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/// Fixed-size strings with value semantics.
#pragma once
#include <cassert.h>
#ifdef __linux__
#include <bsd/string.h>
#else
#include <string.h>
#endif
#include <stdbool.h>
#include <stdint.h>
#include <stdio.h>
// -----------------------------------------------------------------------------
// Fix-sized strings.
/// A fixed-size string.
/// The string is null-terminated so that it can be used with the usual C APIs.
#define DEF_STRING(STRING, SIZE) \
typedef struct STRING { \
size_t length; \
char str[SIZE]; \
} STRING; \
\
static const size_t STRING##_size = SIZE; \
\
static inline const char* STRING##_cstr(const STRING* str) { \
return str->str; \
} \
\
static inline size_t STRING##_length(const STRING* str) { \
return str->length; \
} \
\
static inline STRING STRING##_make(const char* cstr) { \
if (!cstr) { \
return (STRING){0}; \
} else { \
STRING str = (STRING){0}; \
str.length = strlcpy(str.str, cstr, SIZE); \
return str; \
} \
} \
\
static inline STRING STRING##_make_empty() { return (STRING){0}; } \
\
static inline STRING STRING##_dirname(const STRING path) { \
STRING str = path; \
for (int i = str.length - 1; i >= 0; --i) { \
if (str.str[i] == '/' || str.str[i] == '\\') { \
str.str[i] = 0; \
str.length = i; \
return str; \
} else { \
str.str[i] = 0; \
} \
} \
str = (STRING){0}; \
str.str[0] = '.'; \
str.length = 1; \
return str; \
} \
\
static inline void STRING##_append_cstr_len( \
STRING* a, const char* b, const size_t b_length) { \
ASSERT(a->length + b_length + 1 <= SIZE); \
strlcpy(a->str + a->length, b, SIZE - a->length); \
a->length += b_length; \
} \
\
static inline void STRING##_append_cstr(STRING* a, const char* b) { \
STRING##_append_cstr_len(a, b, strlen(b)); \
} \
\
static inline void STRING##_append(STRING* a, const STRING b) { \
STRING##_append_cstr_len(a, b.str, b.length); \
} \
\
static inline STRING STRING##_concat_cstr_len( \
const STRING a, const char* b, const size_t b_length) { \
ASSERT(a.length + b_length + 1 <= SIZE); \
STRING str = {0}; \
STRING##_append_cstr_len(&str, a.str, a.length); \
STRING##_append_cstr_len(&str, b, b_length); \
return str; \
} \
\
static inline STRING STRING##_concat_cstr(const STRING a, const char* b) { \
return STRING##_concat_cstr_len(a, b, strlen(b)); \
} \
\
static inline STRING STRING##_concat(const STRING a, const STRING b) { \
return STRING##_concat_cstr_len(a, b.str, b.length); \
} \
\
static inline STRING STRING##_concat_path(const STRING a, const STRING b) { \
return STRING##_concat(STRING##_concat_cstr(a, "/"), b); \
} \
\
static inline STRING STRING##_slice( \
const STRING a, const size_t start, const size_t end) { \
ASSERT(start < a.length); \
ASSERT(end <= a.length); \
STRING str = {0}; \
strlcpy(str.str, &a.str[start], end - start); \
return str; \
} \
\
static inline bool STRING##_eq_cstr_len( \
const STRING a, const char* b, size_t b_length) { \
return (a.length == b_length) && strncmp(a.str, b, a.length) == 0; \
} \
\
static inline bool STRING##_eq_cstr(const STRING a, const char* b) { \
return STRING##_eq_cstr_len(a, b, strlen(b)); \
} \
\
static inline bool STRING##_eq(const STRING a, const STRING b) { \
return STRING##_eq_cstr_len(a, b.str, b.length); \
} \
\
static inline bool STRING##_empty(const STRING a) { return a.length == 0; } \
\
static inline STRING STRING##_itoa(int n) { \
STRING str = (STRING){0}; \
const int written = snprintf(str.str, SIZE, "%d", n); \
ASSERT(written >= 0); \
str.length = (size_t)written; \
return str; \
} \
\
static inline uint64_t STRING##_hash(const STRING str) { \
return cstring_hash(str.str); \
}
/// Return a hash of the given string.
static inline uint64_t cstring_hash(const char* str) {
uint64_t hash = 0;
for (size_t i = 0; i < strlen(str); ++i) {
hash = (uint64_t)str[i] + (hash << 6) + (hash << 16) - hash;
}
return hash;
}
DEF_STRING(sstring, 32) // Small.
DEF_STRING(mstring, 256) // Medium.
DEF_STRING(lstring, 1024) // Large.
DEF_STRING(xlstring, 4096) // Extra large.
// -----------------------------------------------------------------------------
// Dynamically-sized strings.
typedef struct string {
const char* data;
size_t length;
} string;
/// Create a new string.
string string_new(const char*);
/// Delete the string.
void string_del(string*);
/// Get the string's length.
static inline size_t string_length(const string str) { return str.length; }
/// Get the string's data.
static inline const char* string_data(const string str) { return str.data; }
/// Concatenate two strings.
string string_concat(string left, string right);
/// Convert a size to string.
string string_from_size(size_t);
/// Convert and format a size to string.
/// The result uses B for bytes, K for kilobytes (1024), M for megabytes
/// (2**20), and G for gigabytes (2**30), with two decimal digits.
string string_format_size(size_t);
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