#include "CoolProp.h"
#include "HumidAirProp.h"
//#include "CPState.h"
#include <iostream>
#include <stdlib.h>

#pragma GCC diagnostic ignored "-Wwrite-strings" //Ignore char* warnings

using namespace CoolProp; // For normal CoolProp calls
using namespace HumidAir; // For HAPropsSI
int main() {
    double T, h, p, D;

    printf("CoolProp version:\t%s\n",     get_global_param_string("version").c_str());
    printf("CoolProp gitrevision:\t%s\n", get_global_param_string("gitrevision").c_str());
    printf("CoolProp fluids:\t%s\n",      get_global_param_string("FluidsList").c_str());


    printf("\n************ USING EOS *************\n");

    printf("FLUID STATE INDEPENDENT INPUTS\n");
    //printf("Critical Density Propane: %f kg/m^3\n", PropsSI1("Propane", "rhocrit"));

    printf("\nTWO PHASE INPUTS (Pressure)\n");
    printf("Density of saturated liquid Propane at 101.325 kPa: %f kg/m^3\n",   PropsSI("D", "P", 101.325, "Q", 0, "Propane"));
    printf("Density of saturated vapor R290 at 101.325 kPa:     %f kg/m^3\n",   PropsSI("D", "P", 101.325, "Q", 1, "R290"));

    printf("\nTWO PHASE INPUTS (Temperature)\n");
    printf("Density of saturated liquid Propane at 300 K: %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 0, "Propane"));
    printf("Density of saturated vapor R290 at 300 K:     %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 1, "R290"));

    printf("\nSINGLE PHASE CYCLE (Propane)\n");
    p = PropsSI("P", "T", 300, "D", 1, "Propane");
    h = PropsSI("H", "T", 300, "D", 1, "Propane");
    printf("T,D -> P,H : 300,1 -> %f,%f\n", p, h);

    T = PropsSI("T", "P", p, "H", h, "Propane");
    D = PropsSI("D", "P", p, "H", h, "Propane");
    printf("P,H -> T,D : %f, %f -> %f, %f\n", p, h, T, D);

    /* enable_TTSE_LUT not currently in V5
    printf("\n************ USING TTSE ***************\n");
    enable_TTSE_LUT("Propane");

    printf("TWO PHASE INPUTS (Pressure)\n");
    printf("Density of saturated liquid Propane at 101.325 kPa: %f kg/m^3\n", PropsSI("D", "P", 101.325, "Q", 0, "Propane"));
    printf("Density of saturated vapor R290 at 101.325 kPa:     %f kg/m^3\n", PropsSI("D", "P", 101.325, "Q", 1, "R290"));

    printf("\nTWO PHASE INPUTS (Temperature)");
    printf("Density of saturated liquid Propane at 300 K: %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 0, "Propane"));
    printf("Density of saturated vapor R290 at 300 K:     %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 1, "R290"));

    printf("\nSINGLE PHASE CYCLE (propane)\n");
    p = PropsSI("P", "T", 300, "D", 1, "Propane");
    h = PropsSI("H", "T", 300, "D", 1, "Propane");
    printf("T,D -> P,H : 300,1 -> %f,%f", p, h);

    T = PropsSI("T", "P", p, "H", h, "Propane");
    D = PropsSI("D", "P", p, "H", h, "Propane");
    printf("P,H -> T,D : %f, %f -> %f, %f\n", p, h, T, D);

    disable_TTSE_LUT("Propane");
    */

    /* get_fluid_param_string not currently in V5
    try
    {
        printf("\n************ USING REFPROP ***************\n");
        std::string RPName = std::string("REFPROP-")+get_fluid_param_string("Propane","REFPROPname");
        printf("TWO PHASE INPUTS (Pressure)");
        printf("Density of saturated liquid Propane at 101.325 kPa: %f kg/m^3\n", PropsSI("D", "P", 101.325, "Q", 0, RPName));
        printf("Density of saturated vapor R290 at 101.325 kPa:     %f kg/m^3\n", PropsSI("D", "P", 101.325, "Q", 1, RPName));

        printf("\nTWO PHASE INPUTS (Temperature)");
        printf("Density of saturated liquid Propane at 300 K: %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 0, RPName));
        printf("Density of saturated vapor R290 at 300 K:     %f kg/m^3\n", PropsSI("D", "T", 300, "Q", 1, RPName));

        printf("\nSINGLE PHASE CYCLE (propane)\n");
        p = PropsSI("P", "T", 300, "D", 1, RPName);
        h = PropsSI("H", "T", 300, "D", 1, RPName);
        printf("T,D -> P,H : 300,1 -> %f,%f\n", p, h);

        T = PropsSI("T", "P", p, "H", h, RPName);
        D = PropsSI("D", "P", p, "H", h, RPName);
        printf("P,H -> T,D : %f, %f -> %f, %f\n", p, h, T, D);
    }
    catch (std::exception &e)
    {
        printf("\n************ CANT USE REFPROP ************\n");
    }
    
    */

    /* set_standard_unit_system not currently in V5
    printf("\n************ CHANGE UNIT SYSTEM (default is kSI) *************\n");
    set_standard_unit_system(UNIT_SYSTEM_SI);
    printf("Vapor pressure of water at 373.15 K in SI units (Pa):   %f\n", PropsSI("P", "T", 373.15, "Q", 0, "Water"));

    set_standard_unit_system(UNIT_SYSTEM_KSI);
    printf("Vapor pressure of water at 373.15 K in kSI units (kPa): %f\n", PropsSI("P", "T", 373.15, "Q", 0, "Water"));
    */

    printf("\n************ BRINES AND SECONDARY WORKING FLUIDS *************\n");
    printf("Density of 50%% (mass) ethylene glycol/water at 300 K, 101.325 kPa: %f kg/m^3\n", PropsSI("D", "T", 300, "P", 101.325, "EG-50%"));
    printf("Viscosity of Therminol D12 at 350 K, 101.325 kPa: %f Pa-s\n",  PropsSI("V", "T", 350, "P", 101.325, "TD12"));

    // HAProps API broken in V5
    //printf("\n************ HUMID AIR PROPERTIES *************\n");
    //printf("Humidity ratio of 50%% rel. hum. air at 300 K, 101.325 kPa: %f kg_w/kg_da\n", HAPropsSI('W', 'T', 300, 'P', 101.325, 'R', 0.5));
    //printf("Relative humidity from last calculation: %f (fractional)\n",   HAPropsSI('R', 'T', 300, 'P', 101.325, 'W', HAPropsSI('W', 'T', 300, 'P', 101.325, 'R', 0.5)));
    
    
    return 0;

}