/* exif-entry.c
*
* Copyright � 2001 Lutz M�ller <lutz@users.sourceforge.net>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 59 Temple Place - Suite 330,
* Boston, MA 02111-1307, USA.
*/
#include <config.h>
#include <libexif/exif-entry.h>
#include <libexif/exif-ifd.h>
#include <libexif/exif-utils.h>
#include <libexif/i18n.h>
#include <ctype.h>
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <time.h>
#include <math.h>
struct _ExifEntryPrivate
{
unsigned int ref_count;
ExifMem *mem;
};
/* This function is hidden in exif-data.c */
ExifLog *exif_data_get_log (ExifData *);
static void
exif_entry_log (ExifEntry *e, ExifLogCode code, const char *format, ...)
{
va_list args;
ExifLog *l = NULL;
if (e && e->parent && e->parent->parent)
l = exif_data_get_log (e->parent->parent);
va_start (args, format);
exif_logv (l, code, "ExifEntry", format, args);
va_end (args);
}
static void *
exif_entry_alloc (ExifEntry *e, unsigned int i)
{
void *d;
ExifLog *l = NULL;
if (!e || !e->priv || !i) return NULL;
d = exif_mem_alloc (e->priv->mem, i);
if (d) return d;
if (e->parent && e->parent->parent)
l = exif_data_get_log (e->parent->parent);
EXIF_LOG_NO_MEMORY (l, "ExifEntry", i);
return NULL;
}
static void *
exif_entry_realloc (ExifEntry *e, void *d_orig, unsigned int i)
{
void *d;
ExifLog *l = NULL;
if (!e || !e->priv) return NULL;
if (!i) { exif_mem_free (e->priv->mem, d_orig); return NULL; }
d = exif_mem_realloc (e->priv->mem, d_orig, i);
if (d) return d;
if (e->parent && e->parent->parent)
l = exif_data_get_log (e->parent->parent);
EXIF_LOG_NO_MEMORY (l, "ExifEntry", i);
return NULL;
}
ExifEntry *
exif_entry_new (void)
{
ExifMem *mem = exif_mem_new_default ();
ExifEntry *e = exif_entry_new_mem (mem);
exif_mem_unref (mem);
return e;
}
ExifEntry *
exif_entry_new_mem (ExifMem *mem)
{
ExifEntry *e = NULL;
e = exif_mem_alloc (mem, sizeof (ExifEntry));
if (!e) return NULL;
e->priv = exif_mem_alloc (mem, sizeof (ExifEntryPrivate));
if (!e->priv) { exif_mem_free (mem, e); return NULL; }
e->priv->ref_count = 1;
e->priv->mem = mem;
exif_mem_ref (mem);
return e;
}
void
exif_entry_ref (ExifEntry *e)
{
if (!e) return;
e->priv->ref_count++;
}
void
exif_entry_unref (ExifEntry *e)
{
if (!e) return;
e->priv->ref_count--;
if (!e->priv->ref_count)
exif_entry_free (e);
}
void
exif_entry_free (ExifEntry *e)
{
if (!e) return;
if (e->priv) {
ExifMem *mem = e->priv->mem;
if (e->data)
exif_mem_free (mem, e->data);
exif_mem_free (mem, e->priv);
exif_mem_free (mem, e);
exif_mem_unref (mem);
}
}
void
exif_entry_fix (ExifEntry *e)
{
unsigned int i;
ExifByteOrder o;
ExifRational r;
ExifSRational sr;
if (!e || !e->priv) return;
switch (e->tag) {
/* These tags all need to be of format SHORT. */
case EXIF_TAG_YCBCR_SUB_SAMPLING:
case EXIF_TAG_SUBJECT_AREA:
case EXIF_TAG_COLOR_SPACE:
case EXIF_TAG_PLANAR_CONFIGURATION:
case EXIF_TAG_SENSING_METHOD:
case EXIF_TAG_ORIENTATION:
case EXIF_TAG_YCBCR_POSITIONING:
case EXIF_TAG_PHOTOMETRIC_INTERPRETATION:
case EXIF_TAG_CUSTOM_RENDERED:
case EXIF_TAG_EXPOSURE_MODE:
case EXIF_TAG_WHITE_BALANCE:
case EXIF_TAG_SCENE_CAPTURE_TYPE:
case EXIF_TAG_GAIN_CONTROL:
case EXIF_TAG_SATURATION:
case EXIF_TAG_CONTRAST:
case EXIF_TAG_SHARPNESS:
switch (e->format) {
case EXIF_FORMAT_LONG:
if (!e->parent || !e->parent->parent) break;
o = exif_data_get_byte_order (e->parent->parent);
for (i = 0; i < e->components; i++)
exif_set_short (
e->data + i *
exif_format_get_size (
EXIF_FORMAT_SHORT), o,
(ExifShort) exif_get_long (
e->data + i *
exif_format_get_size (
EXIF_FORMAT_LONG), o));
e->format = EXIF_FORMAT_SHORT;
e->size = e->components *
exif_format_get_size (e->format);
e->data = exif_entry_realloc (e, e->data, e->size);
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag '%s' was of format '%s' (which is "
"against specification) and has been "
"changed to format '%s'.",
exif_tag_get_name (e->tag),
exif_format_get_name (EXIF_FORMAT_LONG),
exif_format_get_name (EXIF_FORMAT_SHORT));
break;
case EXIF_FORMAT_SHORT:
default:
break;
}
break;
/* All these tags need to be of format 'Rational'. */
case EXIF_TAG_FNUMBER:
case EXIF_TAG_APERTURE_VALUE:
case EXIF_TAG_EXPOSURE_TIME:
case EXIF_TAG_FOCAL_LENGTH:
switch (e->format) {
case EXIF_FORMAT_SRATIONAL:
if (!e->parent || !e->parent->parent) break;
o = exif_data_get_byte_order (e->parent->parent);
for (i = 0; i < e->components; i++) {
sr = exif_get_srational (e->data + i *
exif_format_get_size (
EXIF_FORMAT_SRATIONAL), o);
r.numerator = (ExifLong) sr.numerator;
