src/lib/partition/partition_rauscher_thielemann.cpp

#include "gridfire/partition/partition_rauscher_thielemann.h"
#include "gridfire/partition/rauscher_thielemann_partition_data.h"
#include "gridfire/partition/rauscher_thielemann_partition_data_record.h"

#include "fourdst/logging/logging.h"
#include "quill/LogMacros.h"

#include <stdexcept>
#include <algorithm>
#include <array>
#include <iostream>

namespace gridfire::partition {
    static constexpr std::array<double, 24> RT_TEMPERATURE_GRID_T9 = {
        0.01, 0.15, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.5,
        2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0
    };

    RauscherThielemannPartitionFunction::RauscherThielemannPartitionFunction() {
        constexpr size_t numRecords = rauscher_thielemann_partition_data_len / sizeof(record::RauscherThielemannPartitionDataRecord);
        m_partitionData.reserve(numRecords);
        const auto* records = reinterpret_cast<const record::RauscherThielemannPartitionDataRecord*>(rauscher_thielemann_partition_data);
        for (size_t i = 0; i < numRecords; ++i) {
            const auto&[z, a, ground_state_spin, normalized_g_values] = records[i];
            IsotopeData data{};
            data.ground_state_spin = ground_state_spin;
            std::ranges::copy(normalized_g_values, data.normalized_g_values.begin());
            const int key = make_key(static_cast<int>(z), static_cast<int>(a));
            LOG_TRACE_L3_LIMIT_EVERY_N(
                100,
                m_logger,
                "(EVERY 100) Adding Rauscher-Thielemann partition data for Z={} A={} (key={})",
                z,
                a,
                key
            );

            m_partitionData[key] = data;
        }
    }

    double RauscherThielemannPartitionFunction::evaluate(
        const int z,
        const int a,
        const double T9
    ) const {
        LOG_TRACE_L3(m_logger, "Evaluating Rauscher-Thielemann partition function for Z={} A={} T9={}", z, a, T9);

        const auto [bound, data, upperIndex, lowerIndex] = find(z, a, T9);

        switch (bound) {
            case FRONT: {
                LOG_TRACE_L3(m_logger, "Using FRONT bound for Z={} A={} T9={}", z, a, T9);
                return data.normalized_g_values.front() * (2.0 * data.ground_state_spin + 1.0);
            }
            case BACK: {
                LOG_TRACE_L3(m_logger, "Using BACK bound for Z={} A={} T9={}", z, a, T9);
                return data.normalized_g_values.back() * (2.0 * data.ground_state_spin + 1.0);
            }
            case MIDDLE: {
                LOG_TRACE_L3(m_logger, "Using MIDDLE bound for Z={} A={} T9={}", z, a, T9);
            }
        }

        const auto [T9_high, G_norm_high, T9_low, G_norm_low] = get_interpolation_points(
            upperIndex,
            lowerIndex,
            data.normalized_g_values
        );

        const double frac = (T9 - T9_low) / (T9_high - T9_low);
        const double interpolated_g_norm = G_norm_low + frac * (G_norm_high - G_norm_low);

        return interpolated_g_norm * (2.0 * data.ground_state_spin + 1.0);
    }

    double RauscherThielemannPartitionFunction::evaluateDerivative(
        const int z,
        const int a,
        const double T9
    ) const {
        LOG_TRACE_L3(m_logger, "Evaluating derivative of Rauscher-Thielemann partition function for Z={} A={} T9={}", z, a, T9);
        const auto [bound, data, upperIndex, lowerIndex] = find(z, a, T9);
        if (bound == FRONT || bound == BACK) {
            LOG_TRACE_L3(m_logger, "Derivative is zero for Z={} A={} T9={} (bound: {})", z, a, T9, bound == FRONT ? "FRONT" : "BACK");
            return 0.0; // Derivative is zero at the boundaries
        }
        const auto [T9_high, G_norm_high, T9_low, G_norm_low] = get_interpolation_points(
            upperIndex,
            lowerIndex,
            data.normalized_g_values
        );
        const double slope_g_norm = (G_norm_high - G_norm_low) / (T9_high - T9_low);
        return slope_g_norm * (2.0 * data.ground_state_spin + 1.0);
    }

    bool RauscherThielemannPartitionFunction::supports(
        const int z,
        const int a
    ) const {
        return m_partitionData.contains(make_key(z, a));
    }

    RauscherThielemannPartitionFunction::InterpolationPoints RauscherThielemannPartitionFunction::get_interpolation_points(
        const size_t upper_index,
        const size_t lower_index,
        const std::array<double, 24>& normalized_g_values
    ) {
        const double T_high = RT_TEMPERATURE_GRID_T9[upper_index];
        const double G_norm_high = normalized_g_values[upper_index];
        const double T_low = RT_TEMPERATURE_GRID_T9[lower_index];
        const double G_norm_low = normalized_g_values[lower_index];
        return {T_high, G_norm_high, T_low, G_norm_low};
    }

