/**
* Produces an erase plan for clearing the entire device.
*
* Special care is taken to erase the Config Words page last, when writeConfig is
* turned on and the device uses FLASH for Config Words.
*
* When writeConfig is false, care is taken to avoid erasing the Config Words page.
*
* This routine makes sure not to erase the Bootloader Block.
*
* All erases are listed in reverse address order. This forces the program to
* erase all application code from the device before finally erasing the crucial
* address 0 reset vector. With all application code erased, having a "GOTO BootloaderStart"
* instruction at address 0 is no longer critical, as blank memory will provide "NOP"
* executions all the way to the Bootloader Block. Thus, the Bootloader will be able to
* execute when there is no application code programmed.
*/
void DeviceWritePlanner::planFlashErase(QLinkedList<Device::MemoryRange>& eraseList,
unsigned int* existingData)
{
Device::MemoryRange block;
block.start = device->startFLASH;
block.end = device->endFLASH;
eraseList.clear();
eraseList.append(block);
if(device->family == Device::PIC32 && existingData == NULL)
{
return;
}
if(writeConfig)
{
eraseConfigPageLast(eraseList);
}
else
{
doNotEraseConfigPage(eraseList);
}
doNotEraseInterruptVectorTable(eraseList);
doNotEraseBootBlock(eraseList);
if(existingData != NULL)
{
// For differential bootloading:
// Scan existingData to see if we can avoid erasing any pages.
// Not explicitly required, but could occassionally reduce the
// number of erase transactions.
}
}
/*!
* Memory ranges used by the bootloader firmware are excluded from the verify list.
*
* If the Write Config option is disabled, the FLASH Erase Block containing config
* words is excluded from the verify list. (only for devices that store config bits in
* FLASH memory).
*/
void DeviceVerifyPlanner::planFlashVerify(QLinkedList<Device::MemoryRange>& verifyList, int start, int end)
{
Device::MemoryRange block;
block.start = start;
block.end = end;
verifyList.clear();
verifyList.append(block);
if(!writeConfig)
{
doNotVerifyConfigPage(verifyList);
}
doNotVerifyBootBlock(verifyList);
}
TEST_F(CoverArtUtilTest, searchImage) {
// creating a temp track directory
QString trackdir(QDir::tempPath() % "/TrackDir");
ASSERT_FALSE(QDir().exists(trackdir)); // it must start empty
ASSERT_TRUE(QDir().mkpath(trackdir));
TrackPointer pTrack(Track::newTemporary(kTrackLocationTest));
SoundSourceProxy(pTrack).loadTrackMetadata();
QLinkedList<QFileInfo> covers;
CoverArt res;
// looking for cover in an empty directory
res = CoverArtUtils::selectCoverArtForTrack(pTrack.data(), covers);
CoverArt expected;
expected.info.source = CoverInfo::GUESSED;
EXPECT_EQ(expected, res);
// Looking for a track with embedded cover.
pTrack = TrackPointer(Track::newTemporary(kTrackLocationTest));
SoundSourceProxy(pTrack).loadTrackMetadataAndCoverArt();
expected = CoverArt();
expected.image = pTrack->getCoverArt().image;
expected.info.type = CoverInfo::METADATA;
expected.info.source = CoverInfo::GUESSED;
expected.info.coverLocation = QString();
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
EXPECT_EQ(expected, pTrack->getCoverArt());
const char* format("jpg");
const QString qFormat(format);
// Since we already parsed this image from the matadata in
// kTrackLocationTest, hang on to it since we use it as a template for
// stuff below.
const QImage img = expected.image;
QString trackBaseName = "cover-test";
QString trackAlbum = "album_name";
// Search Strategy
// 0. If we have just one file, we will get it.
// 1. %track-file-base%.jpg in the track directory for %track-file-base%.mp3
// 2. %album%.jpg
// 3. cover.jpg
// 4. front.jpg
// 5. album.jpg
// 6. folder.jpg
// 7. if just one file exists take that otherwise none.
// All the following expect the same image/hash to be selected.
expected.image = img;
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
// All the following expect FILE and GUESSED.
expected.info.type = CoverInfo::FILE;
expected.info.source = CoverInfo::GUESSED;
// 0. saving just one cover in our temp track dir
QString cLoc_foo = QString(trackdir % "/" % "foo." % qFormat);
EXPECT_TRUE(img.save(cLoc_foo, format));
// looking for cover in an directory with one image will select that one.
expected.image = QImage(cLoc_foo);
expected.info.coverLocation = "foo.jpg";
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
covers << QFileInfo(cLoc_foo);
res = CoverArtUtils::selectCoverArtForTrack(trackBaseName, trackAlbum,
covers);
EXPECT_EQ(expected, res);
QFile::remove(cLoc_foo);
QStringList extraCovers;
// adding some extra images (bigger) just to populate the track dir.
