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1095 | /* ============================================================
*
* This file is a part of digiKam project
* https://www.digikam.org
*
* Date : 2008-01-20
* Description : User interface for searches
*
* SPDX-FileCopyrightText: 2008-2012 by Marcel Wiesweg <marcel dot wiesweg at gmx dot de>
* SPDX-FileCopyrightText: 2011-2025 by Gilles Caulier <caulier dot gilles at gmail dot com>
*
* SPDX-License-Identifier: GPL-2.0-or-later
*
* ============================================================ */
#include "searchfields_p.h"
namespace Digikam
{
SearchField* SearchField::createField(const QString& name, SearchFieldGroup* const parent)
{
if (name == QLatin1String("albumid"))
{
SearchFieldAlbum* const field = new SearchFieldAlbum(parent, SearchFieldAlbum::TypeAlbum);
field->setFieldName(name);
field->setText(i18n("Album"), i18n("Search items located in"));
return field;
}
else if (name == QLatin1String("albumname"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Album"), i18n("The album name contains"));
return field;
}
else if (name == QLatin1String("albumcaption"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Album"), i18n("The album caption contains"));
return field;
}
else if (name == QLatin1String("albumcollection"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Album"), i18n("The album category is"));
ApplicationSettings* const settings = ApplicationSettings::instance();<--- Variable 'settings' can be declared as pointer to const
if (settings)
{
QStringList Categories = settings->getAlbumCategoryNames();
int size = Categories.size();
QStringList categorychoices;
for (int i = 0 ; i < size ; ++i)
{
categorychoices << Categories.at(i) << Categories.at(i);
}
field->setChoice(categorychoices);
}
return field;
}
else if (name == QLatin1String("tagid"))
{
SearchFieldAlbum* const field = new SearchFieldAlbum(parent, SearchFieldAlbum::TypeTag);
field->setFieldName(name);
field->setText(i18n("Tags"), i18n("Return items with tag"));
return field;
}
else if (name == QLatin1String("tagname"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Tags"), i18n("A tag of the item contains"));
return field;
}
else if (name == QLatin1String("nottagged"))
{
/**
* @todo Merge a "Not tagged" field into TagModel together with AND/OR control
* for checked tags and logical connections (AND and Not Tagged checked => all other tags disabled)
*/
SearchFieldCheckBox* const field = new SearchFieldCheckBox(parent);
field->setFieldName(name);
field->setText(i18n("Tags"), i18n("Return items without tags"));
field->setLabel(i18n("Not Tagged"));
return field;
}
else if (name == QLatin1String("filename"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("File Name"), i18n("Return items whose file name contains"));
return field;
}
else if (name == QLatin1String("modificationdate"))
{
SearchFieldRangeDate* const field = new SearchFieldRangeDate(parent, SearchFieldRangeDate::DateTime);
field->setFieldName(name);
field->setText(i18n("Modification"), i18n("Return items modified between"));
field->setBetweenText(i18nc("'Return items modified between...and...", "and"));
return field;
}
else if (name == QLatin1String("filesize"))
{
SearchFieldRangeDouble* const field = new SearchFieldRangeDouble(parent);
field->setFieldName(name);
field->setText(i18n("File Size"), i18n("Size of the file in megabytes"));
field->setBetweenText(i18nc("Size of the file ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("MiB"));
field->setBoundary(0, 1000000, 1, 0.5);
field->setFactor(1024 * 1024);
return field;
}
else if (name == QLatin1String("bytesize"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("File Size"), i18n("Size of the file in bytes"));
field->setBetweenText(i18nc("Size of the file ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("B"));
field->setBoundary(0, 1024 * 1024, 100);
return field;
}
else if (name == QLatin1String("monthday"))
{
SearchFieldMonthDay* const field = new SearchFieldMonthDay(parent);
field->setFieldName(name);
field->setText(i18n("Month/Day"), i18n("Return items from a month or a day of the month"));
return field;
}
else if (name == QLatin1String("labels"))
{
SearchFieldLabels* const field = new SearchFieldLabels(parent);
field->setFieldName(name);
field->setText(i18n("Labels"), i18n("Return items with labels"));
return field;
}
else if (name == QLatin1String("rating"))
{
SearchFieldRating* const field = new SearchFieldRating(parent);
field->setFieldName(name);
field->setText(i18n("Rating"), i18n("Return items rated at least"));
field->setBetweenText(i18nc("Return items rated at least...at most...", "at most"));
return field;
}
else if (name == QLatin1String("creationdate"))
{
SearchFieldRangeDate* const field = new SearchFieldRangeDate(parent, SearchFieldRangeDate::DateTime);
