//
-// Open Service Platform
// Copyright (c) 2012 Samsung Electronics Co., Ltd.
//
// Licensed under the Apache License, Version 2.0 (the License);
* This file contains implementation of the %_ContentManagerUtilImpl class.
*/
+#include <new>
#include <stdlib.h>
+#include <aul/aul.h>
#include <mime_type.h>
-#include <FBaseSysLog.h>
-#include <FBaseByteBuffer.h>
-#include <FIoDirectory.h>
#include <FAppApp.h>
-#include <FSysEnvironment.h>
-#include <FMediaImage.h>
-#include <FMediaImageBuffer.h>
-#include <FMediaImageUtil.h>
+#include <FBaseByteBuffer.h>
+#include <FBaseSysLog.h>
+#include <FBaseUtilStringTokenizer.h>
#include <FCntImageMetadata.h>
#include <FCntAudioMetadata.h>
#include <FCntVideoMetadata.h>
-#include <FCnt_ContentManagerUtilImpl.h>
-#include <FCnt_AudioMetadataImpl.h>
-#include <FCnt_VideoMetadataImpl.h>
-#include <FCnt_ImageMetadataImpl.h>
+#include <FMediaImage.h>
+#include <FMediaImageBuffer.h>
+#include <FMediaImageUtil.h>
+#include <FIoDirectory.h>
+#include <FSysEnvironment.h>
+#include <FApp_AppInfo.h>
+#include <FBase_LocalizedNumParser.h>
#include <FBase_StringConverter.h>
-#include <FIo_FileImpl.h>
#include <FGrp_BitmapImpl.h>
+#include <FIo_FileImpl.h>
#include <FMedia_ImageDecoder.h>
#include <FMedia_ImageImpl.h>
-#include <FApp_AppInfo.h>
+#include "FCnt_AudioMetadataImpl.h"
+#include "FCnt_ContentManagerUtilImpl.h"
+#include "FCnt_ImageMetadataImpl.h"
+#include "FCnt_VideoMetadataImpl.h"
+using namespace std;
+using namespace Tizen::App;
using namespace Tizen::Base;
+using namespace Tizen::Base::Utility;
+using namespace Tizen::Graphics;
using namespace Tizen::Io;
using namespace Tizen::Media;
-using namespace Tizen::Graphics;
-using namespace Tizen::App;
using namespace Tizen::System;
-using namespace std;
namespace Tizen { namespace Content
{
+
// Types of content, format supported and default values
-static const int IMAGE_BUFF_LENGTH = 100;
-static const int THUMBNAIL_IMAGE_WIDTH = 80;
-static const int THUMBNAIL_IMAGE_HEIGHT = 60;
-static const int MINUTES = 60;
-static const int SECONDS = 3600;
+static const int _IMAGE_BUFF_LENGTH = 100;
+static const int _THUMBNAIL_IMAGE_WIDTH = 80;
+static const int _THUMBNAIL_IMAGE_HEIGHT = 60;
+static const int _MINUTES = 60;
+static const int _SECONDS = 3600;
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-//
ImageMetadata*
_ContentManagerUtilImpl::GetImageMetaN(const String& contentPath, bool internal)
{
if (!internal)
{
SysTryReturn(NID_CNT, VerifyFilePathCompatibility(contentPath), null, E_INVALID_ARG,
- "[E_INVALID_ARG] %ls is not compatible.", contentPath.GetPointer());
+ "[E_INVALID_ARG] The path is not compatible.");
}
SysTryReturn(NID_CNT, _FileImpl::IsFileExist(contentPath), null, E_INVALID_ARG,
- "[E_INVALID_ARG] The file corresponding to contentPath could not be found.(%ls)", contentPath.GetPointer());
+ "[E_INVALID_ARG] The file corresponding to contentPath could not be found.");
// create object here as it needs to be passed to client in any case to make sure Get APIs do not crash
unique_ptr<ImageMetadata> pImageMetadata(new (nothrow) ImageMetadata());
ExifByteOrder byteOrder;
ExifEntry** pEntries = null;
const char* pData = null;
- char buf[IMAGE_BUFF_LENGTH] = {0, };
- char mmBuff[IMAGE_BUFF_LENGTH] = {0, }; // to store minutes value of GPS data
- char ssBuff[IMAGE_BUFF_LENGTH] = {0, }; // to store seconds value of GPS data
+ char buf[_IMAGE_BUFF_LENGTH] = {0, };
ExifContent* pExifcont[EXIF_IFD_COUNT];
- int index = 0;
char latitudeRef = 0; // to store latitude reference (quadrasphere designation 'N', 'S', 'W' or 'E')
char longitudeRef = 0; // to store longitude reference (quadrasphere designation 'N', 'S', 'W' or 'E')
unsigned int entryCount = 0;
}
else if (tag == EXIF_TAG_GPS_LATITUDE)
{
- ParseBuffer(buf, index); // to extract the minutes value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- mmBuff[l] = buf[l + index + 1]; //add 1 to skip the ','
- }
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(mmBuff, index); // to extract the seconds value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- ssBuff[l] = mmBuff[l + index + 1]; //add 1 to skip the ','
- }
+ String tempLatitude(buf);
+ String delim(L",");
- char *pLocal;
- std::unique_ptr<char> pCurrentLocal(null);
- pLocal = setlocale (LC_ALL, 0); // Get the name of the current locale.
