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       unit UFMatiere ;
       interface
       uses
         Windows, Forms, Classes, Controls, StdCtrls, Buttons, ComCtrls, ExtCtrls,
         PBNumEdit, JvEnterTab, JvExControls;
       type
         TFMatiere = class(TForm)
           GBMatiere: TGroupBox;
           CBMatiere: TComboBox;
           SBAdd: TSpeedButton;
           SBDel: TSpeedButton;
           SBRename: TSpeedButton;
           SBComment: TSpeedButton;
           PC: TPageControl;
           TSElem: TTabSheet;
           TSAA: TTabSheet;
           TSAG: TTabSheet;
           TSMineraux: TTabSheet;
           GBTFecale: TGroupBox;
           GBEnergie: TGroupBox;
           LMS: TLabel;
           LMM: TLabel;
           LMO: TLabel;
           LLip: TLabel;
           LMAT: TLabel;
           LAmidon: TLabel;
           LCB: TLabel;
           LEB: TLabel;
           LSucres: TLabel;
           LNDF: TLabel;
           LADF: TLabel;
           LADL: TLabel;
           LED: TLabel;
           LEM: TLabel;
           LEN: TLabel;
           LEDsEB: TLabel;
           LENsEM: TLabel;
           LEVal_C: TLabel;
           LEVal_T: TLabel;
           CBCorrCUD: TCheckBox;
           RBED: TRadioButton;
           RBEM: TRadioButton;
           RBEN: TRadioButton;
           TSFibres: TTabSheet;
           LParois: TLabel;
           PBTMS: TPBNumEdit;
           PBTMM: TPBNumEdit;
           PBTMO: TPBNumEdit;
           PBTLip: TPBNumEdit;
           PBTMAT: TPBNumEdit;
           PBTAmidon: TPBNumEdit;
           PBTSucres: TPBNumEdit;
           GBdFecale: TGroupBox;
           LdFecale_C: TLabel;
           LdFecale_T: TLabel;
           PBdMO_C: TPBNumEdit;
           PBdLip_C: TPBNumEdit;
           PBdMAT_C: TPBNumEdit;
           PBdSucres_C: TPBNumEdit;
           PBdLip_T: TPBNumEdit;
           PBdMAT_T: TPBNumEdit;
           PBdAmidon_T: TPBNumEdit;
           PBdSucres_T: TPBNumEdit;
           GBEVal: TGroupBox;
           BGERap: TGroupBox;
           GBFecale: TGroupBox;
           LERap_C: TLabel;
           LERap_T: TLabel;
           LCorrCUD: TLabel;
           CBAAsMAT: TCheckBox;
           PBEB_C: TPBNumEdit;
           PBED_C: TPBNumEdit;
           PBEM_C: TPBNumEdit;
           PBEN_C: TPBNumEdit;
           PBEDsEB_C: TPBNumEdit;
           PBENsEM_C: TPBNumEdit;
           PBEB_T: TPBNumEdit;
           PBED_T: TPBNumEdit;
           PBEM_T: TPBNumEdit;
           PBEN_T: TPBNumEdit;
           PBEDsEB_T: TPBNumEdit;
           PBENsEM_T: TPBNumEdit;
           PBCB: TPBNumEdit;
           PBNDF: TPBNumEdit;
           PBADF: TPBNumEdit;
           PBADL: TPBNumEdit;
           PBParois: TPBNumEdit;
           LLys: TLabel;
           LMet: TLabel;
           LCys: TLabel;
           LTrp: TLabel;
           LThr: TLabel;
           LPhe: TLabel;
           LTyr: TLabel;
           LLeu: TLabel;
           LIle: TLabel;
           LVal: TLabel;
           LHis: TLabel;
           LArg: TLabel;
           PBTMAT2: TPBNumEdit;
           PBTLys: TPBNumEdit;
           PBTMet: TPBNumEdit;
           PBTCys: TPBNumEdit;
           PBTTrp: TPBNumEdit;
           PBTThr: TPBNumEdit;
           PBTPhe: TPBNumEdit;
           PBTTyr: TPBNumEdit;
           PBTLeu: TPBNumEdit;
           PBTIle: TPBNumEdit;
           PBTArg: TPBNumEdit;
           PBTHis: TPBNumEdit;
           PBTVal: TPBNumEdit;
           LCa: TLabel;
           LP: TLabel;
           LZn: TLabel;
           LCu: TLabel;
           LMg: TLabel;
           LCl: TLabel;
           LK: TLabel;
           LNa: TLabel;
           LFe: TLabel;
           LMn: TLabel;
           PBC6C8C10_0: TPBNumEdit;
           PBC12_0: TPBNumEdit;
           PBC14_0: TPBNumEdit;
           PBC16_0: TPBNumEdit;
           PBC18_0: TPBNumEdit;
           PBC20_0: TPBNumEdit;
           PBC22_0: TPBNumEdit;
           PBC24_0: TPBNumEdit;
           PBC22_1: TPBNumEdit;
           PBC22_6: TPBNumEdit;
           PBAG: TPBNumEdit;
           PBCa: TPBNumEdit;
           PBP: TPBNumEdit;
           PBCu: TPBNumEdit;
           PBZn: TPBNumEdit;
           PBMg: TPBNumEdit;
           PBCl: TPBNumEdit;
           PBK: TPBNumEdit;
           PBNa: TPBNumEdit;
           PBMn: TPBNumEdit;
           PBFe: TPBNumEdit;
           PBPhytase: TPBNumEdit;
           PBPdigG: TPBNumEdit;
           LPhytase: TLabel;
           LC12: TLabel;
           LC16: TLabel;
           LC14: TLabel;
           LC18: TLabel;
           LC20: TLabel;
           LC22: TLabel;
           LC24: TLabel;
           PBC16_1: TPBNumEdit;
           PBC18_1: TPBNumEdit;
           PBC18_2: TPBNumEdit;
           PBC18_3: TPBNumEdit;
           PBC18_4: TPBNumEdit;
           PBC20_1: TPBNumEdit;
           PBC20_4: TPBNumEdit;
           PBC20_5: TPBNumEdit;
           PBC22_5: TPBNumEdit;
           LC6C8C10: TLabel;
           LAG: TLabel;
           LActPhyt: TLabel;
           PBActPhytE: TPBNumEdit;
           LCasP: TLabel;
           PBCasP: TPBNumEdit;
           PBdMATStd: TPBNumEdit;
           PBdLysStd: TPBNumEdit;
           PBdMetStd: TPBNumEdit;
           PBdCysStd: TPBNumEdit;
           PBdTrpStd: TPBNumEdit;
           PBdThrStd: TPBNumEdit;
           PBdPheStd: TPBNumEdit;
           PBdTyrStd: TPBNumEdit;
           PBdLeuStd: TPBNumEdit;
           PBdIleStd: TPBNumEdit;
           PBdValStd: TPBNumEdit;
           PBdHisStd: TPBNumEdit;
           PBdArgStd: TPBNumEdit;
           LMAT2: TLabel;
           GBTAG: TGroupBox;
           PBProtLysStd: TPBNumEdit;
           PBProtMetStd: TPBNumEdit;
           PBProtCysStd: TPBNumEdit;
           PBProtTrpStd: TPBNumEdit;
           PBProtThrStd: TPBNumEdit;
           PBProtPheStd: TPBNumEdit;
           PBProtTyrStd: TPBNumEdit;
           PBProtLeuStd: TPBNumEdit;
           PBProtIleStd: TPBNumEdit;
           PBProtValStd: TPBNumEdit;
           PBProtHisStd: TPBNumEdit;
           PBProtArgStd: TPBNumEdit;
           GBFibres: TGroupBox;
           PBPtot: TPBNumEdit;
           LPdig: TLabel;
           LPtot: TLabel;
           GBP: TGroupBox;
           GBMacro: TGroupBox;
           GBOligo: TGroupBox;
           GBTOligo: TGroupBox;
           GBTMacro: TGroupBox;
           LS: TLabel;
           PBS: TPBNumEdit;
           LBilanCA: TLabel;
           PBBilanCA: TPBNumEdit;
           LBilanE: TLabel;
           PBBilanE: TPBNumEdit;
           GBAGtot: TGroupBox;
           GBAG0: TGroupBox;
           GBAG1: TGroupBox;
           GBAG2: TGroupBox;
           GBAG3: TGroupBox;
           GBAG4: TGroupBox;
           GBAG5: TGroupBox;
           GBAG6: TGroupBox;
           LCtot: TLabel;
           PBCtot_0: TPBNumEdit;
           PBCtot_1: TPBNumEdit;
           PBCtot_2: TPBNumEdit;
           PBCtot_3: TPBNumEdit;
           PBCtot_4: TPBNumEdit;
           PBCtot_5: TPBNumEdit;
           PBCtot_6: TPBNumEdit;
           PBC24_tot: TPBNumEdit;
           PBC22_tot: TPBNumEdit;
           PBC20_tot: TPBNumEdit;
           PBC18_tot: TPBNumEdit;
           PBC16_tot: TPBNumEdit;
           PBC14_tot: TPBNumEdit;
           PBC12_tot: TPBNumEdit;
           PBC6C8C10_tot: TPBNumEdit;
           PBCtot_tot: TPBNumEdit;
           LLip2: TLabel;
           PBLip2: TPBNumEdit;
           LSatur: TLabel;
           PBSatur: TPBNumEdit;
           LMono: TLabel;
           PBMono: TPBNumEdit;
           LPoly: TLabel;
           PBPoly: TPBNumEdit;
           LO6sO3: TLabel;
           PBO6sO3: TPBNumEdit;
           GBAA: TGroupBox;
           GBTAA: TGroupBox;
           GBdAA: TGroupBox;
           GBProt: TGroupBox;
           PBdMATApp: TPBNumEdit;
           PBdLysApp: TPBNumEdit;
           PBdMetApp: TPBNumEdit;
           PBdCysApp: TPBNumEdit;
           PBdTrpApp: TPBNumEdit;
           PBdThrApp: TPBNumEdit;
           PBdPheApp: TPBNumEdit;
           PBdTyrApp: TPBNumEdit;
           PBdLeuApp: TPBNumEdit;
           PBdIleApp: TPBNumEdit;
           PBdValApp: TPBNumEdit;
           PBdHisApp: TPBNumEdit;
           PBdArgApp: TPBNumEdit;
           PBProtLysTot: TPBNumEdit;
           PBProtMetTot: TPBNumEdit;
           PBProtCysTot: TPBNumEdit;
           PBProtTrpTot: TPBNumEdit;
           PBProtThrTot: TPBNumEdit;
           PBProtPheTot: TPBNumEdit;
           PBProtTyrTot: TPBNumEdit;
           PBProtLeuTot: TPBNumEdit;
           PBProtIleTot: TPBNumEdit;
           PBProtValTot: TPBNumEdit;
           PBProtHisTot: TPBNumEdit;
           PBProtArgTot: TPBNumEdit;
           LdAAStd: TLabel;
           LdAAApp: TLabel;
           LProtStd: TLabel;
           LProtTot: TLabel;
           GBCompAA: TGroupBox;
           GBMetCys: TGroupBox;
           GBTrp: TGroupBox;
           GBPheTyr: TGroupBox;
           GBEAA: TGroupBox;
           LTMetCys: TLabel;
           PBTMetCys: TPBNumEdit;
           LdMetCys: TLabel;
           PBdMetCysStd: TPBNumEdit;
           LProtMetCys: TLabel;
           PBProtMetCysStd: TPBNumEdit;
           LTPheTyr: TLabel;
           PBTPheTyr: TPBNumEdit;
           LdPheTyr: TLabel;
           PBdPheTyrStd: TPBNumEdit;
           LProtPheTyr: TLabel;
           PBProtPheTyrStd: TPBNumEdit;
           LTrpTot: TLabel;
           PBTrpTot: TPBNumEdit;
           LTrpStd: TLabel;
           PBTrpStd: TPBNumEdit;
           LEAATot: TLabel;
           PBEAATot: TPBNumEdit;
           LEAAStd: TLabel;
           PBEAAStd: TPBNumEdit;
           PBSe: TPBNumEdit;
           PBI: TPBNumEdit;
           PBMb: TPBNumEdit;
           PBCo: TPBNumEdit;
           LCo: TLabel;
           LSe: TLabel;
           LI: TLabel;
           LMb: TLabel;
           CBAAsLys: TCheckBox;
           PBdMO_T: TPBNumEdit;
           PBdAmidon_C: TPBNumEdit;
           LBRap: TListBox;
           LBDig: TListBox;
           LBdCompo: TListBox;
           LBdAA: TListBox;
           LBTCompo: TListBox;
           LBTAA: TListBox;
           LBTAG: TListBox;
           LBTMacro: TListBox;
           LBTOligo: TListBox;
           LBTFibres: TListBox;
           PBPdigF: TPBNumEdit;
           PBActPhytM: TPBNumEdit;
           LPdigF: TLabel;
           LActPhytM: TLabel;
           LActPhytE: TLabel;
           LPdigG: TLabel;
           SBSave: TSpeedButton;
           SBPrint: TSpeedButton;
           PBProtMetCysTot: TPBNumEdit;
           PBdMetCysApp: TPBNumEdit;
           PBProtPheTyrTot: TPBNumEdit;
           PBdPheTyrApp: TPBNumEdit;
           LResidu: TLabel;
           PBTResidu: TPBNumEdit;
           PBdResidu_C: TPBNumEdit;
           PBdResidu_T: TPBNumEdit;
           JvEnterAsTab: TJvEnterAsTab;
           procedure FormShow(Sender: TObject);
           procedure FormClose(Sender: TObject; var Action: TCloseAction);
           procedure FormDeactivate(Sender: TObject);
           procedure CBMatiereChange(Sender: TObject);
           procedure SBAddClick(Sender: TObject);
           procedure SBDelClick(Sender: TObject);
           procedure SBRenameClick(Sender: TObject);
           procedure SBCommentClick(Sender: TObject);
           procedure CBCorrCUDClick(Sender: TObject);
           procedure RBEDClick(Sender: TObject);
           procedure RBEMClick(Sender: TObject);
           procedure RBENClick(Sender: TObject);
           procedure LEDClick(Sender: TObject);
           procedure LEMClick(Sender: TObject);
           procedure LENClick(Sender: TObject);
           procedure LCorrCUDClick(Sender: TObject);
           procedure CBAAsLysClick(Sender: TObject);
           procedure PBTMSChange(Sender: TObject);
           procedure PBTMMChange(Sender: TObject);
           procedure PBTLipChange(Sender: TObject);
           procedure PBTMATChange(Sender: TObject);
           procedure PBTAmidonChange(Sender: TObject);
           procedure PBTSucresChange(Sender: TObject);
           procedure PBdMO_CChange(Sender: TObject);
           procedure PBdLip_CChange(Sender: TObject);
           procedure PBdMAT_CChange(Sender: TObject);
           procedure PBdMO_TChange(Sender: TObject);
           procedure PBdLip_TChange(Sender: TObject);
           procedure PBdMAT_TChange(Sender: TObject);
           procedure PBED_CChange(Sender: TObject);
           procedure PBEM_CChange(Sender: TObject);
           procedure PBEN_CChange(Sender: TObject);
           procedure PBED_TChange(Sender: TObject);
           procedure PBEM_TChange(Sender: TObject);
           procedure PBEN_TChange(Sender: TObject);
           procedure PBCBChange(Sender: TObject);
           procedure PBTLysChange(Sender: TObject);
           procedure PBTMetChange(Sender: TObject);
           procedure PBTCysChange(Sender: TObject);
           procedure PBTTrpChange(Sender: TObject);
           procedure PBTThrChange(Sender: TObject);
           procedure PBTPheChange(Sender: TObject);
           procedure PBTTyrChange(Sender: TObject);
           procedure PBTLeuChange(Sender: TObject);
           procedure PBTIleChange(Sender: TObject);
           procedure PBTValChange(Sender: TObject);
           procedure PBTHisChange(Sender: TObject);
           procedure PBTArgChange(Sender: TObject);
           procedure PBdMATStdChange(Sender: TObject);
           procedure PBdLysStdChange(Sender: TObject);
           procedure PBdMetStdChange(Sender: TObject);
           procedure PBdCysStdChange(Sender: TObject);
           procedure PBdTrpStdChange(Sender: TObject);
           procedure PBdThrStdChange(Sender: TObject);
           procedure PBdPheStdChange(Sender: TObject);
           procedure PBdTyrStdChange(Sender: TObject);
           procedure PBdLeuStdChange(Sender: TObject);
           procedure PBdIleStdChange(Sender: TObject);
           procedure PBdValStdChange(Sender: TObject);
           procedure PBdHisStdChange(Sender: TObject);
