# python "yield" can be iterated. use this to make it clear how
# the indices are generated by using natural-looking nested loops
-def iterate_indices(SVSHAPE):
+def iterate_indices(SVSHAPE, VL=None):
# establish if this is triangular mode
- triangle = SVSHAPE.mode == 0b11 and SVSHAPE.submode == 0b00
+ triangle = SVSHAPE.mode == 0b11 and SVSHAPE.submode & 0b10 == 0b10
+ bigmul = SVSHAPE.mode == 0b11 and SVSHAPE.submode & 0b01 == 0b01
+ in_offs = VL is not None and SVSHAPE.mode == 0b11
+
# get indices to iterate over, in the required order
xd = SVSHAPE.lims[0]
yd = SVSHAPE.lims[1]
# "order" to say which ones get stacked on
result = 0
mult = 1
+ if in_offs:
+ if SVSHAPE.submode2 & 0b001 == 0b001: # cols
+ ix, ddbg = yi, "x"
+ else:
+ ix, ddbg = xi, "y"
+
for i in range(3):
lim, idx, dbg = vals[i]
# some of the dimensions can be "skipped". the order
# was actually selected above on all 3 dimensions,
# e.g. [z][x][y] or [y][z][x]. "skip" allows one of
# those to be knocked out
- #print ("select %d %s" % (i, dbg))
- if SVSHAPE.mode == 0b00: # Matrix Mode
+ #print ("select %d %s idx %d" % (i, dbg, idx), VL,
+ # xi, yi, zi)
+ # modulo+offset?
+ if in_offs and dbg == ddbg:
+ ni = (idx + ix*SVSHAPE.offset) % lim
+ #print ("mod", idx, ni, yi, SVSHAPE.offset, lim)
+ idx = ni
+
+ if not bigmul: # Matrix Mode
if SVSHAPE.skip == i+1: continue
idx *= mult # shifts up by previous dimension(s)
result += idx # adds on this dimension
- if SVSHAPE.mode == 0b00: # Matrix Mode
+ if not bigmul: # Matrix Mode
mult *= lim # for the next dimension
loopends = (x_end |
if hasattr(SVSHAPE, "postprocess"): # for Indexed mode
result = SVSHAPE.postprocess(result, step)
- yield result + SVSHAPE.offset, loopends
+ if not in_offs:
+ result += SVSHAPE.offset
+ yield result, loopends
step += 1
-def dump_shape(SVSHAPE0):
+
+def dump_shape(SVSHAPE, VL=None):
# enumerate over the iterator function, getting new indices
- for idx, (new_idx, end) in enumerate(iterate_indices(SVSHAPE0)):
+ for idx, (new_idx, end) in enumerate(iterate_indices(SVSHAPE, VL=VL)):
estring = bin(end)[2:] if end else ''
print ("%2d->%-2d" % (idx, new_idx), "%2s" % estring, end=' ')
if end == 0b111:
print()
break
- triangle = SVSHAPE0.mode == 0b11 and SVSHAPE0.submode == 0b00
+ triangle = SVSHAPE.mode == 0b11 and SVSHAPE.submode & 0b10 == 0b10
if triangle:
- if SVSHAPE0.lims[0] == 1: end &= ~0b001
+ if SVSHAPE.lims[0] == 1: end &= ~0b001
if triangle:
- if SVSHAPE0.lims[1] == 1: end &= ~0b010
+ if SVSHAPE.lims[1] == 1: end &= ~0b010
if end != 0:
print()
SVSHAPE0.order = [1,0,2] # experiment with different permutations, here
SVSHAPE0.mode = 0b00
SVSHAPE0.skip = 0b00
+ SVSHAPE0.submode2 = 0b000 #
SVSHAPE0.offset = 0 # experiment with different offset, here
SVSHAPE0.invxyz = [0,0,0] # inversion if desired
SVSHAPE0.order = [0,1,2] # experiment with different permutations, here
SVSHAPE0.mode = 0b11
SVSHAPE0.submode = 0b01 # rhombus mode
+ SVSHAPE0.submode2 = 0b000 #
+ SVSHAPE0.skip = 0b00
SVSHAPE0.offset = 0 # experiment with different offset, here
SVSHAPE0.invxyz = [0,0,0] # inversion if desired
# triangle
print("\ntriangle", xdim, ydim, zdim)
- xdim, ydim, zdim = 1, 5, 5 # set the dimension sizes here
+ xdim, ydim, zdim = 1, 3, 5 # set the dimension sizes here
SVSHAPE0 = SVSHAPE()
SVSHAPE0.lims = [xdim, ydim, zdim]
SVSHAPE0.order = [0,1,2] # experiment with different permutations, here
SVSHAPE0.mode = 0b11
- SVSHAPE0.submode = 0b00 # triangle mode
+ SVSHAPE0.submode = 0b10 # triangle mode
+ SVSHAPE0.submode2 = 0b000 #
+ SVSHAPE0.skip = 0b00
+ SVSHAPE0.offset = 0 # experiment with different offset, here
+ SVSHAPE0.invxyz = [0,0,0] # inversion if desired
+
+ # triangle
+ print("\ntriangle-bigmul", xdim, ydim, zdim)
+ xdim, ydim, zdim = 1, 3, 5 # set the dimension sizes here
+ SVSHAPE0 = SVSHAPE()
+ SVSHAPE0.lims = [xdim, ydim, zdim]
+ SVSHAPE0.order = [0,1,2] # experiment with different permutations, here
+ SVSHAPE0.mode = 0b11
+ SVSHAPE0.submode = 0b11 # triangle mode, with sum
+ SVSHAPE0.submode2 = 0b000 #
+ SVSHAPE0.skip = 0b00
SVSHAPE0.offset = 0 # experiment with different offset, here
SVSHAPE0.invxyz = [0,0,0] # inversion if desired
dump_shape(SVSHAPE0)
+ VL = 12 # modulo
+
+ # matrix modulo
+ xdim, ydim, zdim = 4, 4, 1 # set the dimension sizes here
+ print("\nmatrix modulo(%d)" % VL, xdim, ydim, zdim)
+ SVSHAPE0 = SVSHAPE()
+ SVSHAPE0.lims = [xdim, ydim, zdim]
+ SVSHAPE0.order = [0,1,2] # experiment with different permutations, here
+ SVSHAPE0.mode = 0b11
+ SVSHAPE0.submode = 0b00 #
+ SVSHAPE0.skip = 0b00
+ SVSHAPE0.submode2 = 0b000 # cols or rows modulo
+ SVSHAPE0.offset = 1 # experiment with different offset, here
+ SVSHAPE0.invxyz = [0,0,0] # inversion if desired
+
+ dump_shape(SVSHAPE0, VL=VL)
+
+
# run the demo
if __name__ == '__main__':
demo()
projects / openpower-isa.git / commitdiff