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[[Category:Tutorial]] | [[Category:Tutorial]] | ||
[[Category:User Manual]] | [[Category:User Manual]] | ||
[[Category:ProB Cli]] | |||
The command-line version of ProB offers many of the | The command-line version of ProB, called <b>probcli</b>, offers many of the features of the standalone Tcl/Tk Version via the command-line. As such, you can run ProB from your shell scripts or in your Makefiles. | ||
These pages refer to version 1.6 of ProB. Some features are only available in the nightly build of ProB. You can run <tt>probcli –help</tt> to find out which commands are supported by your version of ProB. For Bash users we provide [[Bash Completion|command completion]] support. | |||
Note: the order of commands is not relevant for <tt>probcli</tt> (except within groups of commands such as <tt>-p MAXINT 127</tt>). Any argument that is not recognised by <tt>probcli</tt> is treated as a filename to be analysed. | |||
[[file:ProBTerminalizerDemo.gif|center||600px]] | |||
== Conventions used == | == Conventions used == | ||
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<filename> [ <options> ]</pre> | <filename> [ <options> ]</pre> | ||
The underscore within all options can as of version 1.5.1-beta7 be replaced with dashes. Also, all commands can either be typed with single leading dashes or double leading dashes. | |||
For example, all of the following commands have the same effect: | |||
probcli M.mch -model_check | |||
probcli M.mch -model-check | |||
probcli M.mch --model_check | |||
probcli M.mch --model-check | |||
== Options == | == Options == | ||
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| model check; checking at most <nr> states | | model check; checking at most <nr> states | ||
|} | |} | ||
Example | Example | ||
probcli my.mch ... | probcli my.mch -mc 100 | ||
Note: with a value of nr=1 ProB will only inspect the "virtual" root node (and compute its outgoing transitions). | |||
Also see the related options <tt>-nodead, -noinv, -nogoal, -noass</tt> to influence which kinds of errors are reported by <tt>-mc</tt>. | |||
You can also set a target goal predicate using the <tt>-goal "PRED"</tt> command and limit the scope of the model checking using the <tt>-scope "PRED"</tt> command. | |||
=== -model_check === | |||
The same as <tt>-mc</tt> but without a limit on the number of nodes checked. | |||
ProB will run until the entire state space is explored. | |||
=== -no<x> === | === -no<x> === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| <x>=dead,inv,goal,ass | | restrict errors reported by model checking (-mc), TLC model checking (-mc_with_tlc), animation (-animate) and execution (-execute) with <x>=dead,inv,goal,ass | ||
* -nodead : do not report deadlocks | |||
* -noinv : do not report invariant violations | |||
* -nogoal : do not stop if a state satisfying the GOAL predicate has been found | |||
* -noass : do not report assertion violations | |||
|} | |} | ||
Example | Example | ||
probcli my.mch ... | probcli my.mch -mc 1000 -nodead -nogoal | ||
=== -disable_timeout === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| turn off ProB's timeout mechanism, e.g., for computing enabled operations and invariant checking; this can sometimes speed up model checking (-mc or -model_check) and animation (-animate). Available as of version 1.5.1-beta7. | |||
|} | |||
Example | |||
probcli my.mch -model-check -disable-timeout | |||
=== -bf === | === -bf === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| proceed breadth-first | | proceed breadth-first during model checking | ||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -bf -mc 1000 | ||
=== -df === | === -df === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| proceed depth-first | | proceed depth-first during model checking | ||
|} | |||
Example | |||
probcli my.mch -df -mc 1000 | |||
=== -mc_mode <M> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| influence how the model checker proceeds. Available as of version 1.5.1. Supersedes the <tt>-df</tt> and <tt>-bf</tt> switches. | |||
Possible values for the mode <M> are: <ul> | |||
<li><tt>df</tt> (depth-first traversal),</li> | |||
<li><tt>bf</tt> (breadth-first traversal),</li> | |||
<li><tt>mixed</tt> (mixed depth-first / breadth-first traversal with random choice; currently the default),</li> | |||
<li><tt>random</tt> (choosing next node to process completely at random), </li> | |||
<li><tt>hash</tt> (similar to random, but uses the Prolog hash function of a node instead of a random number generator),</li> | |||
<li><tt>heuristic</tt> (try and use <tt>HEURISTIC_FUNCTION</tt> provided by user in <tt>DEFINITIONS</tt> clause). Some explanations can be found [[Blocks_World_(Directed_Model_Checking)|in an example about directed model checking]].</li> | |||
<li><tt>out_degree_hash</tt> (prioritise nodes with fewer outgoing transitions; mainly useful for deadlock checking) | |||
</ul> | |||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -model_check -mc_mode random | ||
=== --timeout <N> === | === --timeout <N> === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| | | Global timeout in ms for model checking and refinement checking. | ||
This does not influence the timeout used for computing individual transitions/operations. | |||
This has to be set with the -p TIME_OUT <N>. Note that the <tt>TIME_OUT</tt> preference also influences other computations, such as invariant checking or static assertion checking, where it is multiplied by a factor. See the description of the -p option. | |||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -timeout 10000 | ||
=== -t === | === -t === | ||
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Example | Example | ||
probcli my.mch | probcli my.mch -t | ||
=== -init === | === -init === | ||
Line 121: | Line 168: | ||
probcli my.mch -init | probcli my.mch -init | ||
nr_of_components(1) | |||
% checking_component_properties(1,[]) | |||
% enumerating_constants_without_constraints([typedval(fd(_24428,ID),global(ID),iv)]) | |||
% grounding_wait_flags | |||
grounding_component(1) | |||
grounding_component(2) | |||
% found_enumeration_of_constants(0,2) | |||
% backtrack(found_enumeration_of_constants(0,2)) | |||
% found_enumeration_of_constants(0,1) | |||
% backtrack(found_enumeration_of_constants(0,1)) | |||
<- 0: SETUP_CONSTANTS :: root | |||
% Could not set up constants with parameters from trace file. | |||
% Will attempt any possible initialisation of constants. | |||
| 0: SETUP_CONSTANTS success -->0 | |||
- <- 1: INITIALISATION :: 0 | |||
% Could not initialise with parameters from trace file. | |||
% Will attempt any possible initialisation. | |||
ALL OPERATIONS COVERED | |||
- | 1: INITIALISATION success -->2 | |||
- - SUCCESS | |||
=== -cbc <OPNAME> === | === -cbc <OPNAME> === | ||
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Example | Example | ||
probcli my.mch | probcli my.mch -cbc all | ||
=== -cbc_deadlock === | === -cbc_deadlock === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| constraint-based deadlock checking (also use -cbc_deadlock_pred PRED) | | Perform constraint-based deadlock checking (also use -cbc_deadlock_pred PRED) | ||
|} | |} | ||
=== -cbc_deadlock_pred | This will try to find a state which satisfies the invariant and properties and where no operation/event is enabled. | ||
Note: if ProB finds a counter example then the machine cannot be proven to be deadlock free. However, the particular state may not be reachable from the initial state(s). If you want to find a reachable deadlock you have to use the model checker. | |||
=== -cbc_deadlock_pred <PRED> === | |||
Description | Description | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| | | Constraint-based deadlock finding given a predicate | ||
|} | |} | ||
This is like -cbc_deadlock but you provide an additional predicate. ProB will only find deadlocks which also make this predicate true. | |||
Example | Example | ||
probcli my.mch ... | probcli my.mch -cbc_deadlock_pred "n=15" | ||
=== -cbc_assertions === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| Constraint-based checking of assertions on constants | |||
