📄 Arena Hard Hf Space Processing Steps¶
operators.arena_hard_hf_space_processing_steps
type: SequentialOperator
steps:
- type: Rename
field_to_field:
cluster: group
apply_to_streams:
- questions
- type: Copy
field_to_field:
turns/0/content: model_input
apply_to_streams:
- questions
- type: Copy
field_to_field:
choices/0/turns/0/content: model_output
choices/0/turns/0/token_len: model_output_token_len
apply_to_streams:
- model_answer
- type: Apply
function: str.lower
to_field: model_id
apply_to_streams:
- model_answer
_argv:
- model_id
- type: Copy
field_to_field:
games/0/user_prompt: judge_input_model_1_ordered_first
games/1/user_prompt: judge_input_model_2_ordered_first
games/0/judgment: judge_output_model_1_ordered_first
games/1/judgment: judge_output_model_2_ordered_first
games/0/score: score_model_1_ordered_first
games/1/score: score_model_2_ordered_first
apply_to_streams:
- judgment
- type: Rename
field_to_field:
model: model_2
judge: judge_model_id
apply_to_streams:
- judgment
- type: Set
fields:
model_1: gpt-4-0314
apply_to_streams:
- judgment
- type: Cast
field: judge_input_model_1_ordered_first
to: str
apply_to_streams:
- judgment
- type: Cast
field: judge_input_model_2_ordered_first
to: str
apply_to_streams:
- judgment
- type: Lower
field: model_1
apply_to_streams:
- judgment
- type: Lower
field: model_2
apply_to_streams:
- judgment
- type: FilterByCondition
values:
score_model_1_ordered_first:
- A=B
- A>B
- A>>B
- B>A
- B>>A
score_model_2_ordered_first:
- A=B
- A>B
- A>>B
- B>A
- B>>A
condition: in
apply_to_streams:
- judgment
- type: JoinStreams
left_stream: questions
right_stream: judgment
how: inner
on:
- question_id
new_stream_name: merged_stream
- type: Rename
field_to_field:
model_id: model_1
model_output: model_1_output
apply_to_streams:
- model_answer
- type: JoinStreams
left_stream: merged_stream
right_stream: model_answer
how: inner
on:
- question_id
- model_1
new_stream_name: merged_stream
- type: Rename
field_to_field:
model_1: model_2
model_1_output: model_2_output
apply_to_streams:
- model_answer
- type: JoinStreams
left_stream: merged_stream
right_stream: model_answer
how: inner
on:
- question_id
- model_2
new_stream_name: merged_stream
- type: DeleteSplits
splits:
- questions
- model_answer
- judgment
- type: RenameSplits
mapper:
merged_stream: test
- type: SelectFields
fields:
- question_id
- category
- model_input
- model_1
- model_2
- judge_model_id
- model_1_output
- model_2_output
- score_model_1_ordered_first
- score_model_2_ordered_first
- judge_input_model_1_ordered_first
- judge_input_model_2_ordered_first
- judge_output_model_1_ordered_first
- judge_output_model_2_ordered_first
[source]Explanation about SequentialOperator¶
A class representing a sequential operator in the streaming system.
A sequential operator is a type of MultiStreamOperator that applies a sequence of other operators to a MultiStream. It maintains a list of StreamingOperator`s and applies them in order to the `MultiStream.
Explanation about FilterByCondition¶
Filters a stream, yielding only instances in which the values in required fields follow the required condition operator.
Raises an error if a required field name is missing from the input instance.
- Args:
values (Dict[str, Any]): Field names and respective Values that instances must match according the condition, to be included in the output.
condition: the name of the desired condition operator between the specified (sub) field’s value and the provided constant value. Supported conditions are (“gt”, “ge”, “lt”, “le”, “ne”, “eq”, “in”,”not in”)
error_on_filtered_all (bool, optional): If True, raises an error if all instances are filtered out. Defaults to True.
- Examples:
FilterByCondition(values = {"a":4}, condition = "gt")will yield only instances where field"a"contains a value> 4FilterByCondition(values = {"a":4}, condition = "le")will yield only instances where"a"<=4FilterByCondition(values = {"a":[4,8]}, condition = "in")will yield only instances where"a"is4or8FilterByCondition(values = {"a":[4,8]}, condition = "not in")will yield only instances where"a"is different from4or8FilterByCondition(values = {"a/b":[4,8]}, condition = "not in")will yield only instances where"a"is a dict in which key"b"is mapped to a value that is neither4nor8FilterByCondition(values = {"a[2]":4}, condition = "le")will yield only instances where “a” is a list whose 3-rd element is<= 4
Explanation about DeleteSplits¶
Operator which delete splits in stream.
- Attributes:
splits (List[str]): The splits to delete from the stream.
Explanation about Apply¶
A class used to apply a python function and store the result in a field.
