this context is the DOM element that contains the chart: i.e. a
g element. Binding some variable to the DOM element, e.g.
this.myvar = state, provides a way to deal with chart specific state. Multiple update calls on one specific chart g element, will then all have access to the same variable.
Mike and Jason have used the property name
__chart__ in various charts and also in the d3 axis component, for keeping track of chart specific state.
You're right that in this case it's the scale that is being stored in the g element's
__chart__ property. See excerpt from bullet.js:
// Compute the new x-scale.
var x1 = d3.scale.linear()
.domain([0, Math.max(rangez, markerz, measurez)])
.range(reverse ? [width, 0] : [0, width]);
// Retrieve the old x-scale, if this is an update.
var x0 = this.__chart__ || d3.scale.linear()
// Stash the new scale.
this.__chart__ = x1;
So, a scale
x1 is determined based on the current data. It will be stored in
__chart__, to be used some time in the future when this chart is updated with new data.
The previous scale is taken from
this.__chart__ and kept in
this.__chart__ will return
undefined when the chart is just being constructed (i.e. the enter phase). In that case
x0 will instead become
d3.scale.linear().domain([0, Infinity]).range(x1.range()). See short circuit eval.
The old scale is needed for smooth transition. When new data points are entered, we first want to plot them on the chart using the old scale. After that we will transition all points (new and updated) according to the new scale.
Regarding the [0, Infinity] domain. So, a scale with this domain will only be used when the chart is just constructed. That means it provides a way to setup the initial transition when introducing the chart. A infinite domain with a finite range means that all points are scaled to 0. So, when the chart is set up, all points will be plotted at 0 and transition to the proper values according the x1 scale.