|} | |||
This will try and find a solution for the constants which make an assertion (on constants) false. | |||
You can use the extra command <tt>-cbc_output_file FILE</tt> to write the result of this check to a file. | |||
You can also use the extra command <tt>-cbc_option contradiction_check</tt> to ask ProB to check if there is a contradiction in the properties (in case the check did not find a counter-example to the assertions). The extra command <tt>-cbc_option unsat_core</tt> tells ProB to compute the unsatisfiable core in case a proof the assertions was found. | |||
Note that the <tt>TIME_OUT</tt> preference is multiplied by 10 for this command. | |||
There are various variations of this command: | |||
-cbc_assertions_proof | |||
-cbc_assertions_tautology_proof | |||
Both commands do not allow enumeration warnings to occur. | |||
The latter command ignores the PROPERTIES and tries to check whether the ASSERTION(s) are tautologies. | |||
Both commands can be useful to use ProB as a Prover/Disprover (as is done in Atelier-B 4.3). | |||
=== -cbc_sequence <SEQ> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| Constraint-based searching for a sequence of operation names (separated by semicolons) | |||
|} | |||
This will try and find a solution for the constants, initial variable values and parameters which make execution of the given sequence of operations possible. | |||
Example | |||
probcli my.mch -cbc_sequence "op1;op2" | |||
=== -strict === | === -strict === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| raise error if | | raise error and stop probcli if anything unexpected happens, e.g., if model checking finds a counter example or trace checking fails or any unexpected error happens | ||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -t -strict | ||
=== -expcterr <ERR> === | === -expcterr <ERR> === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| expect error to occur (<ERR>=cbc,mc,ltl,...) | | expect error to occur (<ERR>=cbc,mc,ltl,...) | ||
Tell ProB that you expect a certain error to occur. Mainly useful for regression tests (in conjunction with the -strict option). | |||
|} | |||
Example | |||
probcli examples/B/Benchmarks/CarlaTravelAgencyErr.mch -mc 1000 -expcterr invariant_violation -strict | |||
=== -animate <Nr>=== | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| random animation (max Nr steps) | |||
|} | |||
Animates the machine randomly, maximally Nr of steps. It will stop if a deadlock is reached and report an error. You can also use the command <tt>-animate_all</tt>, which will only stop at a deadlock (and not report an error). Be careful: <tt>-animate_all</tt> could run forever. | |||
Example | |||
probcli my.mch -animate 100 | |||
=== -execute <Nr>=== | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| execution (max Nr steps) | |||
|} | |||
Executes the "first" enabled operation of a machine, maximally Nr of steps. It will stop if a deadlock is reached and report an error. You can also use the command <tt>-execute_all</tt>, which will only stop at a deadlock (and not report an error). Be careful: <tt>-execute_all</tt> could run forever. | |||
In contrast to -animate, -execute will | |||
* always choose the first enabled operation it finds and stop searching for further enabled operations in that state (-animate will compute all enabled operations up to the limit set by the <tt>MAX_OPERATIONS</tt> or <tt>MAX_INITIALISATIONS</tt> preference and then choose randomly); the order of operations in the B machine is thus important for -execute | |||
* not store intermediate states in the state space; as such -execute is faster but after execution one only has access to the first state and the final state of execution | |||
Example | |||
probcli my.mch -execute 100 | |||
=== -det_check === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| check if animation steps are deterministic | |||
|} | |||
Checks if every step of the animation is deterministic (i.e., only one operation is possible, and it can only be executed in one possible way as far as parameters and result is concerned). | |||
Currently this option has only an effect for the -animate <Nr> and the -init commands. | |||
Example | |||
probcli my.mch -animate 100 -det_check | |||
=== -det_constants === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| check if animation steps are deterministic | |||
|} | |} | ||
Checks if the SETUP_CONSTANTS step is deterministic (i.e., only one way to set up the constants is possible). | |||
Currently this option has only an effect for the -animate <Nr> and the -init commands. | |||
Example | Example | ||
probcli my.mch ... | probcli my.mch -init -det_constants | ||
=== -his <FILE>=== | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| save animation history to a file | |||
|} | |||
Save the animation (or model checking) history to a text file. Operations are separated by semicolons. | |||
The output can be adapted using the -his_option command. With -his_option show_states the -his command will also write out all states to the file (in the form of comments before and after operations). With -his_option show_init only the initial state is written out. | |||
The -his command is executed after the -init, -animate, -t or -mc commands. | |||
See also the -sptxt command to only write the current values of variables and constants to a file. | |||
Example | |||
probcli -animate 5 -his history.txt supersimple.mch | |||
Additionally we can have the initialised variables and constants: | |||
probcli -animate 5 -his history.txt -his_option show_init supersimple.mch | |||
And we can have in addition the values of the variables in between (and at the end): | |||
probcli -animate 5 -his history.txt -his_option show_states supersimple.mch | |||
With -his_option trace_file as only option, probcli will write the history in Prolog format, which can later be used by the -t command. | |||
=== -i === | === -i === | ||
Line 185: | Line 380: | ||
| interactive animation | | interactive animation | ||
|} | |} | ||
After performing the other commands, ProB stays in interactive mode and allows the user to manually animate the loaded specification. | |||
Example | Example | ||
probcli my.mch | probcli my.mch -i | ||
=== - | === -repl === | ||
Description | Description | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| start interactive read-eval-loop | | start interactive read-eval-print-loop | ||
|} | |} | ||
Example | Example | ||
probcli my.mch ... | probcli my.mch -p CLPFD TRUE -repl | ||
A list of commands can be obtained by typing <tt>:help</tt> (just help for versions 1.3.x of probcli). The interactive read-eval-print-loop can be exited using <tt>:q</tt> (just typing a return on a blank line for versions 1.3.x of probcli).. | |||
If in addition you want see a graphical representation of the solutions found you can use the following command and open the <tt>out.dot</tt> file using dotty or GraphViz: | |||
probcli -repl -evaldot ~/out.dot | |||
You can also use the <tt>-eval</tt> command to evaluate specific formulas or expressions: | |||
probcli -eval "1+2" | |||
For convenience, these formulas can also be put into a separate file: | |||
probcli -eval_file MyFormula.txt | |||
=== -c === | === -c === | ||
Line 212: | Line 419: | ||
Example | Example | ||
probcli my.mch .. | probcli my.mch -mc 1000 -c | ||
You can also use the longer name for the command: | |||
probcli my.mch -mc 1000 --coverage | |||
There is also a version which prints a shorter summary (and which is much faster for large state spaces): | |||
probcli my.mch -mc 1000 --coverage_summary | |||
=== -cc <Nr> <Nr> === | === -cc <Nr> <Nr> === | ||
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{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| print and check coverage statistics | | print and check coverage statistics | ||
Print coverage statistics and check that the given number of nodes and transitions have been computed. | |||
|} | |||
Example | |||
probcli my.mch -mc 1000 -cc 10 25 | |||
=== -p <PREFERENCE> <VALUE> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| Set <PREFERENCE> to <VALUE>. For more information about preferences please have a look at [[Using_the_Command-Line_Version_of_ProB#Preferences | Preferences]] | |||
