#include #include #include #include #include "buf.h" #include "sb.h" #include "ll.h" char* line(void); char* wordset(char* txt); void wsclean(char* txt); FILE* getfile(int argc, char** argv){ if (argc >= 2) return fopen(argv[1], "r"); else return stdin; } char* chrmult(char c, size_t ct){ char* str = malloc(sizeof(char)*(ct+1)); str[ct] = 0; memset(str, c, ct); return str; } // file read & buffer fill helpers FILE* in; buf* inbuf; int addchr(void){ int c = fgetc(in); if (c != EOF) inschrbuf(inbuf, c); return c; } size_t fillbuf(size_t len){ // returns real len int c; size_t set; for (set = buflen(inbuf); set < len && (c = addchr()) != EOF;set++); return set; } size_t chrfill(char chr){ size_t len = buflen(inbuf); char* str = peekstrbuf(inbuf, 0, len); char* line = memchr(str,chr,len); free(str); if (line) return line-str+1; for (int c = 0; c != chr && (c = addchr()) != EOF; len++); return len; } #define min(a,b) a < b ? a : b size_t chrnfill(char chr, size_t sz){//fills to first of chr or sz size_t len = buflen(inbuf); size_t lim = min(len,sz); char* str = peekstrbuf(inbuf, 0, lim); char* line = memchr(str, chr, lim); free(str); if (line) return line-str+1; for (int c = 0; c != chr && (c = addchr()) != EOF&& lennext; node->next = tmp->next; free(tmp->str); free(tmp); if (tmp == node) return NULL; return node->next; } void multbreak(sb* buffer, size_t start, size_t len, llnode** tail, size_t* ct){ for (size_t i = *ct; i > 0; i--){ char* str = (*tail)->next->str + start; // tail->next is used so it can be gracefully freed if (strlen(str) < len){ // if node is smaller than len, insstr(buffer, str); // put the whole thing in the buffer // and remove the node, switching to next *tail = freenext(*tail); (*ct)--; } else { char tmp = str[len]; str[len] = 0; // truncate str at max length insstr(buffer, str); // insert that insstr(buffer, "\n"); str[len] = tmp; // restore string *tail = (*tail)->next; // iter } } } llnode* accumlines(size_t* ct){ // returns tail of linked list llnode *head, *tail; head = tail = appendll(NULL, NULL); (*ct) = 0; while (!endgroup){ char* ln = line(); if (!ln[0]) { // ln == "" free(ln); break; } char* next; //greater than nl while ( (next = strchr(ln, '\n')) ) { next++; char sub = *next; *next = 0; tail = appendll(tail, ln); (*ct)++; *next = sub; ln = next; } } tail->next = head->next; // loop linked list free(head); endgroup = false; // prevents false positive on next run return tail; } char* foldlines(llnode* tail, size_t ct){ sb* buf = newsb(100); size_t oldbrk = 0, brk = 0; for (size_t i = 0; tail; i++){ // check every column until all rows // are removed. bool valid = true; // if stays true, this is a space bool done = true; // if stays true, all strings are complete llnode* orig = tail; do { // check every string if (!tail->end && tail->str[i] == 0) tail->end = true; // ignore strings that have already finished else if (!tail->end){ done = false; if (tail->str[i] != ' ') valid = false; // can't break here because tail needs to return to orig } tail = tail->next; } while (tail != orig); if (valid) brk = i; if (done || (!valid && i-oldbrk >= width)){ // either all strings are done // or it has hit a non-space column and accum enough space multbreak(buf, oldbrk, brk-oldbrk+1, &tail, &ct); oldbrk = brk+1; // tells offset from previous cut } } return decompose(buf); } char* lineset(char* txt){ size_t ct; llnode* tail = accumlines(&ct); return foldlines(tail, ct); } char* emptalloc(void){ // need a null string so it can be freed later char* str = malloc(sizeof(char)); str[0] = 