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mirror of https://github.com/strawberrymusicplayer/strawberry synced 2024-12-13 09:07:04 +01:00
strawberry-audio-player-win.../ext/libstrawberry-tagreader/tagreadergme.cpp
2023-07-21 07:17:58 +02:00

301 lines
10 KiB
C++

/*
* Strawberry Music Player
* Copyright 2022, Eoin O'Neill <eoinoneill1991@gmail.com>
*
* Strawberry is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* Strawberry 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with Strawberry. If not, see <http://www.gnu.org/licenses/>.
*
*/
#include "tagreadergme.h"
#include <tag.h>
#include <apefile.h>
#include <QByteArray>
#include <QString>
#include <QChar>
#include <QFileInfo>
#include <QFile>
#include <QTextStream>
#include "utilities/timeconstants.h"
#include "core/logging.h"
#include "core/messagehandler.h"
#include "tagreaderbase.h"
#include "tagreadertaglib.h"
bool GME::IsSupportedFormat(const QFileInfo &file_info) {
return file_info.exists() && (file_info.completeSuffix().endsWith("spc", Qt::CaseInsensitive) || file_info.completeSuffix().endsWith("vgm"), Qt::CaseInsensitive);
}
bool GME::ReadFile(const QFileInfo &file_info, spb::tagreader::SongMetadata *song_info) {
if (file_info.completeSuffix().endsWith("spc"), Qt::CaseInsensitive) {
SPC::Read(file_info, song_info);
return true;
}
if (file_info.completeSuffix().endsWith("vgm", Qt::CaseInsensitive)) {
VGM::Read(file_info, song_info);
return true;
}
return false;
}
quint32 GME::UnpackBytes32(const char *const bytes, size_t length) {
Q_ASSERT(length <= 4 && length > 0);
quint32 value = 0;
for (size_t i = 0; i < length; i++) {
value |= static_cast<unsigned char>(bytes[i]) << (8 * i);
}
return value;
}
void GME::SPC::Read(const QFileInfo &file_info, spb::tagreader::SongMetadata *song_info) {
QFile file(file_info.filePath());
if (!file.open(QIODevice::ReadOnly)) return;
qLog(Debug) << "Reading tags from SPC file" << file_info.fileName();
// Check for header -- more reliable than file name alone.
if (!file.read(33).startsWith(QString("SNES-SPC700").toLatin1())) return;
// First order of business -- get any tag values that exist within the core file information.
// These only allow for a certain number of bytes per field,
// so they will likely be overwritten either by the id666 standard or the APETAG format (as used by other players, such as foobar and winamp)
//
// Make sure to check id6 documentation before changing the read values!
file.seek(HAS_ID6_OFFSET);
const QByteArray id6_status = file.read(1);
const bool has_id6 = id6_status.length() >= 1 && id6_status[0] == static_cast<char>(xID6_STATUS::ON);
file.seek(SONG_TITLE_OFFSET);
song_info->set_title(QString::fromLatin1(file.read(32)).toStdString());
file.seek(GAME_TITLE_OFFSET);
song_info->set_album(QString::fromLatin1(file.read(32)).toStdString());
file.seek(ARTIST_OFFSET);
song_info->set_artist(QString::fromLatin1(file.read(32)).toStdString());
file.seek(INTRO_LENGTH_OFFSET);
QByteArray length_bytes = file.read(INTRO_LENGTH_SIZE);
if (length_bytes.size() >= INTRO_LENGTH_SIZE) {
quint64 length_in_sec = ConvertSPCStringToNum(length_bytes);
if (!length_in_sec || length_in_sec >= 0x1FFF) {
// This means that parsing the length as a string failed, so get value LE.
