1. Why do you want to do this thing?
I personally recently always feel that writing the foreground code is a lot of plagiarism, and each copy of the place is from a different project, the time to knock code is often less than the time to find code;
Small program more aggravating the front-end JS in the programming of the component, learn, good summary is very necessary;
Sophisticated to eliminate the redundancy of the Code;
Sharing is a thing, the things of the Lele;
2, how to do this thing
From a large number of programs to select the most common JS method summary;
Find common methods on the Internet, collect;
Divided into large categories to summarize;
3. Major categories
Query Class (Ajax request, form request)
Check class (regular expression, date, check weight)
Data Conversion processing class (date class, String Class)
Cryptographic decryption Class (base64)
4. Start summarizing now
I. Query class (AJAX request, form request)
Ajax requests:
Requestjsonrs:function(URL, param, async, callback) {if(!param) {param= {} } varJsonobj =NULL; $.ajax ({type:"POST", DataType:"HTML", Url:url, Data:param, async: (Async? Async:false), Success:function(data) {Try{jsonobj= eval ("(" + Data + ")") } Catch(e) {jsonobj=NULL } if(callback) {callback (Jsonobj)}}, Error:function(XMLHttpRequest, Textstatus, Errorthrown) {jsonobj={rtmsg:"Ajax Request Error"}}, timeout:30000 }); returnJsonobj}
Second, check class (regular expression, date, check weight)
// Check your phone number function var str=document.getElementById (STR). value; Regularexpif (Regularexp.test (STR)) { returntrue else { alert ("phone number is not formatted correctly!) Should be a 11-bit length number! "); return false ; }}
Third, Data conversion processing class (date class, String Class)
Convert string to JSON format:
function (str) { var json = eval ("(" + str + ")"); return JSON }
Form converted to JSON format:
Formtojson:function(c, b) {varA = {}; if(!b) {$ (c). Find ("Input[name][disabled!=disabled]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=hidden][disabled!=disabled]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Textarea[name][disabled!=disabled]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Select[name][disabled!=disabled]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=checkbox][disabled!=disabled]"). each (function(d, e) {if($ (E). attr ("Checked") {a[$ (e). attr ("Name")] = 1 } Else{a[$ (e). attr ("Name")] = 0 } }); $ (c). Find ("Input[name][type=radio][disabled!=disabled]:checked"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=password][disabled!=disabled]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}) } Else{$ (c). Find ("Input[name]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=hidden]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Textarea[name]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Select[name]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=checkbox]"). each (function(d, e) {if($ (E). attr ("Checked") {a[$ (e). attr ("Name")] = 1 } Else{a[$ (e). attr ("Name")] = 0 } }); $ (c). Find ("Input[name][type=radio]:checked"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}); $ (c). Find ("Input[name][type=password]"). each (function(d, E) {a[$ (E). attr ("Name")] =$ (E). Val ()}) } returnA}
Iv. encryption and Decryption Class (base64)
Base64 bit Encryption
Define several concepts:
The charCodeAt () method returns the Unicode encoding of the character at the specified position. This return value is an integer between 0-65535.
fromCharCode () can accept a specified Unicode value and then return a string.
Encode64:function(d) {d=Strunicode2ansi (d); varb = "Abcdefghijklmnopqrstuvwxyzabcdefghijklmnopqrstuvwxyz0123456789+/="; varA = ""; varL, j, g = ""; varK, H, f, E = ""; varc = 0; Do{L= D.charcodeat (c + +); J= D.charcodeat (c + +); G= D.charcodeat (c + +); K= L >> 2; H= ((L & 3) << 4) | (J >> 4); F= ((J &) << 2) | (G >> 6); E= G & 63; if(IsNaN (j)) {f= e = 64 } Else { if(IsNaN (g)) {e= 64}} A= A + B.charat (k) + B.charat (h) + B.charat (f) +B.charat (e); L= j = g = ""; K= h = f = e = "" } while(C <d.length); returnA}functionStrunicode2ansi (g) {varc =g.length; varA = ""; for(vard = 0; D < C; d++) { varf =G.charcodeat (d); if(F < 0) {f+ = 65536 } if(F > 127) {f=Unicodetoansi (f)}if(F > 255) { varb = f & 65280; b= B >> 8; varE = f & 255; A+ = String.fromCharCode (b) +String.fromCharCode (e)}Else{a+=String.fromCharCode (f)}} returnA}
Force uppercase conversion to lowercase
functionif(event.keycode>=65 && event.keycode<=90) Event.keycode =event.keycode+32;}
Rounding a decimal
Decimalnum: Keep several digits after the decimal point
function roundfloat (str, decimalnum) { var sourcevalue=if (IsNaN (sourcevalue)) { alert ("sourcevalue illegal character"); document.getElementById (str). Value= ""; return var multiplyvalue=math.pow (Ten, parseint (Decimalnum)); document.getElementById (str). Valuereturn (Math.Round (multiplyvalue*sourcevalue))/multiplyvalue;}
The most practical and comprehensive tool class method at the front end