diff --git a/include/cantera/base/fmt.h b/include/cantera/base/fmt.h index 68c0cfa3c7..7bfcac1ff0 100644 --- a/include/cantera/base/fmt.h +++ b/include/cantera/base/fmt.h @@ -38,7 +38,18 @@ void format_to(fmt::memory_buffer& b, Args... args) { inline std::string to_string(fmt::memory_buffer& b) { return b.str(); } +#endif +#if !defined(FMT_VERSION) || FMT_VERSION < 80000 +template +void fmt_append(fmt::memory_buffer& b, Args... args) { + format_to(b, args...); +} +#else +template +void fmt_append(fmt::memory_buffer& b, Args... args) { + format_to(fmt::appender(b), args...); +} #endif #endif diff --git a/src/base/AnyMap.cpp b/src/base/AnyMap.cpp index 7eaafb20b7..b5eb8551e7 100644 --- a/src/base/AnyMap.cpp +++ b/src/base/AnyMap.cpp @@ -1393,11 +1393,11 @@ std::string AnyMap::keys_str() const fmt::memory_buffer b; auto iter = this->begin(); if (iter != this->end()) { - format_to(b, "{}", iter->first); + fmt_append(b, "{}", iter->first); ++iter; } while (iter != this->end()) { - format_to(b, ", {}", iter->first); + fmt_append(b, ", {}", iter->first); ++iter; } return to_string(b); @@ -1756,7 +1756,7 @@ void formatInputFile(fmt::memory_buffer& b, const shared_ptr& metadata, column2 = column; } - format_to(b, "| Line |\n"); + fmt_append(b, "| Line |\n"); if (!metadata->hasKey("file-contents")) { std::ifstream infile(findInputFile(filename)); std::stringstream buffer; @@ -1769,15 +1769,15 @@ void formatInputFile(fmt::memory_buffer& b, const shared_ptr& metadata, std::stringstream contents((*metadata)["file-contents"].asString()); while (std::getline(contents, line)) { if (i == lineno || i == lineno2) { - format_to(b, "> {: 5d} > {}\n", i+1, line); - format_to(b, "{:>{}}\n", "^", column + 11); + fmt_append(b, "> {: 5d} > {}\n", i+1, line); + fmt_append(b, "{:>{}}\n", "^", column + 11); lastShown = i; } else if ((lineno + 4 > i && lineno < i + 6) || (lineno2 + 4 > i && lineno2 < i + 6)) { if (lastShown >= 0 && i - lastShown > 1) { - format_to(b, "...\n"); + fmt_append(b, "...\n"); } - format_to(b, "| {: 5d} | {}\n", i+1, line); + fmt_append(b, "| {: 5d} | {}\n", i+1, line); lastShown = i; } i++; @@ -1795,7 +1795,7 @@ std::string InputFileError::formatError(const std::string& message, std::string filename = metadata->getString("filename", "input string"); fmt::memory_buffer b; - format_to(b, "Error on line {} of {}:\n{}\n", lineno+1, filename, message); + fmt_append(b, "Error on line {} of {}:\n{}\n", lineno+1, filename, message); formatInputFile(b, metadata, filename, lineno, column); return to_string(b); } @@ -1814,16 +1814,15 @@ std::string InputFileError::formatError2(const std::string& message, fmt::memory_buffer b; if (filename1 == filename2) { - format_to(b, "Error on lines {} and {} of {}:\n", - std::min(line1, line2) + 1, std::max(line1, line2) + 1, - filename1); - format_to(b, "{}\n", message); + fmt_append(b, "Error on lines {} and {} of {}:\n", + std::min(line1, line2) + 1, std::max(line1, line2) + 1, filename1); + fmt_append(b, "{}\n", message); formatInputFile(b, metadata1, filename1, line1, column1, line2, column2); } else { - format_to(b, "Error on line {} of {} and line {} of {}:\n{}\n", - line1+1, filename1, line2+1, filename2, message); + fmt_append(b, "Error