ("string" === r ? String : Number)(t); }
/**
* @inline
*/
var defaultAxisId = exports.defaultAxisId = 0;
/**
* Properties shared in X, Y, and Z axes.
* User defined axis settings, coming from props.
*/
/**
* Controls how Recharts calculates "nice" tick values for numerical axes.
*
* - `'none'`: Recharts does not apply any tick-rounding algorithm; tick positions are
* determined entirely by d3, evenly spaced but not rounded to human-friendly numbers.
* There is no domain-extension logic applied in this mode.
*
* - `'auto'` *(default)*: Recharts automatically decides whether and how to apply tick
* niceties based on the domain definition. When the domain contains an `'auto'` keyword,
* Recharts uses the `'adaptive'` algorithm and may extend the domain slightly to
* produce clean tick labels. Otherwise, it applies the same algorithm while keeping
* ticks within the fixed domain. This mirrors the default behavior from Recharts v2.
*
* - `'adaptive'`: Always applies the space-efficient algorithm (`getAdaptiveStep`),
* which fills the available range as densely as possible while still rounding steps
* to reasonable numbers (e.g. 10, 20, 25). May produce less "round-looking" labels
* than `'snap125'`, but wastes less space. The domain-extension logic still applies
* when the domain contains an `'auto'` keyword.
*
* - `'snap125'`: Always applies the round-numbers algorithm (`getSnap125Step`), which
* snaps step sizes to values from the set {1, 2, 2.5, 5} × 10ⁿ. Produces very
* human-friendly labels (e.g. 0, 5, 10, 15, 20) but may leave blank space at the
* edges of the chart. The domain-extension logic still applies when the domain
* contains an `'auto'` keyword.
*
* @see {@link https://recharts.github.io/guide/axisTicks/}
* @inline
*/
/**
* These are the external props, visible for users as they set them using our public API.
* There is all sorts of internal computed things based on these, but they will come through selectors.
*
* Properties shared between X and Y axes
*/
/**
* Z axis is special because it's never displayed. It controls the size of Scatter dots,
* but it never displays ticks anywhere.
*/
var initialState = {
xAxis: {},
yAxis: {},
zAxis: {}
};
/**
* This is the slice where each individual Axis element pushes its own configuration.
* Prefer to use this one instead of axisSlice.
*/
var cartesianAxisSlice = (0, _toolkit.createSlice)({
name: 'cartesianAxis',
initialState,
reducers: {
addXAxis: {
reducer(state, action) {
state.xAxis[action.payload.id] = (0, _immer.castDraft)(action.payload);
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
replaceXAxis: {
reducer(state, action) {
var {
prev,
next
} = action.payload;
if (state.xAxis[prev.id] !== undefined) {
if (prev.id !== next.id) {
delete state.xAxis[prev.id];
}
state.xAxis[next.id] = (0, _immer.castDraft)(next);
}
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
removeXAxis: {
reducer(state, action) {
delete state.xAxis[action.payload.id];
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
addYAxis: {
reducer(state, action) {
state.yAxis[action.payload.id] = (0, _immer.castDraft)(action.payload);
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
replaceYAxis: {
reducer(state, action) {
var {
prev,
next
} = action.payload;
if (state.yAxis[prev.id] !== undefined) {
if (prev.id !== next.id) {
delete state.yAxis[prev.id];
}
state.yAxis[next.id] = (0, _immer.castDraft)(next);
}
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
removeYAxis: {
reducer(state, action) {
delete state.yAxis[action.payload.id];
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
addZAxis: {
reducer(state, action) {
state.zAxis[action.payload.id] = (0, _immer.castDraft)(action.payload);
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
replaceZAxis: {
reducer(state, action) {
var {
prev,
next
} = action.payload;
if (state.zAxis[prev.id] !== undefined) {
if (prev.id !== next.id) {
delete state.zAxis[prev.id];
}
state.zAxis[next.id] = (0, _immer.castDraft)(next);
}
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
removeZAxis: {
reducer(state, action) {
delete state.zAxis[action.payload.id];
},
prepare: (0, _toolkit.prepareAutoBatched)()
},
updateYAxisWidth(state, action) {
var {
id,
width
} = action.payload;
var axis = state.yAxis[id];
if (axis) {
var _history$;
var history = axis.widthHistory || [];
// An oscillation is detected when the new width is the same as the width before the last one.
// This is a simple A -> B -> A pattern. If the next width is B, and the difference is less than 1 pixel, we ignore it.
if (history.length === 3 && history[0] === history[2] && width === history[1] && width !== axis.width && Math.abs(width - ((_history$ = history[0]) !== null && _history$ !== void 0 ? _history$ : 0)) <= 1) {
return;
}
var newHistory = [...history, width].slice(-3);
state.yAxis[id] = _objectSpread(_objectSpread({}, axis), {}, {
width,
widthHistory: newHistory
});
}
}
}
});
var {
addXAxis,
replaceXAxis,
removeXAxis,
addYAxis,
replaceYAxis,
removeYAxis,
addZAxis,
replaceZAxis,
removeZAxis,
updateYAxisWidth
} = cartesianAxisSlice.actions;
exports.updateYAxisWidth = updateYAxisWidth;
exports.removeZAxis = removeZAxis;
exports.replaceZAxis = replaceZAxis;
exports.addZAxis = addZAxis;
exports.removeYAxis = removeYAxis;
exports.replaceYAxis = replaceYAxis;
exports.addYAxis = addYAxis;
exports.removeXAxis = removeXAxis;
exports.replaceXAxis = replaceXAxis;
exports.addXAxis = addXAxis;
var cartesianAxisReducer = exports.cartesianAxisReducer = cartesianAxisSlice.reducer;