Object Pascal

Object Pascal is an extension to the programming language Pascal that provides object-oriented programming (OOP) features such as classes and methods.

Object Pascal
ParadigmsImperative, structured, object-oriented, functional (Delphi dialect only), component-based, event-driven, generic
FamilyWirth Pascal
Designed byInitially Apple Computer with input from Niklaus Wirth, and then by Borland International, led by Anders Hejlsberg[1]
First appeared1986 (1986)
Typing disciplineStatic and dynamic (dynamic typing through variants, array of const, and RTTI), strong, safe
PlatformARM, x86, PowerPC, ppc64, SPARC, MIPS, CLI, Java, Cocoa
Filename extensions.p, .pp, .pas
Major implementations
Delphi (x86, ARM), Free Pascal (x86, PowerPC, ppc64, SPARC, MIPS, ARM), Oxygene (CLI, Java, Native Cocoa), Smart Mobile Studio (JavaScript)
Dialects
Apple, Turbo Pascal, Free Pascal (using objfpc or delphi mode), Delphi, Delphi.NET, Delphi Web Script, Oxygene
Influenced by
Pascal, Simula, Smalltalk
Influenced
C#, Genie, Java, Nim, C/AL

The language was originally developed by Apple Computer as Clascal for the Lisa Workshop development system. As Lisa gave way to Macintosh, Apple collaborated with Niklaus Wirth, the author of Pascal, to develop an officially standardized version of Clascal. This was renamed Object Pascal. Through the mid-1980s, Object Pascal was the main programming language for early versions of the MacApp application framework. The language lost its place as the main development language on the Mac in 1991 with the release of the C++-based MacApp 3.0. Official support ended in 1996.

Symantec also developed a compiler for Object Pascal for their THINK Pascal product, which could compile programs much faster than Apple's own Macintosh Programmer's Workshop (MPW). Symantec then developed the THINK Class Library (TCL), based on MacApp concepts, which could be called from both Object Pascal and THINK C. The THINK suite largely displaced MPW as the main development platform on the Mac in the late 1980s.

Symantec ported Object Pascal to the PC, and developed a similar object framework on that platform. In contrast to TCL, which eventually migrated to C++, the PC libraries remained mainly based on Pascal.

Borland added support for object-oriented programming to Turbo Pascal 5.5, which would eventually become the basis for the Object Pascal dialect used in Delphi. Delphi remained mainstream for business applications on the PC into the early 2000s, and was partly displaced in the 2000s with the introduction of the .NET Framework.

History

Apple Pascal

Pascal became a major language in the programming world in the 1970s, with high-quality implementations on most minicomputer platforms and microcomputers. Among the later was the UCSD Pascal system, which compiled to an intermediate p-System code format that could then run on multiple platforms. Apple licensed UCSD and used it as the basis for their Apple Pascal system for the Apple II and Apple III.

Pascal became one of the major languages in the company in this period. With the start of the Apple Lisa project, Pascal was selected as the main programming language of the platform, although this time as a compiler in contrast to the p-System interpreter.

Clascal

Object Pascal is an extension of the Pascal language that was developed at Apple Computer by a team led by Larry Tesler in consultation with Niklaus Wirth, the inventor of Pascal. It is descended from an earlier object-oriented version of Pascal named Clascal, which was available on the Lisa computer.

Object Pascal was needed to support MacApp, an expandable Macintosh application framework that would now be termed a class library. Object Pascal extensions, and MacApp, were developed by Barry Haynes, Ken Doyle, and Larry Rosenstein, and were tested by Dan Allen. Larry Tesler oversaw the project, which began very early in 1985 and became a product in 1986.

An Object Pascal extension was also implemented in the Think Pascal IDE. The IDE includes the compiler and an editor with syntax highlighting and checking, a powerful debugger, and a class library. Many developers preferred Think Pascal over Apple's implementation of Object Pascal because Think Pascal offered a much faster compile–link–debug cycle, and tight integration of its tools. The last official release of Think Pascal was 4.01, in 1992. Symantec later released an unofficial version 4.5d4 at no charge.