on line {} of {} and line {} of {}:\n{}\n", + line1+1, filename1, line2+1, filename2, message); formatInputFile(b, metadata1, filename1, line1, column1); - format_to(b, "\n"); + fmt_append(b, "\n"); formatInputFile(b, metadata2, filename2, line2, column2); } diff --git a/src/kinetics/KineticsFactory.cpp b/src/kinetics/KineticsFactory.cpp index b45d27c474..72e61b3fc4 100644 --- a/src/kinetics/KineticsFactory.cpp +++ b/src/kinetics/KineticsFactory.cpp @@ -177,7 +177,7 @@ void addReactions(Kinetics& kin, const AnyMap& phaseNode, const AnyMap& rootNode try { kin.addReaction(newReaction(R, kin), false); } catch (CanteraError& err) { - format_to(add_rxn_err, "{}", err.what()); + fmt_append(add_rxn_err, "{}", err.what()); } } } else { @@ -187,7 +187,7 @@ void addReactions(Kinetics& kin, const AnyMap& phaseNode, const AnyMap& rootNode try { kin.addReaction(newReaction(R, kin), false); } catch (CanteraError& err) { - format_to(add_rxn_err, "{}", err.what()); + fmt_append(add_rxn_err, "{}", err.what()); } #else kin.addReaction(newReaction(R, kin), false); diff --git a/src/kinetics/RxnRates.cpp b/src/kinetics/RxnRates.cpp index 4f91f0534f..27ecc3922a 100644 --- a/src/kinetics/RxnRates.cpp +++ b/src/kinetics/RxnRates.cpp @@ -259,10 +259,10 @@ void Plog::validate(const std::string& equation) k += rates_.at(p).updateRC(log(T[i]), 1.0/T[i]); } if (k < 0) { - format_to(err_reactions, - "\nInvalid rate coefficient for reaction '{}'\n" - "at P = {:.5g}, T = {:.1f}\n", - equation, std::exp(iter->first), T[i]); + fmt_append(err_reactions, + "\nInvalid rate coefficient for reaction '{}'\n" + "at P = {:.5g}, T = {:.1f}\n", + equation, std::exp(iter->first), T[i]); } } } diff --git a/src/numerics/CVodesIntegrator.cpp b/src/numerics/CVodesIntegrator.cpp index 66bc2241e6..7e05550329 100644 --- a/src/numerics/CVodesIntegrator.cpp +++ b/src/numerics/CVodesIntegrator.cpp @@ -568,8 +568,8 @@ string CVodesIntegrator::getErrorInfo(int N) sort(weightedErrors.begin(), weightedErrors.end()); fmt::memory_buffer s; for (int i=0; i(weightedErrors[i]), get<1>(weightedErrors[i])); + fmt_append(s, "{}: {}\n", + get<2>(weightedErrors[i]), get<1>(weightedErrors[i])); } return to_string(s); } diff --git a/src/thermo/MolalityVPSSTP.cpp b/src/thermo/MolalityVPSSTP.cpp index 81eac0f646..51a5017aa2 100644 --- a/src/thermo/MolalityVPSSTP.cpp +++ b/src/thermo/MolalityVPSSTP.cpp @@ -381,16 +381,16 @@ std::string MolalityVPSSTP::report(bool show_thermo, doublereal threshold) const fmt::memory_buffer b; try { if (name() != "") { - format_to(b, "\n {}:\n", name()); + fmt_append(b, "\n {}:\n", name()); } - format_to(b, "\n"); - format_to(b, " temperature {:12.6g} K\n", temperature()); - format_to(b, " pressure {:12.6g} Pa\n", pressure()); - format_to(b, " density {:12.6g} kg/m^3\n", density()); - format_to(b, " mean mol. weight {:12.6g} amu\n", meanMolecularWeight()); + fmt_append(b, "\n"); + fmt_append(b, " temperature {:12.6g} K\n", temperature()); + fmt_append(b, " pressure {:12.6g} Pa\n", pressure()); + fmt_append(b, " density {:12.6g} kg/m^3\n", density()); + fmt_append(b, " mean mol. weight {:12.6g} amu\n", meanMolecularWeight()); doublereal phi = electricPotential(); - format_to(b, " potential {:12.6g} V\n", phi); + fmt_append(b, " potential {:12.6g} V\n", phi); vector_fp x(m_kk); vector_fp molal(m_kk); @@ -408,49 +408,54 @@ std::string MolalityVPSSTP::report(bool show_thermo, doublereal threshold) const size_t iHp = speciesIndex("H+"); if (iHp != npos) { double pH = -log(actMolal[iHp]) / log(10.0); - format_to(b, " pH {:12.4g}\n", pH); + fmt_append(b, + " pH {:12.4g}\n", pH); } if (show_thermo) { - format_to(b, "\n"); - format_to(b, " 1 kg 1 kmol\n"); - format_to(b, " ----------- ------------\n"); - format_to(b, " enthalpy {:12.6g} {:12.4g} J\n", - enthalpy_mass(), enthalpy_mole()); - format_to(b, " internal energy {:12.6g} {:12.4g} J\n", - intEnergy_mass(), intEnergy_mole()); - format_to(b, " entropy {:12.6g} {:12.4g} J/K\n", - entropy_mass(), entropy_mole()); - format_to(b, " Gibbs function {:12.6g} {:12.4g} J\n", - gibbs_mass(), gibbs_mole()); - format_to(b, " heat capacity c_p {:12.6g} {:12.4g} J/K\n", - cp_mass(), cp_mole()); + fmt_append(b, "\n"); + fmt_append(b, " 1 kg 1 kmol\n"); + fmt_append(b, " ----------- ------------\n"); + fmt_append(b, " enthalpy {:12.6g} {:12.4g} J\n", + enthalpy_mass(), enthalpy_mole()); + fmt_append(b, " internal energy {:12.6g} {:12.4g} J\n", + intEnergy_mass(), intEnergy_mole()); + fmt_append(b, " entropy {:12.6g} {:12.4g} J/K\n", + entropy_mass(), entropy_mole()); + fmt_append(b, " Gibbs function {:12.6g} {:12.4g} J\n", + gibbs_mass(), gibbs_mole()); + fmt_append(b, " heat capacity c_p {:12.6g} {:12.4g} J/K\n", + cp_mass(), cp_mole()); try { - format_to(b, " heat capacity c_v {:12.6g} {:12.4g} J/K\n", - cv_mass(), cv_mole()); + fmt_append(b, " heat capacity c_v {:12.6g} {:12.4g} J/K\n", + cv_mass(), cv_mole()); } catch (NotImplementedError&) { - format_to(b, " heat capacity c_v \n"); + fmt_append(b, " heat capacity c_v \n"); } } - format_to(b, "\n"); + fmt_append(b, "\n"); int nMinor = 0; doublereal xMinor = 0.0; if (show_thermo) { - format_to(b, " X " - " Molalities Chem.Pot. ChemPotSS ActCoeffMolal\n"); - format_to(b, " " - " (J/kmol) (J/kmol)\n"); - format_to(b, " ------------- " - " ------------ ------------ ------------ ------------\n"); + fmt_append(b, " X " + " Molalities Chem.Pot. ChemPotSS ActCoeffMolal\n"); + fmt_append(b, " " + " (J/kmol) (J/kmol)\n"); + fmt_append(b, " ------------- " + " ------------ ------------ ------------ ------------\n"); for (size_t k = 0; k < m_kk; k++) { if (x[k] > threshold) { if (x[k] > SmallNumber) { - format_to(b, "{:>18s} {:12.6g} {:12.6g} {:12.6g} {:12.6g} {:12.6g}\n", - speciesName(k), x[k], molal[k], mu[k], muss[k], acMolal[k]); + fmt_append(b, + "{:>18s} {:12.6g} {:12.6g} {:12.6g} " + "{:12.6g} {:12.6g}\n", speciesName(k), + x[k], molal[k], mu[k], muss[k], acMolal[k]); } else { - format_to(b, "{:>18s} {:12.6g} {:12.6g} N/A {:12.6g} {:12.6g}\n", - speciesName(k), x[k], molal[k], muss[k], acMolal[k]); + fmt_append(b, + "{:>18s} {:12.6g} {:12.6g} N/A " + "{:12.6g} {:12.6g}\n", speciesName(k), + x[k], molal[k], muss[k], acMolal[k]); } } else { nMinor++; @@ -458,13 +463,11 @@ std::string MolalityVPSSTP::report(bool show_thermo, doublereal threshold) const } } } else { - format_to(b, " X" - "Molalities\n"); - format_to(b, " -------------" - " ------------\n"); + fmt_append(b, " X