コード例 #1
0
ファイル: tty-slang.c プロジェクト: ilia-maslakov/mc
void
tty_keypad (gboolean set)
{
    char *keypad_string;

    keypad_string = (char *) SLtt_tgetstr ((char *) (set ? "ks" : "ke"));
    if (keypad_string != NULL)
        SLtt_write_string (keypad_string);
    if (set && reset_hp_softkeys)
        slang_reset_softkeys ();
}
コード例 #2
0
ファイル: tty-slang.c プロジェクト: ilia-maslakov/mc
static void
slang_reset_softkeys (void)
{
    int key;
    char *send;
    static const char display[] = "                ";
    char tmp[BUF_SMALL];

    for (key = 1; key < 9; key++)
    {
        g_snprintf (tmp, sizeof (tmp), "k%d", key);
        send = (char *) SLtt_tgetstr (tmp);
        if (send != NULL)
        {
            g_snprintf (tmp, sizeof (tmp), ESC_STR "&f%dk%dd%dL%s%s", key,
                        (int) (sizeof (display) - 1), (int) strlen (send), display, send);
            SLtt_write_string (tmp);
        }
    }
}
コード例 #3
0
ファイル: slang_drv.c プロジェクト: XinliNiu/jungerl
static int sl_output(int port, char *buf, int len)
{
    int x,y,z,v,w;
    char *str, *t1, *t2, *t3;
    int ret;
    char ch;


    /* check for signals */

    if (signal_cought != 0) {  /* async out signal */
	char xxx[5];

	xxx[0] = 0;
	put_int32(signal_cought, xxx+1);
	driver_output(port, xxx, 5);
	signal_cought = 0;
    }

    switch (*buf++) {
    case INIT_TTY: {
	int abort_char, flow_ctl, opost;
	abort_char = get_int32(buf); buf+=4;
	flow_ctl = get_int32(buf); buf+= 4;
	opost = get_int32(buf); buf+= 4;
	ret = SLang_init_tty (abort_char,flow_ctl, opost);
	return ret_int(port, ret);
    }
    
    case SET_ABORT_FUNCTION: {
	SLang_set_abort_signal (NULL);
	return ret_int(port, 0);
    }
    case GETKEY: {
	unsigned int key;
	if (SLang_input_pending (0) == 0) {
	    wait_for = GETKEY;
	    driver_select(port, 0, DO_READ, 1);
	    return 0;
	}
	x = SLang_getkey ();
	return ret_int(port, x);
    }
    /* read a symbol */
    case KP_GETKEY: {
	if (SLang_input_pending (0) == 0) {
	    wait_for = KP_GETKEY;
	    driver_select(port, 0, DO_READ, 1);
	    return 0;
	}
	x = SLkp_getkey ();
	return ret_int(port, x);
    }
    case UNGETKEY: {
	unsigned char  key =  (unsigned char) *buf;
	SLang_ungetkey (key); 
	return 0;
    }
    case RESET_TTY: {
	SLang_reset_tty();
	return 0;
    }
    case KP_INIT: {
	return ret_int(port, SLkp_init ());
    }
    case SETVAR: {
	x = get_int32(buf);buf+= 4;
	y = get_int32(buf);
	switch (x) {
	case  esl_baud_rate:
	    SLang_TT_Baud_Rate = y; return 0;
	case esl_read_fd:
	    return 0;
	case esl_abort_char:
	    SLang_Abort_Char = y; return 0;
	case esl_ignore_user_abort:
	    SLang_Ignore_User_Abort=y; return 0;
	case esl_input_buffer_len :
	    SLang_Input_Buffer_Len=y; return 0;
	case  esl_keyboard_quit:
	    SLKeyBoard_Quit=y; return 0;
	case esl_last_key_char:
	    SLang_Last_Key_Char=y; return 0;
	case esl_rl_eof_char:
	    SLang_RL_EOF_Char=y; return 0;
	case esl_rline_quit:
	    SLang_Rline_Quit=y; return 0;
	case esl_screen_rows:
	case  esl_screen_cols :
	    return 0;
	case esl_tab_width:
	    SLsmg_Tab_Width=y; return 0;
	case  esl_newline_behaviour:
	    SLsmg_Newline_Behavior=y; return 0;
	case esl_error:
	    SLang_Error=y; return 0;
	case esl_version:
	    return 0;
	case  esl_backspace_moves :
	    SLsmg_Backspace_Moves=y; return 0;
	case esl_display_eight_bit:
	    SLsmg_Display_Eight_Bit=y; return 0;
	default:
	    return 0;
	}
    }

