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|
// *****************************************************************************
/*
* Copyright (C) 2006-2010 Olivier Tilloy <olivier@tilloy.net>
*
* This file is part of the pyexiv2 distribution.
*
* pyexiv2 is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* pyexiv2 is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with pyexiv2; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, 5th Floor, Boston, MA 02110-1301 USA.
*/
/*
Author: Olivier Tilloy <olivier@tilloy.net>
*/
// *****************************************************************************
#include "exiv2wrapper.hpp"
#include "boost/python/stl_iterator.hpp"
#include <fstream>
// Custom error codes for Exiv2 exceptions
#define METADATA_NOT_READ 101
#define NON_REPEATABLE 102
#define KEY_NOT_FOUND 103
// Custom macros
#define CHECK_METADATA_READ \
if (!_dataRead) throw Exiv2::Error(METADATA_NOT_READ);
namespace exiv2wrapper
{
void Image::_instantiate_image()
{
// If an exception is thrown, it has to be done outside of the
// Py_{BEGIN,END}_ALLOW_THREADS block.
Exiv2::Error error(0);
// Release the GIL to allow other python threads to run
// while opening the file.
Py_BEGIN_ALLOW_THREADS
try
{
if (_data != 0)
{
_image = Exiv2::ImageFactory::open(_data, _size);
}
else
{
_image = Exiv2::ImageFactory::open(_filename);
}
}
catch (Exiv2::Error& err)
{
error = err;
}
// Re-acquire the GIL
Py_END_ALLOW_THREADS
if (error.code() == 0)
{
assert(_image.get() != 0);
_dataRead = false;
}
else
{
throw error;
}
}
// Base constructor
Image::Image(const std::string& filename)
{
_filename = filename;
_data = 0;
_instantiate_image();
}
// From buffer constructor
Image::Image(const std::string& buffer, long size)
{
// Deep copy of the data buffer
_data = new Exiv2::byte[size];
for (unsigned long i = 0; i < size; ++i)
{
_data[i] = buffer[i];
}
_size = size;
_instantiate_image();
}
// Copy constructor
Image::Image(const Image& image)
{
_filename = image._filename;
_instantiate_image();
}
Image::~Image()
{
if (_data != 0)
{
delete[] _data;
}
}
void Image::readMetadata()
{
// If an exception is thrown, it has to be done outside of the
// Py_{BEGIN,END}_ALLOW_THREADS block.
Exiv2::Error error(0);
// Release the GIL to allow other python threads to run
// while reading metadata.
Py_BEGIN_ALLOW_THREADS
try
{
_image->readMetadata();
_exifData = _image->exifData();
_iptcData = _image->iptcData();
_xmpData = _image->xmpData();
_dataRead = true;
}
catch (Exiv2::Error& err)
{
error = err;
}
// Re-acquire the GIL
Py_END_ALLOW_THREADS
if (error.code() != 0)
{
throw error;
}
}
void Image::writeMetadata()
{
CHECK_METADATA_READ
// If an exception is thrown, it has to be done outside of the
// Py_{BEGIN,END}_ALLOW_THREADS block.
Exiv2::Error error(0);
// Release the GIL to allow other python threads to run
// while writing metadata.
Py_BEGIN_ALLOW_THREADS
try
{
_image->setExifData(_exifData);
_image->setIptcData(_iptcData);
_image->setXmpData(_xmpData);
_image->writeMetadata();
}
catch (Exiv2::Error& err)
{
error = err;
}
// Re-acquire the GIL
Py_END_ALLOW_THREADS
if (error.code() != 0)
{
throw error;
}
}
unsigned int Image::pixelWidth() const
{
CHECK_METADATA_READ
return _image->pixelWidth();
}
unsigned int Image::pixelHeight() const
{
CHECK_METADATA_READ
return _image->pixelHeight();
}
std::string Image::mimeType() const
{
CHECK_METADATA_READ
return _image->mimeType();
}
boost::python::list Image::exifKeys()
{
CHECK_METADATA_READ
boost::python::list keys;
for(Exiv2::ExifMetadata::iterator i = _exifData.begin();
i != _exifData.end();
++i)
{
keys.append(i->key());
}
return keys;
}
const ExifTag Image::getExifTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::ExifKey exifKey = Exiv2::ExifKey(key);
if(_exifData.findKey(exifKey) == _exifData.end())
{
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
return ExifTag(key, &_exifData[key], &_exifData);
}
void Image::deleteExifTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::ExifKey exifKey = Exiv2::ExifKey(key);
Exiv2::ExifMetadata::iterator datum = _exifData.findKey(exifKey);
if(datum == _exifData.end())
{
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
_exifData.erase(datum);
}
boost::python::list Image::iptcKeys()
{
CHECK_METADATA_READ
boost::python::list keys;
for(Exiv2::IptcMetadata::iterator i = _iptcData.begin();
i != _iptcData.end();
++i)
{
// The key is appended to the list if and only if it is not already
// present.
