Initial commit

2018-09-12 14:20:55 +03:00 · 2018-09-12 14:20:55 +03:00 · a467b687dc
commit a467b687dc
5 changed files with 431 additions and 0 deletions
--- a/.gitignore
+++ b/.gitignore
@ -0,0 +1 @@
 .idea/
--- a/CMakeLists.txt
+++ b/CMakeLists.txt
@ -0,0 +1,6 @@
 cmake_minimum_required(VERSION 3.10)
 project(dngInfo)
 set(CMAKE_CXX_STANDARD 17)
 add_executable(dngInfo main.cpp TIFF.cpp TIFF.h)
--- a/TIFF.cpp
+++ b/TIFF.cpp
@ -0,0 +1,236 @@
 #include "TIFF.h"
 #include <iostream>
 #include <fstream>
 #include <iomanip>
 static const std::map<TiffTag, std::string> tagDescriptions = {
        {NEW_SUBFILE_TYPE, "New subfile type"},
        {IMAGE_WIDTH, "Image width"},
        {IMAGE_LENGTH, "Image height"},
        {BITS_PER_SAMPLE, "Bits per sample"},
        {COMPRESSION, "Compression"},
        {PHOTOMETRIC_INTERPRETATION, "Photometric interpretation"},
 		{IMAGE_DESCRIPTION, "Image description"},
 		{MANUFACTURER, "Manufacturer"},
 		{MODEL, "Model"},
 		{STRIP_OFFSETS, "Strip offsets"},
 		{ORIENTATION, "Orientation"},
 		{SAMPLES_PER_PIXEL, "Samples per pixel"},
 		{ROWS_PER_STRIP, "Rows per strip"},
 		{STRIP_BYTE_COUNTS, "Strip byte counts"},
 		{X_RESOLUTION, "X resolution"},
 		{Y_RESOLUTION, "Y resolution"},
 		{PLANAR_CONFIGURATION, "Planar configuration"},
 		{RESOLUTION_UNIT, "Resolution unit"},
 		{SOFTWARE, "Software"},
 		{DATE_TIME, "Date/Time"},
 		{XML_PACKET, "XML Packet"},
        {CFA_REPEAT_PATTERN_DIM, "CFA repeat pattern"},
        {CFA_PATTERN, "CFA pattern"}
 };
 std::ostream &operator<<(std::ostream &stream, Compression compression) {
 	switch (compression) {
 		case NO_COMPRESSION: stream << "no compression"; break;
 		case HUFFMAN: stream << "1-Dimensional modified huffman run length encoding"; break;
 		case PACK_BITS: stream << "PackBits"; break;
 		default: stream << "undefined"; break;
 	}
 	return stream;
 }
 std::ostream& operator<<(std::ostream& stream, PhotometricInterpretation pr) {
 	switch(pr) {
 		case WHITE_IS_ZERO: stream << "white is zero"; break;
 		case BLACK_IS_ZERO: stream << "black is zero"; break;
 		case RGB: stream << "RGB"; break;
 		case PALETTE_COLOR: stream << "palette color"; break;
 		case TRANSPARENCY_MASK: stream << "transparency mask"; break;
 		case YCBCR: stream << "YCbCr (YUV)"; break;
 		case COLOR_FILTER_ARRAY: stream << "color filter array"; break;
 		case LINEAR_RAW: stream << "linear raw"; break;
 		default: stream << "undefined"; break;
 	}
 	return stream;
 }
 template<typename T>
 std::ostream& operator<<(std::ostream& stream, const RationalType<T>& rational) {
 	stream << std::to_string(rational.numerator) + "/" + std::to_string(rational.denominator);
 	return stream;
 }
 std::ostream& operator<<(std::ostream& stream, ResolutionUnit unit) {
 	switch(unit) {
 		case NO_UNIT: stream << "no unit"; break;
 		case INCH: stream << "inch"; break;
 		case CENTIMETER: stream << "centimeter"; break;
 		default: stream << "undefined"; break;
 	}
 	return stream;
 }
 std::ostream& operator<<(std::ostream& stream, Orientation orientation) {
 	switch (orientation) {
 		case NORMAL: stream << "normal"; break;
 		case FLIP_HORIZONTAL: stream << "flip horizontal"; break;
 		case FLIP_BOTH: stream << "flip both"; break;
 		case FLIP_VERTICAL: stream << "flip vertical"; break;
 		case NORMAL_ROTATED: stream << "normal (rotated)"; break;
 		case FLIP_HORIZONTAL_ROTATED: stream << "flip horizontal (rotated)"; break;