Molalities\n"); + fmt_append(b, " ------------- ------------\n"); for (size_t k = 0; k < m_kk; k++) { if (x[k] > threshold) { - format_to(b, "{:>18s} {:12.6g} {:12.6g}\n", + fmt_append(b, "{:>18s} {:12.6g} {:12.6g}\n", speciesName(k), x[k], molal[k]); } else { nMinor++; @@ -473,7 +476,7 @@ std::string MolalityVPSSTP::report(bool show_thermo, doublereal threshold) const } } if (nMinor) { - format_to(b, " [{:+5d} minor] {:12.6g}\n", nMinor, xMinor); + fmt_append(b, " [{:+5d} minor] {:12.6g}\n", nMinor, xMinor); } } catch (CanteraError& err) { return to_string(b) + err.what(); diff --git a/src/thermo/PureFluidPhase.cpp b/src/thermo/PureFluidPhase.cpp index 24e99d9d5c..5f0ada363c 100644 --- a/src/thermo/PureFluidPhase.cpp +++ b/src/thermo/PureFluidPhase.cpp @@ -415,50 +415,49 @@ std::string PureFluidPhase::report(bool show_thermo, doublereal threshold) const string blank_leader = fmt::format("{:{}}", "", name_width); - string one_property = "{:>{}} {:<.5g} {}\n"; + string one_property = fmt::format("{{:>{}}} {{:<.5g}} {{}}\n", name_width); string two_prop_header = "{} {:^15} {:^15}\n"; string kg_kmol_header = fmt::format( two_prop_header, blank_leader, "1 kg", "1 kmol" ); - string Y_X_header = fmt::format( - two_prop_header, blank_leader, "mass frac. Y", "mole frac. X" - ); string two_prop_sep = fmt::format( "{} {:-^15} {:-^15}\n", blank_leader, "", "" ); - string two_property = "{:>{}} {:15.5g} {:15.5g} {}\n"; - - string three_prop_header = fmt::format( - "{} {:^15} {:^15} {:^15}\n", blank_leader, "mass frac. Y", - "mole frac. X", "chem. pot. / RT" - ); - string three_prop_sep = fmt::format( - "{} {:-^15} {:-^15} {:-^15}\n", blank_leader, "", "", "" + string two_property = fmt::format( + "{{:>{}}} {{:15.5g}} {{:15.5g}} {{}}\n", name_width ); - string three_property = "{:>{}} {:15.5g} {:15.5g} {:15.5g}\n"; if (name() != "") { - format_to(b, "\n {}:\n", name()); + fmt_append(b, "\n {}:\n", name()); } - format_to(b, "\n"); - format_to(b, one_property, "temperature", name_width, temperature(), "K"); - format_to(b, one_property, "pressure", name_width, pressure(), "Pa"); - format_to(b, one_property, "density", name_width, density(), "kg/m^3"); - format_to(b, one_property, "mean mol. weight", name_width, meanMolecularWeight(), "kg/kmol"); - format_to(b, "{:>{}} {:<.5g}\n", "vapor fraction", name_width, vaporFraction()); - format_to(b, "{:>{}} {}\n", "phase of matter", name_width, phaseOfMatter()); + fmt_append(b, "\n"); + fmt_append(b, one_property, "temperature", temperature(), "K"); + fmt_append(b, one_property, "pressure", pressure(), "Pa"); + fmt_append(b, one_property, "density", density(), "kg/m^3"); + fmt_append(b, one_property, + "mean mol. weight", meanMolecularWeight(), "kg/kmol"); + fmt_append(b, "{:>{}} {:<.5g}\n", + "vapor fraction", name_width, vaporFraction()); + fmt_append(b, "{:>{}} {}\n", + "phase of matter", name_width, phaseOfMatter()); if (show_thermo) { - format_to(b, "\n"); - format_to(b, kg_kmol_header); - format_to(b, two_prop_sep); - format_to(b, two_property, "enthalpy", name_width, enthalpy_mass(), enthalpy_mole(), "J"); - format_to(b, two_property, "internal