| # RoboLab Subtask System: Comprehensive Guide |
|
|
| This guide provides a complete reference for defining subtasks in RoboLab, covering all supported formats, logical modes, and use cases. |
|
|
| ## Table of Contents |
|
|
| 1. [Overview](#overview) |
| 2. [Subtask Definitions](#subtask-definitions) |
| 3. [The Subtask Dataclass](#the-subtask-dataclass) |
| 4. [Condition Formats](#condition-formats) |
| - [Format 1: Single Callable (Atomic Subtask)](#format-1-single-callable-atomic-subtask) |
| - [Format 2: List of Callables](#format-2-list-of-callables) |
| - [Format 3: List of Tuples (Callable, Score)](#format-3-list-of-tuples-callable-score) |
| - [Format 4: Set of Callables](#format-4-set-of-callables) |
| - [Format 5: Set of Tuples (Callable, Score)](#format-5-set-of-tuples-callable-score) |
| - [Format 6: Dict with Single Callables](#format-6-dict-with-single-callables) |
| - [Format 7: Dict with List of Callables](#format-7-dict-with-list-of-callables) |
| - [Format 8: Dict with List of Tuples (Callable, Score)](#format-8-dict-with-list-of-tuples-callable-score) |
| - [Format 9: Dict with Set of Callables](#format-9-dict-with-set-of-callables) |
| 5. [Logical Modes](#logical-modes) |
| - [Mode 1: "all" (Default)](#mode-1-all-default) |
| - [Mode 2: "any"](#mode-2-any) |
| - [Mode 3: "choose"](#mode-3-choose) |
| 6. [Composite Functions](#composite-functions) |
| 7. [Sequential Subtasks](#sequential-subtasks) |
| 8. [Scoring System](#scoring-system) |
| 9. [Effective Operations & Difficulty Scoring](#effective-operations--difficulty-scoring) |
|
|
| --- |
|
|
| ## Overview |
|
|
| RoboLab uses a hierarchical state machine architecture to manage complex manipulation tasks involving multiple objects and sequential execution phases. |
|
|
| ## Subtask Definitions |
|
|
| Subtasks are defined as a list of subtask groups, where each subtask group can handle parallel subtask checking and composite tasks such as "and"/"any"/"choose" type subtasks. Each subtask group must be complete until the next subtask state machine step. |
|
|
| <p align="center"> |
| <img src="images/subtask_state_machine.png" alt="Subtask State Machine Diagram" width="300px"> |
| </p> |
|
|
| ### Key Components |
|
|
| ``` |
| Subtask(conditions, logical, score, K) ← Subtask dataclass |
| ↓ |
| SubtaskStateMachine ← Manages sequential subtasks |
| ↓ |
| ConditionalsStateMachine ← Manages parallel conditions |
| ↓ |
| Parallel execution with regression checking |
| ``` |
|
|
| ## The Subtask Dataclass |
|
|
| The `Subtask` dataclass is the core building block for defining task conditions. Each subtask must be completed before moving to the next subtask. |
|
|
| ```python |
| from robolab.core.task.subtask import Subtask |
| |
| @dataclass |
| class Subtask: |
| """Self-documenting container for a group of parallel conditions.""" |
| conditions: Union[Callable, list, set, dict] |
| score: float = 1.0 |
| logical: Literal["all", "any", "choose"] = "all" |
| K: Optional[int] = None # Required when logical="choose" |
| name: str = "unnamed_subtask" |
| ``` |
|
|
| ## Condition Formats |
|
|
| The `conditions` parameter supports 8 different formats for convenience, but will all be unified at loading time: |
|
|
| ### Format 1: Single Callable (Atomic Subtask) |
|
|
| **Use Case**: Single condition to check |
|
|
| ```python |
| from functools import partial |
| from robolab.core.task.subtask import Subtask |
| from robolab.core.task.conditionals import object_grabbed |
| Subtask( |
| conditions=partial(object_grabbed, object='banana'), |
| name="grab_banana" |
| ) |
| ``` |
|
|
| **Internal Structure**: `{"conditions": [(func, 1.0)]}` |
|
|
| --- |
|
|
| ### Format 2: List of Callables |
|
|
| **Use Case**: Multiple conditions as separate groups, each with equal score |
