-- -*- ada -*- define(`HTMLNAME',`terminal_interface-curses__ads.htm')dnl include(M4MACRO)------------------------------------------------------------------------------ -- -- -- GNAT ncurses Binding -- -- -- -- Terminal_Interface.Curses -- -- -- -- S P E C -- -- -- ------------------------------------------------------------------------------ -- Copyright (c) 1998,2004 Free Software Foundation, Inc. -- -- -- -- Permission is hereby granted, free of charge, to any person obtaining a -- -- copy of this software and associated documentation files (the -- -- "Software"), to deal in the Software without restriction, including -- -- without limitation the rights to use, copy, modify, merge, publish, -- -- distribute, distribute with modifications, sublicense, and/or sell -- -- copies of the Software, and to permit persons to whom the Software is -- -- furnished to do so, subject to the following conditions: -- -- -- -- The above copyright notice and this permission notice shall be included -- -- in all copies or substantial portions of the Software. -- -- -- -- THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS -- -- OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF -- -- MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. -- -- IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, -- -- DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR -- -- OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR -- -- THE USE OR OTHER DEALINGS IN THE SOFTWARE. -- -- -- -- Except as contained in this notice, the name(s) of the above copyright -- -- holders shall not be used in advertising or otherwise to promote the -- -- sale, use or other dealings in this Software without prior written -- -- authorization. -- ------------------------------------------------------------------------------ -- Author: Juergen Pfeifer, 1996 -- Version Control: -- $Revision$ -- $Date$ -- Binding Version 01.00 ------------------------------------------------------------------------------ include(`Base_Defs') with System.Storage_Elements; with Interfaces.C; -- We need this for some assertions. package Terminal_Interface.Curses is pragma Preelaborate (Terminal_Interface.Curses); include(`Linker_Options') include(`Version_Info') type Window is private; Null_Window : constant Window; type Line_Position is new Natural; -- line coordinate type Column_Position is new Natural; -- column coordinate subtype Line_Count is Line_Position range 1 .. Line_Position'Last; -- Type to count lines. We do not allow null windows, so must be positive subtype Column_Count is Column_Position range 1 .. Column_Position'Last; -- Type to count columns. We do not allow null windows, so must be positive type Key_Code is new Integer; -- That is anything including real characters, special keys and logical -- request codes. -- FIXME: The "-1" should be Curses_Err subtype Real_Key_Code is Key_Code range -1 .. M4_KEY_MAX; -- This are the codes that potentially represent a real keystroke. -- Not all codes may be possible on a specific terminal. To check the -- availability of a special key, the Has_Key function is provided. subtype Special_Key_Code is Real_Key_Code range M4_SPECIAL_FIRST .. Real_Key_Code'Last; -- Type for a function- or special key number subtype Normal_Key_Code is Real_Key_Code range Character'Pos (Character'First) .. Character'Pos (Character'Last); -- This are the codes for regular (incl. non-graphical) characters. -- Constants for function- and special keys -- Key_None : constant Special_Key_Code := M4_SPECIAL_FIRST; include(`Key_Definitions') Key_Max : constant Special_Key_Code := Special_Key_Code'Last; subtype User_Key_Code is Key_Code range (Key_Max + 129) .. Key_Code'Last; -- This is reserved for user defined key codes. The range between Key_Max -- and the first user code is reserved for subsystems like menu and forms. -- For those who like to use the original key names we produce them were -- they differ from the original. Please note that they may differ in -- lower/upper case. include(`Old_Keys')dnl ------------------------------------------------------------------------------ type Color_Number is range -1 .. Integer (Interfaces.C.short'Last); for Color_Number'Size use Interfaces.C.short'Size; -- (n)curses uses a short for the color index -- The model is, that a Color_Number is an index into an array of -- (potentially) definable colors. Some of those indices are -- predefined (see below), although they may not really exist. include(`Color_Defs') type RGB_Value is range 0 .. Integer (Interfaces.C.short'Last); for RGB_Value'Size use Interfaces.C.short'Size; -- Some system may allow to redefine a color by setting RGB values. type Color_Pair is range 0 .. 255; for Color_Pair'Size use 8; subtype Redefinable_Color_Pair is Color_Pair range 1 .. 