Related
I am trying to use JavaScript to solve the linear equation with variables.
So my try is this:
var CE = parseFloat(document.getElementById("CE").value)
var CF = parseFloat(document.getElementById("CF").value)
var EF = parseFloat(document.getElementById("EF").value)
var x1=algebra.parse("CE^2+2*EF*x-EF^2");
var x2=algebra.parse("CF^2");
var eq= new Equation(x1,x2);
var h=eq.solveFor("x");
I know I should not put the valuable in "" mark, but I do not know where I should put them.
Please help me. Thank you!
You can use template String in ES-6 to simplify writing these complicated string.
var x1=algebra.parse(`${CE}^2+2*${EF}*x-${EF}^2`);
var x2=algebra.parse(`${CF}^2`);
var eq= new Equation(x1,x2);
var h=eq.solveFor("x");
Can someone format the code below so that I can set srcript variables with c# code using razor?
The below does not work, i've got it that way to make is easy for someone to help.
#{int proID = 123; int nonProID = 456;}
<script type="text/javascript">
#{
<text>
var nonID =#nonProID;
var proID= #proID;
window.nonID = #nonProID;
window.proID=#proID;
</text>
}
</script>
I am getting a design time error
You should take a look at the output that your razor page is resulting. Actually, you need to know what is executed by server-side and client-side. Try this:
#{
int proID = 123;
int nonProID = 456;
}
<script>
var nonID = #nonProID;
var proID = #proID;
window.nonID = #nonProID;
window.proID = #proID;
</script>
The output should be like this:
Depending what version of Visual Studio you are using, it point some highlights in the design-time for views with razor.
Since razor syntax errors can become problematic while you're working on the view, I totally get why you'd want to avoid them. Here's a couple other options.
<script type="text/javascript">
// #Model.Count is an int
var count = '#Model.Count';
var countInt = parseInt('#Model.ActiveLocsCount');
</script>
The quotes act as delimiters, so the razor parser is happy. But of course your C# int becomes a JS string in the first statement. For purists, the second option might be better.
If somebody has a better way of doing this without the razor syntax errors, in particular maintaining the type of the var, I'd love to see it!
This is how I solved the problem:
#{int proID = 123; int nonProID = 456;}
<script type="text/javascript">
var nonID = Number(#nonProID);
var proID = Number(#proID);
</script>
It is self-documenting and it doesn't involve conversion to and from text.
Note: be careful to use the Number() function not create new Number() objects - as the exactly equals operator may behave in a non-obvious way:
var y = new Number(123); // Note incorrect usage of "new"
var x = new Number(123);
alert(y === 123); // displays false
alert(x == y); // displays false
I've seen several approaches to working around the bug, and I ran some timing tests to see what works for speed (http://jsfiddle.net/5dwwy/)
Approaches:
Direct assignment
In this approach, the razor syntax is directly assigned to the variable. This is what throws the error. As a baseline, the JavaScript speed test simply does a straight assignment of a number to a variable.
Pass through `Number` constructor
In this approach, we wrap the razor syntax in a call to the `Number` constructor, as in `Number(#ViewBag.Value)`.
ParseInt
In this approach, the razor syntax is put inside quotes and passed to the `parseInt` function.
Value-returning function
In this approach, a function is created that simply takes the razor syntax as a parameter and returns it.
Type-checking function
In this approach, the function performs some basic type checking (looking for null, basically) and returns the value if it isn't null.
Procedure:
Using each approach mentioned above, a for-loop repeats each function call 10M times, getting the total time for the entire loop. Then, that for-loop is repeated 30 times to obtain an average time per 10M actions. These times were then compared to each other to determine which actions were faster than others.
Note that since it is JavaScript running, the actual numbers other people receive will differ, but the importance is not in the actual number, but how the numbers compare to the other numbers.
Results:
Using the Direct assignment approach, the average time to process 10M assignments was 98.033ms. Using the Number constructor yielded 1554.93ms per 10M. Similarly, the parseInt method took 1404.27ms. The two function calls took 97.5ms for the simple function and 101.4ms for the more complex function.
Conclusions:
The cleanest code to understand is the Direct assignment. However, because of the bug in Visual Studio, this reports an error and could cause issues with Intellisense and give a vague sense of being wrong.
The fastest code was the simple function call, but only by a slim margin. Since I didn't do further analysis, I do not know if this difference has a statistical significance. The type-checking function was also very fast, only slightly slower than a direct assignment, and includes the possibility that the variable may be null. It's not really practical, though, because even the basic function will return undefined if the parameter is undefined (null in razor syntax).
