12

With writeln I can format numbers into a line of text.

var 
  file: text;
  mystring: string;

begin
  writeln(file,'Result is: ', var1:8:2,' | ', var2:8:2,' |');
end;

Is there a similar easy to use procedure in Delphi that would procedure similar result

  _format_string(mystring, 'Result is: ', var1:8:2,' | ', var2:8:2,' |');

Thank you.

2
  • 6
    Exact answer is no, it is a feature built into language itself (that is, Sacred Standard Pascal). There is no syntax which allows us (programmers) to write such subroutines. – OnTheFly Aug 1 '13 at 13:19
  • One of the things you have to take into account is that as of Delphi 2009, WriteLn and WriteLn use single-byte AnsiString whereas Format and such are UnicodeString. – Jeroen Wiert Pluimers Aug 6 '13 at 14:11
17

You use the Format function:

mystring := Format('The image dimensions are %d × %d.', [640, 480]);
12

Technically the answer is "yes". But it's not recommended.

You can write your own text file device driver based on the System.TTextRec type.

I've done this in the past (especially in the Turbo Pascal era) for debugging purposes. It is a lot of work, and requires you to write a special MyAssign procedure, and be sure to close the Text file using the TTextRec in a try..finally block. Cumbersome, but doable.

A much easier alternative is using the Format function as described by Andreas Rejbrand.

The cool thing about using Format is that you use for Format Strings not only to parameterize things like width and precision inside that Format String, but also as paramaters like you normally would provide values.

You can get very close to using a width of 8 and a precision of 2, like the example in your question.

For instance, to quote the documentation:

Format ('%*.*f', [8, 2, 123.456]);

is equivalent to:

Format ('%8.2f', [123.456]);

That is a much overlooked feature of Format and Format Strings.

3
  • 5
    Sweet -- never knew that. – Nick Hodges Aug 1 '13 at 15:31
  • Nice. Still pales in comparison to some of the formatting that you can do in Python, IMV. – David Heffernan Aug 1 '13 at 15:46
  • 1
    @David: What kind of awesome formatting can you do in Python? – Mason Wheeler Aug 1 '13 at 17:03
6

Although Jeroen doesn't recommend it, I have done something like this about a year ago - just to learn how to do it. This is the code:

type
  TTextFile = class
  private type
    TTextRecHelper = record helper for TTextRec
    public
      function GetTextFile: TTextFile;
      procedure SetTextFile(const Value: TTextFile);
      property TextFile: TTextFile read GetTextFile write SetTextFile;
    end;
  private var
    FBuilder: TStringBuilder;
    class function TextClose(var F: TTextRec): Integer; static;
    class function TextIgnore(var F: TTextRec): Integer; static;
    class function TextInput(var F: TTextRec): Integer; static;
    class function TextOpen(var F: TTextRec): Integer; static;
    class function TextOutput(var F: TTextRec): Integer; static;
    procedure AppendString(const Value: string);
    procedure AssignFile(var F: Text);
  public
    var F: Text;
    constructor Create;
    destructor Destroy; override;
    function ToString: string; override;
  end;

constructor TTextFile.Create;
begin
  inherited Create;
  FBuilder := TStringBuilder.Create();
  AssignFile(F);
  Rewrite(F);
end;

destructor TTextFile.Destroy;
begin
  Close(F);
  FBuilder.Free;
  inherited Destroy;
end;

procedure TTextFile.AppendString(const Value: string);
begin
  FBuilder.Append(Value);
end;

procedure TTextFile.AssignFile(var F: Text);
begin
  FillChar(F, SizeOf(F), 0);
  with TTextRec(F)do
  begin
    Mode := fmClosed;
    BufSize := SizeOf(Buffer);
    BufPtr := @Buffer;
    OpenFunc := @TextOpen;
    TextFile := Self;
  end;
end;

class function TTextFile.TextClose(var F: TTextRec): Integer;
begin
  Result := 0;
end;

class function TTextFile.TextIgnore(var F: TTextRec): Integer;
begin
  Result := 0;
end;

class function TTextFile.TextInput(var F: TTextRec): Integer;
begin
  F.BufPos := 0;
  F.BufEnd := 0;
  Result := 0;
end;

