ofxMsdfgen/libs/msdf-atlas-gen/include/artery-font-format/artery-font/serialization.hpp

394 lines
15 KiB
C++

#include "serialization.h"
#include <cstring>
#include "crc32.h"
namespace artery_font {
namespace internal {
#define ARTERY_FONT_HEADER_TAG "ARTERY/FONT\0\0\0\0\0"
#define ARTERY_FONT_HEADER_VERSION 1u
#define ARTERY_FONT_HEADER_MAGIC_NO 0x4d276a5cu
#define ARTERY_FONT_FOOTER_MAGIC_NO 0x55ccb363u
struct ArteryFontHeader {
char tag[16];
uint32 magicNo;
uint32 version;
uint32 flags;
uint32 realType;
uint32 reserved[4];
uint32 metadataFormat;
uint32 metadataLength;
uint32 variantCount;
uint32 variantsLength;
uint32 imageCount;
uint32 imagesLength;
uint32 appendixCount;
uint32 appendicesLength;
uint32 reserved2[8];
};
struct ArteryFontFooter {
uint32 salt;
uint32 magicNo;
uint32 reserved[4];
uint32 totalLength;
uint32 checksum;
};
template <typename REAL>
struct FontVariantHeader {
uint32 flags;
uint32 weight;
uint32 codepointType;
uint32 imageType;
uint32 fallbackVariant;
uint32 fallbackGlyph;
uint32 reserved[6];
REAL metrics[32];
uint32 nameLength;
uint32 metadataLength;
uint32 glyphCount;
uint32 kernPairCount;
};
struct ImageHeader {
uint32 flags;
uint32 encoding;
uint32 width, height;
uint32 channels;
uint32 pixelFormat;
uint32 imageType;
uint32 rowLength;
sint32 orientation;
uint32 childImages;
uint32 textureFlags;
uint32 reserved[3];
uint32 metadataLength;
uint32 dataLength;
};
struct AppendixHeader {
uint32 metadataLength;
uint32 dataLength;
};
template <typename REAL>
uint32 realTypeCode();
template <>
inline uint32 realTypeCode<float>() {
return 0x14u;
}
template <>
inline uint32 realTypeCode<double>() {
return 0x18u;
}
inline uint32 paddedLength(uint32 len) {
if (len&0x03u)
len += 0x04u-(len&0x03u);
return len;
}
template <class STRING>
uint32 paddedStringLength(const STRING &str) {
uint32 len = str.length();
return paddedLength(len+(len > 0));
}
}
#ifndef __BIG_ENDIAN__
template <ReadFunction READ, typename REAL, template <typename> class LIST, class BYTE_ARRAY, class STRING>
bool decode(ArteryFont<REAL, LIST, BYTE_ARRAY, STRING> &font, void *userData) {
uint32 totalLength = 0;
uint32 prevLength = 0;
uint32 checksum = crc32Init();
byte dump[4];
#define ARTERY_FONT_DECODE_READ(target, len) { \
if (READ((target), (len), userData) != int(len)) \
return false; \
totalLength += (len); \
for (int i = 0; i < int(len); ++i) \
checksum = crc32Update(checksum, reinterpret_cast<const byte *>(target)[i]); \
}
#define ARTERY_FONT_DECODE_REALIGN() { \
if (totalLength&0x03u) { \
uint32 len = 0x04u-(totalLength&0x03u); \
ARTERY_FONT_DECODE_READ(dump, len); \
} \
}
#define ARTERY_FONT_DECODE_READ_STRING(str, len) { \
if ((len) > 0) { \
LIST<char> characters((len)+1); \
ARTERY_FONT_DECODE_READ((char *) characters, (len)+1); \
((char *) characters)[len] = '\0'; \
(str) = STRING((const char *) characters, int(len)); \
ARTERY_FONT_DECODE_REALIGN(); \
} else \
(str) = STRING(); \
}
int variantCount = 0;
int imageCount = 0;
int appendixCount = 0;
uint32 variantsLength = 0;
uint32 imagesLength = 0;
uint32 appendicesLength = 0;
// Read header
{
internal::ArteryFontHeader header;
ARTERY_FONT_DECODE_READ(&header, sizeof(header));
if (memcmp(header.tag, ARTERY_FONT_HEADER_TAG, sizeof(header.tag)))
return false;
if (header.magicNo != ARTERY_FONT_HEADER_MAGIC_NO)
