-- { dg-do compile } with Ada.Text_IO; use Ada.Text_IO; procedure Rep_Clause1 is type Int_16 is range 0 .. 65535; for Int_16'Size use 16; ---------------------------------------------- type Rec_A is record Int_1 : Int_16; Int_2 : Int_16; Int_3 : Int_16; Int_4 : Int_16; end record; for Rec_A use record Int_1 at 0 range 0 .. 15; Int_2 at 2 range 0 .. 15; Int_3 at 4 range 0 .. 15; Int_4 at 6 range 0 .. 15; end record; Rec_A_Size : constant := 4 * 16; for Rec_A'Size use Rec_A_Size; ---------------------------------------------- type Rec_B_Version_1 is record Rec_1 : Rec_A; Rec_2 : Rec_A; Int_1 : Int_16; end record; for Rec_B_Version_1 use record Rec_1 at 0 range 0 .. 63; Rec_2 at 8 range 0 .. 63; Int_1 at 16 range 0 .. 15; end record; Rec_B_Size : constant := 2 * Rec_A_Size + 16; for Rec_B_Version_1'Size use Rec_B_Size; for Rec_B_Version_1'Alignment use 2; ---------------------------------------------- type Rec_B_Version_2 is record Int_1 : Int_16; Rec_1 : Rec_A; Rec_2 : Rec_A; end record; for Rec_B_Version_2 use record Int_1 at 0 range 0 .. 15; Rec_1 at 2 range 0 .. 63; Rec_2 at 10 range 0 .. 63; end record; for Rec_B_Version_2'Size use Rec_B_Size; ---------------------------------------------- Arr_A_Length : constant := 2; Arr_A_Size : constant := Arr_A_Length * Rec_B_Size; type Arr_A_Version_1 is array (1 .. Arr_A_Length) of Rec_B_Version_1; type Arr_A_Version_2 is array (1 .. Arr_A_Length) of Rec_B_Version_2; pragma Pack (Arr_A_Version_1); pragma Pack (Arr_A_Version_2); for Arr_A_Version_1'Size use Arr_A_Size; for Arr_A_Version_2'Size use Arr_A_Size; ---------------------------------------------- begin -- Put_Line ("Arr_A_Size =" & Arr_A_Size'Img); if Arr_A_Version_1'Size /= Arr_A_Size then Ada.Text_IO.Put_Line ("Version 1 Size mismatch! " & "Arr_A_Version_1'Size =" & Arr_A_Version_1'Size'Img); end if; if Arr_A_Version_2'Size /= Arr_A_Size then Ada.Text_IO.Put_Line ("Version 2 Size mismatch! " & "Arr_A_Version_2'Size =" & Arr_A_Version_2'Size'Img); end if; end;