#!/usr/bin/env python # Copyright 2025 The HuggingFace Inc. team. All rights reserved. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. """Tests for RTC ActionQueue module.""" import threading import time import pytest import torch from lerobot.policies.rtc.action_queue import ActionQueue from lerobot.policies.rtc.configuration_rtc import RTCConfig # ====================== Fixtures ====================== @pytest.fixture def rtc_config_enabled(): """Create an RTC config with RTC enabled.""" return RTCConfig(enabled=True, execution_horizon=10, max_guidance_weight=1.0) @pytest.fixture def rtc_config_disabled(): """Create an RTC config with RTC disabled.""" return RTCConfig(enabled=False, execution_horizon=10, max_guidance_weight=1.0) @pytest.fixture def sample_actions(): """Create sample action tensors for testing.""" return { "original": torch.randn(50, 6), # (time_steps, action_dim) "processed": torch.randn(50, 6), "short": torch.randn(10, 6), "longer": torch.randn(100, 6), } @pytest.fixture def action_queue_rtc_enabled(rtc_config_enabled): """Create an ActionQueue with RTC enabled.""" return ActionQueue(rtc_config_enabled) @pytest.fixture def action_queue_rtc_disabled(rtc_config_disabled): """Create an ActionQueue with RTC disabled.""" return ActionQueue(rtc_config_disabled) # ====================== Initialization Tests ====================== def test_action_queue_initialization_rtc_enabled(rtc_config_enabled): """Test ActionQueue initializes correctly with RTC enabled.""" queue = ActionQueue(rtc_config_enabled) assert queue.queue is None assert queue.original_queue is None assert queue.last_index == 0 assert queue.cfg.enabled is True def test_action_queue_initialization_rtc_disabled(rtc_config_disabled): """Test ActionQueue initializes correctly with RTC disabled.""" queue = ActionQueue(rtc_config_disabled) assert queue.queue is None assert queue.original_queue is None assert queue.last_index == 0 assert queue.cfg.enabled is False # ====================== get() Tests ====================== def test_get_returns_none_when_empty(action_queue_rtc_enabled): """Test get() returns None when queue is empty.""" action = action_queue_rtc_enabled.get() assert action is None def test_get_returns_actions_sequentially(action_queue_rtc_enabled, sample_actions): """Test get() returns actions in sequence.""" # Initialize queue with actions action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) # Get first action action1 = action_queue_rtc_enabled.get() assert action1 is not None assert action1.shape == (6,) assert torch.equal(action1, sample_actions["processed"][0]) # Get second action action2 = action_queue_rtc_enabled.get() assert action2 is not None assert torch.equal(action2, sample_actions["processed"][1]) def test_get_returns_none_after_exhaustion(action_queue_rtc_enabled, sample_actions): """Test get() returns None after all actions are consumed.""" # Use short action sequence action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume all actions for _ in range(10): action = action_queue_rtc_enabled.get() assert action is not None # Next get should return None action = action_queue_rtc_enabled.get() assert action is None def test_get_increments_last_index(action_queue_rtc_enabled, sample_actions): """Test get() increments last_index correctly.""" action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) assert action_queue_rtc_enabled.last_index == 0 action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.last_index == 1 action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.last_index == 2 # ====================== qsize() Tests ====================== def test_qsize_returns_zero_when_empty(action_queue_rtc_enabled): """Test qsize() returns 0 when queue is empty.""" assert action_queue_rtc_enabled.qsize() == 0 def test_qsize_returns_correct_size(action_queue_rtc_enabled, sample_actions): """Test qsize() returns correct number of remaining actions.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) assert action_queue_rtc_enabled.qsize() == 10 action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.qsize() == 9 action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.qsize() == 8 def test_qsize_after_exhaustion(action_queue_rtc_enabled, sample_actions): """Test qsize() returns 0 after queue is exhausted.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume all actions for _ in range(10): action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.qsize() == 0 # ====================== empty() Tests ====================== def test_empty_returns_true_when_empty(action_queue_rtc_enabled): """Test empty() returns True when queue is empty.""" assert action_queue_rtc_enabled.empty() is True def test_empty_returns_false_when_not_empty(action_queue_rtc_enabled, sample_actions): """Test empty() returns False when queue has actions.