-- Programmed by Jedidiah Barber -- Released into the public domain with Interfaces.C.Strings; package body FLTK.Widgets.Valuators is ------------------------ -- Functions From C -- ------------------------ function new_fl_valuator (X, Y, W, H : in Interfaces.C.int; Text : in Interfaces.C.char_array) return Storage.Integer_Address; pragma Import (C, new_fl_valuator, "new_fl_valuator"); pragma Inline (new_fl_valuator); procedure free_fl_valuator (V : in Storage.Integer_Address); pragma Import (C, free_fl_valuator, "free_fl_valuator"); pragma Inline (free_fl_valuator); function fl_valuator_clamp (V : in Storage.Integer_Address; D : in Interfaces.C.double) return Interfaces.C.double; pragma Import (C, fl_valuator_clamp, "fl_valuator_clamp"); pragma Inline (fl_valuator_clamp); function fl_valuator_round (V : in Storage.Integer_Address; D : in Interfaces.C.double) return Interfaces.C.double; pragma Import (C, fl_valuator_round, "fl_valuator_round"); pragma Inline (fl_valuator_round); function fl_valuator_increment (V : in Storage.Integer_Address; D : in Interfaces.C.double; S : in Interfaces.C.int) return Interfaces.C.double; pragma Import (C, fl_valuator_increment, "fl_valuator_increment"); pragma Inline (fl_valuator_increment); function fl_valuator_get_minimum (V : in Storage.Integer_Address) return Interfaces.C.double; pragma Import (C, fl_valuator_get_minimum, "fl_valuator_get_minimum"); pragma Inline (fl_valuator_get_minimum); procedure fl_valuator_set_minimum (V : in Storage.Integer_Address; D : in Interfaces.C.double); pragma Import (C, fl_valuator_set_minimum, "fl_valuator_set_minimum"); pragma Inline (fl_valuator_set_minimum); function fl_valuator_get_maximum (V : in Storage.Integer_Address) return Interfaces.C.double; pragma Import (C, fl_valuator_get_maximum, "fl_valuator_get_maximum"); pragma Inline (fl_valuator_get_maximum); procedure fl_valuator_set_maximum (V : in Storage.Integer_Address; D : in Interfaces.C.double); pragma Import (C, fl_valuator_set_maximum, "fl_valuator_set_maximum"); pragma Inline (fl_valuator_set_maximum); function fl_valuator_get_step (V : in Storage.Integer_Address) return Interfaces.C.double; pragma Import (C, fl_valuator_get_step, "fl_valuator_get_step"); pragma Inline (fl_valuator_get_step); procedure fl_valuator_set_step_top (V : in Storage.Integer_Address; T : in Interfaces.C.double); pragma Import (C, fl_valuator_set_step_top, "fl_valuator_set_step_top"); pragma Inline (fl_valuator_set_step_top); procedure fl_valuator_set_step_bottom (V : in Storage.Integer_Address; B : in Interfaces.C.int); pragma Import (C, fl_valuator_set_step_bottom, "fl_valuator_set_step_bottom"); pragma Inline (fl_valuator_set_step_bottom); procedure fl_valuator_set_step (V : in Storage.Integer_Address; T : in Interfaces.C.double; B : in Interfaces.C.int); pragma Import (C, fl_valuator_set_step, "fl_valuator_set_step"); pragma Inline (fl_valuator_set_step); function fl_valuator_get_value (V : in Storage.Integer_Address) return Interfaces.C.double; pragma Import (C, fl_valuator_get_value, "fl_valuator_get_value"); pragma Inline (fl_valuator_get_value); procedure fl_valuator_set_value (V : in Storage.Integer_Address; D : in Interfaces.C.double); pragma Import (C, fl_valuator_set_value, "fl_valuator_set_value"); pragma Inline (fl_valuator_set_value); procedure fl_valuator_bounds (V : in Storage.Integer_Address; A, B : in Interfaces.C.double); pragma Import (C, fl_valuator_bounds, "fl_valuator_bounds"); pragma Inline (fl_valuator_bounds); procedure fl_valuator_precision (V : in Storage.Integer_Address; D : in Interfaces.C.int); pragma Import (C, fl_valuator_precision, "fl_valuator_precision"); pragma Inline (fl_valuator_precision); procedure fl_valuator_range (V : in Storage.Integer_Address; A, B : in Interfaces.C.double); pragma Import (C, fl_valuator_range, "fl_valuator_range"); pragma Inline (fl_valuator_range); procedure fl_valuator_value_damage (V : in Storage.Integer_Address); pragma Import (C, fl_valuator_value_damage, "fl_valuator_value_damage"); pragma Inline (fl_valuator_value_damage); procedure fl_valuator_draw (V : in Storage.Integer_Address); pragma Import (C, fl_valuator_draw, "fl_valuator_draw"); pragma Inline (fl_valuator_draw); function