/* vim: set expandtab ts=4 sw=4: */ /* * You may redistribute this program and/or modify it under the terms of * the GNU General Public License as published by the Free Software Foundation, * either version 3 of the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #ifndef String_H #define String_H #include "benc/Object.h" #include "memory/Allocator.h" #include "util/CString.h" #include "util/Linker.h" Linker_require("benc/String.c"); #include #include // NULL /** * Create a new bencoded string from a C null terminated string. * This implementation will make a copy of the string into the memory provided by the allocator. * * @param bytes the beginning of a memory location containing the string to use. * @param allocator a means of getting the memory to store the string object. * @return a bencoded string. */ String* String_new(const char* bytes, struct Allocator* allocator); /** * Create a new bencoded constant string on the stack. */ #define String_CONST(x) (&(String) { .bytes = x, .len = CString_strlen(x) }) /** For use outside of functions with compile time constant strings. */ #define String_CONST_SO(x) (&(String) { .bytes = x, .len = sizeof(x) - 1 }) #define String_OBJ(x) (&(Object) { .type = Object_STRING, .as.string = x }) /** * Create a new bencoded string from a set of bytes. * This implementation will make a copy of the string into the memory provided by the allocator. * * @param bytes the beginning of a memory location containing thre string to use. if NULL then this will make a new string of null characters. * @param length the number of bytes to use from the location. * @param allocator a means of getting the memory to store the string object. * @return a bencoded string. */ String* String_newBinary(const char* bytes, uintptr_t length, struct Allocator* allocator); #define String_clone(string, alloc) \ ((string) ? String_newBinary(string->bytes, string->len, alloc) : NULL) /** * Create a new bencoded string from a format and arguments. * EG: String_printf("this is on line number %d!", allocator, __LINE__); * * @param allocator a means of getting the memory to store the string object. * @param format standard printf formatting. * @params arguments to the printf() function. * @return a bencoded string. */ String* String_printf(struct Allocator* allocator, const char* format, ...); #ifdef va_start /** * Same as String_printf() except the arguments are passed as a va_list. * Only enabled if stdarg.h is included before String.h. */ String* String_vprintf(struct Allocator* allocator, const char* format, va_list args); #endif /** * Compare 2 bencoded strings. * If the first differing character is numerically smaller for input a then * a negative number is returned, if the first differing character is numerically * smaller for input b then a positive number. If all characters in a and b are * the same then the difference in length (a->len - b->len) is returned. * If a is NULL and b is not NULL then a negative is returned, if b is NULL and a * not NULL then a positive is returned, if both NULL then 0. * * @param a the first string to compare. * @param b the second string to compare. * @return the output from comparison, 0 if and only if they are equal. */ int String_compare(const String* a, const String* b); /** * Will return true if and only if the String_compare() would return 0. * * @param a the first string to compare. * @param b the second string to compare. * @return !(String_compare(a, b)) */ int String_equals(const String* a, const String* b); #endif