if (keys.count(i->key()) == 0)
{
keys.append(i->key());
}
}
return keys;
}
const IptcTag Image::getIptcTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::IptcKey iptcKey = Exiv2::IptcKey(key);
if(_iptcData.findKey(iptcKey) == _iptcData.end())
{
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
return IptcTag(key, &_iptcData);
}
void Image::deleteIptcTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::IptcKey iptcKey = Exiv2::IptcKey(key);
Exiv2::IptcMetadata::iterator dataIterator = _iptcData.findKey(iptcKey);
if (dataIterator == _iptcData.end())
{
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
while (dataIterator != _iptcData.end())
{
if (dataIterator->key() == key)
{
dataIterator = _iptcData.erase(dataIterator);
}
else
{
++dataIterator;
}
}
}
boost::python::list Image::xmpKeys()
{
CHECK_METADATA_READ
boost::python::list keys;
for(Exiv2::XmpMetadata::iterator i = _xmpData.begin();
i != _xmpData.end();
++i)
{
keys.append(i->key());
}
return keys;
}
const XmpTag Image::getXmpTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::XmpKey xmpKey = Exiv2::XmpKey(key);
if(_xmpData.findKey(xmpKey) == _xmpData.end())
{
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
return XmpTag(key, &_xmpData[key]);
}
void Image::setXmpTagTextValue(const std::string& key, const std::string& value)
{
CHECK_METADATA_READ
_xmpData[key].setValue(value);
}
void Image::setXmpTagArrayValue(const std::string& key, const boost::python::list& values)
{
CHECK_METADATA_READ
Exiv2::Xmpdatum& datum = _xmpData[key];
// Reset the value
datum.setValue(0);
for(boost::python::stl_input_iterator<std::string> iterator(values);
iterator != boost::python::stl_input_iterator<std::string>();
++iterator)
{
datum.setValue(*iterator);
}
}
void Image::setXmpTagLangAltValue(const std::string& key, const boost::python::dict& values)
{
CHECK_METADATA_READ
Exiv2::Xmpdatum& datum = _xmpData[key];
// Reset the value
datum.setValue(0);
for(boost::python::stl_input_iterator<std::string> iterator(values);
iterator != boost::python::stl_input_iterator<std::string>();
++iterator)
{
std::string key = *iterator;
std::string value = boost::python::extract<std::string>(values.get(key));
datum.setValue("lang=\"" + key + "\" " + value);
}
}
void Image::deleteXmpTag(std::string key)
{
CHECK_METADATA_READ
Exiv2::XmpKey xmpKey = Exiv2::XmpKey(key);
Exiv2::XmpMetadata::iterator i = _xmpData.findKey(xmpKey);
if(i != _xmpData.end())
{
_xmpData.erase(i);
}
else
throw Exiv2::Error(KEY_NOT_FOUND, key);
}
boost::python::list Image::previews()
{
CHECK_METADATA_READ
boost::python::list previews;
Exiv2::PreviewManager pm(*_image);
Exiv2::PreviewPropertiesList props = pm.getPreviewProperties();
for (Exiv2::PreviewPropertiesList::const_iterator i = props.begin();
i != props.end();
++i)
{
previews.append(Preview(pm.getPreviewImage(*i)));
}
return previews;
}
void Image::copyMetadata(Image& other, bool exif, bool iptc, bool xmp) const
{
CHECK_METADATA_READ
if (!other._dataRead) throw Exiv2::Error(METADATA_NOT_READ);
if (exif)
other._exifData = _exifData;
if (iptc)
other._iptcData = _iptcData;
if (xmp)
other._xmpData = _xmpData;
}
std::string Image::getDataBuffer() const
{
std::string buffer;
// Release the GIL to allow other python threads to run
// while reading the image data.
