#include #include #include #include #include #include "IPhreeqc.hpp" #include "Phreeqc.h" #include "FileTest.h" #undef true #undef false #include "CVar.hxx" using ::testing::HasSubstr; VRESULT SOLUTION(IPhreeqc& obj, double C, double Ca, double Na); VRESULT EQUILIBRIUM_PHASES(IPhreeqc& obj, const char* phase, double si, double amount); VRESULT USER_PUNCH(IPhreeqc& obj, const char* element, int max); VRESULT SELECTED_OUTPUT(IPhreeqc& obj); VRESULT DUMP(IPhreeqc& obj); void TestFileOnOff(const char* FILENAME_FORMAT, bool output_file_on, bool error_file_on, bool log_file_on, bool selected_output_file_on, bool dump_file_on); TEST(TestIPhreeqc, TestLoadDatabase) { std::string FILES[] = { "phreeqc.dat", "pitzer.dat", "wateq4f.dat", "Amm.dat", "frezchem.dat", "iso.dat", "llnl.dat", "minteq.dat", "minteq.v4.dat", "sit.dat","ColdChem.dat","core10.dat", "Tipping_Hurley.dat" }; for (int j = 0; j < sizeof(FILES) / sizeof(std::string); ++j) { IPhreeqc obj; for (int i = 0; i < 10; ++i) { ASSERT_EQ(true, ::FileExists(FILES[j].c_str())); ASSERT_TRUE(::FileSize(FILES[j].c_str()) > 0); ASSERT_EQ(0, obj.LoadDatabase(FILES[j].c_str())); } // make sure settings are cleared // IPhreeqc obj2; for (int i = 0; i < 10; ++i) { ASSERT_EQ(false, obj2.GetSelectedOutputFileOn()); obj2.SetSelectedOutputFileOn(true); ASSERT_EQ(true, obj2.GetSelectedOutputFileOn()); obj2.SetSelectedOutputFileOn(true); ASSERT_EQ(true, obj2.GetSelectedOutputFileOn()); ASSERT_EQ(true, ::FileExists(FILES[j].c_str())); ASSERT_TRUE(::FileSize(FILES[j].c_str()) > 0); ASSERT_EQ(0, obj2.LoadDatabase(FILES[j].c_str())); // all previous definitions are cleared ASSERT_EQ(false, obj2.GetSelectedOutputFileOn()); } } } TEST(TestIPhreeqc, TestLoadDatabaseString) { const char ex15_dat[] = "SOLUTION_MASTER_SPECIES\n" "C CO2 2.0 61.0173 12.0111\n" "Cl Cl- 0.0 Cl 35.453\n" "Co Co+2 0.0 58.93 58.93 \n" "E e- 0.0 0.0 0.0\n" "H H+ -1. 1.008 1.008\n" "H(0) H2 0.0 1.008\n" "H(1) H+ -1. 1.008\n" "N NH4+ 0.0 14.0067 14.0067\n" "Na Na+ 0.0 Na 22.9898\n" "Nta Nta-3 3.0 1. 1.\n" "O H2O 0.0 16.00 16.00\n" "O(-2) H2O 0.0 18.016\n" "O(0) O2 0.0 16.00\n" "SOLUTION_SPECIES\n" "2H2O = O2 + 4H+ + 4e- \n" " log_k -86.08; -gamma 1e7 0.0\n" "2 H+ + 2 e- = H2\n" " log_k -3.15; -gamma 1e7 0.0\n" "H+ = H+\n" " log_k 0.0; -gamma 1e7 0.0\n" "e- = e-\n" " log_k 0.0; -gamma 1e7 0.0\n" "H2O = H2O\n" " log_k 0.0; -gamma 1e7 0.0\n" "CO2 = CO2\n" " log_k 0.0; -gamma 1e7 0.0\n" "Na+ = Na+\n" " log_k 0.0; -gamma 1e7 0.0\n" "Cl- = Cl-\n" " log_k 0.0; -gamma 1e7 0.0\n" "Co+2 = Co+2\n" " log_k 0.0; -gamma 1e7 0.0\n" "NH4+ = NH4+\n" " log_k 0.0; -gamma 1e7 0.0\n" "Nta-3 = Nta-3\n" " log_k 0.0; -gamma 1e7 0.0\n" "Nta-3 + 3H+ = H3Nta\n" " log_k 14.9; -gamma 1e7 0.0\n" "Nta-3 + 2H+ = H2Nta-\n" " log_k 13.3; -gamma 1e7 0.0\n" "Nta-3 + H+ = HNta-2\n" " log_k 10.3; -gamma 1e7 0.0\n" "Nta-3 + Co+2 = CoNta-\n" " log_k 11.7; -gamma 1e7 0.0\n" "2 Nta-3 + Co+2 = CoNta2-4\n" " log_k 14.5; -gamma 1e7 0.0\n" "Nta-3 + Co+2 + H2O = CoOHNta-2 + H+\n" " log_k 0.5; -gamma 1e7 0.0\n" "Co+2 + H2O = CoOH+ + H+\n" " log_k -9.7; -gamma 1e7 0.0\n" "Co+2 + 2H2O = Co(OH)2 + 2H+\n" " log_k -22.9; -gamma 1e7 0.0\n" "Co+2 + 3H2O = Co(OH)3- + 3H+\n" " log_k -31.5; -gamma 1e7 0.0\n" "CO2 + H2O = HCO3- + H+\n" " log_k -6.35; -gamma 1e7 0.0\n" "CO2 + H2O = CO3-2 + 2H+\n" " log_k -16.68; -gamma 1e7 0.0\n" "NH4+ = NH3 + H+\n" " log_k -9.3; -gamma 1e7 0.0\n" "H2O = OH- + H+\n" " log_k -14.0; -gamma 1e7 0.0\n" "END\n"; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabaseString(ex15_dat)); } TEST(TestIPhreeqc, TestLoadDatabaseStringBadInput) { IPhreeqc obj; for (int i = 0; i < 10; ++i) { ASSERT_TRUE(0 != obj.LoadDatabaseString("phreeqc.dat.list")); } } TEST(TestIPhreeqc, TestLoadDatabaseEx14AsDB) { const char ex14[] = "TITLE Example 14.--Transport with equilibrium_phases, exchange, and surface reactions\n" "#\n" "# Use phreeqc.dat\n" "# Dzombak and Morel (1990) aqueous and surface complexation models for arsenic\n" "# are defined here\n" "#\n" "SURFACE_MASTER_SPECIES\n" " Surf SurfOH\n" "SURFACE_SPECIES\n" " SurfOH = SurfOH\n" " log_k 0.0\n" " SurfOH + H+ = SurfOH2+\n" " log_k 7.29\n" " SurfOH = SurfO- + H+\n" " log_k -8.93\n" " SurfOH + AsO4-3 + 3H+ = SurfH2AsO4 + H2O\n" " log_k 29.31\n" " SurfOH + AsO4-3 + 2H+ = SurfHAsO4- + H2O\n" " log_k 23.51\n" " SurfOH + AsO4-3 = SurfOHAsO4-3\n" " log_k 10.58\n" "SOLUTION_MASTER_SPECIES\n" " As H3AsO4 -1.0 74.9216 74.9216\n" "SOLUTION_SPECIES\n" " H3AsO4 = H3AsO4\n" " log_k 0.0\n" " H3AsO4 = AsO4-3 + 3H+\n" " log_k -20.7\n" " H+ + AsO4-3 = HAsO4-2\n" " log_k 11.50\n" " 2H+ + AsO4-3 = H2AsO4-\n" " log_k 18.46\n" "SOLUTION 1 Brine\n" " pH 5.713\n" " pe 4.0 O2(g) -0.7\n" " temp 25.\n" " units mol/kgw\n" " Ca .4655\n" " Mg .1609\n" " Na 5.402\n" " Cl 6.642 charge\n" " C .00396\n" " S .004725\n" " As .025 umol/kgw\n" "END\n" "USE solution 1\n" "EQUILIBRIUM_PHASES 1\n" " Dolomite 0.0 1.6\n" " Calcite 0.0 0.1\n" "SAVE solution 1\n" "# prints initial condition to the selected-output file\n" "SELECTED_OUTPUT\n" " -file ex14.sel\n" " -reset false\n" " -step\n" "USER_PUNCH\n" " -head m_Ca m_Mg m_Na umol_As pH mmol_sorbedAs\n" " 10 PUNCH TOT(\"Ca\"), TOT(\"Mg\"), TOT(\"Na\"), TOT(\"As\")*1e6, -LA(\"H+\"), SURF(\"As\", \"Surf\")*1000\n" "END\n" "PRINT\n" "# skips print of initial exchange and initial surface to the selected-output file\n" " -selected_out false\n" "EXCHANGE 1\n" " -equil with solution 1\n" " X 1.0\n" "SURFACE 1\n" " -equil solution 1\n" "# assumes 1/10 of iron is HFO\n" " SurfOH 0.07 600. 30.\n" "END\n" "SOLUTION 0 20 x precipitation\n" " pH 4.6\n" " pe 4.0 O2(g) -0.7\n" " temp 25.\n" " units mmol/kgw\n" " Ca .191625\n" " Mg .035797\n" " Na .122668\n" " Cl .133704\n" " C .01096\n" " S .235153 charge\n" "EQUILIBRIUM_PHASES 0\n" " Dolomite 0.0 1.6\n" " Calcite 0.0 0.1\n" " CO2(g) -1.5 10.\n" "SAVE solution 0\n" "END\n" "PRINT\n" " -selected_out true\n" " -status false\n" "ADVECTION\n" " -cells 1\n" " -shifts 200\n" " -print_frequency 200\n" "USER_GRAPH 1 Example 14\n" " -headings PV As(ppb) Ca(M) Mg(M) Na(M) pH\n" " -chart_title \"Chemical Evolution of the Central Oklahoma Aquifer\"\n" " -axis_titles \"Pore volumes or shift number\" \"Log(Concentration, in ppb or molal)\" \"pH\"\n" " -axis_scale x_axis 0 200\n" " -axis_scale y_axis 1e-6 100 auto auto Log\n" " 10 GRAPH_X STEP_NO\n" " 20 GRAPH_Y TOT(\"As\") * 74.92e6, TOT(\"Ca\"), TOT(\"Mg\"), TOT(\"Na\")\n" " 30 GRAPH_SY -LA(\"H+\")\n" "END\n"; IPhreeqc obj; for (int i = 0; i < 10; ++i) { ASSERT_TRUE(0 != obj.LoadDatabaseString(ex14)); } } TEST(TestIPhreeqc, TestLoadDatabaseMissingFile) { ASSERT_EQ(false, ::FileExists("missing.file")); IPhreeqc obj; ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); const char expected[] = "ERROR: LoadDatabase: Unable to open:\"missing.file\".\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); } TEST(TestIPhreeqc, TestSetErrorOn) { ASSERT_EQ(false, ::FileExists("missing.file")); IPhreeqc obj; ASSERT_EQ(true, obj.GetErrorOn()); // intial setting is true obj.SetErrorOn(false); ASSERT_EQ(false, obj.GetErrorOn()); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); const char expected[] = "GetErrorString: ErrorOn not set.\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); } TEST(TestIPhreeqc, TestSetErrorOn2) { ASSERT_EQ(false, ::FileExists("missing.file")); IPhreeqc obj; char ERR_FILENAME[80]; snprintf(ERR_FILENAME, sizeof(ERR_FILENAME), "error.%06d.out", ::rand()); if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } ASSERT_EQ(false, ::FileExists(ERR_FILENAME)); obj.SetErrorFileOn(true); obj.SetErrorFileName(ERR_FILENAME); ASSERT_EQ(true, obj.GetErrorOn()); // intial setting is true obj.SetErrorOn(false); ASSERT_EQ(false, obj.GetErrorOn()); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(false, ::FileExists(ERR_FILENAME)); } TEST(TestIPhreeqc, TestSetErrorOnTakesPrecedence) { ASSERT_EQ(false, ::FileExists("missing.file")); IPhreeqc obj; char ERR_FILENAME[80]; snprintf(ERR_FILENAME, sizeof(ERR_FILENAME), "error.%06d.out", ::rand()); if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } ASSERT_EQ(false, ::FileExists(ERR_FILENAME)); obj.SetErrorFileOn(true); obj.SetErrorFileName(ERR_FILENAME); obj.SetErrorOn(false); obj.SetErrorStringOn(false); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); ASSERT_EQ(1, obj.LoadDatabase("missing.file")); const char expected[] = "GetErrorString: ErrorOn not set.\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); ASSERT_EQ(false, ::FileExists(ERR_FILENAME)); } TEST(TestIPhreeqc, TestLoadDatabaseWithErrors) { #if defined(_WIN32) int n0 = ::_fcloseall(); assert(n0 == 0); #endif IPhreeqc obj; for (int i = 0; i < 10; ++i) { ASSERT_EQ(true, ::FileExists("missing_e.dat")); ASSERT_TRUE(::FileSize("missing_e.dat") > 0); ASSERT_EQ(6, obj.LoadDatabase("missing_e.dat")); const char* expected = "ERROR: Could not reduce equation to primary master species, CH4.\n" "ERROR: Could not reduce equation to primary master species, Cu+.\n" "ERROR: Could not reduce equation to primary master species, Fe+3.\n" "ERROR: Could not reduce equation to primary master species, H2.\n" "ERROR: Could not reduce equation to primary master species, Mn+3.\n" "ERROR: Could not reduce equation to primary master species, NH4+.\n" "ERROR: Could not reduce equation to primary master species, N2.\n" "ERROR: Could not reduce equation to primary master species, NO2-.\n" "ERROR: Could not reduce equation to primary master species, O2.\n" "ERROR: Could not reduce equation to primary master species, HS-.\n" "ERROR: Could not reduce equation to secondary master species, e-.\n" "ERROR: Non-master species in secondary reaction, e-.\n" "ERROR: No master species for element e.\n" "ERROR: Could not find primary master species for e.\n" "ERROR: No master species for element e.\n" "ERROR: Could not reduce equation to secondary master species, Hausmannite.\n" "ERROR: Could not reduce equation to secondary master species, Manganite.\n" "ERROR: Could not reduce equation to secondary master species, Pyrite.\n" "ERROR: Could not reduce equation to secondary master species, Pyrolusite.\n" "ERROR: Could not reduce equation to secondary master species, Sulfur.\n" "ERROR: e-, primary master species for E-, not defined.\n" "ERROR: Calculations terminating due to input errors.\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); } #if defined(_WIN32) int n = ::_fcloseall(); assert(n == 0); #endif } TEST(TestIPhreeqc, TestRunAccumulated) { #if defined(_WIN32) int n = ::_fcloseall(); assert(n == 0); #endif bool files_on = false; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 12")); obj.SetOutputFileOn(files_on); obj.SetErrorFileOn(files_on); obj.SetLogFileOn(files_on); obj.SetSelectedOutputFileOn(files_on); obj.SetDumpFileOn(files_on); ASSERT_EQ(0, obj.RunAccumulated()); } TEST(TestIPhreeqc, TestRunAccumulatedWithDBKeyword) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(VR_OK, obj.AccumulateLine("DATABASE wateq4f.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(0, obj.RunAccumulated()); const char* warn = obj.GetWarningString(); const char expected[] = "WARNING: DATABASE keyword is ignored by IPhreeqc.\n"; ASSERT_EQ(std::string(expected), std::string(warn)); } } TEST(TestIPhreeqc, TestDatabaseNotFirstKeyword) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("DATABASE wateq4f.dat")); ASSERT_EQ(2, obj.RunAccumulated()); const char expected[] = "ERROR: DATABASE must be the first keyword in the input file.\n" "ERROR: Calculations terminating due to input errors.\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); } } TEST(TestIPhreeqc, TestRunWithErrors) { const char dump_file[] = "error.inp"; IPhreeqc obj; FileTest dfile(dump_file); ASSERT_TRUE(dfile.RemoveExisting()); bool files_on = false; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); obj.SetOutputFileOn(files_on); obj.SetErrorFileOn(files_on); obj.SetLogFileOn(files_on); obj.SetSelectedOutputFileOn(files_on); obj.SetDumpFileOn(files_on); ASSERT_EQ(1, obj.RunAccumulated()); const char expected[] = "ERROR: Numerical method failed on all combinations of convergence parameters, cell/soln/mix 1\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); ASSERT_TRUE(dfile.VerifyExists()); ASSERT_TRUE(dfile.Size() > 0); } TEST(TestIPhreeqc, TestRunFile) { const char dump_file[] = "error.inp"; FileTest dfile(dump_file); ASSERT_TRUE(dfile.RemoveExisting()); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(1, obj.RunFile("conv_fail.in")); const char expected[] = "ERROR: Numerical method failed on all combinations of convergence parameters, cell/soln/mix 1\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); // Note: should this file exist since GetDumpFileOn is false? ASSERT_TRUE(dfile.VerifyExists()); ASSERT_TRUE(dfile.Size() > 0); } TEST(TestIPhreeqc, TestRunString) { const char input[] = "TITLE Example 1.--Add uranium and speciate seawater.\n" "SOLUTION 1 SEAWATER FROM NORDSTROM ET AL. (1979)\n" " units ppm\n" " pH 8.22\n" " pe 8.451\n" " density 1.023\n" " temp 25.0\n" " redox O(0)/O(-2)\n" " Ca 412.3\n" " Mg 1291.8\n" " Na 10768.0\n" " K 399.1\n" " Fe 0.002\n" " Mn 0.0002 pe\n" " Si 4.28\n" " Cl 19353.0\n" " Alkalinity 141.682 as HCO3\n" " S(6) 2712.0\n" " N(5) 0.29 gfw 62.0\n" " N(-3) 0.03 as NH4\n" " U 3.3 ppb N(5)/N(-3)\n" " O(0) 1.0 O2(g) -0.7\n" "SOLUTION_MASTER_SPECIES\n" " U U+4 0.0 238.0290 238.0290\n" " U(4) U+4 0.0 238.0290\n" " U(5) UO2+ 0.0 238.0290\n" " U(6) UO2+2 0.0 238.0290\n" "SOLUTION_SPECIES\n" " #primary master species for U\n" " #is also secondary master species for U(4)\n" " U+4 = U+4\n" " log_k 0.0\n" " U+4 + 4 H2O = U(OH)4 + 4 H+\n" " log_k -8.538\n" " delta_h 24.760 kcal\n" " U+4 + 5 H2O = U(OH)5- + 5 H+\n" " log_k -13.147\n" " delta_h 27.580 kcal\n" " #secondary master species for U(5)\n" " U+4 + 2 H2O = UO2+ + 4 H+ + e-\n" " log_k -6.432\n" " delta_h 31.130 kcal\n" " #secondary master species for U(6)\n" " U+4 + 2 H2O = UO2+2 + 4 H+ + 2 e-\n" " log_k -9.217\n" " delta_h 34.430 kcal\n" " UO2+2 + H2O = UO2OH+ + H+\n" " log_k -5.782\n" " delta_h 11.015 kcal\n" " 2UO2+2 + 2H2O = (UO2)2(OH)2+2 + 2H+\n" " log_k -5.626\n" " delta_h -36.04 kcal\n" " 3UO2+2 + 5H2O = (UO2)3(OH)5+ + 5H+\n" " log_k -15.641\n" " delta_h -44.27 kcal\n" " UO2+2 + CO3-2 = UO2CO3\n" " log_k 10.064\n" " delta_h 0.84 kcal\n" " UO2+2 + 2CO3-2 = UO2(CO3)2-2\n" " log_k 16.977\n" " delta_h 3.48 kcal\n" " UO2+2 + 3CO3-2 = UO2(CO3)3-4\n" " log_k 21.397\n" " delta_h -8.78 kcal\n" "PHASES\n" " Uraninite\n" " UO2 + 4 H+ = U+4 + 2 H2O\n" " log_k -3.490\n" " delta_h -18.630 kcal\n" "END\n" "\n"; IPhreeqc obj; char OUTPUT_FILE[80]; //snprintf(OUTPUT_FILE, sizeof(OUTPUT_FILE), "phreeqc.%lu.out", (unsigned long)obj.GetId()); snprintf(OUTPUT_FILE, sizeof(OUTPUT_FILE), "phreeqc.%lu.out", (unsigned long)obj.GetId()); FileTest ofile(OUTPUT_FILE); ASSERT_TRUE(ofile.RemoveExisting()); ASSERT_EQ(false, ::FileExists(OUTPUT_FILE)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetOutputFileOn(true); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(false, ::FileExists(OUTPUT_FILE)); ASSERT_EQ(0, obj.RunString(input)); ASSERT_TRUE(ofile.VerifyExists()); ASSERT_TRUE(ofile.Size() > 0); } TEST(TestIPhreeqc, TestGetSelectedOutputRowCount) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); int max = 6; ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", max)); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(3, obj.GetSelectedOutputRowCount()); // rows + header } TEST(TestIPhreeqc, TestGetSelectedOutputValue) { int col; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); int max = 6; ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", max)); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); /* EXPECTED selected.out: sim state soln dist_x time step pH pe C Ca Na m_CO3-2 m_CaOH+ m_NaCO3- la_CO3-2 la_CaOH+ la_NaCO3- Calcite d_Calcite si_CO2(g) si_Siderite pressure total mol volume g_CO2(g) g_N2(g) k_Albite dk_Albite k_Pyrite dk_Pyrite s_CaSO4 s_SrSO4 1.name 1.type 1.moles 2.name 2.type 2.moles 3.name 3.type 3.moles 4.name 4.type 4.moles 5.name 5.type 5.moles 6.name 6.type 6.moles 1 i_soln 1 -99 -99 -99 7 4 1.0000e-003 1.0000e-003 1.0000e-003 4.2975e-007 1.1819e-009 1.1881e-009 -6.4686e+000 -8.9530e+000 -8.9507e+000 0.0000e+000 0.0000e+000 -2.2870 -999.9990 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 Ca+2 aq 9.9178e-004 CaHCO3+ aq 7.5980e-006 CaCO3 aq 6.2155e-007 CaOH+ aq 1.1819e-009 1 react 1 -99 0 1 7.86135 10.18 1.1556e-003 1.1556e-003 1.0000e-003 4.2718e-006 9.7385e-009 1.1620e-008 -5.4781e+000 -8.0388e+000 -7.9621e+000 9.8444e-003 -1.5555e-004 -3.0192 -999.9990 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 calcite equi 9.8444e-003 Ca+2 aq 1.1371e-003 CaHCO3+ aq 1.1598e-005 CaCO3 aq 6.8668e-006 CaOH+ aq 9.7385e-009 */ CVar v; ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(-1, 0, &v)); ASSERT_EQ(TT_ERROR, v.type); ASSERT_EQ(VR_INVALIDROW, v.vresult); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(obj.GetSelectedOutputRowCount(), 0, &v)); ASSERT_EQ(TT_ERROR, v.type); ASSERT_EQ(VR_INVALIDROW, v.