This repository has been archived on 2023-08-20. You can view files and clone it, but cannot push or open issues or pull requests.
yap-6.3/LGPL/JPL/jpl.yap

4309 lines
133 KiB
Plaintext
Raw Normal View History

/* $Id: jpl.yap,v 1.6 2006-05-19 13:48:11 vsc Exp $
Part of JPL -- SWI-Prolog/Java interface
Author: Paul Singleton, Fred Dushin and Jan Wielemaker
E-mail: paul@jbgb.com
WWW: http://www.swi-prolog.org
Copyright (C): 1985-2004, Paul Singleton
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
As a special exception, if you link this library with other files,
compiled with a Free Software compiler, to produce an executable, this
library does not by itself cause the resulting executable to be covered
by the GNU General Public License. This exception does not however
invalidate any other reasons why the executable file might be covered by
the GNU General Public License.
Adapted to YAP by Vitor Santos Costa.
*/
:- module(jpl,
[ jpl_pl_lib_version/1,
jpl_c_lib_version/1,
jpl_new/3,
jpl_call/4,
jpl_get/3,
jpl_set/3,
jpl_servlet_byref/3,
jpl_servlet_byval/3,
jpl_class_to_classname/2,
jpl_class_to_type/2,
jpl_classname_to_class/2,
jpl_classname_to_type/2,
jpl_datum_to_type/2,
jpl_false/1,
jpl_is_class/1,
jpl_is_false/1,
jpl_is_null/1,
jpl_is_object/1,
jpl_is_object_type/1,
jpl_is_ref/1,
jpl_is_true/1,
jpl_is_type/1,
jpl_is_void/1,
jpl_null/1,
jpl_object_to_class/2,
jpl_object_to_type/2,
jpl_primitive_type/1,
jpl_ref_to_type/2,
jpl_true/1,
jpl_type_to_class/2,
jpl_type_to_classname/2,
jpl_void/1,
jpl_array_to_length/2,
jpl_array_to_list/2,
jpl_datums_to_array/2,
jpl_datums_to_array/3,
jpl_enumeration_element/2,
jpl_enumeration_to_list/2,
jpl_hashtable_pair/2,
jpl_iterator_element/2,
jpl_list_to_array/2,
jpl_list_to_array/3,
jpl_map_element/2,
jpl_set_element/2
]).
:- use_module(library(lists)).
:- use_module(library(swi)).
% suppress debugging this library
%:- set_prolog_flag(generate_debug_info, false).
:- initialization(load_jpl_lib).
%:- load_foreign_files([jpl], [], jpl_install).
%------------------------------------------------------------------------------
% term_to_chars(+Term, ?Chars)
% unifies Chars with a printed representation of Term. It is not at all
% clear what representation should be used. On the grounds that it is
% supposed to be re-readable, I have chosen to use write_canonical.
% Giving Chars to chars_to_term/2 will yield a *copy* of Term.
term_to_chars(Term, Chars) :-
% start_output_to_handle(Handle, Stream),
% write_canonical(Stream, Term),
% close(Stream),
% byte_stream_to_chars(Handle, Chars0),
% free_byte_stream(Handle),
% Chars = Chars0.
( atom(Term)
-> Term = A % avoid superfluous quotes
; system:term_to_atom(Term, A) % port
),
atom_codes(A, Chars).
%------------------------------------------------------------------------------
% jpl_call(+X, +Mspec, +Args, -R) :-
% X can be:
% a type, class object or classname
% (for static methods of the denoted class,
% or for static or instance methods of java.lang.Class)
% a class instance or array
% (for static or instance methods)
%
% Mspec can be:
% an atomic method name
% (may involve dynamic overload resolution)
% an integral method index
% (untested: for static overload resolution)
% a methodID/1 structure
% (ditto)
%
% Args must be a proper list (poss empty) of ground arguments;
%
% finally, an attempt will be made to unify R with the returned result
jpl_call(X, Mspec, Args, R) :-
( ground(X)
-> ( jpl_is_object(X) % ie class(_,_) or array(_) instance
-> Obj = X,
jpl_object_to_type(Obj, Type)
; (X=class(_,_) ; X=array(_) ) % ie an object type
-> jpl_type_to_class(X, Obj),
Type = class([java,lang],['Class'])
; jpl_classname_to_type(X, Tx) % eg 'java.lang.String' or '[L'
-> jpl_type_to_class(Tx, Obj),
Type = class([java,lang],['Class'])
; throw(error(type_error(jpl_receiver, X),
context(jpl_call/4,
'must be type, class object or class name')))
)
; var(X)
-> throw(error(instantiation_error,
context(jpl_call/4, _)))
; throw(error(type_error(jpl_receiver, X),
context(jpl_call/4,
'must be type, class object or class name')))
),
ground(Args), % check in jpl_call_1/5 instead?
jpl_call_1(Type, Obj, Mspec, Args, Rx),
R = Rx.
%------------------------------------------------------------------------------
% jpl_call_1(+Type, +Object, +MethodSpec, +Argz, -Result) :-
% serves only jpl_call/4
% Object may be a class object, in which case Type is class([java,lang],['Class'])
% Argz (certain to be ground) can be:
% a proper list of arguments Args
% (their qty and types help resolve the method)
% a single argument Arg
% (defaulty corrected to Args = [Arg])
%
% at call, Result is unbound
% at exit, Result is bound to the returned result datum (or @void)
jpl_call_1(Tx, X, Mspec, Argz, Rx) :- % a static method call?
Tx = class([java,lang],['Class']), % a class object...
jpl_class_to_type(X, Tx2),
Tx2 \== class([java,lang],['Class']), % ...other than java.lang.Class
!,
( integer(Mspec) % i.e. a method index
-> I = Mspec
; atom(Mspec) % i.e. a method name
-> N = Mspec
; jpl_is_methodID(Mspec) % i.e. a method ID
-> MID = Mspec
),
( is_list(Argz)
-> Args = Argz,
length(Args, A)
; Args = [Argz], % ugh: defaulty (?) single arg
A = 1
),
% consider all methods of java.lang.Class
% and static methods of the denoted class
findall(
z8(T,I,N,A,Mods,MID,Tr,Tps),
( T = Tx,
jpl_method_spec(T, I, N, A, Mods, MID, Tr, Tps)
; T = Tx2,
jpl_method_spec(T, I, N, A, Mods, MID, Tr, Tps),
member(static, Mods)
),
Z8s
),
( Z8s = []
-> write('Warning: no arity-matching methods'), nl, fail
; Z8s = [z8(T,I,N,A,Mods,MID,Tr,Tps)]
-> true % exactly one method
; jpl_datums_to_types(Args, Tas), % most specific types
findall(
z5(I,Mods,MID,Tr,Tps),
( member(z8(T,I,N,A,Mods,MID,Tr,Tps), Z8s),
jpl_types_fit_types(Tas, Tps) % assignability test
),
Z5sA % Args-assignable methods
),
( Z5sA == []
-> write('Warning: no type-assignable methods'), nl, fail
; Z5sA = [z5(I,Mods,MID,Tr,Tps)]
-> true % exactly one applicable method
; jpl_z5s_to_most_specific_z5(Z5sA, z5(I,Mods,MID,Tr,Tps))
-> true % exactly one most-specific applicable method
; write('Error: no single most-specific method'), nl, fail
)
),
( T = Tx
-> jpl_type_to_class(Tx, Cc),
( member(static, Mods)
-> jpl_call_static(Tr, Cc, MID, Tps, Args, Rx)
; jpl_call_instance(Tr, Cc, MID, Tps, Args, Rx)
)
; T = Tx2
-> jpl_call_static(Tr, X, MID, Tps, Args, Rx)
).
jpl_call_1(Tx, X, Mspec, Argz, Rx) :- % regular instance object,
( Tx = class(_,_)
; Tx = array(_)
),
!, % or instance of java.lang.Class
( integer(Mspec) % i.e. a method index
-> I = Mspec
; atom(Mspec) % i.e. a method name
-> N = Mspec
; jpl_is_methodID(Mspec) % i.e. a method ID
-> MID = Mspec
),
( is_list(Argz)
-> Args = Argz,
length(Args, A)
; Args = [Argz],
A = 1
),
% Tx = class(Ps,Cs),
findall(
z5(I,Mods,MID,Tr,Tps),
jpl_method_spec(Tx, I, N, A, Mods, MID, Tr, Tps),
Z5s
),
( Z5s = []
-> write('Warning: no arity-matching methods'), nl, fail
; Z5s = [z5(I,Mods,MID,Tr,Tps)]
-> true % exactly one static method
; jpl_datums_to_types(Args, Tas), % most specific types
findall(
z5(I,Mods,MID,Tr,Tps), % those to which Args is assignable
( member(z5(I,Mods,MID,Tr,Tps), Z5s),
jpl_types_fit_types(Tas, Tps) % assignability test
),
Z5sA % Args-assignable methods
),
( Z5sA == []
-> write('Warning: no type-assignable methods'), nl, fail
; Z5sA = [z5(I,Mods,MID,Tr,Tps)]
-> true % exactly one applicable method
; jpl_z5s_to_most_specific_z5(Z5sA, z5(I,Mods,MID,Tr,Tps))
-> true % exactly one most-specific applicable method
; write('Error: no single most-specific method'), nl, fail
)
),
( member(static, Mods)
-> jpl_object_to_class(X, Cx),
jpl_call_static(Tr, Cx, MID, Tps, Args, Rx)
; jpl_call_instance(Tr, X, MID, Tps, Args, Rx)
).
%------------------------------------------------------------------------------
jpl_call_instance(void, Class, MID, Ts, As, R) :-
jCallVoidMethod(Class, MID, Ts, As),
R = @(void).
jpl_call_instance(boolean, Class, MID, Ts, As, R) :-
jCallBooleanMethod(Class, MID, Ts, As, R).
jpl_call_instance(byte, Class, MID, Ts, As, R) :-
jCallByteMethod(Class, MID, Ts, As, R).
jpl_call_instance(char, Class, MID, Ts, As, R) :-
jCallCharMethod(Class, MID, Ts, As, R).
jpl_call_instance(short, Class, MID, Ts, As, R) :-
jCallShortMethod(Class, MID, Ts, As, R).
jpl_call_instance(int, Class, MID, Ts, As, R) :-
jCallIntMethod(Class, MID, Ts, As, R).
jpl_call_instance(long, Class, MID, Ts, As, R) :-
jCallLongMethod(Class, MID, Ts, As, R).
jpl_call_instance(float, Class, MID, Ts, As, R) :-
jCallFloatMethod(Class, MID, Ts, As, R).
jpl_call_instance(double, Class, MID, Ts, As, R) :-
jCallDoubleMethod(Class, MID, Ts, As, R).
jpl_call_instance(array(_), Class, MID, Ts, As, R) :-
jCallObjectMethod(Class, MID, Ts, As, R).
jpl_call_instance(class(_,_), Class, MID, Ts, As, R) :-
jCallObjectMethod(Class, MID, Ts, As, R).
%------------------------------------------------------------------------------
jpl_call_static(void, Class, MID, Ts, As, R) :-
jCallStaticVoidMethod(Class, MID, Ts, As),
R = @(void).
jpl_call_static(boolean, Class, MID, Ts, As, R) :-
jCallStaticBooleanMethod(Class, MID, Ts, As, R).
jpl_call_static(byte, Class, MID, Ts, As, R) :-
jCallStaticByteMethod(Class, MID, Ts, As, R).
jpl_call_static(char, Class, MID, Ts, As, R) :-
jCallStaticCharMethod(Class, MID, Ts, As, R).
jpl_call_static(short, Class, MID, Ts, As, R) :-
jCallStaticShortMethod(Class, MID, Ts, As, R).
jpl_call_static(int, Class, MID, Ts, As, R) :-
jCallStaticIntMethod(Class, MID, Ts, As, R).
jpl_call_static(long, Class, MID, Ts, As, R) :-
jCallStaticLongMethod(Class, MID, Ts, As, R).
jpl_call_static(float, Class, MID, Ts, As, R) :-
jCallStaticFloatMethod(Class, MID, Ts, As, R).
jpl_call_static(double, Class, MID, Ts, As, R) :-
jCallStaticDoubleMethod(Class, MID, Ts, As, R).
jpl_call_static(array(_), Class, MID, Ts, As, R) :-
jCallStaticObjectMethod(Class, MID, Ts, As, R).
jpl_call_static(class(_,_), Class, MID, Ts, As, R) :-
jCallStaticObjectMethod(Class, MID, Ts, As, R).
%------------------------------------------------------------------------------
%type jpl_fergus_find_candidate(list(T), T, T, list(T))
jpl_fergus_find_candidate([], Candidate, Candidate, []).
jpl_fergus_find_candidate([X|Xs], Candidate0, Candidate, Rest) :-
( jpl_fergus_greater(X, Candidate0)
-> Candidate1 = X,
Rest = [Candidate0|Rest1]
; Candidate1 = Candidate0,
Rest = [X|Rest1]
),
jpl_fergus_find_candidate(Xs, Candidate1, Candidate, Rest1).
%------------------------------------------------------------------------------
jpl_fergus_greater(z5(_,_,_,_,Tps1), z5(_,_,_,_,Tps2)) :-
jpl_types_fit_types(Tps1, Tps2).
jpl_fergus_greater(z3(_,_,Tps1), z3(_,_,Tps2)) :-
jpl_types_fit_types(Tps1, Tps2).
%------------------------------------------------------------------------------
%type jpl_fergus_is_the_greatest(list(T), T)
% jpl_fergus_is_the_greatest(Xs, GreatestX) :-
% Xs is a list of things for which jpl_fergus_greater/2 defines a partial ordering;
% GreatestX is one of those, than which none is greater;
% fails if there is more than one such;
% this algorithm was contributed to c.l.p by Fergus Henderson in response to my
% "there must be a better way" challenge: there was, this is it
jpl_fergus_is_the_greatest([X|Xs], Greatest) :-
jpl_fergus_find_candidate(Xs, X, Greatest, Rest),
forall(member(R, Rest),
jpl_fergus_greater(Greatest, R)).
%------------------------------------------------------------------------------
% jpl_get(+X, +Fspec, -V) :-
% X can be:
% a class object, a classname, or an (object or array) type
% (for static fields, or java.lang.Class fields);
% a class instance
% (for non-static fields)
% an array
% (for 'length' pseudo field, or indexed element retrieval),
% but not:
% a String
% (clashes with class name; anyway, String has no fields to retrieve)
%
% Fspec can be an atomic field name,
% or an integral field index,
% or a fieldID/1
% or a variable (field names, or array indices, are generated
% or a pair I-J of integers or variables (array subranges are generated)
%
% finally, an attempt will be made to unify V with the retrieved value
jpl_get(X, Fspec, V) :-
( jpl_is_object(X) % i.e. instance of class(_,_) or array(_) type
-> jpl_object_to_type(X, Type),
Obj = X
; jpl_is_type(X) % e.g. class([java,lang],['String']), array(int)
-> jpl_type_to_class(X, Obj),
Type = class([java,lang],['Class'])
; atom(X) % e.g. 'java.lang.String', '[L'
-> jpl_classname_to_type(X, Tx),
jpl_type_to_class(Tx, Obj),
Type = class([java,lang],['Class'])
),
jpl_get_1(Type, Obj, Fspec, Vx),
V = Vx.
%------------------------------------------------------------------------------
% jpl_get_1(+Type, +Object, +FieldSpec, -ResultValue) :-
% Object may be a class object, in which case Type is class([java,lang],['Class'])
% ResultValue (Vx below) is guaranteed unbound on entry,
% and will, before exit, be unified with the retrieved value
jpl_get_1(Tx, X, Fspec, Vx) :- % static field?
Tx = class([java,lang],['Class']), % a class object...
jpl_class_to_type(X, Tx2),
Tx2 \== Tx, % ...other than java.lang.Class itself
!,
( integer(Fspec) % assume it's a field or array index
-> I = Fspec
; atom(Fspec) % assume it's a field name
-> N = Fspec
; jpl_is_fieldID(Fspec) % assume it's a JNI field ID
-> FID = Fspec
; var(Fspec) % experimentally...
-> N = Fspec % we'll generate field names
),
% consider static and instance fields of java.lang.Class
% and static fields of the denoted class
findall(
z2(T,I,N,Mods,FID,Tf),
( T = Tx,
jpl_field_spec(T, I, N, Mods, FID, Tf)
; T = Tx2,
jpl_field_spec(T, I, N, Mods, FID, Tf),
member(static, Mods)
),
Z2s
),
( Z2s = [],
nonvar(Fspec)
-> write('Warning: no matching fields'), nl, fail
; member(z2(T,I,N,Mods,FID,Tf), Z2s), % generate one or many
( T = Tx
-> jpl_type_to_class(Tx, Cc),
( member(static, Mods)
-> jpl_get_static_field(Tf, Cc, FID, Vx)
; jpl_get_field(Tf, Cc, FID, Vx)
)
; T = Tx2
-> jpl_get_static_field(Tf, X, FID, Vx)
)
).
jpl_get_1(Tx, X, Fspec, Vx) :-
Tx = class(_,_),
!,
( integer(Fspec) % assume it's a field or array index
-> I = Fspec
; atom(Fspec) % assume it's a field name
-> N = Fspec
; jpl_is_fieldID(Fspec) % assume it's a JNI field ID (???)
-> FID = Fspec
; var(Fspec)
-> N = Fspec % we'll generate field names
),
% instance object, or the java.lang.Class object itself
findall(z(I,N,Mods,FID,Tf),
jpl_field_spec(Tx, I, N, Mods, FID, Tf),
Zs
),
( Zs = []
-> write('Warning: no matching fields'), nl, fail
; member(z(I,N,Mods,FID,Tf), Zs), % generate one or many
( member(static, Mods)
-> jpl_object_to_class(X, Cx),
jpl_get_static_field(Tf, Cx, FID, Vx)
; jpl_get_field(Tf, X, FID, Vx)
)
).
jpl_get_1(array(T), X, Fspec, Vx) :-
( integer(Fspec),
Fspec >= 0 % leave HiBound check to Java...