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) assert action_queue_rtc_enabled.empty() is False def test_empty_after_partial_consumption(action_queue_rtc_enabled, sample_actions): """Test empty() returns False after partial consumption.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.empty() is False def test_empty_after_full_consumption(action_queue_rtc_enabled, sample_actions): """Test empty() returns True after all actions consumed.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume all for _ in range(10): action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.empty() is True # ====================== get_action_index() Tests ====================== def test_get_action_index_initial_value(action_queue_rtc_enabled): """Test get_action_index() returns 0 initially.""" assert action_queue_rtc_enabled.get_action_index() == 0 def test_get_action_index_after_consumption(action_queue_rtc_enabled, sample_actions): """Test get_action_index() tracks consumption correctly.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) assert action_queue_rtc_enabled.get_action_index() == 0 action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.get_action_index() == 1 action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.get_action_index() == 3 # ====================== get_left_over() Tests ====================== def test_get_left_over_returns_none_when_empty(action_queue_rtc_enabled): """Test get_left_over() returns None when queue is empty.""" leftover = action_queue_rtc_enabled.get_left_over() assert leftover is None def test_get_left_over_returns_all_when_unconsumed(action_queue_rtc_enabled, sample_actions): """Test get_left_over() returns all original actions when none consumed.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) leftover = action_queue_rtc_enabled.get_left_over() assert leftover is not None assert leftover.shape == (10, 6) assert torch.equal(leftover, sample_actions["short"]) def test_get_left_over_returns_remaining_after_consumption(action_queue_rtc_enabled, sample_actions): """Test get_left_over() returns only remaining original actions.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume 3 actions action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() leftover = action_queue_rtc_enabled.get_left_over() assert leftover is not None assert leftover.shape == (7, 6) assert torch.equal(leftover, sample_actions["short"][3:]) def test_get_left_over_returns_empty_after_exhaustion(action_queue_rtc_enabled, sample_actions): """Test get_left_over() returns empty tensor after all consumed.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume all for _ in range(10): action_queue_rtc_enabled.get() leftover = action_queue_rtc_enabled.get_left_over() assert leftover is not None assert leftover.shape == (0, 6) # ====================== merge() with RTC Enabled Tests ====================== def test_merge_replaces_queue_when_rtc_enabled(action_queue_rtc_enabled, sample_actions): """Test merge() replaces queue when RTC is enabled.""" # Add initial actions action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) assert action_queue_rtc_enabled.qsize() == 10 # Consume some actions action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.qsize() == 8 # Merge new actions - should replace, not append action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=5) # Queue should be replaced with new actions minus delay # Original has 50 actions, delay is 5, so remaining is 45 assert action_queue_rtc_enabled.qsize() == 45 assert action_queue_rtc_enabled.get_action_index() == 0 def test_merge_respects_real_delay(action_queue_rtc_enabled, sample_actions): """Test merge() correctly applies real_delay when RTC is enabled.""" delay = 10 action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=delay) # Queue should have original length minus delay expected_size = len(sample_actions["original"]) - delay assert action_queue_rtc_enabled.qsize() == expected_size # First action should be the one at index [delay] first_action = action_queue_rtc_enabled.get() assert torch.equal(first_action, sample_actions["processed"][delay]) def test_merge_resets_last_index_when_rtc_enabled(action_queue_rtc_enabled, sample_actions): """Test merge() resets last_index to 0 when RTC is enabled.""" action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) action_queue_rtc_enabled.get() action_queue_rtc_enabled.get() assert action_queue_rtc_enabled.last_index == 2 # Merge new actions action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=5) assert action_queue_rtc_enabled.last_index == 0 def test_merge_with_zero_delay(action_queue_rtc_enabled, sample_actions): """Test merge() with zero delay keeps all actions.""" action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) assert action_queue_rtc_enabled.qsize() == len(sample_actions["original"]) def