           procedure PBdArgStdChange(Sender: TObject);
           procedure PBC6C8C10_0Change(Sender: TObject);
           procedure PBC12_0Change(Sender: TObject);
           procedure PBC14_0Change(Sender: TObject);
           procedure PBC16_0Change(Sender: TObject);
           procedure PBC16_1Change(Sender: TObject);
           procedure PBC18_0Change(Sender: TObject);
           procedure PBC18_1Change(Sender: TObject);
           procedure PBC18_2Change(Sender: TObject);
           procedure PBC18_3Change(Sender: TObject);
           procedure PBC18_4Change(Sender: TObject);
           procedure PBC20_0Change(Sender: TObject);
           procedure PBC20_1Change(Sender: TObject);
           procedure PBC20_4Change(Sender: TObject);
           procedure PBC20_5Change(Sender: TObject);
           procedure PBC22_0Change(Sender: TObject);
           procedure PBC22_1Change(Sender: TObject);
           procedure PBC22_5Change(Sender: TObject);
           procedure PBC22_6Change(Sender: TObject);
           procedure PBC24_0Change(Sender: TObject);
           procedure PBCaChange(Sender: TObject);
           procedure PBPChange(Sender: TObject);
           procedure PBNaChange(Sender: TObject);
           procedure PBKChange(Sender: TObject);
           procedure PBMgChange(Sender: TObject);
           procedure PBClChange(Sender: TObject);
           procedure PBSChange(Sender: TObject);
           procedure PBCuChange(Sender: TObject);
           procedure PBZnChange(Sender: TObject);
           procedure PBMnChange(Sender: TObject);
           procedure PBFeChange(Sender: TObject);
           procedure PBSeChange(Sender: TObject);
           procedure PBCoChange(Sender: TObject);
           procedure PBMbChange(Sender: TObject);
           procedure PBIChange(Sender: TObject);
           procedure PBPdigGChange(Sender: TObject);
           procedure PBPhytaseChange(Sender: TObject);
           procedure PBActPhytEChange(Sender: TObject);
           procedure PBNDFChange(Sender: TObject);
           procedure PBADFChange(Sender: TObject);
           procedure PBADLChange(Sender: TObject);
           procedure PBParoisChange(Sender: TObject);
           procedure PBAGChange(Sender: TObject);
           procedure PBTMSExit(Sender: TObject);
           procedure PBTMMExit(Sender: TObject);
           procedure PBTMATExit(Sender: TObject);
           procedure PBTLysExit(Sender: TObject);
           procedure PBED_CExit(Sender: TObject);
           procedure PBEM_CExit(Sender: TObject);
           procedure PBEN_CExit(Sender: TObject);
           procedure PBED_TExit(Sender: TObject);
           procedure PBEM_TExit(Sender: TObject);
           procedure PBEN_TExit(Sender: TObject);
           procedure FormActivate(Sender: TObject);
           procedure PBPdigFChange(Sender: TObject);
           procedure PBActPhytMChange(Sender: TObject);
           procedure SBSaveClick(Sender: TObject);
           procedure SBPrintClick(Sender: TObject);
           procedure FormCreate(Sender: TObject);
         private
           { D?clarations priv?es }
           Update, Modified : boolean ;
           RapMS : double ;
           procedure Save ;
           procedure CalculTMO ;
           procedure CalculResidu ;
           procedure CalculEnergie ;
           procedure CalculDigEDCrois ;
           procedure CalculDigEMCrois ;
           procedure CalculDigENCrois ;
           procedure CalculDigEDTruie ;
           procedure CalculDigEMTruie ;
           procedure CalculDigENTruie ;
           procedure CalculAA ;
           procedure CalculAG ;
           procedure CalculMineraux ;
           procedure AffichTFecale ;
           procedure AffichdFecale ;
           procedure AffichResidu ;
           procedure AffichEnergie ;
           procedure AffichTAA ;
           procedure AffichdAA ;
           procedure AffichTAG ;
           procedure AffichTMineraux ;
           procedure AffichTFibres ;
         public
           { D?clarations publiques }
           IdxMatiere : integer ;
           procedure AjustCaption ;
           procedure AjustDecimals ;
           procedure AjustEnabled ;
         end;
       var
         FMatiere: TFMatiere;
       implementation
       uses
         Dialogs, SysUtils, gnugettext, UVariables, UStrings, UInit, UUtil, UFindRec,
         UFWarning, UFCommentMat, UFRapportMat;
       {$R *.dfm}
       { TFMatiere }
       procedure TFMatiere.FormCreate(Sender: TObject);
       begin
         if Screen.Fonts.IndexOf('Arial Unicode MS') <> -1
         then
           Font.Name := 'Arial Unicode MS';
         TranslateComponent(Self);
         Constraints.MinWidth := 744 + (Width - ClientWidth);
         Width := Constraints.MinWidth ;
         Constraints.MinHeight := 463 + (Height - ClientHeight);
         Height := Constraints.MinHeight;
       end;
       procedure TFMatiere.FormShow (Sender : TObject) ;
       begin
         AjustCaption ;
         AjustDecimals ;
         Modified := FALSE ;
         StringsMatiere (CBMatiere.Items, 0, TRUE, TRUE) ;
         SBAdd.Enabled := IsComplete or (ListMatiere.Count < NumMatInraAfz + 10) ;
         SBSave.Enabled := IsComplete or IsEducation ;
         IdxMatiere := -1 ;
       //  CBMatiereChange (nil) ;
       end ;
       procedure TFMatiere.FormClose (Sender : TObject ; var Action : TCloseAction) ;
       begin
         if Modified then Save ;
         Action := caFree ;
         NumWinMatiere := -1 ;
       end ;
       procedure TFMatiere.FormActivate (Sender : TObject) ;
       var
         i : integer ;
       begin
       //  if IdxMatiere <> -1
       //  then
       //    PMatiere := ListMatiere[IdxMatiere] ;
         CBMatiereChange (nil) ;
         for i := 0 to PC.PageCount - 1 do
           PC.Pages[i].Enabled := IsComplete or IsEducation or IsEvaluation ;
       end ;
       procedure TFMatiere.FormDeactivate (Sender : TObject) ;
       begin
         if Modified then Save ;
       end ;
       procedure TFMatiere.Save ;
       var
         s : string ;
       begin
         Modified := FALSE ;
         if IsComplete or IsEducation
         then
           if MessageDlg (Caption + sLineBreak + MsgSave, mtConfirmation, [mbYes, mbNo], 0) = mrYes
           then
           begin
             SaveMatiere ;
             if not MatiereValid (PMatiere)
             then
               MessageDlg(Format (MsgInvalidData, [Caption, PMatiere.Nom]), mtWarning, [mbOK], 0) ;
           end
           else
           begin
             LoadMatiere ;
             s := CBMatiere.Text ;
             StringsMatiere (CBMatiere.Items, 0, TRUE, TRUE) ;
             if FindIdxMatiere (s) = -1
             then
             begin
               IdxMatiere := -1 ;
               CBMatiereChange (nil) ;
             end
             else
               CBMatiere.ItemIndex := CBMatiere.Items.IndexOf (s) ;
           end ;
       end ;
       // Adaptation des libell?s par rapport ? la configuration
       procedure TFMatiere.AjustCaption;
       begin
         Hint := Format(_('Chemical composition (%s)'), [LBRap.Items[ConfRap]]);
         GBTFecale.Caption := Format('%s (%s)', [_('Content'), LBTCompo.Items[ConfTCompo]]);
         GBdFecale.Caption := Format('%s (%s)', [LBDig.Items[ConfDig], LBdCompo.Items[ConfdCompo]]);
         GBTAA.Caption := Format('%s (%s)', [_('Content'), LBTAA.Items[ConfTAA]]);
         GBdAA.Caption := Format('%s (%s)', [LBDig.Items[ConfDig], LBdAA.Items[ConfdAA]]);
         GBTAG.Caption := Format('%s (%s)', [_('Content'), LBTAG.Items[ConfTAG]]);
         GBTMacro.Caption := Format('%s (%s)', [_('Content'), LBTMacro.Items[ConfTMacro]]);
         GBTOligo.Caption := Format('%s (%s)', [_('Content'), LBTOligo.Items[ConfTOligo]]);
         LPtot.Caption := Format('%s (%s)', [_('Total phosphorus'), LBTMacro.Items[ConfTMacro]]);
         LPdig.Caption := Format('%s (%s)', [_('Digestible phosphorus'), LBTMacro.Items[ConfTMacro]]);
         GBFibres.Caption := Format('%s (%s)', [_('Content'), LBTFibres.Items[ConfTFibres]]);
         if ConfDig = 0
         then // CUD
         begin
           LdMetCys.Caption := _('Std. digestibility');
           LdPheTyr.Caption := _('Std. digestibility');
         end
         else // Teneur digestible
         begin
           LdMetCys.Caption := _('Std. dig. content');
           LdPheTyr.Caption := _('Std. dig. content');
         end;
       end;
       // Ajustement du nombre de d?cimales en fonction de la configuration
       procedure TFMatiere.AjustDecimals;
       begin
         Update := TRUE;
         // Composition ?l?mentaire
         if ConfTCompo = 0
         then // g/kg
           PBTMS.Decimals := 1
         else // %
           PBTMS.Decimals := 2;
         PBTMM.Decimals := PBTMS.Decimals;
         PBTMO.Decimals := PBTMS.Decimals;
         PBTLip.Decimals := PBTMS.Decimals;
         PBTMAT.Decimals := PBTMS.Decimals;
         PBTAmidon.Decimals := PBTMS.Decimals;
         PBTSucres.Decimals := PBTMS.Decimals;
         PBTResidu.Decimals := PBTMS.Decimals;
         if (ConfDig = 0)
         then // CUD
           PBdMO_C.Decimals := 1
         else // Teneur digestible
           if ConfdCompo = 0
           then // g/kg
             PBdMO_C.Decimals := 1
           else // %
             PBdMO_C.Decimals := 2;
         PBdLip_C.Decimals := PBdMO_C.Decimals;
         PBdMAT_C.Decimals := PBdMO_C.Decimals;
         PBdAmidon_C.Decimals := PBdMO_C.Decimals;
         PBdSucres_C.Decimals := PBdMO_C.Decimals;
         PBdResidu_C.Decimals := PBdMO_C.Decimals;
         PBdMO_T.Decimals := PBdMO_C.Decimals;
         PBdLip_T.Decimals := PBdMO_C.Decimals;
         PBdMAT_T.Decimals := PBdMO_C.Decimals;
         PBdAmidon_T.Decimals := PBdMO_C.Decimals;
         PBdSucres_T.Decimals := PBdMO_C.Decimals;
         PBdResidu_T.Decimals := PBdMO_C.Decimals;
         // Acides amin?s
         if ConfTAA = 1
         then // %
           PBTMAT2.Decimals := 3
         else // %MAT ou g/kg
           PBTMAT2.Decimals := 2;
         PBTLys.Decimals := PBTMAT2.Decimals;
         PBTMet.Decimals := PBTMAT2.Decimals;
         PBTCys.Decimals := PBTMAT2.Decimals;
         PBTTrp.Decimals := PBTMAT2.Decimals;
         PBTThr.Decimals := PBTMAT2.Decimals;
         PBTPhe.Decimals := PBTMAT2.Decimals;
         PBTTyr.Decimals := PBTMAT2.Decimals;
         PBTLeu.Decimals := PBTMAT2.Decimals;
         PBTIle.Decimals := PBTMAT2.Decimals;
         PBTVal.Decimals := PBTMAT2.Decimals;
         PBTHis.Decimals := PBTMAT2.Decimals;
         PBTArg.Decimals := PBTMAT2.Decimals;
         PBTMetCys.Decimals := PBTMAT2.Decimals;
         PBTPheTyr.Decimals := PBTMAT2.Decimals;
         if ConfDig = 0
         then // CUD
           PBdMATStd.Decimals := 1
         else // Teneur digestible
           if ConfdAA = 0
           then // g/kg
             PBdMATStd.Decimals := 2
           else // %
             PBdMATStd.Decimals := 3;
         PBdLysStd.Decimals := PBdMATStd.Decimals;
         PBdMetStd.Decimals := PBdMATStd.Decimals;
         PBdCysStd.Decimals := PBdMATStd.Decimals;
         PBdTrpStd.Decimals := PBdMATStd.Decimals;
         PBdThrStd.Decimals := PBdMATStd.Decimals;
         PBdPheStd.Decimals := PBdMATStd.Decimals;
         PBdTyrStd.Decimals := PBdMATStd.Decimals;
         PBdLeuStd.Decimals := PBdMATStd.Decimals;
         PBdIleStd.Decimals := PBdMATStd.Decimals;
         PBdValStd.Decimals := PBdMATStd.Decimals;
         PBdHisStd.Decimals := PBdMATStd.Decimals;
         PBdArgStd.Decimals := PBdMATStd.Decimals;
         PBdMATApp.Decimals := PBdMATStd.Decimals;
         PBdLysApp.Decimals := PBdMATStd.Decimals;
         PBdMetApp.Decimals := PBdMATStd.Decimals;
         PBdCysApp.Decimals := PBdMATStd.Decimals;
         PBdTrpApp.Decimals := PBdMATStd.Decimals;
         PBdThrApp.Decimals := PBdMATStd.Decimals;
         PBdPheApp.Decimals := PBdMATStd.Decimals;
         PBdTyrApp.Decimals := PBdMATStd.Decimals;
         PBdLeuApp.Decimals := PBdMATStd.Decimals;
         PBdIleApp.Decimals := PBdMATStd.Decimals;
         PBdValApp.Decimals := PBdMATStd.Decimals;
         PBdHisApp.Decimals := PBdMATStd.Decimals;
         PBdArgApp.Decimals := PBdMATStd.Decimals;
         PBdMetCysStd.Decimals := PBdMATStd.Decimals;
         PBdMetCysApp.Decimals := PBdMATStd.Decimals;
         PBdPheTyrStd.Decimals := PBdMATStd.Decimals;
         PBdPheTyrApp.Decimals := PBdMATStd.Decimals;
         // Acides gras
         case ConfTAG of
 : // g/kg
             PBC6C8C10_0.Decimals := 2;
 : // %
             PBC6C8C10_0.Decimals := 3;
           else // % acides gras
             PBC6C8C10_0.Decimals := 1;
         end;
         PBC12_0.Decimals := PBC6C8C10_0.Decimals;
         PBC14_0.Decimals := PBC6C8C10_0.Decimals;
         PBC16_0.Decimals := PBC6C8C10_0.Decimals;
         PBC16_1.Decimals := PBC6C8C10_0.Decimals;
         PBC18_0.Decimals := PBC6C8C10_0.Decimals;
         PBC18_1.Decimals := PBC6C8C10_0.Decimals;
         PBC18_2.Decimals := PBC6C8C10_0.Decimals;
         PBC18_3.Decimals := PBC6C8C10_0.Decimals;
         PBC18_4.Decimals := PBC6C8C10_0.Decimals;
         PBC20_0.Decimals := PBC6C8C10_0.Decimals;
         PBC20_1.Decimals := PBC6C8C10_0.Decimals;
         PBC20_4.Decimals := PBC6C8C10_0.Decimals;
         PBC20_5.Decimals := PBC6C8C10_0.Decimals;
         PBC22_0.Decimals := PBC6C8C10_0.Decimals;
         PBC22_1.Decimals := PBC6C8C10_0.Decimals;
         PBC22_5.Decimals := PBC6C8C10_0.Decimals;
         PBC22_6.Decimals := PBC6C8C10_0.Decimals;
         PBC24_0.Decimals := PBC6C8C10_0.Decimals;