Py_BEGIN_ALLOW_THREADS
Exiv2::BasicIo& io = _image->io();
long size = io.size();
long pos = -1;
if (io.isopen())
{
// Remember the current position in the stream
pos = io.tell();
// Go to the beginning of the stream
io.seek(0, Exiv2::BasicIo::beg);
}
else
{
io.open();
}
// Copy the data buffer in a string. Since the data buffer can contain null
// characters ('\x00'), the string cannot be simply constructed like that:
// _data = std::string((char*) previewImage.pData());
// because it would be truncated after the first occurence of a null
// character. Therefore, it has to be copied character by character.
// First allocate the memory for the whole string...
buffer.resize(size, ' ');
// ... then fill it with the raw data.
for (unsigned long i = 0; i < size; ++i)
{
io.read((Exiv2::byte*) &buffer[i], 1);
}
if (pos == -1)
{
// The stream was initially closed
io.close();
}
else
{
// Reset to the initial position in the stream
io.seek(pos, Exiv2::BasicIo::beg);
}
// Re-acquire the GIL
Py_END_ALLOW_THREADS
return buffer;
}
ExifTag::ExifTag(const std::string& key, Exiv2::Exifdatum* datum, Exiv2::ExifData* data): _key(key)
{
if (datum != 0 && data != 0)
{
_datum = datum;
_data = data;
}
else
{
_datum = new Exiv2::Exifdatum(_key);
_data = 0;
}
const uint16_t tag = _datum->tag();
const Exiv2::IfdId ifd = _datum->ifdId();
_type = Exiv2::TypeInfo::typeName(Exiv2::ExifTags::tagType(tag, ifd));
_name = Exiv2::ExifTags::tagName(tag, ifd);
_label = Exiv2::ExifTags::tagLabel(tag, ifd);
_description = Exiv2::ExifTags::tagDesc(tag, ifd);
_sectionName = Exiv2::ExifTags::sectionName(tag, ifd);
_sectionDescription = Exiv2::ExifTags::sectionDesc(tag, ifd);
}
ExifTag::~ExifTag()
{
if (_data == 0)
{
delete _datum;
}
}
void ExifTag::setRawValue(const std::string& value)
{
_datum->setValue(value);
}
void ExifTag::setParentImage(Image& image)
{
_data = image.getExifData();
std::string value = _datum->toString();
delete _datum;
_datum = &(*_data)[_key.key()];
_datum->setValue(value);
}
const std::string ExifTag::getKey()
{
return _key.key();
}
const std::string ExifTag::getType()
{
return _type;
}
const std::string ExifTag::getName()
{
return _name;
}
const std::string ExifTag::getLabel()
{
return _label;
}
const std::string ExifTag::getDescription()
{
return _description;
}
const std::string ExifTag::getSectionName()
{
return _sectionName;
}
const std::string ExifTag::getSectionDescription()
{
return _sectionDescription;
}
const std::string ExifTag::getRawValue()
{
return _datum->toString();
}
const std::string ExifTag::getHumanValue()
{
return _datum->print(_data);
}
IptcTag::IptcTag(const std::string& key, Exiv2::IptcData* data): _key(key)
{
_from_data = (data != 0);
if (_from_data)
{
_data = data;
}
else
{
_data = new Exiv2::IptcData();
_data->add(Exiv2::Iptcdatum(_key));
}
Exiv2::IptcMetadata::iterator iterator = _data->findKey(_key);
const uint16_t tag = iterator->tag();
const uint16_t record = iterator->record();
_type = Exiv2::TypeInfo::typeName(Exiv2::IptcDataSets::dataSetType(tag, record));
_name = Exiv2::IptcDataSets::dataSetName(tag, record);
_title = Exiv2::IptcDataSets::dataSetTitle(tag, record);
_description = Exiv2::IptcDataSets::dataSetDesc(tag, record);
// What is the photoshop name anyway? Where is it used?
_photoshopName = Exiv2::IptcDataSets::dataSetPsName(tag, record);
_repeatable = Exiv2::IptcDataSets::dataSetRepeatable(tag, record);
_recordName = Exiv2::IptcDataSets::recordName(record);
_recordDescription = Exiv2::IptcDataSets::recordDesc(record);
if (_from_data)
{
// Check that we are not trying to assign multiple values to a tag that
// is not repeatable.