- if( pLocal == null )
- {
- SysLog(NID_CNT, "setlocale failed. (get current locale)");
- continue;
- }
- pCurrentLocal.reset(strdup (pLocal));
+ StringTokenizer strTok(tempLatitude, delim);
+ String token[3] = {L"", };
- pLocal = setlocale(LC_ALL, "C");
- if( pLocal == null )
+ int count = 0;
+ while (strTok.HasMoreTokens() && count < 3)
{
- SysLog(NID_CNT, "setlocale failed. (set POSIX C locale)");
- continue;
+ strTok.GetNextToken(token[count++]);
}
- double ddVal = atof(buf); // degree value
- double mmVal = atof(mmBuff); // minutesvalue
- double ssVal = atof(ssBuff); // seconds value
+ double ddVal = _LocalizedNumParser::ToDouble(token[0], "C"); // degree value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, E_INVALID_ARG, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
- pLocal = setlocale (LC_ALL, pCurrentLocal.get()); // restore the locale.
- if( pLocal == null )
- {
- SysLog(NID_CNT, "setlocale failed. (set current locale)");
- continue;
- }
+ double mmVal = _LocalizedNumParser::ToDouble(token[1], "C"); // minutes value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, E_INVALID_ARG, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double ssVal = _LocalizedNumParser::ToDouble(token[2], "C"); // seconds value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, E_INVALID_ARG, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
- pMetadata->latitude = ddVal + (mmVal/MINUTES) + (ssVal/SECONDS);
+ pMetadata->latitude = ddVal + (mmVal/_MINUTES) + (ssVal/_SECONDS);
// if latitude designation is Southern (SOUTH) then latitude degree will be negative DD
if (latitudeRef == 'S')
}
else if (tag == EXIF_TAG_GPS_LONGITUDE)
{
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(buf, index); // to extract the minutes value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- mmBuff[l] = buf[l + index + 1]; //add 1 to skip the ','
- }
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(mmBuff, index); // to extract the seconds value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- ssBuff[l] = mmBuff[l + index + 1]; //add 1 to skip the ','
- }
+ String tempLongitude(buf);
+ String delim(L",");
- char *pLocal;
- std::unique_ptr<char> pCurrentLocal(null);
- pLocal = setlocale (LC_ALL, 0); // Get the name of the current locale.
- if( pLocal == null )
- {
- SysLog(NID_CNT, "setlocale failed. (get current locale)");
- continue;
- }
- pCurrentLocal.reset(strdup (pLocal));
+ StringTokenizer strTok(tempLongitude, delim);
+ String token[3] = {L"", };
- pLocal = setlocale(LC_ALL, "C");
- if( pLocal == null )
+ int count = 0;
+ while (strTok.HasMoreTokens() && count < 3)
{
- SysLog(NID_CNT, "setlocale failed. (set POSIX C locale)");
- continue;
+ strTok.GetNextToken(token[count++]);
}
- double ddVal = atof(buf); // degree value
- double mmVal = atof(mmBuff); // minutesvalue
- double ssVal = atof(ssBuff); // seconds value
+ double ddVal = _LocalizedNumParser::ToDouble(token[0], "C"); // degree value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
- pLocal = setlocale (LC_ALL, pCurrentLocal.get()); // restore the locale.