|} | |} | ||
You can also use --pref instead of -p. | |||
Example | Example | ||
probcli my.mch . | probcli my.mch -p TIME_OUT 8000 -p CLPFD TRUE -mc 10000 | ||
=== -pref_group <PREFGROUP> <SETTING> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| set to the group of preferences <PREFGROUP> to a predefined setting <SETTING> | |||
|} | |||
Example | |||
probcli my.mch -pref_group model_check unlimited | |||
Available groups and settings are: | |||
* PREFERENCE GROUP integer : SETTINGS [int32] : Values for MAXINT and MININT | |||
* PREFERENCE GROUP time_out : SETTINGS [disable_time_out] : To disable TIME_OUT | |||
* PREFERENCE GROUP model_check : SETTINGS [disable_max,unlimited] : Model Checking Limits | |||
* PREFERENCE GROUP dot_colors : SETTINGS [classic,dreams,winter] : Colours for Dot graphs | |||
=== - | === -prefs <FILE> === | ||
Description | Description | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| | | Set preferences from preference file <FILE>. The file should be created by the Tcl/Tk version of ProB; this version automatically creates a file called ProB_Preferences.pl. For more information about preferences please have a look at [[Using_the_Command-Line_Version_of_ProB#Preferences | Preferences]] | ||
|} | |} | ||
Example | Example | ||
probcli my.mch . | probcli my.mch -prefs ProB_Preferences.pl | ||
=== -card <GS> <VAL> === | === -card <GS> <VAL> === | ||
Line 243: | Line 491: | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| set scope of B deferred set | | set cardinality (scope in Alloy terminology) of a B deferred set. This overrides the default cardinality (which can be set using <tt>-p DEFAULT_SETSIZE <VAL></tt>). | ||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -card PID 5 | ||
=== -goal <PRED> === | === -goal <PRED> === | ||
Line 260: | Line 508: | ||
Example | Example | ||
probcli my.mch . | probcli my.mch -mc 10000000 -goal "n=18" -strict -expcterr goal_found | ||
=== -scope <PRED> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| set SCOPE predicate for model checker; states which do not satisfy the SCOPE predicate will be ignored (invariant will not be checked and no outgoing transitions will be computed) | |||
|} | |||
Example | |||
probcli my.mch -mc 10000000 -scope "n<18" | |||
=== -s <PORT> === | === -s <PORT> === | ||
Line 297: | Line 557: | ||
probcli my.mch ... | probcli my.mch ... | ||
=== -sptxt <FILE>=== | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| save constants and variables to a file | |||
|} | |||
Save the values of constants and variables to a text file in classical B syntax. | |||
The -sptxt command is executed after the -init, -animate, -t or -mc commands. | |||
The values are fully written out (some sets, e.g., infinite sets may be written out symbolically). | |||
See also the -his command. | |||
Example | |||
probcli -animate 5 -sptxt state.txt supersimple.mch | |||
This will write the values of all variables and constants to the file state.txt after animating the machine 5 steps. | |||
=== -cache <DIRECTORY>=== | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| save constants (and in future also variables) to a file to avoid recomputation | |||
|} | |||
This commands saves the values of constants for the current B machine and puts those values into files in the specified directory. The command will also tell ProB to try and reuse constants saved for subsidiary machines (included using SEES for example) whenever possible. | |||
The purpose of the command is to avoid recomputing constants as much as possible, as this can be very time consuming. | |||
This also works for values of variables computed in the initialisation or even using operations. | |||
However, we do not support refinements at the moment. | |||
Note: this command can also be used when starting up the ProB Tcl/Tk version. | |||
=== -logxml <LogFile> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| log activities and results of probcli in XML format in <LogFile> | |||
|} | |||
A schema declaration file (xsd) can be found at <tt>doc/logxml_xsd.xml</tt> in the ProB [[Download#Sourcecode|Prolog sources]]. | |||
The log file contains information about the various commands performed by probcli. | |||
It also contains version information, the parameters provided to probcli and details about the errors that occured. | |||
Example | |||
probcli my.mch -mc 1000 -logxml log.xml | |||
=== -logxml_write_vars <PREFIX> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| after processing other commands (such as -execute) write values of variables having prefix PREFIX in their name into the XML log file (if XML logging has been activated using the -logxml command) | |||
|} | |||
Example | |||
probcli my.mch -execute 1000 -logxml log.xml -logxml_write_vars out | |||
=== -l <LogFile> === | === -l <LogFile> === | ||
Line 303: | Line 627: | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| log activities in <LogFile> | | log activities in <LogFile> using Prolog format | ||
|} | |} | ||
Example | Example | ||
probcli my.mch . | probcli my.mch -mc 1000 -l my.log | ||
=== -ll === | === -ll === | ||
Line 320: | Line 644: | ||
Example | Example | ||
probcli my.mch | probcli my.mch -mc 1000 -ll | ||
=== -lg <LogFile> === | === -lg <LogFile> === | ||
Line 344: | Line 668: | ||
Example | Example | ||
probcli my.mch . | probcli my.mch -pp my_pp.mch | ||
=== -ppf <FILE> === | === -ppf <FILE> === | ||
Line 356: | Line 680: | ||
Example | Example | ||
probcli my.mch . | probcli my.mch -ppf my_ppf.mch | ||
=== -v === | === -v === | ||
Line 363: | Line 687: | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| verbose | | set ProB into verbose mode | ||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -mc 1000 -v | ||
=== -version === | === -version === | ||
Line 378: | Line 702: | ||
|} | |} | ||
There is also an alternate command called -svers which just prints the version number of ProB. | |||
Example | Example | ||
probcli -version | probcli -version | ||
ProB Command Line Interface | ProB Command Line Interface | ||
VERSION 1.3.4-rc1 (9556:9570M) | |||
$LastChangedDate: 2011-11-16 18:36:18 +0100 (Wed, 16 Nov 2011) $ | |||
Prolog: SICStus 4.2.0 (x86_64-darwin-10.6.0): Mon Mar 7 20:03:36 CET 2011 | |||
Application Path: /Users/leuschel/svn_root/NewProB | |||
probcli -svers | |||
VERSION 1.3.4-rc1 (9556:9570M) | |||
You can use <tt>probcli -version -v</tt> to obtain more information about your version of probcli. | |||
=== -check_java_version === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| check Java and B parser version information | |||
|} | |||
This command is available as of ProB version 1.5.1-beta5 or higher. It can be useful to check that your Java is correctly installed and that the ProB B parser can operate correctly | |||
probcli -check_java_version | |||
Result of checking Java version: | |||
Java is correctly installed and version 1.7.0_55-b13 is compatible with ProB requirements (>= 1.7). | |||
ProB B Java Parser available in version: 2016-02-25 15:27:18.55. | |||
=== -assertions === | === -assertions === | ||
Line 391: | Line 737: | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| check ASSERTIONS | | check ASSERTIONS of your machine | ||
If you provide the -t switch, the ASSERTIONS will be checked after executing your trace. Otherwise, they will be checked in an initial state. | |||
ProB will automatically initialize the machine if you have not provide the -init or -t switch. | |||
You can also use -main_assertions to check only the ASSERTIONS found in the main file. | |||
If your ASSERTIONS are all static (i.e., make no reference to variables), then ProB will remove all CONSTANTS and PROPERTIES from your machine which are not linked (directly or indirectly) to the ASSERTIONS. | |||
This optimization will only be made if you provide no other switch, such as -mc or -animate which may require the computation of the variables. | |||
|} | |||
Example | |||
probcli my.mch -init -assertions | |||
=== -property === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| virtually add predicate to PROPERTIES | |||
