"{ Encoding: utf8 }"
"{ Package: 'stx:goodies/petitparser/analyzer/tests' }"
PPAbstractParserTest subclass:#PPAnalyzerTest
instanceVariableNames:''
classVariableNames:''
poolDictionaries:''
category:'PetitAnalyzer-Tests'
!
!PPAnalyzerTest class methodsFor:'accessing'!
packageNamesUnderTest
^ #('PetitAnalyzer')
! !
!PPAnalyzerTest methodsFor:'accessing'!
grammarA
"Güting, Erwig, Übersetzerbau, Springer (p.63)"
| grammar |
grammar := Dictionary new.
" terminals "
grammar at: #a put: $a asParser.
grammar at: #b put: $b asParser.
grammar at: #c put: $c asParser.
grammar at: #d put: $d asParser.
grammar at: #e put: nil asParser.
" non terminals "
grammar at: #B put: (grammar at: #b) / (grammar at: #e).
grammar at: #A put: (grammar at: #a) / (grammar at: #B).
grammar at: #S put: (grammar at: #A) , (grammar at: #B) , (grammar at: #c) , (grammar at: #d).
^ grammar
!
grammarB
"The canonical grammar to exercise first- and follow-set calculation, probably originally from the dragon-book."
| grammar |
grammar := Dictionary new.
#(E Ep T Tp F) do: [ :each | grammar at: each put: (PPUnresolvedParser named: each) ].
(grammar at: #E) def: (grammar at: #T) , (grammar at: #Ep).
(grammar at: #Ep) def: ($+ asParser , (grammar at: #T) , (grammar at: #Ep)) optional.
(grammar at: #T) def: (grammar at: #F) , (grammar at: #Tp).
(grammar at: #Tp) def: ($* asParser , (grammar at: #F) , (grammar at: #Tp)) optional.
(grammar at: #F) def: ($( asParser , (grammar at: #E) , $) asParser) / $i asParser.
#(E Ep T Tp F) do: [ :each | (grammar at: each) name: each ].
^ grammar
!
grammarC
"A highly recrusive grammar."
| grammar |
grammar := PPUnresolvedParser new.
grammar def: (grammar , $+ asParser , grammar) / $1 asParser.
^ grammar
!
grammarD
"A highly ambiguous grammar from: Saichaitanya Jampana. Exploring the problem of ambiguity in context-free grammars. Master’s thesis, Oklahoma State University, July 2005."
| grammar |
grammar := Dictionary new.
#(S A a B b) do: [ :each | grammar at: each put: (PPUnresolvedParser named: each) ].
(grammar at: #a) def: $a asParser.
(grammar at: #b) def: $b asParser.
(grammar at: #S) def: (grammar at: #A) , (grammar at: #B) / (grammar at: #a).
(grammar at: #A) def: (grammar at: #S) , (grammar at: #B) / (grammar at: #b).
(grammar at: #B) def: (grammar at: #B) , (grammar at: #A) / (grammar at: #a).
^ grammar
!
grammarE
"The most stupid parser, it just references itself and never consumes anything. All algorithms should survive such an attack."
| parser |
parser := PPDelegateParser new.
parser setParser: parser.
^ parser
! !
!PPAnalyzerTest methodsFor:'testing'!
testAllNamedParsers
| p1 p2 p3 |
p1 := (#digit asParser name: 'a').
p2 := (#digit asParser name: 'b') star.
p3 := (#digit asParser name: 'c') token end.
self assert: p1 allNamedParsers size = 1.
self assert: p1 allNamedParsers first name = 'a'.
self assert: p2 allNamedParsers size = 1.
self assert: p2 allNamedParsers first name = 'b'.
self assert: p3 allNamedParsers size = 1.
self assert: p3 allNamedParsers first name = 'c'
!
testAllParsers
| p1 p2 p3 |
p1 := #lowercase asParser.
p2 := p1 ==> #asUppercase.
p3 := PPUnresolvedParser new.
p3 def: p2 / p3.
self assert: p1 allParsers size = 1.
self assert: p2 allParsers size = 2.
self assert: p3 allParsers size = 3
!
testInnerChildren
| p1 p2 p3 |
p1 := (#digit asParser name: 'a').
p2 := (#digit asParser star name: 'b').
p3 := (#digit asParser name: 'c') token star end.
self assert: p1 innerChildren isEmpty.
self assert: p2 innerChildren size = 1.
self assert: (p2 innerChildren allSatisfy: [ :each | each name isNil ]).
self assert: p3 innerChildren size = 2.
self assert: (p3 innerChildren allSatisfy: [ :each | each name isNil ])
!
testIsNullable
self assert: $a asParser star isNullable.
self assert: nil asParser isNullable.
self deny: $a asParser plus isNullable.
self deny: PPLiteralSequenceParser new isNullable.