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, -1, &v)); ASSERT_EQ(TT_ERROR, v.type); ASSERT_EQ(VR_INVALIDCOL, v.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, obj.GetSelectedOutputColumnCount(), &v)); ASSERT_EQ(TT_ERROR, v.type); ASSERT_EQ(VR_INVALIDCOL, v.vresult); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 0, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("sim"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 1, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("state"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 2, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("soln"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 3, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("dist_x"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 4, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("time"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 5, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("step"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 6, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("pH"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 7, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("pe"), std::string(v.sVal)); col = 7; // -totals C Ca Na ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("C(mol/kgw)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Ca(mol/kgw)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Na(mol/kgw)"), std::string(v.sVal)); // -molalities CO3-2 CaOH+ NaCO3- ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("m_CO3-2(mol/kgw)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("m_CaOH+(mol/kgw)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("m_NaCO3-(mol/kgw)"), std::string(v.sVal)); // -activities CO3-2 CaOH+ NaCO3- ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("la_CO3-2"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("la_CaOH+"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("la_NaCO3-"), std::string(v.sVal)); // -equilibrium_phases Calcite ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Calcite"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("d_Calcite"), std::string(v.sVal)); // -saturation_indices CO2(g) Siderite ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("si_CO2(g)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("si_Siderite"), std::string(v.sVal)); // -gases CO2(g) N2(g) // pressure "total mol" volume g_CO2(g) g_N2(g) ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("pressure"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("total mol"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("volume"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("g_CO2(g)"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("g_N2(g)"), std::string(v.sVal)); // -kinetic_reactants Albite Pyrite // k_Albite dk_Albite k_Pyrite dk_Pyrite ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("k_Albite"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("dk_Albite"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("k_Pyrite"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("dk_Pyrite"), std::string(v.sVal)); // -solid_solutions CaSO4 SrSO4 // s_CaSO4 s_SrSO4 ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("s_CaSO4"), std::string(v.sVal)); ++col; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("s_SrSO4"), std::string(v.sVal)); for (int i = 0; i < max; ++i) { std::ostringstream oss1, oss2, oss3; // 1.name // ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col + 1 + (i * 3), &v)); ASSERT_EQ(TT_STRING, v.type); oss1 << i + 1 << ".name"; ASSERT_EQ(oss1.str(), std::string(v.sVal)); // 1.type // ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col + 2 + (i * 3), &v)); ASSERT_EQ(TT_STRING, v.type); oss2 << i + 1 << ".type"; ASSERT_EQ(oss2.str(), std::string(v.sVal)); // 1.moles // ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, col + 3 + (i * 3), &v)); ASSERT_EQ(TT_STRING, v.type); oss3 << i + 1 << ".moles"; ASSERT_EQ(oss3.str(), std::string(v.sVal)); } // sim // col = 0; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(1L, v.lVal); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(1L, v.lVal); // state // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("i_soln"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("react"), std::string(v.sVal)); // soln // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(1L, v.lVal); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(1L, v.lVal); // dist_x -- (always as double) // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_EQ(-99., v.dVal); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_EQ(-99., v.dVal); // time -- (always as double) // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_EQ(-99., v.dVal); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -DBL_DIG)); // step // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(-99L, v.lVal); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_LONG, v.type); ASSERT_EQ(1L, v.lVal); // pH // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(7.0, v.dVal, ::pow(10., -DBL_DIG)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(7.861354, v.dVal, ::pow(10., -6)); // pe // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(4.0, v.dVal, ::pow(10., -DBL_DIG)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); // COMMENT: {8/8/2013 12:26:01 AM} ASSERT_NEAR( 9.90855, v.dVal, ::pow(10., -1) ); // // -totals C Ca Na // // C(mol/kgw) // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.0000e-003, v.dVal, ::pow(10., -DBL_DIG)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.1556e-003, v.dVal, ::pow(10., -7)); // Ca(mol/kgw) // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.0000e-003, v.dVal, ::pow(10., -DBL_DIG)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.1556e-003, v.dVal, ::pow(10., -7)); // Na(mol/kgw) // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.0000e-003, v.dVal, ::pow(10., -DBL_DIG)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.0000e-003, v.dVal, ::pow(10., -7)); // -molalities CO3-2 CaOH+ NaCO3- col += 3; // -activities CO3-2 CaOH+ NaCO3- col += 3; // -equilibrium_phases Calcite col += 2; // -saturation_indices CO2(g) Siderite col += 2; // -gases CO2(g) N2(g) col += 5; // -kinetic_reactants Albite Pyrite // k_Albite dk_Albite k_Pyrite dk_Pyrite col += 4; // -solid_solutions CaSO4 SrSO4 // s_CaSO4 s_SrSO4 col += 2; // 1.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Ca+2"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Calcite"), std::string(v.sVal)); // 1.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("equi"), std::string(v.sVal)); // 1.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(9.9177923E-04, v.dVal, ::pow(10., -11)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(9.8444477E-03, v.dVal, ::pow(10., -10)); // 2.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaHCO3+"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Ca+2"), std::string(v.sVal)); // 2.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // 2.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(7.5980e-006, v.dVal, ::pow(10., -10)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.1371e-003, v.dVal, ::pow(10., -7)); // 3.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaCO3"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaHCO3+"), std::string(v.sVal)); // 3.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // 3.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(6.2155e-007, v.dVal, ::pow(10., -11)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.1598e-005, v.dVal, ::pow(10., -9)); // 4.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaOH+"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaCO3"), std::string(v.sVal)); // 4.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // 4.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.1819e-009, v.dVal, ::pow(10., -13)); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(6.8668e-006, v.dVal, ::pow(10., -10)); // 5.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("CaOH+"), std::string(v.sVal)); // 5.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("aq"), std::string(v.sVal)); // 5.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(9.7385e-009, v.dVal, ::pow(10., -13)); // 6.name // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // 6.type // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // 6.moles // ++col; // i_soln ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); // react ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, col, &v)); ASSERT_EQ(TT_EMPTY, v.type); } TEST(TestIPhreeqc, TestGetSelectedOutputColumnCount) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(0, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, EQUILIBRIUM_PHASES(obj, "calcite", 1.0, 1.0)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", 10)); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(62, obj.GetSelectedOutputColumnCount()); } TEST(TestIPhreeqc, TestAddError) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // make sure initialized to empty // const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(""), std::string(err)); // make sure initialized to empty // const char* expected = "TESTING AddError\n"; ASSERT_EQ((size_t)1, obj.AddError(expected)); // check 1 // err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); // check increment // const char* expected2 = "XXXXXX\n"; ASSERT_EQ((size_t)2, obj.AddError(expected2)); // check concatenation // err = obj.GetErrorString(); ASSERT_EQ(std::string(expected) + std::string(expected2), std::string(err)); // clear errors // ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // make sure back to empty // err = obj.GetErrorString(); ASSERT_EQ(std::string(""), std::string(err)); } TEST(TestIPhreeqc, TestAccumulateLine) { // TODO } TEST(TestIPhreeqc, TestOutputErrorString) { // TODO } TEST(TestIPhreeqc, TestRunWithCallback) { // TODO } TEST(TestIPhreeqc, TestRunNoDatabaseLoaded) { IPhreeqc obj; #if FIXME_PROTECTED obj.UnLoadDatabase(); #endif obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(1, obj.RunAccumulated()); const char expected[] = "ERROR: RunAccumulated: No database is loaded\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); } TEST(TestIPhreeqc, TestCase1) { // Case 1 (see do_run) // pr.punch == TRUE // punch.new_def == FALSE // output_isopen(OUTPUT_PUNCH) == FALSE // selected_output_on == TRUE IPhreeqc obj; char SELECTED_OUT[80]; snprintf(SELECTED_OUT, sizeof(SELECTED_OUT), "selected_1.%lu.out", (unsigned long)obj.GetId()); // remove punch file if it exists FileTest sofile(SELECTED_OUT); ASSERT_TRUE(sofile.RemoveExisting()); // clear all flags ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); #if FIXME_PROTECTED ASSERT_EQ(false, obj.PhreeqcPtr->SelectedOutput_map.size() > 0); ASSERT_EQ(TRUE, obj.PhreeqcPtr->pr.punch); #endif ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", 10)); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_TRUE(sofile.VerifyExists()); ASSERT_TRUE(sofile.Size() > 0); ASSERT_EQ(62, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_TRUE(sofile.VerifyExists()); ASSERT_TRUE(sofile.Size() > 0); ASSERT_EQ(62, obj.GetSelectedOutputColumnCount()); } TEST(TestIPhreeqc, TestCase2) { // Case 2 (see do_run) // pr.punch == TRUE // punch.new_def == TRUE // output_isopen(OUTPUT_PUNCH) == FALSE // selected_output_on == TRUE IPhreeqc obj; // remove punch files if they exists // FileTest sofile("selected.out"); FileTest c2file("case2.punch"); ASSERT_TRUE(sofile.RemoveExisting()); ASSERT_TRUE(c2file.RemoveExisting()); // clear all flags ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); #if FIXME_PROTECTED ASSERT_EQ(false, obj.PhreeqcPtr->SelectedOutput_map.size() > 0); ASSERT_EQ(TRUE, obj.PhreeqcPtr->pr.punch); #endif ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", 10)); ASSERT_EQ(VR_OK, obj.AccumulateLine("-file case2.punch")); // force have_punch_name to TRUE (see read_selected_ouput) obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_TRUE(sofile.VerifyMissing()); ASSERT_TRUE(c2file.VerifyExists()); ASSERT_EQ(62, obj.GetSelectedOutputColumnCount()); // remove punch files if they exist // ASSERT_TRUE(sofile.RemoveExisting()); ASSERT_TRUE(c2file.RemoveExisting()); ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", 10)); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_TRUE(sofile.VerifyMissing()); ASSERT_TRUE(c2file.VerifyExists()); ASSERT_EQ(62, obj.GetSelectedOutputColumnCount()); } TEST(TestIPhreeqc, TestPrintSelectedOutputFalse) { IPhreeqc obj; // remove punch files if they exists // if (::FileExists("selected.out")) { ::DeleteFile("selected.out"); } ASSERT_EQ(false, ::FileExists("selected.out")); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // turn off selected output ASSERT_EQ(VR_OK, obj.AccumulateLine("PRINT; -selected_output false \n")); // run obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(0, obj.GetSelectedOutputRowCount()); // reset pr.punch to TRUE ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // run obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(true); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(11, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); } TEST(TestIPhreeqc, TestOutputFileOnOff) { #if defined(_WIN32) int n = ::_fcloseall(); ASSERT_EQ(0, n); #endif bool onoff[5]; onoff[0] = true; // output_file_on onoff[1] = false; // error_file_on onoff[2] = false; // log_file_on onoff[3] = false; // selected_output_file_on onoff[4] = false; // dump_file_on TestFileOnOff("phreeqc.%d.out", onoff[0], onoff[1], onoff[2], onoff[3], onoff[4]); } TEST(TestIPhreeqc, TestErrorFileOnOff) { bool onoff[5]; onoff[0] = false; // output_file_on onoff[1] = true; // error_file_on onoff[2] = false; // log_file_on onoff[3] = false; // selected_output_file_on onoff[4] = false; // dump_file_on TestFileOnOff("phreeqc.%d.err", onoff[0], onoff[1], onoff[2], onoff[3], onoff[4]); } TEST(TestIPhreeqc, TestLogFileOnOff) { bool onoff[5]; onoff[0] = false; // output_file_on onoff[1] = false; // error_file_on onoff[2] = true; // log_file_on onoff[3] = false; // selected_output_file_on onoff[4] = false; // dump_file_on TestFileOnOff("phreeqc.%d.log", onoff[0], onoff[1], onoff[2], onoff[3], onoff[4]); } TEST(TestIPhreeqc, TestDumpFileOnOff) { bool onoff[5]; onoff[0] = false; // output_file_on onoff[1] = false; // error_file_on onoff[2] = false; // log_file_on onoff[3] = false; // selected_output_file_on onoff[4] = true; // dump_file_on TestFileOnOff("dump.%d.out", onoff[0], onoff[1], onoff[2], onoff[3], onoff[4]); } TEST(TestIPhreeqc, TestSelOutFileOnOff) { bool onoff[5]; onoff[0] = false; // output_file_on onoff[1] = false; // error_file_on onoff[2] = false; // log_file_on onoff[3] = true; // selected_output_file_on onoff[4] = false; // dump_file_on TestFileOnOff("selected_1.