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ImHex-v1.29.0
ImHex-Patterns/patterns/flac.hexpat
Zaggy1024 1cd7f92a5d patterns/includes: Update standard library and patterns to support the new bitfields (#102) 
* Add `current_bit_offset()` and `read_bits(...)` to `std::mem`

* Replace deprecated BitfieldOrder enum values with new clearer names

This adds new options named `MostToLeastSignificant` and `LeastToMostSignificant` to replace the old `LeftToRight` and `RightToLeft` names. These names should be much clearer about what they affect and how.

* Throw errors when `std::core::(get|set)_bitfield_order()` are called

* Update all patterns to work with the new bitfield behaviors
2023-04-01 11:16:54 +02:00

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#include <std/sys.pat>
#include <std/core.pat>
#include <std/io.pat>
#pragma endian big
using BitfieldOrder = std::core::BitfieldOrder;
u32 sampleSize;
u32 bitsPerSample;
// METADATA
enum BLOCK_TYPE : u8 {
STREAMINFO = 0,
PADDING = 1,
APPLICATION = 2,
SEEKTABLE = 3,
VORBIS_COMMENT = 4,
CUESHEET = 5,
PICTURE = 6,
INVALID = 127
};
bitfield METADATA_BLOCK_HEADER {
lastMetadataBlock : 1;
blockType : 7;
length : 24;
};
bitfield STREAMINFO_FLAGS {
sampleRate : 20;
numChannels : 3 [[format("format_channels")]];
bitsPerSample : 5;
numSamplesInStream : 36;
} [[inline]];
fn format_channels(u8 value) {
return value + 1;
};
struct METADATA_BLOCK_STREAMINFO {
u16 minBlockSize, maxBlockSize;
u24 minFrameSize, maxFrameSize;
STREAMINFO_FLAGS flags;
u128 md5Signature;
bitsPerSample = flags.bitsPerSample;
};
struct METADATA_BLOCK_PADDING {
padding[parent.header.length];
};
struct METADATA_BLOCK_APPLICATION {
char applicationID[4];
u8 applicationData[parent.header.length - sizeof(applicationID)];
};
struct SEEKPOINT {
u64 sampleNumber;
u64 byteOffset;
u16 numSamples;
};
struct METADATA_BLOCK_SEEKTABLE {
SEEKPOINT seekPoints[parent.header.length / 18];
};
struct VORBIS_USER_COMMENT {
le u32 length;
char comment[length];
};
struct METADATA_BLOCK_VORBIS_COMMENT {
le u32 vendorLength;
u8 vendor[vendorLength];
le u32 userCommentListLength;
VORBIS_USER_COMMENT userCommentList[userCommentListLength];
};
bitfield TRACK_FLAGS {
audioTrack : 1;
preEmphasis : 1;
} [[inline,bitfield_order(BitfieldOrder::LeastToMostSignificant, 8)]];
struct CUESHEET_TRACK_INDEX {
u64 sampleOffset;
u8 indexPointNumber;
padding[3];
};
struct CUESHEET_TRACK {
u64 trackOffset;
u8 trackNumber;
char trackISRC[12];
TRACK_FLAGS flags;
padding[13];
u8 numTrackIndexPoints;
CUESHEET_TRACK_INDEX indexes[numTrackIndexPoints];
};
struct METADATA_BLOCK_CUESHEET {
char mediaCatalogNumber[128];
u64 numLeadInSamples;
bool isCD;
padding[258];
u8 numTracks;
CUESHEET_TRACK tracks[numTracks];
};
enum PICTURE_TYPE : u32 {
Other = 0,
FileIcon = 1,
OtherFileIcon = 2,
CoverFront = 3,
CoverBack = 4,
LeafletPage = 5,
Media = 6,
LeadArtist = 7,
Artist = 8,
Conductor = 9,
Band = 10,
Composer = 11,
Lyricist = 12,
RecordingLocation = 13,
DuringRecording = 14,
DuringPerformance = 15,
MovieScreenCapture = 16,
ABrightColoredFish = 17,
Illustration = 18,
BandLogoType = 19,
PublisherLogoType = 20
};
struct METADATA_BLOCK_PICTURE {
PICTURE_TYPE pictureType;
u32 mimeTypeLength;
char mimeType[mineTypeLength];
u32 descriptionLength;
char description[descriptionLength];
u32 width, height;
u32 colorDepth;
u32 colorCount;
u32 pictureDataLength;
u8 pictureData[pictureDataLength];
};
// FRAME DATA
// TODO: THIS IS INCOMPLETE / NOT WORKING CURRENTLY
bitfield FRAME_HEADER_FLAGS {
syncCode : 14;
padding : 1;
blockingStrategy : 1;
blockSize : 4;
sampleRate : 4;
channelAssignment : 4;
sampleSize : 3;
} [[inline,bitfield_order(BitfieldOrder::LeastToMostSignificant, 32)]];
struct FRAME_HEADER {
FRAME_HEADER_FLAGS flags;
