/* * High level routines dealing with getting lines of input * from the file being viewed. * * When we speak of "lines" here, we mean PRINTABLE lines; * lines processed with respect to the screen width. * We use the term "raw line" to refer to lines simply * delimited by newlines; not processed with respect to screen width. */ #include "less.h" extern int do_bs; extern int squeeze; extern char *line; /* * Get the next line. * A "current" position is passed and a "new" position is returned. * The current position is the position of the first character of * a line. The new position is the position of the first character * of the NEXT line. The line obtained is the line starting at curr_pos. */ public POSITION forw_line(curr_pos) POSITION curr_pos; { POSITION new_pos; register int c; if (curr_pos == NULL_POSITION || ch_seek(curr_pos)) return (NULL_POSITION); c = ch_forw_get(); if (c == EOF) return (NULL_POSITION); prewind(); for (;;) { if (c == '\n' || c == EOF) { /* * End of the line. */ new_pos = ch_tell(); break; } /* * Append the char to the line and get the next char. */ if (pappend(c)) { /* * The char won't fit in the line; the line * is too long to print in the screen width. * End the line here. */ new_pos = ch_tell() - 1; break; } c = ch_forw_get(); } (void) pappend('\0'); if (squeeze && *line == '\0') { /* * This line is blank. * Skip down to the last contiguous blank line * and pretend it is the one which we are returning. */ while ((c = ch_forw_get()) == '\n') ; if (c != EOF) (void) ch_back_get(); new_pos = ch_tell(); } return (new_pos); } /* * Get the previous line. * A "current" position is passed and a "new" position is returned. * The current position is the position of the first character of * a line. The new position is the position of the first character * of the PREVIOUS line. The line obtained is the one starting at new_pos. */ public POSITION back_line(curr_pos) POSITION curr_pos; { POSITION new_pos, begin_new_pos; int c; if (curr_pos == NULL_POSITION || curr_pos <= (POSITION)0 || ch_seek(curr_pos-1)) return (NULL_POSITION); if (squeeze) { /* * Find out if the "current" line was blank. */ (void) ch_forw_get(); /* Skip the newline */ c = ch_forw_get(); /* First char of "current" line */ (void) ch_back_get(); /* Restore our position */ (void) ch_back_get(); if (c == '\n') { /* * The "current" line was blank. * Skip over any preceeding blank lines, * since we skipped them in forw_line(). */ while ((c = ch_back_get()) == '\n') ; if (c == EOF) return (NULL_POSITION); (void) ch_forw_get(); } } /* * Scan backwards until we hit the beginning of the line. */ for (;;) { c = ch_back_get(); if (c == '\n') { /* * This is the newline ending the previous line. * We have hit the beginning of the line. */ new_pos = ch_tell() + 1; break; } if (c == EOF) { /* * We have hit the beginning of the file. * This must be the first line in the file. * This must, of course, be the beginning of the line. */ new_pos = (POSITION)0; break; } } /* * Now scan forwards from the beginning of this line. * We keep discarding "printable lines" (based on screen width) * until we reach the curr_pos. * * {{ This algorithm is pretty inefficient if the lines * are much longer than the screen width, * but I don't know of any better way. }} */ if (ch_seek(new_pos)) return (NULL_POSITION); loop: begin_new_pos = new_pos; prewind(); do { c = ch_forw_get(); new_pos++; if (c == '\n') break; if (pappend(c)) { /* * Got a full printable line, but we haven't * reached our curr_pos yet. Discard the line * and start a new one. */ (void) pappend('\0'); (void) ch_back_get(); new_pos--; goto loop; } } while (new_pos < curr_pos); (void) pappend('\0'); return (begin_new_pos); }