add input stream interface (with override ex. for memory and file input)
This commit is contained in:
cDc
77
TinyEXIF.cpp
77
TinyEXIF.cpp
@@ -258,12 +258,12 @@ public:
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// Constructors
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EXIFInfo::EXIFInfo() : Fields(FIELD_NA) {
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}
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EXIFInfo::EXIFInfo(EXIFStream& stream) {
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parseFrom(stream);
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}
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EXIFInfo::EXIFInfo(const uint8_t* data, unsigned length) {
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parseFrom(data, length);
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}
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EXIFInfo::EXIFInfo(const std::string& data) {
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parseFrom(data);
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}
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// Parse tag as Image IFD
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@@ -615,18 +615,16 @@ void EXIFInfo::parseIFDGPS(EntryParser& parser) {
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// Locates the JM_APP1 segment and parses it using
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// parseFromEXIFSegment() or parseFromXMPSegment()
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//
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int EXIFInfo::parseFrom(const uint8_t* buf, unsigned len) {
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int EXIFInfo::parseFrom(EXIFStream& stream) {
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clear();
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if (!stream.IsValid())
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return PARSE_INVALID_JPEG;
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// Sanity check: all JPEG files start with 0xFFD8 and end with 0xFFD9
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// This check also ensures that the user has supplied a correct value for len.
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if (!buf || len < 16)
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const uint8_t* buf(stream.GetBuffer(2));
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if (buf == NULL || buf[0] != JM_START || buf[1] != JM_SOI)
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return PARSE_INVALID_JPEG;
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if (buf[0] != JM_START || buf[1] != JM_SOI)
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return PARSE_INVALID_JPEG;
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// not always valid, sometimes 0xFF is added for padding
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//if (buf[len-2] != JM_START || buf[len-1] != JM_EOI)
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// return PARSE_INVALID_JPEG;
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// Scan for JM_APP1 header (bytes 0xFF 0xE1) and parse its length.
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// Exit if both EXIF and XMP sections were parsed.
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@@ -637,15 +635,16 @@ int EXIFInfo::parseFrom(const uint8_t* buf, unsigned len) {
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inline operator uint32_t& () { return val; }
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inline int operator () (int code=PARSE_ABSENT_DATA) const { return val&FIELD_ALL ? (int)PARSE_SUCCESS : code; }
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} app1s(Fields);
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for (unsigned pos=2; pos+2<=len; ) {
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while ((buf=stream.GetBuffer(2)) != NULL) {
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// find next marker;
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// in cases of markers appended after the compressed data,
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// optional JM_START fill bytes may precede the marker
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if (buf[pos++] != JM_START)
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if (*buf++ != JM_START)
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break;
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uint8_t marker;
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while ((marker=buf[pos++]) == JM_START && pos<len);
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while ((marker=buf[0]) == JM_START && (buf=stream.GetBuffer(1)) != NULL);
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// select marker
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uint16_t sectionLength;
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switch (marker) {
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case 0x00:
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case 0x01:
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@@ -663,12 +662,15 @@ int EXIFInfo::parseFrom(const uint8_t* buf, unsigned len) {
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case JM_SOS: // start of stream: and we're done
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case JM_EOI: // no data? not good
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return app1s();
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case JM_APP1: {
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const uint16_t section_length(EntryParser::parse16(buf + pos, false));
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int ret;
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switch (ret=parseFromEXIFSegment(buf + pos + 2, section_length - 2)) {
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case JM_APP1:
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if ((buf=stream.GetBuffer(2)) == NULL)
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return app1s(PARSE_INVALID_JPEG);
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sectionLength = EntryParser::parse16(buf, false);
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if (sectionLength <= 2 || (buf=stream.GetBuffer(sectionLength-=2)) == NULL)
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return app1s(PARSE_INVALID_JPEG);
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switch (int ret=parseFromEXIFSegment(buf, sectionLength)) {
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case PARSE_ABSENT_DATA:
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switch (ret=parseFromXMPSegment(buf + pos + 2, section_length - 2)) {
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switch (ret=parseFromXMPSegment(buf, sectionLength)) {
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case PARSE_ABSENT_DATA:
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break;
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case PARSE_SUCCESS:
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@@ -686,22 +688,41 @@ int EXIFInfo::parseFrom(const uint8_t* buf, unsigned len) {
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default:
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return app1s(ret); // some error
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}
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}
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default: {
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// read section length
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const uint16_t section_length(EntryParser::parse16(buf + pos, false));
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if (pos + section_length > len)
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return app1s(PARSE_INVALID_JPEG);
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break;
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default:
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// skip the section
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pos += section_length;
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}
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if ((buf=stream.GetBuffer(2)) == NULL ||
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(sectionLength=EntryParser::parse16(buf, false)) <= 2 ||
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!stream.SkipBuffer(sectionLength-2))
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return app1s(PARSE_INVALID_JPEG);
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}
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}
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return app1s();
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}
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int EXIFInfo::parseFrom(const std::string& data) {
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return parseFrom((const uint8_t*)data.data(), (unsigned)data.length());
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int EXIFInfo::parseFrom(const uint8_t* buf, unsigned len) {
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class EXIFStreamBuffer : public EXIFStream {
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public:
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EXIFStreamBuffer(const uint8_t* buf, unsigned len)
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: it(buf), end(buf+len) {}
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bool IsValid() const override {
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return it != NULL;
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}
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const uint8_t* GetBuffer(unsigned desiredLength) override {
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const uint8_t* const itNext(it+desiredLength);
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if (itNext >= end)
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return NULL;
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const uint8_t* const begin(it);
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it = itNext;
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return begin;
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}
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bool SkipBuffer(unsigned desiredLength) override {
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return GetBuffer(desiredLength) != NULL;
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}
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private:
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const uint8_t* it, * const end;
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};
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return parseFrom(EXIFStreamBuffer(buf, len));
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}
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//
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26
TinyEXIF.h
26
TinyEXIF.h
@@ -75,22 +75,42 @@ enum FieldCode {
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class EntryParser;
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//
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// Class responsible for storing and parsing EXIF information from a JPEG blob
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// Interface class responsible for fetching stream data to be parsed
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//
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class TINYEXIF_LIB EXIFStream {
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public:
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virtual ~EXIFStream() {}
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// Check the state of the stream.