Apple dropped support for Object Pascal when they moved from Motorola 68000 series chips to IBM's PowerPC architecture in 1994. MacApp 3.0, for this platform, was rewritten in C++.

Borland, Inprise, CodeGear, and Embarcadero years

In 1986, Borland introduced similar extensions, also named Object Pascal, to the Turbo Pascal product for the Macintosh, and in 1989 for Turbo Pascal 5.5 for DOS. When Borland refocused from DOS to Windows in 1994, they created a successor to Turbo Pascal, named Delphi, and introduced a new set of extensions to create what is now known as the Delphi language.

The development of Delphi started in 1993 and Delphi 1.0 was officially released in the United States on 14 February 1995. While code using the Turbo Pascal object model could still be compiled, Delphi featured a new syntax using the keyword class in preference to object, the Create constructor and a virtual Destroy destructor (and negating having to call the New and Dispose procedures), properties, method pointers, and some other things. These were inspired by the ISO working draft for object-oriented extensions, but many of the differences from Turbo Pascal's dialect (such as the draft's requirement that all methods be virtual) were ignored.

The Delphi language has continued to evolve over the years to support constructs such as dynamic arrays, generics and anonymous methods. The old object syntax introduced by Apple ("Old-Style Object Types") is still supported.[2]

Versions

  • Borland used the name Object Pascal for the programming language in the first versions, but later renamed it to Delphi. Compilers that claim to be compatible with Object Pascal are often trying to be compatible with Delphi source code. Because Delphi is a trademark, compatible compilers continue using the name Object Pascal.
  • Embarcadero Technologies, which purchased Delphi in 2008,[3] sells the Delphi integrated development environment (IDE) that compiles the Delphi dialect of Object Pascal to Windows and macOS, iOS, Android and Web.
  • .NET support existed from Delphi 8 through Delphi 2005, 2006, and 2007, which now has been replaced by another language, Oxygene (see below), which is not fully backward-compatible.
  • The Oxygene language developed by RemObjects Software targets the Common Language Infrastructure, the Java (software platform) Runtime Environment and Apple's Cocoa frameworks for iOS and macOS.
  • The open source Free Pascal project allows the language to be compiled for a wide range of operating systems, including Linux (32-bit, 64-bit), FreeBSD, Classic Mac OS, macOS, Solaris, Windows API (32, 64, CE), the ARM instruction set architecture (ISA), and several other hardware architectures. The first version of Free Pascal for the iPhone software development kit (SDK) 2.x was announced on January 17, 2009.[4]
  • The Smart Pascal language[5] targets JavaScript-ECMAScript and is used in Smart Mobile Studio, written by Jon Lennart Aasenden and published by Optimale Systemer (2012). The language greatly simplifies HTML5 development through object-oriented, and rapid application development (RAD) methods. Smart Pascal integrates tightly with established technologies such as node.js, Embarcadero DataSnap and Remobjects SDK to deliver high-performance client–server model web applications. The language allows easy creation of visual components and reusable libraries. The Smart Pascal dialect stems from the DWScript language, extended to better integrate with the JavaScript environment and libraries, such as asm sections which are plain JavaScript but have access to Pascal symbols, or external classes which map directly to prototypal JavaScript classes. Smart Pascal introduces true inheritance, classes, partial classes, interfaces, a virtual method table and many other advanced constructs which are not a part of JavaScript by default.
  • MIDletPascal runs on the Java bytecode platform. Free Pascal targets the JVM also, with a much richer set of features.
  • The Morfik Pascal language, developed by Morfik, targets Ajax-enabled Web applications. The Morfik compiler is incorporated into the company's AppsBuilder IDE and allows Object Pascal code to be used in implementing code that will execute both in the browser and on the server. It uses the Free Pascal compiler to generate native binaries from Object Pascal.
  • The open source GNU Pascal compiler is available as a front-end to the GNU compiler collection, which implements the International Organization for Standardization (ISO) 7185 Pascal standard, and most of the ISO 10206 Extended Pascal standard.
  • A free compiler, Turbo51, is available for producing code for Intel 8051 chips.
  • WDSibyl is an open source Delphi-like IDE and compiler available for Microsoft Windows and OS/2, and is a commercial Borland Pascal compatible environment released by a company named Speedsoft that was later developed into a Delphi-like RAD environment named Sybil, and then open sourced under the GPL when that company closed down. Wolfgang Draxler (WD) now maintains the software. The compiler used seems to be located in a DLL and is not open-source.

