mirror of
https://github.com/RobTillaart/Arduino.git
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240 lines
7.8 KiB
C++
240 lines
7.8 KiB
C++
//
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// FILE: unit_test_001.cpp
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// AUTHOR: Rob Tillaart
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// DATE: 2022-03-09
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// PURPOSE: unit tests for the AtomicWeight library
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// https://github.com/RobTillaart/AtomicWeight
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// https://github.com/Arduino-CI/arduino_ci/blob/master/REFERENCE.md
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//
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// supported assertions
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// ----------------------------
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// assertEqual(expected, actual); // a == b
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// assertNotEqual(unwanted, actual); // a != b
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// assertComparativeEquivalent(expected, actual); // abs(a - b) == 0 or (!(a > b) && !(a < b))
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// assertComparativeNotEquivalent(unwanted, actual); // abs(a - b) > 0 or ((a > b) || (a < b))
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// assertLess(upperBound, actual); // a < b
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// assertMore(lowerBound, actual); // a > b
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// assertLessOrEqual(upperBound, actual); // a <= b
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// assertMoreOrEqual(lowerBound, actual); // a >= b
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// assertTrue(actual);
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// assertFalse(actual);
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// assertNull(actual);
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// // special cases for floats
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// assertEqualFloat(expected, actual, epsilon); // fabs(a - b) <= epsilon
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// assertNotEqualFloat(unwanted, actual, epsilon); // fabs(a - b) >= epsilon
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// assertInfinity(actual); // isinf(a)
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// assertNotInfinity(actual); // !isinf(a)
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// assertNAN(arg); // isnan(a)
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// assertNotNAN(arg); // !isnan(a)
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#include <ArduinoUnitTests.h>
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#include "AtomicWeight.h"
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unittest_setup()
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{
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fprintf(stderr, "ATOMIC_WEIGHT_LIB_VERSION: %s\n", (char *) ATOMIC_WEIGHT_LIB_VERSION);
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}
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unittest_teardown()
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{
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}
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unittest(test_constants)
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{
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assertEqualFloat(6.02214076e+23, AVOGADRO, 1e17);
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assertEqualFloat(1.66053907e-24, DALTON, 1e-30);
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assertEqualFloat(1.0, DALTON * AVOGADRO, 1e-5);
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assertEqualFloat(1.6726231E-24, PROTON_WEIGHT, 1e-30);
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assertEqualFloat(1.6749286E-24, NEUTRON_WEIGHT, 1e-30);
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assertEqualFloat(9.10938356e-28, ELECTRON_WEIGHT, 1e-34);
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assertEqualFloat(931494697.25613, DALTON2EV, 1e2);
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}
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unittest(test_constructor)
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{
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PTOE ptoe;
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assertEqual(118, ptoe.size());
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}
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unittest(test_find)
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{
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PTOE ptoe;
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assertEqual( 0, ptoe.find("n"));
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assertEqual( 1, ptoe.find("H"));
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assertEqual( 6, ptoe.find("C"));
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assertEqual(10, ptoe.find("Ne"));
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assertEqual(18, ptoe.find("Ar"));
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assertEqual(26, ptoe.find("Fe"));
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assertEqual(36, ptoe.find("Kr"));
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assertEqual(47, ptoe.find("Ag"));
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assertEqual(54, ptoe.find("Xe"));
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assertEqual(79, ptoe.find("Au"));
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assertEqual(92, ptoe.find("U"));
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assertEqual(255, ptoe.find("XX")); // Fail test
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}
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unittest(test_basic_atom)
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{
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PTOE ptoe;
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int el = 0;
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// NEUTRONIUM
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assertEqual("n", ptoe.name(el));
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assertEqual( 0, ptoe.electrons(el));
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assertEqual( 1, ptoe.neutrons(el));
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assertEqual( 0, ptoe.protons(el));
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assertEqual( 1, round(ptoe.weight(el)));
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// HYDROGEN
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el = 1;
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assertEqual("H", ptoe.name(el));
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assertEqual( 1, ptoe.electrons(el));
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assertEqual( 0, ptoe.neutrons(el));
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assertEqual( 1, ptoe.protons(el));
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assertEqual( 1, round(ptoe.weight(el)));
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// URANIUM
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el = 92;
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assertEqual("U", ptoe.name(el));
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assertEqual( 92, ptoe.electrons(el));
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assertEqual(146, ptoe.neutrons(el));
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assertEqual( 92, ptoe.protons(el));
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assertEqual(238, round(ptoe.weight(el)));
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}
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unittest(test_weight_formula_I)
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{
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PTOE ptoe;
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// fprintf(stderr, "%f\n", ptoe.weight("Na"));
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// fprintf(stderr, "%f\n", ptoe.weight("NaCl"));
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// fprintf(stderr, "%f\n", ptoe.weight("CaCO3"));