|} | |} | ||
Example | Example | ||
probcli my.mch | probcli my.mch -property "PRED" | ||
=== -properties === | === -properties === | ||
Line 404: | Line 770: | ||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | {| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | ||
| check PROPERTIES | | check PROPERTIES | ||
Note: you should probably first initialise the machine (e.g., with -init). | |||
If the constants have not yet been set up, probcli will debug the properties. | |||
|} | |||
Example | |||
probcli my.mch -init -properties | |||
=== -dot_output <PATH> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| define path for generation of dot files for false properties or assertions | |||
|} | |} | ||
This option is applicable to -properties and -assertions. It will result in individual dot files being generated for every false or unknown property or assertion. Assertions are numbered A0,A1,... and properties P0,P1,... You can also force to generate dot files for all properties (i.e., also the true ones) using the -dot_all command-line flag. | |||
Example | Example | ||
probcli my.mch ... | probcli my.mch -init -properties -dot_output somewhere/ | ||
This will generate files somewhere/my_P0_false.dot, somewhere/my_P1_false.dot, ... | |||
=== -rc === | === -rc === | ||
Line 433: | Line 817: | ||
probcli my.mch ... | probcli my.mch ... | ||
=== -ltlassertions === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| check LTL assertions (in DEFINITIONS) | |||
|} | |||
Example | |||
probcli my.mch ... | |||
=== -ltllimit <LIMIT> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| explore at most <LIMIT> states when model-checking LTL | |||
|} | |||
Example | |||
probcli my.mch ... | |||
=== -save <FILE> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| save state space for later refinement check | |||
|} | |||
Example | |||
probcli my.mch ... | |||
=== -refchk <FILE> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| refinement check against previous saved state space | |||
|} | |||
Example | |||
probcli my.mch ... | |||
=== -mcm_tests <Depth> <MaxStates> <EndPredicate> <FILE> === | |||
Generate test cases for the given specification. Each test case consists of a sequence of operations resp. events (a so-called trace) that | |||
* start in a state after an initialisation | |||
* contain a requested operation/event | |||
* end in a state where the <EndPredicate> is fulfilled | |||
The user can specify what requested operations/events are with the | |||
option [[#-mcm_cover <Operation(s)>|-mcm_cover]]. | |||
ProB uses a "breadth-first" approach to search for test cases. When all requested operations/events are covered by test cases within maximum length M, the algorithm will explore the complete state space with that maximum distance M from the initialisation. It outputs all found traces that satisfy the requirements above. | |||
The algorithm stops if either | |||
* it has covered all required operations/events with the current search depth | |||
* or it has reached the maximum search depth or maximum number of explored states. | |||
The required parameters are: | |||
;Depth | |||
: The maximum length of traces that the algorithm searches for test until it stops without covering all required operations/events. | |||
;MaxStates | |||
: The maximum number of explored states until the algorithm stops without covering all required operations/events. | |||
;EndPredicate | |||
: A predicate in B syntax that the last state of a trace must fulfil. If you do not have any restrictions on that state, use a trivially true predicate like '''1=1''' | |||
;FILE | |||
: The found test cases a written to the XML file <FILE>. | |||
Example | |||
probcli my.mch -mcm_tests 10 2000 "EndStateVar=TRUE" testcases.xml -mcm_cover op1,op2 | |||
generates test cases for the operations '''op1''' and '''op2''' of the specification '''my.mch'''. The maximum length of traces is 10, at most 2000 states are explored. Each test case ends in a state where the predicate '''EndStateVar=TRUE''' holds. The found test cases are written to a file '''testcases.xml'''. | |||
As of version 1.6.0, the operation arguments are also written to the XML file. | |||
The preference <tt>INTERNAL_ARGUMENT_PREFIX</tt> can be used to provide a prefix for internal operation arguments; any argument/parameter whose name starts with that prefix is considered an internal parameter and not shown in the trace file. | |||
Also, as of version 1.6.0, the non-deterministic initialisations are shown in the XML trace file: all variables and constants where more than one possible initialisation exists are written into the trace file, as argument of an INITIALISATION event. | |||
=== -mcm_cover <Operation(s)> === | |||
Specify an operation or event that should be covered when generating test cases with the '''-mcm_test''' option. Multiple operations/events can be specified by seperating them by comma or by using '''-mcm_cover''' several times. | |||
See [[#-mcm_tests <Depth> <MaxStates> <EndPredicate> <FILE>|-mcm-tests]] for further details. | |||
=== -spdot <FILE> === | |||
Description | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| Write graph of the state space to a dot <FILE> | |||
|} | |||
Example | |||
probcli my.mch -mc 100 -spdot my_statespace.dot | |||
=== -cbc_tests <Depth> <EndPredicate> <File> === | |||
Generate test cases by constraint solving with maximum | |||
length '''Depth''', the last state satisfies '''EndPredicate''' | |||
and the test cases are written to '''File'''. If the predicate is the empty string we assume truth. If the filename is the empty string no file is generated. See also the page on [[Test_Case_Generation]]. | |||
=== -cbc_cover <Operation> === | |||
When generating CB test cases, '''Operation''' should be covered. | |||
The option can be given multiple times to specify several operations. | |||
Alternatively, multiple operations can be separated by a comma. You can also use the option <pre>-cbc_cover_match PartialName</pre> to match all operations whose name contains PartialName. See also the page about [[Test_Case_Generation]]. | |||
=== -test_description <File> === | |||
Read the options for constraint based test case generation from '''File'''. | |||
=== -bmc <Depth> === | |||
{| style="color:black; background-color:#FFFFEF; border:1px solid lightgray;" cellpadding="10" cellspacing="0" width="100%" | |||
| Run the [[Bounded_Model_Checking|bounded model checker]] until maximum trace depth <Depth> specified. Looks for invariant violations using the constraint-based test case generation algorithm. | |||
|} | |||
Example | |||
probcli my.mch -bmc 20 | |||
=== -csp-guide <File> === | |||
Use the CSP File '''File''' to guide the B Machine ("CSP||B"). | |||
(This feature is included since version 1.3.5-beta7.) | |||
== Environment Variables == | |||
Set NO_COLOR environment variable to disable terminal colors. | |||
See [https://no-color.org https://no-color.org]. | |||
== Preferences == | |||
You can use these preferences within the command: | |||
-p <PREFERENCE> <VALUE> | |||
{| cellpadding="5" cellspacing="1" width="100%" border="1" | |||
!style="background-color:lightgrey;" | <PREFERENCE> | |||
!style="background-color:lightgrey;" | <VALUE> | |||
|- | |||
| MAXINT | |||
| nat ==> MaxInt, used for expressions such as xx::NAT (2147483647 for 4 byte ints) | |||
|- | |||
| MININT | |||
| neg ==> MinInt, used for expressions such as xx::INT (-2147483648 for 4 byte ints) | |||
|- | |||
| DEFAULT_SETSIZE | |||
| nat ==> Size of unspecified deferred sets in SETS section. Will be used if a set s is neither enumerated, has no no card(s)=nr predicate in the PROPERTIES and has no scope_s == Nr DEFINITION. | |||
|- | |||
| MAX_INITIALISATIONS | |||
| nat ==> Max Number of Initialisations and ways to setup constants computed | |||
|- | |||
| MAX_OPERATIONS | |||
| nat ==> Max Number of Enablings per Operation Computed | |||
|- | |||
| ANIMATE_SKIP_OPERATIONS | |||
| bool ==> Animate operations which are skip or PRE C THEN skip | |||
|- | |||
| COMPRESSION | |||
| bool ==> Use more aggressive COMPRESSION when storing states | |||
|- | |||
