From c900ab7528f2b2c09ac5e4b4b50d70c5a81bcd5f Mon Sep 17 00:00:00 2001
From: "Joachim Wuttke (h)" <j.wuttke@fz-juelich.de>
Date: Wed, 10 Nov 2021 10:38:03 +0100
Subject: [PATCH] correct type to resolve new warning
---
Tests/Functional/Std/StandardTests.h | 24 ++++++++++++------------
1 file changed, 12 insertions(+), 12 deletions(-)
diff --git a/Tests/Functional/Std/StandardTests.h b/Tests/Functional/Std/StandardTests.h
index f7c5effb38c..87c7d100070 100644
--- a/Tests/Functional/Std/StandardTests.h
+++ b/Tests/Functional/Std/StandardTests.h
@@ -391,7 +391,7 @@ TEST_F(Std, MagneticSpheres)
TEST_F(Std, MagneticCylinders)
{
- for (const std::string& polCase : {"PP", "MP", "PM", "MM"}) {
+ for (const auto polCase : {"PP", "MP", "PM", "MM"}) {
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createMagneticCylinders());
auto sim = test::makeSimulation::MiniZPolarizedGISAS(*sample, polCase);
EXPECT_TRUE(run("MagneticCylinders" + polCase, *sim, 2e-10));
@@ -400,7 +400,7 @@ TEST_F(Std, MagneticCylinders)
TEST_F(Std, MagneticSpheresInMagLayer)
{
- for (const std::string& polCase : {"PP", "MP"}) {
+ for (const auto polCase : {"PP", "MP"}) {
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createMagneticLayer());
auto sim = test::makeSimulation::MiniZPolarizedGISAS(*sample, polCase);
EXPECT_TRUE(run("MagneticSpheresInMagLayer" + polCase, *sim, 2e-10));
@@ -650,7 +650,7 @@ TEST_F(Std, TOFResolutionComparison)
TEST_F(Std, BasicSpecular)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createSimpleMagneticLayer());
- for (const std::string& polCase : {"PP", "MM"}) {
+ for (const auto polCase : {"PP", "MM"}) {
auto sim = test::makeSimulation::BasicYPolarizedSpecular(*sample, polCase, false);
EXPECT_TRUE(run("BasicSpecular" + polCase, *sim, 1e-10));
}
@@ -659,7 +659,7 @@ TEST_F(Std, BasicSpecular)
TEST_F(Std, PolarizedQAngleReflectivity)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createSimpleMagneticLayer());
- for (const std::string& polKey : {"PP", "MM"}) {
+ for (const auto polKey : {"PP", "MM"}) {
auto sim = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
EXPECT_TRUE(run("PolarizedQAngleReflectivity" + polKey + "_Q", *sim, 1e-10));
}
@@ -667,10 +667,10 @@ TEST_F(Std, PolarizedQAngleReflectivity)
TEST_F(Std, MagneticRotationReflectivity)
{
- for (const std::string& roughnessKey : {"Flat", "Tanh", "NevotCroce"}) {
+ for (const auto roughnessKey : {"Flat", "Tanh", "NevotCroce"}) {
std::unique_ptr<const MultiLayer> sample(
ExemplarySamples::createSimpleMagneticRotationWithRoughness(roughnessKey));
- for (const std::string& polKey : {"PP", "PM", "MP", "MM"}) {
+ for (const auto polKey : {"PP", "PM", "MP", "MM"}) {
auto sim = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(
run("MagneticRotationReflectivity" + polKey + "_" + roughnessKey, *sim, 1e-10));
@@ -681,7 +681,7 @@ TEST_F(Std, MagneticRotationReflectivity)
TEST_F(Std, PolarizedFeNiBilayer)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayer());
- for (const std::string& polKey : {"PP", "MM"}) {
+ for (const auto polKey : {"PP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayer" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
@@ -692,7 +692,7 @@ TEST_F(Std, PolarizedFeNiBilayer)
TEST_F(Std, PolarizedFeNiBilayerTanh)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayerTanh());
- for (const std::string& polKey : {"PP", "MM"}) {
+ for (const auto polKey : {"PP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayerTanh" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
@@ -703,7 +703,7 @@ TEST_F(Std, PolarizedFeNiBilayerTanh)
TEST_F(Std, PolarizedFeNiBilayerNC)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayerNC());
- for (const std::string& polKey : {"PP", "MM"}) {
+ for (const auto polKey : {"PP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayerNC" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
@@ -714,7 +714,7 @@ TEST_F(Std, PolarizedFeNiBilayerNC)
TEST_F(Std, PolarizedFeNiBilayerSpinFlip)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayerSpinFlip());
- for (const std::string& polKey : {"PP", "PM", "MP", "MM"}) {
+ for (const auto polKey : {"PP", "PM", "MP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayerSpinFlip" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
@@ -725,7 +725,7 @@ TEST_F(Std, PolarizedFeNiBilayerSpinFlip)
TEST_F(Std, PolarizedFeNiBilayerSpinFlipTanh)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayerSpinFlipTanh());
- for (const std::string& polKey : {"PP", "PM", "MP", "MM"}) {
+ for (const auto polKey : {"PP", "PM", "MP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayerSpinFlipTanh" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
@@ -736,7 +736,7 @@ TEST_F(Std, PolarizedFeNiBilayerSpinFlipTanh)
TEST_F(Std, PolarizedFeNiBilayerSpinFlipNC)
{
std::unique_ptr<const MultiLayer> sample(ExemplarySamples::createFeNiBilayerSpinFlipNC());
- for (const std::string& polKey : {"PP", "PM", "MP", "MM"}) {
+ for (const auto polKey : {"PP", "PM", "MP", "MM"}) {
auto sim1 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, false);
EXPECT_TRUE(run("PolarizedFeNiBilayerSpinFlipNC" + polKey, *sim1, 1e-7));
auto sim2 = test::makeSimulation::BasicYPolarizedSpecular(*sample, polKey, true);
--
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