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A discussion earlier today led me to question whether or not my understanding of primtives and literals is correct.

My understanding is that a literal type is specifically a type which can have a value assigned using a notation that both human and compiler can understand without specific type declarations:

var firstName = "John"; // "John" is literal

var firstName = (string)"John"; // *if* the compiler didn't understand that "John"
                                // was a literal representation of a string then I
                                // would have to direct it as such

My understanding of primitives is that they are essentially the elemental datatypes which the compiler can understand, such as int:

int age = 25;

...a literal could be non-primitive, such as VB9's support for XML literals. A non-real world example would be if System.Drawing.Point could be assigned with literals:

Point somePoint = 2,2; // both X and Y are primitive values, however Point is a
                       // composite value comprised of two primitive values

Finally (and this is the question that in turn led me to ask the above questions): My understanding is that whether a type is primitive or literal there is no direct relation to whether it is a Value or Reference type.

For example System.String is a reference type which supports literals. Custom-defined structures are composite value types which do not support literals.

Is my understanding (if not my explanation) correct for the most part?

Update: Thanks for the great info and conversations! To anyone finding this, make sure to read the comments as well as answers, there's some great clarifications spread around as well as a few interesting side-notes.

btw: it's a toss-up between which answer really is deserving to get the big green check. I'm giving it to the unfortunately downvoted answer which contains not only a decent answer but lots of clarification and info in the comments thread. To be fair there isn't one best answer here, there's at least three :)

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+1 - good question for others to refer to. – JonH Jan 14 '10 at 17:42
It may be worth noting that the above example x, and y are primitives by definition however they belong to the Point class which when created is stored on the heap. Primitives which are stored on the stack in this case are allocated in the same principle as their object, in this case they reside on the heap. – JonH Jan 14 '10 at 17:44
@JonH - Point is a struct, not a class, so it is a value type. – mbeckish Jan 14 '10 at 21:37
Ok I thought he was user defining a class forgot about the Point:). You are right then. – JonH Jan 15 '10 at 12:57
up vote 1 down vote accepted

I guess one thing you did not mention is space and allocation. Primitives are value types and are allocated on the stack (as long as they are not associated with an object) except for the string type as you mentioned (the string class allocates its space on the heap).

Although objects themselves contain primitives there storage resides where the actual object is allocated, which is on the heap.

Other then that your statement is pretty well written. Do you have a specific question that I missed :)?

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Well don't be so discouraged I've read that book several times and I can tell you I do not completly understand it all the time. I guess its definately worth keeping and referencing. The page you are after is 52. Take a good look at that, otherwise I think you understand the concept very well but you are looking too much into it. Take it as that is just how it is :-). – JonH Jan 14 '10 at 17:37
Saying that "value types are allocated on the stack" is incorrect - it depends on the context. If the value is a member of a class, it will be on the heap for example. See P52 for more details... and Eric Lippert's great blog post: blogs.msdn.com/ericlippert/archive/2009/04/27/… – Jon Skeet Jan 14 '10 at 19:26
... and if it's any consolation to anyone, I don't completely understand the book all the time either, which is the fault of the writing rather than the reader :) – Jon Skeet Jan 14 '10 at 19:54
@JonH: Then you should also consider captured variables. They end up being compiled into fields in an object, but in C# source code terms they're still local variables... the C# spec doesn't define how they're captured. What I'm really trying to get at is that the generalisation of "value type values live on the stack" isn't a useful one to start with. What is useful is to know that the value of a value type variable is the data itself, whereas the value of a reference type variable is a reference to an object, or null. – Jon Skeet Jan 14 '10 at 21:07
@All, stack vs. heap is a silly debate when it comes to C#. In the days of C and C++ it mattered because it was possible to return pointers to the stack which then goes away and all other sorts of unfun things. In C#, stack vs. heap is abstracted away. If you run in to a problem because something is on the stack rather than the heap (or vice-versa) then (AFAIK) there is a bug in the compiler or the specification has a problem. – tster Jan 14 '10 at 22:04

I just wanted to inject a quick note here.

The C# language specification clearly defines "literal" -- a literal is a source code representation of a value. Literals are things like true, 10, 5.7, 'c', "hello" and null -- they are text that represents a specific value.

The C# language specification uses the word "primitive" twice; it is never defined and completely vague as to what it could possibly mean.

The C# language spec has no need to use or define the word "primitive" and therefore should not make use of this vague term. I've had a talk with Mads and we've agreed that future editions of the spec will be reworded to eliminate this usage completely.

How other type systems specifications -- the reflection library, the CLI, the VES, and so on -- define the word "primitive" is of course up to them.

Thanks for bringing up the question.

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Is my understanding (if not my explanation) correct for the most part?

I do not agree in one point: A literal is some kind of compile time constant (as "Hello World", 5 or 'A'). However, there are no "Literal-Types"; the literal always is the actual value.

Primitive types are IMO "basic" types like string, int, double, float, short, ...

So primitive have their types of literals connected with them.

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string isn't a primitive type. char is, though. – Powerlord Jan 14 '10 at 17:25
@R. Bemrose I was just going to say that. It is worth mentioning that string is a class System.String and that it resides on the heap as well. – JonH Jan 14 '10 at 17:27
I'm a little fuzzy on the "no literal types" comment. I think I understand what you're getting at, but isn't a string-literal "John Doe" imply that it is always a string? So some types support "literal notation" and literal notation implies type, but types themselves are not specifically 'literal'? – STW Jan 14 '10 at 17:27
String lives in a weird nebulous world of being a primitive and a class I think. Mostly because if you create two different strings that are set to the same value, they will actually point to the same memory on the heap. See the string.IsInterned() function. – Nick Jan 14 '10 at 17:54
String isn't a primitive type. It is completely a reference type. Two different strings set to the same value will only refer to the same instance if you're using string literals or call Intern. – Jon Skeet Jan 14 '10 at 19:27

Yes, a literal is a value expressed in source code - so while VB supports date/time and XML literals, C# doesn't.