255; -- (n)curses reserves 1 Byte for the color-pair number. Color Pair 0 -- is fixed (Black & White). A color pair is simply a combination of -- two colors described by Color_Numbers, one for the foreground and -- the other for the background include(`Character_Attribute_Set_Rep') -- (n)curses uses all but the lowest 16 Bits for Attributes. Normal_Video : constant Character_Attribute_Set := (others => False); type Attributed_Character is record Attr : Character_Attribute_Set; Color : Color_Pair; Ch : Character; end record; pragma Convention (C, Attributed_Character); -- This is the counterpart for the chtype in C. include(`AC_Rep') Default_Character : constant Attributed_Character := (Ch => Character'First, Color => Color_Pair'First, Attr => (others => False)); -- preelaboratable Normal_Video type Attributed_String is array (Positive range <>) of Attributed_Character; pragma Pack (Attributed_String); -- In this binding we allow strings of attributed characters. ------------------ -- Exceptions -- ------------------ Curses_Exception : exception; Wrong_Curses_Version : exception; -- Those exceptions are raised by the ETI (Extended Terminal Interface) -- subpackets for Menu and Forms handling. -- Eti_System_Error : exception; Eti_Bad_Argument : exception; Eti_Posted : exception; Eti_Connected : exception; Eti_Bad_State : exception; Eti_No_Room : exception; Eti_Not_Posted : exception; Eti_Unknown_Command : exception; Eti_No_Match : exception; Eti_Not_Selectable : exception; Eti_Not_Connected : exception; Eti_Request_Denied : exception; Eti_Invalid_Field : exception; Eti_Current : exception; -------------------------------------------------------------------------- -- External C variables -- Conceptually even in C this are kind of constants, but they are -- initialized and sometimes changed by the library routines at runtime -- depending on the type of terminal. I believe the best way to model -- this is to use functions. -------------------------------------------------------------------------- function Lines return Line_Count; pragma Inline (Lines); function Columns return Column_Count; pragma Inline (Columns); function Tab_Size return Natural; pragma Inline (Tab_Size); function Number_Of_Colors return Natural; pragma Inline (Number_Of_Colors); function Number_Of_Color_Pairs return Natural; pragma Inline (Number_Of_Color_Pairs); ACS_Map : array (Character'Val (0) .. Character'Val (127)) of Attributed_Character; pragma Import (C, ACS_Map, "acs_map"); -- -- -- Constants for several characters from the Alternate Character Set -- You must use this constants as indices into the ACS_Map array -- to get the corresponding attributed character at runtime. -- include(`ACS_Map')dnl -- MANPAGE(`curs_initscr.3x') -- | Not implemented: newterm, set_term, delscreen, curscr -- ANCHOR(`stdscr',`Standard_Window') function Standard_Window return Window; -- AKA pragma Inline (Standard_Window); -- ANCHOR(`initscr()',`Init_Screen') procedure Init_Screen; -- ANCHOR(`initscr()',`Init_Windows') procedure Init_Windows renames Init_Screen; -- AKA pragma Inline (Init_Screen); pragma Inline (Init_Windows); -- ANCHOR(`endwin()',`End_Windows') procedure End_Windows; -- AKA procedure End_Screen renames End_Windows; pragma Inline (End_Windows); pragma Inline (End_Screen); -- ANCHOR(`isendwin()',`Is_End_Window') function Is_End_Window return Boolean; -- AKA pragma Inline (Is_End_Window); -- MANPAGE(`curs_move.3x') -- ANCHOR(`wmove()',`Move_Cursor') procedure Move_Cursor (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position); -- AKA -- ALIAS(`move()') pragma Inline (Move_Cursor); -- MANPAGE(`curs_addch.3x') -- ANCHOR(`waddch()',`Add') procedure Add (Win : in Window := Standard_Window; Ch : in Attributed_Character); -- AKA -- ALIAS(`addch()') procedure Add (Win : in Window := Standard_Window; Ch : in Character); -- Add a single character at the current logical cursor position to -- the window. Use the current windows attributes. -- ANCHOR(`mvwaddch()',`Add') procedure Add (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Ch : in Attributed_Character); -- AKA -- ALIAS(`mvaddch()') procedure Add (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Ch : in Character); -- Move to the position and add a single character into the window -- There are more Add routines, so the Inline pragma follows later -- ANCHOR(`wechochar()',`Add_With_Immediate_Echo') procedure Add_With_Immediate_Echo (Win : in Window := Standard_Window; Ch : in Attributed_Character); -- AKA -- ALIAS(`echochar()') procedure Add_With_Immediate_Echo (Win : in Window := Standard_Window; Ch : in Character); -- Add a character and do an immediate refresh of the screen. pragma Inline (Add_With_Immediate_Echo); -- MANPAGE(`curs_window.3x') -- Not Implemented: wcursyncup -- ANCHOR(`newwin()',`Create') function Create (Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count; First_Line_Position : Line_Position; First_Column_Position : Column_Position) return Window; -- Not Implemented: Default Number_Of_Lines, Number_Of_Columns -- the C version lets them be 0, see the man page. -- AKA pragma Inline (Create); function New_Window (Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count; First_Line_Position : Line_Position; First_Column_Position : Column_Position) return Window renames Create; pragma Inline (New_Window); -- ANCHOR(`delwin()',`Delete') procedure Delete (Win : in out Window); -- AKA -- Reset Win to Null_Window pragma Inline (Delete); -- ANCHOR(`subwin()',`Sub_Window') function Sub_Window (Win : Window := Standard_Window; Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count; First_Line_Position : Line_Position; First_Column_Position : Column_Position) return Window; -- AKA pragma Inline (Sub_Window); -- ANCHOR(`derwin()',`Derived_Window') function Derived_Window (Win : Window := Standard_Window; Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count; First_Line_Position : Line_Position; First_Column_Position : Column_Position) return Window; -- AKA pragma Inline (Derived_Window); -- ANCHOR(`dupwin()',`Duplicate') function Duplicate (Win : Window) return Window; -- AKA pragma Inline (Duplicate); -- ANCHOR(`mvwin()',`Move_Window') procedure