test_merge_with_large_delay(action_queue_rtc_enabled, sample_actions): """Test merge() with delay larger than action sequence.""" # Delay is larger than sequence length delay = 100 action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=delay) # Queue should be empty (delay >= length) assert action_queue_rtc_enabled.qsize() == 0 # ====================== merge() with RTC Disabled Tests ====================== def test_merge_appends_when_rtc_disabled(action_queue_rtc_disabled, sample_actions): """Test merge() appends actions when RTC is disabled.""" # Add initial actions action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) initial_size = action_queue_rtc_disabled.qsize() assert initial_size == 10 # Merge more actions action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Should have appended assert action_queue_rtc_disabled.qsize() == initial_size + 10 def test_merge_removes_consumed_actions_when_appending(action_queue_rtc_disabled, sample_actions): """Test merge() removes consumed actions before appending when RTC is disabled.""" # Add initial actions action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) assert action_queue_rtc_disabled.qsize() == 10 # Consume 3 actions action_queue_rtc_disabled.get() action_queue_rtc_disabled.get() action_queue_rtc_disabled.get() assert action_queue_rtc_disabled.qsize() == 7 # Merge more actions action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Should have 7 remaining + 10 new = 17 assert action_queue_rtc_disabled.qsize() == 17 def test_merge_resets_last_index_after_append(action_queue_rtc_disabled, sample_actions): """Test merge() resets last_index after appending when RTC is disabled.""" action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) action_queue_rtc_disabled.get() action_queue_rtc_disabled.get() assert action_queue_rtc_disabled.last_index == 2 # Merge more actions action_queue_rtc_disabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # last_index should be reset to 0 assert action_queue_rtc_disabled.last_index == 0 def test_merge_ignores_delay_when_rtc_disabled(action_queue_rtc_disabled, sample_actions): """Test merge() ignores real_delay parameter when RTC is disabled.""" action_queue_rtc_disabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=10) # All actions should be in queue (delay ignored) assert action_queue_rtc_disabled.qsize() == len(sample_actions["original"]) def test_merge_first_call_with_rtc_disabled(action_queue_rtc_disabled, sample_actions): """Test merge() on first call with RTC disabled.""" action_queue_rtc_disabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) assert action_queue_rtc_disabled.qsize() == len(sample_actions["original"]) assert action_queue_rtc_disabled.last_index == 0 # ====================== merge() with Different Action Shapes Tests ====================== def test_merge_with_different_action_dims(): """Test merge() handles actions with different dimensions.""" cfg = RTCConfig(enabled=True, execution_horizon=10) queue = ActionQueue(cfg) # Actions with 4 dimensions instead of 6 actions_4d = torch.randn(20, 4) queue.merge(actions_4d, actions_4d, real_delay=5) action = queue.get() assert action.shape == (4,) def test_merge_with_different_lengths(): """Test merge() handles action sequences of varying lengths.""" cfg = RTCConfig(enabled=False, execution_horizon=10) queue = ActionQueue(cfg) # Add sequences of different lengths queue.merge(torch.randn(10, 6), torch.randn(10, 6), real_delay=0) assert queue.qsize() == 10 queue.merge(torch.randn(25, 6), torch.randn(25, 6), real_delay=0) assert queue.qsize() == 35 # ====================== merge() Delay Validation Tests ====================== def test_merge_validates_delay_consistency(action_queue_rtc_enabled, sample_actions, caplog): """Test merge() validates that real_delay matches action index difference.""" import logging caplog.set_level(logging.WARNING) # Initialize queue action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume 5 actions for _ in range(5): action_queue_rtc_enabled.get() # Merge with mismatched delay (should log warning) # We consumed 5 actions, so index is 5. If we pass action_index_before_inference=0, # then indexes_diff=5, but if real_delay=3, it will warn action_queue_rtc_enabled.merge( sample_actions["original"], sample_actions["processed"], real_delay=3, action_index_before_inference=0, ) # Check warning was logged assert "Indexes diff is not equal to real delay" in caplog.text def test_merge_no_warning_when_delays_match(action_queue_rtc_enabled, sample_actions, caplog): """Test merge() doesn't warn when delays are consistent.""" import logging caplog.set_level(logging.WARNING) # Initialize queue action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume 5 actions for _ in range(5): action_queue_rtc_enabled.get() # Merge with matching delay