#include "main.h"
#include "exif.h"
+#include "filedata.h"
#include "filefilter.h"
-#include "ui-fileops.h"
-
#include "misc.h"
+#include "ui-fileops.h"
#if EXIV2_TEST_VERSION(0,28,0)
#define AnyError Error
#define AutoPtr UniquePtr
#endif
-typedef struct _AltKey AltKey;
-
-struct _AltKey
+struct AltKey
{
const gchar *xmp_key;
const gchar *exif_key;
};
/* this is a list of keys that should be converted, even with the older Exiv2 which does not support it directly */
-static const AltKey alt_keys[] = {
- {"Xmp.tiff.Orientation", "Exif.Image.Orientation", NULL},
- {"Xmp.dc.title", NULL, "Iptc.Application2.ObjectName" },
- {"Xmp.photoshop.Urgency", NULL, "Iptc.Application2.Urgency" },
- {"Xmp.photoshop.Category", NULL, "Iptc.Application2.Category" },
- {"Xmp.photoshop.SupplementalCategory", NULL, "Iptc.Application2.SuppCategory" },
- {"Xmp.dc.subject", NULL, "Iptc.Application2.Keywords" },
- {"Xmp.iptc.Location", NULL, "Iptc.Application2.LocationName" },
- {"Xmp.photoshop.Instruction", NULL, "Iptc.Application2.SpecialInstructions" },
- {"Xmp.photoshop.DateCreated", NULL, "Iptc.Application2.DateCreated" },
- {"Xmp.dc.creator", NULL, "Iptc.Application2.Byline" },
- {"Xmp.photoshop.AuthorsPosition", NULL, "Iptc.Application2.BylineTitle" },
- {"Xmp.photoshop.City", NULL, "Iptc.Application2.City" },
- {"Xmp.photoshop.State", NULL, "Iptc.Application2.ProvinceState" },
- {"Xmp.iptc.CountryCode", NULL, "Iptc.Application2.CountryCode" },
- {"Xmp.photoshop.Country", NULL, "Iptc.Application2.CountryName" },
- {"Xmp.photoshop.TransmissionReference", NULL, "Iptc.Application2.TransmissionReference"},
- {"Xmp.photoshop.Headline", NULL, "Iptc.Application2.Headline" },
- {"Xmp.photoshop.Credit", NULL, "Iptc.Application2.Credit" },
- {"Xmp.photoshop.Source", NULL, "Iptc.Application2.Source" },
- {"Xmp.dc.rights", NULL, "Iptc.Application2.Copyright" },
- {"Xmp.dc.description", NULL, "Iptc.Application2.Caption" },
- {"Xmp.photoshop.CaptionWriter", NULL, "Iptc.Application2.Writer" },
- {NULL, NULL, NULL}
+static constexpr AltKey alt_keys[] = {
+ {"Xmp.tiff.Orientation", "Exif.Image.Orientation", nullptr},
+ {"Xmp.dc.title", nullptr, "Iptc.Application2.ObjectName" },
+ {"Xmp.photoshop.Urgency", nullptr, "Iptc.Application2.Urgency" },
+ {"Xmp.photoshop.Category", nullptr, "Iptc.Application2.Category" },
+ {"Xmp.photoshop.SupplementalCategory", nullptr, "Iptc.Application2.SuppCategory" },
+ {"Xmp.dc.subject", nullptr, "Iptc.Application2.Keywords" },
+ {"Xmp.iptc.Location", nullptr, "Iptc.Application2.LocationName" },
+ {"Xmp.photoshop.Instruction", nullptr, "Iptc.Application2.SpecialInstructions" },
+ {"Xmp.photoshop.DateCreated", nullptr, "Iptc.Application2.DateCreated" },
+ {"Xmp.dc.creator", nullptr, "Iptc.Application2.Byline" },
+ {"Xmp.photoshop.AuthorsPosition", nullptr, "Iptc.Application2.BylineTitle" },
+ {"Xmp.photoshop.City", nullptr, "Iptc.Application2.City" },
+ {"Xmp.photoshop.State", nullptr, "Iptc.Application2.ProvinceState" },
+ {"Xmp.iptc.CountryCode", nullptr, "Iptc.Application2.CountryCode" },
+ {"Xmp.photoshop.Country", nullptr, "Iptc.Application2.CountryName" },
+ {"Xmp.photoshop.TransmissionReference", nullptr, "Iptc.Application2.TransmissionReference"},
+ {"Xmp.photoshop.Headline", nullptr, "Iptc.Application2.Headline" },