         PBC6C8C10_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC12_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC14_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC16_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC18_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC20_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC22_tot.Decimals := PBC6C8C10_0.Decimals;
         PBC24_tot.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_tot.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_0.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_1.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_2.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_3.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_4.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_5.Decimals := PBC6C8C10_0.Decimals;
         PBCtot_6.Decimals := PBC6C8C10_0.Decimals;
         // Min?raux
         if ConfTMacro = 0
         then // g/kg
           PBCa.Decimals := 2
         else // %
           PBCa.Decimals := 3;
         PBP.Decimals := PBCa.Decimals;
         PBNa.Decimals := PBCa.Decimals;
         PBK.Decimals := PBCa.Decimals;
         PBMg.Decimals := PBCa.Decimals;
         PBCl.Decimals := PBCa.Decimals;
         PBS.Decimals := PBCa.Decimals;
         if ConfTOligo = 0
         then // mg/kg
           PBCu.Decimals := 2
         else // %
           PBCu.Decimals := 6;
         PBZn.Decimals := PBCu.Decimals;
         PBMn.Decimals := PBCu.Decimals;
         PBFe.Decimals := PBCu.Decimals;
         PBSe.Decimals := PBCu.Decimals;
         PBCo.Decimals := PBCu.Decimals;
         PBMb.Decimals := PBCu.Decimals;
         PBI.Decimals := PBCu.Decimals;
         PBPtot.Decimals := PBCa.Decimals;
         PBPdigG.Decimals := PBCa.Decimals;
         PBPdigF.Decimals := PBCa.Decimals;
         // Fibres
         if ConfTFibres = 0
         then // g/kg
           PBCB.Decimals := 1
         else // %
           PBCB.Decimals := 2;
         PBNDF.Decimals := PBCB.Decimals;
         PBADF.Decimals := PBCB.Decimals;
         PBADL.Decimals := PBCB.Decimals;
         PBParois.Decimals := PBCB.Decimals;
         Update := FALSE;
       end;
       // Activation (ou non) des champs de saisie
       procedure TFMatiere.AjustEnabled ;
       begin
         if IdxMatiere < NumMatInraAfz
         then
           SBDel.Enabled := FALSE
         else
           SBDel.Enabled := TRUE ;
         SBRename.Enabled := SBDel.Enabled ;
         SBComment.Enabled := SBDel.Enabled ;
         SBSave.Enabled := SBDel.Enabled ;
         if IdxMatiere = -1
         then
           SBPrint.Enabled := FALSE
         else
           SBPrint.Enabled := TRUE ;
         if PC.Visible
         then
         begin
           PBTMS.Enabled := SBDel.Enabled ;
           // Composition ?l?mentaire
           if (PMatiere.CC.MS = 0) or (PMatiere.Num < 0)
           then
             PBTMM.Enabled := FALSE
           else
             PBTMM.Enabled := TRUE ;
           PBTLip.Enabled := PBTMM.Enabled ;
           PBTMAT.Enabled := PBTMM.Enabled ;
           PBTAmidon.Enabled := PBTMM.Enabled ;
           PBTSucres.Enabled := PBTMM.Enabled ;
           CBAAsMAT.Enabled := PBTMM.Enabled ;
           CBCorrCUD.Enabled := PBTMM.Enabled ;
           PBdMO_C.Enabled := CBCorrCUD.Enabled and not CBCorrCUD.Checked ;
           PBdLip_C.Enabled := PBdMO_C.Enabled ;
           PBdMAT_C.Enabled := PBdMO_C.Enabled ;
           PBdMO_T.Enabled := PBdMO_C.Enabled ;
           PBdLip_T.Enabled := PBdLip_C.Enabled ;
           PBdMAT_T.Enabled := PBdMAT_C.Enabled ;
           RBED.Enabled := CBCorrCUD.Enabled and CBCorrCUD.Checked ;
           RBEM.Enabled := RBED.Enabled ;
           RBEN.Enabled := RBED.Enabled ;
           PBED_C.Enabled := RBED.Enabled and RBED.Checked ;
           PBED_T.Enabled := PBED_C.Enabled ;
           PBEM_C.Enabled := RBEM.Enabled and RBEM.Checked ;
           PBEM_T.Enabled := PBEM_C.Enabled ;
           PBEN_C.Enabled := RBEN.Enabled and RBEN.Checked ;
           PBEN_T.Enabled := PBEN_C.Enabled ;
           // Acides amin?s
           PBTLys.Enabled := PBTMM.Enabled ;
           PBTMet.Enabled := PBTMM.Enabled and not CBAAsLys.Checked ;
           PBTCys.Enabled := PBTMet.Enabled ;
           PBTTrp.Enabled := PBTMet.Enabled ;
           PBTThr.Enabled := PBTMet.Enabled ;
           PBTPhe.Enabled := PBTMet.Enabled ;
           PBTTyr.Enabled := PBTMet.Enabled ;
           PBTLeu.Enabled := PBTMet.Enabled ;
           PBTIle.Enabled := PBTMet.Enabled ;
           PBTVal.Enabled := PBTMet.Enabled ;
           PBTHis.Enabled := PBTMet.Enabled ;
           PBTArg.Enabled := PBTMet.Enabled ;
           PBdMATStd.Enabled := PBTMM.Enabled ;
           PBdLysStd.Enabled := PBTMM.Enabled ;
           PBdMetStd.Enabled := PBTMM.Enabled ;
           PBdCysStd.Enabled := PBTMM.Enabled ;
           PBdTrpStd.Enabled := PBTMM.Enabled ;
           PBdThrStd.Enabled := PBTMM.Enabled ;
           PBdPheStd.Enabled := PBTMM.Enabled ;
           PBdTyrStd.Enabled := PBTMM.Enabled ;
           PBdLeuStd.Enabled := PBTMM.Enabled ;
           PBdIleStd.Enabled := PBTMM.Enabled ;
           PBdValStd.Enabled := PBTMM.Enabled ;
           PBdHisStd.Enabled := PBTMM.Enabled ;
           PBdArgStd.Enabled := PBTMM.Enabled ;
           CBAAsLys.Enabled := PBTMM.Enabled ;
           // Acides gras
           PBC6C8C10_0.Enabled := PBTMM.Enabled ;
           PBC12_0.Enabled := PBTMM.Enabled ;
           PBC14_0.Enabled := PBTMM.Enabled ;
           PBC16_0.Enabled := PBTMM.Enabled ;
           PBC16_1.Enabled := PBTMM.Enabled ;
           PBC18_0.Enabled := PBTMM.Enabled ;
           PBC18_1.Enabled := PBTMM.Enabled ;
           PBC18_2.Enabled := PBTMM.Enabled ;
           PBC18_3.Enabled := PBTMM.Enabled ;
           PBC18_4.Enabled := PBTMM.Enabled ;
           PBC20_0.Enabled := PBTMM.Enabled ;
           PBC20_1.Enabled := PBTMM.Enabled ;
           PBC20_4.Enabled := PBTMM.Enabled ;
           PBC20_5.Enabled := PBTMM.Enabled ;
           PBC22_0.Enabled := PBTMM.Enabled ;
           PBC22_1.Enabled := PBTMM.Enabled ;
           PBC22_5.Enabled := PBTMM.Enabled ;
           PBC22_6.Enabled := PBTMM.Enabled ;
           PBC24_0.Enabled := PBTMM.Enabled ;
           PBAG.Enabled := PBTMM.Enabled ;
           // Min?raux
           PBCa.Enabled := PBTMM.Enabled ;
           PBP.Enabled := PBTMM.Enabled ;
           PBNa.Enabled := PBTMM.Enabled ;
           PBK.Enabled := PBTMM.Enabled ;
           PBMg.Enabled := PBTMM.Enabled ;
           PBCl.Enabled := PBTMM.Enabled ;
           PBS.Enabled := PBTMM.Enabled ;
           PBCu.Enabled := PBTMM.Enabled ;
           PBZn.Enabled := PBTMM.Enabled ;
           PBMn.Enabled := PBTMM.Enabled ;
           PBFe.Enabled := PBTMM.Enabled ;
           PBSe.Enabled := PBTMM.Enabled ;
           PBCo.Enabled := PBTMM.Enabled ;
           PBMb.Enabled := PBTMM.Enabled ;
           PBI.Enabled := PBTMM.Enabled ;
           PBPdigG.Enabled := PBTMM.Enabled ;
           PBPdigF.Enabled := PBTMM.Enabled ;
           PBPhytase.Enabled := PBTMM.Enabled ;
           PBActPhytE.Enabled := PBTMM.Enabled ;
           PBActPhytM.Enabled := PBTMM.Enabled ;
           // Fibres
           PBCB.Enabled := PBTMM.Enabled ;
           PBNDF.Enabled := PBTMM.Enabled ;
           PBADF.Enabled := PBTMM.Enabled ;
           PBADL.Enabled := PBTMM.Enabled ;
           PBParois.Enabled := PBTMM.Enabled ;
         end ;
       end ;
       procedure TFMatiere.CBMatiereChange (Sender : TObject) ;
       begin
         if (IdxMatiere <> -1)
         and ((PMatiere.Num > 0) and (CBMatiere.Text <> PMatiere.Nom)
           or (PMatiere.Num < 0) and (CBMatiere.Text <> dgettext('InraAfz', PMatiere.Nom)))
         then
           if Modified then Save ;
         IdxMatiere := FindIdxMatiere (CBMatiere.Text) ;
         if IdxMatiere = -1
         then // Pas d'enregistrement
         begin
           CBMatiere.Repaint ;
           PC.ActivePageIndex := 0 ;
           PC.Visible := FALSE ;
           AjustEnabled ;
         end
         else // Affichage de l'enregistrement
         begin
           PC.Visible := TRUE ;
           PMatiere := ListMatiere[IdxMatiere] ;
           with PMatiere^ do
       //      CBMatiere.Hint := Memo ;
             if Num > 0
             then // Mati?re premi?re utilisateur
               CBMatiere.Hint := Memo
             else // Mati?re premi?re INRA-AFZ (traduction)
               if Memo <> ''
               then
                 CBMatiere.Hint := dgettext('InraAfz', Memo)
               else
                 CBMatiere.Hint := '';
           with PMatiere.CC do
             if ConfRap = 0
             then // sur frais
               RapMS := MS / 1000
             else // sur mati?re s?che
               RapMS := 1 ;
           AjustEnabled ;
           Update := TRUE ;
           // Certaines donn?es calcul?es sont stock?es...
           // On les recalcule tout de m?me avant de les afficher !
           CalculTMO ;
           CalculResidu ;
           CalculEnergie ;
           // Composition ?l?mentaire
           AffichTFecale ;
           AffichdFecale ;
           AffichResidu ;
           AffichEnergie ;
           // Acides amin?s
           AffichTAA ;
           AffichdAA ;
           CalculAA ;
           // Acides gras
           with PMatiere.CC do
             PBLip2.AsFloat := Lip * RapMS ;
           with PMatiere.CC do
             PBAG.AsFloat := AGsLip ;
           AffichTAG ;
           CalculAG ;
           // Min?raux
           AffichTMineraux ;
           CalculMineraux ;
           // Fibres
           AffichTFibres ;
           // Champs calcul?s
           Update := FALSE ;
           CBAAsMAT.Checked := TRUE ;
           CBCorrCUD.Checked := FALSE ;
         end ;
       end ;
       procedure TFMatiere.SBAddClick (Sender : TObject) ;
       var
         i, n, q : integer ;
         s : string ;
         ok : boolean ;
         PBackup : PRecMatiere ;
       begin
         if Modified then Save ;
         if IdxMatiere = -1
         then
           q := mrNo
         else
           q := MessageDlg (MsgCopy, mtConfirmation, [mbYes, mbNo], 0) ;
         // saisie du nouveau nom
         s := '' ;
         repeat
           if InputQuery (FMatiere.Caption, MsgName, s)
           then // V?rification du nom
           begin
             s := Trim (s) ; // Suppression des espaces au d?but et ? la fin
             if s = ''
             then // Pas de nom
             begin
               ok := FALSE ;
               MessageDlg (MsgNameEmpty, mtWarning, [mbOk], 0) ;
             end
             else
               if Length (s) > 35
               then // Nom trop long
               begin
                 ok := FALSE ;
                 MessageDlg (Format (MsgNameTooLarge, [35]), mtWarning, [mbOk], 0) ;
                 s := Copy (s, 1, 35) ;
               end
               else
               begin
                 ok := TRUE ;
                 i := 0 ;
                 while ok and (i < ListMatiere.Count) do
                 begin
                   PMatiere := ListMatiere[i] ;
                   if PMatiere.Nom = s
                   then // Nom d?j? utilis?
                   begin
                     ok := FALSE ;
                     MessageDlg (MsgNameExists, mtWarning, [mbOk], 0) ;
                   end
                   else
                     Inc (i) ;
                 end ;
               end ;
           end
           else // Annulation
           begin
             s := '' ;
             if (IdxMatiere <> -1)
             then
               PMatiere := ListMatiere[IdxMatiere] ;
             ok := TRUE ;
           end ;
         until ok ;
         if s <> ''
         then // Cr?ation du nouvel enregistrement
         begin
           // recherche du premier num?ro libre
           n := 0 ;
           repeat
             Inc (n) ;
             ok := TRUE ;
             i := NumMatInraAfz ;
             while ok and (i < ListMatiere.Count) do
             begin
               PMatiere := ListMatiere[i] ;
               if PMatiere.Num = n
               then
                 ok := FALSE
               else
                 Inc (i) ;
             end ;
           until ok ;
           New (PMatiere) ;
           with PMatiere^ do
           begin
             Nom := s ;
             Num := n ;
             if q = mrYes
             then
             begin
               PBackup := ListMatiere[IdxMatiere] ;
               Memo := PBackup.Memo ;
               Typ := PBackup.Typ ;
               CC := PBackup.CC ;
               for i := 0 to 12 do
                 AAtotal[i] := PBackup.AATotal[i] ;
               for i := 0 to 12 do
                 CUDAA[i] := PBackup.CUDAA[i] ;
             end
             else
             begin
               Memo := '' ;
               Typ := 0 ;
               CC := CCVide ;
               for i := 0 to 12 do
                 AAtotal[i] := 0 ;
               for i := 0 to 12 do
                 CUDAA[i] := 0 ;
             end ;
           end ;
           ListMatiere.Add (PMatiere) ;
           CBMatiere.Items.Add (PMatiere.Nom) ;
           CBMatiere.ItemIndex := CBMatiere.Items.IndexOf (PMatiere.Nom) ;
           CBMatiereChange (nil) ;
           Modified := TRUE ;
           SBAdd.Enabled := IsComplete or (ListMatiere.Count < NumMatInraAfz + 10) ;
           SBCommentClick (nil) ;
         end ;
       end ;
       procedure TFMatiere.SBDelClick (Sender : TObject) ;
       begin
         if MatiereUsed (PMatiere.Num)
         then // Enregistrement utilis?
           MessageDlg (MsgDelErr, mtWarning, [mbOk], 0)
         else // Suppression de l'enregistrement
           if MessageDlg (MsgDel, mtConfirmation, [mbYes, mbNo], 0) = mrYes
           then
           begin
             Dispose (PMatiere) ;
             ListMatiere.Delete (IdxMatiere) ;
             SaveMatiere ; // Sauvegarde !
