Difference between revisions of "Executing External Programs"

From Free Pascal wiki
(Reading large output)
Line 427: Line 427:
   aProcess: TProcess;
   Process: TProcess;
  I: Integer;
   Process := TProcess.Create(nil);
     aProcess.InheritHandles := false;
     Process.InheritHandles := False;
     aProcess.Options := [];
     Process.Options := [];
     aProcess.ShowWindow := swoShow;
     Process.ShowWindow := swoShow;
//   aProcess.CommandLine := '/usr/bin/gedit'; // -----> CommandLine is deprecated, USE:
    // Copy default environment variables including DISPLAY variable for GUI application to work
     AProcess.Executable := '/usr/bin/gedit';  
    for I := 0 to GetEnvironmentVariableCount - 1 do
     Process.Executable := '/usr/bin/gedit';   

Revision as of 12:24, 8 January 2015

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Overview : Comparison

Method Platforms Single Line Features
SysUtils.ExecuteProcess Cross-Platform Yes Very limited, synchronous
(ShellApi) ShellExecute MS Windows only Yes Many. Can start programs with elevation/admin permissions.
Unix fpsystem, fpexecve Unix only
TProcess Cross-Platform No Full
RunCommand(InDir) Cross-Platform Requires FPC 2.6.2+ Yes Covers common TProcess usage
(LCLIntf) OpenDocument Cross-Platform Yes Only open document


Despite a number of limitations, the simplest way to launch a program (modal, no pipes or any form of control) is to simply use :

SysUtils.ExecuteProcess(UTF8ToSys('/full/path/to/binary'), '', []);

The calling process runs synchronously: it 'hangs' until the external program has finished - but this may be useful if you require the user to do something before continuing in your application. For a more versatile approach, see the next section about the prefered cross-platform TProcess, or if you only wish to target Windows you may use ShellExecute.

MS Windows : CreateProcess, ShellExecute and WinExec


Note: While FPC/Lazarus has support for CreateProcess, ShellExecute and/or WinExec, this support is only in Win32/64. If your program is cross-platform, consider using TProcess.


Note: WinExec is a 16-bit call that has been deprecated for years in the Windows API. In recent versions of FPC it generates a warning.

ShellExecute is a standard MS Windows function (ShellApi.h) with good documentation on MSDN (note their remarks about initialising COM if you find the function unreliable).

uses ..., ShellApi;

// Simple one-liner (ignoring error returns) :
if ShellExecute(0,nil, PChar('"C:\my dir\prog.exe"'),PChar('"C:\somepath\some_doc.ext"'),nil,1) =0 then;

// Execute a Batch File :
if ShellExecute(0,nil, PChar('cmd'),PChar('/c mybatch.bat'),nil,1) =0 then;

// Open a command window in a given folder :
if ShellExecute(0,nil, PChar('cmd'),PChar('/k cd \path'),nil,1) =0 then;

// Open a webpage URL in the default browser using 'start' command (via a brief hidden cmd window) :
if ShellExecute(0,nil, PChar('cmd'),PChar('/c start www.lazarus.freepascal.org/'),nil,0) =0 then;

// or a useful procedure:
procedure RunShellExecute(const prog,params:string);
  //  ( Handle, nil/'open'/'edit'/'find'/'explore'/'print',   // 'open' isn't always needed 
  //      path+prog, params, working folder,
  //        0=hide / 1=SW_SHOWNORMAL / 3=max / 7=min)   // for SW_ constants : uses ... Windows ...
  if ShellExecute(0,'open',PChar(prog),PChar(params),PChar(extractfilepath(prog)),1) >32 then; //success
  // return values 0..32 are errors

There is also ShellExecuteExW as a WideChar version, and ShellExecuteExA is AnsiChar.


If in Delphi you used ShellExecute for documents like Word documents or URLs, have a look at the open* (openurl etc) functions in lclintf (see the Alternatives section lower down this page).

