gcc/config/m32r/m32r-opts.h - gcc - Git at Google

 /* Definitions for option handling for Renesas M32R cpu.
    Copyright (C) 1996-2021 Free Software Foundation, Inc.

    This file is part of GCC.

    GCC 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, or (at your
    option) any later version.

    GCC 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 GCC; see the file COPYING3.  If not see
    <http://www.gnu.org/licenses/>.  */

 #ifndef M32R_OPTS_H
 #define M32R_OPTS_H

 /* Code Models

    Code models are used to select between two choices of two separate
    possibilities (address space size, call insn to use):

    small: addresses use 24 bits, use bl to make calls
    medium: addresses use 32 bits, use bl to make calls (*1)
    large: addresses use 32 bits, use seth/add3/jl to make calls (*2)

    The fourth is "addresses use 24 bits, use seth/add3/jl to make calls" but
    using this one doesn't make much sense.

    (*1) The linker may eventually be able to relax seth/add3 -> ld24.
    (*2) The linker may eventually be able to relax seth/add3/jl -> bl.

    Internally these are recorded as TARGET_ADDR{24,32} and
    TARGET_CALL{26,32}.

    The __model__ attribute can be used to select the code model to use when
    accessing particular objects.  */

 enum m32r_model { M32R_MODEL_SMALL, M32R_MODEL_MEDIUM, M32R_MODEL_LARGE };

 #define TARGET_MODEL_SMALL  (m32r_model_selected == M32R_MODEL_SMALL)
 #define TARGET_MODEL_MEDIUM (m32r_model_selected == M32R_MODEL_MEDIUM)
 #define TARGET_MODEL_LARGE  (m32r_model_selected == M32R_MODEL_LARGE)
 #define TARGET_ADDR24       (m32r_model_selected == M32R_MODEL_SMALL)
 #define TARGET_ADDR32       (! TARGET_ADDR24)
 #define TARGET_CALL26       (! TARGET_CALL32)
 #define TARGET_CALL32       (m32r_model_selected == M32R_MODEL_LARGE)

 /* The default is the small model.  */
 #ifndef M32R_MODEL_DEFAULT
 #define M32R_MODEL_DEFAULT M32R_MODEL_SMALL
 #endif

 /* Small Data Area

    The SDA consists of sections .sdata, .sbss, and .scommon.
    .scommon isn't a real section, symbols in it have their section index
    set to SHN_M32R_SCOMMON, though support for it exists in the linker script.

    Two switches control the SDA:

    -G NNN        - specifies the maximum size of variable to go in the SDA

    -msdata=foo   - specifies how such variables are handled

         -msdata=none  - small data area is disabled

         -msdata=sdata - small data goes in the SDA, special code isn't
                         generated to use it, and special relocs aren't
                         generated

         -msdata=use   - small data goes in the SDA, special code is generated
                         to use the SDA and special relocs are generated

    The SDA is not multilib'd, it isn't necessary.
    MULTILIB_EXTRA_OPTS is set in tmake_file to -msdata=sdata so multilib'd
    libraries have small data in .sdata/SHN_M32R_SCOMMON so programs that use
    -msdata=use will successfully link with them (references in header files
    will cause the compiler to emit code that refers to library objects in
    .data).  ??? There can be a problem if the user passes a -G value greater
    than the default and a library object in a header file is that size.
    The default is 8 so this should be rare - if it occurs the user
    is required to rebuild the libraries or use a smaller value for -G.  */

 /* Maximum size of variables that go in .sdata/.sbss.
    The -msdata=foo switch also controls how small variables are handled.  */
 #ifndef SDATA_DEFAULT_SIZE
 #define SDATA_DEFAULT_SIZE 8
 #endif

 enum m32r_sdata { M32R_SDATA_NONE, M32R_SDATA_SDATA, M32R_SDATA_USE };

 #define TARGET_SDATA_NONE  (m32r_sdata_selected == M32R_SDATA_NONE)
 #define TARGET_SDATA_SDATA (m32r_sdata_selected == M32R_SDATA_SDATA)
 #define TARGET_SDATA_USE   (m32r_sdata_selected == M32R_SDATA_USE)

 /* Default is to disable the SDA
    [for upward compatibility with previous toolchains].  */
 #ifndef M32R_SDATA_DEFAULT
 #define M32R_SDATA_DEFAULT M32R_SDATA_NONE
 #endif

 #endif
	/* Definitions for option handling for Renesas M32R cpu.
	Copyright (C) 1996-2021 Free Software Foundation, Inc.

