@@ -67,7 +67,7 @@ def test_capture_four_low_frequency():
6767
6868 la = logic_analyzer .LogicAnalyzer (psl .H )
6969 e2e_time = (frequency ** - 1 ) / 2
70- t1 , t2 , t3 , t4 = la .capture (4 , 10 , e2e_time = e2e_time )
70+ t1 = la .capture (4 , 10 , e2e_time = e2e_time )[ 0 ]
7171 assert np .array (9 * [e2e_time * MICROSECONDS ]) == pytest .approx (
7272 np .diff (t1 ), rel = RELTOL
7373 )
@@ -89,7 +89,7 @@ def test_capture_four_lower_frequency():
8989
9090 la = logic_analyzer .LogicAnalyzer (psl .H )
9191 e2e_time = (frequency ** - 1 ) / 2
92- t1 , t2 , t3 , t4 = la .capture (4 , 10 , e2e_time = e2e_time )
92+ t1 = la .capture (4 , 10 , e2e_time = e2e_time )[ 0 ]
9393 assert np .array (9 * [e2e_time * MICROSECONDS ]) == pytest .approx (
9494 np .diff (t1 ), rel = RELTOL
9595 )
@@ -111,7 +111,7 @@ def test_capture_four_lowest_frequency():
111111
112112 la = logic_analyzer .LogicAnalyzer (psl .H )
113113 e2e_time = (frequency ** - 1 ) * 4
114- t1 , t2 , t3 , t4 = la .capture (4 , 10 , modes = 4 * ["four rising" ], e2e_time = e2e_time )
114+ t1 = la .capture (4 , 10 , modes = 4 * ["four rising" ], e2e_time = e2e_time )[ 0 ]
115115 assert np .array (9 * [e2e_time * MICROSECONDS ]) == pytest .approx (
116116 np .diff (t1 ), rel = RELTOL
117117 )
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