Sample usage for ccg

Combinatory Categorial Grammar

Relative Clauses

>>> from nltk.ccg import chart, lexicon

Construct a lexicon:

>>> lex = lexicon.fromstring('''
...     :- S, NP, N, VP
...
...     Det :: NP/N
...     Pro :: NP
...     Modal :: S\\NP/VP
...
...     TV :: VP/NP
...     DTV :: TV/NP
...
...     the => Det
...
...     that => Det
...     that => NP
...
...     I => Pro
...     you => Pro
...     we => Pro
...
...     chef => N
...     cake => N
...     children => N
...     dough => N
...
...     will => Modal
...     should => Modal
...     might => Modal
...     must => Modal
...
...     and => var\\.,var/.,var
...
...     to => VP[to]/VP
...
...     without => (VP\\VP)/VP[ing]
...
...     be => TV
...     cook => TV
...     eat => TV
...
...     cooking => VP[ing]/NP
...
...     give => DTV
...
...     is => (S\\NP)/NP
...     prefer => (S\\NP)/NP
...
...     which => (N\\N)/(S/NP)
...
...     persuade => (VP/VP[to])/NP
...     ''')
>>> parser = chart.CCGChartParser(lex, chart.DefaultRuleSet)
>>> for parse in parser.parse("you prefer that cake".split()):
...     chart.printCCGDerivation(parse)
...     break
...
 you    prefer      that   cake
 NP   ((S\NP)/NP)  (NP/N)   N
                  -------------->
                        NP
     --------------------------->
               (S\NP)
--------------------------------<
               S
>>> for parse in parser.parse("that is the cake which you prefer".split()):
...     chart.printCCGDerivation(parse)
...     break
...
 that      is        the    cake      which       you    prefer
  NP   ((S\NP)/NP)  (NP/N)   N    ((N\N)/(S/NP))  NP   ((S\NP)/NP)
                                                 ----->T
                                              (S/(S\NP))
                                                 ------------------>B
                                                       (S/NP)
                                 ---------------------------------->
                                               (N\N)
                           ----------------------------------------<
                                              N
                   ------------------------------------------------>
                                          NP
      ------------------------------------------------------------->
                                 (S\NP)
-------------------------------------------------------------------<
                                 S

Some other sentences to try: “that is the cake which we will persuade the chef to cook” “that is the cake which we will persuade the chef to give the children”

>>> sent = "that is the dough which you will eat without cooking".split()
>>> nosub_parser = chart.CCGChartParser(lex, chart.ApplicationRuleSet +
...                       chart.CompositionRuleSet + chart.TypeRaiseRuleSet)

Without Substitution (no output)

>>> for parse in nosub_parser.parse(sent):
...     chart.printCCGDerivation(parse)

With Substitution:

>>> for parse in parser.parse(sent):
...     chart.printCCGDerivation(parse)
...     break
...
 that      is        the    dough      which       you     will        eat          without           cooking
  NP   ((S\NP)/NP)  (NP/N)    N    ((N\N)/(S/NP))  NP   ((S\NP)/VP)  (VP/NP)  ((VP\VP)/VP['ing'])  (VP['ing']/NP)
                                                  ----->T
                                               (S/(S\NP))
                                                                             ------------------------------------->B
                                                                                         ((VP\VP)/NP)
                                                                    ----------------------------------------------<Sx
                                                                                       (VP/NP)
                                                       ----------------------------------------------------------->B
                                                                               ((S\NP)/NP)
                                                  ---------------------------------------------------------------->B
                                                                               (S/NP)
                                  -------------------------------------------------------------------------------->
                                                                       (N\N)
                           ---------------------------------------------------------------------------------------<
                                                                      N
                   ----------------------------------------------------------------------------------------------->
                                                                 NP
      ------------------------------------------------------------------------------------------------------------>
                                                         (S\NP)
------------------------------------------------------------------------------------------------------------------<
                                                        S

Conjunction

>>> from nltk.ccg.chart import CCGChartParser, ApplicationRuleSet, CompositionRuleSet
>>> from nltk.ccg.chart import SubstitutionRuleSet, TypeRaiseRuleSet, printCCGDerivation
>>> from nltk.ccg import lexicon

Lexicons for the tests:

>>> test1_lex = '''
...        :- S,N,NP,VP
...        I => NP
...        you => NP
...        will => S\\NP/VP
...        cook => VP/NP
...        which => (N\\N)/(S/NP)
...        and => var\\.,var/.,var
...        might => S\\NP/VP
...        eat => VP/NP
...        the => NP/N
...        mushrooms => N
...        parsnips => N'''
>>> test2_lex = '''
...         :- N, S, NP, VP
...         articles => N
...         the => NP/N
...         and => var\\.,var/.,var
...         which => (N\\N)/(S/NP)
...         I => NP
...         anyone => NP
...         will => (S/VP)\\NP
...         file => VP/NP
...         without => (VP\\VP)/VP[ing]
...         forget => VP/NP
...         reading => VP[ing]/NP
...         '''

Tests handling of conjunctions. Note that while the two derivations are different, they are semantically equivalent.

>>> lex = lexicon.fromstring(test1_lex)
>>> parser = CCGChartParser(lex, ApplicationRuleSet + CompositionRuleSet + SubstitutionRuleSet)
>>> for parse in parser.parse("I will cook and might eat the mushrooms and parsnips".split()):
...     printCCGDerivation(parse)
 I      will       cook               and                might       eat     the    mushrooms             and             parsnips
 NP  ((S\NP)/VP)  (VP/NP)  ((_var0\.,_var0)/.,_var0)  ((S\NP)/VP)  (VP/NP)  (NP/N)      N      ((_var0\.,_var0)/.,_var0)     N
    ---------------------->B
         ((S\NP)/NP)
                                                     ---------------------->B
                                                          ((S\NP)/NP)
                          ------------------------------------------------->
                                     (((S\NP)/NP)\.,((S\NP)/NP))
    -----------------------------------------------------------------------<
                                  ((S\NP)/NP)
                                                                                              ------------------------------------->
                                                                                                             (N\.,N)
                                                                                   ------------------------------------------------<
                                                                                                          N
                                                                           -------------------------------------------------------->
                                                                                                      NP
    ------------------------------------------------------------------------------------------------------------------------------->
                                                                (S\NP)
-----------------------------------------------------------------------------------------------------------------------------------<
                                                                 S
 I      will       cook               and                might       eat     the    mushrooms             and             parsnips
 NP  ((S\NP)/VP)  (VP/NP)  ((_var0\.,_var0)/.,_var0)  ((S\NP)/VP)  (VP/NP)  (NP/N)      N      ((_var0\.,_var0)/.,_var0)     N
    ---------------------->B
         ((S\NP)/NP)
                                                     ---------------------->B
                                                          ((S\NP)/NP)
                          ------------------------------------------------->
                                     (((S\NP)/NP)\.,((S\NP)/NP))
    -----------------------------------------------------------------------<
                                  ((S\NP)/NP)
    ------------------------------------------------------------------------------->B
                                      ((S\NP)/N)
                                                                                              ------------------------------------->
                                                                                                             (N\.,N)
                                                                                   ------------------------------------------------<
                                                                                                          N
    ------------------------------------------------------------------------------------------------------------------------------->
                                                                (S\NP)
-----------------------------------------------------------------------------------------------------------------------------------<
                                                                 S

Tests handling subject extraction. Interesting to point that the two parses are clearly semantically different.

