static void Main(string[] args)
{
CropAnalyzer crop_analyzer = new CropAnalyzer();
MWStructArray result = new MWStructArray();
// LOAD CROP DATA
String path = "C:\\Program Files\\NareTrends\\BandiCropAnalyzer\\application\\bandicrop_data.ini";
MWCharArray crop_inifile = path;
MWStructArray crops_db = (MWStructArray)crop_analyzer.load_crop_data(crop_inifile);
string crop_name = "STRAWBERRY";
// DO CROP ENVIRONMENT CHECK
double temp = 4;
double hum = 80;
result = (MWStructArray)crop_env_checker(crops_db, temp, hum, crop_name);
// PARSE RESULTS FOR DISPLAY
int print_level = 2; // 0->1->2 : INCREASING VERBOSITY
string result_out = parse_results(result, print_level);
// PERFORM STATUS CHECK + CONTROL ACTION
double temp_in = 4;
double hum_in = 80;
double temp_out = -3;
double hum_out = 40;
result = (MWStructArray)crop_env_controller(crops_db, crop_name, temp_in, hum_in, temp_out, hum_out);
Console.WriteLine("\nPress any key to exit.");
Console.ReadKey();
}
// METHOD TO DO CONTROL ACTION BASED ON STATUS OUTPUT
public static MWStructArray crop_env_controller(MWStructArray crops_db, string crop, double temp_in, double hum_in, double temp_out, double hum_out)
{
Console.WriteLine("\n======================= CROP CONTROLLER OUTPUT =======================");
CropAnalyzer crop_controller = new CropAnalyzer();
// Initialize checkers
String[] checker_names = { "vpd_check", "dewpoint_check", "crop_temp_check" };
MWStructArray checker_list = new MWStructArray(1, 1, checker_names);
// Initialize required input: temp_c_in, rh_in, temp_c_out, rh_out
MWNumericArray temp_c_in = null;
MWNumericArray rh_in = null;
MWNumericArray temp_c_out = null;
MWNumericArray rh_out = null;
// Initialize optional inputs (by pair): verbose, TRUE/FALSE, vpd_min, vpd_min_val, vpd_max, vpd_max_val, dewtemp_offset, dewtemp_offset_val
//MWCharArray vpd = "vpd", dewpoint = "dewpoint";
MWCharArray checkers = "checkers", verbose = "verbose", crop_name = "crop_name", crop_name_select = "";
MWCharArray vpd_min = "vpd_min", vpd_max = "vpd_max", dewtemp_offset = "dewtemp_offset";
MWLogicalArray TRUE = new MWLogicalArray(true), FALSE = new MWLogicalArray(false);
MWNumericArray vpd_min_val = 0.5, vpd_max_val = 1.2, dewtemp_offset_val = 1.0;
// initialize output struct fields - FOR REFERENCE
String[] vpd_check_fields = { "type", "code", "state", "vpd", "vpd_min", "vpd_max", "hum_adj", "adjust_unit" };
String[] dewpoint_check_fields = { "type", "code", "state", "temp", "temp_dew", "dewtemp_offset", "adjust", "adjust_unit" };
String[] crop_temp_check_fields = { "type", "code", "state", "temp", "temp_min", "temp_max", "adjust", "adjust_unit" };
// Set checker options
checker_list.SetField("vpd_check", TRUE);
checker_list.SetField("dewpoint_check", TRUE);
checker_list.SetField("crop_temp_check", TRUE);
// Create struct for output
MWStructArray control_action = new MWStructArray();
try
{
// Full usage: crop.env_check(crops, temp_c_in, rh_in, crop_name, crop_name_select, checkers, checker_list, vpd_min, vpd_min_val, vpd_max, vpd_max_val, verbose, FALSE);
crop_name_select = crop;
temp_c_in = temp_in; // deg Celsius
rh_in = hum_in; // %
temp_c_out = temp_out; // deg Celsius
rh_out = hum_out; // %
control_action = (MWStructArray)crop_controller.env_controller(crops_db, crop_name_select, temp_c_in, rh_in, temp_c_out, rh_out);
