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I have a function that casts a double on string values.

string variable = "5.00"; 

double varDouble = (double)variable;

A code change was checked in and the project builds with the error: System.InvalidCastException: Specified cast is not valid.

However, after doing the following...

string variable = "5.00"; 

double varDouble = Convert.ToDouble(variable);

...the project builds without any errors.

What is the difference between casting and using the Convert.To() method? Why does casting throw an Exception and using the Convert.To() does not?

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marked as duplicate by Gage, AD7six, Bob Kaufman, hohner, Nate Mar 13 '13 at 23:12

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

    
sounds like this 1. When to use a Cast or Convert 2. Casting vs Convert Methods –  spajce Mar 13 '13 at 19:17
3  
In regards to a referenced question, the OP asks when to use a cast or convert, and the accepted answer states, "It is really a matter of choice whichever you use." I am asking for the difference between a cast vs. a convert. In my opinion, the answers below (kudos SO!) provide more detail about the differences vs. "using this or that by choice"...and this detail could be used to make a more informed choice, in essence. –  edmastermind29 Mar 13 '13 at 19:56
    
@edmastermind29 there is not much difference between "what is the difference between x and y" and "when to use x and y" in programming context. Both mutually answers the other. –  nawfal Nov 29 '13 at 12:00

7 Answers 7

up vote 11 down vote accepted

Even if you may see them somehow as equivalent they're completely different in purpose. Let's first try to define what a cast is:

Casting is the action of changing an entity of one data type into another.

It's little bit generic and it's somehow equivalent to a conversion because actually a cast is a conversion so the question should be when a cast (implicit or explicit) is allowed by the Language and when you have to use a (more) explicit conversion?

Topic is pretty vaste, let's try to narrow a little bit, at first we exclude custom cast operators from the game.

Implicit casts

In C# a cast is implicit when you won't lose any information (please note that this check is performed with types and not with their actual values).

Primitive types

For example:

int tinyInteger = 10;
long bigInteger = tinyInteger;

float tinyReal = 10.0f;
double bigReal = tinyReal;

These casts are implicit because during the conversion you won't lose any information (you just make the type wider). Vice versa implicit cast isn't allowed because, regardless their actual values (because they can be checked only at run-time), during conversion you may lose some information. For example this code won't compile because a double may contain (and actually it does) a value not representable with a float:

double bigReal = Double.MaxValue;
float tinyReal = bigReal;

Objects

In case of an object (a pointer to) the cast is always implicit when the compiler can be sure that the source type is a derived class (or it implements) the type of the target class, for example:

string text = "123";
IFormattable formattable = text;

NotSupportedException derivedException = new NotSupportedException();
Exception baseException = derivedException;

In this case the compiler knows that string implements IFormattable and that NotSupportedException is (derives from) Exception so the cast is implicit. No information is lost because objects doesn't change their types (this is different with structs and primitive types because with a cast you create a new object of another type), what changes is your view of them.

Explicit casts

A cast is explicit when the conversion isn't done implicitly by the compiler and then you must use the cast operator. Usually it means that:

  • You may lose information or data so you have to be aware of it.
  • Conversion may fail (because you can't convert one type to the other) so, again, you must be aware of what you're doing.

Primitive types

An explicit cast is required for primitive types when during conversion you may lose some data, for example:

double precise = Math.Cos(Math.PI * 1.23456) / Math.Sin(1.23456);
float coarse = (float)precise;

float epsilon = (float)Double.Epsilon;

In both examples, even if values fall within the float range, you'll lose information (in this case precision) so the conversion must be explicit. Now try this:

float max = (float)Double.MaxValue;

This conversion will fail so, again, it must be explicit so you're aware of it and you may do a check (in the example value is constant but it may come from some run-time computations or I/O). Back to your example:

string text = "123";
double value = (double)text;

This won't compile because compiler can't convert text to numbers. Text may contains any characters, not numbers only and this is too much, in C#, even for an explicit cast (but it may be allowed in another language).

Objects

Conversion from pointers (to objects) may fail if types are unrelated, for example this code won't compile (because compiler knows there is no possible conversion):

string text = (string)AppDomain.Current;
Exception exception = (Exception)"abc";

This code will compile but it may fail at run-time (it depends on the effective type of casted objects) with an InvalidCastException:

object obj = GetNextObjectFromInput();
string text = (string)obj;

obj = GetNextObjectFromInput();
Exception exception = (Exception)obj;

Conversions

So, finally, if casts are conversion then why we need classes like Convert are needed? Ignoring subtle differences that comes from Convert implementation and IConvertible implementations actually because in C# with a cast you say to the compiler:

trust me, this type is that type even if you can't know it now, let me do it and you'll see.