field->setFieldName(name);
field->setText(i18n("Date"), i18n("Return items created between"));
field->setBetweenText(i18nc("'Return items created between...and...", "and"));
return field;
}
else if (name == QLatin1String("digitizationdate"))
{
SearchFieldRangeDate* const field = new SearchFieldRangeDate(parent, SearchFieldRangeDate::DateTime);
field->setFieldName(name);
field->setText(i18n("Digitization"), i18n("Return items digitized between"));
field->setBetweenText(i18nc("'Return items digitized between...and...", "and"));
return field;
}
else if (name == QLatin1String("creationtime"))
{
SearchFieldRangeTime* const field = new SearchFieldRangeTime(parent);
field->setFieldName(name);
field->setText(i18n("Time"), i18n("Return items with created time between"));
field->setBetweenText(i18nc("'Return items with created time between...and...", "and"));
return field;
}
else if (name == QLatin1String("orientation"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Exif Orientation"), i18n("Find items with orientation flag"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::Orientation);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("dimension"))
{
// "width", "height", "pixels"
}
else if (name == QLatin1String("width"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Width"), i18n("Find items with a width between"));
field->setBetweenText(i18nc("Find items with a width between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), i18nc("Pixels", "px"));
field->setBoundary(1, 1000000, 250);
field->setSuggestedValues(QList<int>()
<< 50 << 100 << 200 << 300 << 400 << 500 << 600 << 700 << 800 << 900
<< 1000 << 1250 << 1500 << 1750 << 2000 << 3000 << 4000
<< 5000 << 6000 << 7000 << 8000 << 9000 << 10000
);
field->setSuggestedInitialValue(1000);
field->setSingleSteps(50, 1000);
return field;
}
else if (name == QLatin1String("height"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Height"), i18n("Find items with a height between"));
field->setBetweenText(i18nc("Find items with a height between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), i18nc("Pixels", "px"));
field->setBoundary(1, 1000000, 250);
field->setSuggestedValues(QList<int>()
<< 50 << 100 << 200 << 300 << 400 << 500 << 600 << 700 << 800 << 900
<< 1000 << 1250 << 1500 << 1750 << 2000 << 3000 << 4000
<< 5000 << 6000 << 7000 << 8000 << 9000 << 10000
);
field->setSuggestedInitialValue(1000);
field->setSingleSteps(50, 1000);
return field;
}
else if (name == QLatin1String("pageorientation"))
{
SearchFieldPageOrientation* const field = new SearchFieldPageOrientation(parent);
field->setFieldName(name);
field->setText(i18n("Orientation"), i18nc("Find items with any orientation / landscape / portrait orientation...",
"Find items with"));
return field;
}
else if (name == QLatin1String("format"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("File Format"), i18n("Return items with the file format"));
QStringList formats;
{
const auto fmts = CoreDbAccess().db()->getFormatStatistics(DatabaseItem::Image).keys();
for (const QString& fmt : fmts)
{
formats << fmt << i18nc("@label: file format", "%1 [Image]", fmt);
}
}
{
const auto fmts = CoreDbAccess().db()->getFormatStatistics(DatabaseItem::Video).keys();
for (const QString& fmt : fmts)
{
formats << fmt << i18nc("@label: file format", "%1 [Video]", fmt);
}
}
{
const auto fmts = CoreDbAccess().db()->getFormatStatistics(DatabaseItem::Audio).keys();
for (const QString& fmt : fmts)
{
formats << fmt << i18nc("@label: file format", "%1 [Audio]", fmt);
}
}
/*
FIXME: This can report 2 times JPG : one as image, one as other. Where is the problem ?
{
const auto fmts = CoreDbAccess().db()->getFormatStatistics(DatabaseItem::Other).keys();
for (const QString& fmt : fmts)
{
formats << fmt << i18n("%1 [Other]", fmt);
}
}
*/
formats.sort();
qCDebug(DIGIKAM_GENERAL_LOG) << formats;
field->setChoice(formats);
return field;
}
else if (name == QLatin1String("colordepth"))
{
// choice
SearchFieldColorDepth* const field = new SearchFieldColorDepth(parent);
field->setFieldName(name);
field->setText(i18n("Color Depth"), i18nc("Find items with any color depth / 8 bits per channel...", "Find items with"));
return field;
}
else if (name == QLatin1String("colormodel"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Color Model"), i18n("Find items with the color model"));
QMap<int, QString> map;
// Images
map.insert(DImg::COLORMODELUNKNOWN, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::COLORMODELUNKNOWN)));
map.insert(DImg::RGB, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::RGB)));
map.insert(DImg::GRAYSCALE, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::GRAYSCALE)));
map.insert(DImg::MONOCHROME, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::MONOCHROME)));
