[libcamera-devel] [RFC v3 5/5] py: Add cam.py
Kieran Bingham
kieran.bingham at ideasonboard.com
Thu Dec 9 11:03:35 CET 2021
Quoting Tomi Valkeinen (2021-12-09 09:29:06)
> Add cam.py, which mimics the 'cam' tool. Four rendering backends are
> added:
>
> * null - Do nothing
> * kms - Use KMS with dmabufs
> * qt - SW render on a Qt window
> * qtgl - OpenGL render on a Qt window
>
> All the renderers handle only a few pixel formats, and especially the GL
> renderer is just a prototype.
>
> Signed-off-by: Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> ---
> src/py/test/cam.py | 464 ++++++++++++++++++++++++++++++++++++++
> src/py/test/cam_kms.py | 185 +++++++++++++++
> src/py/test/cam_null.py | 46 ++++
> src/py/test/cam_qt.py | 355 +++++++++++++++++++++++++++++
> src/py/test/cam_qtgl.py | 385 +++++++++++++++++++++++++++++++
> src/py/test/gl_helpers.py | 67 ++++++
While these are 'test' apps, they're not quite 'tests'.
I think these should live under src/py/pycam? Or some such name?
Essentially they will likely form the basis of 'example python usage'...
I'd quite like to see something (anything?) that counts as a unittest
integrated into /test/py/ that somehow validates the APIs that are
created.
Even if it's only basic for now to construct a camera, or something, so
that when built/enabled, the python code can be linked into the test
framework with 'ninja -C build test'.
I wonder if a top-level TODO file under src/py/TODO and/or
src/py/{test/pycam}/TODO will help clearly mark things that are known
not to be implemented ?
Beyond that, I think this series would benefit from early integration so
it can be more thoroughly used and devloped rather than trying to
'perfect' it out in isolation.
--
Kieran
> 6 files changed, 1502 insertions(+)
> create mode 100755 src/py/test/cam.py
> create mode 100644 src/py/test/cam_kms.py
> create mode 100644 src/py/test/cam_null.py
> create mode 100644 src/py/test/cam_qt.py
> create mode 100644 src/py/test/cam_qtgl.py
> create mode 100644 src/py/test/gl_helpers.py
>
> diff --git a/src/py/test/cam.py b/src/py/test/cam.py
> new file mode 100755
> index 00000000..48df01cf
> --- /dev/null
> +++ b/src/py/test/cam.py
> @@ -0,0 +1,464 @@
> +#!/usr/bin/python3
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +import pycamera as pycam
> +import time
> +import binascii
> +import argparse
> +import selectors
> +import os
> +import sys
> +
> +class CustomCameraAction(argparse.Action):
> + def __call__(self, parser, namespace, values, option_string=None):
> + print(self.dest, values)
> +
> + if not "camera" in namespace or namespace.camera == None:
> + setattr(namespace, "camera", [])
> +
> + previous = namespace.camera
> + previous.append((self.dest, values))
> + setattr(namespace, "camera", previous)
> +
> +class CustomAction(argparse.Action):
> + def __init__(self, option_strings, dest, **kwargs):
> + super().__init__(option_strings, dest, default={}, **kwargs)
> +
> + def __call__(self, parser, namespace, values, option_string=None):
> + if len(namespace.camera) == 0:
> + print(f"Option {option_string} requires a --camera context")
> + sys.exit(-1)
> +
> + if self.type == bool:
> + values = True
> +
> + current = namespace.camera[-1]
> +
> + data = getattr(namespace, self.dest)
> +
> + if self.nargs == "+":
> + if not current in data:
> + data[current] = []
> +
> + data[current] += values
> + else:
> + data[current] = values
> +
> +
> +
> +def do_cmd_list(cm):
> + print("Available cameras:")
> +
> + for idx,c in enumerate(cm.cameras):
> + print(f"{idx + 1}: {c.id}")
> +
> +def do_cmd_list_props(ctx):
> + camera = ctx["camera"]
> +
> + print("Properties for", ctx["id"])
> +
> + for name, prop in camera.properties.items():
> + print("\t{}: {}".format(name, prop))
> +
> +def do_cmd_list_controls(ctx):
> + camera = ctx["camera"]
> +
> + print("Controls for", ctx["id"])
> +
> + for name, prop in camera.controls.items():
> + print("\t{}: {}".format(name, prop))
> +
> +def do_cmd_info(ctx):
> + camera = ctx["camera"]
> +
> + print("Stream info for", ctx["id"])
> +
> + roles = [pycam.StreamRole.Viewfinder]
> +
> + camconfig = camera.generateConfiguration(roles)
> + if camconfig == None:
> + raise Exception("Generating config failed")
> +
> + for i, stream_config in enumerate(camconfig):
> + print("\t{}: {}".format(i, stream_config.toString()))
> +
> + formats = stream_config.formats
> + for fmt in formats.pixelFormats:
> + print("\t * Pixelformat:", fmt, formats.range(fmt))
> +
> + for size in formats.sizes(fmt):
> + print("\t -", size)
> +
> +def acquire(ctx):
> + camera = ctx["camera"]
> +
> + camera.acquire()
> +
> +def release(ctx):
> + camera = ctx["camera"]
> +
> + camera.release()
> +
> +def parse_streams(ctx):
> + streams = []
> +
> + for stream_desc in ctx["opt-stream"]:
> + stream_opts = {"role": pycam.StreamRole.Viewfinder}
> +
> + for stream_opt in stream_desc.split(","):
> + if stream_opt == 0:
> + continue
> +
> + arr = stream_opt.split("=")
> + if len(arr) != 2:
> + print("Bad stream option", stream_opt)
> + sys.exit(-1)
> +
> + key = arr[0]
> + value = arr[1]
> +
> + if key in ["width", "height"]:
> + value = int(value)
> + elif key == "role":
> + rolemap = {
> + "still": pycam.StreamRole.StillCapture,
> + "raw": pycam.StreamRole.Raw,
> + "video": pycam.StreamRole.VideoRecording,
> + "viewfinder": pycam.StreamRole.Viewfinder,
> + }
> +
> + role = rolemap.get(value.lower(), None)
> +
> + if role == None:
> + print("Bad stream role", value)
> + sys.exit(-1)
> +
> + value = role
> + elif key == "pixelformat":
> + pass
> + else:
> + print("Bad stream option key", key)
> + sys.exit(-1)
> +
> + stream_opts[key] = value
> +
> + streams.append(stream_opts)
> +
> + return streams
> +
> +def configure(ctx):
> + camera = ctx["camera"]
> +
> + streams = parse_streams(ctx)
> +
> + roles = [opts["role"] for opts in streams]
> +
> + camconfig = camera.generateConfiguration(roles)
> + if camconfig == None:
> + raise Exception("Generating config failed")
> +
> + for idx,stream_opts in enumerate(streams):
> + stream_config = camconfig.at(idx)
> +
> + if "width" in stream_opts and "height" in stream_opts:
> + stream_config.size = (stream_opts["width"], stream_opts["height"])
