pdcurses/refresh.c

Wed, 27 Jan 2021 12:39:00 +0200

author
Teemu Piippo <teemu@hecknology.net>
date
Wed, 27 Jan 2021 12:39:00 +0200
branch
protocol5
changeset 174
78ee24fd3321
parent 97
2d43f05b284c
permissions
-rw-r--r--

reduce delta with default

/* Public Domain Curses */

#include <curspriv.h>

RCSID("$Id: refresh.c,v 1.56 2008/07/13 16:08:18 wmcbrine Exp $")

/*man-start**************************************************************

  Name:                                                         refresh

  Synopsis:
        int refresh(void);
        int wrefresh(WINDOW *win);
        int wnoutrefresh(WINDOW *win);
        int doupdate(void);
        int redrawwin(WINDOW *win);
        int wredrawln(WINDOW *win, int beg_line, int num_lines);

  Description:
        wrefresh() copies the named window to the physical terminal 
        screen, taking into account what is already there in order to 
        optimize cursor movement. refresh() does the same, using stdscr. 
        These routines must be called to get any output on the terminal, 
        as other routines only manipulate data structures. Unless 
        leaveok() has been enabled, the physical cursor of the terminal 
        is left at the location of the window's cursor.

        wnoutrefresh() and doupdate() allow multiple updates with more 
        efficiency than wrefresh() alone. wrefresh() works by first 
        calling wnoutrefresh(), which copies the named window to the 
        virtual screen.  It then calls doupdate(), which compares the 
        virtual screen to the physical screen and does the actual 
        update. A series of calls to wrefresh() will result in 
        alternating calls to wnoutrefresh() and doupdate(), causing 
        several bursts of output to the screen.  By first calling 
        wnoutrefresh() for each window, it is then possible to call 
        doupdate() only once.

        In PDCurses, redrawwin() is equivalent to touchwin(), and 
        wredrawln() is the same as touchline(). In some other curses 
        implementations, there's a subtle distinction, but it has no 
        meaning in PDCurses.

  Return Value:
        All functions return OK on success and ERR on error.

  Portability                                X/Open    BSD    SYS V
        refresh                                 Y       Y       Y
        wrefresh                                Y       Y       Y
        wnoutrefresh                            Y       Y       Y
        doupdate                                Y       Y       Y
        redrawwin                               Y       -      4.0
        wredrawln                               Y       -      4.0

**man-end****************************************************************/

#include <string.h>

int wnoutrefresh(WINDOW *win)
{
    int begy, begx;     /* window's place on screen   */
    int i, j;

    PDC_LOG(("wnoutrefresh() - called: win=%p\n", win));

    if ( !win || (win->_flags & (_PAD|_SUBPAD)) )
        return ERR;

    begy = win->_begy;
    begx = win->_begx;

    for (i = 0, j = begy; i < win->_maxy; i++, j++)
    {
        if (win->_firstch[i] != _NO_CHANGE)
        {
            chtype *src = win->_y[i];
            chtype *dest = curscr->_y[j] + begx;

            int first = win->_firstch[i]; /* first changed */
            int last = win->_lastch[i];   /* last changed */

            /* ignore areas on the outside that are marked as changed, 
               but really aren't */

            while (first <= last && src[first] == dest[first])
                first++;

            while (last >= first && src[last] == dest[last])
                last--;

            /* if any have really changed... */

            if (first <= last)
            {
                memcpy(dest + first, src + first,
                       (last - first + 1) * sizeof(chtype));

                first += begx; 
                last += begx;

                if (first < curscr->_firstch[j] ||
                    curscr->_firstch[j] == _NO_CHANGE)
                    curscr->_firstch[j] = first;

                if (last > curscr->_lastch[j])
                    curscr->_lastch[j] = last;
            }

            win->_firstch[i] = _NO_CHANGE;  /* updated now */
        }

        win->_lastch[i] = _NO_CHANGE;       /* updated now */
    }

    if (win->_clear)
        win->_clear = FALSE;

    if (!win->_leaveit)
    {
        curscr->_cury = win->_cury + begy;
        curscr->_curx = win->_curx + begx;
    }

    return OK;
}

int doupdate(void)
{
    int y;
    bool clearall;

    PDC_LOG(("doupdate() - called\n"));

    if (!curscr)
        return ERR;

    if (isendwin())         /* coming back after endwin() called */
    {
        reset_prog_mode();
        clearall = TRUE;
        SP->alive = TRUE;   /* so isendwin() result is correct */
    }
    else
        clearall = curscr->_clear;

    for (y = 0; y < SP->lines; y++)
    {
        PDC_LOG(("doupdate() - Transforming line %d of %d: %s\n",
                 y, SP->lines, (curscr->_firstch[y] != _NO_CHANGE) ?
                 "Yes" : "No"));

        if (clearall || curscr->_firstch[y] != _NO_CHANGE)
        {
            int first, last;

            chtype *src = curscr->_y[y];
            chtype *dest = pdc_lastscr->_y[y];

            if (clearall)
            {
                first = 0;
                last = COLS - 1;
            }
            else
            {
                first = curscr->_firstch[y];
                last = curscr->_lastch[y];
            }

            while (first <= last)
            {
                int len = 0;

                /* build up a run of changed cells; if two runs are
                   separated by a single unchanged cell, ignore the
                   break */

                if (clearall)
                    len = last - first + 1;
                else
                    while (first + len <= last &&
                           (src[first + len] != dest[first + len] ||
                            (len && first + len < last &&
                             src[first + len + 1] != dest[first + len + 1])
                           )
                          )
                        len++;

                /* update the screen, and pdc_lastscr */

                if (len)
                {
                    PDC_transform_line(y, first, len, src + first);
                    memcpy(dest + first, src + first, len * sizeof(chtype));
                    first += len;
                }

                /* skip over runs of unchanged cells */

                while (first <= last && src[first] == dest[first])
                    first++;
            }

            curscr->_firstch[y] = _NO_CHANGE;
            curscr->_lastch[y] = _NO_CHANGE;
        }
    }

    curscr->_clear = FALSE;

    if (SP->visibility)
        PDC_gotoyx(curscr->_cury, curscr->_curx);

    SP->cursrow = curscr->_cury;
    SP->curscol = curscr->_curx;

    return OK;
}

int wrefresh(WINDOW *win)
{
    bool save_clear;

    PDC_LOG(("wrefresh() - called\n"));

    if ( !win || (win->_flags & (_PAD|_SUBPAD)) )
        return ERR;

    save_clear = win->_clear;

    if (win == curscr)
        curscr->_clear = TRUE;
    else
        wnoutrefresh(win);

    if (save_clear && win->_maxy == SP->lines && win->_maxx == SP->cols)
        curscr->_clear = TRUE;

    return doupdate();
}

int refresh(void)
{
    PDC_LOG(("refresh() - called\n"));

    return wrefresh(stdscr);
}

int wredrawln(WINDOW *win, int start, int num)
{
    int i;

    PDC_LOG(("wredrawln() - called: win=%p start=%d num=%d\n",
        win, start, num));

    if (!win || start > win->_maxy || start + num > win->_maxy)
        return ERR;

    for (i = start; i < start + num; i++)
    {
        win->_firstch[i] = 0;
        win->_lastch[i] = win->_maxx - 1;
    }

    return OK;
}

int redrawwin(WINDOW *win)
{
    PDC_LOG(("redrawwin() - called: win=%p\n", win));

    if (!win)
        return ERR;

    return wredrawln(win, 0, win->_maxy);
}

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