sampleSize = flags.sampleSize;
if (flags.blockingStrategy)
char16 sampleNumber[7];
else
char16 frameNumber[6];
if (flags.blockSize == 0b0110)
u8 blockSize;
else if (flags.blockSize == 0b0111)
u16 blockSize;
if (flags.sampleRate == 0b1100)
u8 sampleRate;
else if (flags.sampleRate == 0b1101 || flags.sampleRate == 0b1110)
u16 sampleRate;
u8 crc8;
};
struct FRAME_FOOTER {
u16 crc16;
};
bitfield SUBFRAME_HEADER {
padding : 1;
type : 6;
wastedBits : 1;
};
fn getBitsPerSample() {
if (sampleSize == 0b000)
return bitsPerSample;
else if (sampleSize == 0b001)
return 8;
else if (sampleSize == 0b010)
return 12;
else if (sampleSize == 0b100)
return 16;
else if (sampleSize == 0b101)
return 20;
else if (sampleSize == 0b110)
return 24;
else
std::error(std::format("Invalid sample size {}.", sampleSize));
};
bitfield SUBFRAME_CONSTANT {
value : getBitsPerSample();
};
bitfield SUBFRAME_VERBATIM {
value : getBitsPerSample() * parent.parent.header.flags.blockSize;
};
bitfield SUBFRAME_FIXED_VALUE {
value : getBitsPerSample() * (parent.parent.header.type & 0b111);
codingMethod : 2;
} [[inline]];
bitfield RESIDUAL_CODING_METHOD_PARTITIONED_RICE {
partitionOrder : 4;
riceParameter : 4;
if (riceParameter == 0b1111)
bitsPerSample : 5;
};
bitfield RESIDUAL_CODING_METHOD_PARTITIONED_RICE2 {
partitionOrder : 4;
riceParameter : 5;
if (riceParameter == 0b11111)
bitsPerSample : 5;
};
struct RESIDUAL {
if (parent.value.codingMethod == 0b00)
RESIDUAL_CODING_METHOD_PARTITIONED_RICE rice;
else if (parent.value.codingMethod == 0b01)
RESIDUAL_CODING_METHOD_PARTITIONED_RICE2 rice;
if ((parent.parent.header.type & 0b111) == 0b000)
u8 samples[(getBitsPerSample() * (parent.parent.parent.header.flags.blockSize - (parent.parent.header.type & 0b111))) / 8];
else if (std::core::array_index() != 0)
u8 samples[(getBitsPerSample() * (parent.parent.parent.header.flags.blockSize / (1 << rice.partitionOrder))) / 8];
else
u8 samples[(getBitsPerSample() * ((parent.parent.parent.header.flags.blockSize / (1 << rice.partitionOrder)) - (parent.parent.header.type & 0b111))) / 8];
};
struct SUBFRAME_FIXED {
SUBFRAME_FIXED_VALUE value;
RESIDUAL residual;
};
bitfield SUBFRAME_LPC_VALUE {
warmUpSamples : getBitsPerSample() * ((parent.header.type & 0b011111) + 1);
quantizedLinearPredictorCoefficient : 4;
quantizedLinearPredictorCoefficientShift : 5;
predictorCoefficients : quantizedLinearPredictorCoefficient * ((parent.header.type & 0b011111) + 1);
} [[inline]];
struct SUBFRAME_LPC {
SUBFRAME_LPC_VALUE value;
RESIDUAL residual;
};
struct SUBFRAME {
SUBFRAME_HEADER header;
if (header.type == 0b00000)
SUBFRAME_CONSTANT constant;
else if (header.type == 0b000001)
SUBFRAME_VERBATIM verbatim;
else if ((header.type >> 3) == 0b001 && (header.type & 0b111) <= 4)
SUBFRAME_FIXED fixed;
else if (header.type == 0b100000)
SUBFRAME_LPC lpc;
};
struct FRAME {
FRAME_HEADER header;
SUBFRAME subframes[parent.metadata[0].data.flags.numChannels + 1];
FRAME_FOOTER footer;
};
struct METADATA_BLOCK {
METADATA_BLOCK_HEADER header;
if (header.lastMetadataBlock)
break;
if (header.blockType == BLOCK_TYPE::STREAMINFO)
METADATA_BLOCK_STREAMINFO data;
else if (header.blockType == BLOCK_TYPE::PADDING)
METADATA_BLOCK_PADDING data;
else if (header.blockType == BLOCK_TYPE::APPLICATION)
METADATA_BLOCK_APPLICATION data;
else if (header.blockType == BLOCK_TYPE::VORBIS_COMMENT)
METADATA_BLOCK_VORBIS_COMMENT data;
else if (header.blockType == BLOCK_TYPE::CUESHEET)
METADATA_BLOCK_CUESHEET data;
else if (header.blockType == BLOCK_TYPE::PICTURE)
METADATA_BLOCK_PICTURE data;
else
std::error("Invalid metadata block type!");
};
struct STREAM {
char magic[4];
METADATA_BLOCK metadata[while(true)];
//FRAME frames[while(!std::mem::eof())];
};
STREAM stream @ 0x00;
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