FI_TurnipRape Class Reference

FI_TurnipRape class
. More...

#include <FI_TurnipRape.h>

Inheritance diagram for FI_TurnipRape:

Public Member Functions
virtual bool	Do (Farm *a_farm, LE *a_field, FarmEvent *a_ev)
	The one and only method for a crop management plan. All farm actions go through here. More...
	FI_TurnipRape (TTypesOfVegetation a_tov, TTypesOfCrops a_toc, Landscape *a_L)
void	SetUpFarmCategoryInformation ()
Public Member Functions inherited from Crop
virtual	~Crop ()
	Crop (TTypesOfVegetation a_tov, TTypesOfCrops a_toc, Landscape *a_L)
int	GetFirstDate (void)
void	ChooseNextCrop (int a_no_dates)
	Chooses the next crop to grow in a field. More...
int	GetCropClassification ()
void	SetCropClassification (int a_classification)
void	GetCropType (TTypesOfCrops a_toc)
TTypesOfCrops	GetCropType ()
FarmManagementCategory	LookUpManagementCategory (int a_todo)
bool	GetForceSpringOK ()

Additional Inherited Members
Public Attributes inherited from Crop
TTypesOfVegetation	m_tov
Protected Member Functions inherited from Crop
void	SimpleEvent (long a_date, int a_todo, bool a_lock)
	Adds an event to this crop management. More...
void	SimpleEvent_ (long a_date, int a_todo, bool a_lock, Farm *a_farm, LE *a_field)
	Adds an event to this crop management without relying on member variables. More...
bool	StartUpCrop (int a_spring, std::vector< std::vector< int >> a_flexdates, int a_todo)
	Holds the translation between the farm operation enum for each cropand the farm management category associated with it More...
bool	AphidDamage (LE *a_field)
	Compares aphid numbers per m2 with a threshold to return true if threshold is exceeded. More...
Protected Attributes inherited from Crop
Farm *	m_farm
LE *	m_field
FarmEvent *	m_ev
int	m_first_date
int	m_count
int	m_last_date
int	m_ddegstoharvest
int	m_base_elements_no
Landscape *	m_OurLandscape
bool	m_forcespringpossible = false
	Used to signal that the crop can be forced to start in spring. More...
TTypesOfCrops	m_toc
	The Crop type in terms of the TTypesOfCrops list (smaller list than tov, no country designation) More...
int	m_CropClassification
	Contains information on whether this is a winter crop, spring crop, or catch crop that straddles the year boundary (0,1,2) More...
vector< FarmManagementCategory >	m_ManagementCategories
	Holds the translation between the farm operation enum for each crop and the farm management category associated with it. More...
Static Protected Attributes inherited from Crop
static int	m_date_modifier = 0
	Holds a value that shifts test pesticide use by this many days in crops modified to use it. More...

Detailed Description

FI_TurnipRape class
.

See FI_TurnipRape.h::FI_TurnipRapeToDo for a complete list of all possible events triggered codes by the winter wheat management plan. When triggered these events are handled by Farm and are available as information for other objects such as animal and bird models.

Constructor & Destructor Documentation

FI_TurnipRape()

FI_TurnipRape::FI_TurnipRape ( TTypesOfVegetation  a_tov, TTypesOfCrops  a_toc, Landscape *  a_L  )

inline

                                                                                : Crop(a_tov, a_toc, a_L)
   {
        // When we start it off, the first possible date for a farm operation is 1st October
        // This information is used by other crops when they decide how much post processing of 
        // the management is allowed after harvest before the next crop starts.
        m_first_date=g_date->DayInYear( 1,12 );
        m_forcespringpossible = true;
        SetUpFarmCategoryInformation();
   }

References Calendar::DayInYear(), g_date, Crop::m_first_date, Crop::m_forcespringpossible, and SetUpFarmCategoryInformation().

Member Function Documentation

Do()

bool FI_TurnipRape::Do ( Farm *  a_farm, LE *  a_field, FarmEvent *  a_ev  )

virtual

The one and only method for a crop management plan. All farm actions go through here.

