openpilot_comma/tinygrad_repo/tinygrad/codegen/simplify.py

from tinygrad.uop.ops import UOp, PatternMatcher, UPat, Ops, graph_rewrite, _substitute, range_start
from tinygrad.uop.symbolic import symbolic_flat, sym
from tinygrad.helpers import partition
from tinygrad.dtype import dtypes

def flatten_range(r:UOp):
  off = range_start[r.op]
  rngs = r.src[off:]
  if not len(rngs): return None
  new_rngs = [x for x in UOp.sink(*rngs).toposort() if x.op is Ops.RANGE]
  return r.replace(src=r.src[:off]+tuple(new_rngs))

pm_flatten_range = PatternMatcher([
  # real ranges only
  (UPat((Ops.REDUCE, Ops.STORE), name="r"), flatten_range),
])

def count_divmod(x:UOp): return len([u for u in x.toposort() if u.op in {Ops.IDIV, Ops.MOD}])
def simplify_merge_adjacent(u:UOp) -> UOp|None:
  i = range_start[u.op]
  while i < len(u.src)-1:
    r0, r1 = u.src[i], u.src[i+1]
    # check same type
    if r0.arg[-1] == r1.arg[-1]:
      s0, s1 = r0.src[0], r1.src[0]
      # do the merge
      new_range = r0.replace(src=(s0*s1,))
      nidx = graph_rewrite(u, _substitute+symbolic_flat+pm_flatten_range, ctx={r0:new_range//s1, r1:new_range%s1},
                           name=f"check_merge_{r0.arg[0]}_{r1.arg[0]}")
      # check if it simplifies
      if count_divmod(nidx) <= count_divmod(u):
        u = nidx
        continue
    i += 1
  return u

pm_simplify_ranges = PatternMatcher([
  (UPat((Ops.STORE, Ops.REDUCE), name="u"), simplify_merge_adjacent),
])

# **** reduce simplification ****

def reduce_rangeless(red:UOp):
  # TODO: share code with reduce_unparented
  if red.arg not in {Ops.ADD, Ops.MAX}: return None
  if red.src[0].dtype != red.dtype: return None
  if any(x.op in {Ops.RANGE} for x in red.src[0].toposort()): return None
  ret = red.src[0]
  if red.arg is Ops.ADD:
    for r in red.src[1:]:
      ret = ret * r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)
  return ret

def no_range(u:UOp) -> bool: return not any(x.op is Ops.RANGE for x in u.sparents)

