PetriScript is a modeling language for Petri nets, designed by Alexandre Hamez and Xavier Renault.[1] The CPN-AMI platform provides many tools to work on Petri nets, such as verifying and model-checking tools.[2]

Originally, simple Petri nets were created through graphic design, but research conducted internally at LIP6 revealed that it was needed to automate such tasks.[3] PetriScript was designed to provide some facilities in modeling places-transition and coloured Petri nets within the CPN-AMI platform. Petriscript's main purpose is to automate modeling operations on Petri nets by merging, creating, and connecting nodes. It supports almost everything needed, such as macros, loops control, lists, and string and arithmetic expressions, and blocks intervention of the user as much as possible. Its syntax is Ada-like.

The following script produces a FIFO with three sections:

 define(FIFO_SIZE,3)
 define(FIFO_BASE_X,100)
 define(FIFO_BASE_Y,100)
 define(FIFO_STEP,120)
 int $wave := 0;
 for $wave in 1..FIFO_SIZE loop
 	create place "Slot_" & '$wave' (x FIFO_BASE_X + FIFO_STEP * $wave,
 		y FIFO_BASE_Y);
 	create place "Empty_" & '$wave' (x FIFO_BASE_X + FIFO_STEP * $wave,
 		y FIFO_BASE_Y + 100, marking "1");
 end loop;
 for $wave in 1..FIFO_SIZE+1 loop
 	create transition "t" & '$wave -1' & "_to_" & '$wave' (x FIFO_BASE_X + FIFO_STEP * $wave - FIFO_STEP / 2,
 		y FIFO_BASE_Y + 50);
 	if $wave < FIFO_SIZE+1 then
 		connect "1" transition "t" &'$wave -1' & "_to_" & '$wave' to  place "Slot_" & '$wave';
 		connect "1" place "Empty_" & '$wave' to transition "t" &'$wave -1' & "_to_" & '$wave';
 	end if;
 	if $wave > 1 then
 		connect "1" transition "t" &'$wave -1' & "_to_" & '$wave' to  place "Empty_" & '$wave - 1';
 		connect "1" place "Slot_" & '$wave - 1' to transition "t" &'$wave -1' & "_to_" & '$wave';
 	end if;
 end loop;
 set transition "t0_to_1" to (name "FIFO_Start");
 set transition "t" &  'FIFO_SIZE' & "_to_" & 'FIFO_SIZE + 1' to (name "FIFO_End");

Which produces the following graph:

Here is another example that shows the power of PetriScript:

 define(X,250)
 define(Y,350)
 define(radius,50)
 define(R,150)
 
 define(SECTIONS,15)
 
 define(INNER_ANGLE,360/SECTIONS)
 define(OUTER_ANGLE,360/(2*SECTIONS))
 
 int $i := 0;
 int $j := 0;
 
 for $i in 1.. SECTIONS loop
 	create place "F" & '$i' ( x X, y Y, r radius, t $i * INNER_ANGLE);
 	create place "Section_" & '$i' ( x X, y Y,  r R, t $i * INNER_ANGLE);
 	create transition "t" & '$i' & "_to_" & '$i mod SECTIONS + 1' ( x X, y Y, r R, t $i * INNER_ANGLE + OUTER_ANGLE);
 end loop;
 
 
 for $i in 1.. SECTIONS loop
 	connect place "Section_" & '$i'  to transition "t"&'$i' & "_to_" & '$i mod SECTIONS + 1';
 
 	connect transition "t" & '$i' & "_to_" & '$i mod SECTIONS + 1' to place "Section_" & '$i mod SECTIONS + 1';
 
 	if $i /= 1 then
 		connect place "F" & '$i'  to transition "t" & '$i-1' & "_to_" & '$i';
 	else
 		connect place "F1"  to transition "t" & 'SECTIONS' & "_to_" & '1';
 	end if;
 	
 	connect transition "t" &'$i mod SECTIONS + 1' & "_to_" & '($i+1) mod SECTIONS + 1' to place "F" & '$i';
 
 end loop;
 
 for $i in 1.. SECTIONS loop
 	if $i mod 3 = 0 then
 		set place "Section_" & '$i' to marking "1";
 	else
 		set place "F" & '$i' to marking "1";
 	end if;
 end loop;

Which produces the following graph:

References

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  1. ^ Alexandre Hamez; Xavier Renault. "PetriScript Reference Manual 1.0" (PDF). LIP6. Archived from the original (PDF) on 24 October 2016.
  2. ^ Principles of Information Systems: Computer science
  3. ^ Business Database Systems: Computer science, Database management
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Full documentation is available here.