kicad/pcb_calculator/resistor_substitution_utils.h

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/*
* This program source code file
* is part of KiCad, a free EDA CAD application.
*
* Copyright (C) 2023 KiCad Developers, see AUTHORS.txt for contributors.
*
* This program is free software: you can redistribute it and/or modify it
* under the terms of the GNU General Public License as published by the
* Free Software Foundation, either version 3 of the License, or (at your
* option) any later version.
*
* This program is distributed in the hope that it will be useful, but
* WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#pragma once
#include "eseries.h"
#include <array>
#include <optional>
#include <string>
#include <utility>
#include <vector>
const double epsilon = 1e-12; // machine epsilon for floating-point equality testing
// First value of resistor in Ohm
// It should be first value of the decade, i.e. power of 10
// This value is only pertinent to the resistor calculator.
// It is used to reduce the computational complexity of its calculations.
// There are valid resistor values using E-series numbers below this
// value and above the below LAST_VALUE.
#define RES_EQUIV_CALC_FIRST_VALUE 10
// Last value of resistor in Ohm
// This value is only pertinent to the resistor calculator. See above.
#define RES_EQUIV_CALC_LAST_VALUE 1e6
// Struct representing resistance value together with its composition, e.g. {20.0, "10R + 10R"}
struct RESISTANCE
{
double value;
std::string name;
RESISTANCE( double aValue = 0.0, std::string aName = "" ) :
value( aValue ), name( std::move( aName ) )
{
}
};
class RES_EQUIV_CALC
/*! \brief Performs calculations on E-series values primarily to find target values
* as combinations (serial, parallel) of them.
*
* RES_EQUIV_CALC class stores and performs calcuations on E-series values. It currently
* is targeted toward the resistor calculator and hard codes some limitations
* to optimize its use in the resistor calculator.
*
* At this time these limitations are that this class handles only E-series up to
* E24 and it does not consider resistor values below 10 Ohm or above 1M Ohm.
*/
{
public:
RES_EQUIV_CALC();
enum
{
S2R,
S3R,
S4R,
NUMBER_OF_LEVELS
};
/**
* Set E-series to be used in calculations.
* Correct values are from 0 to 4 inclusive,
* representing series (consecutively) E1, E3, E6, E12, E24.
* After changing the series, NewCalc must be called before running calculations.
*/
void SetSeries( uint32_t aSeries );
/**
* Initialize next calculation, clear exclusion mask
* and erase results from previous calculation.
*
* @param aTargetValue is the value (in Ohms) to be looked for
*/
void NewCalc( double aTargetValue );
/**
* If any value of the selected E-series not available, it can be entered as an exclude value.
*
* @param aValue is the value (in Ohms) to exclude from calculation
* Values to exclude are set to true in the current exclusion mask and will not be
* considered during calculations.
*/
void Exclude( double aValue );
/**
* Executes all the calculations.
* Results are to be retrieved using GetResults (below).
*/
void Calculate();
/**
* Accessor to calculation results.
* Empty std::optional means that the exact value can be achieved using fewer resistors.
*/
const std::array<std::optional<RESISTANCE>, NUMBER_OF_LEVELS>& GetResults()
{
return m_results;
}
private:
/**
* Add values from aList to m_e_series tables.
* Covers all decades between FIRST_VALUE and LAST_VALUE.
*/
std::vector<RESISTANCE> buildSeriesData( const ESERIES::ESERIES_VALUES& aList );
/**
* Build 1R buffer, which is selected E-series table with excluded values removed.
*/
void prepare1RBuffer();
/**
* Build 2R buffer, which consists of all possible combinations of two resistors
* from 1R buffer (serial and parallel), sorted by value.
*/
void prepare2RBuffer();
/**
* Find in 2R buffer two values nearest to the given value (one smaller and one larger).
* It always returns two valid values, even for input out of range or Nan.
*/
std::pair<RESISTANCE&, RESISTANCE&> findIn2RBuffer( double aTargetValue );
/**
* Calculate the best combination consisting of exactly 2, 3 or 4 resistors.
*/
RESISTANCE calculate2RSolution();
RESISTANCE calculate3RSolution();
RESISTANCE calculate4RSolution();
private:
std::vector<std::vector<RESISTANCE>> m_e_series;
std::vector<bool> m_exclude_mask;
std::vector<RESISTANCE> m_buffer_1R;
std::vector<RESISTANCE> m_buffer_2R;
uint32_t m_series = ESERIES::E6;
double m_target = 0;
std::array<std::optional<RESISTANCE>, NUMBER_OF_LEVELS> m_results;
};