test(e2e-chain): deterministic typed/shaped data generator
Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
This commit is contained in:
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#!/usr/bin/env python3
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"""
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gen_data.py — Deterministic typed/shaped data generator for the streaming-chain
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E2E suite.
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For a scenario (see scenarios.py) it writes a MARTe2 FileReader-compatible binary
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``input_<id>.bin`` and returns a *ground-truth* dict the waveform validator uses
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to reconstruct the expected stream without re-deriving the layout.
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MARTe2 binary format
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--------------------
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[u32 numSigs]
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per signal: [u16 TypeDescriptor.all][32B name (null-padded)][u32 numElements]
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then NUM_ROWS rows, each row = all signals' elements concatenated, every value
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little-endian at its native width.
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Ground-truth dict schema (keyed "<src_id>:<sig_name>")
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------------------------------------------------------
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{
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"t": np.ndarray[float64] # intended sample time (s), flattened
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"v": np.ndarray # native-dtype values, flattened
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"dt": float # per-sample spacing (s)
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"formula": str
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"freq": float | None
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"elements": int
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"rows": int
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"type": str
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"quant": str
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"range_min": float | None
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"range_max": float | None
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"is_time": bool
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}
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Values are the *raw native* values fed to the FileReader. Wire-side quantisation
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is performed by the UDPStreamer, not here — the validator applies the quant
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tolerance using the recorded quant/range fields.
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"""
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import argparse
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import os
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import struct
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import sys
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import numpy as np
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sys.path.insert(0, os.path.dirname(os.path.abspath(__file__)))
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import scenarios as S # noqa: E402 (TYPE_CODES / NP_DTYPE / SCENARIOS)
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NUM_ROWS = 200 # producer cycles written to the FileReader input
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ROW_DT = 1.0e-3 # seconds per producer cycle (row); 1 kHz producer
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def _sample_dt(sig):
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"""Per-element time spacing (s) for a signal."""
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if sig["sampling_rate"]:
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return 1.0 / sig["sampling_rate"]
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e = sig["elements"]
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return ROW_DT / e if e > 1 else ROW_DT
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def _sample_times(sig):
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"""Flattened intended sample times (s): NUM_ROWS*elements values."""
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e = sig["elements"]
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sdt = _sample_dt(sig)
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rows = np.arange(NUM_ROWS, dtype=np.float64).reshape(-1, 1) * ROW_DT
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cols = np.arange(e, dtype=np.float64).reshape(1, -1) * sdt
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return (rows + cols).reshape(-1)
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def _values(sig, t):
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"""Compute float64 values for flattened sample times ``t``."""
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f = sig["formula"]
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e = sig["elements"]
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idx = np.arange(t.size, dtype=np.float64)
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if f == "sine":
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freq = sig["freq"] if sig["freq"] else 1.0
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return np.sin(2.0 * np.pi * freq * t)
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if f == "ramp":
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# linear in the global element index, normalised to a modest range
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return (idx % 1000.0)
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if f == "counter":
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return idx
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if f == "time_ns":
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return np.round(t * 1.0e9)
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if f == "time_us":
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return np.round(t * 1.0e6)
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raise ValueError(f"unknown formula {f!r} for {sig['name']}")
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def _native(sig, vals):
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"""Cast float64 values to the signal's native numpy dtype."""
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dt = S.NP_DTYPE[sig["type"]]
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if sig["type"] in S.FLOAT_TYPES:
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return vals.astype(dt)
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# integer: round then cast (deterministic, no banker's rounding surprises)
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return np.rint(vals).astype(dt)
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def build_ground_truth(scenario):
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"""Return {"<src>:<sig>": gt_dict} for every signal in the scenario."""
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gt = {}
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for src in scenario["sources"]:
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for sig in src["signals"]:
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t = _sample_times(sig)
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v = _native(sig, _values(sig, t))
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gt[f"{src['id']}:{sig['name']}"] = {
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"t": t, "v": v, "dt": _sample_dt(sig),
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"formula": sig["formula"], "freq": sig["freq"],
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"elements": sig["elements"], "rows": NUM_ROWS,
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"type": sig["type"], "quant": sig["quant"],
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"range_min": sig["range_min"], "range_max": sig["range_max"],
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"is_time": sig["is_time"],
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}
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return gt
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def write_input(scenario, path):
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"""Write the MARTe binary for *one* source and return its ground-truth dict.
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The MARTe FileReader reads a single flat row layout, so one input file maps
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to one source. Multi-source scenarios call this once per source with distinct
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paths (the orchestrator handles the per-source filename); here we write the
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first source by default but accept an explicit ``src`` via the scenario when
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a single source is present.
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"""
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os.makedirs(os.path.dirname(os.path.abspath(path)), exist_ok=True)
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gt = build_ground_truth(scenario)
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# write each source to its own file: <path> for src[0], <path>.<srcid> else.
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written = {}
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for i, src in enumerate(scenario["sources"]):
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p = path if i == 0 else f"{path}.{src['id']}"
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_write_source_bin(src, p)
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written[src["id"]] = p
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gt["_files"] = written
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return gt
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def _write_source_bin(src, path):
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sigs = src["signals"]
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# per-signal native 2D arrays [NUM_ROWS, elements]
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cols = {}
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for sig in sigs:
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t = _sample_times(sig)
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v = _native(sig, _values(sig, t))
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cols[sig["name"]] = v.reshape(NUM_ROWS, sig["elements"])
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with open(path, "wb") as f:
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f.write(struct.pack("<I", len(sigs)))
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for sig in sigs:
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f.write(struct.pack("<H", S.TYPE_CODES[sig["type"]]))
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name = (sig["name"] + "\0").encode()
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f.write((name + b"\0" * 32)[:32])
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f.write(struct.pack("<I", sig["elements"]))
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for r in range(NUM_ROWS):
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for sig in sigs:
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f.write(cols[sig["name"]][r].tobytes())
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def main():
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p = argparse.ArgumentParser(description="Generate E2E chain input data")
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p.add_argument("--scenario", required=True, help="scenario id")
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p.add_argument("--out", required=True, help="output input_<id>.bin path")
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args = p.parse_args()
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sc = next((s for s in S.SCENARIOS if s["id"] == args.scenario), None)
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if sc is None:
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print(f"unknown scenario {args.scenario}", file=sys.stderr)
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sys.exit(2)
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gt = write_input(sc, args.out)
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for sid, fp in gt["_files"].items():
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print(f"{sid}: {fp} ({os.path.getsize(fp)} bytes)")
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if __name__ == "__main__":
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main()
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