self deny: PPLiteralObjectParser new isNullable.
self deny: PPPredicateParser new isNullable.
self deny: PPChoiceParser new isNullable.
self deny: PPSequenceParser new isNullable.
self deny: PPAndParser new isNullable.
self deny: PPTokenParser new isNullable
!
testIsTerminal
self assert: PPEpsilonParser new isTerminal.
self assert: PPFailingParser new isTerminal.
self assert: PPPluggableParser new isTerminal.
self assert: PPLiteralObjectParser new isTerminal.
self assert: PPLiteralSequenceParser new isTerminal.
self assert: PPPredicateObjectParser new isTerminal.
self assert: PPPredicateSequenceParser new isTerminal.
self deny: ($a asParser / $b asParser) isTerminal.
self deny: ($a asParser , $b asParser) isTerminal.
self deny: ($a asParser and) isTerminal.
self deny: ($a asParser not) isTerminal
!
testNamedChildren
| p1 p2 p3 p4 |
p1 := (#digit asParser name: 'a').
p2 := (#digit asParser name: 'b') star.
p3 := (#digit asParser name: 'c') token end.
p4 := ((#digit asParser name: 'c') token name: 'd') end.
self assert: p1 namedChildren isEmpty.
self assert: p2 namedChildren size = 1.
self assert: p2 namedChildren first name = 'b'.
self assert: p3 namedChildren size = 1.
self assert: p3 namedChildren first name = 'c'.
self assert: p4 namedChildren size = 1.
self assert: p4 namedChildren first name = 'd'
! !
!PPAnalyzerTest methodsFor:'testing-cycleset'!
testCycleSetGrammarA
self grammarA do: [ :each | self assert: each cycleSet isEmpty ]
!
testCycleSetGrammarB
self grammarB do: [ :each | self assert: each cycleSet isEmpty ]
!
testCycleSetGrammarC
| grammar cycleSet |
grammar := self grammarC.
cycleSet := grammar cycleSet.
self assert: (cycleSet size = 2).
self assert: (cycleSet includes: grammar)
!
testCycleSetGrammarD
| grammar cycleSet |
grammar := self grammarD.
cycleSet := (grammar at: #S) cycleSet.
self assert: (cycleSet size = 4).
self assert: (cycleSet includes: (grammar at: #A)).
self assert: (cycleSet includes: (grammar at: #S)).
cycleSet := (grammar at: #A) cycleSet.
self assert: (cycleSet size = 4).
self assert: (cycleSet includes: (grammar at: #A)).
self assert: (cycleSet includes: (grammar at: #S)).
cycleSet := (grammar at: #B) cycleSet.
self assert: (cycleSet size = 2).
self assert: (cycleSet includes: (grammar at: #B))
!
testCycleSetGrammarE
| grammar cycleSet |
grammar := self grammarE.
cycleSet := grammar cycleSet.
self assert: (cycleSet size = 1).
self assert: (cycleSet includes: grammar)
!
testCycleSetInChoice
| parser cycleSet |
parser := PPUnresolvedParser new.
parser def: parser / $a asParser.
cycleSet := parser cycleSet.
self assert: (cycleSet size = 1).
self assert: (cycleSet includes: parser).
parser := PPUnresolvedParser new.
parser def: $a asParser / parser.
cycleSet := parser cycleSet.
self assert: (cycleSet size = 1).
self assert: (cycleSet includes: parser).
!
testCycleSetInSequence
| parser cycleSet |
parser := PPUnresolvedParser new.
parser def: parser , $a asParser.
cycleSet := parser cycleSet.
self assert: (cycleSet size = 1).
self assert: (cycleSet includes: parser).
parser := PPUnresolvedParser new.
parser def: nil asParser , parser.
cycleSet := parser cycleSet.
self assert: (cycleSet size = 1).
self assert: (cycleSet includes: parser).
parser := PPUnresolvedParser new.
parser def: $a asParser , parser.
cycleSet := parser cycleSet.
self assert: cycleSet isEmpty
! !
!PPAnalyzerTest methodsFor:'testing-firstset'!
testFirstSetExpression
| grammar |
grammar := PPArithmeticParser new.
self assert: grammar start firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar addition firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar factors firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar multiplication firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar number firstSet includes: '-0123456789' epsilon: false.
self assert: grammar parentheses firstSet includes: '(' epsilon: false.
self assert: grammar power firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar primary firstSet includes: '(-0123456789' epsilon: false.
self assert: grammar terms firstSet includes: '(-0123456789' epsilon: false
!
testFirstSetGrammarA
| grammar |
grammar := self grammarA.
self assert: (grammar at: #a) firstSet includes: 'a' epsilon: false.
self assert: (grammar at: #b) firstSet includes: 'b' epsilon: false.
