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------------------------------------------------------------------------------
-- --
-- GNAT RUN-TIME COMPONENTS --
-- --
-- S Y S T E M . S T R E A M _ A T T R I B U T E S --
-- --
-- B o d y --
-- --
-- Copyright (C) 1992-2022, Free Software Foundation, Inc. --
-- --
-- GNAT is free software; you can redistribute it and/or modify it under --
-- terms of the GNU General Public License as published by the Free Soft- --
-- ware Foundation; either version 3, or (at your option) any later ver- --
-- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
-- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
-- or FITNESS FOR A PARTICULAR PURPOSE. --
-- --
-- As a special exception under Section 7 of GPL version 3, you are granted --
-- additional permissions described in the GCC Runtime Library Exception, --
-- version 3.1, as published by the Free Software Foundation. --
-- --
-- You should have received a copy of the GNU General Public License and --
-- a copy of the GCC Runtime Library Exception along with this program; --
-- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
-- <http://www.gnu.org/licenses/>. --
-- --
-- GNAT was originally developed by the GNAT team at New York University. --
-- Extensive contributions were provided by Ada Core Technologies Inc. --
-- --
------------------------------------------------------------------------------
with Ada.IO_Exceptions;
with Ada.Streams; use Ada.Streams;
with Ada.Unchecked_Conversion;
with System.Stream_Attributes.XDR;
package body System.Stream_Attributes is
XDR_Stream : constant Integer;
pragma Import (C, XDR_Stream, "__gl_xdr_stream");
-- This imported value is used to determine whether the build had the
-- binder switch "-xdr" present which enables XDR streaming and sets this
-- flag to 1.
function XDR_Support return Boolean is (XDR_Stream = 1);
pragma Inline (XDR_Support);
-- Return True if XDR streaming should be used. Note that 128-bit integers
-- are not supported by the XDR protocol and will raise Device_Error.
Err : exception renames Ada.IO_Exceptions.End_Error;
-- Exception raised if insufficient data read (note that the RM implies
-- that Data_Error might be the appropriate choice, but AI95-00132
-- decides with a binding interpretation that End_Error is preferred).
SU : constant := System.Storage_Unit;
subtype SEA is Ada.Streams.Stream_Element_Array;
subtype SEO is Ada.Streams.Stream_Element_Offset;
generic function UC renames Ada.Unchecked_Conversion;
-- Subtypes used to define Stream_Element_Array values that map
-- into the elementary types, using unchecked conversion.
Thin_Pointer_Size : constant := System.Address'Size;
Fat_Pointer_Size : constant := System.Address'Size * 2;
subtype S_AD is SEA (1 .. (Fat_Pointer_Size + SU - 1) / SU);
subtype S_AS is SEA (1 .. (Thin_Pointer_Size + SU - 1) / SU);
subtype S_B is SEA (1 .. (Boolean'Size + SU - 1) / SU);
subtype S_C is SEA (1 .. (Character'Size + SU - 1) / SU);
subtype S_F is SEA (1 .. (Float'Size + SU - 1) / SU);
subtype S_I is SEA (1 .. (Integer'Size + SU - 1) / SU);
subtype S_I24 is SEA (1 .. (Integer_24'Size + SU - 1) / SU);
subtype S_LF is SEA (1 .. (Long_Float'Size + SU - 1) / SU);
subtype S_LI is SEA (1 .. (Long_Integer'Size + SU - 1) / SU);
subtype S_LLF is SEA (1 .. (Long_Long_Float'Size + SU - 1) / SU);
subtype S_LLI is SEA (1 .. (Long_Long_Integer'Size + SU - 1) / SU);
subtype S_LLLI is SEA (1 .. (Long_Long_Long_Integer'Size + SU - 1) / SU);
subtype S_LLLU is
SEA (1 .. (UST.Long_Long_Long_Unsigned'Size + SU - 1) / SU);
subtype S_LLU is SEA (1 .. (UST.Long_Long_Unsigned'Size + SU - 1) / SU);
subtype S_LU is SEA (1 .. (UST.Long_Unsigned'Size + SU - 1) / SU);