    case GETVAR: {
	x = get_int32(buf);
	switch (x) {
	case  esl_baud_rate:
	    return ret_int(port, SLang_TT_Baud_Rate);
	case esl_read_fd:
	    return ret_int(port,  SLang_TT_Read_FD);
	case esl_abort_char:
	    return (ret_int(port, SLang_Abort_Char));
	case esl_ignore_user_abort:
	    return ret_int(port, SLang_Ignore_User_Abort);
	case esl_input_buffer_len :
	    return ret_int(port, SLang_Input_Buffer_Len);
	case  esl_keyboard_quit:
	    return ret_int(port, SLKeyBoard_Quit);
	case esl_last_key_char:
	    return ret_int(port, SLang_Last_Key_Char);
	case esl_rl_eof_char:
	    return ret_int(port, SLang_RL_EOF_Char);
	case esl_rline_quit:
	    return ret_int(port, SLang_Rline_Quit);
	case esl_screen_rows:
	    return ret_int(port, SLtt_Screen_Rows);
	case  esl_screen_cols :
	    return ret_int(port, SLtt_Screen_Cols);
	case esl_tab_width:
	    return ret_int(port, SLsmg_Tab_Width);
	case  esl_newline_behaviour:
	    return ret_int(port, SLsmg_Newline_Behavior);
	case esl_error:
	    return ret_int(port, SLang_Error);
	case esl_version:
	    return ret_int(port, SLang_Version); 
	case  esl_backspace_moves :
	    return ret_int(port, SLsmg_Backspace_Moves);
	case esl_display_eight_bit:
	    return  ret_int(port, SLsmg_Display_Eight_Bit);
	default:
	    return ret_int(port, -1);
	}
    }
	    


    /*{{{ SLsmg Screen Management Functions */


    
    case SMG_FILL_REGION: {
	x = get_int32(buf); buf+= 4;
	y =  get_int32(buf); buf+= 4;
	z = get_int32(buf); buf+= 4;
	v = get_int32(buf); buf+= 4;
	ch = *buf;
	SLsmg_fill_region(x, y,z,v,ch);
	return 0;
    }			  
    case SMG_SET_CHAR_SET: {
	x = get_int32(buf); buf+= 4;
	SLsmg_set_char_set(x);
	return 0;
    }			
    case SMG_SUSPEND_SMG: {
	return ret_int(port, SLsmg_suspend_smg());
    }				  
    case SMG_RESUME_SMG: {
	ret_int(port, SLsmg_resume_smg());
    }				     
    case SMG_ERASE_EOL: {
	SLsmg_erase_eol();
	return 0;
    }					
    case SMG_GOTORC: {
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	SLsmg_gotorc(x,  y);
	return 0;
    }					 
    case SMG_ERASE_EOS: {
	SLsmg_erase_eos();
	return 0;
    }						
    case SMG_REVERSE_VIDEO: {
	SLsmg_reverse_video();
	return 0;
    }							
    case SMG_SET_COLOR: {
	x = get_int32(buf); buf+= 4;
	SLsmg_set_color(x);
	return 0;
    }							
    case SMG_NORMAL_VIDEO: {
	SLsmg_normal_video();
	return 0;
    }							
    case SMG_WRITE_STRING: {
	SLsmg_write_string(buf);
	return 0;
    }									   
    case SMG_WRITE_CHAR: {
	ch = *buf;
	SLsmg_write_char(ch);
	return 0;
    }
    case SMG_WRITE_WRAPPED_STRING: {
	t1 = buf;
	buf += strlen(t1) + 1;
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	z = get_int32(buf); buf+= 4;
	v = get_int32(buf); buf+= 4;
	w = get_int32(buf); buf+= 4;
	SLsmg_write_wrapped_string(t1, x,y,z,v,w);
	return 0;
    }												   
    case SMG_CLS: {
	SLsmg_cls();
	return 0;
    }									
    case SMG_REFRESH: {
	SLsmg_refresh();
	return 0;
    }										
    case SMG_TOUCH_LINES: {
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	SLsmg_touch_lines(x, y);
	return 0;
    }											
    case SMG_TOUCH_SCREEN: {
#if (SLANG_VERSION < 10400 )
	return ret_int(port, -1);
#else
	SLsmg_touch_screen();
#endif
	return 0;
    }													   
    case SMG_INIT_SMG: {
	return ret_int(port,  SLsmg_init_smg());
    }													   
    case SMG_REINIT_SMG: {
#if (SLANG_VERSION < 10400 )
	return ret_int(port, -1);
#else
	return ret_int(port, SLsmg_reinit_smg());
#endif
    }														 
    case SMG_RESET_SMG: {
	SLsmg_reset_smg();
	return 0;
    }														    
    case SMG_CHAR_AT: {
	return ret_int(port, SLsmg_char_at());
    }														     
    case SMG_SET_SCREEN_START: {
	int *ip1, *ip2;
	*ip1 = get_int32(buf); buf+= 4;
	*ip2 = get_int32(buf); buf+= 4;

