This app isn't actually a direct line from your webcam to the NSA, it's a demo of using the webcam/camera support in Qt. The name is a nod to the paranoia (or is it...) of being watched through your webcam by government spooks.
I did consider making the app (openly) upload snapshots of users to a remote server to complete the idea. But this is the internet, and I don't want to see any of you naked.
With this app you can use your laptop's built-in camera to view yourself, and take photobooth-style snapshots. The app uses Qt's built in webcam methods to provide support for multiple cameras if you have them.
Camera support in Qt5 is accessible via
QtMultimedia with multimedia-specific
widgets available via
QtMultimediaWidgets. The first step to using cameras is
to get a list of currently available cameras on the system,
QCameraInfo.availableCameras(). This returns a list of
which provide various bits of information about each camera, including a unique ID.
If we have no cameras available we just quit out, ungracefully. If a camera is
available we setup the
QCameraViewfinder to provide a live updating viewfinder
view from the active camera. We select the first camera in our list
to use as a 'default' — on a laptop this is usually the built in camera.
class MainWindow(QMainWindow): def __init__(self, *args, **kwargs): super(MainWindow, self).__init__(*args, **kwargs) self.available_cameras = QCameraInfo.availableCameras() if not self.available_cameras: pass #quit self.viewfinder = QCameraViewfinder() self.viewfinder.show() self.setCentralWidget(self.viewfinder) # Set the default camera. self.select_camera(0)
The toolbar users a user to select the active camera, take snapshot
photos and to select the output folder for these photos. Each
connected to a custom slot to handle the specific behaviour.
The camera selection list is pre-filled with the user-friendly name of each camera,
QCameraInfo.description(). The index of the selected camera in the combobox
matches its position in the list.
# Setup tools camera_toolbar = QToolBar("Camera") camera_toolbar.setIconSize(QSize(14, 14)) self.addToolBar(camera_toolbar) photo_action = QAction(QIcon(os.path.join('images', 'camera-black.png')), "Take photo...", self) photo_action.setStatusTip("Take photo of current view") photo_action.triggered.connect(self.take_photo) camera_toolbar.addAction(photo_action) change_folder_action = QAction(QIcon(os.path.join('images', 'blue-folder-horizontal-open.png')), "Change save location...", self) change_folder_action.setStatusTip("Change folder where photos are saved.") change_folder_action.triggered.connect(self.change_folder) camera_toolbar.addAction(change_folder_action) camera_selector = QComboBox() camera_selector.addItems([c.description() for c in self.available_cameras]) camera_selector.currentIndexChanged.connect( self.select_camera ) camera_toolbar.addWidget(camera_selector)
The camera select method accepts a single parameter
i, which is the index of a
camera in our prefilled
self.available_cameras list. This is a
which can be passed to
QCamera to create a new camera object.
Once the camera object is created, we set it to use our existing viewfinder widget
(central widget). The capture mode is set to
then the camera must be started with
Capture of images from a camera is handled by
QCameraImageCapture, which we setup
by passing in our previously created camera object. The
.imageCaptured signal is
triggered every time (after) an image is captured, so we can connect to it to
show a status update — the snapshotting is done seperately.
def select_camera(self, i): self.camera = QCamera(self.available_cameras[i]) self.camera.setViewfinder(self.viewfinder) self.camera.setCaptureMode(QCamera.CaptureStillImage) self.camera.error.connect(lambda: self.alert(self.camera.errorString())) self.camera.start() self.capture = QCameraImageCapture(self.camera) self.capture.error.connect(lambda i, e, s: self.alert(s)) self.capture.imageCaptured.connect(lambda d, i: self.status.showMessage("Image %04d captured" % self.save_seq)) self.current_camera_name = self.available_cameras[i].description() self.save_seq = 0
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Taking a camera snapshot is handled in our custom
created when initialising the camera. The
.capture() method accepts a filename,
which we create using our selected save path and a full-name timestamp.
The file is stamped with a current time, plus the current camera and a sequence number
to avoid conflicts. Snapshots are saved in JPEG format.
def take_photo(self): timestamp = time.strftime("%d-%b-%Y-%H_%M_%S") self.capture.capture(os.path.join(self.save_path, "%s-%04d-%s.jpg" % ( self.current_camera_name, self.save_seq, timestamp ))) self.save_seq += 1
The sequence number is incremented after the snapshot is taken.