diff options
author | pommicket <pommicket@gmail.com> | 2023-02-28 19:39:06 -0500 |
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committer | pommicket <pommicket@gmail.com> | 2023-02-28 19:39:06 -0500 |
commit | 52ba910a48a4dd2abb798c3c998ecb0e006c1895 (patch) | |
tree | 5fa4b3fb1e28ee1027aaa02a78ddf9b9bd7b59f5 /ds.h | |
parent | 5e92dac7b8ff9d60bfa3dcc69c3f77663a01aea4 (diff) |
doxygen documentation
Diffstat (limited to 'ds.h')
-rw-r--r-- | ds.h | 56 |
1 files changed, 32 insertions, 24 deletions
@@ -1,8 +1,7 @@ -#ifndef DS_H_ -#define DS_H_ +/*! +\file +\brief VARIOUS DATA STRUCTURES -/* -VARIOUS DATA STRUCTURES - dynamic array - string builder - string hash table @@ -13,7 +12,7 @@ any reasonable compiler will ignore the unused code. functions in this file suffixed with _ are not meant to be used outside here, unless you know what you're doing -NOTE: even on 64-bit platforms, dynamic arrays can only hold ~2^32 elements. +NOTE: even on 64-bit platforms, dynamic arrays can only hold ~2<sup>32</sup> elements. IMPORTANT NOTE: If you are using this with structures containing `long double`s, do #define ARR_LONG_DOUBLE @@ -23,6 +22,9 @@ IMPORTANT NOTE: If you are using this with structures containing `long double`s, which isnt important unless you're making a lot of arrays.) */ +#ifndef DS_H_ +#define DS_H_ + #include <stdint.h> #include <stdlib.h> #include <string.h> @@ -208,19 +210,18 @@ static void *arr_copy_(const void *arr, size_t member_size) { #endif #define arr__join2(a,b) a##b -#define arr__join(a,b) arr__join2(a,b) // macro used internally -// if the array is not NULL, free it and set it to NULL +/// macro used internally +#define arr__join(a,b) arr__join2(a,b) +/// if the array is not NULL, free it and set it to NULL #define arr_free(a) do { if (a) { free(arr_hdr_(a)); (a) = NULL; } } while (0) -// a nice alias +/// a nice alias #define arr_clear(a) arr_free(a) -// add an item to the array - if allocation fails, the array will be freed and set to NULL. -// (how this works: if we can successfully grow the array, increase the length and add the item.) +/// add an item to the array - if allocation fails, the array will be freed and set to NULL. +/// (how this works: if we can successfully grow the array, increase the length and add the item.) #define arr_add(a, x) do { if (((a) = arr_cast_typeof(a) arr_grow1_((a), sizeof *(a)))) ((a)[arr_hdr_(a)->len++] = (x)); } while (0) -// like arr_add, but instead of passing it the value, it returns a pointer to the value. returns NULL if allocation failed. -// the added item will be zero-initialized. +/// like arr_add, but instead of passing it the value, it returns a pointer to the value. returns NULL if allocation failed. +/// the added item will be zero-initialized. #define arr_addp(a) arr_cast_typeof(a) arr_add_ptr_((void **)&(a), sizeof *(a)) -// set the length of `a` to `n`, increasing the capacity if necessary. -// the newly-added elements are zero-initialized. #define arr_qsort(a, cmp) qsort((a), arr_len(a), sizeof *(a), (cmp)) #define arr_remove_last(a) do { assert(a); if (--arr_hdr_(a)->len == 0) arr_free(a); } while (0) #define arr_remove(a, i) (void)((a) = arr_remove_((a), sizeof *(a), (i))) @@ -234,15 +235,21 @@ static void *arr_copy_(const void *arr, size_t member_size) { #define arr_copy(a) arr_cast_typeof(a) arr_copy_((a), sizeof *(a)) #define arr_foreach_ptr_end(a, type, var, end) type *end = (a) + arr_len(a); \ for (type *var = (a); var != end; ++var) -// Iterate through each element of the array, setting var to a pointer to the element. -// You can't use this like, e.g.: -// if (something) -// arr_foreach_ptr(a, int, i); -// You'll get an error. You will need to use braces because it expands to multiple statements. -// (we need to name the end pointer something unique, which is why there's that arr__join thing -// we can't just declare it inside the for loop, because type could be something like char *.) +/// Iterate through each element of the array, setting `var` to a pointer to the element. +/// +/// You can't use this like, e.g.: +/// ``` +/// if (something) +/// arr_foreach_ptr(a, int, i) +/// thing(*i); +/// ``` +/// You'll get an error. You will need to use braces because it expands to multiple statements. +/// (we need to name the end pointer something unique, which is why there's that `arr__join` thing +/// we can't just declare it inside the for loop, because type could be something like `char *`.) #define arr_foreach_ptr(a, type, var) arr_foreach_ptr_end(a, type, var, arr__join(_foreach_end,__LINE__)) - +/// Reverse array. +/// +/// You need to pass in the type because we don't have `typeof` in C yet (coming in C23 supposedly!) #define arr_reverse(a, type) do { \ u64 _i, _len = arr_len(a); \ for (_i = 0; 2*_i < _len; ++_i) { \ @@ -255,9 +262,10 @@ static void *arr_copy_(const void *arr, size_t member_size) { } \ } while (0) -// Ensure that enough space is allocated for n elements. +/// Ensure that enough space is allocated for `n` elements. #define arr_reserve(a, n) arr_reserve_((void **)&(a), sizeof *(a), (n)) -// Similar to arr_reserve, but also sets the length of the array to n. +/// set the length of `a` to `n`, increasing the capacity if necessary. +/// the newly-added elements are zero-initialized. #define arr_set_len(a, n) arr_set_len_((void **)&(a), sizeof *(a), (n)) #ifndef NDEBUG |