Using ShellExecuteEx for elevation/administrator permissions

If you need to execute external program with administrator/elevated privileges, you can use the runas method with the alternative ShellExecuteEx function:

uses ShellApi, ...;

function RunAsAdmin(const Handle: Hwnd; const Path, Params: string): Boolean;
  sei: TShellExecuteInfoA;
  FillChar(sei, SizeOf(sei), 0);
  sei.cbSize := SizeOf(sei);
  sei.Wnd := Handle;
  sei.lpVerb := 'runas';
  sei.lpFile := PAnsiChar(Path);
  sei.lpParameters := PAnsiChar(Params);
  sei.nShow := SW_SHOWNORMAL;
  Result := ShellExecuteExA(@sei);

procedure TFormMain.RunAddOrRemoveApplication;
  // Example that uses elevated rundll to open the Control Panel to Programs and features
  RunAsAdmin(FormMain.Handle, 'rundll32.exe shell32.dll,Control_RunDLL appwiz.cpl', '');

Unix fpsystem, fpexecve and shell

These functions are platform dependent.

Note that the 1.0.x 'Unix.Shell has been deprecated for a while, and is removed in trunk. Use fpsystem.


You can use TProcess to launch external programs. Some of the benefits of using TProcess are that it is:

  • Platform Independent
  • Capable of reading from stdout and writing to stdin.
  • Possible to wait for a command to finish or let it run while your program moves on.

Important notes:

  • TProcess is not a terminal/shell! You cannot directly execute scripts or redirect output using operators like "|", ">", "<", "&" etc. It is possible to obtain the same results with TProcess using pascal, some examples are below..
  • Presumably on Linux/Unix: you must specify the full path to the executable. For example '/bin/cp' instead of 'cp'. If the program is in the standard PATH then you can use the function FindDefaultExecutablePath from the FileUtil unit of the LCL.
  • On Windows, if the command is in the path, you don't need to specify the full path.
  • TProcess reference

The Simplest Example

A lot of typical cases have been prepared in the Runcommand functions. Before you start copy and paste the examples below, check them out first.

A Simple Example

This example (that shouldn't be used in production, see Large Output) just shows you how to run an external program, nothing more:

// This is a demo program that shows
// how to launch an external program.
program launchprogram;
// Here we include files that have useful functions
// and procedures we will need.
  Classes, SysUtils, Process;
// This defines the var "AProcess" as a variable 
// of the type "TProcess"
  AProcess: TProcess;
// This is where our program starts to run
  // Now we will create the TProcess object, and
  // assign it to the var AProcess.
  AProcess := TProcess.Create(nil);
  // Tell the new AProcess what the command to execute is.
  // Let's use the Free Pascal compiler (i386 version that is)
  AProcess.Executable:= 'ppc386';
  // Pass -h together with ppc386 (so we're executing ppc386 -h):
  // Previous versions of FPC did not yet have .Executable and .Parameters and
  // used the .CommandLine property. While this is still available, it is deprecated
  // so it should not be used.
  // We will define an option for when the program
  // is run. This option will make sure that our program
  // does not continue until the program we will launch
  // has stopped running.                vvvvvvvvvvvvvv
  AProcess.Options := AProcess.Options + [poWaitOnExit];
  // Now let AProcess run the command in .Commandline:
  // This is not reached until ppc386 stops running.

That's it! You have just learned to run an external program from inside your own program.

An improved example (but not correct yet)

That's nice, but how do I read the Output of a program that I have run?

Well, let's expand our example a little and do just that: This example is kept simple so you can learn from it. Please don't use this example in production code, but use the code in #Reading large output.