|
|
| ```python |
| Subtask( |
| conditions=[ |
| partial(object_grabbed, object='banana'), |
| partial(object_grabbed, object='rubiks_cube') |
| ], |
| logical="any", # Grab ANY one object |
| name="grab_any_object" |
| ) |
| ``` |
|
|
| **Internal Structure**: Each callable becomes its own group with equal scores |
| ```python |
| { |
| "group1": [(func1, 0.5)], |
| "group2": [(func2, 0.5)] |
| } |
| ``` |
|
|
| --- |
|
|
| ### Format 3: List of Tuples (Callable, Score) |
|
|
| **Use Case**: Multiple conditions with custom score weighting |
|
|
| ```python |
| Subtask( |
| conditions=[ |
| (partial(object_grabbed, object='banana'), 0.3), |
| (partial(object_in_container, object='banana', container='bowl'), 0.7) |
| ], |
| logical="all", |
| name="weighted_conditions" |
| ) |
| ``` |
|
|
| **Internal Structure**: Each tuple becomes its own group |
| ```python |
| { |
| "group1": [(func1, 1.0)], # Scores normalized within group |
| "group2": [(func2, 1.0)] |
| } |
| ``` |
|
|
| --- |
|
|
| ### Format 4: Set of Callables |
|
|
| **Use Case**: Same as list, but order doesn't matter semantically |
|
|
| ```python |
| Subtask( |
| conditions={ |
| partial(object_grabbed, object='banana'), |
| partial(object_grabbed, object='rubiks_cube') |
| }, |
| logical="any", |
| name="grab_any_set" |
| ) |
| ``` |
|
|
| **Note**: Converted to list internally (order may vary) |
|
|
| --- |
|
|
| ### Format 5: Set of Tuples (Callable, Score) |
|
|
| **Use Case**: Multiple conditions with scores, order-agnostic |
|
|
| ```python |
| Subtask( |
| conditions={ |
| (partial(object_grabbed, object='banana'), 0.5), |
| (partial(object_grabbed, object='rubiks_cube'), 0.5) |
| }, |
| logical="any", |
| name="weighted_set" |
| ) |
| ``` |
|
|
| --- |
|
|
| ### Format 6: Dict with Single Callables |
|
|
| **Use Case**: Explicit group names, single condition per group |
|
|
| ```python |
| Subtask( |
| conditions={ |
| "banana": partial(object_grabbed, object='banana'), |
| "cube": partial(object_grabbed, object='rubiks_cube') |
| }, |
| logical="all", # Both must be grabbed |
| name="grab_both_explicit" |
| ) |
| ``` |
|
|
| **Internal Structure**: |
| ```python |
| { |
| "banana": [(func1, 1.0)], |
| "cube": [(func2, 1.0)] |
| } |
| ``` |
|
|
| --- |
|
|
| ### Format 7: Dict with List of Callables |
|
|
| **Use Case**: Multiple sequential conditions per group, equal scores |
|
|
| **This is the most common format for complex multi-step tasks.** |
|
|
| ```python |
| Subtask( |
| conditions={ |
| "banana": [ |
| partial(object_grabbed, object='banana'), |
| partial(object_above_bottom, object='banana', reference_object='bowl'), |
| partial(object_dropped, object='banana'), |
| partial(object_in_container, object='banana', container='bowl') |
| ], |
| "cube": [ |
| partial(object_grabbed, object='rubiks_cube'), |
| partial(object_above_bottom, object='rubiks_cube', reference_object='bowl'), |
| partial(object_dropped, object='rubiks_cube'), |
| partial(object_in_container, object='rubiks_cube', container='bowl') |
| ] |
| }, |
| logical="all", # Both banana AND cube must complete all steps |
| name="pick_and_place_both" |
| ) |
| ``` |
|
|
| **Internal Structure**: Each callable gets equal score within its group |
| ```python |
| { |
| "banana": [(func1, 0.25), (func2, 0.25), (func3, 0.25), (func4, 0.25)], |
| "cube": [(func1, 0.25), (func2, 0.25), (func3, 0.25), (func4, 0.25)] |
| } |
| ``` |
|
|
| **Key Feature**: Within each group, conditions are checked **sequentially** with regression checking. |
|
|
| --- |
|
|
| ### Format 8: Dict with List of Tuples (Callable, Score) |
|
|
| **Use Case**: Full control over groups, sequences, and scores |
|
|
| **This is the most flexible format.** |
|
|
| ```python |
| Subtask( |