Called every time something is done to the crop by the farmer in the first instance it is always called with a_ev->todo set to start, but susequently will be called whenever the farmer wants to carry out a new operation.
This method details all the management and relationships between operations necessary to grow and ALMaSS crop - in this case conventional winter wheat.

Reimplemented from Crop.

{
    m_field = a_field; // this is needed because of possible calls to other methods and currently we do not pass parameters.
    m_farm = a_farm; // this is needed because of possible calls to other methods and currently we do not pass parameters.
    bool done = false; // The boolean value done indicates when we are totally finished with this plan (i.e. it is set to true).
    bool flag = false;
    int d1 = 0;
    m_ev = a_ev;
    TTypesOfVegetation l_tov = tov_FITurnipRape;
    int l_nextcropstartdate;
    // Depending what event has occured jump to the correct bit of code e.g. for ww_start jump to line 67 below
    switch (a_ev->m_todo)
    {
    case fi_tr_start:
    {
        a_field->ClearManagementActionSum();
        m_last_date = g_date->DayInYear(30, 10); // Should match the last flexdate below
        //Create a 2d array of 1 plus the number of operations you use. Change only 4+1 to what you need in the line below
        std::vector<std::vector<int>> flexdates(3 + 1, std::vector<int>(2, 0));
        // Set up the date management stuff
        // Start and stop dates for all events after harvest
        flexdates[0][1] = g_date->DayInYear(10, 10); // last possible day of harvest - this is in effect day before the earliest date that a following crop can use
        flexdates[1][0] = -1; // This date will be moved back as far as necessary and potentially to flexdates 1 (start op 1)
        flexdates[1][1] = g_date->DayInYear(10, 10); // This date will be moved back as far as necessary and potentially to flexdates 1 (end op 1)
        flexdates[2][0] = -1;  // This date will be moved back as far as necessary and potentially to flexdates 1 (start op 2)
        flexdates[2][1] = g_date->DayInYear(15, 10); // This date will be moved back as far as necessary and potentially to flexdates 1 (end op 2)
        flexdates[3][0] = -1; // This date will be moved back as far as necessary and potentially to flexdates 1 (start op 3)
        flexdates[3][1] = g_date->DayInYear(30, 10); // This date will be moved back as far as necessary and potentially to flexdates 1 (end op 3) 
 
        // Below if this is a spring crop use 365, otherwise first parameter is always 0, second parameter is fixed, and the third is the start up operation in the first year
        int isSpring = 0;
        if (StartUpCrop(isSpring, flexdates, int(fi_tr_spring_plough))) break;
 
        // End single block date checking code. Please see next line comment as well.
        // Reinit d1 to first possible starting date.
        d1 = g_date->OldDays() + g_date->DayInYear(1, 9);
        // OK, let's go.
        // Here we queue up the first event which changes dependent on whether it is a forced spring sow or not
        if (m_ev->m_forcespring) {
            int day_num_shift = 365;
            if (g_date->DayInYear() < 70) day_num_shift = 0;
            SimpleEvent(g_date->OldDays() + g_date->DayInYear(1, 4) + day_num_shift, fi_tr_spring_plough, false);
            break;
        }
        else SimpleEvent(d1, fi_tr_stubble_cultivator1, false);
        break;
    }
    break;
        
