def c2p(): m0 = Word.Mask('00ff') m1 = Word.Mask('0f0f') print "=[ c2p 1x1 ham6 (blitter + mangled) ]=".center(48, '-') def MakeWord(c, color): # mangle: [ 0 0 0 0 r0 r1 r2 r3 g0 g1 g2 g3 b0 b1 b2 b3] => # [r0 g0 b0 b0 r1 g1 b1 b1 r2 g2 b2 b2 r3 g3 b3 b3] return Word([ Bit.Var(c[0], 0, color), Bit.Var(c[1], 0, color), Bit.Var(c[2], 0, color), Bit.Var(c[3], 0, color), Bit.Var(c[0], 1, color), Bit.Var(c[1], 1, color), Bit.Var(c[2], 1, color), Bit.Var(c[3], 1, color), Bit.Var(c[0], 2, color), Bit.Var(c[1], 2, color), Bit.Var(c[2], 2, color), Bit.Var(c[3], 2, color), Bit.Var(c[0], 3, color), Bit.Var(c[1], 3, color), Bit.Var(c[2], 3, color), Bit.Var(c[3], 3, color) ]) A = Array.Make(MakeWord) N = len(A) Array.Print("Data:", *A) B = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 8) & m0) | (b & ~m0), N / 4, 2, Channel(A, 2, 2), Channel(A, 0, 2), Channel(B, 0, 2)) Blit(lambda a, b: ((a << 8) & ~m0) | (b & m0), N / 4, 2, Channel(A, 0, 2), Channel(A, 2, 2), Channel(B, 2, 2)) Array.Print("Swap 8x4:", *B) C = [Array.Zero(N / 4, 16) for i in range(4)] Blit(lambda a, b: ((a >> 4) & m1) | (b & ~m1), N / 4, 1, Channel(B, 1, 3), Channel(B, 0, 3), Channel(C[0])) Blit(lambda a, b: ((a >> 4) & m1) | (b & ~m1), N / 4, 1, Channel(B, 3, 3), Channel(B, 2, 3), Channel(C[2])) Blit(lambda a, b: ((a << 4) & ~m1) | (b & m1), N / 4, 1, Channel(B, 0, 3), Channel(B, 1, 3), Channel(C[1])) Blit(lambda a, b: ((a << 4) & ~m1) | (b & m1), N / 4, 1, Channel(B, 2, 3), Channel(B, 3, 3), Channel(C[3])) print("Bitplanes:") Array.Print("[0]:", *C[0]) Array.Print("[1]:", *C[1]) Array.Print("[2]:", *C[2]) Array.Print("[3]:", *C[3])
def c2p(bitplane_output=True): m0 = Word.Mask('ff00') m1 = Word.Mask('f0f0') m2 = Word.Mask('cccc') print "=[ c2p 1x1 4bpl (blitter + mangled) ]=".center(48, '-') def MakeWord(c, color): return Word([ Bit.Var(c[0], 0, color), Bit.Var(c[1], 0, color), Bit.Var(c[0], 2, color), Bit.Var(c[1], 2, color), Bit.Var(c[0], 1, color), Bit.Var(c[1], 1, color), Bit.Var(c[0], 3, color), Bit.Var(c[1], 3, color), Bit.Var(c[2], 0, color), Bit.Var(c[3], 0, color), Bit.Var(c[2], 2, color), Bit.Var(c[3], 2, color), Bit.Var(c[2], 1, color), Bit.Var(c[3], 1, color), Bit.Var(c[2], 3, color), Bit.Var(c[3], 3, color) ]) A = Array.Make(MakeWord) N = len(A) Array.Print("Data:", *A) B = Array.Zero(N, 16) Blit(lambda a, b: (a & m0) | ((b >> 8) & ~m0), N / 4, 2, Channel(A, 0, 2), Channel(A, 2, 2), Channel(B, 0, 2)) Blit(lambda a, b: ((a << 8) & m0) | (b & ~m0), N / 4, 2, Channel(A, 0, 2), Channel(A, 2, 2), Channel(B, 2, 2)) Array.Print("Swap 8x4:", *B) C = Array.Zero(N, 16) Blit(lambda a, b: (a & m1) | ((b >> 4) & ~m1), N / 2, 1, Channel(B, 0, 1), Channel(B, 1, 1), Channel(C, 0, 1)) Blit(lambda a, b: ((a << 4) & m1) | (b & ~m1), N / 2, 1, Channel(B, 0, 1), Channel(B, 1, 1), Channel(C, 1, 1)) Array.Print("Swap 4x2:", *C) if bitplane_output: D = [Array.Zero(N / 4, 16) for i in range(4)] Blit(lambda a, b: (a & m2) | ((b >> 2) & ~m2), N / 4, 1, Channel(C, 0, 3), Channel(C, 2, 3), Channel(D[0], 0, 0)) Blit(lambda a, b: (a & m2) | ((b >> 2) & ~m2), N / 4, 1, Channel(C, 1, 3), Channel(C, 3, 3), Channel(D[1], 0, 0)) Blit(lambda a, b: ((a << 2) & m2) | (b & ~m2), N / 4, 1, Channel(C, 0, 3), Channel(C, 2, 3), Channel(D[2], 0, 0)) Blit(lambda a, b: ((a << 2) & m2) | (b & ~m2), N / 4, 1, Channel(C, 1, 3), Channel(C, 3, 3), Channel(D[3], 0, 0)) print("Bitplanes:") Array.Print("[0]:", *D[0]) Array.Print("[1]:", *D[1]) Array.Print("[2]:", *D[2]) Array.Print("[3]:", *D[3]) else: D = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 2) & ~m2) | (b & m2), N / 4, 2, Channel(C, 2, 2), Channel(C, 0, 2), Channel(D, 0, 2)) Blit(lambda a, b: ((a << 2) & m2) | (b & ~m2), N / 4, 2, Channel(C, 0, 2), Channel(C, 2, 2), Channel(D, 2, 2)) Array.Print("Swap 2x2:", *D)
def c2p(bitplane_output=True): m0 = Word.Mask('00ff') m1 = Word.Mask('0f0f') m2 = Word.Mask('5555') print "=[ c2p 2x1 4bpl (blitter + mangled) ]=".center(48, '-') # premangled pixels: # 1) [- - - - a b c d] => [a b - - c d - -] # 2) [- - - - e f g h] => [- - e f - - g h] def MakeWord(c, color): return Word([Bit.Var(c[0], 0, color), Bit.Var(c[0], 1, color), Bit.Var(c[1], 0, color), Bit.Var(c[1], 1, color), Bit.Var(c[0], 2, color), Bit.Var(c[0], 3, color), Bit.Var(c[1], 2, color), Bit.Var(c[1], 3, color), Bit.Var(c[2], 0, color), Bit.Var(c[2], 1, color), Bit.Var(c[3], 0, color), Bit.Var(c[3], 1, color), Bit.Var(c[2], 2, color), Bit.Var(c[2], 3, color), Bit.Var(c[3], 2, color), Bit.Var(c[3], 3, color)]) A = Array.Make(MakeWord) N = len(A) Array.Print("Data:", *A) B = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 8) & m0) | (b & ~m0), N / 2, 1, Channel(A, 1, 1), Channel(A, 0, 1), Channel(B, 0, 1)) Blit(lambda a, b: ((a << 8) & ~m0) | (b & m0), N / 2, 1, Channel(A, 0, 1), Channel(A, 1, 1), Channel(B, 1, 1)) Array.Print("Swap 8x2:", *B) C = Array.Zero(N, 16) Blit(lambda a, b: ((a & ~m1) | ((b >> 4) & m1)), N / 2, 1, Channel(B, 0, 1), Channel(B, 1, 1), Channel(C, 0, 1)) Blit(lambda a, b: (((a << 4) & ~m1) | (b & m1)), N / 2, 1, Channel(B, 0, 1), Channel(B, 1, 1), Channel(C, 1, 1)) Array.Print("Swap 4x2:", *C) if bitplane_output: D = [Array.Zero(N / 2, 16) for i in range(4)] Blit(lambda a, b: (((a >> 1) & m2) | (b & ~m2)), N / 2, 1, Channel(C, 0, 1), Channel(C, 0, 1), Channel(D[0], 0, 0)) Blit(lambda a, b: (((a >> 1) & m2) | (b & ~m2)), N / 2, 1, Channel(C, 1, 1), Channel(C, 1, 1), Channel(D[2], 0, 0)) Blit(lambda a, b: (((a << 1) & ~m2) | (b & m2)), N / 