/* SDS (Simple Dynamic Strings), A C dynamic strings library. * * Copyright (c) 2006-2014, Salvatore Sanfilippo * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * * Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Redis nor the names of its contributors may be used * to endorse or promote products derived from this software without * specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include #include #include #include #include #include "sds.h" #include "zmalloc.h" /* Create a new sds string with the content specified by the 'init' pointer * and 'initlen'. * If NULL is used for 'init' the string is initialized with zero bytes. * * The string is always null-termined (all the sds strings are, always) so * even if you create an sds string with: * * mystring = sdsnewlen("abc",3"); * * You can print the string with printf() as there is an implicit \0 at the * end of the string. However the string is binary safe and can contain * \0 characters in the middle, as the length is stored in the sds header. */ sds sdsnewlen(const void *init, size_t initlen) { struct sdshdr *sh; if (init) { sh = zmalloc(sizeof(struct sdshdr)+initlen+1); } else { sh = zcalloc(sizeof(struct sdshdr)+initlen+1); } if (sh == NULL) return NULL; sh->len = initlen; sh->free = 0; if (initlen && init) memcpy(sh->buf, init, initlen); sh->buf[initlen] = '\0'; return (char*)sh->buf; } /* Create an empty (zero length) sds string. Even in this case the string * always has an implicit null term. */ sds sdsempty(void) { return sdsnewlen("",0); } /* Create a new sds string starting from a null termined C string. */ sds sdsnew(const char *init) { size_t initlen = (init == NULL) ? 0 : strlen(init); return sdsnewlen(init, initlen); } /* Duplicate an sds string. */ sds sdsdup(const sds s) { return sdsnewlen(s, sdslen(s)); } /* Free an sds string. No operation is performed if 's' is NULL. */ void sdsfree(sds s) { if (s == NULL) return; zfree(s-sizeof(struct sdshdr)); } /* Set the sds string length to the length as obtained with strlen(), so * considering as content only up to the first null term character. * * This function is useful when the sds string is hacked manually in some * way, like in the following example: * * s = sdsnew("foobar"); * s[2] = '\0'; * sdsupdatelen(s); * printf("%d\n", sdslen(s)); * * The output will be "2", but if we comment out the call to sdsupdatelen() * the output will be "6" as the string was modified but the logical length * remains 6 bytes. */ void sdsupdatelen(sds s) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); int reallen = strlen(s); sh->free += (sh->len-reallen); sh->len = reallen; } /* Modify an sds string on-place to make it empty (zero length). * However all the existing buffer is not discarded but set as free space * so that next append operations will not require allocations up to the * number of bytes previously available. */ void sdsclear(sds s) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); sh->free += sh->len; sh->len = 0; sh->buf[0] = '\0'; } /* Enlarge the free space at the end of the sds string so that the caller * is sure that after calling this function can overwrite up to addlen * bytes after the end of the string, plus one more byte for nul term. * * Note: this does not change the *length* of the sds string as returned * by sdslen(), but only the free buffer space we have. */ sds sdsMakeRoomFor(sds s, size_t addlen) { struct sdshdr *sh, *newsh; size_t free = sdsavail(s); size_t len, newlen; if (free >= addlen) return s; len = sdslen(s); sh = (void*) (s-(sizeof(struct sdshdr))); newlen = (len+addlen); if (newlen < SDS_MAX_PREALLOC) newlen *= 2; else newlen += SDS_MAX_PREALLOC; newsh = zrealloc(sh, sizeof(struct sdshdr)+newlen+1); if (newsh == NULL) return NULL; newsh->free = newlen - len; return newsh->buf; } /* Reallocate the sds string so that it has no free space at the end. The * contained string remains not altered, but next concatenation operations * will require a reallocation. * * After the call, the passed sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. */ sds sdsRemoveFreeSpace(sds s) { struct sdshdr *sh; sh = (void*) (s-(sizeof(struct sdshdr))); sh = zrealloc(sh, sizeof(struct sdshdr)+sh->len+1); sh->free = 0; return sh->buf; } /* Return the total size of the allocation of the specifed sds string, * including: * 1) The sds header before the pointer. * 2) The string. * 3) The free buffer at the end if any. * 4) The implicit null term. */ size_t sdsAllocSize(sds s) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); return sizeof(*sh)+sh->len+sh->free+1; } /* Increment the sds length and decrements the left free space at the * end of the string according to 'incr'. Also set the null term * in the new end of the string. * * This function is used in order to fix the string length after the * user calls sdsMakeRoomFor(), writes something after the end of * the current string, and finally needs to set the new length. * * Note: it is possible to use a negative increment in order to * right-trim the string. * * Usage example: * * Using sdsIncrLen() and sdsMakeRoomFor() it is possible to mount the * following schema, to cat bytes coming from the kernel to the end of an * sds string without copying into an intermediate buffer: * * oldlen = sdslen(s); * s = sdsMakeRoomFor(s, BUFFER_SIZE); * nread = read(fd, s+oldlen, BUFFER_SIZE); * ... check for nread <= 0 and handle it ... * sdsIncrLen(s, nread); */ void sdsIncrLen(sds s, int incr) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); assert(sh->free >= incr); sh->len += incr; sh->free -= incr; assert(sh->free >= 0); s[sh->len] = '\0'; } /* Grow the sds to have the specified length. Bytes that were not part of * the original length of the sds will be set to zero. * * if the specified length is smaller than the current length, no operation * is performed. */ sds sdsgrowzero(sds s, size_t len) { struct sdshdr *sh = (void*)(s-(sizeof(struct sdshdr))); size_t totlen, curlen = sh->len; if (len <= curlen) return s; s = sdsMakeRoomFor(s,len-curlen); if (s == NULL) return NULL; /* Make sure added region doesn't contain garbage */ sh = (void*)(s-(sizeof(struct sdshdr))); memset(s+curlen,0,(len-curlen+1)); /* also set trailing \0 byte */ totlen = sh->len+sh->free; sh->len = len; sh->free = totlen-sh->len; return s; } /* Append the specified binary-safe string pointed by 't' of 'len' bytes to the * end of the specified sds string 's'. * * After the call, the passed sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. */ sds sdscatlen(sds s, const void *t, size_t len) { struct sdshdr *sh; size_t curlen = sdslen(s); s = sdsMakeRoomFor(s,len); if (s == NULL) return NULL; sh = (void*) (s-(sizeof(struct sdshdr))); memcpy(s+curlen, t, len); sh->len = curlen+len; sh->free = sh->free-len; s[curlen+len] = '\0'; return s; } /* Append the specified null termianted C string to the sds string 's'. * * After the call, the passed sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. */ sds sdscat(sds s, const char *t) { return sdscatlen(s, t, strlen(t)); } /* Append the specified sds 't' to the existing sds 's'. * * After the call, the modified sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. */ sds sdscatsds(sds s, const sds t) { return sdscatlen(s, t, sdslen(t)); } /* Destructively modify the sds string 's' to hold the specified binary * safe