Pascal Language Syntax
This chapter covers the Pascal language used in Optuma to write scripts.
Pascal Syntax
Overview
Optuma scripting executes scripts written in Pascal syntax. Current Pascal syntax supports:
- begin .. end constructor
- procedure and function declarations
- if .. then .. else constructor
- for .. to .. do .. step constructor
- while .. do constructor
- repeat .. until constructor
- try .. except and try .. finally blocks
- case statements
- array constructors (x:=[ 1, 2, 3 ];)
- ^ , * , / , and , + , - , or , <> , >=, ⇐ , = , > , < , div , mod , xor , shl , shr operators
- access to object properties and methods ( ObjectName.SubObject.Property )
Script Structure
Script structure is made of three main parts
a) variable declarations - used to declare variables used in parts b and c.
b) Tool Init procedure - is called once when a tool first initialised
c) Tool Process procedure - is called every time new data is received or when the selection points of the tool are moved.
The scripting language allows for procedures to be declared before the Init and Process functions and can then be used anywhere in the script file.
SCRIPT 1:
procedure DoSomething;
begin
CallSomething;
end;
begin
CallSomethingElse;
end;
SCRIPT 2:
begin
CallSomethingElse;
end;
SCRIPT 3:
function MyFunction;
begin
result:='Ok!';
end;
SCRIPT 4:Language Features
CallSomethingElse;
Like in pascal, statements should be terminated by “;” character. Begin..end blocks are allowed to group statements.
Identifiers
Identifier names in script (variable names, function and procedure names, etc.) follow the most common rules in pascal : should begin with a character (a..z or A..Z), or ‘_’, and can be followed by alphanumeric chars or ‘_’ char. Cannot contain any other character or spaces.
Valid identifiers:
- VarName
- _Some
- V1A2
Invalid identifiers:
- 2Var
- My Name
- Some-more
- This,is,not,valid
Assign Statements
Just like in Pascal, assign statements (assign a value or expression result to a variable or object property) are built using “:=”. Examples:
- MyVar := 2;
- Button.Caption := ‘This ‘ + ‘is ok.’;
Character Strings
Strings (sequence of characters) are declared in pascal using single quote (‘) character. Double quotes (“) are not used. You can also use #nn to declare a character inside a string. There is no need to use ‘+’ operator to add a character to a string. Some examples:
- A := ‘This is a text’;
- Str := ‘Text ‘+’concat’;
- B := ‘String with CR and LF char at the end’#13#10;
- C := ‘String with ‘#33#34’ characters in the middle’;
Comments
Comments can be inserted inside script. You can use // chars or (* *) or { } blocks. Using // the comment will finish at the end of line.
//This is a comment before ShowMessage
ShowMessage('Ok');
(* This is another comment *)
ShowMessage('More ok;
{ And this is a comment
with two lines }
ShowMessage('End of okays');
Variables
Variables need to be declared in scripts. You can declare variable by using var directive and its name. A compile error will be raised if variables are used but not declared in the script. Examples:
SCRIPT 1:
procedure Msg;
var S;
begin
S:='Hello world!';
ShowMessage(S);
end;
SCRIPT 2:
var A;
begin
A:=0;
A:=A+1;
end;
SCRIPT 3:
var S: string;
begin
S:='Hello World!';
ShowMessage(S);
end;
Indexes
Strings, arrays and array properties can be indexed using “[” and “]” chars. For example, if Str is a string variable, the expression Str[3] returns the third character in the string denoted by Str, while Str[I + 1] returns the character immediately after the one indexed by I. More examples:
- MyChar:=MyStr[2];
- MyStr[1]:=’A’;
- MyArray[1,2]:=1530;
- Lines.Strings[2]:=’Some text’;
Arrays
Script support array constructors and support to variant arrays. To construct an array, use “[” and “]” chars. You can construct multi-index array nesting array constructors. You can then access arrays using indexes. If array is multi-index, separate indexes using “,”. If variable is a variant array, script automatically support indexing in that variable. A variable is a variant array is it was assigned using an array constructor, if it is a direct reference to a Delphi variable which is a variant array (see Delphi integration later) or if it was created using VarArrayCreate procedure. Arrays in script are 0-based index. Some examples:
NewArray := [ 2,4,6,8 ];
Num:=NewArray[1]; //Num receives "4"
MultiArray := [ ['green','red','blue'] , ['apple','orange','lemon'] ];
Str:=MultiArray[0,2]; //Str receives 'blue'
MultiArray[1,1]:='new orange';
NewArray := VarArrayCreate([0,3], vaInt32); // Create an array of integers and init the size without setting values
NewArray := VarArrayCreate([0,1,0,10], varDouble); // Two dimensional Array of doubles
If Statements
There are two forms of if statement: if…then and the if…then…else. Like normal pascal, if the if expression is true, the statement (or block) is executed. If there is else part and expression is false, statement (or block) after else is execute. Examples:
if J <> 0 then Result := I/J;
if J = 0 then Exit else Result := I/J;
if J <> 0 then
begin
Result := I/J;
Count := Count + 1;
end
else
Done := True;
While Statements
A while statement is used to repeat a statement or a block, while a control condition (expression) is evaluated as true. The control condition is evaluated before the statement. Hence, if the constrol condition is false at first iteration, the statement sequence is never executed. The while statement executes its constituent statement (or block) repeatedly, testing expression before each iteration. As long as expression returns True, execution continues. Examples:
while Data[I] <> X do I := I + 1;
while I > 0 do
begin
if Odd(I) then Z := Z * X;
I := I div 2;
X := Sqr(X);
end;
while not Eof(InputFile) do
begin
Readln(InputFile, Line);
Process(Line);
end;
Repeat Statements
The syntax of a repeat statement is repeat statement1; …; statementn; until expression where expression returns a Boolean value. The repeat statement executes its sequence of constituent statements continually, testing expression after each iteration. When expression returns True, the repeat statement terminates. The sequence is always executed at least once because expression is not evaluated until after the first iteration. Examples:
repeat
K := I mod J;
I := J;
J := K;
until J = 0;
repeat
Write('Enter a value (0..9): ');
Readln(I);
until (I >= 0) and (I <= 9);
for c:=1 to 10 do
a:=a+c;
For Statements
Scripter support for statements with the following syntax: for counter := initialValue to finalValue do statement For statement set counter to initialValue, repeats execution of statement (or block) and increment value of counter until counter reachs finalValue. Examples:
SCRIPT 1:
for c:=1 to 10 do
a:=a+c;
SCRIPT 2:
for i:=a to b do
begin
j:=i^2;
sum:=sum+j;
end;
Case Statements
Scripter support case statements with following syntax:
case selectorExpression of
caseexpr1: statement1;
...
caseexprn: statementn;
else
elsestatement;
end
if selectorExpression matches the result of one of caseexprn expressions, the respective statement (or block) will be execute. Otherwise, elsestatement will be execute. Else part of case statement is optional. Different from Delphi, case statement in script doesn’t need to use only ordinal values. You can use expressions of any type in both selector expression and case expression. Example:
case uppercase(Fruit) of
'lime': ShowMessage('green');
'orange': ShowMessage('orange');
'apple': ShowMessage('red');
else
ShowMessage('black');
end;
Function and Procedure Declaration
Declaration of functions and procedures are similar to Object Pascal in Delphi, with the difference you don’t specify variable types. Just like OP, to return function values, use implicited declared result variable. Parameters by reference can also be used, with the restriction mentioned: no need to specify variable types. Some examples:
procedure HelloWord;
begin
ShowMessage('Hello world');
end;
procedure UpcaseMessage(Msg);
begin
ShowMessage(Uppercase(Msg));
end;
function TodayAsString;
begin
result:=DateToStr(Date);
end;
function Max(A,B);
begin
if A>B then
result:=A
else
result:=B;
end;
procedure SwapValues(var A, B);
Var Temp;
begin
Temp:=A;
A:=B;
B:=Temp;
end;