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= Supported TLA+ syntax = | = Supported TLA+ syntax = | ||
<pre> | |||
Logic | Logic | ||
----- | ----- | ||
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===================== | ===================== | ||
</pre> | |||
Temporal formulas and unused definitions are ignored by TLA2B (they are also ignored by the type inference algorithm). | Temporal formulas and unused definitions are ignored by TLA2B (they are also ignored by the type inference algorithm). | ||
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= Naming conflicts = | = Naming conflicts = | ||
reserved B keywords: left, right, max, min, succ, pred, dom, ran, fnc, rel, id, card, POW, POW1, FIN, FIN1, | reserved B keywords: | ||
<pre> | |||
left, right, max, min, succ, pred, dom, ran, fnc, rel, id, card, POW, POW1, FIN, FIN1, | |||
size, rev, first, last, front, tail, conc, struct, rec, tree, btree, skip, ANY, WHERE, END, BE, VAR, ASSERT; | size, rev, first, last, front, tail, conc, struct, rec, tree, btree, skip, ANY, WHERE, END, BE, VAR, ASSERT; | ||
CHOICE, OR, SELECT, EITHER, WHEN, BEGIN, MACHINE, REFINEMENT, IMPLEMENTATION, SETS, CONSTRAINTS, MODEL, SYSTEM, | CHOICE, OR, SELECT, EITHER, WHEN, BEGIN, MACHINE, REFINEMENT, IMPLEMENTATION, SETS, CONSTRAINTS, MODEL, SYSTEM, | ||
MACHINE, EVENTS, OPERATIONS | MACHINE, EVENTS, OPERATIONS | ||
</pre> | |||
= TLA+ Actions = | = TLA+ Actions = | ||
----------- | ----------- | ||
TLA2B divides the next state relation into different actions if a disjunction occurs. | |||
IF a existential quantification occurs TLA2B searches for further actions in the predicate | |||
of the quantification and adds the bounded variables as arguments to these actions. | |||
IF a definition call occurs and the definition has no arguments TLA2B goes into the definition | |||
searching for further actions. | |||
The displayed actions by ProTLA are not necessarily identical with the actions determined by TLC. |
As of version 1.3.5, ProB supports TLA+.
ProB uses the translator TLA2B, which translates the non temporal part of a TLA+ module to a B machine. To use ProB for TLA you have to download the tla2b.zip from http://nightly.cobra.cs.uni-duesseldorf.de/tla/ Unzip the Zip file and copy the TLA2B.jar to the 'lib' folder of the ProB installation directory ('../ProB/lib/'). When you then open a TLA+ module ProTLA generates the translated B machine in the same folder and loads it in the background. If there is a valid translation you can animate and model check the TLA+ specification. There are many working examples in the '../ProB/Examples/TLA+/'-directory.
The parser and semantic analyzer SANY serves as the front end of TLA2B. It was written by Jean-Charles Grégoire and David Jefferson and is also the front end of the model checker TLC. After parsing there is type checking phase, in which types of variables and constants are inferred. So there is no need to especially declare types in a invariant clause (in the manner of the B method). Moreover it checks if a TLA+ module is translatable (see Limitations of Translation).
To tell TLA2B the name of a specification of a TLA+ module you can use a configuration file, just like for TLC. The configuration file must have the same name as the name of the module and the filename extension 'cfg'. The configuration file parser is the same as for TLC so you can look up the syntax in the 'Specifying Systems'-book (Leslie Lamport). If there is no configuration file available TLA2B looks for a TLA+ definition named 'Spec' or alternatively for a 'Init' and a 'Next' definition describing the initial state and the next state relation. Besides that in the configuration file you can give a constant a value but this is not mandatory, in contrast to TLC. Otherwise ProTLA lets you choose during the animation process a value for the constant which satisfy the assumptions under the ASSUME clause. TLA2B supports furthermore overriding of a constant or definition by another definition in the configuration file.
