# Authors: The MNE-Python contributors.
# License: BSD-3-Clause
# Copyright the MNE-Python contributors.
import copy
from pathlib import Path
import matplotlib.pyplot as plt
import numpy as np
import pytest
from numpy.testing import (
assert_allclose,
assert_array_almost_equal,
assert_array_equal,
assert_equal,
)
from mne import pick_info, pick_types
from mne._fiff.constants import FIFF
from mne._fiff.meas_info import _empty_info
from mne.channels import (
Layout,
find_layout,
make_eeg_layout,
make_grid_layout,
read_layout,
)
from mne.channels.layout import _box_size, _find_topomap_coords, generate_2d_layout
from mne.defaults import HEAD_SIZE_DEFAULT
from mne.io import read_info, read_raw_kit
io_dir = Path(__file__).parents[2] / "io"
fif_fname = io_dir / "tests" / "data" / "test_raw.fif"
lout_path = io_dir / "tests" / "data"
bti_dir = io_dir / "bti" / "tests" / "data"
fname_ctf_raw = io_dir / "tests" / "data" / "test_ctf_comp_raw.fif"
fname_kit_157 = io_dir / "kit" / "tests" / "data" / "test.sqd"
fname_kit_umd = io_dir / "kit" / "tests" / "data" / "test_umd-raw.sqd"
def _get_test_info():
"""Make test info."""
test_info = _empty_info(1000)
loc = np.array(
[0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0, 0.0, 0.0, 0.0, 1.0], dtype=np.float32
)
test_info["chs"] = [
{
"cal": 1,
"ch_name": "ICA 001",
"coil_type": 0,
"coord_frame": 0,
"kind": 502,
"loc": loc.copy(),
"logno": 1,
"range": 1.0,
"scanno": 1,
"unit": -1,
"unit_mul": 0,
},
{
"cal": 1,
"ch_name": "ICA 002",
"coil_type": 0,
"coord_frame": 0,
"kind": 502,
"loc": loc.copy(),
"logno": 2,
"range": 1.0,
"scanno": 2,
"unit": -1,
"unit_mul": 0,
},
{
"cal": 0.002142000012099743,
"ch_name": "EOG 061",
"coil_type": 1,
"coord_frame": 0,
"kind": 202,
"loc": loc.copy(),
"logno": 61,
"range": 1.0,
"scanno": 376,
"unit": 107,
"unit_mul": 0,
},
]
test_info._unlocked = False
test_info._update_redundant()
test_info._check_consistency()
return test_info
@pytest.fixture(scope="module")
def layout():
"""Get a layout."""
return Layout(
(0.1, 0.2, 0.1, 1.2),
pos=np.array([[0, 0, 0.1, 0.1], [0.2, 0.2, 0.1, 0.1], [0.4, 0.4, 0.1, 0.1]]),
names=["0", "1", "2"],
ids=[0, 1, 2],
kind="test",
)
def test_io_layout_lout(tmp_path):
"""Test IO with .lout files."""
layout = read_layout(fname="Vectorview-all", scale=False)
layout.save(tmp_path / "foobar.lout", overwrite=True)
layout_read = read_layout(
fname=tmp_path / "foobar.lout",
scale=False,
)
assert_array_almost_equal(layout.pos, layout_read.pos, decimal=2)
assert layout.names == layout_read.names
assert "<Layout |" in layout.__repr__()
def test_io_layout_lay(tmp_path):
"""Test IO with .lay files."""
layout = read_layout(fname="CTF151", scale=False)
layout.save(str(tmp_path / "foobar.lay"))
layout_read = read_layout(fname=tmp_path / "foobar.lay", scale=False)
assert_array_almost_equal(layout.pos, layout_read.pos, decimal=2)
assert layout.names == layout_read.names
def test_find_topomap_coords():
"""Test mapping of coordinates in 3D space to 2D."""