%d.out", onoff[0], onoff[1], onoff[2], onoff[3], onoff[4]); } void TestFileOnOff(const char* FILENAME_FORMAT, bool output_file_on, bool error_file_on, bool log_file_on, bool selected_output_file_on, bool dump_file_on) { IPhreeqc obj; char FILENAME[80]; snprintf(FILENAME, sizeof(FILENAME), FILENAME_FORMAT, obj.GetId()); // remove FILENAME if it exists // if (::FileExists(FILENAME)) { ::DeleteFile(FILENAME); } ASSERT_EQ(false, ::FileExists(FILENAME)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // add dump block ASSERT_EQ(VR_OK, DUMP(obj)); // run all off obj.SetDumpFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetOutputFileOn(false); obj.SetSelectedOutputFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(false, ::FileExists(FILENAME)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // add dump block ASSERT_EQ(VR_OK, DUMP(obj)); // run obj.SetDumpFileOn(dump_file_on); obj.SetErrorFileOn(error_file_on); obj.SetLogFileOn(log_file_on); obj.SetOutputFileOn(output_file_on); obj.SetSelectedOutputFileOn(selected_output_file_on); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(FILENAME)); ASSERT_TRUE(::DeleteFile(FILENAME)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // add dump block ASSERT_EQ(VR_OK, DUMP(obj)); // run obj.SetDumpFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetOutputFileOn(false); obj.SetSelectedOutputFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(false, ::FileExists(FILENAME)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add selected output block ASSERT_EQ(VR_OK, SELECTED_OUTPUT(obj)); // add dump block ASSERT_EQ(VR_OK, DUMP(obj)); // run obj.SetDumpFileOn(dump_file_on); obj.SetErrorFileOn(error_file_on); obj.SetLogFileOn(log_file_on); obj.SetOutputFileOn(output_file_on); obj.SetSelectedOutputFileOn(selected_output_file_on); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(FILENAME)); ASSERT_TRUE(::DeleteFile(FILENAME)); } VRESULT SOLUTION(IPhreeqc& obj, double C, double Ca, double Na) { std::ostringstream oss; oss << "SOLUTION 1\n"; oss << "C " << C << "\n"; oss << "Ca " << Ca << "\n"; oss << "Na " << Na << "\n"; return obj.AccumulateLine(oss.str().c_str()); } VRESULT EQUILIBRIUM_PHASES(IPhreeqc& obj, const char* phase, double si, double amount) { std::ostringstream oss; oss << "EQUILIBRIUM_PHASES\n"; oss << phase << " " << si << " " << amount << "\n"; return obj.AccumulateLine(oss.str().c_str()); } VRESULT USER_PUNCH(IPhreeqc& obj, const char* element, int max) { std::ostringstream oss; oss << "USER_PUNCH\n"; oss << "-head "; for (int i = 1; i <= max; ++i) { oss << i << ".name " << i << ".type " << i << ".moles "; } oss << "\n"; oss << "-start" << "\n"; oss << "10 n = sys(\"" << element << "\"" << ", count, names$, types$, moles)" << "\n"; oss << "20 n = " << max << "\n"; oss << "30 if count < " << max << " then n = count" << "\n"; oss << "40 for i = 1 to n" << "\n"; oss << "50 PUNCH names$(i), types$(i), moles(i)" << "\n"; oss << "60 next i" << "\n"; oss << "70 list" << "\n"; oss << "-end" << "\n"; oss << "SELECTED_OUTPUT" << "\n"; oss << "-totals C Ca Na" << "\n"; oss << "-molalities CO3-2 CaOH+ NaCO3-" << "\n"; oss << "-activities CO3-2 CaOH+ NaCO3-" << "\n"; oss << "-equilibrium_phases Calcite" << "\n"; oss << "-saturation_indices CO2(g) Siderite" << "\n"; oss << "-gases CO2(g) N2(g)" << "\n"; oss << "-kinetic_reactants Albite Pyrite" << "\n"; oss << "-solid_solutions CaSO4 SrSO4" << "\n"; return obj.AccumulateLine(oss.str().c_str()); } VRESULT USER_PUNCH_NEH(IPhreeqc& obj) { std::ostringstream oss; oss << "USER_PUNCH\n"; oss << "-head head0 head1 head2\n"; oss << "-start" << "\n"; oss << "10 PUNCH \"have0\", \"have1\", \"have2\"" << "\n"; oss << "20 PUNCH \"missing0\", \"missing1\", \"missing2\"" << "\n"; oss << "-end" << "\n"; oss << "SELECTED_OUTPUT" << "\n"; oss << "-totals C Ca Na" << "\n"; oss << "-molalities CO3-2 CaOH+ NaCO3-" << "\n"; oss << "-activities CO3-2 CaOH+ NaCO3-" << "\n"; oss << "-equilibrium_phases Calcite" << "\n"; oss << "-saturation_indices CO2(g) Siderite" << "\n"; oss << "-gases CO2(g) N2(g)" << "\n"; oss << "-kinetic_reactants Albite Pyrite" << "\n"; oss << "-solid_solutions CaSO4 SrSO4" << "\n"; return obj.AccumulateLine(oss.str().c_str()); } VRESULT SELECTED_OUTPUT(IPhreeqc& obj) { std::ostringstream oss; oss << "SELECTED_OUTPUT" << "\n"; oss << "-totals C Ca Na" << "\n"; return obj.AccumulateLine(oss.str().c_str()); } VRESULT DUMP(IPhreeqc& obj) { std::ostringstream oss; oss << "DUMP" << "\n"; oss << "-solution 1" << "\n"; return obj.AccumulateLine(oss.str().c_str()); } TEST(TestIPhreeqc, TestLongHeadings) { char long_header[] = "this_is_a_long_header_0123456789012345678901234567890123456789"; char long_value[] = "this_is_a_long_value_01234567890123456789012345678901234567890"; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); std::ostringstream oss; oss << "SOLUTION" << "\n"; oss << "SELECTED_OUTPUT" << "\n"; oss << "-reset false" << "\n"; oss << "USER_PUNCH" << "\n"; oss << "-head " << long_header << "\n"; oss << "-start" << "\n"; oss << "10 PUNCH \"" << long_value << "\"\n"; oss << "-end" << "\n"; ASSERT_EQ(VR_OK, obj.AccumulateLine(oss.str().c_str())); // COMMENT: {10/30/2013 10:39:40 PM} //{{ // COMMENT: {10/30/2013 10:39:40 PM} ASSERT_EQ( VR_OK, obj.AccumulateLine("END") ); // COMMENT: {10/30/2013 10:39:40 PM} oss << "SELECTED_OUTPUT" << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} oss << "-reset false" << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} // COMMENT: {10/30/2013 10:39:40 PM} oss << "USER_PUNCH" << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} oss << "-head " << long_header << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} oss << "-start" << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} oss << "10 PUNCH \"" << long_value << "\"\n"; // COMMENT: {10/30/2013 10:39:40 PM} oss << "-end" << "\n"; // COMMENT: {10/30/2013 10:39:40 PM} ASSERT_EQ( VR_OK, obj.AccumulateLine(oss.str().c_str()) ); // COMMENT: {10/30/2013 10:39:40 PM} //}} obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); ASSERT_EQ(1, obj.GetSelectedOutputColumnCount()); CVar v; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, 0, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string(long_header), std::string(v.sVal)); CVar v1; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 0, &v1)); ASSERT_EQ(TT_STRING, v1.type); ASSERT_EQ(std::string(long_value), std::string(v1.sVal)); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(1, 1, &v1)); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(2, 0, &v1)); } TEST(TestIPhreeqc, TestDatabaseKeyword) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(1, obj.RunFile("dump")); const char* expected = "ERROR: Gas not found in PHASES database, Amm(g).\n" "ERROR: Calculations terminating due to input errors.\n"; const char* err = obj.GetErrorString(); ASSERT_EQ(std::string(expected), std::string(err)); const char* exp_warn = "WARNING: DATABASE keyword is ignored by IPhreeqc.\n" "WARNING: Cell-lengths were read for 1 cells. Last value is used till cell 100.\n" "WARNING: No dispersivities were read; disp = 0 assumed.\n" "WARNING: Could not find element in database, Amm.\n" " Concentration is set to zero.\n"; const char* warn = obj.GetWarningString(); ASSERT_EQ(std::string(exp_warn), std::string(warn)); } TEST(TestIPhreeqc, TestDumpString) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, DUMP(obj)); // run obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); obj.SetDumpStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); const char* dump_str = obj.GetDumpString(); ASSERT_TRUE(::strstr(dump_str, "SOLUTION_RAW") != NULL); ASSERT_TRUE(::strstr(dump_str, "-temp") != NULL); ASSERT_TRUE(::strstr(dump_str, "-total_h") != NULL); ASSERT_TRUE(::strstr(dump_str, "-total_o") != NULL); ASSERT_TRUE(::strstr(dump_str, "-cb") != NULL); ASSERT_TRUE(::strstr(dump_str, "-totals") != NULL); ASSERT_TRUE(::strstr(dump_str, " C(4) ") != NULL); ASSERT_TRUE(::strstr(dump_str, " Ca ") != NULL); ASSERT_TRUE(::strstr(dump_str, " H(0) ") != NULL); ASSERT_TRUE(::strstr(dump_str, " Na ") != NULL); ASSERT_TRUE(::strstr(dump_str, "-pH") != NULL); ASSERT_TRUE(::strstr(dump_str, "-pe") != NULL); ASSERT_TRUE(::strstr(dump_str, "-mu") != NULL); ASSERT_TRUE(::strstr(dump_str, "-ah2o") != NULL); ASSERT_TRUE(::strstr(dump_str, "-mass_water") != NULL); ASSERT_TRUE(::strstr(dump_str, "-total_alkalinity") != NULL); ASSERT_TRUE(::strstr(dump_str, "-activities") != NULL); ASSERT_TRUE(::strstr(dump_str, " C(-4) ") != NULL); ASSERT_TRUE(::strstr(dump_str, " C(4) ") != NULL); ASSERT_TRUE(::strstr(dump_str, " Ca ") != NULL); ASSERT_TRUE(::strstr(dump_str, " E ") != NULL); ASSERT_TRUE(::strstr(dump_str, " H(0) ") != NULL); ASSERT_TRUE(::strstr(dump_str, " Na ") != NULL); ASSERT_TRUE(::strstr(dump_str, " O(0) ") != NULL); ASSERT_TRUE(::strstr(dump_str, "-gammas") != NULL); ASSERT_TRUE(::strstr(dump_str, "USE mix none") != NULL); ASSERT_TRUE(::strstr(dump_str, "USE reaction none") != NULL); ASSERT_TRUE(::strstr(dump_str, "USE reaction_temperature none") != NULL); ASSERT_TRUE(::strstr(dump_str, "USE reaction_pressure none") != NULL); } TEST(TestIPhreeqc, TestGetDumpStringLineCount) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); obj.SetDumpStringOn(true); ASSERT_EQ(true, obj.GetDumpStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(34, obj.GetDumpStringLineCount()); } TEST(TestIPhreeqc, TestGetDumpStringLine) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); obj.SetDumpStringOn(true); ASSERT_EQ(true, obj.GetDumpStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(34, obj.GetDumpStringLineCount()); int line = 0; EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("SOLUTION_RAW")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-temp")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-pressure")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-potential")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-total_h")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-total_o")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-cb")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-density")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-viscosity")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-totals")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" C(4) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" Ca ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" H(0) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" Na ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-pH")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-pe")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-mu")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-ah2o")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-mass_water")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-soln_vol")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-total_alkalinity")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-activities")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" C(-4) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" C(4) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" Ca ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" E ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" H(0) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" Na ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr(" O(0) ")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("-gammas")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("USE mix none")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("USE reaction none")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("USE reaction_temperature none")); EXPECT_THAT(obj.GetDumpStringLine(line++), HasSubstr("USE reaction_pressure none")); // remaining lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(-3))); ASSERT_EQ(std::string(""), std::string(obj.GetDumpStringLine(-4))); } TEST(TestIPhreeqc, TestGetComponentCount) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // run ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ((size_t)3, obj.GetComponentCount()); } TEST(TestIPhreeqc, TestGetComponent) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // run ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ((size_t)3, obj.GetComponentCount()); ASSERT_EQ(std::string(""), std::string(obj.GetComponent(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetComponent(-1))); ASSERT_EQ(std::string("C"), std::string(obj.GetComponent(0))); ASSERT_EQ(std::string("Ca"), std::string(obj.GetComponent(1))); ASSERT_EQ(std::string("Na"), std::string(obj.GetComponent(2))); ASSERT_EQ(std::string(""), std::string(obj.GetComponent(3))); ASSERT_EQ(std::string(""), std::string(obj.GetComponent(4))); ASSERT_EQ(std::string(""), std::string(obj.GetComponent(5))); } TEST(TestIPhreeqc, TestListComponents) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // run ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); std::list< std::string > comps = obj.ListComponents(); ASSERT_EQ((size_t)3, comps.size()); std::list< std::string >::iterator it = comps.begin(); ASSERT_EQ(std::string("C"), std::string((*it++))); ASSERT_EQ(std::string("Ca"), std::string((*it++))); ASSERT_EQ(std::string("Na"), std::string((*it++))); } TEST(TestIPhreeqc, TestSetDumpFileName) { char DUMP_FILENAME[80]; snprintf(DUMP_FILENAME, sizeof(DUMP_FILENAME), "dump.%06d.out", ::rand()); if (::FileExists(DUMP_FILENAME)) { ::DeleteFile(DUMP_FILENAME); } IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(true); obj.SetDumpFileName(DUMP_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(DUMP_FILENAME)); std::string lines[35]; std::ifstream ifs(DUMP_FILENAME); size_t i = 0; while (i < sizeof(lines) / sizeof(lines[0]) && std::getline(ifs, lines[i])) { ++i; } int line = 0; EXPECT_THAT(lines[line++], HasSubstr("SOLUTION_RAW")); EXPECT_THAT(lines[line++], HasSubstr("-temp")); EXPECT_THAT(lines[line++], HasSubstr("-pressure")); EXPECT_THAT(lines[line++], HasSubstr("-potential")); EXPECT_THAT(lines[line++], HasSubstr("-total_h")); EXPECT_THAT(lines[line++], HasSubstr("-total_o")); EXPECT_THAT(lines[line++], HasSubstr("-cb")); EXPECT_THAT(lines[line++], HasSubstr("-density")); EXPECT_THAT(lines[line++], HasSubstr("-viscosity")); EXPECT_THAT(lines[line++], HasSubstr("-totals")); EXPECT_THAT(lines[line++], HasSubstr(" C(4) ")); EXPECT_THAT(lines[line++], HasSubstr(" Ca ")); EXPECT_THAT(lines[line++], HasSubstr(" H(0) ")); EXPECT_THAT(lines[line++], HasSubstr(" Na ")); EXPECT_THAT(lines[line++], HasSubstr("-pH")); EXPECT_THAT(lines[line++], HasSubstr("-pe")); EXPECT_THAT(lines[line++], HasSubstr("-mu")); EXPECT_THAT(lines[line++], HasSubstr("-ah2o")); EXPECT_THAT(lines[line++], HasSubstr("-mass_water")); EXPECT_THAT(lines[line++], HasSubstr("-soln_vol")); EXPECT_THAT(lines[line++], HasSubstr("-total_alkalinity")); EXPECT_THAT(lines[line++], HasSubstr("-activities")); EXPECT_THAT(lines[line++], HasSubstr(" C(-4) ")); EXPECT_THAT(lines[line++], HasSubstr(" C(4) ")); EXPECT_THAT(lines[line++], HasSubstr(" Ca ")); EXPECT_THAT(lines[line++], HasSubstr(" E ")); EXPECT_THAT(lines[line++], HasSubstr(" H(0) ")); EXPECT_THAT(lines[line++], HasSubstr(" Na ")); EXPECT_THAT(lines[line++], HasSubstr(" O(0) ")); EXPECT_THAT(lines[line++], HasSubstr("-gammas")); EXPECT_THAT(lines[line++], HasSubstr("USE mix none")); EXPECT_THAT(lines[line++], HasSubstr("USE reaction none")); EXPECT_THAT(lines[line++], HasSubstr("USE reaction_temperature none")); EXPECT_THAT(lines[line++], HasSubstr("USE reaction_pressure none")); if (::FileExists(DUMP_FILENAME)) { ::DeleteFile(DUMP_FILENAME); } } TEST(TestIPhreeqc, TestSetOutputFileName) { char OUTPUT_FILENAME[80]; snprintf(OUTPUT_FILENAME, sizeof(OUTPUT_FILENAME), "output.