pm_reduce_collapse = PatternMatcher([
  # lift x+y out of reduce on lt
  ((UPat.var("x")+UPat.var("y")).or_casted() < UPat.var("c"), lambda x,y,c: (x < (c.cast(y.dtype)-y)) if no_range(y) and no_range(c) else None),
  # lift x*y out of reduce
  ((UPat.var("x")*UPat.var("y")) < UPat.var("c"),
   lambda x,y,c: (x < ((c+y-1) // y)) if no_range(y) and no_range(c) and y.vmin > 0 else None),
  # lift x+y out of reduce on ne
  ((UPat.var("x")+UPat.var("y")).or_casted() != UPat.var("c"), lambda x,y,c: (x != (c.cast(y.dtype)-y)) if no_range(y) and no_range(c) else None),
  # fold the range
  ((UPat(Ops.RANGE, name="r") < UPat.var("cut")).where(0, UPat.cvar("val")).reduce(arg=Ops.ADD, allow_any_len=True),
   lambda r,cut,val: (r.src[0]-cut).maximum(0).minimum(r.src[0]).cast(val.dtype) * val),
  ((UPat(Ops.RANGE, name="r") < UPat.var("cut")).where(UPat.cvar("val"), 0).reduce(arg=Ops.ADD, allow_any_len=True),
   lambda r,cut,val: cut.maximum(0).minimum(r.src[0]).cast(val.dtype) * val),
  # REDUCE on ADD
  ((UPat.var("x")+UPat.var("y")).reduce(arg=Ops.ADD, allow_any_len=True, name="r"),
   lambda x,y,r: x.reduce(*r.src[1:], arg=Ops.ADD) + y.reduce(*r.src[1:],arg=Ops.ADD)),
  # MUL casted bool
  ((UPat.var("x") * UPat.var("gate", dtype=dtypes.bool).cast().or_broadcasted(name="b")),
   lambda x,gate,b=None: gate.broadcast(x.dtype.count).where(x, 0) if b is not None else gate.where(x, 0)),
  # WHERE on LOAD (works on max too)
  (UPat.var("gate").where(UPat(Ops.INDEX, src=(UPat.var("buf"), UPat.var("idx"))).load(), 0).reduce(arg=Ops.ADD, allow_any_len=True),
   lambda buf,idx,gate: buf.index(idx, gate).load()),
  (UPat.var("gate").where(0, UPat(Ops.INDEX, src=(UPat.var("buf"), UPat.var("idx"))).load()).reduce(arg=Ops.ADD, allow_any_len=True),
   lambda buf,idx,gate: buf.index(idx, gate.logical_not()).load()),
  # INDEX on RANGE / gated RANGE
  (UPat.var("buf").index(UPat.var("expr"), UPat.var("idx").eq(UPat(Ops.RANGE, name="r").or_casted())),
   lambda buf,r,idx,expr: buf.index(expr.substitute({r:idx.cast(r.dtype)}), (idx.cast(r.dtype) >= 0) & (idx.cast(r.dtype) < r.src[0]))),
  # AND on WHERE
  ((UPat.any(UPat(Ops.DEFINE_VAR, name="x"), UPat(Ops.DEFINE_VAR).gep(name="x")) & UPat.var("y")) \
   .where(UPat.cvar("c"), 0).reduce(arg=Ops.ADD, allow_any_len=True, name="r"),
    lambda x,y,c,r: y.where(c, 0).reduce(*r.src[1:], arg=Ops.ADD)*x.cast(c.dtype)),
  # remove REDUCEs that no longer have a RANGE in the src
  (UPat(Ops.REDUCE, name="red"), reduce_rangeless),
])+sym

def reduce_collapse(red:UOp):
  included, not_included = partition(red.parents, lambda x: any(y in x.sparents for y in red.src[1:]))
  if any(x.op in {Ops.STORE, Ops.REDUCE} for x in included): return None
  replaces: dict[UOp, UOp] = {}
  for u in included:
    for s in u.src:
      if s in not_included and s not in replaces and s.op not in {Ops.CONST, Ops.VCONST, Ops.DEFINE_GLOBAL, Ops.DEFINE_LOCAL, Ops.DEFINE_VAR}:
        replaces[s] = UOp(Ops.DEFINE_VAR, dtype=s.dtype, arg=(f'in{len(replaces)}', s.vmin, s.vmax))
  collapse_fxn = red.substitute(replaces)
  sink = graph_rewrite(collapse_fxn, pm_reduce_collapse, name="reduce_collapse")
  if any(x.op is Ops.RANGE for x in sink.toposort()): return None
  return sink.substitute({v:k for k,v in replaces.items()})

def reduce_unparented(red:UOp):
  if red.arg not in {Ops.ADD, Ops.MAX, Ops.MUL}: return None
  reduce_parented, reduce_unparented = partition(red.src[1:], lambda x: x in red.src[0].sparents)
  if len(reduce_unparented) == 0: return None
  ret = red.replace(src=(red.src[0],)+tuple(reduce_parented)) if len(reduce_parented) or red.dtype != red.src[0].dtype else red.src[0]
  if red.arg is Ops.ADD:
    for r in reduce_unparented: ret = ret * r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)
  if red.arg is Ops.MUL:
    for r in reduce_unparented: ret = ret ** r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)
  return ret

pm_reduce_simplify = PatternMatcher([
  # remove any ranges from a REDUCE that aren't referenced in the reduce source
  (UPat(Ops.REDUCE, name="red"), reduce_unparented),
  # remove REDUCE without loads (generic arange opt / indexing). TODO: support multi range
  (UPat(Ops.REDUCE, src=(UPat(), UPat()), name="red"), reduce_collapse),
])
openpilot v0.10.1 2 days ago			`from tinygrad.uop.ops import UOp, PatternMatcher, UPat, Ops, graph_rewrite, _substitute, range_start`
			`from tinygrad.uop.symbolic import symbolic_flat, sym`
			`from tinygrad.helpers import partition`
			`from tinygrad.dtype import dtypes`

