Debugging


There are various ways in which you can debug your model. We focus here on debugging performance issues

Debugging with LibraryIO

The standard library "LibraryIO.def" contains various external functions and predicates with which you can instrument your formal model.

To use the library in your model you need to include the following

DEFINITIONS
 "LibraryIO.def"

With the external predicate printf you can view values of variables and identifiers. The printf predicate is always true and will print its arguments when all of them have been fully computed. The printf predicate uses the format from SICStus Prolog for the format string. The most important are ~w for printing an argument and ~n for a newline. There must be exactly as many ~w in the format string as there are aguments. Below is a small example, to inspect in which order ProB enumerates values. The example is typed in the REPL of probcli (started using the command probcli -repl File.mch where File.mch includes the definitions section above):

>>> {x,y | x:1..5 & y:1..2 & x+y=6 & printf("x=~w~n",[x]) & printf("y=~w~n",[y])}
y=1
x=5
y=2
x=4
Expression Value = 
{(4|->2),(5|->1)}

As you can see, ProB has enumerated y before x, as its domain was smaller.

You can use the external function observe to inspect a list of identifiers:

>>> {x,y | x:1..5 & y:1..2 & x+y=6 & observe((x,y))}
 observing x
 observing y
 y = 1  (walltime: 562188 ms)
. x = 5  (walltime: 562188 ms)
..* Value complete: x |-> y = (5|->1)  (walltime: 562188 ms)
------
 y = 2  (walltime: 562188 ms)
. x = 4  (walltime: 562188 ms)
..* Value complete: x |-> y = (4|->2)  (walltime: 562188 ms)
------
Expression Value = 
{(4|->2),(5|->1)}

With the external function TIME you can get the current time in seconds:

>>> TIME("sec")
Expression Value = 
11
>>> TIME("now")
Expression Value = 
1581432376
>>> TIME("now")
Expression Value = 
1581432377

With the external function DELTA_WALLTIME you can get the time in milliseconds since the last call to DELTA_WALLTIME.

Performance Messages

By setting the preference PERFORMANCE_INFO to TRUE ProB will print various performance messages. For example it may print messages when the evaluation of comprehension sets has exceeded a threshold. This threshold (in ms) can be influenced by setting the preference PERFORMANCE_INFO_LIMIT.

Debugging Constants Setup

By setting the preference TRACE_INFO to TRUE ProB will print additional messages when evaluating certain predicates, in particular the PROPERTIES clause of a B machine. With this feature you can observe how constants get bound to values and can sometimes spot expensive predicates and large values. Some additional information about debugging the PROPERTIES can be found in the Tutorial Troubleshooting the Setup.

Let us take the following machine

MACHINE Debug
CONSTANTS a,b,c
PROPERTIES
  a = card(b) &
  b = %x.(x:1..c|x*x) &
  c : 1000..1001 & c < 1001
VARIABLES x
INVARIANT x:NATURAL
INITIALISATION x:=2
OPERATIONS
  Sqr = SELECT x:dom(b) THEN x := b(x) END;
  Finished = SELECT x /: dom(b) THEN skip END
END

Here is how we can debug the constants setup:

$ probcli Debug.mch -p TRACE_INFO TRUE -init
% unused_constants(2,[a,c])
nr_of_components(1)

 ====> (1) c < 1001

 ====> (1) a = card(b)

 ====> (1) b = %x.(x : 1 .. c|x * x)

 ====> (1) c : 1000 .. 1001
finished_processing_component_predicates
grounding_wait_flags
 :?: a int(?:0..sup)
 :?: b VARIABLE: _31319 : GRVAL-CHECK
 :?: c int(?:inf..1000)
--1-->> a
     int(1000)
--1-->> b
     AVL.size=1000
--1-->> c
     int(1000)
% Runtime for SOLUTION for SETUP_CONSTANTS: 107 ms (walltime: 110 ms)
% Runtime to FINALISE SETUP_CONSTANTS: 0 ms (walltime: 0 ms)

 =INIT=> x := 2
 [=OK= 0 ms]

Debugging Constant Size =

Another useful feature is the constants_analysis command. It generates a CSV table which can be inspected in an editor or a spreadsheet program. The table provides an overview of the constants, in particular their size and whether they are kept symbolic or expanded. Note that B distinguishes between abstract and concrete constants. By default, concrete constants will be evaluated (unless they are known to be infinite or larger or annotated as symbolic). Abstract constants are more often kept symbolic. You can influence ProB's treatmen of constants by - choosing to put constants into the ABSTRACT_CONSTANTS or CONCRETE_CONSTANTS section - annotating the values with the /*@ symbolic */ pragma - annotating the constant with the /@ desc expand */ pragma to force expansion - annotating the constant with the /@desc memo */ pragma to memoize its evaluation (i.e., cache evaluation results involving the constant)

MACHINE DebugSymbolicConstants
ABSTRACT_CONSTANTS
  a1, a2, a3
CONCRETE_CONSTANTS
  c1, c2, c3
PROPERTIES
  a1 = %x.(x:1..10000|x+x) &
  a2 = {x | x:1..10000 & x mod 100 = 0} &
  a3 = %x.(x:1..100|x*x) &
  c1 = %x.(x:1..10000|x+x) &
  c2 = {x | x:1..10000 & x mod 100 = 0} &
  c3 = %x.(x:1..100|x*x)
END
 probcli FILE.mch -init -csv constants_analysis user_output
...
Calling table command constants_analysis