	SLsmg_set_screen_start(ip1, ip2);
	return ret_int_int(port, *ip1, *ip2);
    }
    case SMG_DRAW_HLINE: {
	x = get_int32(buf); buf+= 4;
	SLsmg_draw_hline(x);
	return 0;
    }																 
    case SMG_DRAW_VLINE: {
	x = get_int32(buf); buf+= 4;
	SLsmg_draw_vline(x);
	return 0;
    }																     
    case SMG_DRAW_OBJECT: {
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	x = get_int32(buf); buf+= 4;
	SLsmg_draw_object(x, y,z);
	return 0;
    }																	  
    case SMG_DRAW_BOX: {
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	z = get_int32(buf); buf+= 4;
	v = get_int32(buf); buf+= 4;
	SLsmg_draw_box(x, y,z,v);
	return 0;
    }																	   
    case SMG_GET_COLUMN: {
	return ret_int(port, SLsmg_get_column());
    }																		
    case SMG_GET_ROW: {
	return ret_int(port, SLsmg_get_row());
    }		

    case SMG_FORWARD: {
	x = get_int32(buf); buf+= 4;
	SLsmg_forward(x);
	return 0;
    }							
    case SMG_WRITE_COLOR_CHARS: {
	SLsmg_Char_Type * sl;
	sl = decode_smg_char_type(&buf);
	x = get_int32(buf); buf+= 4;
	SLsmg_write_color_chars(sl, x);
	return 0;
    }		
    case SMG_READ_RAW: {
	x = get_int32(buf); buf+= 4;
	t1 = malloc((2*x) + 2 + 1);
	y = SLsmg_read_raw((unsigned short*)t1 +1, x);
	t1[1] = 1;
	driver_output(port, t1, y+1);
	free(t1);
	return 0;
    }
    case SMG_WRITE_RAW: {
	SLsmg_Char_Type * sl;
	sl = decode_smg_char_type(&buf);
	x = get_int32(buf); 
	y = SLsmg_write_raw(sl, x);
	return ret_int(port, y);
    }																				
    case SMG_SET_COLOR_IN_REGION: {
	x = get_int32(buf); buf+= 4;
	y = get_int32(buf); buf+= 4;
	z = get_int32(buf); buf+= 4;
	v = get_int32(buf); buf+= 4;
	w = get_int32(buf); buf+= 4;
	SLsmg_set_color_in_region(x, y,z,v,w);
	return 0;
    }																				
    
    




    /* all the tt_functions  */

    case TT_FLUSH_OUTPUT: {
	ret = SLtt_flush_output();
	return ret_int(port, ret);
    }
    case TT_SET_SCROLL_REGION: {

	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	SLtt_set_scroll_region(x, y);
	return 0;
    }
    case TT_RESET_SCROLL_REGION: {
	SLtt_reset_scroll_region();
	return 0;
    }
    case TT_REVERSE_VIDEO: {
	SLtt_reverse_video (get_int32(buf));
	return 0;
    }
    case TT_BOLD_VIDEO: {
	SLtt_begin_insert();
	return 0;
    }
    case TT_BEGIN_INSERT: {
	SLtt_begin_insert();
	return 0;
    }
    case TT_END_INSERT: {
	SLtt_end_insert();
	return 0;
    }
    case TT_DEL_EOL: {
	SLtt_del_eol();
	return 0;
    }
    case TT_GOTO_RC: {
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	SLtt_goto_rc (x, y);
	return 0;
    }
    case TT_DELETE_NLINES: {
	SLtt_delete_nlines(get_int32(buf));
	return 0;
    }
    case TT_DELETE_CHAR: {
	SLtt_delete_char();
	return 0;
    }
    case TT_ERASE_LINE: {
	SLtt_erase_line();
	return 0;
    }
    case TT_NORMAL_VIDEO: {
	SLtt_normal_video();
	return 0;
    }
    case TT_CLS: {
	SLtt_cls();
	return 0;
    }
    case TT_BEEP: {
	SLtt_beep();
	return 0;
    }
    case TT_REVERSE_INDEX: {
	SLtt_reverse_index(get_int32(buf));
	return 0;
    }
    case TT_SMART_PUTS: {
	SLsmg_Char_Type *t1 ;
	SLsmg_Char_Type *t2;