+ {"Xmp.photoshop.Credit", nullptr, "Iptc.Application2.Credit" },
+ {"Xmp.photoshop.Source", nullptr, "Iptc.Application2.Source" },
+ {"Xmp.dc.rights", nullptr, "Iptc.Application2.Copyright" },
+ {"Xmp.dc.description", nullptr, "Iptc.Application2.Caption" },
+ {"Xmp.photoshop.CaptionWriter", nullptr, "Iptc.Application2.Writer" },
};
static void _debug_exception(const char* file,
const char* func,
Exiv2::AnyError& e)
{
- gchar *str = g_locale_from_utf8(e.what(), -1, NULL, NULL, NULL);
+ gchar *str = g_locale_from_utf8(e.what(), -1, nullptr, nullptr, nullptr);
DEBUG_1("%s:%d:%s:Exiv2: %s", file, line, func, str);
g_free(str);
}
#define debug_exception(e) _debug_exception(__FILE__, __LINE__, __func__, e)
-struct _ExifData
+struct ExifData
{
Exiv2::ExifData::const_iterator exifIter; /* for exif_get_next_item */
Exiv2::IptcData::const_iterator iptcIter; /* for exif_get_next_item */
Exiv2::XmpData::const_iterator xmpIter; /* for exif_get_next_item */
#endif
- virtual ~_ExifData()
- {
- }
+ virtual ~ExifData() = default;
- virtual void writeMetadata(gchar *UNUSED(path) = NULL)
+ virtual void writeMetadata(gchar * = nullptr)
{
g_critical("Unsupported method of writing metadata");
}
virtual ExifData *original()
{
- return NULL;
+ return nullptr;
}
virtual Exiv2::Image *image() = 0;
};
// This allows read-only access to the original metadata
-struct _ExifDataOriginal : public _ExifData
+struct ExifDataOriginal : public ExifData
{
protected:
Exiv2::Image::AutoPtr image_;
#endif
public:
- _ExifDataOriginal(Exiv2::Image::AutoPtr image)
+ ExifDataOriginal(Exiv2::Image::AutoPtr image)
{
- cp_data_ = NULL;
+ cp_data_ = nullptr;
cp_length_ = 0;
- image_ = std::move(image);
+ image_ = std::move(image);
valid_ = TRUE;
}
- _ExifDataOriginal(gchar *path)
+ ExifDataOriginal(gchar *path)
{
- cp_data_ = NULL;
+ cp_data_ = nullptr;
cp_length_ = 0;
valid_ = TRUE;
try
{
image_ = Exiv2::ImageFactory::open(pathl_);
-// g_assert (image.get() != 0);
image_->readMetadata();
#if EXIV2_TEST_VERSION(0,16,0)
}
}
- virtual ~_ExifDataOriginal()
+ ~ExifDataOriginal() override
{
if (cp_data_) g_free(cp_data_);
if (pathl_) g_free(pathl_);
}
- virtual Exiv2::Image *image()
+ Exiv2::Image *image() override
{
- if (!valid_) return NULL;
+ if (!valid_) return nullptr;
return image_.get();
}
- virtual Exiv2::ExifData &exifData ()
+ Exiv2::ExifData &exifData () override
{
if (!valid_) return emptyExifData_;
return image_->exifData();
}
- virtual Exiv2::IptcData &iptcData ()
+ Exiv2::IptcData &iptcData () override
{
if (!valid_) return emptyIptcData_;
return image_->iptcData();
}
#if EXIV2_TEST_VERSION(0,16,0)
- virtual Exiv2::XmpData &xmpData ()
+ Exiv2::XmpData &xmpData () override
{
if (!valid_) return emptyXmpData_;
return image_->xmpData();
}
#endif
- virtual void add_jpeg_color_profile(unsigned char *cp_data, guint cp_length)
+ void add_jpeg_color_profile(unsigned char *cp_data, guint cp_length) override
{
if (cp_data_) g_free(cp_data_);
cp_data_ = cp_data;
cp_length_ = cp_length;
}
- virtual guchar *get_jpeg_color_profile(guint *data_len)
+ guchar *get_jpeg_color_profile(guint *data_len) override
{
if (cp_data_)
{
if (data_len) *data_len = cp_length_;
#if GLIB_CHECK_VERSION(2,68,0)
- return (unsigned char *) g_memdup2(cp_data_, cp_length_);
+ return static_cast<unsigned char *>(g_memdup2(cp_data_, cp_length_));