-> jpl_get_array_element(T, X, Fspec, Vx)
; Fspec == length % special-case this solitary array "method"
-> jGetArrayLength(X, Len),
Vx = Len
; var(Fspec)
-> jGetArrayLength(X, Len), % generate length field and elements
Max is Len-1,
( Fspec = length,
Vx = Len
; between(0, Max, Fspec),
jpl_get_array_element(T, X, Fspec, Vx)
)
; Fspec = N-M,
(integer(N) ; var(N) ),
(integer(M) ; var(M) )
-> jGetArrayLength(X, Len),
Max is Len-1,
between(0, Max, N),
% Mmin is N-1, % generates many empty sublists
Mmin is N, % generates no empty sublists
% you want _one_ empty sublist? which one? ...
between(Mmin, Max, M),
jpl_get_array_elements(T, X, N, M, Vx)
).
%------------------------------------------------------------------------------
% jpl_get_array_element(+JspType, +Obj, +N, -Vc) :-
% Obj is an array of JspType;
% Vc is (unified with a JPL repn of) its Nth element (numbered from 0)
% NB the nonsense with Xhi and Xlo should be expunged:
% values should be converted to terms within foreign code
jpl_get_array_element(T, Obj, N, Vc) :-
( ( T = class(_,_)
; T = array(_)
)
-> jGetObjectArrayElement(Obj, N, Vr)
; jpl_primitive_type(T)
-> jni_type_to_xput_code(T, Xc),
jni_alloc_buffer(Xc, 1, Bp), % one-element buf for a T
jpl_get_primitive_array_region(T, Obj, N, 1, Bp),
jni_fetch_buffer_value(Bp, 0, Xhi, Xlo, Xc), % zero-th element
jni_convert_primitive_in(T, Vr, Xhi, Xlo),
jni_free_buffer(Bp)
),
Vr = Vc.
%------------------------------------------------------------------------------
% jpl_get_array_elements(+Type, +Object, +N, +M, -Rs) :-
% serves only jpl_get_1
% Rs will always be unbound on entry
jpl_get_array_elements(T, Obj, N, M, Rs) :-
( ( T = class(_,_)
; T = array(_)
)
-> jpl_get_object_array_elements(Obj, N, M, Rs)
; jpl_get_primitive_array_elements(T, Obj, N, M, Rs)
).
%------------------------------------------------------------------------------
jpl_get_field(boolean, Obj, FieldID, R) :-
jGetBooleanField(Obj, FieldID, R).
jpl_get_field(byte, Obj, FieldID, R) :-
jGetByteField(Obj, FieldID, R).
jpl_get_field(char, Obj, FieldID, R) :-
jGetCharField(Obj, FieldID, R).
jpl_get_field(short, Obj, FieldID, R) :-
jGetShortField(Obj, FieldID, R).
jpl_get_field(int, Obj, FieldID, R) :-
jGetIntField(Obj, FieldID, R).
jpl_get_field(long, Obj, FieldID, R) :-
jGetLongField(Obj, FieldID, R).
jpl_get_field(float, Obj, FieldID, R) :-
jGetFloatField(Obj, FieldID, R).
jpl_get_field(double, Obj, FieldID, R) :-
jGetDoubleField(Obj, FieldID, R).
jpl_get_field(class(_,_), Obj, FieldID, R) :-
jGetObjectField(Obj, FieldID, R).
jpl_get_field(array(_), Obj, FieldID, R) :-
jGetObjectField(Obj, FieldID, R).
%------------------------------------------------------------------------------
% jpl_get_object_array_elements(+Type, +Object, +N, +M, -Vcs) :-
% Type is some object or array type;
% Object should be a (zero-based) array of element-type Type;
% N is an integer, 0 =< N < length(Object);
% M is an integer, N-1 =< M < length(Object);
% at call, Vcs will be unbound;
% at exit, Vcs will be a list of refs to the array's elements from index N to M inclusive
jpl_get_object_array_elements(Obj, N, M, Vcs) :-
( N =< M
-> Vcs = [Vc|Vcs2],
jGetObjectArrayElement(Obj, N, Vc),
Nx is N+1,
jpl_get_object_array_elements(Obj, Nx, M, Vcs2)
; Vcs = []
).
%------------------------------------------------------------------------------
% jpl_get_primitive_array_elements(+JspType, +Object, +N, +M, -Vcs) :-
% Object should be a (zero-based) Java array of (primitive) JspType;
% Vcs will be unbound on entry,
% and on exit will be a list of the elements from index N to M inclusive
jpl_get_primitive_array_elements(T, Obj, N, M, Vcs) :-
Size is M-N+1,
( Size == 0
-> Vcs = []
; jni_type_to_xput_code(T, Xc),
jni_alloc_buffer(Xc, Size, Bp),
jpl_get_primitive_array_region(T, Obj, N, Size, Bp),
jpl_primitive_buffer_to_array(T, Xc, Bp, 0, Size, Vcs),
jni_free_buffer(Bp)
).
%------------------------------------------------------------------------------
jpl_get_primitive_array_region(boolean, Obj, N, S, I) :-
jGetBooleanArrayRegion(Obj, N, S, jbuf(I,boolean)).
jpl_get_primitive_array_region(byte, Obj, N, S, I) :-
jGetByteArrayRegion(Obj, N, S, jbuf(I,byte)).
jpl_get_primitive_array_region(char, Obj, N, S, I) :-
jGetCharArrayRegion(Obj, N, S, jbuf(I,char)).
jpl_get_primitive_array_region(short, Obj, N, S, I) :-
jGetShortArrayRegion(Obj, N, S, jbuf(I,short)).
jpl_get_primitive_array_region(int, Obj, N, S, I) :-
jGetIntArrayRegion(Obj, N, S, jbuf(I,int)).
jpl_get_primitive_array_region(long, Obj, N, S, I) :-
jGetLongArrayRegion(Obj, N, S, jbuf(I,long)).
jpl_get_primitive_array_region(float, Obj, N, S, I) :-
jGetFloatArrayRegion(Obj, N, S, jbuf(I,float)).
jpl_get_primitive_array_region(double, Obj, N, S, I) :-
jGetDoubleArrayRegion(Obj, N, S, jbuf(I,double)).
%------------------------------------------------------------------------------
jpl_get_static_field(boolean, Obj, FieldID, R) :-
jGetStaticBooleanField(Obj, FieldID, R).
jpl_get_static_field(byte, Obj, FieldID, R) :-
jGetStaticByteField(Obj, FieldID, R).
jpl_get_static_field(char, Obj, FieldID, R) :-
jGetStaticCharField(Obj, FieldID, R).
jpl_get_static_field(short, Obj, FieldID, R) :-
jGetStaticShortField(Obj, FieldID, R).
jpl_get_static_field(int, Obj, FieldID, R) :-
jGetStaticIntField(Obj, FieldID, R).
jpl_get_static_field(long, Obj, FieldID, R) :-
jGetStaticLongField(Obj, FieldID, R).
jpl_get_static_field(float, Obj, FieldID, R) :-
jGetStaticFloatField(Obj, FieldID, R).
jpl_get_static_field(double, Obj, FieldID, R) :-
jGetStaticDoubleField(Obj, FieldID, R).
jpl_get_static_field(class(_,_), Obj, FieldID, R) :-
jGetStaticObjectField(Obj, FieldID, R).
jpl_get_static_field(array(_), Obj, FieldID, R) :-
jGetStaticObjectField(Obj, FieldID, R).
%------------------------------------------------------------------------------
% jpl_new(+X, +Argz, -V) :-
% X can be:
% a suitable type
% i.e. any class(_,_), array(_) or primitive (i.e. not void)
% a class object
% i.e. whose type is class([java,lang],['Class'])
% an atomic classname
% e.g. 'java.lang.String'
% e.g. 'Ljava.lang.String;'
% an atomic descriptor
% e.g. '[I'
%
% if X denotes a primitive type and Argz is castable to a value of that type,
% then V is that value (a pointless mode of operation, but somehow complete...)
%
% if X denotes an array type and Argz is a non-negative integer,
% then V is a new array of that many elements,
% initialised to the appropriate default value;
%
% if X denotes an array type and Argz is a list of datums,
% each of which is (independently) castable to the array element type,
% then V is a new array of as many elements as Argz has members,
% initialised to the results of casting the respective members of Argz;
%
% if X denotes a non-array object type and Argz is a list of datums,
% then V is the result of an invocation of that type's most specifically-typed
% constructor to whose respective parameters the members of Argz are assignable
jpl_new(X, Argz, V) :-
ground(Argz),
( jpl_is_type(X) % NB only class(_,_) or array(_)
-> Tx = X
; jpl_is_object(X),
jpl_object_to_type(X, class([java,lang],['Class']))
-> jpl_class_to_type(X, Tx) % get the type this class denotes
; atom(X) % eg 'java.lang.String', '[L'
-> jpl_classname_to_type(X, Tx)
),
% jpl_type_to_classname(Tx, Classname), writeq([jpl_new,Classname,Argz]), nl,
jpl_new_1(Tx, Argz, Vx),
V = Vx.
%------------------------------------------------------------------------------
% jpl_new_1(+Tx, +Argz, -Vx) :-
% (serves only jpl_new/3)
%
% Tx can be:
% a class(_,_) or array(_) type;
%
% Argz can be:
% a ground, proper list of constructor arguments
% a single argument
% (sloppy convenience, probably best ditched)
%
% at call, Vx is unbound;
% at exit, Vx is bound to a new, initialised ref (or a value) of type Tx
jpl_new_1(class(Ps,Cs), Argz, Vx) :-
!, % green (see below)
jpl_type_to_class(class(Ps,Cs), Cx), % ensure class is findable
Tx = class(Ps,Cs),
( is_list(Argz) % canonise sloppy Argz to Args
-> Args = Argz,
length(Args, A)
; Args = [Argz],
A = 1
),
N = '<init>', % JNI's constructor naming convention for GetMethodID()
Tr = void, % all constructors have this return "type"
findall(
z3(I,MID,Tps),
jpl_method_spec(Tx, I, N, A, _Mods, MID, Tr, Tps), % cached
Z3s
),
( Z3s == [] % no matches
-> write('Warning: no arity-matching constructors'), nl, fail
; Z3s = [z3(I,MID,Tps)] % exactly one match
-> true
; jpl_datums_to_types(Args, Tas), % most specific types
findall(
z3(I,MID,Tps), % select those to which Args is assignable
( member(z3(I,MID,Tps), Z3s),
jpl_types_fit_types(Tas, Tps)
),
Z3sA
),
( Z3sA == []
-> write('Warning: no type-assignable constructors'), nl, fail
; Z3sA = [z3(I,MID,Tps)]
-> true
; jpl_z3s_to_most_specific_z3(Z3sA, z3(I,MID,Tps))
-> true
; write('Error: no single most-specific constructor'), nl, fail
)
),
jNewObject(Cx, MID, Tps, Args, Vx),
jpl_cache_type_of_ref(Tx, Vx). % since we know it
jpl_new_1(array(T), Argz, Vx) :-
!,
( integer(Argz), % integer I -> array[0..I-1] of default values
Argz >= 0
-> Len is Argz
; is_list(Argz) % [V1,..VN] -> array[0..N-1] of respective values
-> length(Argz, Len)
),
jpl_new_array(T, Len, Vx), % NB may throw out-of-memory exception
( nth0(I, Argz, Arg), % nmember fails silently when Argz is integer
jpl_set(Vx, I, Arg),
fail
; true
),
jpl_cache_type_of_ref(array(T), Vx). % since we know it
jpl_new_1(T, Argz, Vx) :- % dubious completist generation of new primitive...
( Argz == []
-> jpl_primitive_type_default_value(T, Vx)
; ( Argz = [Arg]
; Argz = Arg % tolerate sloppiness...
)
-> jpl_primitive_type_term_to_value(T, Argz, Vx)
).
%------------------------------------------------------------------------------
% jpl_new_array(+ElementType, +Length, -NewArray) :-
jpl_new_array(boolean, Len, A) :-
jNewBooleanArray(Len, A).
jpl_new_array(byte, Len, A) :-
jNewByteArray(Len, A).
jpl_new_array(char_byte, Len, A) :-
jNewByteArray(Len, A).
jpl_new_array(char, Len, A) :-
jNewCharArray(Len, A).
jpl_new_array(short, Len, A) :-
jNewShortArray(Len, A).
jpl_new_array(int, Len, A) :-
jNewIntArray(Len, A).
jpl_new_array(long, Len, A) :-
jNewLongArray(Len, A).
jpl_new_array(float, Len, A) :-
jNewFloatArray(Len, A).
jpl_new_array(double, Len, A) :-
jNewDoubleArray(Len, A).
jpl_new_array(array(T), Len, A) :-
jpl_type_to_class(array(T), C),
jNewObjectArray(Len, C, @(null), A). % initialise each element to null
jpl_new_array(class(Ps,Cs), Len, A) :-
jpl_type_to_class(class(Ps,Cs), C),
jNewObjectArray(Len, C, @(null), A).
%------------------------------------------------------------------------------
% jpl_set(+X, +Fspec, +V) :-
% basically, sets the Fspec-th field of object X to value V
%
% X can be:
% a class object, a classname, or an (object or array) type
% (for static fields, or java.lang.Class fields)
% a class instance
% (for non-static fields)
% an array
% (for indexed element or subrange assignment)
% but not:
% a String (no fields to retrieve)
%
% Fspec can be:
% an atomic field name
% (overloading will be resolved dynamically)
% an integral field index
% (static resolution: not tried yet)
% a fieldID/1
% (static resolution: not tried yet)
% a variable
% (field names, or array indices, are generated)
% an array index I
% (X must be an array object: X[I] is assigned V)
% a pair I-J of integers (J can be a variable)
% (X must be an array object, V must be a list of values: X[I-J] will be assigned V)
%
% V must be ground (although one day we may pass variables to JPL?!)
jpl_set(X, Fspec, V) :-
ground(V), % only defined for ground datums
( jpl_is_object(X) % i.e. of class(_,_) or array(_) type
-> jpl_object_to_type(X, Type),
Obj = X
; jpl_is_type(X) % e.g. class([java,lang],['String']), array(int)
-> jpl_type_to_class(X, Obj),
Type = class([java,lang],['Class'])
; atom(X) % e.g. 'java.lang.String', '[L'
-> jpl_classname_to_type(X, Tx),
jpl_type_to_class(Tx, Obj),
Type = class([java,lang],['Class'])
),
jpl_set_1(Type, Obj, Fspec, V).
%------------------------------------------------------------------------------
% jpl_set_1(+Type, +Object, +FieldSpec, +Value) :-
% Object may be a class object, in which case Type is class([java,lang],['Class'])
jpl_set_1(Tx, X, Fspec, V) :- % static field?
Tx = class([java,lang],['Class']), % a class object...
jpl_class_to_type(X, Tx2),
Tx2 \== Tx, % ...denoting other than java.lang.Class
!,
( integer(Fspec) % assume it's a field index
-> I = Fspec
; atom(Fspec) % assume it's a field name
-> N = Fspec
; jpl_is_fieldID(Fspec) % assume it's a JNI field ID
-> FID = Fspec
),
% consider static and instance fields of java.lang.Class
% and static fields of the denoted class
findall(z2(T,I,N,Mods,FID,Tf),
( T = Tx,
jpl_field_spec(T, I, N, Mods, FID, Tf)
; T = Tx2,
jpl_field_spec(T, I, N, Mods, FID, Tf),
member(static, Mods)
),
Z2s
),
( Z2s = []
-> write('Warning: no matching fields'), nl
; Z2s = [z2(T,I,N,Mods,FID,Tf)]
-> ( T = Tx
-> jpl_type_to_class(Tx, Cc),
( member(static, Mods)
-> jpl_set_static_field(Tf, Cc, FID, V)
; jpl_set_field(Tf, Cc, FID, V)
)
; T = Tx2
-> jpl_set_static_field(Tf, X, FID, V)
)
; write('Warning: many matching fields'), nl, fail
).
jpl_set_1(Tx, X, Fspec, V) :- % instance field?
Tx = class(_,_), % instance object, or the java.lang.Class object itself
!,
( integer(Fspec) % assume it's a field or array index
-> I = Fspec
; atom(Fspec) % assume it's a field name
-> N = Fspec
; jpl_is_fieldID(Fspec) % assume it's a JNI field ID
-> FID = Fspec
),
findall(
z(I,N,Mods,FID,Tf),
jpl_field_spec(Tx, I, N, Mods, FID, Tf),
Zs
),
( Zs = []
-> write('Warning: no matching fields'), nl
; Zs = [z(I,N,Mods,FID,Tf)]
-> ( member(static, Mods)
-> jpl_object_to_class(X, Cx),
jpl_set_static_field(Tf, Cx, FID, V)
; jpl_set_field(Tf, X, FID, V)
)
; write('Warning: many matching fields'), nl, fail
).
jpl_set_1(array(T), X, Fspec, V) :-
( is_list(V)
-> Vs = V
; Vs = [V] % sloppy single-argument form
),
length(Vs, Iv),
( integer(Fspec), % single-element assignment
Fspec >= 0,
Iv is 1
-> N is Fspec
; Fspec = N-M, % element-sequence assignment
integer(N),
M is N+Iv-1
-> true
; Fspec == length
-> write('Error: cannot assign a value to final variable length'), nl, fail
; write('Error: bad field spec for array set '(Fspec)), nl, fail
),
jpl_set_2(T, X, N, Iv, Vs).
%------------------------------------------------------------------------------
% jpl_set_2(+Type, +ArrayObject, +Offset, +DatumCount, +Datums) :-
% Datums, of which there are DatumCount,
% are stashed in successive elements of ArrayObject
% which is an array of Type
% starting at the Offset-th (numbered from 0)
jpl_set_2(T, A, N, I, Ds) :-
( jpl_datums_to_types(Ds, Tds), % most specialised types
jpl_types_fit_type(Tds, T) % all assignable?