- Args:
function (str): name of function. to_field (str): the field to store the result
any additional arguments are field names whose values will be passed directly to the function specified
Examples: Store in field “b” the uppercase string of the value in field “a”:
Apply("a", function=str.upper, to_field="b")Dump the json representation of field “t” and store back in the same field:
Apply("t", function=json.dumps, to_field="t")Set the time in a field ‘b’:
Apply(function=time.time, to_field="b")
Explanation about SelectFields¶
Keep only specified fields from each instance in a stream.
- Args:
fields (List[str]): The fields to keep from each instance.
Explanation about JoinStreams¶
Join multiple streams into a single stream.
- Args:
left_stream (str): The stream that will be considered the “left” in the join operations. right_stream (str): The stream that will be considered the “right” in the join operations. how (Literal[“left”, “right”, “inner”, “outer”, “cross”]): The type of join to be performed. on (Optional[List[str]]): Column names to join on. These must be found in both streams. left_on (Optional[List[str]]): Column names to join on in the left stream. right_on (Optional[List[str]]): Column names to join on in the right streasm. new_stream_name (str): The name of the new stream resulting from the merge.
- Examples:
JoinStreams(left_stream = “questions”, right_stream = “answers”, how=”inner”, on=”question_id”, new_stream_name=”question_with_answers” ) Join the ‘question’ and ‘answer’ stream based on the ‘question_id’ field using inner join, resulting with a new stream named “question_with_answers”. JoinStreams(left_stream = “questions”, right_stream = “answers”, how=”inner”, on_left=”question_id”, on_right=”question” new_stream_name=”question_with_answers” ) Join the ‘question’ and ‘answer’ stream based on the ‘question_id’ field in the left stream and the ‘question’ field in the right stream, using inner join, resulting with a new stream named “question_with_answers”. This is suitable when the fields have different labels across the streams.
Explanation about Cast¶
Casts specified fields to specified types.
- Args:
default (object): A dictionary mapping field names to default values for cases of casting failure. process_every_value (bool): If true, all fields involved must contain lists, and each value in the list is then casted. Defaults to False.
Explanation about Rename¶
Renames fields.
Move value from one field to another, potentially, if field name contains a /, from one branch into another. Remove the from field, potentially part of it in case of / in from_field.
- Examples:
Rename(field_to_field={“b”: “c”}) will change inputs [{“a”: 1, “b”: 2}, {“a”: 2, “b”: 3}] to [{“a”: 1, “c”: 2}, {“a”: 2, “c”: 3}]
Rename(field_to_field={“b”: “c/d”}) will change inputs [{“a”: 1, “b”: 2}, {“a”: 2, “b”: 3}] to [{“a”: 1, “c”: {“d”: 2}}, {“a”: 2, “c”: {“d”: 3}}]
Rename(field_to_field={“b”: “b/d”}) will change inputs [{“a”: 1, “b”: 2}, {“a”: 2, “b”: 3}] to [{“a”: 1, “b”: {“d”: 2}}, {“a”: 2, “b”: {“d”: 3}}]
Rename(field_to_field={“b/c/e”: “b/d”}) will change inputs [{“a”: 1, “b”: {“c”: {“e”: 2, “f”: 20}}}] to [{“a”: 1, “b”: {“c”: {“f”: 20}, “d”: 2}}]
Explanation about Set¶
Sets specified fields in each instance, in a given stream or all streams (default), with specified values. If fields exist, updates them, if do not exist – adds them.
- Args:
fields (Dict[str, object]): The fields to add to each instance. Use ‘/’ to access inner fields
use_deepcopy (bool) : Deep copy the input value to avoid later modifications
- Examples:
# Set a value of a list consisting of “positive” and “negative” do field “classes” to each and every instance of all streams
Set(fields={"classes": ["positive","negatives"]})# In each and every instance of all streams, field “span” is to become a dictionary containing a field “start”, in which the value 0 is to be set
Set(fields={"span/start": 0}# In all instances of stream “train” only, Set field “classes” to have the value of a list consisting of “positive” and “negative”
Set(fields={"classes": ["positive","negatives"], apply_to_stream=["train"]})# Set field “classes” to have the value of a given list, preventing modification of original list from changing the instance.
Set(fields={"classes": alist}), use_deepcopy=True)if now alist is modified, still the instances remain intact.
Explanation about Copy¶
Copies values from specified fields to specified fields.
- Args (of parent class):
field_to_field (Union[List[List], Dict[str, str]]): A list of lists, where each sublist contains the source field and the destination field, or a dictionary mapping source fields to destination fields.
- Examples:
An input instance {“a”: 2, “b”: 3}, when processed by
Copy(field_to_field={"a": "b"})would yield {“a”: 2, “b”: 2}, and when processed byCopy(field_to_field={"a": "c"})would yield {“a”: 2, “b”: 3, “c”: 2}with field names containing / , we can also copy inside the field:
Copy(field="a/0",to_field="a")would process instance {“a”: [1, 3]} into {“a”: 1}
Read more about catalog usage here.