map.insert(DImg::INDEXED, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::INDEXED)));
map.insert(DImg::YCBCR, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::YCBCR)));
map.insert(DImg::CMYK, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::CMYK)));
map.insert(DImg::CIELAB, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::CIELAB)));
map.insert(DImg::COLORMODELRAW, i18nc("@label: color model", "%1 [Image]", DImg::colorModelToString(DImg::COLORMODELRAW)));
// Video
map.insert(DMetadata::VIDEOCOLORMODEL_SRGB, i18nc("@label: color model", "%1 [Video]", DMetadata::videoColorModelToString(DMetadata::VIDEOCOLORMODEL_SRGB)));
map.insert(DMetadata::VIDEOCOLORMODEL_BT709, i18nc("@label: color model", "%1 [Video]", DMetadata::videoColorModelToString(DMetadata::VIDEOCOLORMODEL_BT709)));
map.insert(DMetadata::VIDEOCOLORMODEL_BT601, i18nc("@label: color model", "%1 [Video]", DMetadata::videoColorModelToString(DMetadata::VIDEOCOLORMODEL_BT601)));
map.insert(DMetadata::VIDEOCOLORMODEL_OTHER, i18nc("@label: color model", "%1 [Video]", DMetadata::videoColorModelToString(DMetadata::VIDEOCOLORMODEL_OTHER)));
field->setChoice(map);
return field;
}
else if (name == QLatin1String("make"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Camera"), i18n("The make of the camera"));
QStringList make = CoreDbAccess().db()->getListFromImageMetadata(DatabaseFields::Make);
QString wildcard = QLatin1String("*%1*");
QMap<QString, QString> makeMap;
for (int i = 0 ; i < make.count() ; ++i)
{
QString shortName = make[i];
ItemPropertiesTab::shortenedMakeInfo(shortName);
makeMap.insert(shortName, wildcard.arg(shortName));
}
make.clear();
QMap<QString, QString>::const_iterator it;
for (it = makeMap.constBegin() ; it != makeMap.constEnd() ; ++it)
{
make << it.value() << it.key();
}
field->setChoice(make);
return field;
}
else if (name == QLatin1String("model"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Camera"), i18n("The model of the camera"));
QStringList model = CoreDbAccess().db()->getListFromImageMetadata(DatabaseFields::Model);
QString wildcard = QLatin1String("*%1*");
QMap<QString, QString> modelMap;
for (int i = 0 ; i < model.count() ; ++i)
{
QString shortName = model[i];
ItemPropertiesTab::shortenedModelInfo(shortName);
modelMap.insert(shortName, wildcard.arg(model[i]));
}
model.clear();
QMap<QString, QString>::const_iterator it;
for (it = modelMap.constBegin() ; it != modelMap.constEnd() ; ++it)
{
model << it.value() << it.key();
}
field->setChoice(model);
return field;
}
else if (name == QLatin1String("lenses"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Lens"), i18n("The type of the lens"));
QStringList lens = CoreDbAccess().db()->getListFromImageMetadata(DatabaseFields::Lens);
lens += lens;
lens.sort();
field->setChoice(lens);
return field;
}
else if (name == QLatin1String("aperture"))
{
// double
SearchFieldRangeDouble* const field = new SearchFieldRangeDouble(parent);
field->setFieldName(name);
field->setText(i18n("Aperture"), i18n("Lens aperture as f-number"));
field->setBetweenText(i18nc("Lens aperture as f-number ...-...", "-"));
field->setNoValueText(QLatin1String("f/#"));
field->setNumberPrefixAndSuffix(QLatin1String("f/"), QString());
field->setBoundary(0.3, 65536, 1, 0.1);
field->setSuggestedValues(QList<double>()
<< 0.5 << 0.7 << 1.0 << 1.4 << 2 << 2.8 << 4 << 5.6
<< 8 << 11 << 16 << 22 << 32 << 45 << 64 << 90 << 128
);
field->setSuggestedInitialValue(1.0);
field->setSingleSteps(0.1, 10);
return field;
}
else if (name == QLatin1String("focallength"))
{
// double
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Focal length"), i18n("Focal length of the lens"));
field->setBetweenText(i18nc("Focal length of the lens ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("mm"));
field->setBoundary(0, 200000, 10);
field->setSuggestedValues(QList<int>()
<< 10 << 15 << 20 << 25 << 30 << 40 << 50 << 60 << 70 << 80 << 90
<< 100 << 150 << 200 << 250 << 300 << 400 << 500 << 750 << 1000
);
field->setSuggestedInitialValue(30);
field->setSingleSteps(2, 500);
return field;
}
else if (name == QLatin1String("focallength35"))
{
// double
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Focal length"), i18n("35mm equivalent focal length"));
field->setBetweenText(i18nc("35mm equivalent focal length ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("mm"));
field->setBoundary(0, 200000, 10);
field->setSuggestedValues(QList<int>()
<< 8 << 10 << 15 << 16 << 20 << 28 << 30 << 40 << 50 << 60 << 70 << 80
<< 90 << 100 << 150 << 200 << 250 << 300 << 400 << 500 << 750 << 1000
);
field->setSuggestedInitialValue(28);
field->setSingleSteps(2, 500);
return field;
}
else if (name == QLatin1String("exposuretime"))
{
// double
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Exposure"), i18n("Exposure time"));