Console.WriteLine("CONTROL ACTION: \n" + control_action);
//Console.WriteLine("Press any key to exit.");
//Console.ReadKey();
return(control_action);
}
catch
{
throw;
}
}
static void Main(string[] args)
{
CropAnalyzer crop_analyzer = new CropAnalyzer();
// Initialize checkers
String[] checker_names = { "vpd_check", "dewpoint_check", "crop_temp_check" };
MWStructArray checker_list = new MWStructArray(1, 1, checker_names);
// Initialize required input: temp_c_in, rh_in
MWNumericArray temp_c_in = null;
MWNumericArray rh_in = null;
// Initialize optional inputs (by pair): verbose, TRUE/FALSE, vpd_min, vpd_min_val, vpd_max, vpd_max_val, dewtemp_offset, dewtemp_offset_val
//MWCharArray vpd = "vpd", dewpoint = "dewpoint";
MWCharArray checkers = "checkers", verbose = "verbose", crop_name = "crop_name", crop_name_select = "";
MWCharArray vpd_min = "vpd_min", vpd_max = "vpd_max", dewtemp_offset = "dewtemp_offset";
MWLogicalArray TRUE = new MWLogicalArray(true), FALSE = new MWLogicalArray(false);
MWNumericArray vpd_min_val = 0.5, vpd_max_val = 1.2, dewtemp_offset_val = 1.0;
// initialize output struct fields - FOR REFERENCE
String[] vpd_check_fields = { "type", "code", "state", "vpd", "vpd_min", "vpd_max", "hum_adj", "adjust_unit" };
String[] dewpoint_check_fields = { "type", "code", "state", "temp", "temp_dew", "dewtemp_offset", "adjust", "adjust_unit" };
String[] crop_temp_check_fields = { "type", "code", "state", "temp", "temp_min", "temp_max", "adjust", "adjust_unit" };
// Set checker options
checker_list.SetField("vpd_check", TRUE);
checker_list.SetField("dewpoint_check", TRUE);
checker_list.SetField("crop_temp_check", TRUE);
// Load crop data
String path = "C:\\Program Files\\NareTrends\\BandiCropAnalyzer\\application\\bandicrop_data.ini";
MWCharArray crop_inifile = path;
MWStructArray crops = (MWStructArray)crop_analyzer.load_crop_data(crop_inifile);
// Create struct for output
MWStructArray result = new MWStructArray();
MWNumericArray result_code = null;
try
{
// Full usage: crop.env_check(crops, temp_c_in, rh_in, crop_name, crop_name_select, checkers, checker_list, vpd_min, vpd_min_val, vpd_max, vpd_max_val, verbose, FALSE);
crop_name_select = "STRAWBERRY";
temp_c_in = 3; // deg Celsius
rh_in = 40; // %
result = (MWStructArray)crop_analyzer.env_check(crops, temp_c_in, rh_in, crop_name, crop_name_select, checkers, checker_list);
result_code = (MWNumericArray)result.GetField("code");
Console.WriteLine("RESULT CODE: " + result_code);
Console.Write("\nPress any key to exit.");
Console.ReadKey();
}
catch
{
throw;
}
}
// METHOD IMPLEMENTING THE ENVIRONMENT CHECK ROUTINES
public static MWStructArray crop_env_checker(MWStructArray crops_db, double temp, double hum, string crop)
{
Console.WriteLine("\n======================= ENVIRONMENT ANALYSIS =======================");
CropAnalyzer crop_analyzer = new CropAnalyzer();
// Initialize checkers
String[] checker_names = { "vpd_check", "dewpoint_check", "crop_temp_check" };
MWStructArray checker_list = new MWStructArray(1, 1, checker_names);
// Initialize required input: temp_c_in, rh_in
MWNumericArray temp_c_in = null;
MWNumericArray rh_in = null;
// Initialize optional inputs (by pair): verbose, TRUE/FALSE, vpd_min, vpd_min_val, vpd_max, vpd_max_val, dewtemp_offset, dewtemp_offset_val
//MWCharArray vpd = "vpd", dewpoint = "dewpoint";