| conditions={ |
| "banana": [ |
| (partial(object_grabbed, object='banana'), 0.1), |
| (partial(object_above_bottom, object='banana', reference_object='bowl'), 0.2), |
| (partial(object_dropped, object='banana'), 0.3), |
| (partial(object_in_container, object='banana', container='bowl'), 0.4) |
| ], |
| "cube": [ |
| (partial(object_grabbed, object='rubiks_cube'), 0.25), |
| (partial(object_above_bottom, object='rubiks_cube', reference_object='bowl'), 0.25), |
| (partial(object_dropped, object='rubiks_cube'), 0.25), |
| (partial(object_in_container, object='rubiks_cube', container='bowl'), 0.25) |
| ] |
| }, |
| logical="all", |
| name="fully_weighted" |
| ) |
| ``` |
|
|
| **Note**: Scores within each group are normalized to sum to 1.0. |
|
|
| --- |
|
|
| ### Format 9: Dict with Set of Callables |
|
|
| **Use Case**: Order-agnostic sequential conditions per group |
|
|
| ```python |
| Subtask( |
| conditions={ |
| "banana": { |
| partial(object_grabbed, object='banana'), |
| partial(object_in_container, object='banana', container='bowl') |
| }, |
| "cube": { |
| partial(object_grabbed, object='rubiks_cube'), |
| partial(object_in_container, object='rubiks_cube', container='bowl') |
| } |
| }, |
| logical="any", # Either banana OR cube completes |
| name="pick_and_place_any" |
| ) |
| ``` |
|
|
| **Note**: Converted to list internally. |
|
|
| --- |
|
|
| ## Logical Modes |
|
|
| The `logical` parameter determines when a subtask group is considered complete. |
|
|
| ### Mode 1: "all" (Default) |
|
|
| **Semantics**: All groups must complete all their conditions |
|
|
| **Progress Tracking**: |
| ``` |
| Completed: 0/2 groups, Score: 0.00 |
| rubiks_cube: 0/4 conditions (0% complete) |
| banana: 0/4 conditions (0% complete) |
| |
| Completed: 0/2 groups, Score: 0.375 |
| rubiks_cube: 0/4 conditions (0% complete) |
| banana: 3/4 conditions (75% complete) |
| |
| Completed: 1/2 groups, Score: 0.75 |
| rubiks_cube: 2/4 conditions (50% complete) |
| banana: 4/4 conditions (100% complete) ✓ |
| |
| Completed: 2/2 groups, Score: 1.0 ✓ |
| rubiks_cube: 4/4 conditions (100% complete) ✓ |
| banana: 4/4 conditions (100% complete) ✓ |
| ``` |
|
|
| --- |
|
|
| ### Mode 2: "any" |
|
|
| **Semantics**: Success when any single group completes all its conditions |
|
|
|
|
| **Progress Tracking**: |
| ``` |
| Completed: 0/3 groups, Score: 0.00 |
| red_block: 0/4 conditions (0% complete) |
| blue_block: 0/4 conditions (0% complete) |
| green_block: 0/4 conditions (0% complete) |
| |
| Completed: 0/3 groups, Score: 0.50 |
| red_block: 0/4 conditions (0% complete) |
| blue_block: 2/4 conditions (50% complete) |
| green_block: 0/4 conditions (0% complete) |
| |
| Completed: 1/3 groups, Score: 1.0 ✓ (blue_block completed) |
| red_block: 0/4 conditions (0% complete) |
| blue_block: 4/4 conditions (100% complete) ✓ |
| green_block: 1/4 conditions (25% complete) |
| ``` |
|
|
| --- |
|
|
| ### Mode 3: "choose" |
|
|
| **Semantics**: Success when exactly K groups complete all their conditions |
|
|
| **Important**: The `K` parameter is **required** when using `logical="choose"`. |
|
|
| **Progress Tracking**: |
| ``` |
| Completed: 0/5 groups, Score: 0.30, Need K=2 |
| banana_01: 0/4 conditions (0% complete) |
| banana_02: 3/4 conditions (75% complete) |
| banana_03: 1/4 conditions (25% complete) |
| banana_04: 0/4 conditions (0% complete) |
| banana_05: 2/4 conditions (50% complete) |
| Top 2: [0.75, 0.50] → avg = 0.625 |
| |
| Completed: 1/5 groups, Score: 0.75, Need K=2 |
| banana_01: 0/4 conditions (0% complete) |
| banana_02: 4/4 conditions (100% complete) ✓ |
| banana_03: 1/4 conditions (25% complete) |
| banana_04: 0/4 conditions (0% complete) |
| banana_05: 2/4 conditions (50% complete) |
| Top 2: [1.0, 0.50] → avg = 0.75 |
| |