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virtual bool IsValid() const = 0;
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// Return the pointer to the beginning of the desired size buffer
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// following current buffer position.
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virtual const uint8_t* GetBuffer(unsigned desiredLength) = 0;
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// Advance current buffer position with the desired size;
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// return false if stream ends in less than the desired size.
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virtual bool SkipBuffer(unsigned desiredLength) = 0;
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};
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//
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// Class responsible for storing and parsing EXIF & XMP metadata from a JPEG stream
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//
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class TINYEXIF_LIB EXIFInfo {
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public:
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EXIFInfo();
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EXIFInfo(EXIFStream& stream);
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EXIFInfo(const uint8_t* data, unsigned length);
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EXIFInfo(const std::string& data);
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// Parsing function for an entire JPEG image stream.
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//
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// PARAM 'stream': Interface to fetch JPEG image stream.
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// PARAM 'data': A pointer to a JPEG image.
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// PARAM 'length': The length of the JPEG image.
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// RETURN: PARSE_SUCCESS (0) on success with 'result' filled out
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// error code otherwise, as defined by the PARSE_* macros
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int parseFrom(EXIFStream& stream);
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int parseFrom(const uint8_t* data, unsigned length);
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int parseFrom(const std::string& data);
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// Parsing function for an EXIF segment. This is used internally by parseFrom()
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// but can be called for special cases where only the EXIF section is
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44
main.cpp
44
main.cpp
@@ -9,28 +9,49 @@
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#include <vector> // std::vector
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#include <iomanip> // std::setprecision
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class EXIFStreamFile : public TinyEXIF::EXIFStream {
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public:
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EXIFStreamFile(const char* fileName)
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: file(fileName, std::ifstream::in|std::ifstream::binary) {}
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bool IsValid() const override {
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return file.is_open();
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}
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const uint8_t* GetBuffer(unsigned desiredLength) override {
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buffer.resize(desiredLength);
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if (!file.read((char*)buffer.data(), desiredLength))
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return NULL;
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return buffer.data();
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}
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bool SkipBuffer(unsigned desiredLength) override {
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return (bool)file.seekg(desiredLength,std::ios::cur);
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}
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private:
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std::ifstream file;
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std::vector<uint8_t> buffer;
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};
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int main(int argc, const char** argv)
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{
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if (argc != 2) {
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std::cout << "Usage: TinyEXIF <image_file>" << "\n";
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std::cout << "Usage: TinyEXIF <image_file>\n";
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return -1;
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}
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// read entire image file
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std::ifstream file(argv[1], std::ifstream::in|std::ifstream::binary);
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if (!file.is_open()) {
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EXIFStreamFile stream(argv[1]);
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if (!stream.IsValid()) {
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std::cout << "error: can not open '" << argv[1] << "'\n";
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return -2;
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}
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file.seekg(0,std::ios::end);
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std::streampos length = file.tellg();
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file.seekg(0,std::ios::beg);
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std::vector<uint8_t> data(length);
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file.read((char*)data.data(), length);
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// parse image EXIF and XMP metadata
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TinyEXIF::EXIFInfo imageEXIF(data.data(), (unsigned)length);
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if (imageEXIF.Fields) {
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TinyEXIF::EXIFInfo imageEXIF(stream);
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if (!imageEXIF.Fields) {
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std::cout << "error: no EXIF or XMP metadata\n";
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return -3;
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}
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// print extracted metadata
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if (imageEXIF.ImageWidth || imageEXIF.ImageHeight)
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std::cout << "ImageResolution " << imageEXIF.ImageWidth << "x" << imageEXIF.ImageHeight << " pixels" << "\n";
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if (imageEXIF.RelatedImageWidth || imageEXIF.RelatedImageHeight)
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@@ -113,6 +134,5 @@ int main(int argc, const char** argv)
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std::cout << "GeoLocation.GPSTimeStamp " << imageEXIF.GeoLocation.GPSTimeStamp << "\n";
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if (!imageEXIF.GeoLocation.GPSDateStamp.empty())
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std::cout << "GeoLocation.GPSDateStamp " << imageEXIF.GeoLocation.GPSDateStamp << "\n";
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}
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return 0;
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return EXIT_SUCCESS;
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}
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