length_in_sec = length_bytes[0] | (length_bytes[1] << 8) | (length_bytes[2] << 16);
}
if (length_in_sec < 0x1FFF) {
song_info->set_length_nanosec(length_in_sec * kNsecPerSec);
}
}
file.seek(FADE_LENGTH_OFFSET);
QByteArray fade_bytes = file.read(FADE_LENGTH_SIZE);
if (fade_bytes.size() >= FADE_LENGTH_SIZE) {
quint64 fade_length_in_ms = ConvertSPCStringToNum(fade_bytes);
if (fade_length_in_ms > 0x7FFF) {
fade_length_in_ms = fade_bytes[0] | (fade_bytes[1] << 8) | (fade_bytes[2] << 16) | (fade_bytes[3] << 24);
}
Q_UNUSED(fade_length_in_ms)
}
// Check for XID6 data -- this is infrequently used, but being able to fill in data from this is ideal before trying to rely on APETAG values.
// XID6 format follows EA's binary file format standard named "IFF"
file.seek(XID6_OFFSET);
if (has_id6 && file.read(4) == QString("xid6").toLatin1()) {
QByteArray xid6_head_data = file.read(4);
if (xid6_head_data.size() >= 4) {
qint64 xid6_size = xid6_head_data[0] | (xid6_head_data[1] << 8) | (xid6_head_data[2] << 16) | xid6_head_data[3];
// This should be the size remaining for entire ID6 block, but it seems that most files treat this as the size of the remaining header space...
qLog(Debug) << file_info.fileName() << "has ID6 tag.";
while ((file.pos()) + 4 < XID6_OFFSET + xid6_size) {
QByteArray arr = file.read(4);
if (arr.size() < 4) break;
qint8 id = arr[0];
qint8 type = arr[1];
Q_UNUSED(id);
Q_UNUSED(type);
qint16 length = static_cast<qint16>(arr[2] | (arr[3] << 8));
file.read(GetNextMemAddressAlign32bit(length));
}
}
}
// Music Players that support SPC tend to support additional tagging data as
// an APETAG entry at the bottom of the file instead of writing into the xid6 tagging space.
// This is where a lot of the extra data for a file is stored, such as genre or replaygain data.
// This data is currently supported by TagLib, so we will simply use that for the remaining values.
TagLib::APE::File ape(file_info.filePath().toStdString().data());
if (ape.hasAPETag()) {
TagLib::Tag *tag = ape.tag();
if (!tag) return;
TagReaderTagLib::TStringToStdString(tag->artist(), song_info->mutable_artist());
TagReaderTagLib::TStringToStdString(tag->album(), song_info->mutable_album());
TagReaderTagLib::TStringToStdString(tag->title(), song_info->mutable_title());
TagReaderTagLib::TStringToStdString(tag->genre(), song_info->mutable_genre());
song_info->set_track(static_cast<std::int32_t>(tag->track()));
song_info->set_year(static_cast<std::int32_t>(tag->year()));
}
song_info->set_valid(true);
song_info->set_filetype(spb::tagreader::SongMetadata_FileType_SPC);
}
qint16 GME::SPC::GetNextMemAddressAlign32bit(qint16 input) {
return static_cast<qint16>((input + 0x3) & ~0x3);
// Plus 0x3 for rounding up (not down), AND NOT to flatten out on a 32 bit level.
}
quint64 GME::SPC::ConvertSPCStringToNum(const QByteArray &arr) {
quint64 result = 0;
for (auto it = arr.begin(); it != arr.end(); it++) {
unsigned int num = *it - '0';
if (num > 9) break;
result = (result * 10) + num; // Shift Left and add.
