morfeusz_java.i
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%include "morfeusz_javadoc.i"
%include <stdint.i>
%include <std_except.i>
%include <std_common.i>
// make vector compatible with java.util.List interface
namespace std {
template<class T> class vector {
public:
typedef size_t size_type;
typedef T value_type;
typedef const value_type& const_reference;
// vector();
// vector(size_type n);
// vector(const vector& o);
size_type capacity() const;
void reserve(size_type n);
%rename(isEmpty) empty;
bool empty() const;
void clear();
void push_back(const value_type& x);
%extend {
const_reference get(int32_t i) const throw (std::out_of_range) {
return $self->at(i);
}
value_type set(int32_t i, const value_type& VECTOR_VALUE_IN) throw (std::out_of_range) {
const T old = $self->at(i);
$self->at(i) = VECTOR_VALUE_IN;
return old;
}
void add(int32_t i, const value_type& VECTOR_VALUE_IN) {
$self->insert($self->begin() + i, VECTOR_VALUE_IN);
}
int32_t size() const {
return $self->size();
}
void removeRange(int32_t from, int32_t to) {
$self->erase($self->begin()+from, $self->begin()+to);
}
}
};
template<class T> class list {
public:
typedef size_t size_type;
typedef T value_type;
typedef const value_type& const_reference;
%rename(isEmpty) empty;
bool empty() const;
void clear();
%extend {
const_reference get(int32_t i) const throw (std::out_of_range) {
std::list<T>::const_iterator it = $self->begin();
std::advance(it, i);
return *it;
}
value_type set(int32_t i, const value_type& VECTOR_VALUE_IN) throw (std::out_of_range) {
std::list<T>::iterator it = $self->begin();
std::advance(it, i);
std::string old = *it;
*it = VECTOR_VALUE_IN;
return old;
}
void add(int32_t i, const value_type& VECTOR_VALUE_IN) {
std::list<T>::iterator it = $self->begin();
std::advance(it, i);
$self->insert(it, VECTOR_VALUE_IN);
}
value_type remove(int32_t i, const value_type& VECTOR_VALUE_IN) throw (std::out_of_range) {
std::list<T>::iterator it = $self->begin();
std::advance(it, i);
std::string old = *it;
$self->erase(it);
return old;
}
int32_t size() const {
return $self->size();
}
}
};
template<class T> class set {
public:
typedef size_t size_type;
typedef T value_type;
typedef const value_type& const_reference;
%rename(isEmpty) empty;
bool empty() const;
%extend {
const_reference get(int32_t i) const throw (std::out_of_range) {
std::set<T>::const_iterator it = $self->begin();
std::advance(it, i);
return *it;
}
int32_t size() const {
return $self->size();
}
}
};
}
%typemap(javaimports) morfeusz::Morfeusz %{
import java.io.IOException;
import java.lang.RuntimeException;
import java.util.List;
import java.util.ArrayList;
/**
* Performs morphological analysis (analyse methods) and syntesis (generate methods).
*
* It is NOT thread-safe
* but it is possible to use separate Morfeusz instance for each concurrent thread.
*/
%}
%typemap(javaimports) morfeusz::ResultsIterator %{
/**
* Iterates through morphological analysis and synthesis results.
*
*/
%}
%rename(_dictionarySearchPaths) morfeusz::Morfeusz::dictionarySearchPaths;
%rename(_getLabels) morfeusz::IdResolver::getLabels;
%ignore morfeusz::FileFormatException;
%javaexception("java.io.IOException") morfeusz::Morfeusz::setDictionary {
try {
$action
}
catch(morfeusz::FileFormatException & e) {
jclass clazz = jenv->FindClass("java/io/IOException");
jenv->ThrowNew(clazz, "Invalid file format");
return $null;
}
catch(morfeusz::MorfeuszException & e) {
jclass clazz = jenv->FindClass("pl/waw/ipipan/morfeusz/MorfeuszException");
jenv->ThrowNew(clazz, e.what());
return $null;
}
catch(std::ios_base::failure & e) {
jclass clazz = jenv->FindClass("java/io/IOException");
jenv->ThrowNew(clazz, e.what());
return $null;
}
catch(...) {
jclass clazz = jenv->FindClass("java/lang/RuntimeException");
jenv->ThrowNew(clazz, "Unknown exception");
return $null;
}
}
//%javaexception("java.io.IOException") morfeusz::Morfeusz::setGeneratorDictionary {
// try {
// $action
// }
// catch(morfeusz::FileFormatException & e) {
// jclass clazz = jenv->FindClass("java/io/IOException");
// jenv->ThrowNew(clazz, "Invalid file format");
// return $null;
// }
// catch(std::ios_base::failure & e) {
// jclass clazz = jenv->FindClass("java/io/IOException");
// jenv->ThrowNew(clazz, e.what());
// return $null;
// }
//}
%javaexception("java.util.NoSuchElementException") morfeusz::ResultsIterator::next {
try {
$action
}
catch(std::out_of_range & e) {