    RauscherThielemannPartitionFunction::IdentifiedIsotope RauscherThielemannPartitionFunction::find(
        const int z,
        const int a,
        const double T9
    ) const {
        const auto key = make_key(z, a);
        const auto it = m_partitionData.find(key);

        if (it == m_partitionData.end()) {
            LOG_ERROR(m_logger, "Rauscher-Thielemann partition function data for Z={} A={} not found.", z, a);
            throw std::out_of_range("Partition function data not found for Z=" + std::to_string(z) + " A=" + std::to_string(a));
        }

        const IsotopeData& data = it->second;
        const auto upper_it = std::ranges::lower_bound(RT_TEMPERATURE_GRID_T9, T9);
        Bounds bound;
        if (upper_it == RT_TEMPERATURE_GRID_T9.begin()) {
            bound = FRONT; // T9 is below the first grid point
        } else if (upper_it == RT_TEMPERATURE_GRID_T9.end()) {
            bound = BACK; // T9 is above the last grid point
        } else {
            bound = MIDDLE; // T9 is within the grid
        }
        const size_t upper_index = std::distance(RT_TEMPERATURE_GRID_T9.begin(), upper_it);
        const size_t lower_index = upper_index - 1;
        return {bound, data, upper_index, lower_index};
    }

    constexpr int RauscherThielemannPartitionFunction::make_key(
        const int z,
        const int a
    ) {
        return z * 1000 + a; // Simple key generation for Z and A
    }
}
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`#include "gridfire/partition/partition_rauscher_thielemann.h"`
			`#include "gridfire/partition/rauscher_thielemann_partition_data.h"`
			`#include "gridfire/partition/rauscher_thielemann_partition_data_record.h"`

			`#include "fourdst/logging/logging.h"`
			`#include "quill/LogMacros.h"`

			`#include <stdexcept>`
			`#include <algorithm>`
			`#include <array>`
feat(reverse-reactions): major work towrds detailed balance calculations 2025-07-03 09:55:10 -04:00			`#include <iostream>`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00
			`namespace gridfire::partition {`
			`static constexpr std::array<double, 24> RT_TEMPERATURE_GRID_T9 = {`
			`0.01, 0.15, 0.2, 0.3, 0.4, 0.5, 0.6, 0.7, 0.8, 0.9, 1.0, 1.5,`
			`2.0, 2.5, 3.0, 3.5, 4.0, 4.5, 5.0, 6.0, 7.0, 8.0, 9.0, 10.0`
			`};`

			`RauscherThielemannPartitionFunction::RauscherThielemannPartitionFunction() {`
			`constexpr size_t numRecords = rauscher_thielemann_partition_data_len / sizeof(record::RauscherThielemannPartitionDataRecord);`
			`m_partitionData.reserve(numRecords);`
			`const auto* records = reinterpret_cast<const record::RauscherThielemannPartitionDataRecord*>(rauscher_thielemann_partition_data);`
			`for (size_t i = 0; i < numRecords; ++i) {`
feat(GridFire): stabalized network, increased performance, evolving over 10Gyr timescales now with ~correct results 2025-07-22 12:48:24 -04:00			`const auto&[z, a, ground_state_spin, normalized_g_values] = records[i];`
refactor(reaction): refactored to an abstract reaction class in prep for weak reactions 2025-08-14 13:33:46 -04:00			`IsotopeData data{};`
feat(GridFire): stabalized network, increased performance, evolving over 10Gyr timescales now with ~correct results 2025-07-22 12:48:24 -04:00			`data.ground_state_spin = ground_state_spin;`
			`std::ranges::copy(normalized_g_values, data.normalized_g_values.begin());`
refactor(reaction): refactored to an abstract reaction class in prep for weak reactions 2025-08-14 13:33:46 -04:00			`const int key = make_key(static_cast<int>(z), static_cast<int>(a));`
feat(reverse-reactions): major work towrds detailed balance calculations 2025-07-03 09:55:10 -04:00			`LOG_TRACE_L3_LIMIT_EVERY_N(`
			`100,`
			`m_logger,`
			`"(EVERY 100) Adding Rauscher-Thielemann partition data for Z={} A={} (key={})",`
feat(GridFire): stabalized network, increased performance, evolving over 10Gyr timescales now with ~correct results 2025-07-22 12:48:24 -04:00			`z,`
			`a,`
feat(reverse-reactions): major work towrds detailed balance calculations 2025-07-03 09:55:10 -04:00			`key`
			`);`

refactor(reaction): refactored to an abstract reaction class in prep for weak reactions 2025-08-14 13:33:46 -04:00			`m_partitionData[key] = data;`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`}`
			`}`

			`double RauscherThielemannPartitionFunction::evaluate(`
			`const int z,`
			`const int a,`
			`const double T9`
			`) const {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Evaluating Rauscher-Thielemann partition function for Z={} A={} T9={}", z, a, T9);`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00
			`const auto [bound, data, upperIndex, lowerIndex] = find(z, a, T9);`

