} // end setupDialog private void onInsertClick(object sender, EventArgs e) { BiomassEquationDO biodo = new BiomassEquationDO(); biodo.Species = speciesList.SelectedItem.ToString(); biodo.Component = componentList.SelectedItem.ToString(); biodo.Equation = equationList.SelectedItem.ToString(); //biodo.Product = Convert.ToInt16(productList.SelectedItem.ToString()); bioList.Add(biodo); biomassEquationDOBindingSource.ResetBindings(false); } // end onInsertClick
} // end FindFactor public static List <string> buildPrintArray(BiomassEquationDO bioDO, int printSpecies) { string fieldFormat = "{0,5:F1}"; var bioArray = new List <string>(); bioArray.Add(" "); if (printSpecies == 1) { bioArray.Add(bioDO.Species.PadRight(6, ' ')); bioArray.Add(bioDO.Product.PadLeft(2, '0')); } else if (printSpecies == 0) { bioArray.Add(" "); bioArray.Add(" "); } // endif printSpecies switch (bioDO.Component) { case "TotalTreeAboveGround": bioArray.Add("Total Tree "); break; case "LiveBranches": bioArray.Add("Live Branches "); break; case "DeadBranches": bioArray.Add("Dead Branches "); break; case "Foliage": bioArray.Add("Foliage "); break; case "PrimaryProd": bioArray.Add("Mainstem Primary "); break; case "SecondaryProd": bioArray.Add("Mainstem Secondary"); break; case "StemTip": bioArray.Add("Stem Tip "); break; } // end switch on component if (bioDO.Equation == null || bioDO.Equation == "" || bioDO.Equation.Substring(0, 3) == " ") { bioArray.Add(" "); } else { bioArray.Add(bioDO.Equation.PadLeft(3, '0')); } bioArray.Add(String.Format(fieldFormat, bioDO.PercentMoisture)); bioArray.Add(String.Format(fieldFormat, bioDO.PercentRemoved)); bioArray.Add(bioDO.LiveDead); bioArray.Add(bioDO.FIAcode.ToString()); bioArray.Add(String.Format(fieldFormat, bioDO.WeightFactorPrimary)); bioArray.Add(String.Format(fieldFormat, bioDO.WeightFactorSecondary)); if (bioDO.MetaData == null) { bioArray.Add(" "); } else { bioArray.Add(bioDO.MetaData.PadRight(49, ' ').Substring(0, 49)); } return(bioArray); } // end buildPrintArray
} // end onDelete public void updateBiomass(List <VolumeEquationDO> equationList, string currRegion, string currForest) { // function only updates biomass equations in a template file List <TreeDefaultValueDO> treeDef = bslyr.getTreeDefaults(); List <BiomassEquationDO> bioList = bslyr.getBiomassEquations(); if (bioList.Count > 0) { bslyr.ClearBiomassEquations(); } // capture percent removed List <PercentRemoved> prList = new List <PercentRemoved>(); foreach (VolumeEquationDO vdo in equationList) { PercentRemoved pr = new PercentRemoved(); if (vdo.CalcBiomass == 1) { pr.bioSpecies = vdo.Species; pr.bioProduct = vdo.PrimaryProduct; prList.Add(pr); } // endif biomass flag checked } // end foreach if (prList.Count > 0) { CapturePercentRemoved cpr = new CapturePercentRemoved(); cpr.prList = prList; cpr.setupDialog(); cpr.ShowDialog(); prList = cpr.prList; } // endif nthRow // new variables for biomass call int REGN, SPCD; float[] WF = new float[3]; StringBuilder AGTEQ = new StringBuilder(256); StringBuilder LBREQ = new StringBuilder(256); StringBuilder DBREQ = new StringBuilder(256); StringBuilder FOLEQ = new StringBuilder(256); StringBuilder TIPEQ = new StringBuilder(256); StringBuilder WF1REF = new StringBuilder(256); StringBuilder WF2REF = new StringBuilder(256); StringBuilder MCREF = new StringBuilder(256); StringBuilder AGTREF = new StringBuilder(256); StringBuilder LBRREF = new StringBuilder(256); StringBuilder DBRREF = new StringBuilder(256); StringBuilder FOLREF = new StringBuilder(256); StringBuilder TIPREF = new StringBuilder(256); const int strlen = 256; // need an array of component titles string[] componentArray = new string[7] { "TotalTreeAboveGround", "LiveBranches", "DeadBranches", "Foliage", "PrimaryProd", "SecondaryProd", "StemTip" }; // convert region to integer and forest to StringBuilder REGN = Convert.ToInt16(currRegion); StringBuilder FORST = new StringBuilder(256); FORST.Append(currForest); foreach (VolumeEquationDO el in equationList) { if (el.CalcBiomass == 1) { // find species/product in tree default values