    // This is the first real farm operation - LKM: done if there is time between 1st September-10th of October - 50% do this
    case fi_tr_stubble_cultivator1:
        if (a_ev->m_lock || a_farm->DoIt(50)) {
            if (!a_farm->StubbleCultivatorHeavy(a_field, 0.0, g_date->DayInYear(10, 10) - g_date->DayInYear())) {
                // If we don't succeed on the first try, then try and try again (until 10/10 when we will succeed)
                SimpleEvent(g_date->Date() + 1, fi_tr_stubble_cultivator1, true);
                break;
            }
            // Queue up the next event - in this case spring plough (the next year) - date is a suggestion (no date stated in crop scheme!) - 5% do this
            SimpleEvent(g_date->OldDays() + g_date->DayInYear(1, 4) + 365, fi_tr_spring_plough, false);
            break;
        }
        else //  autumn plough - the rest (50%) do this
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(15, 9), fi_tr_autumn_plough, false);
        break;
    case fi_tr_autumn_plough:
        if (!a_farm->AutumnPlough(a_field, 0.0, g_date->DayInYear(15, 10) - g_date->DayInYear())) {
            SimpleEvent(g_date->Date() + 1, fi_tr_autumn_plough, true);
            break;
        }
        // Queue up the next event - in this case spring plough (the next year) - date is a suggestion (no date stated in crop scheme!) - 5% do this
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(1, 4) + 365, fi_tr_spring_plough, false);
        break;
    case fi_tr_spring_plough:
        if (a_ev->m_lock || a_farm->DoIt(5)) {
            if (!a_farm->SpringPlough(a_field, 0.0, g_date->DayInYear(30, 4) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_spring_plough, true);
                break;
            }
        }
        // Queue up the next event - in this case preseeding cultivation - 85% do this
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(30, 4), fi_tr_preseeding_cultivation, false);
        break;
    case fi_tr_preseeding_cultivation:
        if (a_ev->m_lock || a_farm->DoIt(85)) {
            if (!a_farm->PreseedingCultivator(a_field, 0.0,
                g_date->DayInYear(20, 5) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_preseeding_cultivation, true);
                break;
            }
            SimpleEvent(g_date->Date(), fi_tr_sow, false);
            break;
        } // the rest (15%) do preseeding cultivator with sow 
        else SimpleEvent(g_date->OldDays() + g_date->DayInYear(10, 5), fi_tr_preseeding_sow, false);
        break;
 