%06d.out", ::rand()); if (::FileExists(OUTPUT_FILENAME)) { ::DeleteFile(OUTPUT_FILENAME); } IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat.old")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run obj.SetOutputFileOn(true); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); obj.SetOutputFileName(OUTPUT_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(OUTPUT_FILENAME)); std::string lines[200]; std::ifstream ifs(OUTPUT_FILENAME); size_t i = 0; while (i < sizeof(lines) / sizeof(lines[0]) && std::getline(ifs, lines[i])) { ++i; } #ifndef TESTING ASSERT_EQ((size_t)100, i); #else ASSERT_EQ((size_t)96, i); #endif int line = 0; // it would be better to use: // ASSERT_THAT(lines[line++], StartsWith("------------------------------------")); // but seems to not work when BUILD_SHARED_LIBS is set gtest 1.8.1 // see aa178fd6fac2d1c0a867385538071031e2ddedde of gtest branch // EXPECT_THAT(lines[line++], HasSubstr("------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("Reading input data for simulation 1.")); EXPECT_THAT(lines[line++], HasSubstr("------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" SOLUTION 1")); EXPECT_THAT(lines[line++], HasSubstr(" C 1")); EXPECT_THAT(lines[line++], HasSubstr(" Ca 1")); EXPECT_THAT(lines[line++], HasSubstr(" Na 1")); EXPECT_THAT(lines[line++], HasSubstr(" DUMP")); EXPECT_THAT(lines[line++], HasSubstr(" -solution 1")); EXPECT_THAT(lines[line++], HasSubstr("-------------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("Beginning of initial solution calculations.")); EXPECT_THAT(lines[line++], HasSubstr("-------------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("Initial solution 1. ")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("-----------------------------Solution composition--------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" Elements Molality Moles")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" C ")); EXPECT_THAT(lines[line++], HasSubstr(" Ca ")); EXPECT_THAT(lines[line++], HasSubstr(" Na ")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("----------------------------Description of solution------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" pH = ")); EXPECT_THAT(lines[line++], HasSubstr(" pe = ")); EXPECT_THAT(lines[line++], HasSubstr(" Activity of water = ")); EXPECT_THAT(lines[line++], HasSubstr(" Ionic strength (mol/kgw) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Mass of water (kg) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Total alkalinity (eq/kg) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Total CO2 (mol/kg) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Temperature (°C) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Electrical balance (eq) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Percent error, 100*(Cat-|An|)/(Cat+|An|) = ")); EXPECT_THAT(lines[line++], HasSubstr(" Iterations = ")); EXPECT_THAT(lines[line++], HasSubstr(" Total H = ")); EXPECT_THAT(lines[line++], HasSubstr(" Total O = ")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("----------------------------Distribution of species----------------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" Log Log Log mole V")); EXPECT_THAT(lines[line++], HasSubstr(" Species Molality Activity Molality Activity Gamma cm³/mol")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" OH- ")); EXPECT_THAT(lines[line++], HasSubstr(" H+ ")); EXPECT_THAT(lines[line++], HasSubstr(" H2O ")); EXPECT_THAT(lines[line++], HasSubstr("C(-4) ")); EXPECT_THAT(lines[line++], HasSubstr(" CH4 ")); EXPECT_THAT(lines[line++], HasSubstr("C(4) ")); EXPECT_THAT(lines[line++], HasSubstr(" HCO3- ")); EXPECT_THAT(lines[line++], HasSubstr(" CO2 ")); EXPECT_THAT(lines[line++], HasSubstr(" CaHCO3+ ")); EXPECT_THAT(lines[line++], HasSubstr(" CaCO3 ")); EXPECT_THAT(lines[line++], HasSubstr(" CO3-2 ")); EXPECT_THAT(lines[line++], HasSubstr(" NaHCO3 ")); EXPECT_THAT(lines[line++], HasSubstr(" NaCO3- ")); EXPECT_THAT(lines[line++], HasSubstr("Ca ")); EXPECT_THAT(lines[line++], HasSubstr(" Ca+2 ")); EXPECT_THAT(lines[line++], HasSubstr(" CaHCO3+ ")); EXPECT_THAT(lines[line++], HasSubstr(" CaCO3 ")); EXPECT_THAT(lines[line++], HasSubstr(" CaOH+ ")); EXPECT_THAT(lines[line++], HasSubstr("H(0) ")); EXPECT_THAT(lines[line++], HasSubstr(" H2 ")); EXPECT_THAT(lines[line++], HasSubstr("Na ")); EXPECT_THAT(lines[line++], HasSubstr(" Na+ ")); EXPECT_THAT(lines[line++], HasSubstr(" NaHCO3 ")); EXPECT_THAT(lines[line++], HasSubstr(" NaCO3- ")); EXPECT_THAT(lines[line++], HasSubstr(" NaOH ")); EXPECT_THAT(lines[line++], HasSubstr("O(0) ")); EXPECT_THAT(lines[line++], HasSubstr(" O2 ")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("------------------------------Saturation indices-------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" Phase SI** log IAP log K(298 K, 1 atm)")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr(" Aragonite")); EXPECT_THAT(lines[line++], HasSubstr(" Calcite")); EXPECT_THAT(lines[line++], HasSubstr(" CH4(g)")); EXPECT_THAT(lines[line++], HasSubstr(" CO2(g)")); EXPECT_THAT(lines[line++], HasSubstr(" H2(g)")); EXPECT_THAT(lines[line++], HasSubstr(" H2O(g)")); EXPECT_THAT(lines[line++], HasSubstr(" O2(g)")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("**For a gas, SI = log10(fugacity). Fugacity = pressure * phi / 1 atm.")); EXPECT_THAT(lines[line++], HasSubstr(" For ideal gases, phi = 1.")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("------------------")); EXPECT_THAT(lines[line++], HasSubstr("End of simulation.")); EXPECT_THAT(lines[line++], HasSubstr("------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("Reading input data for simulation 2.")); EXPECT_THAT(lines[line++], HasSubstr("------------------------------------")); EXPECT_THAT(lines[line++], HasSubstr("")); #ifndef TESTING EXPECT_THAT(lines[line++], HasSubstr("----------------")); EXPECT_THAT(lines[line++], HasSubstr("End of Run after ")); EXPECT_THAT(lines[line++], HasSubstr("----------------")); #endif EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("")); EXPECT_THAT(lines[line++], HasSubstr("")); if (::FileExists(OUTPUT_FILENAME)) { ::DeleteFile(OUTPUT_FILENAME); } } TEST(TestIPhreeqc, TestOutputStringOnOff) { IPhreeqc obj; ASSERT_EQ(false, obj.GetOutputStringOn()); obj.SetOutputStringOn(true); ASSERT_EQ(true, obj.GetOutputStringOn()); obj.SetOutputStringOn(false); ASSERT_EQ(false, obj.GetOutputStringOn()); } TEST(TestIPhreeqc, TestGetOutputString) { char OUTPUT_FILENAME[80]; snprintf(OUTPUT_FILENAME, sizeof(OUTPUT_FILENAME), "output.%06d.out", ::rand()); if (::FileExists(OUTPUT_FILENAME)) { ::DeleteFile(OUTPUT_FILENAME); } ASSERT_EQ(false, ::FileExists(OUTPUT_FILENAME)); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run obj.SetOutputFileOn(true); obj.SetOutputStringOn(true); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); obj.SetOutputFileName(OUTPUT_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(OUTPUT_FILENAME)); { std::ifstream ifs(OUTPUT_FILENAME); std::string fline((std::istreambuf_iterator(ifs)), std::istreambuf_iterator()); std::string sline(obj.GetOutputString()); ASSERT_TRUE(sline.size() > 0); ASSERT_EQ(fline, sline); } if (::FileExists(OUTPUT_FILENAME)) { ::DeleteFile(OUTPUT_FILENAME); } } TEST(TestIPhreeqc, TestGetOutputStringLineCount) { IPhreeqc obj; ASSERT_EQ(0, obj.GetOutputStringLineCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat.old")); ASSERT_EQ(0, obj.GetOutputStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run obj.SetOutputStringOn(false); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetOutputStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); obj.SetOutputStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); #ifndef TESTING ASSERT_EQ(100, obj.GetOutputStringLineCount()); #else ASSERT_EQ(96, obj.GetOutputStringLineCount()); #endif // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); obj.SetOutputStringOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetOutputStringLineCount()); } TEST(TestIPhreeqc, TestGetOutputStringLine) { IPhreeqc obj; ASSERT_EQ(0, obj.GetOutputStringLineCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat.old")); ASSERT_EQ(0, obj.GetOutputStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // run obj.SetOutputStringOn(false); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetOutputStringLineCount()); int line = 0; ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-3))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-4))); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); obj.SetOutputStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); #ifndef TESTING ASSERT_EQ(100, obj.GetOutputStringLineCount()); #else ASSERT_EQ(96, obj.GetOutputStringLineCount()); #endif ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetOutputStringLine(0))); ASSERT_EQ(std::string("Reading input data for simulation 1."), std::string(obj.GetOutputStringLine(1))); ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetOutputStringLine(2))); ASSERT_EQ(std::string("-----------------------------Solution composition------------------------------"), std::string(obj.GetOutputStringLine(16))); ASSERT_EQ(std::string("----------------------------Description of solution----------------------------"), std::string(obj.GetOutputStringLine(24))); ASSERT_EQ(std::string("----------------------------Distribution of species----------------------------"), std::string(obj.GetOutputStringLine(40))); ASSERT_EQ(std::string("------------------------------Saturation indices-------------------------------"), std::string(obj.GetOutputStringLine(73))); #ifndef TESTING ASSERT_EQ(std::string("End of Run"), std::string(obj.GetOutputStringLine(97)).substr(0, 10)); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(100))); #else ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(96))); #endif // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); obj.SetOutputStringOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetOutputStringLineCount()); line = 0; ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-3))); ASSERT_EQ(std::string(""), std::string(obj.GetOutputStringLine(-4))); } TEST(TestIPhreeqc, TestSetLogFileName) { char LOG_FILENAME[80]; snprintf(LOG_FILENAME, sizeof(LOG_FILENAME), "log.%06d.out", ::rand()); if (::FileExists(LOG_FILENAME)) { ::DeleteFile(LOG_FILENAME); } IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); // run obj.SetLogFileOn(true); obj.SetErrorFileOn(false); obj.SetOutputFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); obj.SetLogFileName(LOG_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(LOG_FILENAME)); std::string lines[33]; std::ifstream ifs(LOG_FILENAME); size_t i = 0; while (i < sizeof(lines) / sizeof(lines[0]) && std::getline(ifs, lines[i])) { ++i; } #ifndef TESTING ASSERT_EQ((size_t)25, i); #else ASSERT_EQ((size_t)21, i); #endif int line = 0; ASSERT_EQ(std::string("-------------------------------------------"), lines[line++]); ASSERT_EQ(std::string("Beginning of initial solution calculations."), lines[line++]); ASSERT_EQ(std::string("-------------------------------------------"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("Initial solution 1. "), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("Iterations in revise_guesses: 2"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("Number of infeasible solutions: 0"), lines[line++]); ASSERT_EQ(std::string("Number of basis changes: 0"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("Number of iterations: 6"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("------------------"), lines[line++]); ASSERT_EQ(std::string("End of simulation."), lines[line++]); ASSERT_EQ(std::string("------------------"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); ASSERT_EQ(std::string("------------------------------------"), lines[line++]); ASSERT_EQ(std::string("Reading input data for simulation 2."), lines[line++]); ASSERT_EQ(std::string("------------------------------------"), lines[line++]); ASSERT_EQ(std::string(""), lines[line++]); #ifndef TESTING line++; ASSERT_EQ(std::string("End of Run"), lines[line++].substr(0, 10)); line++; #endif ASSERT_EQ(std::string(""), lines[line++]); if (::FileExists(LOG_FILENAME)) { ::DeleteFile(LOG_FILENAME); } } TEST(TestIPhreeqc, TestLogStringOnOff) { IPhreeqc obj; ASSERT_EQ(false, obj.GetLogStringOn()); obj.SetLogStringOn(true); ASSERT_EQ(true, obj.GetLogStringOn()); obj.SetLogStringOn(false); ASSERT_EQ(false, obj.GetLogStringOn()); } TEST(TestIPhreeqc, TestGetLogString) { char LOG_FILENAME[80]; snprintf(LOG_FILENAME, sizeof(LOG_FILENAME), "log.%06d.out", ::rand()); if (::FileExists(LOG_FILENAME)) { ::DeleteFile(LOG_FILENAME); } ASSERT_EQ(false, ::FileExists(LOG_FILENAME)); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); // run obj.SetLogFileOn(true); obj.SetLogStringOn(true); obj.SetDumpFileOn(false); obj.SetDumpStringOn(false); obj.SetErrorFileOn(false); obj.SetOutputFileOn(false); obj.SetOutputStringOn(false); obj.SetSelectedOutputFileOn(false); obj.SetLogFileName(LOG_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(LOG_FILENAME)); { std::ifstream ifs(LOG_FILENAME); std::string fline((std::istreambuf_iterator(ifs)), std::istreambuf_iterator()); std::string sline(obj.GetLogString()); ASSERT_TRUE(sline.size() > 0); ASSERT_EQ(fline, sline); } if (::FileExists(LOG_FILENAME)) { ::DeleteFile(LOG_FILENAME); } } TEST(TestIPhreeqc, TestGetLogStringLineCount) { IPhreeqc obj; ASSERT_EQ(0, obj.GetLogStringLineCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.GetLogStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); // run obj.SetLogStringOn(false); obj.SetLogFileOn(false); obj.SetErrorFileOn(false); obj.SetOutputFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetLogStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); obj.SetLogStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); #ifndef TESTING ASSERT_EQ(29, obj.GetLogStringLineCount()); #else ASSERT_EQ(25, obj.GetLogStringLineCount()); #endif // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); obj.SetLogStringOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetLogStringLineCount()); } TEST(TestIPhreeqc, TestGetLogStringLine) { IPhreeqc obj; ASSERT_EQ(0, obj.GetLogStringLineCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.GetLogStringLineCount()); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); // run obj.SetOutputStringOn(false); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetLogStringLineCount()); int line = 0; ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-3))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-4))); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); obj.SetLogStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); #ifndef TESTING ASSERT_EQ(29, obj.GetLogStringLineCount()); #else ASSERT_EQ(25, obj.GetLogStringLineCount()); #endif line = 0; ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Reading input data for simulation 1."), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("-------------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Beginning of initial solution calculations."), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("-------------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Initial solution 1. "), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Iterations in revise_guesses: 2"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Number of infeasible solutions: 0"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Number of basis changes: 0"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Number of iterations: 6"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("End of simulation."), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("Reading input data for simulation 2."), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string("------------------------------------"), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); #ifndef TESTING ASSERT_EQ(std::string("----------"), std::string(obj.GetLogStringLine(line++)).substr(0, 10)); ASSERT_EQ(std::string("End of Run"), std::string(obj.GetLogStringLine(line++)).substr(0, 10)); ASSERT_EQ(std::string("----------"), std::string(obj.GetLogStringLine(line++)).substr(0, 10)); #endif ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); // add solution block ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); // add dump block ASSERT_EQ(VR_OK, ::DUMP(obj)); // add knobs ASSERT_EQ(VR_OK, obj.AccumulateLine("KNOBS")); ASSERT_EQ(VR_OK, obj.AccumulateLine("\t-logfile TRUE")); obj.SetLogStringOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetLogStringLineCount()); line = 0; ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-3))); ASSERT_EQ(std::string(""), std::string(obj.GetLogStringLine(-4))); } TEST(TestIPhreeqc, TestSetErrorFileName) { char ERR_FILENAME[80]; snprintf(ERR_FILENAME, sizeof(ERR_FILENAME), "error.