ref: affae6de24bf5bb8c5d9f49aa5e9c970c5f2a36b
dir: /DUMBFILE_SYSTEM.md/
Specification of DUMBFILE_SYSTEM ================================ DUMB is designed filesystem-agnostic, even though the C standard library already defines an abstraction over files on a disk. This is useful because Allegro 4 and 5 define their own abstractions. To register your own filesystem abstraction with DUMB, you must create an instance of struct `DUMBFILE_SYSTEM`, fill in your own function pointers according to the specification below, and call `register_dumbfile_system` on your instance. The header `dumb.h` defines `DUMBFILE_SYSTEM` as a struct of function pointers: ``` typedef struct DUMBFILE_SYSTEM { void *(*open)(const char *filename); int (*skip)(void *f, dumb_off_t n); int (*getc)(void *f); dumb_ssize_t (*getnc)(char *ptr, size_t n, void *f); void (*close)(void *f); int (*seek)(void *f, dumb_off_t n); dumb_off_t (*get_size)(void *f); } DUMBFILE_SYSTEM; ``` Here, `dumb_off_t` is a signed integer at least 64 bits wide, it is intended to measure file offsets. The return type `dumb_ssize_t` is a signed integer exactly as wide as `size_t`, it is intended to store either a `size_t` or a negative error code. Both `dumb_*_t` are defined in `dumb.h`. The function pointers `skip` and `getnc` are optional, i.e., you may set some of these to `NULL` in your struct instance. DUMB will then try to mimick the missing functions' behavior by calling your `getc` several times. If DUMB is built with debugging flags, it will assert that all other functions are not `NULL`. In release mode, DUMB will silently fail. Your non-`NULL` function pointers must conform to the following specification. open ---- ``` void *(*open)(const char *filename); ``` Open a file for reading. Arguments: * `const char *filename`: A normal filename as understood by the operating system. Will be opened for reading. Returns as `void *`: * the address of a file handle on successfully opening the file. DUMB will pass this file handle as argument to other functions of the `DUMBFILE_SYSTEM`. * `NULL` on error during opening the file. Each file has a *position* internally managed by DUMB. A newly opened file has a position of 0. Other functions from the `DUMBFILE_SYSTEM` can move this position around. DUMB allocates memory for the successfully opened file, and will store opaque information in that memory, e.g., the DUMB-internal file position. This memory be freed when DUMB calls `close` on the file's handle. The memory is separate from your own filesystem implementation: You are responsible for supplying the data, and DUMB is responsible for storing anything about interpreting that data. skip ---- ``` int (*skip)(void *f, dumb_off_t n); ``` Advance the position in the file. Arguments: * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. * `dumb_off_t n`: Number of bytes to advance in the file. DUMB will only call this with `n >= 0`. For `n < 0`, the behavior of `skip` is undefined. Returns as `int`: * `0` on successfully skipping ahead by `n` bytes. * `-1` on error. It is legal to set `skip = NULL` in a `DUMBFILE_SYSTEM`. DUMB will then call `getc` a total of `n` times to skip ahead in a file. For speed, it is advisable to supply a proper `skip` implementation. getc ---- ``` int (*getc)(void *f); ``` Read a byte from the file. Arguments: * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. Returns as `int`: * the value of the byte read, on successfully reading one byte. * `-1` on error. After a succesful read, DUMB will treat the file as advanced by one byte. getnc ----- ``` dumb_ssize_t (*getnc)(char *ptr, size_t n, void *f); ``` Read up to the given number of bytes from the file into a given buffer. * `char *ptr`: The start of a buffer provided by DUMB. * `size_t n`: The length of the number of bytes to be read. * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. Returns as `dumb_ssize_t`: * the number of bytes successfully read, if it was possible to read at least one byte. * `-1` on error, when it was not possible to read even a single byte. This function shall bytes from the file `f` and store them in sequence in the buffer beginning at `ptr`. It shall read fewer than `n` bytes if end of file is encountered before `n` bytes could have been read, otherwise it should read `n` bytes. It is legal to set `skip = NULL` in a `DUMBFILE_SYSTEM`. DUMB will then call `getc` a total of `n` times and store the results in its buffer. close ----- ``` void (*close)(void *f); ``` Closes a file that has been opened before with `open`. Arguments: * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. DUMB will deallocate the memory that it used to interpret the file. You are free to treat your resource however you would like: You may deallocate it, or keep it around for other things. For example, Allegro 5's implementation of `close` takes a void pointer and does nothing with it at all. seek ---- ``` int (*seek)(void *f, dumb_off_t n); ``` Jump to an arbitrary position in the file. Arguments: * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. * `dumb_off_t n`: The position in the file, relative to the beginning. There is no guarantee whether `n >= 0`. Returns as `int`: * `0` on successfully seeking in the file. * `-1` on error. DUMB will modify its internal position of the file accordingly. A value of `n < 0` shall set the file into an erroneous state from which no bytes can be read. get_size -------- ``` dumb_off_t (*get_size)(void *f); ``` Get the length in bytes, i.e., the position after the final byte, of a file. Arguments: * `void *f`: A file handle that `open` returned. Guaranteed non-`NULL`. Returns as `dumb_off_t`: * the length of the file in bytes.