# Copyright (c) ONNX Project Contributors # # SPDX-License-Identifier: Apache-2.0 from __future__ import annotations from typing import Any import numpy as np import onnx from onnx.backend.test.case.base import Base from onnx.backend.test.case.node import expect class RNNHelper: def __init__(self, **params: Any) -> None: # RNN Input Names X = "X" W = "W" R = "R" B = "B" H_0 = "initial_h" LAYOUT = "layout" required_inputs = [X, W, R] for i in required_inputs: assert i in params, f"Missing Required Input: {i}" self.num_directions = params[str(W)].shape[0] if self.num_directions == 1: for k, v in params.items(): if k != X: params[k] = np.squeeze(v, axis=0) hidden_size = params[R].shape[-1] batch_size = params[X].shape[1] layout = params.get(LAYOUT, 0) x = params[X] x = x if layout == 0 else np.swapaxes(x, 0, 1) b = ( params[B] if B in params else np.zeros(2 * hidden_size, dtype=np.float32) ) h_0 = ( params[H_0] if H_0 in params else np.zeros((batch_size, hidden_size), dtype=np.float32) ) self.X = x self.W = params[W] self.R = params[R] self.B = b self.H_0 = h_0 self.LAYOUT = layout else: raise NotImplementedError() def f(self, x: np.ndarray) -> np.ndarray: return np.tanh(x) def step(self) -> tuple[np.ndarray, np.ndarray]: seq_length = self.X.shape[0] hidden_size = self.H_0.shape[-1] batch_size = self.X.shape[1] Y = np.empty([seq_length, self.num_directions, batch_size, hidden_size]) h_list = [] H_t = self.H_0 for x in np.split(self.X, self.X.shape[0], axis=0): H = self.f( np.dot(x, np.transpose(self.W)) + np.dot(H_t, np.transpose(self.R)) + np.add(*np.split(self.B, 2)) ) h_list.append(H) H_t = H concatenated = np.concatenate(h_list) if self.num_directions == 1: Y[:, 0, :, :] = concatenated if self.LAYOUT == 0: Y_h = Y[-1] else: Y = np.transpose(Y, [2, 0, 1, 3]) Y_h = Y[:, :, -1, :] return Y, Y_h class RNN(Base): @staticmethod def export_defaults() -> None: input = np.array([[[1.0, 2.0], [3.0, 4.0], [5.0, 6.0]]]).astype(np.float32) input_size = 2 hidden_size = 4 weight_scale = 0.1 node = onnx.helper.make_node( "RNN", inputs=["X", "W", "R"], outputs=["", "Y_h"], hidden_size=hidden_size ) W = weight_scale * np.ones((1, hidden_size, input_size)).astype(np.float32) R = weight_scale * np.ones((1, hidden_size, hidden_size)).astype(np.float32) rnn = RNNHelper(X=input, W=W, R=R) _, Y_h = rnn.step() expect( node, inputs=[input, W, R], outputs=[Y_h.astype(np.float32)], name="test_simple_rnn_defaults", ) @staticmethod def export_initial_bias() -> None: input = np.array([[[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]]]).astype( np.float32 ) input_size = 3 hidden_size = 5 custom_bias = 0.1 weight_scale = 0.1 node = onnx.helper.make_node( "RNN", inputs=["X", "W", "R", "B"], outputs=["", "Y_h"], hidden_size=hidden_size, ) W = weight_scale * np.ones((1, hidden_size, input_size)).astype(np.float32) R = weight_scale * np.ones((1, hidden_size, hidden_size)).astype(np.float32) # Adding custom bias W_B = custom_bias * np.ones((1, hidden_size)).astype(np.float32) R_B = np.zeros((1, hidden_size)).astype(np.float32) B = np.concatenate((W_B, R_B), axis=1) rnn = RNNHelper(X=input, W=W, R=R, B=B) _, Y_h = rnn.step() expect( node, inputs=[input, W, R, B], outputs=[Y_h.astype(np.float32)], name="test_simple_rnn_with_initial_bias", ) @staticmethod def export_seq_length() -> None: input = np.array( [ [[1.0, 2.0, 3.0], [4.0, 5.0, 6.0], [7.0, 8.0, 9.0]], [[10.0, 11.0, 12.0], [13.0, 14.0, 15.0], [16.0, 17.0, 18.0]], ] ).astype(np.float32) input_size = 3 hidden_size = 5 node = onnx.helper.make_node( "RNN", inputs=["X", "W", "R", "B"], outputs=["", "Y_h"], hidden_size=hidden_size, ) W = np.random.randn(1, hidden_size, input_size).astype(np.float32) R = np.random.randn(1, hidden_size, hidden_size).astype(np.float32) # Adding custom bias W_B = np.random.randn(1, hidden_size).astype(np.float32) R_B = np.random.randn(1, hidden_size).astype(np.float32) B = np.concatenate((W_B, R_B), axis=1) rnn = RNNHelper(X=input, W=W, R=R, B=B) _, Y_h = rnn.step() expect( node, inputs=[input, W, R, B], outputs=[Y_h.astype(np.float32)], name="test_rnn_seq_length", ) @staticmethod def export_batchwise() -> None: input = np.array([[[1.0, 2.0]], [[3.0, 4.0]], [[5.0, 6.0]]]).astype(np.float32) input_size = 2 hidden_size = 4 weight_scale = 0.5 layout = 1 node = onnx.helper.make_node( "RNN", inputs=["X", "W", "R"], outputs=["Y", "Y_h"], hidden_size=hidden_size, layout=layout, ) W = weight_scale * np.ones((1, hidden_size, input_size)).astype(np.float32) R = weight_scale * np.ones((1, hidden_size, hidden_size)).astype(np.float32) rnn = RNNHelper(X=input, W=W, R=R, layout=layout) Y, Y_h = rnn.step() expect( node, inputs=[input, W, R], outputs=[Y.astype(np.float32), Y_h.astype(np.float32)], name="test_simple_rnn_batchwise", )