path: root/mbbsd/visio.c

/* $Id$ */
#include "bbs.h"

/*
 * visio.c
 * piaip's new implementation of visio
 * (visio: virtual screen input output, the name from Maple3)
 *
 * This is not the original visio.c from Maple3.
 * We just borrowed its file name and few API names/prototypes
 * then re-implemented everything from scratch :)
 *
 * We will try to keep the API behavior similiar (to help porting)
 * but won't stick to it. 
 * Maybe at the end only 'vmsg' and 'vmsgf' will still be compatible....
 *
 * m3 visio = (ptt) visio+screen/term.
 *
 * Author: Hung-Te Lin (piaip), April 2008.
 *
 * Copyright (c) 2005-2008 Hung-Te Lin <piaip@csie.ntu.edu.tw>
 * All rights reserved.
 * 
 * Distributed under a Non-Commercial 4clause-BSD alike license.
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions
 * are met:
 * 1. Redistributions of source code must retain the above copyright
 *    notice, this list of conditions and the following disclaimer.
 * 2. 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.
 * 3. All advertising materials mentioning features or use of this software
 *    must display appropriate acknowledgement, like:
 *        This product includes software developed by Hung-Te Lin (piaip).
 *    The acknowledgement can be localized with the name unchanged.
 * 4. You may not exercise any of the rights granted to you above in any
 *    manner that is primarily intended for or directed toward commercial
 *    advantage or private monetary compensation. For avoidance of doubt, 
 *    using in a program providing commercial network service is also
 *    prohibited.
 *
 * 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.
 *
 * To add API here, please...
 * (1) name the API in prefix of 'v'.
 * (2) use only screen.c APIs.
 * (3) take care of wide screen and DBCS.
 * (4) utilize the colos in visio.h, and name asa VCLR_* (visio color)
 */

// ---- DEFINITION ---------------------------------------------------
#define MAX_COL     (t_columns-1)
#define SAFE_MAX_COL    (MAX_COL-1)
#define VBUFLEN     (ANSILINELEN)

// this is a special strlen to speed up processing.
// warning: x MUST be #define x "msg".
// otherwise you need to use real strlen.
#define MACROSTRLEN(x) (sizeof(x)-1)

// ---- UTILITIES ----------------------------------------------------
inline void
outnc(int n, unsigned char c)
{
    while (n-- > 0)
    outc(c);
}

inline void
nblank(int n)
{
    outnc(n, ' ');
}

static inline void
fillns(int n, const char *s)
{
    while (n > 0 && *s)
    outc(*s++), n--;
    if (n > 0)
    outnc(n, ' ');
}

static inline void
fillns_ansi(int n, const char *s)
{
    int d = strat_ansi(n, s);
    if (d < 0) {
    outs(s); nblank(-d);
    } else {
    outns(s, d);
    }
}

// ---- VREF API --------------------------------------------------

/**
 * vscr_save(): 傳回目前畫面的備份物件。
 */
VREFSCR
vscr_save(void)
{
    // TODO optimize memory allocation someday.
    screen_backup_t *o = (screen_backup_t*)malloc(sizeof(screen_backup_t));
    assert(o);
    scr_dump(o);
    return o;
}

/**
 * vscr_restore(obj): 使用並刪除畫面的備份物件。
 */
void
vscr_restore(VREFSCR obj)
{
    screen_backup_t *o = (screen_backup_t*)obj;
    if (o)
    {
    scr_restore(o);
    memset(o, 0, sizeof(screen_backup_t));
    free(o);
    }
}

/**
 * vcur_save(): 傳回目前游標的備份物件。
 */
VREFCUR
vcur_save(void)
{
    // XXX 偷懶不 new object 了， pointer 夠大
    int y, x;
    VREFCUR v;
    getyx(&y, &x);
    v = ((unsigned short)y << 16) | (unsigned short)x;
    return v;
}

/**
 * vcur_restore(obj): 使用並刪除游標的備份物件。
 */
void
vcur_restore(VREFCUR o)
{
    int y, x;
    y = (unsigned int)(o);
    x = (unsigned short)(y & 0xFFFF);
    y = (unsigned short)(y >> 16);
    move(y, x);
}

