/** * @class Ext.chart.axis.segmenter.Numeric * @extends Ext.chart.axis.segmenter.Segmenter * * Numeric data type. */Ext.define('Ext.chart.axis.segmenter.Numeric', { extend: 'Ext.chart.axis.segmenter.Segmenter', alias: 'segmenter.numeric', isNumeric: true, renderer: function (value, context) { return value.toFixed(Math.max(0, context.majorTicks.unit.fixes)); }, diff: function (min, max, unit) { return Math.floor((max - min) / unit.scale); }, align: function (value, step, unit) { return Math.floor(value / (unit.scale * step)) * unit.scale * step; }, add: function (value, step, unit) { return value + step * unit.scale; }, preferredStep: function (min, estStepSize) { // Getting an order of magnitude of the estStepSize with a common logarithm. var order = Math.floor(Math.log(estStepSize) * Math.LOG10E), scale = Math.pow(10, order); estStepSize /= scale; if (estStepSize < 2) { estStepSize = 2; } else if (estStepSize < 5) { estStepSize = 5; } else if (estStepSize < 10) { estStepSize = 10; order++; } return { unit: { // When passed estStepSize is less than 1, its order of magnitude // is equal to -number_of_leading_zeros in the estStepSize. fixes: -order, // Number of fractional digits. scale: scale }, step: estStepSize }; }, /** * Wraps the provided estimated step size of a range without altering it into a step size object. * * @param {*} min The start point of range. * @param {*} estStepSize The estimated step size. * @return {Object} Return the step size by an object of step x unit. * @return {Number} return.step The step count of units. * @return {Object} return.unit The unit. */ exactStep: function (min, estStepSize) { var order = Math.floor(Math.log(estStepSize) * Math.LOG10E), scale = Math.pow(10, order); return { unit: { // add one decimal point if estStepSize is not a multiple of scale fixes: -order + (estStepSize % scale === 0 ? 0 : 1), scale: 1 }, step: estStepSize } }, adjustByMajorUnit: function (step, scale, range) { var min = range[0], max = range[1], increment = step * scale, remainder = min % increment; if (remainder !== 0) { range[0] = min - remainder + (min < 0 ? -increment : 0); } remainder = max % increment; if (remainder !== 0) { range[1] = max - remainder + (max > 0 ? increment : 0); } }});