// // FILE: AtomicWeight.cpp // AUTHOR: Rob Tillaart // DATE: 2022-03-09 // VERSION: 0.1.1 // PURPOSE: Arduino library for atomic weights // URL: https://github.com/RobTillaart/AtomicWeight #include "AtomicWeight.h" ///////////////////////////////////////////////////////////////////////// // // list of elements // weight = weight * 222.909 // struct element { char name[3]; uint16_t weight; } elements[119] = { {"n", 225}, // neutronium {"H", 225}, {"He", 892}, {"Li", 2186}, {"Be", 2009}, {"B", 2410}, {"C", 2677}, {"N", 3122}, {"O", 3566}, {"F", 4235}, {"Ne", 4498}, {"Na", 5125}, {"Mg", 5418}, {"Al", 6014}, {"Si", 6261}, {"P", 6904}, {"S", 7148}, {"Cl", 7903}, {"Ar", 8905}, {"K", 8715}, {"Ca", 8934}, {"Sc", 10021}, {"Ti", 10670}, {"V", 11355}, {"Cr", 11590}, {"Mn", 12246}, {"Fe", 12448}, {"Co", 13137}, {"Ni", 13083}, {"Cu", 14165}, {"Zn", 14580}, {"Ga", 15542}, {"Ge", 16192}, {"As", 16701}, {"Se", 17601}, {"Br", 17811}, {"Kr", 18679}, {"Rb", 19052}, {"Sr", 19531}, {"Y", 19818}, {"Zr", 20335}, {"Nb", 20710}, {"Mo", 21386}, {"Tc", 21845}, {"Ru", 22529}, {"Rh", 22939}, {"Pd", 23722}, {"Ag", 24045}, {"Cd", 25057}, {"In", 25594}, {"Sn", 26462}, {"Sb", 27141}, {"Te", 28443}, {"I", 28288}, {"Xe", 29266}, {"Cs", 29626}, {"Ba", 30611}, {"La", 30963}, {"Ce", 31233}, {"Pr", 31410}, {"Nd", 32152}, {"Pm", 32322}, {"Sm", 33517}, {"Eu", 33874}, {"Gd", 35052}, {"Tb", 35426}, {"Dy", 36223}, {"Ho", 36764}, {"Er", 37284}, {"Tm", 37657}, {"Yb", 38572}, {"Lu", 39002}, {"Hf", 39787}, {"Ta", 40335}, {"W", 40980}, {"Re", 41507}, {"Os", 42404}, {"Ir", 42847}, {"Pt", 43485}, {"Au", 43906}, {"Hg", 44713}, {"Tl", 45559}, {"Pb", 46187}, {"Bi", 46584}, {"Po", 46588}, {"At", 46811}, {"Rn", 49486}, {"Fr", 49709}, {"Ra", 50377}, {"Ac", 50600}, {"Th", 51723}, {"Pa", 51500}, {"U", 53059}, {"Np", 52829}, {"Pu", 54390}, {"Am", 54167}, {"Cm", 55059}, {"Bk", 55059}, {"Cf", 55950}, {"Es", 56173}, {"Fm", 57288}, {"Md", 57511}, {"No", 57733}, {"Lr", 58402}, {"Rf", 58179}, {"Db", 58402}, {"Sg", 59294}, {"Bh", 58848}, {"Hs", 61746}, {"Mt", 59740}, {"Ds", 62637}, {"Rg", 60631}, {"Cn", 63529}, {"Nh", 63752}, {"Fl", 64421}, {"Mc", 64421}, {"Lv", 65312}, {"Ts", 65535}, {"Og", 65535}, }; PTOE::PTOE(uint8_t size) { _size = size; } uint8_t PTOE::size() { return _size; } uint8_t PTOE::electrons(uint8_t el) { return el; } uint8_t PTOE::neutrons(uint8_t el) { return round(weight(el) - el); } uint8_t PTOE::protons(uint8_t el) { return el; } float PTOE::weight(uint8_t el) { return elements[el].weight * _weightFactor; } float PTOE::weight(const char * formula) { return weight((char*) formula); } float PTOE::weight(char * formula) { p = formula; return _weight('\0'); } float PTOE::_weight(char sep) { float sum = 0; float w = 0; char elem[3] = { 0, 0, 0 }; int count = 0; // char *p = formula; while (*p != sep) { w = 0; // HANDLE GROUP (...) if (*p == '(') { p++; // skip '(' w = _weight(')'); // Serial.println(w); p++; // skip ')' } else { // GET ELEMENT := [ Upper | Upper,lower ] elem[1] = 0; if (! isupper(*p)) return 0; // fail elem[0] = *p; p++; if (islower(*p)) { elem[1] = *p; p++; } int z = find(elem); if (z == 255) return 0; // fail w = weight(z); } count = 0; // get optional digits while (isdigit(*p)) { count = count * 10 + (*p - '0'); p++; } // correct for no digits if (count == 0) count = 1; // DEBUG // Serial.println(w); // Serial.println(count); sum += w * count; } return sum; } char * PTOE::name(uint8_t el) { return elements[el].name; } uint8_t PTOE::find(const char * abbrev) { return find((char *) abbrev); } uint8_t PTOE::find(char * abbrev) { for (uint8_t i = 0; i < _size; i++) { if (strcmp(elements[i].name, abbrev) == 0) return i; } return 255; } //////////////////////////////////////////////////////////////// // // DEBUG // float PTOE::weightFactor() { return _weightFactor; } // -- END OF FILE --