// This is a 
// demo program that shows
// how to launch an external program
// and read from its output.
program launchprogram;
// Here we include files that have useful functions
// and procedures we will need.
  Classes, SysUtils, Process;
// This is defining the var "AProcess" as a variable 
// of the type "TProcess"
// Also now we are adding a TStringList to store the 
// data read from the programs output.
  AProcess: TProcess;
  AStringList: TStringList;

// This is where our program starts to run
  // Now we will create the TProcess object, and
  // assign it to the var AProcess.
  AProcess := TProcess.Create(nil);
  // Create the TStringList object.
  AStringList := TStringList.Create;
  // Tell the new AProcess what the command to execute is.
  // Let's use the Free Pascal compiler
  // AProcess.CommandLine := '/usr/bin/ppc386 -h';      -----> CommandLine is deprecated,         

  // -----> CommandLine is deprecated, use:
     AProcess.Executable := '/usr/bin/ppc386'; 

  // Previous versions of FPC did not yet have .Executable and .Parameters and
  // used the .CommandLine property. While this is still available, it is deprecated
  // so it should not be used.

  // We will define an option for when the program
  // is run. This option will make sure that our program
  // does not continue until the program we will launch
  // has stopped running. Also now we will tell it that
  // we want to read the output of the file.
  AProcess.Options := AProcess.Options + [poWaitOnExit, poUsePipes];
  // Now that AProcess knows what the commandline is 
  // we will run it.
  // This is not reached until ppc386 stops running.
  // Now read the output of the program we just ran
  // into the TStringList.
  // Save the output to a file.
  // Now that the file is saved we can free the 
  // TStringList and the TProcess.

Reading large output

In the previous example we waited until the program exited. Then we read what the program has written to its output.

Suppose the program writes a lot of data to the output. Then the output pipe becomes full and the called progam waits until the pipe has been read from.

But the calling program doesn't read from it until the called program has ended. A deadlock occurs.

The following example therefore doesn't use poWaitOnExit, but reads from the output while the program is still running. The output is stored in a memory stream, that can be used later to read the output into a TStringList.

If you want to read output from an external process, this is the code you should adapt for production use.

program procoutlarge;
    Copyright (c) 2004-2011 by Marc Weustink and contributors
    This example is created in the hope that it will be useful,
    but WITHOUT ANY WARRANTY; without even the implied warranty of
// This is a 
// demo program that shows
// how to launch an external program
// and read from its output.

// The example is adjusted (but not tested) according to:
// CommandLine is deprecated. To avoid problems with command-line options with spaces in them and the quoting problems that this entails, it 
// has been superseded by the properties TProcess.Executable and TProcess.Parameters , which should be used instead of CommandLine. New code 
// should leave CommandLine empty

  Classes, Process, SysUtils;
  READ_BYTES = 2048;
  OurCommand: String;
  OutputLines: TStringList;
  MemStream: TMemoryStream;
  OurProcess: TProcess;
  NumBytes: LongInt;
  BytesRead: LongInt;
  // A temp Memorystream is used to buffer the output
  MemStream := TMemoryStream.Create;
  BytesRead := 0;
  OurProcess := TProcess.Create(nil);
  // Recursive dir is a good example.
  OurCommand:='invalid command, please fix the IFDEFS.';

  {$IFDEF Windows}
  //Can't use dir directly, it's built in
  //so we just use the shell:
  //OurCommand:='cmd.exe /c "dir /s c:\windows\"';   -----> CommandLine is deprecated, USE:
     OurProcess.Executable := 'cmd.exe'; 
     OurProcess.Parameters.Add('/c dir /s c:\windows\')
  {$ENDIF Windows}

  {$IFDEF Unix}
 // OurCommand := '/bin/ls --recursive --all -l /';   -----> CommandLine is deprecated, use:
    OurCommand := '--recursive --all -l /'; 
    OurProcess.Executable := '/bin/ls'; 
  {$ENDIF Unix}

 // writeln('-- Going to run: ' + OurCommand);         -----> CommandLine is deprecated, use:
    writeln('-- Going to run:  + ourExecutable' + OurCommand);
  //OurProcess.CommandLine := OurCommand;              -----> CommandLine is deprecated,   