MWCharArray checkers = "checkers", verbose = "verbose", crop_name = "crop_name", crop_name_select = "";
MWCharArray vpd_min = "vpd_min", vpd_max = "vpd_max", dewtemp_offset = "dewtemp_offset";
MWLogicalArray TRUE = new MWLogicalArray(true), FALSE = new MWLogicalArray(false);
MWNumericArray vpd_min_val = 0.5, vpd_max_val = 1.2, dewtemp_offset_val = 1.0;
// initialize output struct fields - FOR REFERENCE
String[] vpd_check_fields = { "type", "code", "state", "vpd", "vpd_min", "vpd_max", "hum_adj", "adjust_unit" };
String[] dewpoint_check_fields = { "type", "code", "state", "temp", "temp_dew", "dewtemp_offset", "adjust", "adjust_unit" };
String[] crop_temp_check_fields = { "type", "code", "state", "temp", "temp_min", "temp_max", "adjust", "adjust_unit" };
// Set checker options
checker_list.SetField("vpd_check", TRUE);
checker_list.SetField("dewpoint_check", TRUE);
checker_list.SetField("crop_temp_check", TRUE);
// Create struct for output
MWStructArray result = new MWStructArray();
MWNumericArray result_code = null;
try
{
// Full usage: crop.env_check(crops, temp_c_in, rh_in, crop_name, crop_name_select, checkers, checker_list, vpd_min, vpd_min_val, vpd_max, vpd_max_val, verbose, FALSE);
crop_name_select = crop;
temp_c_in = temp; // deg Celsius
rh_in = hum; // %
result = (MWStructArray)crop_analyzer.env_check(crops_db, temp_c_in, rh_in, crop_name, crop_name_select, checkers, checker_list);
result_code = (MWNumericArray)result.GetField("code");
Console.WriteLine("RESULT CODE: " + result_code);
//Console.WriteLine("Press any key to exit.");
//Console.ReadKey();
return(result);
}
catch
{
throw;
}
}
public MWStructArray load_crop_db()
{
CropAnalyzer crop_analyzer = new CropAnalyzer();
// LOAD CROP DATA
String path = "C:\\Program Files\\NareTrends\\BandiCropAnalyzer\\application\\bandicrop_data.ini";
MWCharArray crop_inifile = path;
MWStructArray crops_db = (MWStructArray)crop_analyzer.load_crop_data(crop_inifile);
return(crops_db);
}
static void Main(string[] args)
{
CropAnalyzer crop = new CropAnalyzer();
// Initialize required input: temp_c_in, rh_in
MWNumericArray temp_c_in = null;
MWNumericArray rh_in = null;
// Initialize optional input (by pair): verbose, TRUE/FALSE, vpd_min, vpd_min_val, vpd_max, vpd_max_val
MWCharArray verbose = "verbose", vpd_min = "vpd_min", vpd_max = "vpd_max";
MWLogicalArray TRUE = new MWLogicalArray(true), FALSE = new MWLogicalArray(false);
MWNumericArray vpd_min_val = 0.5, vpd_max_val = 1.2;
// initialize output struct fields
String[] result_fields = { "type", "code", "state", "vpd", "vpd_min", "vpd_max", "hum_adj", "adjust_unit" };
MWStructArray result = new MWStructArray(1, result_fields.Count(), result_fields);
//MWStructArray result = new MWStructArray();
//MWNumericArray result_code = null;
try
{
// Full usage: moisture.vpd_check(temp_c_in, rh_in, verbose, FALSE, vpd_min, vpd_min_val, vpd_max, vpd_max_val);
temp_c_in = 25; // deg Celsius
rh_in = 70; // %
vpd_min_val = 0.5; // kPa
vpd_max_val = 1.2; // kPa
result = (MWStructArray)crop.vpd_check(temp_c_in, rh_in, verbose, TRUE, vpd_min, vpd_min_val, vpd_max, vpd_max_val);
result_code = (MWNumericArray)result.GetField("code");
Console.WriteLine("RESULT CODE: " + result_code);
Console.Write("\nPress any key to exit.");
Console.ReadKey();
}
catch
{
throw;
}
}
