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Yucom/jxrlib/jxrencoderdecoder/JxrDecApp.c
Rémi Bernon d9d777072a jxrlib: Add library sources
2020-09-29 14:29:06 -05:00

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//*@@@+++@@@@******************************************************************
//
// Copyright © Microsoft Corp.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are met:
//
// • Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// • Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation
// and/or other materials provided with the distribution.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
// AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
// IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
// ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
// LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
// CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
// SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
// CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
// ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
// POSSIBILITY OF SUCH DAMAGE.
//
//*@@@---@@@@******************************************************************
#include <JXRTest.h>
#include <time.h>
//================================================================
static const size_t SKIPFLEXBITS = 0xff;
//================================================================
// Command line argument support
//================================================================
typedef struct tagWMPDECAPPARGS
{
char* szInputFile;
char* szOutputFile;
Bool bVerbose;
PKPixelFormatGUID guidPixFormat;
// Bool bFlagRGB_BGR;
// region decode
size_t rLeftX;
size_t rTopY;
size_t rWidth;
size_t rHeight;
// thumbnail
size_t tThumbnailFactor;
// orientation
ORIENTATION oOrientation;
// post processing
U8 cPostProcStrength;
U8 uAlphaMode; // 0:no alpha 1: alpha only else: something + alpha
SUBBAND sbSubband; // which subbands to keep (for transcoding)
BITSTREAMFORMAT bfBitstreamFormat; // desired bitsream format (for transcoding)
CWMIStrCodecParam wmiSCP;
Bool bIgnoreOverlap;
} WMPDECAPPARGS;
//----------------------------------------------------------------
void WmpDecAppUsage(const char* szExe)
{
printf(CRLF);
printf("JPEG XR Decoder Utility" CRLF);
printf("Copyright 2013 Microsoft Corporation - All Rights Reserved" CRLF);
printf(CRLF);
printf("%s [options]..." CRLF, szExe);
printf(CRLF);
printf(" -i input.jxr/wdp Input JPEG XR/HD Photo file name" CRLF);
printf(CRLF);
printf(" -o output.bmp/tif/jxr Output image file name" CRLF);
printf(" bmp: <=8bpc, BGR" CRLF);
printf(" tif: >=8bpc, RGB" CRLF);
printf(" jxr: for compressed domain transcode" CRLF);
printf(CRLF);
printf(" -c format Specifies the uncompressed output format" CRLF);
printf(" 0: 24bppBGR" CRLF);
printf(" 1: 1bppBlackWhite" CRLF);
printf(" 2: 8bppGray" CRLF);
printf(" 3: 16bppGray" CRLF);
printf(" 4: 16bppGrayFixedPoint" CRLF);
printf(" 5: 16bppGrayHalf" CRLF);
// printf(" 6: 32bppGray" CRLF);
printf(" 7: 32bppGrayFixedPoint" CRLF);
printf(" 8: 32bppGrayFloat" CRLF);
printf(" 9: 24bppRGB" CRLF);
printf(" 10: 48bppRGB" CRLF);
printf(" 11: 48bppRGBFixedPoint" CRLF);