! Message (source: constants_analysis):
! Abstract constant is stored symbolically but can be expanded to a finite set of size 10000 (by moving to ABSTRACT_CONSTANTS or annotating with /*@desc expand */ pragma): a1
! Line: 3 Column: 2 until Line: 3 Column: 4 in file: /Users/leuschel/git_root/prob_examples/public_examples/B/Tester/ConstantsDebug/DebugSymbolicConstants.mch

! Message (source: constants_analysis):
! Abstract constant is stored symbolically but can be expanded to a finite set of size 100 (by moving to ABSTRACT_CONSTANTS or annotating with /*@desc expand */ pragma): a2
! Line: 3 Column: 6 until Line: 3 Column: 8 in file: /Users/leuschel/git_root/prob_examples/public_examples/B/Tester/ConstantsDebug/DebugSymbolicConstants.mch

! Message (source: constants_analysis):
! Abstract constant is stored symbolically but can be expanded to a finite set of size 100 (by moving to ABSTRACT_CONSTANTS or annotating with /*@desc expand */ pragma): a3
! Line: 3 Column: 10 until Line: 3 Column: 12 in file: /Users/leuschel/git_root/prob_examples/public_examples/B/Tester/ConstantsDebug/DebugSymbolicConstants.mch
CONSTANT class kind termsize value
c1 CONCRETE AVL-Set:10000 90002 #10000:{(1|->2),(2|->4),...,(9999|->19998),(10000|->20000)}
c3 CONCRETE AVL-Set:100 902 {(1|->1),(2|->4),(3|->9),(4|->16),(5|->25),(6|->36),(7|->49),(8|->64),(9|->81),(10|->100),(11|->121)...
a3 ABSTRACT FINITE-SYMBOLIC-Set:100 708 /*@symbolic*/ %x.(x : {1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17,18,19,20,21,22,23,24,25,26,27,28,29...
c2 CONCRETE AVL-Set:100 602 {100,200,300,400,500,600,700,800,900,1000,1100,1200,1300,1400,1500,1600,1700,1800,1900,2000,2100,220...
a2 ABSTRACT FINITE-SYMBOLIC-Set:100 162 /*@symbolic*/ {x|x : (1 .. 10000) & x mod 100 = 0}
a1 ABSTRACT FINITE-SYMBOLIC-Set:10000 151 /*@symbolic*/ %x.(x : (1 .. 10000)|x + x)
Finished exporting constants_analysis to user_output

Debugging Animation or Execution

By using the -animate_stats flag, you can see execution times for operations that are executed either using the -execute or -animate commands. In verbose mode (-v flag) you also see the memory consumption.

$ probcli Debug.mch -execute_all -animate_stats
% unused_constants(2,[a,c])
% Runtime for SOLUTION for SETUP_CONSTANTS: 79 ms (walltime: 80 ms)
1    : SETUP_CONSTANTS
       91 ms walltime (89 ms runtime), since start: 1107 ms
2    : INITIALISATION
       5 ms walltime (4 ms runtime), since start: 1112 ms
3    : Sqr
       10 ms walltime (10 ms runtime), since start: 1123 ms
4    : Sqr
       0 ms walltime (0 ms runtime), since start: 1123 ms
5    : Sqr
       1 ms walltime (0 ms runtime), since start: 1124 ms
6    : Sqr
       0 ms walltime (0 ms runtime), since start: 1124 ms
7    : Finished
       3 ms walltime (4 ms runtime), since start: 1127 ms
Infinite loop reached after 8 steps (looping on Finished).
% Runtime for -execute: 116 ms (with gc: 116 ms, walltime: 119 ms); time since start: 1132 ms

Profiling

You can obtain some profiling information using the -prob_profile command. This command unfortunately requires that ProB was compiled using special flags (-Dprob_profile=true and -Dprob_src_profile=true).

$ probcli ../prob_examples/public_examples/B/Tutorial/Debug.mch -execute_all -prob_profile
...
--------------------------
ProB profile info after 5685 ms walltime (5248 ms runtime)
----Source Location Profiler Information----
----Tracks number of times B statements (aka substitutions) are hit
 1 hits at 9:15 -- 9:19 in /Users/leuschel/git_root/prob_examples/public_examples/B/Tutorial/Debug.mch
 1 hits at 12:37 -- 12:41 in /Users/leuschel/git_root/prob_examples/public_examples/B/Tutorial/Debug.mch
 4 hits at 11:29 -- 11:38 in /Users/leuschel/git_root/prob_examples/public_examples/B/Tutorial/Debug.mch
----
---- ProB Runtime Profiler ----
---- Tracks time spent in B operations and invariant evaluation
 $setup_constants : 78 ms (80 ms walltime & 80 ms max. walltime; #calls 1)
 Sqr : 9 ms (9 ms walltime & 9 ms max. walltime; #calls 1)
 $initialise_machine : 5 ms (5 ms walltime & 5 ms max. walltime; #calls 1)
 Finished : 3 ms (4 ms walltime & 4 ms max. walltime; #calls 1)
 Total Walltime: 98 ms for #calls 4