Parsing the razor value as an int and running it through the constructor were extremely slow, on the order of 15x slower than a direct assignment. Most likely the Number constructor is actually internally calling parseInt, which would explain why it takes longer than a simple parseInt. However, they do have the advantage of being more meaningful, without requiring an externally-defined (ie somewhere else in the file or application) function to execute, with the Number constructor actually minimizing the visible casting of an integer to a string.
Bottom line, these numbers were generated running through 10M iterations. On a single item, the speed is incalculably small. For most, simply running it through the Number constructor might be the most readable code, despite being the slowest.
#{
int proID = 123;
int nonProID = 456;
}
<script>
var nonID = '#nonProID';
var proID = '#proID';
window.nonID = '#nonProID';
window.proID = '#proID';
</script>
One of the easy way is:
<input type="hidden" id="SaleDateValue" value="#ViewBag.SaleDate" />
<input type="hidden" id="VoidItem" value="#Model.SecurityControl["VoidItem"].ToString()" />
And then get the value in javascript:
var SaleDate = document.getElementById('SaleDateValue').value;
var Item = document.getElementById('VoidItem').value;
I found a very clean solution that allows separate logic and GUI:
in your razor .cshtml page try this:
<body id="myId" data-my-variable="myValue">
...your page code here
</body>
in your .js file or .ts (if you use typeScript) to read stored value from your view put some like this (jquery library is required):
$("#myId").data("my-variable")
Not so much an answer as a cautionary tale: this was bugging me as well - and I thought I had a solution by pre-pending a zero and using the #(...) syntax. i.e your code would have been:
var nonID = 0#(nonProID);
var proID = 0#(proID);
Getting output like:
var nonId = 0123;
What I didn't realise was that this is how JavaScript (version 3) represents octal/base-8 numbers and is actually altering the value. Additionally, if you are using the "use strict"; command then it will break your code entirely as octal numbers have been removed.
I'm still looking for a proper solution to this.
It works if you do something like this:
var proID = #proID + 0;
Which produces code that is something like:
var proID = 4 + 0;
A bit odd for sure, but no more fake syntax errors at least.
Sadly the errors are still reported in VS2013, so this hasn't been properly addressed (yet).
I've been looking into this approach:
function getServerObject(serverObject) {
if (typeof serverObject === "undefined") {
return null;
}
return serverObject;
}
var itCameFromDotNet = getServerObject(#dotNetObject);
To me this seems to make it safer on the JS side... worst case you end up with a null variable.
This should cover all major types:
public class ViewBagUtils
{
public static string ToJavascriptValue(dynamic val)
{
if (val == null) return "null";
if (val is string) return val;
if (val is bool) return val.ToString().ToLower();
if (val is DateTime) return val.ToString();
if (double.TryParse(val.ToString(), out double dval)) return dval.ToString();
throw new ArgumentException("Could not convert value.");
}
}
And in your .cshtml file inside the <script> tag:
#using Namespace_Of_ViewBagUtils
const someValue = #ViewBagUtils.ToJavascriptValue(ViewBag.SomeValue);
Note that for string values, you'll have to use the #ViewBagUtils expression inside single (or double) quotes, like so:
const someValue = "#ViewBagUtils.ToJavascriptValue(ViewBag.SomeValue)";
I use a very simple function to solve syntax errors in body of JavaScript codes that mixed with Razor codes ;)
function n(num){return num;}
var nonID = n(#nonProID);
var proID= n(#proID);
This sets a JavaScript var for me directly from a web.config defined appSetting..
var pv = '#System.Web.Configuration.WebConfigurationManager.AppSettings["pv"]';
With
var jsVar = JSON.parse(#Html.Raw(Json.Serialize(razorObject)));
you can parse any razor object into a JavaScript object.
It's long but universal
Can anyone tell me the use of document.frmReport in JavaScript code?
My application uses this but I don't have any information about this. Besides, it is an HTML DOM object from what I've searched on the internet. A speedy answer would be very helpful. The code is like this:
function fnAddItems(strSource,strTarget)
{
var f = document.frmReport;
var doAdd;
var objSourceCombo = eval("document.frmReport."+strSource);
var objTargetCombo = eval("document.frmReport."+strTarget);
var selSourceLen = objSourceCombo.length;
var selTargetLen = objTargetCombo.length;
var strSourceText;
var strSourceValue;
var arrIDs;
var arrIDs1;
var IsMultipleSelected;
var strFormat;
}
document.frmReport returns undefined for me. Also, there's no official documentation about it, and it's not in the specs.