field->setBetweenText(i18nc("Exposure time ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("s"));
field->enableFractionMagic(QLatin1String("1/")); // it's 1/250, not 250 as in the spin box
field->setBoundary(86400, -1024000, 10); // negative is 1/
field->setSuggestedValues(QList<int>()
<< 30 << 15 << 8 << 4 << 2 << 1 << -2 << -4 << -8 << -15
<< -30 << -50 << -60 << -100 << -125 << -150 << -200
<< -250 << -500 << -750 << -1000 << -2000 << -4000 << -8000 << -16000
);
field->setSuggestedInitialValue(-200);
field->setSingleSteps(2000, 5);
return field;
}
else if (name == QLatin1String("exposureprogram"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Exposure"), i18n("Automatic exposure program"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::ExposureProgram);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("exposuremode"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Exposure"), i18n("Automatic or manual exposure"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::ExposureMode);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("sensitivity"))
{
// int
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Sensitivity"), i18n("ISO film speed (linear scale, ASA)"));
field->setBetweenText(i18nc("ISO film speed (linear scale, ASA) ...-...", "-"));
field->setBoundary(0, 2000000, 50);
field->setSuggestedValues(QList<int>()
<< 6 << 8 << 10 << 12 << 16 << 20 << 25 << 32 << 40 << 50 << 64
<< 80 << 100 << 125 << 160 << 200 << 250 << 320 << 400 << 500
<< 640 << 800 << 1000 << 1250 << 1600 << 2000 << 2500 << 3200
<< 4000 << 5000 << 6400
);
field->setSuggestedInitialValue(200);
field->setSingleSteps(1, 400);
return field;
}
else if (name == QLatin1String("flashmode"))
{
// choice
/**
* @todo This is a bitmask, and gives some more information
*/
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18nc("@label: flash is on or off", "Flash"), i18nc("@label: flash mode used", "Flash mode"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::FlashMode);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("whitebalance"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("White Balance"), i18n("Automatic or manual white balance"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::WhiteBalance);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("whitebalancecolortemperature"))
{
// int
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("White balance"), i18n("Color temperature used for white balance"));
field->setBetweenText(i18nc("Color temperature used for white balance ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("K"));
field->setBoundary(1, 100000, 100);
return field;
}
else if (name == QLatin1String("meteringmode"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Metering Mode"), i18n("Method to determine the exposure"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::MeteringMode);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("subjectdistance"))
{
// double
SearchFieldRangeDouble* const field = new SearchFieldRangeDouble(parent);
field->setFieldName(name);
field->setText(i18n("Subject Distance"), i18n("Distance of the subject from the lens"));
field->setBetweenText(i18nc("Distance of the subject from the lens ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("m"));
field->setBoundary(0, 50000, 1, 0.1);
return field;
}
else if (name == QLatin1String("subjectdistancecategory"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Subject Distance"), i18n("Macro, close or distant view"));
QMap<int, QString> map = DMetadata::possibleValuesForEnumField(MetadataInfo::SubjectDistanceCategory);
field->setChoice(map);
return field;
}
else if (name == QLatin1String("latitude"))
{
}
else if (name == QLatin1String("longitude"))
{
}
else if (name == QLatin1String("altitude"))
{
SearchFieldRangeDouble* const field = new SearchFieldRangeDouble(parent);
field->setFieldName(name);
field->setText(i18n("GPS"), i18n("Altitude range"));
field->setBetweenText(i18nc("Altitude range ...-...", "-"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("m"));
field->setBoundary(0, 10000, 4, 1);
return field;
}
else if (name == QLatin1String("positionorientation"))
{
}
else if (name == QLatin1String("positiontilt"))
{
}
else if (name == QLatin1String("positionroll"))
{
}
else if (name == QLatin1String("positiondescription"))
{
}
else if (name == QLatin1String("nogps"))
{
SearchFieldCheckBox* const field = new SearchFieldCheckBox(parent);
field->setFieldName(name);
field->setText(i18n("GPS"), i18n("Item has no GPS info"));
field->setLabel(i18n("Not Geo-located"));
return field;
}
else if (name == QLatin1String("country"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Country"), i18n("Country shown in the item"));
QStringList countries = CoreDbAccess().db()->getAllImagePropertiesByName(name);