| Completed: 2/5 groups, Score: 1.0 ✓ (K=2 reached!) |
| banana_01: 0/4 conditions (0% complete) |
| banana_02: 4/4 conditions (100% complete) ✓ |
| banana_03: 1/4 conditions (25% complete) |
| banana_04: 0/4 conditions (0% complete) |
| banana_05: 4/4 conditions (100% complete) ✓ |
| Top 2: [1.0, 1.0] → avg = 1.0 |
| ``` |
|
|
| --- |
|
|
| ## Composite Functions |
|
|
| Composite functions automatically expand into multiple atomic subtasks, providing convenient shortcuts for common task patterns. |
|
|
| ### pick_and_place() |
|
|
| The `pick_and_place()` function is a composite that creates a complete pick-and-place sequence: |
|
|
| **Signature**: |
| ```python |
| @composite |
| def pick_and_place( |
| object: str | list[str], |
| container: str, |
| logical: Literal["all", "any", "choose"] = "all", |
| K: Optional[int] = None, |
| score: float = 1.0 |
| ) -> Subtask: |
| ``` |
|
|
| **Returns**: A `Subtask` dataclass with the following structure: |
| ```python |
| { |
| "object1": [ |
| (partial(object_grabbed, object='object1'), 0.25), |
| (partial(object_above_bottom, object='object1', reference_object='container'), 0.25), |
| (partial(object_dropped, object='object1'), 0.25), |
| (partial(object_in_container, object='object1', container='container'), 0.25) |
| ], |
| "object2": [ |
| # ... same sequence for object2 |
| ] |
| } |
| ``` |
|
|
| **Examples**: |
|
|
| ```python |
| from robolab.core.task.conditionals import pick_and_place |
| |
| # Example 1: Both objects must be placed |
| subtasks = [ |
| pick_and_place( |
| object=["rubiks_cube", "banana"], |
| container="bowl", |
| logical="all", |
| score=1.0 |
| ) |
| ] |
| |
| # Example 2: Any one object is sufficient |
| subtasks = [ |
| pick_and_place( |
| object=["red_block", "blue_block", "green_block"], |
| container="bin", |
| logical="any", |
| score=0.5 |
| ) |
| ] |
| |
| # Example 3: Exactly 2 out of 3 objects |
| subtasks = [ |
| pick_and_place( |
| object=["banana_01", "banana_02", "banana_03"], |
| container="bowl", |
| logical="choose", |
| K=2, |
| score=1.0 |
| ) |
| ] |
| ``` |
|
|
| **NOTE** Do NOT use for termination conditions (use `object_placed_in_container` instead). Terminations check final state only, while subtasks track intermediate progress. |
|
|
| --- |
|
|
| ## Sequential Subtasks |
|
|
| Multiple `Subtask` objects can be chained to create multi-stage tasks. Each stage must complete before the next begins. |
|
|
| ### Basic Sequential Example |
|
|
| ```python |
| |
| subtasks = [ |
| # Stage 1: |
| Subtask(...), |
| # Stage 2: |
| Subtask(...) |
| ] |
| ``` |
|
|
| ### Mixed Logical Modes |
|
|
| ```python |
| subtasks = [ |
| # Stage 1: Pick any one block, must be complete before starting the next one |
| pick_and_place( |
| object=["red_block", "blue_block"], |
| container="bowl", |
| logical="any", |
| score=0.3 |
| ), |
| |
| # Stage 2: Both fruits must be placed. |
| pick_and_place( |
| object=["banana", "apple"], |
| container="bowl", |
| logical="all", |
| score=0.4 |
| ), |
| |
| ] |
| ``` |
|
|
| **Progress Tracking**: |
| ``` |
| Overall Progress: 0/2 stages complete (0%) |
| Current Stage 1: logical='any', score=0.3 |
| red_block: 2/4 (50%) |
| blue_block: 0/4 (0%) |
| |
| Overall Progress: 1/2 stages complete (50%) |
| Current Stage 2: logical='all', score=0.4 |
| banana: 0/4 (0%) |
| apple: 0/4 (0%) |
| |
| Overall Progress: 2/2 stages complete (100%) ✓ |
| ``` |
|
|
| --- |
|
|
| ## Scoring System |
|
|
| ### Score Normalization |
|
|
| **Within Each Group**: Condition scores are relative to each other, normalized to sum to 1.0 |
|
|
| ```python |
| # Before normalization |
| conditions = { |
| "banana": [ |
| (func1, 0.1), |
| (func2, 0.2), |
| (func3, 0.3) |
| ] |
| } |
| # Total: 0.6 |
| |
