# mypy: ignore-errors from typing import Callable import torch import torch.fx as fx from torch.utils import _pytree as pytree from torch.utils._pytree import tree_flatten aten = torch.ops.aten def get_aten_target(node: fx.Node) -> Callable: if hasattr(node.target, "overloadpacket"): return node.target.overloadpacket return node.target rand_ops = [ aten.dropout, aten._fused_dropout, aten._standard_gamma, aten.bernoulli, aten.multinomial, aten.native_dropout, aten.normal, aten.poisson, aten.binomial, aten.rrelu, aten.rand_like, aten.rand, aten.randint, aten.randn, aten.randperm, ] # return a new copy of torch.fx.graph.Graph with CSE applied to the input graph def fx_graph_cse(fx_g: torch.fx.graph.Graph): new_graph = fx.Graph() env = {} # map from node in the old graph to node in the new graph hash_env = {} # map from hash to a node in the new graph token_map = {} # map from hash to token for n in fx_g.nodes: # The placeholder, output, and get_attr nodes are copied to the new graph without change # do not CSE away random operations if ( n.op == "placeholder" or n.op == "output" or n.op == "get_attr" or get_aten_target(n) in rand_ops ): new_node = new_graph.node_copy(n, lambda x: env[x]) env[n] = new_node else: # n.op == 'call_function', should never see n.op == 'call_module' or 'call_method' # substitute args and kwargs members to their mapping in env if exists # specs can be used to reconstruct nested list/dictionaries def substitute(arg_list): arg_list, spec = tree_flatten(arg_list) for i in range(len(arg_list)): v = arg_list[i] if isinstance(v, torch.fx.node.Node) and v in env: arg_list[i] = env[v] if isinstance(v, (torch.SymBool, torch.SymInt, torch.SymFloat)): arg_list[i] = v.node return tuple(arg_list), spec args, args_spec = substitute(n.args) kwargs, kwargs_spec = substitute(n.kwargs) # each token corresponds to a unique node # nodes with the same token can be substituted token = { "target": n.target, "args": args, "args_spec": args_spec, "kwargs": kwargs, "kwargs_spec": kwargs_spec, } # hash substituted args to a number, do not hash specs because specs are not hashable # We need to add type into hash to avoid situations like: # hash((primals_2, 1.0)) == hash((primals_2, 1)) hash_arg = hash( (tuple((a, type(a)) for a in args), tuple((a, type(a)) for a in kwargs)) ) hash_val = (n.target, hash_arg) # check if a node has a substitute and can be eliminated hash_val_in_hash_env = hash_val in hash_env if hash_val_in_hash_env and token_map[hash_val] == token: env[n] = hash_env[hash_val] continue new_node = new_graph.node_copy(n, lambda x: env[x]) env[n] = new_node if not hash_val_in_hash_env: hash_env[hash_val] = new_node token_map[hash_val] = token return new_graph def strip_overloads(gm): """ Modifies the target of graph nodes in :attr:`gm` to strip overloads. Args: gm(fx.GraphModule): The input Fx graph module to be modified """ for node in gm.graph.nodes: if isinstance(node.target, torch._ops.OpOverload): node.target = node.target.overloadpacket gm.recompile() def get_placeholders(graph): return graph.find_nodes(op="placeholder") def get_outputs(graph): for node in graph.find_nodes(op="output"): return pytree.tree_leaves(node.args[0]) raise AssertionError("No output node found")