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526 lines
16 KiB
C
526 lines
16 KiB
C
/* Conversion loop frame work.
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Copyright (C) 1998-2003, 2005, 2008, 2011, 2012 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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Contributed by Ulrich Drepper <drepper@cygnus.com>, 1998.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library 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 GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, write to the Free
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Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA
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02111-1307 USA. */
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/* This file provides a frame for the reader loop in all conversion modules.
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The actual code must (of course) be provided in the actual module source
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code but certain actions can be written down generically, with some
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customization options which are these:
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MIN_NEEDED_INPUT minimal number of input bytes needed for the next
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conversion.
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MIN_NEEDED_OUTPUT minimal number of bytes produced by the next round
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of conversion.
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MAX_NEEDED_INPUT you guess it, this is the maximal number of input
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bytes needed. It defaults to MIN_NEEDED_INPUT
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MAX_NEEDED_OUTPUT likewise for output bytes.
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LOOPFCT name of the function created. If not specified
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the name is `loop' but this prevents the use
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of multiple functions in the same file.
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BODY this is supposed to expand to the body of the loop.
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The user must provide this.
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EXTRA_LOOP_DECLS extra arguments passed from converion loop call.
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INIT_PARAMS code to define and initialize variables from params.
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UPDATE_PARAMS code to store result in params.
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ONEBYTE_BODY body of the specialized conversion function for a
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single byte from the current character set to INTERNAL.
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*/
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#include <assert.h>
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#include <endian.h>
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#include <gconv.h>
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#include <stdint.h>
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#include <string.h>
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#include <wchar.h>
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#include <sys/param.h> /* For MIN. */
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#define __need_size_t
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#include <stddef.h>
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/* We have to provide support for machines which are not able to handled
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unaligned memory accesses. Some of the character encodings have
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representations with a fixed width of 2 or 4 bytes. But if we cannot
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access unaligned memory we still have to read byte-wise. */
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#undef FCTNAME2
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#if defined _STRING_ARCH_unaligned || !defined DEFINE_UNALIGNED
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/* We can handle unaligned memory access. */
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# define get16(addr) *((__const uint16_t *) (addr))
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# define get32(addr) *((__const uint32_t *) (addr))
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/* We need no special support for writing values either. */
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# define put16(addr, val) *((uint16_t *) (addr)) = (val)
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# define put32(addr, val) *((uint32_t *) (addr)) = (val)
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# define FCTNAME2(name) name
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#else
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/* Distinguish between big endian and little endian. */
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# if __BYTE_ORDER == __LITTLE_ENDIAN
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# define get16(addr) \
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(((__const unsigned char *) (addr))[1] << 8 \
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| ((__const unsigned char *) (addr))[0])
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# define get32(addr) \
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(((((__const unsigned char *) (addr))[3] << 8 \
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| ((__const unsigned char *) (addr))[2]) << 8 \
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| ((__const unsigned char *) (addr))[1]) << 8 \
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| ((__const unsigned char *) (addr))[0])
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# define put16(addr, val) \
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({ uint16_t __val = (val); \
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((unsigned char *) (addr))[0] = __val; \
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((unsigned char *) (addr))[1] = __val >> 8; \
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(void) 0; })
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# define put32(addr, val) \
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({ uint32_t __val = (val); \
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((unsigned char *) (addr))[0] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[1] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[2] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[3] = __val; \
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(void) 0; })
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# else
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# define get16(addr) \
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(((__const unsigned char *) (addr))[0] << 8 \
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| ((__const unsigned char *) (addr))[1])
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# define get32(addr) \
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(((((__const unsigned char *) (addr))[0] << 8 \
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| ((__const unsigned char *) (addr))[1]) << 8 \
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| ((__const unsigned char *) (addr))[2]) << 8 \
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| ((__const unsigned char *) (addr))[3])
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# define put16(addr, val) \
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({ uint16_t __val = (val); \
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((unsigned char *) (addr))[1] = __val; \
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((unsigned char *) (addr))[0] = __val >> 8; \
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(void) 0; })
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# define put32(addr, val) \
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({ uint32_t __val = (val); \
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((unsigned char *) (addr))[3] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[2] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[1] = __val; \
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__val >>= 8; \
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((unsigned char *) (addr))[0] = __val; \
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(void) 0; })
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# endif
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# define FCTNAME2(name) name##_unaligned
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#endif
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#define FCTNAME(name) FCTNAME2(name)
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/* We need at least one byte for the next round. */
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#ifndef MIN_NEEDED_INPUT