-or-

don't worry, I don't care something will be lost in this conversion.

For anything else a more explicit operation is needed (think about implications of easy casts, that's why C++ introduced long, verbose and explicit syntax for them). This may involve a complex operation (for string -> double conversion a parsing will be needed). Conversion to string, for example, is always possible (via ToString() method) but it may mean something different from what you expect so it must be more explicit than a cast (more you write, more you think about what you're doing).

This conversion can be done inside the object (using known IL instructions for that), using custom conversion operators (defined in the class to cast) or more complex mechanisms (TypeConverters or class methods, for example). You're not aware of what will happen to do that but you're aware it may fail (that's why IMO when a more controlled conversion is possible you should use it). In your case the conversion simply will parse the string to produce a double:

double value = Double.Parse(aStringVariable);

Of course this may fail so if you do it you should always catch the exception it may throw (FormatException). It's out of topic here but if when a TryParse is available then you should use it (because semantically you say it may not be a number and it's even faster...to fail).

Conversions in .NET can come from a lot of places, TypeConverter, implicit/explicit casts with user defined conversion operators, implementation of IConvertible and parsing methods (did I forget something?). Take a look on MSDN for more details about them.

To finish this long answer just few words about user defined conversion operators. It's just sugar to let the programmer use a cast to convert one type to another. It's a method inside a class (the one that will be casted) that says "hey, if he/she wants to convert this type to that type then I can do it". For example:

float? maybe = 10; // Equals to Nullable<float> maybe = 10;
float sure1 = (float)maybe; // With cast
float sure2 = maybe.Value; // Without cast

In this case it's explicit because it may fail but this is let to the implementation (even if there are guidelines about this). Imagine you write a custom string class like this:

EasyString text = "123"; // Implicit from string
double value = (string)text; // Explicit to double

In your implementation you may decide to "make programmer's life easier" and to expose this conversion via a cast (remember it's just a shortcut to write less). Some Language may even allow this:

double value = "123";

Allowing implicit conversion to any type (check will be done at run-time). With proper options this can be done, for example, in VB.NET. It's just a different phylosophy.

What can I do with them?

So the final question is when you should use one or another. Let's see when you can use an explicit cast:

  • Conversions between base types.
  • Conversions from object to any other type (this may include unboxing too).
  • Conversions from a derived class to a base class (or to an implemented interface).
  • Conversions from one type to another via custom conversion operators.

Only the first conversion can be done with Convert so for the others you have no choice and you need to use an explicit cast.

Let's see now when you can use Convert:

  • Conversions from any base type to another base type (with some limitations, see MSDN).
  • Conversions from any type that implements IConvertible to any other (supported) type.
  • Conversions from/to a byte array to/from a string.

Conclusions

IMO Convert should be used each time you know a conversion may fail (because of format, because of range or because it may be unsupported), even if the same conversion can be done with a cast (unless something else is available). It makes clear to who will read your code what's your intent and that it may fail (simplifying debug).

For everything else you need to use a cast, no choice, but if another better method is available then I suggest you use it. In your example a conversion from string to double is something that (especially if text comes from user) very often will fail so you should make it as much explicit as possible (moreover you get more control over it), for example using a TryParse method.

Edit: what's the difference between them?

According to updated question and keeping what I wrote before (about when you can use a cast compared to when you can/have to use Convert) then last point to clarify is if there are difference between them (moreover Convert uses IConvertible and IFormattable interfaces so it can perform operations not allowed with casts).

Short answer is yes, they behave different. I see the Convert class like a helper methods class so often it provides some benefit or slightly different behaviors. For example:

double real = 1.6;
int castedInteger = (int)real; // 1
int convertedInteger = Convert.ToInt32(real); // 2

Pretty different, right? Cast truncates (it's what we all expect) but Convert performs a rounding to nearest integer (and this may not be expected if you're not aware of it). Each conversion method introduces differences so a general rule can't be applied and they must be seen case by case...19 base types to convert to every other type...list can be pretty long, much better to consult MSDN case by case!

