175 lines
5.8 KiB
Python
175 lines
5.8 KiB
Python
from ..helpers import nativestr
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def list_to_dict(aList):
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return {nativestr(aList[i][0]): nativestr(aList[i][1]) for i in range(len(aList))}
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def _pairs_to_dict(pairs):
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"""Convert a list of [key, value] pairs to a dict without forcing str."""
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return {pairs[i][0]: pairs[i][1] for i in range(len(pairs))}
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def _nativestr_dict(d):
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"""Apply ``nativestr`` to every key and string-typed value of ``d``.
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Used by the RESP3-to-RESP2-legacy adapters so labels coming from a
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RESP3 native map match today's RESP2 ``list_to_dict`` semantics.
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"""
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return {
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nativestr(k): nativestr(v) if isinstance(v, (bytes, str)) else v
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for k, v in d.items()
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}
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def parse_range(response, **kwargs):
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"""Parse range response. Used by TS.RANGE and TS.REVRANGE (legacy shape)."""
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if not response:
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return []
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# Multi-aggregator: samples have >2 elements [timestamp, val1, val2, ...]
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if len(response[0]) > 2:
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return [tuple([r[0]] + [float(v) for v in r[1:]]) for r in response]
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return [tuple((r[0], float(r[1]))) for r in response]
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def parse_range_unified(response, **kwargs):
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"""Unified parser for TS.RANGE / TS.REVRANGE.
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Returns ``list[list]`` rather than ``list[tuple]`` so the unified
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shape is symmetric with the RESP3 wire format.
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"""
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if not response:
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return []
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if len(response[0]) > 2:
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return [[r[0]] + [float(v) for v in r[1:]] for r in response]
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return [[r[0], float(r[1])] for r in response]
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def parse_get(response):
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"""Parse get response. Used by TS.GET (legacy shape)."""
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if not response:
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return None
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return int(response[0]), float(response[1])
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def parse_get_unified(response, **kwargs):
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"""Unified parser for TS.GET. Returns ``[int, float]``."""
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if not response:
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return None
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return [int(response[0]), float(response[1])]
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def parse_m_get(response):
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"""Parse multi get response (RESP2 wire)."""
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res = []
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for item in response:
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if not item[2]:
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res.append({nativestr(item[0]): [list_to_dict(item[1]), None, None]})
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else:
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res.append(
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{
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nativestr(item[0]): [
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list_to_dict(item[1]),
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int(item[2][0]),
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float(item[2][1]),
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]
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}
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)
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return sorted(res, key=lambda d: list(d.keys()))
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def parse_m_get_unified(response, **kwargs):
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"""Unified parser for TS.MGET.
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Emits ``{key: [labels_dict, sample]}`` where ``sample`` is
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``[int, float]`` or ``[]`` when no sample exists. Handles both wire
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formats: the RESP2 wire arrives as a list of ``[key, label_pairs,
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sample]`` triples; the RESP3 wire is already keyed by name.
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"""
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if isinstance(response, dict):
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res = {}
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for key, item in response.items():
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sample = item[1] if len(item) > 1 else []
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if not sample:
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res[key] = [item[0], []]
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else:
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res[key] = [item[0], [int(sample[0]), float(sample[1])]]
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return res
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res = {}
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for item in response:
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if not item[2]:
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res[item[0]] = [_pairs_to_dict(item[1]), []]
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else:
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res[item[0]] = [
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_pairs_to_dict(item[1]),
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[int(item[2][0]), float(item[2][1])],
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]
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return res
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def parse_m_get_resp3_to_resp2_legacy(response, **kwargs):
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"""RESP3 wire → today's RESP2 legacy shape for TS.MGET."""
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res = []
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for key, item in response.items():
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labels = _nativestr_dict(item[0]) if item[0] else {}
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sample = item[1] if len(item) > 1 else []
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if not sample:
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res.append({nativestr(key): [labels, None, None]})
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else:
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res.append({nativestr(key): [labels, int(sample[0]), float(sample[1])]})
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return sorted(res, key=lambda d: list(d.keys()))
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def parse_m_range(response, **kwargs):
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"""Parse multi range response (RESP2 wire)."""
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res = []
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for item in response:
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res.append({nativestr(item[0]): [list_to_dict(item[1]), parse_range(item[2])]})
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return sorted(res, key=lambda d: list(d.keys()))
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def _m_range_metadata(aggregation_type=None):
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if aggregation_type is None:
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# Aggregators are empty when TS.MRANGE/TS.MREVRANGE is called without
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# AGGREGATION; this mirrors RESP3 metadata such as {"aggregators": []}.
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return {"aggregators": []}
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if isinstance(aggregation_type, list):
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aggregators = aggregation_type
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else:
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aggregators = [aggregation_type]
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return {"aggregators": [nativestr(agg).lower() for agg in aggregators]}
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def parse_m_range_unified(response, **kwargs):
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"""Unified parser for TS.MRANGE / TS.MREVRANGE.
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Emits ``{key: [labels_dict, metadata, samples]}`` regardless of wire
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format. RESP2 has no metadata element on the wire, so the command options
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are used to synthesize the same ``{"aggregators": ...}`` structure that
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RESP3 returns.
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"""
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if isinstance(response, dict):
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res = {}
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for key, item in response.items():
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metadata = item[1] if len(item) > 2 else []
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res[key] = [item[0], metadata, parse_range_unified(item[-1])]
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return res
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res = {}
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metadata = _m_range_metadata(kwargs.get("aggregation_type"))
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for item in response:
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res[item[0]] = [
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_pairs_to_dict(item[1]),
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metadata,
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parse_range_unified(item[2]),
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]
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return res
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def parse_m_range_resp3_to_resp2_legacy(response, **kwargs):
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"""RESP3 wire → today's RESP2 legacy shape for TS.MRANGE / TS.MREVRANGE."""
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res = []
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for key, item in response.items():
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labels = _nativestr_dict(item[0]) if item[0] else {}
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samples = item[-1]
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res.append({nativestr(key): [labels, parse_range(samples)]})
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return sorted(res, key=lambda d: list(d.keys()))
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