/* PRS1 Unit Tests
*
* Copyright (c) 2019-2022 The OSCAR Team
*
* This file is subject to the terms and conditions of the GNU General Public
* License. See the file COPYING in the main directory of the source code
* for more details. */
#include "prs1tests.h"
#include "sessiontests.h"
#include "../SleepLib/loader_plugins/prs1_loader.h"
#include "../SleepLib/loader_plugins/prs1_parser.h"
#include "../SleepLib/importcontext.h"
#define TESTDATA_PATH "./testdata/"
//#define TEST_OSCAR_CALCS
static PRS1Loader* s_loader = nullptr;
static void iterateTestCards(const QString & root, void (*action)(const QString &));
static QString prs1OutputPath(const QString & inpath, const QString & serial, const QString & basename, const QString & suffix);
static QString prs1OutputPath(const QString & inpath, const QString & serial, int session, const QString & suffix);
void PRS1Tests::initTestCase(void)
{
p_profile = new Profile(TESTDATA_PATH "profile/", false);
#ifdef TEST_OSCAR_CALCS
p_pref = new Preferences("Preferences");
p_pref->Open();
AppSetting = new AppWideSetting(p_pref);
#endif
schema::init();
PRS1Loader::Register();
s_loader = dynamic_cast<PRS1Loader*>(lookupLoader(prs1_class_name));
}
void PRS1Tests::cleanupTestCase(void)
{
delete p_profile;
p_profile = nullptr;
#ifdef TEST_OSCAR_CALCS
delete p_pref;
#endif
}
// ====================================================================================================
extern PRS1ModelInfo s_PRS1ModelInfo;
void PRS1Tests::testMachineSupport()
{
QHash<QString,QString> tested = {
{ "ModelNumber", "550P" },
{ "Family", "0" },
{ "FamilyVersion", "3" },
};
QHash<QString,QString> supported = {
{ "ModelNumber", "700X999" },
{ "Family", "0" },
{ "FamilyVersion", "6" },
};
QHash<QString,QString> unsupported = {
{ "ModelNumber", "550P" },
{ "Family", "0" },
{ "FamilyVersion", "9" },
};
Q_ASSERT(s_PRS1ModelInfo.IsSupported(5, 3));
Q_ASSERT(!s_PRS1ModelInfo.IsSupported(5, 9));
Q_ASSERT(!s_PRS1ModelInfo.IsSupported(9, 9));
Q_ASSERT(s_PRS1ModelInfo.IsTested("550P", 0, 2));
Q_ASSERT(s_PRS1ModelInfo.IsTested("550P", 0, 3));
Q_ASSERT(s_PRS1ModelInfo.IsTested("760P", 0, 4));
Q_ASSERT(s_PRS1ModelInfo.IsTested("700X110", 0, 6));
Q_ASSERT(!s_PRS1ModelInfo.IsTested("700X999", 0, 6));
Q_ASSERT(s_PRS1ModelInfo.IsTested(tested));
Q_ASSERT(!s_PRS1ModelInfo.IsTested(supported));
Q_ASSERT(s_PRS1ModelInfo.IsSupported(tested));
Q_ASSERT(s_PRS1ModelInfo.IsSupported(supported));
Q_ASSERT(!s_PRS1ModelInfo.IsSupported(unsupported));
}
// ====================================================================================================
void parseAndEmitSessionYaml(const QString & path)
{
qDebug() << path;
ImportContext* ctx = new ProfileImportContext(p_profile);
s_loader->SetContext(ctx);
ctx->connect(ctx, &ImportContext::importEncounteredUnexpectedData, [=]() {
qWarning() << "*** Found unexpected data";
});
// This mirrors the functional bits of PRS1Loader::OpenMachine.
// TODO: Refactor PRS1Loader so that the tests can use the same
// underlying logic as OpenMachine rather than duplicating it here.
