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1 ------------------------------------------------------------------------------
2 -- --
3 -- GNAT COMPILER COMPONENTS --
4 -- --
5 -- I N T E R F A C E S . P A C K E D _ D E C I M A L --
6 -- --
7 -- S p e c --
8 -- (Version for IBM Mainframe Packed Decimal Format) --
9 -- --
10 -- Copyright (C) 1992-2009, Free Software Foundation, Inc. --
11 -- --
12 -- GNAT is free software; you can redistribute it and/or modify it under --
13 -- terms of the GNU General Public License as published by the Free Soft- --
14 -- ware Foundation; either version 3, or (at your option) any later ver- --
15 -- sion. GNAT is distributed in the hope that it will be useful, but WITH- --
16 -- OUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY --
17 -- or FITNESS FOR A PARTICULAR PURPOSE. --
18 -- --
19 -- As a special exception under Section 7 of GPL version 3, you are granted --
20 -- additional permissions described in the GCC Runtime Library Exception, --
21 -- version 3.1, as published by the Free Software Foundation. --
22 -- --
23 -- You should have received a copy of the GNU General Public License and --
24 -- a copy of the GCC Runtime Library Exception along with this program; --
25 -- see the files COPYING3 and COPYING.RUNTIME respectively. If not, see --
26 -- <http://www.gnu.org/licenses/>. --
27 -- --
28 -- GNAT was originally developed by the GNAT team at New York University. --
29 -- Extensive contributions were provided by Ada Core Technologies Inc. --
30 -- --
31 ------------------------------------------------------------------------------
33 -- This unit defines the packed decimal format used by GNAT in response to
34 -- a specification of Machine_Radix 10 for a decimal fixed-point type. The
35 -- format and operations are completely encapsulated in this unit, so all
36 -- that is necessary to compile using different packed decimal formats is
37 -- to replace this single unit.
39 -- Note that the compiler access the spec of this unit during compilation
40 -- to obtain the data length that needs allocating, so the correct version
41 -- of the spec must be available to the compiler, and must correspond to
42 -- the spec and body made available to the linker, and all units of a given
43 -- program must be compiled with the same version of the spec and body.
44 -- This consistency will be enforced automatically using the normal binder
45 -- consistency checking, since any unit declaring Machine_Radix 10 types or
46 -- containing operations on such data will implicitly with Packed_Decimal.
52 ------------------------
53 -- Format Description --
54 ------------------------
56 -- IBM Mainframe packed decimal format uses a byte string of length one
57 -- to 10 bytes, with the most significant byte first. Each byte contains
58 -- two decimal digits (with the high order digit in the left nibble, and
59 -- the low order four bits contain the sign, using the following code:
61 -- 16#A# 2#1010# positive
62 -- 16#B# 2#1011# negative
63 -- 16#C# 2#1100# positive (preferred representation)
64 -- 16#D# 2#1101# negative (preferred representation)
65 -- 16#E# 2#1110# positive
66 -- 16#F# 2#1011# positive
68 -- In this package, all six sign representations are interpreted as
69 -- shown above when an operand is read, when an operand is written,
70 -- the preferred representations are always used. Constraint_Error
71 -- is raised if any other bit pattern is found in the sign nibble,
72 -- or if a digit nibble contains an invalid digit code.
74 -- Some examples follow:
76 -- 05 76 3C +5763
77 -- 00 01 1D -11
78 -- 00 04 4E +44 (non-standard sign)
79 -- 00 00 00 invalid (incorrect sign nibble)
80 -- 0A 01 1C invalid (bad digit)
82 ------------------
83 -- Length Array --
84 ------------------
86 -- The following array must be declared in exactly the form shown, since
87 -- the compiler accesses the associated tree to determine the size to be
88 -- allocated to a machine radix 10 type, depending on the number of digits.
91 -- Range of possible byte lengths
113 -------------------------
114 -- Conversion Routines --
115 -------------------------
118 -- Used to represent number of digits in a packed decimal value that
119 -- can be represented in a 32-bit binary signed integer form.
122 -- Used to represent number of digits in a packed decimal value that
123 -- requires a 64-bit signed binary integer for representing all values.
126 -- The argument P is the address of a packed decimal value and D is the
127 -- number of digits (in the range 1 .. 9, as implied by the subtype).
128 -- The returned result is the corresponding signed binary value. The
129 -- exception Constraint_Error is raised if the input is invalid.
132 -- The argument P is the address of a packed decimal value and D is the
133 -- number of digits (in the range 10 .. 18, as implied by the subtype).
134 -- The returned result is the corresponding signed binary value. The
135 -- exception Constraint_Error is raised if the input is invalid.
138 -- The argument V is a signed binary integer, which is converted to
139 -- packed decimal format and stored using P, the address of a packed
140 -- decimal item of D digits (D is in the range 1-9). Constraint_Error
141 -- is raised if V is out of range of this number of digits.
144 -- The argument V is a signed binary integer, which is converted to
145 -- packed decimal format and stored using P, the address of a packed
146 -- decimal item of D digits (D is in the range 10-18). Constraint_Error
147 -- is raised if V is out of range of this number of digits.