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authorjaseg <jaseg@jaseg.net>2014-03-09 01:33:19 +0100
committerjaseg <jaseg@jaseg.net>2014-03-09 01:33:19 +0100
commit592fed02624f244af1b0a4e909915d49a6bb9675 (patch)
tree995f50d7664cad5ff92d7f5b4f7ac83a2ccee73a
parent3ba0aedf5ecbfe6ed4a2b85d0d55ecfffc372e08 (diff)
downloadmatelight-592fed02624f244af1b0a4e909915d49a6bb9675.tar.gz
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Re-did the rendering infrastructure. Still leaking memory.
-rw-r--r--host/matelight.py2
-rwxr-xr-xhost/server.py253
2 files changed, 85 insertions, 170 deletions
diff --git a/host/matelight.py b/host/matelight.py
index 6d0f5bf..59b6373 100644
--- a/host/matelight.py
+++ b/host/matelight.py
@@ -18,7 +18,7 @@ FRAME_SIZE = DISPLAY_WIDTH*DISPLAY_HEIGHT
GAMMA = 2.5
# Brightness of the LEDs in percent. 1.0 means 100%.
-BRIGHTNESS = 0.2
+BRIGHTNESS = 1.0
ml = CDLL('./libml.so')
ml.matelight_open.restype = c_void_p
diff --git a/host/server.py b/host/server.py
index b942af4..cdf2b1d 100755
--- a/host/server.py
+++ b/host/server.py
@@ -1,9 +1,12 @@
#!/usr/bin/env python
from socketserver import *
+import socket
+import struct
+import zlib
from time import time, strftime, sleep
from collections import namedtuple, deque
-from itertools import product, cycle
+import itertools
import threading
import random
@@ -53,200 +56,112 @@ def printframe(fb):
print('\0337\033[H', end='')
print('Rendering frame @{}'.format(time()))
bdf.console_render_buffer(fb.ctypes.data_as(POINTER(c_uint8)), w, h)
- print('\033[0m\033[KCurrently rendering', current_entry.entrytype, 'from', current_entry.remote, ':', current_entry.text, '\0338', end='')
+ #print('\033[0m\033[KCurrently rendering', current_entry.entrytype, 'from', current_entry.remote, ':', current_entry.text, '\0338', end='')
printlock.release()
-QueueEntry = namedtuple('QueueEntry', ['entrytype', 'remote', 'timestamp', 'text'])
-defaultlines = [ QueueEntry('text', '127.0.0.1', 0, l[:-1].replace('\\x1B', '\x1B')) for l in open('default.lines').readlines() ]
-random.shuffle(defaultlines)
-defaulttexts = cycle(defaultlines)
-current_entry = next(defaulttexts)
-conns = {}
-textqueue = []
-
def log(*args):
printlock.acquire()
print(strftime('\x1B[93m[%m-%d %H:%M:%S]\x1B[0m'), ' '.join(str(arg) for arg in args), '\x1B[0m')
printlock.release()
-class MateLightUDPServer(UDPServer):
- """
- The server class for the SocketServer interface.