QStringList paths;
QString propertyfile;
int sessionid_base;
sessionid_base = s_loader->FindSessionDirsAndProperties(path, paths, propertyfile);
bool supported = s_loader->CreateMachineFromProperties(propertyfile);
if (!supported) {
qWarning() << "*** Skipping unsupported machine!";
return;
}
Machine* m = ctx->m_machine;
s_loader->ScanFiles(paths, sessionid_base);
// Each session now has a PRS1Import object in m_MLtasklist
QList<ImportTask*>::iterator i;
while (!s_loader->m_MLtasklist.isEmpty()) {
ImportTask* task = s_loader->m_MLtasklist.takeFirst();
// Run the parser
PRS1Import* import = dynamic_cast<PRS1Import*>(task);
bool ok = import->ParseSession();
// Emit the parsed session data to compare against our regression benchmarks
Session* session = import->session;
QString outpath = prs1OutputPath(path, m->serial(), session->session(), "-session.yml");
#ifdef TEST_OSCAR_CALCS
session->s_events_loaded = true;
session->UpdateSummaries();
#endif
SessionToYaml(outpath, session, ok);
delete session;
delete task;
}
delete ctx;
}
void PRS1Tests::testSessionsToYaml()
{
iterateTestCards(TESTDATA_PATH "prs1/input/", parseAndEmitSessionYaml);
}
// ====================================================================================================
static QString dur(qint64 msecs)
{
qint64 s = msecs / 1000L;
int h = s / 3600; s -= h * 3600;
int m = s / 60; s -= m * 60;
return QString("%1:%2:%3")
.arg(h, 2, 10, QChar('0'))
.arg(m, 2, 10, QChar('0'))
.arg(s, 2, 10, QChar('0'));
}
static QString byteList(QByteArray data, int limit=-1)
{
int count = data.size();
if (limit == -1 || limit > count) limit = count;
int first = limit / 2;
int last = limit - first;
#if 1
// Optimized after profiling regression tests.
QString s;
s.reserve(3 * limit + 4); // "NN " for each byte + possible "... " in the middle
const unsigned char* b = (const unsigned char*) data.constData();
for (int i = 0; i < first; i++) {
s.append(QString::asprintf("%02X ", b[i]));
}
if (limit < count) {
s.append(QStringLiteral("... "));
}
for (int i = count - last; i < count; i++) {
s.append(QString::asprintf("%02X ", b[i]));
}
s.resize(s.size() - 1); // remove trailing space
#else
// Unoptimized original, slows down regression tests.
QStringList l;
for (int i = 0; i < first; i++) {
l.push_back(QString( "%1" ).arg((int) data[i] & 0xFF, 2, 16, QChar('0') ).toUpper());
}
if (limit < count) l.push_back("...");
for (int i = count - last; i < count; i++) {
l.push_back(QString( "%1" ).arg((int) data[i] & 0xFF, 2, 16, QChar('0') ).toUpper());
}
QString s = l.join(" ");
#endif
return s;
}
void ChunkToYaml(QTextStream & out, PRS1DataChunk* chunk, bool ok)
{
// chunk header
out << "chunk:" << '\n';
out << " at: " << hex << chunk->m_filepos << '\n';
out << " parsed: " << ok << '\n';
out << " version: " << dec << chunk->fileVersion << '\n';
out << " size: " << chunk->blockSize << '\n';
out << " htype: " << chunk->htype << '\n';
out << " family: " << chunk->family << '\n';
out << " familyVersion: " << chunk->familyVersion << '\n';
out << " ext: " << chunk->ext << '\n';
out << " session: " << chunk->sessionid << '\n';
out << " start: " << ts(chunk->timestamp * 1000L) << '\n';
out << " duration: " << dur(chunk->duration * 1000L) << '\n';
// hblock for V3 non-waveform chunks
if (chunk->fileVersion == 3 && chunk->htype == 0) {
out << " hblock:" << '\n';
QMapIterator<unsigned char, short> i(chunk->hblock);
while (i.hasNext()) {
i.next();
out << " " << (int) i.key() << ": " << i.value() << '\n';
}
}
// waveform chunks
if (chunk->htype == 1) {
