When I realised that there was no direct solution to this, I created a class which others might find useful. It takes a data set and does all the hard work of building a list of frequency cells for a specific field name and then cacheing this to allow a 'GetValue' call from a TfrxUserDataSet called 'Distributions'. The report user can then simply drop a bar chart in the report, nominate 'Distributions' as the data set and choose the required field for 'Y values'. 'X values' must be set to the same field name but with '-X' appended - my class then transparently returns X and Y values for the chart having built the frequency cells on the first call. No FastReport code is involved.

Although working, this is fledgling code and could be improved further, for example at present the X values span min to max. A better display would be to use 3 or 6-sigma (standard deviation) but this is easy to modify.

```
unit UartFastReportsDistribution;
interface
uses
DB,
Classes;
const
CellCount = 101;
type
TCellArray = array[0..CellCount-1] of integer;
TXValues = array[0..CellCount-1] of double;
TDistributionCells = class( TObject )
constructor Create( ADataSet : TDataSet; const AFieldName : string );
PRIVATE
FDataSet : TDataSet;
FFieldName : string;
FCells : TCellArray;
FLastRecNo : integer;
FCellsMax : integer;
FDataMin, FDataMax : double;
procedure BuildCells;
function XValue( AIndex : integer ) : double;
function YValue( AIndex : integer ) : double;
function DataMean : double;
function DataDevPk : double;
end;
TArtFastReportsDistribution = class( TObject )
constructor Create( ADataSet : TDataSet );
destructor Destroy; override;
private
FDataSet : TDataSet;
FDistributions : TStringList;
function NameToDistribution( const AFieldName: string) : TDistributionCells;
PUBLIC
procedure DoGetData( const AFieldName: string; ARecNo : integer; var Value: Variant);
function RecordCount : integer;
end;
implementation
uses
Math,
SysUtils;
{ TArtFastReportsDistribution }
function TArtFastReportsDistribution.NameToDistribution( const AFieldName: string) : TDistributionCells;
var
I : integer;
begin
I := FDistributions.IndexOf( AFieldName );
if I = -1 then
begin
Result := TDistributionCells.Create( FDataSet, AFieldName );
FDistributions.AddObject( AfieldName, Result );
end
else
Result := FDistributions.Objects[I] as TDistributionCells;
end;
constructor TArtFastReportsDistribution.Create(ADataSet: TDataSet);
begin
inherited Create;
FDataSet := ADataSet;
FDistributions := TStringList.Create;
FDistributions.OwnsObjects := True;
end;
destructor TArtFastReportsDistribution.Destroy;
begin
FreeAndNil( FDistributions );
inherited;
end;
procedure TArtFastReportsDistribution.DoGetData(const AFieldName: string;
ARecNo : integer; var Value: Variant);
var
sFieldName : string;
bIsXValue : boolean;
I : integer;
Dist : TDistributionCells;
begin
sFieldName := AFieldName;
I := Pos( '-X', sFieldName );
bIsXValue := I > 0;
if bIsXValue then
Delete( sFieldName, I, MaxInt );
Dist := NameToDistribution( sFieldName );
If (ARecNo = 1) and (Dist.FLastRecNo <> 1) then
Dist.BuildCells;
Dist.FLastRecNo := ARecNo;
if bIsXValue then
Value := Dist.XValue(ARecNo-1)
else
Value := Dist.YValue(ARecNo-1);
end;
function TArtFastReportsDistribution.RecordCount: integer;
begin
Result := CellCount;
end;
{ TDistributionCells }
{ TDistributionCells }
procedure TDistributionCells.BuildCells;
procedure ClearCells;
var
I : integer;
begin
for I := 0 to CellCount-1 do
FCells[I] := 0;
FCellsMax := 0;
FDataMin := 0.0;
FDataMax := 0.0;
end;
function GetDataSetFieldValues : TFloatArray;
var
I : integer;
Field : TField;
begin
Field := FDataSet.FieldByName( FFieldName );
if not Assigned( Field ) then
Raise Exception.CreateFmt( 'Missing distribution field "%s"', [FFieldName] );
SetLength( Result, FDataSet.RecordCount );
FDataSet.First;
I := 0;
While not FDataset.EOF do
begin
Result[I] := Field.AsFloat;
Inc(I);
FDataSet.Next;
end;
end;
var
I,
iCellCount,
iOffset : integer;
F : double;
Data : TFloatArray;
begin
ClearCells;
If FDataSet.RecordCount = 0 then
Exit;
Data := GetDataSetFieldValues;
FDataMin := MinValue( Data );
FDataMax := MaxValue( Data );
FCellsMax := 0;
iCellCount := Length( FCells );
for I := 0 to Length( Data )-1 do
begin
F := Data[I];
F := (F - DataMean + DataDevPk)/(2*DataDevPk);
iOffset := Trunc( iCellCount * F );
If iOffset < 0 then
iOffset := 0
else
If iOffset > iCellCount-1 then
iOffset := CellCount-1;
FCells[iOffset] := FCells[iOffset] + 1;
If I = 0 then
FCellsMax := FCells[iOffset]
else
FCellsMax := Max( FCells[iOffset], FCellsMax );
end;
end;
constructor TDistributionCells.Create(ADataSet: TDataSet;
const AFieldName: string);
begin
inherited Create;
FDataSet := ADataSet;
FFieldName := AFieldName;
end;
function TDistributionCells.DataDevPk: double;
begin
Result := FDataMax - DataMean;
end;
function TDistributionCells.DataMean: double;
begin
Result := (FDataMin + FDataMax) / 2;
end;
function TDistributionCells.XValue(AIndex: integer): double;
begin
Result := AIndex;
Result := (Result / CellCount) - 0.5;
Result := DataMean + (Result*2*DataDevPk);
end;
function TDistributionCells.YValue(AIndex: integer): double;
begin
// Result := 100.0 * FCells[AIndex] / FCellsMax;
Result := FCells[AIndex];
end;
```