Steven Ickman's solution is handy, but incomplete. Danny Becket and Sam's answers are shorter and more manual, and fail in the same general case of having a callback that needs both dynamic and lexically scoped "this" at the same time. Skip to my code if my explanation below is TL;DR...
I need to preserve "this" for dynamic scoping for use with library callbacks, and I need to have a "this" with lexical scoping to the class instance. I argue that it is most elegant to pass the instance into a callback generator, effectively letting the parameter closure over the class instance. The compiler tells you if you missed doing so. I use a convention of calling the lexically scoped parameter "outerThis", but "self" or another name might be better.
The use of the "this" keyword is stolen from the OO world, and when TypeScript adopted it (from ECMAScript 6 specs I presume), they conflated a lexically scoped concept and a dynamically scoped concept, whenever a method is called by a different entity. I'm a little miffed at this; I would prefer a "self" keyword in TypeScript so that I can hand the lexically scoped object instance off of it. Alternately, JS could be redefined to require an explicit first-position "caller" parameter when it is needed (and thus break all web pages in one fell swoop).
Here's my solution (excised from a large class). Take a gander in particular at the way the methods are called, and the body of "dragmoveLambda" in particular:
export class OntologyMappingOverview {
initGraph(){
...
// Using D3, have to provide a container of mouse-drag behavior functions
// to a force layout graph
this.nodeDragBehavior = d3.behavior.drag()
.on("dragstart", this.dragstartLambda(this))
.on("drag", this.dragmoveLambda(this))
.on("dragend", this.dragendLambda(this));
...
}
dragmoveLambda(outerThis: OntologyMappingOverview): {(d: any, i: number): void} {
console.log("redefine this for dragmove");
return function(d, i){
console.log("dragmove");
d.px += d3.event.dx;
d.py += d3.event.dy;
d.x += d3.event.dx;
d.y += d3.event.dy;
// Referring to "this" in dynamic scoping context
d3.select(this).attr("transform", function(d) { return "translate(" + d.x + "," + d.y + ")"; });
outerThis.vis.selectAll("line")
.filter(function(e, i){ return e.source == d || e.target == d; })
.attr("x1", function(e) { return e.source.x; })
.attr("y1", function(e) { return e.source.y; })
.attr("x2", function(e) { return e.target.x; })
.attr("y2", function(e) { return e.target.y; });
}
}
dragging: boolean =false;
// *Call* these callback Lambda methods rather than passing directly to the callback caller.
dragstartLambda(outerThis: OntologyMappingOverview): {(d: any, i: number): void} {
console.log("redefine this for dragstart");
return function(d, i) {
console.log("dragstart");
outerThis.dragging = true;
outerThis.forceLayout.stop();
}
}
dragendLambda(outerThis: OntologyMappingOverview): {(d: any, i: number): void} {
console.log("redefine this for dragend");
return function(d, i) {
console.log("dragend");
outerThis.dragging = false;
d.fixed = true;
}
}
}