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# error "MIN_NEEDED_INPUT definition missing"
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#elif MIN_NEEDED_INPUT < 1
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# error "MIN_NEEDED_INPUT must be >= 1"
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#endif
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/* Let's see how many bytes we produce. */
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#ifndef MAX_NEEDED_INPUT
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# define MAX_NEEDED_INPUT MIN_NEEDED_INPUT
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#endif
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/* We produce at least one byte in the next round. */
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#ifndef MIN_NEEDED_OUTPUT
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# error "MIN_NEEDED_OUTPUT definition missing"
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#elif MIN_NEEDED_OUTPUT < 1
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# error "MIN_NEEDED_OUTPUT must be >= 1"
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#endif
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/* Let's see how many bytes we produce. */
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#ifndef MAX_NEEDED_OUTPUT
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# define MAX_NEEDED_OUTPUT MIN_NEEDED_OUTPUT
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#endif
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/* Default name for the function. */
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#ifndef LOOPFCT
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# define LOOPFCT loop
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#endif
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/* Make sure we have a loop body. */
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#ifndef BODY
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# error "Definition of BODY missing for function" LOOPFCT
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#endif
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/* If no arguments have to passed to the loop function define the macro
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as empty. */
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#ifndef EXTRA_LOOP_DECLS
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# define EXTRA_LOOP_DECLS
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#endif
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/* Allow using UPDATE_PARAMS in macros where #ifdef UPDATE_PARAMS test
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isn't possible. */
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#ifndef UPDATE_PARAMS
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# define UPDATE_PARAMS do { } while (0)
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#endif
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#ifndef REINIT_PARAMS
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# define REINIT_PARAMS do { } while (0)
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#endif
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/* To make it easier for the writers of the modules, we define a macro
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to test whether we have to ignore errors. */
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#define ignore_errors_p() \
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(irreversible != NULL && (flags & __GCONV_IGNORE_ERRORS))
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/* Error handling for the FROM_LOOP direction, with ignoring of errors.
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Note that we cannot use the do while (0) trick since `break' and
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`continue' must reach certain points. */
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#define STANDARD_FROM_LOOP_ERR_HANDLER(Incr) \
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{ \
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result = __GCONV_ILLEGAL_INPUT; \
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\
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if (! ignore_errors_p ()) \
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break; \
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\
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/* We ignore the invalid input byte sequence. */ \
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inptr += (Incr); \
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++*irreversible; \
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/* But we keep result == __GCONV_ILLEGAL_INPUT, because of the constraint \
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that "iconv -c" must give the same exitcode as "iconv". */ \
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continue; \
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}
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/* Error handling for the TO_LOOP direction, with use of transliteration/
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transcription functions and ignoring of errors. Note that we cannot use
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the do while (0) trick since `break' and `continue' must reach certain
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points. */
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#define STANDARD_TO_LOOP_ERR_HANDLER(Incr) \
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{ \
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struct __gconv_trans_data *trans; \
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\
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result = __GCONV_ILLEGAL_INPUT; \
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\
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if (irreversible == NULL) \
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/* This means we are in call from __gconv_transliterate. In this \
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case we are not doing any error recovery outself. */ \
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break; \
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\
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/* If needed, flush any conversion state, so that __gconv_transliterate \
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starts with current shift state. */ \
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UPDATE_PARAMS; \
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\
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/* First try the transliteration methods. */ \
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for (trans = step_data->__trans; trans != NULL; trans = trans->__next) \
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{ \
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result = DL_CALL_FCT (trans->__trans_fct, \
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(step, step_data, trans->__data, *inptrp, \
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&inptr, inend, &outptr, irreversible)); \
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if (result != __GCONV_ILLEGAL_INPUT) \
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break; \
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} \
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\
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REINIT_PARAMS; \
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\
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/* If any of them recognized the input continue with the loop. */ \
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if (result != __GCONV_ILLEGAL_INPUT) \
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{ \
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if (__builtin_expect (result == __GCONV_FULL_OUTPUT, 0)) \
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break; \
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\
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continue; \
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} \
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\
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/* Next see whether we have to ignore the error. If not, stop. */ \
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if (! ignore_errors_p ()) \
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break; \
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\
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/* When we come here it means we ignore the character. */ \
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++*irreversible; \
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inptr += Incr; \
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/* But we keep result == __GCONV_ILLEGAL_INPUT, because of the constraint \
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that "iconv -c" must give the same exitcode as "iconv". */ \
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continue; \
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}