// ---- LOW LEVEL API -----------------------------------------------

/**
 * prints(fmt, ...): 使用 outs/outc 輸出並格式化字串。
 */
void
prints(const char *fmt,...)
{
    va_list args;
    char buff[VBUFLEN];

    va_start(args, fmt);
    vsnprintf(buff, sizeof(buff), fmt, args);
    va_end(args);

    outs(buff);
}

/**
 * mvouts(y, x, str): = mvaddstr
 */
void
mvouts(int y, int x, const char *str)
{
    move(y, x);
    clrtoeol();
    SOLVE_ANSI_CACHE();
    outs(str);
}

/**
 * vfill(n, flags, s): 印出並填滿 n 個字元的空間
 *
 * @param n space to occupy
 * @param flags VFILL_* parameters
 * @param s string to display
 */
void
vfill(int n, int flags, const char *s)
{
    // warning: flag determination must take care of default values.
    char has_ansi = ((flags & VFILL_HAS_ANSI) || (*s == ESC_CHR));
    char has_border = !(flags & VFILL_NO_BORDER);

    if (n < 1)
    return;

    // quick return
    if (!*s)
    {
    nblank(n);
    return;
    }

    // calculate border size (always draw because n > 0)
    if (has_border)
    n--;

    if (n > 0)
    {
    if (flags & VFILL_RIGHT_ALIGN)
    {
        // right-align
        int l = has_ansi ? strlen_noansi(s) : strlen(s);

        if (l >= n) // '=' prevents blanks
        l = n;
        else {
        nblank(n - l);
        n = l;
        }
        // leave the task to left-align
    }

    // left-align
    if (has_ansi)
        fillns_ansi(n, s);
    else
        fillns(n, s);
    }

    // print border if required
    if (has_border)
    outc(' ');

    // close fill.
    if (has_ansi) 
    outs(ANSI_RESET);
}

/**
 * vfill(n, flags, fmt, ...): 使用 vfill 輸出並格式化字串。
 * 
 * @param n space to occupy
 * @param flags VFILL_* parameters
 * @param fmt   string to display
 */
void
vfillf(int n, int flags, const char *s, ...)
{
    va_list args;
    char buff[VBUFLEN];

    va_start(args, s);
    vsnprintf(buff, sizeof(buff), s, args);
    va_end(args);

    vfill(n, flags, s);
}

/**
 * vpad(n, pattern): 填滿 n 個字元 (使用的格式為 pattern)
 *
 * @param n 要填滿的字元數 (無法填滿時會使用空白填補)
 * @param pattern 填充用的字串
 */
inline void
vpad(int n, const char *pattern)
{
    int len = strlen(pattern);
    // assert(len > 0);

    while (n >= len)
    {
    outs(pattern); 
    n -= len;
    }
    if (n) nblank(n);
}

/**
 * vgety(): 取得目前所在位置的行數
 *
 * 考慮到 ANSI 系統，getyx() 較為少用且危險。
 * vgety() 安全而明確。
 */
inline int
vgety(void)
{
    int y, x;
    getyx(&y, &x);
    return y;
}

// ---- HIGH LEVEL API -----------------------------------------------

/**
 * vshowmsg(s): 在底部印出指定訊息或單純的暫停訊息
 *
 * @param s 指定訊息。 NULL: 任意鍵繼續。 s: 若有 \t 則後面字串靠右 (若無則顯示任意鍵)
 */
void
vshowmsg(const char *msg)
{
    int w = SAFE_MAX_COL;
    move(b_lines, 0); clrtoeol();

    if (!msg)
    {
    // print default message in middle
    outs(VCLR_PAUSE_PAD);
    outc(' '); // initial one space

