pre-commit

t-b · t-b · commit bde4975dd825 · 2026-02-03T12:16:20.000+01:00
diff --git a/Packages/tests/Basic/UTF_Utils_Checks.ipf b/Packages/tests/Basic/UTF_Utils_Checks.ipf
@@ -649,8 +649,8 @@ End
 
 Function FRIA_Works()
 
-	FUNCREF ProtoFunc_V_IGNORE fref1 = RealFunc_V_IGNORE
-	string funcInfo = FuncRefInfo(fref1)
+	FUNCREF ProtoFunc_V_IGNORE fref1    = RealFunc_V_IGNORE
+	string                     funcInfo = FuncRefInfo(fref1)
 	CHECK(FuncRefIsAssigned(funcInfo))
 
 	FUNCREF ProtoFunc_V_IGNORE fref2 = $""
@@ -734,7 +734,7 @@ Function ITW_Works([STRUCT IUTF_mData &m])
 	// Use WaveType to determine the expected result
 	// WaveType(wv, 1) returns: 0=null, 1=numeric, 2=text, 4=datafolder ref, IGOR_TYPE_WAVEREF_WAVE=wave ref
 	variable waveTypeValue = WaveType(wv, 1)
-	variable expected = (waveTypeValue == 2) // 2 means text wave
+	variable expected      = (waveTypeValue == 2) // 2 means text wave
 
 	CHECK_EQUAL_VAR(IsTextWave(wv), expected)
 End
@@ -752,7 +752,7 @@ Function INW_Works([STRUCT IUTF_mData &m])
 	// Use WaveType to determine the expected result
 	// WaveType(wv, 1) returns: 0=null, 1=numeric, 2=text, 4=datafolder ref, IGOR_TYPE_WAVEREF_WAVE=wave ref
 	variable waveTypeValue = WaveType(wv, 1)
-	variable expected = (waveTypeValue == 1) // 1 means numeric wave
+	variable expected      = (waveTypeValue == 1) // 1 means numeric wave
 
 	CHECK_EQUAL_VAR(IsNumericWave(wv), expected)
 End
@@ -769,7 +769,7 @@ Function IWRW_Works([STRUCT IUTF_mData &m])
 
 	// Use WaveType to determine the expected result
 	variable waveTypeValue = WaveType(wv, 1)
-	variable expected = (waveTypeValue == IGOR_TYPE_WAVEREF_WAVE) // Wave reference wave
+	variable expected      = (waveTypeValue == IGOR_TYPE_WAVEREF_WAVE) // Wave reference wave
 
 	CHECK_EQUAL_VAR(IsWaveRefWave(wv), expected)
 End
@@ -786,7 +786,7 @@ Function IFPW_Works([STRUCT IUTF_mData &m])
 
 	// Check if it's a floating point wave (32-bit or 64-bit)
 	variable waveTypeValue = WaveType(wv)
-	variable expected = !!(waveTypeValue & (IGOR_TYPE_32BIT_FLOAT | IGOR_TYPE_64BIT_FLOAT))
+	variable expected      = !!(waveTypeValue & (IGOR_TYPE_32BIT_FLOAT | IGOR_TYPE_64BIT_FLOAT))
 
 	CHECK_EQUAL_VAR(IsFloatingPointWave(wv), expected)
 End
@@ -803,7 +803,7 @@ Function IDFPW_Works([STRUCT IUTF_mData &m])
 
 	// Check if it's a double precision (64-bit) floating point wave
 	variable waveTypeValue = WaveType(wv)
-	variable expected = !!(waveTypeValue & IGOR_TYPE_64BIT_FLOAT)
+	variable expected      = !!(waveTypeValue & IGOR_TYPE_64BIT_FLOAT)
 
 	CHECK_EQUAL_VAR(IsDoubleFloatingPointWave(wv), expected)
 End
@@ -820,7 +820,7 @@ Function ISFPW_Works([STRUCT IUTF_mData &m])
 
 	// Check if it's a single precision (32-bit) floating point wave
 	variable waveTypeValue = WaveType(wv)
-	variable expected = !!(waveTypeValue & IGOR_TYPE_32BIT_FLOAT)
+	variable expected      = !!(waveTypeValue & IGOR_TYPE_32BIT_FLOAT)
 
 	CHECK_EQUAL_VAR(IsSingleFloatingPointWave(wv), expected)
 End
@@ -852,7 +852,7 @@ Function ICW_Works([STRUCT IUTF_mData &m])
 
 	// Check if it's a complex wave
 	variable waveTypeValue = WaveType(wv)
-	variable expected = !!(waveTypeValue & IGOR_TYPE_COMPLEX)
+	variable expected      = !!(waveTypeValue & IGOR_TYPE_COMPLEX)
 
 	CHECK_EQUAL_VAR(IsComplexWave(wv), expected)
 End