subtype S_SF is SEA (1 .. (Short_Float'Size + SU - 1) / SU);
subtype S_SI is SEA (1 .. (Short_Integer'Size + SU - 1) / SU);
subtype S_SSI is SEA (1 .. (Short_Short_Integer'Size + SU - 1) / SU);
subtype S_SSU is SEA (1 .. (UST.Short_Short_Unsigned'Size + SU - 1) / SU);
subtype S_SU is SEA (1 .. (UST.Short_Unsigned'Size + SU - 1) / SU);
subtype S_U is SEA (1 .. (UST.Unsigned'Size + SU - 1) / SU);
subtype S_U24 is SEA (1 .. (Unsigned_24'Size + SU - 1) / SU);
subtype S_WC is SEA (1 .. (Wide_Character'Size + SU - 1) / SU);
subtype S_WWC is SEA (1 .. (Wide_Wide_Character'Size + SU - 1) / SU);
-- Unchecked conversions from the elementary type to the stream type
function From_AD is new UC (Fat_Pointer, S_AD);
function From_AS is new UC (Thin_Pointer, S_AS);
function From_F is new UC (Float, S_F);
function From_I is new UC (Integer, S_I);
function From_I24 is new UC (Integer_24, S_I24);
function From_LF is new UC (Long_Float, S_LF);
function From_LI is new UC (Long_Integer, S_LI);
function From_LLF is new UC (Long_Long_Float, S_LLF);
function From_LLI is new UC (Long_Long_Integer, S_LLI);
function From_LLLI is new UC (Long_Long_Long_Integer, S_LLLI);
function From_LLLU is new UC (UST.Long_Long_Long_Unsigned, S_LLLU);
function From_LLU is new UC (UST.Long_Long_Unsigned, S_LLU);
function From_LU is new UC (UST.Long_Unsigned, S_LU);
function From_SF is new UC (Short_Float, S_SF);
function From_SI is new UC (Short_Integer, S_SI);
function From_SSI is new UC (Short_Short_Integer, S_SSI);
function From_SSU is new UC (UST.Short_Short_Unsigned, S_SSU);
function From_SU is new UC (UST.Short_Unsigned, S_SU);
function From_U is new UC (UST.Unsigned, S_U);
function From_U24 is new UC (Unsigned_24, S_U24);
function From_WC is new UC (Wide_Character, S_WC);
function From_WWC is new UC (Wide_Wide_Character, S_WWC);
-- Unchecked conversions from the stream type to elementary type
function To_AD is new UC (S_AD, Fat_Pointer);
function To_AS is new UC (S_AS, Thin_Pointer);
function To_F is new UC (S_F, Float);
function To_I is new UC (S_I, Integer);
function To_I24 is new UC (S_I24, Integer_24);
function To_LF is new UC (S_LF, Long_Float);
function To_LI is new UC (S_LI, Long_Integer);
function To_LLF is new UC (S_LLF, Long_Long_Float);
function To_LLI is new UC (S_LLI, Long_Long_Integer);
function To_LLLI is new UC (S_LLLI, Long_Long_Long_Integer);
function To_LLLU is new UC (S_LLLU, UST.Long_Long_Long_Unsigned);
function To_LLU is new UC (S_LLU, UST.Long_Long_Unsigned);
function To_LU is new UC (S_LU, UST.Long_Unsigned);
function To_SF is new UC (S_SF, Short_Float);
function To_SI is new UC (S_SI, Short_Integer);
function To_SSI is new UC (S_SSI, Short_Short_Integer);
function To_SSU is new UC (S_SSU, UST.Short_Short_Unsigned);
function To_SU is new UC (S_SU, UST.Short_Unsigned);
function To_U is new UC (S_U, UST.Unsigned);
function To_U24 is new UC (S_U24, Unsigned_24);
function To_WC is new UC (S_WC, Wide_Character);
function To_WWC is new UC (S_WWC, Wide_Wide_Character);
-----------------
-- Block_IO_OK --
-----------------
function Block_IO_OK return Boolean is
begin
return not XDR_Support;
end Block_IO_OK;
----------
-- I_AD --
----------
function I_AD (Stream : not null access RST) return Fat_Pointer is
T : S_AD;
L : SEO;
begin
if XDR_Support then
return XDR.I_AD (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_AD (T);
end if;
end I_AD;
----------
-- I_AS --
----------
function I_AS (Stream : not null access RST) return Thin_Pointer is
T : S_AS;
L : SEO;
begin
if XDR_Support then
return XDR.I_AS (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_AS (T);
end if;
end I_AS;
---------
-- I_B --