    // VMSG_PAUSE MUST BE A #define STRING.
    w -= MACROSTRLEN(VMSG_PAUSE); // strlen_noansi(VMSG_PAUSE);
    w--; // initial space
    vpad(w/2, VMSG_PAUSE_PAD);
    outs(VCLR_PAUSE);
    outs(VMSG_PAUSE);
    outs(VCLR_PAUSE_PAD);
    vpad(w - w/2, VMSG_PAUSE_PAD);
    } else {
    // print in left, with floating (if \t exists)
    char *pfloat = strchr(msg, '\t');
    int  szfloat = 0;
    int  nmsg = 0;

    // print prefix
    w -= MACROSTRLEN(VMSG_MSG_PREFIX); // strlen_noansi(VMSG_MSG_PREFIX);
    outs(VCLR_MSG);
    outs(VMSG_MSG_PREFIX);

    // if have float, calculate float size
    if (pfloat) {
        nmsg = pfloat - msg;
        w -= strlen_noansi(msg) -1;     // -1 for \t
        pfloat ++; // skip \t
        szfloat = strlen_noansi(pfloat);
    } else {
        pfloat = VMSG_MSG_FLOAT;
        szfloat = MACROSTRLEN(VMSG_MSG_FLOAT); // strlen_noansi()
        w -= strlen_noansi(msg) + szfloat;
    }

    // calculate if we can display float
    if (w < 0)
    {
        w += szfloat;
        szfloat = 0;
    }

    // print msg body
    if (nmsg)
        outns(msg, nmsg);
    else
        outs(msg);

    // print padding for floats
    if (w > 0)
        nblank(w);

    // able to print float?
    if (szfloat) 
    {
        outs(VCLR_MSG_FLOAT);
        outs(pfloat);
    }
    }

    // safe blank
    outs(" " ANSI_RESET);
}

/**
 * vans(s): 在底部印出訊息與小輸入欄，並傳回使用者的輸入(轉為小寫)。
 *
 * @param s 指定訊息，見 vshowmsg
 */
int
vans(const char *msg)
{
    char buf[3];

    move(b_lines, 0); 
    clrtoeol(); SOLVE_ANSI_CACHE();
    outs(msg);
    vgets(buf, sizeof(buf), VGET_LOWERCASE);
    return (unsigned char)buf[0];
}

/**
 * vansf(s, ...): 在底部印出訊息與小輸入欄，並傳回使用者的輸入(轉為小寫)。
 *
 * @param s 指定訊息，見 vshowmsg
 */
int 
vansf(const char *fmt, ...)
{
    char   msg[VBUFLEN];
    va_list ap;
    va_start(ap, fmt);
    vsnprintf(msg, sizeof(msg), fmt, ap);
    va_end(ap);

    return vans(msg);
}

/**
 * vmsg(s): 在底部印出指定訊息或單純的暫停訊息，並傳回使用者的按鍵。
 *
 * @param s 指定訊息，見 vshowmsg
 */
int
vmsg(const char *msg)
{
    int i = 0;

    vshowmsg(msg);

    // wait for key
    do {
    i = igetch();
    } while( i == 0 );

    // clear message bar
    move(b_lines, 0);
    clrtoeol();

    return i;
}


/**
 * vmsgf(s, ...): 格式化輸出暫停訊息並呼叫 vmsg)。
 *
 * @param s 格式化的訊息
 */
int
vmsgf(const char *fmt,...)
{
    char   msg[VBUFLEN];
    va_list ap;
    va_start(ap, fmt);
    vsnprintf(msg, sizeof(msg), fmt, ap);
    va_end(ap);

    return vmsg(msg);
}

/**
 * vbarf(s, ...): 格式化輸出左右對齊的字串 (MAX_COL)
 *
 * @param s 格式化字串 (\t 後的內容會對齊右端)
 */
void
vbarf(const char *s, ...)
{
    char msg[VBUFLEN], *s2;
    va_list ap;
    va_start(ap, s);
    vsnprintf(msg, sizeof(msg), s, ap);
    va_end(ap);

    s2 = strchr(msg, '\t');
    if (s2) *s2++ = 0;
    else s2 = "";

    return vbarlr(msg, s2);
}

/**
 * vbarlr(l, r): 左右對齊畫滿螢幕 (MAX_COL)
 * 注意: 目前的實作自動認定游標已在行開頭。
 *
 * @param l 靠左對齊的字串 (可含 ANSI 碼)
 * @param r 靠右對齊的字串 (可含 ANSI 碼，後面不會補空白)
 */
void
vbarlr(const char *l, const char *r)
{
    // TODO strlen_noansi 跑兩次... 其實 l 可以邊 output 邊算。
    int szl = strlen_noansi(l),
    szr = strlen_noansi(r);

