Coverage Report

Created: 2025-12-14 06:43

next uncovered line (L), next uncovered region (R), next uncovered branch (B)
/src/htslib/sam_internal.h
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1
/*  sam_internal.h -- internal functions; not part of the public API.
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    Copyright (C) 2019-2020, 2023-2024 Genome Research Ltd.
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
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THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
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DEALINGS IN THE SOFTWARE.  */
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#ifndef HTSLIB_SAM_INTERNAL_H
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#define HTSLIB_SAM_INTERNAL_H
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#include <errno.h>
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#include <stdint.h>
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#include "htslib/sam.h"
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#ifdef __cplusplus
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extern "C" {
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#endif
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// Used internally in the SAM format multi-threading.
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int sam_state_destroy(samFile *fp);
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int sam_set_thread_pool(htsFile *fp, htsThreadPool *p);
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int sam_set_threads(htsFile *fp, int nthreads);
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// Fastq state
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int fastq_state_set(samFile *fp, enum hts_fmt_option opt, ...);
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void fastq_state_destroy(samFile *fp);
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// bam1_t data (re)allocation
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int sam_realloc_bam_data(bam1_t *b, size_t desired);
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static inline int realloc_bam_data(bam1_t *b, size_t desired)
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7.97M
{
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7.97M
    if (desired <= b->m_data) return 0;
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472k
    return sam_realloc_bam_data(b, desired);
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7.97M
}
Unexecuted instantiation: hts.c:realloc_bam_data
sam.c:realloc_bam_data
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Source
48
7.97M
{
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7.97M
    if (desired <= b->m_data) return 0;
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472k
    return sam_realloc_bam_data(b, desired);
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7.97M
}
Unexecuted instantiation: simd.c:realloc_bam_data
Unexecuted instantiation: cram_encode.c:realloc_bam_data
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4.57M
static inline int possibly_expand_bam_data(bam1_t *b, size_t bytes) {
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4.57M
    size_t new_len = (size_t) b->l_data + bytes;
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4.57M
    if (new_len > INT32_MAX || new_len < bytes) { // Too big or overflow
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0
        errno = ENOMEM;
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0
        return -1;
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0
    }
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4.57M
    if (new_len <= b->m_data) return 0;
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13.6k
    return sam_realloc_bam_data(b, new_len);
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4.57M
}
Unexecuted instantiation: hts.c:possibly_expand_bam_data
sam.c:possibly_expand_bam_data
Line
Count
Source
53
4.57M
static inline int possibly_expand_bam_data(bam1_t *b, size_t bytes) {
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4.57M
    size_t new_len = (size_t) b->l_data + bytes;
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56
4.57M
    if (new_len > INT32_MAX || new_len < bytes) { // Too big or overflow
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0
        errno = ENOMEM;
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0
        return -1;
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0
    }
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4.57M
    if (new_len <= b->m_data) return 0;
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13.6k
    return sam_realloc_bam_data(b, new_len);
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4.57M
}
Unexecuted instantiation: simd.c:possibly_expand_bam_data
Unexecuted instantiation: cram_encode.c:possibly_expand_bam_data
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/*
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 * Convert a nibble encoded BAM sequence to a string of bases.
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 *
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 * We do this 2 bp at a time for speed. Equiv to:
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 *
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 * for (i = 0; i < len; i++)
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 *    seq[i] = seq_nt16_str[bam_seqi(nib, i)];
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 */
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2.10M
static inline void nibble2base_default(uint8_t *nib, char *seq, int len) {
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2.10M
    static const char code2base[512] =
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2.10M
        "===A=C=M=G=R=S=V=T=W=Y=H=K=D=B=N"
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2.10M
        "A=AAACAMAGARASAVATAWAYAHAKADABAN"
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2.10M
        "C=CACCCMCGCRCSCVCTCWCYCHCKCDCBCN"
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2.10M
        "M=MAMCMMMGMRMSMVMTMWMYMHMKMDMBMN"
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2.10M
        "G=GAGCGMGGGRGSGVGTGWGYGHGKGDGBGN"
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2.10M
        "R=RARCRMRGRRRSRVRTRWRYRHRKRDRBRN"
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2.10M
        "S=SASCSMSGSRSSSVSTSWSYSHSKSDSBSN"
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2.10M
        "V=VAVCVMVGVRVSVVVTVWVYVHVKVDVBVN"
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2.10M
        "T=TATCTMTGTRTSTVTTTWTYTHTKTDTBTN"
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2.10M
        "W=WAWCWMWGWRWSWVWTWWWYWHWKWDWBWN"
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2.10M
        "Y=YAYCYMYGYRYSYVYTYWYYYHYKYDYBYN"
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2.10M
        "H=HAHCHMHGHRHSHVHTHWHYHHHKHDHBHN"
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2.10M
        "K=KAKCKMKGKRKSKVKTKWKYKHKKKDKBKN"
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2.10M
        "D=DADCDMDGDRDSDVDTDWDYDHDKDDDBDN"
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2.10M
        "B=BABCBMBGBRBSBVBTBWBYBHBKBDBBBN"
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2.10M
        "N=NANCNMNGNRNSNVNTNWNYNHNKNDNBNN";
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2.10M
    int i, len2 = len/2;
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2.10M
    seq[0] = 0;
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2.94M
    for (i = 0; i < len2; i++)
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        // Note size_t cast helps gcc optimiser.