| # After normalization (automatic) |
| conditions = { |
| "banana": [ |
| (func1, 0.167), # 0.1 / 0.6 |
| (func2, 0.333), # 0.2 / 0.6 |
| (func3, 0.500) # 0.3 / 0.6 |
| ] |
| } |
| # Total: 1.0 |
| ``` |
|
|
| **Across Subtasks**: Subtasks are also relative to each other, which will be normalized to 1. |
|
|
| ```python |
| subtasks = [ |
| Subtask(..., score=0.2), # 20% of total task |
| Subtask(..., score=0.5), # 50% of total task |
| Subtask(..., score=0.3) # 30% of total task |
| ] |
| # These don't need to sum to 1.0, but they define relative weights |
| ``` |
|
|
| ### A visual example of subtask state tracking for a group of objects: |
|
|
| ``` |
| Running RubiksCubeBananaTaskHomeOffice_0: 'put the cube and banana in the bowl' |
| |
| |
| 19%|█████████████████▏ | 90/470 [00:13<01:09, 5.45it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 0, 'banana': 1} |
| Objects and their current subtasks: |
| rubiks_cube (step 0/4): |
| 0. ❌ object_grabbed(object=rubiks_cube) <-- CURRENT |
| 1. ❌ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (pending) |
| 2. ❌ object_dropped(object=rubiks_cube) (pending) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 1/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ❌ object_above_bottom_surface(object=banana, surface=bowl) <-- CURRENT |
| 2. ❌ object_dropped(object=banana) (pending) |
| 3. ❌ object_in_container(object=banana, container=bowl, tolerance=0.05) (pending) |
| ================================================== |
| Subtask status: i: 90, status: {'status': <SubtaskStatusCode.OBJECT_GRABBED_SUCCESS: 120>, 'completed': 1, 'total': 8, 'info': "success: object_grabbed(object='banana');"} |
| |
| |
| 30%|██████████████████████████▉ | 142/470 [00:23<01:11, 4.56it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 0, 'banana': 2} |
| Objects and their current subtasks: |
| rubiks_cube (step 0/4): |
| 0. ❌ object_grabbed(object=rubiks_cube) <-- CURRENT |
| 1. ❌ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (pending) |
| 2. ❌ object_dropped(object=rubiks_cube) (pending) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 2/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ❌ object_dropped(object=banana) <-- CURRENT |
| 3. ❌ object_in_container(object=banana, container=bowl, tolerance=0.05) (pending) |
| ================================================== |
| Subtask status: i: 142, status: {'status': <SubtaskStatusCode.OBJECT_ABOVE_BOTTOM_SURFACE_SUCCESS: 160>, 'completed': 2, 'total': 8, 'info': "success: object_above_bottom_surface(object='banana', surface='bowl');"} |
| |
| |
| 39%|██████████████████████████████████▊ | 184/470 [00:32<01:02, 4.57it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 0, 'banana': 3} |
| Objects and their current subtasks: |
| rubiks_cube (step 0/4): |
| 0. ❌ object_grabbed(object=rubiks_cube) <-- CURRENT |
| 1. ❌ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (pending) |
| 2. ❌ object_dropped(object=rubiks_cube) (pending) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 3/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ❌ object_in_container(object=banana, container=bowl, tolerance=0.05) <-- CURRENT |
| ================================================== |
| Subtask status: i: 184, status: {'status': <SubtaskStatusCode.OBJECT_DROPPED_SUCCESS: 140>, 'completed': 3, 'total': 8, 'info': "success: object_dropped(object='banana');"} |
| |
| |
| 39%|███████████████████████████████████ | 185/470 [00:32<00:57, 4.92it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 0, 'banana': 4} |
| Objects and their current subtasks: |
| rubiks_cube (step 0/4): |
| 0. ❌ object_grabbed(object=rubiks_cube) <-- CURRENT |
| 1. ❌ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (pending) |