| EXPAND_CLOSURES_FOR_STATE | |||
| bool ==> Convert lazy form back into explicit form for Variables, Constants, Operation Arguments. ProB will sometimes try to keep certain sets symbolic. If this preference is TRUE then ProB will try to expand those sets for variables and constants after an operation has been executed. | |||
|- | |||
| SYMBOLIC | |||
| bool ==> Lazy expansion of lambdas and set comprehensions. By default ProB will keep certain sets symbolic (e.g., sets it knows are infinite). When this preference is set to TRUE then all set comprehensions and lambda abstractions will at first be kept symbolic and only expanded into explicit form if needed. | |||
|- | |||
| CLPFD | |||
| bool ==> Use CLP(FD) solver for B integers (restricts range to -2^28..2^28-1 on 32 bit computers). Setting this preference to TRUE should substantially improve ProB's ability to solve complicated predicates involving integers. However, it may cause CLP(FD) overflows in certain circumstances. | |||
|- | |||
| SMT | |||
| bool ==> Enable SMT-Mode (aggressive treatment of : and /: inside predicates). With this predicate set to TRUE ProB will be better at solving certain constraint solving tasks. It should be enabled when doing constraint-based invariant or deadlock checking. ProB Tcl/Tk will turn this preference on automatically for those checks. | |||
|- | |||
| STATIC_ORDERING | |||
| bool ==> Use static ordering to enumerate constants which occur in most PROPERTIES first | |||
|- | |||
| SYMMETRY_MODE | |||
| [off,flood,nauty,hash] ==> Symmetry Mode: off,flood,canon,nauty,hash | |||
|- | |||
| TIME_OUT | |||
| nat1 ==> Time out for computing enabled transitions (in ms, is multiplied by a factor for other computations) | |||
|- | |||
| PROOF_INFO | |||
| bool ==> Use Proof Information to restrict invariant checking to affected unproven clauses. Most useful in EventB for models exported from Rodin. | |||
|- | |||
| TRY_FIND_ABORT | |||
| bool ==> Try more aggressively to detect ill-defined expressions (e.g. applying function outside of domain), may slow down animator | |||
|- | |||
| NUMBER_OF_ANIMATED_ABSTRACTIONS | |||
| nat ==> How many levels of refined models are animated by default | |||
|- | |||
| ALLOW_INCOMPLETE_SETUP_CONSTANTS | |||
| bool ==> Allow ProB to proceed even if only part of the CONSTANTS have been found. | |||
|- | |||
| PARTITION_PROPERTIES | |||
| bool ==> Partition predicates (PROPERTIES) into components | |||
|- | |||
| USE_RECORD_CONSTRUCTION | |||
| bool ==> Records: Check if axioms/properties describe a record pattern | |||
|- | |||
| OPERATION_REUSE | |||
| bool ==> Try and reuse previously computed operation effects in B/Event-B | |||
|- | |||
| SHOW_EVENTB_ANY_VALUES | |||
| bool ==> Show top-level ANY variable values of B Operations without parameters as parameters | |||
|- | |||
| RANDOMISE_OPERATION_ORDER | |||
| bool ==> Randomise order of operations when computing successor states | |||
|- | |||
| EXPAND_FORALL_UPTO | |||
| nat ==> When analysing predicates: max. domain size for expansion of forall (use 0 to disable expansion) | |||
|- | |||
| MAX_DISPLAY_SET | |||
| int ==> Max size for pretty-printing sets (-1 means no limit) | |||
|- | |||
| CSP_STRIP_SOURCE_LOC | |||
| bool ==> Strip source location for CSP; will speed up model checking | |||
|- | |||
| WARN_WHEN_EXPANDING_INFINITE_CLOSURES | |||
| int ==> Warn when expanding infinite closures if MAXINT larger than: | |||
|- | |||
| TRACE_INFO | |||
| bool ==> Provide various tracing information on the terminal/console. | |||
|- | |||
| DOUBLE_EVALUATION | |||
| bool ==> Evaluate PREDICATES positively and negatively when analyzing assertions or properties | |||
|- | |||
| RECURSIVE | |||
| bool ==> Lazy expansion of *Recursive* set Comprehensions and lambdas | |||
|- | |||
| IGNORE_HASH_COLLISIONS | |||
| bool ==> Ignore Hash Collisions (if true not all states may be computed, visited states are not memorised !) | |||
|- | |||
| FORGET_STATE_SPACE | |||
| bool ==> Do not remember state space (mainly useful in conjunction with Ignore Hash Collisions) | |||
|- | |||
| NEGATED_INVARIANT_CHECKING | |||
| bool ==> Perform double evaluation (positive and negative) when checking invariants | |||
|- | |||
| CSE | |||
| bool ==> Perform common-sub-expression elimination | |||
|- | |||
| CSE_SUBST | |||
| bool ==> Perform common-sub-expression elimination also for B substitutions | |||
|} | |||
Example | |||
probcli my.mch -p TIME_OUT 5000 -p CLPFD TRUE -p SYMMETRY_MODE hash -mc 1000 | |||
== Some probcli examples == | == Some probcli examples == | ||
Line 444: | Line 1,084: | ||
probcli -init -assertions -p MAXINT 2147483647 -p MININT -2147483647 -p TIME_OUT 5000 M.mch | probcli -init -assertions -p MAXINT 2147483647 -p MININT -2147483647 -p TIME_OUT 5000 M.mch | ||
</pre> | </pre> | ||
To fully model check a specification M.mch while tryining to minimize memory consumption do: | |||
<pre> | |||
probcli -model_check -p COMPRESSION TRUE M.mch | |||
</pre> | |||
To model check a specification M.mch while trying to minimize memory consumption further by not storing processed stats and using symmetry reduction (and accepting hash collisions) do: | |||
<pre> | |||
probcli -p COMPRESSION -p IGNORE_HASH_COLLISIONS TRUE -p FORGET_STATE_SPACE TRUE -p SYMMETRY_MODE hash -model_check M.mch | |||
</pre> | |||
== Command-line Arguments for ProB Tcl/Tk == | |||
Note that the stand-alone Tcl/Tk version also supports a limited form of command-line preferences: | |||
* '''FILE''' (the name/path of the file to be loaded) | |||
* '''-prefs PREF_FILE''' (to use a specific preferences file, rather than the default ProB_Preferences.pl in your home folder) | |||
* '''-batch''' (to instruct ProB not to try to bring up windows, but to print information only to the terminal) | |||
* '''-selfcheck''' (to run the standard unit tests) | |||
* '''-t''' (to perform the Trace Check on the default trace file associated with the specification) | |||
* '''-tcl TCL_Command''' (to run a particular pre-defined Tcl command) | |||
* '''-mc''' (to perform model checking) | |||
* '''-c''' (to compute the coverage) | |||
* '''-ref''' (to perform the default trace refinment check) | |||
However, the comand-line version of ProB, called '''probcli''', provides more features. It also does not depend on Tcl/Tk and can therefore be run on systems without Tcl/Tk. | |||
{{Feedback}} |
The command-line version of ProB, called probcli, offers many of the features of the standalone Tcl/Tk Version via the command-line. As such, you can run ProB from your shell scripts or in your Makefiles.
These pages refer to version 1.6 of ProB. Some features are only available in the nightly build of ProB. You can run probcli –help to find out which commands are supported by your version of ProB. For Bash users we provide command completion support.
Note: the order of commands is not relevant for probcli (except within groups of commands such as -p MAXINT 127). Any argument that is not recognised by probcli is treated as a filename to be analysed.
The following conventions are used in this guide:
<replaceme> | All values that should be replaced with some value are shown withing < > |
line breaks | Command synopsis for command may be broken up on several lines. When typing commands enter all option on the same line. |
probcli [--help] <filename> [ <options> ]
The underscore within all options can as of version 1.5.1-beta7 be replaced with dashes. Also, all commands can either be typed with single leading dashes or double leading dashes. For example, all of the following commands have the same effect:
probcli M.mch -model_check probcli M.mch -model-check probcli M.mch --model_check probcli M.mch --model-check
Description
model check; checking at most <nr> states |
Example
probcli my.mch -mc 100
Note: with a value of nr=1 ProB will only inspect the "virtual" root node (and compute its outgoing transitions). Also see the related options -nodead, -noinv, -nogoal, -noass to influence which kinds of errors are reported by -mc. You can also set a target goal predicate using the -goal "PRED" command and limit the scope of the model checking using the -scope "PRED" command.