- if( pLocal == null )
- {
- SysLog(NID_CNT, "setlocale failed. (set current locale)");
- continue;
- }
+ double mmVal = _LocalizedNumParser::ToDouble(token[1], "C"); // minutes value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double ssVal = _LocalizedNumParser::ToDouble(token[2], "C"); // seconds value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
- pMetadata->longitude = ddVal + (mmVal/MINUTES) + (ssVal/SECONDS);
+ pMetadata->longitude = ddVal + (mmVal/_MINUTES) + (ssVal/_SECONDS);
// if longitude designation is Western (WEST) then longitude degree will be negative DD
if (longitudeRef == 'W')
return pImageMetadata.release();
}
-void
-_ContentManagerUtilImpl::ParseBuffer(char* pBuffer, int& count)
-{
- if ((*pBuffer != ',') && (*pBuffer != '\0')) // parse the buffer till ',' or '\0' and return the index
- {
- ParseBuffer(++pBuffer, ++count);
- }
-}
-
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-//
AudioMetadata*
_ContentManagerUtilImpl::GetAudioMetaN(const String& contentPath)
{
ClearLastResult();
SysTryReturn(NID_CNT, VerifyFilePathCompatibility(contentPath), null, E_INVALID_ARG,
- "[E_INVALID_ARG] %ls is not compatible.", contentPath.GetPointer());
+ "[E_INVALID_ARG] The path is not compatible.");
SysTryReturn(NID_CNT, _FileImpl::IsFileExist(contentPath), null, E_INVALID_ARG,
"[E_INVALID_ARG] The file corresponding to contentPath could not be found.");
pMetadata->contentPath = contentPath;
// Create the metadata extractor handle
- unique_ptr<metadata_extractor_h, ExtractorDeleter> pExtractor(new (nothrow) metadata_extractor_h);
- SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory is insufficient.");
+ metadata_extractor_h tempExtractor = NULL;
- int retVal = metadata_extractor_create(pExtractor.get());
+ int retVal = metadata_extractor_create(&tempExtractor);
result r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_create failed.", GetErrorMessage(r));
+ unique_ptr<metadata_extractor_s, ExtractorDeleter> pExtractor(tempExtractor);
+ SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory is insufficient.");
+
// Set file path of content to extract the metadata
unique_ptr<char[]> pFileName(_StringConverter::CopyToCharArrayN(contentPath));
SysTryReturn(NID_CNT, pFileName != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
- retVal = metadata_extractor_set_path(*(pExtractor.get()), pFileName.get());
+ retVal = metadata_extractor_set_path(pExtractor.get(), pFileName.get());
r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_set_path failed.", GetErrorMessage(r));
// Get all relavent audio metadata by passing relavent attirbutes
- char* __pAudioMeta = null;
+ char* pTempAudioMeta = null;
unique_ptr<char, CharDeleter> pAudioMeta(null);
// bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_BITRATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_BITRATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->bitrate = atoi(pAudioMeta.get());
}
else
}
// channelcount
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_CHANNELS, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_CHANNELS, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->channelCount = atoi(pAudioMeta.get());
}
else
}
// duration
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DURATION, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DURATION, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->duration = atoi(pAudioMeta.get());
}
else
}
// frequency
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_SAMPLERATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_SAMPLERATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->frequency = atoi(pAudioMeta.get());
}
else
}
// albumname
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_ALBUM, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_ALBUM, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pAlbumName = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pAlbumName != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// artist
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_ARTIST, &__pAudioMeta);
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_ARTIST, &pTempAudioMeta);
if (pAudioMeta.get() != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pArtist = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pArtist != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// copyright
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COPYRIGHT, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COPYRIGHT, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pCopyright = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pCopyright != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// genre
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_GENRE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_GENRE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pGenre = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pGenre != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// title
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_TITLE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_TITLE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pTitle = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pTitle != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// comment
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COMMENT, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COMMENT, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pComment = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComment != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// description
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DESCRIPTION, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DESCRIPTION, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pDescription = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pDescription != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// recording date
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_RECDATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_RECDATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pRecordingDate = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pRecordingDate != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// author
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUTHOR, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUTHOR, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pComposer = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComposer != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// track info
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_TRACK_NUM, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_TRACK_NUM, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pTrackInfo = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pTrackInfo != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// date
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->year = atoi(pAudioMeta.get());
}
else
// artwork
int size = 0;
- void* __pArtwork = null;
+ void* pTempArtwork = null;
unique_ptr<void, VoidDeleter> pArtwork(null);
// Get the artwork image in media file
- retVal = metadata_extractor_get_artwork(*(pExtractor.get()), &__pArtwork, &size, &__pAudioMeta);
+ retVal = metadata_extractor_get_artwork(pExtractor.get(), &pTempArtwork, &size, &pTempAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
//Check if the albumart present and pass it to client if it is successfully processed, otherwise ignore any errors
//while processing albumart. This is to pass the other metadata tags to application.
- if (__pArtwork != null)
+ if (pTempArtwork != null)
{
- pArtwork.reset(__pArtwork);
+ pArtwork.reset(pTempArtwork);
Image img;
ImageFormat format = IMG_FORMAT_NONE;
{
format = img.GetImageFormat(buffer);
pMetadata->pThumbnail = img.DecodeN(buffer, format, BITMAP_PIXEL_FORMAT_ARGB8888,
- THUMBNAIL_IMAGE_WIDTH, THUMBNAIL_IMAGE_HEIGHT);
+ _THUMBNAIL_IMAGE_WIDTH, _THUMBNAIL_IMAGE_HEIGHT);
if (pMetadata->pThumbnail == null)
{
// Because Thumbnail is one of the metadata, it is not exception in this function.
