Most efficient way to store an unsigned 16-bit Integer to a file

I'm making a dictionary compressor in C with dictionary max size 64000. Because of this, I'm storing my entries as 16-bit integers.

What I'm currently doing: To encode 'a', I get its ASCII value, 97, and then convert this number into a string representation of the 16-bit integer of 97. So I end up encoding '0000000001100001' for 'a', which obviously isn't saving much space in the short run.

I'm aware that more efficient versions of this algorithm would start with smaller integer sizes (less bits of storage until we need more), but I'm wondering if there's a better way to either

1. Convert my integer '97' into an ASCII string of fixed length that can store 16 bits of data (97 would be x digits, 46347 would also be x digits)

2. writing to a file that can ONLY store 1s and 0s. Because as it is, it seems like I'm writing 16 ascii characters to a text file, each of which is 8 bits...so that's not really helping the cause much, is it?

Please let me know if I can be more clear in any way. I'm pretty new to this site. Thank you!

EDIT: How I store my dictionary is entirely up to me as far as I know. I just know that I need to be able to easily read the encoded file back and get the integers from it.

Also, I can only include stdio.h, stdlib.h, string.h, and header files I wrote for the program.

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"Most efficient way to store an unsigned 16-bit Integer to a file" - `write(fd, &the_integer, sizeof(the_integer));` –  user529758 Mar 20 '13 at 17:01
Just skip the ASCII conversions. A 2 byte integer should occupy 2 bytes in the file. –  Drew Dormann Mar 20 '13 at 17:04
I don't suppose you have the slightest desire to make this dictionary platform independent? If so, run the `uint16_t` values you're going to store through `htons()` before storing them, and through `ntohs()` when reading them back. Though not part of the standard library, these are part of POSIX.1-2001, and likely available on your implementation. –  WhozCraig Mar 20 '13 at 17:07
perform binary file writing method. that means to say what the variable occupies in memory, it occupies in the file. which also means size of the file = no of bytes(provided no file formating exists). –  Koushik Mar 20 '13 at 17:08
@Koushik the file format OP needs to write to only takes string 0 and 1s. It's a text file, not a binary one –  Zadirion Mar 20 '13 at 17:08

Please, do ignore these people who are suggesting that you "write directly to the file". There are a number of issues with that, which ultimately fall into the category of "integer representation".

Suppose you write `unsigned int`s directly to a file using system X which uses 32-bit ints and big endian representation, you'll end up with issues reading that file on system Y which uses 16-bit ints and little endian representation, or system Z which uses 64-bit ints with mixed endian representation and 32 padding bits.

C was developed with abstractions in mind that allow you to express your algorithm portably, so that you don't have to write different code for each OS! Here's an example of reading and converting four hex digits to an `unsigned int` value, portably:

``````unsigned int value;
assert(fscanf(fd, "%04x", &value) == 1);
``````

Here's how I'd write that value, portably:

``````value &= 0xFFFF;
fprintf(fd, "%04x", value);
``````

Supposing your `unsigned int` values occupy two bytes, here's how I'd read those two bytes, portably, using big endian representation:

``````int hi = fgetc(fd);
int lo = fgetc(fd);
unsigned int value = 0;
assert(hi >= 0 && lo >= 0);
value += hi & 0xFF; value <<= 8;
value += lo & 0xFF;
``````

... and here's how I'd write those two bytes, in their big endian order:

``````fputc((value >> 8) & 0xFF, fd);
fputc(value & 0xFF, fd);
``````

Perhaps you're more interested in little endian. The neat thing is, the code really isn't that different. Here's input:

``````int lo = fgetc(fd);
int hi = fgetc(fd);
unsigned int value = 0;
assert(hi >= 0 && lo >= 0);
value += hi & 0xFF; value <<= 8;
value += lo & 0xFF;
``````

... and here's output:

``````fputc(value & 0xFF, fd);
fputc((value >> 8) & 0xFF, fd);
``````
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What you are contemplating is to utilize ASCII characters in saving your numbers, this is completely unnecessary and most inefficient.

The most space efficient way to do this (without utilizing complex algorithms) would be to just dump the bytes of the numbers into the file (the number of bits would have to depend on the largest number you intend to save. Or have multiple files for 8bit, 16bit etc.

Then when you read the file you know that your numbers are located per x # of bits so you just read them out one by one or in a big chunk(s) and then just make the chunk(s) into an array of a type that matches x # of bits.

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The largest number I intend to save is 64000, so how would I dump the bytes of the numbers into the file with this in mind? Thanks for your help so far! –  Ethan Roseman Mar 20 '13 at 18:43
size_t fwrite(const void *ptr, size_t size_of_elements, size_t number_of_elements, FILE *a_file); –  dingrite Mar 20 '13 at 18:46
fwrite(&anything, sizeof(anything), 1, myfile); –  dingrite Mar 20 '13 at 18:48
Not portable! Suppose one system writes 2 bytes, another system reads 4... Is this how C is written in the workplace? If I were a lecturer I'd fail any students who use this... –  undefined behaviour Mar 20 '13 at 19:56
Why would another system read 4? It's only for his system and if he knows it will be 2 bytes there is no danger no matter what system you use so long as you tell it it's 2 bytes with is easy to do with integer types, __int16 comes to mind. –  dingrite Mar 20 '13 at 20:51