info = read_info(fif_fname)
picks = pick_types(info, meg=False, eeg=True, eog=False, stim=False)
# Remove extra digitization point, so EEG digitization points match up
# with the EEG channels
del info["dig"][85]
# Use channel locations
kwargs = dict(ignore_overlap=False, to_sphere=True, sphere=HEAD_SIZE_DEFAULT)
l0 = _find_topomap_coords(info, picks, **kwargs)
# Remove electrode position information, use digitization points from now
# on.
for ch in info["chs"]:
ch["loc"].fill(np.nan)
l1 = _find_topomap_coords(info, picks, **kwargs)
assert_allclose(l1, l0, atol=1e-3)
for z_pt in ((HEAD_SIZE_DEFAULT, 0.0, 0.0), (0.0, HEAD_SIZE_DEFAULT, 0.0)):
info["dig"][-1]["r"] = np.array(z_pt)
l1 = _find_topomap_coords(info, picks, **kwargs)
assert_allclose(l1[-1], z_pt[:2], err_msg="Z=0 point moved", atol=1e-6)
# Test plotting mag topomap without channel locations: it should fail
mag_picks = pick_types(info, meg="mag")
with pytest.raises(ValueError, match="Cannot determine location"):
_find_topomap_coords(info, mag_picks, **kwargs)
# Test function with too many EEG digitization points: it should fail
info["dig"].append({"r": [1, 2, 3], "kind": FIFF.FIFFV_POINT_EEG})
with pytest.raises(ValueError, match="Number of EEG digitization points"):
_find_topomap_coords(info, picks, **kwargs)
# Test function with too little EEG digitization points: it should fail
info._unlocked = True
info["dig"] = info["dig"][:-2]
with pytest.raises(ValueError, match="Number of EEG digitization points"):
_find_topomap_coords(info, picks, **kwargs)
# Electrode positions must be unique
info["dig"].append(info["dig"][-1])
with pytest.raises(ValueError, match="overlapping positions"):
_find_topomap_coords(info, picks, **kwargs)
# Test function without EEG digitization points: it should fail
info["dig"] = [d for d in info["dig"] if d["kind"] != FIFF.FIFFV_POINT_EEG]
with pytest.raises(RuntimeError, match="Did not find any digitization"):
_find_topomap_coords(info, picks, **kwargs)
# Test function without any digitization points, it should fail
info["dig"] = None
with pytest.raises(RuntimeError, match="No digitization points found"):
_find_topomap_coords(info, picks, **kwargs)
info["dig"] = []
with pytest.raises(RuntimeError, match="No digitization points found"):
_find_topomap_coords(info, picks, **kwargs)
def test_make_eeg_layout(tmp_path):
"""Test creation of EEG layout."""
lout_orig = read_layout(fname=lout_path / "test_raw.lout")
info = read_info(fif_fname)
info["bads"].append(info["ch_names"][360])
layout = make_eeg_layout(info, exclude=[])
assert_array_equal(
len(layout.names),
len([ch for ch in info["ch_names"] if ch.startswith("EE")]),
)
layout.save(str(tmp_path / "foo.lout"))
lout_new = read_layout(fname=tmp_path / "foo.lout", scale=False)
assert_array_equal(lout_new.kind, "foo")
assert_allclose(layout.pos, lout_new.pos, atol=0.1)
assert_array_equal(lout_orig.names, lout_new.names)
# Test input validation
pytest.raises(ValueError, make_eeg_layout, info, radius=-0.1)
pytest.raises(ValueError, make_eeg_layout, info, radius=0.6)
pytest.raises(ValueError, make_eeg_layout, info, width=-0.1)
pytest.raises(ValueError, make_eeg_layout, info, width=1.1)
pytest.raises(ValueError, make_eeg_layout, info, height=-0.1)
pytest.raises(ValueError, make_eeg_layout, info, height=1.1)
def test_make_grid_layout(tmp_path):
"""Test creation of grid layout."""