             Modified := FALSE ;
             CBMatiere.DeleteSelected ;
             IdxMatiere := -1 ;
             CBMatiere.ItemIndex := -1 ;
             CBMatiereChange (nil) ;
             SBAdd.Enabled := IsComplete or (ListMatiere.Count < NumMatInraAfz + 10) ;
           end ;
       end ;
       procedure TFMatiere.SBRenameClick (Sender : TObject) ;
       var
         i : integer ;
         s : string ;
         ok : boolean ;
       begin
         // Saisie du nouveau nom
         s := CBMatiere.Text ;
         repeat
           if InputQuery (FMatiere.Caption, MsgRename, s) and (s <> CBMatiere.Text)
           then // V?rification du nom
           begin
             s := Trim (s) ; // Suppression des espaces au d?but et ? la fin
             if s = ''
             then // Pas de nom
             begin
               ok := FALSE ;
               MessageDlg (MsgNameEmpty, mtWarning, [mbOk], 0) ;
             end
             else
               if Length (s) > 35
               then // Nom trop long
               begin
                 ok := FALSE ;
                 MessageDlg (Format (MsgNameTooLarge, [35]), mtWarning, [mbOk], 0) ;
                 s := Copy (s, 1, 35) ;
               end
               else
               begin
                 ok := TRUE ;
                 i := 0 ;
                 while ok and (i < ListMatiere.Count) do
                 begin
                   PMatiere := ListMatiere[i] ;
                   if PMatiere.Nom = s
                   then // Nom d?j? utilis?
                   begin
                     ok := FALSE ;
                     MessageDlg (MsgNameExists, mtWarning, [mbOk], 0) ;
                   end
                   else
                     Inc (i) ;
                 end ;
               end ;
           end
           else // Annulation
           begin
             s := '' ;
             ok := TRUE ;
           end ;
         until ok ;
         PMatiere := ListMatiere[IdxMatiere] ;
         if s <> ''
         then // Renommer l'enregistrement
         begin
           PMatiere.Nom := s ;
           Modified := TRUE ;
           StringsMatiere (CBMatiere.Items, 0, TRUE, TRUE) ;
           CBMatiere.ItemIndex := CBMatiere.Items.IndexOf (s) ;
         end ;
       end ;
       procedure TFMatiere.SBCommentClick (Sender : TObject) ;
       begin
         // Saisie du commentaire
         FCommentMat := TFCommentMat.Create (Self) ;
         with FCommentMat do
         begin
           Memo.Text := PMatiere.Memo ;
           CBType.ItemIndex := PMatiere.Typ ;
           if ShowModal = mrOk
           then // Commenter l'enregistrement
           begin
             PMatiere.Memo := Memo.Text ;
             PMatiere.Typ := CBType.ItemIndex ;
             Modified := TRUE ;
             CBMatiere.Hint := PMatiere.Memo ;
           end ;
           Release ;
         end ;
       end ;
       procedure TFMatiere.SBSaveClick (Sender : TObject) ;
       begin
         SaveMatiere ;
         if not MatiereValid (PMatiere)
         then
           MessageDlg(Format (MsgInvalidData, [Caption, PMatiere.Nom]), mtWarning, [mbOK], 0) ;
         Modified := FALSE ;
       end ;
       procedure TFMatiere.SBPrintClick (Sender : TObject) ;
       begin
         FRapportMat := TFRapportMat.Create (Self) ;
         FRapportMat.ShowModal ;
         FRapportMat.Release ;
       end ;
       ////////////////////////////////////////////////////////////////////////////////
       // Composition ?l?mentaire
       ////////////////////////////////////////////////////////////////////////////////
       // Mati?re organique = Mati?re s?che - Mati?res min?rales
       procedure TFMatiere.CalculTMO ;
       begin
         with PMatiere.CC do
           MO := 1000 - MM ;
         // Affichage de la valeur
         if ConfTCompo = 0
         then // g/kg
           with PMatiere.CC do
             PBTMO.AsFloat := MO * RapMS
         else // %
           with PMatiere.CC do
             PBTMO.AsFloat := MO / 1000 * 100 * RapMS ;
       end ;
       procedure TFMatiere.CalculResidu ;
       begin
         with PMatiere.CC do
         begin
           // R?sidu = Mati?re s?che - (Mati?re min?rale + Mati?res azot?es + Mati?res grasses + Amidon + Sucres + Cellulose brute)
           if MM + MAT + Lip + Amidon + Sucres + CB > 1000
           then
             Residu := 0
           else
             Residu := 1000 - (MM + MAT + Lip + Amidon + Sucres + CB) ;
           // CUD R?sidu
           if CB + Residu > 0
           then
           begin
             dResidu_C := (MO * dMO_C - (MAT * dMAT_C + Lip * dLip_C + Amidon * 100 + Sucres * 100)) / (CB + Residu) ;
             dResidu_T := (MO * dMO_T - (MAT * dMAT_T + Lip * dLip_T + Amidon * 100 + Sucres * 100)) / (CB + Residu) ;
           end
           else
           begin
             dResidu_C := 0 ;
             dResidu_T := 0 ;
           end ;
           // CUD Cellulose brute = CUD R?sidu
           dCB_C := dResidu_C ;
           dCB_T := dResidu_T ;
         end ;
       end ;
       procedure TFMatiere.AffichResidu ;
       begin
         with PMatiere.CC do
         begin
           // Teneur
           if ConfTCompo = 0
           then // g/kg
             PBTResidu.AsFloat := (Residu + CB) * RapMS
           else // %
             PBTResidu.AsFloat := (Residu + CB) / 1000 * 100 * RapMS ;
           // Digestibilit?
           if ConfDig = 0
           then // CUD
           begin
             // Croissance
             PBdResidu_C.AsFloat := dResidu_C ;
             // Truie
             PBdResidu_T.AsFloat := dResidu_T ;
           end
           else // Teneur digestible
             if ConfdCompo = 0
             then // g/kg
             begin
               // Croissance
               PBdResidu_C.AsFloat := (Residu + CB) * dResidu_C / 100 * RapMS ;
               // Truie
               PBdResidu_T.AsFloat := (Residu + CB) * dResidu_T / 100 * RapMS ;
             end
             else // %
             begin
               // Croissance
               PBdResidu_C.AsFloat := (Residu + CB) / 1000 * dResidu_C * RapMS ;
               // Truie
               PBdResidu_T.AsFloat := (Residu + CB) / 1000 * dResidu_T * RapMS ;
             end ;
         end ;
       end ;
       // Affichage de la teneur en fonction de la configuration
       procedure TFMatiere.AffichTFecale ;
       begin
         if ConfTCompo = 0
         then // g/kg
           with PMatiere.CC do
           begin
             if ActiveControl <> PBTMS
             then
               PBTMS.AsFloat := MS ;
             PBTMM.AsFloat := MM * RapMS ;
             PBTMO.AsFloat := MO * RapMS ;
             PBTLip.AsFloat := Lip * RapMS ;
             PBTMAT.AsFloat := MAT * RapMS ;
             PBTAmidon.AsFloat := Amidon * RapMS ;
             PBTSucres.AsFloat := Sucres * RapMS ;
           end
         else // %
           with PMatiere.CC do
           begin
             if ActiveControl <> PBTMS
             then
               PBTMS.AsFloat := MS / 1000 * 100 ;
             PBTMM.AsFloat := MM / 1000 * 100 * RapMS ;
             PBTMO.AsFloat := MO / 1000 * 100 * RapMS ;
             PBTLip.AsFloat := Lip / 1000 * 100 * RapMS ;
             PBTMAT.AsFloat := MAT / 1000 * 100 * RapMS ;
             PBTAmidon.AsFloat := Amidon / 1000 * 100 * RapMS ;
             PBTSucres.AsFloat := Sucres / 1000 * 100 * RapMS ;
           end ;
+      {
         // Hint (temporaire)
         with PMatiere.CC do
         begin
           PBTMS.Hint := FloatToStr(MS);
           PBTMM.Hint := FloatToStr(MM * RapMS);
           PBTLip.Hint := FloatToStr(Lip * RapMS);
           PBTMAT.Hint := FloatToStr(MAT * RapMS);
           PBTAmidon.Hint := FloatToStr(Amidon * RapMS);
           PBTSucres.Hint := FloatToStr(Sucres * RapMS);
         end;
+      }
       end ;
       // Affichage de la digestibilit? f?cale en fonction de la configuration
       procedure TFMatiere.AffichdFecale ;
       begin
         if ConfDig = 0
         then // CUD
           with PMatiere.CC do
           begin
             // Croissance
             PBdMO_C.AsFloat := dMO_C ;
             PBdLip_C.AsFloat := dLip_C ;
             PBdMAT_C.AsFloat := dMAT_C ;
             PBdAmidon_C.AsFloat := 100 ; // CUD Amidon = 100 %
             PBdSucres_C.AsFloat := 100 ; // CUD Sucres = 100 %
             // Truie
             PBdMO_T.AsFloat := dMO_T ;
             PBdLip_T.AsFloat := dLip_T ;
             PBdMAT_T.AsFloat := dMAT_T ;
             PBdAmidon_T.AsFloat := 100 ; // CUD Amidon = 100 %
             PBdSucres_T.AsFloat := 100 ; // CUD Sucres = 100 %
           end
         else // Teneur digestible
           if ConfdCompo = 0
           then // g/kg
             with PMatiere.CC do
             begin
               // Croissance
               PBdMO_C.AsFloat := MO * dMO_C / 100 * RapMS ;
               PBdLip_C.AsFloat := Lip * dLip_C / 100 * RapMS ;
               PBdMAT_C.AsFloat := MAT * dMAT_C / 100 * RapMS ;
               PBdAmidon_C.AsFloat := Amidon * RapMS ;
               PBdSucres_C.AsFloat := Sucres * RapMS ;
               // Truie
               PBdMO_T.AsFloat := MO * dMO_T / 100 * RapMS ;
               PBdLip_T.AsFloat := Lip * dLip_T / 100 * RapMS ;
               PBdMAT_T.AsFloat := MAT * dMAT_T / 100 * RapMS ;
               PBdAmidon_T.AsFloat := Amidon * RapMS ;
               PBdSucres_T.AsFloat := Sucres * RapMS ;
             end
           else // %
             with PMatiere.CC do
             begin
               // Croissance
               PBdMO_C.AsFloat := MO / 1000 * dMO_C * RapMS ;
               PBdLip_C.AsFloat := Lip / 1000 * dLip_C * RapMS ;
               PBdMAT_C.AsFloat := MAT / 1000 * dMAT_C * RapMS ;
               PBdAmidon_C.AsFloat := Amidon / 1000 * 100 * RapMS ;
               PBdSucres_C.AsFloat := Sucres / 1000 * 100 * RapMS ;
               // Truie
               PBdMO_T.AsFloat := MO / 1000 * dMO_T * RapMS ;
               PBdLip_T.AsFloat := Lip / 1000 * dLip_T * RapMS ;
               PBdMAT_T.AsFloat := MAT / 1000 * dMAT_T * RapMS ;
               PBdAmidon_T.AsFloat := Amidon / 1000 * 100 * RapMS ;
               PBdSucres_T.AsFloat := Sucres / 1000 * 100 * RapMS ;
             end ;
+      {
         // Hint (temporaire)
         with PMatiere.CC do
         begin
           PBdMO_C.Hint := FloatToStr(dMO_C);
           PBdLip_C.Hint := FloatToStr(dLip_C);
           PBdMAT_C.Hint := FloatToStr(dMAT_C);
           PBdMO_T.Hint := FloatToStr(dMO_T);
           PBdLip_T.Hint := FloatToStr(dLip_T);
           PBdMAT_T.Hint := FloatToStr(dMAT_T);
         end;
+      }
       end ;
       procedure TFMatiere.CalculEnergie ;
       begin
         with PMatiere.CC do
         begin
+      {
           EB := (22.64 * MAT + 38.76 * Lip + 17.54 * Amidon + 16.71 * Sucres + 18.58 * (Residu + CB)) / 1000 ;
           ED_C := (23.25 * MAT * dMAT_C / 100 + 38.73 * Lip * dLip_C / 100 + 17.45 * Amidon + 16.77 * Sucres + 16.68 * (Residu + CB) * dResidu_C / 100) / 1000 ;
           ED_T := (23.25 * MAT * dMAT_T / 100 + 38.73 * Lip * dLip_T / 100 + 17.45 * Amidon + 16.77 * Sucres + 16.68 * (Residu + CB) * dResidu_T / 100) / 1000 ;
           EM_C := (20.40 * MAT * dMAT_C / 100 + 39.28 * Lip * dLip_C / 100 + 17.45 * Amidon + 16.47 * Sucres + 15.45 * (Residu + CB) * dResidu_C / 100) / 1000 ;
           EM_T := (20.40 * MAT * dMAT_T / 100 + 39.28 * Lip * dLip_T / 100 + 17.45 * Amidon + 16.47 * Sucres + 15.45 * (Residu + CB) * dResidu_T / 100) / 1000 ;
           EN_C := (12.08 * MAT * dMAT_C / 100 + 35.01 * Lip * dLip_C / 100 + 14.32 * Amidon + 11.94 * Sucres + 8.64 * (Residu + CB) * dResidu_C / 100) / 1000 ;
           EN_T := (12.08 * MAT * dMAT_T / 100 + 35.01 * Lip * dLip_T / 100 + 14.32 * Amidon + 11.94 * Sucres + 8.64 * (Residu + CB) * dResidu_T / 100) / 1000 ;
+      }
           EB := (ValEnergie[1, 1] * MAT + ValEnergie[2, 1] * Lip
             + ValEnergie[3, 1] * Amidon + ValEnergie[4, 1] * Sucres
             + ValEnergie[6, 1] * (Residu + CB)) / 1000 ;
           ED_C := (ValEnergie[1, 2] * MAT * dMAT_C / 100
             + ValEnergie[2, 2] * Lip * dLip_C / 100
             + ValEnergie[3, 2] * Amidon + ValEnergie[4, 2] * Sucres
             + ValEnergie[6, 2] * (Residu + CB) * dResidu_C / 100) / 1000 ;
           ED_T := (ValEnergie[1, 2] * MAT * dMAT_T / 100
             + ValEnergie[2, 2] * Lip * dLip_T / 100
             + ValEnergie[3, 2] * Amidon + ValEnergie[4, 2] * Sucres
             + ValEnergie[6, 2] * (Residu + CB) * dResidu_T / 100) / 1000 ;
           EM_C := (ValEnergie[1, 3] * MAT * dMAT_C / 100
             + ValEnergie[2, 3] * Lip * dLip_C / 100
             + ValEnergie[3, 3] * Amidon + ValEnergie[4, 3] * Sucres
             + ValEnergie[6, 3] * (Residu + CB) * dResidu_C / 100) / 1000 ;
           EM_T := (ValEnergie[1, 3] * MAT * dMAT_T / 100
             + ValEnergie[2, 3] * Lip * dLip_T / 100
             + ValEnergie[3, 3] * Amidon + ValEnergie[4, 3] * Sucres
             + ValEnergie[6, 3] * (Residu + CB) * dResidu_T / 100) / 1000 ;
           EN_C := (ValEnergie[1, 6] * MAT * dMAT_C / 100
             + ValEnergie[2, 6] * Lip * dLip_C / 100
             + ValEnergie[3, 6] * Amidon + ValEnergie[4, 6] * Sucres
             + ValEnergie[6, 6] * (Residu + CB) * dResidu_C / 100) / 1000 ;
           EN_T := (ValEnergie[1, 6] * MAT * dMAT_T / 100
             + ValEnergie[2, 6] * Lip * dLip_T / 100
             + ValEnergie[3, 6] * Amidon + ValEnergie[4, 6] * Sucres
             + ValEnergie[6, 6] * (Residu + CB) * dResidu_T / 100) / 1000 ;
         end ;
       end ;
       procedure TFMatiere.AffichEnergie ;
       begin
         with PMatiere.CC do
         begin
           // Croissance
           PBEB_C.AsFloat := EB * RapMS ;
           if ActiveControl <> PBED_C
           then
             PBED_C.AsFloat := ED_C * RapMS ;
           if ActiveControl <> PBEM_C
           then
             PBEM_C.AsFloat := EM_C * RapMS ;
           if ActiveControl <> PBEN_C
           then
             PBEN_C.AsFloat := EN_C * RapMS ;
           // Truie
           PBEB_T.AsFloat := EB * RapMS ;
           if ActiveControl <> PBED_T
           then
             PBED_T.AsFloat := ED_T * RapMS ;
           if ActiveControl <> PBEM_T
           then
             PBEM_T.AsFloat := EM_T * RapMS ;
           if ActiveControl <> PBEN_T
           then
             PBEN_T.AsFloat := EN_T * RapMS ;
           // ED / EB
           if EB = 0
           then
           begin
             PBEDsEB_C.Text := '' ;
             PBEDsEB_T.Text := '' ;
           end
           else
           begin
             PBEDsEB_C.AsFloat := ED_C / EB * 100 ;
             PBEDsEB_T.AsFloat := ED_T / EB * 100 ;
           end ;
           // EN / EM
           if EM_C = 0
           then
             PBENsEM_C.Text := ''
           else
             PBENsEM_C.AsFloat := EN_C / EM_C * 100 ;
           if EM_T = 0
           then
             PBENsEM_T.Text := ''
           else
             PBENsEM_T.AsFloat := EN_T / EM_T * 100 ;
         end ;
       end ;
       procedure TFMatiere.PBTMSChange (Sender : TObject) ;
       begin
         if (PBTMS.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               MS := PBTMS.AsFloat
             else // %
               MS := PBTMS.AsFloat / 100 * 1000 ;
           // En cas d'affichage sur frais, la valeur de RapMS change...
           // L'ensemble de l'enregistrement est r?affich? !
           if ConfRap = 0
           then // sur frais
           begin
             IdxMatiere := -1 ;
             CBMatiereChange (nil) ;
           end
           else
             AjustEnabled ;
         end ;
       end ;
       procedure TFMatiere.PBTMSExit (Sender : TObject) ;
       begin
         if (PBTMS.AsFloat = 0) and (PMatiere.CC.MS <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             MS := 0 ;
           // En cas d'affichage sur frais, la valeur de RapMS change...