r.denominator = (ExifLong) sr.denominator;
exif_set_rational (e->data + i *
exif_format_get_size (
EXIF_FORMAT_RATIONAL), o, r);
}
e->format = EXIF_FORMAT_RATIONAL;
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag '%s' was of format '%s' (which is "
"against specification) and has been "
"changed to format '%s'.",
exif_tag_get_name (e->tag),
exif_format_get_name (EXIF_FORMAT_SRATIONAL),
exif_format_get_name (EXIF_FORMAT_RATIONAL));
break;
default:
break;
}
break;
case EXIF_TAG_USER_COMMENT:
/* Format needs to be UNDEFINED. */
if (e->format != EXIF_FORMAT_UNDEFINED) {
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag 'UserComment' had invalid format '%s'. "
"Format has been set to 'undefined'.",
exif_format_get_name (e->format));
e->format = EXIF_FORMAT_UNDEFINED;
}
/* Some packages like Canon ZoomBrowser EX 4.5 store
only one zero byte followed by 7 bytes of rubbish */
if ((e->size >= 8) && (e->data[0] == 0)) {
memcpy(e->data, "\0\0\0\0\0\0\0\0", 8);
}
/* Some cameras fill the tag with '\0' or ' '. */
for (i = 0; i < e->size &&
(!e->data[i] || (e->data[i] == ' ')); i++);
if (i && (i == e->size)) {
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag 'UserComment' contained unnecessary "
"data which has been removed.");
exif_mem_free (e->priv->mem, e->data);
e->data = NULL;
e->size = 0;
e->components = 0;
}
/* There need to be at least 8 bytes. */
if (e->size < 8) {
e->data = exif_entry_realloc (e, e->data, 8 + e->size);
if (!e->data) {
e->size = 0;
e->components = 0;
return;
}
/* Assume ASCII */
memmove (e->data + 8, e->data, e->size);
memcpy (e->data, "ASCII\0\0\0", 8);
e->size += 8;
e->components += 8;
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag 'UserComment' has been expanded to at "
"least 8 bytes in order to follow the "
"specification.");
break;
}
/*
* If the first 8 bytes are empty and real data starts
* afterwards, let's assume ASCII and claim the 8 first
* bytes for the format specifyer.
*/
if (i >= 8) {
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag 'UserComment' did not start with "
"format identifyer. This has been fixed.");
memcpy (e->data, "ASCII\0\0\0", 8);
}
/* First 8 bytes need to follow the specification. */
if (memcmp (e->data, "ASCII\0\0\0" , 8) &&
memcmp (e->data, "UNICODE\0" , 8) &&
memcmp (e->data, "JIS\0\0\0\0\0" , 8) &&
memcmp (e->data, "\0\0\0\0\0\0\0\0", 8)) {
e->data = exif_entry_realloc (e, e->data, 8 + e->size);
if (!e->data) {
e->size = 0;
e->components = 0;
break;
}
/* Assume ASCII */
memmove (e->data + 8, e->data, e->size);
memcpy (e->data, "ASCII\0\0\0", 8);
e->size += 8;
e->components += 8;
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag 'UserComment' did not start with "
"format identifyer. This has been fixed.");
break;
}
break;
default:
break;
}
}
void
exif_entry_dump (ExifEntry *e, unsigned int indent)
{
char buf[1024];
char value[1024];
unsigned int i;
for (i = 0; i < 2 * indent; i++)
buf[i] = ' ';
buf[i] = '\0';
if (!e)
return;
printf ("%sTag: 0x%x ('%s')\n", buf, e->tag,
exif_tag_get_name (e->tag));
printf ("%s Format: %i ('%s')\n", buf, e->format,
exif_format_get_name (e->format));
printf ("%s Components: %i\n", buf, (int) e->components);
printf ("%s Size: %i\n", buf, e->size);
printf ("%s Value: %s\n", buf, exif_entry_get_value (e, value, sizeof(value)));
}
#define CF(entry,target,v,maxlen) \
{ \
if (entry->format != target) { \
exif_entry_log (entry, EXIF_LOG_CODE_CORRUPT_DATA, \
_("The tag '%s' contains data of an invalid " \
"format ('%s', expected '%s')."), \
exif_tag_get_name (entry->tag), \
exif_format_get_name (entry->format), \
exif_format_get_name (target)); \
break; \
} \
}
#define CC(entry,target,v,maxlen) \
{ \
if (entry->components != target) { \
exif_entry_log (entry, EXIF_LOG_CODE_CORRUPT_DATA, \
_("The tag '%s' contains an invalid number of " \
"components (%i, expected %i)."), \
exif_tag_get_name (entry->tag), \
(int) entry->components, (int) target); \
break; \
} \
}
static struct {
ExifTag tag;
const char *strings[10];
} list[] = {
{ EXIF_TAG_PLANAR_CONFIGURATION,
{ N_("chunky format"), N_("planar format"), NULL}},
{ EXIF_TAG_SENSING_METHOD,
{ "", N_("Not defined"), N_("One-chip color area sensor"),
N_("Two-chip color area sensor"), N_("Three-chip color area sensor"),
N_("Color sequential area sensor"), "", N_("Trilinear sensor"),
N_("Color sequential linear sensor"), NULL}},
{ EXIF_TAG_ORIENTATION,
{ "", N_("top - left"), N_("top - right"), N_("bottom - right"),
N_("bottom - left"), N_("left - top"), N_("right - top"),