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/* Handling of Unicode 3.1 TAG characters. Unicode recommends
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"If language codes are not relevant to the particular processing
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operation, then they should be ignored." This macro is usually
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called right before STANDARD_TO_LOOP_ERR_HANDLER (Incr). */
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#define UNICODE_TAG_HANDLER(Character, Incr) \
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{ \
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/* TAG characters are those in the range U+E0000..U+E007F. */ \
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if (((Character) >> 7) == (0xe0000 >> 7)) \
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{ \
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inptr += Incr; \
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continue; \
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} \
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}
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/* The function returns the status, as defined in gconv.h. */
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static inline int
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__attribute ((always_inline))
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FCTNAME (LOOPFCT) (struct __gconv_step *step,
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struct __gconv_step_data *step_data,
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const unsigned char **inptrp, const unsigned char *inend,
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unsigned char **outptrp, const unsigned char *outend,
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size_t *irreversible EXTRA_LOOP_DECLS)
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{
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#ifdef LOOP_NEED_STATE
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mbstate_t *state = step_data->__statep;
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#endif
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#ifdef LOOP_NEED_FLAGS
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int flags = step_data->__flags;
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#endif
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#ifdef LOOP_NEED_DATA
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void *data = step->__data;
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#endif
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int result = __GCONV_EMPTY_INPUT;
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const unsigned char *inptr = *inptrp;
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unsigned char *outptr = *outptrp;
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#ifdef INIT_PARAMS
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INIT_PARAMS;
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#endif
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while (inptr != inend)
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{
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/* `if' cases for MIN_NEEDED_OUTPUT ==/!= 1 is made to help the
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compiler generating better code. They will be optimized away
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since MIN_NEEDED_OUTPUT is always a constant. */
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if (MIN_NEEDED_INPUT > 1
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&& __builtin_expect (inptr + MIN_NEEDED_INPUT > inend, 0))
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{
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/* We don't have enough input for another complete input
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character. */
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result = __GCONV_INCOMPLETE_INPUT;
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break;
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}
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if ((MIN_NEEDED_OUTPUT != 1
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&& __builtin_expect (outptr + MIN_NEEDED_OUTPUT > outend, 0))
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|| (MIN_NEEDED_OUTPUT == 1
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&& __builtin_expect (outptr >= outend, 0)))
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{
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/* Overflow in the output buffer. */
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result = __GCONV_FULL_OUTPUT;
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break;
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}
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/* Here comes the body the user provides. It can stop with
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RESULT set to GCONV_INCOMPLETE_INPUT (if the size of the
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input characters vary in size), GCONV_ILLEGAL_INPUT, or
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GCONV_FULL_OUTPUT (if the output characters vary in size). */
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BODY
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}
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/* Update the pointers pointed to by the parameters. */
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*inptrp = inptr;
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*outptrp = outptr;
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UPDATE_PARAMS;
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return result;
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}
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/* Include the file a second time to define the function to handle
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unaligned access. */
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#if !defined DEFINE_UNALIGNED && !defined _STRING_ARCH_unaligned \
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&& MIN_NEEDED_INPUT != 1 && MAX_NEEDED_INPUT % MIN_NEEDED_INPUT == 0 \
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&& MIN_NEEDED_OUTPUT != 1 && MAX_NEEDED_OUTPUT % MIN_NEEDED_OUTPUT == 0
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# undef get16
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# undef get32
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# undef put16
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# undef put32
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# undef unaligned
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# define DEFINE_UNALIGNED
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# include "loop.c"
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# undef DEFINE_UNALIGNED
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#endif
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#if MAX_NEEDED_INPUT > 1
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# define SINGLE(fct) SINGLE2 (fct)
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# define SINGLE2(fct) fct##_single
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static inline int
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__attribute ((always_inline))
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SINGLE(LOOPFCT) (struct __gconv_step *step,
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struct __gconv_step_data *step_data,
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const unsigned char **inptrp, const unsigned char *inend,
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unsigned char **outptrp, unsigned char *outend,
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size_t *irreversible EXTRA_LOOP_DECLS)
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{
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mbstate_t *state = step_data->__statep;
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#ifdef LOOP_NEED_FLAGS
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int flags = step_data->__flags;
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#endif
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#ifdef LOOP_NEED_DATA
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void *data = step->__data;
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#endif
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int result = __GCONV_OK;
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unsigned char bytebuf[MAX_NEEDED_INPUT];
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const unsigned char *inptr = *inptrp;
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unsigned char *outptr = *outptrp;
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size_t inlen;
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#ifdef INIT_PARAMS
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INIT_PARAMS;
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#endif
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#ifdef UNPACK_BYTES
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UNPACK_BYTES