The same as -mc but without a limit on the number of nodes checked. ProB will run until the entire state space is explored.
Description
restrict errors reported by model checking (-mc), TLC model checking (-mc_with_tlc), animation (-animate) and execution (-execute) with <x>=dead,inv,goal,ass
|
Example
probcli my.mch -mc 1000 -nodead -nogoal
Description
turn off ProB's timeout mechanism, e.g., for computing enabled operations and invariant checking; this can sometimes speed up model checking (-mc or -model_check) and animation (-animate). Available as of version 1.5.1-beta7. |
Example
probcli my.mch -model-check -disable-timeout
Description
proceed breadth-first during model checking |
Example
probcli my.mch -bf -mc 1000
Description
proceed depth-first during model checking |
Example
probcli my.mch -df -mc 1000
Description
influence how the model checker proceeds. Available as of version 1.5.1. Supersedes the -df and -bf switches.
Possible values for the mode <M> are:
|
Example
probcli my.mch -model_check -mc_mode random
Description
Global timeout in ms for model checking and refinement checking.
This does not influence the timeout used for computing individual transitions/operations. This has to be set with the -p TIME_OUT <N>. Note that the TIME_OUT preference also influences other computations, such as invariant checking or static assertion checking, where it is multiplied by a factor. See the description of the -p option. |
Example
probcli my.mch -timeout 10000
Description
trace check (associated .trace file must exist) |
Example
probcli my.mch -t
Description
initialise specification |
Example
probcli my.mch -init nr_of_components(1) % checking_component_properties(1,[]) % enumerating_constants_without_constraints([typedval(fd(_24428,ID),global(ID),iv)]) % grounding_wait_flags grounding_component(1) grounding_component(2) % found_enumeration_of_constants(0,2) % backtrack(found_enumeration_of_constants(0,2)) % found_enumeration_of_constants(0,1) % backtrack(found_enumeration_of_constants(0,1)) <- 0: SETUP_CONSTANTS :: root % Could not set up constants with parameters from trace file. % Will attempt any possible initialisation of constants. | 0: SETUP_CONSTANTS success -->0 - <- 1: INITIALISATION :: 0 % Could not initialise with parameters from trace file. % Will attempt any possible initialisation. ALL OPERATIONS COVERED - | 1: INITIALISATION success -->2 - - SUCCESS
Description
constraint-based invariant checking for an operation (also use <OPNAME>=all) |
Example
probcli my.mch -cbc all
Description
Perform constraint-based deadlock checking (also use -cbc_deadlock_pred PRED) |
This will try to find a state which satisfies the invariant and properties and where no operation/event is enabled. Note: if ProB finds a counter example then the machine cannot be proven to be deadlock free. However, the particular state may not be reachable from the initial state(s). If you want to find a reachable deadlock you have to use the model checker.
Description
Constraint-based deadlock finding given a predicate |
This is like -cbc_deadlock but you provide an additional predicate. ProB will only find deadlocks which also make this predicate true.
Example
probcli my.mch -cbc_deadlock_pred "n=15"
Description
Constraint-based checking of assertions on constants |
This will try and find a solution for the constants which make an assertion (on constants) false.
You can use the extra command -cbc_output_file FILE to write the result of this check to a file. You can also use the extra command -cbc_option contradiction_check to ask ProB to check if there is a contradiction in the properties (in case the check did not find a counter-example to the assertions). The extra command -cbc_option unsat_core tells ProB to compute the unsatisfiable core in case a proof the assertions was found. Note that the TIME_OUT preference is multiplied by 10 for this command.
There are various variations of this command:
-cbc_assertions_proof -cbc_assertions_tautology_proof
Both commands do not allow enumeration warnings to occur. The latter command ignores the PROPERTIES and tries to check whether the ASSERTION(s) are tautologies. Both commands can be useful to use ProB as a Prover/Disprover (as is done in Atelier-B 4.3).
Description
Constraint-based searching for a sequence of operation names (separated by semicolons) |
This will try and find a solution for the constants, initial variable values and parameters which make execution of the given sequence of operations possible.
Example
probcli my.mch -cbc_sequence "op1;op2"
Description
raise error and stop probcli if anything unexpected happens, e.g., if model checking finds a counter example or trace checking fails or any unexpected error happens |
Example
probcli my.mch -t -strict
Description
expect error to occur (<ERR>=cbc,mc,ltl,...)
Tell ProB that you expect a certain error to occur. Mainly useful for regression tests (in conjunction with the -strict option). |
Example
probcli examples/B/Benchmarks/CarlaTravelAgencyErr.mch -mc 1000 -expcterr invariant_violation -strict
Description
random animation (max Nr steps) |
Animates the machine randomly, maximally Nr of steps. It will stop if a deadlock is reached and report an error. You can also use the command -animate_all, which will only stop at a deadlock (and not report an error). Be careful: -animate_all could run forever.
Example
probcli my.mch -animate 100
Description
execution (max Nr steps) |
Executes the "first" enabled operation of a machine, maximally Nr of steps. It will stop if a deadlock is reached and report an error. You can also use the command -execute_all, which will only stop at a deadlock (and not report an error). Be careful: -execute_all could run forever.
In contrast to -animate, -execute will
Example
probcli my.mch -execute 100
Description
check if animation steps are deterministic |
Checks if every step of the animation is deterministic (i.e., only one operation is possible, and it can only be executed in one possible way as far as parameters and result is concerned). Currently this option has only an effect for the -animate <Nr> and the -init commands.
Example
probcli my.mch -animate 100 -det_check
Description
check if animation steps are deterministic |
Checks if the SETUP_CONSTANTS step is deterministic (i.e., only one way to set up the constants is possible). Currently this option has only an effect for the -animate <Nr> and the -init commands.
Example
probcli my.mch -init -det_constants
Description
save animation history to a file |
Save the animation (or model checking) history to a text file. Operations are separated by semicolons. The output can be adapted using the -his_option command. With -his_option show_states the -his command will also write out all states to the file (in the form of comments before and after operations). With -his_option show_init only the initial state is written out. The -his command is executed after the -init, -animate, -t or -mc commands. See also the -sptxt command to only write the current values of variables and constants to a file.
Example
probcli -animate 5 -his history.txt supersimple.mch
Additionally we can have the initialised variables and constants:
probcli -animate 5 -his history.txt -his_option show_init supersimple.mch
And we can have in addition the values of the variables in between (and at the end):
probcli -animate 5 -his history.txt -his_option show_states supersimple.mch
With -his_option trace_file as only option, probcli will write the history in Prolog format, which can later be used by the -t command.
Description
interactive animation |
After performing the other commands, ProB stays in interactive mode and allows the user to manually animate the loaded specification.
