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diff --git a/doc/tutorial_dts.dox b/doc/tutorial_dts.dox new file mode 100644 index 0000000..75b5172 --- /dev/null +++ b/doc/tutorial_dts.dox @@ -0,0 +1,109 @@ +/** +@page libtalloc_dts Chapter 3: Dynamic type system + +@section dts Dynamic type system + +Generic programming in the C language is very difficult. There is no inheritance +nor templates known from object oriented languages. There is no dynamic type +system. Therefore, generic programming in this language is usually done by +type-casting a variable to <code>void*</code> and transferring it through +a generic function to a specialized callback as illustrated on the next listing. + +@code +void generic_function(callback_fn cb, void *pvt) +{ + /* do some stuff and call the callback */ + cb(pvt); +} + +void specific_callback(void *pvt) +{ + struct specific_struct *data; + data = (struct specific_struct*)pvt; + /* ... */ +} + +void specific_function() +{ + struct specific_struct data; + generic_function(callback, &data); +} +@endcode + +Unfortunately, the type information is lost as a result of this type cast. The +compiler cannot check the type during the compilation nor are we able to do it +at runtime. Providing an invalid data type to the callback will result in +unexpected behaviour (not necessarily a crash) of the application. This mistake +is usually hard to detect because it is not the first thing which comes the +mind. + +As we already know, every talloc context contains a name. This name is available +at any time and it can be used to determine the type of a context even if we +lose the type of a variable. + +Although the name of the context can be set to any arbitrary string, the best +way of using it to simulate the dynamic type system is to set it directly to the +type of the variable. + +It is recommended to use one of talloc() and talloc_array() (or its +variants) to create the context as they set its name to the name of the +given type automatically. + +If we have a context with such as a name, we can use two similar functions that +do both the type check and the type cast for us: + +- talloc_get_type() +- talloc_get_type_abort() + +@section dts-examples Examples + +The following example will show how generic programming with talloc is handled - +if we provide invalid data to the callback, the program will be aborted. This +is a sufficient reaction for such an error in most applications. + +@code +void foo_callback(void *pvt) +{ + struct foo *data = talloc_get_type_abort(pvt, struct foo); + /* ... */ +} + +int do_foo() +{ + struct foo *data = talloc_zero(NULL, struct foo); + /* ... */ + return generic_function(foo_callback, data); +} +@endcode + +But what if we are creating a service application that should be running for the +uptime of a server, we may want to abort the application during the development +process (to make sure the error is not overlooked) and try to recover from the +error in the customer release. This can be achieved by creating a custom abort +function with a conditional build. + +@code +void my_abort(const char *reason) +{ + fprintf(stderr, "talloc abort: %s\n", reason); +#ifdef ABORT_ON_TYPE_MISMATCH + abort(); +#endif +} +@endcode + +The usage of talloc_get_type_abort() would be then: + +@code +talloc_set_abort_fn(my_abort); + +TALLOC_CTX *ctx = talloc_new(NULL); +char *str = talloc_get_type_abort(ctx, char); +if (str == NULL) { + /* recovery code */ +} +/* talloc abort: ../src/main.c:25: Type mismatch: + name[talloc_new: ../src/main.c:24] expected[char] */ +@endcode + +*/ |