unsigned int nb_values = 0;
for(Exiv2::IptcMetadata::iterator iterator = _data->begin();
iterator != _data->end(); ++iterator)
{
if (iterator->key() == key)
{
++nb_values;
if (!_repeatable && (nb_values > 1))
{
throw Exiv2::Error(NON_REPEATABLE);
}
}
}
}
}
IptcTag::~IptcTag()
{
if (!_from_data)
{
delete _data;
}
}
void IptcTag::setRawValues(const boost::python::list& values)
{
if (!_repeatable && (boost::python::len(values) > 1))
{
// The tag is not repeatable but we are trying to assign it more than
// one value.
throw Exiv2::Error(NON_REPEATABLE);
}
unsigned int index = 0;
unsigned int max = boost::python::len(values);
Exiv2::IptcMetadata::iterator iterator = _data->findKey(_key);
while (index < max)
{
std::string value = boost::python::extract<std::string>(values[index++]);
if (iterator != _data->end())
{
// Override an existing value
iterator->setValue(value);
// Jump to the next datum matching the key
++iterator;
while ((iterator != _data->end()) && (iterator->key() != _key.key()))
{
++iterator;
}
}
else
{
// Append a new value
Exiv2::Iptcdatum datum(_key);
datum.setValue(value);
int state = _data->add(datum);
if (state == 6)
{
throw Exiv2::Error(NON_REPEATABLE);
}
// Reset iterator that has been invalidated by appending a datum
iterator = _data->end();
}
}
// Erase the remaining values if any
while (iterator != _data->end())
{
if (iterator->key() == _key.key())
{
iterator = _data->erase(iterator);
}
else
{
++iterator;
}
}
}
void IptcTag::setParentImage(Image& image)
{
const boost::python::list values = getRawValues();
delete _data;
_from_data = true;
_data = image.getIptcData();
setRawValues(values);
}
const std::string IptcTag::getKey()
{
return _key.key();
}
const std::string IptcTag::getType()
{
return _type;
}
const std::string IptcTag::getName()
{
return _name;
}
const std::string IptcTag::getTitle()
{
return _title;
}
const std::string IptcTag::getDescription()
{
return _description;
}
const std::string IptcTag::getPhotoshopName()
{
return _photoshopName;
}
const bool IptcTag::isRepeatable()
{
return _repeatable;
}
const std::string IptcTag::getRecordName()
{
return _recordName;
}
const std::string IptcTag::getRecordDescription()
{
return _recordDescription;
}
const boost::python::list IptcTag::getRawValues()
{
boost::python::list values;
for(Exiv2::IptcMetadata::iterator iterator = _data->begin();
iterator != _data->end(); ++iterator)
{
if (iterator->key() == _key.key())
{
values.append(iterator->toString());
}
}
return values;
}
XmpTag::XmpTag(const std::string& key, Exiv2::Xmpdatum* datum): _key(key)
{
_from_datum = (datum != 0);
if (_from_datum)
{
_datum = datum;
}
else
{
_datum = new Exiv2::Xmpdatum(_key);
}
_exiv2_type = Exiv2::TypeInfo::typeName(Exiv2::XmpProperties::propertyType(_key));
const char* title = Exiv2::XmpProperties::propertyTitle(_key);
if (title != 0)
{
_title = title;
}
const char* description = Exiv2::XmpProperties::propertyDesc(_key);
if (description != 0)
{
_description = description;
}
const Exiv2::XmpPropertyInfo* info = Exiv2::XmpProperties::propertyInfo(_key);
if (info != 0)
{
_name = info->name_;
_type = info->xmpValueType_;
}
}
XmpTag::~XmpTag()
{
if (!_from_datum)
{
delete _datum;
}
}
void XmpTag::setTextValue(const std::string& value)
{
_datum->setValue(value);
}
void XmpTag::setArrayValue(const boost::python::list& values)
{
// Reset the value
_datum->setValue(0);
for(boost::python::stl_input_iterator<std::string> iterator(values);
iterator != boost::python::stl_input_iterator<std::string>();
++iterator)
{
_datum->setValue(*iterator);
}
}
void XmpTag::setLangAltValue(const boost::python::dict& values)
{
// Reset the value
_datum->setValue(0);
for(boost::python::stl_input_iterator<std::string> iterator(values);
iterator != boost::python::stl_input_iterator<std::string>();
++iterator)
{
std::string key = *iterator;
std::string value = boost::python::extract<std::string>(values.get(key));
_datum->setValue("lang=\"" + key + "\" " + value);
}
}
const std::string XmpTag::getKey()
{
return _key.key();
}
const std::string XmpTag::getExiv2Type()
{
return _exiv2_type;
}
const std::string XmpTag::getType()
{
return _type;
}
const std::string XmpTag::getName()
{
return _name;
}
const std::string XmpTag::getTitle()
{
return _title;
}
const std::string XmpTag::getDescription()
{
return _description;
}
const std::string XmpTag::getTextValue()
{
return dynamic_cast<const Exiv2::XmpTextValue*>(&_datum->value())->value_;
}
const boost::python::list XmpTag::getArrayValue()
{
std::vector<std::string> value =
