homemaker-layout/tests/test_genome.py

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"""Genome encode/decode tests (oracle-free; corpus-backed)."""
from pathlib import Path
import pytest
from homemaker_layout import dom, genome, solver
CORPUS = Path(__file__).parent.parent / "examples" / "programme-house"
pytestmark = pytest.mark.skipif(not CORPUS.is_dir(), reason="Corpus not available")
def corpus():
return sorted(CORPUS.glob("*.dom"))
def owned_projection(root: dom.Node):
"""Everything fitness can see: per-level shape+leaf types, owned cut
divisions, heights, base metadata. Dead fields excluded by construction."""
def shape(n: dom.Node):
if not n.divided:
return n.type
return (shape(n.left), shape(n.right))
lvls = dom.levels(root)
owned = {}
for li, lvl in enumerate(lvls):
for b in solver._branches(lvl):
if b.below is None or not b.below.divided:
owned[(li, b.id)] = tuple(b.division)
return {
"shapes": [shape(lvl) for lvl in lvls],
"owned_cuts": owned,
"heights": [lvl.height for lvl in lvls],
"base_meta": {k: getattr(lvls[0], k) for k in
("node", "node_file", "perimeter", "elevation",
"wall_inner", "wall_outer")},
}
def test_roundtrip_preserves_owned_projection():
for f in corpus():
root = dom.load(str(f))
root2 = genome.decode(genome.encode(root))
assert owned_projection(root2) == owned_projection(root), f.name
def test_genome_is_a_fixed_point():
# encode(decode(g)) == g: nothing fitness-relevant is lost or invented
for f in corpus():
g1 = genome.encode(dom.load(str(f)))
g2 = genome.encode(genome.decode(g1))
assert g2 == g1, f.name
def test_decoded_tree_dumps_and_reloads():
for f in corpus():
root2 = genome.decode(genome.encode(dom.load(str(f))))
dom.dump(root2, "/tmp/genome_rt.dom")
root3 = dom.load("/tmp/genome_rt.dom")
assert owned_projection(root3) == owned_projection(root2), f.name
def test_storey_counts():
for f in corpus():
root = dom.load(str(f))
assert genome.encode(root).n_storeys == len(dom.levels(root)), f.name
# --- signature (§11.5 structural niching) --------------------------------- #
def test_signature_invariant_under_roundtrip():
# genome-equal trees (decode canonicalises dead fields) share a signature
for f in corpus():
root = dom.load(str(f))
root2 = genome.decode(genome.encode(root))
assert genome.signature(root) == genome.signature(root2), f.name
def test_signature_ignores_division_ratios():
# same topology, different geometry -> same signature (the niching premise)
import copy
for f in corpus():
root = dom.load(str(f))
sig0 = genome.signature(root)
perturbed = copy.deepcopy(root)
for lvl in dom.levels(perturbed):
for b in solver._branches(lvl):
b.division = [0.37, 0.63] # arbitrary ratio change, same shape
assert genome.signature(perturbed) == sig0, f.name
def test_signature_changes_with_topology():
# a divide mutation changes the structure -> changes the signature
import numpy as np
from homemaker_layout import operators
for f in corpus():
root = genome.decode(genome.encode(dom.load(str(f))))
child, _ = operators.mutate_divide(root, np.random.default_rng(0),
["k1", "l1", "C", "O"])
assert genome.signature(child) != genome.signature(root), f.name