	t1 = decode_smg_char_type(&buf);
	t2 = decode_smg_char_type(&buf);
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	SLtt_smart_puts(t1, t2,x,y);
	return 0;
    }
    case TT_WRITE_STRING: {
	SLtt_write_string (buf);
	return 0;
    }
    case TT_PUTCHAR: {
	SLtt_putchar((char) get_int32(buf));
	return 0;
    }
    case TT_INIT_VIDEO: {
	ret = SLtt_init_video ();
	return ret_int(port, ret);	
    }
    case TT_RESET_VIDEO: {
	SLtt_reset_video ();
	return 0;
    }
    case TT_GET_TERMINFO: {
	SLtt_get_terminfo();
	return 0;
    }
    case TT_GET_SCREEN_SIZE: {
	SLtt_get_screen_size ();
	return 0;
    }
    case TT_SET_CURSOR_VISIBILITY: {
	ret = SLtt_set_cursor_visibility (get_int32(buf));
	return ret_int(port, ret);	
    }
    case TT_SET_MOUSE_MODE: {
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	ret = SLtt_set_mouse_mode (x,y);
	return ret_int(port, ret);	
    }

    case TT_INITIALIZE: {
	ret =SLtt_initialize (buf);
	return ret_int(port, ret);	
    }
    case TT_ENABLE_CURSOR_KEYS: {
	SLtt_enable_cursor_keys();
	return 0;
    }
    case TT_SET_TERM_VTXXX: {
	
	return 0;
    }
    case TT_SET_COLOR_ESC: {
	x = get_int32(buf); buf+=4;
	SLtt_set_color_esc (x, buf);
	return 0;
    }
    case TT_WIDE_WIDTH: {
	SLtt_narrow_width();
	return 0;
    }
    case TT_NARROW_WIDTH: {
	SLtt_narrow_width();
	return 0;
    }
    case TT_SET_ALT_CHAR_SET: {
	SLtt_set_alt_char_set (get_int32(buf));
	return 0;
    }
    case TT_WRITE_TO_STATUS_LINE: {
	x = get_int32(buf); buf+=4;
	SLtt_write_to_status_line (buf, x);
	return 0;
    }
    case TT_DISABLE_STATUS_LINE: {
	SLtt_disable_status_line ();
	return 0;
    }


    case TT_TGETSTR: {
	str = SLtt_tgetstr (buf);
	return ret_string(port, str);
    }
    case TT_TGETNUM: {
	x = SLtt_tgetnum (buf);
	return ret_int(port, x);
    }
    case TT_TGETFLAG: {
	x = SLtt_tgetflag (buf);
	return  ret_int(port, x);
    }
    case TT_TIGETENT: {
	str = SLtt_tigetent (buf);
	return ret_string(port, str);
    }
    case TT_TIGETSTR: {
	
	return 0;
    }
    case TT_TIGETNUM: {

	return 0;
    }

    case SLTT_GET_COLOR_OBJECT: {
	x = get_int32(buf); buf+=4;
	y = SLtt_get_color_object (x);
	return  ret_int(port, y);
	return 0;
    }
    case TT_SET_COLOR_OBJECT: {
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	SLtt_set_color_object (x, y);
	return 0;
    }
    case TT_SET_COLOR: {
	x = get_int32(buf); buf+=4;
	t1 = buf;
	t2 = buf + (strlen(t1) + 1);
	t3 = buf + (strlen(t1) + strlen(t2) + 2);
	SLtt_set_color (x, t1, t2, t3);
	return 0;
    }
    case TT_SET_MONO: {
	x = get_int32(buf); buf+=4;
	t1 = buf;
	buf += strlen(t1) + 1;
	y = get_int32(buf);
	SLtt_set_mono (x, t1, y);
	return 0;
    }
    case TT_ADD_COLOR_ATTRIBUTE: {
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	SLtt_add_color_attribute (x, y);
	return 0;
    }
    case TT_SET_COLOR_FGBG: {
	x = get_int32(buf); buf+=4;
	y = get_int32(buf); buf+=4;
	z = get_int32(buf); buf+=4;
	SLtt_set_color_fgbg (x, y, z);
	return 0;
    }
    case ISATTY: {
	x = get_int32(buf); buf+=4;
	return ret_int(port, isatty(x));
    }
    case EFORMAT: {
	fprintf(stderr, "%s", buf);
	fflush(stderr);
	return 0;
    }
    case SIGNAL: {
	x = get_int32(buf); buf+=4;
	SLsignal(x_to_sig(x), sig_handler);
	return 0;
    }
    case SIGNAL_CHECK: {
	/* polled */
	if (signal_cought != 0)
	    signal_cought = 0;
	return ret_int(port, signal_cought);
    }

    default:
	return 0;
    }
}