lout_orig = read_layout(fname=lout_path / "test_ica.lout")
layout = make_grid_layout(_get_test_info())
layout.save(str(tmp_path / "bar.lout"))
lout_new = read_layout(fname=tmp_path / "bar.lout")
assert_array_equal(lout_new.kind, "bar")
assert_array_equal(lout_orig.pos, lout_new.pos)
assert_array_equal(lout_orig.names, lout_new.names)
# Test creating grid layout with specified number of columns
layout = make_grid_layout(_get_test_info(), n_col=2)
# Vertical positions should be equal
assert layout.pos[0, 1] == layout.pos[1, 1]
# Horizontal positions should be unequal
assert layout.pos[0, 0] != layout.pos[1, 0]
# Box sizes should be equal
assert_array_equal(layout.pos[0, 3:], layout.pos[1, 3:])
def test_find_layout():
"""Test finding layout."""
with pytest.raises(ValueError, match="Invalid value for the 'ch_type'"):
find_layout(_get_test_info(), ch_type="meep")
sample_info = read_info(fif_fname)
sample_info2 = pick_info(sample_info, pick_types(sample_info, meg="grad"))
sample_info3 = pick_info(sample_info, pick_types(sample_info, meg="mag"))
sample_info4 = copy.deepcopy(sample_info)
for ii, name in enumerate(sample_info4["ch_names"]): # mock new convention
new = name.replace(" ", "")
sample_info4["chs"][ii]["ch_name"] = new
sample_info5 = pick_info(sample_info, pick_types(sample_info, meg=False, eeg=True))
lout = find_layout(sample_info, ch_type=None)
assert lout.kind == "Vectorview-all"
assert all(" " in k for k in lout.names)
lout = find_layout(sample_info2, ch_type="meg")
assert_equal(lout.kind, "Vectorview-all")
# test new vector-view
lout = find_layout(sample_info4, ch_type=None)
assert_equal(lout.kind, "Vectorview-all")
assert all(" " not in k for k in lout.names)
lout = find_layout(sample_info, ch_type="grad")
assert_equal(lout.kind, "Vectorview-grad")
lout = find_layout(sample_info2)
assert_equal(lout.kind, "Vectorview-grad")
lout = find_layout(sample_info2, ch_type="grad")
assert_equal(lout.kind, "Vectorview-grad")
lout = find_layout(sample_info2, ch_type="meg")
assert_equal(lout.kind, "Vectorview-all")
lout = find_layout(sample_info, ch_type="mag")
assert_equal(lout.kind, "Vectorview-mag")
lout = find_layout(sample_info3)
assert_equal(lout.kind, "Vectorview-mag")
lout = find_layout(sample_info3, ch_type="mag")
assert_equal(lout.kind, "Vectorview-mag")
lout = find_layout(sample_info3, ch_type="meg")
assert_equal(lout.kind, "Vectorview-all")
lout = find_layout(sample_info, ch_type="eeg")
assert_equal(lout.kind, "EEG")
lout = find_layout(sample_info5)
assert_equal(lout.kind, "EEG")
lout = find_layout(sample_info5, ch_type="eeg")
assert_equal(lout.kind, "EEG")
# no common layout, 'meg' option not supported
lout = find_layout(read_info(fname_ctf_raw))
assert_equal(lout.kind, "CTF-275")
fname_bti_raw = bti_dir / "exported4D_linux_raw.fif"
lout = find_layout(read_info(fname_bti_raw))
assert_equal(lout.kind, "magnesWH3600")
raw_kit = read_raw_kit(fname_kit_157)
lout = find_layout(raw_kit.info)
assert_equal(lout.kind, "KIT-157")
raw_kit.info["bads"] = ["MEG 013", "MEG 014", "MEG 015", "MEG 016"]
raw_kit.info._check_consistency()
lout = find_layout(raw_kit.info)
assert_equal(lout.kind, "KIT-157")
# fallback for missing IDs
for val in (35, 52, 54, 1001):
with raw_kit.info._unlock():
raw_kit.info["kit_system_id"] = val
lout = find_layout(raw_kit.info)
assert lout.kind == "custom"
raw_umd = read_raw_kit(fname_kit_umd)
lout = find_layout(raw_umd.info)
assert_equal(lout.kind, "KIT-UMD-3")
# Test plotting
lout.plot()
lout.plot(picks=np.arange(10))
plt.close("all")
def test_box_size():
"""Test calculation of box sizes."""