           // L'ensemble de l'enregistrement est r?affich? !
           if ConfRap = 0
           then // sur frais
           begin
             IdxMatiere := -1 ;
             CBMatiereChange (nil) ;
           end
           else
             AjustEnabled ;
         end ;
       end ;
       procedure TFMatiere.PBTMMChange (Sender : TObject) ;
       begin
         if (PBTMM.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               MM := PBTMM.AsFloat / RapMS
             else // %
               MM := PBTMM.AsFloat / 100 * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculTMO ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTMMExit (Sender : TObject) ;
       begin
         if (PBTMM.AsFloat = 0) and (PMatiere.CC.MM <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             MM := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculTMO ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTLipChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               Lip := PBTLip.AsFloat / RapMS
             else // %
               Lip := PBTLip.AsFloat / 100 * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           with PMatiere.CC do
             PBLip2.AsFloat := Lip * RapMS ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           if ConfTAG <> 2
           then // non % AG
             AffichTAG ;
           CalculAG ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTMATChange (Sender : TObject) ;
       var
         i : integer ;
         variation : double ;
       begin
         if (PBTMAT.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Variation de la teneur en mati?res azot?s
           with PMatiere.CC do
             if MAT = 0
             then
               variation := 1
             else
               if ConfTCompo = 0
               then // g/kg
                 variation := PBTMAT.AsFloat / RapMS / MAT
               else // %
                 variation := PBTMAT.AsFloat / 100 * 1000 / RapMS / MAT ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               MAT := PBTMAT.AsFloat / RapMS
             else // %
               MAT := PBTMAT.AsFloat / 100 * 1000 / RapMS ;
           with PMatiere^ do
             AAtotal[0] := CC.MAT ;
           // Mise ? jour des champs li?s ? cette valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 PBTMAT2.AsFloat := AAtotal[0] / 1000 * 100 * RapMS ;
 : // % MAT
                 PBTMAT2.AsFloat := AAtotal[0] / CC.MAT * 100 ;
               else // g/kg
                 PBTMAT2.AsFloat := AAtotal[0] * RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           if CBAAsMAT.Checked
           then // Variation des teneur en acides amin?s (r?gle de trois)
             with PMatiere^ do
               for i := 1 to 12 do
                 AAtotal[i] := AAtotal[i] * variation ;
           AffichTAA ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           CalculAA ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTMATExit (Sender : TObject) ;
       var
         i : integer ;
       begin
         if PBTMAT.AsFloat = 0
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             MAT := 0 ;
           with PMatiere^ do
             AAtotal[0] := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           PBTMAT2.AsFloat := 0 ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           if CBAAsMAT.Checked
           then
           begin
             // Variation des teneur en acides amin?s (r?gle de trois)
             with PMatiere^ do
               for i := 1 to 12 do
                 AAtotal[i] := 0 ;
             AffichTAA ;
             if ConfDig = 0
             then // Teneur digestible
               AffichdAA ;
           end ;
           CalculAA ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTAmidonChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               Amidon := PBTAmidon.AsFloat / RapMS
             else // %
               Amidon := PBTAmidon.AsFloat / 100 * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBTSucresChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTCompo = 0
             then // g/kg
               Sucres := PBTSucres.AsFloat / RapMS
             else // %
               Sucres := PBTSucres.AsFloat / 100 * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdFecale ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdMO_CChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dMO_C := PBdMO_C.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dMO_C := PBdMO_C.AsFloat / MO * 100 / RapMS
               else // %
                 dMO_C := PBdMO_C.AsFloat / MO * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdLip_CChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dLip_C := PBdLip_C.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dLip_C := PBdLip_C.AsFloat / Lip * 100 / RapMS
               else // %
                 dLip_C := PBdLip_C.AsFloat / Lip * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdMAT_CChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dMAT_C := PBdMAT_C.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dMAT_C := PBdMAT_C.AsFloat / MAT * 100 / RapMS
               else // %
                 dMAT_C := PBdMAT_C.AsFloat / MAT * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdMO_TChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dMO_T := PBdMO_T.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dMO_T := PBdMO_T.AsFloat / MO * 100 / RapMS
               else // %
                 dMO_T := PBdMO_T.AsFloat / MO * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdLip_TChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dLip_T := PBdLip_T.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dLip_T := PBdLip_T.AsFloat / Lip * 100 / RapMS
               else // %
                 dLip_T := PBdLip_T.AsFloat / Lip * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBdMAT_TChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfDig = 0
             then // CUD
               dMAT_T := PBdMAT_T.AsFloat
             else // Teneur digestible
               if ConfdCompo = 0
               then // g/kg
                 dMAT_T := PBdMAT_T.AsFloat / MAT * 100 / RapMS
               else // %
                 dMAT_T := PBdMAT_T.AsFloat / MAT * 1000 / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculResidu ;
           AffichResidu ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CBCorrCUDClick (Sender : TObject) ;
       begin
         if AffCorrCUD
         then
         begin
           FWarning := TFWarning.Create (Self) ;
           with FWarning do
           begin
             Msg := 'CorrCUD';
             ShowModal ;
             Release ;
             AffCorrCUD := FALSE ;
           end ;
         end ;
         if not CBCorrCUD.Checked
         then
         begin
           RBED.Checked := FALSE ;
           RBEM.Checked := FALSE ;
           RBEN.Checked := FALSE ;
         end ;
         RBED.Enabled := CBCorrCUD.Checked ;
         RBEM.Enabled := CBCorrCUD.Checked ;
         RBEN.Enabled := CBCorrCUD.Checked ;
         Update := TRUE ;
         RBEDClick (nil) ;
         RBEMClick (nil) ;
         RBENClick (nil) ;
         Update := FALSE ;
         PBdMO_C.Enabled := not CBCorrCUD.Checked ;
         PBdLip_C.Enabled := not CBCorrCUD.Checked ;
         PBdMAT_C.Enabled := not CBCorrCUD.Checked ;
         PBdMO_T.Enabled := not CBCorrCUD.Checked ;
         PBdLip_T.Enabled := not CBCorrCUD.Checked ;
         PBdMAT_T.Enabled := not CBCorrCUD.Checked ;
       end ;
       procedure TFMatiere.LCorrCUDClick (Sender : TObject) ;
       begin
         if CBCorrCUD.Enabled
         then
           CBCorrCUD.Checked := not CBCorrCUD.Checked ;
       end ;
       procedure TFMatiere.RBEDClick (Sender : TObject) ;
       begin
         PBED_C.Enabled := RBED.Checked ;
         PBED_T.Enabled := RBED.Checked ;
         if not Update
         then
         begin
           Update := TRUE ;
           RBEMClick (nil) ;
           RBENClick (nil) ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.LEDClick (Sender : TObject) ;
       begin
         if RBED.Enabled
         then
           RBED.Checked := TRUE ;
       end ;
       procedure TFMatiere.PBED_CChange (Sender : TObject) ;
       begin
         if (PBED_C.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             ED_C := PBED_C.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEDCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBED_CExit (Sender : TObject) ;
       begin
         if (PBED_C.AsFloat = 0) and (PMatiere.CC.ED_C <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             ED_C := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEDCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigEDCrois ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (ED_C * 1000 - 17.45 * Amidon - 16.77 * Sucres) / (23.25 * MAT * dMAT_C / 100 + 38.73 * Lip * dLip_C / 100 + 16.68 * (Residu + CB) * dResidu_C / 100) ;
           dLip_C := dLip_C * x ;
           dMAT_C := dMAT_C * x ;
           dResidu_C := dResidu_C * x ;
           dCB_C := dCB_C * x ;
           dMO_C := ((dMO_C * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       procedure TFMatiere.PBED_TChange (Sender : TObject) ;
       begin
         if (PBED_T.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             ED_T := PBED_T.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEDTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBED_TExit (Sender : TObject) ;
       begin
         if (PBED_T.AsFloat = 0) and (PMatiere.CC.ED_T <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             ED_T := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEDTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigEDTruie ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (ED_T * 1000 - 17.45 * Amidon - 16.77 * Sucres) / (23.25 * MAT * dMAT_T / 100 + 38.73 * Lip * dLip_T / 100 + 16.68 * (Residu + CB) * dResidu_T / 100) ;
           dLip_T := dLip_T * x ;
           dMAT_T := dMAT_T * x ;
           dResidu_T := dResidu_T * x ;
           dCB_T := dCB_T * x ;
           dMO_T := ((dMO_T * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       procedure TFMatiere.RBEMClick (Sender : TObject) ;
       begin
         PBEM_C.Enabled := RBEM.Checked ;
         PBEM_T.Enabled := RBEM.Checked ;
         if not Update
         then
         begin
           Update := TRUE ;
           RBEDClick (nil) ;
           RBENClick (nil) ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.LEMClick (Sender : TObject) ;
       begin
         if RBEM.Enabled
         then
           RBEM.Checked := TRUE ;
       end ;
       procedure TFMatiere.PBEM_CChange (Sender : TObject) ;
       begin
         if (PBEM_C.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             EM_C := PBEM_C.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEMCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBEM_CExit (Sender : TObject) ;
       begin
         if (PBEM_C.AsFloat = 0) and (PMatiere.CC.EM_C <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             EM_C := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEMCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigEMCrois ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (EM_C * 1000 - 17.45 * Amidon - 16.47 * Sucres) / (20.40 * MAT * dMAT_C / 100 + 39.28 * Lip * dLip_C / 100 + 15.45 * (Residu + CB) * dResidu_C / 100) ;
           dLip_C := dLip_C * x ;
           dMAT_C := dMAT_C * x ;
           dResidu_C := dResidu_C * x ;
           dCB_C := dCB_C * x ;
           dMO_C := ((dMO_C * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       procedure TFMatiere.PBEM_TChange (Sender : TObject) ;
       begin
         if (PBEM_T.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             EM_T := PBEM_T.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEMTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBEM_TExit (Sender : TObject) ;
       begin
         if (PBEM_T.AsFloat = 0) and (PMatiere.CC.EM_T <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             EM_T := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigEMTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigEMTruie ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (EM_T * 1000 - 17.45 * Amidon - 16.47 * Sucres) / (20.40 * MAT * dMAT_T / 100 + 39.28 * Lip * dLip_T / 100 + 15.45 * (Residu + CB) * dResidu_T / 100) ;
           dLip_T := dLip_T * x ;
           dMAT_T := dMAT_T * x ;
           dResidu_T := dResidu_T * x ;
           dCB_T := dCB_T * x ;
           dMO_T := ((dMO_T * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       procedure TFMatiere.RBENClick (Sender : TObject) ;
       begin
         PBEN_C.Enabled := RBEN.Checked ;
         PBEN_T.Enabled := RBEN.Checked ;
         if not Update
         then
         begin
           Update := TRUE ;
           RBEDClick (nil) ;
           RBEMClick (nil) ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.LENClick (Sender : TObject) ;
       begin
         if RBEN.Enabled
         then
           RBEN.Checked := TRUE ;
       end ;
       procedure TFMatiere.PBEN_CChange (Sender : TObject) ;
       begin
         if (PBEN_C.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             EN_C := PBEN_C.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigENCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBEN_CExit (Sender : TObject) ;
       begin
         if (PBEN_C.AsFloat = 0) and (PMatiere.CC.EN_C <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             EN_C := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigENCrois ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigENCrois ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (EN_C * 1000 - 14.32 * Amidon - 11.94 * Sucres) / (12.08 * MAT * dMAT_C / 100 + 35.01 * Lip * dLip_C / 100 + 8.64 * (Residu + CB) * dResidu_C / 100) ;
           dLip_C := dLip_C * x ;
           dMAT_C := dMAT_C * x ;
           dResidu_C := dResidu_C * x ;
           dCB_C := dCB_C * x ;
           dMO_C := ((dMO_C * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       procedure TFMatiere.PBEN_TChange (Sender : TObject) ;
       begin
         if (PBEN_T.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             EN_T := PBEN_T.AsFloat / RapMS ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigENTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.PBEN_TExit (Sender : TObject) ;
       begin
         if (PBEN_T.AsFloat = 0) and (PMatiere.CC.EN_T <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere.CC do
             EN_T := 0 ;
           // Mise ? jour des champs li?s ? cette valeur
           Update := TRUE ;
           CalculDigENTruie ;
           AffichdFecale ;
           CalculEnergie ;
           AffichEnergie ;
           Update := FALSE ;
         end ;
       end ;
       procedure TFMatiere.CalculDigENTruie ;
       var
         x : double ;
       begin
         with PMatiere.CC do
         begin
           x := (EN_T * 1000 - 14.32 * Amidon - 11.94 * Sucres) / (12.08 * MAT * dMAT_T / 100 + 35.01 * Lip * dLip_T / 100 + 8.64 * (Residu + CB) * dResidu_T / 100) ;
           dLip_T := dLip_T * x ;
           dMAT_T := dMAT_T * x ;
           dResidu_T := dResidu_T * x ;
           dCB_T := dCB_T * x ;
           dMO_T := ((dMO_T * MO - Amidon * 100 - Sucres * 100) * x + Amidon * 100 + Sucres * 100) / MO ;
         end ;
       end ;
       ////////////////////////////////////////////////////////////////////////////////
       // Acides amin?s
       ////////////////////////////////////////////////////////////////////////////////
       // Affichage de la teneur en fonction de la configuration
       procedure TFMatiere.AffichTAA ;
       begin
       //  with PMatiere^ do
       //    AAtotal[0] := CC.MAT ;
         case ConfTAA of
 : // %
             with PMatiere^ do
             begin
               PBTMAT2.AsFloat := AAtotal[0] / 1000 * 100 * RapMS ;
               if ActiveControl <> PBTLys
               then
                 PBTLys.AsFloat := AAtotal[1] / 1000 * 100 * RapMS ;
               PBTMet.AsFloat := AAtotal[2] / 1000 * 100 * RapMS ;
               PBTCys.AsFloat := AAtotal[3] / 1000 * 100 * RapMS ;
               PBTTrp.AsFloat := AAtotal[4] / 1000 * 100 * RapMS ;
               PBTThr.AsFloat := AAtotal[5] / 1000 * 100 * RapMS ;
               PBTPhe.AsFloat := AAtotal[6] / 1000 * 100 * RapMS ;
               PBTTyr.AsFloat := AAtotal[7] / 1000 * 100 * RapMS ;
               PBTLeu.AsFloat := AAtotal[8] / 1000 * 100 * RapMS ;
               PBTIle.AsFloat := AAtotal[9] / 1000 * 100 * RapMS ;
               PBTVal.AsFloat := AAtotal[10] / 1000 * 100 * RapMS ;
               PBTHis.AsFloat := AAtotal[11] / 1000 * 100 * RapMS ;
               PBTArg.AsFloat := AAtotal[12] / 1000 * 100 * RapMS ;
             end ;
 : // % MAT
             if PMatiere.CC.MAT = 0
             then
             begin
               PBTMAT2.AsFloat := 0 ;
               PBTLys.AsFloat := 0 ;
               PBTMet.AsFloat := 0 ;
               PBTCys.AsFloat := 0 ;
               PBTTrp.AsFloat := 0 ;
               PBTThr.AsFloat := 0 ;
               PBTPhe.AsFloat := 0 ;
               PBTTyr.AsFloat := 0 ;
               PBTLeu.AsFloat := 0 ;
               PBTIle.AsFloat := 0 ;
               PBTVal.AsFloat := 0 ;
               PBTHis.AsFloat := 0 ;
               PBTArg.AsFloat := 0 ;
             end
             else
               with PMatiere^ do
               begin
                 PBTMAT2.AsFloat := AAtotal[0] / CC.MAT * 100 ;
                 if ActiveControl <> PBTLys
                 then
                   PBTLys.AsFloat := AAtotal[1] / CC.MAT * 100 ;
                 PBTMet.AsFloat := AAtotal[2] / CC.MAT * 100 ;
                 PBTCys.AsFloat := AAtotal[3] / CC.MAT * 100 ;
                 PBTTrp.AsFloat := AAtotal[4] / CC.MAT * 100 ;
                 PBTThr.AsFloat := AAtotal[5] / CC.MAT * 100 ;
                 PBTPhe.AsFloat := AAtotal[6] / CC.MAT * 100 ;
                 PBTTyr.AsFloat := AAtotal[7] / CC.MAT * 100 ;
                 PBTLeu.AsFloat := AAtotal[8] / CC.MAT * 100 ;
                 PBTIle.AsFloat := AAtotal[9] / CC.MAT * 100 ;