 		case FLIP_BOTH_ROTATED: stream << "flip both (rotated)"; break;
 		case FLIP_VERTICAL_ROTATED: stream << "flip vertical (rotated)"; break;
 	}
 	return stream;
 }
 std::ostream& operator<<(std::ostream& stream, PlanarConfiguration conf) {
 	switch (conf) {
 	case CHUNKY: stream << "chunky"; break;
 	case PLANAR: stream << "planar"; break;
 	}
 	return stream;
 }
 template<typename T>
 std::ostream& operator<<(std::ostream& stream, const std::vector<T>& vector) {
    stream << "<vector> (" + std::to_string(vector.size()) + ")";
 	return stream;
 }
 std::ostream& operator<<(std::ostream& stream, const std::vector<CFAPatternDim>& vector) {
 	stream << std::to_string(vector[0]) + "x" + std::to_string(vector[1]);
 	return stream;
 }
 template<typename T>
 void ImageFileDirectory::parseValueImpl(char *filePtr, IfdEntry *entry) {
    size_t sizeOfValue = sizeOfType(entry->type)*entry->numberOfValues;
    bool isArray = entry->numberOfValues > 1;
    T* dataPtr = reinterpret_cast<T*>(sizeOfValue <= 4 ? (char*)&entry->valueOrOffset : filePtr + entry->valueOrOffset);
    EntryValueType value;
    if (isArray) {
        value = std::vector<T>(dataPtr, dataPtr + entry->numberOfValues);
    } else {
        value = *dataPtr;
    }
    _entriesMap.emplace(entry->tag, value);
 }
 template<typename T>
 void ImageFileDirectory::parseValue(char *filePtr, IfdEntry *entry) {
 	switch (entry->tag) {
        case COMPRESSION: parseValueImpl<Compression>(filePtr, entry); break;
        case PHOTOMETRIC_INTERPRETATION: parseValueImpl<PhotometricInterpretation>(filePtr, entry); break;
 		case RESOLUTION_UNIT: parseValueImpl<ResolutionUnit>(filePtr, entry); break;
 		case ORIENTATION: parseValueImpl<Orientation>(filePtr, entry); break;
 		case PLANAR_CONFIGURATION: parseValueImpl<PlanarConfiguration>(filePtr, entry); break;
 		case CFA_REPEAT_PATTERN_DIM: parseValueImpl<CFAPatternDim>(filePtr, entry); break;
        default: parseValueImpl<T>(filePtr, entry); break;
 	}
 }
 ImageFileDirectory::ImageFileDirectory(char* ptr, char* filePtr) {
 	_entriesCount = *(uint16_t*)ptr;
 	_entries = (IfdEntry*)(ptr + 2);
 	_nextIfdOffset = *(uint32_t*)(ptr + 2 + _entriesCount * sizeof(IfdEntry));
 	for(size_t i = 0; i < _entriesCount; ++i) {
 		auto entry = _entries[i];
 		switch (entry.type) {
 			case ASCII: _entriesMap.emplace(entry.tag, EntryValueType(std::string(filePtr + entry.valueOrOffset))); break;
 			case BYTE: parseValue<uint8_t>(filePtr, &entry); break;
 			case SHORT: parseValue<uint16_t>(filePtr, &entry); break;
 			case LONG: parseValue<uint32_t>(filePtr, &entry); break;
 			case RATIONAL: parseValue<Rational>(filePtr, &entry); break;
 			case SBYTE: parseValue<int8_t>(filePtr, &entry); break;
 			case SSHORT: parseValue<int16_t>(filePtr, &entry); break;
 			case SLONG: parseValue<int32_t>(filePtr, &entry); break;
 			case SRATIONAL: parseValue<SRational>(filePtr, &entry); break;
 			case UNDEFINED: parseValue<uint8_t>(filePtr, &entry); break;
 			case FLOAT: parseValue<float>(filePtr, &entry); break;
 			case DOUBLE: parseValue<double>(filePtr, &entry); break;
 		}
 	}
 }
 uint32_t ImageFileDirectory::nextOffset() const {
 	return _nextIfdOffset;
 }
 size_t ImageFileDirectory::sizeOfType(FieldType type) const {
 	switch (type) {
 		case BYTE: return 1;
 		case ASCII: return 1;
 		case SHORT: return 2;
 		case LONG: return 4;
 		case RATIONAL: return 8;
 		case SBYTE: return 1;
