binutils-gdb/gdb/gmp-utils.h
Joel Brobecker 3666a04883 Update copyright year range in all GDB files
This commits the result of running gdb/copyright.py as per our Start
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gdb/ChangeLog

        Update copyright year range in copyright header of all GDB files.
2021-01-01 12:12:21 +04:00

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C++

/* Miscellaneous routines making it easier to use GMP within GDB's framework.
Copyright (C) 2019-2021 Free Software Foundation, Inc.
This file is part of GDB.
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>. */
#ifndef GMP_UTILS_H
#define GMP_UTILS_H
#include "defs.h"
/* Include <stdio.h> and <stdarg.h> ahead of <gmp.h>, so as to get
access to GMP's various formatting functions. */
#include <stdio.h>
#include <stdarg.h>
#include <gmp.h>
#include "gdbsupport/traits.h"
/* Same as gmp_asprintf, but returning an std::string. */
std::string gmp_string_printf (const char *fmt, ...);
/* A class to make it easier to use GMP's mpz_t values within GDB. */
struct gdb_mpz
{
mpz_t val;
/* Constructors. */
gdb_mpz () { mpz_init (val); }
explicit gdb_mpz (const mpz_t &from_val)
{
mpz_init (val);
mpz_set (val, from_val);
}
gdb_mpz (const gdb_mpz &from)
{
mpz_init (val);
mpz_set (val, from.val);
}
/* Initialize using the given integral value.
The main advantage of this method is that it handles both signed
and unsigned types, with no size restriction. */
template<typename T, typename = gdb::Requires<std::is_integral<T>>>
explicit gdb_mpz (T src)
{
mpz_init (val);
set (src);
}
explicit gdb_mpz (gdb_mpz &&from)
{
mpz_init (val);
mpz_swap (val, from.val);
}
gdb_mpz &operator= (const gdb_mpz &from)
{
mpz_set (val, from.val);
return *this;
}
gdb_mpz &operator= (gdb_mpz &&other)
{
mpz_swap (val, other.val);
return *this;
}
template<typename T, typename = gdb::Requires<std::is_integral<T>>>
gdb_mpz &operator= (T src)
{
set (src);
return *this;
}
/* Convert VAL to an integer of the given type.
The return type can signed or unsigned, with no size restriction. */
template<typename T> T as_integer () const;
/* Set VAL by importing the number stored in the byte array (BUF),
using the given BYTE_ORDER. The size of the data to read is
the byte array's size.
UNSIGNED_P indicates whether the number has an unsigned type. */
void read (gdb::array_view<const gdb_byte> buf, enum bfd_endian byte_order,
bool unsigned_p);
/* Write VAL into BUF as a number whose byte size is the size of BUF,
using the given BYTE_ORDER.
UNSIGNED_P indicates whether the number has an unsigned type. */
void write (gdb::array_view<gdb_byte> buf, enum bfd_endian byte_order,
bool unsigned_p) const;
/* Return a string containing VAL. */
std::string str () const { return gmp_string_printf ("%Zd", val); }
/* The destructor. */
~gdb_mpz () { mpz_clear (val); }
private:
/* Helper template for constructor and operator=. */
template<typename T> void set (T src);
/* Low-level function to export VAL into BUF as a number whose byte size
is the size of BUF.
If UNSIGNED_P is true, then export VAL into BUF as an unsigned value.
Otherwise, export it as a signed value.
The API is inspired from GMP's mpz_export, hence the naming and types
of the following parameter:
- ENDIAN should be:
. 1 for most significant byte first; or
. -1 for least significant byte first; or
. 0 for native endianness.
An error is raised if BUF is not large enough to contain the value
being exported. */
void safe_export (gdb::array_view<gdb_byte> buf,
int endian, bool unsigned_p) const;
};
