- import sys, inspect, math
- from pprint import pprint
- from gi.repository import GLib, Gst
- class Videomix:
- # size of the monitor-streams
- # should be anamorphic PAL, beacuse we encode it to dv and send it to the mixer-gui
- monitorSize = (1024, 576)
- def __init__(self):
- # initialize an empty pipeline
- self.pipeline = Gst.Pipeline()
- # create audio and video mixer
- mixerbin = self.createMixer()
- # collection of video-sources to connect to the quadmix
- quadmixSources = []
- # create camera sources
- for camberabin in self.createDummyCamSources():
- # link camerasource to audiomixer
- camberabin.get_by_name('audio_src').link(self.pipeline.get_by_name('liveaudio'))
- # inject a ×2 distributor and link one end to the live-mixer
- distributor = self.createDistributor(camberabin.get_by_name('video_src'), camberabin.get_name())
- distributor.get_by_name('a').link(self.pipeline.get_by_name('livevideo'))
- # collect the other end to add it later to the quadmix
- quadmixSources.append(distributor.get_by_name('b'))
- # TODO: generate pause & slides with another generator here which only
- # yields if the respective files are present and which only have a video-pad
- # add all video-sources to the quadmix-monitor-screen
- self.addVideosToQuadmix(quadmixSources, self.pipeline.get_by_name('quadmix'))
- Gst.debug_bin_to_dot_file(self.pipeline, Gst.DebugGraphDetails.ALL, 'test')
- self.pipeline.set_state(Gst.State.PLAYING)
- # create audio and video mixer
- def createMixer(self):
- # create mixer-pipeline from string
- mixerbin = Gst.parse_bin_from_description("""
- videomixer name=livevideo ! autovideosink
- input-selector name=liveaudio ! autoaudiosink
- videotestsrc pattern="solid-color" foreground-color=0x808080 ! capsfilter name=filter ! videomixer name=quadmix ! autovideosink
- """, False)
- # define caps for the videotestsrc which generates the background-color for the quadmix
- bgcaps = Gst.Caps.new_empty_simple('video/x-raw')
- bgcaps.set_value('width', round(self.monitorSize[0]))
- bgcaps.set_value('height', round(self.monitorSize[1]))
- mixerbin.get_by_name('filter').set_property('caps', bgcaps)
- # name the bin, add and return it
- mixerbin.set_name('mixerbin')
- self.pipeline.add(mixerbin)
- return mixerbin
- # add all avaiable videosources to the quadmix
- def addVideosToQuadmix(self, videosources, quadmix):
- count = len(videosources)
- # coordinate of the cell where we place the next video
- place = [0, 0]
-
- # number of cells in the quadmix-monitor
- grid = [0, 0]
- grid[0] = math.ceil(math.sqrt(count))
- grid[1] = math.ceil(count / grid[0])
- # size of each cell in the quadmix-monitor
- cellSize = (
- self.monitorSize[0] / grid[0],
- self.monitorSize[1] / grid[1]
- )
- print("showing {} videosources in a {}×{} grid in a {}×{} px window, which gives cells of {}×{} px per videosource".format(
- count, grid[0], grid[1], self.monitorSize[0], self.monitorSize[1], cellSize[0], cellSize[1]))
- # iterate over all video-sources
- for idx, videosource in enumerate(videosources):
- # generate a pipeline for this videosource which
- # - scales the video to the request
- # - remove n px of the video (n = 5 if the video is highlighted else 0)
- # - add a colored border of n px of the video (n = 5 if the video is highlighted else 0)
- # - overlay the index of the video as text in the top left corner
- # - known & named output
- previewbin = Gst.parse_bin_from_description("""
- videoscale name=in !
- capsfilter name=caps !
- videobox name=crop top=0 left=0 bottom=0 right=0 !
- videobox fill=red top=-0 left=-0 bottom=-0 right=-0 name=add !
- textoverlay color=0xFFFFFFFF halignment=left valignment=top xpad=10 ypad=5 font-desc="sans 35" name=text !