>>> lex = lexicon.fromstring(test2_lex)
>>> parser = CCGChartParser(lex, ApplicationRuleSet + CompositionRuleSet + SubstitutionRuleSet)
>>> for parse in parser.parse("articles which I will file and forget without reading".split()):
...     printCCGDerivation(parse)
 articles      which       I      will       file               and             forget         without           reading
    N      ((N\N)/(S/NP))  NP  ((S/VP)\NP)  (VP/NP)  ((_var0\.,_var0)/.,_var0)  (VP/NP)  ((VP\VP)/VP['ing'])  (VP['ing']/NP)
                          -----------------<
                               (S/VP)
                                                                                        ------------------------------------->B
                                                                                                    ((VP\VP)/NP)
                                                                               ----------------------------------------------<Sx
                                                                                                  (VP/NP)
                                                    ------------------------------------------------------------------------->
                                                                               ((VP/NP)\.,(VP/NP))
                                           ----------------------------------------------------------------------------------<
                                                                                (VP/NP)
                          --------------------------------------------------------------------------------------------------->B
                                                                        (S/NP)
          ------------------------------------------------------------------------------------------------------------------->
                                                                 (N\N)
-----------------------------------------------------------------------------------------------------------------------------<
                                                              N
 articles      which       I      will       file               and             forget         without           reading
    N      ((N\N)/(S/NP))  NP  ((S/VP)\NP)  (VP/NP)  ((_var0\.,_var0)/.,_var0)  (VP/NP)  ((VP\VP)/VP['ing'])  (VP['ing']/NP)
                          -----------------<
                               (S/VP)
                                                    ------------------------------------>
                                                            ((VP/NP)\.,(VP/NP))
                                           ---------------------------------------------<
                                                              (VP/NP)
                                                                                        ------------------------------------->B
                                                                                                    ((VP\VP)/NP)
                                           ----------------------------------------------------------------------------------<Sx
                                                                                (VP/NP)
                          --------------------------------------------------------------------------------------------------->B
                                                                        (S/NP)
          ------------------------------------------------------------------------------------------------------------------->
                                                                 (N\N)
-----------------------------------------------------------------------------------------------------------------------------<
                                                              N

Unicode support

Unicode words are supported.

>>> from nltk.ccg import chart, lexicon

Lexicons for the tests:

>>> lex = lexicon.fromstring('''
...        :- S, N, NP, PP
...
...        AdjI :: N\\N
...        AdjD :: N/N
...        AdvD :: S/S
...        AdvI :: S\\S
...        Det :: NP/N
...        PrepNPCompl :: PP/NP
...        PrepNAdjN :: S\\S/N
...        PrepNAdjNP :: S\\S/NP
...        VPNP :: S\\NP/NP
...        VPPP :: S\\NP/PP
...        VPser :: S\\NP/AdjI
...
...        auto => N
...        bebidas => N
...        cine => N
...        ley => N
...        libro => N
...        ministro => N
...        panadería => N
...        presidente => N
...        super => N
...
...        el => Det
...        la => Det
...        las => Det
...        un => Det
...
...        Ana => NP
...        Pablo => NP
...
...        y => var\\.,var/.,var
...
...        pero => (S/NP)\\(S/NP)/(S/NP)
...
...        anunció => VPNP
...        compró => VPNP
...        cree => S\\NP/S[dep]
...        desmintió => VPNP
...        lee => VPNP
...        fueron => VPPP
...
...        es => VPser
...
...        interesante => AdjD
...        interesante => AdjI
...        nueva => AdjD
...        nueva => AdjI
...
...        a => PrepNPCompl
...        en => PrepNAdjN
...        en => PrepNAdjNP
...
...        ayer => AdvI
...
...        que => (NP\\NP)/(S/NP)
...        que => S[dep]/S
...     ''')
>>> parser = chart.CCGChartParser(lex, chart.DefaultRuleSet)
>>> for parse in parser.parse(u"el ministro anunció pero el presidente desmintió la nueva ley".split()):
...     printCCGDerivation(parse) 
...     # it fails on python2.7 because of the unicode problem explained in https://github.com/nltk/nltk/pull/1354
...     break
   el    ministro    anunció              pero              el    presidente   desmintió     la    nueva  ley
 (NP/N)     N      ((S\NP)/NP)  (((S/NP)\(S/NP))/(S/NP))  (NP/N)      N       ((S\NP)/NP)  (NP/N)  (N/N)   N
------------------>
        NP
------------------>T
    (S/(S\NP))
                                                         -------------------->
                                                                  NP
                                                         -------------------->T
                                                              (S/(S\NP))
                                                         --------------------------------->B
                                                                      (S/NP)
                               ----------------------------------------------------------->
                                                     ((S/NP)\(S/NP))
                                                                                                  ------------>
                                                                                                       N
                                                                                          -------------------->
                                                                                                   NP
                                                                                          --------------------<T
                                                                                               (S\(S/NP))
                               -------------------------------------------------------------------------------<B
                                                                 (S\(S/NP))
                  --------------------------------------------------------------------------------------------<B
                                                             (S/NP)
-------------------------------------------------------------------------------------------------------------->
                                                      S