/* A class to make it easier to use GMP's mpq_t values within GDB. */
struct gdb_mpq
{
mpq_t val;
/* Constructors. */
gdb_mpq () { mpq_init (val); }
explicit gdb_mpq (const mpq_t &from_val)
{
mpq_init (val);
mpq_set (val, from_val);
}
gdb_mpq (const gdb_mpq &from)
{
mpq_init (val);
mpq_set (val, from.val);
}
explicit gdb_mpq (gdb_mpq &&from)
{
mpq_init (val);
mpq_swap (val, from.val);
}
/* Copy assignment operator. */
gdb_mpq &operator= (const gdb_mpq &from)
{
mpq_set (val, from.val);
return *this;
}
gdb_mpq &operator= (gdb_mpq &&from)
{
mpq_swap (val, from.val);
return *this;
}
/* Return a string representing VAL as "<numerator> / <denominator>". */
std::string str () const { return gmp_string_printf ("%Qd", val); }
/* Return VAL rounded to the nearest integer. */
gdb_mpz get_rounded () const;
/* Set VAL from the contents of the given byte array (BUF), which
contains the unscaled value of a fixed point type object.
The byte size of the data is the size of BUF.
BYTE_ORDER provides the byte_order to use when reading the data.
UNSIGNED_P indicates whether the number has an unsigned type.
SCALING_FACTOR is the scaling factor to apply after having
read the unscaled value from our buffer. */
void read_fixed_point (gdb::array_view<const gdb_byte> buf,
enum bfd_endian byte_order, bool unsigned_p,
const gdb_mpq &scaling_factor);
/* Write VAL into BUF as fixed point value following the given BYTE_ORDER.
The size of BUF is used as the length to write the value into.
UNSIGNED_P indicates whether the number has an unsigned type.
SCALING_FACTOR is the scaling factor to apply before writing
the unscaled value to our buffer. */
void write_fixed_point (gdb::array_view<gdb_byte> buf,
enum bfd_endian byte_order, bool unsigned_p,
const gdb_mpq &scaling_factor) const;
/* The destructor. */
~gdb_mpq () { mpq_clear (val); }
};
/* A class to make it easier to use GMP's mpf_t values within GDB.
Should MPFR become a required dependency, we should probably
drop this class in favor of using MPFR. */
struct gdb_mpf
{
mpf_t val;
/* Constructors. */
gdb_mpf () { mpf_init (val); }
DISABLE_COPY_AND_ASSIGN (gdb_mpf);
/* Set VAL from the contents of the given buffer (BUF), which
contains the unscaled value of a fixed point type object
with the given size (LEN) and byte order (BYTE_ORDER).
UNSIGNED_P indicates whether the number has an unsigned type.
SCALING_FACTOR is the scaling factor to apply after having
read the unscaled value from our buffer. */
void read_fixed_point (gdb::array_view<const gdb_byte> buf,
enum bfd_endian byte_order, bool unsigned_p,
const gdb_mpq &scaling_factor)
{
gdb_mpq tmp_q;
tmp_q.read_fixed_point (buf, byte_order, unsigned_p, scaling_factor);
mpf_set_q (val, tmp_q.val);
}
/* The destructor. */
~gdb_mpf () { mpf_clear (val); }
};
/* See declaration above. */
template<typename T>
void
gdb_mpz::set (T src)
{
mpz_import (val, 1 /* count */, -1 /* order */,
sizeof (T) /* size */, 0 /* endian (0 = native) */,
0 /* nails */, &src /* op */);
if (std::is_signed<T>::value && src < 0)
{
/* mpz_import does not handle the sign, so our value was imported
as an unsigned. Adjust that imported value so as to make it
the correct negative value. */
gdb_mpz neg_offset;
mpz_ui_pow_ui (neg_offset.val, 2, sizeof (T) * HOST_CHAR_BIT);
mpz_sub (val, val, neg_offset.val);
}
}
/* See declaration above. */
template<typename T>
T
gdb_mpz::as_integer () const
{
T result;
this->safe_export ({(gdb_byte *) &result, sizeof (result)},
0 /* endian (0 = native) */,
!std::is_signed<T>::value /* unsigned_p */);
return result;
}
#endif