                 PBTVal.AsFloat := AAtotal[10] / CC.MAT * 100 ;
                 PBTHis.AsFloat := AAtotal[11] / CC.MAT * 100 ;
                 PBTArg.AsFloat := AAtotal[12] / CC.MAT * 100 ;
               end ;
           else // g/kg
             with PMatiere^ do
             begin
               PBTMAT2.AsFloat := AAtotal[0] * RapMS ;
               if ActiveControl <> PBTLys
               then
                 PBTLys.AsFloat := AAtotal[1] * RapMS ;
               PBTMet.AsFloat := AAtotal[2] * RapMS ;
               PBTCys.AsFloat := AAtotal[3] * RapMS ;
               PBTTrp.AsFloat := AAtotal[4] * RapMS ;
               PBTThr.AsFloat := AAtotal[5] * RapMS ;
               PBTPhe.AsFloat := AAtotal[6] * RapMS ;
               PBTTyr.AsFloat := AAtotal[7] * RapMS ;
               PBTLeu.AsFloat := AAtotal[8] * RapMS ;
               PBTIle.AsFloat := AAtotal[9] * RapMS ;
               PBTVal.AsFloat := AAtotal[10] * RapMS ;
               PBTHis.AsFloat := AAtotal[11] * RapMS ;
               PBTArg.AsFloat := AAtotal[12] * RapMS ;
             end ;
         end ;
       end ;
       // Affichage de la digestibilit? il?ale en fonction de la configuration
       procedure TFMatiere.AffichdAA ;
       begin
         if ConfDig = 0
         then // CUD
           with PMatiere^ do
           begin
             PBdMATStd.AsFloat := CUDAA[0] ;
             PBdLysStd.AsFloat := CUDAA[1] ;
             PBdMetStd.AsFloat := CUDAA[2] ;
             PBdCysStd.AsFloat := CUDAA[3] ;
             PBdTrpStd.AsFloat := CUDAA[4] ;
             PBdThrStd.AsFloat := CUDAA[5] ;
             PBdPheStd.AsFloat := CUDAA[6] ;
             PBdTyrStd.AsFloat := CUDAA[7] ;
             PBdLeuStd.AsFloat := CUDAA[8] ;
             PBdIleStd.AsFloat := CUDAA[9] ;
             PBdValStd.AsFloat := CUDAA[10] ;
             PBdHisStd.AsFloat := CUDAA[11] ;
             PBdArgStd.AsFloat := CUDAA[12] ;
           end
         else // Teneur digestible
           if ConfdAA = 0
           then // g/kg
             with PMatiere^ do
             begin
               PBdMATStd.AsFloat := AAtotal[0] * CUDAA[0] / 100 * RapMS ;
               PBdLysStd.AsFloat := AAtotal[1] * CUDAA[1] / 100 * RapMS ;
               PBdMetStd.AsFloat := AAtotal[2] * CUDAA[2] / 100 * RapMS ;
               PBdCysStd.AsFloat := AAtotal[3] * CUDAA[3] / 100 * RapMS ;
               PBdTrpStd.AsFloat := AAtotal[4] * CUDAA[4] / 100 * RapMS ;
               PBdThrStd.AsFloat := AAtotal[5] * CUDAA[5] / 100 * RapMS ;
               PBdPheStd.AsFloat := AAtotal[6] * CUDAA[6] / 100 * RapMS ;
               PBdTyrStd.AsFloat := AAtotal[7] * CUDAA[7] / 100 * RapMS ;
               PBdLeuStd.AsFloat := AAtotal[8] * CUDAA[8] / 100 * RapMS ;
               PBdIleStd.AsFloat := AAtotal[9] * CUDAA[9] / 100 * RapMS ;
               PBdValStd.AsFloat := AAtotal[10] * CUDAA[10] / 100 * RapMS ;
               PBdHisStd.AsFloat := AAtotal[11] * CUDAA[11] / 100 * RapMS ;
               PBdArgStd.AsFloat := AAtotal[12] * CUDAA[12] / 100 * RapMS ;
             end
           else // %
             with PMatiere^ do
             begin
               PBdMATStd.AsFloat := AAtotal[0] / 1000 * CUDAA[0] * RapMS ;
               PBdLysStd.AsFloat := AAtotal[1] / 1000 * CUDAA[1] * RapMS ;
               PBdMetStd.AsFloat := AAtotal[2] / 1000 * CUDAA[2] * RapMS ;
               PBdCysStd.AsFloat := AAtotal[3] / 1000 * CUDAA[3] * RapMS ;
               PBdTrpStd.AsFloat := AAtotal[4] / 1000 * CUDAA[4] * RapMS ;
               PBdThrStd.AsFloat := AAtotal[5] / 1000 * CUDAA[5] * RapMS ;
               PBdPheStd.AsFloat := AAtotal[6] / 1000 * CUDAA[6] * RapMS ;
               PBdTyrStd.AsFloat := AAtotal[7] / 1000 * CUDAA[7] * RapMS ;
               PBdLeuStd.AsFloat := AAtotal[8] / 1000 * CUDAA[8] * RapMS ;
               PBdIleStd.AsFloat := AAtotal[9] / 1000 * CUDAA[9] * RapMS ;
               PBdValStd.AsFloat := AAtotal[10] / 1000 * CUDAA[10] * RapMS ;
               PBdHisStd.AsFloat := AAtotal[11] / 1000 * CUDAA[11] * RapMS ;
               PBdArgStd.AsFloat := AAtotal[12] / 1000 * CUDAA[12] * RapMS ;
             end ;
       end ;
       procedure TFMatiere.CalculAA ;
       begin
         // Digestibilit? apparente
         if ConfDig = 0
         then // CUD
           with PMatiere^ do
           begin
             if AAtotal[0] = 0
             then
               PBdMATApp.Text := ''
             else
               PBdMATApp.AsFloat := CUDAA[0] - AAendogene[0] * 100 / AAtotal[0] ;
             if AAtotal[1] = 0
             then
               PBdLysApp.Text := ''
             else
               PBdLysApp.AsFloat := CUDAA[1] - AAendogene[1] * 100 / AAtotal[1] ;
             if AAtotal[2] = 0
             then
               PBdMetApp.Text := ''
             else
               PBdMetApp.AsFloat := CUDAA[2] - AAendogene[2] * 100 / AAtotal[2] ;
             if AAtotal[3] = 0
             then
               PBdCysApp.Text := ''
             else
               PBdCysApp.AsFloat := CUDAA[3] - AAendogene[3] * 100 / AAtotal[3] ;
             if AAtotal[4] = 0
             then
               PBdTrpApp.Text := ''
             else
               PBdTrpApp.AsFloat := CUDAA[4] - AAendogene[4] * 100 / AAtotal[4] ;
             if AAtotal[5] = 0
             then
               PBdThrApp.Text := ''
             else
               PBdThrApp.AsFloat := CUDAA[5] - AAendogene[5] * 100 / AAtotal[5] ;
             if AAtotal[6] = 0
             then
               PBdPheApp.Text := ''
             else
               PBdPheApp.AsFloat := CUDAA[6] - AAendogene[6] * 100 / AAtotal[6] ;
             if AAtotal[7] = 0
             then
               PBdTyrApp.Text := ''
             else
               PBdTyrApp.AsFloat := CUDAA[7] - AAendogene[7] * 100 / AAtotal[7] ;
             if AAtotal[8] = 0
             then
               PBdLeuApp.Text := ''
             else
               PBdLeuApp.AsFloat := CUDAA[8] - AAendogene[8] * 100 / AAtotal[8] ;
             if AAtotal[9] = 0
             then
               PBdIleApp.Text := ''
             else
               PBdIleApp.AsFloat := CUDAA[9] - AAendogene[9] * 100 / AAtotal[9] ;
             if AAtotal[10] = 0
             then
               PBdValApp.Text := ''
             else
               PBdValApp.AsFloat := CUDAA[10] - AAendogene[10] * 100 / AAtotal[10] ;
             if AAtotal[11] = 0
             then
               PBdHisApp.Text := ''
             else
               PBdHisApp.AsFloat := CUDAA[11] - AAendogene[11] * 100 / AAtotal[11] ;
             if AAtotal[12] = 0
             then
               PBdArgApp.Text := ''
             else
               PBdArgApp.AsFloat := CUDAA[12] - AAendogene[12] * 100 / AAtotal[12] ;
           end
         else // Teneur digestible
           if ConfdAA = 0
           then // g/kg
             with PMatiere^ do
             begin
               PBdMATApp.AsFloat := (AAtotal[0] * CUDAA[0] / 100 - AAendogene[0]) * RapMS ;
               PBdLysApp.AsFloat := (AAtotal[1] * CUDAA[1] / 100 - AAendogene[1]) * RapMS ;
               PBdMetApp.AsFloat := (AAtotal[2] * CUDAA[2] / 100 - AAendogene[2]) * RapMS ;
               PBdCysApp.AsFloat := (AAtotal[3] * CUDAA[3] / 100 - AAendogene[3]) * RapMS ;
               PBdTrpApp.AsFloat := (AAtotal[4] * CUDAA[4] / 100 - AAendogene[4]) * RapMS ;
               PBdThrApp.AsFloat := (AAtotal[5] * CUDAA[5] / 100 - AAendogene[5]) * RapMS ;
               PBdPheApp.AsFloat := (AAtotal[6] * CUDAA[6] / 100 - AAendogene[6]) * RapMS ;
               PBdTyrApp.AsFloat := (AAtotal[7] * CUDAA[7] / 100 - AAendogene[7]) * RapMS ;
               PBdLeuApp.AsFloat := (AAtotal[8] * CUDAA[8] / 100 - AAendogene[8]) * RapMS ;
               PBdIleApp.AsFloat := (AAtotal[9] * CUDAA[9] / 100 - AAendogene[9]) * RapMS ;
               PBdValApp.AsFloat := (AAtotal[10] * CUDAA[10] / 100 - AAendogene[10]) * RapMS ;
               PBdHisApp.AsFloat := (AAtotal[11] * CUDAA[11] / 100 - AAendogene[11]) * RapMS ;
               PBdArgApp.AsFloat := (AAtotal[12] * CUDAA[12] / 100 - AAendogene[12]) * RapMS ;
             end
           else // %
             with PMatiere^ do
             begin
               PBdMATApp.AsFloat := (AAtotal[0] / 1000 * CUDAA[0] - AAendogene[0] * 100 / 1000) * RapMS ;
               PBdLysApp.AsFloat := (AAtotal[1] / 1000 * CUDAA[1] - AAendogene[1] * 100 / 1000) * RapMS ;
               PBdMetApp.AsFloat := (AAtotal[2] / 1000 * CUDAA[2] - AAendogene[2] * 100 / 1000) * RapMS ;
               PBdCysApp.AsFloat := (AAtotal[3] / 1000 * CUDAA[3] - AAendogene[3] * 100 / 1000) * RapMS ;
               PBdTrpApp.AsFloat := (AAtotal[4] / 1000 * CUDAA[4] - AAendogene[4] * 100 / 1000) * RapMS ;
               PBdThrApp.AsFloat := (AAtotal[5] / 1000 * CUDAA[5] - AAendogene[5] * 100 / 1000) * RapMS ;
               PBdPheApp.AsFloat := (AAtotal[6] / 1000 * CUDAA[6] - AAendogene[6] * 100 / 1000) * RapMS ;
               PBdTyrApp.AsFloat := (AAtotal[7] / 1000 * CUDAA[7] - AAendogene[7] * 100 / 1000) * RapMS ;
               PBdLeuApp.AsFloat := (AAtotal[8] / 1000 * CUDAA[8] - AAendogene[8] * 100 / 1000) * RapMS ;
               PBdIleApp.AsFloat := (AAtotal[9] / 1000 * CUDAA[9] - AAendogene[9] * 100 / 1000) * RapMS ;
               PBdValApp.AsFloat := (AAtotal[10] / 1000 * CUDAA[10] - AAendogene[10] * 100 / 1000) * RapMS ;
               PBdHisApp.AsFloat := (AAtotal[11] / 1000 * CUDAA[11] - AAendogene[11] * 100 / 1000) * RapMS ;
               PBdArgApp.AsFloat := (AAtotal[12] / 1000 * CUDAA[12] - AAendogene[12] * 100 / 1000) * RapMS ;
             end ;
         // Prot?ine id?ale standardis?e
         PBProtLysStd.AsFloat := 100 ;
         if (PMatiere.AAtotal[1] = 0) or (PMatiere.CUDAA[1] = 0)
         then
         begin
           PBProtMetStd.Text := '' ;
           PBProtCysStd.Text := '' ;
           PBProtTrpStd.Text := '' ;
           PBProtThrStd.Text := '' ;
           PBProtPheStd.Text := '' ;
           PBProtTyrStd.Text := '' ;
           PBProtLeuStd.Text := '' ;
           PBProtIleStd.Text := '' ;
           PBProtValStd.Text := '' ;
           PBProtHisStd.Text := '' ;
           PBProtArgStd.Text := '' ;
         end
         else
           with PMatiere^ do
           begin
             PBProtMetStd.AsFloat := (AAtotal[2] * CUDAA[2]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtCysStd.AsFloat := (AAtotal[3] * CUDAA[3]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtTrpStd.AsFloat := (AAtotal[4] * CUDAA[4]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtThrStd.AsFloat := (AAtotal[5] * CUDAA[5]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtPheStd.AsFloat := (AAtotal[6] * CUDAA[6]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtTyrStd.AsFloat := (AAtotal[7] * CUDAA[7]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtLeuStd.AsFloat := (AAtotal[8] * CUDAA[8]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtIleStd.AsFloat := (AAtotal[9] * CUDAA[9]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtValStd.AsFloat := (AAtotal[10] * CUDAA[10]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtHisStd.AsFloat := (AAtotal[11] * CUDAA[11]) / (AAtotal[1] * CUDAA[1]) * 100 ;
             PBProtArgStd.AsFloat := (AAtotal[12] * CUDAA[12]) / (AAtotal[1] * CUDAA[1]) * 100 ;
           end ;
         // Prot?ine id?ale totale
         PBProtLysTot.AsFloat := 100 ;
         if (PMatiere.AAtotal[1] = 0) or (PMatiere.CUDAA[1] = 0)
         then
         begin
           PBProtMetTot.Text := '' ;
           PBProtCysTot.Text := '' ;
           PBProtTrpTot.Text := '' ;
           PBProtThrTot.Text := '' ;
           PBProtPheTot.Text := '' ;
           PBProtTyrTot.Text := '' ;
           PBProtLeuTot.Text := '' ;
           PBProtIleTot.Text := '' ;
           PBProtValTot.Text := '' ;
           PBProtHisTot.Text := '' ;
           PBProtArgTot.Text := '' ;
         end
         else
           with PMatiere^ do
           begin
             PBProtMetTot.AsFloat := AAtotal[2] / AAtotal[1] * 100 ;
             PBProtCysTot.AsFloat := AAtotal[3] / AAtotal[1] * 100 ;
             PBProtTrpTot.AsFloat := AAtotal[4] / AAtotal[1] * 100 ;
             PBProtThrTot.AsFloat := AAtotal[5] / AAtotal[1] * 100 ;
             PBProtPheTot.AsFloat := AAtotal[6] / AAtotal[1] * 100 ;
             PBProtTyrTot.AsFloat := AAtotal[7] / AAtotal[1] * 100 ;
             PBProtLeuTot.AsFloat := AAtotal[8] / AAtotal[1] * 100 ;
             PBProtIleTot.AsFloat := AAtotal[9] / AAtotal[1] * 100 ;
             PBProtValTot.AsFloat := AAtotal[10] / AAtotal[1] * 100 ;
             PBProtHisTot.AsFloat := AAtotal[11] / AAtotal[1] * 100 ;
             PBProtArgTot.AsFloat := AAtotal[12] / AAtotal[1] * 100 ;
           end ;
         // met + cys
         PBTMetCys.AsFloat := PBTMet.AsFloat + PBTCys.AsFloat ;
         if ConfDig = 0
         then // CUD
           if PBTMetCys.AsFloat = 0
           then
           begin
             PBdMetCysStd.Text := '' ;
             PBdMetCysApp.Text := '' ;
           end
           else
           begin
             PBdMetCysStd.AsFloat := (PBTMet.AsFloat * PBdMetStd.AsFloat + PBTCys.AsFloat * PBdCysStd.AsFloat) / PBTMetCys.AsFloat ;
             PBdMetCysApp.AsFloat := (PBTMet.AsFloat * PBdMetApp.AsFloat + PBTCys.AsFloat * PBdCysApp.AsFloat) / PBTMetCys.AsFloat ;
           end
         else // Teneur digestible
         begin
           PBdMetCysStd.AsFloat := PBdMetStd.AsFloat + PBdCysStd.AsFloat ;
           PBdMetCysApp.AsFloat := PBdMetApp.AsFloat + PBdCysApp.AsFloat ;
         end ;
         if (PMatiere.AAtotal[1] = 0) or (PMatiere.CUDAA[1] = 0)
         then
         begin
           PBProtMetCysStd.Text := '' ;
           PBProtMetCysTot.Text := '' ;
         end
         else
         begin
           PBProtMetCysStd.AsFloat := PBProtMetStd.AsFloat + PBProtCysStd.AsFloat ;
           PBProtMetCysTot.AsFloat := PBProtMetTot.AsFloat + PBProtCysTot.AsFloat ;
         end ;
         // phe + tyr
         PBTPheTyr.AsFloat := PBTPhe.AsFloat + PBTTyr.AsFloat ;
         if ConfDig = 0
         then // CUD
           if PBTPheTyr.AsFloat = 0
           then
           begin
             PBdPheTyrStd.Text := '' ;
             PBdPheTyrApp.Text := '' ;
           end
           else
           begin
             PBdPheTyrStd.AsFloat := (PBTPhe.AsFloat * PBdPheStd.AsFloat + PBTTyr.AsFloat * PBdTyrStd.AsFloat) / PBTPheTyr.AsFloat ;
             PBdPheTyrApp.AsFloat := (PBTPhe.AsFloat * PBdPheApp.AsFloat + PBTTyr.AsFloat * PBdTyrApp.AsFloat) / PBTPheTyr.AsFloat ;
           end
         else // Teneur digestible
         begin
           PBdPheTyrStd.AsFloat := PBdPheStd.AsFloat + PBdTyrStd.AsFloat ;
           PBdPheTyrApp.AsFloat := PBdPheApp.AsFloat + PBdTyrApp.AsFloat ;
         end ;
         if (PMatiere.AAtotal[1] = 0) or (PMatiere.CUDAA[1] = 0)
         then
         begin
           PBProtPheTyrStd.Text := '' ;
           PBProtPheTyrTot.Text := '' ;
         end
         else
         begin
           PBProtPheTyrStd.AsFloat := PBProtPheStd.AsFloat + PBProtTyrStd.AsFloat ;
           PBProtPheTyrTot.AsFloat := PBProtPheTot.AsFloat + PBProtTyrTot.AsFloat ;
         end ;
         // trp / AA neutres
         with PMatiere^ do
           if AAtotal[6] * CUDAA[6] + AAtotal[7] * CUDAA[7] + AAtotal[8] * CUDAA[8] + AAtotal[9] * CUDAA[9] + AAtotal[10] * CUDAA[10] = 0
           then
             PBTrpStd.Text := ''
           else
             PBTrpStd.AsFloat := AAtotal[4] * CUDAA[4] / (AAtotal[6] * CUDAA[6] + AAtotal[7] * CUDAA[7] + AAtotal[8] * CUDAA[8] + AAtotal[9] * CUDAA[9] + AAtotal[10] * CUDAA[10]) * 100 ;
         with PMatiere^ do
           if AAtotal[6] + AAtotal[7] + AAtotal[8] + AAtotal[9] + AAtotal[10] = 0
           then
             PBTrpTot.Text := ''
           else
             PBTrpTot.AsFloat := AAtotal[4] / (AAtotal[6] + AAtotal[7] + AAtotal[8] + AAtotal[9] + AAtotal[10]) * 100 ;
         // EAA-N / N
         if (PMatiere.AAtotal[0] = 0) or (PMatiere.CUDAA[0] = 0)
         then
           PBEAAStd.Text := ''
         else
           with PMatiere^ do
             PBEAAStd.AsFloat := 14 * (2/146 * AAtotal[1] * CUDAA[1] + 1/149 * AAtotal[2] * CUDAA[2] + 1/121 * AAtotal[3] * CUDAA[3] + 1/119 * AAtotal[5] * CUDAA[5] + 2/204 * AAtotal[4] * CUDAA[4] + 1/131 * AAtotal[9] * CUDAA[9] + 1/131 * AAtotal[8] * CUDAA[8] + 1/117 * AAtotal[10] * CUDAA[10] + 1/165 * AAtotal[6] * CUDAA[6] + 1/181 * AAtotal[7] * CUDAA[7] + 3/155 * AAtotal[11] * CUDAA[11] + 4/174 * AAtotal[12] * CUDAA[12]) / (AAtotal[0] * CUDAA[0] / 6.25) * 100 ;
         if PMatiere.AAtotal[0] = 0
         then
           PBEAATot.Text := ''
         else
           with PMatiere^ do
             PBEAATot.AsFloat := 14 * (2/146 * AAtotal[1] + 1/149 * AAtotal[2] + 1/121 * AAtotal[3] + 1/119 * AAtotal[5] + 2/204 * AAtotal[4] + 1/131 * AAtotal[9] + 1/131 * AAtotal[8] + 1/117 * AAtotal[10] + 1/165 * AAtotal[6] + 1/181 * AAtotal[7] + 3/155 * AAtotal[11] + 4/174 * AAtotal[12]) / (AAtotal[0] / 6.25) * 100 ;
       end ;
       procedure TFMatiere.CBAAsLysClick (Sender : TObject) ;
       begin
         PBTMet.Enabled := not CBAAsLys.Checked ;
         PBTCys.Enabled := not CBAAsLys.Checked ;
         PBTTrp.Enabled := not CBAAsLys.Checked ;
         PBTThr.Enabled := not CBAAsLys.Checked ;
         PBTPhe.Enabled := not CBAAsLys.Checked ;
         PBTTyr.Enabled := not CBAAsLys.Checked ;
         PBTLeu.Enabled := not CBAAsLys.Checked ;
         PBTIle.Enabled := not CBAAsLys.Checked ;
         PBTVal.Enabled := not CBAAsLys.Checked ;
         PBTHis.Enabled := not CBAAsLys.Checked ;
         PBTArg.Enabled := not CBAAsLys.Checked ;
       end ;
       procedure TFMatiere.PBTLysChange(Sender: TObject);
       var
         i : integer ;
         variation : double ;
       begin
         if (PBTLys.AsFloat <> 0) and not Update
         then
         begin
           Modified := TRUE ;
           // Variation de la teneur en lysine
           with PMatiere^ do
             if AAtotal[1] = 0
             then
               variation := 1
             else
               case ConfTAA of
 : // %
                   variation := PBTLys.AsFloat / 100 * 1000 / RapMS / AAtotal[1] ;
 : // % MAT
                   variation := PBTLys.AsFloat * CC.MAT / 100 / AAtotal[1] ;