-> true
; write('Warning: not all datums can be assigned to array element type'), nl, fail
),
( ( T = class(_,_)
; T = array(_)
)
-> ( nth0(J, Ds, D), % for each datum
Nd is N+J, % compute array index
jSetObjectArrayElement(A, Nd, D),
fail % iterate
; true
)
; jpl_primitive_type(T)
-> jni_type_to_xput_code(T, Xc),
jni_alloc_buffer(Xc, I, Bp), % I-element buf of required type
jpl_set_3(Ds, T, 0, Bp),
jpl_set_elements(T, A, N, I, Bp),
jni_free_buffer(Bp)
; fail % bad type (exception?)
).
%------------------------------------------------------------------------------
% jpl_set_3(+Values, +Type, +BufferIndex, +BufferPointer) :-
% successive members of Values are stashed as (primitive) Type
% from the BufferIndex-th element (numbered from 0) onwards
% of the buffer indicated by BufferPointer
jpl_set_3([], _, _, _).
jpl_set_3([V|Vs], Tprim, Ib, Bp) :-
jni_convert_primitive_out(Tprim, V, Xhi, Xlo, Xc),
jni_stash_buffer_value(Bp, Ib, Xhi, Xlo, Xc),
Ibnext is Ib+1,
jpl_set_3(Vs, Tprim, Ibnext, Bp).
%------------------------------------------------------------------------------
jpl_set_elements(boolean, Obj, N, I, Bp) :-
jSetBooleanArrayRegion(Obj, N, I, jbuf(Bp,boolean)).
jpl_set_elements(char, Obj, N, I, Bp) :-
jSetCharArrayRegion(Obj, N, I, jbuf(Bp,char)).
jpl_set_elements(byte, Obj, N, I, Bp) :-
jSetByteArrayRegion(Obj, N, I, jbuf(Bp,byte)).
jpl_set_elements(short, Obj, N, I, Bp) :-
jSetShortArrayRegion(Obj, N, I, jbuf(Bp,short)).
jpl_set_elements(int, Obj, N, I, Bp) :-
jSetIntArrayRegion(Obj, N, I, jbuf(Bp,int)).
jpl_set_elements(long, Obj, N, I, Bp) :-
jSetLongArrayRegion(Obj, N, I, jbuf(Bp,long)).
jpl_set_elements(float, Obj, N, I, Bp) :-
jSetFloatArrayRegion(Obj, N, I, jbuf(Bp,float)).
jpl_set_elements(double, Obj, N, I, Bp) :-
jSetDoubleArrayRegion(Obj, N, I, jbuf(Bp,double)).
%------------------------------------------------------------------------------
jpl_set_field(boolean, Obj, FieldID, R) :-
jSetBooleanField(Obj, FieldID, R).
jpl_set_field(byte, Obj, FieldID, R) :-
jSetByteField(Obj, FieldID, R).
jpl_set_field(char, Obj, FieldID, R) :-
jSetCharField(Obj, FieldID, R).
jpl_set_field(short, Obj, FieldID, R) :-
jSetShortField(Obj, FieldID, R).
jpl_set_field(int, Obj, FieldID, R) :-
jSetIntField(Obj, FieldID, R).
jpl_set_field(long, Obj, FieldID, R) :-
jSetLongField(Obj, FieldID, R).
jpl_set_field(float, Obj, FieldID, R) :-
jSetFloatField(Obj, FieldID, R).
jpl_set_field(double, Obj, FieldID, R) :-
jSetDoubleField(Obj, FieldID, R).
jpl_set_field(class(_,_), Obj, FieldID, R) :-
jSetObjectField(Obj, FieldID, R).
jpl_set_field(array(_), Obj, FieldID, R) :-
jSetObjectField(Obj, FieldID, R).
%------------------------------------------------------------------------------
jpl_set_static_field(boolean, Obj, FieldID, R) :-
jSetStaticBooleanField(Obj, FieldID, R).
jpl_set_static_field(byte, Obj, FieldID, R) :-
jSetStaticByteField(Obj, FieldID, R).
jpl_set_static_field(char, Obj, FieldID, R) :-
jSetStaticCharField(Obj, FieldID, R).
jpl_set_static_field(short, Obj, FieldID, R) :-
jSetStaticShortField(Obj, FieldID, R).
jpl_set_static_field(int, Obj, FieldID, R) :-
jSetStaticIntField(Obj, FieldID, R).
jpl_set_static_field(long, Obj, FieldID, R) :-
jSetStaticLongField(Obj, FieldID, R).
jpl_set_static_field(float, Obj, FieldID, R) :-
jSetStaticFloatField(Obj, FieldID, R).
jpl_set_static_field(double, Obj, FieldID, R) :-
jSetStaticDoubleField(Obj, FieldID, R).
jpl_set_static_field(class(_,_), Obj, FieldID, R) :-
jSetStaticObjectField(Obj, FieldID, R).
jpl_set_static_field(array(_), Obj, FieldID, R) :-
jSetStaticObjectField(Obj, FieldID, R).
%------------------------------------------------------------------------------
% jpl_z3s_to_most_specific_z3(+Zs, -Z) :-
% Zs is a list of arity-matching, type-suitable z3(I,MID,Tps)
% Z is the single most specific element of Zs,
% i.e. that than which no other z3/3 has a more specialised signature;
% fails if there is more than one such
jpl_z3s_to_most_specific_z3(Zs, Z) :-
jpl_fergus_is_the_greatest(Zs, Z).
%------------------------------------------------------------------------------
% jpl_z5s_to_most_specific_z5(+Zs, -Z) :-
% Zs is a list of arity-matching, type-suitable z5(I,Mods,MID,Tr,Tps)
% Z is the single most specific element of Zs,
% i.e. that than which no other z5/5 has a more specialised signature
% (this fails if there is more than one such)
jpl_z5s_to_most_specific_z5(Zs, Z) :-
jpl_fergus_is_the_greatest(Zs, Z).
%------------------------------------------------------------------------------
% jpl_pl_lib_version(-VersionString) :-
% jpl_pl_lib_version(-Major, -Minor, -Patch, -Status) :-
jpl_pl_lib_version(VersionString) :-
jpl_pl_lib_version(Major, Minor, Patch, Status),
concat_atom([Major,'.',Minor,'.',Patch,'-',Status], VersionString).
jpl_pl_lib_version(3, 0, 3, alpha).
%------------------------------------------------------------------------------
% jpl_type_alfa(0'$) --> % presumably not allowed
% "$". % given the "inner class" syntax?
jpl_type_alfa(0'_) -->
"_",
!.
jpl_type_alfa(C) -->
[C], { C>=0'a, C=<0'z },
!.
jpl_type_alfa(C) -->
[C], { C>=0'A, C=<0'Z }.
%------------------------------------------------------------------------------
jpl_type_alfa_num(C) -->
jpl_type_alfa(C),
!.
jpl_type_alfa_num(C) -->
[C], { C>=0'0, C=<0'9 }.
%------------------------------------------------------------------------------
jpl_type_array_classname(array(T)) -->
"[", jpl_type_classname_2(T).
%------------------------------------------------------------------------------
jpl_type_array_descriptor(array(T)) -->
"[", jpl_type_descriptor_1(T).
%------------------------------------------------------------------------------
jpl_type_bare_class_descriptor(class(Ps,Cs)) -->
jpl_type_slashed_package_parts(Ps), jpl_type_class_parts(Cs).
%------------------------------------------------------------------------------
jpl_type_bare_classname(class(Ps,Cs)) -->
jpl_type_dotted_package_parts(Ps), jpl_type_class_parts(Cs).
%------------------------------------------------------------------------------
jpl_type_class_descriptor(class(Ps,Cs)) -->
"L", jpl_type_bare_class_descriptor(class(Ps,Cs)), ";".
%------------------------------------------------------------------------------
jpl_type_class_part(N) -->
jpl_type_id(N).
%------------------------------------------------------------------------------
jpl_type_class_parts([C|Cs]) -->
jpl_type_class_part(C), jpl_type_inner_class_parts(Cs).
%------------------------------------------------------------------------------
jpl_type_classname_1(T) -->
jpl_type_bare_classname(T),
!.
jpl_type_classname_1(T) -->
jpl_type_array_classname(T),
!.
jpl_type_classname_1(T) -->
jpl_type_primitive(T).
%------------------------------------------------------------------------------
jpl_type_classname_2(T) -->
jpl_type_delimited_classname(T).
jpl_type_classname_2(T) -->
jpl_type_array_classname(T).
jpl_type_classname_2(T) -->
jpl_type_primitive(T).
%------------------------------------------------------------------------------
jpl_type_delimited_classname(Class) -->
"L", jpl_type_bare_classname(Class), ";".
%------------------------------------------------------------------------------
jpl_type_descriptor_1(T) -->
jpl_type_primitive(T),
!.
jpl_type_descriptor_1(T) -->
jpl_type_class_descriptor(T),
!.
jpl_type_descriptor_1(T) -->
jpl_type_array_descriptor(T),
!.
jpl_type_descriptor_1(T) -->
jpl_type_method_descriptor(T).
%------------------------------------------------------------------------------
jpl_type_dotted_package_parts([P|Ps]) -->
jpl_type_package_part(P), ".", !, jpl_type_dotted_package_parts(Ps).
jpl_type_dotted_package_parts([]) -->
[].
%------------------------------------------------------------------------------
jpl_type_findclassname(T) -->
jpl_type_bare_class_descriptor(T).
jpl_type_findclassname(T) -->
jpl_type_array_descriptor(T).
%------------------------------------------------------------------------------
jpl_type_id(A) -->
{ nonvar(A) -> atom_codes(A,[C|Cs]) ; true },
jpl_type_alfa(C), jpl_type_id_rest(Cs),
{ atom_codes(A, [C|Cs]) }.
%------------------------------------------------------------------------------
jpl_type_id_rest([C|Cs]) -->
jpl_type_alfa_num(C), !, jpl_type_id_rest(Cs).
jpl_type_id_rest([]) -->
[].
%------------------------------------------------------------------------------
jpl_type_id_v2(A) --> % inner class name parts (empirically)
{ nonvar(A) -> atom_codes(A,Cs) ; true },
jpl_type_id_rest(Cs),
{ atom_codes(A, Cs) }.
%------------------------------------------------------------------------------
jpl_type_inner_class_part(N) -->
jpl_type_id_v2(N).
%------------------------------------------------------------------------------
jpl_type_inner_class_parts([C|Cs]) -->
"$", jpl_type_inner_class_part(C), !, jpl_type_inner_class_parts(Cs).
jpl_type_inner_class_parts([]) -->
[].
%------------------------------------------------------------------------------
jpl_type_method_descriptor(method(Ts,T)) -->
"(", jpl_type_method_descriptor_args(Ts), ")", jpl_type_method_descriptor_return(T).
%------------------------------------------------------------------------------
jpl_type_method_descriptor_args([T|Ts]) -->
jpl_type_descriptor_1(T), !, jpl_type_method_descriptor_args(Ts).
jpl_type_method_descriptor_args([]) -->
[].
%------------------------------------------------------------------------------
jpl_type_method_descriptor_return(T) -->
jpl_type_void(T).
jpl_type_method_descriptor_return(T) -->
jpl_type_descriptor_1(T).
%------------------------------------------------------------------------------
jpl_type_package_part(N) -->
jpl_type_id(N).
%------------------------------------------------------------------------------
jpl_type_primitive(boolean) -->
"Z",
!.
jpl_type_primitive(byte) -->
"B",
!.
jpl_type_primitive(char) -->
"C",
!.
jpl_type_primitive(short) -->
"S",
!.
jpl_type_primitive(int) -->
"I",
!.
jpl_type_primitive(long) -->
"J",
!.
jpl_type_primitive(float) -->
"F",
!.
jpl_type_primitive(double) -->
"D".
%------------------------------------------------------------------------------
jpl_type_slashed_package_parts([P|Ps]) -->
jpl_type_package_part(P), "/", !, jpl_type_slashed_package_parts(Ps).
jpl_type_slashed_package_parts([]) -->
[].
%------------------------------------------------------------------------------
jpl_type_void(void) -->
"V".
%------------------------------------------------------------------------------
%type jCallBooleanMethod(object, method_id, types, datums, boolean)
% jCallBooleanMethod(+Obj, +MethodID, +Types, +Args, -Rbool) :-
jCallBooleanMethod(Obj, MethodID, Types, Args, Rbool) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(39, Obj, MethodID, ArgBuf, Rbool).
%------------------------------------------------------------------------------
%type jCallByteMethod(object, method_id, types, datums, byte)
% jCallByteMethod(+Obj, +MethodID, +Types, +Args, -Rbyte) :-
jCallByteMethod(Obj, MethodID, Types, Args, Rbyte) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(42, Obj, MethodID, ArgBuf, Rbyte).
%------------------------------------------------------------------------------
%type jCallCharMethod(object, method_id, types, datums, char)
% jCallCharMethod(+Obj, +MethodID, +Types, +Args, -Rchar) :-
jCallCharMethod(Obj, MethodID, Types, Args, Rchar) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(45, Obj, MethodID, ArgBuf, Rchar).
%------------------------------------------------------------------------------
%type jCallDoubleMethod(object, method_id, types, datums, double)
% jCallDoubleMethod(+Obj, +MethodID, +Types, +Args, -Rdouble) :-
jCallDoubleMethod(Obj, MethodID, Types, Args, Rdouble) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(60, Obj, MethodID, ArgBuf, Rdouble).
%------------------------------------------------------------------------------
%type jCallFloatMethod(object, method_id, types, datums, float)
% jCallFloatMethod(+Obj, +MethodID, +Types, +Args, -Rfloat) :-
jCallFloatMethod(Obj, MethodID, Types, Args, Rfloat) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(57, Obj, MethodID, ArgBuf, Rfloat).
%------------------------------------------------------------------------------
%type jCallIntMethod(object, method_id, types, datums, int)
% jCallIntMethod(+Obj, +MethodID, +Types, +Args, -Rint) :-
jCallIntMethod(Obj, MethodID, Types, Args, Rint) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(51, Obj, MethodID, ArgBuf, Rint).
%------------------------------------------------------------------------------
%type jCallLongMethod(object, method_id, types, datums, long)
% jCallLongMethod(+Obj, +MethodID, +Types, +Args, -Rlong) :-
jCallLongMethod(Obj, MethodID, Types, Args, Rlong) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(54, Obj, MethodID, ArgBuf, Rlong).
%------------------------------------------------------------------------------
%type jCallObjectMethod(object, method_id, types, datums, object)
% jCallObjectMethod(+Obj, +MethodID, +Types, +Args, -Robj) :-
jCallObjectMethod(Obj, MethodID, Types, Args, Robj) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(36, Obj, MethodID, ArgBuf, Robj).
%------------------------------------------------------------------------------
%type jCallShortMethod(object, method_id, types, datums, short)
% jCallShortMethod(+Obj, +MethodID, +Types, +Args, -Rshort) :-
jCallShortMethod(Obj, MethodID, Types, Args, Rshort) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(48, Obj, MethodID, ArgBuf, Rshort).
%------------------------------------------------------------------------------
%type jCallStaticBooleanMethod(class, types, datums, boolean)
% jCallStaticBooleanMethod(+Class, +MethodID, +Types, +Args, -Rbool) :-
jCallStaticBooleanMethod(Class, MethodID, Types, Args, Rbool) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(119, Class, MethodID, ArgBuf, Rbool).
%------------------------------------------------------------------------------
%type jCallStaticByteMethod(class, method_id, types, datums, byte)
% jCallStaticByteMethod(+Class, +MethodID, +Types, +Args, -Rbyte) :-
jCallStaticByteMethod(Class, MethodID, Types, Args, Rbyte) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(122, Class, MethodID, ArgBuf, Rbyte).
%------------------------------------------------------------------------------
%type jCallStaticCharMethod(class, method_id, types, datums, char)
% jCallStaticCharMethod(+Class, +MethodID, +Types, +Args, -Rchar) :-
jCallStaticCharMethod(Class, MethodID, Types, Args, Rchar) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(125, Class, MethodID, ArgBuf, Rchar).
%------------------------------------------------------------------------------
%type jCallStaticDoubleMethod(class, method_id, types, datums, double)
% jCallStaticDoubleMethod(+Class, +MethodID, +Types, +Args, -Rdouble) :-
jCallStaticDoubleMethod(Class, MethodID, Types, Args, Rdouble) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(140, Class, MethodID, ArgBuf, Rdouble).
%------------------------------------------------------------------------------
%type jCallStaticFloatMethod(class, method_id, types, datums, float)
% jCallStaticFloatMethod(+Class, +MethodID, +Types, +Args, -Rfloat) :-
jCallStaticFloatMethod(Class, MethodID, Types, Args, Rfloat) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(137, Class, MethodID, ArgBuf, Rfloat).
%------------------------------------------------------------------------------
%type jCallStaticIntMethod(class, method_id, types, datums, int)
% jCallStaticIntMethod(+Class, +MethodID, +Types, +Args, -Rint) :-
jCallStaticIntMethod(Class, MethodID, Types, Args, Rint) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(131, Class, MethodID, ArgBuf, Rint).
%------------------------------------------------------------------------------
%type jCallStaticLongMethod(class, method_id, types, datums, long)
% jCallStaticLongMethod(+Class, +MethodID, +Types, +Args, -Rlong) :-
jCallStaticLongMethod(Class, MethodID, Types, Args, Rlong) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(134, Class, MethodID, ArgBuf, Rlong).
%------------------------------------------------------------------------------
%type jCallStaticObjectMethod(class, method_id, types, datums, object)
% jCallStaticObjectMethod(+Class, +MethodID, +Types, +Args, -Robj) :-
jCallStaticObjectMethod(Class, MethodID, Types, Args, Robj) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(116, Class, MethodID, ArgBuf, Robj).
%------------------------------------------------------------------------------
%type jCallStaticShortMethod(class, method_id, types, datums, short)
% jCallStaticShortMethod(+Class, +MethodID, +Types, +Args, -Rshort) :-
jCallStaticShortMethod(Class, MethodID, Types, Args, Rshort) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(128, Class, MethodID, ArgBuf, Rshort).