printf(" 12: 48bppRGBHalf" CRLF);
// printf(" 13: 96bppRGB" CRLF);
printf(" 14: 96bppRGBFixedPoint" CRLF);
printf(" 15: 128bppRGBFloat" CRLF);
printf(" 16: 32bppRGBE" CRLF);
printf(" 17: 32bppCMYK" CRLF);
printf(" 18: 64bppCMYK" CRLF);
/*
printf(" 19 - YUV 420" CRLF);
printf(" 20 - YUV 422" CRLF);
printf(" 21 - YUV 444" CRLF);
*/
printf(" 22: 32bppBGRA" CRLF);
printf(" 23: 64bppRGBA" CRLF);
printf(" 24: 64bppRGBAFixedPoint" CRLF);
printf(" 25: 64bppRGBAHalf" CRLF);
// printf(" 26 - 128bpp RGBA" CRLF);
printf(" 27: 128bppRGBAFixedPoint" CRLF);
printf(" 28: 128bppRGBAFloat" CRLF);
printf(" 29: 16bppBGR555" CRLF);
printf(" 30: 16bppBGR565" CRLF);
printf(" 31: 32bppBGR101010" CRLF);
//printf(" 101..116 - 1..16 channel 8bpp" CRLF);
printf(" 32: 40bppCMYKA" CRLF);
printf(" 33: 80bppCMYKA" CRLF);
printf(" 34: 32bppBGR" CRLF);
/*
printf(" 35: 32bppPBGRA" CRLF);
printf(" 36: 64bppPRGBA" CRLF);
printf(" 37: 128bppPRGBA Float" CRLF);
*/
printf(CRLF);
printf(" -r top left height width Specifies the rectangle for region decode" CRLF);
printf(CRLF);
printf(" -T m Reduced resolution (mipmap) decode" CRLF);
printf(" 0: Full resolution (default)" CRLF);
printf(" 1: 1/2 res (down-sampled from full res)" CRLF);
printf(" 2: 1/4 res (native decode)" CRLF);
printf(" 3: 1/8 res (down-sampled from 1/4 res)" CRLF);
printf(" 4: 1/16 res (native decode)" CRLF);
printf(" >4: 1/(2^m) res (down-sampled from 1/16 res) " CRLF);
printf(CRLF);
printf(" -O orientation 0: No transformation (default)" CRLF);
printf(" 1: Flip vertically" CRLF);
printf(" 2: Flip horizontally" CRLF);
printf(" 3: Flip vertically & horizontally" CRLF);
printf(" 4: Rotate 90 degrees CW" CRLF);
printf(" 5: Rotate 90 degrees CW & flip vertically" CRLF);
printf(" 6: Rotate 90 degrees CW & flip horizontally" CRLF);
printf(" 7: Rotate 90 degrees CW & flip vert & horiz" CRLF);
printf(CRLF);
printf(" -s skip subbands Used for compressed domain transcoding" CRLF);
printf(" 0: All subbands included (default)" CRLF);
printf(" 1: Skip flexbits" CRLF);
printf(" 2: Skip highpass" CRLF);
printf(" 3: Skip highpass & lowpass (DC only)" CRLF);
printf(CRLF);
printf(" -a alpha decode 0: Decode without alpha channel" CRLF);
printf(" 1: Decode only alpha channel" CRLF);
printf(" 2: Decode image & alpha (default)" CRLF);
printf(CRLF);
printf(" -p strength Post processing filter strength" CRLF);
printf(" 0: None (default)" CRLF);
printf(" 1: Light" CRLF);
printf(" 2: Medium" CRLF);
printf(" 3: Strong" CRLF);
printf(" 4: Very strong" CRLF);
printf(CRLF);
printf(" -C Suppress overlapping boundary macro blocks" CRLF);
printf(" (Used for compressed domain tile extraction)" CRLF);
printf(CRLF);
printf(" -t Display timing information" CRLF);
printf(CRLF);
printf(" -v Display verbose decoder information" CRLF);
printf(CRLF);
printf("Eg: %s -i input.jxr -o output.bmp -c 0" CRLF, szExe);
}
void WmpDecAppShowArgs(WMPDECAPPARGS* args)
{
GUID guidPF = args->guidPixFormat;
printf("================================" CRLF);
printf("Input file: %s" CRLF, args->szInputFile);
printf("Output file: %s" CRLF, args->szOutputFile);
printf("Color format: %08X-%04X-%04X-%02X%02X%02X%02X%02X%02X%02X%02X" CRLF,
