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This commit brings all the changes made by running gdb/copyright.py as per GDB's Start of New Year Procedure. For the avoidance of doubt, all changes in this commits were performed by the script.
285 lines
7.7 KiB
C
285 lines
7.7 KiB
C
/* The common simulator framework for GDB, the GNU Debugger.
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Copyright 2002-2022 Free Software Foundation, Inc.
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Contributed by Andrew Cagney and Red Hat.
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This file is part of GDB.
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This program is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3 of the License, or
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(at your option) any later version.
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>. */
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#ifndef SIM_CONFIG_H
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#define SIM_CONFIG_H
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#ifdef SIM_COMMON_BUILD
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#error "This header is unusable in common builds due to reliance on SIM_AC_OPTION_BITSIZE"
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#endif
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/* Host dependant:
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The CPP below defines information about the compilation host. In
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particular it defines the macro's:
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HOST_BYTE_ORDER The byte order of the host. Could be BFD_ENDIAN_LITTLE
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or BFD_ENDIAN_BIG.
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*/
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#ifdef WORDS_BIGENDIAN
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# define HOST_BYTE_ORDER BFD_ENDIAN_BIG
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#else
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# define HOST_BYTE_ORDER BFD_ENDIAN_LITTLE
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#endif
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/* Until devices and tree properties are sorted out, tell sim-config.c
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not to call the tree_find_foo fns. */
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#define WITH_TREE_PROPERTIES 0
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/* Endianness of the target.
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Possible values are BFD_ENDIAN_UNKNOWN, BFD_ENDIAN_LITTLE, or BFD_ENDIAN_BIG. */
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extern enum bfd_endian current_target_byte_order;
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#define CURRENT_TARGET_BYTE_ORDER \
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(WITH_TARGET_BYTE_ORDER != BFD_ENDIAN_UNKNOWN \
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? WITH_TARGET_BYTE_ORDER : current_target_byte_order)
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/* XOR endian.
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In addition to the above, the simulator can support the horrible
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XOR endian mode (as found in the PowerPC and MIPS ISA). See
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sim-core for more information.
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If WITH_XOR_ENDIAN is non-zero, it specifies the number of bytes
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potentially involved in the XOR munge. A typical value is 8. */
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#ifndef WITH_XOR_ENDIAN
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#define WITH_XOR_ENDIAN 0
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#endif
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/* SMP support:
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Sets a limit on the number of processors that can be simulated. If
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WITH_SMP is set to zero (0), the simulator is restricted to
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suporting only one processor (and as a consequence leaves the SMP
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code out of the build process).
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The actual number of processors is taken from the device
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/options/smp@<nr-cpu> */
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#if defined (WITH_SMP) && (WITH_SMP > 0)
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#define MAX_NR_PROCESSORS WITH_SMP
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#endif
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#ifndef MAX_NR_PROCESSORS
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#define MAX_NR_PROCESSORS 1
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#endif
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/* Size of target word, address and OpenFirmware Cell:
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The target word size is determined by the natural size of its
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reginsters.
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On most hosts, the address and cell are the same size as a target
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word. */
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#ifndef WITH_TARGET_WORD_BITSIZE
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#define WITH_TARGET_WORD_BITSIZE 32
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#endif
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#ifndef WITH_TARGET_ADDRESS_BITSIZE
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#define WITH_TARGET_ADDRESS_BITSIZE WITH_TARGET_WORD_BITSIZE
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#endif
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#ifndef WITH_TARGET_CELL_BITSIZE
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#define WITH_TARGET_CELL_BITSIZE WITH_TARGET_WORD_BITSIZE
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#endif
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#ifndef WITH_TARGET_FLOATING_POINT_BITSIZE
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#define WITH_TARGET_FLOATING_POINT_BITSIZE 64
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#endif
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/* Most significant bit of target:
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Set this according to your target's bit numbering convention. For
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the PowerPC it is zero, for many other targets it is 31 or 63.
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For targets that can both have either 32 or 64 bit words and number
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MSB as 31, 63. Define this to be (WITH_TARGET_WORD_BITSIZE - 1) */
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#ifndef WITH_TARGET_WORD_MSB
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#define WITH_TARGET_WORD_MSB 0
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#endif
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/* Program environment:
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Three environments are available - UEA (user), VEA (virtual) and
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OEA (perating). The former two are environment that users would
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expect to see (VEA includes things like coherency and the time
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base) while OEA is what an operating system expects to see. By
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setting these to specific values, the build process is able to
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eliminate non relevent environment code.