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I changed the question to ask, Difference between casting and using the Convert.To() method. Otherwise, very comprehensive answer. (I hope my question is reopened...) –  edmastermind29 Mar 14 '13 at 13:34
    
@edmastermind29 I edited little bit the question, topic is too long even for a long answer (300+ possible conversions to list). Convert adds benefits (or just unexpected behaviors?) not only vs casts but vs "plain" IConvertible and IFormattable interfaces too. –  Adriano Repetti Mar 14 '13 at 14:19
    
I dislike the notion borrowed from C that double values which do not represent whole numbers should be "convertible" to int. A cast would seem the appropriate paradigm in cases where e.g. one is retrieving Int32 values from a double[] which holds a mix of real numbers and Int32 values that have been converted to double [an attempt to convert a value that isn't representable precisely in int32 would indicate an unexpected condition and should trigger an exception], but I would think that when one wants a lossy conversion one should be specific about the form one wants. –  supercat Oct 29 '13 at 15:53
    
@supercat I think (even if I can't imagine all implications) you're perfectly right. In a true type safe environment it should be like that and a data-loss operation should throw/fail unless it's an explicit request (then programmer is conscious of all its implications). Well this may make most of people too disappointed... –  Adriano Repetti Oct 29 '13 at 16:01
    
Given the values (-1.5, 1.5) there are four sensible ways one could want them rounded: truncate toward zero (-1,1), truncate toward negative infinity (-2,1), round toward even (-2,2), and round periodic (-1, 2). Or one might prefer that the system throw an exception if trying to convert to integer anything that isn't a whole number. The code someInt = (int)someDouble; gives no clue about whether someDouble is expected to be a whole number, or what behavior would really be preferred if it isn't; someInt = someDouble.ToInt32TowardZero(); makes the intent much clearer. –  supercat Oct 29 '13 at 16:02

Casting is a way of telling the compiler, "I know that you think that this variable is a Bar, but I happen to know more than you; the object is actually a Foo, so let me treat it as if it were a Foo from now on." Then, at runtime, if the actual object turned out to really be a Foo then your code works, if it turns out that the object was not a Foo at all, then you get an exception. (Specifically an System.InvalidCastException.)

Converting on the other hand is a way of saying, "If you give me an object of type Bar I can create a brand new Foo object that represents what is in that Bar object. I won't change the original object, it won't treat the original object differently, it will create something new that is just based on some other value. As to how it will do that, it could be anything. In the case of Convert.ToDouble it will end up calling Double.Parse which has all sorts of complex logic for determining what types of strings represent what numeric values. You could write your own conversion method that mapped strings to doubles differently (perhaps to support some entirely different convention for displaying numbers, such as roman numerals or whatever). A conversion could do anything, but the idea is that you're not really asking the compiler to do anything for you; you are the one writing the code to determine how to create the new object because the compiler, without your help, has no way of knowing how to map (as an example) a string to a double.

So, when do you convert, and when do you cast? In both cases we have some variable of a type, let's say A, and we want to have a variable of type B. If our A object really, actually, under the hood, is a B, then we cast. If it's not really a B, then we need to Convert it, and define how the program is supposed to get a B from an A.

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The Convert.Double method actually just internally calls the Double.Parse(string) method.

Neither the String type nor the Double type define an explicit/implicit conversion between the two types, so casting will always fail.

The Double.Parse method will look at each character in the string and build a numeric value based on the values of the characters in the string. If any of the characters are invalid, the Parse method fails (causing the Convert.Double method to fail as well).

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1  
And how does this differ from an explicit cast? –  edmastermind29 Mar 13 '13 at 18:59
3  
An explicit cast doesn't look at what the data type is, it just looks at the bytes. An example would be casting char x = '1' to an integer, the integer would be 49 because the cahracter '1' is #49 in the ascii table –  user1751547 Mar 13 '13 at 19:02
    
@user1751547 So, would the user of a Convert.ToDouble() look beyond bytes and consider the data? –  edmastermind29 Mar 13 '13 at 19:03
    
@user1751547 I think that's the kind of intuition that is required in properly answering this question. Simply saying "it's not defined" is a little moot. –  Ant P Mar 13 '13 at 19:04
    
@edmastermind29 Yes, it would look at the input type, and if it was a string it would go through each character, knowing that if the char's ascii value was 49, then it is the '1' character and convert it properly –  user1751547 Mar 13 '13 at 19:06

In your example you are attempting to cast a string to a double (non integral type).

An explicit conversion is required for it to work.

And i must point that you could have used Convert.ToDouble instead of Convert.ToInt64 as you can lose the fractional parts of the double value when you convert to an int.

if your variable has the value "5.25" varDouble would have been 5.00 (loss of 0.25 because of the Conversion to Int64)

To answer your question about casting vs converting.

Your cast (an explicit cast) doesn't meet the requirements for an explicit cast. the value you are trying to cast with the cast operator is invalid (i.e non integral).