#else
return static_cast<unsigned char *>(g_memdup(cp_data_, cp_length_));
#endif
}
- return NULL;
+ return nullptr;
}
- virtual std::string image_comment() const
+ std::string image_comment() const override
{
return image_.get() ? image_->comment() : "";
}
- virtual void set_image_comment(const std::string& comment)
+ void set_image_comment(const std::string& comment) override
{
if (image_.get())
image_->setComment(comment);
static void _ExifDataProcessed_update_xmp(gpointer key, gpointer value, gpointer data);
// This allows read-write access to the metadata
-struct _ExifDataProcessed : public _ExifData
+struct ExifDataProcessed : public ExifData
{
protected:
- _ExifDataOriginal *imageData_;
- _ExifDataOriginal *sidecarData_;
+ std::unique_ptr<ExifDataOriginal> imageData_;
+ std::unique_ptr<ExifDataOriginal> sidecarData_;
Exiv2::ExifData exifData_;
Exiv2::IptcData iptcData_;
#endif
public:
- _ExifDataProcessed(gchar *path, gchar *sidecar_path, GHashTable *modified_xmp)
+ ExifDataProcessed(gchar *path, gchar *sidecar_path, GHashTable *modified_xmp)
{
- imageData_ = new _ExifDataOriginal(path);
- sidecarData_ = NULL;
+ imageData_ = std::make_unique<ExifDataOriginal>(path);
+ sidecarData_ = nullptr;
#if EXIV2_TEST_VERSION(0,16,0)
if (sidecar_path)
{
- sidecarData_ = new _ExifDataOriginal(sidecar_path);
+ sidecarData_ = std::make_unique<ExifDataOriginal>(sidecar_path);
xmpData_ = sidecarData_->xmpData();
}
else
}
}
- virtual ~_ExifDataProcessed()
- {
- if (imageData_) delete imageData_;
- if (sidecarData_) delete sidecarData_;
- }
-
- virtual ExifData *original()
+ ExifData *original() override
{
- return imageData_;
+ return imageData_.get();
}
- virtual void writeMetadata(gchar *path = NULL)
+ void writeMetadata(gchar *path = nullptr) override
{
if (!path)
{
#if EXIV2_TEST_VERSION(0,17,0)
gchar *pathl = path_from_utf8(path);;
- Exiv2::Image::AutoPtr sidecar = Exiv2::ImageFactory::create(Exiv2::ImageType::xmp, pathl);
+ auto sidecar = Exiv2::ImageFactory::create(Exiv2::ImageType::xmp, pathl);
g_free(pathl);
}
}
- virtual Exiv2::Image *image()
+ Exiv2::Image *image() override
{
return imageData_->image();
}
- virtual Exiv2::ExifData &exifData ()
+ Exiv2::ExifData &exifData () override
{
return exifData_;
}
- virtual Exiv2::IptcData &iptcData ()
+ Exiv2::IptcData &iptcData () override
{
return iptcData_;
}
#if EXIV2_TEST_VERSION(0,16,0)
- virtual Exiv2::XmpData &xmpData ()
+ Exiv2::XmpData &xmpData () override
{
return xmpData_;
}
#endif
- virtual void add_jpeg_color_profile(unsigned char *cp_data, guint cp_length)
+ void add_jpeg_color_profile(unsigned char *cp_data, guint cp_length) override
{
imageData_->add_jpeg_color_profile(cp_data, cp_length);
}
- virtual guchar *get_jpeg_color_profile(guint *data_len)
+ guchar *get_jpeg_color_profile(guint *data_len) override
{
return imageData_->get_jpeg_color_profile(data_len);
}
- virtual std::string image_comment() const
+ std::string image_comment() const override
{
return imageData_->image_comment();
}
- virtual void set_image_comment(const std::string& comment)
+ void set_image_comment(const std::string& comment) override
{
imageData_->set_image_comment(comment);
}
-void exif_init(void)
+void exif_init()
{
#ifdef EXV_ENABLE_NLS
bind_textdomain_codeset (EXV_PACKAGE, "UTF-8");
