with H3.Pool; with H3.Limited_Pool; with H3.Arrays; with H3.Strings; with H3.Storage; with H3.Storage_Pools; with H3.MM; with GNAT.Debug_Pools; with System.Storage_Pools; with System.Pool_Global; with Ada.Unchecked_Deallocation; with Ada.Text_IO; with Ada.Wide_Text_IO; with Ada.Assertions; use type H3.System_Size; procedure hello is package S is new H3.Strings(Standard.Wide_Character, H3.Storage.Global_Pool_Box); --type Global_Pool is new System.Storage_Pools.Root_Storage_Pool with null record; P1: aliased System.Pool_Global.Unbounded_No_Reclaim_Pool; P2: aliased GNAT.Debug_Pools.Debug_Pool; P3: aliased H3.Storage_Pools.Global_Pool; type T is record A: Integer := 99; B: Integer := 88; C: Float; end record; type L is limited record A: Integer := 1234; B: Integer; C: Float; end record; type T_Pointer is access T; package TP is new H3.Pool(T, T_Pointer, P1'Unchecked_Access); type L_Pointer is access L; package LP is new H3.Limited_Pool(L, L_Pointer, P1'Unchecked_Access); type I_Pointer is access Integer; package IP is new H3.Pool(Integer, I_Pointer, P1'Unchecked_Access); procedure Info is new GNAT.Debug_Pools.Print_Info(Ada.Text_IO.Put_Line, Ada.Text_IO.Put); x: T_Pointer; i: I_Pointer; y: L_Pointer; SS: S.Elastic_String; procedure print_string_info (Str: in S.Elastic_String; Name: in Standard.String) is len: H3.System_Size; capa: H3.System_Size; first: H3.System_Size; last: H3.System_Size; begin len := S.Get_Length(Str); capa := S.Get_Capacity(Str); first := S.Get_First_Index(Str); last := S.Get_Last_Index(Str); Ada.Text_IO.Put (Name & " len:" & len'Img & " capa:" & capa'Img & " first:" & first'Img & " last:" & last'Img & " => "); Ada.Wide_Text_IO.Put_line (Standard.Wide_String(S.To_Item_Array(Str))); if S.Get_Terminator_Length(Str) > 0 then pragma Assert (S.Get_Item(Str, S.Get_Last_Index(Str) + 1) = S.Get_Terminator_Value(Str)); null; end if; end print_string_info; begin declare TTT: H3.System_Size := H3.System_Size'Last; --NNN: Standard.Natural := Standard.Natural'Last; begin TTT := TTT + 1; ada.text_io.put_line ("-----------------"); ada.text_io.put_line (TTT'Img); ada.text_io.put_line ("-----------------"); --NNN := NNN + 1; --ada.text_io.put_line ("-----------------"); --ada.text_io.put_line (NNN'Img); --ada.text_io.put_line ("-----------------"); end; x := TP.Allocate((A => 900, B => 800, C => 1.1)); i := IP.Allocate(200); y := LP.Allocate; -- can't do this as it's limited --y.all := (A => 1900, B => 1800, C => 11.1); -- this works... --y.A := 1900; y.B := 1800; y.C := 11.1; declare type LL_Pointer is access L; for LL_Pointer'Storage_Pool use P3; z: LL_Pointer; procedure Dealloc is new Ada.Unchecked_Deallocation(L, LL_Pointer); begin z := new L'(A => 9900, B => 9800, C => 99.1); Ada.Text_IO.Put_Line (Z.A'Img); Dealloc (z); end; Ada.Text_IO.Put_Line(Integer'Image(x.A)); Ada.Text_IO.Put_Line(Integer'Image(x.B)); Ada.Text_IO.Put_Line(Integer'Image(i.all)); Ada.Text_IO.Put_Line(Integer'Image(y.A)); IP.Deallocate (i); TP.Deallocate (x); LP.Deallocate (y); --GNAT.Debug_Pools.Print_Info_Stdout(P2); --GNAT.Debug_Pools.Dump_Stdout(P2, 100); declare str: S.Elastic_String; str2: S.Elastic_String; begin print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 0); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 0); S.Append(Str, "Hello, world!"); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 13); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 13); S.Append(Str, ""); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 13); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 13); S.Append(Str, ' ', 0); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 13); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 13); S.Prepend(Str, ' ', 0); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 13); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 13); S.Append(Str, ' ', 2); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 15); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 15); S.Append(Str, "donkey"); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 21); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 21); S.Prepend(Str, "Oh! "); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 25); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 25); declare -- unsafe way to access the internal buffer. --arr: constant S.P.Item_Array := S.To_Item_Array(Str); arr: constant S.Rune_Array := S.To_Item_Array(Str); begin Ada.Wide_Text_IO.Put ("STR[1] => ["); for i in arr'Range loop Ada.Wide_Text_IO.Put (arr(i)); end loop; Ada.Wide_Text_IO.Put_Line ("]"); Ada.Wide_Text_IO.Put ("STR[2] => ["); for i in S.Get_First_Index(Str) .. S.Get_Last_Index(Str) loop Ada.Wide_Text_IO.Put (S.Get_Item(Str, i)); end loop; Ada.Wide_Text_IO.Put_Line ("]"); Ada.Wide_Text_IO.Put ("STR[3] => ["); Ada.Wide_Text_IO.Put (Standard.Wide_String(arr)); Ada.Wide_Text_IO.Put_Line ("]"); end; pragma Assert (S."