                 else // g/kg
                   variation := PBTLys.AsFloat / RapMS / AAtotal[1] ;
               end ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[1] := PBTLys.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[1] := PBTLys.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[1] := PBTLys.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if CBAAsLys.Checked
           then
           begin
             // Variation des teneur en acides amin?s (r?gle de trois)
             with PMatiere^ do
               for i := 2 to 12 do
                 AAtotal[i] := AAtotal[i] * variation ;
             // Affichage des valeurs
             AffichTAA ;
           end ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTLysExit (Sender : TObject) ;
       var
         i : integer ;
       begin
         if (PBTLys.AsFloat = 0) and (PMatiere.AAtotal[1] <> 0)
         then
         begin
           Modified := TRUE ;
           // Valeur nulle
           with PMatiere^ do
             AAtotal[1] := 0 ;
           Update := TRUE ;
           if CBAAsLys.Checked
           then
           begin
             // Variation des teneur en acides amin?s (r?gle de trois)
             with PMatiere^ do
               for i := 2 to 12 do
                 AAtotal[i] := 0 ;
             // Affichage des valeurs
             AffichTAA ;
           end ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end ;
       procedure TFMatiere.PBTMetChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[2] := PBTMet.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[2] := PBTMet.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[2] := PBTMet.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTCysChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[3] := PBTCys.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[3] := PBTCys.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[3] := PBTCys.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTTrpChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[4] := PBTTrp.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[4] := PBTTrp.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[4] := PBTTrp.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTThrChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[5] := PBTThr.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[5] := PBTThr.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[5] := PBTThr.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTPheChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[6] := PBTPhe.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[6] := PBTPhe.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[6] := PBTPhe.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTTyrChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[7] := PBTTyr.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[7] := PBTTyr.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[7] := PBTTyr.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTLeuChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[8] := PBTLeu.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[8] := PBTLeu.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[8] := PBTLeu.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTIleChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[9] := PBTIle.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[9] := PBTIle.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[9] := PBTIle.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTValChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[10] := PBTVal.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[10] := PBTVal.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[10] := PBTVal.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTHisChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[11] := PBTHis.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[11] := PBTHis.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[11] := PBTHis.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBTArgChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             case ConfTAA of
 : // %
                 AAtotal[12] := PBTArg.AsFloat / 100 * 1000 / RapMS ;
 : // % MAT
                 AAtotal[12] := PBTArg.AsFloat * CC.MAT / 100 ;
               else // g/kg
                 AAtotal[12] := PBTArg.AsFloat / RapMS ;
             end ;
           Update := TRUE ;
           if ConfDig = 1
           then // Teneur digestible
             AffichdAA ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdMATStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[0] := PBdMATStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[0] := PBdMATStd.AsFloat / AATotal[0] * 100 / RapMS
               else // %
                 CUDAA[0] := PBdMATStd.AsFloat / AATotal[0] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdLysStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[1] := PBdLysStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[1] := PBdLysStd.AsFloat / AATotal[1] * 100 / RapMS
               else // %
                 CUDAA[1] := PBdLysStd.AsFloat / AATotal[1] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdMetStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[2] := PBdMetStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[2] := PBdMetStd.AsFloat / AATotal[2] * 100 / RapMS
               else // %
                 CUDAA[2] := PBdMetStd.AsFloat / AATotal[2] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdCysStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[3] := PBdCysStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[3] := PBdCysStd.AsFloat / AATotal[3] * 100 / RapMS
               else // %
                 CUDAA[3] := PBdCysStd.AsFloat / AATotal[3] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdTrpStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[4] := PBdTrpStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[4] := PBdTrpStd.AsFloat / AATotal[4] * 100 / RapMS
               else // %
                 CUDAA[4] := PBdTrpStd.AsFloat / AATotal[4] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdThrStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[5] := PBdThrStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[5] := PBdThrStd.AsFloat / AATotal[5] * 100 / RapMS
               else // %
                 CUDAA[5] := PBdThrStd.AsFloat / AATotal[5] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdPheStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[6] := PBdPheStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[6] := PBdPheStd.AsFloat / AATotal[6] * 100 / RapMS
               else // %
                 CUDAA[6] := PBdPheStd.AsFloat / AATotal[6] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdTyrStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[7] := PBdTyrStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[7] := PBdTyrStd.AsFloat / AATotal[7] * 100 / RapMS
               else // %
                 CUDAA[7] := PBdTyrStd.AsFloat / AATotal[7] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdLeuStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[8] := PBdLeuStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[8] := PBdLeuStd.AsFloat / AATotal[8] * 100 / RapMS
               else // %
                 CUDAA[8] := PBdLeuStd.AsFloat / AATotal[8] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdIleStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[9] := PBdIleStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[9] := PBdIleStd.AsFloat / AATotal[9] * 100 / RapMS
               else // %
                 CUDAA[9] := PBdIleStd.AsFloat / AATotal[9] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdValStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[10] := PBdValStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[10] := PBdValStd.AsFloat / AATotal[10] * 100 / RapMS
               else // %
                 CUDAA[10] := PBdValStd.AsFloat / AATotal[10] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdHisStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[11] := PBdHisStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[11] := PBdHisStd.AsFloat / AATotal[11] * 100 / RapMS
               else // %
                 CUDAA[11] := PBdHisStd.AsFloat / AATotal[11] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       procedure TFMatiere.PBdArgStdChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere^ do
             if ConfDig = 0
             then // CUD
               CUDAA[12] := PBdArgStd.AsFloat
             else // Teneur digestible
               if ConfdAA = 0
               then // g/kg
                 CUDAA[12] := PBdArgStd.AsFloat / AATotal[12] * 100 / RapMS
               else // %
                 CUDAA[12] := PBdArgStd.AsFloat / AATotal[12] * 1000 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculAA ;
         end ;
       end;
       ////////////////////////////////////////////////////////////////////////////////
       // Acides gras
       ////////////////////////////////////////////////////////////////////////////////
       // Affichage de la teneur en fonction de la configuration
       procedure TFMatiere.AffichTAG ;
       begin
         case ConfTAG of
 : // g/kg
             with PMatiere.CC do
             begin
               PBC6C8C10_0.AsFloat := C6C8C10 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC12_0.AsFloat := C12_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC14_0.AsFloat := C14_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC16_0.AsFloat := C16_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC16_1.AsFloat := C16_1 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC18_0.AsFloat := C18_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC18_1.AsFloat := C18_1 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC18_2.AsFloat := C18_2 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC18_3.AsFloat := C18_3 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC18_4.AsFloat := C18_4 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC20_0.AsFloat := C20_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC20_1.AsFloat := C20_1 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC20_4.AsFloat := C20_4 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC20_5.AsFloat := C20_5 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC22_0.AsFloat := C22_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC22_1.AsFloat := C22_1 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC22_5.AsFloat := C22_5 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC22_6.AsFloat := C22_6 / 100 * AGsLip / 100 * Lip * RapMS ;
               PBC24_0.AsFloat := C24_0 / 100 * AGsLip / 100 * Lip * RapMS ;
             end ;
 : // %
             with PMatiere.CC do
             begin
               PBC6C8C10_0.AsFloat := C6C8C10 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC12_0.AsFloat := C12_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC14_0.AsFloat := C14_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC16_0.AsFloat := C16_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC16_1.AsFloat := C16_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC18_0.AsFloat := C18_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC18_1.AsFloat := C18_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC18_2.AsFloat := C18_2 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC18_3.AsFloat := C18_3 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC18_4.AsFloat := C18_4 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC20_0.AsFloat := C20_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC20_1.AsFloat := C20_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC20_4.AsFloat := C20_4 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC20_5.AsFloat := C20_5 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC22_0.AsFloat := C22_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC22_1.AsFloat := C22_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC22_5.AsFloat := C22_5 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC22_6.AsFloat := C22_6 * AGsLip / 100 * Lip / 1000 * RapMS ;
               PBC24_0.AsFloat := C24_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
             end ;
           else // % acides gras
             with PMatiere.CC do
             begin
               PBC6C8C10_0.AsFloat := C6C8C10 ;
               PBC12_0.AsFloat := C12_0 ;
               PBC14_0.AsFloat := C14_0 ;
               PBC16_0.AsFloat := C16_0 ;
               PBC16_1.AsFloat := C16_1 ;
               PBC18_0.AsFloat := C18_0 ;
               PBC18_1.AsFloat := C18_1 ;
               PBC18_2.AsFloat := C18_2 ;
               PBC18_3.AsFloat := C18_3 ;
               PBC18_4.AsFloat := C18_4 ;
               PBC20_0.AsFloat := C20_0 ;
               PBC20_1.AsFloat := C20_1 ;
               PBC20_4.AsFloat := C20_4 ;
               PBC20_5.AsFloat := C20_5 ;
               PBC22_0.AsFloat := C22_0 ;
               PBC22_1.AsFloat := C22_1 ;
               PBC22_5.AsFloat := C22_5 ;
               PBC22_6.AsFloat := C22_6 ;
               PBC24_0.AsFloat := C24_0 ;
             end ;
         end ;
       end ;
       procedure TFMatiere.CalculAG ;
       var
         Omega3, Omega6 : double ;
       begin
         // Teneurs totales
         PBC6C8C10_tot.AsFloat := PBC6C8C10_0.AsFloat ;
         PBC12_tot.AsFloat := PBC12_0.AsFloat ;
         PBC14_tot.AsFloat := PBC14_0.AsFloat ;
         PBC16_tot.AsFloat := PBC16_0.AsFloat + PBC16_1.AsFloat ;
         PBC18_tot.AsFloat := PBC18_0.AsFloat + PBC18_1.AsFloat + PBC18_2.AsFloat + PBC18_3.AsFloat + PBC18_4.AsFloat ;
         PBC20_tot.AsFloat := PBC20_0.AsFloat + PBC20_1.AsFloat + PBC20_4.AsFloat + PBC20_5.AsFloat ;
         PBC22_tot.AsFloat := PBC22_0.AsFloat + PBC22_1.AsFloat + PBC22_5.AsFloat + PBC22_6.AsFloat ;
         PBC24_tot.AsFloat := PBC24_0.AsFloat ;
         PBCtot_tot.AsFloat := PBC6C8C10_tot.AsFloat + PBC12_tot.AsFloat + PBC14_tot.AsFloat + PBC16_tot.AsFloat + PBC18_tot.AsFloat + PBC20_tot.AsFloat + PBC22_tot.AsFloat + PBC24_tot.AsFloat ;
         PBCtot_0.AsFloat := PBC6C8C10_0.AsFloat + PBC12_0.AsFloat + PBC14_0.AsFloat + PBC16_0.AsFloat + PBC18_0.AsFloat + PBC20_0.AsFloat + PBC22_0.AsFloat + PBC24_0.AsFloat ;
         PBCtot_1.AsFloat := PBC16_1.AsFloat + PBC18_1.AsFloat + PBC20_1.AsFloat + PBC22_1.AsFloat ;
         PBCtot_2.AsFloat := PBC18_2.AsFloat ;
         PBCtot_3.AsFloat := PBC18_3.AsFloat ;
         PBCtot_4.AsFloat := PBC18_4.AsFloat + PBC20_4.AsFloat ;
         PBCtot_5.AsFloat := PBC20_5.AsFloat + PBC22_5.AsFloat ;
         PBCtot_6.AsFloat := PBC22_6.AsFloat ;
         // Acides gras satur?s
         if PBCtot_tot.AsFloat = 0
         then
           PBSatur.Text := ''
         else
           PBSatur.AsFloat := PBCtot_0.AsFloat / PBCtot_tot.AsFloat * 100 ;
         // Acides gras mono-insatur?s
         if PBCtot_tot.AsFloat = 0
         then
           PBMono.Text := ''
         else
           PBMono.AsFloat := PBCtot_1.AsFloat / PBCtot_tot.AsFloat * 100 ;
         // Acides gras poly-insatur?s
         PBPoly.AsFloat := 100 - (PBSatur.AsFloat + PBMono.AsFloat) ;
         // Omega-6 / Omega-3
         Omega3 := PBC18_3.AsFloat + PBC18_4.AsFloat + PBC20_5.AsFloat + PBC22_5.AsFloat + PBC22_6.AsFloat ;
         Omega6 := PBC18_2.AsFloat + PBC20_4.AsFloat ;
         if Omega3 = 0
         then
           PBO6sO3.Text := 'infini'
         else
           PBO6sO3.AsFloat := Omega6 / Omega3 ;
       end ;
       procedure TFMatiere.PBAGChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           PMatiere.CC.AGsLip := PBAG.AsFloat ;
           Update := TRUE ;
           // R?affichage des teneurs en acides gras (si besoin)
           case ConfTAG of
 : // g/kg
               with PMatiere.CC do
               begin
                 PBC6C8C10_0.AsFloat := C6C8C10 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC12_0.AsFloat := C12_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC14_0.AsFloat := C14_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC16_0.AsFloat := C16_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC16_1.AsFloat := C16_1 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC18_0.AsFloat := C18_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC18_1.AsFloat := C18_1 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC18_2.AsFloat := C18_2 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC18_3.AsFloat := C18_3 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC18_4.AsFloat := C18_4 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC20_0.AsFloat := C20_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC20_1.AsFloat := C20_1 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC20_4.AsFloat := C20_4 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC20_5.AsFloat := C20_5 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC22_0.AsFloat := C22_0 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC22_1.AsFloat := C22_1 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC22_5.AsFloat := C22_5 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC22_6.AsFloat := C22_6 / 100 * AGsLip / 100 * Lip * RapMS ;
                 PBC24_0.AsFloat := C24_0 / 100 * AGsLip / 100 * Lip * RapMS ;
               end ;
 : // %
               with PMatiere.CC do
               begin
                 PBC6C8C10_0.AsFloat := C6C8C10 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC12_0.AsFloat := C12_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC14_0.AsFloat := C14_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC16_0.AsFloat := C16_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC16_1.AsFloat := C16_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC18_0.AsFloat := C18_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC18_1.AsFloat := C18_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC18_2.AsFloat := C18_2 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC18_3.AsFloat := C18_3 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC18_4.AsFloat := C18_4 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC20_0.AsFloat := C20_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC20_1.AsFloat := C20_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC20_4.AsFloat := C20_4 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC20_5.AsFloat := C20_5 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC22_0.AsFloat := C22_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC22_1.AsFloat := C22_1 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC22_5.AsFloat := C22_5 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC22_6.AsFloat := C22_6 * AGsLip / 100 * Lip / 1000 * RapMS ;
