Following the question Extending String.prototype performance I am really intrigued, because just adding "use strict" to a String.prototype method improved performance 10 times. The explanation by bergi is short and does not explain it to me. Why there is such a dramatic difference between two almost identical methods, that only differ in "use strict" at the top? Can you explain in more detail and with the theory behind this?
String.prototype.count = function(char) {
var n = 0;
for (var i = 0; i < this.length; i++)
if (this[i] == char) n++;
return n;
};
String.prototype.count_strict = function(char) {
"use strict";
var n = 0;
for (var i = 0; i < this.length; i++)
if (this[i] == char) n++;
return n;
};
// Here is how I measued speed, using Node.js 6.1.0
var STR = '0110101110010110100111010011101010101111110001010110010101011101101010101010111111000';
var REP = 1e4;
console.time('proto');
for (var i = 0; i < REP; i++) STR.count('1');
console.timeEnd('proto');
console.time('proto-strict');
for (var i = 0; i < REP; i++) STR.count_strict('1');
console.timeEnd('proto-strict');Result:
proto: 101 ms
proto-strict: 7.5 ms
this[i] === charand see if you get the same difference?this[i] === charin a DOM environment and the result is the samecountfunction, thethisparameter has to be cast to a string object instead of a string literal whereas in strict mode it does not have to in order to operate correctly. Why this is the case is beyond me, I'm very interested in the answer.this, but in strict mode it skips that step, so you get the primitive string, or whatever was provided forthis."use strict";everywhere boys! Goooold