PR testsuite/79036 - gcc.dg/tree-ssa/builtin-sprintf.c fails starting with r244037
[official-gcc.git] / gcc / ada / i-vxwork-x86.ads
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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT RUN-TIME LIBRARY (GNARL) COMPONENTS --
4 -- --
5 -- I N T E R F A C E S . V X W O R K S --
6 -- --
7 -- S p e c --
8 -- --
9 -- Copyright (C) 1999-2013, AdaCore --
10 -- --
11 -- GNAT is free software; you can redistribute it and/or modify it under --
12 -- terms of the GNU General Public License as published by the Free Soft- --
13 -- ware Foundation; either version 3, or (at your option) any later ver- --
14 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
15 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
16 -- or FITNESS FOR A PARTICULAR PURPOSE. --
17 -- --
18 -- As a special exception under Section 7 of GPL version 3, you are granted --
19 -- additional permissions described in the GCC Runtime Library Exception, --
20 -- version 3.1, as published by the Free Software Foundation. --
21 -- --
22 -- You should have received a copy of the GNU General Public License and --
23 -- a copy of the GCC Runtime Library Exception along with this program; --
24 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
25 -- <http://www.gnu.org/licenses/>. --
26 -- --
27 -- GNARL was developed by the GNARL team at Florida State University. --
28 -- Extensive contributions were provided by Ada Core Technologies, Inc. --
29 -- --
30 ------------------------------------------------------------------------------
32 -- This is the x86 VxWorks version of this package
34 -- This package provides a limited binding to the VxWorks API
35 -- In particular, it interfaces with the VxWorks hardware interrupt
36 -- facilities, allowing the use of low-latency direct-vectored
37 -- interrupt handlers. Note that such handlers have a variety of
38 -- restrictions regarding system calls and language constructs. In particular,
39 -- the use of exception handlers and functions returning variable-length
40 -- objects cannot be used. Less restrictive, but higher-latency handlers can
41 -- be written using Ada protected procedures, Ada 83 style interrupt entries,
42 -- or by signalling an Ada task from within an interrupt handler using a
43 -- binary semaphore as described in the VxWorks Programmer's Manual.
45 -- For complete documentation of the operations in this package, please
46 -- consult the VxWorks Programmer's Manual and VxWorks Reference Manual.
48 pragma Warnings (Off, "*foreign convention*");
49 pragma Warnings (Off, "*add Convention pragma*");
51 with System.VxWorks;
53 package Interfaces.VxWorks is
54 pragma Preelaborate;
56 ------------------------------------------------------------------------
57 -- Here is a complete example that shows how to handle the Interrupt 0x33
58 -- with a direct-vectored interrupt handler in Ada using this package:
60 -- with Interfaces.VxWorks; use Interfaces.VxWorks;
61 -- with System;
63 -- package P is
65 -- Count : Integer;
66 -- pragma Atomic (Count);
68 -- procedure Handler (Parameter : System.Address);
70 -- end P;
72 -- package body P is
74 -- procedure Handler (Parameter : System.Address) is
75 -- begin
76 -- Count := Count + 1;
77 -- logMsg ("received an interrupt" & ASCII.LF & ASCII.NUL);
78 -- end Handler;
79 -- end P;
81 -- with Interfaces.VxWorks; use Interfaces.VxWorks;
82 -- with Ada.Text_IO; use Ada.Text_IO;
83 -- with Ada.Interrupts;
84 -- with Machine_Code; use Machine_Code;
86 -- with P; use P;
87 -- procedure Useint is
89 -- -- Be sure to use a reasonable interrupt number for target board.
