mirror of
https://git.code.sf.net/p/quake/quakeforge
synced 2024-11-30 08:00:51 +00:00
198 lines
3.9 KiB
Python
198 lines
3.9 KiB
Python
import array
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import sys
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black = ( 0, 0, 0)
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blue = ( 0, 0,255)
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green = ( 0,255, 0)
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cyan = ( 0,255,255)
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red = (255, 0, 0)
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magenta = (255, 0,255)
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yellow = (255,255, 0)
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white = (255,255,255)
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grey = (128,128,128)
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def div10 (x):
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return x / 5
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def plot (x, y, color, blend = 0):
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def lim (x):
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if x > 255:
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x = 255
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return x
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y = height - 1 - y
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p = (y * width + x) * 3
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r, g, b = color
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if blend:
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r += a[p + 0]
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g += a[p + 1]
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b += a[p + 2]
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a[p + 0], a[p + 1], a[p + 2] = lim (r), lim (g), lim (b)
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def vline (x, y1, y2, color, blend = 0):
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if y1 == y2:
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plot (x, y1, color, blend)
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elif y1 < y2:
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for y in range (y1, y2 + 1):
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plot (x, y, color, blend)
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else:
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for y in range (y2, y1 + 1):
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plot (x, y, color, blend)
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def hline (x1, x2, y, color, blend = 0):
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if x1 == x2:
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plot (x1, y, color, blend)
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elif x1 < x2:
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for x in range (x1, x2 + 1):
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plot (x, y, color, blend)
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else:
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for x in range (x2, x1 + 1):
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plot (x, y, color, blend)
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class Frames:
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class iterator:
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def __init__ (self, obj):
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self.obj = obj
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self.cur = 0
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self.max = len (obj)
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def __iter__ (self):
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return self
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def next (self):
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if self.cur == self.max:
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raise StopIteration
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obj = self.obj.times[self.cur]
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self.cur += 1
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return obj
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def __init__ (self, data):
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self.times = map (lambda x: int(x), data)
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min = max = self.times[0]
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sum = 0
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for t in self.times:
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if min > t:
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min = t
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if max < t:
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max = t
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sum = sum + t
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self.min = min
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self.max = max
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self.avg = sum / float (len (self.times))
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def __len__ (self):
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return len (self.times)
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def __getitem__ (self, key):
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if type (key) == type (1):
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return self.times[key]
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else:
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if key.step:
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return self.times[key.start:key.stop:key.step]
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else:
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return self.times[key.start:key.stop]
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def __iter__ (self):
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return Frames.iterator (self)
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frames = []
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for fname in sys.argv[1:]:
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f = open (fname, "rt")
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lines = f.readlines ()
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f.close ()
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frames.append (Frames (lines))
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print frames[-1].min/1000.0, frames[-1].max/1000.0, frames[-1].avg/1000.0
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width = len (frames[0])
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max = frames[0].max
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for f in frames:
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if width < len (f):
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width = len (f)
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if max < f.max:
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max = f.max
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tick_mult = 10
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if max < 1000:
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scale = 1.0
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ticks = 10
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elif max < 2000:
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scale = 0.5
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ticks = 5
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elif max < 4000:
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scale = 0.25
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ticks = 5
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tick_mult = 5
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elif max < 5000:
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scale = 0.2
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ticks = 2
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elif max < 10000:
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scale = 0.1
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ticks = 10
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elif max < 20000:
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scale = 0.05
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ticks = 5
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elif max < 40000:
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scale = 0.025
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ticks = 5
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tick_mult = 5
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elif max < 50000:
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scale = 0.02
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ticks = 2
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elif max < 100000:
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scale = 0.01
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ticks = 10
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elif max < 200000:
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scale = 0.005
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ticks = 5
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elif max < 400000:
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scale = 0.0025
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ticks = 5
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tick_mult = 5
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elif max < 500000:
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scale = 0.002
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ticks = 2
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elif max < 1000000:
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scale = 0.001
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ticks = 10
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elif max < 2000000:
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scale = 0.0005
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ticks = 5
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elif max < 4000000:
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scale = 0.00025
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ticks = 5
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tick_mult = 5
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elif max < 5000000:
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scale = 0.0002
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ticks = 2
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else:
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scale = 0.0001
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ticks = 10
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height = int (max * scale + 0.5) + 1
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a = array.array ('B', '\0' * height * width * 3)
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hline (0, width - 1, 0, grey)
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vline (0, 0, height - 1, grey)
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for y in range (0, height - 1, ticks):
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hline (0, 5, y, grey)
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for y in range (0, height - 1, ticks * tick_mult):
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hline (0, 10, y, grey)
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for x in range (0, width - 1, 100):
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vline (x, 0, 5, grey)
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b1 = 0.8
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a1 = 1 - b1
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for f in frames:
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ravg = 0
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for x in range (len (f)):
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y1 = int (f[x] * scale + 0.5)
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if x < len (f) - 1:
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y2 = int (f[x + 1] * scale + 0.5)
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vline (x, y1, y2, map (div10, yellow), 1)
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plot (x, y1, red)
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ravg = a1 * f[x] + b1 * ravg
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plot (x, int (ravg * scale + 0.5), map (div10, cyan), 1)
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hline (0, len (f) - 1, int (f.avg * scale + 0.5), map (div10, blue), 1)
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f = open ("timeframes.ppm", "wb")
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f.write ("P6\n")
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f.write ("#File written by timeframes.py\n")
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f.write (`width` + " " + `height` + "\n")
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f.write ("255\n")
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f.write (a.tostring ())
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f.close ()
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