action_queue_rtc_enabled.merge( sample_actions["original"], sample_actions["processed"], real_delay=5, action_index_before_inference=0, ) # Should not have warning assert "Indexes diff is not equal to real delay" not in caplog.text def test_merge_skips_validation_when_action_index_none(action_queue_rtc_enabled, sample_actions, caplog): """Test merge() skips delay validation when action_index_before_inference is None.""" import logging caplog.set_level(logging.WARNING) action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) for _ in range(5): action_queue_rtc_enabled.get() # Pass None for action_index_before_inference action_queue_rtc_enabled.merge( sample_actions["original"], sample_actions["processed"], real_delay=999, # Doesn't matter action_index_before_inference=None, ) # Should not warn (validation skipped) assert "Indexes diff is not equal to real delay" not in caplog.text # ====================== Thread Safety Tests ====================== def test_get_is_thread_safe(action_queue_rtc_enabled, sample_actions): """Test get() is thread-safe with multiple consumers.""" action_queue_rtc_enabled.merge(sample_actions["longer"], sample_actions["longer"], real_delay=0) results = [] errors = [] def consumer(): try: for _ in range(25): action = action_queue_rtc_enabled.get() if action is not None: results.append(action) time.sleep(0.001) except Exception as e: errors.append(e) threads = [threading.Thread(target=consumer) for _ in range(4)] for t in threads: t.start() for t in threads: t.join() # Should not have errors assert len(errors) == 0 # Should have consumed all actions (100 total, 4 threads * 25 each) assert len(results) == 100 # All results should be unique (no duplicate consumption) # We can verify by checking that indices are not duplicated # Since we don't track indices in results, we check total count is correct assert action_queue_rtc_enabled.qsize() == 0 def test_merge_is_thread_safe(action_queue_rtc_disabled, sample_actions): """Test merge() is thread-safe with multiple producers.""" errors = [] def producer(): try: for _ in range(5): action_queue_rtc_disabled.merge( sample_actions["short"], sample_actions["short"], real_delay=0 ) time.sleep(0.001) except Exception as e: errors.append(e) threads = [threading.Thread(target=producer) for _ in range(3)] for t in threads: t.start() for t in threads: t.join() # Should not have errors assert len(errors) == 0 # Should have accumulated all actions (3 threads * 5 merges * 10 actions = 150) assert action_queue_rtc_disabled.qsize() == 150 def test_concurrent_get_and_merge(action_queue_rtc_disabled, sample_actions): """Test concurrent get() and merge() operations.""" errors = [] consumed_count = [0] def consumer(): try: for _ in range(50): action = action_queue_rtc_disabled.get() if action is not None: consumed_count[0] += 1 time.sleep(0.001) except Exception as e: errors.append(e) def producer(): try: for _ in range(10): action_queue_rtc_disabled.merge( sample_actions["short"], sample_actions["short"], real_delay=0 ) time.sleep(0.005) except Exception as e: errors.append(e) consumer_threads = [threading.Thread(target=consumer) for _ in range(2)] producer_threads = [threading.Thread(target=producer) for _ in range(2)] for t in consumer_threads + producer_threads: t.start() for t in consumer_threads + producer_threads: t.join() # Should not have errors assert len(errors) == 0 # Should have consumed some or all actions (non-deterministic due to timing) # Total produced: 2 producers * 10 merges * 10 actions = 200 # Total consumed attempts: 2 consumers * 50 = 100 assert consumed_count[0] <= 200 # ====================== get_left_over() Thread Safety Tests ====================== def test_get_left_over_is_thread_safe(action_queue_rtc_enabled, sample_actions): """Test get_left_over() is thread-safe with concurrent access.""" action_queue_rtc_enabled.merge(sample_actions["longer"], sample_actions["longer"], real_delay=0) errors = [] leftovers = [] def reader(): try: for _ in range(20): leftover = action_queue_rtc_enabled.get_left_over() if leftover is not None: leftovers.append(leftover.shape[0]) time.sleep(0.001) except Exception as e: errors.append(e) threads = [threading.Thread(target=reader) for _ in range(3)] # Also consume some actions concurrently def consumer(): try: for _ in range(10): action_queue_rtc_enabled.get() time.sleep(0.002) except Exception as e: errors.append(e) consumer_thread = threading.Thread(target=consumer) all_threads = threads + [consumer_thread] for t in all_threads: t.start() for t in all_threads: t.join() # Should not have errors assert len(errors) == 0 # Leftovers should be monotonically decreasing or stable # (as actions are consumed, leftover size decreases) assert len(leftovers) > 0 # ====================== Edge Cases Tests ====================== def