			`switch (bound) {`
			`case FRONT: {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Using FRONT bound for Z={} A={} T9={}", z, a, T9);`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`return data.normalized_g_values.front() * (2.0 * data.ground_state_spin + 1.0);`
			`}`
			`case BACK: {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Using BACK bound for Z={} A={} T9={}", z, a, T9);`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`return data.normalized_g_values.back() * (2.0 * data.ground_state_spin + 1.0);`
			`}`
			`case MIDDLE: {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Using MIDDLE bound for Z={} A={} T9={}", z, a, T9);`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`}`
			`}`

			`const auto [T9_high, G_norm_high, T9_low, G_norm_low] = get_interpolation_points(`
			`upperIndex,`
			`lowerIndex,`
			`data.normalized_g_values`
			`);`

			`const double frac = (T9 - T9_low) / (T9_high - T9_low);`
			`const double interpolated_g_norm = G_norm_low + frac * (G_norm_high - G_norm_low);`

			`return interpolated_g_norm * (2.0 * data.ground_state_spin + 1.0);`
			`}`

			`double RauscherThielemannPartitionFunction::evaluateDerivative(`
			`const int z,`
			`const int a,`
			`const double T9`
			`) const {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Evaluating derivative of Rauscher-Thielemann partition function for Z={} A={} T9={}", z, a, T9);`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`const auto [bound, data, upperIndex, lowerIndex] = find(z, a, T9);`
			`if (bound == FRONT \|\| bound == BACK) {`
fix(weakRates): major progress in resolving bugs bigs were introduced by the interface change from accepting raw molar abundance vectors to using the composition vector. This commit resolves many of these, including preformant ways to report that a species is not present in the composition and unified index lookups using composition object tooling. BREAKING CHANGE: 2025-10-10 09:12:40 -04:00			`LOG_TRACE_L3(m_logger, "Derivative is zero for Z={} A={} T9={} (bound: {})", z, a, T9, bound == FRONT ? "FRONT" : "BACK");`
feat(partition-functions): added framework and some concrete partition functions GroundState partition function, Rauscher&Thielemann partition function, and composite partition function added 2025-07-02 11:32:45 -04:00			`return 0.0; // Derivative is zero at the boundaries`
			`}`
			`const auto [T9_high, G_norm_high, T9_low, G_norm_low] = get_interpolation_points(`
			`upperIndex,`
			`lowerIndex,`
			`data.normalized_g_values`
			`);`
			`const double slope_g_norm = (G_norm_high - G_norm_low) / (T9_high - T9_low);`
			`return slope_g_norm * (2.0 * data.ground_state_spin + 1.0);`
			`}`

			`bool RauscherThielemannPartitionFunction::supports(`
			`const int z,`
			`const int a`
			`) const {`
			`return m_partitionData.contains(make_key(z, a));`
			`}`

			`RauscherThielemannPartitionFunction::InterpolationPoints RauscherThielemannPartitionFunction::get_interpolation_points(`
			`const size_t upper_index,`
			`const size_t lower_index,`
			`const std::array<double, 24>& normalized_g_values`
			`) {`
			`const double T_high = RT_TEMPERATURE_GRID_T9[upper_index];`
			`const double G_norm_high = normalized_g_values[upper_index];`
			`const double T_low = RT_TEMPERATURE_GRID_T9[lower_index];`
			`const double G_norm_low = normalized_g_values[lower_index];`
			`return {T_high, G_norm_high, T_low, G_norm_low};`
			`}`

			`RauscherThielemannPartitionFunction::IdentifiedIsotope RauscherThielemannPartitionFunction::find(`
			`const int z,`
			`const int a,`
			`const double T9`
			`) const {`
			`const auto key = make_key(z, a);`
			`const auto it = m_partitionData.find(key);`

			`if (it == m_partitionData.end()) {`
			`LOG_ERROR(m_logger, "Rauscher-Thielemann partition function data for Z={} A={} not found.", z, a);`
			`throw std::out_of_range("Partition function data not found for Z=" + std::to_string(z) + " A=" + std::to_string(a));`
			`}`

			`const IsotopeData& data = it->second;`
			`const auto upper_it = std::ranges::lower_bound(RT_TEMPERATURE_GRID_T9, T9);`
			`Bounds bound;`
			`if (upper_it == RT_TEMPERATURE_GRID_T9.begin()) {`
			`bound = FRONT; // T9 is below the first grid point`
			`} else if (upper_it == RT_TEMPERATURE_GRID_T9.end()) {`
			`bound = BACK; // T9 is above the last grid point`
			`} else {`
			`bound = MIDDLE; // T9 is within the grid`
			`}`
			`const size_t upper_index = std::distance(RT_TEMPERATURE_GRID_T9.begin(), upper_it);`
			`const size_t lower_index = upper_index - 1;`
			`return {bound, data, upper_index, lower_index};`
			`}`

			`constexpr int RauscherThielemannPartitionFunction::make_key(`
			`const int z,`
			`const int a`
			`) {`
			`return z * 1000 + a; // Simple key generation for Z and A`
			`}`
			`}`