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834k
        memcpy(&seq[i*2], &code2base[(size_t)nib[i]*2], 2);
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2.10M
    if ((i *= 2) < len)
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80.4k
        seq[i] = seq_nt16_str[bam_seqi(nib, i)];
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2.10M
}
Unexecuted instantiation: hts.c:nibble2base_default
Unexecuted instantiation: sam.c:nibble2base_default
simd.c:nibble2base_default
Line
Count
Source
72
2.10M
static inline void nibble2base_default(uint8_t *nib, char *seq, int len) {
73
2.10M
    static const char code2base[512] =
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2.10M
        "===A=C=M=G=R=S=V=T=W=Y=H=K=D=B=N"
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2.10M
        "A=AAACAMAGARASAVATAWAYAHAKADABAN"
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2.10M
        "C=CACCCMCGCRCSCVCTCWCYCHCKCDCBCN"
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2.10M
        "M=MAMCMMMGMRMSMVMTMWMYMHMKMDMBMN"
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2.10M
        "G=GAGCGMGGGRGSGVGTGWGYGHGKGDGBGN"
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2.10M
        "R=RARCRMRGRRRSRVRTRWRYRHRKRDRBRN"
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2.10M
        "S=SASCSMSGSRSSSVSTSWSYSHSKSDSBSN"
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2.10M
        "V=VAVCVMVGVRVSVVVTVWVYVHVKVDVBVN"
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2.10M
        "T=TATCTMTGTRTSTVTTTWTYTHTKTDTBTN"
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2.10M
        "W=WAWCWMWGWRWSWVWTWWWYWHWKWDWBWN"
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2.10M
        "Y=YAYCYMYGYRYSYVYTYWYYYHYKYDYBYN"
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2.10M
        "H=HAHCHMHGHRHSHVHTHWHYHHHKHDHBHN"
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2.10M
        "K=KAKCKMKGKRKSKVKTKWKYKHKKKDKBKN"
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2.10M
        "D=DADCDMDGDRDSDVDTDWDYDHDKDDDBDN"
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2.10M
        "B=BABCBMBGBRBSBVBTBWBYBHBKBDBBBN"
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2.10M
        "N=NANCNMNGNRNSNVNTNWNYNHNKNDNBNN";
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2.10M
    int i, len2 = len/2;
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2.10M
    seq[0] = 0;
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2.94M
    for (i = 0; i < len2; i++)
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        // Note size_t cast helps gcc optimiser.
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834k
        memcpy(&seq[i*2], &code2base[(size_t)nib[i]*2], 2);
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98
2.10M
    if ((i *= 2) < len)
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80.4k
        seq[i] = seq_nt16_str[bam_seqi(nib, i)];
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2.10M
}
Unexecuted instantiation: cram_encode.c:nibble2base_default
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#if defined HAVE_ATTRIBUTE_CONSTRUCTOR && \
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    ((defined __x86_64__ && \
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      defined HAVE_X86INTRIN_H && HAVE_X86INTRIN_H && \
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      defined HAVE_ATTRIBUTE_TARGET_SSSE3 && \
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      defined HAVE_BUILTIN_CPU_SUPPORT_SSSE3) || \
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     (defined __ARM_NEON))
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#define BUILDING_SIMD_NIBBLE2BASE
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#endif
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2.10M
static inline void nibble2base(uint8_t *nib, char *seq, int len) {
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2.10M
#ifdef BUILDING_SIMD_NIBBLE2BASE
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2.10M
    extern void (*htslib_nibble2base)(uint8_t *nib, char *seq, int len);
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2.10M
    htslib_nibble2base(nib, seq, len);
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#else
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    nibble2base_default(nib, seq, len);
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#endif
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2.10M
}
Unexecuted instantiation: hts.c:nibble2base
sam.c:nibble2base
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Source
111
87.3k
static inline void nibble2base(uint8_t *nib, char *seq, int len) {
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87.3k
#ifdef BUILDING_SIMD_NIBBLE2BASE
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87.3k
    extern void (*htslib_nibble2base)(uint8_t *nib, char *seq, int len);
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87.3k
    htslib_nibble2base(nib, seq, len);
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#else
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    nibble2base_default(nib, seq, len);
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#endif
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87.3k
}
Unexecuted instantiation: simd.c:nibble2base
cram_encode.c:nibble2base
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Source
111
2.01M
static inline void nibble2base(uint8_t *nib, char *seq, int len) {
112
2.01M
#ifdef BUILDING_SIMD_NIBBLE2BASE
113
2.01M
    extern void (*htslib_nibble2base)(uint8_t *nib, char *seq, int len);
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2.01M
    htslib_nibble2base(nib, seq, len);
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#else
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    nibble2base_default(nib, seq, len);
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#endif
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2.01M
}
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#ifdef __cplusplus
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}
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#endif
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#endif