Compilers

Object Pascal compilers are available for a wide range of operating systems and architectures.

Legacy products

  • Borland Kylix was a Linux variant of Delphi which only targets Intel 32-bit Linux using the Qt library. It does not work out of the box with most modern Linux distributions.
  • Virtual Pascal was a free 32-bit Turbo Pascal and Delphi compatible compiler for mainly OS/2 and Microsoft Windows. Later, it also received a DOS+ Extender and an experimental Linux cross-compiler. The compiler's development stopped at about the level of Delphi 2. In 2007, its official website ceased to operate, and further development ceased.

Interpreters

Pascal Script (formerly InnerFuse) and DWScript (Delphi Web Script) are open-source Object Pascal interpreters and scripting engines written in Delphi. They support subsets of Object Pascal. DWScript can also compile Object Pascal code into JavaScript code (Smart Pascal), and supports just-in-time compilation (JIT). Modern Pascal provides 3 different interpreters: a command-line interface (CLI), Apache Module (Celerity), and CodeRunner (node.js like solution able to handle different scripts per port), besides the ability to compile and protect a script's source code.

Sample "Hello World" programs

Apple's Object Pascal

program ObjectPascalExample;

   type
      THelloWorld = object
         procedure Put;
      end;

   var
      HelloWorld: THelloWorld;

   procedure THelloWorld.Put;
   begin
      ShowMessage('Hello, World!');
   end;

begin
   New(HelloWorld);
   HelloWorld.Put;
   Dispose(HelloWorld);
end.

Turbo Pascal's Object Pascal

Still supported in Delphi and Free Pascal. FPC also packages its own substitutes for the libraries/units. Delphi doesn't. The Free Pascal 1.0 series and the FPC textmode IDE are the largest open codebases in this dialect. Free Pascal 2.0 was rewritten in a more Delphi-like dialect, and the textmode IDE and related frameworks (Free Vision) are the only parts in the TP version of Object Pascal.

Stack based allocation

program ObjectPascalExample;

   type
      THelloWorld = object
         procedure Put;
      end;

   procedure THelloWorld.Put;
   begin
      WriteLn('Hello, World!');
   end;

var
  HelloWorld: THelloWorld; { allocated on the stack and can be used without explicit allocation. }
begin
   HelloWorld.Put;
end.

Heap based allocation

program ObjectPascalExample;

   type
      PHelloWorld = ^THelloWorld;
      THelloWorld = object
         procedure Put;
      end;

   procedure THelloWorld.Put;
   begin
      WriteLn('Hello, World!');
   end;

var
  HelloWorld: PHelloWorld; { this is a typed pointer to a THelloWorld }

begin
   New(HelloWorld);
   HelloWorld^.Put;
   Dispose(HelloWorld);
end.

Another example:

program ObjectPascalExample;

   type
      PHelloWorld = ^THelloWorld;
      THelloWorld = object
         procedure Put;
      end;

   procedure THelloWorld.Put;
   begin
      WriteLn('Hello, World!');
   end;

var
  HelloWorld: PHelloWorld; { this is a typed pointer to a THelloWorld }
  HelloWorld2: ^THelloWorld; { this is exactly the same with different syntax } 
  HelloWorld3: ^THelloWorld;                               
  HelloWorld4: PHelloWorld;   
begin
   { This works in a similar way as the code above, note the allocation and de-allocation, though,
     many people get confused. In the past there was a wrong example with wrong comments here... }

   New(HelloWorld);  { one instance }
   HelloWorld4 := HelloWorld; { this is valid - a pointer copy }
   HelloWorld2 := HelloWorld; { this is valid - a pointer copy }
   New(HelloWorld3); { a second instance }
   HelloWorld4 := HelloWorld3; { this is valid - a pointer copy }
   HelloWorld2 := HelloWorld3; { this is valid - a pointer copy }
   Dispose(HelloWorld);  { we allocated just two instances }
   Dispose(HelloWorld3); { so we have to release only two instances }
end.

