1 ------------------------------------------------------------------------------
3 -- GNAT RUN-TIME COMPONENTS --
8 -- (Windows Version) --
10 -- Copyright (C) 1992-2012, Free Software Foundation, Inc. --
12 -- This specification is derived from the Ada Reference Manual for use with --
13 -- GNAT. The copyright notice above, and the license provisions that follow --
14 -- apply solely to the contents of the part following the private keyword. --
16 -- GNAT is free software; you can redistribute it and/or modify it under --
17 -- terms of the GNU General Public License as published by the Free Soft- --
18 -- ware Foundation; either version 3, or (at your option) any later ver- --
19 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
20 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
21 -- or FITNESS FOR A PARTICULAR PURPOSE. --
23 -- As a special exception under Section 7 of GPL version 3, you are granted --
24 -- additional permissions described in the GCC Runtime Library Exception, --
25 -- version 3.1, as published by the Free Software Foundation. --
27 -- You should have received a copy of the GNU General Public License and --
28 -- a copy of the GCC Runtime Library Exception along with this program; --
29 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
30 -- <http://www.gnu.org/licenses/>. --
32 -- GNAT was originally developed by the GNAT team at New York University. --
33 -- Extensive contributions were provided by Ada Core Technologies Inc. --
35 ------------------------------------------------------------------------------
39 -- Note that we take advantage of the implementation permission to make
40 -- this unit Pure instead of Preelaborable; see RM 13.7.1(15). In Ada
41 -- 2005, this is Pure in any case (AI-362).
43 type Name
is (SYSTEM_NAME_GNAT
);
44 System_Name
: constant Name
:= SYSTEM_NAME_GNAT
;
46 -- System-Dependent Named Numbers
48 Min_Int
: constant := Long_Long_Integer'First;
49 Max_Int
: constant := Long_Long_Integer'Last;
51 Max_Binary_Modulus
: constant := 2 ** Long_Long_Integer'Size;
52 Max_Nonbinary_Modulus
: constant := 2 ** Integer'Size - 1;
54 Max_Base_Digits
: constant := Long_Long_Float'Digits;
55 Max_Digits
: constant := Long_Long_Float'Digits;
57 Max_Mantissa
: constant := 63;
58 Fine_Delta
: constant := 2.0 ** (-Max_Mantissa
);
60 Tick
: constant := 0.01;
62 -- Storage-related Declarations
64 type Address
is private;
65 pragma Preelaborable_Initialization
(Address
);
66 Null_Address
: constant Address
;
68 Storage_Unit
: constant := 8;
69 Word_Size
: constant := 64;
70 Memory_Size
: constant := 2 ** 64;
74 function "<" (Left
, Right
: Address
) return Boolean;
75 function "<=" (Left
, Right
: Address
) return Boolean;
76 function ">" (Left
, Right
: Address
) return Boolean;
77 function ">=" (Left
, Right
: Address
) return Boolean;
78 function "=" (Left
, Right
: Address
) return Boolean;
80 pragma Import
(Intrinsic
, "<");
81 pragma Import
(Intrinsic
, "<=");
82 pragma Import
(Intrinsic
, ">");
83 pragma Import
(Intrinsic
, ">=");
84 pragma Import
(Intrinsic
, "=");
86 -- Other System-Dependent Declarations
88 type Bit_Order
is (High_Order_First
, Low_Order_First
);
89 Default_Bit_Order
: constant Bit_Order
:= Low_Order_First
;
90 pragma Warnings
(Off
, Default_Bit_Order
); -- kill constant condition warning
92 -- Priority-related Declarations (RM D.1)
94 Max_Priority
: constant Positive := 30;
95 Max_Interrupt_Priority
: constant Positive := 31;
97 subtype Any_Priority
is Integer range 0 .. 31;
98 subtype Priority
is Any_Priority
range 0 .. 30;
99 subtype Interrupt_Priority
is Any_Priority
range 31 .. 31;
101 Default_Priority
: constant Priority
:= 15;
105 type Address
is mod Memory_Size
;
106 Null_Address
: constant Address
:= 0;
108 --------------------------------------
109 -- System Implementation Parameters --
110 --------------------------------------
112 -- These parameters provide information about the target that is used
113 -- by the compiler. They are in the private part of System, where they
114 -- can be accessed using the special circuitry in the Targparm unit
115 -- whose source should be consulted for more detailed descriptions
116 -- of the individual switch values.