    // assume we are already in (y, 0)
    clrtoeol();
    outs(l);
    szl = MAX_COL - szl;

    if (szl > szr)
    {
    nblank(szl - szr);
    szl = szr;
    }

    if (szl == szr)
    outs(r);
    else if (szl > 0)
    nblank(szl);

    outs(ANSI_RESET);
}

// ---- THEMED FORMATTING OUTPUT -------------------------------------

/**
 * vs_header(title, mid, right): 清空螢幕並輸出完整標題 (MAX_COL)
 *
 * @param title: 靠左的主要標題，不會被切斷。
 * @param mid: 置中說明，可被切齊。
 * @param right: 靠右的說明，空間夠才會顯示。
 */
void 
vs_header(const char *title, const char *mid, const char *right)
{
    int w = MAX_COL;
    int szmid   = mid   ? strlen(mid) : 0;
    int szright = right ? strlen(right) : 0;

    clear();
    outs(VCLR_HEADER);

    if (title)
    {
    outs(VMSG_HDR_PREFIX);
    outs(title);
    outs(VMSG_HDR_POSTFIX);
    w -= MACROSTRLEN(VMSG_HDR_PREFIX) + MACROSTRLEN(VMSG_HDR_POSTFIX);
    w -= strlen(title);
    }

    // determine if we can display right message, and 
    // if if we need to truncate mid.
    if (szmid + szright > w)
    szright = 0;

    if (szmid >= w)
    szmid = w;
    else {
    int l = (MAX_COL-szmid)/2;
    l -= (MAX_COL-w);
    if (l > 0)
        nblank(l), w -= l;
    }

    if (szmid) {
    outs(VCLR_HEADER_MID);
    outns(mid, szmid);
    outs(VCLR_HEADER);
    }
    nblank(w - szmid);

    if (szright) {
    outs(VCLR_HEADER_RIGHT);
    outs(right);
    }
    outs(ANSI_RESET "\n");
}

/**
 * vs_hdr(title): 清空螢幕並輸出簡易的標題
 *
 * @param title
 */
void
vs_hdr(const char *title)
{
    clear();
    outs(VCLR_HDR VMSG_HDR_PREFIX);
    outs(title);
    outs(VMSG_HDR_POSTFIX ANSI_RESET "\n");
}

/**
 * vs_footer(caption, msg): 在螢幕底部印出格式化的 caption msg (不可含 ANSI 碼)
 *
 * @param caption 左邊的分類字串
 * @param msg 訊息字串, \t 後文字靠右、最後面會自動留一個空白。
 */
void 
vs_footer(const char *caption, const char *msg)
{
    int i = 0;
    move(b_lines, 0); clrtoeol();

    if (caption)
    {
    outs(VCLR_FOOTER_CAPTION);
    outs(caption); i+= strlen(caption);
    }

    if (!msg) msg = "";
    outs(VCLR_FOOTER);

    while (*msg && i < SAFE_MAX_COL)
    {
    if (*msg == '(')
    {
        outs(VCLR_FOOTER_QUOTE);
    }
    else if (*msg == '\t')
    {
        // if we don't have enough space, ignore whole.
        int l = strlen(++msg);
        if (i + l > SAFE_MAX_COL) break;
        l = SAFE_MAX_COL - l - i;
        nblank(l); 
        i += l;
        continue;
    }
    outc(*msg); i++;
    if (*msg == ')')
        outs(VCLR_FOOTER);
    msg ++;
    }
    nblank(SAFE_MAX_COL-i);
    outc(' ');
    outs(ANSI_RESET);
}