return false;
if (header.realType != internal::realTypeCode<REAL>())
return false;
font.metadataFormat = (MetadataFormat) header.metadataFormat;
ARTERY_FONT_DECODE_READ_STRING(font.metadata, header.metadataLength);
variantCount = header.variantCount;
imageCount = header.imageCount;
appendixCount = header.appendixCount;
font.variants = LIST<FontVariant<REAL, LIST, STRING> >(header.variantCount);
font.images = LIST<FontImage<BYTE_ARRAY, STRING> >(header.imageCount);
font.appendices = LIST<FontAppendix<BYTE_ARRAY, STRING> >(header.appendixCount);
variantsLength = header.variantsLength;
imagesLength = header.imagesLength;
appendicesLength = header.appendicesLength;
}
prevLength = totalLength;
// Read variants
for (int i = 0; i < variantCount; ++i) {
FontVariant<REAL, LIST, STRING> &variant = font.variants[i];
internal::FontVariantHeader<REAL> header;
ARTERY_FONT_DECODE_READ(&header, sizeof(header));
variant.flags = header.flags;
variant.weight = header.weight;
variant.codepointType = (CodepointType) header.codepointType;
variant.imageType = (ImageType) header.imageType;
variant.fallbackVariant = header.fallbackVariant;
variant.fallbackGlyph = header.fallbackGlyph;
memcpy(&variant.metrics, header.metrics, sizeof(header.metrics));
ARTERY_FONT_DECODE_READ_STRING(variant.name, header.nameLength);
ARTERY_FONT_DECODE_READ_STRING(variant.metadata, header.metadataLength);
variant.glyphs = LIST<Glyph<REAL> >(header.glyphCount);
variant.kernPairs = LIST<KernPair<REAL> >(header.kernPairCount);
ARTERY_FONT_DECODE_READ((Glyph<REAL> *) variant.glyphs, header.glyphCount*sizeof(Glyph<REAL>));
ARTERY_FONT_DECODE_READ((KernPair<REAL> *) variant.kernPairs, header.kernPairCount*sizeof(KernPair<REAL>));
}
if (totalLength-prevLength != variantsLength)
return false;
prevLength = totalLength;
// Read images
for (int i = 0; i < imageCount; ++i) {
FontImage<BYTE_ARRAY, STRING> &image = font.images[i];
internal::ImageHeader header;
ARTERY_FONT_DECODE_READ(&header, sizeof(header));
image.flags = header.flags;
image.encoding = (ImageEncoding) header.encoding;
image.width = header.width;
image.height = header.height;
image.channels = header.channels;
image.pixelFormat = (PixelFormat) header.pixelFormat;
image.imageType = (ImageType) header.imageType;
image.rawBinaryFormat.rowLength = header.rowLength;
image.rawBinaryFormat.orientation = (ImageOrientation) header.orientation;
image.childImages = header.childImages;
image.textureFlags = header.textureFlags;
ARTERY_FONT_DECODE_READ_STRING(image.metadata, header.metadataLength);
image.data = BYTE_ARRAY(header.dataLength);
ARTERY_FONT_DECODE_READ((unsigned char *) image.data, header.dataLength);
ARTERY_FONT_DECODE_REALIGN();
}
if (totalLength-prevLength != imagesLength)
return false;
prevLength = totalLength;
// Read appendices
for (int i = 0; i < appendixCount; ++i) {
FontAppendix<BYTE_ARRAY, STRING> &appendix = font.appendices[i];
internal::AppendixHeader header;
ARTERY_FONT_DECODE_READ(&header, sizeof(header));
ARTERY_FONT_DECODE_READ_STRING(appendix.metadata, header.metadataLength);
appendix.data = BYTE_ARRAY(header.dataLength);
ARTERY_FONT_DECODE_READ((unsigned char *) appendix.data, header.dataLength);
ARTERY_FONT_DECODE_REALIGN();
}
if (totalLength-prevLength != appendicesLength)
return false;
prevLength = totalLength;
// Read footer