string pointed by 't' of length 'len' bytes. */ sds sdscpylen(sds s, const char *t, size_t len) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); size_t totlen = sh->free+sh->len; if (totlen < len) { s = sdsMakeRoomFor(s,len-sh->len); if (s == NULL) return NULL; sh = (void*) (s-(sizeof(struct sdshdr))); totlen = sh->free+sh->len; } memcpy(s, t, len); s[len] = '\0'; sh->len = len; sh->free = totlen-len; return s; } /* Like sdscpylen() but 't' must be a null-termined string so that the length * of the string is obtained with strlen(). */ sds sdscpy(sds s, const char *t) { return sdscpylen(s, t, strlen(t)); } /* Like sdscatpritf() but gets va_list instead of being variadic. */ sds sdscatvprintf(sds s, const char *fmt, va_list ap) { va_list cpy; char *buf, *t; size_t buflen = 16; while(1) { buf = zmalloc(buflen); if (buf == NULL) return NULL; buf[buflen-2] = '\0'; va_copy(cpy,ap); vsnprintf(buf, buflen, fmt, cpy); if (buf[buflen-2] != '\0') { zfree(buf); buflen *= 2; continue; } break; } t = sdscat(s, buf); zfree(buf); return t; } /* Append to the sds string 's' a string obtained using printf-alike format * specifier. * * After the call, the modified sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. * * Example: * * s = sdsempty("Sum is: "); * s = sdscatprintf(s,"%d+%d = %d",a,b,a+b). * * Often you need to create a string from scratch with the printf-alike * format. When this is the need, just use sdsempty() as the target string: * * s = sdscatprintf(sdsempty(), "... your format ...", args); */ sds sdscatprintf(sds s, const char *fmt, ...) { va_list ap; char *t; va_start(ap, fmt); t = sdscatvprintf(s,fmt,ap); va_end(ap); return t; } /* Remove the part of the string from left and from right composed just of * contiguous characters found in 'cset', that is a null terminted C string. * * After the call, the modified sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. * * Example: * * s = sdsnew("AA...AA.a.aa.aHelloWorld :::"); * s = sdstrim(s,"A. :"); * printf("%s\n", s); * * Output will be just "Hello World". */ sds sdstrim(sds s, const char *cset) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); char *start, *end, *sp, *ep; size_t len; sp = start = s; ep = end = s+sdslen(s)-1; while(sp <= end && strchr(cset, *sp)) sp++; while(ep > start && strchr(cset, *ep)) ep--; len = (sp > ep) ? 0 : ((ep-sp)+1); if (sh->buf != sp) memmove(sh->buf, sp, len); sh->buf[len] = '\0'; sh->free = sh->free+(sh->len-len); sh->len = len; return s; } /* Turn the string into a smaller (or equal) string containing only the * substring specified by the 'start' and 'end' indexes. * * start and end can be negative, where -1 means the last character of the * string, -2 the penultimate character, and so forth. * * The interval is inclusive, so the start and end characters will be part * of the resulting string. * * The string is modified in-place. * * Example: * * s = sdsnew("Hello World"); * sdsrange(s,1,-1); => "ello World" */ void sdsrange(sds s, int start, int end) { struct sdshdr *sh = (void*) (s-(sizeof(struct sdshdr))); size_t newlen, len = sdslen(s); if (len == 0) return; if (start < 0) { start = len+start; if (start < 0) start = 0; } if (end < 0) { end = len+end; if (end < 0) end = 0; } newlen = (start > end) ? 0 : (end-start)+1; if (newlen != 0) { if (start >= (signed)len) { newlen = 0; } else if (end >= (signed)len) { end = len-1; newlen = (start > end) ? 