  // We cannot use poWaitOnExit here since we don't
  // know the size of the output. On Linux the size of the
  // output pipe is 2 kB; if the output data is more, we
  // need to read the data. This isn't possible since we are
  // waiting. So we get a deadlock here if we use poWaitOnExit.
  OurProcess.Options := [poUsePipes];
  WriteLn('-- External program run started');
  while True do
    // make sure we have room
    MemStream.SetSize(BytesRead + READ_BYTES);
    // try reading it
    NumBytes := OurProcess.Output.Read((MemStream.Memory + BytesRead)^, READ_BYTES);
    if NumBytes > 0 // All read() calls will block, except the final one.
    then begin
      Inc(BytesRead, NumBytes);
      Write('.') //Output progress to screen.
    end else 
      BREAK // Program has finished execution.
  if BytesRead > 0 then WriteLn;
  WriteLn('-- External program run complete');
  OutputLines := TStringList.Create;
  WriteLn('-- External program output line count = ', OutputLines.Count, ' --');
  for NumBytes := 0 to OutputLines.Count - 1 do
  WriteLn('-- Program end');

Using input and output of a TProcess

See processdemo example in the Lazarus-CCR SVN.

Hints on the use of TProcess

If you are creating a cross-platform program, you can change commandline according to the OS, using directives "{$IFDEF}s" and "{$ENDIF}s".


// AProcess.CommandLine := 'calc.exe'; // -----> CommandLine is deprecated, USE:
 AProcess.Executable := 'calc.exe'; 

// AProcess.CommandLine := 'kcalc'; // -----> CommandLine is deprecated, USE:
 AProcess.Executable := 'kcalc'; 
AProcess.Execute; //in alternative, you can use AProcess.Active:=True

OS X show application bundle in foreground

You can start an application bundle via TProcess by starting the executable within the bundle. For example:


This will start the Calendar, but the window will be behind the current application. To get the application in the foreground you can use the open utility with the -n parameter:


If your application needs parameters, you can pass open the --args parameter, after which all parameters are passed to the application:


Run detached program

Normally a program started by your application is a child process and is killed, when your application is killed. When you want to run a standalone program that keeps running, you can use the following:

  Process: TProcess;
  I: Integer;
  Process := TProcess.Create(nil);
    Process.InheritHandles := False;
    Process.Options := [];
    Process.ShowWindow := swoShow;

    // Copy default environment variables including DISPLAY variable for GUI application to work
    for I := 0 to GetEnvironmentVariableCount - 1 do

    Process.Executable := '/usr/bin/gedit';  

Example of "talking" with aspell process

Inside pasdoc source code you can find two units that perform spell-checking by "talking" with running aspell process through pipes:

  • PasDoc_ProcessLineTalk.pas unit implements TProcessLineTalk class, descendant of TProcess, that can be easily used to talk with any process on a line-by-line basis.
  • PasDoc_Aspell.pas units implements TAspellProcess class, that performs spell-checking by using underlying TProcessLineTalk instance to execute aspell and communicate with running aspell process.

Both units are rather independent from the rest of pasdoc sources, so they may serve as real-world examples of using TProcess to run and communicate through pipes with other program.

Replacing shell operators like "| < >"

Sometimes you want to run a more complicated command that pipes its data to another command or to a file. Something like

ShellExecute('firstcommand.exe | secondcommand.exe');


ShellExecute('dir > output.txt');

Executing this with TProcess will not work. i.e:

// this won't work
Process.CommandLine := 'firstcommand.exe | secondcommand.exe'; 

Why using special operators to redirect output doesn't work

TProcess is just that, it's not a shell environment, only a process. It's not two processes, it's only one. It is possible to redirect output however just the way you wanted. See the next section.

How to redirect output with TProcess

You can redirect the output of a command to another command by using a TProcess instance for each command.