guidPF.Data1, guidPF.Data2, guidPF.Data3, guidPF.Data4[0], guidPF.Data4[1], guidPF.Data4[2],
guidPF.Data4[3], guidPF.Data4[4], guidPF.Data4[5], guidPF.Data4[6], guidPF.Data4[7]);
printf("Post processing strength: %d" CRLF, args->cPostProcStrength);
printf("Thumbnail: %d" CRLF, (int) args->tThumbnailFactor);
printf("================================" CRLF);
}
//----------------------------------------------------------------
void WmpDecAppInitDefaultArgs(WMPDECAPPARGS* args)
{
memset(args, 0, sizeof(*args));
args->guidPixFormat = GUID_PKPixelFormatDontCare;
// args->bFlagRGB_BGR = FALSE; //default BGR
args->bVerbose = FALSE;
args->tThumbnailFactor = 0;
args->oOrientation = O_NONE;
args->cPostProcStrength = 0;
args->uAlphaMode = 255;
args->sbSubband = SB_ALL;
}
ERR WmpDecAppValidateArgs(WMPDECAPPARGS* args)
{
ERR err = WMP_errSuccess;
Test(NULL != args->szInputFile, WMP_errInvalidParameter);
Test(NULL != args->szOutputFile, WMP_errInvalidParameter);
//Test(GUID_PKPixelFormatDontCare != args->enPixelFormat, WMP_errInvalidParameter);
Cleanup:
return err;
}
ERR WmpDecAppParseArgs(int argc, char* argv[], WMPDECAPPARGS* args)
{
ERR err = WMP_errSuccess;
int c = 0, i = 1;
// char* arg = NULL;
static const PKPixelFormatGUID* pixelFormat[] =
{
&GUID_PKPixelFormat24bppRGB,
&GUID_PKPixelFormatBlackWhite,
&GUID_PKPixelFormat8bppGray,
&GUID_PKPixelFormat16bppGray,
&GUID_PKPixelFormat16bppGrayFixedPoint,
&GUID_PKPixelFormat16bppGrayHalf,
&GUID_PKPixelFormatDontCare, // &GUID_PKPixelFormat32bppGray,
&GUID_PKPixelFormat32bppGrayFixedPoint,
&GUID_PKPixelFormat32bppGrayFloat,
&GUID_PKPixelFormat24bppRGB,
&GUID_PKPixelFormat48bppRGB,
&GUID_PKPixelFormat48bppRGBFixedPoint,
&GUID_PKPixelFormat48bppRGBHalf,
&GUID_PKPixelFormatDontCare, // &GUID_PKPixelFormat96bppRGB,
&GUID_PKPixelFormat96bppRGBFixedPoint,
&GUID_PKPixelFormat128bppRGBFloat,
&GUID_PKPixelFormat32bppRGBE,
&GUID_PKPixelFormat32bppCMYK,
&GUID_PKPixelFormat64bppCMYK,
&GUID_PKPixelFormat12bppYUV420,
&GUID_PKPixelFormat16bppYUV422,
&GUID_PKPixelFormat24bppYUV444,
// &GUID_PKPixelFormat32bppRGBA,
&GUID_PKPixelFormat32bppBGRA,
&GUID_PKPixelFormat64bppRGBA,
&GUID_PKPixelFormat64bppRGBAFixedPoint,
&GUID_PKPixelFormat64bppRGBAHalf,
&GUID_PKPixelFormatDontCare, // &GUID_PKPixelFormat128bppRGBA,
&GUID_PKPixelFormat128bppRGBAFixedPoint,
&GUID_PKPixelFormat128bppRGBAFloat,
&GUID_PKPixelFormat16bppRGB555,
&GUID_PKPixelFormat16bppRGB565,
&GUID_PKPixelFormat32bppRGB101010,
&GUID_PKPixelFormat40bppCMYKAlpha,
&GUID_PKPixelFormat80bppCMYKAlpha,
&GUID_PKPixelFormat32bppBGR,
&GUID_PKPixelFormat32bppPBGRA,
&GUID_PKPixelFormat64bppPRGBA,
&GUID_PKPixelFormat128bppPRGBAFloat,
};
size_t InvalidPF[9] = {6, 13, 19, 20, 21, 26, 35, 36, 37};
int k;
WmpDecAppInitDefaultArgs(args);
while(i < argc && argv[i][0] == '-')
// while (EOF != (c = argit(argc, argv, "i:o:c:ptv", &arg)))
{
/* separate out the no-argument switches */
switch ((c = argv[i][1])) {
case 't':
// NOOP - now we always print timing info
break;
case 'v':
args->bVerbose = !FALSE;
break;
case 'C':
args->bIgnoreOverlap = TRUE;
break;
case 'f':
args->bfBitstreamFormat = FREQUENCY;
break;
default:
i ++;
if (i == argc || argv[i][0] == '-') // need more info
Call(WMP_errInvalidArgument);