countries += countries;
countries.sort();
field->setChoice(countries);
return field;
}
else if (name == QLatin1String("provinceState"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Province"), i18n("Province shown in the item"));
QStringList provinces = CoreDbAccess().db()->getAllImagePropertiesByName(name);
provinces += provinces;
provinces.sort();
field->setChoice(provinces);
return field;
}
else if (name == QLatin1String("city"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("City"), i18n("City shown in the item"));
QStringList cities = CoreDbAccess().db()->getAllImagePropertiesByName(name);
cities += cities;
cities.sort();
field->setChoice(cities);
return field;
}
else if (name == QLatin1String("location"))
{
// choice
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Sublocation"), i18n("Sublocation shown in the item"));
QStringList locations = CoreDbAccess().db()->getAllImagePropertiesByName(name);
locations += locations;
locations.sort();
field->setChoice(locations);
return field;
}
else if (name == QLatin1String("creator"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18nc("@label: item creator", "Creator"), i18n("Return items created by"));
return field;
}
else if (name == QLatin1String("comment"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18nc("@label: item comment", "Caption"), i18n("Return items whose comment contains"));
return field;
}
else if (name == QLatin1String("commentauthor"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Author"), i18n("Return items commented by"));
return field;
}
else if (name == QLatin1String("headline"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Headline"), i18n("Return items with the IPTC headline"));
return field;
}
else if (name == QLatin1String("title"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18nc("@label: item title", "Title"), i18n("Return items with the IPTC title"));
return field;
}
else if (name == QLatin1String("keyword"))
{
SearchFieldText* const field = new SearchFieldKeyword(parent);
field->setFieldName(name);
field->setText(QString(), i18n("Find items that have associated all these words:"));
return field;
}
else if (name == QLatin1String("emptytext"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Empty Text"), i18n("Return items without text in:"));
QStringList comments;
comments << QLatin1String("creator") << i18nc("@label: search items without creator property", "Creator");
comments << QLatin1String("comment") << i18nc("@label: search items without caption property", "Caption");
comments << QLatin1String("author") << i18nc("@label: search items without author property", "Author");
comments << QLatin1String("headline") << i18nc("@label: search items without headline property", "Headline");
comments << QLatin1String("title") << i18nc("@label: search items without title property", "Title");
field->setChoice(comments);
return field;
}
else if (name == QLatin1String("aspectratioimg"))
{
SearchFieldText* const field = new SearchFieldText(parent);
field->setFieldName(name);
field->setText(i18n("Aspect Ratio"), i18n("Return items with the aspect ratio"));
return field;
}
else if (name == QLatin1String("pixelsize"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Pixel Size"), i18n("Value of (Width * Height) between"));
field->setBetweenText(i18nc("Value of (Width * Height) between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), QLatin1String("px"));
field->setBoundary(1, 2000000000, 100);
return field;
}
else if (name == QLatin1String("videoaspectratio"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Aspect Ratio"), i18n("Return video with the frame aspect ratio"));
QStringList ratio;
ratio << QLatin1String("4:3") << QLatin1String("4:3");
ratio << QLatin1String("3:2") << QLatin1String("3:2");
ratio << QLatin1String("16:9") << QLatin1String("16:9");
ratio << QLatin1String("2:1") << QLatin1String("2:1");
// TODO: add more possible aspect ratio
field->setChoice(ratio);
return field;
}
else if (name == QLatin1String("videoduration"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Duration"), i18n("Length of the video"));
field->setBetweenText(i18nc("Find video with a length between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), i18nc("Seconds", "s"));
field->setBoundary(1, 10000, 100);
field->setSuggestedValues(QList<int>()
<< 10 << 30 << 60 << 90 << 120 << 240 << 360 << 500 << 1000 << 2000
<< 3000 << 4000 << 5000 << 6000 << 7000 << 8000 << 9000 << 10000
// TODO : adjust default values
);
field->setSuggestedInitialValue(10);
field->setSingleSteps(10, 100);
return field;
}
else if (name == QLatin1String("videoframerate"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Frame Rate"), i18n("Return video with the frame rate"));