%------------------------------------------------------------------------------
%type jCallStaticVoidMethod(class, method_id, types, datums)
% jCallStaticVoidMethod(+Class, +MethodID, +Types, +Args) :-
jCallStaticVoidMethod(Class, MethodID, Types, Args) :-
jni_params_put(Args, Types, ArgBuf),
jni_void(143, Class, MethodID, ArgBuf).
%------------------------------------------------------------------------------
%type jCallVoidMethod(object, method_id, types, datums)
% jCallVoidMethod(+Obj, +MethodID, +Types, +Args) :-
jCallVoidMethod(Obj, MethodID, Types, Args) :-
jni_params_put(Args, Types, ArgBuf),
jni_void(63, Obj, MethodID, ArgBuf).
%------------------------------------------------------------------------------
%type jFindClass(findclassname, class)
% jFindClass(+ClassName, -Class) :-
jFindClass(ClassName, Class) :-
jni_func(6, ClassName, Class).
%------------------------------------------------------------------------------
%type jGetArrayLength(array, int)
% jGetArrayLength(+Array, -Size) :-
jGetArrayLength(Array, Size) :-
jni_func(171, Array, Size).
%------------------------------------------------------------------------------
%type jGetBooleanArrayRegion(boolean_array, int, int, boolean_buf)
% jGetBooleanArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetBooleanArrayRegion(Array, Start, Len, Buf) :-
jni_void(199, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetBooleanField(object, field_id, boolean)
% jGetBooleanField(+Obj, +FieldID, -Rbool) :-
jGetBooleanField(Obj, FieldID, Rbool) :-
jni_func(96, Obj, FieldID, Rbool).
%------------------------------------------------------------------------------
%type jGetByteArrayRegion(byte_array, int, int, byte_buf)
% jGetByteArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetByteArrayRegion(Array, Start, Len, Buf) :-
jni_void(200, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetByteField(object, field_id, byte)
% jGetByteField(+Obj, +FieldID, -Rbyte) :-
jGetByteField(Obj, FieldID, Rbyte) :-
jni_func(97, Obj, FieldID, Rbyte).
%------------------------------------------------------------------------------
%type jGetCharArrayRegion(char_array, int, int, char_buf)
% jGetCharArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetCharArrayRegion(Array, Start, Len, Buf) :-
jni_void(201, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetCharField(object, field_id, char)
% jGetCharField(+Obj, +FieldID, -Rchar) :-
jGetCharField(Obj, FieldID, Rchar) :-
jni_func(98, Obj, FieldID, Rchar).
%------------------------------------------------------------------------------
%type jGetDoubleArrayRegion(double_array, int, int, double_buf)
% jGetDoubleArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetDoubleArrayRegion(Array, Start, Len, Buf) :-
jni_void(206, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetDoubleField(object, field_id, double)
% jGetDoubleField(+Obj, +FieldID, -Rdouble) :-
jGetDoubleField(Obj, FieldID, Rdouble) :-
jni_func(103, Obj, FieldID, Rdouble).
%------------------------------------------------------------------------------
%type jGetFieldID(class, descriptor, field_id)
% jGetFieldID(+Class, +Name, +Typedescriptor, -FieldID) :-
jGetFieldID(Class, Name, Type, FieldID) :-
jpl_type_to_descriptor(Type, TD),
jni_func(94, Class, Name, TD, FieldID).
%------------------------------------------------------------------------------
%type jGetFloatArrayRegion(float_array, int, int, float_buf)
% jGetFloatArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetFloatArrayRegion(Array, Start, Len, Buf) :-
jni_void(205, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetFloatField(object, field_id, float)
% jGetFloatField(+Obj, +FieldID, -Rfloat) :-
jGetFloatField(Obj, FieldID, Rfloat) :-
jni_func(102, Obj, FieldID, Rfloat).
%------------------------------------------------------------------------------
%type jGetIntArrayRegion(int_array, int, int, int_buf)
% jGetIntArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetIntArrayRegion(Array, Start, Len, Buf) :-
jni_void(203, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetIntField(object, field_id, int)
% jGetIntField(+Obj, +FieldID, -Rint) :-
jGetIntField(Obj, FieldID, Rint) :-
jni_func(100, Obj, FieldID, Rint).
%------------------------------------------------------------------------------
%type jGetLongArrayRegion(long_array, int, int, long_buf)
% jGetLongArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetLongArrayRegion(Array, Start, Len, Buf) :-
jni_void(204, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetLongField(object, field_id, long)
% jGetLongField(+Obj, +FieldID, -Rlong) :-
jGetLongField(Obj, FieldID, Rlong) :-
jni_func(101, Obj, FieldID, Rlong).
%------------------------------------------------------------------------------
%type jGetMethodID(class, name, descriptor, method_id)
% jGetMethodID(+Class, +Name, +TypeDescriptor, -MethodID) :-
jGetMethodID(Class, Name, Type, MethodID) :-
jpl_type_to_descriptor(Type, TD),
jni_func(33, Class, Name, TD, MethodID).
%------------------------------------------------------------------------------
%type jGetObjectArrayElement(object_array, int, object)
% jGetObjectArrayElement(+Array, +Index, -Obj) :-
jGetObjectArrayElement(Array, Index, Obj) :-
jni_func(173, Array, Index, Obj).
%------------------------------------------------------------------------------
%type jGetObjectClass(object, class)
% jGetObjectClass(+Object, -Class) :-
jGetObjectClass(Object, Class) :-
jni_func(31, Object, Class).
%------------------------------------------------------------------------------
%type jGetObjectField(object, field_id, object)
% jGetObjectField(+Obj, +FieldID, -RObj) :-
jGetObjectField(Obj, FieldID, Robj) :-
jni_func(95, Obj, FieldID, Robj).
%------------------------------------------------------------------------------
%type jGetShortArrayRegion(short_array, int, int, short_buf)
% jGetShortArrayRegion(+Array, +Start, +Len, +Buf) :-
jGetShortArrayRegion(Array, Start, Len, Buf) :-
jni_void(202, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jGetShortField(object, field_id, short)
% jGetShortField(+Obj, +FieldID, -Rshort) :-
jGetShortField(Obj, FieldID, Rshort) :-
jni_func(99, Obj, FieldID, Rshort).
%------------------------------------------------------------------------------
%type jGetStaticBooleanField(class, field_id, boolean)
% jGetStaticBooleanField(+Class, +FieldID, -Rbool) :-
jGetStaticBooleanField(Class, FieldID, Rbool) :-
jni_func(146, Class, FieldID, Rbool).
%------------------------------------------------------------------------------
%type jGetStaticByteField(class, field_id, byte)
% jGetStaticByteField(+Class, +FieldID, -Rbyte) :-
jGetStaticByteField(Class, FieldID, Rbyte) :-
jni_func(147, Class, FieldID, Rbyte).
%------------------------------------------------------------------------------
%type jGetStaticCharField(class, field_id, char)
% jGetStaticCharField(+Class, +FieldID, -Rchar) :-
jGetStaticCharField(Class, FieldID, Rchar) :-
jni_func(148, Class, FieldID, Rchar).
%------------------------------------------------------------------------------
%type jGetStaticDoubleField(class, field_id, double)
% jGetStaticDoubleField(+Class, +FieldID, -Rdouble) :-
jGetStaticDoubleField(Class, FieldID, Rdouble) :-
jni_func(153, Class, FieldID, Rdouble).
%------------------------------------------------------------------------------
%type jGetStaticFieldID(class, name, field_id)
% jGetStaticFieldID(+Class, +Name, +TypeDescriptor, -FieldID) :-
jGetStaticFieldID(Class, Name, Type, FieldID) :-
jpl_type_to_descriptor(Type, TD), % cache this?
jni_func(144, Class, Name, TD, FieldID).
%------------------------------------------------------------------------------
%type jGetStaticFloatField(class, field_id, float)
% jGetStaticFloatField(+Class, +FieldID, -Rfloat) :-
jGetStaticFloatField(Class, FieldID, Rfloat) :-
jni_func(152, Class, FieldID, Rfloat).
%------------------------------------------------------------------------------
%type jGetStaticIntField(class, field_id, int)
% jGetStaticIntField(+Class, +FieldID, -Rint) :-
jGetStaticIntField(Class, FieldID, Rint) :-
jni_func(150, Class, FieldID, Rint).
%------------------------------------------------------------------------------
%type jGetStaticLongField(class, field_id, long)
% jGetStaticLongField(+Class, +FieldID, -Rlong) :-
jGetStaticLongField(Class, FieldID, Rlong) :-
jni_func(151, Class, FieldID, Rlong).
%------------------------------------------------------------------------------
%type jGetStaticMethodID(class, name, method_id)
% jGetStaticMethodID(+Class, +Name, +TypeDescriptor, -MethodID) :-
jGetStaticMethodID(Class, Name, Type, MethodID) :-
jpl_type_to_descriptor(Type, TD),
jni_func(113, Class, Name, TD, MethodID).
%------------------------------------------------------------------------------
%type jGetStaticObjectField(class, field_id, object)
% jGetStaticObjectField(+Class, +FieldID, -RObj) :-
jGetStaticObjectField(Class, FieldID, Robj) :-
jni_func(145, Class, FieldID, Robj).
%------------------------------------------------------------------------------
%type jGetStaticShortField(class, field_id, short)
% jGetStaticShortField(+Class, +FieldID, -Rshort) :-
jGetStaticShortField(Class, FieldID, Rshort) :-
jni_func(149, Class, FieldID, Rshort).
%------------------------------------------------------------------------------
%type jGetSuperclass(object, object)
% jGetSuperclass(+Class1, -Class2) :-
jGetSuperclass(Class1, Class2) :-
jni_func(10, Class1, Class2).
%------------------------------------------------------------------------------
%type jIsAssignableFrom(object, object)
% jIsAssignableFrom(+Class1, +Class2) :-
jIsAssignableFrom(Class1, Class2) :-
jni_func(11, Class1, Class2, @(true)).
%------------------------------------------------------------------------------
%type jNewBooleanArray(int, boolean_array)
% jNewBooleanArray(+Length, -Array) :-
jNewBooleanArray(Length, Array) :-
jni_func(175, Length, Array).
%------------------------------------------------------------------------------
%type jNewByteArray(int, byte_array)
% jNewByteArray(+Length, -Array) :-
jNewByteArray(Length, Array) :-
jni_func(176, Length, Array).
%------------------------------------------------------------------------------
%type jNewCharArray(int, char_array)
% jNewCharArray(+Length, -Array) :-
jNewCharArray(Length, Array) :-
jni_func(177, Length, Array).
%------------------------------------------------------------------------------
%type jNewDoubleArray(int, double_array)
% jNewDoubleArray(+Length, -Array) :-
jNewDoubleArray(Length, Array) :-
jni_func(182, Length, Array).
%------------------------------------------------------------------------------
%type jNewFloatArray(int, float_array)
% jNewFloatArray(+Length, -Array) :-
jNewFloatArray(Length, Array) :-
jni_func(181, Length, Array).
%------------------------------------------------------------------------------
%type jNewIntArray(int, int_array)
% jNewIntArray(+Length, -Array) :-
jNewIntArray(Length, Array) :-
jni_func(179, Length, Array).
%------------------------------------------------------------------------------
%type jNewLongArray(int, long_array)
% jNewLongArray(+Length, -Array) :-
jNewLongArray(Length, Array) :-
jni_func(180, Length, Array).
%------------------------------------------------------------------------------
%type jNewObject(class, method_id, types, datums, object)
% jNewObject(+Class, +MethodID, +Types, +Args, -Obj) :-
jNewObject(Class, MethodID, Types, Args, Obj) :-
jni_params_put(Args, Types, ArgBuf),
jni_func(30, Class, MethodID, ArgBuf, Obj).
%------------------------------------------------------------------------------
%type jNewObjectArray(int, class, object, object_array)
% jNewObjectArray(+Len, +Class, +InitVal, -Array) :-
jNewObjectArray(Len, Class, InitVal, Array) :-
jni_func(172, Len, Class, InitVal, Array).
%------------------------------------------------------------------------------
%type jNewShortArray(int, short_array)
% jNewShortArray(+Length, -Array) :-
jNewShortArray(Length, Array) :-
jni_func(178, Length, Array).
%------------------------------------------------------------------------------
%type jSetBooleanArrayRegion(boolean_array, int, int, boolean_buf)
% jSetBooleanArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetBooleanArrayRegion(Array, Start, Len, Buf) :-
jni_void(207, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetBooleanField(object, field_id, boolean)
% jSetBooleanField(+Obj, +FieldID, +Rbool) :-
jSetBooleanField(Obj, FieldID, Rbool) :-
jni_void(105, Obj, FieldID, Rbool).
%------------------------------------------------------------------------------
%type jSetByteArrayRegion(byte_array, int, int, byte_buf)
% jSetByteArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetByteArrayRegion(Array, Start, Len, Buf) :-
jni_void(208, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetByteField(object, field_id, byte)
% jSetByteField(+Obj, +FieldID, +Rbyte) :-
jSetByteField(Obj, FieldID, Rbyte) :-
jni_void(106, Obj, FieldID, Rbyte).
%------------------------------------------------------------------------------
%type jSetCharArrayRegion(char_array, int, int, char_buf)
% jSetCharArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetCharArrayRegion(Array, Start, Len, Buf) :-
jni_void(209, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetCharField(object, field_id, char)
% jSetCharField(+Obj, +FieldID, +Rchar) :-
jSetCharField(Obj, FieldID, Rchar) :-
jni_void(107, Obj, FieldID, Rchar).
%------------------------------------------------------------------------------
%type jSetDoubleArrayRegion(double_array, int, int, double_buf)
% jSetDoubleArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetDoubleArrayRegion(Array, Start, Len, Buf) :-
jni_void(214, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetDoubleField(object, field_id, double)
% jSetDoubleField(+Obj, +FieldID, +Rdouble) :-
jSetDoubleField(Obj, FieldID, Rdouble) :-
jni_void(112, Obj, FieldID, Rdouble).
%------------------------------------------------------------------------------
%type jSetFloatArrayRegion(float_array, int, int, float_buf)
% jSetFloatArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetFloatArrayRegion(Array, Start, Len, Buf) :-
jni_void(213, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetFloatField(object, field_id, float)
% jSetFloatField(+Obj, +FieldID, +Rfloat) :-
jSetFloatField(Obj, FieldID, Rfloat) :-
jni_void(111, Obj, FieldID, Rfloat).
%------------------------------------------------------------------------------
%type jSetIntArrayRegion(int_array, int, int, int_buf)
% jSetIntArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetIntArrayRegion(Array, Start, Len, Buf) :-
jni_void(211, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetIntField(object, field_id, int)
% jSetIntField(+Obj, +FieldID, +Rint) :-
jSetIntField(Obj, FieldID, Rint) :-
jni_void(109, Obj, FieldID, Rint).
%------------------------------------------------------------------------------
%type jSetLongArrayRegion(long_array, int, int, long_buf)
% jSetLongArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetLongArrayRegion(Array, Start, Len, Buf) :-
jni_void(212, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetLongField(object, field_id, long)
% jSetLongField(+Obj, +FieldID, +Rlong) :-
jSetLongField(Obj, FieldID, Rlong) :-
jni_void(110, Obj, FieldID, Rlong).
%------------------------------------------------------------------------------
%type jSetObjectArrayElement(object_array, int, object)
% jSetObjectArrayElement(+Array, +Index, +Obj) :-
jSetObjectArrayElement(Array, Index, Obj) :-
jni_void(174, Array, Index, Obj).
%------------------------------------------------------------------------------
%type jSetObjectField(object, field_id, object)
% jSetObjectField(+Obj, +FieldID, +RObj) :-
jSetObjectField(Obj, FieldID, Robj) :-
jni_void(104, Obj, FieldID, Robj).
%------------------------------------------------------------------------------
%type jSetShortArrayRegion(short_array, int, int, short_buf)
% jSetShortArrayRegion(+Array, +Start, +Len, +Buf) :-
jSetShortArrayRegion(Array, Start, Len, Buf) :-
jni_void(210, Array, Start, Len, Buf).
%------------------------------------------------------------------------------
%type jSetShortField(object, field_id, short)
% jSetShortField(+Obj, +FieldID, +Rshort) :-
jSetShortField(Obj, FieldID, Rshort) :-
jni_void(108, Obj, FieldID, Rshort).
%------------------------------------------------------------------------------
%type jSetStaticBooleanField(class, field_id, boolean)
% jSetStaticBooleanField(+Class, +FieldID, +Rbool) :-
jSetStaticBooleanField(Class, FieldID, Rbool) :-
jni_void(155, Class, FieldID, Rbool).
%------------------------------------------------------------------------------
%type jSetStaticByteField(class, field_id, byte)
% jSetStaticByteField(+Class, +FieldID, +Rbyte) :-
jSetStaticByteField(Class, FieldID, Rbyte) :-
jni_void(156, Class, FieldID, Rbyte).
%------------------------------------------------------------------------------
%type jSetStaticCharField(class, field_id, char)
% jSetStaticCharField(+Class, +FieldID, +Rchar) :-
jSetStaticCharField(Class, FieldID, Rchar) :-
jni_void(157, Class, FieldID, Rchar).
%------------------------------------------------------------------------------
%type jSetStaticDoubleField(class, field_id, double)
% jSetStaticDoubleField(+Class, +FieldID, +Rdouble) :-
jSetStaticDoubleField(Class, FieldID, Rdouble) :-
jni_void(162, Class, FieldID, Rdouble).
%------------------------------------------------------------------------------
%type jSetStaticFloatField(class, field_id, float)
% jSetStaticFloatField(+Class, +FieldID, +Rfloat) :-
jSetStaticFloatField(Class, FieldID, Rfloat) :-
jni_void(161, Class, FieldID, Rfloat).
%------------------------------------------------------------------------------
%type jSetStaticIntField(class, field_id, int)
% jSetStaticIntField(+Class, +FieldID, +Rint) :-
jSetStaticIntField(Class, FieldID, Rint) :-
jni_void(159, Class, FieldID, Rint).
