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import itertools |
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import logging |
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import re |
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from typing import Dict |
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from .generator_utils import ReusableGenerator |
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from .random_utils import nested_seed |
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from .stream import Stream |
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def parse_random_mix_string(input_str): |
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"""Parses a string of format "source1[percentage1%]+source2[value2]+..." and returns a dictionary. |
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Args: |
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input_str (str): A string containing source names and their respective proportions. The format is |
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"source[proportion%]" or "source[proportion]", with multiple sources separated by "+". |
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The proportion can be a percentage (e.g., "90%") or a decimal number (e.g., "0.7"). |
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If the proportion is not provided, it assumes 100%. |
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Returns: |
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dict: A dictionary where the keys are the source names and the values are the proportions converted to floats. |
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If the proportion was given as a percentage, the value is divided by 100. |
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Raises: |
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ValueError: If the input string is not in the correct format. |
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Example: |
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>>> parse_random_mix_string("dale[90%]+oren[0.7]+mike") |
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{'dale': 0.9, 'oren': 0.7, 'mike': 1.0} |
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""" |
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if not re.fullmatch( |
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r"(([a-zA-Z]+\[\d*\.?\d*%?\]|[a-zA-Z]+)\+)*([a-zA-Z]+\[\d*\.?\d*%?\]|[a-zA-Z]+)", |
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input_str, |
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): |
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raise ValueError(f"Invalid input format for split '{input_str}'") |
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pattern = re.compile(r"([a-zA-Z]+)(\[\d*\.?\d*%?\])?") |
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matches = pattern.findall(input_str) |
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return { |
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name: float(value.strip("[]%")) / 100 |
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if "%" in value |
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else (float(value.strip("[]")) if value else 1.0) |
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for name, value in matches |
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} |
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def parse_slices_string(input_str): |
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"""Parses a string of format "source1[value1:value2] + source2[value2:] + source3 + ..." and returns a dictionary. |
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{"source1": [(value1,value2)], "source2": [(value2, None)], "source3": [(None,None)]...}. |
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If a source appears multiple times with different indices, all index pairs are included in the list. |
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Args: |
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input_str (str): A string containing source names and their respective indices. The format is |
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"source[:index]" or "source[index:]", with multiple sources separated by "+". |
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The index represents the items to be taken from the source. |
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Returns: |
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dict: A dictionary where the keys are the source names and the values are lists of indices as tuples. |
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If the index is before the colon, it is represented as (None, index), |
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if it's after the colon, it's represented as (index, None) |
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Raises: |
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ValueError: If the input string is not in the correct format. |
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Example: |
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>>> parse_slices_string("oren[:50]+jake[24:]+test+oren[5:10]") |
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{'oren': [(None, 50), (5, 10)], 'jake': [(24, None)], 'test': [(None, None)]} |
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""" |
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result_dict = {} |
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sources = re.split(r"\+", input_str) |
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for source in sources: |
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match = re.fullmatch(r"(\w+)\[(\d*):(\d*)\]", source) |
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if match: |
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name, start, end = match.groups() |
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start = int(start) if start else None |
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end = int(end) if end else None |
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elif re.fullmatch(r"\w+", source): |
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name = source |
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start = end = None |
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else: |
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raise ValueError( |
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f'The input string "{input_str}" is not in the correct format.' |
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) |
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if name not in result_dict: |
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result_dict[name] = [(start, end)] |
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else: |
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result_dict[name].append((start, end)) |
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return result_dict |
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def slice_stream(stream, start, end): |
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if start is not None: |
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stream = itertools.islice(stream, start, None) |
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if end is not None: |
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stream = itertools.islice(stream, end) |
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yield from stream |
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def slice_streams(input_streams, mapping): |
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"""Slices multiple input streams according to a mapping and chains the results together. |
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Args: |
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input_streams (dict): A dictionary where the keys are the names of the input streams |
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and the values are the input streams themselves. |
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mapping (dict): A dictionary where the keys are the names of the new streams |
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and the values are dictionaries mapping old stream names |
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to lists of tuples representing slices. |
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Returns: |
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dict: A dictionary where the keys are the names of the new streams and the values are |
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the new streams, which consist of parts of the old streams chained together. |
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Raises: |
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ValueError: If a stream is supposed to be sliced at an index greater than its length or a negative one. |
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Example: |
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>>> old_streams = {"train": [1, 2, 3, 4, 5, 6, 7, 8, 9], "test": [10, 11, 12, 13, 14]} |
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>>> mapping = {"new_train": {"train": [(None, 5), (7, 9)]}, "new_test": {"test": [(2, None)]}} |
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>>> slice_streams(old_streams, mapping) |
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{"new_train": [1, 2, 3, 4, 5, 8, 9], "new_test": [12, 13, 14]} |
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""" |
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new_streams = {} |
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for new_stream, sources in mapping.items(): |
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def generator(new_stream, sources): |
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for old_stream, slices in sources.items(): |
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if old_stream not in input_streams: |
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raise ValueError(f"'{old_stream}' is not available in input stream") |
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old_stream_content = input_streams[old_stream] |
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for start, end in slices: |
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yield from slice_stream(old_stream_content, start, end) |
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new_streams[new_stream] = ReusableGenerator( |
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generator, gen_kwargs={"new_stream": new_stream, "sources": sources} |
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) |
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return new_streams |
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def build_stream_routing(mapping): |
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"""Builds the stream mapping dictionary based on the provided mapping. |