So my guess is it's something that's added to the document object earlier in your application by someone else, and is being used now.
Look for document.frmReport = something (probably an object)
Do you understand why relying on eval and global variables is a bad practice now?
Can someone format the code below so that I can set srcript variables with c# code using razor?
The below does not work, i've got it that way to make is easy for someone to help.
#{int proID = 123; int nonProID = 456;}
<script type="text/javascript">
#{
<text>
var nonID =#nonProID;
var proID= #proID;
window.nonID = #nonProID;
window.proID=#proID;
</text>
}
</script>
I am getting a design time error
You should take a look at the output that your razor page is resulting. Actually, you need to know what is executed by server-side and client-side. Try this:
#{
int proID = 123;
int nonProID = 456;
}
<script>
var nonID = #nonProID;
var proID = #proID;
window.nonID = #nonProID;
window.proID = #proID;
</script>
The output should be like this:
Depending what version of Visual Studio you are using, it point some highlights in the design-time for views with razor.
Since razor syntax errors can become problematic while you're working on the view, I totally get why you'd want to avoid them. Here's a couple other options.
<script type="text/javascript">
// #Model.Count is an int
var count = '#Model.Count';
var countInt = parseInt('#Model.ActiveLocsCount');
</script>
The quotes act as delimiters, so the razor parser is happy. But of course your C# int becomes a JS string in the first statement. For purists, the second option might be better.
If somebody has a better way of doing this without the razor syntax errors, in particular maintaining the type of the var, I'd love to see it!
This is how I solved the problem:
#{int proID = 123; int nonProID = 456;}
<script type="text/javascript">
var nonID = Number(#nonProID);
var proID = Number(#proID);
</script>
It is self-documenting and it doesn't involve conversion to and from text.
Note: be careful to use the Number() function not create new Number() objects - as the exactly equals operator may behave in a non-obvious way:
var y = new Number(123); // Note incorrect usage of "new"
var x = new Number(123);
alert(y === 123); // displays false
alert(x == y); // displays false
I've seen several approaches to working around the bug, and I ran some timing tests to see what works for speed (http://jsfiddle.net/5dwwy/)
Approaches:
Direct assignment
In this approach, the razor syntax is directly assigned to the variable. This is what throws the error. As a baseline, the JavaScript speed test simply does a straight assignment of a number to a variable.
Pass through `Number` constructor
In this approach, we wrap the razor syntax in a call to the `Number` constructor, as in `Number(#ViewBag.Value)`.
ParseInt
In this approach, the razor syntax is put inside quotes and passed to the `parseInt` function.
Value-returning function
In this approach, a function is created that simply takes the razor syntax as a parameter and returns it.
Type-checking function
In this approach, the function performs some basic type checking (looking for null, basically) and returns the value if it isn't null.
Procedure:
Using each approach mentioned above, a for-loop repeats each function call 10M times, getting the total time for the entire loop. Then, that for-loop is repeated 30 times to obtain an average time per 10M actions. These times were then compared to each other to determine which actions were faster than others.
Note that since it is JavaScript running, the actual numbers other people receive will differ, but the importance is not in the actual number, but how the numbers compare to the other numbers.
Results:
Using the Direct assignment approach, the average time to process 10M assignments was 98.033ms. Using the Number constructor yielded 1554.93ms per 10M. Similarly, the parseInt method took 1404.27ms. The two function calls took 97.5ms for the simple function and 101.4ms for the more complex function.
Conclusions:
The cleanest code to understand is the Direct assignment. However, because of the bug in Visual Studio, this reports an error and could cause issues with Intellisense and give a vague sense of being wrong.
The fastest code was the simple function call, but only by a slim margin. Since I didn't do further analysis, I do not know if this difference has a statistical significance. The type-checking function was also very fast, only slightly slower than a direct assignment, and includes the possibility that the variable may be null. It's not really practical, though, because even the basic function will return undefined if the parameter is undefined (null in razor syntax).
Parsing the razor value as an int and running it through the constructor were extremely slow, on the order of 15x slower than a direct assignment. Most likely the Number constructor is actually internally calling parseInt, which would explain why it takes longer than a simple parseInt. However, they do have the advantage of being more meaningful, without requiring an externally-defined (ie somewhere else in the file or application) function to execute, with the Number constructor actually minimizing the visible casting of an integer to a string.
Bottom line, these numbers were generated running through 10M iterations. On a single item, the speed is incalculably small. For most, simply running it through the Number constructor might be the most readable code, despite being the slowest.
