mirror of
https://github.com/sehugg/8bitworkshop.git
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59 lines
1.4 KiB
Python
Executable File
59 lines
1.4 KiB
Python
Executable File
#!/usr/bin/python
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import sys, struct
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# playfield bytes, one array for each of 6 columns
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output = [[],[],[],[],[],[]]
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# reverse byte
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def rev(n):
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return int('{:08b}'.format(n)[::-1], 2)
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# output bits in given range
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def out(i, pix, lb, hb, reverse=0, shift=0):
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x = (pix >> lb) & ((1<<(hb-lb))-1)
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if reverse:
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x = rev(x)
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if shift:
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x = x << shift
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assert(x>=0 and x<=255)
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output[i].append(x)
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# read PBM (binary P4 format) file
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with open(sys.argv[1],'rb') as f:
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# read PBM header
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header = f.readline().strip()
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assert(header == 'P4')
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dims = f.readline().strip()
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if dims[0] == '#':
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dims = f.readline().strip()
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width,height = map(int, dims.split())
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assert(width==48)
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# read bitmap rows
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for y in range(0,height):
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row = bytes(f.read(6) + '\0\0') # pad to 8 bytes
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# convert to 64-bit integer
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pix = struct.unpack('<q',row)[0]
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#print '%010lx' % pix
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# generate playfield bytes
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out(0, pix, 0, 8, 0)
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out(1, pix, 8, 16, 0)
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out(2, pix, 16, 24, 0)
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out(3, pix, 24, 32, 0)
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out(4, pix, 32, 40, 0)
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out(5, pix, 40, 48, 0)
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# output bitmap tables
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for c in range(0,6):
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print "\talign $100"
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print "Bitmap%d" % c
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print "\thex 00"
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s = '\thex '
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for i in range(0,height):
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s += '%02x' % output[c][height-i-1]
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if i % 16 == 15:
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print s
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s = '\thex '
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if len(s)>5:
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print s
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