0 : (end-start)+1; } } else { start = 0; } if (start && newlen) memmove(sh->buf, sh->buf+start, newlen); sh->buf[newlen] = 0; sh->free = sh->free+(sh->len-newlen); sh->len = newlen; } /* Apply tolower() to every character of the sds string 's'. */ void sdstolower(sds s) { int len = sdslen(s), j; for (j = 0; j < len; j++) s[j] = tolower(s[j]); } /* Apply toupper() to every character of the sds string 's'. */ void sdstoupper(sds s) { int len = sdslen(s), j; for (j = 0; j < len; j++) s[j] = toupper(s[j]); } /* Compare two sds strings s1 and s2 with memcmp(). * * Return value: * * 1 if s1 > s2. * -1 if s1 < s2. * 0 if s1 and s2 are exactly the same binary string. * * If two strings share exactly the same prefix, but one of the two has * additional characters, the longer string is considered to be greater than * the smaller one. */ int sdscmp(const sds s1, const sds s2) { size_t l1, l2, minlen; int cmp; l1 = sdslen(s1); l2 = sdslen(s2); minlen = (l1 < l2) ? l1 : l2; cmp = memcmp(s1,s2,minlen); if (cmp == 0) return l1-l2; return cmp; } /* Split 's' with separator in 'sep'. An array * of sds strings is returned. *count will be set * by reference to the number of tokens returned. * * On out of memory, zero length string, zero length * separator, NULL is returned. * * Note that 'sep' is able to split a string using * a multi-character separator. For example * sdssplit("foo_-_bar","_-_"); will return two * elements "foo" and "bar". * * This version of the function is binary-safe but * requires length arguments. sdssplit() is just the * same function but for zero-terminated strings. */ sds *sdssplitlen(const char *s, int len, const char *sep, int seplen, int *count) { int elements = 0, slots = 5, start = 0, j; sds *tokens; if (seplen < 1 || len < 0) return NULL; tokens = zmalloc(sizeof(sds)*slots); if (tokens == NULL) return NULL; if (len == 0) { *count = 0; return tokens; } for (j = 0; j < (len-(seplen-1)); j++) { /* make sure there is room for the next element and the final one */ if (slots < elements+2) { sds *newtokens; slots *= 2; newtokens = zrealloc(tokens,sizeof(sds)*slots); if (newtokens == NULL) goto cleanup; tokens = newtokens; } /* search the separator */ if ((seplen == 1 && *(s+j) == sep[0]) || (memcmp(s+j,sep,seplen) == 0)) { tokens[elements] = sdsnewlen(s+start,j-start); if (tokens[elements] == NULL) goto cleanup; elements++; start = j+seplen; j = j+seplen-1; /* skip the separator */ } } /* Add the final element. We are sure there is room in the tokens array. */ tokens[elements] = sdsnewlen(s+start,len-start); if (tokens[elements] == NULL) goto cleanup; elements++; *count = elements; return tokens; cleanup: { int i; for (i = 0; i < elements; i++) sdsfree(tokens[i]); zfree(tokens); *count = 0; return NULL; } } /* Free the result returned by sdssplitlen(), or do nothing if 'tokens' is NULL. */ void sdsfreesplitres(sds *tokens, int count) { if (!tokens) return; while(count--) sdsfree(tokens[count]); zfree(tokens); } /* Create an sds string from a long long value. It is much faster than: * * sdscatprintf(sdsempty(),"%lld\n", value); */ sds sdsfromlonglong(long long value) { char buf[32], *p; unsigned long long v; v = (value < 0) ? -value : value; p = buf+31; /* point to the last character */ do { *p-- = '0'+(v%10); v /= 10; } while(v); if (value < 0) *p-- = '-'; p++; return sdsnewlen(p,32-(p-buf)); } /* Append to the sds string "s" an escaped string representation where * all the non-printable characters (tested with isprint()) are turned into * escapes in the form "\n\r\a...." or "\x". * * After the call, the modified sds string is no longer valid and all the * references must be substituted with the new pointer returned by the call. */ sds sdscatrepr(sds s, const char *p, size_t len) { s = sdscatlen(s,"\"",1); while(len--) { switch(*p) { case '\\': case '"': s = sdscatprintf(s,"\\%c",*p); break; case '\n': s = sdscatlen(s,"\\n",2); break; case '\r': s = sdscatlen(s,"\\r",2); break; case '\t': s = sdscatlen(s,"\\t",2); break; case '\a': s = sdscatlen(s,"\\a",2); break; case '\b': s = sdscatlen(s,"\\b",2); break; default: if (isprint(*p)) s = sdscatprintf(s,"%c",*p); else s = sdscatprintf(s,"\\x%02x",(unsigned char)*p); break; } p++; } return sdscatlen(s,"\"",1); } /* Helper function for sdssplitargs() that returns non zero if 'c' * is a valid hex digit. */ int is_hex_digit(char c) { return (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F'); } /* Helper function for sdssplitargs() that converts a hex digit into an * integer from 0 to 15 */ int hex_digit_to_int(char c) { switch(c) { case '0': return 0; case '1': return 1; case '2': return 2; case '3': return 3; case '4': return 4; case '5': return 5; case '6': return 6; case '7': return 7; case '8': return 8; case '9': return 9; case 'a': case 'A': return 10; case 'b': case 'B': return 11; case 'c': case 'C': return 12; case 'd': case 'D': return 13; case 'e': case 'E': return 14; case 'f': case 'F': return 15; default: return 0; } } /* Split a line into arguments, where every argument can be in the * following programming-language REPL-alike form: * * foo bar "newline are supported\n" and "\xff\x00otherstuff" * * The number of arguments is stored into *argc, and an array * of sds is returned. * * The caller should free the resulting array of sds strings with * sdsfreesplitres(). * * Note that sdscatrepr() is able to convert back a string into * a quoted string in the same format sdssplitargs() is able to parse. * * The function returns the allocated tokens on success, even when the * input string is empty, or NULL if the input contains unbalanced * quotes or closed quotes followed by non space characters * as in: "foo"bar or "foo' */ sds *sdssplitargs(const char *line, int *argc) { const char *p = line; char *current = NULL; char **vector = NULL; *argc = 0; while(1) { /* skip blanks */ while(*p && isspace(*p)) p++; if (*p) { /* get a token */ int inq=0; /* set to 1 if we are in "quotes" */ int insq=0; /* set to 1 if we are in 'single quotes' */ int done=0; if (current == NULL) current = sdsempty(); while(!done) { if (inq) { if (*p == '\\' && *(p+1) == 'x' && is_hex_digit(*(p+2)) && is_hex_digit(*(p+3))) { unsigned char byte; byte = (hex_digit_to_int(*(p+2))*16)+ hex_digit_to_int(*(p+3)); current = sdscatlen(current,(char*)&byte,1); p += 3; } else if (*p == '\\' && *(p+1)) { char c; p++; switch(*p) { case 'n': c = '\n'; break; case 'r': c = '\r'; break; case 't': c = '\t'; break; case 'b': c = '\b'; break; case 'a': c = '\a'; break; default: c = *p; break; } current = sdscatlen(current,&c,1); } else if (*p == '"') { /* closing quote must be followed by a space or * nothing at all. */ if (*(p+1) && !isspace(*(p+1))) goto err; done=1; } else if (!*p) { /* unterminated quotes */ goto err; } else { current = sdscatlen(current,p,1); } } else if (insq) { if (*p == '\\' && *(p+1) == '\'') { p++; current = sdscatlen(current,"'",1); } else if (*p == '\'') { /* closing quote must be followed by a space or * nothing at all. */ if (*(p+1) && !isspace(*(p+1))) goto err; done=1; } else if (!*p) { /* unterminated quotes */ goto err; } else { current = sdscatlen(current,p,1); } } else { switch(*p) { case ' ': case '\n': case '\r': case '\t': case '\0': done=1; break; case '"': inq=1; break; case '\'': insq=1; break; default: current = sdscatlen(current,p,1); break; } } if (*p) p++; } /* add the token to the vector */ vector = zrealloc(vector,((*argc)+1)*sizeof(char*)); vector[*argc] = current; (*argc)++; current = NULL; } else { /* Even on empty input string return something not NULL. */ if (vector == NULL) vector = zmalloc(sizeof(void*)); return