This works based on pointer copy, unless there is a specific allocation for a deeper copy.

Delphi and Free Pascal's Object Pascal

program ObjectPascalExample;

type
  THelloWorld = class
    procedure Put;
  end;

procedure THelloWorld.Put;
begin
  Writeln('Hello, World!');
end;

var
  HelloWorld: THelloWorld;               { this is an implicit pointer }

begin
  HelloWorld := THelloWorld.Create;      { constructor returns a pointer to an object of type THelloWorld }
  HelloWorld.Put;
  HelloWorld.Free;                       { this line deallocates the THelloWorld object pointed to by HelloWorld }
end.

Note that the object construct is still available in Delphi and Free Pascal.

Modern Pascal's Object Pascal

program ObjectPascalExample;

type
  THelloWorld = class
    Put:procedure of object;
  end;

procedure THelloWorld.Put;
begin
  Writeln('Hello, World!');
end;

procedure THelloWorld.Free;
begin
   // dispose any pointers //
end;

procedure THelloWorld.Init;
begin
   // initialize variables
   // link methods (manual RTTI)
   with Self do begin
      TMethod(@Put):=[@THelloWorld.Put, @Self];
      TMethod(@Free):=[@THelloWorld.Free, @Self];
   End;
end;

var
  HelloWorld: THelloWorld;               { this is an implicit pointer }

begin
  HelloWorld.Init;                       { self initialization (pointer to an object) of type THelloWorld }
  HelloWorld.Put;
  HelloWorld.Free;                       { this line deallocates the THelloWorld object pointed to by HelloWorld }
end.

Oxygene Object Pascal

namespace ObjectPascalExample;

   interface

   type
      ConsoleApp = class
         class method Main;
      end;

      THelloWorld = class
         method Put;
      end;

   implementation

   method THelloWorld.Put;
   begin
      Console.WriteLine('Hello, World!');
   end;

   class method ConsoleApp.Main;
   begin
      var HelloWorld := new THelloWorld;
      HelloWorld.Put;
   end;

end.

DWScript's Object Pascal (a.k.a. Smart Pascal)

type
   THelloWorld = class
      procedure Put;
      begin
         PrintLn('Hello, World!');
      end
   end;

var HelloWorld := THelloWorld.Create;
HelloWorld.Put;

The method implementation can also be made in a distinct location as in other Object Pascal dialects.

Development

Many features have been introduced continuously to Object Pascal with extensions to Delphi and extensions to FreePascal. In reaction to criticism, Free Pascal has adopted generics with the same syntax as Delphi, provided Delphi compatibility mode is selected, and both Delphi (partial) and Free Pascal (more extensive) support operator overloading. Delphi has also introduced many other features since version 7,[6] including generics. Whereas FreePascal tries to be compatible to Delphi in Delphi compatibility mode, it also usually introduced many new features to the language that are not always available in Delphi.

gollark: Just numerically solve the accursedly complex differential equations.
gollark: A REAL physics engine just ??? Euler's equations.
gollark: Constantly? That seems annoying.
gollark: Reduce the timestep if stuff is going very fast.
gollark: Just approximate it™.

References

  1. Gibson, Steve (May 8, 1989). "Borland and Microsoft Enter the Object-Oriented Pascal Ring". Infoworld. p. 28.
  2. Lischner, Ray (2000). Delphi in a nutshell: a desktop quick reference (1st ed.). Sebastopol, CA: O'Reilly and Associates. ISBN 1565926595.
  3. Community Letter: Embarcadero Technologies agrees to acquire CodeGear from Borland. Edn.embarcadero.com. Retrieved on 2013-07-21.
  4. "iPhone/iPod development". Free Pascal development team. Retrieved 2009-04-13.
  5. "A Smart Book".
  6. "New Delphi language features since Delphi 7". CodeGear. Retrieved 2008-07-06.

Delphi

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