# mypy: allow-untyped-defs from abc import ABC from typing import Callable, Optional import torch from torch.ao.quantization.backend_config import ( BackendConfig, DTypeConfig, ObservationType, ) from torch.ao.quantization.utils import NodePattern, Pattern, QuantizerCls from torch.fx.graph import Node from .utils import all_node_args_have_no_tensors __all__ = [ "QuantizeHandler", "BinaryOpQuantizeHandler", "CatQuantizeHandler", "ConvReluQuantizeHandler", "LinearReLUQuantizeHandler", "BatchNormQuantizeHandler", "EmbeddingQuantizeHandler", "RNNDynamicQuantizeHandler", "DefaultNodeQuantizeHandler", "FixedQParamsOpQuantizeHandler", "CopyNodeQuantizeHandler", "GeneralTensorShapeOpQuantizeHandler", "CustomModuleQuantizeHandler", "StandaloneModuleQuantizeHandler", ] def _default_root_node_getter(node_pattern): if node_pattern is None: return node_pattern while not isinstance(node_pattern, Node): node_pattern = node_pattern[-1] return node_pattern # Base Pattern Handler class QuantizeHandler(ABC): # noqa: B024 """Base handler class for the quantizer patterns""" def __init__( self, node_pattern: NodePattern, modules: dict[str, torch.nn.Module], root_node_getter: Optional[Callable] = None, is_custom_module=False, is_standalone_module=False, ): """Records pattern information in __init__, which will be used in convert """ self.node_pattern = node_pattern self.modules = modules if root_node_getter is None: root_node_getter = _default_root_node_getter self.root_node = root_node_getter(node_pattern) self.is_custom_module_ = is_custom_module self.is_standalone_module_ = is_standalone_module self.num_tensor_args = 0 # determine how many of the first two args are Tensors (versus scalars) # this distinguishes things like "x + y" from "x + 2" or "2 + x" if isinstance(self.root_node, Node): cache_for_no_tensor_check: dict[Node, bool] = {} for arg_idx in range(len(self.root_node.args)): arg = self.root_node.args[arg_idx] if isinstance(arg, Node) and ( not all_node_args_have_no_tensors( arg, self.modules, cache_for_no_tensor_check ) ): self.num_tensor_args += 1 def is_general_tensor_value_op(self) -> bool: """ Returns True if the operator works for both floating point and quantized input, and does some computation based on the input Tensor, or the ops that only re-arranges the Tensor values or query some metadata about the Tensor so we need to insert observer/fake_quant for the output of the operator (same observer instance as input) since the distribution of values is different for input and output Tensors (for HistogramObserver) while they share the same quantization parameters Example operator: avgpool2d, reshape, transpose, maxpool2d Example observed operator: observer_0 - avgpool2d - observer_0 (same observer instance as input) """ return False def is_custom_module(self): return self.is_custom_module_ def is_standalone_module(self): return self.is_standalone_module_ def _get_quantize_handler_cls( observation_type: ObservationType, dtype_configs: list[DTypeConfig], num_tensor_args_to_observation_type: dict[int, ObservationType], ) -> type[QuantizeHandler]: """ Return a configurable QuantizeHandler that matches the given specifications from the backend. """ class ConfigurableQuantizeHandler(QuantizeHandler): def __init__( self, node_pattern: NodePattern, modules: dict[str, torch.nn.Module], root_node_getter: Optional[Callable] = None, ): super().__init__(node_pattern, modules, root_node_getter) if num_tensor_args_to_observation_type: assert self.num_tensor_args in num_tensor_args_to_observation_type, ( f"Must provide observation_type config for tensor number {self.num_tensor_args}" f" in num_tensor_args_to_observation_type for {node_pattern}" ) self.observation_type = num_tensor_args_to_observation_type[ self.num_tensor_args ] else: self.observation_type = observation_type self.dtype_configs = dtype_configs def is_general_tensor_value_op(self) -> bool: return ( self.observation_type == ObservationType.OUTPUT_SHARE_OBSERVER_WITH_INPUT ) return ConfigurableQuantizeHandler def _get_pattern_to_quantize_handlers( backend_config: BackendConfig, ) -> dict[Pattern, QuantizerCls]: """ Note: Quantize handler is just a holder for some check methods like (should_insert_observer_for_output), maybe this can be a enum as well, we can refactor this after we convert the path for fbgemm/qnnpack fully to the new path, this is not exposed to backend developers """ pattern_to_quantize_handlers = {} for pattern, config in backend_config._pattern_complex_format_to_config.items(): observation_type = config.observation_type dtype_configs = config.dtype_configs num_tensor_args_to_observation_type = ( config._num_tensor_args_to_observation_type ) pattern_to_quantize_handlers[pattern] = _get_quantize_handler_cls( observation_type, dtype_configs, num_tensor_args_to_observation_type ) return pattern_to_quantize_handlers # TODO: remove this class, this is still exposed in torch.ao.quantization # but we should be able to break bc class BinaryOpQuantizeHandler(QuantizeHandler): pass class CatQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class ConvReluQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class LinearReLUQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class BatchNormQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class EmbeddingQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class RNNDynamicQuantizeHandler(QuantizeHandler): pass # TODO: remove this class class DefaultNodeQuantizeHandler(QuantizeHandler): """Common quantized op, first input and first output will be quantized""" # TODO: remove this class class FixedQParamsOpQuantizeHandler(QuantizeHandler): pass # TODO: remove class CopyNodeQuantizeHandler(QuantizeHandler): pass # TODO: remove class GeneralTensorShapeOpQuantizeHandler(QuantizeHandler): pass # TODO: not used, can be removed after torch.ao.quantization namespace is deprecated class CustomModuleQuantizeHandler(QuantizeHandler): pass # TODO: not used, can be removed after torch.ao.quantization namespace is deprecated class StandaloneModuleQuantizeHandler(QuantizeHandler): pass