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https://github.com/a2-4am/4cade.git
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110 lines
4.3 KiB
Python
110 lines
4.3 KiB
Python
even_byte_bitmask = (0, 0, 1, 1, 2, 2, 3)
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odd_byte_bitmask = (5, 5, 6, 6, 7, 7, 4)
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def unique(coords):
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d = {}
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unique_coords = []
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for c in coords:
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if not d.get(c):
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unique_coords.append(c)
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d[c] = 1
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return unique_coords
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def radial_multiply(unique_coords):
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q2 = [(279-x, y) for (x, y) in unique_coords]
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q2.reverse()
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q3 = [(279-x, 190-y) for (x, y) in unique_coords]
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q4 = [(x, 190-y) for (x, y) in unique_coords]
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q4.reverse()
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return unique([(x//2, y//2) for (x, y) in unique_coords + q2 + q3 + q4 if (x % 2 == 0) and (y % 4 == 0)])
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def quadrant_multiply(unique_coords):
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q2 = [(279-x, y) for (x, y) in unique_coords]
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q3 = [(279-x, 190-y) for (x, y) in unique_coords]
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q4 = [(x, 190-y) for (x, y) in unique_coords]
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return unique([(x//2, y//2) for (x, y) in unique_coords + q2 + q3 + q4 if (x % 2 == 0) and (y % 4 == 0)])
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def vals_1bit(unique_coords):
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unique_vals = []
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for x, y in unique_coords:
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aval = "$" + hex(y)[2:].rjust(2, "0").upper()
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bval = "%" + \
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bin(x%7)[2:].rjust(3, "0") + \
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bin(x//7)[2:].rjust(5, "0")
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unique_vals.append((aval, bval))
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return unique_vals
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def vals_2bit(unique_coords):
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unique_vals = []
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for x, y in unique_coords:
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y = 191 - y
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aval = "$" + hex(y)[2:].rjust(2, "0").upper()
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byte = x//7
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if byte % 2 == 0:
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# high 3 bits are 0-3, low 5 bits are 0-19
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bval = "%" + bin(even_byte_bitmask[x % 7])[2:].rjust(3, "0") + bin(byte)[2:].rjust(5, "0")
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unique_vals.append((aval, bval))
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if x % 7 == 6:
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# this 2x2 block will be split across bytes, so add an extra coordinate pair with the adjacent byte and high 3 bits = 4
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bval = "%100" + bin(byte+1)[2:].rjust(5, "0") + ";"
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unique_vals.append((aval, bval))
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else:
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# high 3 bits are 5-7 or 4, low 5 bits are 0-19
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bval = "%" + bin(odd_byte_bitmask[x % 7])[2:].rjust(3, "0") + bin(byte)[2:].rjust(5, "0")
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unique_vals.append((aval, bval))
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if x % 7 == 6:
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# this 2x2 block will be split across bytes, so add an extra coordinate pair with the adjacent byte and high 3 bits = 3
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bval = "%011" + bin(byte+1)[2:].rjust(5, "0") + ";"
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unique_vals.append((aval, bval))
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return unique_vals
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def vals_3bit(unique_coords):
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unique_vals = []
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for x, y in unique_coords:
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y = 63 - y//3
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byte = x//7
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if byte >= 32:
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byte -= 32
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y += 64
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aval = "$" + hex(y)[2:].rjust(2, "0").upper()
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if byte % 2 == 0:
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# high 3 bits are 0-3, low 5 bits are 0-19
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bval = "%" + bin(even_byte_bitmask[x % 7])[2:].rjust(3, "0") + bin(byte)[2:].rjust(5, "0")
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unique_vals.append((aval, bval))
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if x % 7 == 6:
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# this 2x2 block will be split across bytes, so add an extra coordinate pair with the adjacent byte and high 3 bits = 4
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bval = "%100" + bin(byte+1)[2:].rjust(5, "0") + ";"
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unique_vals.append((aval, bval))
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else:
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# high 3 bits are 5-7 or 4, low 5 bits are 0-19
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bval = "%" + bin(odd_byte_bitmask[x % 7])[2:].rjust(3, "0") + bin(byte)[2:].rjust(5, "0")
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unique_vals.append((aval, bval))
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if x % 7 == 6:
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# this 2x2 block will be split across bytes, so add an extra coordinate pair with the adjacent byte and high 3 bits = 3
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bval = "%011" + bin(byte+1)[2:].rjust(5, "0") + ";"
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unique_vals.append((aval, bval))
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return unique_vals
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def ripple(unique_vals):
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z = len(unique_vals)
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ripple_vals = []
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for i, j, k, l in zip(range(z//4), range(z//4,z//2), range(z//2,z*3//4), range(z*3//4,z)):
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ripple_vals.append(unique_vals[i])
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ripple_vals.append(unique_vals[j])
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ripple_vals.append(unique_vals[k])
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ripple_vals.append(unique_vals[l])
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return ripple_vals
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def halfripple(unique_vals):
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z = len(unique_vals)
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ripple_vals = []
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for i, j in zip(range(z//2), range(z//2,z)):
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ripple_vals.append(unique_vals[i])
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ripple_vals.append(unique_vals[j])
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return ripple_vals
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def write(filename, vals):
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with open(filename, "w") as f:
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for aval, bval in vals:
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f.write(" !byte %s,%s\n" % (aval, bval))
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