N_("right - bottom"), N_("left - bottom"), NULL}},
{ EXIF_TAG_YCBCR_POSITIONING,
{ "", N_("centered"), N_("co-sited"), NULL}},
{ EXIF_TAG_PHOTOMETRIC_INTERPRETATION, {"", N_("RGB"), N_("YCbCr"), NULL}},
{ EXIF_TAG_CUSTOM_RENDERED,
{ N_("Normal process"), N_("Custom process"), NULL}},
{ EXIF_TAG_EXPOSURE_MODE,
{ N_("Auto exposure"), N_("Manual exposure"), N_("Auto bracket"), NULL}},
{ EXIF_TAG_WHITE_BALANCE,
{ N_("Auto white balance"), N_("Manual white balance"), NULL}},
{ EXIF_TAG_SCENE_CAPTURE_TYPE,
{ N_("Standard"), N_("Landscape"), N_("Portrait"),
N_("Night scene"), NULL}},
{ EXIF_TAG_GAIN_CONTROL,
{ N_("Normal"), N_("Low gain up"), N_("High gain up"),
N_("Low gain down"), N_("High gain down"), NULL}},
{ EXIF_TAG_SATURATION,
{ N_("Normal"), N_("Low saturation"), N_("High saturation"), NULL}},
{ EXIF_TAG_CONTRAST , {N_("Normal"), N_("Soft"), N_("Hard"), NULL}},
{ EXIF_TAG_SHARPNESS, {N_("Normal"), N_("Soft"), N_("Hard"), NULL}},
{ 0, {NULL}}
};
static struct {
ExifTag tag;
struct {
int index;
const char *values[4];
} elem[25];
} list2[] = {
{ EXIF_TAG_METERING_MODE,
{ { 0, {N_("Unknown"), NULL}},
{ 1, {N_("Average"), N_("avg"), NULL}},
{ 2, {N_("Center-Weighted Average"), N_("Center-Weight"), NULL}},
{ 3, {N_("Spot"), NULL}},
{ 4, {N_("Multi Spot"), NULL}},
{ 5, {N_("Pattern"), NULL}},
{ 6, {N_("Partial"), NULL}},
{255, {N_("Other"), NULL}},
{ 0, {NULL}}}},
{ EXIF_TAG_COMPRESSION,
{ {1, {N_("Uncompressed"), NULL}},
{5, {N_("LZW compression"), NULL}},
{6, {N_("JPEG compression"), NULL}},
{0, {NULL}}}},
{ EXIF_TAG_LIGHT_SOURCE,
{ { 0, {N_("Unknown"), NULL}},
{ 1, {N_("Daylight"), NULL}},
{ 2, {N_("Fluorescent"), NULL}},
{ 3, {N_("Tungsten incandescent light"), N_("Tungsten"), NULL}},
{ 4, {N_("Flash"), NULL}},
{ 9, {N_("Fine weather"), NULL}},
{ 10, {N_("Cloudy weather"), N_("cloudy"), NULL}},
{ 11, {N_("Shade"), NULL}},
{ 12, {N_("Daylight fluorescent"), NULL}},
{ 13, {N_("Day white fluorescent"), NULL}},
{ 14, {N_("Cool white fluorescent"), NULL}},
{ 15, {N_("White fluorescent"), NULL}},
{ 17, {N_("Standard light A"), NULL}},
{ 18, {N_("Standard light B"), NULL}},
{ 19, {N_("Standard light C"), NULL}},
{ 20, {N_("D55"), NULL}},
{ 21, {N_("D65"), NULL}},
{ 22, {N_("D75"), NULL}},
{ 24, {N_("ISO studio tungsten"),NULL}},
{255, {N_("Other"), NULL}},
{ 0, {NULL}}}},
{ EXIF_TAG_FOCAL_PLANE_RESOLUTION_UNIT,
{ {2, {N_("Inch"), N_("in"), NULL}},
{3, {N_("Centimeter"), N_("cm"), NULL}},
{0, {NULL}}}},
{ EXIF_TAG_RESOLUTION_UNIT,
{ {2, {N_("Inch"), N_("in"), NULL}},
{3, {N_("Centimeter"), N_("cm"), NULL}},
{0, {NULL}}}},
{ EXIF_TAG_EXPOSURE_PROGRAM,
{ {0, {N_("Not defined"), NULL}},
{1, {N_("Manual"), NULL}},
{2, {N_("Normal program"), N_("Normal"), NULL}},
{3, {N_("Aperture priority"), N_("Aperture"), NULL}},
{4, {N_("Shutter priority"),N_("Shutter"), NULL}},
{5, {N_("Creative program (biased toward depth of field)"),
N_("Creative"), NULL}},
{6, {N_("Creative program (biased toward fast shutter speed"),
N_("Action"), NULL}},
{7, {N_("Portrait mode (for closeup photos with the background out "
"of focus)"), N_("Portrait"), NULL}},
{8, {N_("Landscape mode (for landscape photos with the background "
"in focus)"), N_("Landscape"), NULL}},
{0, {NULL}}}},
{ EXIF_TAG_FLASH,
{ {0x0000, {N_("Flash did not fire."), N_("no flash"), NULL}},
{0x0001, {N_("Flash fired."), N_("flash"), N_("Yes"), NULL}},
{0x0005, {N_("Strobe return light not detected."), N_("W/o strobe"),
NULL}},
{0x0007, {N_("Strobe return light detected."), N_("W. strobe"), NULL}},
{0x0009, {N_("Flash fired, compulsatory flash mode"), NULL}},
{0x000d, {N_("Flash fired, compulsatory flash mode, return light "
"not detected."), NULL}},
{0x000f, {N_("Flash fired, compulsatory flash mode, return light "
"detected."), NULL}},
{0x0010, {N_("Flash did not fire, compulsatory flash mode."), NULL}},
{0x0018, {N_("Flash did not fire, auto mode."), NULL}},
{0x0019, {N_("Flash fired, auto mode."), NULL}},
{0x001d, {N_("Flash fired, auto mode, return light not detected."),
NULL}},
{0x001f, {N_("Flash fired, auto mode, return light detected."), NULL}},
{0x0020, {N_("No flash function."),NULL}},
{0x0041, {N_("Flash fired, red-eye reduction mode."), NULL}},
{0x0045, {N_("Flash fired, red-eye reduction mode, return light "
"not detected."), NULL}},
{0x0047, {N_("Flash fired, red-eye reduction mode, return light "
"detected."), NULL}},
{0x0049, {N_("Flash fired, compulsory flash mode, red-eye reduction "
"mode."), NULL}},