{
DEBUG_1("exif read %s, sidecar: %s", path, sidecar_path ? sidecar_path : "-");
try {
- return new _ExifDataProcessed(path, sidecar_path, modified_xmp);
+ return new ExifDataProcessed(path, sidecar_path, modified_xmp);
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
void exif_free(ExifData *exif)
{
if (!exif) return;
- g_assert(dynamic_cast<_ExifDataProcessed *>(exif)); // this should not be called on ExifDataOriginal
+ g_assert(dynamic_cast<ExifDataProcessed *>(exif)); // this should not be called on ExifDataOriginal
delete exif;
}
ExifItem *exif_get_item(ExifData *exif, const gchar *key)
{
try {
- Exiv2::Metadatum *item = NULL;
+ Exiv2::Metadatum *item = nullptr;
try {
Exiv2::ExifKey ekey(key);
auto pos = exif->exifData().findKey(ekey);
- if (pos == exif->exifData().end()) return NULL;
+ if (pos == exif->exifData().end()) return nullptr;
item = &*pos;
}
catch (Exiv2::AnyError& e) {
try {
Exiv2::IptcKey ekey(key);
auto pos = exif->iptcData().findKey(ekey);
- if (pos == exif->iptcData().end()) return NULL;
+ if (pos == exif->iptcData().end()) return nullptr;
item = &*pos;
}
catch (Exiv2::AnyError& e) {
#if EXIV2_TEST_VERSION(0,16,0)
Exiv2::XmpKey ekey(key);
auto pos = exif->xmpData().findKey(ekey);
- if (pos == exif->xmpData().end()) return NULL;
+ if (pos == exif->xmpData().end()) return nullptr;
item = &*pos;
#endif
}
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
ExifItem *exif_add_item(ExifData *exif, const gchar *key)
{
try {
- Exiv2::Metadatum *item = NULL;
+ Exiv2::Metadatum *item = nullptr;
try {
Exiv2::ExifKey ekey(key);
- exif->exifData().add(ekey, NULL);
+ exif->exifData().add(ekey, nullptr);
auto pos = exif->exifData().end(); // a hack, there should be a better way to get the currently added item
pos--;
item = &*pos;
catch (Exiv2::AnyError& e) {
try {
Exiv2::IptcKey ekey(key);
- exif->iptcData().add(ekey, NULL);
+ exif->iptcData().add(ekey, nullptr);
auto pos = exif->iptcData().end();
pos--;
item = &*pos;
catch (Exiv2::AnyError& e) {
#if EXIV2_TEST_VERSION(0,16,0)
Exiv2::XmpKey ekey(key);
- exif->xmpData().add(ekey, NULL);
+ exif->xmpData().add(ekey, nullptr);
auto pos = exif->xmpData().end();
pos--;
item = &*pos;
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
return (ExifItem *)item;
}
#endif
- return NULL;
+ return nullptr;
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
return (ExifItem *)item;
}
#endif
- return NULL;
+ return nullptr;
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
char *exif_item_get_tag_name(ExifItem *item)
{
try {
- if (!item) return NULL;
+ if (!item) return nullptr;
return g_strdup((reinterpret_cast<Exiv2::Metadatum *>(item))->key().c_str());
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
char *exif_item_get_data(ExifItem *item, guint *data_len)
{
try {
- if (!item) return 0;
+ if (!item) return nullptr;
auto md = reinterpret_cast<Exiv2::Metadatum *>(item);
if (data_len) *data_len = md->size();
auto data = static_cast<char *>(g_malloc(md->size()));
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
char *exif_item_get_description(ExifItem *item)
{
try {
- if (!item) return NULL;
+ if (!item) return nullptr;
return utf8_validate_or_convert((reinterpret_cast<Exiv2::Metadatum *>(item))->tagLabel().c_str());
}
catch (std::exception& e) {
-// debug_exception(e);