Logic ----- P /\ Q conjunction P \/ Q disjunction ~ or \lnot or \neg negation => implication <=> or \equiv equivalence TRUE FALSE BOOLEAN set containing TRUE and FALSE \A x \in S : P universal quantification \A x : P \E x \in S : P existential quantification \E x : P Equality: ------ e = f equality e # f or e /= f inequality Sets ------ {d, e} set consisting of elements d, e {x \in S : P} set of elements x in S satisfying p {e : x \in S} set of elements e such that x in S e \in S element of e \notin S not element of S \cup T or S \union T set union S \cap T or S \intersect set intersection S \subseteq T equality or subset of S \ t set difference SUBSET S set of subsets of S UNION S union of all elements of S Functions ------ f[e] function application DOMAIN f domain of function f [x \in S |-> e] function f such that f[x] = e for x in S [S -> T] Set of functions f with f[x] in T for x in S [f EXCEPT ![e] = d] the function equal to f except f[e] = d Records ------- r.id the id-field of record r [id_1|->e_1,...,id_n|->e_n] construct a record with given field names and values [id_1:S_1,...,id_n:S_n] set of records with given fields and field types [r EXCEPT !.id = e] the record equal to r except r.id = e Strings and Numbers ------------------- "abc" a string STRING set of a strings 123 a number Miscellaneous constructs ------------------------ IF P THEN e_1 ELSE e_2 CASE P_1 -> e_1 [] ... [] P_n ->e_n CASE P_1 -> e_1 [] ... [] P_n ->e_n [] OTHER -> e LET d_1 == e_1 ... d_n == e_n IN e Action Operators ---------------- v' the value of variable v in the next state (only variables are able to be primed) UNCHANGED v v'=v UNCHANGED <<v_1, v_2>> v_1'=v_1 /\ v_2=v_2 (the restriction of tuples is not relevant for the unchanged operator) Supported standard modules -------------------------- Naturals -------- x + y addition x - y difference x * y multiplication x \div y division x % y remainder of division x ^ y exponentiation x > y greater than x < y less than x \geq y greater than or equal x \leq y less than or equal x .. y set of numbers from x to y Nat set of natural numbers Integers -------- -x unary minus Int set of integers Sequences --------- SubSeq(s,m,n) subsequence of s from component m to n Append(s, e) appending e to sequence s Len(s) length of sequence s Seq(s) set of sequences s_1 \o s_2 or s_1 \circ s_2 concatenation of s_1 and s_2 Head(s) Tail(s) FiniteSets ---------- Cardinality(S) IsFiniteSet(S) (ProTLA can not handle an infinite set as argument) typical structure of a TLA+ module -------------------------- ---- MODULE m ---- EXTENDS m_1, m_2 CONSTANTS c_1, c_2 ASSUME c_1 = ... VARIABLES v_1, v_2 foo == ... Init == ... Next == ... Spec == ... =====================
Temporal formulas and unused definitions are ignored by TLA2B (they are also ignored by the type inference algorithm).
- the elements of a set must have the same type (domain and range of a function are sets) - to compare records they must have the same fields in the same order and corresponding types of the fields must have the same types - TLA+ tuple are translated as sequences in B, hence all components of the tuple must have the same type
reserved B keywords:
left, right, max, min, succ, pred, dom, ran, fnc, rel, id, card, POW, POW1, FIN, FIN1, size, rev, first, last, front, tail, conc, struct, rec, tree, btree, skip, ANY, WHERE, END, BE, VAR, ASSERT; CHOICE, OR, SELECT, EITHER, WHEN, BEGIN, MACHINE, REFINEMENT, IMPLEMENTATION, SETS, CONSTRAINTS, MODEL, SYSTEM, MACHINE, EVENTS, OPERATIONS
TLA2B divides the next state relation into different actions if a disjunction occurs. IF a existential quantification occurs TLA2B searches for further actions in the predicate of the quantification and adds the bounded variables as arguments to these actions. IF a definition call occurs and the definition has no arguments TLA2B goes into the definition searching for further actions. The displayed actions by ProTLA are not necessarily identical with the actions determined by TLC.