dynamic_cast<const Exiv2::XmpArrayValue*>(&_datum->value())->value_;
boost::python::list rvalue;
for(std::vector<std::string>::const_iterator i = value.begin();
i != value.end(); ++i)
{
rvalue.append(*i);
}
return rvalue;
}
const boost::python::dict XmpTag::getLangAltValue()
{
Exiv2::LangAltValue::ValueType value =
dynamic_cast<const Exiv2::LangAltValue*>(&_datum->value())->value_;
boost::python::dict rvalue;
for (Exiv2::LangAltValue::ValueType::const_iterator i = value.begin();
i != value.end(); ++i)
{
rvalue[i->first] = i->second;
}
return rvalue;
}
Preview::Preview(const Exiv2::PreviewImage& previewImage)
{
_mimeType = previewImage.mimeType();
_extension = previewImage.extension();
_size = previewImage.size();
_dimensions = boost::python::make_tuple(previewImage.width(),
previewImage.height());
// Copy the data buffer in a string. Since the data buffer can contain null
// characters ('\x00'), the string cannot be simply constructed like that:
// _data = std::string((char*) previewImage.pData());
// because it would be truncated after the first occurence of a null
// character. Therefore, it has to be copied character by character.
const Exiv2::byte* pData = previewImage.pData();
// First allocate the memory for the whole string...
_data = std::string(_size, ' ');
// ... then fill it with the raw data.
for(unsigned int i = 0; i < _size; ++i)
{
_data[i] = pData[i];
}
}
void Preview::writeToFile(const std::string& path) const
{
std::string filename = path + _extension;
std::ofstream fd(filename.c_str(), std::ios::out);
fd << _data;
fd.close();
}
void translateExiv2Error(Exiv2::Error const& error)
{
// Use the Python 'C' API to set up an exception object
const char* message = error.what();
// The type of the Python exception depends on the error code
// Warning: this piece of code should be updated in case the error codes
// defined by Exiv2 (file 'src/error.cpp') are changed
switch (error.code())
{
// Exiv2 error codes
case 2:
// {path}: Call to `{function}' failed: {strerror}
// May be raised when reading a file
PyErr_SetString(PyExc_RuntimeError, message);
break;
case 3:
// This does not look like a {image type} image
// May be raised by readMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 4:
// Invalid dataset name `{dataset name}'
// May be raised when instantiating an IptcKey from a string
PyErr_SetString(PyExc_KeyError, message);
break;
case 5:
// Invalid record name `{record name}'
// May be raised when instantiating an IptcKey from a string
PyErr_SetString(PyExc_KeyError, message);
break;
case 6:
// Invalid key `{key}'
// May be raised when instantiating an ExifKey, an IptcKey or an
// XmpKey from a string
PyErr_SetString(PyExc_KeyError, message);
break;
case 7:
// Invalid tag name or ifdId `{tag name}', ifdId {ifdId}
// May be raised when instantiating an ExifKey from a string
PyErr_SetString(PyExc_KeyError, message);
break;
case 8:
// Value not set
// May be raised when calling value() on a datum
PyErr_SetString(PyExc_ValueError, message);
break;
case 9:
// {path}: Failed to open the data source: {strerror}
// May be raised by readMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 10:
// {path}: Failed to open file ({mode}): {strerror}
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 11:
// {path}: The file contains data of an unknown image type
// May be raised when opening an image
PyErr_SetString(PyExc_IOError, message);
break;
case 12:
// The memory contains data of an unknown image type
// May be raised when instantiating an image from a data buffer
PyErr_SetString(PyExc_IOError, message);
break;
case 13:
// Image type {image type} is not supported
// May be raised when creating a new image
PyErr_SetString(PyExc_IOError, message);
break;
case 14:
// Failed to read image data
// May be raised by readMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 15:
// This does not look like a JPEG image
// May be raised by readMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 17:
// {old path}: Failed to rename file to {new path}: {strerror}
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 18:
// {path}: Transfer failed: {strerror}
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 19:
// Memory transfer failed: {strerror}
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 20:
// Failed to read input data
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 21:
// Failed to write image
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 22:
// Input data does not contain a valid image