Example
probcli my.mch -i
Description
start interactive read-eval-print-loop |
Example
probcli my.mch -p CLPFD TRUE -repl
A list of commands can be obtained by typing :help (just help for versions 1.3.x of probcli). The interactive read-eval-print-loop can be exited using :q (just typing a return on a blank line for versions 1.3.x of probcli).. If in addition you want see a graphical representation of the solutions found you can use the following command and open the out.dot file using dotty or GraphViz:
probcli -repl -evaldot ~/out.dot
You can also use the -eval command to evaluate specific formulas or expressions:
probcli -eval "1+2"
For convenience, these formulas can also be put into a separate file:
probcli -eval_file MyFormula.txt
Description
print coverage statistics |
Example
probcli my.mch -mc 1000 -c
You can also use the longer name for the command:
probcli my.mch -mc 1000 --coverage
There is also a version which prints a shorter summary (and which is much faster for large state spaces):
probcli my.mch -mc 1000 --coverage_summary
Description
print and check coverage statistics
Print coverage statistics and check that the given number of nodes and transitions have been computed. |
Example
probcli my.mch -mc 1000 -cc 10 25
Description
Set <PREFERENCE> to <VALUE>. For more information about preferences please have a look at Preferences |
You can also use --pref instead of -p. Example
probcli my.mch -p TIME_OUT 8000 -p CLPFD TRUE -mc 10000
Description
set to the group of preferences <PREFGROUP> to a predefined setting <SETTING> |
Example
probcli my.mch -pref_group model_check unlimited
Available groups and settings are:
Description
Set preferences from preference file <FILE>. The file should be created by the Tcl/Tk version of ProB; this version automatically creates a file called ProB_Preferences.pl. For more information about preferences please have a look at Preferences |
Example
probcli my.mch -prefs ProB_Preferences.pl
Description
set cardinality (scope in Alloy terminology) of a B deferred set. This overrides the default cardinality (which can be set using -p DEFAULT_SETSIZE <VAL>). |
Example
probcli my.mch -card PID 5
Description
set GOAL predicate for model checker |
Example
probcli my.mch -mc 10000000 -goal "n=18" -strict -expcterr goal_found
Description
set SCOPE predicate for model checker; states which do not satisfy the SCOPE predicate will be ignored (invariant will not be checked and no outgoing transitions will be computed) |
Example
probcli my.mch -mc 10000000 -scope "n<18"
Description
start socket server on given port |
Example
probcli my.mch ...
Description
start socket server on port 9000 |
Example
probcli my.mch ...
Description
start socket server on some free port |
Example
probcli my.mch ...
Description
save constants and variables to a file |
Save the values of constants and variables to a text file in classical B syntax. The -sptxt command is executed after the -init, -animate, -t or -mc commands. The values are fully written out (some sets, e.g., infinite sets may be written out symbolically).
See also the -his command.
Example
probcli -animate 5 -sptxt state.txt supersimple.mch
This will write the values of all variables and constants to the file state.txt after animating the machine 5 steps.
Description
save constants (and in future also variables) to a file to avoid recomputation |
This commands saves the values of constants for the current B machine and puts those values into files in the specified directory. The command will also tell ProB to try and reuse constants saved for subsidiary machines (included using SEES for example) whenever possible. The purpose of the command is to avoid recomputing constants as much as possible, as this can be very time consuming. This also works for values of variables computed in the initialisation or even using operations. However, we do not support refinements at the moment.
Note: this command can also be used when starting up the ProB Tcl/Tk version.
Description
log activities and results of probcli in XML format in <LogFile> |
A schema declaration file (xsd) can be found at doc/logxml_xsd.xml in the ProB Prolog sources. The log file contains information about the various commands performed by probcli. It also contains version information, the parameters provided to probcli and details about the errors that occured.
Example
probcli my.mch -mc 1000 -logxml log.xml
Description
after processing other commands (such as -execute) write values of variables having prefix PREFIX in their name into the XML log file (if XML logging has been activated using the -logxml command) |
Example
probcli my.mch -execute 1000 -logxml log.xml -logxml_write_vars out
Description
log activities in <LogFile> using Prolog format |
Example
probcli my.mch -mc 1000 -l my.log
Description
log activities in /tmp/prob_cli_debug.log |
Example
probcli my.mch -mc 1000 -ll
Description
analyse <LogFile> using gnuplot |
Example
probcli my.mch ...
Description
pretty-print internal representation to <FILE> |
Example
probcli my.mch -pp my_pp.mch
Description
pretty-print internal representation to <FILE>, force printing of all type infos |
Example
probcli my.mch -ppf my_ppf.mch
Description
set ProB into verbose mode |
Example
probcli my.mch -mc 1000 -v
Description
print version information |
There is also an alternate command called -svers which just prints the version number of ProB. Example
probcli -version ProB Command Line Interface VERSION 1.3.4-rc1 (9556:9570M) $LastChangedDate: 2011-11-16 18:36:18 +0100 (Wed, 16 Nov 2011) $ Prolog: SICStus 4.2.0 (x86_64-darwin-10.6.0): Mon Mar 7 20:03:36 CET 2011 Application Path: /Users/leuschel/svn_root/NewProB
probcli -svers VERSION 1.3.4-rc1 (9556:9570M)
You can use probcli -version -v to obtain more information about your version of probcli.
Description
check Java and B parser version information |
This command is available as of ProB version 1.5.1-beta5 or higher. It can be useful to check that your Java is correctly installed and that the ProB B parser can operate correctly
probcli -check_java_version Result of checking Java version: Java is correctly installed and version 1.7.0_55-b13 is compatible with ProB requirements (>= 1.7). ProB B Java Parser available in version: 2016-02-25 15:27:18.55.
Description
check ASSERTIONS of your machine
If you provide the -t switch, the ASSERTIONS will be checked after executing your trace. Otherwise, they will be checked in an initial state. ProB will automatically initialize the machine if you have not provide the -init or -t switch. You can also use -main_assertions to check only the ASSERTIONS found in the main file. If your ASSERTIONS are all static (i.e., make no reference to variables), then ProB will remove all CONSTANTS and PROPERTIES from your machine which are not linked (directly or indirectly) to the ASSERTIONS. This optimization will only be made if you provide no other switch, such as -mc or -animate which may require the computation of the variables. |
Example
probcli my.mch -init -assertions
Description
virtually add predicate to PROPERTIES |
Example
probcli my.mch -property "PRED"
Description
check PROPERTIES
Note: you should probably first initialise the machine (e.g., with -init). If the constants have not yet been set up, probcli will debug the properties. |
Example
probcli my.mch -init -properties
Description
define path for generation of dot files for false properties or assertions |
This option is applicable to -properties and -assertions. It will result in individual dot files being generated for every false or unknown property or assertion. Assertions are numbered A0,A1,... and properties P0,P1,... You can also force to generate dot files for all properties (i.e., also the true ones) using the -dot_all command-line flag.
Example
probcli my.mch -init -properties -dot_output somewhere/
This will generate files somewhere/my_P0_false.dot, somewhere/my_P1_false.dot, ...
Description
runtime checking of types/pre-/post-conditions |
Example
probcli my.mch ...
Description
check LTL formulas in file <FILE> |
Example
probcli my.mch ...
Description
check LTL assertions (in DEFINITIONS) |
Example
probcli my.mch ...
Description
explore at most <LIMIT> states when model-checking LTL |
Example
probcli my.mch ...
Description
save state space for later refinement check |
Example
probcli my.mch ...
Description
refinement check against previous saved state space |
Example
probcli my.mch ...
Generate test cases for the given specification. Each test case consists of a sequence of operations resp. events (a so-called trace) that
The user can specify what requested operations/events are with the option -mcm_cover.
ProB uses a "breadth-first" approach to search for test cases. When all requested operations/events are covered by test cases within maximum length M, the algorithm will explore the complete state space with that maximum distance M from the initialisation. It outputs all found traces that satisfy the requirements above.
The algorithm stops if either
The required parameters are:
Example
probcli my.mch -mcm_tests 10 2000 "EndStateVar=TRUE" testcases.xml -mcm_cover op1,op2
generates test cases for the operations op1 and op2 of the specification my.mch. The maximum length of traces is 10, at most 2000 states are explored. Each test case ends in a state where the predicate EndStateVar=TRUE holds. The found test cases are written to a file testcases.xml.
As of version 1.6.0, the operation arguments are also written to the XML file. The preference INTERNAL_ARGUMENT_PREFIX can be used to provide a prefix for internal operation arguments; any argument/parameter whose name starts with that prefix is considered an internal parameter and not shown in the trace file. Also, as of version 1.6.0, the non-deterministic initialisations are shown in the XML trace file: all variables and constants where more than one possible initialisation exists are written into the trace file, as argument of an INITIALISATION event.