			`def flatten_range(r:UOp):`
			`off = range_start[r.op]`
			`rngs = r.src[off:]`
			`if not len(rngs): return None`
			`new_rngs = [x for x in UOp.sink(*rngs).toposort() if x.op is Ops.RANGE]`
			`return r.replace(src=r.src[:off]+tuple(new_rngs))`

			`pm_flatten_range = PatternMatcher([`
			`# real ranges only`
			`(UPat((Ops.REDUCE, Ops.STORE), name="r"), flatten_range),`
			`])`

			`def count_divmod(x:UOp): return len([u for u in x.toposort() if u.op in {Ops.IDIV, Ops.MOD}])`
			`def simplify_merge_adjacent(u:UOp) -> UOp\|None:`
			`i = range_start[u.op]`
			`while i < len(u.src)-1:`
			`r0, r1 = u.src[i], u.src[i+1]`
			`# check same type`
			`if r0.arg[-1] == r1.arg[-1]:`
			`s0, s1 = r0.src[0], r1.src[0]`
			`# do the merge`
			`new_range = r0.replace(src=(s0*s1,))`
			`nidx = graph_rewrite(u, _substitute+symbolic_flat+pm_flatten_range, ctx={r0:new_range//s1, r1:new_range%s1},`
			`name=f"check_merge_{r0.arg[0]}_{r1.arg[0]}")`
			`# check if it simplifies`
			`if count_divmod(nidx) <= count_divmod(u):`
			`u = nidx`
			`continue`
			`i += 1`
			`return u`

			`pm_simplify_ranges = PatternMatcher([`
			`(UPat((Ops.STORE, Ops.REDUCE), name="u"), simplify_merge_adjacent),`
			`])`

			`# ** reduce simplification **`

			`def reduce_rangeless(red:UOp):`
			`# TODO: share code with reduce_unparented`
			`if red.arg not in {Ops.ADD, Ops.MAX}: return None`
			`if red.src[0].dtype != red.dtype: return None`
			`if any(x.op in {Ops.RANGE} for x in red.src[0].toposort()): return None`
			`ret = red.src[0]`
			`if red.arg is Ops.ADD:`
			`for r in red.src[1:]:`
			`ret = ret * r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)`
			`return ret`

			`def no_range(u:UOp) -> bool: return not any(x.op is Ops.RANGE for x in u.sparents)`