// May be raised by writeMetadata()
PyErr_SetString(PyExc_IOError, message);
break;
case 23:
// Invalid ifdId {ifdId}
// May be raised when instantiating an ExifKey from a tag and
// IFD item string
PyErr_SetString(PyExc_KeyError, message);
break;
case 26:
// Offset out of range
// May be raised by writeMetadata() (TIFF)
PyErr_SetString(PyExc_IOError, message);
break;
case 27:
// Unsupported data area offset type
// May be raised by writeMetadata() (TIFF)
PyErr_SetString(PyExc_IOError, message);
break;
case 28:
// Invalid charset: `{charset name}'
// May be raised when instantiating a CommentValue from a string
PyErr_SetString(PyExc_ValueError, message);
break;
case 29:
// Unsupported date format
// May be raised when instantiating a DateValue from a string
PyErr_SetString(PyExc_ValueError, message);
break;
case 30:
// Unsupported time format
// May be raised when instantiating a TimeValue from a string
PyErr_SetString(PyExc_ValueError, message);
break;
case 31:
// Writing to {image format} images is not supported
// May be raised by writeMetadata() for certain image types
PyErr_SetString(PyExc_IOError, message);
break;
case 32:
// Setting {metadata type} in {image format} images is not supported
// May be raised when setting certain types of metadata for certain
// image types that don't support them
PyErr_SetString(PyExc_ValueError, message);
break;
case 33:
// This does not look like a CRW image
// May be raised by readMetadata() (CRW)
PyErr_SetString(PyExc_IOError, message);
break;
case 35:
// No namespace info available for XMP prefix `{prefix}'
// May be raised when retrieving property info for an XmpKey
PyErr_SetString(PyExc_KeyError, message);
break;
case 36:
// No prefix registered for namespace `{namespace}', needed for
// property path `{property path}'
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_KeyError, message);
break;
case 37:
// Size of {type of metadata} JPEG segment is larger than
// 65535 bytes
// May be raised by writeMetadata() (JPEG)
PyErr_SetString(PyExc_ValueError, message);
break;
case 38:
// Unhandled Xmpdatum {key} of type {value type}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_TypeError, message);
break;
case 39:
// Unhandled XMP node {key} with opt={XMP Toolkit option flags}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_TypeError, message);
break;
case 40:
// XMP Toolkit error {error id}: {error message}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_RuntimeError, message);
break;
case 41:
// Failed to decode Lang Alt property {property path}
// with opt={XMP Toolkit option flags}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_ValueError, message);
break;
case 42:
// Failed to decode Lang Alt qualifier {qualifier path}
// with opt={XMP Toolkit option flags}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_ValueError, message);
break;
case 43:
// Failed to encode Lang Alt property {key}
// May be raised by writeMetadata()
PyErr_SetString(PyExc_ValueError, message);
break;
case 44:
// Failed to determine property name from path {property path},
// namespace {namespace}
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_KeyError, message);
break;
case 45:
// Schema namespace {namespace} is not registered with
// the XMP Toolkit
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_ValueError, message);
break;
case 46:
// No namespace registered for prefix `{prefix}'
// May be raised when instantiating an XmpKey from a string
PyErr_SetString(PyExc_KeyError, message);
break;
case 47:
// Aliases are not supported. Please send this XMP packet
// to ahuggel@gmx.net `{namespace}', `{property path}', `{value}'
// May be raised by readMetadata() when reading the XMP data
PyErr_SetString(PyExc_ValueError, message);
break;
case 48:
// Invalid XmpText type `{type}'
// May be raised when instantiating an XmpTextValue from a string
PyErr_SetString(PyExc_TypeError, message);
break;
case 49:
// TIFF directory {TIFF directory name} has too many entries
// May be raised by writeMetadata() (TIFF)
PyErr_SetString(PyExc_IOError, message);
break;
// Custom error codes
case METADATA_NOT_READ:
PyErr_SetString(PyExc_IOError, "Image metadata has not been read yet");
break;
case NON_REPEATABLE:
PyErr_SetString(PyExc_KeyError, "Tag is not repeatable");
break;
case KEY_NOT_FOUND:
PyErr_SetString(PyExc_KeyError, "Tag not set");
break;
// Default handler
default:
PyErr_SetString(PyExc_RuntimeError, message);
}
}
} // End of namespace exiv2wrapper
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