> +
> + if "pixelformat" in stream_opts:
> + stream_config.fmt = stream_opts["pixelformat"]
> +
> + stat = camconfig.validate()
> +
> + if stat == pycam.ConfigurationStatus.Invalid:
> + print("Camera configuration invalid")
> + exit(-1)
> + elif stat == pycam.ConfigurationStatus.Adjusted:
> + if ctx["opt-strict-formats"]:
> + print("Adjusting camera configuration disallowed by --strict-formats argument")
> + exit(-1)
> +
> + print("Camera configuration adjusted")
> +
> + r = camera.configure(camconfig);
> + if r != 0:
> + raise Exception("Configure failed")
> +
> + ctx["stream-names"] = {}
> + ctx["streams"] = []
> +
> + for idx, stream_config in enumerate(camconfig):
> + stream = stream_config.stream
> + ctx["streams"].append(stream)
> + ctx["stream-names"][stream] = "stream" + str(idx)
> + print("{}-{}: stream config {}".format(ctx["id"], ctx["stream-names"][stream], stream.configuration.toString()))
> +
> +def alloc_buffers(ctx):
> + camera = ctx["camera"]
> +
> + allocator = pycam.FrameBufferAllocator(camera);
> +
> + for idx, stream in enumerate(ctx["streams"]):
> + ret = allocator.allocate(stream)
> + if ret < 0:
> + print("Can't allocate buffers")
> + exit(-1)
> +
> + allocated = len(allocator.buffers(stream))
> +
> + print("{}-{}: Allocated {} buffers".format(ctx["id"], ctx["stream-names"][stream], allocated))
> +
> + ctx["allocator"] = allocator
> +
> +def create_requests(ctx):
> + camera = ctx["camera"]
> +
> + ctx["requests"] = []
> +
> + # Identify the stream with the least number of buffers
> + num_bufs = min([len(ctx["allocator"].buffers(stream)) for stream in ctx["streams"]])
> +
> + requests = []
> +
> + for buf_num in range(num_bufs):
> + request = camera.createRequest()
> +
> + if request == None:
> + print("Can't create request")
> + exit(-1)
> +
> + for stream in ctx["streams"]:
> + buffers = ctx["allocator"].buffers(stream)
> + buffer = buffers[buf_num]
> +
> + ret = request.addBuffer(stream, buffer)
> + if ret < 0:
> + print("Can't set buffer for request")
> + exit(-1)
> +
> + requests.append(request)
> +
> + ctx["requests"] = requests
> +
> +def start(ctx):
> + camera = ctx["camera"]
> +
> + camera.start()
> +
> +def stop(ctx):
> + camera = ctx["camera"]
> +
> + camera.stop()
> +
> +def queue_requests(ctx):
> + camera = ctx["camera"]
> +
> + for request in ctx["requests"]:
> + camera.queueRequest(request)
> + ctx["reqs-queued"] += 1
> +
> + del ctx["requests"]
> +
> +def capture_init(contexts):
> + for ctx in contexts:
> + acquire(ctx)
> +
> + for ctx in contexts:
> + configure(ctx)
> +
> + for ctx in contexts:
> + alloc_buffers(ctx)
> +
> + for ctx in contexts:
> + create_requests(ctx)
> +
> +def capture_start(contexts):
> + for ctx in contexts:
> + start(ctx)
> +
> + for ctx in contexts:
> + queue_requests(ctx)
> +
> +# Called from renderer when there is a libcamera event
> +def event_handler(state):
> + cm = state["cm"]
> + contexts = state["contexts"]
> +
> + data = os.read(cm.efd, 8)
> +
> + reqs = cm.getReadyRequests()
> +
> + for req in reqs:
> + ctx = next(ctx for ctx in contexts if ctx["camera"] == req.camera)
> + request_handler(state, ctx, req)
> +
> + running = any(ctx["reqs-completed"] < ctx["opt-capture"] for ctx in contexts)
> + return running
> +
> +def request_handler(state, ctx, req):
> + camera = ctx["camera"]
> +
> + if req.status != pycam.RequestStatus.Complete:
> + raise Exception("{}: Request failed: {}".format(ctx["id"], req.status))
> +
> + buffers = req.buffers
> +
> + # Compute the frame rate. The timestamp is arbitrarily retrieved from
> + # the first buffer, as all buffers should have matching timestamps.
> + ts = buffers[next(iter(buffers))].metadata.timestamp
> + last = ctx.get("last", 0)
> + fps = 1000000000.0 / (ts - last) if (last != 0 and (ts - last) != 0) else 0
> + ctx["last"] = ts
> + ctx["fps"] = fps
> +
> + for stream, fb in buffers.items():
> + stream_name = ctx["stream-names"][stream]
> +
> + crcs = []
> + if ctx["opt-crc"]:
> + with fb.mmap(0) as b:
> + crc = binascii.crc32(b)
> + crcs.append(crc)
> +
> + meta = fb.metadata
> +
> + print("{:.6f} ({:.2f} fps) {}-{}: seq {}, bytes {}, CRCs {}"
> + .format(ts / 1000000000, fps,
> + ctx["id"], stream_name,
> + meta.sequence, meta.bytesused,
> + crcs))
> +
> + if ctx["opt-metadata"]:
> + reqmeta = req.metadata
> + for ctrl, val in reqmeta.items():
> + print(f"\t{ctrl} = {val}")
> +
> + if ctx["opt-save-frames"]:
> + with fb.mmap(0) as b:
> + filename = "frame-{}-{}-{}.data".format(ctx["id"], stream_name, ctx["reqs-completed"])
> + with open(filename, "wb") as f:
> + f.write(b)
> +
> + state["renderer"].request_handler(ctx, req);
> +
> + ctx["reqs-completed"] += 1
> +
> +# Called from renderer when it has finished with a request
> +def request_prcessed(ctx, req):
> + camera = ctx["camera"]
> +
> + if ctx["reqs-queued"] < ctx["opt-capture"]:
> + req.reuse()
> + camera.queueRequest(req)
> + ctx["reqs-queued"] += 1
> +
> +def capture_deinit(contexts):
> + for ctx in contexts:
> + stop(ctx)
> +
> + for ctx in contexts:
> + release(ctx)
> +
> +def do_cmd_capture(state):
> + capture_init(state["contexts"])
> +
> + renderer = state["renderer"]
> +
> + renderer.setup()
> +
> + capture_start(state["contexts"])
> +
> + renderer.run()
> +
> + capture_deinit(state["contexts"])
> +
> +def main():
> + parser = argparse.ArgumentParser()
> + # global options
> + parser.add_argument("-l", "--list", action="store_true", help="List all cameras")
> + parser.add_argument("-c", "--camera", type=int, action="extend", nargs=1, default=[], help="Specify which camera to operate on, by index")
> + parser.add_argument("-p", "--list-properties", action="store_true", help="List cameras properties")
> + parser.add_argument("--list-controls", action="store_true", help="List cameras controls")
> + parser.add_argument("-I", "--info", action="store_true", help="Display information about stream(s)")
> + parser.add_argument("-R", "--renderer", default="null", help="Renderer (null, kms, qt, qtgl)")
> +
> + # per camera options
> + parser.add_argument("-C", "--capture", nargs="?", type=int, const=1000000, action=CustomAction, help="Capture until interrupted by user or until CAPTURE frames captured")