class function TTextFile.TextOpen(var F: TTextRec): Integer;
begin
  if F.Mode = fmInput then
  begin
    F.InOutFunc := @TextInput;
    F.FlushFunc := @TextIgnore;
    F.CloseFunc := @TextIgnore;
  end else
  begin
    F.Mode := fmOutput;
    F.InOutFunc := @TextOutput;
    F.FlushFunc := @TextOutput;
    F.CloseFunc := @TextClose;
  end;
  Result := 0;
end;

class function TTextFile.TextOutput(var F: TTextRec): Integer;
var
  AStr: AnsiString;
begin
  SetLength(AStr, F.BufPos);
  Move(F.BufPtr^, AStr[1], F.BufPos);
  F.TextFile.AppendString(string(AStr));
  F.BufPos := 0;
  Result := 0;
end;

function TTextFile.ToString: string;
begin
  Close(F);
  result := FBuilder.ToString;
  Rewrite(F);
end;

function TTextFile.TTextRecHelper.GetTextFile: TTextFile;
begin
  Move(UserData[1], Result, Sizeof(Result));
end;

procedure TTextFile.TTextRecHelper.SetTextFile(const Value: TTextFile);
begin
  Move(Value, UserData[1], Sizeof(Value));
end;

Example of how to use it according to your question:

  tf := TTextFile.Create;
  try
    Writeln(tf.F, 'Result is: ', var1:8:2,' | ', var2:8:2,' |');
    Caption := tf.ToString;
  finally
    tf.Free;
  end;
1
  • +1; well done. Reminds me of code I wrote in Turbo Pascal. Sans the try...finally though, and with object style classes (: – Jeroen Wiert Pluimers Aug 1 '13 at 19:16
2

Note about Writeln

Writeln(file, 'Result is: ', var1:8:2,' | ', var2:8:2,' |');

Output:

Result is:     4.50 |     0.67 |

It seems that Delphi does old Pascal formatting without honoring DecimalSeparator. This is the reason why Writeln output uses . and my other approaches below use , (I've a Spanish version of Windows).

TStringBuilder

In modern Delphi versions, TStringBuilder provides an elegant way for string concatenation with support for fluent interfaces. It has limited formatting capabilities, but includes a Format flavor (which, as the regular Format function, is very useful, but lacks type checking):

sb := TStringBuilder.Create;
try       
  sb.Append('Result is: ').Append(var1).Append(' | ').Append(var2).Append(' |');
  Memo.Lines.Add(sb.ToString);
  sb.Clear;
  sb.AppendFormat('Result is: %8.2f | %8.2f |', [var1, var2]);
  Memo.Lines.Add(sb.ToString);
finally                     
  sb.Free;
end;

Output:

Result is: 4,5 | 0,666666666666667 |
Result is:     4,50 |     0,67 |

Insertion operator

Using some tricks such as operator overloading and closures, it is possible to mimic the C++ ostream insertion operator:


Memo.Lines.Add(stringout < 'My ' < 5 < ' cents' < soEndl < '2/3: ' < soPrec(4) < 2/3);

Output:

My 5 cents  
2/3: 0,6667

Your example:

Memo.Lines.Add(
  stringout
    < 'Result is: ' < soWidth(8) < soPrec(2) < var1 < ' | '
    < soWidth(8) < soPrec(2) < var2 < ' |'
);

Output:

Result is:     4,50 |     0,67 |

When Delphi supports operator overloading in classes, implementation would be much cleaner. Meanwhile, using records for operator overloading and interfaces for automatic memory management do the trick:

type
  PStringOut = ^TStringOut;

  TStringOutManipulatorRef = reference to procedure(pso: PStringOut);

  PStringOutInternalStorage = ^TStringOutInternalStorage;

  TStringOutInternalStorage = record
    Data: TStringBuilder;
    Width, Precision: integer;
    procedure ClearFormat; inline;
    function GetFormatString(formatType: char): string;
  end;

  IStringOutInternal = interface
    function TheStorage: PStringOutInternalStorage;
  end;

  TStringOutInternal = class(TInterfacedObject, IStringOutInternal)
  strict private
    Storage: TStringOutInternalStorage;
  private
    constructor Create;
    function TheStorage: PStringOutInternalStorage;
  public
    destructor Destroy; override;
  end;