%------------------------------------------------------------------------------
%type jSetStaticLongField(class, field_id, long)
% jSetStaticLongField(+Class, +FieldID, +Rlong) :-
jSetStaticLongField(Class, FieldID, Rlong) :-
jni_void(160, Class, FieldID, Rlong).
%------------------------------------------------------------------------------
%type jSetStaticObjectField(class, field_id, object)
% jSetStaticObjectField(+Class, +FieldID, +Robj) :-
jSetStaticObjectField(Class, FieldID, Robj) :-
jni_void(154, Class, FieldID, Robj).
%------------------------------------------------------------------------------
%type jSetStaticShortField(class, field_id, short)
% jSetStaticShortField(+Class, +FieldID, +Rshort) :-
jSetStaticShortField(Class, FieldID, Rshort) :-
jni_void(158, Class, FieldID, Rshort).
%------------------------------------------------------------------------------
% jni_convert_primitive_in(+JspType, -Term, +Xhi, +Xlo) :-
% a value of JspType returned
% (by jni_primitive_buffer_to_array or jni_get_array_element)
% as integers Xhi and Xlo
% is canonically (?) represented by Term;
% object types are bound in only where obvious (e.g. jstring, but not jthrowable)
% NB this oughta be done in foreign code...
% NB the following NBs are obsolete...
% NB this code assumes that null jbufs are never returned...
% NB XputMode is determined solely by JniType, but is needed earlier (for jni_call)
% NB this proc should be defined for all return types of supported JNI functions
% (see jni_proto/5)
% NB 'jsize' is synonymous with 'jint'
jni_convert_primitive_in(boolean, T, 0, Xlo) :-
( Xlo == 0
-> T = @(false)
; Xlo == 1
-> T = @(true)
).
jni_convert_primitive_in(byte, I, 0, I).
jni_convert_primitive_in(char, I, 0, I).
jni_convert_primitive_in(short, I, 0, I).
jni_convert_primitive_in(int, I, 0, I).
jni_convert_primitive_in(long, T, Xhi, Xlo) :-
( ( Xhi == 0,
Xlo >= 0 % small non-negative
; Xhi == -1,
Xlo < 0 % small negative
)
-> T = Xlo
; T = jlong(Xhi,Xlo)
).
jni_convert_primitive_in(float, F, 0, F).
jni_convert_primitive_in(double, F, 0, F).
%------------------------------------------------------------------------------
% jni_convert_primitive_out(+JspType, +Term, -Xhi, -Xlo, -JniXputCode) :-
% to pass Term to a JNI function as (primitive) JspType,
% send Xhi, Xlo with JniXputCode
% NB all this oughta be done in foreign code...
% NB JniXputCode is determined by both JspType and Term
% NB JniXputCode determines reassembly, widening and casting in foreign code
jni_convert_primitive_out(boolean, @(false), 0, 0, 1). % JNI_XPUT_BOOLEAN
jni_convert_primitive_out(boolean, @(true), 0, 1, 1). % JNI_XPUT_BOOLEAN
jni_convert_primitive_out(char, I, 0, I, 3) :- % JNI_XPUT_CHAR
integer(I),
I >= 0,
I =< 65535.
jni_convert_primitive_out(byte, I, 0, I, 2) :- % JNI_XPUT_BYTE
integer(I),
I >= -128,
I =< 127.
jni_convert_primitive_out(short, I, 0, I, 4) :- % JNI_XPUT_SHORT
integer(I),
I >= -32768,
I =< 32767.
jni_convert_primitive_out(int, I, 0, I, 5) :- % JNI_XPUT_INT
integer(I),
I >= -2147483648,
I =< 2147483647.
jni_convert_primitive_out(long, I, V2, I, 6) :- % JNI_XPUT_LONG
integer(I),
( I < 0
-> V2 = -1
; V2 = 0
).
jni_convert_primitive_out(long, jlong(V2,V1), V2, V1, 6) :- % JNI_XPUT_LONG
integer(V1),
integer(V2).
jni_convert_primitive_out(float, F, 0, F, 7) :- % JNI_XPUT_FLOAT
float(F).
jni_convert_primitive_out(float, I, 0, F, 7) :- % JNI_XPUT_FLOAT
integer(I),
F is float(I).
jni_convert_primitive_out(float, jlong(V2,V1), V2, V1, 10) :- % JNI_XPUT_LONG_TO_FLOAT
integer(V1),
integer(V2).
jni_convert_primitive_out(double, I, 0, F, 9) :- % JNI_XPUT_FLOAT_TO_DOUBLE
integer(I),
F is float(I).
jni_convert_primitive_out(double, jlong(V2,V1), V2, V1, 11) :- % JNI_XPUT_LONG_TO_DOUBLE
integer(V1),
integer(V2).
jni_convert_primitive_out(double, F, 0, F, 9) :- % JNI_XPUT_FLOAT_TO_DOUBLE
float(F).
%------------------------------------------------------------------------------
% jni_params_put(+Args, +Types, -ArgBuf) :-
% the old form used a static buffer, hence was not re-entrant;
% the new form allocates a buffer of one jvalue per arg,
% puts the (converted) args into respective elements, then returns it
% (the caller is responsible for freeing it)
%jni_params_put(As, Ts) :-
% jni_ensure_jvm, % in case e.g. NewStringUTF() is called
% jni_params_put_1(As, 0, Ts).
jni_params_put(As, Ts, ArgBuf) :-
jni_ensure_jvm, % in case e.g. NewStringUTF() is called
length(As, N),
jni_type_to_xput_code(jvalue, Xc), % Xc will be 15
jni_alloc_buffer(Xc, N, ArgBuf),
jni_params_put_1(As, 0, Ts, ArgBuf).
%------------------------------------------------------------------------------
% jni_params_put_1(+Args, +N, +JPLTypes, +ArgBuf) :-
% Args is a (full or partial) list of args-not-yet-stashed,
% and Types are their (JPL) types (e.g. 'boolean');
% N is the arg and buffer index (0+) at which the head of Args is to be stashed;
% the old form used a static buffer and hence was non-reentrant;
% the new form uses a dynamically allocated buffer (which oughta be freed after use)
%
%NB if the (user-provided) actual params were to be unsuitable for conversion
%NB to the method-required types, this would fail silently (without freeing the buffer);
%NB it's not clear whether the overloaded-method-resolution ensures that all args
%NB are convertible
%jni_params_put_1([], _, []).
%jni_params_put_1([A|As], N, [Tjni|Ts]) :- % type checking?
% N2 is N+1,
% jni_params_put_1(As, N2, Ts), % stash last param first
% ( jni_type_to_xput_code(Tjni, Xc)
% -> jni_param_put(N, Xc, A) % foreign
% ; fail % oughta raise an exception?
% ).
jni_params_put_1([], _, [], _).
jni_params_put_1([A|As], N, [Tjni|Ts], ArgBuf) :- % type checking?
( jni_type_to_xput_code(Tjni, Xc)
-> jni_param_put(N, Xc, A, ArgBuf) % foreign
; fail % oughta raise an exception?
),
N2 is N+1,
jni_params_put_1(As, N2, Ts, ArgBuf). % stash remaining params (if any)
%------------------------------------------------------------------------------
% jni_type_to_xput_code(+JspType, -JniXputCode) :-
% NB JniXputCode determines widening and casting in foreign code
% NB the codes could be compiled into jni_method_spec_cache etc.
% instead of, or as well as, types (for - small - efficiency gain)
jni_type_to_xput_code(boolean, 1). % JNI_XPUT_BOOLEAN
jni_type_to_xput_code(byte, 2). % JNI_XPUT_BYTE
jni_type_to_xput_code(char, 3). % JNI_XPUT_CHAR
jni_type_to_xput_code(short, 4). % JNI_XPUT_SHORT
jni_type_to_xput_code(int, 5). % JNI_XPUT_INT
jni_type_to_xput_code(long, 6). % JNI_XPUT_LONG
jni_type_to_xput_code(float, 7). % JNI_XPUT_FLOAT
jni_type_to_xput_code(double, 8). % JNI_XPUT_DOUBLE
jni_type_to_xput_code(class(_,_), 12). % JNI_XPUT_REF
jni_type_to_xput_code(array(_), 12). % JNI_XPUT_REF
jni_type_to_xput_code(jvalue, 15). % JNI_XPUT_JVALUE
%------------------------------------------------------------------------------
% jpl_class_to_constructor_array(+Class, -MethodArray) :-
% might this be done more efficiently in foreign code?
jpl_class_to_constructor_array(Cx, Ma) :-
jpl_classname_to_class('java.lang.Class', CC), % cached?
jGetMethodID(
CC,
getConstructors,
method([],array(class([java,lang,reflect],['Constructor']))),
MID
),
jCallObjectMethod(Cx, MID, [], [], Ma).
%------------------------------------------------------------------------------
% jpl_class_to_constructors(+Class, -Methods) :-
jpl_class_to_constructors(Cx, Ms) :-
jpl_class_to_constructor_array(Cx, Ma),
jpl_object_array_to_list(Ma, Ms).
%------------------------------------------------------------------------------
% jpl_class_to_field_array(+Class, -FieldArray) :-
jpl_class_to_field_array(Cx, Fa) :-
jpl_classname_to_class('java.lang.Class', CC),
jGetMethodID(
CC,
getFields,
method([],array(class([java,lang,reflect],['Field']))),
MID
),
jCallObjectMethod(Cx, MID, [], [], Fa).
%------------------------------------------------------------------------------
% jpl_class_to_fields(+Class, -Fields) :-
jpl_class_to_fields(C, Fs) :-
jpl_class_to_field_array(C, Fa),
jpl_object_array_to_list(Fa, Fs).
%------------------------------------------------------------------------------
% jpl_class_to_method_array(+Class, -MethodArray) :-
% migrate into foreign code for efficiency?
jpl_class_to_method_array(Cx, Ma) :-
jpl_classname_to_class('java.lang.Class', CC), % cached?
jGetMethodID(
CC,
getMethods,
method([],array(class([java,lang,reflect],['Method']))),
MID
),
jCallObjectMethod(Cx, MID, [], [], Ma).
%------------------------------------------------------------------------------
% jpl_class_to_methods(+Class, -Methods) :-
jpl_class_to_methods(Cx, Ms) :-
jpl_class_to_method_array(Cx, Ma),
jpl_object_array_to_list(Ma, Ms).
%------------------------------------------------------------------------------
% jpl_constructor_to_modifiers(+Method, -Modifiers) :-
% migrate into foreign code for efficiency?
jpl_constructor_to_modifiers(X, Ms) :-
jpl_classname_to_class('java.lang.reflect.Constructor', Cx), % cached?
jpl_method_to_modifiers_1(X, Cx, Ms).
%------------------------------------------------------------------------------
% jpl_constructor_to_name(+Method, -Name) :-
% it is a JNI convention that each constructor behaves (at least,
% for reflection), as a method whose name is '<init>'
jpl_constructor_to_name(_X, '<init>').
%------------------------------------------------------------------------------
% jpl_constructor_to_parameter_types(+Method, -ParameterTypes) :-
% migrate to foreign code for efficiency?
jpl_constructor_to_parameter_types(X, Tps) :-
jpl_classname_to_class('java.lang.reflect.Constructor', Cx), % cached?
jpl_method_to_parameter_types_1(X, Cx, Tps).
%------------------------------------------------------------------------------
% jpl_constructor_to_return_type(+Method, -Type) :-
% it is a JNI convention that, for the purposes of retrieving a MethodID,
% a constructor has a return type of 'void'
jpl_constructor_to_return_type(_X, void).
%------------------------------------------------------------------------------
% jpl_field_spec(+ClassType, -Index, -Name, -Modifiers, -MID, -Type) :-
jpl_field_spec(Tc, I, N, Mods, MID, T) :-
( jpl_field_spec_is_cached(Tc)
-> jpl_field_spec_cache(Tc, I, N, Mods, MID, T)
; jpl_type_to_class(Tc, C),
jpl_class_to_fields(C, Fs),
jpl_field_spec_1(Fs, Tc),
assert(jpl_field_spec_is_cached(Tc)),
jpl_field_spec_cache(Tc, I, N, Mods, MID, T)
).
%------------------------------------------------------------------------------
jpl_field_spec_1(Fs, Tc) :-
( jpl_type_to_class(Tc, C),
nth1(I, Fs, F),
jpl_field_to_name(F, N),
jpl_field_to_modifiers(F, Mods),
jpl_field_to_type(F, T),
( member(static, Mods)
-> jGetStaticFieldID(C, N, T, MID)
; jGetFieldID(C, N, T, MID)
),
assert(jpl_field_spec_cache(Tc,I,N,Mods,MID,T)),
fail
; true
).
%------------------------------------------------------------------------------
:- dynamic jpl_field_spec_cache/6.
%------------------------------------------------------------------------------
:- dynamic jpl_field_spec_is_cached/1.
%------------------------------------------------------------------------------
%type jpl_field_to_modifiers(object, ordset(modifier))
% jpl_field_to_modifiers(+Field, -Modifiers) :-
jpl_field_to_modifiers(F, Ms) :-
jpl_classname_to_class('java.lang.reflect.Field', Cf),
jpl_method_to_modifiers_1(F, Cf, Ms).
%------------------------------------------------------------------------------
% jpl_field_to_name(+Field, -Name) :-
jpl_field_to_name(F, N) :-
jpl_classname_to_class('java.lang.reflect.Field', Cf),
jpl_method_to_name_1(F, Cf, N).
%------------------------------------------------------------------------------
%type jpl_field_to_type(object, type)
% jpl_field_to_type(+Field, -Type) :-
jpl_field_to_type(F, Tf) :-
jpl_classname_to_class('java.lang.reflect.Field', Cf),
jGetMethodID(Cf, getType, method([],class([java,lang],['Class'])), MID),
jCallObjectMethod(F, MID, [], [], Cr),
jpl_class_to_type(Cr, Tf).
%------------------------------------------------------------------------------
%type jpl_method_spec(type, integer, name, arity, ordset(modifier), method_id, type, list(type))
% jpl_method_spec(+ClassType, -Index, -Name, -Arity, -Modifiers, -MID, -ReturnType, -ParameterTypes) :-
% generates pertinent details of all accessible methods of ClassType,
% populating or using the cache as appropriate
jpl_method_spec(Tc, I, N, A, Mods, MID, Tr, Tps) :-
( jpl_method_spec_is_cached(Tc)
-> jpl_method_spec_cache(Tc, I, N, A, Mods, MID, Tr, Tps)
; jpl_type_to_class(Tc, Cx),
jpl_class_to_constructors(Cx, Xs),
jpl_class_to_methods(Cx, Ms),
jpl_method_spec_1(Tc, Xs, Ms),
assert(jpl_method_spec_is_cached(Tc)),
jpl_method_spec_cache(Tc, I, N, A, Mods, MID, Tr, Tps)
).
%------------------------------------------------------------------------------
%type jpl_method_spec_1(type, list(method), list(method))
jpl_method_spec_1(Tc, Xs, Ms) :-
( jpl_type_to_class(Tc, C),
( nth1(I, Xs, X), % generate constructors, numbered from 1
jpl_constructor_to_name(X, N),
jpl_constructor_to_modifiers(X, Mods),
jpl_constructor_to_return_type(X, Tr),
jpl_constructor_to_parameter_types(X, Tps)
; length(Xs, J0),
nth1(J, Ms, M), % generate members, continuing numbering
I is J0+J,
jpl_method_to_name(M, N),
jpl_method_to_modifiers(M, Mods),
jpl_method_to_return_type(M, Tr),
jpl_method_to_parameter_types(M, Tps)
),
length(Tps, A), % arity
( member(static, Mods)
-> jGetStaticMethodID(C, N, method(Tps,Tr), MID)
; jGetMethodID(C, N, method(Tps,Tr), MID)
),
assert(jpl_method_spec_cache(Tc,I,N,A,Mods,MID,Tr,Tps)),
fail
; true
).
%------------------------------------------------------------------------------
:- dynamic jpl_method_spec_cache/8.
%------------------------------------------------------------------------------
:- dynamic jpl_method_spec_is_cached/1.
%------------------------------------------------------------------------------
% jpl_method_to_modifiers(+Method, -ModifierSet) :-
jpl_method_to_modifiers(M, Ms) :-
jpl_classname_to_class('java.lang.reflect.Method', Cm),
jpl_method_to_modifiers_1(M, Cm, Ms).
%------------------------------------------------------------------------------
%type jpl_method_to_modifiers_1(object, object, ordset(modifier))
% jpl_method_to_modifiers_1(+Method, +ConstructorClass, -ModifierSet) :-
jpl_method_to_modifiers_1(XM, Cxm, Ms) :-
jGetMethodID(Cxm, getModifiers, method([],int), MID),
jCallIntMethod(XM, MID, [], [], I),
jpl_modifier_int_to_modifiers(I, Ms).
%------------------------------------------------------------------------------
% jpl_method_to_name(+Method, -Name) :-
jpl_method_to_name(M, N) :-
jpl_classname_to_class('java.lang.reflect.Method', CM),
jpl_method_to_name_1(M, CM, N).
%------------------------------------------------------------------------------
jpl_method_to_name_1(M, CM, N) :-
jGetMethodID(CM, getName, method([],class([java,lang],['String'])), MID),
jCallObjectMethod(M, MID, [], [], N).
%------------------------------------------------------------------------------
% jpl_method_to_parameter_types(+Method, -Types) :-
jpl_method_to_parameter_types(M, Tps) :-
jpl_classname_to_class('java.lang.reflect.Method', Cm),
jpl_method_to_parameter_types_1(M, Cm, Tps).
%------------------------------------------------------------------------------
jpl_method_to_parameter_types_1(XM, Cxm, Tps) :-
jGetMethodID(Cxm, getParameterTypes, method([],array(class([java,lang],['Class']))), MID),
jCallObjectMethod(XM, MID, [], [], Atp),
jpl_object_array_to_list(Atp, Ctps),
jpl_classes_to_types(Ctps, Tps).
%------------------------------------------------------------------------------
% jpl_method_to_return_type(+Method, -Type) :-
jpl_method_to_return_type(M, Tr) :-
jpl_classname_to_class('java.lang.reflect.Method', Cm),
jGetMethodID(Cm, getReturnType, method([],class([java,lang],['Class'])), MID),
jCallObjectMethod(M, MID, [], [], Cr),
jpl_class_to_type(Cr, Tr).