2, 1, Channel(C, 0, 1), Channel(C, 0, 1), Channel(D[1], 0, 0)) Blit(lambda a, b: (((a << 1) & ~m2) | (b & m2)), N / 2, 1, Channel(C, 1, 1), Channel(C, 1, 1), Channel(D[3], 0, 0)) print("Bitplanes:") Array.Print("[0]:", *D[0]) Array.Print("[1]:", *D[1]) Array.Print("[2]:", *D[2]) Array.Print("[3]:", *D[3]) else: D = Array.Zero(N * 2, 16) Blit(lambda a, b: (((a >> 1) & m2) | (b & ~m2)), N, 1, Channel(C, 0, 0), Channel(C, 0, 0), Channel(D, 0, 1)) Blit(lambda a, b: (((a << 1) & ~m2) | (b & m2)), N, 1, Channel(C, 0, 0), Channel(C, 0, 0), Channel(D, 1, 1)) Array.Print("Expand 2x1:", *D)
def c2p(bitplane_output=True): m0 = Word.Mask('00ff') m1 = Word.Mask('0f0f') m2 = Word.Mask('3333') m3 = Word.Mask('5555') print "=[ c2p 1x1 4bpl (blitter) ]=".center(48, '-') def MakeWord(chars, color): bits = [] for c in chars: for i in range(4): bits.append(Bit.Var(c, i, color)) return Word(bits) A = Array.Make(MakeWord) N = len(A) Array.Print("Data:", *A) B = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 8) & m0) | (b & ~m0), N / 4, 2, Channel(A, 2, 2), Channel(A, 0, 2), Channel(B, 0, 2)) Blit(lambda a, b: ((a << 8) & ~m0) | (b & m0), N / 4, 2, Channel(A, 0, 2), Channel(A, 2, 2), Channel(B, 2, 2)) Array.Print("Swap 8x4:", *B) C = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 4) & m1) | (b & ~m1), N / 2, 1, Channel(B, 1, 1), Channel(B, 0, 1), Channel(C, 0, 1)) Blit(lambda a, b: ((a << 4) & ~m1) | (b & m1), N / 2, 1, Channel(B, 0, 1), Channel(B, 1, 1), Channel(C, 1, 1)) Array.Print("Swap 4x2:", *C) D = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 2) & m2) | (b & ~m2), N / 4, 2, Channel(C, 2, 2), Channel(C, 0, 2), Channel(D, 0, 2)) Blit(lambda a, b: ((a << 2) & ~m2) | (b & m2), N / 4, 2, Channel(C, 0, 2), Channel(C, 2, 2), Channel(D, 2, 2)) Array.Print("Swap 2x2:", *D) if bitplane_output: E = [Array.Zero(N / 4, 16) for i in range(4)] Blit(lambda a, b: ((a >> 1) & m3) | (b & ~m3), N / 4, 1, Channel(D, 1, 3), Channel(D, 0, 3), Channel(E[0], 0, 0)) Blit(lambda a, b: ((a >> 1) & m3) | (b & ~m3), N / 4, 1, Channel(D, 3, 3), Channel(D, 2, 3), Channel(E[2], 0, 0)) Blit(lambda a, b: ((a << 1) & ~m3) | (b & m3), N / 4, 1, Channel(D, 0, 3), Channel(D, 1, 3), Channel(E[1], 0, 0)) Blit(lambda a, b: ((a << 1) & ~m3) | (b & m3), N / 4, 1, Channel(D, 2, 3), Channel(D, 3, 3), Channel(E[3], 0, 0)) print("Bitplanes:") Array.Print("[0]:", *E[0]) Array.Print("[1]:", *E[1]) Array.Print("[2]:", *E[2]) Array.Print("[3]:", *E[3]) else: E = Array.Zero(N, 16) Blit(lambda a, b: ((a >> 1) & m3) | (b & ~m3), N / 2, 1, Channel(D, 1, 1), Channel(D, 0, 1), Channel(E, 0, 1)) Blit(lambda a, b: ((a << 1) & ~m3) | (b & m3), N / 2, 1, Channel(D, 0, 1), Channel(D, 1, 1), Channel(E, 1, 1)) Array.Print("Swap 1x1:", *E)