return pAudioMetadata.release();
}
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-//
VideoMetadata*
_ContentManagerUtilImpl::GetVideoMetaN(const String& contentPath)
{
ClearLastResult();
SysTryReturn(NID_CNT, VerifyFilePathCompatibility(contentPath), null, E_INVALID_ARG,
- "[E_INVALID_ARG] %ls is not compatible.", contentPath.GetPointer());
+ "[E_INVALID_ARG] The path is not compatible.");
SysTryReturn(NID_CNT, _FileImpl::IsFileExist(contentPath), null, E_INVALID_ARG,
"[E_INVALID_ARG] The file corresponding to contentPath could not be found.");
pMetadata->contentPath = contentPath;
// Create the metadata extractor handle
- unique_ptr<metadata_extractor_h, ExtractorDeleter> pExtractor(new (nothrow) metadata_extractor_h);
- SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory insufficient.");
+ metadata_extractor_h tempExtractor = NULL;
- int retVal = metadata_extractor_create(pExtractor.get());
+ int retVal = metadata_extractor_create(&tempExtractor);
result r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_create failed.", GetErrorMessage(r));
+ unique_ptr<metadata_extractor_s, ExtractorDeleter> pExtractor(tempExtractor);
+ SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory insufficient.");
+
// Set file path of content to extract the metadata
unique_ptr<char[]> pFileName(_StringConverter::CopyToCharArrayN(contentPath));
SysTryReturn(NID_CNT, pFileName != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
- retVal = metadata_extractor_set_path(*(pExtractor.get()), pFileName.get());
+ retVal = metadata_extractor_set_path(pExtractor.get(), pFileName.get());
r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_set_path failed.", GetErrorMessage(r));
// Get all relavent video metadata by passing relavent attirbutes
- char* __pVideoMeta = null;
+ char* pTempVideoMeta = null;
unique_ptr<char, CharDeleter> pVideoMeta(null);
// width
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_WIDTH, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_WIDTH, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->width = atoi(pVideoMeta.get());
}
else
}
// height
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_HEIGHT, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_HEIGHT, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->height = atoi(pVideoMeta.get());
}
else
}
// video bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_BITRATE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_BITRATE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->videoBitrate = atoi(pVideoMeta.get());
}
else
}
// audio bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_BITRATE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_BITRATE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->audioBitrate = atoi(pVideoMeta.get());
}
else
}
// framerate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_FPS, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_FPS, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->framerate = atoi(pVideoMeta.get());
}
else
}
// duration
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DURATION, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DURATION, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->duration = atoi(pVideoMeta.get());
}
else
}
// genre
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_GENRE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_GENRE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pGenre = new (nothrow) String(pVideoMeta.get()); //allocate memory
SysTryReturn(NID_CNT, pMetadata->pGenre != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// comment
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COMMENT, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COMMENT, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pComment = new (nothrow) String(pVideoMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComment != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// description
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DESCRIPTION, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DESCRIPTION, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pDescription = new (nothrow) String(pVideoMeta.get());
SysTryReturn(NID_CNT, pMetadata->pDescription != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
// artwork
int size = 0;
- void* __pArtwork = null;
+ void* pTempArtwork = null;
unique_ptr<void, VoidDeleter> pArtwork(null);
// Get the artwork image in media file
- retVal = metadata_extractor_get_artwork(*(pExtractor.get()), &__pArtwork, &size, &__pVideoMeta);
- if (__pArtwork != null)
+ retVal = metadata_extractor_get_artwork(pExtractor.get(), &pTempArtwork, &size, &pTempVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
+ if (pTempArtwork != null)
{
- pArtwork.reset(__pArtwork);
+ pArtwork.reset(pTempArtwork);
Image img;
ImageFormat format = IMG_FORMAT_NONE;
ExifByteOrder byteOrder;
ExifEntry** pEntries = null;
const char* pData = null;
- char buf[IMAGE_BUFF_LENGTH] = {0, };
- char mmBuff[IMAGE_BUFF_LENGTH] = {0, }; // to store minutes value of GPS data
- char ssBuff[IMAGE_BUFF_LENGTH] = {0, }; // to store seconds value of GPS data
+ char buf[_IMAGE_BUFF_LENGTH] = {0, };
ExifContent* pExifcont[EXIF_IFD_COUNT];
- int index = 0;
char latitudeRef = 0; // to store latitude reference (quadrasphere designation 'N', 'S', 'W' or 'E')
char longitudeRef = 0; // to store longitude reference (quadrasphere designation 'N', 'S', 'W' or 'E')