90 -- -- This one is an unreserved interrupt for the Pentium 3 BSP
92 -- Interrupt : constant := 16#33#;
94 -- task T;
96 -- S : STATUS;
98 -- task body T is
99 -- begin
100 -- loop
101 -- Put_Line ("Generating an interrupt...");
102 -- delay 1.0;
104 -- -- Generate interrupt, using interrupt number
106 -- Asm ("int %0",
107 -- Inputs =>
108 -- Ada.Interrupts.Interrupt_ID'Asm_Input
109 -- ("i", Interrupt));
110 -- end loop;
111 -- end T;
113 -- begin
114 -- S := intConnect (INUM_TO_IVEC (Interrupt), Handler'Access);
116 -- loop
117 -- delay 2.0;
118 -- Put_Line ("value of count:" & P.Count'Img);
119 -- end loop;
120 -- end Useint;
121 -------------------------------------
123 subtype int is Integer;
125 type STATUS is new int;
126 -- Equivalent of the C type STATUS
128 OK : constant STATUS := 0;
129 ERROR : constant STATUS := -1;
131 type VOIDFUNCPTR is access procedure (parameter : System.Address);
132 type Interrupt_Vector is new System.Address;
133 type Exception_Vector is new System.Address;
135 function intConnect
136 (vector : Interrupt_Vector;
137 handler : VOIDFUNCPTR;
138 parameter : System.Address := System.Null_Address) return STATUS;
139 -- Binding to the C routine intConnect. Use this to set up an user handler.
140 -- The routine generates a wrapper around the user handler to save and
141 -- restore context
143 function intContext return int;
144 -- Binding to the C routine intContext. This function returns 1 only if the
145 -- current execution state is in interrupt context.
147 function intVecGet
148 (Vector : Interrupt_Vector) return VOIDFUNCPTR;
149 -- Binding to the C routine intVecGet. Use this to get the existing handler
150 -- for later restoral
152 procedure intVecSet
153 (Vector : Interrupt_Vector;
154 Handler : VOIDFUNCPTR);
155 -- Binding to the C routine intVecSet. Use this to restore a handler
156 -- obtained using intVecGet
158 procedure intVecGet2
159 (vector : Interrupt_Vector;
160 pFunction : out VOIDFUNCPTR;
161 pIdtGate : not null access int;
162 pIdtSelector : not null access int);
163 -- Binding to the C routine intVecGet2. Use this to get the existing
164 -- handler for later restoral
166 procedure intVecSet2
167 (vector : Interrupt_Vector;
168 pFunction : VOIDFUNCPTR;
169 pIdtGate : not null access int;
170 pIdtSelector : not null access int);
171 -- Binding to the C routine intVecSet2. Use this to restore a
172 -- handler obtained using intVecGet2
174 function INUM_TO_IVEC (intNum : int) return Interrupt_Vector;
175 -- Equivalent to the C macro INUM_TO_IVEC used to convert an interrupt
176 -- number to an interrupt vector
178 procedure logMsg
179 (fmt : String; arg1, arg2, arg3, arg4, arg5, arg6 : int := 0);
180 -- Binding to the C routine logMsg. Note that it is the caller's
181 -- responsibility to ensure that fmt is a null-terminated string
182 -- (e.g logMsg ("Interrupt" & ASCII.NUL))
184 type FP_CONTEXT is private;
185 -- Floating point context save and restore. Handlers using floating point
186 -- must be bracketed with these calls. The pFpContext parameter should be
187 -- an object of type FP_CONTEXT that is declared local to the handler.
189 -- See the VxWorks Intel Architecture Supplement regarding these routines
191 procedure fppRestore (pFpContext : in out FP_CONTEXT);
192 -- Restore floating point context - old style
194 procedure fppSave (pFpContext : in out FP_CONTEXT);
195 -- Save floating point context - old style
197 procedure fppXrestore (pFpContext : in out FP_CONTEXT);
198 -- Restore floating point context - new style
200 procedure fppXsave (pFpContext : in out FP_CONTEXT);
201 -- Save floating point context - new style
203 private
205 type FP_CONTEXT is new System.VxWorks.FP_CONTEXT;
206 -- Target-dependent floating point context type
208 pragma Import (C, intConnect, "intConnect");
209 pragma Import (C, intContext, "intContext");
210 pragma Import (C, intVecGet, "intVecGet");
211 pragma Import (C, intVecSet, "intVecSet");
212 pragma Import (C, intVecGet2, "intVecGet2");
213 pragma Import (C, intVecSet2, "intVecSet2");
214 pragma Import (C, INUM_TO_IVEC, "__gnat_inum_to_ivec");
215 pragma Import (C, logMsg, "logMsg");
216 pragma Import (C, fppRestore, "fppRestore");
217 pragma Import (C, fppSave, "fppSave");
218 pragma Import (C, fppXrestore, "fppXrestore");
219 pragma Import (C, fppXsave, "fppXsave");
220 end Interfaces.VxWorks;