	This file is part of GCC.

	GCC 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, or (at your
	option) any later version.

	GCC 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 GCC; see the file COPYING3. If not see
	<http://www.gnu.org/licenses/>. */

	#ifndef M32R_OPTS_H
	#define M32R_OPTS_H

	/* Code Models

	Code models are used to select between two choices of two separate
	possibilities (address space size, call insn to use):

	small: addresses use 24 bits, use bl to make calls
	medium: addresses use 32 bits, use bl to make calls (*1)
	large: addresses use 32 bits, use seth/add3/jl to make calls (*2)

	The fourth is "addresses use 24 bits, use seth/add3/jl to make calls" but
	using this one doesn't make much sense.

	(*1) The linker may eventually be able to relax seth/add3 -> ld24.
	(*2) The linker may eventually be able to relax seth/add3/jl -> bl.

	Internally these are recorded as TARGET_ADDR{24,32} and
	TARGET_CALL{26,32}.

	The __model__ attribute can be used to select the code model to use when
	accessing particular objects. */

	enum m32r_model { M32R_MODEL_SMALL, M32R_MODEL_MEDIUM, M32R_MODEL_LARGE };

	#define TARGET_MODEL_SMALL (m32r_model_selected == M32R_MODEL_SMALL)
	#define TARGET_MODEL_MEDIUM (m32r_model_selected == M32R_MODEL_MEDIUM)
	#define TARGET_MODEL_LARGE (m32r_model_selected == M32R_MODEL_LARGE)
	#define TARGET_ADDR24 (m32r_model_selected == M32R_MODEL_SMALL)
	#define TARGET_ADDR32 (! TARGET_ADDR24)
	#define TARGET_CALL26 (! TARGET_CALL32)
	#define TARGET_CALL32 (m32r_model_selected == M32R_MODEL_LARGE)

	/* The default is the small model. */
	#ifndef M32R_MODEL_DEFAULT
	#define M32R_MODEL_DEFAULT M32R_MODEL_SMALL
	#endif

	/* Small Data Area

	The SDA consists of sections .sdata, .sbss, and .scommon.
	.scommon isn't a real section, symbols in it have their section index
	set to SHN_M32R_SCOMMON, though support for it exists in the linker script.

	Two switches control the SDA:

	-G NNN - specifies the maximum size of variable to go in the SDA

	-msdata=foo - specifies how such variables are handled

	-msdata=none - small data area is disabled

	-msdata=sdata - small data goes in the SDA, special code isn't
	generated to use it, and special relocs aren't
	generated

	-msdata=use - small data goes in the SDA, special code is generated
	to use the SDA and special relocs are generated

	The SDA is not multilib'd, it isn't necessary.
	MULTILIB_EXTRA_OPTS is set in tmake_file to -msdata=sdata so multilib'd
	libraries have small data in .sdata/SHN_M32R_SCOMMON so programs that use
	-msdata=use will successfully link with them (references in header files
	will cause the compiler to emit code that refers to library objects in
	.data). ??? There can be a problem if the user passes a -G value greater
	than the default and a library object in a header file is that size.
	The default is 8 so this should be rare - if it occurs the user
	is required to rebuild the libraries or use a smaller value for -G. */

	/* Maximum size of variables that go in .sdata/.sbss.
	The -msdata=foo switch also controls how small variables are handled. */
	#ifndef SDATA_DEFAULT_SIZE
	#define SDATA_DEFAULT_SIZE 8
	#endif

	enum m32r_sdata { M32R_SDATA_NONE, M32R_SDATA_SDATA, M32R_SDATA_USE };

	#define TARGET_SDATA_NONE (m32r_sdata_selected == M32R_SDATA_NONE)
	#define TARGET_SDATA_SDATA (m32r_sdata_selected == M32R_SDATA_SDATA)
	#define TARGET_SDATA_USE (m32r_sdata_selected == M32R_SDATA_USE)

	/* Default is to disable the SDA
	[for upward compatibility with previous toolchains]. */
	#ifndef M32R_SDATA_DEFAULT
	#define M32R_SDATA_DEFAULT M32R_SDATA_NONE
	#endif

	#endif