%------------------------------------------------------------------------------
jpl_modifier_bit(public, 0x001).
jpl_modifier_bit(private, 0x002).
jpl_modifier_bit(protected, 0x004).
jpl_modifier_bit(static, 0x008).
jpl_modifier_bit(final, 0x010).
jpl_modifier_bit(synchronized, 0x020).
jpl_modifier_bit(volatile, 0x040).
jpl_modifier_bit(transient, 0x080).
jpl_modifier_bit(native, 0x100).
jpl_modifier_bit(interface, 0x200).
jpl_modifier_bit(abstract, 0x400).
%------------------------------------------------------------------------------
%type jpl_modifier_int_to_modifiers(integer, ordset(modifier))
% jpl_modifier_int_to_modifiers(+Int, -ModifierSet) :-
% ModifierSet is an ordered (hence canonical) list,
% possibly empty (although I suspect never in practice?),
% of modifier atoms, e.g. [public,static]
jpl_modifier_int_to_modifiers(I, Ms) :-
setof(
M, % should use e.g. set_of_all/3
B^(jpl_modifier_bit(M, B),
(B /\ I) =\= 0
),
Ms
).
%------------------------------------------------------------------------------
% jpl_servlet_byref(+Config, +Request, +Response) :-
jpl_servlet_byref(Config, Request, Response) :-
jpl_call(Config, getServletContext, [], Context),
jpl_call(Response, setStatus, [200], _),
jpl_call(Response, setContentType, ['text/html'], _),
jpl_call(Response, getWriter, [], W),
jpl_call(W, println, ['<html><head></head><body><h2>jpl_servlet_byref/3 says:</h2><pre>'], _),
jpl_call(W, println, ['\nservlet context stuff:'], _),
jpl_call(Context, getInitParameterNames, [], ContextInitParameterNameEnum),
jpl_enumeration_to_list(ContextInitParameterNameEnum, ContextInitParameterNames),
length(ContextInitParameterNames, NContextInitParameterNames),
concat_atom(['\tContext.InitParameters = ',NContextInitParameterNames], NContextInitParameterNamesMsg),
jpl_call(W, println, [NContextInitParameterNamesMsg], _),
( member(ContextInitParameterName, ContextInitParameterNames),
jpl_call(Context, getInitParameter, [ContextInitParameterName], ContextInitParameter),
concat_atom(['\t\tContext.InitParameter[',ContextInitParameterName,'] = ',ContextInitParameter], ContextInitParameterMsg),
jpl_call(W, println, [ContextInitParameterMsg], _),
fail
; true
),
jpl_call(Context, getMajorVersion, [], MajorVersion),
concat_atom(['\tContext.MajorVersion = ',MajorVersion], MajorVersionMsg),
jpl_call(W, println, [MajorVersionMsg], _),
jpl_call(Context, getMinorVersion, [], MinorVersion),
concat_atom(['\tContext.MinorVersion = ',MinorVersion], MinorVersionMsg),
jpl_call(W, println, [MinorVersionMsg], _),
jpl_call(Context, getServerInfo, [], ServerInfo),
concat_atom(['\tContext.ServerInfo = ',ServerInfo], ServerInfoMsg),
jpl_call(W, println, [ServerInfoMsg], _),
jpl_call(W, println, ['\nservlet config stuff:'], _),
jpl_call(Config, getServletName, [], ServletName),
( ServletName == @(null)
-> ServletNameAtom = null
; ServletNameAtom = ServletName
),
concat_atom(['\tConfig.ServletName = ',ServletNameAtom], ServletNameMsg),
jpl_call(W, println, [ServletNameMsg], _),
jpl_call(Config, getInitParameterNames, [], ConfigInitParameterNameEnum),
jpl_enumeration_to_list(ConfigInitParameterNameEnum, ConfigInitParameterNames),
length(ConfigInitParameterNames, NConfigInitParameterNames),
concat_atom(['\tConfig.InitParameters = ',NConfigInitParameterNames], NConfigInitParameterNamesMsg),
jpl_call(W, println, [NConfigInitParameterNamesMsg], _),
( member(ConfigInitParameterName, ConfigInitParameterNames),
jpl_call(Config, getInitParameter, [ConfigInitParameterName], ConfigInitParameter),
concat_atom(['\t\tConfig.InitParameter[',ConfigInitParameterName,'] = ',ConfigInitParameter], ConfigInitParameterMsg),
jpl_call(W, println, [ConfigInitParameterMsg], _),
fail
; true
),
jpl_call(W, println, ['\nrequest stuff:'], _),
jpl_call(Request, getAttributeNames, [], AttributeNameEnum),
jpl_enumeration_to_list(AttributeNameEnum, AttributeNames),
length(AttributeNames, NAttributeNames),
concat_atom(['\tRequest.Attributes = ',NAttributeNames], NAttributeNamesMsg),
jpl_call(W, println, [NAttributeNamesMsg], _),
( member(AttributeName, AttributeNames),
jpl_call(Request, getAttribute, [AttributeName], Attribute),
jpl_call(Attribute, toString, [], AttributeString),
concat_atom(['\t\tRequest.Attribute[',AttributeName,'] = ',AttributeString], AttributeMsg),
jpl_call(W, println, [AttributeMsg], _),
fail
; true
),
jpl_call(Request, getCharacterEncoding, [], CharacterEncoding),
( CharacterEncoding == @(null)
-> CharacterEncodingAtom = ''
; CharacterEncodingAtom = CharacterEncoding
),
concat_atom(['\tRequest.CharacterEncoding',' = ',CharacterEncodingAtom], CharacterEncodingMsg),
jpl_call(W, println, [CharacterEncodingMsg], _),
jpl_call(Request, getContentLength, [], ContentLength),
concat_atom(['\tRequest.ContentLength',' = ',ContentLength], ContentLengthMsg),
jpl_call(W, println, [ContentLengthMsg], _),
jpl_call(Request, getContentType, [], ContentType),
( ContentType == @(null)
-> ContentTypeAtom = ''
; ContentTypeAtom = ContentType
),
concat_atom(['\tRequest.ContentType',' = ',ContentTypeAtom], ContentTypeMsg),
jpl_call(W, println, [ContentTypeMsg], _),
jpl_call(Request, getParameterNames, [], ParameterNameEnum),
jpl_enumeration_to_list(ParameterNameEnum, ParameterNames),
length(ParameterNames, NParameterNames),
concat_atom(['\tRequest.Parameters = ',NParameterNames], NParameterNamesMsg),
jpl_call(W, println, [NParameterNamesMsg], _),
( member(ParameterName, ParameterNames),
jpl_call(Request, getParameter, [ParameterName], Parameter),
concat_atom(['\t\tRequest.Parameter[',ParameterName,'] = ',Parameter], ParameterMsg),
jpl_call(W, println, [ParameterMsg], _),
fail
; true
),
jpl_call(Request, getProtocol, [], Protocol),
concat_atom(['\tRequest.Protocol',' = ',Protocol], ProtocolMsg),
jpl_call(W, println, [ProtocolMsg], _),
jpl_call(Request, getRemoteAddr, [], RemoteAddr),
concat_atom(['\tRequest.RemoteAddr',' = ',RemoteAddr], RemoteAddrMsg),
jpl_call(W, println, [RemoteAddrMsg], _),
jpl_call(Request, getRemoteHost, [], RemoteHost),
concat_atom(['\tRequest.RemoteHost',' = ',RemoteHost], RemoteHostMsg),
jpl_call(W, println, [RemoteHostMsg], _),
jpl_call(Request, getScheme, [], Scheme),
concat_atom(['\tRequest.Scheme',' = ',Scheme], SchemeMsg),
jpl_call(W, println, [SchemeMsg], _),
jpl_call(Request, getServerName, [], ServerName),
concat_atom(['\tRequest.ServerName',' = ',ServerName], ServerNameMsg),
jpl_call(W, println, [ServerNameMsg], _),
jpl_call(Request, getServerPort, [], ServerPort),
concat_atom(['\tRequest.ServerPort',' = ',ServerPort], ServerPortMsg),
jpl_call(W, println, [ServerPortMsg], _),
jpl_call(Request, isSecure, [], @(Secure)),
concat_atom(['\tRequest.Secure',' = ',Secure], SecureMsg),
jpl_call(W, println, [SecureMsg], _),
jpl_call(W, println, ['\nHTTP request stuff:'], _),
jpl_call(Request, getAuthType, [], AuthType),
( AuthType == @(null)
-> AuthTypeAtom = ''
; AuthTypeAtom = AuthType
),
concat_atom(['\tRequest.AuthType',' = ',AuthTypeAtom], AuthTypeMsg),
jpl_call(W, println, [AuthTypeMsg], _),
jpl_call(Request, getContextPath, [], ContextPath),
( ContextPath == @(null)
-> ContextPathAtom = ''
; ContextPathAtom = ContextPath
),
concat_atom(['\tRequest.ContextPath',' = ',ContextPathAtom], ContextPathMsg),
jpl_call(W, println, [ContextPathMsg], _),
jpl_call(Request, getCookies, [], CookieArray),
( CookieArray == @(null)
-> Cookies = []
; jpl_array_to_list(CookieArray, Cookies)
),
length(Cookies, NCookies),
concat_atom(['\tRequest.Cookies',' = ',NCookies], NCookiesMsg),
jpl_call(W, println, [NCookiesMsg], _),
( nth0(NCookie, Cookies, Cookie),
concat_atom(['\t\tRequest.Cookie[',NCookie,']'], CookieMsg),
jpl_call(W, println, [CookieMsg], _),
jpl_call(Cookie, getName, [], CookieName),
concat_atom(['\t\t\tRequest.Cookie.Name = ',CookieName], CookieNameMsg),
jpl_call(W, println, [CookieNameMsg], _),
jpl_call(Cookie, getValue, [], CookieValue),
concat_atom(['\t\t\tRequest.Cookie.Value = ',CookieValue], CookieValueMsg),
jpl_call(W, println, [CookieValueMsg], _),
jpl_call(Cookie, getPath, [], CookiePath),
( CookiePath == @(null)
-> CookiePathAtom = ''
; CookiePathAtom = CookiePath
),
concat_atom(['\t\t\tRequest.Cookie.Path = ',CookiePathAtom], CookiePathMsg),
jpl_call(W, println, [CookiePathMsg], _),
jpl_call(Cookie, getComment, [], CookieComment),
( CookieComment == @(null)
-> CookieCommentAtom = ''
; CookieCommentAtom = CookieComment
),
concat_atom(['\t\t\tRequest.Cookie.Comment = ',CookieCommentAtom], CookieCommentMsg),
jpl_call(W, println, [CookieCommentMsg], _),
jpl_call(Cookie, getDomain, [], CookieDomain),
( CookieDomain == @(null)
-> CookieDomainAtom = ''
; CookieDomainAtom = CookieDomain
),
concat_atom(['\t\t\tRequest.Cookie.Domain = ',CookieDomainAtom], CookieDomainMsg),
jpl_call(W, println, [CookieDomainMsg], _),
jpl_call(Cookie, getMaxAge, [], CookieMaxAge),
concat_atom(['\t\t\tRequest.Cookie.MaxAge = ',CookieMaxAge], CookieMaxAgeMsg),
jpl_call(W, println, [CookieMaxAgeMsg], _),
jpl_call(Cookie, getVersion, [], CookieVersion),
concat_atom(['\t\t\tRequest.Cookie.Version = ',CookieVersion], CookieVersionMsg),
jpl_call(W, println, [CookieVersionMsg], _),
jpl_call(Cookie, getSecure, [], @(CookieSecure)),
concat_atom(['\t\t\tRequest.Cookie.Secure',' = ',CookieSecure], CookieSecureMsg),
jpl_call(W, println, [CookieSecureMsg], _),
fail
; true
),
jpl_call(W, println, ['</pre></body></html>'], _),
true.
%------------------------------------------------------------------------------
jpl_servlet_byval(MM, CT, Ba) :-
CT = 'text/html',
multimap_to_atom(MM, MMa),
concat_atom(['<html><head></head><body>',
'<h2>jpl_servlet_byval/3 says:</h2><pre>',
MMa,
'</pre></body></html>'
], Ba).
%------------------------------------------------------------------------------
%type jpl_cache_type_of_ref(jpl_type, ref)
% jpl_cache_type_of_ref(+Type, +Ref) :-
% Type must be a proper JPL type;
% Ref must be a proper JPL reference (not void);
% Type is memoed as the type of the referenced object (unless it's null)
% by iref (so as not to disable atom-based GC)
% NB obsolete lemmas must be watched-out-for and removed
jpl_cache_type_of_ref(T, @(Tag)) :-
( \+ ground(T)
-> write('[jpl_cache_type_of_ref/2: arg 1 is not ground]'), nl,
fail
; \+ integer(Tag)
-> write('[jpl_cache_type_of_ref/2: arg 2 is not an atomic-tag ref]'), nl,
fail
; Tag == null
-> true % silently ignore null refs
; jni_tag_to_iref(Tag, Iref)
-> ( jpl_iref_type_cache(Iref, TC) % assume TC == T
-> ( T == TC
-> true
; % write('[JPL: found obsolete tag-type lemma...]'), nl, % keep statistics? (why?)
retractall(jpl_iref_type_cache(Iref,_)),
assert(jpl_iref_type_cache(Iref,T))
)
; assert(jpl_iref_type_cache(Iref,T))
)
; write('[jpl_cache_type_of_ref/2: jni_tagatom_to_iref(Tag,_) failed]'), nl,
fail
).
%------------------------------------------------------------------------------
% jpl_class_tag_type_cache(-Tag, -ClassType) :-
% Tag is the tag part of an @Tag reference
% to a JVM instance of java.lang.Class
% which denotes ClassType;
% we index on Tag rather than on Iref so as to keep these objects around
% even after an atom garbage collection
% (if needed once, they are likely to be needed again)
:- dynamic jpl_class_tag_type_cache/2.
%------------------------------------------------------------------------------
% jpl_class_to_ancestor_classes(+Class, -AncestorClasses) :-
jpl_class_to_ancestor_classes(C, Cas) :-
( jpl_class_to_super_class(C, Ca)
-> Cas = [Ca|Cas2],
jpl_class_to_ancestor_classes(Ca, Cas2)
; Cas = []
).
%------------------------------------------------------------------------------
% jpl_class_to_classname(+Class, -ClassName) :-
% Class is a reference to a class object;
% ClassName is its canonical (?) source-syntax (dotted) name,
% e.g. 'java.util.Date'
% not used outside jni_junk and jpl_test;
% oughta use the available caches...
jpl_class_to_classname(C, CN) :-
jpl_call(C, getName, [], CN).
%------------------------------------------------------------------------------
% jpl_class_to_raw_classname(+Class, -ClassName) :-
jpl_class_to_raw_classname(Cobj, CN) :-
jpl_classname_to_class('java.lang.Class', CC), % cached?
jGetMethodID(CC, getName, method([],class([java,lang],['String'])), MIDgetName),
jCallObjectMethod(Cobj, MIDgetName, [], [], S),
S = CN.
%------------------------------------------------------------------------------
% jpl_class_to_raw_classname_chars(+Class, -ClassnameChars) :-
% Class is a reference to a class object;
% ClassnameChars is a chars representation of its dotted name, e.g.
% "java.util.Date"
jpl_class_to_raw_classname_chars(Cobj, CsCN) :-
jpl_class_to_raw_classname(Cobj, CN),
atom_codes(CN, CsCN).
%------------------------------------------------------------------------------
jpl_class_to_super_class(C, Cx) :-
jGetSuperclass(C, Cx),
Cx \== @(null), % as returned when C is java.lang.Object, i.e. no superclass
jpl_cache_type_of_ref(class([java,lang],['Class']), Cx).
%------------------------------------------------------------------------------
% jpl_class_to_type(+ClassObject, -Type) :-
% ClassObject is a reference to a class object of Type
% NB should ensure that, if not found in cache, then cache is updated;
% intriguingly (?), getParameterTypes returns class objects with names
% 'boolean', 'byte' etc. and even 'void' (?!)
jpl_class_to_type(@(Tag), Type) :-
( jpl_class_tag_type_cache(Tag, Tx)
-> true
; jpl_class_to_raw_classname_chars(@(Tag), Cs), % uncached
jpl_classname_chars_to_type(Cs, Tr),
jpl_type_to_canonical_type(Tr, Tx),
assert(jpl_class_tag_type_cache(Tag,Tx))
-> true % the elseif goal should be determinate, but just in case...
),
Type = Tx.
%------------------------------------------------------------------------------
jpl_classes_to_types([], []).
jpl_classes_to_types([C|Cs], [T|Ts]) :-
jpl_class_to_type(C, T),
jpl_classes_to_types(Cs, Ts).
%------------------------------------------------------------------------------
jpl_classname_chars_to_type(Cs, Type) :-
( phrase(jpl_type_classname_1(Type), Cs)
-> true
).
%------------------------------------------------------------------------------
% jpl_classname_to_class(+ClassName, -Class) :-
% ClassName unambiguously represents a class,
% e.g. 'java.lang.String'
% Class is a (canonical) reference to the corresponding class object
jpl_classname_to_class(N, C) :-
jpl_classname_to_type(N, T), % cached
jpl_type_to_class(T, C).
%------------------------------------------------------------------------------
% jpl_classname_to_type(+Classname, -Type) :-
% Classname is a source-syntax (dotted) class name,
% e.g. 'java.util.Date', '[java.util.Date' or '[L'
% Type is its corresponding JPL type structure,
% e.g. class([java,util],['Date']), array(class([java,util],['Date'])), ...
jpl_classname_to_type(CN, T) :-
( jpl_classname_type_cache(CN, Tx)
-> Tx = T
; atom_codes(CN, CsCN),
phrase(jpl_type_classname_1(T), CsCN)
-> assert(jpl_classname_type_cache(CN,T)),
true
).
%------------------------------------------------------------------------------
:- dynamic jpl_classname_type_cache/2.
