As A. net developer, we all know the efficiency gap between String concatenation and StringBuilder in C. During development, you will also pay attention to using StringBuilder instead of the common String concatenation method. However, most developers may ignore this efficiency issue in js.
Let's take a performance test and talk about it with facts!
The Code is as follows:
Function xntest (){
Var d1 = new Date ();
Var str = "";
For (var I = 0; I <10000; I ++ ){
Str + = "stext ";
}
Var d2 = new Date ();
Document. write ("Time consumed by String concatenation:" + (d2.getTime ()-d1.getTime () + "millisecond ;");
D1 = new Date ();
Var sb = new StringBuilder ();
For (var I = 0; I <10000; I ++ ){
Sb. append ("stext ");
}
Var result = sb. toString ();
D2 = new Date ();
Document. write ("Time consumed in array mode:" + (d2.getTime ()-d1.getTime () + "millisecond ;");
}
//// Use the String concatenation function implemented by Array to facilitate c # developers to name StringBuilde for ease of understanding
Function StringBuilder (){
This. _ strings _ = new Array;
}
StringBuilder. prototype. append = function (str ){
This. _ strings _. push (str );
};
StringBuilder. prototype. toString = function (){
Return this. _ strings _. join ("");
};
After the xntest () function is executed three times, the result is:
String concatenation time: 735 milliseconds; array time: 62 milliseconds;
String concatenation time: 766 milliseconds; array time: 63 milliseconds;
String concatenation time: 703 milliseconds; array time: 63 milliseconds;
This example is a 10000-time String concatenation performance test. We believe that the results are obvious to all. If you are interested, you can test it on your own.
Therefore, in front-end development, we should also try to avoid large-scale String concatenation operations, and use arrays to reasonably improve code efficiency.