field->setBetweenText(i18nc("Find video with frame rate between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), i18nc("Frames per Second", "fps"));
field->setBoundary(10, 600, 5);
field->setSuggestedValues(QList<int>()
<< 10 << 15 << 20 << 25 << 30 << 35 << 40 << 45 << 55 << 60 << 120
<< 180 << 240 << 300 << 360 << 420 << 480 << 540 << 600
// TODO : adjust default values
);
field->setSuggestedInitialValue(10);
field->setSingleSteps(5, 60);
return field;
}
else if (name == QLatin1String("videocodec"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Codec"), i18n("Return video codec"));
QStringList codec;
// List of most common video codecs supported by FFMpeg (see "ffpmpeg -codecs" for details)
//
// FFMpeg codec name FFMpeg codec description
codec << QLatin1String("8bps") << QLatin1String("QuickTime 8BPS video");
codec << QLatin1String("amv") << QLatin1String("AMV Video");
codec << QLatin1String("avs") << QLatin1String("AVS (Audio Video Standard) video");
codec << QLatin1String("cavs") << QLatin1String("Chinese AVS (Audio Video Standard) (AVS1-P2, JiZhun profile)");
codec << QLatin1String("cinepak") << QLatin1String("Cinepak");
codec << QLatin1String("dirac") << QLatin1String("Dirac");
codec << QLatin1String("flv1") << QLatin1String("FLV / Sorenson Spark / Sorenson H.263 (Flash Video)");
codec << QLatin1String("h261") << QLatin1String("H.261");
codec << QLatin1String("h263") << QLatin1String("H.263 / H.263-1996, H.263+ / H.263-1998 / H.263 version 2");
codec << QLatin1String("h263i") << QLatin1String("Intel H.263");
codec << QLatin1String("h263p") << QLatin1String("H.263+ / H.263-1998 / H.263 version 2");
codec << QLatin1String("h264") << QLatin1String("H.264 / AVC / MPEG-4 AVC / MPEG-4 part 10");
codec << QLatin1String("hevc") << QLatin1String("H.265 / HEVC (High Efficiency Video Coding)");
codec << QLatin1String("jpeg2000") << QLatin1String("JPEG 2000");
codec << QLatin1String("mjpeg") << QLatin1String("Motion JPEG");
codec << QLatin1String("mjpegb") << QLatin1String("Apple MJPEG-B");
codec << QLatin1String("mpeg1video") << QLatin1String("MPEG-1 video");
codec << QLatin1String("mpeg2video") << QLatin1String("MPEG-2 video");
codec << QLatin1String("mpeg4") << QLatin1String("MPEG-4 part 2");
codec << QLatin1String("msmpeg4v1") << QLatin1String("MPEG-4 part 2 Microsoft variant version 1");
codec << QLatin1String("msmpeg4v2") << QLatin1String("MPEG-4 part 2 Microsoft variant version 2");
codec << QLatin1String("msmpeg4v3") << QLatin1String("MPEG-4 part 2 Microsoft variant version 3");
codec << QLatin1String("msvideo1") << QLatin1String("Microsoft Video 1");
codec << QLatin1String("msrle") << QLatin1String("Microsoft RLE");
codec << QLatin1String("mvc1") << QLatin1String("Silicon Graphics Motion Video Compressor 1");
codec << QLatin1String("mvc2") << QLatin1String("Silicon Graphics Motion Video Compressor 2");
codec << QLatin1String("qtrle") << QLatin1String("QuickTime Animation (RLE) video");
codec << QLatin1String("rawvideo") << QLatin1String("Raw video");
codec << QLatin1String("rpza") << QLatin1String("QuickTime video (RPZA)");
codec << QLatin1String("rv10") << QLatin1String("RealVideo 1.0");
codec << QLatin1String("rv20") << QLatin1String("RealVideo 2.0");
codec << QLatin1String("rv30") << QLatin1String("RealVideo 3.0");
codec << QLatin1String("rv40") << QLatin1String("RealVideo 4.0");
codec << QLatin1String("smc") << QLatin1String("QuickTime Graphics (SMC)");
codec << QLatin1String("snow") << QLatin1String("Snow");
codec << QLatin1String("svq1") << QLatin1String("Sorenson Vector Quantizer 1 / Sorenson Video 1 / SVQ1");
codec << QLatin1String("svq3") << QLatin1String("Sorenson Vector Quantizer 3 / Sorenson Video 3 / SVQ3");
codec << QLatin1String("theora") << QLatin1String("Theora");
codec << QLatin1String("vc1") << QLatin1String("SMPTE VC-1");
codec << QLatin1String("vc1image") << QLatin1String("Windows Media Video 9 Image v2");
codec << QLatin1String("vp3") << QLatin1String("On2 VP3");
codec << QLatin1String("vp5") << QLatin1String("On2 VP5");
codec << QLatin1String("vp6") << QLatin1String("On2 VP6");
codec << QLatin1String("vp6a") << QLatin1String("On2 VP6 (Flash version, with alpha channel)");
codec << QLatin1String("vp6f") << QLatin1String("On2 VP6 (Flash version)");
codec << QLatin1String("vp7") << QLatin1String("On2 VP7");
codec << QLatin1String("vp8") << QLatin1String("On2 VP8");
codec << QLatin1String("vp9") << QLatin1String("Google VP9");
codec << QLatin1String("wmv1") << QLatin1String("Windows Media Video 7");
codec << QLatin1String("wmv2") << QLatin1String("Windows Media Video 8");
codec << QLatin1String("wmv3") << QLatin1String("Windows Media Video 9");
codec << QLatin1String("wmv3image") << QLatin1String("Windows Media Video 9 Image");
// TODO: add more possible codec
field->setChoice(codec);
return field;
}