{
internal::ArteryFontFooter footer;
ARTERY_FONT_DECODE_READ(&footer, sizeof(footer)-sizeof(footer.checksum));
if (footer.magicNo != ARTERY_FONT_FOOTER_MAGIC_NO)
return false;
uint32 finalChecksum = checksum;
ARTERY_FONT_DECODE_READ(&footer.checksum, sizeof(footer.checksum));
if (footer.checksum != finalChecksum)
return false;
if (totalLength != footer.totalLength)
return false;
}
return true;
#undef ARTERY_FONT_DECODE_READ
#undef ARTERY_FONT_DECODE_REALIGN
#undef ARTERY_FONT_DECODE_READ_STRING
}
template <WriteFunction WRITE, typename REAL, template <typename> class LIST, class BYTE_ARRAY, class STRING>
bool encode(const ArteryFont<REAL, LIST, BYTE_ARRAY, STRING> &font, void *userData) {
uint32 totalLength = 0;
uint32 checksum = crc32Init();
const byte padding[4] = { };
#define ARTERY_FONT_ENCODE_WRITE(data, len) { \
if (WRITE((data), (len), userData) != int(len)) \
return false; \
totalLength += (len); \
for (int i = 0; i < int(len); ++i) \
checksum = crc32Update(checksum, reinterpret_cast<const byte *>(data)[i]); \
}
#define ARTERY_FONT_ENCODE_REALIGN() { \
if (totalLength&0x03u) { \
uint32 len = 0x04u-(totalLength&0x03u); \
ARTERY_FONT_ENCODE_WRITE(padding, len); \
} \
}
#define ARTERY_FONT_ENCODE_WRITE_STRING(str) { \
uint32 len = (str).length(); \
if ((len) > 0) { \
ARTERY_FONT_ENCODE_WRITE((const char *) (str), (len)); \
ARTERY_FONT_ENCODE_WRITE(padding, 1) \
ARTERY_FONT_ENCODE_REALIGN(); \
} \
}
int variantCount = 0;
int imageCount = 0;
int appendixCount = 0;
// Write header
{
internal::ArteryFontHeader header;
memcpy(header.tag, ARTERY_FONT_HEADER_TAG, sizeof(header.tag));
header.magicNo = ARTERY_FONT_HEADER_MAGIC_NO;
header.version = ARTERY_FONT_HEADER_VERSION;
header.flags = 0;
header.realType = internal::realTypeCode<REAL>();
memset(header.reserved, 0, sizeof(header.reserved));
header.metadataFormat = (uint32) font.metadataFormat;
header.metadataLength = font.metadata.length();
header.variantCount = variantCount = font.variants.length();
header.variantsLength = 0;
header.imageCount = imageCount = font.images.length();
header.imagesLength = 0;
header.appendixCount = appendixCount = font.appendices.length();
header.appendicesLength = 0;
memset(header.reserved2, 0, sizeof(header.reserved2));
for (int i = 0; i < variantCount; ++i) {
const FontVariant<REAL, LIST, STRING> &variant = font.variants[i];
header.variantsLength += sizeof(internal::FontVariantHeader<REAL>);
header.variantsLength += internal::paddedStringLength(variant.name);
header.variantsLength += internal::paddedStringLength(variant.metadata);
header.variantsLength += variant.glyphs.length()*sizeof(Glyph<REAL>);
header.variantsLength += variant.kernPairs.length()*sizeof(KernPair<REAL>);
}
for (int i = 0; i < imageCount; ++i) {
const FontImage<BYTE_ARRAY, STRING> &image = font.images[i];
header.imagesLength += sizeof(internal::ImageHeader);
header.imagesLength += internal::paddedStringLength(image.metadata);
header.imagesLength += internal::paddedLength(image.data.length());
}
for (int i = 0; i < appendixCount; ++i) {
const FontAppendix<BYTE_ARRAY, STRING> &appendix = font.appendices[i];
header.appendicesLength += sizeof(internal::AppendixHeader);
header.appendicesLength += internal::paddedStringLength(appendix.metadata);
header.appendicesLength += internal::paddedLength(appendix.data.length());