energy", name_width, intEnergy_mass(), intEnergy_mole(), "J"); - format_to(b, two_property, "entropy", name_width, entropy_mass(), entropy_mole(), "J/K"); - format_to(b, two_property, "Gibbs function", name_width, gibbs_mass(), gibbs_mole(), "J"); - format_to(b, two_property, "heat capacity c_p", name_width, cp_mass(), cp_mole(), "J/K"); - format_to(b, two_property, "heat capacity c_v", name_width, cv_mass(), cv_mole(), "J/K"); + fmt_append(b, "\n"); + fmt_append(b, kg_kmol_header); + fmt_append(b, two_prop_sep); + fmt_append(b, two_property, + "enthalpy", enthalpy_mass(), enthalpy_mole(), "J"); + fmt_append(b, two_property, + "internal energy", intEnergy_mass(), intEnergy_mole(), "J"); + fmt_append(b, two_property, + "entropy", entropy_mass(), entropy_mole(), "J/K"); + fmt_append(b, two_property, + "Gibbs function", gibbs_mass(), gibbs_mole(), "J"); + fmt_append(b, two_property, + "heat capacity c_p", cp_mass(), cp_mole(), "J/K"); + fmt_append(b, two_property, + "heat capacity c_v", cv_mass(), cv_mole(), "J/K"); } return to_string(b); diff --git a/src/thermo/RedlichKwongMFTP.cpp b/src/thermo/RedlichKwongMFTP.cpp index 4d785d09e3..bd8e597603 100644 --- a/src/thermo/RedlichKwongMFTP.cpp +++ b/src/thermo/RedlichKwongMFTP.cpp @@ -933,9 +933,9 @@ void RedlichKwongMFTP::updateMixingExpressions() for (size_t k = 0; k < m_kk; k++) { if (isnan(b_vec_Curr_[k])) { if (b.size() > 0) { - format_to(b, ", {}", speciesName(k)); + fmt_append(b, ", {}", speciesName(k)); } else { - format_to(b, "{}", speciesName(k)); + fmt_append(b, "{}", speciesName(k)); } } } diff --git a/src/thermo/ThermoPhase.cpp b/src/thermo/ThermoPhase.cpp index 0c70202b03..778f30ae66 100644 --- a/src/thermo/ThermoPhase.cpp +++ b/src/thermo/ThermoPhase.cpp @@ -1409,7 +1409,9 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const string blank_leader = fmt::format("{:{}}", "", name_width); - string one_property = "{:>{}} {:<.5g} {}\n"; + string string_property = fmt::format("{{:>{}}} {{}}\n", name_width); + + string one_property = fmt::format("{{:>{}}} {{:<.5g}} {{}}\n", name_width); string two_prop_header = "{} {:^15} {:^15}\n"; string kg_kmol_header = fmt::format( @@ -1421,7 +1423,9 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const string two_prop_sep = fmt::format( "{} {:-^15} {:-^15}\n", blank_leader, "", "" ); - string two_property = "{:>{}} {:15.5g} {:15.5g} {}\n"; + string two_property = fmt::format( + "{{:>{}}} {{:15.5g}} {{:15.5g}} {{}}\n", name_width + ); string three_prop_header = fmt::format( "{} {:^15} {:^15} {:^15}\n", blank_leader, "mass frac. Y", @@ -1430,38 +1434,48 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const string three_prop_sep = fmt::format( "{} {:-^15} {:-^15} {:-^15}\n", blank_leader, "", "", "" ); - string three_property = "{:>{}} {:15.5g} {:15.5g} {:15.5g}\n"; + string three_property = fmt::format( + "{{:>{}}} {{:15.5g}} {{:15.5g}} {{:15.5g}}\n", name_width + ); try { if (name() != "") { - format_to(b, "\n {}:\n", name()); + fmt_append(b, "\n {}:\n", name()); } - format_to(b, "\n"); - format_to(b, one_property, "temperature", name_width, temperature(), "K"); - format_to(b, one_property, "pressure", name_width, pressure(), "Pa"); - format_to(b, one_property, "density", name_width, density(), "kg/m^3"); - format_to(b, one_property, "mean