From: Jacob Lifshay Date: Thu, 27 Apr 2023 02:27:58 +0000 (-0700) Subject: format remap_preduce_yield.py X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=66a491963725eec8cf86661ce4091282e9f05f2a;p=openpower-isa.git format remap_preduce_yield.py --- diff --git a/src/openpower/decoder/isa/remap_preduce_yield.py b/src/openpower/decoder/isa/remap_preduce_yield.py index a8093803..a22d040b 100644 --- a/src/openpower/decoder/isa/remap_preduce_yield.py +++ b/src/openpower/decoder/isa/remap_preduce_yield.py @@ -1,9 +1,10 @@ -# a "yield" version of the Parallel Reduction REMAP algorithm. +# a "yield" version of the Parallel Reduction REMAP algorithm. # the algorithm is in-place. it does not perform "MV" operations. # instead, where a masked-out value *should* be read from is tracked from copy import deepcopy import operator + # 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, pred=None): @@ -12,17 +13,19 @@ def iterate_indices(SVSHAPE, pred=None): # create lists of indices to iterate over in each dimension ix = list(range(xd)) # invert the indices if needed - if SVSHAPE.invxyz[0]: ix.reverse() + if SVSHAPE.invxyz[0]: + ix.reverse() # start a loop from the lowest step - step = 1 + step = 1 steps = [] while step < xd: step *= 2 steps.append(step) # invert the indices if needed - if SVSHAPE.invxyz[1]: steps.reverse() + if SVSHAPE.invxyz[1]: + steps.reverse() for step in steps: - stepend = (step == steps[-1]) # note end of steps + stepend = (step == steps[-1]) # note end of steps idxs = list(range(0, xd, step)) results = [] for i in idxs: @@ -31,17 +34,18 @@ def iterate_indices(SVSHAPE, pred=None): oi = ix[other] if other < xd else None other_pred = other < xd and (pred is None or pred[oi]) if (pred is None or pred[ci]) and other_pred: - if SVSHAPE.skip == 0b00: # submode 00 + if SVSHAPE.skip == 0b00: # submode 00 result = ci - elif SVSHAPE.skip == 0b01: # submode 01 + elif SVSHAPE.skip == 0b01: # submode 01 result = oi results.append([result + SVSHAPE.offset, 0]) elif other_pred: ix[i] = oi if results: - results[-1][1] = (stepend<<1) | 1 # notify end of loops + results[-1][1] = (stepend << 1) | 1 # notify end of loops yield from results + def demo(): # set the dimension sizes here xdim = 9 @@ -51,30 +55,29 @@ def demo(): pass SVSHAPE0 = SVSHAPE() SVSHAPE0.lims = [xdim, 0, 0] - SVSHAPE0.order = [0,1,2] + SVSHAPE0.order = [0, 1, 2] SVSHAPE0.mode = 0b10 SVSHAPE0.skip = 0b00 SVSHAPE0.offset = 0 # experiment with different offset, here - SVSHAPE0.invxyz = [0,0,0] # inversion if desired + SVSHAPE0.invxyz = [0, 0, 0] # inversion if desired SVSHAPE1 = SVSHAPE() SVSHAPE1.lims = [xdim, 0, 0] - SVSHAPE1.order = [0,1,2] + SVSHAPE1.order = [0, 1, 2] SVSHAPE1.mode = 0b10 SVSHAPE1.skip = 0b01 SVSHAPE1.offset = 0 # experiment with different offset, here - SVSHAPE1.invxyz = [0,0,0] # inversion if desired + SVSHAPE1.invxyz = [0, 0, 0] # inversion if desired # enumerate over the iterator function, getting new indices - shapes = list(iterate_indices(SVSHAPE0)), \ - list(iterate_indices(SVSHAPE1)) + shapes = list(iterate_indices(SVSHAPE0)), list(iterate_indices(SVSHAPE1)) for idx in range(len(shapes[0])): l = shapes[0][idx] r = shapes[1][idx] (l_idx, lend) = l (r_idx, rend) = r - print ("%d->%d:%d" % (idx, l_idx, r_idx), - "end", bin(lend)[2:], bin(rend)[2:]) + print("%d->%d:%d" % (idx, l_idx, r_idx), + "end", bin(lend)[2:], bin(rend)[2:]) def preduce_y(vec, pred=None, operation=None): @@ -84,27 +87,27 @@ def preduce_y(vec, pred=None, operation=None): res = deepcopy(vec) xdim = len(vec) # set up an SVSHAPE + class SVSHAPE: pass SVSHAPE0 = SVSHAPE() SVSHAPE0.lims = [xdim, 0, 0] - SVSHAPE0.order = [0,1,2] + SVSHAPE0.order = [0, 1, 2] SVSHAPE0.mode = 0b10 SVSHAPE0.skip = 0b00 SVSHAPE0.offset = 0 # experiment with different offset, here - SVSHAPE0.invxyz = [0,0,0] # inversion if desired + SVSHAPE0.invxyz = [0, 0, 0] # inversion if desired SVSHAPE1 = SVSHAPE() SVSHAPE1.lims = [xdim, 0, 0] - SVSHAPE1.order = [0,1,2] + SVSHAPE1.order = [0, 1, 2] SVSHAPE1.mode = 0b10 SVSHAPE1.skip = 0b01 SVSHAPE1.offset = 0 # experiment with different offset, here - SVSHAPE1.invxyz = [0,0,0] # inversion if desired + SVSHAPE1.invxyz = [0, 0, 0] # inversion if desired # enumerate over the iterator function, getting new indices - shapes = list(iterate_indices(SVSHAPE0)), \ - list(iterate_indices(SVSHAPE1)) + shapes = list(iterate_indices(SVSHAPE0)), list(iterate_indices(SVSHAPE1)) for idx in range(len(shapes[0])): l = shapes[0][idx] r = shapes[1][idx] @@ -113,10 +116,11 @@ def preduce_y(vec, pred=None, operation=None): res[l_idx] = operation(res[l_idx], res[r_idx]) return res + # run the demo if __name__ == '__main__': demo() vec = [1, 2, 3, 4, 9, 5, 6] res = preduce_y(vec) - print (vec) - print (res) + print(vec) + print(res)