  TStringOut = record
  private
    Buffer: IStringOutInternal;
  public
    // insertion operator
    class operator LessThan(const this: TStringOut; add: string): TStringOut;
    class operator LessThan(const this: TStringOut; add: char): TStringOut;
    class operator LessThan(const this: TStringOut; add: integer): TStringOut;
    class operator LessThan(const this: TStringOut; add: double): TStringOut;
    class operator LessThan(const this: TStringOut; manipulator: TStringOutManipulatorRef): TStringOut; inline;

    // implicit conversion to string ("extraction" operator)
    class operator Implicit(const this: TStringOut): string; inline;
  end;

{ TStringOutInternalStorage }

procedure TStringOutInternalStorage.ClearFormat;
begin
  Width := 0;
  Precision := 0;
end;

function TStringOutInternalStorage.GetFormatString(formatType: char): string;
begin
  Result := '%';
  if Width > 0 then
    Result := Result + IntToStr(Width);
  if Precision > 0 then
    Result := Result + '.' + IntToStr(Precision);
  Result := Result + formatType;
end;

{ TStringOutInternal }

constructor TStringOutInternal.Create;
begin
  inherited;
  Storage.Data := TStringBuilder.Create;
end;

destructor TStringOutInternal.Destroy;
begin
  Storage.Data.Free;
  inherited;
end;

function TStringOutInternal.TheStorage: PStringOutInternalStorage;
begin
  Result := @Storage;
end;

{ TStringOut }

class operator TStringOut.Implicit(const this: TStringOut): string;
begin
  Result := this.Buffer.TheStorage.Data.ToString;
end;

class operator TStringOut.LessThan(const this: TStringOut; add: string): TStringOut;
begin
  this.Buffer.TheStorage.Data.AppendFormat(this.Buffer.TheStorage.GetFormatString('s'), [add]);
  this.Buffer.TheStorage.ClearFormat;
  Result.Buffer := this.Buffer;
end;

class operator TStringOut.LessThan(const this: TStringOut; add: char): TStringOut;
begin
  this.Buffer.TheStorage.Data.Append(add);
  this.Buffer.TheStorage.ClearFormat;
  Result.Buffer := this.Buffer;
end;

class operator TStringOut.LessThan(const this: TStringOut; add: integer): TStringOut;
begin
  this.Buffer.TheStorage.Data.AppendFormat(this.Buffer.TheStorage.GetFormatString('d'), [add]);
  this.Buffer.TheStorage.ClearFormat;
  Result.Buffer := this.Buffer;
end;

class operator TStringOut.LessThan(const this: TStringOut; add: double): TStringOut;
var
  s: PStringOutInternalStorage;
begin
  s := this.Buffer.TheStorage;

  if s.Precision <> 0
  then s.Data.AppendFormat(s.GetFormatString('f'), [add])
  else s.Data.AppendFormat(s.GetFormatString('g'), [add]);

  s.ClearFormat;
  Result.Buffer := this.Buffer;
end;

class operator TStringOut.LessThan(const this: TStringOut; manipulator: TStringOutManipulatorRef): TStringOut;
begin
  Result := this;
  manipulator(@Result);
end;

{ Manipulators }

function soEndl: TStringOutManipulatorRef;
begin
  Result :=
    procedure(pso: PStringOut)
    begin
      pso.Buffer.TheStorage.Data.AppendLine;
      pso.Buffer.TheStorage.ClearFormat;
    end;
end;

function soWidth(value: integer): TStringOutManipulatorRef;
begin
  Result :=
    procedure(pso: PStringOut)
    begin
      pso.Buffer.TheStorage.Width := value;
    end;
end;

function soPrec(value: integer): TStringOutManipulatorRef;
begin
  Result :=
    procedure(pso: PStringOut)
    begin
      pso.Buffer.TheStorage.Precision := value;
    end;
end;

{ The stringout "constructor" }

function stringout: TStringOut; inline;
begin
  Result.Buffer := TStringOutInternal.Create;
end;
1
  • +1 for the DecimalSeparator observation, and for the C++ ostream simulation. – Jeroen Wiert Pluimers Aug 2 '13 at 6:26

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