%s.out", "TestIPhreeqc-TestSetErrorFileName"); if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); // run obj.SetErrorFileOn(true); obj.SetLogFileOn(false); obj.SetOutputFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); obj.SetErrorFileName(ERR_FILENAME); ASSERT_EQ(1, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(ERR_FILENAME)); std::string lines[100]; { std::ifstream ifs(ERR_FILENAME); size_t i = 0; while (i < sizeof(lines) / sizeof(lines[0]) && std::getline(ifs, lines[i % 100])) { ++i; } ASSERT_EQ((size_t)90, i); } ASSERT_EQ(std::string("WARNING: Maximum iterations exceeded, 100"), lines[0]); ASSERT_EQ(std::string("WARNING: Numerical method failed with this set of convergence parameters."), lines[2]); ASSERT_EQ(std::string("ERROR: Numerical method failed on all combinations of convergence parameters, cell/soln/mix 1"), lines[88]); ASSERT_EQ(std::string("Stopping."), lines[89]); if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } } TEST(TestIPhreeqc, TestErrorStringOnOff) { IPhreeqc obj; ASSERT_EQ(true, obj.GetErrorStringOn()); obj.SetErrorStringOn(false); ASSERT_EQ(false, obj.GetErrorStringOn()); obj.SetErrorStringOn(true); ASSERT_EQ(true, obj.GetErrorStringOn()); obj.SetErrorStringOn(false); ASSERT_EQ(false, obj.GetErrorStringOn()); } TEST(TestIPhreeqc, TestGetErrorString) { char ERR_FILENAME[80]; snprintf(ERR_FILENAME, sizeof(ERR_FILENAME), "error.%06d.out", ::rand()); if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } ASSERT_EQ(false, ::FileExists(ERR_FILENAME)); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); // run obj.SetErrorFileOn(true); obj.SetErrorStringOn(true); obj.SetDumpFileOn(false); obj.SetDumpStringOn(false); obj.SetLogFileOn(false); obj.SetOutputFileOn(false); obj.SetOutputStringOn(false); obj.SetSelectedOutputFileOn(false); obj.SetErrorFileName(ERR_FILENAME); ASSERT_EQ(std::string(ERR_FILENAME), std::string(obj.GetErrorFileName())); ASSERT_EQ(1, obj.RunAccumulated()); ASSERT_EQ(std::string(ERR_FILENAME), std::string(obj.GetErrorFileName())); ASSERT_EQ(true, ::FileExists(ERR_FILENAME)); { std::string fline("ERROR: Numerical method failed on all combinations of convergence parameters, cell/soln/mix 1\n"); std::string sline(obj.GetErrorString()); ASSERT_TRUE(sline.size() > 0); ASSERT_EQ(fline, sline); } if (::FileExists(ERR_FILENAME)) { ::DeleteFile(ERR_FILENAME); } } TEST(TestIPhreeqc, TestGetErrorStringLineCount) { IPhreeqc obj; ASSERT_EQ(0, obj.GetErrorStringLineCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.GetErrorStringLineCount()); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); ASSERT_EQ(true, obj.GetErrorStringOn()); ASSERT_EQ(1, obj.RunAccumulated()); ASSERT_EQ(1, obj.GetErrorStringLineCount()); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); obj.SetErrorStringOn(true); ASSERT_EQ(1, obj.RunAccumulated()); ASSERT_EQ(1, obj.GetErrorStringLineCount()); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 7")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" H+ = H+")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fix_H+ -10 HCl 10")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); obj.SetErrorStringOn(false); ASSERT_EQ(1, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetErrorStringLineCount()); } TEST(TestIPhreeqc, TestSetSelectedOutputFileName) { char SELOUT_FILENAME[80]; snprintf(SELOUT_FILENAME, sizeof(SELOUT_FILENAME), "selected_output.%06d.out", ::rand()); if (::FileExists(SELOUT_FILENAME)) { ::DeleteFile(SELOUT_FILENAME); } IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); int max = 6; ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH(obj, "Ca", max)); ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); obj.SetSelectedOutputFileOn(true); obj.SetSelectedOutputFileName(SELOUT_FILENAME); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(true, ::FileExists(SELOUT_FILENAME)); /* EXPECTED selected.out: sim state soln dist_x time step pH pe C Ca Na m_CO3-2 m_CaOH+ m_NaCO3- la_CO3-2 la_CaOH+ la_NaCO3- Calcite d_Calcite si_CO2(g) si_Siderite pressure total mol volume g_CO2(g) g_N2(g) k_Albite dk_Albite k_Pyrite dk_Pyrite s_CaSO4 s_SrSO4 1.name 1.type 1.moles 2.name 2.type 2.moles 3.name 3.type 3.moles 4.name 4.type 4.moles 5.name 5.type 5.moles 6.name 6.type 6.moles 1 i_soln 1 -99 -99 -99 7 4 1.0000e-003 1.0000e-003 1.0000e-003 4.2975e-007 1.1819e-009 1.1881e-009 -6.4686e+000 -8.9530e+000 -8.9507e+000 0.0000e+000 0.0000e+000 -2.2870 -999.9990 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 Ca+2 aq 9.9178e-004 CaHCO3+ aq 7.5980e-006 CaCO3 aq 6.2155e-007 CaOH+ aq 1.1819e-009 1 react 1 -99 0 1 7.86135 10.18 1.1556e-003 1.1556e-003 1.0000e-003 4.2718e-006 9.7385e-009 1.1620e-008 -5.4781e+000 -8.0388e+000 -7.9621e+000 9.8444e-003 -1.5555e-004 -3.0192 -999.9990 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 0.0000e+000 calcite equi 9.8444e-003 Ca+2 aq 1.1371e-003 CaHCO3+ aq 1.1598e-005 CaCO3 aq 6.8668e-006 CaOH+ aq 9.7385e-009 */ if (::FileExists(SELOUT_FILENAME)) { ::DeleteFile(SELOUT_FILENAME); } } TEST(TestIPhreeqc, TestSelectedOutputStringOnOff) { IPhreeqc obj; ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); obj.SetSelectedOutputFileOn(true); ASSERT_EQ(true, obj.GetSelectedOutputFileOn()); obj.SetSelectedOutputFileOn(false); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); } TEST(TestIPhreeqc, TestGetSelectedOutputString) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); int max = 6; ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH(obj, "Ca", max)); ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); std::string sline(obj.GetSelectedOutputString()); EXPECT_THAT(sline.c_str(), HasSubstr("sim\t")); EXPECT_THAT(sline.c_str(), HasSubstr("state\t")); EXPECT_THAT(sline.c_str(), HasSubstr("soln\t")); EXPECT_THAT(sline.c_str(), HasSubstr("dist_x\t")); EXPECT_THAT(sline.c_str(), HasSubstr("time\t")); EXPECT_THAT(sline.c_str(), HasSubstr("step\t")); EXPECT_THAT(sline.c_str(), HasSubstr("pH\t")); EXPECT_THAT(sline.c_str(), HasSubstr("pe\t")); EXPECT_THAT(sline.c_str(), HasSubstr("C\t")); EXPECT_THAT(sline.c_str(), HasSubstr("Ca\t")); EXPECT_THAT(sline.c_str(), HasSubstr("Na\t")); EXPECT_THAT(sline.c_str(), HasSubstr("m_CO3-2\t")); EXPECT_THAT(sline.c_str(), HasSubstr("m_CaOH+\t")); EXPECT_THAT(sline.c_str(), HasSubstr("m_NaCO3-\t")); EXPECT_THAT(sline.c_str(), HasSubstr("la_CO3-2\t")); EXPECT_THAT(sline.c_str(), HasSubstr("la_CaOH+\t")); EXPECT_THAT(sline.c_str(), HasSubstr("la_NaCO3-\t")); EXPECT_THAT(sline.c_str(), HasSubstr("Calcite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("d_Calcite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("si_CO2(g)\t")); EXPECT_THAT(sline.c_str(), HasSubstr("si_Siderite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("pressure\t")); EXPECT_THAT(sline.c_str(), HasSubstr("total mol\t")); EXPECT_THAT(sline.c_str(), HasSubstr("volume\t")); EXPECT_THAT(sline.c_str(), HasSubstr("g_CO2(g)\t")); EXPECT_THAT(sline.c_str(), HasSubstr("g_N2(g)\t")); EXPECT_THAT(sline.c_str(), HasSubstr("k_Albite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("dk_Albite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("k_Pyrite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("dk_Pyrite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("s_CaSO4\t")); EXPECT_THAT(sline.c_str(), HasSubstr("s_SrSO4\t")); EXPECT_THAT(sline.c_str(), HasSubstr("1.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("1.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("1.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("2.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("2.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("2.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("3.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("3.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("3.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("4.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("4.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("4.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("5.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("5.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("5.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("6.name\t")); EXPECT_THAT(sline.c_str(), HasSubstr("6.type\t")); EXPECT_THAT(sline.c_str(), HasSubstr("6.moles\t")); EXPECT_THAT(sline.c_str(), HasSubstr("\n")); EXPECT_THAT(sline.c_str(), HasSubstr("i_soln\t")); EXPECT_THAT(sline.c_str(), HasSubstr("react\t")); EXPECT_THAT(sline.c_str(), HasSubstr("Ca+2\t")); EXPECT_THAT(sline.c_str(), HasSubstr("aq\t")); EXPECT_THAT(sline.c_str(), HasSubstr("CaHCO3+\t")); EXPECT_THAT(sline.c_str(), HasSubstr("CaCO3\t")); EXPECT_THAT(sline.c_str(), HasSubstr("CaOH+\t")); EXPECT_THAT(sline.c_str(), HasSubstr("Calcite\t")); EXPECT_THAT(sline.c_str(), HasSubstr("equi\t")); } TEST(TestIPhreeqc, TestGetSelectedOutputStringLineCount) { IPhreeqc obj; ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); int max = 6; ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH(obj, "Ca", max)); ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(false, obj.GetSelectedOutputStringOn()); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(true, obj.GetSelectedOutputStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(3, obj.GetSelectedOutputStringLineCount()); } TEST(TestIPhreeqc, TestGetSelectedOutputStringLineCountMultipleRuns) { IPhreeqc obj; int retval = 0; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(false, obj.GetSelectedOutputStringOn()); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(true, obj.GetSelectedOutputStringOn()); retval = obj.RunString(R"( SOLUTION 1 C 1 Ca 1 Na 1 EQUILIBRIUM_PHASES calcite 0 0.01 SELECTED_OUTPUT -totals C Ca Na )"); ASSERT_EQ(0, retval); ASSERT_EQ(3, obj.GetSelectedOutputStringLineCount()); // header + i_soln + react retval = obj.RunString(R"( SOLUTION 1 C 2 Ca 2 Na 2 )"); ASSERT_EQ(0, retval); ASSERT_EQ(2, obj.GetSelectedOutputStringLineCount()); // header + i_soln } TEST(TestIPhreeqc, TestSelectedOutputFileMultipleRuns) { FileTest selout("TestSelectedOutputFileMultipleRuns.sel"); ASSERT_TRUE(selout.RemoveExisting()); IPhreeqc obj; int retval = 0; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); obj.SetSelectedOutputFileOn(true); ASSERT_EQ(true, obj.GetSelectedOutputFileOn()); retval = obj.RunString(R"( SOLUTION 1 C 1 Ca 1 Na 1 EQUILIBRIUM_PHASES calcite 0 0.01 SELECTED_OUTPUT -file TestSelectedOutputFileMultipleRuns.sel -totals C Ca Na )"); ASSERT_EQ(0, retval); ASSERT_EQ(3, selout.LineCount()); // header + i_soln + react retval = obj.RunString(R"( SOLUTION 1 C 2 Ca 2 Na 2 )"); ASSERT_EQ(0, retval); ASSERT_EQ(2, selout.LineCount()); // header + i_soln } TEST(TestIPhreeqc, TestGetSelectedOutputRowCountMultipleRuns) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); obj.RunString(R"( SOLUTION 1 C 1 Ca 1 Na 1 EQUILIBRIUM_PHASES calcite 0 0.01 SELECTED_OUTPUT -totals C Ca Na )"); ASSERT_EQ(3, obj.GetSelectedOutputRowCount()); // header + i_soln + react obj.RunString(R"( SOLUTION 1 C 2 Ca 2 Na 2 )"); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); // header + i_soln } TEST(TestIPhreeqc, TestGetSelectedOutputStringLine) { IPhreeqc obj; ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); int max = 6; ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH(obj, "Ca", max)); ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(false, obj.GetSelectedOutputStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(0, obj.GetSelectedOutputStringLineCount()); int line = 0; ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(line++))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(line++))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-3))); ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH(obj, "Ca", max)); ASSERT_EQ(false, obj.GetSelectedOutputStringOn()); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(true, obj.GetSelectedOutputStringOn()); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(3, obj.GetSelectedOutputStringLineCount()); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "sim\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "state\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dist_x\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "time\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "step\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pH\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pe\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "C\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Ca\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Na\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_CO3-2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_CaOH+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_NaCO3-\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_CO3-2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_CaOH+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_NaCO3-\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "d_Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_Siderite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pressure\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "total mol\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "volume\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "g_CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "g_N2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "k_Albite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dk_Albite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "k_Pyrite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dk_Pyrite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_CaSO4\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_SrSO4\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "1.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "1.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "1.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "2.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "2.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "2.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "3.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "3.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "3.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "4.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "4.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "4.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "5.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "5.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "5.