mol. weight", name_width, meanMolecularWeight(), "kg/kmol"); + fmt_append(b, "\n"); + fmt_append(b, one_property, "temperature", temperature(), "K"); + fmt_append(b, one_property, "pressure", pressure(), "Pa"); + fmt_append(b, one_property, "density", density(), "kg/m^3"); + fmt_append(b, one_property, + "mean mol. weight", meanMolecularWeight(), "kg/kmol"); double phi = electricPotential(); if (phi != 0.0) { - format_to(b, one_property, "potential", name_width, phi, "V"); + fmt_append(b, one_property, "potential", phi, "V"); } - format_to(b, "{:>{}} {}\n", "phase of matter", name_width, phaseOfMatter()); + fmt_append(b, string_property, "phase of matter", phaseOfMatter()); if (show_thermo) { - format_to(b, "\n"); - format_to(b, kg_kmol_header); - format_to(b, two_prop_sep); - format_to(b, two_property, "enthalpy", name_width, enthalpy_mass(), enthalpy_mole(), "J"); - format_to(b, two_property, "internal energy", name_width, intEnergy_mass(), intEnergy_mole(), "J"); - format_to(b, two_property, "entropy", name_width, entropy_mass(), entropy_mole(), "J/K"); - format_to(b, two_property, "Gibbs function", name_width, gibbs_mass(), gibbs_mole(), "J"); - format_to(b, two_property, "heat capacity c_p", name_width, cp_mass(), cp_mole(), "J/K"); + fmt_append(b, "\n"); + fmt_append(b, kg_kmol_header); + fmt_append(b, two_prop_sep); + fmt_append(b, two_property, + "enthalpy", enthalpy_mass(), enthalpy_mole(), "J"); + fmt_append(b, two_property, + "internal energy", intEnergy_mass(), intEnergy_mole(), "J"); + fmt_append(b, two_property, + "entropy", entropy_mass(), entropy_mole(), "J/K"); + fmt_append(b, two_property, + "Gibbs function", gibbs_mass(), gibbs_mole(), "J"); + fmt_append(b, two_property, + "heat capacity c_p", cp_mass(), cp_mole(), "J/K"); try { - format_to(b, two_property, "heat capacity c_v", name_width, cv_mass(), cv_mole(), "J/K"); + fmt_append(b, two_property, + "heat capacity c_v", cv_mass(), cv_mole(), "J/K"); } catch (NotImplementedError&) { - format_to(b, "{:>{}} \n", "heat capacity c_v", name_width); + fmt_append(b, string_property, + "heat capacity c_v", ""); } } @@ -1474,16 +1488,17 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const int nMinor = 0; double xMinor = 0.0; double yMinor = 0.0; - format_to(b, "\n"); + fmt_append(b, "\n"); if (show_thermo) { - format_to(b, three_prop_header); - format_to(b, three_prop_sep); + fmt_append(b, three_prop_header); + fmt_append(b, three_prop_sep); for (size_t k = 0; k < m_kk; k++) { if (abs(x[k]) >= threshold) { if (abs(x[k]) > SmallNumber) { - format_to(b, three_property, speciesName(k), name_width, y[k], x[k], mu[k]/RT()); + fmt_append(b, three_property, + speciesName(k), y[k], x[k], mu[k]/RT()); } else { - format_to(b, two_property, speciesName(k), name_width, y[k], x[k], ""); + fmt_append(b, two_property, speciesName(k), y[k], x[k], ""); } } else { nMinor++; @@ -1492,11 +1507,11 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const } } } else { - format_to(b, Y_X_header); - format_to(b, two_prop_sep); + fmt_append(b, Y_X_header); + fmt_append(b, two_prop_sep); for (size_t k = 0; k < m_kk; k++) { if (abs(x[k]) >= threshold) { - format_to(b, two_property, speciesName(k), name_width, y[k], x[k], ""); + fmt_append(b, two_property, speciesName(k), y[k], x[k], ""); } else { nMinor++; xMinor += x[k]; @@ -1506,7 +1521,7 @@ std::string ThermoPhase::report(bool show_thermo, doublereal threshold) const } if (nMinor) { string minor = fmt::format("[{:+5d} minor]", nMinor); - format_to(b, two_property, minor, name_width, yMinor, xMinor, ""); + fmt_append(b, two_property, minor, yMinor, xMinor, ""); } } catch (CanteraError& err) { return to_string(b) + err.what(); diff --git a/src/transport/GasTransport.cpp b/src/transport/GasTransport.cpp index 7e672a6327..c5e58946da 100644 --- a/src/transport/GasTransport.cpp +++ b/src/transport/GasTransport.cpp @@ -844,11 +844,11 @@ void GasTransport::getBinDiffusivityPolynomial(size_t i, size_t j, double* coeff } } -void GasTransport::getCollisionIntegralPolynomial(size_t i, size_t j, - double* astar_coeffs, - double* bstar_coeffs, - double* cstar_coeffs) const -{ +void GasTransport::getCollisionIntegralPolynomial(size_t i, size_t j, + double* astar_coeffs, + double* bstar_coeffs, + double* cstar_coeffs) const +{ for (size_t k = 0; k < (m_mode == CK_Mode ? 6 : COLL_INT_POLY_DEGREE) + 1; k++) { astar_coeffs[k] = m_astar_poly[m_poly[i][j]][k]; bstar_coeffs[k] = m_bstar_poly[m_poly[i][j]][k]; @@ -861,7 +861,7 @@ void GasTransport::setViscosityPolynomial(size_t i, double* coeffs) for (size_t k = 0; k < (m_mode == CK_Mode ? 4 : 5); k++) { m_visccoeffs[i][k] = coeffs[k]; } - + m_visc_ok = false; m_spvisc_ok = false; m_viscwt_ok = false; @@ -874,7 +874,7 @@ void GasTransport::setConductivityPolynomial(size_t i, double* coeffs) for (size_t k = 0; k < (m_mode == CK_Mode ? 4 : 5); k++) { m_condcoeffs[i][k] = coeffs[k]; } - + m_visc_ok = false; m_spvisc_ok = false; m_viscwt_ok = false; @@ -895,7 +895,7 @@ void GasTransport::setBinDiffusivityPolynomial(size_t i, size_t j, double* coeff for (size_t k = 0; k < (m_mode == CK_Mode ? 4 : 5); k++) { m_diffcoeffs[ic][k] = coeffs[k]; } - + m_visc_ok = false; m_spvisc_ok = false; m_viscwt_ok = false; @@ -903,12 +903,12 @@ void GasTransport::setBinDiffusivityPolynomial(size_t i, size_t j, double* coeff m_temp = -1; } -void GasTransport::setCollisionIntegralPolynomial(size_t i, size_t j, - double* astar_coeffs, - double* bstar_coeffs, - double* cstar_coeffs, bool actualT) +void GasTransport::setCollisionIntegralPolynomial(size_t i, size_t j, + double* astar_coeffs, + double* bstar_coeffs, + double* cstar_coeffs, bool actualT) { - int degree = (m_mode == CK_Mode ? 6 : COLL_INT_POLY_DEGREE); + size_t degree = (m_mode == CK_Mode ? 6 : COLL_INT_POLY_DEGREE); vector_fp ca(degree+1), cb(degree+1), cc(degree+1); for (size_t k = 0; k < degree+1; k++) { @@ -916,7 +916,7 @@ void GasTransport::setCollisionIntegralPolynomial(size_t i, size_t j, cb[k] = bstar_coeffs[k]; cc[k] = cstar_coeffs[k]; } - + m_astar_poly.push_back(ca); m_bstar_poly.push_back(cb); m_cstar_poly.push_back(cc); @@ -926,7 +926,7 @@ void GasTransport::setCollisionIntegralPolynomial(size_t i, size_t j, m_star_poly_uses_actualT[i][j] = 1; m_star_poly_uses_actualT[j][i] = m_star_poly_uses_actualT[i][j]; } - + m_visc_ok = false; m_spvisc_ok = false; m_viscwt_ok = false;