> + parser.add_argument("--crc", nargs=0, type=bool, action=CustomAction, help="Print CRC32 for captured frames")
> + parser.add_argument("--save-frames", nargs=0, type=bool, action=CustomAction, help="Save captured frames to files")
> + parser.add_argument("--metadata", nargs=0, type=bool, action=CustomAction, help="Print the metadata for completed requests")
> + parser.add_argument("--strict-formats", type=bool, nargs=0, action=CustomAction, help="Do not allow requested stream format(s) to be adjusted")
> + parser.add_argument("-s", "--stream", nargs="+", action=CustomAction)
> + args = parser.parse_args()
> +
> + cm = pycam.CameraManager.singleton()
> +
> + if args.list:
> + do_cmd_list(cm)
> +
> + contexts = []
> +
> + for cam_idx in args.camera:
> + camera = next((c for i,c in enumerate(cm.cameras) if i + 1 == cam_idx), None)
> +
> + if camera == None:
> + print("Unable to find camera", cam_idx)
> + return -1
> +
> + contexts.append({
> + "camera": camera,
> + "idx": cam_idx,
> + "id": "cam" + str(cam_idx),
> + "reqs-queued": 0,
> + "reqs-completed": 0,
> + "opt-capture": args.capture.get(cam_idx, False),
> + "opt-crc": args.crc.get(cam_idx, False),
> + "opt-save-frames": args.save_frames.get(cam_idx, False),
> + "opt-metadata": args.metadata.get(cam_idx, False),
> + "opt-strict-formats": args.strict_formats.get(cam_idx, False),
> + "opt-stream": args.stream.get(cam_idx, ["role=viewfinder"]),
> + })
> +
> + for ctx in contexts:
> + print("Using camera {} as {}".format(ctx["camera"].id, ctx["id"]))
> +
> + for ctx in contexts:
> + if args.list_properties:
> + do_cmd_list_props(ctx)
> + if args.list_controls:
> + do_cmd_list_controls(ctx)
> + if args.info:
> + do_cmd_info(ctx)
> +
> + if args.capture:
> +
> + state = {
> + "cm": cm,
> + "contexts": contexts,
> + "event_handler": event_handler,
> + "request_prcessed": request_prcessed,
> + }
> +
> + if args.renderer == "null":
> + import cam_null
> + renderer = cam_null.NullRenderer(state)
> + elif args.renderer == "kms":
> + import cam_kms
> + renderer = cam_kms.KMSRenderer(state)
> + elif args.renderer == "qt":
> + import cam_qt
> + renderer = cam_qt.QtRenderer(state)
> + elif args.renderer == "qtgl":
> + import cam_qtgl
> + renderer = cam_qtgl.QtRenderer(state)
> + else:
> + print("Bad renderer", args.renderer)
> + return -1
> +
> + state["renderer"] = renderer
> +
> + do_cmd_capture(state)
> +
> + return 0
> +
> +if __name__ == "__main__":
> + sys.exit(main())
> diff --git a/src/py/test/cam_kms.py b/src/py/test/cam_kms.py
> new file mode 100644
> index 00000000..fb0e6375
> --- /dev/null
> +++ b/src/py/test/cam_kms.py
> @@ -0,0 +1,185 @@
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +import sys
> +import selectors
> +import pykms
> +
> +FMT_MAP = {
> + "RGB888": pykms.PixelFormat.RGB888,
> + "YUYV": pykms.PixelFormat.YUYV,
> + "ARGB8888": pykms.PixelFormat.ARGB8888,
> + "XRGB8888": pykms.PixelFormat.XRGB8888,
> +}
> +
> +class KMSRenderer:
> + def __init__(self, state):
> + self.state = state
> +
> + self.cm = state["cm"]
> + self.contexts = state["contexts"]
> + self.running = False
> +
> + card = pykms.Card()
> +
> + res = pykms.ResourceManager(card)
> + conn = res.reserve_connector()
> + crtc = res.reserve_crtc(conn)
> + mode = conn.get_default_mode()
> + modeb = mode.to_blob(card)
> +
> + req = pykms.AtomicReq(card)
> + req.add_connector(conn, crtc)
> + req.add_crtc(crtc, modeb)
> + r = req.commit_sync(allow_modeset = True)
> + assert(r == 0)
> +
> + self.card = card
> + self.resman = res
> + self.crtc = crtc
> + self.mode = mode
> +
> + self.bufqueue = []
> + self.current = None
> + self.next = None
> + self.cam_2_drm = {}
> +
> + # KMS
> +
> + def close(self):
> + req = pykms.AtomicReq(self.card)
> + for s in self.streams:
> + req.add_plane(s["plane"], None, None, dst=(0, 0, 0, 0))
> + req.commit()
> +
> + def add_plane(self, req, stream, fb):
> + s = next(s for s in self.streams if s["stream"] == stream)
> + idx = s["idx"]
> + plane = s["plane"]
> +
> + if idx % 2 == 0:
> + x = 0
> + else:
> + x = self.mode.hdisplay - fb.width
> +
> + if idx // 2 == 0:
> + y = 0
> + else:
> + y = self.mode.vdisplay - fb.height
> +
> + req.add_plane(plane, fb, self.crtc, dst=(x, y, fb.width, fb.height))
> +
> + def apply_request(self, drmreq):
> +
> + buffers = drmreq["camreq"].buffers
> +
> + for stream, fb in buffers.items():
> + drmfb = self.cam_2_drm.get(fb, None)
> +
> + req = pykms.AtomicReq(self.card)
> + self.add_plane(req, stream, drmfb)
> + req.commit()
> +
> + def handle_page_flip(self, frame, time):
> + old = self.current
> + self.current = self.next
> +
> + if len(self.bufqueue) > 0:
> + self.next = self.bufqueue.pop(0)
> + else:
> + self.next = None
> +
> + if self.next:
> + drmreq = self.next
> +
> + self.apply_request(drmreq)
> +
> + if old:
> + req = old["camreq"]
> + ctx = old["camctx"]
> + self.state["request_prcessed"](ctx, req)
> +
> + def queue(self, drmreq):
> + if not self.next:
> + self.next = drmreq
> + self.apply_request(drmreq)
> + else:
> + self.bufqueue.append(drmreq)
> +
> + # libcamera
> +
> + def setup(self):
> + self.streams = []
> +
> + idx = 0
> + for ctx in self.contexts:
> + camera = ctx["camera"]
> +
> + for stream in ctx["streams"]:
> +
> + cfg = stream.configuration
> + fmt = cfg.fmt
> + fmt = FMT_MAP[fmt]
> +
> + plane = self.resman.reserve_generic_plane(self.crtc, fmt)
> + assert(plane != None)
> +
> + self.streams.append({
> + "idx": idx,
> + "stream": stream,
> + "plane": plane,
> + "fmt": fmt,
> + "size": cfg.size,
> + })
> +
> + for fb in ctx["allocator"].buffers(stream):
> + w, h = cfg.size
> + stride = cfg.stride
> + fd = fb.fd(0)
> + drmfb = pykms.DmabufFramebuffer(self.card, w, h, fmt,
> + [fd], [stride], [0])
> + self.cam_2_drm[fb] = drmfb
> +
> + idx += 1
> +
> +
> + def readdrm(self, fileobj):
> + for ev in self.card.read_events():
> + if ev.type == pykms.DrmEventType.FLIP_COMPLETE:
> + self.handle_page_flip(ev.seq, ev.time)
> +
> + def readcam(self, fd):
> + self.running = self.state["event_handler"](self.state)
> +
> + def readkey(self, fileobj):
> + sys.stdin.readline()
> + self.running = False
> +
> + def run(self):
> + print("Capturing...")
