Commit Graph

324 Commits

Author SHA1 Message Date
d6821dd4de
Version bump for release 0.1.9 RC 2 2018-04-21 19:00:11 +02:00
529aec15af
Add integer simplifications to change log 2018-04-21 18:48:57 +02:00
d950b8ec1a
Add integer simplification rule
This adds the rule “(F in G) === (F = G) if F and G are integer
variables” to the simplification rule tableau
2018-04-21 18:12:43 +02:00
97190ace71
Add integer check
This adds a function to check whether a term evaluates to a singular
integer.
2018-04-21 18:12:06 +02:00
d6a811e363
Move arithmetic check to separate header
Checking whether terms are arithmetic will be used not just in integer
variable detection but also in simplifying formulas with integer
variables. For this purpose, the arithmetic check is moved to a commonly
accessible header file.
2018-04-21 17:59:05 +02:00
b1ca027de5
Consolidate commonly used enum classes
This moves the commonly enum classes EvaluationResult, OperationResult,
and Tristate to the Utils header file to avoid code duplication.

Additionally, the SimplificationResult class is replaced by the
semantically similar OperationResult.
2018-04-21 17:34:52 +02:00
f190c28ea5
Add integer function declarations to change log 2018-04-21 17:26:15 +02:00
28dbd407e2
Extend integer variable detection
If making a variable noninteger turns the entire formula obtained from
completion true, we can drop that statement and conclude that the
variable is integer.
2018-04-21 17:26:15 +02:00
9c792ff079
Fix incorrect index in output
The indices printed in the output are meant to be indexed starting with
1 and not 0.
2018-04-21 17:09:45 +02:00
f65d4dbbd8
Refactor integer variable detection
This reimplements integer variable detection as two parts. The first one
is a visitor class that recursively searches for all declared variables
in a formula and applies the second part, a custom functor.

Two such functors are implemented. The first one checks whether a
predicate definition is falsified by making a variable noninteger, in
which case it can be concluded that the variable in question is integer.
The second functor checks whether bound variables in a quantified
formula turn the quantified part false, again to conclude that variables
are integer.
2018-04-21 17:02:42 +02:00
8f3ff23f38
Add to-do 2018-04-21 16:58:42 +02:00
03c22d00f5
Remove unwanted detection rule
This piece of code was responsible for propagating the domain of
predicate parameters to argument variables. However, this approach
doesn’t seem to be correct, which is why this commit removes it.
2018-04-21 16:58:42 +02:00
a9b00dfb7c
Add integer variable detection to change log 2018-04-20 16:38:57 +02:00
d1ee6eca19
Add suffix to variables with known domain
This adds suffixes to integer and general variables, where the domain is
explicitly known.
2018-04-20 16:37:49 +02:00
aedb7e9bbd
Add option to turn on integer variable detection 2018-04-20 16:37:49 +02:00
8b8dd1b57e
Minor refactoring 2018-04-20 16:37:49 +02:00
5bda14342b
Print rules for integer parameters
For every integer parameter of the predicates visible in the output,
this prints a short fact to the output to make this explicit.
2018-04-20 16:37:49 +02:00
2f54b7d60e
Minor formatting 2018-04-20 16:37:49 +02:00
2245e139b2
Reimplement integer variable detection
This is a reimplementation of the integer variable detection procedure.
The idea is to iteratively assume variables to be noninteger, and to
prove that this would lead to a false or erroneous result. If the proof
is successful, the variable is integer as a consequence.
2018-04-20 16:37:48 +02:00
7ba48044ee
Propagate predicate parameter domains
With this change, domains detected for predicate parameters are properly
propagated to all occurences of the respective variables, enabling more
integer simplifications.
2018-04-20 16:37:48 +02:00
862d03881a
Fix typo 2018-04-20 16:37:48 +02:00
7bde7c498f
Represent predicate parameters explicitly
This adds a vector of Parameter structs to PredicateDeclaration. In this
way, the domain of each parameter can be tracked individually.
2018-04-20 16:37:48 +02:00
159717f51c
Support declaring functions as integer
This adds a new syntax for declaring functions integer:

    #external integer(<function name>(<arity)).