 		case UNDEFINED: return 1;
 		case SSHORT: return 2;
 		case SLONG: return 4;
 		case SRATIONAL: return 8;
 		case FLOAT: return 4;
 		case DOUBLE: return 8;
 	}
 	return 0;
 }
 std::optional<ImageFileDirectory::EntryValueType> ImageFileDirectory::operator[](TiffTag tag) const {
 	auto iter = _entriesMap.find(tag);
 	if(iter != _entriesMap.end())
 		return std::optional<ImageFileDirectory::EntryValueType>(iter->second);
 	else
 		return std::nullopt;
 }
 void ImageFileDirectory::dumpInfo() const {
 	std::cout << "=== IFD ====================================================================================================================" << std::endl;
 	std::cout << "| Tag   | Description                   | Value                                                                            |" << std::endl;
 	std::cout << "----------------------------------------------------------------------------------------------------------------------------" << std::endl;
 	std::ios state(nullptr);
 	state.copyfmt(std::cout);
 	for(auto const& [key, val]: _entriesMap) {
 		std::visit([key](auto&& arg) {
 		    auto iter = tagDescriptions.find(key);
 		    std::string description = iter != tagDescriptions.end() ? iter->second : "";
 			std::cout << "| " << std::left << std::setw(5) << key << " | " << std::setw(29) << description << " | " << std::setw(80) << arg << " |" << std::endl;
 		}, val);
 	}
 	std::cout.copyfmt(state);
 }
 TIFF::TIFF(std::string fileName) {
 	std::ifstream stream(fileName, std::ios::binary | std::ios::ate);
 	std::streamsize size = stream.tellg();
 	stream.seekg(0, std::ios::beg);
 	_data = std::make_unique<char[]>(size);
 	if(!stream.read((char*)_data.get(), size)) {
 		throw std::runtime_error("error opening TIFF file: " + fileName);
 	}
 	auto header = (TIFFHeader*)_data.get();
 	if(header->magic != TIFF_MAGIC) {
 		throw std::runtime_error("wrong magic number");
 	}
 	uint32_t ifdOffset = header->firstIfdOffset;
 	while(ifdOffset != 0) {
 		auto ifd = ImageFileDirectory(_data.get() + ifdOffset, _data.get());
 		_ifds.push_back(ifd);
 		ifdOffset = ifd.nextOffset();
 	}
 }
 std::vector<ImageFileDirectory> TIFF::ifds() const {
 	return _ifds;
 }
--- a/TIFF.h
+++ b/TIFF.h
@ -0,0 +1,168 @@
 #ifndef DNGINFO_TIFF_H
 #define DNGINFO_TIFF_H
 #include <string>
 #include <memory>
 #include <cstdint>
 #include <vector>
 #include <map>
 #include <variant>
 constexpr int16_t TIFF_MAGIC = 42;
 enum ByteOrder: uint16_t {
 	LE = 0x4949,
 	BE = 0x4d4d
 };
 enum FieldType: uint16_t {
 	BYTE        = 1,
 	ASCII       = 2,
 	SHORT       = 3,
 	LONG        = 4,
 	RATIONAL    = 5,
 	SBYTE       = 6,
 	UNDEFINED   = 7,
 	SSHORT      = 8,
 	SLONG       = 9,
 	SRATIONAL   = 10,
 	FLOAT       = 11,
 	DOUBLE      = 12
 };
 enum TiffTag: uint16_t {
 	NEW_SUBFILE_TYPE = 0xFE,
 	IMAGE_WIDTH = 0x100,
 	IMAGE_LENGTH = 0x101,
 	BITS_PER_SAMPLE = 0x102,
 	COMPRESSION = 0x103,
 	PHOTOMETRIC_INTERPRETATION = 0x106,
 	IMAGE_DESCRIPTION = 0x10E,
 	MANUFACTURER = 0x10F,
 	MODEL = 0x110,
 	STRIP_OFFSETS = 0x111,
 	ORIENTATION = 0x112,
 	SAMPLES_PER_PIXEL = 0x115,
 	ROWS_PER_STRIP = 0x116,
 	STRIP_BYTE_COUNTS = 0x117,
 	X_RESOLUTION = 0x11A,
 	Y_RESOLUTION = 0x11B,
 	PLANAR_CONFIGURATION = 0x11C,
 	RESOLUTION_UNIT = 0x128,
 	SOFTWARE = 0x131,
 	DATE_TIME = 0x132,
 	XML_PACKET = 0x2BC,
    CFA_REPEAT_PATTERN_DIM = 0x828D,
    CFA_PATTERN = 0x828E
 };
 enum PhotometricInterpretation: uint16_t {