---------
function I_B (Stream : not null access RST) return Boolean is
T : S_B;
L : SEO;
begin
if XDR_Support then
return XDR.I_B (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return Boolean'Val (T (1));
end if;
end I_B;
---------
-- I_C --
---------
function I_C (Stream : not null access RST) return Character is
T : S_C;
L : SEO;
begin
if XDR_Support then
return XDR.I_C (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return Character'Val (T (1));
end if;
end I_C;
---------
-- I_F --
---------
function I_F (Stream : not null access RST) return Float is
T : S_F;
L : SEO;
begin
if XDR_Support then
return XDR.I_F (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_F (T);
end if;
end I_F;
---------
-- I_I --
---------
function I_I (Stream : not null access RST) return Integer is
T : S_I;
L : SEO;
begin
if XDR_Support then
return XDR.I_I (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_I (T);
end if;
end I_I;
-----------
-- I_I24 --
-----------
function I_I24 (Stream : not null access RST) return Integer_24 is
T : S_I24;
L : SEO;
begin
if XDR_Support then
return XDR.I_I24 (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_I24 (T);
end if;
end I_I24;
----------
-- I_LF --
----------
function I_LF (Stream : not null access RST) return Long_Float is
T : S_LF;
L : SEO;
begin
if XDR_Support then
return XDR.I_LF (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LF (T);
end if;
end I_LF;
----------
-- I_LI --
----------
function I_LI (Stream : not null access RST) return Long_Integer is
T : S_LI;
L : SEO;
begin
if XDR_Support then
return XDR.I_LI (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LI (T);
end if;
end I_LI;
-----------
-- I_LLF --
-----------
function I_LLF (Stream : not null access RST) return Long_Long_Float is
T : S_LLF;
L : SEO;
begin
if XDR_Support then
return XDR.I_LLF (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LLF (T);
end if;
end I_LLF;
-----------
-- I_LLI --
-----------
function I_LLI (Stream : not null access RST) return Long_Long_Integer is
T : S_LLI;
L : SEO;
begin
if XDR_Support then
return XDR.I_LLI (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LLI (T);
end if;
end I_LLI;
------------
-- I_LLLI --
------------
function I_LLLI (Stream : not null access RST) return Long_Long_Long_Integer
is
T : S_LLLI;
L : SEO;
begin
if XDR_Support then
raise Ada.IO_Exceptions.Device_Error;
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LLLI (T);
end if;
end I_LLLI;
------------
-- I_LLLU --
------------
function I_LLLU
(Stream : not null access RST) return UST.Long_Long_Long_Unsigned
is
T : S_LLLU;
L : SEO;
begin
if XDR_Support then
raise Ada.IO_Exceptions.Device_Error;
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LLLU (T);
end if;
end I_LLLU;
-----------
-- I_LLU --
-----------
function I_LLU
(Stream : not null access RST) return UST.Long_Long_Unsigned
is
T : S_LLU;
L : SEO;
begin
if XDR_Support then
return XDR.I_LLU (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LLU (T);
end if;
end I_LLU;
----------
-- I_LU --
----------
function I_LU (Stream : not null access RST) return UST.Long_Unsigned is
T : S_LU;
L : SEO;
begin
if XDR_Support then
return XDR.I_LU (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_LU (T);
end if;
end I_LU;
----------
-- I_SF --
----------
function I_SF (Stream : not null access RST) return Short_Float is
T : S_SF;
L : SEO;
begin
if XDR_Support then
return XDR.I_SF (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_SF (T);
end if;
end I_SF;
----------
-- I_SI --
----------
function I_SI (Stream : not null access RST) return Short_Integer is
T : S_SI;
L : SEO;
begin
if XDR_Support then