{0x004d, {N_("Flash fired, compulsory flash mode, red-eye reduction "
"mode, return light not detected"), NULL}},
{0x004f, {N_("Flash fired, compulsory flash mode, red-eye reduction, "
"return light detected"), NULL}},
{0x0058, {N_("Flash did not fire, auto mode, red-eye reduction mode"), NULL}},
{0x0059, {N_("Flash fired, auto mode, red-eye reduction mode"), NULL}},
{0x005d, {N_("Flash fired, auto mode, return light not detected, "
"red-eye reduction mode."), NULL}},
{0x005f, {N_("Flash fired, auto mode, return light detected, "
"red-eye reduction mode."), NULL}},
{0x0000, {NULL}}}},
{EXIF_TAG_SUBJECT_DISTANCE_RANGE,
{ {0, {N_("Unknown"), N_("?"), NULL}},
{1, {N_("Macro"), NULL}},
{2, {N_("Close view"), N_("close"), NULL}},
{3, {N_("Distant view"), N_("distant"), NULL}},
{0, {NULL}}}},
{ EXIF_TAG_COLOR_SPACE,
{ {1, {N_("sRGB"), NULL}},
{0xffff, {N_("Uncalibrated"), NULL}}}},
{0, }
};
const char *
exif_entry_get_value (ExifEntry *e, char *val, unsigned int maxlen)
{
unsigned int i, j, k, l, ts;
const unsigned char *t;
ExifByte v_byte;
ExifShort v_short, v_short2, v_short3, v_short4;
ExifLong v_long;
ExifSLong v_slong;
ExifRational v_rat;
ExifSRational v_srat;
char b[64];
const char *c;
ExifByteOrder o;
double d;
ExifEntry *entry;
static struct {
char *label;
char major, minor;
} versions[] = {
{"0110", 1, 1},
{"0120", 1, 2},
{"0200", 2, 0},
{"0210", 2, 1},
{"0220", 2, 2},
{"0221", 2, 21},
{NULL , 0, 0}
};
/* FIXME: This belongs to somewhere else. */
bind_textdomain_codeset (GETTEXT_PACKAGE, "UTF-8");
bindtextdomain (GETTEXT_PACKAGE, LOCALEDIR);
/* We need the byte order */
if (!e || !e->parent || !e->parent->parent)
return val;
o = exif_data_get_byte_order (e->parent->parent);
memset (val, 0, maxlen);
memset (b, 0, sizeof (b));
maxlen--;
/* Sanity check */
if (e->size != e->components * exif_format_get_size (e->format)) {
snprintf (val, maxlen, _("Invalid size of entry (%i, "
"expected %li x %i)."), e->size, e->components,
exif_format_get_size (e->format));
return val;
}
switch (e->tag) {
case EXIF_TAG_USER_COMMENT:
/*
* The specification says UNDEFINED, but some
* manufacturers don't care and use ASCII. If this is the
* case here, only refuse to read it if there is no chance
* of finding readable data.
*/
if ((e->format != EXIF_FORMAT_ASCII) ||
(e->size <= 8) ||
( memcmp (e->data, "ASCII\0\0\0" , 8) &&
memcmp (e->data, "UNICODE\0" , 8) &&
memcmp (e->data, "JIS\0\0\0\0\0", 8) &&
memcmp (e->data, "\0\0\0\0\0\0\0\0", 8)))
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
/*
* Note that, according to the specification (V2.1, p 40),
* the user comment field does not have to be
* NULL terminated.
*/
if ((e->size >= 8) && !memcmp (e->data, "ASCII\0\0\0", 8)) {
strncpy (val, (char *) e->data + 8, MIN (e->size - 8, maxlen));
break;
}
if ((e->size >= 8) && !memcmp (e->data, "UNICODE\0", 8)) {
strncpy (val, _("Unsupported UNICODE string"), maxlen);
break;
}
if ((e->size >= 8) && !memcmp (e->data, "JIS\0\0\0\0\0", 8)) {
strncpy (val, _("Unsupported JIS string"), maxlen);
break;
}
/* Check if there is really some information in the tag. */
for (i = 0; (i < e->size) &&
(!e->data[i] || (e->data[i] == ' ')); i++);
if (i == e->size) break;
/*
* If we reach this point, the tag does not
* comply with the standard and seems to contain data.
* Print as much as possible.
*/
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Tag UserComment does not comply "
"with standard but contains data.");
for (; (i < e->size) && (strlen (val) < maxlen - 1); i++) {
exif_entry_log (e, EXIF_LOG_CODE_DEBUG,
"Byte at position %i: 0x%02x", i, e->data[i]);
val[strlen (val)] =
isprint (e->data[i]) ? e->data[i] : '.';
}
break;
case EXIF_TAG_EXIF_VERSION:
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
CC (e, 4, val, maxlen);
strncpy (val, _("Unknown Exif Version"), maxlen);
for (i = 0; versions[i].label; i++) {
if (!memcmp (e->data, versions[i].label, 4)) {
snprintf (val, maxlen,
_("Exif Version %d.%d"),
versions[i].major,
versions[i].minor);
break;
}
}
break;
case EXIF_TAG_FLASH_PIX_VERSION:
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
CC (e, 4, val, maxlen);
if (!memcmp (e->data, "0100", 4))
strncpy (val, _("FlashPix Version 1.0"), maxlen);
else if (!memcmp (e->data, "0101", 4))
strncpy (val, _("FlashPix Version 1.01"), maxlen);
else
strncpy (val, _("Unknown FlashPix Version"), maxlen);
break;
case EXIF_TAG_COPYRIGHT:
CF (e, EXIF_FORMAT_ASCII, val, maxlen);
/*
* First part: Photographer.
* Some cameras store a string like " " here. Ignore it.