="(Str, "Oh! Hello, world! donkey")); S.Append (Str, '>'); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 26); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 26); pragma Assert (S."="(Str, "Oh! Hello, world! donkey>")); S.Append (Str, "donkeyX"); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 33); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 33); pragma Assert (S."="(Str, "Oh! Hello, world! donkey>donkeyX")); S.Append (Str, "ABCDE"); print_string_info (Str, "Str"); pragma Assert (S.Get_Length(Str) = 38); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 38); pragma Assert (S."="(Str, "Oh! Hello, world! donkey>donkeyXABCDE")); Str2 := Str; S.Append (Str2, "EXTRA"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 43); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 43); pragma Assert (S."="(Str2, "Oh! Hello, world! donkey>donkeyXABCDEEXTRA")); pragma Assert (S.Get_Length(Str) = 38); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 38); pragma Assert (S."="(Str, "Oh! Hello, world! donkey>donkeyXABCDE")); S.Append (Str2, " THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 91); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 91); pragma Assert (S."="(Str2, "Oh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); pragma Assert (S.Get_Length(Str) = 38); pragma Assert (S.Get_First_Index(Str) = 1); pragma Assert (S.Get_Last_Index(Str) = 38); pragma Assert (S."="(Str, "Oh! Hello, world! donkey>donkeyXABCDE")); S.Replace (Str2, 1, 1, 'Q'); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 91); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 91); pragma Assert (S."="(Str2, "Qh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, 1, 'B'); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 92); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 92); pragma Assert (S."="(Str2, "BQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, 1, 'A', 3); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 95); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 95); pragma Assert (S."="(Str2, "AAABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, 3, 'C', 2); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 97); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 97); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, 5, ""); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 97); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 97); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, S.Get_Last_Index(Str2) + 1, ""); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 97); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 97); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Insert (Str2, S.Get_Last_Index(Str2) + 1, " => ABCDEF"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 107); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 107); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3 => ABCDEF")); S.Prepend (Str2, '>', 3); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 110); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 110); pragma Assert (S."="(Str2, ">>>AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3 => ABCDEF")); S.Delete (Str2, 1, 3); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 107); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 107); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3 => ABCDEF")); S.Delete (Str2, S.Get_Last_Index(Str2) - 9, S.Get_Last_Index(Str2)); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 97); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 97); pragma Assert (S."="(Str2, "AACCABQh! Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Delete (Str2, 5, 9); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 92); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 92); pragma Assert (S."="(Str2, "AACC Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Replace (Str2, 1, 5, ""); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 87); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 87); pragma Assert (S."="(Str2, "Hello, world! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Replace (Str2, 8, 12, "cougar"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 88); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 88); pragma Assert (S."="(Str2, "Hello, cougar! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR H3")); S.Replace (Str2, S.Get_Last_Index(Str2) - 1, S.Get_Last_Index(Str2) + 100, "HH"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 88); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 88); pragma Assert (S."