- """
- def __init__(self, *args, **kwargs):
- """
- Setup the deque for the frame
- """
- super(MateLightUDPServer, self).__init__(*args, **kwargs)
- self.frame_deque = deque(maxlen=30)
-
- def get_next_frame(self):
- try:
- return self.frame_deque.popleft()
- except IndexError:
- return None
-
-class MateLightTCPServer(TCPServer):
- def __init__(self, *args, **kwargs):
- super(MateLightTCPServer, self).__init__(*args, **kwargs)
- # A deque for the texts, contains a tuple of the form (text, width, height)
- self.text_deque = deque(maxlen=32)
- self.current_text = None
-
- def get_next_frame(self):
- if self.current_text is None or self.i > self.current_text[1][0]:
- self.current_text = None
+class TextRenderer:
+ def __init__(self, text):
+ self.text = text
+ self.width, _ = compute_text_bounds(text)
+
+ def __iter__(self):
+ for i in range(-DISPLAY_WIDTH, self.width):
+ yield render_text(self.text, i)
+
+class MateLightUDPServer:
+ def __init__(self, port=1337, ip=''):
+ self.current_client = None
+ self.last_timestamp = 0
+ self.socket = socket.socket(socket.AF_INET, socket.SOCK_DGRAM)
+ self.socket.setsockopt(socket.SOL_SOCKET, socket.SO_REUSEADDR, 1)
+ self.socket.bind((ip, port))
+ self.thread = threading.Thread(target = self.udp_receive)
+ self.thread.daemon = True
+ self.start = self.thread.start
+ self.frame_condition = threading.Condition()
+ self.frame = None
+
+ def frame_da(self):
+ return self.frame is not None
+
+ def __iter__(self):
+ while True:
+ with self.frame_condition:
+ if not self.frame_condition.wait_for(self.frame_da, timeout=UDP_TIMEOUT):
+ raise StopIteration()
+ frame, self.frame = self.frame, None
+ yield frame
+
+ def udp_receive(self):
+ while True:
try:
- self.current_text = self.text_deque.popleft()
- self.i = -DISPLAY_WIDTH
- except IndexError:
- return None
-
- frame = render_text(self.current_text[0], self.i)
- self.i += 1
- return frame
-
-class MateLightUDPHandler(BaseRequestHandler):
- """
- Handles one UDP connection to the matelight
- """
- def handle(self):
- try:
- # Housekeeping - FIXME: This is *so* the wrong place for this.
- for k,v in conns.items():
- if time() - v.timestamp > UDP_TIMEOUT:
- del conns[k]
-
- global current_entry, conns
- data = self.request[0].strip()
- if len(data) != FRAME_SIZE*3+4:
- #raise ValueError('Invalid frame size: Expected {}, got {}'.format(FRAME_SIZE+4, len(data)))
- return
- frame = data[:-4]
- #crc1, = struct.unpack('!I', data[-4:])
- #crc2, = zlib.crc32(frame, 0),
- #if crc1 != crc2:
- # raise ValueError('Invalid frame CRC checksum: Expected {}, got {}'.format(crc2, crc1))
- #socket.sendto(b'ACK', self.client_address)
- a = np.array(list(frame), dtype=np.uint8)
- timestamp = time()
- addr = self.client_address[0]
- conn = QueueEntry('udp', addr, timestamp, '')
- if addr not in conns:
- log('\x1B[91mNew UDP connection from\x1B[0m', addr)
- current_entry = conn
- conns[addr] = current_entry
- if current_entry.entrytype == 'udp' and current_entry.remote == addr:
- current_entry = conn
- frame = a.reshape((DISPLAY_WIDTH, DISPLAY_HEIGHT, 3))
- self.server.frame_deque.append(frame)
- #sendframe(frame)
- printframe(np.pad(frame, ((0,0),(0,0),(0,1)), 'constant', constant_values=(0,0)))
- except Exception as e:
- log('Error receiving UDP frame:', e)
+ data, (addr, sport) = self.socket.recvfrom(FRAME_SIZE*3+4)
+ timestamp = time()
+ if timestamp - self.last_timestamp > UDP_TIMEOUT:
+ self.current_client = addr
+ log('\x1B[91mAccepting UDP data from\x1B[0m', addr)
+ if addr == self.current_client:
+ if len(data) == FRAME_SIZE*3+4:
+ frame = data[:-4]
+ crc1, = struct.unpack('!I', data[-4:])
+ if crc1:
+ crc2, = zlib.crc32(frame, 0),
+ if crc1 != crc2:
+ raise ValueError('Invalid frame CRC checksum: Expected {}, got {}'.format(crc2, crc1))
+ elif len(data) == FRAME_SIZE*3:
+ frame = data
+ else:
+ raise ValueError('Invalid frame size: {}'.format(len(data)))