/**
 * vs_cols_layout(cols, ws, n): 依據 cols (大小 n) 的定義計算適合的行寬於 ws
 */

void 
vs_cols_layout(const VCOL *cols, VCOLW *ws, int n)
{
    int i, tw, d = 0;
    memset(ws, 0, sizeof(VCOLW) * n);

    // first run, calculate minimal size
    for (i = 0, tw = 0; i < n; i++)
    {
    // drop any trailing if required
    if (tw + cols[i].minw > MAX_COL)
        break;
    ws[i] = cols[i].minw;
    tw += ws[i];
    }

    // try to iterate through all.
    while (tw < MAX_COL) {
    // TODO process priority?
    char run = 0;
    d++;
    for (i = 0; i < n; i++)
    {
        // increase fields if still ok.
        if (cols[i].maxw - cols[i].minw < d)
        continue;
        ws[i] ++; 
        if (++tw >= MAX_COL) break;
        run ++;
    }
    // if no more fields...
    if (!run) break;
    }
}

/**
 * vs_cols: 依照已經算好的欄位大小進行輸出
 */
void
vs_cols(const VCOL *cols, const VCOLW *ws, int n, ...)
{
    int i = 0, w = 0;
    char *s = NULL;

    va_list ap;
    va_start(ap, n);

    for (i = 0; i < n; i++, cols++, ws++)
    {
    int flags = 0;
    s = va_arg(ap, char*);

    // quick check input.
    if (!s) 
    {
        s = "";
    }
    w = *ws;

    if (cols->attr) 
        outs(cols->attr);

    // build vfill flag
    if (cols->flags.right_align)    flags |= VFILL_RIGHT_ALIGN;
    if (cols->flags.usewhole)   flags |= VFILL_NO_BORDER;

    vfill(w, flags, s);

    if (cols->attr)
        outs(ANSI_RESET);
    }
    va_end(ap);

    // end line
    outs(ANSI_RESET "\n");
}

////////////////////////////////////////////////////////////////////////
// DBCS Aware Helpers
////////////////////////////////////////////////////////////////////////

#ifdef DBCSAWARE
#   define CHKDBCSTRAIL(_buf,_i) (ISDBCSAWARE() && DBCS_Status(_buf, _i) == DBCS_TRAILING)
#else  // !DBCSAWARE
#   define CHKDBCSTRAIL(buf,i) (0)
#endif // !DBCSAWARE

////////////////////////////////////////////////////////////////////////
// History Helpers
////////////////////////////////////////////////////////////////////////
//
#define IH_MAX_ENTRIES  (12)        // buffer size = approx. 1k
#define IH_MIN_SIZE (2)     // only keep string >= 2 bytes

typedef struct {
    int icurr;      // current retrival pointer
    int iappend;    // new location to append
    char buf[IH_MAX_ENTRIES][STRLEN];
} InputHistory;

static InputHistory ih; // everything intialized to zero.

int
InputHistoryExists(const char *s)
{
    int i = 0;

    for (i = 0; i < IH_MAX_ENTRIES; i++)
    if (strcmp(s, ih.buf[i]) == 0)
        return i+1;

    return 0;
}

int
InputHistoryAdd(const char *s)
{
    int i = 0;
    int l = strlen(s);

    if (l < IH_MIN_SIZE)
    return 0;

    i = InputHistoryExists(s);
    if (i > 0) // found
    {
    i--; // i points to valid index
    assert(i < IH_MAX_ENTRIES);

    // change order: just delete it.
    ih.buf[i][0] = 0;
    }

    // now append s.
    strlcpy(ih.buf[ih.iappend], s, sizeof(ih.buf[ih.iappend]));
    ih.iappend ++;
    ih.iappend %= IH_MAX_ENTRIES;
    ih.icurr = ih.iappend;

    return 1;
}

static void
InputHistoryDelta(char *s, int sz, int d)
{
    int i, xcurr = 0;
    for (i = 1; i <= IH_MAX_ENTRIES; i++)
    {
    xcurr = (ih.icurr+ IH_MAX_ENTRIES + d*i)%IH_MAX_ENTRIES;
    if (ih.buf[xcurr][0])
    {
        ih.icurr = xcurr;