out << " intervals: " << chunk->interval_count << '\n';
out << " intervalSeconds: " << (int) chunk->interval_seconds << '\n';
out << " interleave:" << '\n';
for (int i=0; i < chunk->waveformInfo.size(); i++) {
const PRS1Waveform & w = chunk->waveformInfo.at(i);
out << " " << i << ": " << w.interleave << '\n';
}
out << " end: " << ts((chunk->timestamp + chunk->duration) * 1000L) << '\n';
}
// header checksum
out << " checksum: " << hex << chunk->storedChecksum << '\n';
if (chunk->storedChecksum != chunk->calcChecksum) {
out << " calcChecksum: " << hex << chunk->calcChecksum << '\n';
}
// data
bool dump_data = true;
if (chunk->m_parsedData.size() > 0) {
dump_data = false;
out << " events:" << '\n';
for (auto & e : chunk->m_parsedData) {
QString name = e->typeName();
if (name == "raw" || name == "unknown") {
dump_data = true;
}
QMap<QString,QString> contents = e->contents();
if (name == "setting" && contents.size() == 1) {
out << " - set_" << contents.firstKey() << ": " << contents.first() << '\n';
}
else {
out << " - " << name << ":" << '\n';
// Always emit start first if present
if (contents.contains("start")) {
out << " " << "start" << ": " << contents["start"] << '\n';
}
for (auto & key : contents.keys()) {
if (key == "start") continue;
out << " " << key << ": " << contents[key] << '\n';
}
}
}
}
if (dump_data || !ok) {
out << " data: " << byteList(chunk->m_data, 100) << '\n';
}
// data CRC
out << " crc: " << hex << chunk->storedCrc << '\n';
if (chunk->storedCrc != chunk->calcCrc) {
out << " calcCrc: " << hex << chunk->calcCrc << '\n';
}
out << '\n';
}
void parseAndEmitChunkYaml(const QString & path)
{
bool FV = false; // set this to true to emit family/familyVersion for this path
qDebug() << path;
ImportContext* ctx = new ProfileImportContext(p_profile);
s_loader->SetContext(ctx);
QHash<QString,QSet<quint64>> written;
QStringList paths;
QString propertyfile;
int sessionid_base;
sessionid_base = s_loader->FindSessionDirsAndProperties(path, paths, propertyfile);
bool supported = s_loader->CreateMachineFromProperties(propertyfile);
if (!supported) {
qWarning() << "*** Skipping unsupported machine!";
return;
}
Machine* m = ctx->m_machine;
// This mirrors the functional bits of PRS1Loader::ScanFiles.
QDir dir;
dir.setFilter(QDir::NoDotAndDotDot | QDir::Dirs | QDir::Files | QDir::Hidden | QDir::NoSymLinks);
dir.setSorting(QDir::Name);
int size = paths.size();
// for each p0/p1/p2/etc... folder
for (int p=0; p < size; ++p) {
dir.setPath(paths.at(p));
if (!dir.exists() || !dir.isReadable()) {
qWarning() << dir.canonicalPath() << "can't read directory";
continue;
}
QFileInfoList flist = dir.entryInfoList();
// Scan for individual .00X files
for (int i = 0; i < flist.size(); i++) {
QFileInfo fi = flist.at(i);
QString inpath = fi.canonicalFilePath();
bool ok;
if (fi.fileName() == ".DS_Store") {
continue;
}
QString ext_s = fi.fileName().section(".", -1);
if (ext_s.toUpper().startsWith("B")) { // .B01, .B02, etc.
ext_s = ext_s.mid(1);
}
int ext = ext_s.toInt(&ok);
if (!ok) {
// not a numerical extension
qInfo() << inpath << "unexpected filename";
continue;
}
QString session_s = fi.fileName().section(".", 0, -2);
int sessionid = session_s.toInt(&ok, sessionid_base);
if (!ok) {
// not a numerical session ID
qInfo() << inpath << "unexpected filename";
continue;
}
// Create the YAML file.
QString suffix = QString(".%1-chunks.yml").arg(ext, 3, 10, QChar('0'));
QString outpath = prs1OutputPath(path, m->serial(), sessionid, suffix);
QFile file(outpath);
// Truncate the first time we open this file, to clear out any previous test data.