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "6.name\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "6.type\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "6.moles\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "i_soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "Ca+2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "aq\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "CaHCO3+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "CaCO3\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "CaOH+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "react\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "equi\t") != NULL); // after obj.GetSelectedOutputStringLineCount() should be empty ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount()))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount() + 1))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount() + 2))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-3))); } TEST(TestIPhreeqc, TestGetSelectedOutputStringLineNotEnoughHeadings) { IPhreeqc obj; ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(VR_OK, ::SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, ::EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, ::USER_PUNCH_NEH(obj)); ASSERT_EQ(false, obj.GetOutputFileOn()); ASSERT_EQ(false, obj.GetErrorFileOn()); ASSERT_EQ(false, obj.GetLogFileOn()); ASSERT_EQ(false, obj.GetSelectedOutputFileOn()); ASSERT_EQ(false, obj.GetDumpFileOn()); ASSERT_EQ(false, obj.GetDumpStringOn()); ASSERT_EQ(false, obj.GetSelectedOutputStringOn() != 0); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(3, obj.GetSelectedOutputStringLineCount()); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "sim\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "state\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dist_x\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "time\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "step\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pH\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pe\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "C\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Ca\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Na\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_CO3-2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_CaOH+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_NaCO3-\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_CO3-2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_CaOH+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_NaCO3-\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "d_Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_Siderite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pressure\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "total mol\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "volume\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "g_CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "g_N2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "k_Albite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dk_Albite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "k_Pyrite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dk_Pyrite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_CaSO4\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_SrSO4\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "head0\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "head1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "head2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "i_soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "have0\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "have1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "have2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "missing0\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "missing2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "missing2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "react\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "have0\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "have1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "have2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "missing0\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "missing2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "missing2\t") != NULL); // after obj.GetSelectedOutputStringLineCount() should be empty ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount()))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount() + 1))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(obj.GetSelectedOutputStringLineCount() + 2))); // negative lines should be empty ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-1))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-2))); ASSERT_EQ(std::string(""), std::string(obj.GetSelectedOutputStringLine(-3))); } TEST(TestIPhreeqc, TestLongUser_Punch) { // stream tests std::ostringstream oss; PHRQ_io::fpunchf_helper(&oss, "%2046.2046s", "TEST"); ASSERT_EQ((size_t)2046, oss.str().size()); std::string s0(oss.str()); ASSERT_EQ(std::string("TEST"), trim(s0)); oss.clear(); oss.seekp(0); PHRQ_io::fpunchf_helper(&oss, "%2047.2047s", "TEST"); ASSERT_EQ((size_t)2047, oss.str().size()); std::string s1(oss.str()); ASSERT_EQ(std::string("TEST"), trim(s1)); oss.clear(); oss.seekp(0); PHRQ_io::fpunchf_helper(&oss, "%2048.2048s", "TEST"); ASSERT_EQ((size_t)2048, oss.str().size()); std::string s2(oss.str()); ASSERT_EQ(std::string("TEST"), trim(s2)); oss.clear(); oss.seekp(0); PHRQ_io::fpunchf_helper(&oss, "%2049.2049s", "TEST"); ASSERT_EQ((size_t)2049, oss.str().size()); std::string s3(oss.str()); ASSERT_EQ(std::string("TEST"), trim(s3)); oss.clear(); oss.seekp(0); PHRQ_io::fpunchf_helper(&oss, "%2050.2050s", "TEST"); ASSERT_EQ((size_t)2050, oss.str().size()); std::string s4(oss.str()); ASSERT_EQ(std::string("TEST"), trim(s4)); // string tests std::string str; PHRQ_io::fpunchf_helper(&str, "%2046.2046s", "TEST"); ASSERT_EQ((size_t)2046, str.size()); ASSERT_EQ(std::string("TEST"), trim(str)); str.clear(); PHRQ_io::fpunchf_helper(&str, "%2047.2047s", "TEST"); ASSERT_EQ((size_t)2047, str.size()); ASSERT_EQ(std::string("TEST"), trim(str)); str.clear(); PHRQ_io::fpunchf_helper(&str, "%2048.2048s", "TEST"); ASSERT_EQ((size_t)2048, str.size()); ASSERT_EQ(std::string("TEST"), trim(str)); str.clear(); PHRQ_io::fpunchf_helper(&str, "%2049.2049s", "TEST"); ASSERT_EQ((size_t)2049, str.size()); ASSERT_EQ(std::string("TEST"), trim(str)); str.clear(); PHRQ_io::fpunchf_helper(&str, "%2050.2050s", "TEST"); ASSERT_EQ((size_t)2050, str.size()); ASSERT_EQ(std::string("TEST"), trim(str)); const char input[] = "PRINT\n" " -selected_output t\n" "SOLUTION\n" "SELECTED_OUTPUT\n" " -reset false\n" "USER_PUNCH\n" "1 REM 255 CHARACTER STRING\n" "10 temp$ = \"XXXXX123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345678901234567890123456789012345\"\n" "20 PUNCH temp$\n"; IPhreeqc obj; obj.SetSelectedOutputFileOn(true); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.RunString(input)); } TEST(TestIPhreeqc, TestBasicSURF) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SURFACE_MASTER_SPECIES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfa Surfa")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfb Surfb")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SURFACE_SPECIES")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfa = Surfa")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfb = Surfb")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfa + Zn+2 = SurfaZn+2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 5.")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfb + Zn+2 = SurfbZn+2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 6.")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfa + Cu+2 = SurfaCu+2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 4.5")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfb + Cu+2 = SurfbCu+2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" log_k 6.5")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" pH 8")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" units mol/kgw")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fe(3) 1e-2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Zn 1e-4")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Cu 1e-5")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Na 1e-1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Cl 1e-1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("EQUILIBRIUM_PHASES 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Fe(OH)3(a) 0 0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SELECTED_OUTPUT")); ASSERT_EQ(VR_OK, obj.AccumulateLine("USER_PUNCH")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" -headings Hfo-Zn Surfa-Zn Surfb-Zn Surfa-Cu Surfb-Cu")); ASSERT_EQ(VR_OK, obj.AccumulateLine("-start")); ASSERT_EQ(VR_OK, obj.AccumulateLine("10 PUNCH SURF(\"Zn\",\"Hfo\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("20 PUNCH SURF(\"Zn\",\"Surfa\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("30 PUNCH SURF(\"Zn\",\"Surfb\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("40 PUNCH SURF(\"Cu\",\"Surfa\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("50 PUNCH SURF(\"Cu\",\"Surfb\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("-end")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SURFACE 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Hfo_sOH Fe(OH)3(a) equilibrium_phase 0.005 53300")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Hfo_wOH Fe(OH)3(a) equilibrium_phase 0.2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfa 0.2 100. 2")); ASSERT_EQ(VR_OK, obj.AccumulateLine(" Surfb 0.1 100. 1")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); obj.SetOutputStringOn(true); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpStringOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(13, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(3, obj.GetSelectedOutputRowCount()); CVar v; const int offset = 8; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, offset + 0, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Hfo-Zn"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, offset + 1, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Surfa-Zn"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, offset + 2, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Surfb-Zn"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, offset + 3, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Surfa-Cu"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, offset + 4, &v)); ASSERT_EQ(TT_STRING, v.type); ASSERT_EQ(std::string("Surfb-Cu"), std::string(v.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, offset + 0, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, offset + 1, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, offset + 2, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, offset + 3, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, offset + 4, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(0.0, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, offset + 0, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(6.3861e-005, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, offset + 1, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.7868e-005, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, offset + 2, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(1.8248e-005, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, offset + 3, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(4.6216e-009, v.dVal, ::pow(10., -FLT_DIG)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, offset + 4, &v)); ASSERT_EQ(TT_DOUBLE, v.type); ASSERT_NEAR(4.7201e-008, v.dVal, ::pow(10., -FLT_DIG)); } #include TEST(TestIPhreeqc, TestCErrorReporter) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("llnl.dat")); int max = 6; ASSERT_EQ(VR_OK, SOLUTION(obj, 1.0, 1.0, 1.0)); ASSERT_EQ(VR_OK, EQUILIBRIUM_PHASES(obj, "calcite", 0.0, 0.010)); ASSERT_EQ(VR_OK, USER_PUNCH(obj, "Ca", max)); obj.SetOutputFileOn(0); obj.SetErrorFileOn(0); obj.SetLogFileOn(0); obj.SetSelectedOutputFileOn(0); obj.SetDumpFileOn(0); ASSERT_EQ(0, obj.RunAccumulated()); //clock_t t0 = clock(); int nrows = obj.GetSelectedOutputRowCount(); int ncols = obj.GetSelectedOutputColumnCount(); CVar var; for (int c = 0; c < 4000; ++c) { for (int row = 0; row < nrows; ++row) { for (int col = 0; col < ncols; ++col) { ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(row, col, &var)); } } } //clock_t t = clock(); //printf("\ntime = %g\n", double(t - t0)); } TEST(TestIPhreeqc, TestDelete) { const char input[] = "SOLUTION 1 # definition of intial condition 1\n" "COPY cell 1 7405 # copy cell 1 to placeholder cell with index larger than the number of cells in the model domain\n" "END\n" "DELETE # delete initial condition 1 to allow for a redefinition of all reactions\n" "-cell 1\n" "END\n" "# define other initial conditions and copy to another placeholder cell\n" "\n" "COPY cell 7405 1 # copy back from placeholder cell to domain cell 1\n" "END\n" "MIX 1 # mix according to initial moisture content\n" " 1 0.25\n" "END\n" "RUN_CELLS\n" "-cells 1\n" "-start_time 0\n" "-time_step 0\n" "DELETE # remove mix reaction in subsequent runs\n" "-mix 1\n" "END\n" "RUN_CELLS\n" "-cells 1\n"; IPhreeqc obj; char OUTPUT_FILE[80]; snprintf(OUTPUT_FILE, sizeof(OUTPUT_FILE), "phreeqc.%lu.out", (unsigned long)obj.GetId()); if (::FileExists(OUTPUT_FILE)) { ASSERT_TRUE(::DeleteFile(OUTPUT_FILE)); } ASSERT_EQ(false, ::FileExists(OUTPUT_FILE)); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetOutputFileOn(0); obj.SetErrorFileOn(0); obj.SetLogFileOn(0); obj.SetSelectedOutputFileOn(0); obj.SetDumpFileOn(0); ASSERT_EQ(false, ::FileExists(OUTPUT_FILE)); ASSERT_EQ(0, obj.RunString(input)); ASSERT_EQ(false, ::FileExists(OUTPUT_FILE)); if (::FileExists(OUTPUT_FILE)) { ASSERT_TRUE(::DeleteFile(OUTPUT_FILE)); } } TEST(TestIPhreeqc, TestRunFileMultiPunchOn) { FileTest set1("multi_punch_1.sel"); ASSERT_TRUE(set1.RemoveExisting()); FileTest set2("multi_punch_2.sel"); ASSERT_TRUE(set2.RemoveExisting()); FileTest set3("multi_punch_3.sel"); ASSERT_TRUE(set3.RemoveExisting()); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetCurrentSelectedOutputUserNumber(1); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(2); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(3); obj.SetSelectedOutputFileOn(true); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_TRUE(set1.VerifyExists()); ASSERT_TRUE(set2.VerifyExists()); ASSERT_TRUE(set3.VerifyExists()); } TEST(TestIPhreeqc, TestRunFileMultiPunchOff) { FileTest set1("multi_punch_1.sel"); ASSERT_TRUE(set1.RemoveExisting()); FileTest set2("multi_punch_2.sel"); ASSERT_TRUE(set2.RemoveExisting()); FileTest set3("multi_punch_3.sel"); ASSERT_TRUE(set3.RemoveExisting()); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetOutputFileOn(false); obj.SetErrorFileOn(false); obj.SetLogFileOn(false); obj.SetSelectedOutputFileOn(false); obj.SetDumpFileOn(false); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_TRUE(set1.VerifyMissing()); ASSERT_TRUE(set2.VerifyMissing()); ASSERT_TRUE(set3.VerifyMissing()); } TEST(TestIPhreeqc, TestRunFileMultiPunchSet) { FileTest called("XXX.sel"); ASSERT_TRUE(called.RemoveExisting()); FileTest set1("multi_punch_1.sel"); ASSERT_TRUE(set1.RemoveExisting()); FileTest set2("multi_punch_2.sel"); ASSERT_TRUE(set2.RemoveExisting()); FileTest set3("multi_punch_3.sel"); ASSERT_TRUE(set3.RemoveExisting()); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetCurrentSelectedOutputUserNumber(1); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(2); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(3); obj.SetSelectedOutputFileOn(true); obj.SetSelectedOutputFileName(called.GetName().c_str()); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_TRUE(called.VerifyMissing()); ASSERT_TRUE(set1.VerifyExists()); ASSERT_TRUE(set2.VerifyExists()); ASSERT_TRUE(set3.VerifyExists()); } TEST(TestIPhreeqc, TestRunFileMultiPunchNoSet) { IPhreeqc obj; FileTest set("XXX.sel"); ASSERT_TRUE(set.RemoveExisting()); #if FIXME_PROTECTED FileTest unset1(obj.sel_file_name(1)); ASSERT_TRUE(unset1.RemoveExisting()); FileTest unset2(obj.sel_file_name(2)); ASSERT_TRUE(unset2.RemoveExisting()); FileTest unset3(obj.sel_file_name(3)); ASSERT_TRUE(unset3.RemoveExisting()); #endif ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetCurrentSelectedOutputUserNumber(1); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(2); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(3); obj.SetSelectedOutputFileOn(true); obj.SetCurrentSelectedOutputUserNumber(1); obj.SetSelectedOutputFileName(set.GetName().c_str()); ASSERT_EQ(0, obj.RunFile("multi_punch_no_set")); ASSERT_TRUE(set.VerifyExists()); #if FIXME_PROTECTED ASSERT_TRUE(!unset1.VerifyExists()); ASSERT_TRUE(unset2.VerifyExists()); ASSERT_TRUE(unset3.VerifyExists()); #endif } TEST(TestIPhreeqc, TestMultiPunchSelectedOutputStringOn) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.SetSelectedOutputStringOn(true); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_EQ(6, obj.GetSelectedOutputStringLineCount()); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "sim\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "state\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dist_x\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "time\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "step\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pH\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pe\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "reaction\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "temp\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Alk\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "mu\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "mass_H2O\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "charge\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pct_err\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Na\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "Ca\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_Na+\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "m_HCO3-\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_Ca+2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "la_CO3-2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "d_CO2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dolomite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "d_dolomite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_Halite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "pressure\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "total mol\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "volume\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "g_N2(g)\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "k_Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "dk_Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_Anhydrite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "s_Barite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "V_TOTAL_C\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), " 8\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), " 10\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(3), " 11\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(4), " 12\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(5), " 14\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(1), "react\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "react\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(3), "i_soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(4), "i_soln\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(5), "react\t") != NULL); obj.SetCurrentSelectedOutputUserNumber(2); ASSERT_EQ(9, obj.GetSelectedOutputStringLineCount()); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_Halite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(0), "si_Calcite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "Dummy1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(2), "Dummy2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(3), "Dummy1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(3), "Dummy2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(4), "Dummy1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(4), "Dummy2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(5), "Dummy1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(5), "Dummy2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Sum_resid\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Sum_Delta/U\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "MaxFracErr\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_2\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_2_min\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_2_max\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_3\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_3_min\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Soln_3_max\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Halite\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(6), "Halite_max\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(8), "Dummy1\t") != NULL); ASSERT_TRUE(::strstr(obj.GetSelectedOutputStringLine(8), "Dummy2\t") != NULL); } TEST(TestIPhreeqc, TestMultiPunchCSelectedOutput) { CVar var; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat.90a6449")); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_EQ(6, obj.GetSelectedOutputRowCount()); ASSERT_EQ(35, obj.GetSelectedOutputColumnCount()); // headings int ncol = 0; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("sim"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("state"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("soln"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("dist_x"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("time"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("step"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("pH"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("pe"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("reaction"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("temp(C)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Alk(eq/kgw)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("mu"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("mass_H2O"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("charge(eq)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("pct_err"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Na(mol/kgw)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Ca(mol/kgw)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("m_Na+(mol/kgw)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("m_HCO3-(mol/kgw)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("la_Ca+2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("la_CO3-2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("CO2(g)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("d_CO2(g)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("dolomite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("d_dolomite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("si_Halite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("pressure"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("total mol"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("volume"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("g_N2(g)"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("k_Calcite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("dk_Calcite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("s_Anhydrite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("s_Barite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("V_TOTAL_C"), std::string(var.sVal)); // sim ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 0, &var)); ASSERT_EQ((long)8, var.lVal); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 0, &var)); ASSERT_EQ((long)10, var.lVal); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 0, &var)); ASSERT_EQ((long)11, var.lVal); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 0, &var)); ASSERT_EQ((long)12, var.lVal); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 0, &var)); ASSERT_EQ((long)14, var.lVal); // state ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 1, &var)); ASSERT_EQ(std::string("react"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 1, &var)); ASSERT_EQ(std::string("react"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 1, &var)); ASSERT_EQ(std::string("i_soln"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 1, &var)); ASSERT_EQ(std::string("i_soln"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 1, &var)); ASSERT_EQ(std::string("react"), std::string(var.sVal)); // pH ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 6, &var)); ASSERT_NEAR(7.30475, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 6, &var)); ASSERT_NEAR(7.29765, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 6, &var)); ASSERT_NEAR(6.99738, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 6, &var)); ASSERT_NEAR(6.99698, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 6, &var)); ASSERT_NEAR(7.2942, var.dVal, ::pow(10., -2)); // V_TOTAL_C #ifdef SKIP_TEST ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 34, &var)); ASSERT_NEAR(4.3729e-003, var.dVal, ::pow(10., -6)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 34, &var)); ASSERT_NEAR(4.3090e-003, var.dVal, ::pow(10., -6)); #endif ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 34, &var)); ASSERT_NEAR(0.0000e+000, var.dVal, ::pow(10., -6)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 34, &var)); ASSERT_NEAR(0.0000e+000, var.dVal, ::pow(10., -6)); #ifdef SKIP_TEST ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 34, &var)); ASSERT_NEAR(4.2784e-003, var.dVal, ::pow(10., -6)); #endif // edge cases int r = obj.GetSelectedOutputRowCount(); int c = obj.GetSelectedOutputColumnCount(); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(-1, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(r, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, -1, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, c, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); obj.SetCurrentSelectedOutputUserNumber(2); ASSERT_EQ(7, obj.GetSelectedOutputRowCount()); ASSERT_EQ(16, obj.GetSelectedOutputColumnCount()); // headings ncol = 0; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("si_Halite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("si_Calcite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("DUMMY_1"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("DUMMY_2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Sum_resid"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Sum_Delta/U"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("MaxFracErr"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2_max"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3_max"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite_max"), std::string(var.sVal)); // si_Halite ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 0, &var)); ASSERT_NEAR(-7.70857, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 0, &var)); ASSERT_NEAR(-7.67087, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 0, &var)); ASSERT_NEAR(-7.6362, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 0, &var)); ASSERT_NEAR(-999.999, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 0, &var)); ASSERT_NEAR(-7.60092, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 0, &var)); ASSERT_NEAR(-7.60411, var.dVal, ::pow(10., -2)); // si_Calcite ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 1, &var)); ASSERT_NEAR(0.702316, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 1, &var)); ASSERT_NEAR(0.695856, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 1, &var)); ASSERT_NEAR(0.689518, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 1, &var)); ASSERT_NEAR(-999.999, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 1, &var)); ASSERT_NEAR(-999.999, var.dVal, ::pow(10., -2)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 1, &var)); ASSERT_NEAR(0.683300, var.dVal, ::pow(10., -2)); // DUMMY_1 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 2, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 2, &var)); ASSERT_EQ(std::string("Dummy1"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 2, &var)); ASSERT_EQ(std::string("Dummy1"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 2, &var)); ASSERT_EQ(std::string("Dummy1"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 2, &var)); ASSERT_EQ(std::string("Dummy1"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 2, &var)); ASSERT_EQ(std::string("Dummy1"), std::string(var.sVal)); // DUMMY_2 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 3, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 3, &var)); ASSERT_EQ(std::string("Dummy2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 3, &var)); ASSERT_EQ(std::string("Dummy2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 3, &var)); ASSERT_EQ(std::string("Dummy2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 3, &var)); ASSERT_EQ(std::string("Dummy2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 3, &var)); ASSERT_EQ(std::string("Dummy2"), std::string(var.sVal)); // Sum_resid ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 4, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 4, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 4, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 4, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 4, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 4, &var)); ASSERT_NEAR(4.12e-13, var.dVal, ::pow(10., log10(4.12e-13) - 2)); // Sum_Delta/U ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 5, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 5, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 5, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 5, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 5, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 5, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // MaxFracErr ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 6, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 6, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 6, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 6, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 6, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 6, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_2 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 7, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 7, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 7, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 7, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 7, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 7, &var)); ASSERT_NEAR(1, var.dVal, ::pow(10., -3)); // Soln_2_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 8, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 8, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 8, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 8, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 8, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 8, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_2_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 9, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 9, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 9, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 9, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 9, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 9, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_3 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 10, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 10, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 10, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 10, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 10, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 10, &var)); ASSERT_NEAR(1, var.dVal, ::pow(10., -3)); // Soln_3_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 11, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 11, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 11, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 11, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 11, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 11, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_3_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 12, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 12, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 12, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 12, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 12, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 12, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Halite ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 13, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 13, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 13, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 13, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 13, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 13, &var)); ASSERT_NEAR(0.001, var.dVal, ::pow(10., -3)); // Halite_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 14, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 14, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 14, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 14, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 14, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 14, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Halite_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 15, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(2, 15, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(3, 15, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(4, 15, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(5, 15, &var)); ASSERT_EQ(TT_EMPTY, var.type); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(6, 15, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // edge cases r = obj.GetSelectedOutputRowCount(); c = obj.GetSelectedOutputColumnCount(); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(-1, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(r, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, -1, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, c, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); obj.SetCurrentSelectedOutputUserNumber(3); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); ASSERT_EQ(12, obj.GetSelectedOutputColumnCount()); // headings ncol = 0; ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Sum_resid"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Sum_Delta/U"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("MaxFracErr"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_2_max"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Soln_3_max"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite_min"), std::string(var.sVal)); ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(0, ncol++, &var)); ASSERT_EQ(std::string("Halite_max"), std::string(var.sVal)); // Sum_resid ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 0, &var)); ASSERT_NEAR(4.12e-13, var.dVal, ::pow(10., log10(4.12e-13) - 2)); // Sum_Delta/U ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 1, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // MaxFracErr ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 2, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_2 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 3, &var)); ASSERT_NEAR(1, var.dVal, ::pow(10., -3)); // Soln_2_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 4, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_2_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 5, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_3 ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 6, &var)); ASSERT_NEAR(1, var.dVal, ::pow(10., -3)); // Soln_3_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 7, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Soln_3_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 8, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Halite ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 9, &var)); ASSERT_NEAR(0.001, var.dVal, ::pow(10., -3)); // Halite_min ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 10, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // Halite_max ASSERT_EQ(VR_OK, obj.GetSelectedOutputValue(1, 11, &var)); ASSERT_NEAR(0, var.dVal, ::pow(10., -3)); // edge cases r = obj.GetSelectedOutputRowCount(); c = obj.GetSelectedOutputColumnCount(); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(-1, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDROW, obj.GetSelectedOutputValue(r, 0, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDROW, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, -1, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); ASSERT_EQ(VR_INVALIDCOL, obj.GetSelectedOutputValue(0, c, &var)); ASSERT_EQ(TT_ERROR, var.type); ASSERT_EQ(VR_INVALIDCOL, var.vresult); ASSERT_EQ(VR_INVALIDARG, obj.SetCurrentSelectedOutputUserNumber(-1)); ASSERT_EQ(VR_OK, obj.SetCurrentSelectedOutputUserNumber(0)); } TEST(TestIPhreeqc, TestGetSelectedOutputCount) { CVar var; IPhreeqc obj; ASSERT_EQ(0, obj.GetSelectedOutputCount()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.GetSelectedOutputCount()); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_EQ(3, obj.GetSelectedOutputCount()); } TEST(TestIPhreeqc, TestGetNthSelectedOutputUserNumber) { CVar var; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_EQ(3, obj.GetSelectedOutputCount()); ASSERT_EQ(1, obj.GetNthSelectedOutputUserNumber(0)); ASSERT_EQ(2, obj.GetNthSelectedOutputUserNumber(1)); ASSERT_EQ(3, obj.GetNthSelectedOutputUserNumber(2)); // edge cases ASSERT_EQ((int)VR_INVALIDARG, obj.GetNthSelectedOutputUserNumber(-1)); ASSERT_EQ((int)VR_INVALIDARG, obj.GetNthSelectedOutputUserNumber(4)); } TEST(TestIPhreeqc, TestGetCurrentSelectedOutputUserNumber) { IPhreeqc obj; ASSERT_EQ(1, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(1, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(0, obj.RunFile("multi_punch")); ASSERT_EQ(1, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(6, obj.GetSelectedOutputRowCount()); ASSERT_EQ(35, obj.GetSelectedOutputColumnCount()); obj.SetCurrentSelectedOutputUserNumber(2); ASSERT_EQ(2, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(7, obj.GetSelectedOutputRowCount()); ASSERT_EQ(16, obj.GetSelectedOutputColumnCount()); obj.SetCurrentSelectedOutputUserNumber(3); ASSERT_EQ(3, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); ASSERT_EQ(12, obj.GetSelectedOutputColumnCount()); // edge cases ASSERT_EQ(VR_INVALIDARG, obj.SetCurrentSelectedOutputUserNumber(-1)); ASSERT_EQ(3, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(VR_OK, obj.SetCurrentSelectedOutputUserNumber(0)); ASSERT_EQ(0, obj.GetCurrentSelectedOutputUserNumber()); // unload database ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(1, obj.GetCurrentSelectedOutputUserNumber()); ASSERT_EQ(0, obj.GetSelectedOutputCount()); } TEST(TestIPhreeqc, TestMultiSetSelectedOutputFileName) { FileTest set1("state.sel"); ASSERT_TRUE(set1.RemoveExisting()); FileTest set2("si.sel"); ASSERT_TRUE(set2.RemoveExisting()); IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.SetCurrentSelectedOutputUserNumber(1)); obj.SetSelectedOutputStringOn(true); obj.SetSelectedOutputFileOn(true); obj.SetSelectedOutputFileName(set1.GetName().c_str()); ASSERT_EQ(VR_OK, obj.SetCurrentSelectedOutputUserNumber(2)); obj.SetSelectedOutputStringOn(true); obj.SetSelectedOutputFileOn(true); obj.SetSelectedOutputFileName(set2.GetName().c_str()); obj.AccumulateLine("TITLE Temperature dependence of solubility"); obj.AccumulateLine(" of gypsum and anhydrite "); obj.AccumulateLine("SOLUTION 1 Pure water "); obj.AccumulateLine(" pH 7.0 "); obj.AccumulateLine(" temp 25.0 "); obj.AccumulateLine("EQUILIBRIUM_PHASES 1 "); obj.AccumulateLine(" Gypsum 0.0 1.0 "); obj.AccumulateLine(" Anhydrite 0.0 1.0 "); obj.AccumulateLine("REACTION_TEMPERATURE 1 "); obj.AccumulateLine(" 25.0 75.0 in 51 steps "); obj.AccumulateLine("SELECTED_OUTPUT 1 "); obj.AccumulateLine(" -temperature "); obj.AccumulateLine("SELECTED_OUTPUT 2 "); obj.AccumulateLine(" -si anhydrite gypsum "); obj.AccumulateLine("END "); ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_TRUE(set1.VerifyExists()); ASSERT_TRUE(set2.VerifyExists()); } TEST(TestIPhreeqc, TestWissmeier20131203) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.AccumulateLine("selected_output 1"); obj.AccumulateLine("-totals O"); obj.AccumulateLine(""); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output 1"); obj.AccumulateLine("-totals H"); obj.AccumulateLine(""); obj.AccumulateLine("solution"); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output"); // original asserts here ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(1, obj.GetSelectedOutputCount()); ASSERT_EQ(9, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); } TEST(TestIPhreeqc, TestWissmeier20131203_2) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.AccumulateLine("selected_output 22"); obj.AccumulateLine("-totals O"); obj.AccumulateLine(""); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output 22"); obj.AccumulateLine("-totals H"); obj.AccumulateLine(""); obj.AccumulateLine("solution"); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output 22"); // original asserts here ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(1, obj.GetSelectedOutputCount()); ASSERT_EQ(VR_OK, obj.SetCurrentSelectedOutputUserNumber(22)); ASSERT_EQ(1, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); } TEST(TestIPhreeqc, TestWissmeier20131203_3) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); obj.AccumulateLine("selected_output 1"); obj.AccumulateLine("-reset false"); obj.AccumulateLine("-totals O"); obj.AccumulateLine(""); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output 1"); obj.AccumulateLine("-reset false"); obj.AccumulateLine("-totals H"); obj.AccumulateLine(""); obj.AccumulateLine("solution"); obj.AccumulateLine("END"); obj.AccumulateLine("selected_output"); obj.AccumulateLine("-reset false"); // original asserts here ASSERT_EQ(0, obj.RunAccumulated()); ASSERT_EQ(1, obj.GetSelectedOutputCount()); ASSERT_EQ(1, obj.GetSelectedOutputColumnCount()); ASSERT_EQ(2, obj.GetSelectedOutputRowCount()); } TEST(TestIPhreeqc, TestKinniburgh20140218) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("wateq4f.dat")); EXPECT_EQ(0, obj.RunFile("kinn20140218")) << obj.GetErrorString(); std::string sline(obj.GetErrorString()); std::cerr << sline; } TEST(TestIPhreeqc, TestGetAccumulatedLines) { IPhreeqc obj; ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 12")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 13")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(1, obj.RunAccumulated()); const char expected[] = "solution 12\nsolution 13\n"; ASSERT_EQ(std::string(expected), obj.GetAccumulatedLines()); } ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 22")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(1, obj.RunAccumulated()); const char expected[] = "solution 22\n"; ASSERT_EQ(std::string(expected), obj.GetAccumulatedLines()); } } TEST(TestIPhreeqc, TestGetAccumulatedLinesAfterRunFile) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("wateq4f.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 12")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 13")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(0, obj.RunFile("kinn20140218")); const char expected[] = ""; ASSERT_EQ(std::string(expected), obj.GetAccumulatedLines()); } } TEST(TestIPhreeqc, TestGetAccumulatedLinesAfterRunString) { const char input[] = "TITLE Example 1.--Add uranium and speciate seawater.\n" "SOLUTION 1 SEAWATER FROM NORDSTROM ET AL. (1979)\n" " units ppm\n" " pH 8.22\n" " pe 8.451\n" " density 1.023\n" " temp 25.0\n" " redox O(0)/O(-2)\n" " Ca 412.3\n" " Mg 1291.8\n" " Na 10768.0\n" " K 399.1\n" " Fe 0.002\n" " Mn 0.0002 pe\n" " Si 4.28\n" " Cl 19353.0\n" " Alkalinity 141.682 as HCO3\n" " S(6) 2712.0\n" " N(5) 0.29 gfw 62.0\n" " N(-3) 0.03 as NH4\n" " U 3.3 ppb N(5)/N(-3)\n" " O(0) 1.0 O2(g) -0.7\n" "SOLUTION_MASTER_SPECIES\n" " U U+4 0.0 238.0290 238.0290\n" " U(4) U+4 0.0 238.0290\n" " U(5) UO2+ 0.0 238.0290\n" " U(6) UO2+2 0.0 238.0290\n" "SOLUTION_SPECIES\n" " #primary master species for U\n" " #is also secondary master species for U(4)\n" " U+4 = U+4\n" " log_k 0.0\n" " U+4 + 4 H2O = U(OH)4 + 4 H+\n" " log_k -8.538\n" " delta_h 24.760 kcal\n" " U+4 + 5 H2O = U(OH)5- + 5 H+\n" " log_k -13.147\n" " delta_h 27.580 kcal\n" " #secondary master species for U(5)\n" " U+4 + 2 H2O = UO2+ + 4 H+ + e-\n" " log_k -6.432\n" " delta_h 31.130 kcal\n" " #secondary master species for U(6)\n" " U+4 + 2 H2O = UO2+2 + 4 H+ + 2 e-\n" " log_k -9.217\n" " delta_h 34.430 kcal\n" " UO2+2 + H2O = UO2OH+ + H+\n" " log_k -5.782\n" " delta_h 11.015 kcal\n" " 2UO2+2 + 2H2O = (UO2)2(OH)2+2 + 2H+\n" " log_k -5.626\n" " delta_h -36.04 kcal\n" " 3UO2+2 + 5H2O = (UO2)3(OH)5+ + 5H+\n" " log_k -15.641\n" " delta_h -44.27 kcal\n" " UO2+2 + CO3-2 = UO2CO3\n" " log_k 10.064\n" " delta_h 0.84 kcal\n" " UO2+2 + 2CO3-2 = UO2(CO3)2-2\n" " log_k 16.977\n" " delta_h 3.48 kcal\n" " UO2+2 + 3CO3-2 = UO2(CO3)3-4\n" " log_k 21.397\n" " delta_h -8.78 kcal\n" "PHASES\n" " Uraninite\n" " UO2 + 4 H+ = U+4 + 2 H2O\n" " log_k -3.490\n" " delta_h -18.630 kcal\n" "END\n" "\n"; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 12")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 13")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(0, obj.RunString(input)); const char expected[] = ""; ASSERT_EQ(std::string(expected), obj.GetAccumulatedLines()); } } TEST(TestIPhreeqc, TestPBasicStopThrow) { IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("SOLUTION 1 # Mine water from Bain et al., 2001")); ASSERT_EQ(VR_OK, obj.AccumulateLine("USER_PRINT")); ASSERT_EQ(VR_OK, obj.AccumulateLine("10 print -(0.006^0.9)")); ASSERT_EQ(VR_OK, obj.AccumulateLine("20 print TOTMOL(\"H\"), TOTMOLE(\"H\"), TOTMOLES(\"H\")")); ASSERT_EQ(VR_OK, obj.AccumulateLine("110 print (-0.2)^3")); ASSERT_EQ(VR_OK, obj.AccumulateLine("120 print (-0.2)^3.0")); ASSERT_EQ(VR_OK, obj.AccumulateLine("130 print (-0.2)^-2")); ASSERT_EQ(VR_OK, obj.AccumulateLine("140 print (-0.2)^-3")); ASSERT_EQ(VR_OK, obj.AccumulateLine("150 print -0.2^2.2")); ASSERT_EQ(VR_OK, obj.AccumulateLine("END")); obj.SetOutputFileOn(true); ASSERT_EQ(5, obj.RunAccumulated()); } TEST(TestIPhreeqc, TestEx10) { const char input[] = "TITLE Example 10.--Solid solution of strontianite and aragonite.\n" "PHASES\n" " Strontianite\n" " SrCO3 = CO3-2 + Sr+2\n" " log_k -9.271\n" " Aragonite\n" " CaCO3 = CO3-2 + Ca+2\n" " log_k -8.336\n" "END\n" "SOLID_SOLUTIONS 1\n" " Ca(x)Sr(1-x)CO3 \n" " -comp1 Aragonite 0 \n" " -comp2 Strontianite 0 \n" " -Gugg_nondim 3.43 -1.82\n" "END\n" "SOLUTION 1\n" " -units mmol/kgw\n" " pH 5.93 charge\n" " Ca 3.932\n" " C 7.864\n" "EQUILIBRIUM_PHASES 1\n" " CO2(g) -0.01265 10\n" " Aragonite\n" "SAVE solution 1\n" "END\n" "#\n" "# Total of 0.00001 to 0.005 moles of SrCO3 added\n" "#\n" "USE solution 1\n" "USE solid_solution 1\n" "REACTION 1\n" " SrCO3 1.0\n" " .005 in 500 steps \n" "PRINT\n" " -reset false\n" " -echo true\n" " -user_print true\n" "USER_PRINT\n" "-start\n" " 10 sum = (S_S(\"Strontianite\") + S_S(\"Aragonite\"))\n" " 20 if sum = 0 THEN GOTO 110\n" " 30 xb = S_S(\"Strontianite\")/sum\n" " 40 xc = S_S(\"Aragonite\")/sum\n" " 50 PRINT \"Simulation number: \", SIM_NO\n" " 60 PRINT \"Reaction step number: \", STEP_NO\n" " 70 PRINT \"SrCO3 added: \", RXN\n" " 80 PRINT \"Log Sigma pi: \", LOG10 (ACT(\"CO3-2\") * (ACT(\"Ca+2\") + ACT(\"Sr+2\")))\n" " 90 PRINT \"XAragonite: \", xc\n" " 100 PRINT \"XStrontianite: \", xb\n" " 110 PRINT \"XCa: \", TOT(\"Ca\")/(TOT(\"Ca\") + TOT(\"Sr\"))\n" " 120 PRINT \"XSr: \", TOT(\"Sr\")/(TOT(\"Ca\") + TOT(\"Sr\"))\n" " 130 PRINT \"Misc 1: \", MISC1(\"Ca(x)Sr(1-x)CO3\")\n" " 140 PRINT \"Misc 2: \", MISC2(\"Ca(x)Sr(1-x)CO3\")\n" "-end\n" "SELECTED_OUTPUT\n" " -file ex10.sel\n" " -reset false\n" " -reaction true\n" "USER_PUNCH\n" "-head lg_SigmaPi X_Arag X_Stront X_Ca_aq X_Sr_aq mol_Misc1 mol_Misc2 \\n" " mol_Arag mol_Stront\n" "-start\n" " 10 sum = (S_S(\"Strontianite\") + S_S(\"Aragonite\"))\n" " 20 if sum = 0 THEN GOTO 60\n" " 30 xb = S_S(\"Strontianite\")/(S_S(\"Strontianite\") + S_S(\"Aragonite\"))\n" " 40 xc = S_S(\"Aragonite\")/(S_S(\"Strontianite\") + S_S(\"Aragonite\"))\n" " 50 REM Sigma Pi\n" " 60 PUNCH LOG10(ACT(\"CO3-2\") * (ACT(\"Ca+2\") + ACT(\"Sr+2\")))\n" " 70 PUNCH xc # Mole fraction aragonite\n" " 80 PUNCH xb # Mole fraction strontianite\n" " 90 PUNCH TOT(\"Ca\")/(TOT(\"Ca\") + TOT(\"Sr\")) # Mole aqueous calcium\n" " 100 PUNCH TOT(\"Sr\")/(TOT(\"Ca\") + TOT(\"Sr\")) # Mole aqueous strontium\n" " 110 x1 = MISC1(\"Ca(x)Sr(1-x)CO3\")\n" " 120 x2 = MISC2(\"Ca(x)Sr(1-x)CO3\")\n" " 130 if (xb < x1 OR xb > x2) THEN GOTO 250\n" " 140 nc = S_S(\"Aragonite\")\n" " 150 nb = S_S(\"Strontianite\")\n" " 160 mol2 = ((x1 - 1)/x1)*nb + nc\n" " 170 mol2 = mol2 / ( ((x1 -1)/x1)*x2 + (1 - x2))\n" " 180 mol1 = (nb - mol2*x2)/x1\n" " 190 REM # Moles of misc. end members if in gap\n" " 200 PUNCH mol1\n" " 210 PUNCH mol2\n" " 220 GOTO 300\n" " 250 REM # Moles of misc. end members if not in gap\n" " 260 PUNCH 1e-10\n" " 270 PUNCH 1e-10\n" " 300 PUNCH S_S(\"Aragonite\") # Moles aragonite\n" " 310 PUNCH S_S(\"Strontianite\") # Moles Strontianite\n" "-end\n" "USER_GRAPH Example 10\n" " -headings x_Aragonite x_Srontianite\n" " -chart_title \"Aragonite-Strontianite Solid Solution\"\n" " -axis_titles \"Log(SrCO3 added, in moles)\" \"Log(Mole fraction of component)\"\n" " -axis_scale x_axis -5 1 1 1\n" " -axis_scale y_axis -5 0.1 1 1\n" " -connect_simulations true\n" " -start\n" " 10 sum = (S_S(\"Strontianite\") + S_S(\"Aragonite\"))\n" " 20 IF sum = 0 THEN GOTO 70\n" " 30 xb = S_S(\"Strontianite\")/ sum\n" " 40 xc = S_S(\"Aragonite\")/ sum\n" " 50 PLOT_XY LOG10(RXN), LOG10(xc), line_w = 2, symbol_size = 0\n" " 60 PLOT_XY LOG10(RXN), LOG10(xb), line_w = 2, symbol_size = 0\n" " 70 rem\n" " -end\n" "END \n" "#\n" "# Total of 0.005 to 0.1 moles of SrCO3 added\n" "#\n" "USE solution 1\n" "USE solid_solution 1\n" "REACTION 1\n" " SrCO3 1.0\n" " .1 in 20 steps \n" "END \n" "#\n" "# Total of 0.1 to 10 moles of SrCO3 added\n" "#\n" "USE solution 1\n" "USE solid_solution 1\n" "REACTION 1\n" " SrCO3 1.0\n" " 10.0 in 100 steps \n" "END \n"; IPhreeqc obj; ASSERT_EQ(0, obj.LoadDatabase("phreeqc.dat")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 12")); ASSERT_EQ(VR_OK, obj.AccumulateLine("solution 13")); for (int i = 0; i < 10; ++i) { ASSERT_EQ(0, obj.RunString(input)); const char expected[] = ""; ASSERT_EQ(std::string(expected), obj.GetAccumulatedLines()); } }