unsigned int entryCount = 0;
}
else if (tag == EXIF_TAG_GPS_LATITUDE)
{
- ParseBuffer(buf, index); // to extract the minutes value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- mmBuff[l] = buf[l + index + 1]; //add 1 to skip the ','
- }
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(mmBuff, index); // to extract the seconds value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
+ String tempLatitude(buf);
+ String delim(L",");
+
+ StringTokenizer strTok(tempLatitude, delim);
+ String token[3] = {L"", };
+
+ int count = 0;
+ while (strTok.HasMoreTokens() && count < 3)
{
- ssBuff[l] = mmBuff[l + index + 1]; //add 1 to skip the ','
+ strTok.GetNextToken(token[count++]);
}
- double ddVal = atof(buf); // degree value
- double mmVal = atof(mmBuff); // minutesvalue
- double ssVal = atof(ssBuff); // seconds value
- pMetadata->latitude = ddVal + (mmVal/MINUTES) + (ssVal/SECONDS);
+
+ double ddVal = _LocalizedNumParser::ToDouble(token[0], "C"); // degree value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double mmVal = _LocalizedNumParser::ToDouble(token[1], "C"); // minutes value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double ssVal = _LocalizedNumParser::ToDouble(token[2], "C"); // seconds value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ pMetadata->latitude = ddVal + (mmVal/_MINUTES) + (ssVal/_SECONDS);
// if latitude designation is Southern (SOUTH) then latitude degree will be negative DD
if (latitudeRef == 'S')
}
else if (tag == EXIF_TAG_GPS_LONGITUDE)
{
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(buf, index); // to extract the minutes value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
- {
- mmBuff[l] = buf[l + index + 1]; //add 1 to skip the ','
- }
- index = 0; //re-assign index value as this is new buffer
- ParseBuffer(mmBuff, index); // to extract the seconds value of GPS data, if present
- for (int l = 0; l < IMAGE_BUFF_LENGTH-1; l++)
+ String tempLongitude(buf);
+ String delim(L",");
+
+ StringTokenizer strTok(tempLongitude, delim);
+ String token[3] = {L"", };
+
+ int count = 0;
+ while (strTok.HasMoreTokens() && count < 3)
{
- ssBuff[l] = mmBuff[l + index + 1]; //add 1 to skip the ','
+ strTok.GetNextToken(token[count++]);
}
- double ddVal = atof(buf); // degree value
- double mmVal = atof(mmBuff); // minutesvalue
- double ssVal = atof(ssBuff); // seconds value
- pMetadata->longitude = ddVal + (mmVal/MINUTES) + (ssVal/SECONDS);
+
+ double ddVal = _LocalizedNumParser::ToDouble(token[0], "C"); // degree value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double mmVal = _LocalizedNumParser::ToDouble(token[1], "C"); // minutes value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ double ssVal = _LocalizedNumParser::ToDouble(token[2], "C"); // seconds value
+ r = GetLastResult();
+ SysTryReturn(NID_CNT, !IsFailed(r), null, r, "[E_INVALID_ARG] Failed to perform ToDouble operation.");
+
+ pMetadata->longitude = ddVal + (mmVal/_MINUTES) + (ssVal/_SECONDS);
// if longitude designation is Western (WEST) then longitude degree will be negative DD
if (longitudeRef == 'W')
return pImageMetadata.release();
}
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-//
AudioMetadata*
_ContentManagerUtilImpl::GetAudioMetaN(const ByteBuffer& byteBuffer)
{
"[E_INVALID_ARG] pMetadata is null.");
// Create the metadata extractor handle
- unique_ptr<metadata_extractor_h, ExtractorDeleter> pExtractor(new (nothrow) metadata_extractor_h);
- SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory is insufficient.");
+ metadata_extractor_h tempExtractor = NULL;
- int retVal = metadata_extractor_create(pExtractor.get());
+ int retVal = metadata_extractor_create(&tempExtractor);
result r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_create failed.", GetErrorMessage(r));
+ unique_ptr<metadata_extractor_s, ExtractorDeleter> pExtractor(tempExtractor);
+ SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory is insufficient.");
+
const byte* pByte = byteBuffer.GetPointer();
- retVal = metadata_extractor_set_buffer(*(pExtractor.get()), pByte, bufferLen);
+ retVal = metadata_extractor_set_buffer(pExtractor.get(), pByte, bufferLen);
r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_set_path failed.", GetErrorMessage(r));
// Get all relavent audio metadata by passing relavent attirbutes
- char* __pAudioMeta = null;
+ char* pTempAudioMeta = null;
unique_ptr<char, CharDeleter> pAudioMeta(null);
// bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_BITRATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_BITRATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->bitrate = atoi(pAudioMeta.get());
}
else
}
// channelcount
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_CHANNELS, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_CHANNELS, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->channelCount = atoi(pAudioMeta.get());
}
else
}
// duration
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DURATION, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DURATION, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->duration = atoi(pAudioMeta.get());
}
else
}
// frequency
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_SAMPLERATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_SAMPLERATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->frequency = atoi(pAudioMeta.get());