118 Backend_Divide_Checks
: constant Boolean := False;
119 Backend_Overflow_Checks
: constant Boolean := True;
120 Command_Line_Args
: constant Boolean := True;
121 Configurable_Run_Time
: constant Boolean := False;
122 Denorm
: constant Boolean := True;
123 Duration_32_Bits
: constant Boolean := False;
124 Exit_Status_Supported
: constant Boolean := True;
125 Fractional_Fixed_Ops
: constant Boolean := False;
126 Frontend_Layout
: constant Boolean := False;
127 Machine_Overflows
: constant Boolean := False;
128 Machine_Rounds
: constant Boolean := True;
129 Preallocated_Stacks
: constant Boolean := False;
130 Signed_Zeros
: constant Boolean := True;
131 Stack_Check_Default
: constant Boolean := False;
132 Stack_Check_Probes
: constant Boolean := True;
133 Stack_Check_Limits
: constant Boolean := False;
134 Support_Aggregates
: constant Boolean := True;
135 Support_Atomic_Primitives
: constant Boolean := True;
136 Support_Composite_Assign
: constant Boolean := True;
137 Support_Composite_Compare
: constant Boolean := True;
138 Support_Long_Shifts
: constant Boolean := True;
139 Always_Compatible_Rep
: constant Boolean := False;
140 Suppress_Standard_Library
: constant Boolean := False;
141 Use_Ada_Main_Program_Name
: constant Boolean := False;
142 ZCX_By_Default
: constant Boolean := True;
144 ---------------------------
145 -- Underlying Priorities --
146 ---------------------------
148 -- Important note: this section of the file must come AFTER the
149 -- definition of the system implementation parameters to ensure
150 -- that the value of these parameters is available for analysis
151 -- of the declarations here (using Rtsfind at compile time).
153 -- The underlying priorities table provides a generalized mechanism
154 -- for mapping from Ada priorities to system priorities. In some
155 -- cases a 1-1 mapping is not the convenient or optimal choice.
157 type Priorities_Mapping
is array (Any_Priority
) of Integer;
158 pragma Suppress_Initialization
(Priorities_Mapping
);
159 -- Suppress initialization in case gnat.adc specifies Normalize_Scalars
161 Underlying_Priorities
: constant Priorities_Mapping
:=
163 Default_Priority
- 8 => -15,
164 Default_Priority
- 7 => -7,
165 Default_Priority
- 6 => -6,
166 Default_Priority
- 5 => -5,
167 Default_Priority
- 4 => -4,
168 Default_Priority
- 3 => -3,
169 Default_Priority
- 2 => -2,
170 Default_Priority
- 1 => -1,
171 Default_Priority
=> 0,
172 Default_Priority
+ 1 => 1,
173 Default_Priority
+ 2 => 2,
174 Default_Priority
+ 3 => 3,
175 Default_Priority
+ 4 => 4,
176 Default_Priority
+ 5 => 5,
177 Default_Priority
+ 6 ..
179 Interrupt_Priority
=> 15);
180 -- The default mapping preserves the standard 31 priorities of the Ada
181 -- model, but maps them using compression onto the 7 priority levels
182 -- available in NT and on the 16 priority levels available in 2000/XP.
184 -- To replace the default values of the Underlying_Priorities mapping,
185 -- copy this source file into your build directory, edit the file to
186 -- reflect your desired behavior, and recompile using Makefile.adalib
187 -- which can be found under the adalib directory of your gnat installation
189 pragma Linker_Options
("-Wl,--stack=0x2000000");
190 -- This is used to change the default stack (32 MB) size for non tasking
191 -- programs. We change this value for GNAT on Windows here because the
192 -- binutils on this platform have switched to a too low value for Ada
193 -- programs. Note that we also set the stack size for tasking programs in
194 -- System.Task_Primitives.Operations.