// Otherwise append, allowing session chunks to be split among multiple files.
if (!file.open(QFile::WriteOnly | (written.contains(outpath) ? QFile::Append : QFile::Truncate))) {
qDebug() << outpath;
Q_ASSERT(false);
}
QTextStream out(&file);
// keep only P1234568/Pn/00000000.001
QStringList pathlist = QDir::toNativeSeparators(inpath).split(QDir::separator(), QString::SkipEmptyParts);
QString relative = pathlist.mid(pathlist.size()-3).join(QDir::separator());
bool first_chunk_from_file = true;
// Parse the chunks in the file.
QList<PRS1DataChunk *> chunks = s_loader->ParseFile(inpath);
for (int i=0; i < chunks.size(); i++) {
PRS1DataChunk * chunk = chunks.at(i);
if (i == 0 && FV) { qWarning() << QString("F%1V%2").arg(chunk->family).arg(chunk->familyVersion); FV=false; }
// Only write unique chunks to the file.
if (written[outpath].contains(chunk->hash()) == false) {
if (first_chunk_from_file) {
out << "file: " << relative << '\n';
first_chunk_from_file = false;
}
bool ok = true;
// Parse the inner data.
switch (chunk->ext) {
case 0: ok = chunk->ParseCompliance(); break;
case 1: ok = chunk->ParseSummary(); break;
case 2: ok = chunk->ParseEvents(); break;
case 5: break; // skip flow/pressure waveforms
case 6: break; // skip oximetry data
default:
qWarning() << relative << "unexpected file type";
break;
}
// Emit the YAML.
ChunkToYaml(out, chunk, ok);
written[outpath] += chunk->hash();
}
delete chunk;
}
file.close();
}
}
delete ctx;
p_profile->removeMachine(m);
delete m;
}
void PRS1Tests::testChunksToYaml()
{
iterateTestCards(TESTDATA_PATH "prs1/input/", parseAndEmitChunkYaml);
}
// ====================================================================================================
QString prs1OutputPath(const QString & inpath, const QString & serial, int session, const QString & suffix)
{
QString basename = QString("%1").arg(session, 8, 10, QChar('0'));
return prs1OutputPath(inpath, serial, basename, suffix);
}
QString prs1OutputPath(const QString & inpath, const QString & serial, const QString & basename, const QString & suffix)
{
// Output to prs1/output/FOLDER/SERIAL-000000(-session.yml, etc.)
QDir path(inpath);
QStringList pathlist = QDir::toNativeSeparators(inpath).split(QDir::separator(), QString::SkipEmptyParts);
pathlist.pop_back(); // drop serial number directory
pathlist.pop_back(); // drop P-Series directory
QString foldername = pathlist.last();
QDir outdir(TESTDATA_PATH "prs1/output/" + foldername);
outdir.mkpath(".");
QString filename = QString("%1-%2%3")
.arg(serial)
.arg(basename)
.arg(suffix);
return outdir.path() + QDir::separator() + filename;
}
void iterateTestCards(const QString & root, void (*action)(const QString &))
{
QDir dir(root);
dir.setFilter(QDir::NoDotAndDotDot | QDir::Dirs);
dir.setSorting(QDir::Name);
QFileInfoList flist = dir.entryInfoList();
// Look through each folder in the given root
for (auto & fi : flist) {
QStringList machinePaths = s_loader->FindMachinesOnCard(fi.canonicalFilePath());
// Tests should be run newest to oldest, since older sets tend to have more
// complete data. (These are usually previously cleared data in the Clear0/Cn
// directories.) The machines themselves will write out the summary data they
// remember when they see an empty folder, without event or waveform data.
// And since these tests (by design) overwrite existing output, we want the
// earlier (more complete) data to be what's written last.
//
// Since the loader itself keeps only the first set of data it sees for a session,
// we want to leave its earliest-to-latest ordering in place, and just reverse it
// here.
for (auto i = machinePaths.crbegin(); i != machinePaths.crend(); i++) {
action(*i);
}
}
}