#{
int proID = 123;
int nonProID = 456;
}
<script>
var nonID = '#nonProID';
var proID = '#proID';
window.nonID = '#nonProID';
window.proID = '#proID';
</script>
One of the easy way is:
<input type="hidden" id="SaleDateValue" value="#ViewBag.SaleDate" />
<input type="hidden" id="VoidItem" value="#Model.SecurityControl["VoidItem"].ToString()" />
And then get the value in javascript:
var SaleDate = document.getElementById('SaleDateValue').value;
var Item = document.getElementById('VoidItem').value;
I found a very clean solution that allows separate logic and GUI:
in your razor .cshtml page try this:
<body id="myId" data-my-variable="myValue">
...your page code here
</body>
in your .js file or .ts (if you use typeScript) to read stored value from your view put some like this (jquery library is required):
$("#myId").data("my-variable")
Not so much an answer as a cautionary tale: this was bugging me as well - and I thought I had a solution by pre-pending a zero and using the #(...) syntax. i.e your code would have been:
var nonID = 0#(nonProID);
var proID = 0#(proID);
Getting output like:
var nonId = 0123;
What I didn't realise was that this is how JavaScript (version 3) represents octal/base-8 numbers and is actually altering the value. Additionally, if you are using the "use strict"; command then it will break your code entirely as octal numbers have been removed.
I'm still looking for a proper solution to this.
It works if you do something like this:
var proID = #proID + 0;
Which produces code that is something like:
var proID = 4 + 0;
A bit odd for sure, but no more fake syntax errors at least.
Sadly the errors are still reported in VS2013, so this hasn't been properly addressed (yet).
I've been looking into this approach:
function getServerObject(serverObject) {
if (typeof serverObject === "undefined") {
return null;
}
return serverObject;
}
var itCameFromDotNet = getServerObject(#dotNetObject);
To me this seems to make it safer on the JS side... worst case you end up with a null variable.
This should cover all major types:
public class ViewBagUtils
{
public static string ToJavascriptValue(dynamic val)
{
if (val == null) return "null";
if (val is string) return val;
if (val is bool) return val.ToString().ToLower();
if (val is DateTime) return val.ToString();
if (double.TryParse(val.ToString(), out double dval)) return dval.ToString();
throw new ArgumentException("Could not convert value.");
}
}
And in your .cshtml file inside the <script> tag:
#using Namespace_Of_ViewBagUtils
const someValue = #ViewBagUtils.ToJavascriptValue(ViewBag.SomeValue);
Note that for string values, you'll have to use the #ViewBagUtils expression inside single (or double) quotes, like so:
const someValue = "#ViewBagUtils.ToJavascriptValue(ViewBag.SomeValue)";
I use a very simple function to solve syntax errors in body of JavaScript codes that mixed with Razor codes ;)
function n(num){return num;}
var nonID = n(#nonProID);
var proID= n(#proID);
This sets a JavaScript var for me directly from a web.config defined appSetting..
var pv = '#System.Web.Configuration.WebConfigurationManager.AppSettings["pv"]';
With
var jsVar = JSON.parse(#Html.Raw(Json.Serialize(razorObject)));
you can parse any razor object into a JavaScript object.
It's long but universal
This is killing me! I'm trying to add the values of four fields together, and I get allllll kinds of wierd results!
The code I have so far:
$('input.percent').change(function() {
var totalup = 1;
var totalup = totalup*1;
$('input.percent').each(function(){
var current = $(this).val();
var curvalue = current * 1;
console.log(curvalue);
console.log(totalup);
var totalup = curvalue + totalup;
});
});
This should be ungodly simply. Start with a value of zero, get the value of each input, add it to that totaling value. The console log always shows UNDECLARED or NaN for totalup, but if I remove the last decleration of totalup (where it adds more to totalup) it suddenly doesn't become undefined or Nan.
Why is this not ungodly simply!!! I must be missing something dumb, or Javascript just STINKS!
Thanks in advance for your help!
var percentInputs = $('input.percent');
percentInputs.change(function() {
var total = 0;
percentInputs.each(function(){
total += Number($(this).val());
});
});
Update
Caching those selectors would be a good idea too.
the main problem is the declaration of already declared fields. Leaf the var keyword for the second and third assignment of totalup and it'll work.
add the parseInt() while the calculation for an example
var totalup = parseInt(curvalue) + parseInt(totalup);
Okay! Here is where the issue was arising!!!!
When you write:
var FOO = 'whatever';
...Inside of a function, it is a LOCAL VARIABLE! If however you simply go:
FOO = 'whatever';
You hit the global variable (variable declared outside of the function).
So while the code above is the solution, this is where the explained solution to the problem exists!