Specify an operation or event that should be covered when generating test cases with the -mcm_test option. Multiple operations/events can be specified by seperating them by comma or by using -mcm_cover several times.
See -mcm-tests for further details.
Description
Write graph of the state space to a dot <FILE> |
Example
probcli my.mch -mc 100 -spdot my_statespace.dot
Generate test cases by constraint solving with maximum length Depth, the last state satisfies EndPredicate and the test cases are written to File. If the predicate is the empty string we assume truth. If the filename is the empty string no file is generated. See also the page on Test_Case_Generation.
When generating CB test cases, Operation should be covered. The option can be given multiple times to specify several operations.
Alternatively, multiple operations can be separated by a comma. You can also use the option
-cbc_cover_match PartialName
to match all operations whose name contains PartialName. See also the page about Test_Case_Generation.
Read the options for constraint based test case generation from File.
Run the bounded model checker until maximum trace depth <Depth> specified. Looks for invariant violations using the constraint-based test case generation algorithm. |
Example
probcli my.mch -bmc 20
Use the CSP File File to guide the B Machine ("CSP||B"). (This feature is included since version 1.3.5-beta7.)
Set NO_COLOR environment variable to disable terminal colors. See https://no-color.org.
You can use these preferences within the command:
-p <PREFERENCE> <VALUE>
<PREFERENCE> | <VALUE> |
---|---|
MAXINT | nat ==> MaxInt, used for expressions such as xx::NAT (2147483647 for 4 byte ints) |
MININT | neg ==> MinInt, used for expressions such as xx::INT (-2147483648 for 4 byte ints) |
DEFAULT_SETSIZE | nat ==> Size of unspecified deferred sets in SETS section. Will be used if a set s is neither enumerated, has no no card(s)=nr predicate in the PROPERTIES and has no scope_s == Nr DEFINITION. |
MAX_INITIALISATIONS | nat ==> Max Number of Initialisations and ways to setup constants computed |
MAX_OPERATIONS | nat ==> Max Number of Enablings per Operation Computed |
ANIMATE_SKIP_OPERATIONS | bool ==> Animate operations which are skip or PRE C THEN skip |
COMPRESSION | bool ==> Use more aggressive COMPRESSION when storing states |
EXPAND_CLOSURES_FOR_STATE | bool ==> Convert lazy form back into explicit form for Variables, Constants, Operation Arguments. ProB will sometimes try to keep certain sets symbolic. If this preference is TRUE then ProB will try to expand those sets for variables and constants after an operation has been executed. |
SYMBOLIC | bool ==> Lazy expansion of lambdas and set comprehensions. By default ProB will keep certain sets symbolic (e.g., sets it knows are infinite). When this preference is set to TRUE then all set comprehensions and lambda abstractions will at first be kept symbolic and only expanded into explicit form if needed. |
CLPFD | bool ==> Use CLP(FD) solver for B integers (restricts range to -2^28..2^28-1 on 32 bit computers). Setting this preference to TRUE should substantially improve ProB's ability to solve complicated predicates involving integers. However, it may cause CLP(FD) overflows in certain circumstances. |
SMT | bool ==> Enable SMT-Mode (aggressive treatment of : and /: inside predicates). With this predicate set to TRUE ProB will be better at solving certain constraint solving tasks. It should be enabled when doing constraint-based invariant or deadlock checking. ProB Tcl/Tk will turn this preference on automatically for those checks. |
STATIC_ORDERING | bool ==> Use static ordering to enumerate constants which occur in most PROPERTIES first |
SYMMETRY_MODE | [off,flood,nauty,hash] ==> Symmetry Mode: off,flood,canon,nauty,hash |
TIME_OUT | nat1 ==> Time out for computing enabled transitions (in ms, is multiplied by a factor for other computations) |
PROOF_INFO | bool ==> Use Proof Information to restrict invariant checking to affected unproven clauses. Most useful in EventB for models exported from Rodin. |
TRY_FIND_ABORT | bool ==> Try more aggressively to detect ill-defined expressions (e.g. applying function outside of domain), may slow down animator |
NUMBER_OF_ANIMATED_ABSTRACTIONS | nat ==> How many levels of refined models are animated by default |
ALLOW_INCOMPLETE_SETUP_CONSTANTS | bool ==> Allow ProB to proceed even if only part of the CONSTANTS have been found. |
PARTITION_PROPERTIES | bool ==> Partition predicates (PROPERTIES) into components |
USE_RECORD_CONSTRUCTION | bool ==> Records: Check if axioms/properties describe a record pattern |
OPERATION_REUSE | bool ==> Try and reuse previously computed operation effects in B/Event-B |
SHOW_EVENTB_ANY_VALUES | bool ==> Show top-level ANY variable values of B Operations without parameters as parameters |
RANDOMISE_OPERATION_ORDER | bool ==> Randomise order of operations when computing successor states |
EXPAND_FORALL_UPTO | nat ==> When analysing predicates: max. domain size for expansion of forall (use 0 to disable expansion) |
MAX_DISPLAY_SET | int ==> Max size for pretty-printing sets (-1 means no limit) |
CSP_STRIP_SOURCE_LOC | bool ==> Strip source location for CSP; will speed up model checking |
WARN_WHEN_EXPANDING_INFINITE_CLOSURES | int ==> Warn when expanding infinite closures if MAXINT larger than: |
TRACE_INFO | bool ==> Provide various tracing information on the terminal/console. |
DOUBLE_EVALUATION | bool ==> Evaluate PREDICATES positively and negatively when analyzing assertions or properties |
RECURSIVE | bool ==> Lazy expansion of *Recursive* set Comprehensions and lambdas |
IGNORE_HASH_COLLISIONS | bool ==> Ignore Hash Collisions (if true not all states may be computed, visited states are not memorised !) |
FORGET_STATE_SPACE | bool ==> Do not remember state space (mainly useful in conjunction with Ignore Hash Collisions) |
NEGATED_INVARIANT_CHECKING | bool ==> Perform double evaluation (positive and negative) when checking invariants |
CSE | bool ==> Perform common-sub-expression elimination |
CSE_SUBST | bool ==> Perform common-sub-expression elimination also for B substitutions |
Example
probcli my.mch -p TIME_OUT 5000 -p CLPFD TRUE -p SYMMETRY_MODE hash -mc 1000
To load a file My.mch, setup the constants and initialize it do:
probcli -init My.mch
To load a file M.mch, setup the constants, initialize and then check all assertions with Atelier-B's default values for MININT and MAXINT and an increased timeout of 5 seconds do:
probcli -init -assertions -p MAXINT 2147483647 -p MININT -2147483647 -p TIME_OUT 5000 M.mch
To fully model check a specification M.mch while tryining to minimize memory consumption do:
probcli -model_check -p COMPRESSION TRUE M.mch
To model check a specification M.mch while trying to minimize memory consumption further by not storing processed stats and using symmetry reduction (and accepting hash collisions) do:
probcli -p COMPRESSION -p IGNORE_HASH_COLLISIONS TRUE -p FORGET_STATE_SPACE TRUE -p SYMMETRY_MODE hash -model_check M.mch
Note that the stand-alone Tcl/Tk version also supports a limited form of command-line preferences:
However, the comand-line version of ProB, called probcli, provides more features. It also does not depend on Tcl/Tk and can therefore be run on systems without Tcl/Tk.
Please help us to improve this documentation by providing feedback in our bug tracker, asking questions in our prob-users group or sending an email to Michael Leuschel.