Move_Window (Win : in Window; Line : in Line_Position; Column : in Column_Position); -- AKA pragma Inline (Move_Window); -- ANCHOR(`mvderwin()',`Move_Derived_Window') procedure Move_Derived_Window (Win : in Window; Line : in Line_Position; Column : in Column_Position); -- AKA pragma Inline (Move_Derived_Window); -- ANCHOR(`wsyncup()',`Synchronize_Upwards') procedure Synchronize_Upwards (Win : in Window); -- AKA pragma Import (C, Synchronize_Upwards, "wsyncup"); -- ANCHOR(`wsyncdown()',`Synchronize_Downwards') procedure Synchronize_Downwards (Win : in Window); -- AKA pragma Import (C, Synchronize_Downwards, "wsyncdown"); -- ANCHOR(`syncok()',`Set_Synch_Mode') procedure Set_Synch_Mode (Win : in Window := Standard_Window; Mode : in Boolean := False); -- AKA pragma Inline (Set_Synch_Mode); -- MANPAGE(`curs_addstr.3x') -- ANCHOR(`waddnstr()',`Add') procedure Add (Win : in Window := Standard_Window; Str : in String; Len : in Integer := -1); -- AKA -- ALIAS(`waddstr()') -- ALIAS(`addnstr()') -- ALIAS(`addstr()') -- ANCHOR(`mvwaddnstr()',`Add') procedure Add (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : in String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwaddstr()') -- ALIAS(`mvaddnstr()') -- ALIAS(`mvaddstr()') -- MANPAGE(`curs_addchstr.3x') -- ANCHOR(`waddchnstr()',`Add') procedure Add (Win : in Window := Standard_Window; Str : in Attributed_String; Len : in Integer := -1); -- AKA -- ALIAS(`waddchstr()') -- ALIAS(`addchnstr()') -- ALIAS(`addchstr()') -- ANCHOR(`mvwaddchnstr()',`Add') procedure Add (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : in Attributed_String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwaddchstr()') -- ALIAS(`mvaddchnstr()') -- ALIAS(`mvaddchstr()') pragma Inline (Add); -- MANPAGE(`curs_border.3x') -- | Not implemented: mvhline, mvwhline, mvvline, mvwvline -- | use Move_Cursor then Horizontal_Line or Vertical_Line -- ANCHOR(`wborder()',`Border') procedure Border (Win : in Window := Standard_Window; Left_Side_Symbol : in Attributed_Character := Default_Character; Right_Side_Symbol : in Attributed_Character := Default_Character; Top_Side_Symbol : in Attributed_Character := Default_Character; Bottom_Side_Symbol : in Attributed_Character := Default_Character; Upper_Left_Corner_Symbol : in Attributed_Character := Default_Character; Upper_Right_Corner_Symbol : in Attributed_Character := Default_Character; Lower_Left_Corner_Symbol : in Attributed_Character := Default_Character; Lower_Right_Corner_Symbol : in Attributed_Character := Default_Character ); -- AKA -- ALIAS(`border()') pragma Inline (Border); -- ANCHOR(`box()',`Box') procedure Box (Win : in Window := Standard_Window; Vertical_Symbol : in Attributed_Character := Default_Character; Horizontal_Symbol : in Attributed_Character := Default_Character); -- AKA pragma Inline (Box); -- ANCHOR(`whline()',`Horizontal_Line') procedure Horizontal_Line (Win : in Window := Standard_Window; Line_Size : in Natural; Line_Symbol : in Attributed_Character := Default_Character); -- AKA -- ALIAS(`hline()') pragma Inline (Horizontal_Line); -- ANCHOR(`wvline()',`Vertical_Line') procedure Vertical_Line (Win : in Window := Standard_Window; Line_Size : in Natural; Line_Symbol : in Attributed_Character := Default_Character); -- AKA -- ALIAS(`vline()') pragma Inline (Vertical_Line); -- MANPAGE(`curs_getch.3x') -- Not implemented: mvgetch, mvwgetch -- ANCHOR(`wgetch()',`Get_Keystroke') function Get_Keystroke (Win : Window := Standard_Window) return Real_Key_Code; -- AKA -- ALIAS(`getch()') -- Get a character from the keyboard and echo it - if enabled - to the -- window. -- If for any reason (i.e. a timeout) we couldn't get a character the -- returned keycode is Key_None. pragma Inline (Get_Keystroke); -- ANCHOR(`ungetch()',`Undo_Keystroke') procedure Undo_Keystroke (Key : in Real_Key_Code); -- AKA pragma Inline (Undo_Keystroke); -- ANCHOR(`has_key()',`Has_Key') function Has_Key (Key : Special_Key_Code) return Boolean; -- AKA pragma Inline (Has_Key); -- | -- | Some helper functions -- | function Is_Function_Key (Key : Special_Key_Code) return Boolean; -- Return True if the Key is a function key (i.e. one of F0 .. F63) pragma Inline (Is_Function_Key); subtype Function_Key_Number is Integer range 0 .. 63; -- (n)curses allows for 64 function keys. function Function_Key (Key : Real_Key_Code) return Function_Key_Number; -- Return the number of the function key. If the code is not a -- function key, a CONSTRAINT_ERROR will be raised. pragma Inline (Function_Key); function Function_Key_Code (Key : Function_Key_Number) return Real_Key_Code; -- Return the key code for a given function-key number. pragma Inline (Function_Key_Code); -- MANPAGE(`curs_attr.3x') -- | Not implemented attr_off, wattr_off, -- | attr_on, wattr_on, attr_set, wattr_set -- PAIR_NUMBER -- PAIR_NUMBER(c) is the same as c.Color -- ANCHOR(`standout()',`Standout') procedure Standout (Win : Window := Standard_Window; On : Boolean := True); -- ALIAS(`wstandout()') -- ALIAS(`wstandend()') -- ANCHOR(`wattron()',`Switch_Character_Attribute') procedure Switch_Character_Attribute (Win : in Window := Standard_Window; Attr : in Character_Attribute_Set := Normal_Video; On : in Boolean := True); -- if False we switch Off. -- Switches those Attributes set to true in the list. -- AKA -- ALIAS(`wattroff()') -- ALIAS(`attron()') -- ALIAS(`attroff()') -- ANCHOR(`wattrset()',`Set_Character_Attributes') procedure Set_Character_Attributes (Win : in Window := Standard_Window; Attr : in Character_Attribute_Set := Normal_Video; Color : in Color_Pair := Color_Pair'First); -- AKA -- ALIAS(`attrset()') pragma Inline (Set_Character_Attributes); -- ANCHOR(`wattr_get()',`Get_Character_Attributes') function Get_Character_Attribute (Win : in Window := Standard_Window) return Character_Attribute_Set; -- AKA -- ALIAS(`attr_get()') -- ANCHOR(`wattr_get()',`Get_Character_Attribute') function Get_Character_Attribute (Win : in Window := Standard_Window) return Color_Pair; -- AKA pragma Inline (Get_Character_Attribute); -- ANCHOR(`wcolor_set()',`Set_Color') procedure Set_Color (Win : in Window := Standard_Window; Pair : in Color_Pair); -- AKA -- ALIAS(`color_set()') pragma Inline (Set_Color); -- ANCHOR(`wchgat()',`Change_Attributes') procedure Change_Attributes (Win : in Window := Standard_Window; Count : in Integer := -1; Attr : in Character_Attribute_Set := Normal_Video; Color : in Color_Pair := Color_Pair'First); -- AKA -- ALIAS(`chgat()') -- ANCHOR(`mvwchgat()',`Change_Attributes') procedure Change_Attributes (Win : in Window := Standard_Window; Line : in Line_Position := Line_Position'First; Column : in Column_Position := Column_Position'First; Count : in Integer := -1; Attr : in Character_Attribute_Set := Normal_Video; Color : in Color_Pair := Color_Pair'First); -- AKA -- ALIAS(`mvchgat()') pragma Inline (Change_Attributes); -- MANPAGE(`curs_beep.3x') -- ANCHOR(`beep()',`Beep') procedure Beep; -- AKA pragma Inline (Beep); -- ANCHOR(`flash()',`Flash_Screen') procedure Flash_Screen; -- AKA pragma Inline (Flash_Screen); -- MANPAGE(`curs_inopts.3x') -- | Not implemented : typeahead -- -- ANCHOR(`cbreak()',`Set_Cbreak_Mode') procedure Set_Cbreak_Mode (SwitchOn : in Boolean := True); -- AKA -- ALIAS(`nocbreak()') pragma Inline (Set_Cbreak_Mode); -- ANCHOR(`raw()',`Set_Raw_Mode') procedure Set_Raw_Mode (SwitchOn : in Boolean := True); -- AKA -- ALIAS(`noraw()') pragma Inline (Set_Raw_Mode); -- ANCHOR(`echo()',`Set_Echo_Mode') procedure Set_Echo_Mode (SwitchOn : in Boolean := True); -- AKA -- ALIAS(`noecho()') pragma Inline (Set_Echo_Mode); -- ANCHOR(`meta()',`Set_Meta_Mode') procedure Set_Meta_Mode (Win : in Window := Standard_Window; SwitchOn : in Boolean := True); -- AKA pragma Inline (Set_Meta_Mode); -- ANCHOR(`keypad()',`Set_KeyPad_Mode') procedure Set_KeyPad_Mode (Win : in Window := Standard_Window; SwitchOn : in Boolean := True); -- AKA pragma Inline (Set_KeyPad_Mode); function Get_KeyPad_Mode (Win : in Window := Standard_Window) return Boolean; -- This has no pendant in C. There you've to look into the WINDOWS -- structure to get the value. Bad practice, not repeated in Ada. type Half_Delay_Amount is range 1 .. 255; -- ANCHOR(`halfdelay()',`Half_Delay') procedure Half_Delay (Amount : in Half_Delay_Amount); -- AKA pragma Inline (Half_Delay); -- ANCHOR(`intrflush()',`Set_Flush_On_Interrupt_Mode') procedure Set_Flush_On_Interrupt_Mode (Win : in Window := Standard_Window; Mode : in Boolean := True); -- AKA pragma Inline (Set_Flush_On_Interrupt_Mode); -- ANCHOR(`qiflush()',`Set_Queue_Interrupt_Mode') procedure Set_Queue_Interrupt_Mode (Win : in Window := Standard_Window; Flush : in Boolean := True); -- AKA -- ALIAS(`noqiflush()') pragma Inline (Set_Queue_Interrupt_Mode); -- ANCHOR(`nodelay()',`Set_NoDelay_Mode') procedure Set_NoDelay_Mode (Win : in Window := Standard_Window; Mode : in Boolean := False); -- AKA pragma Inline (Set_NoDelay_Mode); type Timeout_Mode is (Blocking, Non_Blocking, Delayed); -- ANCHOR(`wtimeout()',`Set_Timeout_Mode') procedure Set_Timeout_Mode (Win : in Window := Standard_Window; Mode : in Timeout_Mode; Amount : in Natural); -- in Milliseconds -- AKA -- ALIAS(`timeout()') -- Instead of overloading the semantic of the sign of amount, we -- introduce the Timeout_Mode parameter. This should improve -- readability. For Blocking and Non_Blocking, the Amount is not -- evaluated. -- We don't inline this procedure. -- ANCHOR(`notimeout()',`Set_Escape_Time_Mode') procedure Set_Escape_Timer_Mode (Win : in Window := Standard_Window; Timer_Off : in Boolean := False); -- AKA pragma Inline (Set_Escape_Timer_Mode); -- MANPAGE(`curs_outopts.3x') -- ANCHOR(`nl()',`Set_NL_Mode') procedure Set_NL_Mode (SwitchOn : in Boolean := True); -- AKA -- ALIAS(`nonl()') pragma Inline (Set_NL_Mode); -- ANCHOR(`clearok()',`Clear_On_Next_Update') procedure Clear_On_Next_Update (Win : in Window := Standard_Window; Do_Clear : in Boolean := True); -- AKA pragma Inline (Clear_On_Next_Update); -- ANCHOR(`idlok()',`Use_Insert_Delete_Line') procedure Use_Insert_Delete_Line (Win : in Window := Standard_Window; Do_Idl : in Boolean := True); -- AKA pragma Inline (Use_Insert_Delete_Line); -- ANCHOR(`idcok()',`Use_Insert_Delete_Character') procedure Use_Insert_Delete_Character (Win : in Window := Standard_Window; Do_Idc : in Boolean := True); -- AKA pragma Inline (Use_Insert_Delete_Character); -- ANCHOR(`leaveok()',`Leave_Cursor_After_Update') procedure Leave_Cursor_After_Update (Win : in Window := Standard_Window; Do_Leave : in Boolean := True); -- AKA pragma Inline (Leave_Cursor_After_Update); -- ANCHOR(`immedok()',`Immediate_Update_Mode') procedure Immediate_Update_Mode (Win : in Window := Standard_Window; Mode : in Boolean := False); -- AKA pragma Inline (Immediate_Update_Mode); -- ANCHOR(`scrollok()',`Allow_Scrolling') procedure Allow_Scrolling (Win : in Window := Standard_Window; Mode : in Boolean := False); -- AKA pragma Inline (Allow_Scrolling); function Scrolling_Allowed (Win : Window := Standard_Window) return Boolean; -- There is no such function in the C interface. pragma Inline (Scrolling_Allowed); -- ANCHOR(`wsetscrreg()',`Set_Scroll_Region') procedure Set_Scroll_Region (Win : in Window := Standard_Window; Top_Line : in Line_Position; Bottom_Line : in Line_Position); -- AKA -- ALIAS(`setscrreg()') pragma Inline (Set_Scroll_Region); -- MANPAGE(`curs_refresh.3x') -- ANCHOR(`doupdate()',`Update_Screen') procedure Update_Screen; -- AKA pragma Inline (Update_Screen); -- ANCHOR(`wrefresh()',`Refresh') procedure Refresh (Win : in Window := Standard_Window); -- AKA -- There is an overloaded Refresh for Pads. -- The Inline pragma appears there -- ALIAS(`refresh()') -- ANCHOR(`wnoutrefresh()',`Refresh_Without_Update') procedure Refresh_Without_Update (Win : in Window := Standard_Window); -- AKA -- There is an overloaded Refresh_Without_Update for Pads. -- The Inline pragma appears there -- ANCHOR(`redrawwin()',`Redraw') procedure Redraw (Win : in Window := Standard_Window); -- AKA -- ANCHOR(`wredrawln()',`Redraw') procedure Redraw (Win : in Window := Standard_Window; Begin_Line : in Line_Position; Line_Count : in Positive); -- AKA pragma Inline (Redraw); -- MANPAGE(`curs_clear.3x') -- ANCHOR(`werase()',`Erase') procedure Erase (Win : in Window := Standard_Window); -- AKA -- ALIAS(`erase()') pragma Inline (Erase); -- ANCHOR(`wclear()',`Clear') procedure Clear (Win : in Window := Standard_Window); -- AKA -- ALIAS(`clear()') pragma Inline (Clear); -- ANCHOR(`wclrtobot()',`Clear_To_End_Of_Screen') procedure Clear_To_End_Of_Screen (Win : in Window := Standard_Window); -- AKA -- ALIAS(`clrtobot()') pragma Inline (Clear_To_End_Of_Screen); -- ANCHOR(`wclrtoeol()',`Clear_To_End_Of_Line') procedure Clear_To_End_Of_Line (Win : in Window := Standard_Window); -- AKA -- ALIAS(`clrtoeol()') pragma Inline (Clear_To_End_Of_Line); -- MANPAGE(`curs_bkgd.3x') -- ANCHOR(`wbkgdset()',`Set_Background') -- TODO: we could have Set_Background(Window; Character_Attribute_Set) -- because in C it is common to see bkgdset(A_BOLD) or -- bkgdset(COLOR_PAIR(n)) procedure Set_Background (Win : in Window := Standard_Window; Ch : in Attributed_Character); -- AKA -- ALIAS(`bkgdset()') pragma Inline (Set_Background); -- ANCHOR(`wbkgd()',`Change_Background') procedure Change_Background (Win : in Window := Standard_Window; Ch : in Attributed_Character); -- AKA -- ALIAS(`bkgd()') pragma Inline (Change_Background); -- ANCHOR(`wbkgdget()',`Get_Background') -- ? wbkgdget is not listed in curs_bkgd, getbkgd is thpough. function Get_Background (Win : Window := Standard_Window) return Attributed_Character; -- AKA -- ALIAS(`bkgdget()') pragma Inline (Get_Background); -- MANPAGE(`curs_touch.3x') -- ANCHOR(`untouchwin()',`Untouch') procedure Untouch (Win : in Window := Standard_Window); -- AKA pragma Inline (Untouch); -- ANCHOR(`touchwin()',`Touch') procedure Touch (Win : in Window := Standard_Window); -- AKA -- ANCHOR(`touchline()',`Touch') procedure Touch (Win : in Window := Standard_Window; Start : in Line_Position; Count : in Positive); -- AKA pragma Inline (Touch); -- ANCHOR(`wtouchln()',`Change_Line_Status') procedure Change_Lines_Status (Win : in Window := Standard_Window; Start : in Line_Position; Count : in Positive; State : in Boolean); -- AKA pragma Inline (Change_Lines_Status); -- ANCHOR(`is_linetouched()',`Is_Touched') function Is_Touched (Win : Window := Standard_Window; Line : Line_Position) return Boolean; -- AKA -- ANCHOR(`is_wintouched()',`Is_Touched') function Is_Touched (Win : Window := Standard_Window) return Boolean; -- AKA pragma Inline (Is_Touched); -- MANPAGE(`curs_overlay.3x') -- ANCHOR(`copywin()',`Copy') procedure Copy (Source_Window : in Window; Destination_Window : in Window; Source_Top_Row : in Line_Position; Source_Left_Column : in Column_Position; Destination_Top_Row : in Line_Position; Destination_Left_Column : in Column_Position; Destination_Bottom_Row : in Line_Position; Destination_Right_Column : in Column_Position; Non_Destructive_Mode : in Boolean := True); -- AKA pragma Inline (Copy); -- ANCHOR(`overwrite()',`Overwrite') procedure Overwrite (Source_Window : in Window; Destination_Window : in Window); -- AKA pragma Inline (Overwrite); -- ANCHOR(`overlay()',`Overlay') procedure Overlay (Source_Window : in Window; Destination_Window : in Window); -- AKA pragma Inline (Overlay); -- MANPAGE(`curs_deleteln.3x') -- ANCHOR(`winsdelln()',`Insert_Delete_Lines') procedure Insert_Delete_Lines (Win : in Window := Standard_Window; Lines : in Integer := 1); -- default is to insert one line above -- AKA -- ALIAS(`insdelln()') pragma Inline (Insert_Delete_Lines); -- ANCHOR(`wdeleteln()',`Delete_Line') procedure Delete_Line (Win : in Window := Standard_Window); -- AKA -- ALIAS(`deleteln()') pragma Inline (Delete_Line); -- ANCHOR(`winsertln()',`Insert_Line') procedure Insert_Line (Win : in Window := Standard_Window); -- AKA -- ALIAS(`insertln()') pragma Inline (Insert_Line); -- MANPAGE(`curs_getyx.3x') -- ANCHOR(`getmaxyx()',`Get_Size') procedure Get_Size (Win : in Window := Standard_Window; Number_Of_Lines : out Line_Count; Number_Of_Columns : out Column_Count); -- AKA pragma Inline (Get_Size); -- ANCHOR(`getbegyx()',`Get_Window_Position') procedure Get_Window_Position (Win : in Window := Standard_Window; Top_Left_Line : out Line_Position; Top_Left_Column : out Column_Position); -- AKA pragma Inline (Get_Window_Position); -- ANCHOR(`getyx()',`Get_Cursor_Position') procedure Get_Cursor_Position (Win : in Window := Standard_Window; Line : out Line_Position; Column : out Column_Position); -- AKA pragma Inline (Get_Cursor_Position); -- ANCHOR(`getparyx()',`Get_Origin_Relative_To_Parent') procedure Get_Origin_Relative_To_Parent (Win : in Window; Top_Left_Line : out Line_Position; Top_Left_Column : out Column_Position; Is_Not_A_Subwindow : out Boolean); -- AKA -- Instead of placing -1 in the coordinates as return, we use a boolean -- to return the info that the window has no parent. pragma Inline (Get_Origin_Relative_To_Parent); -- MANPAGE(`curs_pad.3x') -- ANCHOR(`newpad()',`New_Pad') function New_Pad (Lines : Line_Count; Columns : Column_Count) return Window; -- AKA pragma Inline (New_Pad); -- ANCHOR(`subpad()',`Sub_Pad') function Sub_Pad (Pad : Window; Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count; First_Line_Position : Line_Position; First_Column_Position : Column_Position) return Window; -- AKA pragma Inline (Sub_Pad); -- ANCHOR(`prefresh()',`Refresh') procedure Refresh (Pad : in Window; Source_Top_Row : in Line_Position; Source_Left_Column : in Column_Position; Destination_Top_Row : in Line_Position; Destination_Left_Column : in Column_Position; Destination_Bottom_Row : in Line_Position; Destination_Right_Column : in Column_Position); -- AKA pragma Inline (Refresh); -- ANCHOR(`pnoutrefresh()',`Refresh_Without_Update') procedure Refresh_Without_Update (Pad : in Window; Source_Top_Row : in Line_Position; Source_Left_Column : in Column_Position; Destination_Top_Row : in Line_Position; Destination_Left_Column : in Column_Position; Destination_Bottom_Row : in Line_Position; Destination_Right_Column : in Column_Position); -- AKA pragma Inline (Refresh_Without_Update); -- ANCHOR(`pechochar()',`Add_Character_To_Pad_And_Echo_It') procedure Add_Character_To_Pad_And_Echo_It (Pad : in Window; Ch : in Attributed_Character); -- AKA procedure Add_Character_To_Pad_And_Echo_It (Pad : in Window; Ch : in Character); pragma Inline (Add_Character_To_Pad_And_Echo_It); -- MANPAGE(`curs_scroll.3x') -- ANCHOR(`wscrl()',`Scroll') procedure Scroll (Win : in Window := Standard_Window; Amount : in Integer := 1); -- AKA -- ALIAS(`scroll()') -- ALIAS(`scrl()') pragma Inline (Scroll); -- MANPAGE(`curs_delch.3x') -- ANCHOR(`wdelch()',`Delete_Character') procedure Delete_Character (Win : in Window := Standard_Window); -- AKA -- ALIAS(`delch()') -- ANCHOR(`mvwdelch()',`Delete_Character') procedure Delete_Character (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position); -- AKA -- ALIAS(`mvdelch()') pragma Inline (Delete_Character); -- MANPAGE(`curs_inch.3x') -- ANCHOR(`winch()',`Peek') function Peek (Win : Window := Standard_Window) return Attributed_Character; -- ALIAS(`inch()') -- AKA -- ANCHOR(`mvwinch()',`Peek') function Peek (Win : Window := Standard_Window; Line : Line_Position; Column : Column_Position) return Attributed_Character; -- AKA -- ALIAS(`mvinch()') -- More Peek's follow, pragma Inline appears later. -- MANPAGE(`curs_insch.3x') -- ANCHOR(`winsch()',`Insert') procedure Insert (Win : in Window := Standard_Window; Ch : in Attributed_Character); -- AKA -- ALIAS(`insch()') -- ANCHOR(`mvwinsch()',`Insert') procedure Insert (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Ch : in Attributed_Character); -- AKA -- ALIAS(`mvinsch()') -- MANPAGE(`curs_insstr.3x') -- ANCHOR(`winsnstr()',`Insert') procedure Insert (Win : in Window := Standard_Window; Str : in String; Len : in Integer := -1); -- AKA -- ALIAS(`winsstr()') -- ALIAS(`insnstr()') -- ALIAS(`insstr()') -- ANCHOR(`mvwinsnstr()',`Insert') procedure Insert (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : in String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwinsstr()') -- ALIAS(`mvinsnstr()') -- ALIAS(`mvinsstr()') pragma Inline (Insert); -- MANPAGE(`curs_instr.3x') -- ANCHOR(`winnstr()',`Peek') procedure Peek (Win : in Window := Standard_Window; Str : out String; Len : in Integer := -1); -- AKA -- ALIAS(`winstr()') -- ALIAS(`innstr()') -- ALIAS(`instr()') -- ANCHOR(`mvwinnstr()',`Peek') procedure Peek (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : out String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwinstr()') -- ALIAS(`mvinnstr()') -- ALIAS(`mvinstr()') -- MANPAGE(`curs_inchstr.3x') -- ANCHOR(`winchnstr()',`Peek') procedure Peek (Win : in Window := Standard_Window; Str : out Attributed_String; Len : in Integer := -1); -- AKA -- ALIAS(`winchstr()') -- ALIAS(`inchnstr()') -- ALIAS(`inchstr()') -- ANCHOR(`mvwinchnstr()',`Peek') procedure Peek (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : out Attributed_String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwinchstr()') -- ALIAS(`mvinchnstr()') -- ALIAS(`mvinchstr()') -- We don't inline the Peek procedures -- MANPAGE(`curs_getstr.3x') -- ANCHOR(`wgetnstr()',`Get') procedure Get (Win : in Window := Standard_Window; Str : out String; Len : in Integer := -1); -- AKA -- ALIAS(`wgetstr()') -- ALIAS(`getnstr()') -- ALIAS(`getstr()') -- actually getstr is not supported because that results in buffer -- overflows. -- ANCHOR(`mvwgetnstr()',`Get') procedure Get (Win : in Window := Standard_Window; Line : in Line_Position; Column : in Column_Position; Str : out String; Len : in Integer := -1); -- AKA -- ALIAS(`mvwgetstr()') -- ALIAS(`mvgetnstr()') -- ALIAS(`mvgetstr()') -- Get is not inlined -- MANPAGE(`curs_slk.3x') -- Not Implemented: slk_attr_on, slk_attr_off, slk_attr_set type Soft_Label_Key_Format is (Three_Two_Three, Four_Four, PC_Style, -- ncurses specific PC_Style_With_Index); -- " type Label_Number is new Positive range 1 .. 