- return NULL;
+ return nullptr;
}
}
}
}
-const char *exif_item_get_format_name(ExifItem *item, gboolean UNUSED(brief))
+const char *exif_item_get_format_name(ExifItem *item, gboolean)
{
try {
- if (!item) return NULL;
+ if (!item) return nullptr;
return (reinterpret_cast<Exiv2::Metadatum *>(item))->typeName();
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
-gchar *exif_item_get_data_as_text(ExifItem *item)
+gchar *exif_item_get_data_as_text(ExifItem *item, ExifData *exif)
{
try {
- if (!item) return NULL;
+ if (!item) return nullptr;
auto metadatum = reinterpret_cast<Exiv2::Metadatum *>(item);
#if EXIV2_TEST_VERSION(0,17,0)
- return utf8_validate_or_convert(metadatum->print().c_str());
+ return utf8_validate_or_convert(metadatum->print(&exif->exifData()).c_str());
#else
std::stringstream str;
Exiv2::Exifdatum *exifdatum;
#endif
}
catch (Exiv2::AnyError& e) {
- return NULL;
+ return nullptr;
}
}
gchar *exif_item_get_string(ExifItem *item, int idx)
{
try {
- if (!item) return NULL;
+ if (!item) return nullptr;
auto em = reinterpret_cast<Exiv2::Metadatum *>(item);
#if EXIV2_TEST_VERSION(0,16,0)
std::string str = em->toString(idx);
#else
std::string str = em->toString(); /**< @FIXME ?? */
#endif
- if (idx == 0 && str == "") str = em->toString();
+ if (idx == 0 && str.empty()) str = em->toString();
if (str.length() > 5 && str.substr(0, 5) == "lang=")
{
std::string::size_type pos = str.find_first_of(' ');
return utf8_validate_or_convert(str.c_str());
}
catch (Exiv2::AnyError& e) {
- return NULL;
+ return nullptr;
}
}
ExifRational *exif_item_get_rational(ExifItem *item, gint *sign, guint n)
{
try {
- if (!item) return NULL;
- if (n >= exif_item_get_elements(item)) return NULL;
+ if (!item) return nullptr;
+ if (n >= exif_item_get_elements(item)) return nullptr;
Exiv2::Rational v = (reinterpret_cast<Exiv2::Metadatum *>(item))->toRational(n);
static ExifRational ret;
ret.num = v.first;
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
}
- return NULL;
+ return nullptr;
}
static const AltKey *find_alt_key(const gchar *xmp_key)
{
- gint i = 0;
-
- while (alt_keys[i].xmp_key)
- {
- if (strcmp(xmp_key, alt_keys[i].xmp_key) == 0) return &alt_keys[i];
- i++;
- }
- return NULL;
+ for (const auto& k : alt_keys)
+ if (strcmp(xmp_key, k.xmp_key) == 0) return &k;
+ return nullptr;
}
static gint exif_update_metadata_simple(ExifData *exif, const gchar *key, const GList *values)
static GList *exif_get_metadata_simple(ExifData *exif, const gchar *key, MetadataFormat format)
{
- GList *list = NULL;
+ GList *list = nullptr;
try {
try {
Exiv2::ExifKey ekey(key);
while (pos != exif->iptcData().end())
{
if (pos->key() == key)
- list = exif_add_value_to_glist(list, *pos, format, NULL);
+ list = exif_add_value_to_glist(list, *pos, format, nullptr);
++pos;
}
Exiv2::XmpKey ekey(key);
auto pos = exif->xmpData().findKey(ekey);
if (pos != exif->xmpData().end())
- list = exif_add_value_to_glist(list, *pos, format, NULL);
+ list = exif_add_value_to_glist(list, *pos, format, nullptr);
#endif
}
}
GList *exif_get_metadata(ExifData *exif, const gchar *key, MetadataFormat format)
{
- GList *list = NULL;
+ GList *list = nullptr;
- if (!key) return NULL;
+ if (!key) return nullptr;
if (format == METADATA_FORMATTED)
{
gchar *text;
gint key_valid;