return XDR.I_SI (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_SI (T);
end if;
end I_SI;
-----------
-- I_SSI --
-----------
function I_SSI (Stream : not null access RST) return Short_Short_Integer is
T : S_SSI;
L : SEO;
begin
if XDR_Support then
return XDR.I_SSI (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_SSI (T);
end if;
end I_SSI;
-----------
-- I_SSU --
-----------
function I_SSU
(Stream : not null access RST) return UST.Short_Short_Unsigned
is
T : S_SSU;
L : SEO;
begin
if XDR_Support then
return XDR.I_SSU (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_SSU (T);
end if;
end I_SSU;
----------
-- I_SU --
----------
function I_SU (Stream : not null access RST) return UST.Short_Unsigned is
T : S_SU;
L : SEO;
begin
if XDR_Support then
return XDR.I_SU (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_SU (T);
end if;
end I_SU;
---------
-- I_U --
---------
function I_U (Stream : not null access RST) return UST.Unsigned is
T : S_U;
L : SEO;
begin
if XDR_Support then
return XDR.I_U (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_U (T);
end if;
end I_U;
-----------
-- I_U24 --
-----------
function I_U24 (Stream : not null access RST) return Unsigned_24 is
T : S_U24;
L : SEO;
begin
if XDR_Support then
return XDR.I_U24 (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_U24 (T);
end if;
end I_U24;
----------
-- I_WC --
----------
function I_WC (Stream : not null access RST) return Wide_Character is
T : S_WC;
L : SEO;
begin
if XDR_Support then
return XDR.I_WC (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_WC (T);
end if;
end I_WC;
-----------
-- I_WWC --
-----------
function I_WWC (Stream : not null access RST) return Wide_Wide_Character is
T : S_WWC;
L : SEO;
begin
if XDR_Support then
return XDR.I_WWC (Stream);
end if;
Ada.Streams.Read (Stream.all, T, L);
if L < T'Last then
raise Err;
else
return To_WWC (T);
end if;
end I_WWC;
----------
-- W_AD --
----------
procedure W_AD (Stream : not null access RST; Item : Fat_Pointer) is
T : constant S_AD := From_AD (Item);
begin
if XDR_Support then
XDR.W_AD (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, T);
end W_AD;
----------
-- W_AS --
----------
procedure W_AS (Stream : not null access RST; Item : Thin_Pointer) is
T : constant S_AS := From_AS (Item);
begin
if XDR_Support then
XDR.W_AS (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, T);
end W_AS;
---------
-- W_B --
---------
procedure W_B (Stream : not null access RST; Item : Boolean) is
T : S_B;
begin
if XDR_Support then
XDR.W_B (Stream, Item);
return;
end if;
T (1) := Boolean'Pos (Item);
Ada.Streams.Write (Stream.all, T);
end W_B;
---------
-- W_C --
---------
procedure W_C (Stream : not null access RST; Item : Character) is
T : S_C;
begin
if XDR_Support then
XDR.W_C (Stream, Item);
return;
end if;
T (1) := Character'Pos (Item);
Ada.Streams.Write (Stream.all, T);
end W_C;
---------
-- W_F --
---------
procedure W_F (Stream : not null access RST; Item : Float) is
begin
if XDR_Support then
XDR.W_F (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_F (Item));
end W_F;
---------
-- W_I --
---------
procedure W_I (Stream : not null access RST; Item : Integer) is
begin
if XDR_Support then
XDR.W_I (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_I (Item));
end W_I;
-----------
-- W_I24 --
-----------
procedure W_I24 (Stream : not null access RST; Item : Integer_24) is
begin
if XDR_Support then
XDR.W_I24 (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_I24 (Item));
end W_I24;
----------
-- W_LF --
----------
procedure W_LF (Stream : not null access RST; Item : Long_Float) is
begin
if XDR_Support then
XDR.W_LF (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LF (Item));