QString cLoc_big1 = QString(trackdir % "/" % "big1." % qFormat);
EXPECT_TRUE(img.scaled(1000,1000).save(cLoc_big1, format));
extraCovers << cLoc_big1;
QString cLoc_big2 = QString(trackdir % "/" % "big2." % qFormat);
EXPECT_TRUE(img.scaled(900,900).save(cLoc_big2, format));
extraCovers << cLoc_big2;
QString cLoc_big3 = QString(trackdir % "/" % "big3." % qFormat);
EXPECT_TRUE(img.scaled(800,800).save(cLoc_big3, format));
extraCovers << cLoc_big3;
// saving more covers using the preferred names in the right order
QLinkedList<QFileInfo> prefCovers;
// 1. track_filename.jpg
QString cLoc_filename = QString(trackdir % "/cover-test." % qFormat);
EXPECT_TRUE(img.scaled(500,500).save(cLoc_filename, format));
prefCovers << QFileInfo(cLoc_filename);
// 2. album_name.jpg
QString cLoc_albumName = QString(trackdir % "/album_name." % qFormat);
EXPECT_TRUE(img.scaled(500,500).save(cLoc_albumName, format));
prefCovers << QFileInfo(cLoc_albumName);
// 3. cover.jpg
QString cLoc_cover = QString(trackdir % "/" % "cover." % qFormat);
EXPECT_TRUE(img.scaled(400,400).save(cLoc_cover, format));
prefCovers << QFileInfo(cLoc_cover);
// 4. front.jpg
QString cLoc_front = QString(trackdir % "/" % "front." % qFormat);
EXPECT_TRUE(img.scaled(300,300).save(cLoc_front, format));
prefCovers << QFileInfo(cLoc_front);
// 5. album.jpg
QString cLoc_album = QString(trackdir % "/" % "album." % qFormat);
EXPECT_TRUE(img.scaled(100,100).save(cLoc_album, format));
prefCovers << QFileInfo(cLoc_album);
// 6. folder.jpg
QString cLoc_folder = QString(trackdir % "/" % "folder." % qFormat);
EXPECT_TRUE(img.scaled(100,100).save(cLoc_folder, format));
prefCovers << QFileInfo(cLoc_folder);
// 8. other1.jpg
QString cLoc_other1 = QString(trackdir % "/" % "other1." % qFormat);
EXPECT_TRUE(img.scaled(10,10).save(cLoc_other1, format));
prefCovers << QFileInfo(cLoc_other1);
// 7. other2.jpg
QString cLoc_other2 = QString(trackdir % "/" % "other2." % qFormat);
EXPECT_TRUE(img.scaled(10,10).save(cLoc_other2, format));
prefCovers << QFileInfo(cLoc_other2);
// we must find covers in the right order
EXPECT_EQ(8, prefCovers.size());
// Remove the covers one by one from the front, checking that each one is
// selected as we remove the previously-most-preferable cover.
while (!prefCovers.isEmpty()) {
QFileInfo cover = prefCovers.first();
// We expect no cover selected for other1 since there are 2 covers,
// neither of which match our preferred cover names. other2 will be
// selected once we get to it since it is the only cover available.
if (cover.baseName() == "other1") {
expected.image = QImage();
expected.info.type = CoverInfo::NONE;
expected.info.coverLocation = QString();
expected.info.hash = 0;
} else {
expected.image = QImage(cover.filePath());
expected.info.type = CoverInfo::FILE;
expected.info.coverLocation = cover.fileName();
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
}
res = CoverArtUtils::selectCoverArtForTrack(trackBaseName, trackAlbum,
prefCovers);
EXPECT_QSTRING_EQ(expected.info.coverLocation, res.info.coverLocation);
EXPECT_QSTRING_EQ(expected.info.hash, res.info.hash);
EXPECT_EQ(expected, res);
QFile::remove(cover.filePath());
prefCovers.pop_front();
}
//
// Additional tests
//
// what is chosen when cover.jpg and cover.JPG exists?
// (it must always prefer the lighter cover)
QString cLoc_coverJPG = trackdir % "/" % "cover." % "JPG";
EXPECT_TRUE(img.scaled(200,200).save(cLoc_coverJPG, "JPG"));
prefCovers.append(QFileInfo(cLoc_coverJPG));
QString cLoc_coverjpg = trackdir % "/" % "cover." % "jpg";
EXPECT_TRUE(img.scaled(400,400).save(cLoc_coverjpg, "jpg"));
prefCovers.append(QFileInfo(cLoc_coverjpg));
extraCovers << cLoc_coverJPG << cLoc_coverjpg;
res = CoverArtUtils::selectCoverArtForTrack(trackBaseName, trackAlbum,
prefCovers);
expected.image = QImage(cLoc_coverJPG);
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
expected.info.coverLocation = "cover.JPG";
EXPECT_EQ(expected, res);
// As we are looking for %album%.jpg and %base_track.jpg%,
// we need to check if everything works with UTF8 chars.