}
return result;
}
void GME::VGM::Read(const QFileInfo &file_info, spb::tagreader::SongMetadata *song_info) {
QFile file(file_info.filePath());
if (!file.open(QIODevice::ReadOnly)) return;
qLog(Debug) << "Reading tags from VGM file" << file_info.fileName();
if (!file.read(4).startsWith(QString("Vgm ").toLatin1())) return;
file.seek(GD3_TAG_PTR);
QByteArray gd3_head = file.read(4);
if (gd3_head.size() < 4) return;
quint64 pt = GME::UnpackBytes32(gd3_head.constData(), gd3_head.size());
file.seek(SAMPLE_COUNT);
QByteArray sample_count_bytes = file.read(4);
file.seek(LOOP_SAMPLE_COUNT);
QByteArray loop_count_bytes = file.read(4);
quint64 length = 0;
if (!GetPlaybackLength(sample_count_bytes, loop_count_bytes, length)) return;
file.seek(static_cast<qint64>(GD3_TAG_PTR + pt));
QByteArray gd3_version = file.read(4);
file.seek(file.pos() + 4);
QByteArray gd3_length_bytes = file.read(4);
quint32 gd3_length = GME::UnpackBytes32(gd3_length_bytes.constData(), gd3_length_bytes.size());
QByteArray gd3Data = file.read(gd3_length);
QTextStream fileTagStream(gd3Data, QIODevice::ReadOnly);
// Stored as 16 bit UTF string, two bytes per letter.
#if QT_VERSION >= QT_VERSION_CHECK(6, 0, 0)
fileTagStream.setEncoding(QStringConverter::Utf16);
#else
fileTagStream.setCodec("UTF-16");
#endif
QStringList strings = fileTagStream.readLine(0).split(QChar('\0'));
if (strings.count() < 10) return;
// VGM standard dictates string tag data exist in specific order.
// Order alternates between English and Japanese version of data.
// Read GD3 tag standard for more details.
song_info->set_title(strings[0].toStdString());
song_info->set_album(strings[2].toStdString());
song_info->set_artist(strings[6].toStdString());
song_info->set_year(strings[8].left(4).toInt());
song_info->set_length_nanosec(length * kNsecPerMsec);
song_info->set_valid(true);
song_info->set_filetype(spb::tagreader::SongMetadata_FileType_VGM);
}
bool GME::VGM::GetPlaybackLength(const QByteArray &sample_count_bytes, const QByteArray &loop_count_bytes, quint64 &out_length) {
if (sample_count_bytes.size() != 4) return false;
if (loop_count_bytes.size() != 4) return false;
quint64 sample_count = GME::UnpackBytes32(sample_count_bytes.constData(), sample_count_bytes.size());
if (sample_count == 0) return false;
quint64 loop_sample_count = GME::UnpackBytes32(loop_count_bytes.constData(), loop_count_bytes.size());
if (loop_sample_count == 0) {
out_length = sample_count * 1000 / SAMPLE_TIMEBASE;
return true;
}
quint64 intro_length_ms = (sample_count - loop_sample_count) * 1000 / SAMPLE_TIMEBASE;
quint64 loop_length_ms = (loop_sample_count) * 1000 / SAMPLE_TIMEBASE;
out_length = intro_length_ms + (loop_length_ms * 2) + GST_GME_LOOP_TIME_MS;
return true;
}
TagReaderGME::TagReaderGME() = default;
TagReaderGME::~TagReaderGME() = default;
bool TagReaderGME::IsMediaFile(const QString &filename) const {
QFileInfo fileinfo(filename);
return GME::IsSupportedFormat(fileinfo);
}
bool TagReaderGME::ReadFile(const QString &filename, spb::tagreader::SongMetadata *song) const {
QFileInfo fileinfo(filename);
return GME::ReadFile(fileinfo, song);
}
bool TagReaderGME::SaveFile(const spb::tagreader::SaveFileRequest&) const {
return false;
}
QByteArray TagReaderGME::LoadEmbeddedArt(const QString&) const {
return QByteArray();
}
bool TagReaderGME::SaveEmbeddedArt(const spb::tagreader::SaveEmbeddedArtRequest&) const {
return false;
}
bool TagReaderGME::SaveSongPlaycountToFile(const QString&, const spb::tagreader::SongMetadata&) const {
return false;
}
bool TagReaderGME::SaveSongRatingToFile(const QString&, const spb::tagreader::SongMetadata&) const {
return false;
}