> +
> + self.running = True
> +
> + sel = selectors.DefaultSelector()
> + sel.register(self.card.fd, selectors.EVENT_READ, self.readdrm)
> + sel.register(self.cm.efd, selectors.EVENT_READ, self.readcam)
> + sel.register(sys.stdin, selectors.EVENT_READ, self.readkey)
> +
> + print("Press enter to exit")
> +
> + while self.running:
> + events = sel.select()
> + for key, mask in events:
> + callback = key.data
> + callback(key.fileobj)
> +
> + print("Exiting...")
> +
> + def request_handler(self, ctx, req):
> +
> + drmreq = {
> + "camctx": ctx,
> + "camreq": req,
> + }
> +
> + self.queue(drmreq)
> diff --git a/src/py/test/cam_null.py b/src/py/test/cam_null.py
> new file mode 100644
> index 00000000..3935f5b6
> --- /dev/null
> +++ b/src/py/test/cam_null.py
> @@ -0,0 +1,46 @@
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +import sys
> +import selectors
> +
> +class NullRenderer:
> + def __init__(self, state):
> + self.state = state
> +
> + self.cm = state["cm"]
> + self.contexts = state["contexts"]
> +
> + self.running = False
> +
> + def setup(self):
> + pass
> +
> + def run(self):
> + print("Capturing...")
> +
> + self.running = True
> +
> + sel = selectors.DefaultSelector()
> + sel.register(self.cm.efd, selectors.EVENT_READ, self.readcam)
> + sel.register(sys.stdin, selectors.EVENT_READ, self.readkey)
> +
> + print("Press enter to exit")
> +
> + while self.running:
> + events = sel.select()
> + for key, mask in events:
> + callback = key.data
> + callback(key.fileobj)
> +
> + print("Exiting...")
> +
> + def readcam(self, fd):
> + self.running = self.state["event_handler"](self.state)
> +
> + def readkey(self, fileobj):
> + sys.stdin.readline()
> + self.running = False
> +
> + def request_handler(self, ctx, req):
> + self.state["request_prcessed"](ctx, req)
> diff --git a/src/py/test/cam_qt.py b/src/py/test/cam_qt.py
> new file mode 100644
> index 00000000..3ff12df6
> --- /dev/null
> +++ b/src/py/test/cam_qt.py
> @@ -0,0 +1,355 @@
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +#
> +# Debayering code from PiCamera documentation
> +
> +from PyQt5 import QtCore, QtGui, QtWidgets
> +from io import BytesIO
> +from PIL import Image
> +from PIL.ImageQt import ImageQt
> +import numpy as np
> +from numpy.lib.stride_tricks import as_strided
> +import sys
> +
> +def rgb_to_pix(rgb):
> + img = Image.frombuffer("RGB", (rgb.shape[1], rgb.shape[0]), rgb)
> + qim = ImageQt(img).copy()
> + pix = QtGui.QPixmap.fromImage(qim)
> + return pix
> +
> +
> +def separate_components(data, r0, g0, g1, b0):
> + # Now to split the data up into its red, green, and blue components. The
> + # Bayer pattern of the OV5647 sensor is BGGR. In other words the first
> + # row contains alternating green/blue elements, the second row contains
> + # alternating red/green elements, and so on as illustrated below:
> + #
> + # GBGBGBGBGBGBGB
> + # RGRGRGRGRGRGRG
> + # GBGBGBGBGBGBGB
> + # RGRGRGRGRGRGRG
> + #
> + # Please note that if you use vflip or hflip to change the orientation
> + # of the capture, you must flip the Bayer pattern accordingly
> +
> + rgb = np.zeros(data.shape + (3,), dtype=data.dtype)
> + rgb[r0[1]::2, r0[0]::2, 0] = data[r0[1]::2, r0[0]::2] # Red
> + rgb[g0[1]::2, g0[0]::2, 1] = data[g0[1]::2, g0[0]::2] # Green
> + rgb[g1[1]::2, g1[0]::2, 1] = data[g1[1]::2, g1[0]::2] # Green
> + rgb[b0[1]::2, b0[0]::2, 2] = data[b0[1]::2, b0[0]::2] # Blue
> +
> + return rgb
> +
> +def demosaic(rgb, r0, g0, g1, b0):
> + # At this point we now have the raw Bayer data with the correct values
> + # and colors but the data still requires de-mosaicing and
> + # post-processing. If you wish to do this yourself, end the script here!
> + #
> + # Below we present a fairly naive de-mosaic method that simply
> + # calculates the weighted average of a pixel based on the pixels
> + # surrounding it. The weighting is provided b0[1] a b0[1]te representation of
> + # the Bayer filter which we construct first:
> +
> + bayer = np.zeros(rgb.shape, dtype=np.uint8)
> + bayer[r0[1]::2, r0[0]::2, 0] = 1 # Red
> + bayer[g0[1]::2, g0[0]::2, 1] = 1 # Green
> + bayer[g1[1]::2, g1[0]::2, 1] = 1 # Green
> + bayer[b0[1]::2, b0[0]::2, 2] = 1 # Blue
> +
> + # Allocate an array to hold our output with the same shape as the input
> + # data. After this we define the size of window that will be used to
> + # calculate each weighted average (3x3). Then we pad out the rgb and
> + # bayer arrays, adding blank pixels at their edges to compensate for the
> + # size of the window when calculating averages for edge pixels.