    case fi_tr_sow: // sowing with fertilizer
        if (!a_farm->SpringSowWithFerti(m_field, 0.0, g_date->DayInYear(31, 5) - g_date->DayInYear())) {
            SimpleEvent(g_date->Date() + 1, fi_tr_sow, true);
            break;
        } // Queue up the next event - in this case harrow before emergence (suggest 7 days)
        // LKM: Here is a fork leading to parallel events
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(1, 6) + m_date_modifier, fi_tr_insecticide1, false); // insecticide thread
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(10, 6), fi_tr_herbicide1, false); // herbicide thread - main thread
        break;
    case fi_tr_preseeding_sow:
        if (!a_farm->PreseedingCultivatorSow(m_field, 0.0, g_date->DayInYear(31, 5) - g_date->DayInYear())) {
            SimpleEvent(g_date->Date() + 1, fi_tr_preseeding_sow, true);
            break;
        } // fertilizer when preseeding cultivator with sowing
        SimpleEvent(g_date->Date(), fi_tr_fertilizer, false);
        break;
    case fi_tr_fertilizer:
        if (!a_farm->FP_NPKS(a_field, 0.0,
            g_date->DayInYear(31, 5) - g_date->DayInYear())) {
            SimpleEvent(g_date->Date() + 1, fi_tr_fertilizer, true);
            break;
        }
        // LKM: Here is a fork leading to parallel events
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(1, 6) + m_date_modifier, fi_tr_insecticide1, false); // insecticide thread
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(10, 6), fi_tr_herbicide1, false); // herbicide thread - main thread
        break;
        // Insecticide thread
    case fi_tr_insecticide1:
        if (a_ev->m_lock || a_farm->DoIt(90)) { //90% do insecticide
            // here we check whether we are using ERA pesticide or not
            d1 = g_date->DayInYear(7, 6) - g_date->DayInYear();
            if (!cfg_pest_turniprape_on.value() || !m_field->GetLandscape()->SupplyShouldSpray()) // Not using pesticide spray
            {
                flag = m_farm->InsecticideTreat(m_field, 0.0, d1);
            }
            else {
                flag = m_farm->ProductApplication(m_field, 0.0, d1, cfg_pest_product_amounts.value(0), ppp_1);
            }
            if (!flag) {
                SimpleEvent_(g_date->Date() + 1, fi_tr_insecticide1, true, m_farm, m_field);
                break;
            }
            SimpleEvent(g_date->Date()+7, fi_tr_insecticide2, false); //second spray (crop scheme says 1-3 sprays (went with 2) depending on insect pressure - days between is a suggestion)
            break;
        }
        break;
    case fi_tr_insecticide2:
        // here we check whether we are using ERA pesticide or not
        d1 = g_date->DayInYear(14, 6) - g_date->DayInYear();
        if (!cfg_pest_turniprape_on.value() || !m_field->GetLandscape()->SupplyShouldSpray()) // Not using pesticide spray
        {
            flag = m_farm->InsecticideTreat(m_field, 0.0, d1);
        }
        else {
            flag = m_farm->ProductApplication(m_field, 0.0, d1, cfg_pest_product_amounts.value(0), ppp_1);
        }
        if (!flag) {
            SimpleEvent_(g_date->Date() + 1, fi_tr_insecticide2, true, m_farm, m_field);
            break;
        }
        //End of insecticide thread
        break;
    case fi_tr_herbicide1:
        if (a_ev->m_lock || a_farm->DoIt(80)) { //80% do herbicide1
            if (!a_farm->HerbicideTreat(a_field, 0.0,
                g_date->DayInYear(20, 6) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_herbicide1, true);
                break;
            }
        }
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(15, 7), fi_tr_fungicide, false); 
        break;
    case fi_tr_fungicide:
        if (a_ev->m_lock || a_farm->DoIt(40)) { //40% do fungicide
            if (!a_farm->FungicideTreat(a_field, 0.0,
                g_date->DayInYear(31, 7) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_fungicide, true);
                break;
            }
        }
        SimpleEvent(g_date->OldDays() + g_date->DayInYear(15, 9), fi_tr_harvest, false);
        break;
    case fi_tr_harvest:
        // We don't move harvest days
        if (!a_farm->Harvest(m_field, 0.0, m_field->GetMDates(1, 0) - g_date->DayInYear())) {
            SimpleEvent(g_date->Date() + 1, fi_tr_harvest, true);
            break;
        }
        // 50% of farmers will do herbicide after harvest
        SimpleEvent(g_date->Date(), fi_tr_herbicide2, false);
        break;
    case fi_tr_herbicide2:
        if (a_ev->m_lock || a_farm->DoIt(50)) {
            if (!a_farm->HerbicideTreat(m_field, 0.0, m_field->GetMDates(1, 1) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_herbicide2, true);
                break;
            }
        }
        // 50% of farmers will do stubble cultivation
            SimpleEvent(g_date->Date(), fi_tr_stubble_cultivator2, false);
            break;
    case fi_tr_stubble_cultivator2:
        if (a_ev->m_lock || a_farm->DoIt(50)) {
            if (!a_farm->StubbleCultivatorHeavy(m_field, 0.0, m_field->GetMDates(1, 2) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_stubble_cultivator2, true);
                break;
            }
            done = true;
        } // the rest (50%) will do plough
        else SimpleEvent(g_date->Date(), fi_tr_autumn_plough2, false);
        break;
    case fi_tr_autumn_plough2: // 50% do this
            if (!a_farm->AutumnPlough(m_field, 0.0, m_field->GetMDates(1, 3) - g_date->DayInYear())) {
                SimpleEvent(g_date->Date() + 1, fi_tr_autumn_plough2, true);
                break;
            }
        done = true;
        // So we are done, and somewhere else the farmer will queue up the start event of the next crop
        // END OF MAIN THREAD
        break;
    default:
        g_msg->Warn(WARN_BUG, "FI_TurnipRape::Do(): "
            "Unknown event type! ", "");
        exit(1);
    }
    if (done) m_ev->m_forcespring = true; // Here we need to force the next crop to spring operation, so set the ev->forcespring to true
    return done;
}