for FIA code int nthRow = treeDef.FindIndex( delegate(TreeDefaultValueDO td) { return(td.Species == el.Species && td.PrimaryProduct == el.PrimaryProduct); }); if (nthRow >= 0) { WF[0] = 0; WF[1] = 0; WF[2] = 0; SPCD = Convert.ToInt16(treeDef[nthRow].FIAcode); CRZSPDFTCS(ref REGN, FORST, ref SPCD, WF, AGTEQ, LBREQ, DBREQ, FOLEQ, TIPEQ, WF1REF, WF2REF, MCREF, AGTREF, LBRREF, DBRREF, FOLREF, TIPREF, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen); // get percent removed from list float currPC = new float(); int ithRow = prList.FindIndex( delegate(PercentRemoved pr) { return(pr.bioSpecies == el.Species && pr.bioProduct == el.PrimaryProduct); }); for (int k = 0; k < 7; k++) { BiomassEquationDO bedo = new BiomassEquationDO(); bedo.FIAcode = treeDef[nthRow].FIAcode; bedo.LiveDead = treeDef[nthRow].LiveDead; bedo.Product = el.PrimaryProduct; bedo.Species = el.Species; bedo.PercentMoisture = WF[2]; bedo.PercentRemoved = currPC; // switch through component array switch (k) { case 0: // Total tree above ground bedo.Component = componentArray[k]; bedo.Equation = AGTEQ.ToString(); bedo.MetaData = AGTREF.ToString(); break; case 1: // Live branches bedo.Component = componentArray[k]; bedo.Equation = LBREQ.ToString(); bedo.MetaData = LBRREF.ToString(); break; case 2: // Dead branches bedo.Component = componentArray[k]; bedo.Equation = DBREQ.ToString(); bedo.MetaData = DBRREF.ToString(); break; case 3: // Foliage bedo.Component = componentArray[k]; bedo.Equation = FOLEQ.ToString(); bedo.MetaData = FOLREF.ToString(); break; case 4: // Primary product bedo.Component = componentArray[k]; bedo.Equation = ""; if (currRegion == "05" || currRegion == "5") { // setip array for FFIA codes for applicable species long[] FIAcodes = new long[8] { 122, 116, 117, 015, 020, 202, 081, 108 }; if (el.PrimaryProduct == "20") { for (int j = 0; j < 8; j++) { if (treeDef[nthRow].FIAcode == FIAcodes[j]) { bedo.WeightFactorPrimary = WF[1]; } } } else { bedo.WeightFactorPrimary = WF[0]; } } else { bedo.WeightFactorPrimary = WF[0]; } bedo.MetaData = WF1REF.ToString(); break; case 5: // Secondary product bedo.Component = componentArray[k]; bedo.Equation = ""; bedo.WeightFactorSecondary = WF[1]; bedo.MetaData = WF2REF.ToString(); break; case 6: // Stem tip bedo.Component = componentArray[k]; bedo.Equation = TIPEQ.ToString(); bedo.MetaData = TIPREF.ToString(); break; } // end switch bioList.Add(bedo); } // end for k loop } // endif nthRow } // endif } // end foreach loop // save list bslyr.SaveBiomassEquations(bioList); return; }
} // end onCancel public void updateBiomass(List <VolumeEquationDO> equationList) { List <TreeDO> treeList = bslyr.getTrees(); // Are there records in the BiomassEquation table? Remove all List <BiomassEquationDO> bioList = bslyr.getBiomassEquations(); if (bioList.Count > 0) { bslyr.ClearBiomassEquations(); } // need to reset filename bslyr.fileName = fileName; string currRegion = bslyr.getRegion(); string currForest = bslyr.getForest(); // district is not used in the new biomass library call //string currDist = bslyr.getDistrict(); // if just one volume equation has biomass flag checked, need to capture percent removed for any or all List <PercentRemoved> prList = new List <PercentRemoved>(); foreach (VolumeEquationDO vdo in equationList) { PercentRemoved pr = new PercentRemoved(); if (vdo.CalcBiomass == 1) { pr.bioSpecies = vdo.Species; pr.bioProduct = vdo.PrimaryProduct; prList.Add(pr); } // endif biomass flag checked } // end foreach if (prList.Count > 0) { CapturePercentRemoved cpr = new CapturePercentRemoved(); cpr.prList = prList; cpr.setupDialog(); cpr.ShowDialog(); prList = cpr.prList; } // endif nthRow // new variables for biomass call int REGN, SPCD; float[] WF = new float[3]; StringBuilder AGTEQ = new StringBuilder(256); StringBuilder LBREQ = new StringBuilder(256); StringBuilder DBREQ = new StringBuilder(256); StringBuilder FOLEQ = new StringBuilder(256); StringBuilder TIPEQ = new StringBuilder(256); StringBuilder WF1REF = new StringBuilder(256); StringBuilder WF2REF = new StringBuilder(256); StringBuilder