}
else
}
// albumname
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_ALBUM, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_ALBUM, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pAlbumName = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pAlbumName != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// artist
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_ARTIST, &__pAudioMeta);
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_ARTIST, &pTempAudioMeta);
if (pAudioMeta.get() != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pArtist = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pArtist != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// copyright
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COPYRIGHT, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COPYRIGHT, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pCopyright = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pCopyright != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// genre
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_GENRE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_GENRE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pGenre = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pGenre != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// title
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_TITLE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_TITLE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pTitle = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pTitle != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// comment
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COMMENT, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COMMENT, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pComment = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComment != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// description
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DESCRIPTION, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DESCRIPTION, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pDescription = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pDescription != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// recording date
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_RECDATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_RECDATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pRecordingDate = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pRecordingDate != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// author
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUTHOR, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUTHOR, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pComposer = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComposer != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// track info
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_TRACK_NUM, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_TRACK_NUM, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->pTrackInfo = new (nothrow) String(pAudioMeta.get());
SysTryReturn(NID_CNT, pMetadata->pTrackInfo != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// date
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DATE, &__pAudioMeta);
- if (__pAudioMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DATE, &pTempAudioMeta);
+ if (pTempAudioMeta != null)
{
- pAudioMeta.reset(__pAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
pMetadata->year = atoi(pAudioMeta.get());
}
else
// artwork
int size = 0;
- void* __pArtwork = null;
+ void* pTempArtwork = null;
unique_ptr<void, VoidDeleter> pArtwork(null);
// Get the artwork image in media file
- retVal = metadata_extractor_get_artwork(*(pExtractor.get()), &__pArtwork, &size, &__pAudioMeta);
+ retVal = metadata_extractor_get_artwork(pExtractor.get(), &pTempArtwork, &size, &pTempAudioMeta);
+ pAudioMeta.reset(pTempAudioMeta);
//Check if the albumart present and pass it to client if it is successfully processed, otherwise ignore any errors
//while processing albumart. This is to pass the other metadata tags to application.
- if (__pArtwork != null)
+ if (pTempArtwork != null)
{
- pArtwork.reset(__pArtwork);
+ pArtwork.reset(pTempArtwork);
Image img;
ImageFormat format = IMG_FORMAT_NONE;
{
format = img.GetImageFormat(buffer);
pMetadata->pThumbnail = img.DecodeN(buffer, format, BITMAP_PIXEL_FORMAT_ARGB8888,
- THUMBNAIL_IMAGE_WIDTH, THUMBNAIL_IMAGE_HEIGHT);
+ _THUMBNAIL_IMAGE_WIDTH, _THUMBNAIL_IMAGE_HEIGHT);
if (pMetadata->pThumbnail == null)
{
// Because Thumbnail is one of the metadata, it is not exception in this function.
return pAudioMetadata.release();
}
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-//
VideoMetadata*
_ContentManagerUtilImpl::GetVideoMetaN(const ByteBuffer& byteBuffer)
{
"[E_INVALID_ARG] pMetadata is null.");
// Create the metadata extractor handle
- unique_ptr<metadata_extractor_h, ExtractorDeleter> pExtractor(new (nothrow) metadata_extractor_h);
- SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory insufficient.");
+ metadata_extractor_h tempExtractor = NULL;
- int retVal = metadata_extractor_create(pExtractor.get());
+ int retVal = metadata_extractor_create(&tempExtractor);
result r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_create failed.", GetErrorMessage(r));