# No points. Box size should be 1,1.
assert_allclose(_box_size([]), (1.0, 1.0))
# Create one point. Box size should be 1,1.
point = [(0, 0)]
assert_allclose(_box_size(point), (1.0, 1.0))
# Create two points. Box size should be 0.5,1.
points = [(0.25, 0.5), (0.75, 0.5)]
assert_allclose(_box_size(points), (0.5, 1.0))
# Create three points. Box size should be (0.5, 0.5).
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_allclose(_box_size(points), (0.5, 0.5))
# Create a grid of points. Box size should be (0.1, 0.1).
x, y = np.meshgrid(np.linspace(-0.5, 0.5, 11), np.linspace(-0.5, 0.5, 11))
x, y = x.ravel(), y.ravel()
assert_allclose(_box_size(np.c_[x, y]), (0.1, 0.1))
# Create a random set of points. This should never break the function.
rng = np.random.RandomState(42)
points = rng.rand(100, 2)
width, height = _box_size(points)
assert width is not None
assert height is not None
# Test specifying an existing width.
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_allclose(_box_size(points, width=0.4), (0.4, 0.5))
# Test specifying an existing width that has influence on the calculated
# height.
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_allclose(_box_size(points, width=0.2), (0.2, 1.0))
# Test specifying an existing height.
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_allclose(_box_size(points, height=0.4), (0.5, 0.4))
# Test specifying an existing height that has influence on the calculated
# width.
points = [(0.25, 0.25), (0.75, 0.45), (0.5, 0.75)]
assert_allclose(_box_size(points, height=0.1), (1.0, 0.1))
# Test specifying both width and height. The function should simply return
# these.
points = [(0.25, 0.25), (0.75, 0.45), (0.5, 0.75)]
assert_array_equal(_box_size(points, width=0.1, height=0.1), (0.1, 0.1))
# Test specifying a width that will cause unfixable horizontal overlap and
# essentially breaks the function (height will be 0).
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_array_equal(_box_size(points, width=1), (1, 0))
# Test adding some padding.
# Create three points. Box size should be a little less than (0.5, 0.5).
points = [(0.25, 0.25), (0.75, 0.25), (0.5, 0.75)]
assert_allclose(_box_size(points, padding=0.1), (0.9 * 0.5, 0.9 * 0.5))
def test_generate_2d_layout():
"""Test creation of a layout from 2d points."""
snobg = 10
sbg = 15
side = range(snobg)
bg_image = np.random.RandomState(42).randn(sbg, sbg)
w, h = [0.2, 0.5]
# Generate fake data
xy = np.array([(i, j) for i in side for j in side])
lt = generate_2d_layout(xy, w=w, h=h)
# Correct points ordering / minmaxing
comp_1, comp_2 = [(5, 0), (7, 0)]
assert lt.pos[:, :2].max() == 1
assert lt.pos[:, :2].min() == 0
with np.errstate(invalid="ignore"): # divide by zero
assert_allclose(
xy[comp_2] / float(xy[comp_1]), lt.pos[comp_2] / float(lt.pos[comp_1])
)
assert_allclose(lt.pos[0, [2, 3]], [w, h])
# Correct number elements
assert lt.pos.shape[1] == 4
assert len(lt.box) == 4
# Make sure background image normalizing is correct
lt_bg = generate_2d_layout(xy, bg_image=bg_image)
assert_allclose(lt_bg.pos[:, :2].max(), xy.max() / float(sbg))
def test_layout_copy(layout):
"""Test copying a layout."""