> +
> + output = np.empty(rgb.shape, dtype=rgb.dtype)
> + window = (3, 3)
> + borders = (window[0] - 1, window[1] - 1)
> + border = (borders[0] // 2, borders[1] // 2)
> +
> + #rgb_pad = np.zeros((
> + # rgb.shape[0] + borders[0],
> + # rgb.shape[1] + borders[1],
> + # rgb.shape[2]), dtype=rgb.dtype)
> + #rgb_pad[
> + # border[0]:rgb_pad.shape[0] - border[0],
> + # border[1]:rgb_pad.shape[1] - border[1],
> + # :] = rgb
> + #rgb = rgb_pad
> + #
> + #bayer_pad = np.zeros((
> + # bayer.shape[0] + borders[0],
> + # bayer.shape[1] + borders[1],
> + # bayer.shape[2]), dtype=bayer.dtype)
> + #bayer_pad[
> + # border[0]:bayer_pad.shape[0] - border[0],
> + # border[1]:bayer_pad.shape[1] - border[1],
> + # :] = bayer
> + #bayer = bayer_pad
> +
> + # In numpy >=1.7.0 just use np.pad (version in Raspbian is 1.6.2 at the
> + # time of writing...)
> + #
> + rgb = np.pad(rgb, [
> + (border[0], border[0]),
> + (border[1], border[1]),
> + (0, 0),
> + ], 'constant')
> + bayer = np.pad(bayer, [
> + (border[0], border[0]),
> + (border[1], border[1]),
> + (0, 0),
> + ], 'constant')
> +
> + # For each plane in the RGB data, we use a nifty numpy trick
> + # (as_strided) to construct a view over the plane of 3x3 matrices. We do
> + # the same for the bayer array, then use Einstein summation on each
> + # (np.sum is simpler, but copies the data so it's slower), and divide
> + # the results to get our weighted average:
> +
> + for plane in range(3):
> + p = rgb[..., plane]
> + b = bayer[..., plane]
> + pview = as_strided(p, shape=(
> + p.shape[0] - borders[0],
> + p.shape[1] - borders[1]) + window, strides=p.strides * 2)
> + bview = as_strided(b, shape=(
> + b.shape[0] - borders[0],
> + b.shape[1] - borders[1]) + window, strides=b.strides * 2)
> + psum = np.einsum('ijkl->ij', pview)
> + bsum = np.einsum('ijkl->ij', bview)
> + output[..., plane] = psum // bsum
> +
> + return output
> +
> +
> +
> +
> +def to_rgb(fmt, size, data):
> + w = size[0]
> + h = size[1]
> +
> + if fmt == "YUYV":
> + # YUV422
> + yuyv = data.reshape((h, w // 2 * 4))
> +
> + # YUV444
> + yuv = np.empty((h, w, 3), dtype=np.uint8)
> + yuv[:, :, 0] = yuyv[:, 0::2] # Y
> + yuv[:, :, 1] = yuyv[:, 1::4].repeat(2, axis=1) # U
> + yuv[:, :, 2] = yuyv[:, 3::4].repeat(2, axis=1) # V
> +
> + m = np.array([
> + [ 1.0, 1.0, 1.0],
> + [-0.000007154783816076815, -0.3441331386566162, 1.7720025777816772],
> + [ 1.4019975662231445, -0.7141380310058594 , 0.00001542569043522235]
> + ])
> +
> + rgb = np.dot(yuv, m)
> + rgb[:, :, 0] -= 179.45477266423404
> + rgb[:, :, 1] += 135.45870971679688
> + rgb[:, :, 2] -= 226.8183044444304
> + rgb = rgb.astype(np.uint8)
> +
> + elif fmt == "RGB888":
> + rgb = data.reshape((h, w, 3))
> + rgb[:, :, [0, 1, 2]] = rgb[:, :, [2, 1, 0]]
> +
> + elif fmt == "BGR888":
> + rgb = data.reshape((h, w, 3))
> +
> + elif fmt in ["ARGB8888", "XRGB8888"]:
> + rgb = data.reshape((h, w, 4))
> + rgb = np.flip(rgb, axis=2)
> + # drop alpha component
> + rgb = np.delete(rgb, np.s_[0::4], axis=2)
> +
> + elif fmt.startswith("S"):
> + bayer_pattern = fmt[1:5]
> + bitspp = int(fmt[5:])
> +
> + # TODO: shifting leaves the lowest bits 0
> + if bitspp == 8:
> + data = data.reshape((h, w))
> + data = data.astype(np.uint16) << 8
> + elif bitspp in [10, 12]:
> + data = data.view(np.uint16)
> + data = data.reshape((h, w))
> + data = data << (16 - bitspp)
> + else:
> + raise Exception("Bad bitspp:" + str(bitspp))
> +
> + idx = bayer_pattern.find("R")
> + assert(idx != -1)
> + r0 = (idx % 2, idx // 2)
> +
> + idx = bayer_pattern.find("G")
> + assert(idx != -1)
> + g0 = (idx % 2, idx // 2)
> +
> + idx = bayer_pattern.find("G", idx + 1)
> + assert(idx != -1)
> + g1 = (idx % 2, idx // 2)
> +
> + idx = bayer_pattern.find("B")
> + assert(idx != -1)
> + b0 = (idx % 2, idx // 2)
> +
> + rgb = separate_components(data, r0, g0, g1, b0)
> + rgb = demosaic(rgb, r0, g0, g1, b0)
> + rgb = (rgb >> 8).astype(np.uint8)
> +
> + else:
> + rgb = None
> +
> + return rgb
> +
> +
> +class QtRenderer:
> + def __init__(self, state):
> + self.state = state
> +
> + self.cm = state["cm"]
> + self.contexts = state["contexts"]
> +
> + def setup(self):
> + self.app = QtWidgets.QApplication([])
> +
> + windows = []
> +
> + for ctx in self.contexts:
> + camera = ctx["camera"]
> +
> + for stream in ctx["streams"]:
> + fmt = stream.configuration.fmt
> + size = stream.configuration.size
> +
> + window = MainWindow(ctx, stream)
> + window.setAttribute(QtCore.Qt.WA_ShowWithoutActivating)
> + window.show()
> + windows.append(window)
> +
> + self.windows = windows
> +
> + def run(self):
> + camnotif = QtCore.QSocketNotifier(self.cm.efd, QtCore.QSocketNotifier.Read)
> + camnotif.activated.connect(lambda x: self.readcam())
> +
> + keynotif = QtCore.QSocketNotifier(sys.stdin.fileno(), QtCore.QSocketNotifier.Read)
> + keynotif.activated.connect(lambda x: self.readkey())
> +
> + print("Capturing...")