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#else
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/* Add the bytes from the state to the input buffer. */
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assert ((state->__count & 7) <= sizeof (state->__value));
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for (inlen = 0; inlen < (size_t) (state->__count & 7); ++inlen)
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bytebuf[inlen] = state->__value.__wchb[inlen];
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#endif
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/* Are there enough bytes in the input buffer? */
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if (MIN_NEEDED_INPUT > 1
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&& __builtin_expect (inptr + (MIN_NEEDED_INPUT - inlen) > inend, 0))
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{
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*inptrp = inend;
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#ifdef STORE_REST
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while (inptr < inend)
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bytebuf[inlen++] = *inptr++;
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inptr = bytebuf;
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inptrp = &inptr;
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inend = &bytebuf[inlen];
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STORE_REST
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#else
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/* We don't have enough input for another complete input
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character. */
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while (inptr < inend)
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state->__value.__wchb[inlen++] = *inptr++;
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#endif
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return __GCONV_INCOMPLETE_INPUT;
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}
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/* Enough space in output buffer. */
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if ((MIN_NEEDED_OUTPUT != 1 && outptr + MIN_NEEDED_OUTPUT > outend)
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|| (MIN_NEEDED_OUTPUT == 1 && outptr >= outend))
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/* Overflow in the output buffer. */
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return __GCONV_FULL_OUTPUT;
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/* Now add characters from the normal input buffer. */
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do
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bytebuf[inlen++] = *inptr++;
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while (inlen < MAX_NEEDED_INPUT && inptr < inend);
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inptr = bytebuf;
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inend = &bytebuf[inlen];
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do
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{
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BODY
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}
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while (0);
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/* Now we either have produced an output character and consumed all the
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bytes from the state and at least one more, or the character is still
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incomplete, or we have some other error (like illegal input character,
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no space in output buffer). */
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if (__builtin_expect (inptr != bytebuf, 1))
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{
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/* We found a new character. */
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assert (inptr - bytebuf > (state->__count & 7));
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*inptrp += inptr - bytebuf - (state->__count & 7);
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*outptrp = outptr;
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result = __GCONV_OK;
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/* Clear the state buffer. */
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#ifdef CLEAR_STATE
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CLEAR_STATE;
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#else
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state->__count &= ~7;
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#endif
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}
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else if (result == __GCONV_INCOMPLETE_INPUT)
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{
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/* This can only happen if we have less than MAX_NEEDED_INPUT bytes
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available. */
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assert (inend != &bytebuf[MAX_NEEDED_INPUT]);
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*inptrp += inend - bytebuf - (state->__count & 7);
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#ifdef STORE_REST
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inptrp = &inptr;
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STORE_REST
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#else
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/* We don't have enough input for another complete input
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character. */
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assert (inend - inptr > (state->__count & ~7));
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assert (inend - inptr <= sizeof (state->__value));
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state->__count = (state->__count & ~7) | (inend - inptr);
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inlen = 0;
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while (inptr < inend)
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state->__value.__wchb[inlen++] = *inptr++;
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#endif
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}
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return result;
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}
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# undef SINGLE
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# undef SINGLE2
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#endif
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#ifdef ONEBYTE_BODY
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/* Define the shortcut function for btowc. */
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static wint_t
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gconv_btowc (struct __gconv_step *step, unsigned char c)
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ONEBYTE_BODY
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# define FROM_ONEBYTE gconv_btowc
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#endif
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/* We remove the macro definitions so that we can include this file again
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for the definition of another function. */
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#undef MIN_NEEDED_INPUT
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#undef MAX_NEEDED_INPUT
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#undef MIN_NEEDED_OUTPUT
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#undef MAX_NEEDED_OUTPUT
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#undef LOOPFCT
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#undef BODY
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#undef LOOPFCT
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#undef EXTRA_LOOP_DECLS
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#undef INIT_PARAMS
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#undef UPDATE_PARAMS
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#undef REINIT_PARAMS
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#undef ONEBYTE_BODY
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#undef UNPACK_BYTES
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#undef CLEAR_STATE
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#undef LOOP_NEED_STATE
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#undef LOOP_NEED_FLAGS
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#undef LOOP_NEED_DATA
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#undef get16
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#undef get32
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#undef put16
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#undef put32
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#undef unaligned
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