jclass clazz = jenv->FindClass("java/util/NoSuchElementException");
jenv->ThrowNew(clazz, e.what());
return $null;
}
}
%exception {
try{
$action
}
catch(const morfeusz::MorfeuszException& e) {
jclass clazz = jenv->FindClass("pl/waw/ipipan/morfeusz/MorfeuszException");
jenv->ThrowNew(clazz, e.what());
return $null;
}
catch(const std::exception& e) {
jclass clazz = jenv->FindClass("java/lang/RuntimeException");
jenv->ThrowNew(clazz, e.what());
return $null;
}
catch(const std::string& e) {
jclass clazz = jenv->FindClass("java/lang/RuntimeException");
jenv->ThrowNew(clazz, e.c_str());
return $null;
}
catch(...) {
jclass clazz = jenv->FindClass("java/lang/RuntimeException");
jenv->ThrowNew(clazz, "Unknown exception");
return $null;
}
}
%typemap(javainterfaces) morfeusz::ResultsIterator "java.util.Iterator<MorphInterpretation>"
%typemap(javabase) std::vector<morfeusz::MorphInterpretation> "java.util.AbstractList<MorphInterpretation>"
%typemap(javabase) std::vector<std::string> "java.util.AbstractList<java.lang.String>"
%typemap(javabase) std::list<std::string> "java.util.AbstractList<java.lang.String>"
%typemap(javabase) std::set<std::string> "java.util.AbstractList<java.lang.String>"
%typemap(javabase) morfeusz::MorfeuszException "java.lang.RuntimeException"
%typemap(javacode) morfeusz::Morfeusz %{
/**
* Analyze given text and return the results as list.
*
* @param text text for morphological analysis.
* @return list containing the results of morphological analysis
*/
public List<MorphInterpretation> analyseAsList(String text) {
InterpsList res = new InterpsList();
analyse(text, res);
return new ArrayList<MorphInterpretation>(res);
}
/**
* Perform morphological synthesis on a given lemma.
*
* @param lemma lemma to be synthesized
* @return list containing results of the morphological synthesis
*/
public List<MorphInterpretation> generate(String lemma) {
InterpsList res = new InterpsList();
generate(lemma, res);
return new ArrayList<MorphInterpretation>(res);
}
/**
* Perform morphological synthesis on a given lemma.
* Limit results to interpretations with the specified tag.
*
* @param lemma lemma to be analysed
* @param tagnum tag number of result interpretations
* @return list containing results of the morphological synthesis
*/
public List<MorphInterpretation> generate(String lemma, int tagnum) {
InterpsList res = new InterpsList();
generate(lemma, tagnum, res);
return new ArrayList<MorphInterpretation>(res);
}
/**
* Get list of paths for dictionaries searching
*
* @return modifiable list of paths
*/
public static List<String> getDictionarySearchPaths() {
return get_dictionarySearchPaths();
}
%}
%typemap(javacode) morfeusz::ResultsIterator %{
/**
* Removing of elements from this iterator is not supported.
*/
public void remove() {
throw new java.lang.UnsupportedOperationException();
}
%}
%typemap(javacode) morfeusz::IdResolver %{
public java.util.Collection<java.lang.String> getLabels(int labelsId) {
return _getLabels(labelsId);
}
%}
%typemap(javafinalize) SWIGTYPE %{
protected void finalize() {
if (swigCMemOwn) {
$moduleJNI.delete_$javaclassname(getCPtr(this));
}
}
%}
%typemap(javadestruct, methodname="delete", methodmodifiers="private") SWIGTYPE "";
%javamethodmodifiers morfeusz::Morfeusz::analyse(const std::string&, std::vector<MorphInterpretation>&) const "private";
%javamethodmodifiers morfeusz::Morfeusz::generate(const std::string&, std::vector<MorphInterpretation>&) const "private";
%javamethodmodifiers morfeusz::Morfeusz::generate(const std::string&, int, std::vector<MorphInterpretation>&) const "private";
// should be overwritten by getDictionarySearchPaths() in typemap(javacode)
%javamethodmodifiers morfeusz::Morfeusz::dictionarySearchPaths "private";
// should be overwritten by getLabels() in typemap(javacode)
%javamethodmodifiers morfeusz::IdResolver::getLabels "private";
%typemap(javaclassmodifiers) std::vector "class"
%typemap(javaclassmodifiers) std::list "class"
%typemap(javaclassmodifiers) std::set "class"
%include "enums.swg"
/* Force the generated Java code to use the C enum values rather than making a JNI call */
%javaconst(1);
%pragma(java) jniclassclassmodifiers="class"
%pragma(java) moduleclassmodifiers="class"
%pragma(java) jniclasscode=%{
static {
System.loadLibrary("jmorfeusz");
}
%}
%pragma(java) jniclassimports=%{
import java.io.IOException;
%}
%include "std_vector.i"
%include "std_string.i"
%include "std_except.i"
%include "exception.i"
%include "typemaps.i"