MCREF = new StringBuilder(256); StringBuilder AGTREF = new StringBuilder(256); StringBuilder LBRREF = new StringBuilder(256); StringBuilder DBRREF = new StringBuilder(256); StringBuilder FOLREF = new StringBuilder(256); StringBuilder TIPREF = new StringBuilder(256); const int strlen = 256; // need an array of component titles string[] componentArray = new string[7] { "TotalTreeAboveGround", "LiveBranches", "DeadBranches", "Foliage", "PrimaryProd", "SecondaryProd", "StemTip" }; // convert region to integer and forest to StringBuilder REGN = Convert.ToInt16(currRegion); StringBuilder FORST = new StringBuilder(256); FORST.Append(currForest); // Region 8 does things so differently -- multiple species could be // in the equation list so need to check for duplicates. Otherwise, the biomass equations // won't save. February 2014 string prevSP = "**"; string prevPP = "**"; // update biomass equations foreach (VolumeEquationDO vedo in equationList) { if (vedo.CalcBiomass == 1) { if (prevSP != vedo.Species || (prevSP == vedo.Species && prevPP != vedo.PrimaryProduct)) { prevSP = vedo.Species; prevPP = vedo.PrimaryProduct; // find species/product in Tree list int nthRow = treeList.FindIndex( delegate(TreeDO t) { return(t.Species == vedo.Species && t.SampleGroup.PrimaryProduct == vedo.PrimaryProduct); }); if (nthRow >= 0) { WF[0] = 0; WF[1] = 0; WF[2] = 0; SPCD = Convert.ToInt16(treeList[nthRow].TreeDefaultValue.FIAcode); CRZSPDFTCS(ref REGN, FORST, ref SPCD, WF, AGTEQ, LBREQ, DBREQ, FOLEQ, TIPEQ, WF1REF, WF2REF, MCREF, AGTREF, LBRREF, DBRREF, FOLREF, TIPREF, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen, strlen); // get percent removed from list float currPC = new float(); int ithRow = prList.FindIndex( delegate(PercentRemoved pr) { return(pr.bioSpecies == vedo.Species && pr.bioProduct == vedo.PrimaryProduct); }); if (ithRow >= 0) { currPC = Convert.ToSingle(prList[ithRow].bioPCremoved); } else { currPC = 0; } for (int k = 0; k < 7; k++) { BiomassEquationDO bedo = new BiomassEquationDO(); bedo.FIAcode = treeList[nthRow].TreeDefaultValue.FIAcode; bedo.LiveDead = treeList[nthRow].LiveDead; bedo.Product = vedo.PrimaryProduct; bedo.Species = vedo.Species; bedo.PercentMoisture = WF[2]; bedo.PercentRemoved = currPC; // switch through component array switch (k) { case 0: // Total tree above ground bedo.Component = componentArray[k]; bedo.Equation = AGTEQ.ToString(); bedo.MetaData = AGTREF.ToString(); break; case 1: // Live branches bedo.Component = componentArray[k]; bedo.Equation = LBREQ.ToString(); bedo.MetaData = LBRREF.ToString(); break; case 2: // Dead branches bedo.Component = componentArray[k]; bedo.Equation = DBREQ.ToString(); bedo.MetaData = DBRREF.ToString(); break; case 3: // Foliage bedo.Component = componentArray[k]; bedo.Equation = FOLEQ.ToString(); bedo.MetaData = FOLREF.ToString(); break; case 4: // Primary product bedo.Component = componentArray[k]; bedo.Equation = ""; if (currRegion == "05" || currRegion == "5") { // setip array for FIA codes for applicable species long[] FIAcodes = new long[8] { 122, 116, 117, 015, 020, 202, 081, 108 }; int foundIt = 0; if (vedo.PrimaryProduct == "20") { for (int j = 0; j < 8; j++) { if (treeList[nthRow].TreeDefaultValue.FIAcode == FIAcodes[j]) { bedo.WeightFactorPrimary = WF[1]; foundIt = 1; } } // end for j loop if (foundIt == 0) { bedo.WeightFactorPrimary = WF[0]; } } else { bedo.WeightFactorPrimary = WF[0]; } } else { bedo.WeightFactorPrimary = WF[0]; } bedo.MetaData = WF1REF.ToString(); break; case 5: // Secondary product bedo.Component = componentArray[k]; bedo.Equation = ""; bedo.WeightFactorSecondary = WF[1]; bedo.MetaData = WF2REF.ToString(); break; case 6: // Stem tip bedo.Component = componentArray[k]; bedo.Equation = TIPEQ.ToString(); bedo.MetaData = TIPREF.ToString(); break; } // end switch bioList.Add(bedo); } // end for k loop } // endif nthRow } // endif species and product are not equal } // endif biomass checked } // end foreach loop // save list bslyr.SaveBiomassEquations(bioList); bslyr.fileName = fileName; } // end updateBiomass