switch (c)
{
case 'i':
args->szInputFile= argv[i];
break;
case 'o':
args->szOutputFile = argv[i];
break;
case 'p':
args->cPostProcStrength = (U8)atoi(argv[i]);
break;
case 'c':
{
size_t idxPF = (size_t)atol(argv[i]);
FailIf(sizeof2(pixelFormat) <= idxPF, WMP_errUnsupportedFormat);
for (k = 0; k < 9; k++)
{
if (InvalidPF[k] == idxPF)
{
printf("*** ERROR: Unsupported format in JPEG XR ***\n");
Call(WMP_errInvalidArgument);
}
}
args->guidPixFormat = *pixelFormat[idxPF];
break;
}
/* case 'R':
args->bFlagRGB_BGR = (Bool)atoi(argv[i]);
break;
*/
case 'a':
args->uAlphaMode = (U8)atoi(argv[i]);
break;
case 's':
args->sbSubband = (SUBBAND)atoi(argv[i]);
break;
case 'r': // Region decode
if(i + 3 >= argc || argv[i + 1][0] == '-' || argv[i + 2][0] == '-' || argv[i + 3][0] == '-') // not a valid region
Call(WMP_errInvalidArgument);
args->rTopY = (size_t)atoi(argv[i]);
args->rLeftX = (size_t)atoi(argv[i + 1]);
args->rHeight = (size_t)atoi(argv[i + 2]);
args->rWidth = (size_t)atoi(argv[i + 3]);
i += 3;
break;
case 'T': // thumnail decode
args->tThumbnailFactor = (size_t)atoi(argv[i]);
if (args->tThumbnailFactor == 0) { // skip flexbits
args->tThumbnailFactor = SKIPFLEXBITS;
}
break;
case 'O': // orientation
args->oOrientation = (atoi(argv[i]) < 8 ? atoi(argv[i]) : O_NONE);
break;
default:
Call(WMP_errInvalidArgument);
break;
}
}
i ++;
}
Call(WmpDecAppValidateArgs(args));
Cleanup:
return err;
}
//================================================================
// Encoder factory on file extension
//================================================================
ERR WmpDecAppCreateEncoderFromExt(
PKCodecFactory* pCFactory,
const char* szExt,
PKImageEncode** ppIE)
{
ERR err = WMP_errSuccess;
const PKIID* pIID = NULL;
UNREFERENCED_PARAMETER( pCFactory );
// get encod PKIID
Call(GetTestEncodeIID(szExt, &pIID));
// Create encoder
Call(PKTestFactory_CreateCodec(pIID, ppIE));
Cleanup:
return err;
}
//================================================================
// main function
//================================================================
int
#ifndef __ANSI__
__cdecl
#endif // __ANSI__
main(int argc, char* argv[])
{
ERR err = WMP_errSuccess;
PKFactory* pFactory = NULL;
PKCodecFactory* pCodecFactory = NULL;
PKImageDecode* pDecoder = NULL;
WMPDECAPPARGS args = {0};
char* pExt = NULL;
U32 cFrame = 0;
U32 i = 0;
PKPixelInfo PI;
// static size_t cChannels[CFT_MAX] = {1, 3, 3, 3, 4, 4, -1, 3, 3, -1};
//================================
// parse command line parameters
if (1 == argc)
{
WmpDecAppUsage(argv[0]);
return 0;
}
Call(WmpDecAppParseArgs(argc, argv, &args));
if (args.bVerbose)
{
WmpDecAppShowArgs(&args);
}
//================================
pExt = strrchr(args.szOutputFile, '.');
FailIf(NULL == pExt, WMP_errUnsupportedFormat);
//================================
Call(PKCreateFactory(&pFactory, PK_SDK_VERSION));
Call(PKCreateCodecFactory(&pCodecFactory, WMP_SDK_VERSION));
Call(pCodecFactory->CreateDecoderFromFile(args.szInputFile, &pDecoder));
//==== set default color format
if(IsEqualGUID(&args.guidPixFormat, &GUID_PKPixelFormatDontCare)) {
// take deocder color format and try to look up better one
// (e.g. 32bppBGR -> 24bppBGR etc.)
