Difference between revisions of "Command line parameters and environment variables"

From Free Pascal wiki
Jump to navigationJump to search
(clarified difference between switch and parameter)
(added a parameter search example)
Line 88: Line 88:
  
 
This allows passing short options ''-f value'' and ''-h''. It allows passing long options ''--help'' or ''--file=filename''. It does not allow ''--help'' with a value, nor ''--file'' without a value.
 
This allows passing short options ''-f value'' and ''-h''. It allows passing long options ''--help'' or ''--file=filename''. It does not allow ''--help'' with a value, nor ''--file'' without a value.
 +
 +
'''A Parameter Example :'''
 +
 +
<syntaxhighlight>procedure TMainForm.FormShow(Sender: TObject);
 +
var
 +
    I: Integer;
 +
    Params : TStringList
 +
    LongOpts : array [1..2] of string = ('debug-sync', 'config-dir:');
 +
begin
 +
    Params := TStringList.Create;
 +
    try
 +
        Application.GetNonOptions('hgo:', LongOpts, Params);
 +
        for I := 0 to Params.Count -1 do
 +
            debugln('Extra Param ' + inttostr(I) + ' is ' + Params[I]);  }
 +
    finally
 +
        FreeAndNil(Params);
 +
    end;
 +
end;</syntaxhighlight>
 +
This example finds parameters and does not mix them with command line switches or options. In this example, the app also accepts the switches --debug-sync and --config-dir=somedir but they are not reported here.
  
 
==Environment variables==
 
==Environment variables==

Revision as of 06:30, 4 August 2018

English (en) español (es) suomi (fi) français (fr) русский (ru)

Overview

When a program is started a user can give command line parameters and setup environment variables. For example the FreePascal compiler gets most of its parameters via command line options:

 fpc -Fudirectory -gh unit1.pas

In this example the "-Fudirectory -gh" are command line switches and the "unit1.pas" is a parameter.

Command line parameters

The basics

A pascal program can access the parameters via ParamStr and ParamCount. ParamStr(0) is the program name itself (and path _IF_ the operating system supports it) . ParamStr(1) is the first parameter. ParamCount is the number of parameters.

program Project1;

{$mode objfpc}{$H+}

var
  I: Integer;
begin
  WriteLn('Program: ', ParamStr(0));
  for I := 1 to ParamCount do
    WriteLn('Param ', I, ': ', ParamStr(I));
end.

For example:

 $ /tmp/project1 -a
 Program: /tmp/project1
 Param 1: -a

User friendly

A good program should give a help message when invoked with the wrong parameters and it should follow a common way of giving parameters. The unit custapp that comes with FPC provides the TCustomApplication class, which provides functions to easily check and read parameters. Of course you can still access the parameters directly via ParamStr and ParamCount.

Every LCL application uses this automatically. The Application object is a TCustomApplication.

If you want to write a non LCL program, then create in lazarus a new project of type 'Console Application'. This will create a project1.lpr with some nice goodies, that almost all programs need. Go to the DoRun method.

Check for a parameter

With TCustomApplication you can access parameters by name. For example your program should print a help text when the user gave the common help parameter -h. The -h is a short option. The long form is the --help. To test whether the user called the program with -h or --help you can use

if HasOption('h', 'help') then begin
  WriteHelp;
  Halt;
end;

Note: In an LCL form you must prepend Application. in front of HasOption. For example:

if Application.HasOption('h', 'help') then begin
  WriteHelp;
  Halt;
end;


// If you only want to support the short option use:
if HasOption('h', '') then ...

// If you only want to support the long option use:
if HasOption('help') then ...

Read the parameter value

Each parameter can be given a value. For example:

 project1 -f filename

or with the long form:

 project1 --file=filename
WriteLn('f=', GetOptionValue('f', 'file'));

Note: if you get the error message Option at position 1 needs an argument : f. then you forgot to add the option in the CheckOptions call.

Checking parameters for validity

Command line parameters are free text, so the user can easily type errors. Checking the syntax of the parameters is therefore mandatory. You can use the CheckOptions method for this:

You can define, what parameters are allowed, which ones ones need a parameter and in case of a syntax error you can get an error message plus the options that were wrong to print helpful and detailed errors.

Examples:

ErrorMsg := CheckOptions('hf:', 'help file:');

This allows passing short options -f value and -h. It allows passing long options --help or --file=filename. It does not allow --help with a value, nor --file without a value.

A Parameter Example :

procedure TMainForm.FormShow(Sender: TObject);
var
    I: Integer;
    Params : TStringList
    LongOpts : array [1..2] of string = ('debug-sync', 'config-dir:');
begin
    Params := TStringList.Create;
    try
        Application.GetNonOptions('hgo:', LongOpts, Params);
        for I := 0 to Params.Count -1 do
            debugln('Extra Param ' + inttostr(I) + ' is ' + Params[I]);  }
    finally
        FreeAndNil(Params);
    end;
end;

This example finds parameters and does not mix them with command line switches or options. In this example, the app also accepts the switches --debug-sync and --config-dir=somedir but they are not reported here.

Environment variables

Three basic functions are provided for working with environment variables.

GetEnvironmentVariable

GetEnvironmentString

GetEnvironmentVariableCount


Example:

var
  I: Integer;
begin
  WriteLn('PATH = ' + GetEnvironmentVariable('PATH'));

  WriteLn('All environment variables:');
  for I := 0 to GetEnvironmentVariableCount - 1 do 
    WriteLn(GetEnvironmentString(I));
end.

It is also possible to load all environment variables to TStringList object and access to name-value pair easily. String list automatically handle char separator which is by default character '='.

var
  I: Integer;
  EnvVars: TStringList;
begin
  EnvVars := TStringList.Create;
  try
    // Load all variables to string list
    for I := 0 to GetEnvironmentVariableCount - 1 do 
      EnvVars.Add(GetEnvironmentString(I));

    WriteLn('PATH = ' + EnvVars.Values['PATH']);

    WriteLn('All environment variables:');
    for I := 0 to EnvVars.Count - 1 do 
      WriteLn(EnvVars.Names[I] + ' = ' + EnvVars.ValueFromIndex[I]);
  finally 
    EnvVars.Free;
  end;
end.

There is also TApplication method available to get all environment variables as TStrings list at once.

var
  EnvVars: TStringList;
begin
  EnvVars := TStringList.Create;
  try
    Application.GetEnvironmentList(EnvVars);
    ...
  finally 
    EnvVars.Free;
  end;
end;