}
ARTERY_FONT_ENCODE_WRITE(&header, sizeof(header));
ARTERY_FONT_ENCODE_WRITE_STRING(font.metadata);
}
// Write variants
for (int i = 0; i < variantCount; ++i) {
const FontVariant<REAL, LIST, STRING> &variant = font.variants[i];
internal::FontVariantHeader<REAL> header;
header.flags = variant.flags;
header.weight = variant.weight;
header.codepointType = (uint32) variant.codepointType;
header.imageType = (uint32) variant.imageType;
header.fallbackVariant = variant.fallbackVariant;
header.fallbackGlyph = variant.fallbackGlyph;
memset(header.reserved, 0, sizeof(header.reserved));
memcpy(header.metrics, &variant.metrics, sizeof(header.metrics));
header.nameLength = variant.name.length();
header.metadataLength = variant.metadata.length();
header.glyphCount = variant.glyphs.length();
header.kernPairCount = variant.kernPairs.length();
ARTERY_FONT_ENCODE_WRITE(&header, sizeof(header));
ARTERY_FONT_ENCODE_WRITE_STRING(variant.name);
ARTERY_FONT_ENCODE_WRITE_STRING(variant.metadata);
ARTERY_FONT_ENCODE_WRITE((const Glyph<REAL> *) variant.glyphs, header.glyphCount*sizeof(Glyph<REAL>));
ARTERY_FONT_ENCODE_WRITE((const KernPair<REAL> *) variant.kernPairs, header.kernPairCount*sizeof(KernPair<REAL>));
}
// Write images
for (int i = 0; i < imageCount; ++i) {
const FontImage<BYTE_ARRAY, STRING> &image = font.images[i];
internal::ImageHeader header;
header.flags = image.flags;
header.encoding = (uint32) image.encoding;
header.width = image.width;
header.height = image.height;
header.channels = image.channels;
header.pixelFormat = (uint32) image.pixelFormat;
header.imageType = (uint32) image.imageType;
header.rowLength = image.rawBinaryFormat.rowLength;
header.orientation = (sint32) image.rawBinaryFormat.orientation;
header.childImages = image.childImages;
header.textureFlags = image.textureFlags;
memset(header.reserved, 0, sizeof(header.reserved));
header.metadataLength = image.metadata.length();
header.dataLength = image.data.length();
ARTERY_FONT_ENCODE_WRITE(&header, sizeof(header));
ARTERY_FONT_ENCODE_WRITE_STRING(image.metadata);
ARTERY_FONT_ENCODE_WRITE((const unsigned char *) image.data, header.dataLength);
ARTERY_FONT_ENCODE_REALIGN();
}
// Write appendices
for (int i = 0; i < appendixCount; ++i) {
const FontAppendix<BYTE_ARRAY, STRING> &appendix = font.appendices[i];
internal::AppendixHeader header;
header.metadataLength = appendix.metadata.length();
header.dataLength = appendix.data.length();
ARTERY_FONT_ENCODE_WRITE(&header, sizeof(header));
ARTERY_FONT_ENCODE_WRITE_STRING(appendix.metadata);
ARTERY_FONT_ENCODE_WRITE((const unsigned char *) appendix.data, header.dataLength);
ARTERY_FONT_ENCODE_REALIGN();
}
// Write footer
{
internal::ArteryFontFooter footer;
footer.salt = 0;
footer.magicNo = ARTERY_FONT_FOOTER_MAGIC_NO;
memset(footer.reserved, 0, sizeof(footer.reserved));
footer.totalLength = totalLength+sizeof(footer);
ARTERY_FONT_ENCODE_WRITE(&footer, sizeof(footer)-sizeof(footer.checksum));
footer.checksum = checksum;
ARTERY_FONT_ENCODE_WRITE(&footer.checksum, sizeof(footer.checksum));
}
return true;
#undef ARTERY_FONT_ENCODE_WRITE
#undef ARTERY_FONT_ENCODE_REALIGN
#undef ARTERY_FONT_ENCODE_WRITE_STRING
}
#endif
#undef ARTERY_FONT_HEADER_TAG
#undef ARTERY_FONT_HEADER_VERSION
#undef ARTERY_FONT_HEADER_MAGIC_NO
#undef ARTERY_FONT_FOOTER_MAGIC_NO
}