%------------------------------------------------------------------------------
% jpl_datum_to_type(+Datum, -Type) :-
% Datum must be a proper JPL representation
% of an instance of one (or more) Java types;
% Type is the unique most specialised type of which Datum denotes an instance;
% N.B. 3 is an instance of byte, char, short, int and long,
% of which byte and char are the joint, overlapping most specialised types,
% so this relates 3 to the pseudo subtype 'char_byte'
jpl_datum_to_type(D, T) :-
( jpl_value_to_type(D, T)
-> true
; jpl_ref_to_type(D, T)
).
%------------------------------------------------------------------------------
jpl_datums_to_most_specific_common_ancestor_type([D], T) :-
jpl_datum_to_type(D, T).
jpl_datums_to_most_specific_common_ancestor_type([D1,D2|Ds], T0) :-
jpl_datum_to_type(D1, T1),
jpl_type_to_ancestor_types(T1, Ts1),
jpl_datums_to_most_specific_common_ancestor_type_1([D2|Ds], [T1|Ts1], [T0|_]).
%------------------------------------------------------------------------------
jpl_datums_to_most_specific_common_ancestor_type_1([], Ts, Ts).
jpl_datums_to_most_specific_common_ancestor_type_1([D|Ds], Ts1, Ts0) :-
jpl_datum_to_type(D, Tx),
jpl_lineage_types_type_to_common_lineage_types(Ts1, Tx, Ts2),
jpl_datums_to_most_specific_common_ancestor_type_1(Ds, Ts2, Ts0).
%------------------------------------------------------------------------------
% jpl_datums_to_types(+Datums, -Types) :-
% each member of Datums is a JPL value or ref,
% denoting an instance of some Java type,
% and the corresponding member of Types denotes the most specialised type
% of which it is an instance (including some I invented for the overlaps
% between char and short, etc,)
jpl_datums_to_types([], []).
jpl_datums_to_types([D|Ds], [T|Ts]) :-
jpl_datum_to_type(D, T),
jpl_datums_to_types(Ds, Ts).
%------------------------------------------------------------------------------
% jpl_false(-X) :-
% X is (by unification) the proper JPL datum which represents the Java value 'false'
% c.f. jpl_is_false/1
jpl_false(@(false)).
%------------------------------------------------------------------------------
% jpl_ground_is_type(+X) :-
% X, known to be ground, is (or at least superficially resembles :-) a JPL type
jpl_ground_is_type(X) :-
jpl_primitive_type(X),
!.
jpl_ground_is_type(array(X)) :-
jpl_ground_is_type(X).
jpl_ground_is_type(class(_,_)).
jpl_ground_is_type(method(_,_)).
%------------------------------------------------------------------------------
:- dynamic jpl_iref_type_cache/2.
%------------------------------------------------------------------------------
% jpl_is_class(?X) :-
% X is a JPL ref to a java.lang.Class object
jpl_is_class(X) :-
jpl_is_object(X),
jpl_object_to_type(X, class([java,lang],['Class'])).
%------------------------------------------------------------------------------
% jpl_is_false(?X) :-
% X is the proper JPL datum which represents the Java value 'false';
% whatever, no further instantiation of X occurs
jpl_is_false(X) :-
X == @(false).
%------------------------------------------------------------------------------
% jpl_is_fieldID(?X) :-
% X is a proper JPL field ID structure (jfieldID/1);
% applications should not be messing with these (?);
% whatever, no further instantiation of X occurs
jpl_is_fieldID(jfieldID(X)) :- % NB a var arg may get bound...
integer(X).
%------------------------------------------------------------------------------
% jpl_is_methodID(?X) :-
% X is a proper JPL method ID structure (jmethodID/1);
% applications should not be messing with these (?);
% whatever, no further instantiation of X occurs
jpl_is_methodID(jmethodID(X)) :- % NB a var arg may get bound...
integer(X).
%------------------------------------------------------------------------------
% jpl_is_null(?X) :-
% X is the proper JPL datum which represents Java's 'null' reference;
% whatever, no further instantiation of X occurs
jpl_is_null(X) :-
X == @(null).
%------------------------------------------------------------------------------
% jpl_is_object(?X) :-
% X is a proper, plausible JPL object reference;
% NB this checks only syntax, not whether the object exists;
% whatever, no further instantiation of X occurs
jpl_is_object(X) :-
jpl_is_ref(X), % (syntactically, at least...)
X \== @(null).
%------------------------------------------------------------------------------
% jpl_is_object_type(+T) :-
% T is an object (class or array) type,
% not e.g. a primitive, null or void
jpl_is_object_type(T) :-
\+ var(T),
jpl_non_var_is_object_type(T).
%------------------------------------------------------------------------------
% jpl_is_ref(?T) :-
% the arbitrary term T is a proper, syntactically plausible JPL reference,
% either to a Java object
% (which may not exist, although a jpl_is_current_ref/1 might be useful)
% or to Java's notional but important 'null' non-object;
% whatever, no further instantiation of X occurs;
% NB to distinguish tags from void/false/true,
% could check initial character(s) or length? or adopt strong/weak scheme...
jpl_is_ref(@(Y)) :-
integer(Y). % presumably a (garbage-collectable) tag
%------------------------------------------------------------------------------
% jpl_is_true(?X) :-
% X is a proper JPL datum, representing the Java value 'true';
% whatever, no further instantiation of X occurs
jpl_is_true(X) :-
X == @(true).
%------------------------------------------------------------------------------
% jpl_is_type(+X) :-
jpl_is_type(X) :-
ground(X),
jpl_ground_is_type(X).
%------------------------------------------------------------------------------
% jpl_is_void(?X) :-
% X is the proper JPL datum which represents the pseudo Java value 'void'
% (which is returned by jpl_call/4 when invoked on void methods);
% NB you can try passing 'void' back to Java, but it won't ever be interested;
% whatever, no further instantiation of X occurs
jpl_is_void(X) :-
X == @(void).
%------------------------------------------------------------------------------
jpl_lineage_types_type_to_common_lineage_types(Ts, Tx, Ts0) :-
( append(_, [Tx|Ts2], Ts)
-> [Tx|Ts2] = Ts0
; jpl_type_to_super_type(Tx, Tx2)
-> jpl_lineage_types_type_to_common_lineage_types(Ts, Tx2, Ts0)
).
%------------------------------------------------------------------------------
jpl_non_var_is_object_type(class(_,_)).
jpl_non_var_is_object_type(array(_)).
%------------------------------------------------------------------------------
% jpl_null(-X) :-
% X is (by unification) the proper JPL datum which represents the Java reference 'null';
% c.f. jpl_is_null/1
jpl_null(@(null)).
%------------------------------------------------------------------------------
% jpl_object_array_to_list(+ArrayObject, -Values) :-
% Values is a list of JPL values (primitive values or object references)
% representing the respective elements of ArrayObject
jpl_object_array_to_list(A, Vs) :-
jpl_array_to_length(A, N),
jpl_object_array_to_list_1(A, 0, N, Vs).
%------------------------------------------------------------------------------
% jpl_object_array_to_list_1(+A, +I, +N, -Xs) :-
jpl_object_array_to_list_1(A, I, N, Xs) :-
( I == N
-> Xs = []
; jGetObjectArrayElement(A, I, X),
Xs = [X|Xs2],
J is I+1,
jpl_object_array_to_list_1(A, J, N, Xs2)
).
%------------------------------------------------------------------------------
% jpl_object_to_class(+Object, -Class) :-
% Class is a (canonical) reference to the (canonical) class object
% which represents the (most specific) class of Object
% NB Object must be a valid object, else...
% NB wot's the point of caching the type if we don't look there first?
jpl_object_to_class(Obj, C) :-
jGetObjectClass(Obj, C),
jpl_cache_type_of_ref(class([java,lang],['Class']), C).
%------------------------------------------------------------------------------
% jpl_object_to_type(+Object, -Type) :-
% Object must be a proper JPL reference to a Java object
% (i.e. a class or array instance, but not null, void or String);
% Type is the JPL type of that object
jpl_object_to_type(@(Tag), Type) :-
jpl_tag_to_type(Tag, Type).
%------------------------------------------------------------------------------
jpl_object_type_to_super_type(T, Tx) :-
( ( T = class(_,_)
; T = array(_)
)
-> jpl_type_to_class(T, C),
jpl_class_to_super_class(C, Cx),
Cx \== @(null),
jpl_class_to_type(Cx, Tx)
).
%------------------------------------------------------------------------------
% jpl_primitive_buffer_to_array(+Type, +Xc, +Bp, +I, +Size, -Vcs) :-
% Bp points to a buffer of (sufficient) Type values;
% Vcs will be unbound on entry,
% and on exit will be a list of Size of them, starting at index I
% (the buffer is indexed from zero)
jpl_primitive_buffer_to_array(T, Xc, Bp, I, Size, [Vc|Vcs]) :-
jni_fetch_buffer_value(Bp, I, Xhi, Xlo, Xc),
jni_convert_primitive_in(T, Vc, Xhi, Xlo),
Ix is I+1,
( Ix < Size
-> jpl_primitive_buffer_to_array(T, Xc, Bp, Ix, Size, Vcs)
; Vcs = []
).
%------------------------------------------------------------------------------
jpl_primitive_type(boolean).
jpl_primitive_type(char).
jpl_primitive_type(byte).
jpl_primitive_type(char_byte).
jpl_primitive_type(short).
jpl_primitive_type(int).
jpl_primitive_type(long).
jpl_primitive_type(float).
jpl_primitive_type(double).
%------------------------------------------------------------------------------
% jpl_primitive_type_default_value(-Type, -Value) :-
% each element of any array of (primitive) Type created by jpl_new/3,
% or any instance of (primitive) Type created by jpl_new/3,
% should be initialised to Value (to mimic Java semantics)
jpl_primitive_type_default_value(boolean, @(false)).
jpl_primitive_type_default_value(char, 0).
jpl_primitive_type_default_value(byte, 0).
jpl_primitive_type_default_value(short, 0).
jpl_primitive_type_default_value(int, 0).
jpl_primitive_type_default_value(long, 0).
jpl_primitive_type_default_value(float, 0.0).
jpl_primitive_type_default_value(double, 0.0).
%------------------------------------------------------------------------------
jpl_primitive_type_super_type(T, Tx) :-
( jpl_type_fits_type_direct_prim(T, Tx)
; jpl_type_fits_type_direct_xtra(T, Tx)
).
%------------------------------------------------------------------------------
% jpl_primitive_type_term_to_value(+Type, +Term, -Val) :-
% Term, after widening iff appropriate, represents an instance of Type;
% Val is the instance of Type which it represents (often the same thing);
% currently used only by jpl_new_1 when creating an "instance"
% of a primitive type (which may be misguided completism - you can't
% do that in Java)
jpl_primitive_type_term_to_value(Type, Term, Val) :-
( jpl_primitive_type_term_to_value_1(Type, Term, Val)
-> true
).
%------------------------------------------------------------------------------
% jpl_primitive_type_term_to_value_1(+Type, +RawValue, -WidenedValue) :-
% I'm not worried about structure duplication here
% NB this oughta be done in foreign code...
jpl_primitive_type_term_to_value_1(boolean, @(false), @(false)).
jpl_primitive_type_term_to_value_1(boolean, @(true), @(true)).
jpl_primitive_type_term_to_value_1(char, I, I) :-
integer(I),
I >= 0,
I =< 65535.
jpl_primitive_type_term_to_value_1(byte, I, I) :-
integer(I),
I >= -128,
I =< 127.
jpl_primitive_type_term_to_value_1(short, I, I) :-
integer(I),
I >= -32768,
I =< 32767.
jpl_primitive_type_term_to_value_1(int, I, I) :-
integer(I).
jpl_primitive_type_term_to_value_1(long, I, I) :-
integer(I).
jpl_primitive_type_term_to_value_1(long, jlong(Xhi,Xlo), jlong(Xhi,Xlo)) :-
integer(Xhi),
integer(Xlo).
jpl_primitive_type_term_to_value_1(float, I, F) :-
integer(I),
F is float(I).
jpl_primitive_type_term_to_value_1(float, F, F) :-
float(F).
jpl_primitive_type_term_to_value_1(double, I, F) :-
integer(I),
F is float(I).
jpl_primitive_type_term_to_value_1(double, F, F) :-
float(F).
%------------------------------------------------------------------------------
jpl_primitive_type_to_ancestor_types(T, Ts) :-
( jpl_primitive_type_super_type(T, Ta)
-> Ts = [Ta|Tas],
jpl_primitive_type_to_ancestor_types(Ta, Tas)
; Ts = []
).
%------------------------------------------------------------------------------
jpl_primitive_type_to_super_type(T, Tx) :-
jpl_primitive_type_super_type(T, Tx).
%------------------------------------------------------------------------------
% jpl_ref_to_type(+Ref, -Type) :-
% Ref must be a proper JPL reference (to an object, null or void);
% Type is its type
jpl_ref_to_type(@(X), T) :-
( X == null
-> T = null
; X == void
-> T = void
; jpl_tag_to_type(X, T)
).
%------------------------------------------------------------------------------
% jpl_tag_to_type(+Tag, -Type) :-
% Tag must be an (atomic) object tag;
% Type is its type (either from the cache or by reflection);
jpl_tag_to_type(Tag, Type) :-
jni_tag_to_iref(Tag, Iref),
( jpl_iref_type_cache(Iref, T)
-> true % T is Tag's type
; jpl_object_to_class(@(Tag), Cobj), % else get ref to class obj
jpl_class_to_type(Cobj, T), % get type of class it denotes
assert(jpl_iref_type_cache(Iref,T))
),
Type = T.
%------------------------------------------------------------------------------
% jpl_true(-X) :-
% X is (by unification) the proper JPL datum which represents the Java value 'true';
% c.f. jpl_is_true/1
jpl_true(@(true)).
%------------------------------------------------------------------------------
jpl_type_fits_type(Tx, Ty) :-
( jpl_type_fits_type_1(Tx, Ty)
-> true
).
%------------------------------------------------------------------------------
% jpl_type_fits_type_1(+T1, +T2) :-
% it doesn't matter that this leaves choicepoints; it serves only jpl_type_fits_type/2
jpl_type_fits_type_1(T, T).
jpl_type_fits_type_1(class(Ps1,Cs1), class(Ps2,Cs2)) :-
jpl_type_to_class(class(Ps1,Cs1), C1),
jpl_type_to_class(class(Ps2,Cs2), C2),
jIsAssignableFrom(C1, C2).
jpl_type_fits_type_1(array(T1), class(Ps2,Cs2)) :-
jpl_type_to_class(array(T1), C1),
jpl_type_to_class(class(Ps2,Cs2), C2),
jIsAssignableFrom(C1, C2).
jpl_type_fits_type_1(array(T1), array(T2)) :-
jpl_type_to_class(array(T1), C1),
jpl_type_to_class(array(T2), C2),
jIsAssignableFrom(C1, C2).
jpl_type_fits_type_1(null, class(_,_)).
jpl_type_fits_type_1(null, array(_)).
jpl_type_fits_type_1(T1, T2) :-
jpl_type_fits_type_xprim(T1, T2).
%------------------------------------------------------------------------------
jpl_type_fits_type_direct_prim(float, double).
jpl_type_fits_type_direct_prim(long, float).
jpl_type_fits_type_direct_prim(int, long).
jpl_type_fits_type_direct_prim(char, int).
jpl_type_fits_type_direct_prim(short, int).
jpl_type_fits_type_direct_prim(byte, short).
%------------------------------------------------------------------------------
jpl_type_fits_type_direct_xprim(Tp, Tq) :-
jpl_type_fits_type_direct_prim(Tp, Tq).
jpl_type_fits_type_direct_xprim(Tp, Tq) :-
jpl_type_fits_type_direct_xtra(Tp, Tq).
%------------------------------------------------------------------------------
% jpl_type_fits_type_direct_xtra(pos_int, int).
jpl_type_fits_type_direct_xtra(char_int, int).
jpl_type_fits_type_direct_xtra(char_int, char).
jpl_type_fits_type_direct_xtra(char_short, short).
jpl_type_fits_type_direct_xtra(char_short, char).
jpl_type_fits_type_direct_xtra(char_byte, byte).
jpl_type_fits_type_direct_xtra(char_byte, char).
% jpl_type_fits_type_direct_xtra(neg_byte, byte).
% jpl_type_fits_type_direct_xtra(neg_short, short).
% jpl_type_fits_type_direct_xtra(neg_int, int).
%------------------------------------------------------------------------------
% jpl_type_fits_type_xprim(-Tp, -T) :-
% indeterminate: serves only jpl_type_fits_type_1/2
jpl_type_fits_type_xprim(Tp, T) :-
jpl_type_fits_type_direct_xprim(Tp, Tq),
( Tq = T
; jpl_type_fits_type_xprim(Tq, T)
).
%------------------------------------------------------------------------------
% jpl_type_to_ancestor_types(+T, -Tas) :-
% this fails to accommodate the assignability of null...
jpl_type_to_ancestor_types(T, Tas) :-
( ( T = class(_,_)
; T = array(_)
)
-> jpl_type_to_class(T, C),
jpl_class_to_ancestor_classes(C, Cas),
jpl_classes_to_types(Cas, Tas)
; jpl_primitive_type_to_ancestor_types(T, Tas)
-> true
).
%------------------------------------------------------------------------------
jpl_type_to_canonical_type(array(T), array(Tc)) :-
!,
jpl_type_to_canonical_type(T, Tc).
jpl_type_to_canonical_type(class([],[void]), void) :-
!.
jpl_type_to_canonical_type(class([],[N]), N) :-
jpl_primitive_type(N),
!.
jpl_type_to_canonical_type(class(Ps,Cs), class(Ps,Cs)) :-
!.
jpl_type_to_canonical_type(void, void) :-
!.
jpl_type_to_canonical_type(P, P) :-
jpl_primitive_type(P).
%------------------------------------------------------------------------------
% jpl_type_to_class(+Type, -ClassObject) :-
% incomplete types are now never cached (or otherwise passed around),
% but we check anyway (?)
