rename MathToolbox::toLhs to MathToolbox::decay
this is because this method is completely analogous to std::decay()...
This commit is contained in:
Andreas Lauser
@@ -230,8 +230,8 @@ public:
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assert(0 <= phaseIdx && phaseIdx < numPhases);
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const auto& temperature = FsToolbox::template toLhs<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template toLhs<LhsEval>(fluidState.pressure(phaseIdx));
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const auto& temperature = FsToolbox::template decay<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template decay<LhsEval>(fluidState.pressure(phaseIdx));
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if (phaseIdx == wettingPhaseIdx)
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return WettingPhase::density(temperature, pressure);
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return NonwettingPhase::density(temperature, pressure);
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@@ -247,8 +247,8 @@ public:
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assert(0 <= phaseIdx && phaseIdx < numPhases);
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const auto& temperature = FsToolbox::template toLhs<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template toLhs<LhsEval>(fluidState.pressure(phaseIdx));
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const auto& temperature = FsToolbox::template decay<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template decay<LhsEval>(fluidState.pressure(phaseIdx));
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if (phaseIdx == wettingPhaseIdx)
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return WettingPhase::viscosity(temperature, pressure);
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return NonwettingPhase::viscosity(temperature, pressure);
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@@ -285,8 +285,8 @@ public:
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assert(0 <= phaseIdx && phaseIdx < numPhases);
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const auto& temperature = FsToolbox::template toLhs<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template toLhs<LhsEval>(fluidState.pressure(phaseIdx));
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const auto& temperature = FsToolbox::template decay<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template decay<LhsEval>(fluidState.pressure(phaseIdx));
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if (phaseIdx == wettingPhaseIdx)
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return WettingPhase::enthalpy(temperature, pressure);
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return NonwettingPhase::enthalpy(temperature, pressure);
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@@ -302,8 +302,8 @@ public:
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assert(0 <= phaseIdx && phaseIdx < numPhases);
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const auto& temperature = FsToolbox::template toLhs<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template toLhs<LhsEval>(fluidState.pressure(phaseIdx));
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const auto& temperature = FsToolbox::template decay<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template decay<LhsEval>(fluidState.pressure(phaseIdx));
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if (phaseIdx == wettingPhaseIdx)
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return WettingPhase::thermalConductivity(temperature, pressure);
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return NonwettingPhase::thermalConductivity(temperature, pressure);
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@@ -319,8 +319,8 @@ public:
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assert(0 <= phaseIdx && phaseIdx < numPhases);
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const auto& temperature = FsToolbox::template toLhs<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template toLhs<LhsEval>(fluidState.pressure(phaseIdx));
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const auto& temperature = FsToolbox::template decay<LhsEval>(fluidState.temperature(phaseIdx));
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const auto& pressure = FsToolbox::template decay<LhsEval>(fluidState.pressure(phaseIdx));
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if (phaseIdx == wettingPhaseIdx)
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return WettingPhase::heatCapacity(temperature, pressure);
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return NonwettingPhase::heatCapacity(temperature, pressure);
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