+ unique_ptr<metadata_extractor_s, ExtractorDeleter> pExtractor(tempExtractor);
+ SysTryReturn(NID_CNT, pExtractor != null, null, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory insufficient.");
+
const byte* pByte = byteBuffer.GetPointer();
- retVal = metadata_extractor_set_buffer(*(pExtractor.get()), pByte, bufferLen);
+ retVal = metadata_extractor_set_buffer(pExtractor.get(), pByte, bufferLen);
r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, null, r,
"[%s] metadata_extractor_set_path failed.", GetErrorMessage(r));
// Get all relavent video metadata by passing relavent attirbutes
- char* __pVideoMeta = null;
+ char* pTempVideoMeta = null;
unique_ptr<char, CharDeleter> pVideoMeta(null);
// width
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_WIDTH, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_WIDTH, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->width = atoi(pVideoMeta.get());
}
else
}
// height
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_HEIGHT, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_HEIGHT, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->height = atoi(pVideoMeta.get());
}
else
}
// video bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_BITRATE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_BITRATE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->videoBitrate = atoi(pVideoMeta.get());
}
else
}
// audio bitrate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_AUDIO_BITRATE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_AUDIO_BITRATE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->audioBitrate = atoi(pVideoMeta.get());
}
else
}
// framerate
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_VIDEO_FPS, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_VIDEO_FPS, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->framerate = atoi(pVideoMeta.get());
}
else
}
// duration
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DURATION, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DURATION, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->duration = atoi(pVideoMeta.get());
}
else
}
// genre
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_GENRE, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_GENRE, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pGenre = new (nothrow) String(pVideoMeta.get()); //allocate memory
SysTryReturn(NID_CNT, pMetadata->pGenre != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// comment
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_COMMENT, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_COMMENT, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pComment = new (nothrow) String(pVideoMeta.get());
SysTryReturn(NID_CNT, pMetadata->pComment != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
}
// description
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_DESCRIPTION, &__pVideoMeta);
- if (__pVideoMeta != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_DESCRIPTION, &pTempVideoMeta);
+ if (pTempVideoMeta != null)
{
- pVideoMeta.reset(__pVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
pMetadata->pDescription = new (nothrow) String(pVideoMeta.get());
SysTryReturn(NID_CNT, pMetadata->pDescription != null, null, E_OUT_OF_MEMORY,
"[E_OUT_OF_MEMORY] The memory is insufficient.");
// artwork
int size = 0;
- void* __pArtwork = null;
+ void* pTempArtwork = null;
unique_ptr<void, VoidDeleter> pArtwork(null);
// Get the artwork image in media file
- retVal = metadata_extractor_get_artwork(*(pExtractor.get()), &__pArtwork, &size, &__pVideoMeta);
- if (__pArtwork != null)
+ retVal = metadata_extractor_get_artwork(pExtractor.get(), &pTempArtwork, &size, &pTempVideoMeta);
+ pVideoMeta.reset(pTempVideoMeta);
+ if (pTempArtwork != null)
{
- pArtwork.reset(__pArtwork);
+ pArtwork.reset(pTempArtwork);
Image img;
ImageFormat format = IMG_FORMAT_NONE;
return pVideoMetadata.release();
}
-//
-// E_SUCCESS
-// E_INVALID_ARG
-// E_OUT_OF_MEMORY
-// E_FILE_NOT_FOUND
-// E_UNSUPPORTED_FORMAT
-//
ContentType
_ContentManagerUtilImpl::CheckContentType(const String& contentPath, bool internal)
{
ClearLastResult();
ContentType contentType = CONTENT_TYPE_UNKNOWN;
+ String mimeType(L"");
if (!internal)
{
SysTryReturn(NID_CNT, VerifyFilePathCompatibility(contentPath), contentType, E_INVALID_ARG,
- "[E_INVALID_ARG] %ls is not compatible.", contentPath.GetPointer());
+ "[E_INVALID_ARG] The path is not compatible.");
}
SysTryReturn(NID_CNT, contentPath.GetLength() != 0, contentType, E_INVALID_ARG,
"[E_INVALID_ARG] The length of contentPath is 0.");
String fileExt = _FileImpl::GetFileExtension(contentPath);
result r = GetLastResult();
- SysTryReturn(NID_CNT, !IsFailed(r), contentType, r, "[%s] GetFileExtension failed.", GetErrorMessage(r));
- unique_ptr<char[]> pFormat(_StringConverter::CopyToCharArrayN(fileExt));
- SysTryReturn(NID_CNT, pFormat != null, contentType, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory is insufficient.");
+ if (!IsFailed(r))
+ {
+ unique_ptr<char[]> pFormat(_StringConverter::CopyToCharArrayN(fileExt));
+ SysTryReturn(NID_CNT, pFormat != null, contentType, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory is insufficient.");
+
+ char* pTempMimeType = null;
+ int retVal = mime_type_get_mime_type(pFormat.get(), &pTempMimeType);
+ SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, contentType, E_INVALID_ARG,