% jFindClass throws an exception if FCN can't be found
jpl_type_to_class(T, @(Tag)) :-
ground(T),
( jpl_class_tag_type_cache(ClassTag,T)
-> Tag = ClassTag
; ( jpl_type_to_findclassname(T, FCN) % peculiar syntax for FindClass()
-> jFindClass(FCN, @(ClassTag)), % which caches type of @ClassTag
jpl_cache_type_of_ref(T, @(ClassTag))
),
assert(jpl_class_tag_type_cache(ClassTag,T))
),
Tag = ClassTag.
%------------------------------------------------------------------------------
%eg jpl_type_to_classname(class([java,util],['Date']), 'java.util.Date')
% jpl_type_to_classname(+Type, -ClassName) :-
% Type, which is a class or array type (not sure about the others...),
% is denoted by ClassName in dotted syntax
jpl_type_to_classname(T, CN) :-
( phrase(jpl_type_classname_1(T), Cs)
-> atom_codes(CNx, Cs), % green commit to first solution
CN = CNx
).
%------------------------------------------------------------------------------
% jpl_type_to_descriptor(+Type, -Descriptor) :-
% Type (denoting any Java type, and can also be a JPL method/2 structure)
% is represented by Descriptor (JVM internal syntax)
% I'd cache this, but I'd prefer more efficient indexing on types (hashed?)
jpl_type_to_descriptor(T, D) :-
( phrase(jpl_type_descriptor_1(T), Cs)
-> atom_codes(Dx, Cs),
D = Dx
).
%------------------------------------------------------------------------------
% jpl_type_to_findclassname(+Type, -FindClassName) :-
% FindClassName denotes Type (class or array only)
% in the syntax required peculiarly by FindClass()
jpl_type_to_findclassname(T, FCN) :-
( phrase(jpl_type_findclassname(T), Cs)
-> atom_codes(FCNx, Cs),
FCN = FCNx
).
%------------------------------------------------------------------------------
jpl_type_to_super_type(T, Tx) :-
( jpl_object_type_to_super_type(T, Tx)
-> true
; jpl_primitive_type_to_super_type(T, Tx)
-> true
).
%------------------------------------------------------------------------------
% jpl_types_fit_type(+Types, +Type) :-
% each member of Types is (independently) (if that means anything)
% assignable to Type
% e.g. for dynamic type check when attempting to assign list of values to array
jpl_types_fit_type([], _).
jpl_types_fit_type([T1|T1s], T2) :-
jpl_type_fits_type(T1, T2),
jpl_types_fit_type(T1s, T2).
%------------------------------------------------------------------------------
jpl_types_fit_types([], []).
jpl_types_fit_types([T1|T1s], [T2|T2s]) :-
jpl_type_fits_type(T1, T2),
jpl_types_fit_types(T1s, T2s).
%------------------------------------------------------------------------------
% jpl_value_to_type(+Value, -Type) :-
% Value must be a proper JPL datum other than a ref
% i.e. primitive, String or void;
% it is of (unique most specific) Type
jpl_value_to_type(V, T) :-
ground(V), % critically assumed by jpl_value_to_type_1/2
( jpl_value_to_type_1(V, Tv) % 2nd arg must be unbound
-> T = Tv
).
%------------------------------------------------------------------------------
% jpl_value_to_type_1(+Value, -Type) :-
% Type is the unique most specific JPL type of which Value represents an instance;
% called solely by jpl_value_to_type/2, which commits to first solution;
%
% NB integer values are of JPL-peculiar uniquely most specific subtypes,
% i.e. char_byte, char_short, char_int, pos_int, neg_byte, neg_short, neg_int
% but all are understood by the JPL-internal utilities which call this proc
%
% NB could replace
% {pos_int,neg_int} -> proper_int (or int?)
% neg_byte -> proper_byte (or byte?)
% neg_short -> proper_short (or short?)
%
% NB we regard float as subtype of double
%
% NB objects and refs always have straightforward types
jpl_value_to_type_1(@(false), boolean).
jpl_value_to_type_1(@(true), boolean).
jpl_value_to_type_1(jlong(_,_), long). % discrimination, not validation
jpl_value_to_type_1(A, class([java,lang],['String'])) :- % yes it's a "value"
atom(A).
jpl_value_to_type_1(I, T) :-
integer(I),
( I >= 0 -> ( I < 128 -> T = byte % char_byte
; I < 32768 -> T = short % char_short
; I < 65536 -> T = int % char_int
; T = int % was pos_int
)
; I >= -128 -> T = byte % was neg_byte
; I >= -32768 -> T = short % was neg_short
; T = int % was neg_int
).
jpl_value_to_type_1(F, float) :-
float(F).
%------------------------------------------------------------------------------
% jpl_void(-X) :-
% X is (by unification) the proper JPL datum which represents the pseudo Java value 'void';
% c.f. jpl_is_void/1
jpl_void(@(void)).
%------------------------------------------------------------------------------
%type jpl_array_to_length(array, integer)
% jpl_array_to_length(+ArrayObject, -Length) :-
% must validate ArrayObject before making the JNI call...
jpl_array_to_length(A, N) :-
( jpl_ref_to_type(A, array(_)) % can this be done cheaper e.g. in foreign code?
-> jGetArrayLength(A, N) % *must* be array, else undefined (crash?)
).
%------------------------------------------------------------------------------
%type jpl_array_to_list(array, list(datum))
% jpl_array_to_list(+Array, -Elements) :-
jpl_array_to_list(A, Es) :-
jpl_array_to_length(A, Len),
( Len > 0
-> LoBound is 0,
HiBound is Len-1,
jpl_get(A, LoBound-HiBound, Es)
; Es = []
).
%------------------------------------------------------------------------------
%type jpl_datums_to_array(list(datum), array)
% jpl_datums_to_array(+Ds, -A) :-
% A will be a ref to a new JVM array,
% whose base type is the most specific Java type
% of which each member of Datums is (directly or indirectly) an instance;
% NB this fails (without warning, currently) if:
% Ds is an empty list (no base type can be inferred)
% Ds contains a primitive value and an object or array ref (no common supertype)
jpl_datums_to_array(Ds, A) :-
ground(Ds),
jpl_datums_to_most_specific_common_ancestor_type(Ds, T),
jpl_new(array(T), Ds, A).
jpl_datums_to_array(Ds, Type, A) :-
ground(Ds),
ground(Type),
jpl_new(array(Type), Ds, A).
%------------------------------------------------------------------------------
%type jpl_enumeration_element(object, datum)
% jpl_enumeration_element(+Enumeration, -Element) :-
% generates each Element from the Enumeration
jpl_enumeration_element(En, E) :-
( jpl_call(En, hasMoreElements, [], @(true))
-> jpl_call(En, nextElement, [], Ex),
( E = Ex
; jpl_enumeration_element(En, E)
)
).
%------------------------------------------------------------------------------
%type jpl_enumeration_to_list(object, list(datum))
% jpl_enumeration_to_list(+Enumeration, -Elements) :-
jpl_enumeration_to_list(EN, Es) :-
( jpl_call(EN, hasMoreElements, [], @(true))
-> jpl_call(EN, nextElement, [], E),
Es = [E|Es1],
jpl_enumeration_to_list(EN, Es1)
; Es = []
).
%------------------------------------------------------------------------------
%type jpl_hashtable_pair(object, pair(datum,datum))
% jpl_hashtable_pair(+HashTable, -KeyValuePair) :-
% generates Key-Value pairs from the given HashTable
% NB String is converted to atom but Integer is presumably returned as an object ref
jpl_hashtable_pair(HT, K-V) :-
jpl_call(HT, keys, [], Ek),
jpl_enumeration_to_list(Ek, Ks),
member(K, Ks),
jpl_call(HT, get, [K], V).
%------------------------------------------------------------------------------
%type jpl_iterator_element(object, datum)
% jpl_iterator_element(+Iterator, -Element) :-
jpl_iterator_element(I, E) :-
( jpl_call(I, hasNext, [], @(true))
-> ( jpl_call(I, next, [], E) % surely it's steadfast...
; jpl_iterator_element(I, E)
)
).
%------------------------------------------------------------------------------
%type jpl_list_to_array(list(datum), array)
% jpl_list_to_array(+Datums, -Array) :-
% Datums is a proper list of JPL datums (values or refs);
% if they have a most specific common supertype,
% Array is an array, of that base type,
% whose respective elements are Datums
jpl_list_to_array(Ds, A) :-
jpl_datums_to_array(Ds, A).
jpl_list_to_array(Ds, Type, A) :-
jpl_datums_to_array(Ds, Type, A).
%------------------------------------------------------------------------------
%type jpl_map_element(object, pair(datum,datum))
% jpl_map_element(+Map, -KeyValue) :-
% Map must be an instance of any implementation of the java.util.Map interface;
% this generates each Key-Value pair from the Map
jpl_map_element(M, K-V) :-
jpl_call(M, entrySet, [], ES),
jpl_set_element(ES, E),
jpl_call(E, getKey, [], K),
jpl_call(E, getValue, [], V).
%------------------------------------------------------------------------------
%type jpl_set_element(object, datum)
% jpl_set_element(+Set, -Element) :-
jpl_set_element(S, E) :-
jpl_call(S, iterator, [], I),
jpl_iterator_element(I, E).
%------------------------------------------------------------------------------
% is_pair(?T) :-
% I define a half-decent "pair" as having a ground key (any val)
is_pair(0) :- !, fail.
is_pair(Key-_Val) :-
ground(Key).
%------------------------------------------------------------------------------
is_pairs(0) :- !, fail.
is_pairs([]).
is_pairs([H|T]) :-
is_pair(H),
is_pairs(T).
%------------------------------------------------------------------------------
qp_atom_to_chars(A, Cs) :-
atom_codes(A, Cs).
%------------------------------------------------------------------------------
qp_chars_to_atom(Cs, A) :-
atom_codes(A, Cs).
%------------------------------------------------------------------------------
multimap_to_atom(KVs, A) :-
multimap_to_atom_1(KVs, "", Cz, []),
flatten(Cz, Cs),
qp_chars_to_atom(Cs, A).
%------------------------------------------------------------------------------
multimap_to_atom_1([], _, Cs, Cs).
multimap_to_atom_1([K-V|KVs], T, Cs1, Cs0) :-
qp_atom_to_chars(K, CsK),
Cs1 = [T,CsK," = "|Cs2],
( is_list(V)
-> ( is_pairs(V)
-> V = V2
; findall(
N-Ve,
nth1(N, V, Ve),
V2
)
),
T2 = [" ",T],
Cs2 = [10|Cs2a],
multimap_to_atom_1(V2, T2, Cs2a, Cs3)
; term_to_chars(V, CsV),
Cs2 = [CsV,10|Cs3]
),
multimap_to_atom_1(KVs, T, Cs3, Cs0).
/*******************************
* MESSAGES *
*******************************/
:- multifile
prolog:error_message/3.
prolog:error_message(java_exception(Ex)) -->
( { jpl_call(Ex, toString, [], Msg)
}
-> [ 'Java exception: ~w'-[Msg] ]
; [ 'Java exception: ~w'-[Ex] ]
).
/*******************************
* PATHS *
*******************************/
:- multifile user:file_search_path/2.
:- dynamic user:file_search_path/2.
user:(file_search_path(jar, Dir) :-
file_search_path(library, Dir)).
/*******************************
* LOAD THE JVM *
*******************************/
% check_java_environment
%
% Verify the Java environment. Preferably we would create, but
% most Unix systems do not allow putenv("LD_LIBRARY_PATH=..." in
% the current process. A suggesting found on the net is to modify
% LD_LIBRARY_PATH right at startup and next execv() yourself, but
% this doesn't work if we want to load Java on demand or if Prolog
% itself is embedded in another application.
%
% So, after reading lots of pages on the web, I decided checking
% the environment and producing a sensible error message is the
% best we can do.
%
% Please not that Java2 doesn't require $CLASSPATH to be set, so
% we do not check for that.
check_java_environment :-
check_lib(java),
check_lib(jvm).
check_lib(Name) :-
check_shared_object(Name, File, EnvVar, Absolute),
( Absolute == (-)
-> ( current_prolog_flag(windows, true)
-> A = '%', Z = '%'
; A = '$', Z = ''
),
sformat(Msg, 'Please add directory holding ~w to ~w~w~w',
[ File, A, EnvVar, Z ]),
throw(error(existence_error(library, Name),
context(_, Msg)))
; true
).
check_shared_object(Name, File, EnvVar, Absolute) :-
libfile(Name, File),
library_search_path(Path, EnvVar),
( member(Dir, Path),
concat_atom([Dir, File], /, Absolute),
exists_file(Absolute)
-> true
; Absolute = (-)
).
libfile(Base, File) :-
current_prolog_flag(unix, true), !,
atom_concat(lib, Base, F0),
current_prolog_flag(shared_object_extension, Ext),
file_name_extension(F0, Ext, File).
libfile(Base, File) :-
current_prolog_flag(windows, true), !,
current_prolog_flag(shared_object_extension, Ext),
file_name_extension(Base, Ext, File).
library_search_path(Path, 'LD_LIBRARY_PATH') :-
current_prolog_flag(unix, true), !,
( getenv('LD_LIBRARY_PATH', Env),
concat_atom(Path, ':', Env)
-> true
; Path = []
).
library_search_path(Path, 'PATH') :-
current_prolog_flag(windows, true), !,
( getenv('PATH', Env),
concat_atom(Path, ';', Env)
-> true
; Path = []
).
% add_jpl_to_classpath/0
%
% Add jpl.jar to $CLASSPATH to facilitate callbacks
add_jpl_to_classpath :-
absolute_file_name(jar('jpl.jar'),
[ access(read)
], JplJAR), !,
( getenv('CLASSPATH', Old)
-> true
; Old = '.'
),
concat_atom([JplJAR, Old], :, New),
setenv('CLASSPATH', New).
% libjpl(-Spec)
%
% Return the spec for loading the JPL shared object. This shared
% object must be called libjpl.so as the Java System.loadLibrary()
% call used by jpl.jar adds the lib* prefix.
libjpl(File) :-
( current_prolog_flag(unix, true)
-> File = foreign(libjpl)
; File = foreign(jpl)
).
% add_java_to_ldpath/0
%
% Adds the directories holding jvm.dll and java.dll to the %PATH%.
% This appears to work on Windows. Unfortunately most Unix systems
% appear to inspect the content of LD_LIBRARY_PATH only once.
add_java_to_ldpath :-
current_prolog_flag(windows, true), !,
add_java_dir(jvm, '\\jre\\bin\\client', Extra1),
add_java_dir(java, '\\jre\\bin', Extra2),
append(Extra1, Extra2, Extra),
( Extra \== []
-> print_message(informational,
format('Added ~w to %PATH%', [Extra])),
getenv('PATH', Path0),
concat_atom([Path0|Extra], ';', Path),
setenv('PATH', Path)
; true
).
add_java_to_ldpath.
add_java_dir(DLL, SubPath, Dir) :-
( check_shared_object(DLL, _, _Var, Abs),
Abs \== (-)
-> Dir = []
; java_home(JavaHome)
-> atom_concat(JavaHome, SubPath, ClientDir),
Dir = [ClientDir]
; Dir = []
).
java_home(Home) :-
getenv('JAVA_HOME', Home),
exists_directory(Home), !.
java_home(Home) :-
current_prolog_flag(windows, true), !,
Key0 = 'HKEY_LOCAL_MACHINE/Software/JavaSoft/Java Development Kit',
win_registry_get_value(Key0, 'CurrentVersion', Version),
concat_atom([Key0, Version], /, Key),
win_registry_get_value(Key, 'JavaHome', Home),
exists_directory(Home), !.
java_home(Home) :-
jpl_java_home(Home).
java_home(Home) :-
current_prolog_flag(unix, true),
member(Home, [ '/usr/lib/java',
'/usr/local/lib/java'
]),
exists_directory(Home), !.
:- dynamic
jvm_ready/0.
:- volatile
jvm_ready/0.
setup_jvm :-
jvm_ready, !.
setup_jvm :-
add_jpl_to_classpath,
add_java_to_ldpath,
% libjpl(_JPL),
% catch(load_foreign_library(JPL), E, report_java_setup_problem(E)),
assert(jvm_ready).
report_java_setup_problem(E) :-
print_message(error, E),
check_java_environment.
:- include(jpl_paths).
load_jpl_lib :-
jpl_java_home(JavaHome),
fetch_arch(Arch),
gen_jvm_lib(JavaHome,Arch,JPL,JLibs),
load_foreign_files(JPL, JLibs, jpl_install), !.
fetch_arch(Arch) :-
current_prolog_flag(host_type,Name),
atom_codes(Name,Codes),
gen_arch(Codes,Arch).
gen_arch(L,mac) :-
append(_,[0'd,0'a,0'r,0'w,0'i,0'n|_],L), !.
gen_arch([0'x,0'8,0'6,0'_,0'6,0'4|_],amd64).
gen_arch([0'i,_,0'8,0'6|_],i386). % take all versions of X86
gen_arch([0's,0'p,0'a,0'r,0'c|_],sparc).
gen_arch([0'/,0'u,0's,0'r|_],mac).
gen_jvm_lib(_,mac,[jpl],[]) :- !.
gen_jvm_lib(JavaHome,Arch,[jpl], [JLib]) :-
atom_concat([JavaHome,'/jre/lib/',Arch,'/client/libjvm.so'],JLib),
exists(JLib), !.
gen_jvm_lib(JavaHome,Arch,[jpl], [JLib]) :-
atom_concat([JavaHome,'/jre/lib/',Arch,'/server/libjvm.so'],JLib),
exists(JLib), !.
gen_jvm_lib(JavaHome,Arch,[jpl], [JLib]) :-
atom_concat([JavaHome,'/jre/lib/',Arch,'/classic/libjvm.so'],JLib),
exists(JLib), !.
gen_jvm_lib(JavaHome,Arch,[jpl], [JLib]) :-
atom_concat([JavaHome,'/jre/lib/',Arch,'/libjvm.so'],JLib),
exists(JLib), !.
:- load_jpl_lib.
:- initialization
setup_jvm.