        // copy buffer
        strlcpy(s, ih.buf[ih.icurr], sz);

        // DBCS safe
        i = strlen(s);
        if (DBCS_Status(s, i) == DBCS_TRAILING)
        s[i-1] = 0;
        break;
    }
    }
}

void 
InputHistoryPrev(char *s, int sz)
{
    InputHistoryDelta(s, sz, -1);
}

void 
InputHistoryNext(char *s, int sz)
{
    InputHistoryDelta(s, sz, +1);
}

////////////////////////////////////////////////////////////////////////
// vget*: mini editbox
////////////////////////////////////////////////////////////////////////

static inline int
_vgetcbhandler(VGET_FCALLBACK cbptr, int *pabort, 
    int c, char *buf, int *picurr, int *piend, int len, void *cbparam)
{
    if (!cbptr)
    return 0;

    switch(cbptr(c, buf, picurr, piend, len, cbparam))
    {
    case VGETCB_NONE:
        return 0;

    case VGETCB_NEXT:
        return 1;

    case VGETCB_END:
        *pabort = 1;
        return 1;

    case VGETCB_ABORT:
        *pabort = 1;
        *picurr = *piend = 0;
        buf[0] = 0;
        return 1;
    }
    assert(0); // shall never reach here
    return 0;
}

int 
vgetstring(char *_buf, int len, int flags, const char *defstr, const VGET_CALLBACKS *pcb, void *cbparam)
{
    // iend points to NUL address, and
    // icurr points to cursor.
    int line, col;
    int icurr = 0, iend = 0, abort = 0;
    int c;
    char ismsgline = 0;

    // always use internal buffer to prevent temporary input issue.
    char buf[STRLEN] = "";  // zero whole.

    // callback 
    VGET_CALLBACKS cb = {NULL};

    // it is wrong to design input with larger buffer
    // than STRLEN. Although we support large screen,
    // inputting huge line will just make troubles...
    if (len > STRLEN) len = STRLEN;
    assert(len <= sizeof(buf) && len >= 2);

    // memset(buf, 0, len);
    if (defstr && *defstr)
    {
    strlcpy(buf, defstr, len);
    strip_ansi(buf, buf, STRIP_ALL); // safer...
    icurr = iend = strlen(buf);
    }

    // setup callbacks
    if (pcb) 
    {
    if (pcb->peek)  cb.peek = pcb->peek;
    if (pcb->data)  cb.data = pcb->data;
    if (pcb->post)  cb.post = pcb->post;
    }

    getyx(&line, &col);     // now (line,col) is the beginning of our new fields.

    // XXX be compatible with traditional...
    if (line == b_lines - msg_occupied)
    ismsgline = 1;

    if (ismsgline)
    msg_occupied ++;

    while (!abort)
    {
    if (!(flags & VGET_NOECHO))
    {
        // print current buffer
        move(line, col);
        clrtoeol();
        SOLVE_ANSI_CACHE();
        if (!(flags & VGET_TRANSPARENT))
        outs(VCLR_INPUT_FIELD); // change color to prompt fields
        vfill(len, 0, buf);
        if (!(flags & VGET_TRANSPARENT))
        outs(ANSI_RESET);

        // move to cursor position
        move(line, col+icurr);
    }
    c = vkey();

    // callback 1: peek
    if (_vgetcbhandler(cb.peek, &abort,
            c, buf, &icurr, &iend, len, cbparam))
        continue;

    // standard key bindings
    switch(c) {
        // history navigation
        case KEY_DOWN: case Ctrl('N'):
        c = KEY_DOWN;
        // let UP do the magic.
        case KEY_UP:   case Ctrl('P'):
        if ((flags & VGET_NOECHO) ||
            (flags & VGET_DIGITS))
        {
            bell(); 
            continue;
        }

        // NOECHO is already checked...
        if (!InputHistoryExists(buf))
            InputHistoryAdd(buf);

        if (c == KEY_DOWN)
            InputHistoryNext(buf, len);
        else
            InputHistoryPrev(buf, len);

        icurr = iend = strlen(buf);
        break;