*/
if (e->size && e->data &&
(strspn (e->data, " ") != strlen ((char *) e->data)))
strncpy (val, (char *) e->data, MIN (maxlen, e->size));
else
strncpy (val, _("[None]"), maxlen);
strncat (val, " ", maxlen - strlen (val));
strncat (val, _("(Photographer)"), maxlen - strlen (val));
/* Second part: Editor. */
t = e->data + strlen ((char *) e->data) + 1;
ts = e->data + e->size - t;
strncat (val, " - ", maxlen - strlen (val));
if (e->size && e->data && (ts > 0) &&
(strspn (t, " ") != ts))
strncat (val, t, MIN (maxlen - strlen (val), ts));
else
strncat (val, _("[None]"), maxlen - strlen (val));
strncat (val, " ", maxlen - strlen (val));
strncat (val, _("(Editor)"), maxlen - strlen (val));
break;
case EXIF_TAG_FNUMBER:
CF (e, EXIF_FORMAT_RATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_rat = exif_get_rational (e->data, o);
if (!v_rat.denominator) return val;
snprintf (val, maxlen, "f/%.01f", (float) v_rat.numerator /
(float) v_rat.denominator);
break;
case EXIF_TAG_APERTURE_VALUE:
CF (e, EXIF_FORMAT_RATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_rat = exif_get_rational (e->data, o);
if (!v_rat.denominator) return val;
snprintf (val, maxlen, "f/%.01f",
pow (2 , ((float) v_rat.numerator /
(float) v_rat.denominator) / 2.));
break;
case EXIF_TAG_FOCAL_LENGTH:
CF (e, EXIF_FORMAT_RATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_rat = exif_get_rational (e->data, o);
if (!v_rat.denominator) return val;
/*
* For calculation of the 35mm equivalent,
* Minolta cameras need a multiplier that depends on the
* camera model.
*/
d = 0.;
entry = exif_content_get_entry (
e->parent->parent->ifd[EXIF_IFD_0], EXIF_TAG_MAKE);
if (entry && entry->data &&
!strncmp (entry->data, "Minolta", 7)) {
entry = exif_content_get_entry (
e->parent->parent->ifd[EXIF_IFD_0],
EXIF_TAG_MODEL);
if (entry && entry->data) {
if (!strncmp (entry->data, "DiMAGE 7", 8))
d = 3.9;
else if (!strncmp (entry->data, "DiMAGE 5", 8))
d = 4.9;
}
}
if (d)
snprintf (b, sizeof (b), _(" (35 equivalent: %d mm)"),
(int) (d * (double) v_rat.numerator /
(double) v_rat.denominator));
snprintf (val, maxlen, "%.1f mm",
(float) v_rat.numerator / (float) v_rat.denominator);
if (maxlen > strlen (val) + strlen (b))
strncat (val, b, maxlen - strlen (val) - 1);
break;
case EXIF_TAG_SUBJECT_DISTANCE:
CF (e, EXIF_FORMAT_RATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_rat = exif_get_rational (e->data, o);
if (!v_rat.denominator) return val;
snprintf (val, maxlen, "%.1f m", (float) v_rat.numerator /
(float) v_rat.denominator);
break;
case EXIF_TAG_EXPOSURE_TIME:
CF (e, EXIF_FORMAT_RATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_rat = exif_get_rational (e->data, o);
if (!v_rat.denominator) return val;
d = (double) v_rat.numerator / (double) v_rat.denominator;
if (d < 1)
snprintf (val, maxlen, _("1/%d"),
(int) (1. / d));
else
snprintf (val, maxlen, _("%d"), (int) d);
if (maxlen > strlen (val) + strlen (_(" sec.")))
strncat (val, _(" sec."), maxlen - strlen (val) - 1);
break;
case EXIF_TAG_SHUTTER_SPEED_VALUE:
CF (e, EXIF_FORMAT_SRATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_srat = exif_get_srational (e->data, o);
if (!v_srat.denominator) return val;
snprintf (val, maxlen, "%.0f/%.0f", (float) v_srat.numerator,
(float) v_srat.denominator);
if (maxlen > strlen (val) + strlen (_(" sec.")))
strncat (val, _(" sec."), maxlen - strlen (val) - 1);
snprintf (b, sizeof (b), " (APEX: %i)",
(int) pow (sqrt(2), (float) v_srat.numerator /
(float) v_srat.denominator));
if (maxlen > strlen (val) + strlen (b))
strncat (val, b, maxlen - strlen (val) - 1);
break;
case EXIF_TAG_BRIGHTNESS_VALUE:
CF (e, EXIF_FORMAT_SRATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_srat = exif_get_srational (e->data, o);
snprintf (val, maxlen, "%i/%i", (int) v_srat.numerator,
(int) v_srat.denominator);
/* FIXME: How do I calculate the APEX value? */
break;
case EXIF_TAG_FILE_SOURCE:
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
CC (e, 1, val, maxlen);
switch (e->data[0]) {
case 0x03: strncpy (val, _("DSC"), maxlen); break;
default: snprintf (val, maxlen, "0x%02x", e->data[0]); break;
}
break;
case EXIF_TAG_COMPONENTS_CONFIGURATION:
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
CC (e, 4, val, maxlen);
for (i = 0; i < 4; i++) {
switch (e->data[i]) {
case 0: c = _("-"); break;
case 1: c = _("Y"); break;
case 2: c = _("Cb"); break;
case 3: c = _("Cr"); break;
case 4: c = _("R"); break;
case 5: c = _("G"); break;
case 6: c = _("B"); break;
default: c = _("reserved"); break;
}
strncat (val, c, maxlen - strlen (val));
if (i < 3) strncat (val, " ", maxlen - strlen (val));
}
break;
case EXIF_TAG_EXPOSURE_BIAS_VALUE:
CF (e, EXIF_FORMAT_SRATIONAL, val, maxlen);
CC (e, 1, val, maxlen);
v_srat = exif_get_srational (e->data, o);
if (!v_srat.denominator) return val;
snprintf (val, maxlen, "%s%.01f",
v_srat.denominator * v_srat.numerator > 0 ? "+" : "",
(double) v_srat.numerator /
(double) v_srat.denominator);
break;
case EXIF_TAG_YCBCR_SUB_SAMPLING:
CF (e, EXIF_FORMAT_SHORT, val, maxlen);
CC (e, 2, val, maxlen);
v_short = exif_get_short (e->data, o);
v_short2 = exif_get_short (
e->data + exif_format_get_size (e->format),
o);
if ((v_short == 2) && (v_short2 == 1))
strncpy (val, _("YCbCr4:2:2"), maxlen);
else if ((v_short == 2) && (v_short2 == 2))
strncpy (val, _("YCbCr4:2:0"), maxlen);
else
snprintf (val, maxlen, "%i, %i", v_short, v_short2);
break;
case EXIF_TAG_MAKER_NOTE:
CF (e, EXIF_FORMAT_UNDEFINED, val, maxlen);
snprintf (val, maxlen, _("%i bytes unknown data"),
(int) e->components);
break;
case EXIF_TAG_SUBJECT_AREA:
CF (e, EXIF_FORMAT_SHORT, val, maxlen);
switch (e->components) {
case 2:
v_short = exif_get_short (e->data, o);
v_short2 = exif_get_short (e->data + 2, o);
snprintf (val, maxlen, "(x,y) = (%i,%i)",
v_short, v_short2);
break;
case 3:
v_short = exif_get_short (e->data, o);
v_short2 = exif_get_short (e->data + 2, o);
v_short3 = exif_get_short (e->data + 4, o);
snprintf (val, maxlen, _("Within distance %i of "
"(x,y) = (%i,%i)"), v_short3, v_short,
v_short2);
break;
case 4:
v_short = exif_get_short (e->data, o);
v_short2 = exif_get_short (e->data + 2, o);
v_short3 = exif_get_short (e->data + 4, o);
v_short4 = exif_get_short (e->data + 6, o);
snprintf (val, maxlen, _("Within rectangle "
"(width %i, height %i) around "
"(x,y) = (%i,%i)"), v_short3, v_short4,
v_short, v_short2);
break;
default:
snprintf (val, maxlen, _("Unexpected number "
"of components (%li, expected 2, 3, or 4)."),
e->components);
}
break;
case EXIF_TAG_METERING_MODE:
case EXIF_TAG_COMPRESSION:
case EXIF_TAG_FOCAL_PLANE_RESOLUTION_UNIT:
case EXIF_TAG_RESOLUTION_UNIT:
case EXIF_TAG_EXPOSURE_PROGRAM:
case EXIF_TAG_FLASH:
case EXIF_TAG_SUBJECT_DISTANCE_RANGE:
case EXIF_TAG_COLOR_SPACE:
CF (e,EXIF_FORMAT_SHORT, val, maxlen);
CC (e, 1, val, maxlen);
v_short = exif_get_short (e->data, o);
/* Search the tag */
for (i = 0; list2[i].tag && (list2[i].tag != e->tag); i++);
if (!list2[i].tag) {
strncpy (val, "Internal error.", maxlen - 1);
break;
}
/* Find the value */
for (j = 0; list2[i].elem[j].values &&
(list2[i].elem[j].index < v_short); j++);
if (list2[i].elem[j].index != v_short) {
snprintf (val, maxlen, "Internal error (unknown "
"value %i).", v_short);
break;
}
/* Find a short enough value */
memset (val, 0, maxlen);
for (k = 0; list2[i].elem[j].values &&
list2[i].elem[j].values[k]; k++) {
l = strlen (_(list2[i].elem[j].values[k]));
if ((maxlen > l) && (strlen (val) < l))
strncpy (val, _(list2[i].elem[j].values[k]), maxlen - 1);
}
if (!strlen (val)) snprintf (val, maxlen, "%i", v_short);
break;
case EXIF_TAG_PLANAR_CONFIGURATION:
case EXIF_TAG_SENSING_METHOD:
case EXIF_TAG_ORIENTATION:
case EXIF_TAG_YCBCR_POSITIONING:
case EXIF_TAG_PHOTOMETRIC_INTERPRETATION:
case EXIF_TAG_CUSTOM_RENDERED:
case EXIF_TAG_EXPOSURE_MODE:
case EXIF_TAG_WHITE_BALANCE:
case EXIF_TAG_SCENE_CAPTURE_TYPE:
case EXIF_TAG_GAIN_CONTROL:
case EXIF_TAG_SATURATION:
case EXIF_TAG_CONTRAST:
case EXIF_TAG_SHARPNESS:
CF (e, EXIF_FORMAT_SHORT, val, maxlen);
CC (e, 1, val, maxlen);
v_short = exif_get_short (e->data, o);
/* Search the tag */
for (i = 0; list[i].tag && (list[i].tag != e->tag); i++);
if (!list[i].tag) {
strncpy (val, "Internal error.", maxlen - 1);
break;
}
/* Find the value */
for (j = 0; list[i].strings[j] && (j < v_short); j++);
if (!list[i].strings[j])
snprintf (val, maxlen, "%i", v_short);
else
strncpy (val, _(list[i].strings[j]), maxlen - 1);
break;
default:
if (!e->components) break;
switch (e->format) {
case EXIF_FORMAT_UNDEFINED:
break;
case EXIF_FORMAT_BYTE:
case EXIF_FORMAT_SBYTE:
v_byte = e->data[0];
snprintf (val, maxlen, "0x%02x", v_byte);
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_byte = e->data[i];
snprintf (b, sizeof (b), ", 0x%02x", v_byte);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed)maxlen <= 0) break;
}
break;
case EXIF_FORMAT_SHORT:
case EXIF_FORMAT_SSHORT:
v_short = exif_get_short (e->data, o);
snprintf (val, maxlen, "%i", v_short);
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_short = exif_get_short (e->data +
exif_format_get_size (e->format) *
i, o);
snprintf (b, sizeof (b), ", %i", v_short);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed)maxlen <= 0) break;
}
break;
case EXIF_FORMAT_LONG:
v_long = exif_get_long (e->data, o);
snprintf (val, maxlen, "%li", (long int) v_long);