="(Str2, "Hello, cougar! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR HH")); S.Replace (Str2, 8, 13, "bee"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 85); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 85); pragma Assert (S."="(Str2, "Hello, bee! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR HH")); S.Replace (Str2, 8, 10, "ABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZ"); print_string_info (Str2, "Str2"); pragma Assert (S.Get_Length(Str2) = 160); pragma Assert (S.Get_First_Index(Str2) = 1); pragma Assert (S.Get_Last_Index(Str2) = 160); pragma Assert (S."="(Str2, "Hello, ABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZABCDEFGHIJKLMNOPQRSTUVWXYZ! donkey>donkeyXABCDEEXTRA THIS IS FANTASTIC ELASTIC STRING WRITTEN FOR HH")); declare --arr: constant S.P.Thin_Item_Array_Pointer := S.Get_Slot_Pointer(Str); --arr2: constant S.P.Thin_Item_Array_Pointer := S.Get_Slot_Pointer(Str2); arr: constant S.Thin_Rune_Array_Pointer := S.Get_Slot_Pointer(Str); arr2: constant S.Thin_Rune_Array_Pointer := S.Get_Slot_Pointer(Str2); use type H3.System_Word; begin print_string_info (Str, "Str"); Ada.Wide_Text_IO.Put ("STR(By-Pointer) ["); for i in S.Get_First_Index(Str) .. S.Get_Last_Index(Str) + S.Get_Terminator_Length(Str) loop -- this must loop to the terminating null. Ada.Wide_Text_IO.Put (arr.all(i)); end loop; Ada.Wide_Text_IO.Put_Line ("]"); print_string_info (Str2, "Str2"); Ada.Wide_Text_IO.Put ("Str2(By-Pointer) ["); -- this must loop to the terminating null. for i in S.Get_First_Index(Str2) .. S.Get_Last_Index(Str2) + S.Get_Terminator_Length(Str) loop Ada.Wide_Text_IO.Put (arr2.all(i)); end loop; Ada.Wide_Text_IO.Put_Line ("]"); end; S.Clear (Str2); print_string_info (Str2, "Str2"); --declare -- arr: constant Standard.Wide_String := S.To_Item_Array(str); --begin -- Ada.Wide_Text_IO.Put_Line (arr); --end; SS := Str; end; declare type R_Record is record X: Standard.Integer := 3; Y: Standard.Integer := 4; end record; package Q is new H3.MM(R_Record); T: Q.Ref_Counted; T2: Q.Ref_Counted; P: Q.Item_Pointer; begin declare T3: Q.Ref_Counted; begin Q.Create (T3, (X => 20, Y => 30)); T := T3; --Q.Create (T); end; P := Q.Get_Item_Pointer(T); T2 := T; Q.Get_Item_Pointer(T).X := 12345; Ada.Text_IO.Put_Line(Q.Get_Item_Pointer(T).Y'Img); Ada.Text_IO.Put_Line(Q.Get_Item_Pointer(T).X'Img); Ada.Text_IO.Put_Line(Q.Get_Item_Pointer(T2).Y'Img); Ada.Text_IO.Put_Line(Q.Get_Item_Pointer(T2).X'Img); end; declare type RR is record X: Standard.Integer := 3; Y: Standard.Integer := 4; end record; package PP is new H3.Arrays(RR, 1, RR'(X=>1, Y=>4), H3.Storage.Global_Pool_Box); p1: PP.Elastic_Array; begin p1.Append (RR'(X=>9, Y=>9)); p1.Append (RR'(X=>10, Y=>8)); p1.Append (RR'(X=>11, Y=>7)); Ada.Text_IO.Put_Line ("-------------------------------"); for i in p1.Get_First_Index .. p1.Get_Last_Index loop Ada.Text_IO.Put (" " & p1.Get_Item(i).X'Img); end loop; Ada.Text_IO.Put_Line (""); for i in p1.Get_First_Index .. p1.Get_Last_Index loop Ada.Text_IO.Put (" " & p1.Get_Item(i).Y'Img); end loop; Ada.Text_IO.Put_Line (""); end; declare T: S.Elastic_String; package PP is new H3.Arrays(S.Elastic_String, 0, T, H3.Storage.Global_Pool_Box); p1: PP.Elastic_Array; tt: S.Elastic_String; begin p1.Append (T); p1.Append (T); Ada.Text_IO.Put_Line ("-------------------------------"); for i in p1.Get_First_Index .. p1.Get_Last_Index loop Ada.Wide_Text_IO.Put (Standard.Wide_String(p1.Get_Item(i).To_Item_Array)); end loop; Ada.Text_IO.Put_Line (""); end; declare package S_I is new H3.Arrays(Integer, 1, 16#FF#, H3.Storage.Global_Pool_Box); t1: S_I.Elastic_Array; begin S_I.Append (t1, 20, 5); S_I.Prepend (t1, 30, 2); S_I.Append (t1, 30, 5); Ada.Text_IO.Put_Line ("-------------------------------"); for i in S_I.Get_First_Index(t1) .. S_I.Get_Last_Index(t1) loop Ada.Text_IO.Put (" " & S_I.Get_Item(t1, i)'Img); end loop; Ada.Text_IO.Put_Line (""); Ada.Text_IO.Put_Line (t1.Find(30, t1.Get_Last_Index, S_I.DIRECTION_BACKWARD)'Img); Ada.Text_IO.Put_Line (t1.Find(30, t1.Get_First_Index)'Img); Ada.Text_IO.Put_Line (t1.Find(90, t1.Get_First_Index)'Img); Ada.Text_IO.Put_Line (t1.Find(90, t1.Get_First_Index)'Img); Ada.Text_IO.Put_Line (t1.Find((30, 30, 30, 30), t1.Get_First_Index)'Img); Ada.Text_IO.Put_Line (t1.Find((20, 20), t1.Get_First_Index, S_I.DIRECTION_FORWARD)'Img); Ada.Text_IO.Put_Line (t1.Find((20, 20), t1.Get_Last_Index, S_I.DIRECTION_BACKWARD)'Img); Ada.Text_IO.Put_Line (t1.Find((30, 20, 20), t1.Get_First_Index, S_I.DIRECTION_FORWARD)'Img); Ada.Text_IO.Put_Line (t1.Find((30, 20, 20), t1.Get_Last_Index, S_I.DIRECTION_BACKWARD)'Img); end; end;