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The stream mapping dictionary represents the mapping of old streams to new streams |
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and their respective probabilities. It ensures that the probabilities for each old stream |
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do not sum up to more than one. If the sum of probabilities is less than one, |
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a null stream (None) is included to account for the remaining probability. |
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Args: |
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mapping (dict): A dictionary specifying the mapping of old streams to new streams |
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and their respective probabilities. |
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Returns: |
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dict: A dictionary representing the stream mapping, where each entry corresponds to an |
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old stream, and the value is a tuple containing the new streams and their respective |
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probabilities. |
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Example: |
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>>> mapping = { |
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'my_new_stream': { |
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'my_old_stream1': 0.6, |
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'my_old_stream2': 0.2 |
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}, |
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'my_new_stream2': { |
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'my_old_stream1': 0.4, |
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'my_old_stream2': 0.8 |
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} |
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} |
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stream_mapping = build_stream_mapping(mapping) |
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logging.info(stream_mapping) |
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# Output: {'my_old_stream1': (['my_new_stream', 'my_new_stream2'], [0.6, 0.4]), |
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# 'my_old_stream2': (['my_new_stream', 'my_new_stream2'], [0.2, 0.8])} |
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""" |
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stream_mapping = {} |
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total_weights = {} |
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for _new_stream, old_streams in mapping.items(): |
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for old_stream, weight in old_streams.items(): |
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if old_stream not in total_weights: |
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total_weights[old_stream] = weight |
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else: |
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total_weights[old_stream] += weight |
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for new_stream, old_streams in mapping.items(): |
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for old_stream, weight in old_streams.items(): |
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if old_stream not in stream_mapping: |
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stream_mapping[old_stream] = {} |
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stream_mapping[old_stream][new_stream] = weight |
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if total_weights[old_stream] < 1: |
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stream_mapping[old_stream][None] = 1 - total_weights[old_stream] |
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return {k: (list(v.keys()), list(v.values())) for k, v in stream_mapping.items()} |
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def rename_split(input_streams: Dict[str, Stream], mapping: Dict[str, str]): |
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"""Renames the streams. |
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Args: |
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input_streams (dict): A dictionary containing the input streams, where each key is |
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the name of the stream and the value is an iterable or generator |
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representing the stream. |
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mapping (dict): A dictionary specifying the mapping of old streams to new streams. |
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Returns: |
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dict: A dictionary containing the generated new streams, where each key is the name |
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of the new stream and the value is a generator representing the stream. |
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""" |
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return {mapping.get(key, key): val for key, val in input_streams.items()} |
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def random_mix_generator( |
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new_stream_name, new_stream_sources, stream_routing, input_streams |
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): |
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for old_stream_name in new_stream_sources: |
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optinal_streams, weights = stream_routing[old_stream_name] |
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with nested_seed(old_stream_name) as rand: |
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assert ( |
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old_stream_name in input_streams |
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), f"'{old_stream_name}' split not found. Possibles options: {input_streams.keys()}" |
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for item in input_streams[old_stream_name]: |
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choice = rand.choices(optinal_streams, weights=weights, k=1)[0] |
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if choice == new_stream_name: |
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yield item |
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def random_mix_streams(input_streams, mapping): |
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"""Creates new streams based on the provided input streams and mapping. |
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The create_streams function generates new streams by selectively including items from |
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the old streams based on the specified mapping. Each item will be included in at most |
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one new stream, as defined by the probabilities in the mapping and stream routing. |
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Args: |
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input_streams (dict): A dictionary containing the input streams, where each key is |
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the name of the stream and the value is an iterable or generator |
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representing the stream. |
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mapping (dict): A dictionary specifying the mapping of old streams to new streams |
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and their respective probabilities. |
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Returns: |
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dict: A dictionary containing the generated new streams, where each key is the name |
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of the new stream and the value is a generator representing the stream. |
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Example: |
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>>> input_streams = { |
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'my_old_stream1': gen1(), |
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'my_old_stream2': gen2(), |
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} |
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mapping = { |
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'my_new_stream': { |
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'my_old_stream1': 0.6, |
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'my_old_stream2': 0.2 |
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}, |
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'my_new_stream2': { |
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'my_old_stream1': 0.4, |
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'my_old_stream2': 0.8 |
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} |
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} |
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new_streams = create_streams(input_streams, mapping) |
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for new_stream_name, new_stream in new_streams.items(): |
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logging.info(f"{new_stream_name}:") |
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for _, item in zip(range(10), new_stream): |
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logging.info(item) |
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""" |
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new_streams = {} |
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stream_routing = build_stream_routing(mapping) |
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with nested_seed(): |
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for new_stream_name, new_stream_sources in mapping.items(): |
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new_streams[new_stream_name] = ReusableGenerator( |
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random_mix_generator, |
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gen_kwargs={ |
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"new_stream_name": new_stream_name, |
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"new_stream_sources": new_stream_sources, |
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"stream_routing": stream_routing, |
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"input_streams": input_streams, |
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}, |
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) |
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return new_streams |
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if __name__ == "__main__": |
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logging.info(parse_random_mix_string("dale[90%]+oren[0.7]+mike")) |
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