12; type Label_Justification is (Left, Centered, Right); -- ANCHOR(`slk_init()',`Init_Soft_Label_Keys') procedure Init_Soft_Label_Keys (Format : in Soft_Label_Key_Format := Three_Two_Three); -- AKA pragma Inline (Init_Soft_Label_Keys); -- ANCHOR(`slk_set()',`Set_Soft_Label_Key') procedure Set_Soft_Label_Key (Label : in Label_Number; Text : in String; Fmt : in Label_Justification := Left); -- AKA -- We don't inline this procedure -- ANCHOR(`slk_refresh()',`Refresh_Soft_Label_Key') procedure Refresh_Soft_Label_Keys; -- AKA pragma Inline (Refresh_Soft_Label_Keys); -- ANCHOR(`slk_noutrefresh()',`Refresh_Soft_Label_Keys_Without_Update') procedure Refresh_Soft_Label_Keys_Without_Update; -- AKA pragma Inline (Refresh_Soft_Label_Keys_Without_Update); -- ANCHOR(`slk_label()',`Get_Soft_Label_Key') procedure Get_Soft_Label_Key (Label : in Label_Number; Text : out String); -- AKA -- ANCHOR(`slk_label()',`Get_Soft_Label_Key') function Get_Soft_Label_Key (Label : in Label_Number) return String; -- AKA -- Same as function pragma Inline (Get_Soft_Label_Key); -- ANCHOR(`slk_clear()',`Clear_Soft_Label_Keys') procedure Clear_Soft_Label_Keys; -- AKA pragma Inline (Clear_Soft_Label_Keys); -- ANCHOR(`slk_restore()',`Restore_Soft_Label_Keys') procedure Restore_Soft_Label_Keys; -- AKA pragma Inline (Restore_Soft_Label_Keys); -- ANCHOR(`slk_touch()',`Touch_Soft_Label_Keys') procedure Touch_Soft_Label_Keys; -- AKA pragma Inline (Touch_Soft_Label_Keys); -- ANCHOR(`slk_attron()',`Switch_Soft_Label_Key_Attributes') procedure Switch_Soft_Label_Key_Attributes (Attr : in Character_Attribute_Set; On : in Boolean := True); -- AKA -- ALIAS(`slk_attroff()') pragma Inline (Switch_Soft_Label_Key_Attributes); -- ANCHOR(`slk_attrset()',`Set_Soft_Label_Key_Attributes') procedure Set_Soft_Label_Key_Attributes (Attr : in Character_Attribute_Set := Normal_Video; Color : in Color_Pair := Color_Pair'First); -- AKA pragma Inline (Set_Soft_Label_Key_Attributes); -- ANCHOR(`slk_attr()',`Get_Soft_Label_Key_Attributes') function Get_Soft_Label_Key_Attributes return Character_Attribute_Set; -- AKA -- ANCHOR(`slk_attr()',`Get_Soft_Label_Key_Attributes') function Get_Soft_Label_Key_Attributes return Color_Pair; -- AKA pragma Inline (Get_Soft_Label_Key_Attributes); -- ANCHOR(`slk_color()',`Set_Soft_Label_Key_Color') procedure Set_Soft_Label_Key_Color (Pair : in Color_Pair); -- AKA pragma Inline (Set_Soft_Label_Key_Color); -- MANPAGE(`keybound.3x') -- Not Implemented: keybound -- MANPAGE(`keyok.3x') -- ANCHOR(`keyok()',`Enable_Key') procedure Enable_Key (Key : in Special_Key_Code; Enable : in Boolean := True); -- AKA pragma Inline (Enable_Key); -- MANPAGE(`define_key.3x') -- ANCHOR(`define_key()',`Define_Key') procedure Define_Key (Definition : in String; Key : in Special_Key_Code); -- AKA pragma Inline (Define_Key); -- MANPAGE(`curs_util.3x') -- | Not implemented : filter, use_env -- | putwin, getwin are in the child package PutWin -- -- ANCHOR(`keyname()',`Key_Name') procedure Key_Name (Key : in Real_Key_Code; Name : out String); -- AKA -- The external name for a real keystroke. -- ANCHOR(`keyname()',`Key_Name') function Key_Name (Key : in Real_Key_Code) return String; -- AKA -- Same as function -- We don't inline this routine -- ANCHOR(`unctrl()',`Un_Control') procedure Un_Control (Ch : in Attributed_Character; Str : out String); -- AKA -- ANCHOR(`unctrl()',`Un_Control') function Un_Control (Ch : in Attributed_Character) return String; -- AKA -- Same as function pragma Inline (Un_Control); -- ANCHOR(`delay_output()',`Delay_Output') procedure Delay_Output (Msecs : in Natural); -- AKA pragma Inline (Delay_Output); -- ANCHOR(`flushinp()',`Flush_Input') procedure Flush_Input; -- AKA pragma Inline (Flush_Input); -- MANPAGE(`curs_termattrs.3x') -- ANCHOR(`baudrate()',`Baudrate') function Baudrate return Natural; -- AKA pragma Inline (Baudrate); -- ANCHOR(`erasechar()',`Erase_Character') function Erase_Character return Character; -- AKA pragma Inline (Erase_Character); -- ANCHOR(`killchar()',`Kill_Character') function Kill_Character return Character; -- AKA pragma Inline (Kill_Character); -- ANCHOR(`has_ic()',`Has_Insert_Character') function Has_Insert_Character return Boolean; -- AKA pragma Inline (Has_Insert_Character); -- ANCHOR(`has_il()',`Has_Insert_Line') function Has_Insert_Line return Boolean; -- AKA pragma Inline (Has_Insert_Line); -- ANCHOR(`termattrs()',`Supported_Attributes') function Supported_Attributes return Character_Attribute_Set; -- AKA pragma Inline (Supported_Attributes); -- ANCHOR(`longname()',`Long_Name') procedure Long_Name (Name : out String); -- AKA -- ANCHOR(`longname()',`Long_Name') function Long_Name return String; -- AKA -- Same as function pragma Inline (Long_Name); -- ANCHOR(`termname()',`Terminal_Name') procedure Terminal_Name (Name : out String); -- AKA -- ANCHOR(`termname()',`Terminal_Name') function Terminal_Name return String; -- AKA -- Same as function pragma Inline (Terminal_Name); -- MANPAGE(`curs_color.3x') -- COLOR_PAIR -- COLOR_PAIR(n) in C is the same as -- Attributed_Character(Ch => Nul, Color => n, Attr => Normal_Video) -- In C you often see something like c = c | COLOR_PAIR(n); -- This is equivalent to c.Color := n; -- ANCHOR(`start_color()',`Start_Color') procedure Start_Color; -- AKA pragma Import (C, Start_Color, "start_color"); -- ANCHOR(`init_pair()',`Init_Pair') procedure Init_Pair (Pair : in Redefinable_Color_Pair; Fore : in Color_Number; Back : in Color_Number); -- AKA pragma Inline (Init_Pair); -- ANCHOR(`pair_content()',`Pair_Content') procedure Pair_Content (Pair : in Color_Pair; Fore : out Color_Number; Back : out Color_Number); -- AKA pragma Inline (Pair_Content); -- ANCHOR(`has_colors()',`Has_Colors') function Has_Colors return Boolean; -- AKA pragma Inline (Has_Colors); -- ANCHOR(`init_color()',`Init_Color') procedure Init_Color (Color : in Color_Number; Red : in RGB_Value; Green : in RGB_Value; Blue : in RGB_Value); -- AKA pragma Inline (Init_Color); -- ANCHOR(`can_change_color()',`Can_Change_Color') function Can_Change_Color return Boolean; -- AKA pragma Inline (Can_Change_Color); -- ANCHOR(`color_content()',`Color_Content') procedure Color_Content (Color : in Color_Number; Red : out RGB_Value; Green : out RGB_Value; Blue : out RGB_Value); -- AKA pragma Inline (Color_Content); -- MANPAGE(`curs_kernel.3x') -- | Not implemented: getsyx, setsyx -- type Curses_Mode is (Curses, Shell); -- ANCHOR(`def_prog_mode()',`Save_Curses_Mode') procedure Save_Curses_Mode (Mode : in Curses_Mode); -- AKA -- ALIAS(`def_shell_mode()') pragma Inline (Save_Curses_Mode); -- ANCHOR(`reset_prog_mode()',`Reset_Curses_Mode') procedure Reset_Curses_Mode (Mode : in Curses_Mode); -- AKA -- ALIAS(`reset_shell_mode()') pragma Inline (Reset_Curses_Mode); -- ANCHOR(`savetty()',`Save_Terminal_State') procedure Save_Terminal_State; -- AKA pragma Inline (Save_Terminal_State); -- ANCHOR(`resetty();',`Reset_Terminal_State') procedure Reset_Terminal_State; -- AKA pragma Inline (Reset_Terminal_State); type Stdscr_Init_Proc is access function (Win : Window; Columns : Column_Count) return Integer; pragma Convention (C, Stdscr_Init_Proc); -- N.B.: the return value is actually ignored, but it seems to be -- a good practice to return 0 if you think all went fine -- and -1 otherwise. -- ANCHOR(`ripoffline()',`Rip_Off_Lines') procedure Rip_Off_Lines (Lines : in Integer; Proc : in Stdscr_Init_Proc); -- AKA -- N.B.: to be more precise, this uses a ncurses specific enhancement of -- ripoffline(), in which the Lines argument absolute value is the -- number of lines to be ripped of. The official ripoffline() only -- uses the sign of Lines to rip of a single line from bottom or top. pragma Inline (Rip_Off_Lines); type Cursor_Visibility is (Invisible, Normal, Very_Visible); -- ANCHOR(`curs_set()',`Set_Cursor_Visibility') procedure Set_Cursor_Visibility (Visibility : in out Cursor_Visibility); -- AKA pragma Inline (Set_Cursor_Visibility); -- ANCHOR(`napms()',`Nap_Milli_Seconds') procedure Nap_Milli_Seconds (Ms : in Natural); -- AKA pragma Inline (Nap_Milli_Seconds); -- |===================================================================== -- | Some useful helpers. -- |===================================================================== type Transform_Direction is (From_Screen, To_Screen); procedure Transform_Coordinates (W : in Window := Standard_Window; Line : in out Line_Position; Column : in out Column_Position; Dir : in Transform_Direction := From_Screen); -- This procedure transforms screen coordinates into coordinates relative -- to the window and vice versa, depending on the Dir parameter. -- Screen coordinates are the position informations on the physical device. -- An Curses_Exception will be raised if Line and Column are not in the -- Window or if you pass the Null_Window as argument. -- We don't inline this procedure -- MANPAGE(`dft_fgbg.3x') -- ANCHOR(`use_default_colors()',`Use_Default_Colors') procedure Use_Default_Colors; -- AKA pragma Inline (Use_Default_Colors); -- ANCHOR(`assume_default_colors()',`Assume_Default_Colors') procedure Assume_Default_Colors (Fore : Color_Number := Default_Color; Back : Color_Number := Default_Color); -- AKA pragma Inline (Assume_Default_Colors); -- MANPAGE(`curs_extend.3x') -- ANCHOR(`curses_version()',`Curses_Version') function Curses_Version return String; -- AKA -- ANCHOR(`use_extended_names()',`Use_Extended_Names') -- The returnvalue is the previous setting of the flag function Use_Extended_Names (Enable : Boolean) return Boolean; -- AKA -- MANPAGE(`curs_scr_dump.3x') -- ANCHOR(`scr_dump()',`Screen_Dump_To_File') procedure Screen_Dump_To_File (Filename : in String); -- AKA -- ANCHOR(`scr_restore()',`Screen_Restore_From_File') procedure Screen_Restore_From_File (Filename : in String); -- AKA -- ANCHOR(`scr_init()',`Screen_Init_From_File') procedure Screen_Init_From_File (Filename : in String); -- AKA -- ANCHOR(`scr_set()',`Screen_Set_File') procedure Screen_Set_File (Filename : in String); -- AKA -- MANPAGE(`curs_print.3x') -- Not implemented: mcprint -- MANPAGE(`curs_printw.3x') -- Not implemented: printw, wprintw, mvprintw, mvwprintw, vwprintw, -- vw_printw -- Please use the Ada style Text_IO child packages for formatted -- printing. It doesn't make a lot of sense to map the printf style -- C functions to Ada. -- MANPAGE(`curs_scanw.3x') -- Not implemented: scanw, wscanw, mvscanw, mvwscanw, vwscanw, vw_scanw -- MANPAGE(`resizeterm.3x') -- Not Implemented: resizeterm -- MANPAGE(`wresize.3x') -- ANCHOR(`wresize()',`Resize') procedure Resize (Win : Window := Standard_Window; Number_Of_Lines : Line_Count; Number_Of_Columns : Column_Count); -- AKA private type Window is new System.Storage_Elements.Integer_Address; Null_Window : constant Window := 0; -- The next constants are generated and may be different on your -- architecture. -- include(`Window_Offsets')dnl Curses_Bool_False : constant Curses_Bool := 0; end Terminal_Interface.Curses;