self assert: (grammar at: #c) firstSet includes: 'c' epsilon: false.
self assert: (grammar at: #d) firstSet includes: 'd' epsilon: false.
self assert: (grammar at: #e) firstSet includes: '' epsilon: true.
self assert: (grammar at: #S) firstSet includes: 'abc' epsilon: false.
self assert: (grammar at: #A) firstSet includes: 'ab' epsilon: true.
self assert: (grammar at: #B) firstSet includes: 'b' epsilon: true
!
testFirstSetGrammarB
| grammar |
grammar := self grammarB.
self assert: (grammar at: #E) firstSet includes: '(i' epsilon: false.
self assert: (grammar at: #Ep) firstSet includes: '+' epsilon: true.
self assert: (grammar at: #T) firstSet includes: '(i' epsilon: false.
self assert: (grammar at: #Tp) firstSet includes: '*' epsilon: true.
self assert: (grammar at: #F) firstSet includes: '(i' epsilon: false
!
testFirstSetGrammarC
| grammar |
grammar := self grammarC.
self assert: grammar firstSet includes: '1' epsilon: false
!
testFirstSetGrammarD
| grammar |
grammar := self grammarD.
self assert: (grammar at: #S) firstSet includes: 'ab' epsilon: false.
self assert: (grammar at: #A) firstSet includes: 'ab' epsilon: false.
self assert: (grammar at: #B) firstSet includes: 'a' epsilon: false.
self assert: (grammar at: #a) firstSet includes: 'a' epsilon: false.
self assert: (grammar at: #b) firstSet includes: 'b' epsilon: false
!
testFirstSetGrammarE
self assert: self grammarE firstSet includes: '' epsilon: false
!
testFirstSetLambda
| grammar |
grammar := PPLambdaParser new.
self assert: grammar start firstSet includes: '(ABCDEFGHIJKLMNOPQRSTUVWXYZ\abcdefghijklmnopqrstuvwxyz' epsilon: false.
self assert: grammar abstraction firstSet includes: '\' epsilon: false.
self assert: grammar application firstSet includes: '(' epsilon: false.
self assert: grammar expression firstSet includes: '(ABCDEFGHIJKLMNOPQRSTUVWXYZ\abcdefghijklmnopqrstuvwxyz' epsilon: false.
self assert: grammar variable firstSet includes: 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz' epsilon: false
! !
!PPAnalyzerTest methodsFor:'testing-followset'!
testFollowSetExampleA
| grammar followSets |
grammar := self grammarA.
followSets := (grammar at: #S) followSets.
self assert: (followSets at: (grammar at: #a)) includes: 'bc' epsilon: false.
self assert: (followSets at: (grammar at: #b)) includes: 'bc' epsilon: false.
self assert: (followSets at: (grammar at: #c)) includes: 'd' epsilon: false.
self assert: (followSets at: (grammar at: #d)) includes: '' epsilon: true.
self assert: (followSets at: (grammar at: #e)) includes: 'bc' epsilon: false.
self assert: (followSets at: (grammar at: #S)) includes: '' epsilon: true.
self assert: (followSets at: (grammar at: #A)) includes: 'bc' epsilon: false.
self assert: (followSets at: (grammar at: #B)) includes: 'bc' epsilon: false
!
testFollowSetExampleB
| grammar followSets |
grammar := self grammarB.
followSets := (grammar at: #E) followSets.
self assert: (followSets at: (grammar at: #E)) includes: ')' epsilon: true.
self assert: (followSets at: (grammar at: #Ep)) includes: ')' epsilon: true.
self assert: (followSets at: (grammar at: #T)) includes: ')+' epsilon: true.
self assert: (followSets at: (grammar at: #Tp)) includes: ')+' epsilon: true.
self assert: (followSets at: (grammar at: #F)) includes: ')*+' epsilon: true
!
testFollowSetExampleC
self assert: self grammarC followSet includes: '+' epsilon: true
!
testFollowSetExampleD
| grammar followSets |
grammar := self grammarD.
followSets := (grammar at: #S) followSets.
self assert: (followSets at: (grammar at: #S)) includes: 'a' epsilon: true.
self assert: (followSets at: (grammar at: #A)) includes: 'ab' epsilon: true.
self assert: (followSets at: (grammar at: #B)) includes: 'ab' epsilon: true.
self assert: (followSets at: (grammar at: #a)) includes: 'ab' epsilon: true.
self assert: (followSets at: (grammar at: #b)) includes: 'ab' epsilon: true
!
testFollowSetExampleE
self assert: self grammarE followSet includes: '' epsilon: true
! !