else if (name == QLatin1String("videoaudiobitrate"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Audio Bit Rate"), i18n("Return Audio Bits Rate"));
field->setBetweenText(i18nc("Find files with audio bit rate between...and...", "and"));
field->setNumberPrefixAndSuffix(QString(), i18nc("Bits per Second", "bps"));
field->setBoundary(1000, 100000, 1000);
field->setSuggestedValues(QList<int>()
<< 1000 << 4000 << 8000 << 12000 << 16000 << 20000 << 30000 << 40000 << 50000
<< 60000 << 700000 << 800000 << 900000 << 100000
// TODO : adjust default values
);
field->setSuggestedInitialValue(1000);
field->setSingleSteps(1000, 1000);
return field;
}
else if (name == QLatin1String("videoaudiochanneltype"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Audio Channel Type"), i18n("Return Audio Channel Type"));
QStringList type;
type << QLatin1String("Mono") << i18nc("@label: audio channel type", "Mono");
type << QLatin1String("Stereo") << i18nc("@label: audio channel type", "Stereo");
type << QLatin1String("5.1") << i18nc("@label: audio channel type", "5.1 Surround Sound");
type << QLatin1String("7.1") << i18nc("@label: audio channel type", "7.1 Surround Sound");
type << QLatin1String("16 Channel") << i18nc("@label: audio channel type", "16 Channels Sequence");
type << QLatin1String("Other") << i18nc("@label: audio channel type", "Other Channel Type");
// TODO: add more possible audio channel type
field->setChoice(type);
return field;
}
else if (name == QLatin1String("videoaudioCodec"))
{
SearchFieldChoice* const field = new SearchFieldChoice(parent);
field->setFieldName(name);
field->setText(i18n("Audio Codec"), i18n("Return Audio Codec"));
QStringList type;
// List of most common audio codecs supported by FFMpeg (see "ffpmpeg -codecs" for details)
//
// FFMpeg codec name FFMpeg codec description
type << QLatin1String("aac") << QLatin1String("AAC (Advanced Audio Coding)");
type << QLatin1String("aac_latm") << QLatin1String("AAC LATM (Advanced Audio Coding LATM syntax)");
type << QLatin1String("ac3") << QLatin1String("ATSC A/52A (AC-3)");
type << QLatin1String("adpcm_g722") << QLatin1String("G.722 ADPCM");
type << QLatin1String("adpcm_g726") << QLatin1String("G.726 ADPCM");
type << QLatin1String("adpcm_g726le") << QLatin1String("G.726 ADPCM little-endian");
type << QLatin1String("adpcm_ima_wav") << QLatin1String("ADPCM IMA WAV");
type << QLatin1String("adpcm_ima_qt") << QLatin1String("ADPCM IMA QuickTime");
type << QLatin1String("adpcm_swf") << QLatin1String("ADPCM Shockwave Flash");
type << QLatin1String("alac") << QLatin1String("ALAC (Apple Lossless Audio Codec)");
type << QLatin1String("amr_nb") << QLatin1String("AMR-NB (Adaptive Multi-Rate NarrowBand)");
type << QLatin1String("amr_wb") << QLatin1String("AMR-WB (Adaptive Multi-Rate WideBand)");
type << QLatin1String("ape") << QLatin1String("Monkey's Audio");
type << QLatin1String("atrac1") << QLatin1String("ATRAC1 (Adaptive TRansform Acoustic Coding)");
type << QLatin1String("atrac3") << QLatin1String("ATRAC3 (Adaptive TRansform Acoustic Coding 3)");
type << QLatin1String("atrac3al") << QLatin1String("ATRAC3 AL (Adaptive TRansform Acoustic Coding 3 Advanced Lossless)");
type << QLatin1String("atrac3p") << QLatin1String("ATRAC3+ (Adaptive TRansform Acoustic Coding 3+)");
type << QLatin1String("atrac3pal") << QLatin1String("ATRAC3+ AL (Adaptive TRansform Acoustic Coding 3+ Advanced Lossless)");
type << QLatin1String("celt") << QLatin1String("Constrained Energy Lapped Transform (CELT)");
type << QLatin1String("cook") << QLatin1String("Cook / Cooker / Gecko (RealAudio G2)");
type << QLatin1String("dts") << QLatin1String("DCA (DTS Coherent Acoustics)");
type << QLatin1String("eac3") << QLatin1String("ATSC A/52B (AC-3, E-AC-3)");
type << QLatin1String("flac") << QLatin1String("FLAC (Free Lossless Audio Codec)");
type << QLatin1String("g723_1") << QLatin1String("G.723.1");
type << QLatin1String("g729") << QLatin1String("G.729");
type << QLatin1String("mp1") << QLatin1String("MP1 (MPEG audio layer 1)");
type << QLatin1String("mp2") << QLatin1String("MP2 (MPEG audio layer 2)");
type << QLatin1String("mp3") << QLatin1String("MP3 (MPEG audio layer 3)");
type << QLatin1String("mp3adu") << QLatin1String("ADU (Application Data Unit) MP3 (MPEG audio layer 3)");
type << QLatin1String("mp3on4") << QLatin1String("MP3 on MP4");
type << QLatin1String("mp4als") << QLatin1String("MPEG-4 Audio Lossless Coding (ALS)");
type << QLatin1String("musepack7") << QLatin1String("Musepack SV7");
type << QLatin1String("musepack8") << QLatin1String("Musepack SV8");
type << QLatin1String("nellymoser") << QLatin1String("Nellymoser Asao");
type << QLatin1String("opus") << QLatin1String("Opus (Opus Interactive Audio Codec)");
type << QLatin1String("pcm_alaw") << QLatin1String("PCM A-law / G.711 A-law");