- identity name=out
- """, False)
- # name the bin and add it
- self.pipeline.add(previewbin)
- previewbin.set_name('previewbin-{}'.format(idx))
- # set the overlay-text
- previewbin.get_by_name('text').set_property('text', str(idx))
- # query the video-source caps and extract its size
- caps = videosource.get_static_pad('src').query_caps(None)
- capsstruct = caps.get_structure(0)
- srcSize = (
- capsstruct.get_int('width')[1],
- capsstruct.get_int('height')[1],
- )
- # calculate the ideal scale factor and scale the sizes
- f = max(srcSize[0] / cellSize[0], srcSize[1] / cellSize[1])
- scaleSize = (
- srcSize[0] / f,
- srcSize[1] / f,
- )
- # calculate the top/left coordinate
- coord = (
- place[0] * cellSize[0] + (cellSize[0] - scaleSize[0]) / 2,
- place[1] * cellSize[1] + (cellSize[1] - scaleSize[1]) / 2,
- )
- print("placing videosrc {} of size {}×{} scaled by {} to {}×{} in a cell {}×{} px cell ({}/{}) at position ({}/{})".format(
- idx, srcSize[0], srcSize[1], f, scaleSize[0], scaleSize[1], cellSize[0], cellSize[1], place[0], place[1], coord[0], coord[1]))
- # link the videosource to the input of the preview-bin
- videosource.link(previewbin.get_by_name('in'))
- # create and set the caps for the preview-scaler
- scalecaps = Gst.Caps.new_empty_simple('video/x-raw')
- scalecaps.set_value('width', round(scaleSize[0]))
- scalecaps.set_value('height', round(scaleSize[1]))
- previewbin.get_by_name('caps').set_property('caps', scalecaps)
- # request a pad from the quadmixer and configure x/y position
- sinkpad = quadmix.get_request_pad('sink_%u')
- sinkpad.set_property('xpos', round(coord[0]))
- sinkpad.set_property('ypos', round(coord[1]))
- # link the output of the preview-bin to the mixer
- previewbin.get_by_name('out').link(quadmix)
- # increment grid position
- place[0] += 1
- if place[0] >= grid[0]:
- place[1] += 1
- place[0] = 0
- # create a simple ×2 distributor
- def createDistributor(self, videosource, name):
- distributor = Gst.parse_bin_from_description("""
- tee name=t
- t. ! queue name=a
- t. ! queue name=b
- """, False)
- # set a name and add to pipeline
- distributor.set_name('distributor({0})'.format(name))
- self.pipeline.add(distributor)
- # link input to the tee
- videosource.link(distributor.get_by_name('t'))
- return distributor
- # create test-video-sources from files or urls
- def createDummyCamSources(self):
- # TODO make configurable
- uris = ('file:///home/peter/122.mp4', 'file:///home/peter/10025.mp4',)
- for idx, uri in enumerate(uris):
- # create a bin for a simulated camera input
- # force the input resolution to 1024x576 because that way the following elements
- # in the pipeline cam know the size even if the file is not yet loaded. the quadmixer
- # is not resize-capable
- camberabin = Gst.parse_bin_from_description("""
- uridecodebin name=input
- input. ! videoconvert ! videoscale ! videorate ! video/x-raw,width=1024,height=576,framerate=25/1 ! identity name=video_src
- input. ! audioconvert name=audio_src
- """, False)
- # set name and uri
- camberabin.set_name('dummy-camberabin({0})'.format(uri))
- camberabin.get_by_name('input').set_property('uri', uri)
- # add to pipeline and pass the bin upstream
- self.pipeline.add(camberabin)
- yield camberabin
- # create real-video-sources from the bmd-drivers
- def createCamSources(self):
- # number of installed cams
- # TODO make configurable
- for cam in range(2):
- # create a bin for camera input
- camberabin = Gst.parse_bin_from_description("""
- decklinksrc name=input input=sdi input-mode=1080p25
- input. ! videoconvert ! videoscale ! videorate ! video/x-raw,width=1920,height=1080,framerate=25/1 ! identity name=video_src
- input. ! audioconvert name=audio_src
- """, False)
- # set name and subdevice
- camberabin.set_name('camberabin({0})'.format(cam))
- camberabin.get_by_name('input').set_property('subdevice', cam)
- # add to pipeline and pass the bin upstream
- self.pipeline.add(camberabin)
- yield camberabin
|