!PPAnalyzerTest methodsFor:'testing-transform'!
testDelegateReplace
| one other delegate |
one := $a asParser.
other := $b asParser.
delegate := one token.
self assert: delegate children first == one.
self deny: delegate children first == other.
delegate replace: other with: one.
self assert: delegate children first == one.
self deny: delegate children first == other.
delegate replace: one with: other.
self deny: delegate children first == one.
self assert: delegate children first == other
!
testListReplace
| one other another list |
one := $a asParser.
other := $b asParser.
another := $c asParser.
list := one , another , one.
self assert: list children first == one.
self assert: list children second == another.
self assert: list children last == one.
list replace: other with: one.
self assert: list children first == one.
self assert: list children second == another.
self assert: list children last == one.
list replace: one with: other.
self assert: list children first == other.
self assert: list children second == another.
self assert: list children last == other.
list replace: another with: one.
self assert: list children first == other.
self assert: list children second == one.
self assert: list children last == other
!
testRepetitionReplace
| one two otherone othertwo repetition |
one := $a asParser.
two := $b asParser.
otherone := $1 asParser.
othertwo := $2 asParser.
repetition := one starLazy: two.
self assert: repetition children first == one.
self assert: repetition children second == two.
repetition replace: one with: otherone.
self assert: repetition children first == otherone.
self assert: repetition children second == two.
repetition replace: two with: othertwo.
self assert: repetition children first == otherone.
self assert: repetition children second == othertwo
!
testTransformIdentityGrammarC
| orig tran |
orig := self grammarC.
tran := orig transform: [ :each | each ].
self deny: orig == tran.
self deny: orig children first == tran children first.
self deny: orig children first children first == tran children first children first.
self deny: orig children first children last == tran children first children last.
self deny: orig children last == tran children last.
self assert: orig class == PPChoiceParser.
self assert: orig children first class == PPSequenceParser.
self assert: orig children first children first == orig.
self assert: orig children first children last == orig.
self assert: orig children last class == PPLiteralObjectParser.
self assert: tran class == PPChoiceParser.
self assert: tran children first class == PPSequenceParser.
self assert: tran children first children first == tran.
self assert: tran children first children last == tran.
self assert: tran children last class == PPLiteralObjectParser
!
testTransformIdentityGrammarE
| orig tran |
orig := self grammarE.
tran := orig transform: [ :each | each ].
self deny: orig == tran.
self deny: orig children first = tran children first.
self assert: orig class == PPDelegateParser.
self assert: orig children first == orig.
self assert: tran class == PPDelegateParser.
self assert: tran children first == tran
!
testTransformWrapGrammarC
| orig tran |
orig := self grammarC.
tran := orig transform: [ :each | each memoized ].
self assert: orig class == PPChoiceParser.
self assert: orig children first class == PPSequenceParser.
self assert: orig children first children first == orig.
self assert: orig children first children last == orig.
self assert: orig children last class == PPLiteralObjectParser.
self assert: tran class == PPMemoizedParser.
self assert: tran children first class == PPChoiceParser.
self assert: tran children first children first class == PPMemoizedParser.
self assert: tran children first children first children first class == PPSequenceParser.
self assert: tran children first children first children first children first == tran.
self assert: tran children first children first children first children last == tran.
self assert: tran children first children last class == PPMemoizedParser.
self assert: tran children first children last children first class == PPLiteralObjectParser
!
testTransformWrapGrammarE
| orig tran |
orig := self grammarE.
tran := orig transform: [ :each | each memoized ].
self assert: orig class == PPDelegateParser.
self assert: orig children first == orig.
self assert: tran class == PPMemoizedParser.
self assert: tran children first class == PPDelegateParser.
self assert: tran children first children first == tran
! !
!PPAnalyzerTest methodsFor:'utilities'!
assert: aCollection includes: aString epsilon: aBoolean
| parsers checker stream |
parsers := aCollection
collect: [ :each | each end ].
checker := [ :string |
parsers anySatisfy: [ :parser |
(parser parse: string asPetitStream)
isPetitFailure not ] ].
stream := WriteStream on: String new.
32 to: 127 do: [ :index |
(checker value: (String with: (Character value: index)))
ifTrue: [ stream nextPut: (Character value: index) ] ].
self
assert: stream contents = aString
description: 'Expected ' , aString printString , ', but got ' , stream contents printString.
self
assert: (checker value: '') = aBoolean
description: 'Expected epsilon to ' , (aBoolean ifTrue: [ 'be' ] ifFalse: [ 'not be' ]) , ' included'
! !
!PPAnalyzerTest class methodsFor:'documentation'!
version
^ '$Header: /cvs/stx/stx/goodies/petitparser/analyzer/tests/PPAnalyzerTest.st,v 1.2 2014-03-04 20:10:20 cg Exp $'
!
version_CVS
^ '$Header: /cvs/stx/stx/goodies/petitparser/analyzer/tests/PPAnalyzerTest.st,v 1.2 2014-03-04 20:10:20 cg Exp $'
! !