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_long = exif_get_long (e->data +
exif_format_get_size (e->format) *
i, o);
snprintf (b, sizeof (b), ", %li",
(long int) v_long);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed)maxlen <= 0) break;
}
break;
case EXIF_FORMAT_SLONG:
v_slong = exif_get_slong (e->data, o);
snprintf (val, maxlen, "%li", (long int) v_slong);
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_long = exif_get_slong (e->data +
exif_format_get_size (e->format) *
i, o);
snprintf (b, sizeof (b), ", %li",
(long int) v_long);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed)maxlen <= 0) break;
}
break;
case EXIF_FORMAT_ASCII:
strncpy (val, (char *) e->data, MIN (maxlen, e->size));
break;
case EXIF_FORMAT_RATIONAL:
v_rat = exif_get_rational (e->data, o);
if (v_rat.denominator) {
snprintf (val, maxlen, "%2.2f", (double)v_rat.numerator / v_rat.denominator);
} else {
snprintf (val, maxlen, "%i/%i", v_rat.numerator, v_rat.denominator);
}
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_rat = exif_get_rational (
e->data + 8 * i, o);
snprintf (b, sizeof (b), ", %2.2f",
(double)v_rat.numerator / v_rat.denominator);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed)maxlen <= 0) break;
}
break;
case EXIF_FORMAT_SRATIONAL:
v_srat = exif_get_srational (e->data, o);
if (v_srat.denominator) {
snprintf (val, maxlen, "%2.2f", (double)v_srat.numerator / v_srat.denominator);
} else {
snprintf (val, maxlen, "%i/%i", v_srat.numerator, v_srat.denominator);
}
maxlen -= strlen (val);
for (i = 1; i < e->components; i++) {
v_srat = exif_get_srational (
e->data + 8 * i, o);
snprintf (b, sizeof (b), ", %2.2f",
(double)v_srat.numerator / v_srat.denominator);
strncat (val, b, maxlen);
maxlen -= strlen (b);
if ((signed) maxlen <= 0) break;
}
break;
case EXIF_FORMAT_DOUBLE:
case EXIF_FORMAT_FLOAT:
default:
/* What to do here? */
break;
}
}
return val;
}
void
exif_entry_initialize (ExifEntry *e, ExifTag tag)
{
time_t t;
struct tm *tm;
ExifRational r;
ExifByteOrder o;
/* We need the byte order */
if (!e || !e->parent || e->data || !e->parent->parent)
return;
o = exif_data_get_byte_order (e->parent->parent);
e->tag = tag;
switch (tag) {
/* LONG, 1 component, no default */
case EXIF_TAG_PIXEL_X_DIMENSION:
case EXIF_TAG_PIXEL_Y_DIMENSION:
case EXIF_TAG_EXIF_IFD_POINTER:
case EXIF_TAG_GPS_INFO_IFD_POINTER:
case EXIF_TAG_INTEROPERABILITY_IFD_POINTER:
case EXIF_TAG_JPEG_INTERCHANGE_FORMAT_LENGTH:
case EXIF_TAG_JPEG_INTERCHANGE_FORMAT:
e->components = 1;
e->format = EXIF_FORMAT_LONG;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
/* SHORT, 1 component, no default */
case EXIF_TAG_SUBJECT_LOCATION:
case EXIF_TAG_SENSING_METHOD:
case EXIF_TAG_PHOTOMETRIC_INTERPRETATION:
case EXIF_TAG_COMPRESSION:
case EXIF_TAG_EXPOSURE_MODE:
case EXIF_TAG_WHITE_BALANCE:
case EXIF_TAG_FOCAL_LENGTH_IN_35MM_FILM:
case EXIF_TAG_GAIN_CONTROL:
case EXIF_TAG_SUBJECT_DISTANCE_RANGE:
case EXIF_TAG_FLASH:
case EXIF_TAG_COLOR_SPACE:
/* SHORT, 1 component, default 0 */
case EXIF_TAG_IMAGE_WIDTH:
case EXIF_TAG_IMAGE_LENGTH:
case EXIF_TAG_EXPOSURE_PROGRAM:
case EXIF_TAG_LIGHT_SOURCE:
case EXIF_TAG_METERING_MODE:
case EXIF_TAG_CUSTOM_RENDERED:
case EXIF_TAG_SCENE_CAPTURE_TYPE:
case EXIF_TAG_CONTRAST:
case EXIF_TAG_SATURATION:
case EXIF_TAG_SHARPNESS:
e->components = 1;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
exif_set_short (e->data, o, 0);
break;
/* SHORT, 1 component, default 1 */
case EXIF_TAG_ORIENTATION:
case EXIF_TAG_PLANAR_CONFIGURATION:
case EXIF_TAG_YCBCR_POSITIONING:
e->components = 1;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
exif_set_short (e->data, o, 1);
break;
/* SHORT, 1 component, default 2 */
case EXIF_TAG_RESOLUTION_UNIT:
case EXIF_TAG_FOCAL_PLANE_RESOLUTION_UNIT:
e->components = 1;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
exif_set_short (e->data, o, 2);
break;
/* SHORT, 1 component, default 3 */
case EXIF_TAG_SAMPLES_PER_PIXEL:
e->components = 1;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
exif_set_short (e->data, o, 3);
break;
case EXIF_TAG_BITS_PER_SAMPLE:
e->components = 3;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
exif_set_short (e->data, o, 8);
exif_set_short (
e->data + exif_format_get_size (e->format),
o, 8);
exif_set_short (
e->data + 2 * exif_format_get_size (e->format),
o, 8);
break;
case EXIF_TAG_YCBCR_SUB_SAMPLING:
e->components = 2;
e->format = EXIF_FORMAT_SHORT;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
exif_set_short (e->data, o, 2);
exif_set_short (
e->data + exif_format_get_size (e->format),
o, 1);
break;
/* SHORT, any component, no default */
case EXIF_TAG_SUBJECT_AREA:
case EXIF_TAG_ISO_SPEED_RATINGS:
e->components = 0;
e->format = EXIF_FORMAT_SHORT;
e->size = 0;
e->data = 0;
break;
/* SRATIONAL, 1 component, no default */
case EXIF_TAG_EXPOSURE_BIAS_VALUE:
case EXIF_TAG_BRIGHTNESS_VALUE:
case EXIF_TAG_SHUTTER_SPEED_VALUE:
e->components = 1;
e->format = EXIF_FORMAT_SRATIONAL;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
/* RATIONAL, 1 component, no default */
case EXIF_TAG_EXPOSURE_TIME:
case EXIF_TAG_FOCAL_PLANE_X_RESOLUTION:
case EXIF_TAG_FOCAL_PLANE_Y_RESOLUTION:
case EXIF_TAG_EXPOSURE_INDEX:
case EXIF_TAG_FLASH_ENERGY:
case EXIF_TAG_FNUMBER:
case EXIF_TAG_FOCAL_LENGTH:
case EXIF_TAG_SUBJECT_DISTANCE:
case EXIF_TAG_MAX_APERTURE_VALUE:
case EXIF_TAG_APERTURE_VALUE:
case EXIF_TAG_COMPRESSED_BITS_PER_PIXEL:
case EXIF_TAG_PRIMARY_CHROMATICITIES:
case EXIF_TAG_DIGITAL_ZOOM_RATIO:
e->components = 1;
e->format = EXIF_FORMAT_RATIONAL;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
/* RATIONAL, 1 component, default 72/1 */
case EXIF_TAG_X_RESOLUTION:
case EXIF_TAG_Y_RESOLUTION:
e->components = 1;
e->format = EXIF_FORMAT_RATIONAL;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
r.numerator = 72;
r.denominator = 1;
exif_set_rational (e->data, o, r);
break;
/* RATIONAL, 2 components, no default */
case EXIF_TAG_WHITE_POINT:
e->components = 2;
e->format = EXIF_FORMAT_RATIONAL;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
/* RATIONAL, 6 components */
case EXIF_TAG_REFERENCE_BLACK_WHITE:
e->components = 6;
e->format = EXIF_FORMAT_RATIONAL;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
r.denominator = 1;
r.numerator = 0;
exif_set_rational (e->data, o, r);
r.numerator = 255;
exif_set_rational (
e->data + exif_format_get_size (e->format), o, r);
r.numerator = 0;
exif_set_rational (
e->data + 2 * exif_format_get_size (e->format), o, r);
r.numerator = 255;
exif_set_rational (
e->data + 3 * exif_format_get_size (e->format), o, r);
r.numerator = 0;
exif_set_rational (
e->data + 4 * exif_format_get_size (e->format), o, r);
r.numerator = 255;
exif_set_rational (
e->data + 5 * exif_format_get_size (e->format), o, r);
break;
/* ASCII, 20 components, default current time */
case EXIF_TAG_DATE_TIME:
case EXIF_TAG_DATE_TIME_ORIGINAL:
case EXIF_TAG_DATE_TIME_DIGITIZED:
t = time (NULL);
tm = localtime (&t);
e->components = 20;
e->format = EXIF_FORMAT_ASCII;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
snprintf ((char *) e->data, e->size,
"%04i:%02i:%02i %02i:%02i:%02i",
tm->tm_year + 1900, tm->tm_mon + 1, tm->tm_mday,
tm->tm_hour, tm->tm_min, tm->tm_sec);
break;
/* EXIF_FORMAT_ASCII, 13 components */
case EXIF_TAG_RELATED_SOUND_FILE:
e->components = 13;
e->format = EXIF_FORMAT_ASCII;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
case EXIF_TAG_IMAGE_UNIQUE_ID:
e->components = 33;
e->format = EXIF_FORMAT_ASCII;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
break;
/* ASCII, any components, no default */
case EXIF_TAG_SPECTRAL_SENSITIVITY:
case EXIF_TAG_SUB_SEC_TIME:
case EXIF_TAG_SUB_SEC_TIME_ORIGINAL:
case EXIF_TAG_SUB_SEC_TIME_DIGITIZED:
case EXIF_TAG_IMAGE_DESCRIPTION:
case EXIF_TAG_MAKE:
case EXIF_TAG_MODEL:
case EXIF_TAG_SOFTWARE:
case EXIF_TAG_ARTIST:
case EXIF_TAG_COPYRIGHT:
e->components = 0;
e->format = EXIF_FORMAT_ASCII;
e->size = 0;
e->data = NULL;
break;
/* UNDEFINED, no components, no default */
case EXIF_TAG_OECF:
case EXIF_TAG_SPATIAL_FREQUENCY_RESPONSE:
case EXIF_TAG_NEW_CFA_PATTERN:
case EXIF_TAG_DEVICE_SETTING_DESCRIPTION:
case EXIF_TAG_MAKER_NOTE:
case EXIF_TAG_USER_COMMENT:
e->components = 0;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = 0;
e->data = NULL;
break;
/* UNDEFINED, 1 component, default 1 */
case EXIF_TAG_SCENE_TYPE:
e->components = 1;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
e->data[0] = 0x01;
break;
/* UNDEFINED, 1 component, default 3 */
case EXIF_TAG_FILE_SOURCE:
e->components = 1;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
e->data[0] = 0x03;
break;
/* UNDEFINED, 4 components, default 0 1 0 0 */
case EXIF_TAG_FLASH_PIX_VERSION:
e->components = 4;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
memcpy (e->data, "0100", 4);
break;
/* UNDEFINED, 4 components, default 0 2 1 0 */
case EXIF_TAG_EXIF_VERSION:
e->components = 4;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = exif_format_get_size (e->format) * e->components;
e->data = exif_entry_alloc (e, e->size);
if (!e->data) break;
memcpy (e->data, "0210", 4);
break;
/* UNDEFINED, 4 components, no default */
case EXIF_TAG_COMPONENTS_CONFIGURATION:
e->components = 4;
e->format = EXIF_FORMAT_UNDEFINED;
e->size = exif_format_get_size (e->format) * e->components;
e->data = malloc (e->size);
break;
default:
break;
}
}