Visit this MSDN Page for the rules of casting / conversions

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@edmastermind29 i've updated my answer. i hope it answers your question. –  scartag Mar 13 '13 at 19:14
    
What are the requirements for an explicit cast...as related to my question? Is it in regards to the "non integral" value? –  edmastermind29 Mar 13 '13 at 19:19
    
@edmastermind29 Yes. if the value you are trying to cast to a numeric type is non-numeric, the cast is invalid.. a conversion is required. –  scartag Mar 13 '13 at 19:28

Casting does not involve any conversion, i.e. the internal representation of a value is not changed. Example:

object o = "Hello"; // o is typed as object and contains a string.
string s = (string)o; // This works only if o really contains a string or null.

You can convert a double to string like this

double d = 5;
string s = d.ToString(); // -> "5"

// Or by specifying a format
string formatted = d.ToString("N2"); // -> "5.00"

You can convert a string to a double in several ways (here just two of them):

string s = "5";
double d = Double.Parse(s); // Throws an exception if s does not contain a valid number

Or the safe way

string s = "5";
double d;
if (Double.TryParse(s, out d)) {
    Console.WriteLine("OK. Result = {0}", d);
} else {
    Console.WriteLine("oops!");
}
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Convert.ToDouble() internally calls Double.Parse(). Is it to my advantage to use Convert.ToDouble() over Double.Parse() or not and why? –  edmastermind29 Mar 13 '13 at 19:31
    
Convert.ToDouble has a lot of overloads that accept different types of input. The overload accepting string returns 0.0 if a null string is passed. Apart from this, I see no adavantage in using it. –  Olivier Jacot-Descombes Mar 13 '13 at 19:44
    
So, either or...or does Double.Parse() have something to offer that I should consider? –  edmastermind29 Mar 13 '13 at 19:50
    
Double.Parse() is more direct than Convert.ToDouble(). If you are sure that your string will contain a valid number, you can safely use it, otherwise I advise you to use Double.TryParse. –  Olivier Jacot-Descombes Mar 13 '13 at 19:57
string variable = "5.00";     
double varDouble = (double)variable;

Above conversion is simply not allowed by language. Here is a list of explicit casts for numerical types: http://msdn.microsoft.com/en-us/library/yht2cx7b.aspx As you can see, even not every numerical type could be converted to another numerical type

Some more info about casting here

And how does this differ to Convert.ToDouble()?

When you cast a type, data structure is not changed. Well, in case of numerical values conversion it you may loose few bits or get few additional 0 bits. But you are still working with a number. You are just changing an amount of memory taken by that number. That is safe enough for compiler do everything needed.

But when you are trying to cast string to a number, you can't do that because it is not enough to change amount of memory taken by variable. For instance, 5.00 as a string is a sequence of "numbers":53(5) 46(.) 48(0) 48(0) - that is for ASCII, but string will contain something similar. If compiler will just take first N (4 for double? not sure) bytes from a string - that piece will contain completely different double number. At the same time Convert.ToDouble() run special algorithm which will take each symbol of a string, figure out digit which it represents and make a double number for you, if string represents a number. Languages like PHP will, roughly speaking, call Convert.ToDouble for you in background. But C#, like a statically typed language, will not do that for you. This allows you to be sure that any operation is type safe and you will not get something unexpected doing something like:

double d = (double)"zzzz"
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@edmastermind29 see my updated answer. I've tried to explain it. Explanation is far from perfect, but suppose it explain the difference. –  FAngel Mar 13 '13 at 19:53

Casting a string to a double like that is not allowed C# which is why you get an Exception, you need to have the string converted (MSDN doc that shows acceptable conversion paths). This is simply because a string isn't necessarily going to contain numeric data, but the various numeric types will (barring null values). A Convert will run a method that will check the string to see if it can be turned into a numeric value. If it can, then it will return that value. If it can't, it'll throw an exception.

To convert it, you have several options. You used the Convert method in your question, there's Parse which is largely similar to Convert, but you should also look at TryParse which would allow you to do:

string variable = "5.00"; 

double varDouble;

if (Double.TryParse(variable, out varDouble)) {
    //Code that runs if the conversion succeeded.
} else {
    //Code that runs if the conversion failed.
}

This avoids the possible exception should you try to Convert or Parse a non-numerical string.

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Is it to my advantage to use a TryParse over Convert because TryParse checks if the conversion succeeds? –  edmastermind29 Mar 13 '13 at 19:39
    
@edmastermind29 I think so. Convert will throw an exception if the conversion fails. TryParse will return a boolean, True if the conversion succeeds and False if it fails. –  Keen Mar 13 '13 at 19:44

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