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// fprintf(stderr, "%f\n", ptoe.weight("H2SO4"));
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// fprintf(stderr, "%f\n", ptoe.weight("C2H2(COOH)2"));
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// fprintf(stderr, "%f\n", ptoe.weight("YBa2Cu3O7"));
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// fprintf(stderr, "%f\n", ptoe.weight("C(O(H2)2)3"));
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assertEqualFloat( 22.990588, ptoe.weight("Na"), 0.1);
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assertEqualFloat( 58.444748, ptoe.weight("NaCl"), 0.1);
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assertEqualFloat( 100.086006, ptoe.weight("CaCO3"), 0.1);
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assertEqualFloat( 98.074951, ptoe.weight("H2SO4"), 0.1);
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assertEqualFloat( 116.075134, ptoe.weight("C2H2(COOH)2"), 0.1);
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assertEqualFloat( 666.185669, ptoe.weight("YBa2Cu3O7"), 0.1);
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assertEqualFloat( 72.105026, ptoe.weight("C(O(H2)2)3"), 0.1);
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}
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unittest(test_weight_formula_II)
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{
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PTOE ptoe;
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// fprintf(stderr, "%f\n", ptoe.weight("NaCl", "Na"));
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// fprintf(stderr, "%f\n", ptoe.weight("NaCl", "Cl"));
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// fprintf(stderr, "%f\n", ptoe.weight("CaCO3", "Ca"));
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// fprintf(stderr, "%f\n", ptoe.weight("CaCO3", "C"));
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// fprintf(stderr, "%f\n", ptoe.weight("CaCO3", "O"));
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// fprintf(stderr, "%f\n", ptoe.weight("C(O(H2)2)3", "C"));
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// fprintf(stderr, "%f\n", ptoe.weight("C(O(H2)2)3", "O"));
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// fprintf(stderr, "%f\n", ptoe.weight("C(O(H2)2)3", "H"));
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assertEqualFloat( 22.990583, ptoe.weight("NaCl", "Na"), 0.1);
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assertEqualFloat( 35.454163, ptoe.weight("NaCl", "Cl"), 0.1);
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assertEqualFloat( 40.077106, ptoe.weight("CaCO3", "Ca"), 0.1);
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assertEqualFloat( 12.011711, ptoe.weight("CaCO3", "C"), 0.1);
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assertEqualFloat( 47.997189, ptoe.weight("CaCO3", "O"), 0.1);
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assertEqualFloat( 12.011711, ptoe.weight("C(O(H2)2)3", "C"), 0.1);
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assertEqualFloat( 47.997189, ptoe.weight("C(O(H2)2)3", "O"), 0.1);
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assertEqualFloat( 12.096127, ptoe.weight("C(O(H2)2)3", "H"), 0.1);
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}
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unittest(test_massPercentage)
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{
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PTOE ptoe;
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// fprintf(stderr, "%f\n", ptoe.massPercentage("Cl2", "Cl"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("NaCl", "Na"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("NaCl", "Cl"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("CaCO3", "Ca"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("CaCO3", "C"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("CaCO3", "O"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("C(O(H2)2)3", "C"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("C(O(H2)2)3", "O"));
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// fprintf(stderr, "%f\n", ptoe.massPercentage("C(O(H2)2)3", "H"));
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assertEqualFloat(100.000000, ptoe.massPercentage("Cl2", "Cl"), 0.1);
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assertEqualFloat( 39.337296, ptoe.massPercentage("NaCl", "Na"), 0.1);
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assertEqualFloat( 60.662701, ptoe.massPercentage("NaCl", "Cl"), 0.1);
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assertEqualFloat( 40.042667, ptoe.massPercentage("CaCO3", "Ca"), 0.1);
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assertEqualFloat( 12.001390, ptoe.massPercentage("CaCO3", "C"), 0.1);
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assertEqualFloat( 47.955944, ptoe.massPercentage("CaCO3", "O"), 0.1);
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assertEqualFloat( 16.658632, ptoe.massPercentage("C(O(H2)2)3", "C"), 0.1);
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assertEqualFloat( 66.565666, ptoe.massPercentage("C(O(H2)2)3", "O"), 0.1);
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assertEqualFloat( 16.775705, ptoe.massPercentage("C(O(H2)2)3", "H"), 0.1);
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}
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unittest(test_count)
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{
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PTOE ptoe;
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assertEqual( 2, ptoe.count("Cl2"));
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assertEqual( 2, ptoe.count("NaCl"));
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assertEqual( 1, ptoe.count("NaCl", "Na"));
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assertEqual( 1, ptoe.count("NaCl", "Cl"));
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assertEqual( 18, ptoe.count("C6H6O6"));
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assertEqual( 17, ptoe.count("Al2Si2O5(OH)4"));
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assertEqual( 9, ptoe.count("Al2Si2O5(OH)4", "O"));
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assertEqual( 4, ptoe.count("Al2Si2O5(OH)4", "H"));
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assertEqual( 13, ptoe.count("YBa2Cu3O7"));
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assertEqual( 3, ptoe.count("C(O(H2)2)3", "O"));
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assertEqual( 12, ptoe.count("C(O(H2)2)3", "H"));
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}
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unittest(test_atomPercentage)
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{
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PTOE ptoe;
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assertEqualFloat( 7.692, ptoe.atomPercentage("YBa2Cu3O7", "Y"), 0.1);
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assertEqualFloat( 15.385, ptoe.atomPercentage("YBa2Cu3O7", "Ba"), 0.1);
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assertEqualFloat( 23.077, ptoe.atomPercentage("YBa2Cu3O7", "Cu"), 0.1);
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assertEqualFloat( 53.846, ptoe.atomPercentage("YBa2Cu3O7", "O"), 0.1);
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assertEqualFloat( 10.000, ptoe.atomPercentage("Al(NO2)3", "Al"), 0.1);
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assertEqualFloat( 30.000, ptoe.atomPercentage("Al(NO2)3", "N"), 0.1);
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assertEqualFloat( 60.000, ptoe.atomPercentage("Al(NO2)3", "O"), 0.1);
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assertEqualFloat( 6.667, ptoe.atomPercentage("Ba(C2H3O2)2", "Ba"), 0.1);
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assertEqualFloat( 26.667, ptoe.atomPercentage("Ba(C2H3O2)2", "C"), 0.1);
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assertEqualFloat( 40.000, ptoe.atomPercentage("Ba(C2H3O2)2", "H"), 0.1);
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assertEqualFloat( 26.667, ptoe.atomPercentage("Ba(C2H3O2)2", "O"), 0.1);
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}
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unittest_main()
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// -- END OF FILE --
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