Here's an example that explains how to redirect the output of one process to another. To redirect the output of a process to a file/stream see the example Reading Large Output

Not only can you redirect the "normal" output (also known as stdout), but you can also redirect the error output (stderr), if you specify the poStderrToOutPut option, as seen in the options for the second process.

program Project1;
  Classes, sysutils, process;
  SecondProcess: TProcess;
  Buffer: array[0..127] of char;
  ReadCount: Integer;
  ReadSize: Integer;
  FirstProcess  := TProcess.Create(nil);
  SecondProcess := TProcess.Create(nil);
  FirstProcess.Options  := [poUsePipes];
  SecondProcess.Options := [poUsePipes,poStderrToOutPut];
// FirstProcess.CommandLine  := 'pwd';                 -----> CommandLine is deprecated, USE:
  FirstProcess.Executable := 'pwd'; 
// SecondProcess.CommandLine := 'grep '+ DirectorySeparator+ ' -';  -----> CommandLine is deprecated, USE:
  SecondProcess.Executable := 'grep'; 
  SecondProcess.Parameters.Add(DirectorySeparator+ ' -'); 
  // this would be the same as "pwd | grep / -"
  while FirstProcess.Running or (FirstProcess.Output.NumBytesAvailable > 0) do
    if FirstProcess.Output.NumBytesAvailable > 0 then
      // make sure that we don't read more data than we have allocated
      // in the buffer
      ReadSize := FirstProcess.Output.NumBytesAvailable;
      if ReadSize > SizeOf(Buffer) then
        ReadSize := SizeOf(Buffer);
      // now read the output into the buffer
      ReadCount := FirstProcess.Output.Read(Buffer[0], ReadSize);
      // and write the buffer to the second process
      SecondProcess.Input.Write(Buffer[0], ReadCount);
      // if SecondProcess writes much data to it's Output then 
      // we should read that data here to prevent a deadlock
      // see the previous example "Reading Large Output"
  // Close the input on the SecondProcess
  // so it finishes processing it's data
  // and wait for it to complete
  // be carefull what command you run because it may not exit when
  // it's input is closed and the following line may loop forever
  while SecondProcess.Running do
  // that's it! the rest of the program is just so the example
  // is a little 'useful'

  // we will reuse Buffer to output the SecondProcess's
  // output to *this* programs stdout
  WriteLn('Grep output Start:');
  ReadSize := SecondProcess.Output.NumBytesAvailable;
  if ReadSize > SizeOf(Buffer) then
    ReadSize := SizeOf(Buffer);
  if ReadSize > 0 then
    ReadCount := SecondProcess.Output.Read(Buffer, ReadSize);
    WriteLn(Copy(Buffer,0, ReadCount));
    WriteLn('grep did not find what we searched for. ', SecondProcess.ExitStatus);
  WriteLn('Grep output Finish:');
  // free our process objects

That's it. Now you can redirect output from one program to another.


This example may seem overdone since it's possible to run "complicated" commands using a shell with TProcess like:

Process.Commandline := 'sh -c "pwd | grep / -"';

But our example is more crossplatform since it needs no modification to run on Windows or Linux etc. "sh" may or may not exist on your platform and is generally only available on *nix platforms. Also we have more flexibility in our example since you can read and write from/to the input, output and stderr of each process individually, which could be very advantageous for your project.

Redirecting input and output and running under root

A common problem on Unixes (OSX) and Linux is that you want to execute some program under the root account (or, more generally, another user account). An example would be running the ping command.

If you can use sudo for this, you could adapt the following example adapted from one posted by andyman on the forum ([1]). This sample runs ls on the /root directory, but can of course be adapted.

A better way to do this is to use the policykit package, which should be available on all recent Linuxes. See the forum thread for details.