test_queue_with_single_action(action_queue_rtc_enabled): """Test queue behavior with a single action.""" single_action_original = torch.randn(1, 6) single_action_processed = torch.randn(1, 6) action_queue_rtc_enabled.merge(single_action_original, single_action_processed, real_delay=0) assert action_queue_rtc_enabled.qsize() == 1 action = action_queue_rtc_enabled.get() assert action is not None assert action.shape == (6,) assert action_queue_rtc_enabled.qsize() == 0 def test_queue_behavior_after_multiple_merge_cycles(action_queue_rtc_enabled, sample_actions): """Test queue maintains correct state through multiple merge cycles.""" for _ in range(5): action_queue_rtc_enabled.merge(sample_actions["short"], sample_actions["short"], real_delay=0) # Consume half for _ in range(5): action_queue_rtc_enabled.get() # Merge again action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=3) assert action_queue_rtc_enabled.qsize() > 0 def test_queue_with_all_zeros_actions(action_queue_rtc_enabled): """Test queue handles all-zero action tensors.""" zeros_actions = torch.zeros(20, 6) action_queue_rtc_enabled.merge(zeros_actions, zeros_actions, real_delay=0) action = action_queue_rtc_enabled.get() assert torch.all(action == 0) def test_queue_clones_input_tensors(action_queue_rtc_enabled, sample_actions): """Test that merge() clones input tensors, not storing references.""" original_copy = sample_actions["original"].clone() processed_copy = sample_actions["processed"].clone() action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) # Modify original tensors sample_actions["original"].fill_(999.0) sample_actions["processed"].fill_(-999.0) # Queue should have cloned values action = action_queue_rtc_enabled.get() assert not torch.equal(action, sample_actions["processed"][0]) assert torch.equal(action, processed_copy[0]) leftover = action_queue_rtc_enabled.get_left_over() assert not torch.equal(leftover, sample_actions["original"][1:]) assert torch.equal(leftover, original_copy[1:]) @pytest.mark.skipif(not torch.cuda.is_available(), reason="CUDA not available") def test_queue_handles_gpu_tensors(): """Test queue correctly handles GPU tensors.""" cfg = RTCConfig(enabled=True, execution_horizon=10) queue = ActionQueue(cfg) actions_gpu = torch.randn(20, 6, device="cuda") queue.merge(actions_gpu, actions_gpu, real_delay=0) action = queue.get() assert action.device.type == "cuda" leftover = queue.get_left_over() assert leftover.device.type == "cuda" def test_queue_handles_different_dtypes(): """Test queue handles actions with different dtypes.""" cfg = RTCConfig(enabled=True, execution_horizon=10) queue = ActionQueue(cfg) # Use float64 instead of default float32 actions_f64 = torch.randn(20, 6, dtype=torch.float64) queue.merge(actions_f64, actions_f64, real_delay=0) action = queue.get() assert action.dtype == torch.float64 def test_empty_with_none_queue(action_queue_rtc_enabled): """Test empty() correctly handles None queue.""" assert action_queue_rtc_enabled.queue is None assert action_queue_rtc_enabled.empty() is True def test_qsize_with_none_queue(action_queue_rtc_enabled): """Test qsize() correctly handles None queue.""" assert action_queue_rtc_enabled.queue is None assert action_queue_rtc_enabled.qsize() == 0 # ====================== Integration Tests ====================== def test_typical_rtc_workflow(action_queue_rtc_enabled, sample_actions): """Test a typical RTC workflow: merge, consume, merge with delay.""" # First inference action_queue_rtc_enabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) initial_size = action_queue_rtc_enabled.qsize() assert initial_size == 50 # Consume 10 actions (execution_horizon) for _ in range(10): action = action_queue_rtc_enabled.get() assert action is not None assert action_queue_rtc_enabled.qsize() == 40 # Second inference with delay action_index_before = action_queue_rtc_enabled.get_action_index() action_queue_rtc_enabled.merge( sample_actions["original"], sample_actions["processed"], real_delay=5, action_index_before_inference=action_index_before, ) # Queue should be replaced, minus delay assert action_queue_rtc_enabled.qsize() == 45 assert action_queue_rtc_enabled.get_action_index() == 0 def test_typical_non_rtc_workflow(action_queue_rtc_disabled, sample_actions): """Test a typical non-RTC workflow: merge, consume, merge again.""" # First inference action_queue_rtc_disabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) assert action_queue_rtc_disabled.qsize() == 50 # Consume 40 actions for _ in range(40): action = action_queue_rtc_disabled.get() assert action is not None assert action_queue_rtc_disabled.qsize() == 10 # Second inference (should append) action_queue_rtc_disabled.merge(sample_actions["original"], sample_actions["processed"], real_delay=0) # Should have 10 remaining + 50 new = 60 assert action_queue_rtc_disabled.qsize() == 60