 	WHITE_IS_ZERO = 0,
 	BLACK_IS_ZERO = 1,
 	RGB = 2,
 	PALETTE_COLOR = 3,
 	TRANSPARENCY_MASK = 4,
 	YCBCR = 6,
 	COLOR_FILTER_ARRAY = 32803,
 	LINEAR_RAW = 34892
 };
 enum Compression: uint16_t {
 	NO_COMPRESSION = 1,
 	HUFFMAN = 2,
 	PACK_BITS = 32773
 };
 enum ResolutionUnit: uint16_t {
 	NO_UNIT = 1,
 	INCH = 2,
 	CENTIMETER = 3
 };
 enum Orientation: uint16_t {
 	NORMAL = 1,
 	FLIP_HORIZONTAL = 2,
 	FLIP_BOTH = 3,
 	FLIP_VERTICAL = 4,
 	NORMAL_ROTATED = 5,
 	FLIP_HORIZONTAL_ROTATED = 6,
 	FLIP_BOTH_ROTATED = 7,
 	FLIP_VERTICAL_ROTATED = 8
 };
 enum PlanarConfiguration : uint16_t {
 	CHUNKY = 1,
 	PLANAR = 2
 };
 struct TIFFHeader {
 	ByteOrder byteOrder;
 	uint16_t magic;
 	uint32_t firstIfdOffset;
 };
 struct IfdEntry {
 	TiffTag tag;
 	FieldType type;
 	uint32_t numberOfValues;
 	uint32_t valueOrOffset;
 };
 template <typename T>
 struct RationalType {
 	T numerator;
 	T denominator;
 };
 using Rational = RationalType<uint32_t>;
 using SRational = RationalType<int32_t>;
 typedef uint16_t CFAPatternDim;
 std::ostream& operator<<(std::ostream& stream, Compression compression);
 std::ostream& operator<<(std::ostream& stream, PhotometricInterpretation pr);
 template<typename T> std::ostream& operator<<(std::ostream& stream, const RationalType<T>& rational);
 std::ostream& operator<<(std::ostream& stream, ResolutionUnit unit);
 std::ostream& operator<<(std::ostream& stream, Orientation orientation);
 std::ostream& operator<<(std::ostream& stream, PlanarConfiguration conf);
 template<typename T> std::ostream& operator<<(std::ostream& stream, const std::vector<T>& vector);
 class ImageFileDirectory {
 public:
    using EntryValueType = std::variant<uint8_t, uint16_t, uint32_t, Rational, int8_t, int16_t, int32_t, SRational, float, double, std::string,
            Compression, PhotometricInterpretation, std::vector<Compression>, std::vector<PhotometricInterpretation>,
            ResolutionUnit, std::vector<ResolutionUnit>, Orientation, std::vector<Orientation>,
            PlanarConfiguration, std::vector<PlanarConfiguration>,
            std::vector<uint8_t>, std::vector<uint16_t>, std::vector<uint32_t>, std::vector<Rational>,
            std::vector<int8_t>, std::vector<int16_t>, std::vector<int32_t>, std::vector<SRational>,
            std::vector<float>, std::vector<double>>;
 public:
 	explicit ImageFileDirectory(char* ptr, char* filePtr);
 	uint32_t nextOffset() const;
 	std::optional<EntryValueType> operator[](TiffTag tag) const;
 	void dumpInfo() const;
 private:
    size_t sizeOfType(FieldType type) const;
    template<typename T> void parseValue(char* filePtr, IfdEntry* entry);
    template<typename T> void parseValueImpl(char* filePtr, IfdEntry* entry);
 private:
 	uint16_t _entriesCount;
 	IfdEntry* _entries;
 	uint32_t _nextIfdOffset;
 	std::map<TiffTag, EntryValueType> _entriesMap;
 };
 class TIFF {
 public:
 	explicit TIFF(std::string fileName);
 	std::vector<ImageFileDirectory> ifds() const;
 private:
 	std::unique_ptr<char[]> _data;
 	std::vector<ImageFileDirectory> _ifds;
 };
 #endif //DNGINFO_TIFF_H
--- a/main.cpp
+++ b/main.cpp
@ -0,0 +1,20 @@
 #include <iostream>
 #include "TIFF.h"
 int main(int argc, char** argv) {
 	if (argc < 2) {
 		std::cout << "too few arguments" << std::endl;
 		return 1;
 	}
 	std::string fileName = argv[1];
 	TIFF tiff(fileName);
 	for(auto const& ifd: tiff.ifds()) {
 		ifd.dumpInfo();
 	}
 //	system("pause");
 	return 0;
 }