+ "[E_INVALID_ARG] mime_type_get_mime_type failed.");
+ SysTryReturn(NID_CNT, pTempMimeType != null, contentType, E_INVALID_ARG,
+ "[E_INVALID_ARG] mime_type_get_mime_type failed.");
+
+ unique_ptr<char, CharDeleter> pMimeType;
+ pMimeType.reset(pTempMimeType);
+
+ SysLog(NID_CNT, "The MIME type for %ls is %s", fileExt.GetPointer(), pTempMimeType);
+
+ r = mimeType.Append(pMimeType.get());
+ SysTryReturn(NID_CNT, !IsFailed(r), contentType, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] Failed to perform Append operation.");
+ }
+ else
+ {
+ ClearLastResult();
- char* __pMimeType = null;
- int retVal = mime_type_get_mime_type(pFormat.get(), &__pMimeType);
- SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, contentType, E_INVALID_ARG,
- "[E_INVALID_ARG] mime_type_get_mime_type failed.");
- SysTryReturn(NID_CNT, __pMimeType != null, contentType, E_INVALID_ARG,
- "[E_INVALID_ARG] mime_type_get_mime_type failed.");
+ SysLog(NID_CNT, "[%s] Failed to perform GetFileExtension operation.", GetErrorMessage(r));
- unique_ptr<char, CharDeleter> pMimeType;
- pMimeType.reset(__pMimeType);
+ unique_ptr<char[]> pTempPath(_StringConverter::CopyToCharArrayN(contentPath));
+ SysTryReturn(NID_CNT, pTempPath != null, contentType, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory is insufficient.");
- SysLog(NID_CNT, "The MIME type for %ls is %s", fileExt.GetPointer(), __pMimeType);
+ char tempType[255] = {0, };
+ int ret = aul_get_mime_from_file(pTempPath.get(), tempType, sizeof(tempType));
+ SysTryReturn(NID_CNT, ret == AUL_R_OK, contentType, E_INVALID_ARG,
+ "[E_INVALID_ARG] Failed to perform aul_get_mime_from_file operation.");
- String mimeType(pMimeType.get());
+ r = mimeType.Append(tempType);
+ SysTryReturn(NID_CNT, !IsFailed(r), contentType, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] Failed to perform Append operation.");
+ }
if (mimeType.Contains(L"image"))
{
}
else if (mimeType.Contains(L"video"))
{
- String format;
- fileExt.ToLowerCase(format);
-
- if (format == L"3gp" || format == L"mp4")
+ if (mimeType == L"video/3gpp" || mimeType == L"video/mp4")
{
return CheckStream(contentPath);
}
ClearLastResult();
ContentType contentType = CONTENT_TYPE_UNKNOWN;
+ metadata_extractor_h tempExtractor = NULL;
- unique_ptr<metadata_extractor_h, ExtractorDeleter> pExtractor(new (nothrow) metadata_extractor_h);
- SysTryReturn(NID_CNT, pExtractor != null, contentType, E_OUT_OF_MEMORY,
- "[E_OUT_OF_MEMORY] The memory is insufficient.");
-
- int retVal = metadata_extractor_create(pExtractor.get());
+ int retVal = metadata_extractor_create(&tempExtractor);
result r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE, contentType, r,
"[%s] metadata_extractor_create failed.", GetErrorMessage(r));
+ unique_ptr<metadata_extractor_s, ExtractorDeleter> pExtractor(tempExtractor);
+ SysTryReturn(NID_CNT, pExtractor != null, contentType, E_OUT_OF_MEMORY,
+ "[E_OUT_OF_MEMORY] The memory is insufficient.");
+
//Set the file path to extract metadata.
unique_ptr<char[]> pContentPath(_StringConverter::CopyToCharArrayN(contentPath));
SysTryReturn(NID_CNT, pContentPath != null, contentType, E_INVALID_ARG,
"[E_INVALID_ARG] The memory is insufficient.");
- retVal = metadata_extractor_set_path(*(pExtractor.get()), pContentPath.get());
+ retVal = metadata_extractor_set_path(pExtractor.get(), pContentPath.get());
r = ErrorMapToRetVal(retVal);
SysTryReturn(NID_CNT, retVal == METADATA_EXTRACTOR_ERROR_NONE && pExtractor, contentType, r,
"[%s] metadata_extractor_set_path failed.", GetErrorMessage(r));
//Check whether it is an audio or video file.
- char* __pAudio = null;
+ char* pTempAudio = null;
unique_ptr<char, CharDeleter> pAudio(null);
- char* __pVideo = null;
+ char* pTempVideo = null;
unique_ptr<char, CharDeleter> pVideo(null);
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_HAS_AUDIO, &__pAudio);
- if (__pAudio != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_HAS_AUDIO, &pTempAudio);
+ if (pTempAudio != null)
{
- pAudio.reset(__pAudio);
+ pAudio.reset(pTempAudio);
}
else
{
"[%s] metadata_extractor_get_metadata failed.", GetErrorMessage(r));
}
- retVal = metadata_extractor_get_metadata(*(pExtractor.get()), METADATA_HAS_VIDEO, &__pVideo);
- if (__pVideo != null)
+ retVal = metadata_extractor_get_metadata(pExtractor.get(), METADATA_HAS_VIDEO, &pTempVideo);
+ if (pTempVideo != null)
{
- pVideo.reset(__pVideo);
+ pVideo.reset(pTempVideo);
}
else
{
"[%s] metadata_extractor_get_metadata failed.", GetErrorMessage(r));
}
- if (*(pAudio.get()) > 0 && *(pVideo.get()) == 0)
+ if (*(pAudio.get()) > '0' && *(pVideo.get()) == '0')
{
SysLog(NID_CNT, "The result of CheckStream() is audio");
return CONTENT_TYPE_AUDIO;
}
- else if (*(pAudio.get()) == 0 && *(pVideo.get()) > 0)
+ else if (*(pAudio.get()) == '0' && *(pVideo.get()) > '0')
{
SysLog(NID_CNT, "The result of CheckStream() is video");
return CONTENT_TYPE_VIDEO;
}
- else if (*(pAudio.get()) > 0 && *(pVideo.get()) > 0)
+ else if (*(pAudio.get()) > '0' && *(pVideo.get()) > '0')
{
SysLog(NID_CNT, "The result of CheckStream() is video");
return CONTENT_TYPE_VIDEO;
return r;
}
-/**
- * deprecation
- */
result
_ContentManagerUtilImpl::CopyToMediaDirectory(const String& srcContentPath, const String& destContentPath)
{
return r;
}
-/**
- * deprecation
- */
result
_ContentManagerUtilImpl::MoveToMediaDirectory(const String& srcContentPath, const String& destContentPath)
{
return r;
}
+
}}