trackBaseName = QString::fromUtf8("track_ðÑöæäî");
trackAlbum = QString::fromUtf8("öæäîðÑ_album");
prefCovers.clear();
// 2. album_name.jpg
cLoc_albumName = QString(trackdir % "/" % trackAlbum % "." % qFormat);
EXPECT_TRUE(img.save(cLoc_albumName, format));
prefCovers.append(QFileInfo(cLoc_albumName));
res = CoverArtUtils::selectCoverArtForTrack(trackBaseName, trackAlbum,
prefCovers);
expected.image = QImage(cLoc_albumName);
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
expected.info.coverLocation = trackAlbum % ".jpg";
EXPECT_EQ(expected, res);
// 1. track_filename.jpg
cLoc_filename = QString(trackdir % "/" % trackBaseName % "." % qFormat);
EXPECT_TRUE(img.save(cLoc_filename, format));
prefCovers.append(QFileInfo(cLoc_filename));
res = CoverArtUtils::selectCoverArtForTrack(trackBaseName, trackAlbum,
prefCovers);
expected.image = QImage(cLoc_filename);
expected.info.hash = CoverArtUtils::calculateHash(expected.image);
expected.info.coverLocation = trackBaseName % ".jpg";
EXPECT_EQ(expected, res);
QFile::remove(cLoc_filename);
QFile::remove(cLoc_albumName);
// cleaning temp dir
foreach (QString loc, extraCovers) {
QFile::remove(loc);
}
/*!
* @desc collects groups of concurrent items in the offset range
*/
QList< QLinkedList<QxtScheduleInternalItem *> > QxtScheduleViewPrivate::findConcurrentItems(const int from, const int to) const
{
QList< QLinkedList<QxtScheduleInternalItem *> > allConcurrentItems;
QList<QxtScheduleInternalItem *> allItemsSorted = m_Items;
if(m_Items.size() == 0)
return allConcurrentItems;
qSort(allItemsSorted.begin(), allItemsSorted.end(), qxtScheduleItemLessThan);
int startItem = 0;
int endItem = allItemsSorted.size() - 1;
//find the startitem that interferes with our range
for (int i = 0; i < allItemsSorted.size(); i++)
{
if (i > 0)
{
if (!(allItemsSorted.at(i - 1)->visualEndTableOffset() >= allItemsSorted.at(i)->visualStartTableOffset()
&& allItemsSorted.at(i - 1)->visualStartTableOffset() <= allItemsSorted.at(i)->visualEndTableOffset()))
startItem = i;
}
if (allItemsSorted.at(i)->visualEndTableOffset() >= from && allItemsSorted.at(i)->visualStartTableOffset() <= to)
break;
}
//find the last item that interferes with our range
for (int i = allItemsSorted.size() - 1; i >= 0 ; i--)
{
if (i < allItemsSorted.size() - 1)
{
if (!(allItemsSorted.at(i + 1)->visualEndTableOffset() >= allItemsSorted.at(i)->visualStartTableOffset()
&& allItemsSorted.at(i + 1)->visualStartTableOffset() <= allItemsSorted.at(i)->visualEndTableOffset()))
endItem = i;
}
if (allItemsSorted.at(i)->visualEndTableOffset() >= from && allItemsSorted.at(i)->visualStartTableOffset() <= to)
break;
}
int startOffset = allItemsSorted.at(startItem)->visualStartTableOffset();
int endOffset = allItemsSorted.at(endItem)->visualEndTableOffset();
/*now we have to populate a list with all items that interfere with our range */
QLinkedList<QxtScheduleInternalItem *> concurrentItems;
for (int iAllItemLoop = startItem; iAllItemLoop <= endItem; iAllItemLoop++)
{
int tempStartOffset = allItemsSorted.at(iAllItemLoop)->visualStartTableOffset();
int tempEndOffset = allItemsSorted.at(iAllItemLoop)->visualEndTableOffset();
if (tempEndOffset >= startOffset && tempStartOffset <= endOffset)
{
if (concurrentItems.size() >= 1)
{
bool bAppend = false;
/*check all items in the list if the current items interfers although the items are ordered by startIndex
*we can loose some of them if the endTime of the last Item is before the endTime of the pre last item
*/
for (QLinkedList<QxtScheduleInternalItem *>::iterator it = concurrentItems.begin(); it != concurrentItems.end(); ++it)
{
int lastStartOffset = (*it)->visualStartTableOffset();
int lastEndOffset = (*it)->visualEndTableOffset();
if (tempEndOffset >= lastStartOffset && tempStartOffset <= lastEndOffset)
{
bAppend = true;
break;
}
}
if (bAppend)
{
concurrentItems.append(allItemsSorted.at(iAllItemLoop));
}
else
{
allConcurrentItems.append(concurrentItems);
concurrentItems.clear();
concurrentItems.append(allItemsSorted.at(iAllItemLoop));
}
}
else
concurrentItems.append(allItemsSorted.at(iAllItemLoop));
if (tempStartOffset < startOffset)
startOffset = tempStartOffset;
if (tempEndOffset > endOffset)
endOffset = tempEndOffset;
}
}
if (concurrentItems.size() > 0)
allConcurrentItems.append(concurrentItems);
return allConcurrentItems;
}