end W_LF;
----------
-- W_LI --
----------
procedure W_LI (Stream : not null access RST; Item : Long_Integer) is
begin
if XDR_Support then
XDR.W_LI (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LI (Item));
end W_LI;
-----------
-- W_LLF --
-----------
procedure W_LLF (Stream : not null access RST; Item : Long_Long_Float) is
begin
if XDR_Support then
XDR.W_LLF (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LLF (Item));
end W_LLF;
-----------
-- W_LLI --
-----------
procedure W_LLI (Stream : not null access RST; Item : Long_Long_Integer) is
begin
if XDR_Support then
XDR.W_LLI (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LLI (Item));
end W_LLI;
------------
-- W_LLLI --
------------
procedure W_LLLI
(Stream : not null access RST; Item : Long_Long_Long_Integer) is
begin
if XDR_Support then
raise Ada.IO_Exceptions.Device_Error;
end if;
Ada.Streams.Write (Stream.all, From_LLLI (Item));
end W_LLLI;
------------
-- W_LLLU --
------------
procedure W_LLLU
(Stream : not null access RST; Item : UST.Long_Long_Long_Unsigned)
is
begin
if XDR_Support then
raise Ada.IO_Exceptions.Device_Error;
end if;
Ada.Streams.Write (Stream.all, From_LLLU (Item));
end W_LLLU;
-----------
-- W_LLU --
-----------
procedure W_LLU
(Stream : not null access RST; Item : UST.Long_Long_Unsigned)
is
begin
if XDR_Support then
XDR.W_LLU (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LLU (Item));
end W_LLU;
----------
-- W_LU --
----------
procedure W_LU (Stream : not null access RST; Item : UST.Long_Unsigned) is
begin
if XDR_Support then
XDR.W_LU (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_LU (Item));
end W_LU;
----------
-- W_SF --
----------
procedure W_SF (Stream : not null access RST; Item : Short_Float) is
begin
if XDR_Support then
XDR.W_SF (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_SF (Item));
end W_SF;
----------
-- W_SI --
----------
procedure W_SI (Stream : not null access RST; Item : Short_Integer) is
begin
if XDR_Support then
XDR.W_SI (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_SI (Item));
end W_SI;
-----------
-- W_SSI --
-----------
procedure W_SSI
(Stream : not null access RST; Item : Short_Short_Integer)
is
begin
if XDR_Support then
XDR.W_SSI (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_SSI (Item));
end W_SSI;
-----------
-- W_SSU --
-----------
procedure W_SSU
(Stream : not null access RST; Item : UST.Short_Short_Unsigned)
is
begin
if XDR_Support then
XDR.W_SSU (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_SSU (Item));
end W_SSU;
----------
-- W_SU --
----------
procedure W_SU (Stream : not null access RST; Item : UST.Short_Unsigned) is
begin
if XDR_Support then
XDR.W_SU (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_SU (Item));
end W_SU;
---------
-- W_U --
---------
procedure W_U (Stream : not null access RST; Item : UST.Unsigned) is
begin
if XDR_Support then
XDR.W_U (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_U (Item));
end W_U;
-----------
-- W_U24 --
-----------
procedure W_U24 (Stream : not null access RST; Item : Unsigned_24) is
begin
if XDR_Support then
XDR.W_U24 (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_U24 (Item));
end W_U24;
----------
-- W_WC --
----------
procedure W_WC (Stream : not null access RST; Item : Wide_Character) is
begin
if XDR_Support then
XDR.W_WC (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_WC (Item));
end W_WC;
-----------
-- W_WWC --
-----------
procedure W_WWC
(Stream : not null access RST; Item : Wide_Wide_Character)
is
begin
if XDR_Support then
XDR.W_WWC (Stream, Item);
return;
end if;
Ada.Streams.Write (Stream.all, From_WWC (Item));
end W_WWC;
end System.Stream_Attributes;