Large parts of this code are similar to the earlier example, but it also shows how to redirect stdout and stderr of the process being called separately to stdout and stderr of our own code.

program rootls;

{ Demonstrates using TProcess, redirecting stdout/stderr to our stdout/stderr,
calling sudo on Linux/OSX, and supplying input on stdin}
{$mode objfpc}{$H+}

  Math, {for min}

  procedure RunsLsRoot;
    Proc: TProcess;
    CharBuffer: array [0..511] of char;
    ReadCount: integer;
    ExitCode: integer;
    SudoPassword: string;
    WriteLn('Please enter the sudo password:');
    ExitCode := -1; //Start out with failure, let's see later if it works
    Proc := TProcess.Create(nil); //Create a new process
      Proc.Options := [poUsePipes, poStderrToOutPut]; //Use pipes to redirect program stdin,stdout,stderr
      Proc.CommandLine := 'sudo -S ls /root'; //Run ls /root as root using sudo
      // -S causes sudo to read the password from stdin.
      Proc.Execute; //start it. sudo will now probably ask for a password

      // write the password to stdin of the sudo program:
      SudoPassword := SudoPassword + LineEnding;
      Proc.Input.Write(SudoPassword[1], Length(SudoPassword));
      SudoPassword := '%*'; //short string, hope this will scramble memory a bit; note: using PChars is more fool-proof
      SudoPassword := ''; // and make the program a bit safer from snooping?!?

      // main loop to read output from stdout and stderr of sudo
      while Proc.Running or (Proc.Output.NumBytesAvailable > 0) or
        (Proc.Stderr.NumBytesAvailable > 0) do
        // read stdout and write to our stdout
        while Proc.Output.NumBytesAvailable > 0 do
          ReadCount := Min(512, Proc.Output.NumBytesAvailable); //Read up to buffer, not more
          Proc.Output.Read(CharBuffer, ReadCount);
          Write(StdOut, Copy(CharBuffer, 0, ReadCount));
        // read stderr and write to our stderr
        while Proc.Stderr.NumBytesAvailable > 0 do
          ReadCount := Min(512, Proc.Stderr.NumBytesAvailable); //Read up to buffer, not more
          Proc.Stderr.Read(CharBuffer, ReadCount);
          Write(StdErr, Copy(CharBuffer, 0, ReadCount));
      ExitCode := Proc.ExitStatus;


Other thoughts: It would no doubt be advisable to see if sudo actually prompts for a password. This can be checked consistently by setting the environment variable SUDO_PROMPT to something we watch for while reading the stdout of TProcess avoiding the problem of the prompt being different for different locales. Setting an environment variable causes the default values to be cleared(inherited from our process) so we have to copy the environment from our program if needed.

Using fdisk with sudo on Linux

The following example shows how to run fdisk on a Linux machine using the sudo command to get root permissions.

program getpartitioninfo;
{Originally contributed by Lazarus forums wjackon153. Please contact him for questions, remarks etc.
Modified from Lazarus snippet to FPC program for ease of understanding/conciseness by BigChimp}

  Classes, SysUtils, FileUtil, Process;

  hprocess: TProcess;
  sPass: String;
  OutputLines: TStringList;

  sPass := 'yoursudopasswordhere'; // You need to change this to your own sudo password
  OutputLines:=TStringList.Create; //... a try...finally block would be nice to make sure 
  // OutputLines is freed... Same for hProcess.
  // The following example will open fdisk in the background and give us partition information
  // Since fdisk requires elevated priviledges we need to 
  // pass our password as a parameter to sudo using the -S
  // option, so it will will wait till our program sends our password to the sudo application
  hProcess := TProcess.Create(nil);
  // On Linux/Unix/OSX, we need specify full path to our executable:
  hProcess.Executable := '/bin/sh';
  // Now we add all the parameters on the command line:
  // Here we pipe the password to the sudo command which then executes fdisk -l: 
  hprocess.Parameters.add('echo ' + sPass  + ' | sudo -S fdisk -l');
  // Run asynchronously (wait for process to exit) and use pipes so we can read the output pipe
  hProcess.Options := hProcess.Options + [poWaitOnExit, poUsePipes];
  // Now run:

  // hProcess should have now run the external executable (because we use poWaitOnExit).
  // Now you can process the process output (standard output and standard error), eg:
  // Show output on screen:

  // Clean up to avoid memory leaks:
  //Below are some examples as you see we can pass illegal characters just as if done from terminal 
  //Even though you have read elsewhere that you can not I assure with this method you can :)

  //hprocess.Parameters.Add('ping -c 1 www.google.com');
  //hprocess.Parameters.Add('ifconfig wlan0 | grep ' +  QuotedStr('inet addr:') + ' | cut -d: -f2');

  //Using QuotedStr() is not a requirement though it makes for cleaner code;
  //you can use double quote and have the same effect.

  //hprocess.Parameters.Add('glxinfo | grep direct');   

  // This method can also be used for installing applications from your repository:

  //hprocess.Parameters.add('echo ' + sPass  + ' | sudo -S apt-get install -y pkg-name'); 


Parameters which contain spaces (Replacing Shell Quotes)

In the Linux shell it is possible to write quoted arguments like this:

gdb --batch --eval-command="info symbol 0x0000DDDD" myprogram

And GDB will receive 3 arguments (in addition to the first argument which is the full path to the executable):

  1. --batch
  2. --eval-command=info symbol 0x0000DDDD
  3. the full path to myprogram

TProcess can also pass parameters containing spaces, but it uses a different quoting style. Instead of only quoting part of the parameter, quote all of it. Like this:

TProcess.CommandLine := '/usr/bin/gdb --batch "--eval-command=info symbol 0x0000DDDD" /home/me/myprogram';

And also remember to only pass full paths.

See also this discussion about it: http://bugs.freepascal.org/view.php?id=14446


In FPC 2.6.2, some helper functions for TProcess were added to unit process based on wrappers used in the fpcup project. These functions are meant for basic and intermediate use and can capture output to a single string and fully support the large output case.

A simple example is

uses Process;
var s : ansistring;
if RunCommand('/bin/bash',['-c','echo $PATH'],s) then

An overloaded variant of RunCommand returns the exitcode of the program. The RunCommandInDir runs the command in a different directory (sets p.CurrentDirectory):

function RunCommandIndir(const curdir:string;const exename:string;const commands:array of string;var outputstring:string; var exitstatus:integer): integer;
function RunCommandIndir(const curdir:string;const exename:string;const commands:array of string;var outputstring:string): boolean;
function RunCommand(const exename:string;const commands:array of string;var outputstring:string): boolean;

LCLIntf Alternatives

Sometimes, you don't need to explicitly call an external program to get the functionality you need. Instead of opening an application and specifying the document to go with it, just ask the OS to open the document and let it use the default application associated with that file type. Below are some examples.

Open document in default application

In some situations you need to open some document/file using default associated application rather than execute a particular program. This depends on running operating system. Lazarus provides a platform independent procedure OpenDocument which will handle it for you. Your application will continue running without waiting for the document process to close.

uses LCLIntf;

Open web page in default web browser

Just pass the URL required, the leading http:// appears to be optional under certain circumstances. Also, passing a filename appears to give the same results as OpenDocument()

uses LCLIntf;

See also:

Or, you could use TProcess like this:

uses Process;

procedure OpenWebPage(URL: string);
// Apparently you need to pass your URL inside ", like "www.lazarus.freepascal.org"
  Browser, Params: string;
  FindDefaultBrowser(Browser, Params);
  with TProcess.Create(nil) do
    Executable := Browser;
    Params:=Format(Params, [URL]);
    Params:=copy(Params,2,length(Params)-2); // remove "", the new version of TProcess.Parameters does that itself
    Options := [poNoConsole];

See also