If a function is declared integer, it may enable some variables to be
detected as integer as well.
2018-04-20 16:37:48 +02:00
89aec98942
Minor refactoring 2018-04-20 16:37:48 +02:00
55f7fd4ff3
Minor refactoring 2018-04-20 16:37:48 +02:00
ae918a0846
Moved Domain enum to separate header
For clarity, this moves the Domain enum class to a separate header,
because it’s not just variable-specific but also applicable to
functions, for example.
2018-04-20 16:37:48 +02:00
f48802842e
Split functions from their declaration
This splits occurrences of functions from their declaration. This is
necessary to flag integer functions consistently and not just single
occurrences.
2018-04-20 16:37:48 +02:00
b5b05b766c
Remove Constant class
Constants are not a construct present in Clingo’s AST and were
unintentionally made part of anthem’s AST. This removes the unused
classes for clarity.
2018-04-20 16:37:48 +02:00
165f6ac059
Implement basic integer variable detection
This adds initial support for detecting integer variables in formulas.
The scope is somewhat limited in that variables matching predicate
parameters with known integer type aren’t propagated to be integer as
well yet. Also, the use of constants and functions prevents variables
from being detected as integer, because they have to be assumed to be
externally defined in such a way that they evaluate to general values
and not necessarily integers.
2018-04-20 16:37:48 +02:00
504f7da4c3
Add unknown variable domain
Before being able to tell whether a variable’s domain is general or
integer, it is necessary to flag it as “unknown.”
2018-04-20 16:37:48 +02:00
d2b48f9679
Move Tristate class to separate header
The Tristate class (representing truth values that are either true,
false, or unknown) is used at multiple ends. This moves it to a separate
header for reusing it properly.
2018-04-20 16:37:48 +02:00
2372eb24c4
Refactor predicate representation
This refactoring separates predicates from their declarations. The
purpose of this is to avoid duplicating properties specific to the
predicate declaration and not its occurrences in the program.
2018-04-20 16:37:47 +02:00
87dcd6ee93
Add domain specifier to variable declarations
With this change, the domain of variable declarations can be specified.
While the default is the general domain of all precomputed value, this
adds support for integer variables, for which advanced simplification
rules apply.
2018-04-20 16:37:47 +02:00
9a59ac17f5
Version bump after release 0.1.8 2018-04-20 16:37:03 +02:00
250942643c
Version bump for release 0.1.8 2018-04-20 16:35:35 +02:00
815bcda367
Update cxxopts to 2.1.0+1+gcc4914f
cxxopts 2.1.0 has a bug preventing it from being used with standard main
signatures. This updates cxxopts to the commit after release 2.1.0,
where this issue was addressed.
2018-04-13 14:03:30 +02:00
04094eee23
Remove unnecessary parentheses
The unary modulus operation does not require extra parentheses to be
printed in cases like “|X + Y|”. This adds a new option to the printing
routine to omit parentheses in cases where the parent expression already
defines a parenthesis-like scope (currently only with unary operations).
2018-04-12 00:59:03 +02:00
8c250f5c59
Support modulus operation (absolute value)
This adds support for computing the absolute value of a term along with
an according unit test.
2018-04-12 00:38:48 +02:00
0608748349
Describe --complete option in readme
The readme was missing information on the --complete option. This adds a
brief mention of Clark’s completion to the readme.
2018-04-11 23:21:56 +02:00
31d4a20491
Update change log with recent additions
This updates the change log with the advanced simplification rules,
support for the exponentation operator, and the newly added examples.
2018-04-11 21:50:15 +02:00
a01e78a467
Add example program for prime number detection 2018-04-11 21:42:08 +02:00
797660d6de
Add new simplification rule
This adds the rule “(not F [comparison] G) === (F [negated comparison]
G)” to the simplification rule tableau.
2018-04-11 21:39:27 +02:00
b63ef21849
Add example program generating permutations 2018-04-11 21:35:29 +02:00
cc3c9b642c
Minor formatting in graph coloring example 2018-04-11 21:35:04 +02:00
40ddee8444
Add new simplification rule
This adds the rule “(not F or G) === (F -> G)” to the simplification
rule tableau.
2018-04-10 22:34:47 +02:00
6f7b021712
Add new simplification rule
This adds the rule “(not (F and G)) === (not F or not G)” to the
simplification rule tableau.
2018-04-10 22:34:47 +02:00
23624007ec
Add new simplification rule
This adds the rule “not not F === F” to the simplification rule tableau.
2018-04-10 22:34:47 +02:00
6d7b91c391
Add new simplification rule
This adds the rule “(F <-> (F and G)) === (F -> G)” to the
simplification rule tableau.
2018-04-10 22:34:47 +02:00
b88393655a
Iteratively apply simplification tableau rules
With this change, the tableau rules for simplifying formula are applied
iteratively until a fixpoint is reached.
2018-04-10 22:34:47 +02:00
c4c3156e77
Move simplification rule to tableau
This moves the rule “[primitive A] in [primitive B] === A = B” to the
simplification rule tableau.
2018-04-10 22:34:47 +02:00