PKPixelInfo newPI;
newPI.pGUIDPixFmt = PI.pGUIDPixFmt = &pDecoder->guidPixFormat;
Call(PixelFormatLookup(&newPI, LOOKUP_FORWARD));
Call(PixelFormatLookup(&newPI, LOOKUP_BACKWARD_TIF));
args.guidPixFormat = *newPI.pGUIDPixFmt;
}
else
PI.pGUIDPixFmt = &args.guidPixFormat;
// pDecoder->WMP.wmiI.bRGB = args.bFlagRGB_BGR;
// == color transcoding,
if(IsEqualGUID(&args.guidPixFormat, &GUID_PKPixelFormat8bppGray) || IsEqualGUID(&args.guidPixFormat, &GUID_PKPixelFormat16bppGray)){ // ** => Y transcoding
pDecoder->guidPixFormat = args.guidPixFormat;
pDecoder->WMP.wmiI.cfColorFormat = Y_ONLY;
}
else if(IsEqualGUID(&args.guidPixFormat, &GUID_PKPixelFormat24bppRGB) && pDecoder->WMP.wmiI.cfColorFormat == CMYK){ // CMYK = > RGB
pDecoder->WMP.wmiI.cfColorFormat = CF_RGB;
pDecoder->guidPixFormat = args.guidPixFormat;
pDecoder->WMP.wmiI.bRGB = 1; //RGB
}
PixelFormatLookup(&PI, LOOKUP_FORWARD);
if(255 == args.uAlphaMode)//user didn't set
{
if(!!(PI.grBit & PK_pixfmtHasAlpha))
args.uAlphaMode = 2;//default is image & alpha for formats with alpha
else
args.uAlphaMode = 0;//otherwise, 0
}
pDecoder->WMP.wmiSCP.bfBitstreamFormat = args.bfBitstreamFormat;
pDecoder->WMP.wmiSCP.uAlphaMode = args.uAlphaMode;
pDecoder->WMP.wmiSCP.sbSubband = args.sbSubband;
pDecoder->WMP.bIgnoreOverlap = args.bIgnoreOverlap;
pDecoder->WMP.wmiI.cfColorFormat = PI.cfColorFormat;
pDecoder->WMP.wmiI.bdBitDepth = PI.bdBitDepth;
pDecoder->WMP.wmiI.cBitsPerUnit = PI.cbitUnit;
//==== Validate thumbnail decode parameters =====
pDecoder->WMP.wmiI.cThumbnailWidth = pDecoder->WMP.wmiI.cWidth;
pDecoder->WMP.wmiI.cThumbnailHeight = pDecoder->WMP.wmiI.cHeight;
pDecoder->WMP.wmiI.bSkipFlexbits = FALSE;
if(args.tThumbnailFactor > 0 && args.tThumbnailFactor != SKIPFLEXBITS){
size_t tSize = ((size_t)1 << args.tThumbnailFactor);
pDecoder->WMP.wmiI.cThumbnailWidth = (pDecoder->WMP.wmiI.cWidth + tSize - 1) / tSize;
pDecoder->WMP.wmiI.cThumbnailHeight = (pDecoder->WMP.wmiI.cHeight + tSize - 1) / tSize;
if(pDecoder->WMP.wmiI.cfColorFormat == YUV_420 || pDecoder->WMP.wmiI.cfColorFormat == YUV_422){ // unsupported thumbnail format
pDecoder->WMP.wmiI.cfColorFormat = YUV_444;
}
}
else if (args.tThumbnailFactor == SKIPFLEXBITS) {
pDecoder->WMP.wmiI.bSkipFlexbits = TRUE;
}
if(args.rWidth == 0 || args.rHeight == 0){ // no region decode
args.rLeftX = args.rTopY = 0;
args.rWidth = pDecoder->WMP.wmiI.cThumbnailWidth;
args.rHeight = pDecoder->WMP.wmiI.cThumbnailHeight;
}
pDecoder->WMP.wmiI.cROILeftX = args.rLeftX;
pDecoder->WMP.wmiI.cROITopY = args.rTopY;