+ self.last_timestamp = timestamp
+ with self.frame_condition:
+ self.frame = np.frombuffer(frame, dtype=np.uint8).reshape((DISPLAY_WIDTH, DISPLAY_HEIGHT, 3))
+ self.frame_condition.notify()
+ except Exception as e:
+ log('Error receiving UDP frame:', e)
+
+renderqueue = deque()
class MateLightTCPTextHandler(BaseRequestHandler):
def handle(self):
- global current_entry, conns
+ global render_deque
data = str(self.request.recv(1024).strip(), 'UTF-8')
addr = self.client_address[0]
- timestamp = time()
if len(data) > 140:
self.request.sendall('TOO MUCH INFORMATION!\n')
return
log('\x1B[95mText from\x1B[0m {}: {}\x1B[0m'.format(addr, data))
- #textqueue.append(QueueEntry('text', addr, timestamp, data))
- self.server.text_deque.append((data, compute_text_bounds(data)))
+ renderqueue.append(TextRenderer(data))
self.request.sendall(b'KTHXBYE!\n')
TCPServer.allow_reuse_address = True
-tserver = MateLightTCPServer(('', 1337), MateLightTCPTextHandler)
+tserver = TCPServer(('', 1337), MateLightTCPTextHandler)
t = threading.Thread(target=tserver.serve_forever)
t.daemon = True
t.start()
-UDPServer.allow_reuse_address = True
-userver = MateLightUDPServer(('', 1337), MateLightUDPHandler)
-t = threading.Thread(target=userver.serve_forever)
-t.daemon = True
-t.start()
-
-def udp_sub_loop():
- """
- If we can get at least one frame from get_next_frame() we will wait
- for 1000 frame cycles till we return. If we do not get a valid frame
- in the first loop, we return immediatly.
- """
- invalid_frames = 300
- while True:
- next_frame = userver.get_next_frame()
- if next_frame is not None:
- invalid_frames = 0
- sendframe(next_frame)
- sleep(0.01)
- else:
- invalid_frames += 1
- sleep(0.01)
- if invalid_frames > 300:
- break
-
-def tcp_sub_loop():
- """
- Send as many frames as there are texts in the buffer until the text deque
- is empty.
- """
- while True:
- next_frame = tserver.get_next_frame()
- if next_frame is not None:
- sendframe(next_frame)
- else:
- break
-
-class MateLightDefaultScroller():
- def __init__(self, *args, **kwargs):
- # A deque for the texts, contains a tuple of the form (text, width, height)
- self.text_deque = deque(maxlen=32)
- self.current_text = None
-
- def get_next_frame(self):
- if self.current_text is None or self.i > self.current_text[1][0]:
- self.current_text = None
- text = next(defaulttexts).text
- self.current_text = (text, compute_text_bounds(text))
- self.i = -DISPLAY_WIDTH
-
- frame = render_text(self.current_text[0], self.i)
- self.i += 1
- return frame
+userver = MateLightUDPServer()
+userver.start()
+defaultlines = [ TextRenderer(l[:-1].replace('\\x1B', '\x1B')) for l in open('default.lines').readlines() ]
+random.shuffle(defaultlines)
+defaulttexts = itertools.cycle(itertools.chain(*defaultlines))
if __name__ == '__main__':
- print('\033[?1049h'+'\n'*9)
- default_scroller = MateLightDefaultScroller()
- while True:
- udp_sub_loop()
- tcp_sub_loop()
- sendframe(default_scroller.get_next_frame())
-
-def bla():
+ #print('\033[?1049h'+'\n'*9)
while True:
- if current_entry.entrytype == 'text':
- if scroll(current_entry.text):
- if current_entry in textqueue:
- textqueue.remove(current_entry)
- if textqueue:
- current_entry = textqueue[0]
- else:
- if conns:
- current_entry = random.choice(list(conns.values()))
- else:
- current_entry = next(defaulttexts)
- if current_entry.entrytype != 'udp' and textqueue:
- current_entry = textqueue[0]
- log('\x1B[92mScrolling\x1B[0m', current_entry.text)
- if current_entry.entrytype == 'udp':
- if time() - current_entry.timestamp > UDP_TIMEOUT:
- current_entry = next(defaulttexts)
- else:
- sleep(0.1)
+ if renderqueue:
+ renderer = renderqueue.pop_front()
+ elif userver.frame_da():
+ renderer = userver
+ else:
+ sendframe(next(defaulttexts))
+ continue
+ for frame in renderer:
+ sendframe(frame)
+ #printframe(frame)