> +
> + self.app.exec()
> +
> + print("Exiting...")
> +
> + def readcam(self):
> + running = self.state["event_handler"](self.state)
> +
> + if not running:
> + self.app.quit()
> +
> + def readkey(self):
> + sys.stdin.readline()
> + self.app.quit()
> +
> + def request_handler(self, ctx, req):
> + buffers = req.buffers
> +
> + for stream, fb in buffers.items():
> + wnd = next(wnd for wnd in self.windows if wnd.stream == stream)
> +
> + wnd.handle_request(stream, fb)
> +
> + self.state["request_prcessed"](ctx, req)
> +
> + def cleanup(self):
> + for w in self.windows:
> + w.close()
> +
> +
> +class MainWindow(QtWidgets.QWidget):
> + def __init__(self, ctx, stream):
> + super().__init__()
> +
> + self.ctx = ctx
> + self.stream = stream
> +
> + self.label = QtWidgets.QLabel()
> +
> + windowLayout = QtWidgets.QHBoxLayout()
> + self.setLayout(windowLayout)
> +
> + windowLayout.addWidget(self.label)
> +
> + controlsLayout = QtWidgets.QVBoxLayout()
> + windowLayout.addLayout(controlsLayout)
> +
> + windowLayout.addStretch()
> +
> + group = QtWidgets.QGroupBox("Info")
> + groupLayout = QtWidgets.QVBoxLayout()
> + group.setLayout(groupLayout)
> + controlsLayout.addWidget(group)
> +
> + lab = QtWidgets.QLabel(ctx["id"])
> + groupLayout.addWidget(lab)
> +
> + self.frameLabel = QtWidgets.QLabel()
> + groupLayout.addWidget(self.frameLabel)
> +
> +
> + group = QtWidgets.QGroupBox("Properties")
> + groupLayout = QtWidgets.QVBoxLayout()
> + group.setLayout(groupLayout)
> + controlsLayout.addWidget(group)
> +
> + camera = ctx["camera"]
> +
> + for k, v in camera.properties.items():
> + lab = QtWidgets.QLabel()
> + lab.setText(k + " = " + str(v))
> + groupLayout.addWidget(lab)
> +
> + group = QtWidgets.QGroupBox("Controls")
> + groupLayout = QtWidgets.QVBoxLayout()
> + group.setLayout(groupLayout)
> + controlsLayout.addWidget(group)
> +
> + for k, (min, max, default) in camera.controls.items():
> + lab = QtWidgets.QLabel()
> + lab.setText("{} = {}/{}/{}".format(k, min, max, default))
> + groupLayout.addWidget(lab)
> +
> + controlsLayout.addStretch()
> +
> + def buf_to_qpixmap(self, stream, fb):
> + with fb.mmap(0) as b:
> + cfg = stream.configuration
> + w, h = cfg.size
> + pitch = cfg.stride
> +
> + if cfg.fmt == "MJPEG":
> + img = Image.open(BytesIO(b))
> + qim = ImageQt(img).copy()
> + pix = QtGui.QPixmap.fromImage(qim)
> + else:
> + data = np.array(b, dtype=np.uint8)
> + rgb = to_rgb(cfg.fmt, cfg.size, data)
> +
> + if rgb is None:
> + raise Exception("Format not supported: " + cfg.fmt)
> +
> + pix = rgb_to_pix(rgb)
> +
> + return pix
> +
> + def handle_request(self, stream, fb):
> + ctx = self.ctx
> +
> + pix = self.buf_to_qpixmap(stream, fb)
> + self.label.setPixmap(pix)
> +
> + self.frameLabel.setText("Queued: {}\nDone: {}\nFps: {:.2f}"
> + .format(ctx["reqs-queued"], ctx["reqs-completed"], ctx["fps"]))
> diff --git a/src/py/test/cam_qtgl.py b/src/py/test/cam_qtgl.py
> new file mode 100644
> index 00000000..01168979
> --- /dev/null
> +++ b/src/py/test/cam_qtgl.py
> @@ -0,0 +1,385 @@
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +from PyQt5 import QtCore, QtWidgets
> +from PyQt5.QtCore import Qt
> +
> +import numpy as np
> +import sys
> +import os
> +os.environ["PYOPENGL_PLATFORM"] = "egl"
> +import math
> +
> +import OpenGL
> +#OpenGL.FULL_LOGGING = True
> +
> +from OpenGL import GL as gl
> +from OpenGL.EGL.KHR.image import *
> +from OpenGL.EGL.EXT.image_dma_buf_import import *
> +from OpenGL.EGL.VERSION.EGL_1_0 import *
> +from OpenGL.EGL.VERSION.EGL_1_2 import *
> +from OpenGL.EGL.VERSION.EGL_1_3 import *
> +
> +from OpenGL.GLES2.VERSION.GLES2_2_0 import *
> +from OpenGL.GLES2.OES.EGL_image import *
> +from OpenGL.GLES2.OES.EGL_image_external import *
> +from OpenGL.GLES3.VERSION.GLES3_3_0 import *
> +
> +from OpenGL.GL import shaders
> +
> +from gl_helpers import *
> +
> +# libcamera format string -> DRM fourcc
> +FMT_MAP = {
> + "RGB888": "RG24",
> + "XRGB8888": "XR24",
> + "ARGB8888": "AR24",
> + "YUYV": "YUYV",
> +}
> +
> +class EglState:
> + def __init__(self):
> + self.create_display()
> + self.choose_config()
> + self.create_context()
> + self.check_extensions()
> +
> + def create_display(self):
> + xdpy = getEGLNativeDisplay()
> + dpy = eglGetDisplay(xdpy)
> + self.display = dpy
> +
> + def choose_config(self):
> + dpy = self.display
> +
> + major, minor = EGLint(), EGLint()
> +
> + b = eglInitialize(dpy, major, minor)
> + assert(b)
> +
> + print("EGL {} {}".format(
> + eglQueryString(dpy, EGL_VENDOR).decode(),
> + eglQueryString(dpy, EGL_VERSION).decode()))
> +
> + check_egl_extensions(dpy, ["EGL_EXT_image_dma_buf_import"])
> +
> + b = eglBindAPI(EGL_OPENGL_ES_API)
> + assert(b)
> +
> + def print_config(dpy, cfg):
> +
> + def _getconf(dpy, cfg, a):
> + value = ctypes.c_long()
> + eglGetConfigAttrib(dpy, cfg, a, value)
> + return value.value
> +
> + getconf = lambda a: _getconf(dpy, cfg, a)
> +
> + print("EGL Config {}: color buf {}/{}/{}/{} = {}, depth {}, stencil {}, native visualid {}, native visualtype {}".format(
> + getconf(EGL_CONFIG_ID),
> + getconf(EGL_ALPHA_SIZE),