From the C# spec, section 2.4.4:

A literal is a source code representation of a value.

As you say, this is unrelated to value type vs reference type - string is indeed a reference type.

One literal which no-one has mentioned yet it null by the way...

It's also unrelated to primitive types - from Type.IsPrimitive:

The primitive types are Boolean, Byte, SByte, Int16, UInt16, Int32, UInt32, Int64, UInt64, IntPtr, UIntPtr, Char, Double, and Single.

... the C# specification doesn't actually define the idea of a "primitive" type, but note that String isn't in the list above.

In terms of literals being compile-time constants... in C# every literal has a representation which can be baked directly into the assembly; the extra literals in VB mean they're not constants as the CLR would understand them - you can't have a const DateTime for example - but they're still literals.

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JonH did mention nullables, so null has been covered to a degree :) – STW Jan 14 '10 at 19:41
One question of curiousity... assuming I have a custom Type which I could represent as a literal--is there a way of adding support for custom-literals in .NET/Visual Studio? – STW Jan 14 '10 at 19:41
@Yoooder: That would be a change to the C# compiler - and no, it's not supported. Possibly in C# 5, who knows? :) – Jon Skeet Jan 14 '10 at 19:53
@Jon - In my post above I did mention the nullable types. – JonH Jan 14 '10 at 20:03
Interesting - in CLR via C#, Richter includes string and object as primitives. I don't have the book on me now, but I believe he defines primitives as the types with special compiler support to use the "int i" kind of syntax rather than "Int32 i = new Int32()". – mbeckish Jan 14 '10 at 20:44

Here is an MSDN page, talking about the CLS, that includes string as a primitive type:

The .NET Framework class library includes types that correspond to the primitive data types that compilers use. Of these types, the following are CLS-compliant: Byte, Int16, Int32, Int64, Single, Double, Boolean, Char, Decimal, IntPtr, and String. For more information about these types, see the table of types in .NET Framework Class Library Overview.

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Don't forget there also exists the ASP.Net Literal class.

EDIT: Thus, an answer to the question in the title is no, as there isn't a "Primitive" class that provides the same functionality. This can be viewed as a bit of a smart alec response, though.

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I think that Literal is different than the literal being discussed in this thread. The asp.net literal allows you to place words on a page like a label. We are referring to actual literals stored to say a string. – JonH Jan 14 '10 at 18:05
+1 for admitting to be a smart alec! – JonH Jan 14 '10 at 19:12

I think that your understanding is mostly correct. As winSharp93 said, literals are values which themselves have types, but there's no such thing as a "literal type". That is, while you can have string literals, strings are not a "literal type". As you have guessed, what defines a literal is that the value is directly written down in source code, although your requirement that no type needs to be specified seems overly strict (e.g. F# has array literals, and can infer the type of the array literal [| 1; 2; 3 |], but cannot necessarily infer the type of the empty array literal [| |]).

Unfortunately, I don't think that there is a well-agreed-upon definition of what makes a primitive. Certainly, as Jon Skeet points out, the CLR has its own definition of primitiveness (Type.IsPrimitive), which rules out strings. However, other reputable sources consider string and even object to be primitive types within C#. I prefer this definition, since there is built-in support in C# for strings, such as the use of the + operator for concatenation and the use of == as value equality rather than reference equality, as well as the fact that the string type can be referred to using the short form string rather than having to use the full name System.String.

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The use of == isn't "special" to string in particular - it's just an overloaded operator; you could write your own. + on the other hand is special (it uses String.Concat) and string literals are obviously special too. However, I don't see how they're really "primitive"... the fact is, the C# language specification doesn't give a definition of "primitive" so I don't think it's a good idea to pretend it does, if you see what I mean. – Jon Skeet Jan 14 '10 at 22:00
Just checking that article, it was written in the year 2000 - so the C# spec may have defined the term "primitive" back then, before it was really released. On the other hand, he repeats it in CLR via C# (P118). Given that it conflicts with the BCL definition, I don't think it's terribly helpful :( – Jon Skeet Jan 14 '10 at 22:08
@Jon Skeet: good point on == - I had forgotten that there was an op_Equality method on the string class. Although the C# spec doesn't provide an ironclad definition of what a "primitive" is, there are reasonably well-understood definitions which apply to multiple programming languages and can be used here (although there are certainly gray areas where we may not reach consensus). – kvb Jan 14 '10 at 22:10
@kvb: If there are grey areas, does it actually add any information? Especially given that the BCL has a very clear description which doesn't include object and string? In what way is a sequence of characters "primitive" in the first place? – Jon Skeet Jan 14 '10 at 23:23

Just to add that there is another type that blurs the limit: System.Decimal whose values can be expressed as literals in the C# language, but which is not a .Net primitive type.

IMHO primitive types could be simply defined as types that directly "exists" in every underlying platform/host: if you've already played with assembly language you know that you have bytes, words, double-words... but you have no strings or decimals.

Indeed .Net decimals are "emulated" by the .Net runtime and are not directly handled by the hardware which only understands IEEE 754 floating point numbers (float and doubles which are then primitive types).

By extension of the notion of literal values "Literal types" could be considered as any type whose values can be directly expressed in a given language (C#, VB.Net, CIL...). With this definition literal types would be: all the primitive types + strings + decimals.

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