Difference between revisions of "KeyValues"

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Revision as of 11:23, 11 May 2010

File Format

The KeyValues format is used in the Source engine to store meta data for resources, scripts, materials, VGUI elements, and more. The KeyValues.h header in the Source SDK code defines the file format in the following manner

About KeyValues Text File Format:
It has 3 control characters '{', '}' and '"'. Names and values may be quoted or
not. The quote '"' charater must not be used within name or values, only for
quoting whole tokens. You may use escape sequences wile parsing and add within a
quoted token a \" to add quotes within your name or token. When using Escape
Sequence the parser must now that by setting KeyValues::UsesEscapeSequences( true ),
which it's off by default. Non-quoted tokens ends with a whitespace, '{', '}' and '"'.
So you may use '{' and '}' within quoted tokens, but not for non-quoted tokens.
An open bracket '{' after a key name indicates a list of subkeys which is finished
with a closing bracket '}'. Subkeys use the same definitions recursively.
Whitespaces are space, return, newline and tabulator. Allowed Escape sequences
are \n, \t, \\, \n and \". The number character '#' is used for macro purposes 
(eg #include), don't use it as first charater in key names.

Please note that the above is only an informal description of the format. It is not a definitive guide for how the format should be interpreted by parsers. It has not been tested whether the KeyValues parser in the Source SDK Code parses exactly as according to the above. The KeyValues parser might not handle very long keyvalues correctly.

It appears from the source code that:

  • You can use include statements in keyvalues scripts to include other text files.
    #import "file path"
    You can also use the base statement that appears to do the exact same thing.
    #base "file path"
  • You can use C++ style comments.
    // This is a comment until the line ends
  • There is no support for inline comments and they will not work as intended.
    /* This is an inline comment */
  • You can use conditional statements that will be ignored if non true, this will work on any key value and its children. If you prepend a key value statement with a [$X360] token or a [$WIN32] token it will be ignored depending on the platform in use.
  • Each token can be up to 1024 characters long (including null-termination, and double quotes, that will leave room for 1021 actual characters).


The KeyValues class handles data buffer input, file input, and file output.

A KeyValue is defined recursively as a named key either with a value or children. All keys have names set to them and a search can be performed by the names. If a KeyValue is a parent key, it contains other KeyValues.

Value Types

Note.png Note: The KeyValue type gets set automatically when a set value function (i.e. SetFloat) is called.


	"ValueKey1"	"1"

Important Notes

  • It is important to note that you must include filesystem.h. Not doing this will result in the inability to reliably call LoadFromFile and SaveToFile. Symptoms are crashes in datastore.dll or a fail-state.
  • SaveToFile will not save any keyvalues whose value string is empty, although these can be loaded without any problems.
  • In tier1/KeyValues.cpp, uncomment this line to hit the ~CLeakTrack assert to see what's looking like it's leaking
// #define LEAKTRACK
  • When you have completed using a KeyValues object, if you are unsure, check if is NULL and if not, call the object's deleteThis function.
  • If you, or any code utilizing the KeyValues object, fail to delete your KeyValues objects, you will end up with memory leaks.
  • Many instances of the usage of the KeyValues in the SDK do not call their deleteThis function, therefore making memory leaks.


This class is in tier1/KeyValues.cpp.

Replacing the deconstructor for the CLeakTrack class can help you stomp out KeyValues leaks when the engine shuts down.

		AssertMsg ( keys.Count() == 0, VarArgs("keys.Count() is %i",keys.Count()) );

		for(int x=0;x<keys.Count();x++)

When you do this in debug build, you should get told how many leaks you get when you shutdown the game. This number may vary for the amount of activity done within the game.

Although this modification can remove all leaked memory, it should not be relied on to take care of them. Some memory leaks are caused by the engine, so this is a last resort for those kinds of leaks.


ComboBox *pCombo = new ComboBox(...);
pCombo->AddItem("Text", new KeyValues("UserData", "Key", "Value"));

It's important to note that if you were to follow what is called by the AddItem function, you would see that the UserData KeyValues are copied, rather than used directly. Copying KeyValues is a common source of confusion of how your KeyValues objects are used, so make sure to follow where they go. If you are unsure, you could try calling the deleteThis function and see if the same functionality as before still exists.


ComboBox *pCombo = new ComboBox(...);
KeyValues *kv = new KeyValues("UserData", "Key", "Value");
pCombo->AddItem("Text", kv);

What not to do

ComboBox *pCombo = new ComboBox(...);
pCombo->AddItem("Text", new KeyValues("UserData", "Key", "Value"));
Button *pButton = new Button(...);
KeyValues *kv = new KeyValues("ButtonCommand");

Useful Traverses

The following loops are contained in the following function: void Traverse(KeyValues *pKV);

All Subkeys

for ( KeyValues *sub = pKV->GetFirstSubKey(); sub; sub = sub->GetNextKey() )
This loop steps through all subkeys contained in pKV.
To handle subkeys with their own subkeys in pKV, you may want use a recursive loop. To check if a subkey has subkeys, do the following:

All Values

for ( KeyValues *sub = pKV->GetFirstValue(); sub; sub = sub->GetNextValue() )
This loop steps through all subkeys contained in a pKV that have values.
It is also valid to use the KeyValues member function GetDataType in the loop to do a type specific traverse.