slic/tests/test_utils_marker.py

import pytest
import sys
import os 

# S'assurer que la racine du projet est dans le path
sys.path.insert(0, os.path.abspath(os.path.join(os.path.dirname(__file__), '..')))

# Import en tant que module (évite les références figées)
import slic.utils.marker as marker_mod


# Dummy class to simulate an adjustable device
class DummyDevice:
    def __init__(self, name="Device", units="V", current=1.23):
        self.name = name
        self.units = units
        self.current = current
        self.set_calls = []

    def get_current_value(self):
        return self.current

    def set_target_value(self, value, hold=False):
        self.set_calls.append((value, hold))
        self.current = value
        return f"Set to {value}{self.units}, hold={hold}"


# --- format_value() tests

def test_format_value_with_units():
    assert marker_mod.format_value(1.5, "V") == "1.5 V"

def test_format_value_without_units():
    assert marker_mod.format_value(1.5, None) == "1.5"


# --- Marker tests

def test_marker_name_default():
    device = DummyDevice(name="Device_TND")
    m = marker_mod.Marker(device, value=2.5)
    assert m.name == "Device_TND at 2.5 V"

def test_marker_name_custom():
    device = DummyDevice(name="Device_TNC")
    m = marker_mod.Marker(device, value=2.5, name="TestName_TNC")
    assert m.name == "TestName_TNC"

def test_marker_repr_format():
    device = DummyDevice(name="Volt_TRF", units="mV", current=1.0)
    m = marker_mod.Marker(device, value=2.5)
    out = repr(m)
    assert 'Marker "Volt_TRF at 2.5 mV"' in out
    assert "(currently at 1.0 mV)" in out

def test_marker_update_changes_value():
    device = DummyDevice(name="Device_TMU", current=4.2)
    m = marker_mod.Marker(device, value=1.0)
    assert m.value == 1.0
    m.update()
    assert m.value == 4.2

def test_marker_update_with_explicit_value():
    device = DummyDevice(name="Device_TUE")
    m = marker_mod.Marker(device, value=0.0)
    m.update(7.7)
    assert m.value == 7.7

def test_marker_goto_sets_value_and_returns_result():
    device = DummyDevice(name="Device_TGG", current=1.0)
    m = marker_mod.Marker(device, value=3.3)
    result = m.goto()
    assert result == "Set to 3.3V, hold=False"
    assert device.current == 3.3
    assert device.set_calls[-1] == (3.3, False)

def test_marker_call_is_alias_of_goto():
    device = DummyDevice(name="Device_TAC", current=1.0)
    m = marker_mod.Marker(device, value=3.3)
    result = m(hold=True)
    assert result == "Set to 3.3V, hold=True"
    assert device.set_calls[-1] == (3.3, True)


# --- markers singleton registry

def test_markers_register_and_access():
    d1 = DummyDevice(name="Dev1_TMR", current=1.0)
    d2 = DummyDevice(name="Dev2_TMR", current=2.0)
    m1 = marker_mod.Marker(d1, value=10)
    m2 = marker_mod.Marker(d2, value=20)

    all_markers = marker_mod.markers._get()

    assert isinstance(all_markers, dict)
    assert m1.name in all_markers
    assert m2.name in all_markers
    assert all_markers[m1.name] is m1
    assert all_markers[m2.name] is m2
    assert marker_mod.markers[m1.name] is m1
    assert marker_mod.markers[m2.name] is m2

def test_markers_repr_contains_all():
    d1 = DummyDevice(name="Dev1_TMR2", current=1.0)
    d2 = DummyDevice(name="Dev2_TMR2", current=2.0)
    d1 = marker_mod.Marker(d1, value=10)
    d2 = marker_mod.Marker(d2, value=20)

    repr_str = repr(marker_mod.markers)
    assert "Dev1_TMR2 at 10 V" in repr_str
    assert "Dev2_TMR2 at 20 V" in repr_str
    assert isinstance(repr_str, str)

def test_marker_registry_dict_is_printable_dict():
    d = DummyDevice(name="DevP_TPR", current=7.0)
    marker_mod.Marker(d, value=70)
    ms = marker_mod.markers._get()
    assert isinstance(ms, dict)
    assert isinstance(repr(marker_mod.markers), str)
    assert isinstance(marker_mod.printable_dict(ms), str)

def test_markers_getitem_invalid_key_raises():
    with pytest.raises(KeyError):
        _ = marker_mod.markers["this marker does not exist"]