| 2. ❌ object_dropped(object=rubiks_cube) (pending) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 4/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ✅ object_in_container(object=banana, container=bowl, tolerance=0.05) (completed) |
| ================================================== |
| Subtask status: i: 185, status: {'status': <SubtaskStatusCode.OBJECT_IN_CONTAINER_SUCCESS: 110>, 'completed': 4, 'total': 8, 'info': "success: object_in_container(object='banana', container='bowl', tolerance=0.05). All subtasks complete for banana.;"} |
| |
| |
| 88%|██████████████████████████████████████████████████████████████████████████████▍ | 414/470 [01:11<00:10, 5.43it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 1, 'banana': 4} |
| Objects and their current subtasks: |
| rubiks_cube (step 1/4): |
| 0. ✅ object_grabbed(object=rubiks_cube) (completed) |
| 1. ❌ object_above_bottom_surface(object=rubiks_cube, surface=bowl) <-- CURRENT |
| 2. ❌ object_dropped(object=rubiks_cube) (pending) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 4/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ✅ object_in_container(object=banana, container=bowl, tolerance=0.05) (completed) |
| ================================================== |
| Subtask status: i: 414, status: {'status': <SubtaskStatusCode.OBJECT_GRABBED_SUCCESS: 120>, 'completed': 5, 'total': 8, 'info': "success: object_grabbed(object='rubiks_cube');"} |
| |
| |
| 93%|██████████████████████████████████████████████████████████████████████████████████▉ | 438/470 [01:17<00:07, 4.56it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 2, 'banana': 4} |
| Objects and their current subtasks: |
| rubiks_cube (step 2/4): |
| 0. ✅ object_grabbed(object=rubiks_cube) (completed) |
| 1. ✅ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (completed) |
| 2. ❌ object_dropped(object=rubiks_cube) <-- CURRENT |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (pending) |
| banana (step 4/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ✅ object_in_container(object=banana, container=bowl, tolerance=0.05) (completed) |
| ================================================== |
| Subtask status: i: 438, status: {'status': <SubtaskStatusCode.OBJECT_ABOVE_BOTTOM_SURFACE_SUCCESS: 160>, 'completed': 6, 'total': 8, 'info': "success: object_above_bottom_surface(object='rubiks_cube', surface='bowl');"} |
| |
| |
| 97%|██████████████████████████████████████████████████████████████████████████████████████▎ | 456/470 [01:20<00:02, 4.73it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 3, 'banana': 4} |
| Objects and their current subtasks: |
| rubiks_cube (step 3/4): |
| 0. ✅ object_grabbed(object=rubiks_cube) (completed) |
| 1. ✅ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=rubiks_cube) (completed) |
| 3. ❌ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) <-- CURRENT |
| banana (step 4/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ✅ object_in_container(object=banana, container=bowl, tolerance=0.05) (completed) |
| ================================================== |
| Subtask status: i: 456, status: {'status': <SubtaskStatusCode.OBJECT_DROPPED_SUCCESS: 140>, 'completed': 7, 'total': 8, 'info': "success: object_dropped(object='rubiks_cube');"} |
| |
| |
| 97%|██████████████████████████████████████████████████████████████████████████████████████▋ | 458/470 [01:21<00:02, 5.18it/s] |
| -------------------------------------------------- |
| SUBTASK STATE |
| -------------------------------------------------- |
| Current Object Progress: {'rubiks_cube': 4, 'banana': 4} |
| Objects and their current subtasks: |
| rubiks_cube (step 4/4): |
| 0. ✅ object_grabbed(object=rubiks_cube) (completed) |
| 1. ✅ object_above_bottom_surface(object=rubiks_cube, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=rubiks_cube) (completed) |
