/* * Copyright (C) 1984-2024 Mark Nudelman * * You may distribute under the terms of either the GNU General Public * License or the Less License, as specified in the README file. * * For more information, see the README file. */ /* * 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 squeeze; extern int hshift; extern int quit_if_one_screen; extern int ignore_eoi; extern int status_col; extern int wordwrap; extern POSITION start_attnpos; extern POSITION end_attnpos; #if HILITE_SEARCH extern int hilite_search; extern size_t size_linebuf; extern int show_attn; #endif /* * Set the status column. * base Position of first char in line. * disp First visible char. * Different than base_pos if line is shifted. * edisp Last visible char. * eol End of line. Normally the newline. * Different than edisp if line is chopped. */ static void init_status_col(POSITION base_pos, POSITION disp_pos, POSITION edisp_pos, POSITION eol_pos) { int hl_before = (chop_line() && disp_pos != NULL_POSITION) ? is_hilited_attr(base_pos, disp_pos, TRUE, NULL) : 0; int hl_after = (chop_line() && edisp_pos != NULL_POSITION) ? is_hilited_attr(edisp_pos, eol_pos, TRUE, NULL) : 0; int attr; char ch; if (hl_before && hl_after) { attr = hl_after; ch = '='; } else if (hl_before) { attr = hl_before; ch = '<'; } else if (hl_after) { attr = hl_after; ch = '>'; } else if (disp_pos != NULL_POSITION) { attr = is_hilited_attr(disp_pos, edisp_pos, TRUE, NULL); ch = '*'; } else { attr = 0; } if (attr) set_status_col(ch, attr); } /* * 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_seg(POSITION curr_pos, lbool skipeol, lbool rscroll, lbool nochop) { POSITION base_pos; POSITION new_pos; POSITION edisp_pos; int c; lbool blankline; lbool endline; lbool chopped; int backchars; POSITION wrap_pos; lbool skipped_leading; get_forw_line: if (curr_pos == NULL_POSITION) { null_line(); return (NULL_POSITION); } #if HILITE_SEARCH if (hilite_search == OPT_ONPLUS || is_filtering() || status_col) { /* * If we are ignoring EOI (command F), only prepare * one line ahead, to avoid getting stuck waiting for * slow data without displaying the data we already have. * If we're not ignoring EOI, we *could* do the same, but * for efficiency we prepare several lines ahead at once. */ prep_hilite(curr_pos, curr_pos + (POSITION) (3*size_linebuf), ignore_eoi ? 1 : -1); curr_pos = next_unfiltered(curr_pos); } #endif if (ch_seek(curr_pos)) { null_line(); return (NULL_POSITION); } /* * Step back to the beginning of the line. */ base_pos = curr_pos; for (;;) { c = ch_back_get(); if (c == EOI) break; if (c == '\n') { (void) ch_forw_get(); break; } --base_pos; } /* * Read forward again to the position we should start at. */ prewind(); plinestart(base_pos); (void) ch_seek(base_pos); new_pos = base_pos; while (new_pos < curr_pos) { c = ch_forw_get(); if (c == EOI) { null_line(); return (NULL_POSITION); } backchars = pappend((char) c, new_pos); new_pos++; if (backchars > 0) { pshift_all(); if (wordwrap && (c == ' ' || c == '\t')) { do { new_pos++; c = ch_forw_get(); /* {{ what if c == EOI? }} */ } while (c == ' ' || c == '\t'); backchars = 1; } new_pos -= backchars; while (--backchars >= 0) (void) ch_back_get(); } } (void) pflushmbc(); pshift_all(); /* * Read the first character to display. */ c = ch_forw_get(); if (c == EOI) { null_line(); return (NULL_POSITION); } blankline = (c == '\n' || c == '\r'); wrap_pos = NULL_POSITION; skipped_leading = FALSE; /* * Read each character in the line and append to the line buffer. */ chopped = FALSE; for (;;) { if (c == '\n' || c == EOI) { /* * End of the line. */ backchars = pflushmbc(); new_pos = ch_tell(); if (backchars > 0 && (nochop || !chop_line()) && hshift == 0) { new_pos -= backchars + 1; endline = FALSE; } else endline = TRUE; edisp_pos = new_pos; break; } if (c != '\r') blankline = FALSE; /* * Append the char to the line and get the next char. */ backchars = pappend((char) c, ch_tell()-1); if (backchars > 0) { /* * The char won't fit in the line; the line * is too long to print in the screen width. * End the line here. */ if (skipeol) { /* Read to end of line. */ edisp_pos = ch_tell() - backchars; do { c = ch_forw_get(); } while (c != '\n' && c != EOI); new_pos = ch_tell(); endline = TRUE; quit_if_one_screen = FALSE; chopped = TRUE; } else { if (!wordwrap) new_pos = ch_tell() - backchars; else { /* * We're word-wrapping, so go back to the last space. * However, if it's the space itself that couldn't fit, * simply ignore it and any subsequent spaces. */ if (c == ' ' || c == '\t') { do { new_pos = ch_tell(); c = ch_forw_get(); /* {{ what if c == EOI? }} */ } while (c == ' ' || c == '\t'); if (c == '\r') c = ch_forw_get(); /* {{ what if c == EOI? }} */ if (c == '\n') new_pos = ch_tell(); } else if (wrap_pos == NULL_POSITION) new_pos = ch_tell() - backchars; else { new_pos = wrap_pos; loadc(); } } endline = FALSE; edisp_pos = new_pos; } break; } if (wordwrap) { if (c == ' ' || c == '\t') { if (skipped_leading) { wrap_pos = ch_tell(); savec(); } } else skipped_leading = TRUE; } c = ch_forw_get(); } #if HILITE_SEARCH if (blankline && show_attn) { /* Add spurious space to carry possible attn hilite. * Use pappend_b so that if line ended with \r\n, * we insert the space before the \r. */ pappend_b(' ', ch_tell()-1, TRUE); } #endif pdone(endline, rscroll && chopped, 1); #if HILITE_SEARCH if (is_filtered(base_pos)) { /* * We don't want to display this line. * Get the next line. */ curr_pos = new_pos; goto get_forw_line; } if (status_col) init_status_col(base_pos, line_position(), edisp_pos, new_pos); #endif if (squeeze && blankline) { /* * 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' || c == '\r') continue; if (c != EOI) (void) ch_back_get(); new_pos = ch_tell(); } return (new_pos); } public POSITION forw_line(POSITION curr_pos) { return forw_line_seg(curr_pos, (chop_line() || hshift > 0), TRUE, FALSE); } /* * 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(POSITION curr_pos) { POSITION base_pos; POSITION new_pos; POSITION edisp_pos; POSITION begin_new_pos; int c; lbool endline; lbool chopped; int backchars; POSITION wrap_pos; lbool skipped_leading; get_back_line: if (curr_pos == NULL_POSITION || curr_pos <= ch_zero()) { null_line(); return (NULL_POSITION); } #if HILITE_SEARCH if (hilite_search == OPT_ONPLUS || is_filtering() || status_col) prep_hilite((curr_pos < (POSITION) (3*size_linebuf)) ? 0 : curr_pos - (POSITION) (3*size_linebuf), curr_pos, -1); #endif if (ch_seek(curr_pos-1)) { null_line(); 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 */ /* {{ what if c == EOI? }} */ (void) ch_back_get(); /* Restore our position */ (void) ch_back_get(); if (c == '\n' || c == '\r') { /* * The "current" line was blank. * Skip over any preceding blank lines, * since we skipped them in forw_line(). */ while ((c = ch_back_get()) == '\n' || c == '\r') continue; if (c == EOI) { null_line(); 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. */ base_pos = ch_tell() + 1; break; } if (c == EOI) { /* * 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. */ base_pos = ch_tell(); 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. }} */ new_pos = base_pos; if (ch_seek(new_pos)) { null_line(); return (NULL_POSITION); } endline = FALSE; prewind(); plinestart(new_pos); loop: wrap_pos = NULL_POSITION; skipped_leading = FALSE; begin_new_pos = new_pos; (void) ch_seek(new_pos); chopped = FALSE; for (;;) { c = ch_forw_get(); if (c == EOI) { null_line(); return (NULL_POSITION); } new_pos++; if (c == '\n') { backchars = pflushmbc(); if (backchars > 0 && !chop_line() && hshift == 0) { backchars++; goto shift; } endline = TRUE; edisp_pos = new_pos; break; } backchars = pappend((char) c, ch_tell()-1); if (backchars > 0) { /* * Got a full printable line, but we haven't * reached our curr_pos yet. Discard the line * and start a new one. */ if (chop_line() || hshift > 0) { endline = TRUE; chopped = TRUE; quit_if_one_screen = FALSE; edisp_pos = new_pos; break; } shift: if (!wordwrap) { pshift_all(); new_pos -= backchars; } else { if (c == ' ' || c == '\t') { for (;;) { c = ch_forw_get(); /* {{ what if c == EOI? }} */ if (c == ' ' || c == '\t') new_pos++; else { if (c == '\r') { c = ch_forw_get(); /* {{ what if c == EOI? }} */ if (c == '\n') new_pos++; } if (c == '\n') new_pos++; edisp_pos = new_pos; break; } } if (new_pos >= curr_pos) { edisp_pos = new_pos; break; } pshift_all(); } else { pshift_all(); if (wrap_pos == NULL_POSITION) new_pos -= backchars; else new_pos = wrap_pos; } } goto loop; } if (wordwrap) { if (c == ' ' || c == '\t') { if (skipped_leading) wrap_pos = new_pos; } else skipped_leading = TRUE; } if (new_pos >= curr_pos) { edisp_pos = new_pos; break; } } pdone(endline, chopped, 0); #if HILITE_SEARCH if (is_filtered(base_pos)) { /* * We don't want to display this line. * Get the previous line. */ curr_pos = begin_new_pos; goto get_back_line; } if (status_col) init_status_col(base_pos, line_position(), edisp_pos, new_pos); #endif return (begin_new_pos); } /* * Set attnpos. */ public void set_attnpos(POSITION pos) { int c; if (pos != NULL_POSITION) { if (ch_seek(pos)) return; for (;;) { c = ch_forw_get(); if (c == EOI) break; if (c == '\n' || c == '\r') { (void) ch_back_get(); break; } pos++; } end_attnpos = pos; for (;;) { c = ch_back_get(); if (c == EOI || c == '\n' || c == '\r') break; pos--; } } start_attnpos = pos; }