        // exiting keys
        case '\n':      case '\r':
        abort = 1;
        break;

        case Ctrl('C'):
        icurr = iend = 0;
        buf[0] = 0;
        buf[1] = c;
        abort = 1;
        break;

        // standard navigation
        case KEY_HOME:  case Ctrl('A'):
        icurr = 0;
        break;

        case KEY_END:   case Ctrl('E'):
        icurr = iend;
        break;

        case KEY_LEFT:  case Ctrl('B'):
        if (icurr > 0)
            icurr--;
        else
            bell();
        if (icurr > 0 && CHKDBCSTRAIL(buf, icurr))
            icurr--;
        break;

        case KEY_RIGHT: case Ctrl('F'):
        if (icurr < iend)
            icurr++;
        else
            bell();
        if (icurr < iend && CHKDBCSTRAIL(buf, icurr))
            icurr++;
        break;

        // editing keys
        case KEY_DEL:   case Ctrl('D'):
        if (icurr+1 < iend && CHKDBCSTRAIL(buf, icurr+1)) {
            // kill next one character.
            memmove(buf+icurr, buf+icurr+1, iend-icurr);
            iend--;
        }
        if (icurr < iend) {
            // kill next one character.
            memmove(buf+icurr, buf+icurr+1, iend-icurr);
            iend--;
        }
        break;

        case Ctrl('H'): case KEY_BS2:
        if (icurr > 0) {
            // kill previous one charracter.
            memmove(buf+icurr-1, buf+icurr, iend-icurr+1);
            icurr--; iend--;
        } else
            bell();
        if (icurr > 0 && CHKDBCSTRAIL(buf, icurr)) {
            // kill previous one charracter.
            memmove(buf+icurr-1, buf+icurr, iend-icurr+1);
            icurr--; iend--;
        }
        break;

        case Ctrl('Y'):
        icurr = 0;
        // reuse Ctrl-K code
        case Ctrl('K'):
        iend = icurr;
        buf[iend] = 0;
        break;

        // defaults
        default:

        // content filter
        if (c < ' ' || c >= 0xFF)
        {
            bell(); continue;
        }
        if ((flags & VGET_DIGITS) &&
           ( !isascii(c) || !isdigit(c)))
        {
            bell(); continue;
        }
        if (flags & VGET_LOWERCASE)
        {
            if (!isascii(c))
            {
            bell(); continue;
            }
            c = tolower(c);
        }

        // size check
        if(iend+1 >= len)
        {
            bell(); continue;
        }

        // prevent incomplete DBCS
        if (c > 0x80 && num_in_buf() &&
            len - iend < 3) // we need 3 for DBCS+NUL.
        {
            drop_input();
            bell(); 
            continue;
        }

        // callback 2: data
        if (_vgetcbhandler(cb.data, &abort,
                c, buf, &icurr, &iend, len, cbparam))
            continue;

        // size check again, due to data callback.
        if(iend+1 >= len)
        {
            bell(); continue;
        }

        // add one character.
        memmove(buf+icurr+1, buf+icurr, iend-icurr+1);
        buf[icurr++] = c;
        iend++;

        // callback 3: post
        if (_vgetcbhandler(cb.post, &abort,
                c, buf, &icurr, &iend, len, cbparam))
            continue;

        break;
    }
    }

    assert(iend >= 0 && iend < len);
    buf[iend] = 0;

    // final filtering
    if (iend && (flags & VGET_LOWERCASE))
    buf[0] = tolower(buf[0]);

    // save the history except password mode
    if (buf[0] && !(flags & VGET_NOECHO))
    InputHistoryAdd(buf);

    // copy buffer!
    memcpy(_buf, buf, len);

    // XXX update screen display
    if (ismsgline)
    msg_occupied --;

    /* because some code then outs so change new line.*/
    move(line+1, 0);

    return iend;
}

int
vgets(char *buf, int len, int flags)
{
    return vgetstr(buf, len, flags, "");
}

int 
vgetstr(char *buf, int len, int flags, const char *defstr)
{
    return vgetstring(buf, len, flags, defstr, NULL, NULL);
}