vector; } } err: while((*argc)--) sdsfree(vector[*argc]); zfree(vector); if (current) sdsfree(current); *argc = 0; return NULL; } /* Modify the string substituting all the occurrences of the set of * characters specified in the 'from' string to the corresponding character * in the 'to' array. * * For instance: sdsmapchars(mystring, "ho", "01", 2) * will have the effect of turning the string "hello" into "0ell1". * * The function returns the sds string pointer, that is always the same * as the input pointer since no resize is needed. */ sds sdsmapchars(sds s, const char *from, const char *to, size_t setlen) { size_t j, i, l = sdslen(s); for (j = 0; j < l; j++) { for (i = 0; i < setlen; i++) { if (s[j] == from[i]) { s[j] = to[i]; break; } } } return s; } /* Join an array of C strings using the specified separator (also a C string). * Returns the result as an sds string. */ sds sdsjoin(char **argv, int argc, char *sep) { sds join = sdsempty(); int j; for (j = 0; j < argc; j++) { join = sdscat(join, argv[j]); if (j != argc-1) join = sdscat(join,sep); } return join; } #ifdef SDS_TEST_MAIN #include #include "testhelp.h" int main(void) { { struct sdshdr *sh; sds x = sdsnew("foo"), y; test_cond("Create a string and obtain the length", sdslen(x) == 3 && memcmp(x,"foo\0",4) == 0) sdsfree(x); x = sdsnewlen("foo",2); test_cond("Create a string with specified length", sdslen(x) == 2 && memcmp(x,"fo\0",3) == 0) x = sdscat(x,"bar"); test_cond("Strings concatenation", sdslen(x) == 5 && memcmp(x,"fobar\0",6) == 0); x = sdscpy(x,"a"); test_cond("sdscpy() against an originally longer string", sdslen(x) == 1 && memcmp(x,"a\0",2) == 0) x = sdscpy(x,"xyzxxxxxxxxxxyyyyyyyyyykkkkkkkkkk"); test_cond("sdscpy() against an originally shorter string", sdslen(x) == 33 && memcmp(x,"xyzxxxxxxxxxxyyyyyyyyyykkkkkkkkkk\0",33) == 0) sdsfree(x); x = sdscatprintf(sdsempty(),"%d",123); test_cond("sdscatprintf() seems working in the base case", sdslen(x) == 3 && memcmp(x,"123\0",4) ==0) sdsfree(x); x = sdstrim(sdsnew("xxciaoyyy"),"xy"); test_cond("sdstrim() correctly trims characters", sdslen(x) == 4 && memcmp(x,"ciao\0",5) == 0) y = sdsrange(sdsdup(x),1,1); test_cond("sdsrange(...,1,1)", sdslen(y) == 1 && memcmp(y,"i\0",2) == 0) sdsfree(y); y = sdsrange(sdsdup(x),1,-1); test_cond("sdsrange(...,1,-1)", sdslen(y) == 3 && memcmp(y,"iao\0",4) == 0) sdsfree(y); y = sdsrange(sdsdup(x),-2,-1); test_cond("sdsrange(...,-2,-1)", sdslen(y) == 2 && memcmp(y,"ao\0",3) == 0) sdsfree(y); y = sdsrange(sdsdup(x),2,1); test_cond("sdsrange(...,2,1)", sdslen(y) == 0 && memcmp(y,"\0",1) == 0) sdsfree(y); y = sdsrange(sdsdup(x),1,100); test_cond("sdsrange(...,1,100)", sdslen(y) == 3 && memcmp(y,"iao\0",4) == 0) sdsfree(y); y = sdsrange(sdsdup(x),100,100); test_cond("sdsrange(...,100,100)", sdslen(y) == 0 && memcmp(y,"\0",1) == 0) sdsfree(y); sdsfree(x); x = sdsnew("foo"); y = sdsnew("foa"); test_cond("sdscmp(foo,foa)", sdscmp(x,y) > 0) sdsfree(y); sdsfree(x); x = sdsnew("bar"); y = sdsnew("bar"); test_cond("sdscmp(bar,bar)", sdscmp(x,y) == 0) sdsfree(y); sdsfree(x); x = sdsnew("aar"); y = sdsnew("bar"); test_cond("sdscmp(bar,bar)", sdscmp(x,y) < 0) { int oldfree; sdsfree(x); x = sdsnew("0"); sh = (void*) (x-(sizeof(struct sdshdr))); test_cond("sdsnew() free/len buffers", sh->len == 1 && sh->free == 0); x = sdsMakeRoomFor(x,1); sh = (void*) (x-(sizeof(struct sdshdr))); test_cond("sdsMakeRoomFor()", sh->len == 1 && sh->free > 0); oldfree = sh->free; x[1] = '1'; sdsIncrLen(x,1); test_cond("sdsIncrLen() -- content", x[0] == '0' && x[1] == '1'); test_cond("sdsIncrLen() -- len", sh->len == 2); test_cond("sdsIncrLen() -- free", sh->free == oldfree-1); } } test_report() return 0; } #endif