0; return str; } char* fingroup(char* txt){ endgroup = true; return emptalloc(); } char* vert(char* txt){ int ln; sscanf(txt, "%d", &ln); return chrmult('\n', ln); } char* nbrkspc(char* txt){ if (txt[0] == '\n') txt[0] = 0; if (txt[1] == '\n') txt[1] = 0; if (txt[0] != 0 && txt[1] != 0) nbsp = txt[1]; else if (txt[0] != 0) nbsp = txt[0]; else nbsp = 0; return NULL; } char* merge(char* txt){ // merges until an endgroup // gather lines size_t ct; llnode* head = accumlines(&ct)->next; // count total length (for malloc) size_t len = 0; for (size_t i = 0; i < ct; i++, head = head->next){ size_t slen = strlen(head->str)-1; head->str[slen] = 0; // remove the nl character at the end len += slen; // add the (new) length of string } char *str, *pos; pos = str = malloc(sizeof(char)*(len+2)); str[len] = '\n'; str[len+1] = 0; // str = "***********\n" for (size_t i = 0; i < ct; i++){ wsclean(head->str); size_t slen = strlen(head->str); memcpy(pos, head->str, slen); pos += slen; llnode* tmp = head; head = head->next; free(tmp->str); free(tmp); } return str; } char* cmds[] = // MUST be sorted alphabetically {"CT ", "EG", "FIL ", "LD ", "LS", "MRG", "NBSP", "V ", "W "}; char* (*call[])(char* txt) = {center, fingroup, fillline, leader, lineset, merge, nbrkspc, vert, setwidth}; char* cmd(void){ char* dat = popstrbuf(inbuf, chrfill('\n')); size_t low = 0; size_t high = sizeof(cmds)/sizeof(*cmds); //len char* proc = NULL; while (high >= low){ int mid = ((unsigned int)low + (unsigned int)high) >> 1; char* mval = cmds[mid]; int cmp = strncmp(dat, mval, strlen(mval)); if (cmp < 0) // dat < mval high = mid - 1; else if (cmp > 0) low = mid + 1; else{ proc = call[mid](dat+strlen(mval)); break; } } free(dat); return proc; } // normal typesetting void wsclean(char* txt){ int nl = 0; // count of newlines size_t i; for (i = strlen(txt); i > 0; i--) { // start at end [i-1] and dec if (txt[i-1] == '\n') nl++; // count up newlines else if (txt[i-1] != ' ') break; // and break on unpadded text } memset(txt+i, '\n', nl); // add #nl newlines at [i, i+nl) txt[i+nl] = 0; // finish string } #define nbspchr (char) 255 void nbspclean(char* txt){ for (; *txt != 0; txt++){ if (*txt == nbspchr) *txt = ' '; } } char* wordset(char* txt){ char* orig = txt; // txt will be manipulated size_t ws = 0; // zero means do not cut for (size_t i=0; txt[i] != 0; i++){ // turn into a nested loop if (txt[i] == ' ' || txt[i] == '\n') ws = i; // nl's (multiline input) and spaces are proper linebreaks if (txt[i] == '\n' || (ws && i >= width && ws != i) ){ txt += ws; txt[0] = '\n'; ws = 0; i = 0; } } wsclean(orig); // remove trailing whitespace nbspclean(orig); return orig; } char* norm(void){ return popstrbuf(inbuf, chrfill('\n')); } // a parser to choose when to typeset and when to run a command void nbspsub(char* txt){ for (; (*txt) != 0; txt++){ if (*txt == nbsp) *txt = nbspchr; } } char* line(void){ size_t sz; if ( (sz = fillbuf(2)) == 0) return ""; char twobytes[3]; char* peek = peekstrbuf(inbuf, 0, 2); // .., .\n, or ^.? memcpy(twobytes, peek, 3); free(peek); if (sz == 1 || twobytes[1] == '\n') return norm(); if (twobytes[0] == '.') popchrbuf(inbuf); char* out; if (twobytes[0] == '.' && twobytes[1] != '.'){ char* data = cmd(); if (data) return data; out = line(); } else { out = norm(); } nbspsub(out); return out; } // orchestration int main(int argc, char** argv){ in = getfile(argc, argv); inbuf = newbuf(256); if (in == NULL){ perror(argv[1]); return 1; } char* out; while ( (out = line())[0] != '\0'){ printf("%s",wordset(out)); free(out); } fclose(in); return 0; }