> + getconf(EGL_RED_SIZE),
> + getconf(EGL_GREEN_SIZE),
> + getconf(EGL_BLUE_SIZE),
> + getconf(EGL_BUFFER_SIZE),
> + getconf(EGL_DEPTH_SIZE),
> + getconf(EGL_STENCIL_SIZE),
> + getconf(EGL_NATIVE_VISUAL_ID),
> + getconf(EGL_NATIVE_VISUAL_TYPE)))
> +
> + if False:
> + num_configs = ctypes.c_long()
> + eglGetConfigs(dpy, None, 0, num_configs)
> + print("{} configs".format(num_configs.value))
> +
> + configs = (EGLConfig * num_configs.value)()
> + eglGetConfigs(dpy, configs, num_configs.value, num_configs)
> + for config_id in configs:
> + print_config(dpy, config_id)
> +
> +
> + config_attribs = [
> + EGL_SURFACE_TYPE, EGL_WINDOW_BIT,
> + EGL_RED_SIZE, 8,
> + EGL_GREEN_SIZE, 8,
> + EGL_BLUE_SIZE, 8,
> + EGL_ALPHA_SIZE, 0,
> + EGL_RENDERABLE_TYPE, EGL_OPENGL_ES2_BIT,
> + EGL_NONE,
> + ]
> +
> + n = EGLint()
> + configs = (EGLConfig * 1)()
> + b = eglChooseConfig(dpy, config_attribs, configs, 1, n)
> + assert(b and n.value == 1)
> + config = configs[0]
> +
> + print("Chosen Config:")
> + print_config(dpy, config)
> +
> + self.config = config
> +
> + def create_context(self):
> + dpy = self.display
> +
> + context_attribs = [
> + EGL_CONTEXT_CLIENT_VERSION, 2,
> + EGL_NONE,
> + ]
> +
> + context = eglCreateContext(dpy, self.config, EGL_NO_CONTEXT, context_attribs)
> + assert(context)
> +
> + b = eglMakeCurrent(dpy, EGL_NO_SURFACE, EGL_NO_SURFACE, context)
> + assert(b)
> +
> + self.context = context
> +
> + def check_extensions(self):
> + check_gl_extensions(["GL_OES_EGL_image"])
> +
> + assert(eglCreateImageKHR)
> + assert(eglDestroyImageKHR)
> + assert(glEGLImageTargetTexture2DOES)
> +
> +
> +class QtRenderer:
> + def __init__(self, state):
> + self.state = state
> +
> + def setup(self):
> + self.app = QtWidgets.QApplication([])
> +
> + window = MainWindow(self.state)
> + window.setAttribute(QtCore.Qt.WA_ShowWithoutActivating)
> + window.show()
> +
> + self.window = window
> +
> + def run(self):
> + camnotif = QtCore.QSocketNotifier(self.state["cm"].efd, QtCore.QSocketNotifier.Read)
> + camnotif.activated.connect(lambda x: self.readcam())
> +
> + keynotif = QtCore.QSocketNotifier(sys.stdin.fileno(), QtCore.QSocketNotifier.Read)
> + keynotif.activated.connect(lambda x: self.readkey())
> +
> + print("Capturing...")
> +
> + self.app.exec()
> +
> + print("Exiting...")
> +
> + def readcam(self):
> + running = self.state["event_handler"](self.state)
> +
> + if not running:
> + self.app.quit()
> +
> + def readkey(self):
> + sys.stdin.readline()
> + self.app.quit()
> +
> + def request_handler(self, ctx, req):
> + self.window.handle_request(ctx, req)
> +
> + def cleanup(self):
> + self.window.close()
> +
> +
> +class MainWindow(QtWidgets.QWidget):
> + def __init__(self, state):
> + super().__init__()
> +
> + self.setAttribute(Qt.WA_PaintOnScreen)
> + self.setAttribute(Qt.WA_NativeWindow)
> +
> + self.state = state
> +
> + self.textures = {}
> + self.reqqueue = {}
> + self.current = {}
> +
> + for ctx in self.state["contexts"]:
> +
> + self.reqqueue[ctx["idx"]] = []
> + self.current[ctx["idx"]] = []
> +
> + for stream in ctx["streams"]:
> + fmt = stream.configuration.fmt
> + size = stream.configuration.size
> +
> + if not fmt in FMT_MAP:
> + raise Exception("Unsupported pixel format: " + str(fmt))
> +
> + self.textures[stream] = None
> +
> + num_tiles = len(self.textures)
> + self.num_columns = math.ceil(math.sqrt(num_tiles))
> + self.num_rows = math.ceil(num_tiles / self.num_columns)
> +
> + self.egl = EglState()
> +
> + self.surface = None
> +
> + def paintEngine(self):
> + return None
> +
> + def create_surface(self):
> + native_surface = c_void_p(self.winId().__int__())
> + surface = eglCreateWindowSurface(self.egl.display, self.egl.config,
> + native_surface, None)
> +
> + b = eglMakeCurrent(self.egl.display, self.surface, self.surface, self.egl.context)
> + assert(b)
> +
> + self.surface = surface
> +
> + def init_gl(self):
> + self.create_surface()
> +
> + vertShaderSrc = """
> + attribute vec2 aPosition;
> + varying vec2 texcoord;
> +
> + void main()
> + {
> + gl_Position = vec4(aPosition * 2.0 - 1.0, 0.0, 1.0);
> + texcoord.x = aPosition.x;
> + texcoord.y = 1.0 - aPosition.y;
> + }
> + """
> + fragShaderSrc = """
> + #extension GL_OES_EGL_image_external : enable
> + precision mediump float;
> + varying vec2 texcoord;
> + uniform samplerExternalOES texture;
> +
> + void main()
> + {
> + gl_FragColor = texture2D(texture, texcoord);
> + }
> + """
> +
> + program = shaders.compileProgram(
> + shaders.compileShader(vertShaderSrc, GL_VERTEX_SHADER),
> + shaders.compileShader(fragShaderSrc, GL_FRAGMENT_SHADER)
> + )
> +
> + glUseProgram(program)
> +
> + glClearColor(0.5, 0.8, 0.7, 1.0)
> +
> + vertPositions = [
> + 0.0, 0.0,
> + 1.0, 0.0,
> + 1.0, 1.0,
> + 0.0, 1.0
> + ]
> +
> + inputAttrib = glGetAttribLocation(program, "aPosition")
> + glVertexAttribPointer(inputAttrib, 2, GL_FLOAT, GL_FALSE, 0, vertPositions)
> + glEnableVertexAttribArray(inputAttrib)
> +
> +
> + def create_texture(self, stream, fb):
> + cfg = stream.configuration
> + fmt = cfg.fmt
> + fmt = str_to_fourcc(FMT_MAP[fmt])
> + w, h = cfg.size