References Farm::AutumnPlough(), cfg_pest_product_amounts, cfg_pest_turniprape_on, LE::ClearManagementActionSum(), Calendar::Date(), Calendar::DayInYear(), Farm::DoIt(), fi_tr_autumn_plough, fi_tr_autumn_plough2, fi_tr_fertilizer, fi_tr_fungicide, fi_tr_harvest, fi_tr_herbicide1, fi_tr_herbicide2, fi_tr_insecticide1, fi_tr_insecticide2, fi_tr_preseeding_cultivation, fi_tr_preseeding_sow, fi_tr_sow, fi_tr_spring_plough, fi_tr_start, fi_tr_stubble_cultivator1, fi_tr_stubble_cultivator2, Farm::FP_NPKS(), Farm::FungicideTreat(), g_date, g_msg, LE::GetMDates(), Farm::Harvest(), Farm::HerbicideTreat(), Farm::InsecticideTreat(), Crop::m_date_modifier, Crop::m_ev, Crop::m_farm, Crop::m_field, FarmEvent::m_forcespring, Crop::m_last_date, FarmEvent::m_lock, FarmEvent::m_todo, Calendar::OldDays(), ppp_1, Farm::PreseedingCultivator(), Farm::PreseedingCultivatorSow(), Farm::ProductApplication(), Crop::SimpleEvent(), Crop::SimpleEvent_(), Farm::SpringPlough(), Farm::SpringSowWithFerti(), Crop::StartUpCrop(), Farm::StubbleCultivatorHeavy(), tov_FITurnipRape, CfgBool::value(), CfgArray_Double::value(), MapErrorMsg::Warn(), and WARN_BUG.

SetUpFarmCategoryInformation()

void FI_TurnipRape::SetUpFarmCategoryInformation ( )

inline

                                       {
       const int elements = 2 + (fi_tr_foobar - FI_TR_BASE);
       m_base_elements_no = FI_TR_BASE - 2;
 
       FarmManagementCategory catlist[elements] =
       {
            fmc_Others, // zero element unused but must be here 
            fmc_Others, //    fi_tr_start = 1, // Compulsory, must always be 1 (one).
            fmc_Others, //    fi_tr_sleep_all_day = FI_TR_BASE,
            fmc_Cultivation,    //    fi_tr_stubble_cultivator1,
            fmc_Cultivation,    //    fi_tr_autumn_plough,
            fmc_Cultivation,    //    fi_tr_spring_plough,
            fmc_Cultivation,    //    fi_tr_preseeding_cultivation,
            fmc_Cultivation,    //    fi_tr_preseeding_sow,
            fmc_Others, //    fi_tr_sow,
            fmc_Fertilizer, //    fi_tr_fertilizer,
            fmc_Herbicide,  //    fi_tr_herbicide1,
            fmc_Insecticide,    //    fi_tr_insecticide1,
            fmc_Insecticide,    //    fi_tr_insecticide2,
            fmc_Fungicide,  //    fi_tr_fungicide,
            fmc_Harvest,    //    fi_tr_harvest,
            fmc_Herbicide,  //    fi_tr_herbicide2,
            fmc_Cultivation,    //    fi_tr_stubble_cultivator2,
            fmc_Cultivation //    fi_tr_autumn_plough2,
 
 
               // no foobar entry   
 
       };
       // Iterate over the catlist elements and copy them to vector             
       copy(begin(catlist), end(catlist), back_inserter(m_ManagementCategories));
 
   }

References FI_TR_BASE, fi_tr_foobar, fmc_Cultivation, fmc_Fertilizer, fmc_Fungicide, fmc_Harvest, fmc_Herbicide, fmc_Insecticide, fmc_Others, Crop::m_base_elements_no, and Crop::m_ManagementCategories.

Referenced by FI_TurnipRape().

---

The documentation for this class was generated from the following files:

• /builds/ALMaSS/ALMaSS_MIDox/Landscape/cropprogs/FI_TurnipRape.h
• /builds/ALMaSS/ALMaSS_MIDox/Landscape/cropprogs/FI_TurnipRape.cpp