| 3. ✅ object_in_container(object=rubiks_cube, container=bowl, tolerance=0.05) (completed) |
| banana (step 4/4): |
| 0. ✅ object_grabbed(object=banana) (completed) |
| 1. ✅ object_above_bottom_surface(object=banana, surface=bowl) (completed) |
| 2. ✅ object_dropped(object=banana) (completed) |
| 3. ✅ object_in_container(object=banana, container=bowl, tolerance=0.05) (completed) |
| ================================================== |
| Subtask status: i: 458, status: {'status': <SubtaskStatusCode.OBJECT_IN_CONTAINER_SUCCESS: 110>, 'completed': 8, 'total': 8, 'info': "success: object_in_container(object='rubiks_cube', container='bowl', tolerance=0.05). All subtasks complete for rubiks_cube.;"} |
| ``` |
|
|
| --- |
|
|
| ## Subtask Counts & Difficulty Scoring |
|
|
| Tasks are automatically assigned a **difficulty score** and **difficulty label** based on their subtask structure and attributes. This scoring is deterministic and computed from the task definition — no manual labeling is required. |
|
|
| ### Subtask Counts (`num_subtasks`) |
| |
| The **num_subtasks** metric counts the number of distinct manipulation actions the robot must perform, accounting for the subtask's `logical` mode: |
| |
| | Logical Mode | Subtask Count | |
| |:--|:--| |
| | `"all"` | Number of object groups (every group must complete) | |
| | `"any"` | 1 (only one group needs to complete) | |
| | `"choose"` | K (exactly K groups must complete) | |
| |
| The total is summed across all sequential stages in the task. For example, a task with two sequential stages — the first requiring `"all"` of 2 objects, the second `"any"` of 3 — has `2 + 1 = 3` subtasks. |
| |
| See `count_subtasks()` in `robolab/core/task/subtask_utils.py`. |
| |
| ### Difficulty Score |
| |
| The difficulty score combines manipulation volume with skill complexity: |
| |
| ``` |
| difficulty_score = num_subtasks + max(skill_weight) |
| ``` |
| |
| where `max(skill_weight)` is the highest weight among the task's attributes. The skill weights are: |
| |
| | Weight | Attributes | |
| |:--|:--| |
| | 0 | color, semantics, size, conjunction, vague | |
| | +1 | spatial | |
| | +2 | counting, sorting, stacking, affordance | |
| | +3 | reorientation | |
| |
| ### Difficulty Labels |
| |
| Labels are assigned based on the score using fixed thresholds: |
| |
| | Label | Score Range | |
| |:--|:--| |
| | **simple** | score <= 2 | |
| | **moderate** | score 3–4 | |
| | **complex** | score >= 5 | |
| |
| ### Examples |
| |
| | Task | Subtasks | Max Skill Weight | Score | Label | |
| |:--|:--|:--|:--|:--| |
| | `RubiksCubeTask` (1 pick-and-place, no special attrs) | 1 | 0 | 1 | simple | |
| | `BowlStackingLeftOnRightTask` (1 subtask, spatial) | 1 | 1 (spatial) | 2 | simple | |
| | `Stack3RubiksCubeTask` (2 subtasks, stacking) | 2 | 2 (stacking) | 4 | moderate | |
| | `BlockStackingSpecifiedOrderTask` (3 subtasks, stacking+color) | 3 | 2 (stacking) | 5 | complex | |
| | `ReorientAllMugsTask` (4 subtasks, reorientation) | 4 | 3 (reorientation) | 7 | complex | |
| |
| ### Implementation |
| |
| The scoring constants and function live in `robolab/core/task/subtask_utils.py`: |
| |
| - `SKILL_WEIGHTS` — attribute-to-weight mapping |
| - `DIFFICULTY_THRESHOLDS` — `(simple_max, moderate_max)` tuple |
| - `compute_difficulty_score(num_subtasks, attributes)` — returns `(score, label)` |
| |
| The metadata pipeline (`robolab/tasks/_utils/load_task_info.py`) automatically populates `num_subtasks`, `difficulty_score`, and `difficulty_label` for each task. Summary statistics are available via: |
| |
| ```bash |
| python robolab/tasks/_utils/compute_task_statistics.py --difficulty |
| python robolab/tasks/_utils/compute_task_statistics.py --difficulty -v # full task list |
| ``` |
| |