type << QLatin1String("pcm_bluray") << QLatin1String("PCM signed 16|20|24-bit big-endian for Blu-ray media");
type << QLatin1String("pcm_dvd") << QLatin1String("PCM signed 20|24-bit big-endian");
type << QLatin1String("pcm_f16le") << QLatin1String("PCM 16.8 floating point little-endian");
type << QLatin1String("pcm_f24le") << QLatin1String("PCM 24.0 floating point little-endian");
type << QLatin1String("pcm_f32be") << QLatin1String("PCM 32-bit floating point big-endian");
type << QLatin1String("pcm_f32le") << QLatin1String("PCM 32-bit floating point little-endian");
type << QLatin1String("pcm_f64be") << QLatin1String("PCM 64-bit floating point big-endian");
type << QLatin1String("pcm_f64le") << QLatin1String("PCM 64-bit floating point little-endian");
type << QLatin1String("pcm_lxf") << QLatin1String("PCM signed 20-bit little-endian planar");
type << QLatin1String("pcm_mulaw") << QLatin1String("PCM mu-law / G.711 mu-law");
type << QLatin1String("pcm_s16be") << QLatin1String("PCM signed 16-bit big-endian");
type << QLatin1String("pcm_s16be_planar") << QLatin1String("PCM signed 16-bit big-endian planar");
type << QLatin1String("pcm_s16le") << QLatin1String("PCM signed 16-bit little-endian");
type << QLatin1String("pcm_s16le_planar") << QLatin1String("PCM signed 16-bit little-endian planar");
type << QLatin1String("pcm_s24be") << QLatin1String("PCM signed 24-bit big-endian");
type << QLatin1String("pcm_s24daud") << QLatin1String("PCM D-Cinema audio signed 24-bit");
type << QLatin1String("pcm_s24le") << QLatin1String("PCM signed 24-bit little-endian");
type << QLatin1String("pcm_s24le_planar") << QLatin1String("PCM signed 24-bit little-endian planar");
type << QLatin1String("pcm_s32be") << QLatin1String("PCM signed 32-bit big-endian");
type << QLatin1String("pcm_s32le") << QLatin1String("PCM signed 32-bit little-endian");
type << QLatin1String("pcm_s32le_planar") << QLatin1String("PCM signed 32-bit little-endian planar");
type << QLatin1String("pcm_s64be") << QLatin1String("PCM signed 64-bit big-endian");
type << QLatin1String("pcm_s64le") << QLatin1String("PCM signed 64-bit little-endian");
type << QLatin1String("pcm_s8") << QLatin1String("PCM signed 8-bit");
type << QLatin1String("pcm_s8_planar") << QLatin1String("PCM signed 8-bit planar");
type << QLatin1String("pcm_u16be") << QLatin1String("PCM unsigned 16-bit big-endian");
type << QLatin1String("pcm_u16le") << QLatin1String("PCM unsigned 16-bit little-endian");
type << QLatin1String("pcm_u24be") << QLatin1String("PCM unsigned 24-bit big-endian");
type << QLatin1String("pcm_u24le") << QLatin1String("PCM unsigned 24-bit little-endian");
type << QLatin1String("pcm_u32be") << QLatin1String("PCM unsigned 32-bit big-endian");
type << QLatin1String("pcm_u32le") << QLatin1String("PCM unsigned 32-bit little-endian");
type << QLatin1String("pcm_u8") << QLatin1String("PCM unsigned 8-bit");
type << QLatin1String("pcm_zork") << QLatin1String("PCM Zork");
type << QLatin1String("ra_144") << QLatin1String("RealAudio 1.0 (14.4K)");
type << QLatin1String("ra_288") << QLatin1String("RealAudio 2.0 (28.8K)");
type << QLatin1String("ralf") << QLatin1String("RealAudio Lossless");
type << QLatin1String("sipr") << QLatin1String("RealAudio SIPR / ACELP.NET");
type << QLatin1String("speex") << QLatin1String("Speex");
type << QLatin1String("tak") << QLatin1String("TAK (Tom's lossless Audio Kompressor)");
type << QLatin1String("wavpack") << QLatin1String("WavPack");
type << QLatin1String("wmalossless") << QLatin1String("Windows Media Audio Lossless");
type << QLatin1String("wmapro") << QLatin1String("Windows Media Audio 9 Professional");
type << QLatin1String("wmav1") << QLatin1String("Windows Media Audio 1");
type << QLatin1String("wmav2") << QLatin1String("Windows Media Audio 2");
type << QLatin1String("wmavoice") << QLatin1String("Windows Media Audio Voice");
// TODO: add more possible audio Codec
field->setChoice(type);
return field;
}
else if (name == QLatin1String("faceregionscount"))
{
SearchFieldRangeInt* const field = new SearchFieldRangeInt(parent);
field->setFieldName(name);
field->setText(i18n("Faces"), i18n("Return items by number of face regions"));
field->setBetweenText(i18nc("Return items by number of face regions between...and...", "and"));
field->setBoundary(0, 1000, 1);
return field;
}
else if (name == QLatin1String("nofaceregions"))
{
SearchFieldCheckBox* const field = new SearchFieldCheckBox(parent);
field->setFieldName(name);
field->setText(i18n("Faces"), i18n("Return items without face regions"));
field->setLabel(i18n("No Face Regions"));
return field;
}
else
{
qCWarning(DIGIKAM_GENERAL_LOG) << "SearchField::createField: cannot create SearchField for" << name;
}
return nullptr;
}
} // namespace Digikam
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