text = exif_get_formatted_by_key(exif, key, &key_valid);
- if (key_valid) return g_list_append(NULL, text);
+ if (key_valid) return g_list_append(nullptr, text);
}
list = exif_get_metadata_simple(exif, key, format);
guchar *exif_get_preview(ExifData *exif, guint *data_len, gint requested_width, gint requested_height)
{
- if (!exif) return NULL;
+ if (!exif) return nullptr;
- if (!exif->image()) return NULL;
+ if (!exif->image()) return nullptr;
std::string const path = exif->image()->io().path();
/* given image pathname, first do simple (and fast) file extension test */
gboolean is_raw = filter_file_class(path.c_str(), FORMAT_CLASS_RAWIMAGE);
- if (!is_raw && requested_width == 0) return NULL;
+ if (!is_raw && requested_width == 0) return nullptr;
try {
// we are not interested in smaller thumbnails in normal image formats - we can use full image instead
if (!is_raw)
{
- if (pos->width_ < static_cast<uint32_t>(requested_width) || pos->height_ < static_cast<uint32_t>(requested_height)) return NULL;
+ if (pos->width_ < static_cast<uint32_t>(requested_width) || pos->height_ < static_cast<uint32_t>(requested_height)) return nullptr;
}
}
Exiv2::PreviewImage image = pm.getPreviewImage(*pos);
- Exiv2::DataBuf buf = image.copy();
-
-#if EXIV2_TEST_VERSION(0,28,0)
- *data_len = buf.size();
- auto b = buf.data();
- buf.reset();
- return b;
-#else
- std::pair<Exiv2::byte*, long> p = buf.release();
-
- *data_len = p.second;
- return p.first;
-#endif
+ // Let's not touch data_len until we finish copy.
+ // Just in case we run into OOM.
+ size_t img_sz = image.size();
+ auto* b = new Exiv2::byte[img_sz];
+ std::copy_n(image.pData(), img_sz, b);
+ *data_len = img_sz;
+ return b;
}
- return NULL;
+ return nullptr;
}
catch (Exiv2::AnyError& e) {
debug_exception(e);
- return NULL;
+ return nullptr;
}
}
-void exif_free_preview(guchar *buf)
+void exif_free_preview(const guchar *buf)
{
delete[] static_cast<Exiv2::byte*>(buf);
}
unsigned long offset;
};
-typedef struct _UnmapData UnmapData;
-struct _UnmapData
+struct UnmapData
{
guchar *ptr;
guchar *map_data;
type = Exiv2::ImageFactory::getType(map_data, map_len);
#if EXIV2_TEST_VERSION(0,16,0)
- TiffHeaderBase *tiffHeader = NULL;
+ std::unique_ptr<TiffHeaderBase> tiffHeader;
#else
- TiffHeade2 *tiffHeader = NULL;
+ std::unique_ptr<TiffHeade2> tiffHeader;
#endif
- Cr2Header *cr2Header = NULL;
+ std::unique_ptr<Cr2Header> cr2Header;
switch (type) {
case Exiv2::ImageType::tiff:
- tiffHeader = new TiffHeade2();
+ tiffHeader = std::make_unique<TiffHeade2>();
break;
case Exiv2::ImageType::cr2:
- cr2Header = new Cr2Header();
+ cr2Header = std::make_unique<Cr2Header>();
break;
#if EXIV2_TEST_VERSION(0,16,0)
case Exiv2::ImageType::orf:
- tiffHeader = new OrfHeader();
+ tiffHeader = std::make_unique<OrfHeader>();
break;
#endif
#if EXIV2_TEST_VERSION(0,13,0)
case Exiv2::ImageType::crw:
{
// Parse the image, starting with a CIFF header component
- Exiv2::CiffHeader::AutoPtr parseTree(new Exiv2::CiffHeader);
+ auto parseTree = std::make_unique<Exiv2::CiffHeader>();
parseTree->read(map_data, map_len);
CiffComponent *entry = parseTree->findComponent(0x2007, 0);
if (entry) offset = entry->pData() - map_data;
state);
rootDir->accept(reader);
-
- if (tiffHeader)
- delete tiffHeader;
- if (cr2Header)
- delete cr2Header;
}
RawFile::~RawFile(void)