> +
> + attribs = [
> + EGL_WIDTH, w,
> + EGL_HEIGHT, h,
> + EGL_LINUX_DRM_FOURCC_EXT, fmt,
> + EGL_DMA_BUF_PLANE0_FD_EXT, fb.fd(0),
> + EGL_DMA_BUF_PLANE0_OFFSET_EXT, 0,
> + EGL_DMA_BUF_PLANE0_PITCH_EXT, cfg.stride,
> + EGL_NONE,
> + ]
> +
> + image = eglCreateImageKHR(self.egl.display,
> + EGL_NO_CONTEXT,
> + EGL_LINUX_DMA_BUF_EXT,
> + None,
> + attribs)
> + assert(image)
> +
> + textures = glGenTextures(1)
> + glBindTexture(GL_TEXTURE_EXTERNAL_OES, textures)
> + glTexParameteri(GL_TEXTURE_EXTERNAL_OES, GL_TEXTURE_MAG_FILTER, GL_LINEAR)
> + glTexParameteri(GL_TEXTURE_EXTERNAL_OES, GL_TEXTURE_MIN_FILTER, GL_LINEAR)
> + glTexParameteri(GL_TEXTURE_EXTERNAL_OES, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE)
> + glTexParameteri(GL_TEXTURE_EXTERNAL_OES, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE)
> + glEGLImageTargetTexture2DOES(GL_TEXTURE_EXTERNAL_OES, image)
> +
> + return textures
> +
> + def resizeEvent(self, event):
> + size = event.size()
> +
> + print("Resize", size)
> +
> + super().resizeEvent(event)
> +
> + if self.surface == None:
> + return
> +
> + glViewport(0, 0, size.width()//2, size.height())
> +
> + def paintEvent(self, event):
> + if self.surface == None:
> + self.init_gl()
> +
> + for ctx_idx, queue in self.reqqueue.items():
> + if len(queue) == 0:
> + continue
> +
> + ctx = next(ctx for ctx in self.state["contexts"] if ctx["idx"] == ctx_idx)
> +
> + if self.current[ctx_idx]:
> + old = self.current[ctx_idx]
> + self.current[ctx_idx] = None
> + self.state["request_prcessed"](ctx, old)
> +
> + next_req = queue.pop(0)
> + self.current[ctx_idx] = next_req
> +
> + stream, fb = next(iter(next_req.buffers.items()))
> +
> + self.textures[stream] = self.create_texture(stream, fb)
> +
> + self.paint_gl()
> +
> + def paint_gl(self):
> + b = eglMakeCurrent(self.egl.display, self.surface, self.surface, self.egl.context)
> + assert(b)
> +
> + glClear(GL_COLOR_BUFFER_BIT)
> +
> + size = self.size()
> +
> + for idx,ctx in enumerate(self.state["contexts"]):
> + for stream in ctx["streams"]:
> + if self.textures[stream] == None:
> + continue
> +
> + w = size.width() // self.num_columns
> + h = size.height() // self.num_rows
> +
> + x = idx % self.num_columns
> + y = idx // self.num_columns
> +
> + x *= w
> + y *= h
> +
> + glViewport(x, y, w, h)
> +
> + glBindTexture(GL_TEXTURE_EXTERNAL_OES, self.textures[stream])
> + glDrawArrays(GL_TRIANGLE_FAN, 0, 4)
> +
> + b = eglSwapBuffers(self.egl.display, self.surface)
> + assert(b)
> +
> + def handle_request(self, ctx, req):
> + self.reqqueue[ctx["idx"]].append(req)
> + self.update()
> diff --git a/src/py/test/gl_helpers.py b/src/py/test/gl_helpers.py
> new file mode 100644
> index 00000000..a80b03b2
> --- /dev/null
> +++ b/src/py/test/gl_helpers.py
> @@ -0,0 +1,67 @@
> +# SPDX-License-Identifier: GPL-2.0-or-later
> +# Copyright (C) 2021, Tomi Valkeinen <tomi.valkeinen at ideasonboard.com>
> +
> +from OpenGL.EGL.VERSION.EGL_1_0 import EGLNativeDisplayType, eglGetProcAddress, eglQueryString, EGL_EXTENSIONS
> +
> +from OpenGL.raw.GLES2 import _types as _cs
> +from OpenGL.GLES2.VERSION.GLES2_2_0 import *
> +from OpenGL.GLES3.VERSION.GLES3_3_0 import *
> +from OpenGL import GL as gl
> +
> +from ctypes import c_int, c_char_p, c_void_p, cdll, POINTER, util, \
> + pointer, CFUNCTYPE, c_bool
> +
> +def getEGLNativeDisplay():
> + _x11lib = cdll.LoadLibrary(util.find_library("X11"))
> + XOpenDisplay = _x11lib.XOpenDisplay
> + XOpenDisplay.argtypes = [c_char_p]
> + XOpenDisplay.restype = POINTER(EGLNativeDisplayType)
> +
> + xdpy = XOpenDisplay(None)
> +
> +# Hack. PyOpenGL doesn't seem to manage to find glEGLImageTargetTexture2DOES.
> +def getglEGLImageTargetTexture2DOES():
> + funcptr = eglGetProcAddress("glEGLImageTargetTexture2DOES")
> + prototype = CFUNCTYPE(None,_cs.GLenum,_cs.GLeglImageOES)
> + return prototype(funcptr)
> +
> +glEGLImageTargetTexture2DOES = getglEGLImageTargetTexture2DOES()
> +
> +
> +def str_to_fourcc(str):
> + assert(len(str) == 4)
> + fourcc = 0
> + for i,v in enumerate([ord(c) for c in str]):
> + fourcc |= v << (i * 8)
> + return fourcc
> +
> +def get_gl_extensions():
> + n = GLint()
> + glGetIntegerv(GL_NUM_EXTENSIONS, n)
> + gl_extensions = []
> + for i in range(n.value):
> + gl_extensions.append(gl.glGetStringi(GL_EXTENSIONS, i).decode())
> + return gl_extensions
> +
> +def check_gl_extensions(required_extensions):
> + extensions = get_gl_extensions()
> +
> + if False:
> + print("GL EXTENSIONS: ", " ".join(extensions))
> +
> + for ext in required_extensions:
> + if not ext in extensions:
> + raise Exception(ext + " missing")
> +
> +def get_egl_extensions(egl_display):
> + return eglQueryString(egl_display, EGL_EXTENSIONS).decode().split(" ")
> +
> +def check_egl_extensions(egl_display, required_extensions):
> + extensions = get_egl_extensions(egl_display)
> +
> + if False:
> + print("EGL EXTENSIONS: ", " ".join(extensions))
> +
> + for ext in required_extensions:
> + if not ext in extensions:
> + raise Exception(ext + " missing")
> --
> 2.25.1
>
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