			`pm_reduce_collapse = PatternMatcher([`
			`# lift x+y out of reduce on lt`
			`((UPat.var("x")+UPat.var("y")).or_casted() < UPat.var("c"), lambda x,y,c: (x < (c.cast(y.dtype)-y)) if no_range(y) and no_range(c) else None),`
			`# lift x*y out of reduce`
			`((UPat.var("x")*UPat.var("y")) < UPat.var("c"),`
			`lambda x,y,c: (x < ((c+y-1) // y)) if no_range(y) and no_range(c) and y.vmin > 0 else None),`
			`# lift x+y out of reduce on ne`
			`((UPat.var("x")+UPat.var("y")).or_casted() != UPat.var("c"), lambda x,y,c: (x != (c.cast(y.dtype)-y)) if no_range(y) and no_range(c) else None),`
			`# fold the range`
			`((UPat(Ops.RANGE, name="r") < UPat.var("cut")).where(0, UPat.cvar("val")).reduce(arg=Ops.ADD, allow_any_len=True),`
			`lambda r,cut,val: (r.src[0]-cut).maximum(0).minimum(r.src[0]).cast(val.dtype) * val),`
			`((UPat(Ops.RANGE, name="r") < UPat.var("cut")).where(UPat.cvar("val"), 0).reduce(arg=Ops.ADD, allow_any_len=True),`
			`lambda r,cut,val: cut.maximum(0).minimum(r.src[0]).cast(val.dtype) * val),`
			`# REDUCE on ADD`
			`((UPat.var("x")+UPat.var("y")).reduce(arg=Ops.ADD, allow_any_len=True, name="r"),`
			`lambda x,y,r: x.reduce(r.src[1:], arg=Ops.ADD) + y.reduce(r.src[1:],arg=Ops.ADD)),`
			`# MUL casted bool`
			`((UPat.var("x") * UPat.var("gate", dtype=dtypes.bool).cast().or_broadcasted(name="b")),`
			`lambda x,gate,b=None: gate.broadcast(x.dtype.count).where(x, 0) if b is not None else gate.where(x, 0)),`
			`# WHERE on LOAD (works on max too)`
			`(UPat.var("gate").where(UPat(Ops.INDEX, src=(UPat.var("buf"), UPat.var("idx"))).load(), 0).reduce(arg=Ops.ADD, allow_any_len=True),`
			`lambda buf,idx,gate: buf.index(idx, gate).load()),`
			`(UPat.var("gate").where(0, UPat(Ops.INDEX, src=(UPat.var("buf"), UPat.var("idx"))).load()).reduce(arg=Ops.ADD, allow_any_len=True),`
			`lambda buf,idx,gate: buf.index(idx, gate.logical_not()).load()),`
			`# INDEX on RANGE / gated RANGE`
			`(UPat.var("buf").index(UPat.var("expr"), UPat.var("idx").eq(UPat(Ops.RANGE, name="r").or_casted())),`
			`lambda buf,r,idx,expr: buf.index(expr.substitute({r:idx.cast(r.dtype)}), (idx.cast(r.dtype) >= 0) & (idx.cast(r.dtype) < r.src[0]))),`
			`# AND on WHERE`
			`((UPat.any(UPat(Ops.DEFINE_VAR, name="x"), UPat(Ops.DEFINE_VAR).gep(name="x")) & UPat.var("y")) \`
			`.where(UPat.cvar("c"), 0).reduce(arg=Ops.ADD, allow_any_len=True, name="r"),`
			`lambda x,y,c,r: y.where(c, 0).reduce(r.src[1:], arg=Ops.ADD)x.cast(c.dtype)),`
			`# remove REDUCEs that no longer have a RANGE in the src`
			`(UPat(Ops.REDUCE, name="red"), reduce_rangeless),`
			`])+sym`

			`def reduce_collapse(red:UOp):`
			`included, not_included = partition(red.parents, lambda x: any(y in x.sparents for y in red.src[1:]))`
			`if any(x.op in {Ops.STORE, Ops.REDUCE} for x in included): return None`
			`replaces: dict[UOp, UOp] = {}`
			`for u in included:`
			`for s in u.src:`
			`if s in not_included and s not in replaces and s.op not in {Ops.CONST, Ops.VCONST, Ops.DEFINE_GLOBAL, Ops.DEFINE_LOCAL, Ops.DEFINE_VAR}:`
			`replaces[s] = UOp(Ops.DEFINE_VAR, dtype=s.dtype, arg=(f'in{len(replaces)}', s.vmin, s.vmax))`
			`collapse_fxn = red.substitute(replaces)`
			`sink = graph_rewrite(collapse_fxn, pm_reduce_collapse, name="reduce_collapse")`
			`if any(x.op is Ops.RANGE for x in sink.toposort()): return None`
			`return sink.substitute({v:k for k,v in replaces.items()})`

			`def reduce_unparented(red:UOp):`
			`if red.arg not in {Ops.ADD, Ops.MAX, Ops.MUL}: return None`
			`reduce_parented, reduce_unparented = partition(red.src[1:], lambda x: x in red.src[0].sparents)`
			`if len(reduce_unparented) == 0: return None`
			`ret = red.replace(src=(red.src[0],)+tuple(reduce_parented)) if len(reduce_parented) or red.dtype != red.src[0].dtype else red.src[0]`
			`if red.arg is Ops.ADD:`
			`for r in reduce_unparented: ret = ret * r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)`
			`if red.arg is Ops.MUL:`
			`for r in reduce_unparented: ret = ret ** r.src[0].cast(ret.dtype.scalar()).broadcast(ret.dtype.count)`
			`return ret`

			`pm_reduce_simplify = PatternMatcher([`
			`# remove any ranges from a REDUCE that aren't referenced in the reduce source`
			`(UPat(Ops.REDUCE, name="red"), reduce_unparented),`
			`# remove REDUCE without loads (generic arange opt / indexing). TODO: support multi range`
			`(UPat(Ops.REDUCE, src=(UPat(), UPat()), name="red"), reduce_collapse),`
			`])`