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STATE_ENVIRONMENT(sd) specifies which of vea or oea is required for
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the current runtime.
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ALL_ENVIRONMENT is used during configuration as a value for
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WITH_ENVIRONMENT to indicate the choice is runtime selectable.
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The default is then USER_ENVIRONMENT [since allowing the user to choose
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the default at configure time seems like featuritis and since people using
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OPERATING_ENVIRONMENT have more to worry about than selecting the
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default].
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ALL_ENVIRONMENT is also used to set STATE_ENVIRONMENT to the
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"uninitialized" state. */
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enum sim_environment {
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ALL_ENVIRONMENT,
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USER_ENVIRONMENT,
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VIRTUAL_ENVIRONMENT,
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OPERATING_ENVIRONMENT
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};
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/* To be prepended to simulator calls with absolute file paths and
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chdir:ed at startup. */
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extern char *simulator_sysroot;
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/* Callback & Modulo Memory.
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Core includes a builtin memory type (raw_memory) that is
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implemented using an array. raw_memory does not require any
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additional functions etc.
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Callback memory is where the core calls a core device for the data
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it requires. Callback memory can be layered using priorities.
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Modulo memory is a variation on raw_memory where ADDRESS & (MODULO
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- 1) is used as the index into the memory array.
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The OEA model uses callback memory for devices.
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The VEA model uses callback memory to capture `page faults'.
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BTW, while raw_memory could have been implemented as a callback,
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profiling has shown that there is a biger win (at least for the
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x86) in eliminating a function call for the most common
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(raw_memory) case. */
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/* Alignment:
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A processor architecture may or may not handle misaligned
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transfers.
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As alternatives: both little and big endian modes take an exception
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(STRICT_ALIGNMENT); big and little endian models handle misaligned
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transfers (NONSTRICT_ALIGNMENT); or the address is forced into
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alignment using a mask (FORCED_ALIGNMENT).
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Mixed alignment should be specified when the simulator needs to be
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able to change the alignment requirements on the fly (eg for
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bi-endian support). */
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enum sim_alignments {
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MIXED_ALIGNMENT,
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NONSTRICT_ALIGNMENT,
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STRICT_ALIGNMENT,
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FORCED_ALIGNMENT,
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};
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extern enum sim_alignments current_alignment;
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#if !defined (WITH_ALIGNMENT)
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#define WITH_ALIGNMENT 0
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#endif
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#define CURRENT_ALIGNMENT (WITH_ALIGNMENT \
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? WITH_ALIGNMENT \
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: current_alignment)
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/* Floating point suport:
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Should the processor trap for all floating point instructions (as
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if the hardware wasn't implemented) or implement the floating point
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instructions directly. */
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#if defined (WITH_FLOATING_POINT)
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#define SOFT_FLOATING_POINT 1
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#define HARD_FLOATING_POINT 2
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extern int current_floating_point;
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#define CURRENT_FLOATING_POINT (WITH_FLOATING_POINT \
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? WITH_FLOATING_POINT \
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: current_floating_point)
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#endif
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/* Whether to check instructions for reserved bits being set */
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/* #define WITH_RESERVED_BITS 1 */
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/* include monitoring code */
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#define MONITOR_INSTRUCTION_ISSUE 1
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#define MONITOR_LOAD_STORE_UNIT 2
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/* do not define WITH_MON by default */
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#define DEFAULT_WITH_MON (MONITOR_LOAD_STORE_UNIT \
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| MONITOR_INSTRUCTION_ISSUE)
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/* Whether or not input/output just uses stdio, or uses printf_filtered for
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output, and polling input for input. */
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#define DONT_USE_STDIO 2
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#define DO_USE_STDIO 1
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extern int current_stdio;
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#define CURRENT_STDIO (WITH_STDIO \
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? WITH_STDIO \
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: current_stdio)
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/* Set the default state configuration, before parsing argv. */
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extern void sim_config_default (SIM_DESC sd);
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/* Complete and verify the simulator configuration. */
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extern SIM_RC sim_config (SIM_DESC sd);
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/* Print the simulator configuration. */
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extern void sim_config_print (SIM_DESC sd);
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#endif
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