fl_valuator_handle (V : in Storage.Integer_Address; E : in Interfaces.C.int) return Interfaces.C.int; pragma Import (C, fl_valuator_handle, "fl_valuator_handle"); pragma Inline (fl_valuator_handle); ------------------- -- Destructors -- ------------------- procedure Extra_Final (This : in out Valuator) is begin Extra_Final (Widget (This)); end Extra_Final; procedure Finalize (This : in out Valuator) is begin Extra_Final (This); if This.Void_Ptr /= Null_Pointer and This.Needs_Dealloc then free_fl_valuator (This.Void_Ptr); This.Void_Ptr := Null_Pointer; end if; end Finalize; -------------------- -- Constructors -- -------------------- procedure Extra_Init (This : in out Valuator; X, Y, W, H : in Integer; Text : in String) is begin Extra_Init (Widget (This), X, Y, W, H, Text); end Extra_Init; procedure Initialize (This : in out Valuator) is begin This.Draw_Ptr := fl_valuator_draw'Address; This.Handle_Ptr := fl_valuator_handle'Address; end Initialize; package body Forge is function Create (X, Y, W, H : in Integer; Text : in String := "") return Valuator is begin return This : Valuator do This.Void_Ptr := new_fl_valuator (Interfaces.C.int (X), Interfaces.C.int (Y), Interfaces.C.int (W), Interfaces.C.int (H), Interfaces.C.To_C (Text)); Extra_Init (This, X, Y, W, H, Text); end return; end Create; end Forge; ----------------------- -- API Subprograms -- ----------------------- function Clamp (This : in Valuator; Input : in Long_Float) return Long_Float is begin return Long_Float (fl_valuator_clamp (This.Void_Ptr, Interfaces.C.double (Input))); end Clamp; function Round (This : in Valuator; Input : in Long_Float) return Long_Float is begin return Long_Float (fl_valuator_round (This.Void_Ptr, Interfaces.C.double (Input))); end Round; function Increment (This : in Valuator; Input : in Long_Float; Step : in Integer) return Long_Float is begin return Long_Float (fl_valuator_increment (This.Void_Ptr, Interfaces.C.double (Input), Interfaces.C.int (Step))); end Increment; function Get_Minimum (This : in Valuator) return Long_Float is begin return Long_Float (fl_valuator_get_minimum (This.Void_Ptr)); end Get_Minimum; procedure Set_Minimum (This : in out Valuator; To : in Long_Float) is begin fl_valuator_set_minimum (This.Void_Ptr, Interfaces.C.double (To)); end Set_Minimum; function Get_Maximum (This : in Valuator) return Long_Float is begin return Long_Float (fl_valuator_get_maximum (This.Void_Ptr)); end Get_Maximum; procedure Set_Maximum (This : in out Valuator; To : in Long_Float) is begin fl_valuator_set_maximum (This.Void_Ptr, Interfaces.C.double (To)); end Set_Maximum; function Get_Step (This : in Valuator) return Long_Float is begin return Long_Float (fl_valuator_get_step (This.Void_Ptr)); end Get_Step; procedure Set_Step_Top (This : in out Valuator; To : in Long_Float) is begin fl_valuator_set_step_top (This.Void_Ptr, Interfaces.C.double (To)); end Set_Step_Top; procedure Set_Step_Bottom (This : in out Valuator; To : in Integer) is begin fl_valuator_set_step_bottom (This.Void_Ptr, Interfaces.C.int (To)); end Set_Step_Bottom; procedure Set_Step (This : in out Valuator; Top : in Long_Float; Bottom : in Integer) is begin fl_valuator_set_step (This.Void_Ptr, Interfaces.C.double (Top), Interfaces.C.int (Bottom)); end Set_Step; function Get_Value (This : in Valuator) return Long_Float is begin return Long_Float (fl_valuator_get_value (This.Void_Ptr)); end Get_Value; procedure Set_Value (This : in out Valuator; To : in Long_Float) is begin fl_valuator_set_value (This.Void_Ptr, Interfaces.C.double (To)); end Set_Value; procedure Set_Bounds (This : in out Valuator; Min, Max : in Long_Float) is begin fl_valuator_bounds (This.Void_Ptr, Interfaces.C.double (Min), Interfaces.C.double (Max)); end Set_Bounds; procedure Set_Precision (This : in out Valuator; To : in Integer) is begin fl_valuator_precision (This.Void_Ptr, Interfaces.C.int (To)); end Set_Precision; procedure Set_Range (This : in out Valuator; Min, Max : in Long_Float) is begin fl_valuator_range (This.Void_Ptr, Interfaces.C.double (Min), Interfaces.C.double (Max)); end Set_Range; procedure Value_Damage (This : in out Valuator) is begin fl_valuator_value_damage (This.Void_Ptr); end Value_Damage; end FLTK.Widgets.Valuators;