                 PBC24_0.AsFloat := C24_0 * AGsLip / 100 * Lip / 1000 * RapMS ;
               end ;
           end ;
           Update := FALSE ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC6C8C10_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C6C8C10 := 0
                 else
                   C6C8C10 := PBC6C8C10_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C6C8C10 := 0
                 else
                   C6C8C10 := PBC6C8C10_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C6C8C10 := PBC6C8C10_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC12_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C12_0 := 0
                 else
                   C12_0 := PBC12_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C12_0 := 0
                 else
                   C12_0 := PBC12_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C12_0 := PBC12_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC14_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C14_0 := 0
                 else
                   C14_0 := PBC14_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C14_0 := 0
                 else
                   C14_0 := PBC14_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C14_0 := PBC14_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC16_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C16_0 := 0
                 else
                   C16_0 := PBC16_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C16_0 := 0
                 else
                   C16_0 := PBC16_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C16_0 := PBC16_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC16_1Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C16_1 := 0
                 else
                   C16_1 := PBC16_1.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C16_1 := 0
                 else
                   C16_1 := PBC16_1.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C16_1 := PBC16_1.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC18_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_0 := 0
                 else
                   C18_0 := PBC18_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_0 := 0
                 else
                   C18_0 := PBC18_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C18_0 := PBC18_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC18_1Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_1 := 0
                 else
                   C18_1 := PBC18_1.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_1 := 0
                 else
                   C18_1 := PBC18_1.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C18_1 := PBC18_1.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC18_2Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_2 := 0
                 else
                   C18_2 := PBC18_2.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_2 := 0
                 else
                   C18_2 := PBC18_2.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C18_2 := PBC18_2.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC18_3Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_3 := 0
                 else
                   C18_3 := PBC18_3.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_3 := 0
                 else
                   C18_3 := PBC18_3.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C18_3 := PBC18_3.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC18_4Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_4 := 0
                 else
                   C18_4 := PBC18_4.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C18_4 := 0
                 else
                   C18_4 := PBC18_4.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C18_4 := PBC18_4.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC20_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_0 := 0
                 else
                   C20_0 := PBC20_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_0 := 0
                 else
                   C20_0 := PBC20_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C20_0 := PBC20_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC20_1Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_1 := 0
                 else
                   C20_1 := PBC20_1.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_1 := 0
                 else
                   C20_1 := PBC20_1.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C20_1 := PBC20_1.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC20_4Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_4 := 0
                 else
                   C20_4 := PBC20_4.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_4 := 0
                 else
                   C20_4 := PBC20_4.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C20_4 := PBC20_4.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC20_5Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_5 := 0
                 else
                   C20_5 := PBC20_5.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C20_5 := 0
                 else
                   C20_5 := PBC20_5.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C20_5 := PBC20_5.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC22_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_0 := 0
                 else
                   C22_0 := PBC22_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_0 := 0
                 else
                   C22_0 := PBC22_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C22_0 := PBC22_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC22_1Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_1 := 0
                 else
                   C22_1 := PBC22_1.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_1 := 0
                 else
                   C22_1 := PBC22_1.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C22_1 := PBC22_1.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC22_5Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_5 := 0
                 else
                   C22_5 := PBC22_5.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_5 := 0
                 else
                   C22_5 := PBC22_5.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C22_5 := PBC22_5.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC22_6Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_6 := 0
                 else
                   C22_6 := PBC22_6.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C22_6 := 0
                 else
                   C22_6 := PBC22_6.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C22_6 := PBC22_6.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       procedure TFMatiere.PBC24_0Change (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             case ConfTAG of
 : // g/kg
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C24_0 := 0
                 else
                   C24_0 := PBC24_0.AsFloat * 100 / AGsLip * 100 / Lip / RapMS ;
 : // %
                 if (AGsLip = 0) or (Lip = 0)
                 then
                   C24_0 := 0
                 else
                   C24_0 := PBC24_0.AsFloat / AGsLip * 100 / Lip * 1000 / RapMS ;
               else // % acides gras
                 C24_0 := PBC24_0.AsFloat ;
             end ;
           // Calcul des champs li?s ? cette valeur
           CalculAG ;
         end ;
       end ;
       ////////////////////////////////////////////////////////////////////////////////
       // Min?raux
       ////////////////////////////////////////////////////////////////////////////////
       // Affichage de la teneur en fonction de la configuration
       procedure TFMatiere.AffichTMineraux;
       begin
         // Macro-?l?ments
         if ConfTMacro = 0
         then // g/kg
           with PMatiere.CC do
           begin
             PBCa.AsFloat := Ca * RapMS;
             PBP.AsFloat := P * RapMS;
             PBNa.AsFloat := Na * RapMS;
             PBK.AsFloat := K * RapMS;
             PBMg.AsFloat := Mg * RapMS;
             PBCl.AsFloat := Cl * RapMS;
             PBS.AsFloat := S * RapMS;
           end
         else // %
           with PMatiere.CC do
           begin
             PBCa.AsFloat := Ca / 1000 * 100 * RapMS;
             PBP.AsFloat := P / 1000 * 100 * RapMS;
             PBNa.AsFloat := Na / 1000 * 100 * RapMS;
             PBK.AsFloat := K / 1000 * 100 * RapMS;
             PBMg.AsFloat := Mg / 1000 * 100 * RapMS;
             PBCl.AsFloat := Cl / 1000 * 100 * RapMS;
             PBS.AsFloat := S / 1000 * 100 * RapMS;
           end ;
         // Oligo-?l?ments
         if ConfTOligo = 0
         then // mg/kg
           with PMatiere.CC do
           begin
             PBCu.AsFloat := Cu * RapMS;
             PBZn.AsFloat := Zn * RapMS;
             PBMn.AsFloat := Mn * RapMS;
             PBFe.AsFloat := Fe * RapMS;
             PBSe.AsFloat := Se * RapMS;
             PBCo.AsFloat := Co * RapMS;
             PBMb.AsFloat := Mb * RapMS;
             PBI.AsFloat := I * RapMS;
           end
         else // %
           with PMatiere.CC do
           begin
             PBCu.AsFloat := Cu / 1000000 * 100 * RapMS;
             PBZn.AsFloat := Zn / 1000000 * 100 * RapMS;
             PBMn.AsFloat := Mn / 1000000 * 100 * RapMS;
             PBFe.AsFloat := Fe / 1000000 * 100 * RapMS;
             PBSe.AsFloat := Se / 1000000 * 100 * RapMS;
             PBCo.AsFloat := Co / 1000000 * 100 * RapMS;
             PBMb.AsFloat := Mb / 1000000 * 100 * RapMS;
             PBI.AsFloat := I / 1000000 * 100 * RapMS;
           end ;
         // Phosphore
         PBPtot.AsFloat := PBP.AsFloat;
         if ConfTMacro = 0
         then // g/kg
           with PMatiere.CC do
           begin
             PBPdigG.AsFloat := PdigG * RapMS;
             PBPdigF.AsFloat := PdigF * RapMS;
           end
         else // %
           with PMatiere.CC do
           begin
             PBPdigG.AsFloat := PdigG / 1000 * 100 * RapMS;
             PBPdigF.AsFloat := PdigF / 1000 * 100 * RapMS;
           end;
         with PMatiere.CC do
         begin
           PBPhytase.AsFloat := Phytase;
           PBActPhytE.AsFloat := ActPhytE * RapMS;
           PBActPhytM.AsFloat := ActPhytM * RapMS;
         end;
       end;
       procedure TFMatiere.CalculMineraux;
       begin
         // Ca / P
         if PMatiere.CC.P = 0
         then
           PBCasP.Text := 'infini'
         else
           with PMatiere.CC do
             PBCasP.AsFloat := Ca / P;
         // Bilan cations-anions
         with PMatiere.CC do
           PBBilanCA.AsFloat := 1000 * (K / 39 + Na / 23 - Cl / 35.5 - S / 16);
         // Bilan ?lectrolytique
         with PMatiere.CC do
           PBBilanE.AsFloat := 1000 * (K / 39 + Na / 23 - Cl / 35.5);
       end;
       procedure TFMatiere.PBCaChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               Ca := PBCa.AsFloat / RapMS
             else // %
               Ca := PBCa.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBPChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               P := PBP.AsFloat / RapMS
             else // %
               P := PBP.AsFloat * 1000 / 100 / RapMS ;
           PBPtot.AsFloat := PBP.AsFloat;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBNaChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               Na := PBNa.AsFloat / RapMS
             else // %
               Na := PBNa.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBKChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               K := PBK.AsFloat / RapMS
             else // %
               K := PBK.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBMgChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               Mg := PBMg.AsFloat / RapMS
             else // %
               Mg := PBMg.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBClChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               Cl := PBCl.AsFloat / RapMS
             else // %
               Cl := PBCl.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBSChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               S := PBS.AsFloat / RapMS
             else // %
               S := PBS.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculMineraux ;
         end ;
       end ;
       procedure TFMatiere.PBCuChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Cu := PBCu.AsFloat / RapMS
             else // %
               Cu := PBCu.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBZnChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Zn := PBZn.AsFloat / RapMS
             else // %
               Zn := PBZn.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBMnChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Mn := PBMn.AsFloat / RapMS
             else // %
               Mn := PBMn.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBFeChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Fe := PBFe.AsFloat / RapMS
             else // %
               Fe := PBFe.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBSeChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Se := PBSe.AsFloat / RapMS
             else // %
               Se := PBSe.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBCoChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Co := PBCo.AsFloat / RapMS
             else // %
               Co := PBCo.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBMbChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               Mb := PBMb.AsFloat / RapMS
             else // %
               Mb := PBMb.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBIChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTOligo = 0
             then // mg/kg
               I := PBI.AsFloat / RapMS
             else // %
               I := PBI.AsFloat * 1000000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBPdigGChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               PdigG := PBPdigG.AsFloat / RapMS
             else // %
               PdigG := PBPdigG.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBPdigFChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTMacro = 0
             then // g/kg
               PdigF := PBPdigF.AsFloat / RapMS
             else // %
               PdigF := PBPdigF.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBPhytaseChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             Phytase := PBPhytase.AsFloat ;
         end ;
       end ;
       procedure TFMatiere.PBActPhytEChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             ActPhytE := PBActPhytE.AsFloat / RapMS ;
         end ;
       end ;
       procedure TFMatiere.PBActPhytMChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             ActPhytM := PBActPhytM.AsFloat / RapMS ;
         end ;
       end ;
       ////////////////////////////////////////////////////////////////////////////////
       // Fibres
       ////////////////////////////////////////////////////////////////////////////////
       // Affichage de la teneur en fonction de la configuration
       procedure TFMatiere.AffichTFibres ;
       begin
         if ConfTFibres = 0
         then // g/kg
           with PMatiere.CC do
           begin
             PBCB.AsFloat := CB * RapMS ;
             PBNDF.AsFloat := NDF * RapMS ;
             PBADF.AsFloat := ADF * RapMS ;
             PBADL.AsFloat := ADL * RapMS ;
             PBParois.AsFloat := Parois * RapMS ;
           end
         else // %
           with PMatiere.CC do
           begin
             PBCB.AsFloat := CB / 1000 * 100 * RapMS ;
             PBNDF.AsFloat := NDF / 1000 * 100 * RapMS ;
             PBADF.AsFloat := ADF / 1000 * 100 * RapMS ;
             PBADL.AsFloat := ADL / 1000 * 100 * RapMS ;
             PBParois.AsFloat := Parois / 1000 * 100 * RapMS ;
           end ;
       end ;
       procedure TFMatiere.PBCBChange (Sender : TObject) ;
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTFibres = 0
             then // g/kg
               CB := PBCB.AsFloat / RapMS
             else // %
               CB := PBCB.AsFloat * 1000 / 100 / RapMS ;
           // Calcul des champs li?s ? cette valeur
           CalculResidu ;
           AffichResidu ;
         end ;
       end ;
       procedure TFMatiere.PBNDFChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTFibres = 0
             then // g/kg
               NDF := PBNDF.AsFloat / RapMS
             else // %
               NDF := PBNDF.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end;
       procedure TFMatiere.PBADFChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTFibres = 0
             then // g/kg
               ADF := PBADF.AsFloat / RapMS
             else // %
               ADF := PBADF.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end;
       procedure TFMatiere.PBADLChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTFibres = 0
             then // g/kg
               ADL := PBADL.AsFloat / RapMS
             else // %
               ADL := PBADL.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end;
       procedure TFMatiere.PBParoisChange(Sender: TObject);
       begin
         if not Update
         then
         begin
           Modified := TRUE ;
           // Nouvelle valeur
           with PMatiere.CC do
             if ConfTFibres = 0
             then // g/kg
               Parois := PBParois.AsFloat / RapMS
             else // %
               Parois := PBParois.AsFloat * 1000 / 100 / RapMS ;
         end ;
       end;
       end.