This grammar is the same as CSD except that it only uses PW principles.
usedim id
usedim lp
usedim idlp
usedim lex
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% define id dimension
defdim id {
deftype "id.label" {n v}
deflabeltype "id.label"
defentrytype {in: set(tuple("id.label" {"!" "?" "+" "*"}))
out: set(tuple("id.label" {"!" "?" "+" "*"}))}
%%
useprinciple "principle.graphPW" { dims {D: id} }
useprinciple "principle.treePW" { dims {D: id} }
useprinciple "principle.valencyPW" { dims {D: id} }
useprinciple "principle.csdPW" { dims {D: id} }
%%
output "output.pretty"
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% define lp dimension
defdim lp {
deftype "lp.label" {"1" "2" "^"}
deflabeltype "lp.label"
defentrytype {in: set(tuple("lp.label" {"!" "?" "+" "*"}))
out: set(tuple("lp.label" {"!" "?" "+" "*"}))
order: set(tuple("lp.label" "lp.label"))}
%%
useprinciple "principle.graphPW" { dims {D: lp} }
useprinciple "principle.treePW" { dims {D: lp} }
useprinciple "principle.valencyPW" { dims {D: lp} }
useprinciple "principle.orderPW" { dims {D: lp} }
%%
output "output.pretty"
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% define idlp dimension
defdim idlp {
useprinciple "principle.climbingPW" { dims {D1: lp D2: id} }
%%
output "output.pretty"
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% define lex dimension
defdim lex {
defentrytype {word: string}
%%
output "output.dags1"
output "output.latexs1"
useoutput "output.dags1"
}
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
%% define lexicon
defentry {
dim id {in: {}
out: {n! v?}}
dim lp {in: {}
out: {"1"* "2"?}
order: <"1" "^" "2">}
dim lex {word: "v"}}
defentry {
dim id {in: {v!}
out: {n! v?}}
dim lp {in: {"2"!}
out: {"2"?}
order: <"^" "2">}
dim lex {word: "v"}}
defentry {
dim id {in: {n!}}
dim lp {in: {"1"!}}
dim lex {word: "n"}}