layout2 = layout.copy()
assert_allclose(layout.pos, layout2.pos)
assert layout.names == layout2.names
layout2.names[0] = "foo"
layout2.pos[0, 0] = 0.8
assert layout.names != layout2.names
assert layout.pos[0, 0] != layout2.pos[0, 0]
@pytest.mark.parametrize(
"picks, exclude",
[
([0, 1], ()),
(["0", 1], ()),
(None, ["2"]),
(None, "2"),
(None, [2]),
(None, 2),
("all", 2),
("all", "2"),
(slice(0, 2), ()),
(("0", "1"), ("0", "1")),
(("0", 1), ("0", "1")),
(("0", 1), (0, "1")),
(set(["0", 1]), ()),
(set([0, 1]), set()),
(None, set([2])),
(np.array([0, 1]), ()),
(None, np.array([2])),
(np.array(["0", "1"]), ()),
],
)
def test_layout_pick(layout, picks, exclude):
"""Test selection of channels in a layout."""
layout2 = layout.copy()
layout2.pick(picks, exclude)
assert layout2.names == layout.names[:2]
assert_allclose(layout2.pos, layout.pos[:2, :])
def test_layout_pick_more(layout):
"""Test more channel selection in a layout."""
layout2 = layout.copy()
layout2.pick(0)
assert len(layout2.names) == 1
assert layout2.names[0] == layout.names[0]
assert_allclose(layout2.pos, layout.pos[:1, :])
layout2 = layout.copy()
layout2.pick("all", exclude=("0", "1"))
assert len(layout2.names) == 1
assert layout2.names[0] == layout.names[2]
assert_allclose(layout2.pos, layout.pos[2:, :])
layout2 = layout.copy()
layout2.pick("all", exclude=("0", 1))
assert len(layout2.names) == 1
assert layout2.names[0] == layout.names[2]
assert_allclose(layout2.pos, layout.pos[2:, :])
def test_layout_pick_errors(layout):
"""Test validation of layout.pick."""
with pytest.raises(TypeError, match="must be a list, tuple, set or ndarray"):
layout.pick(lambda x: x)
with pytest.raises(TypeError, match="must be a list, tuple, set or ndarray"):
layout.pick(None, lambda x: x)
with pytest.raises(TypeError, match="must be integers or strings"):
layout.pick([0, lambda x: x])
with pytest.raises(TypeError, match="must be integers or strings"):
layout.pick(None, [0, lambda x: x])
with pytest.raises(ValueError, match="does not match any channels"):
layout.pick("foo")
with pytest.raises(ValueError, match="does not match any channels"):
layout.pick(None, "foo")
with pytest.raises(ValueError, match="does not match any channels"):
layout.pick(101)
with pytest.raises(ValueError, match="does not match any channels"):
layout.pick(None, 101)
with pytest.warns(RuntimeWarning, match="has duplicates which will be ignored"):
layout.copy().pick(["0", "0"])
with pytest.warns(RuntimeWarning, match="has duplicates which will be ignored"):
layout.copy().pick(["0", 0])
with pytest.warns(RuntimeWarning, match="has duplicates which will be ignored"):
layout.copy().pick(None, ["0", "0"])
with pytest.warns(RuntimeWarning, match="has duplicates which will be ignored"):
layout.copy().pick(None, ["0", 0])
with pytest.raises(RuntimeError, match="selection yielded no remaining channels"):
layout.copy().pick(None, ["0", "1", "2"])
with pytest.raises(ValueError, match="must be a 1D array-like"):
layout.copy().pick(None, np.array([[0, 1]]))
with pytest.raises(TypeError, match="slice of integers"):
layout.copy().pick(slice("2342342342", 0, 3), ())
Datasets
Models