pDecoder->WMP.wmiI.cROIWidth = args.rWidth;
pDecoder->WMP.wmiI.cROIHeight = args.rHeight;
pDecoder->WMP.wmiI.oOrientation = args.oOrientation;
pDecoder->WMP.wmiI.cPostProcStrength = args.cPostProcStrength;
pDecoder->WMP.wmiSCP.bVerbose = args.bVerbose;
Call(pDecoder->GetFrameCount(pDecoder, &cFrame));
//================================
for (i = 0; ; ++i)
{
struct WMPStream* pEncodeStream = NULL;
PKImageEncode* pEncoder = NULL;
PKFormatConverter* pConverter = NULL;
Float rX = 0.0, rY = 0.0;
PKRect rect = {0, 0, 0, 0};
//================================
Call(pCodecFactory->CreateFormatConverter(&pConverter));
Call(pConverter->Initialize(pConverter, pDecoder, pExt, args.guidPixFormat));
//================================
Call(pFactory->CreateStreamFromFilename(&pEncodeStream, args.szOutputFile, "wb"));
Call(WmpDecAppCreateEncoderFromExt(pCodecFactory, pExt, &pEncoder));
if(pEncoder->bWMP)
Call(pEncoder->Initialize(pEncoder, pEncodeStream, &args.wmiSCP, sizeof(args.wmiSCP)));
else
Call(pEncoder->Initialize(pEncoder, pEncodeStream, NULL, 0));
//================================
Call(pEncoder->SetPixelFormat(pEncoder, args.guidPixFormat));
pEncoder->WMP.wmiSCP.bBlackWhite = pDecoder->WMP.wmiSCP.bBlackWhite;
//Call(pDecoder->GetSize(pDecoder, &rect.Width, &rect.Height));
rect.Width = (I32)(pDecoder->WMP.wmiI.cROIWidth);
rect.Height = (I32)(pDecoder->WMP.wmiI.cROIHeight);
if(args.oOrientation > O_FLIPVH){ // allocate memory for rotated image!
I32 bah = rect.Width;
rect.Width = rect.Height;
rect.Height = bah;
}
Call(pEncoder->SetSize(pEncoder, rect.Width, rect.Height));
Call(pDecoder->GetResolution(pDecoder, &rX, &rY));
if(args.oOrientation > O_FLIPVH)
Call(pEncoder->SetResolution(pEncoder, rY, rX));
else
Call(pEncoder->SetResolution(pEncoder, rX, rY));
if(pEncoder->bWMP && args.tThumbnailFactor > 0){
printf("-T can not be used for compressed domain operation!\n");
return 0;
}
//================================
pEncoder->WriteSource = PKImageEncode_Transcode;
Call(pEncoder->WriteSource(pEncoder, pConverter, &rect));
//================================
// Call(pEncoder->Terminate(pEncoder));
pEncoder->Release(&pEncoder);
// multi-frame support NYI
if (i + 1 == cFrame)
{
break;
}
Call(pDecoder->SelectFrame(pDecoder, i + 1));
}
pDecoder->Release(&pDecoder);
Cleanup:
if (WMP_errUnsupportedFormat == err)
{
printf("*** ERROR: Unsupported format in JPEG XR ***\n");
}
else if (WMP_errSuccess != err)
{
WmpDecAppUsage(argv[0]);
}
return (int)err;
}
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