mirror of
https://github.com/Unidata/netcdf-c.git
synced 2024-12-03 08:01:25 +08:00
531 lines
15 KiB
C
531 lines
15 KiB
C
/*! \file
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Copyright 1993, 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002,
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2003, 2004, 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013, 2014,
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2015, 2016, 2017, 2018
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University Corporation for Atmospheric Research/Unidata.
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See \ref copyright file for more info.
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*/
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#include "includes.h"
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#include "ncoffsets.h"
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#ifdef ENABLE_JAVA
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extern List* vlenconstants; /* List<Constant*>;*/
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/* Forward*/
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static void genjjni_primdata(Symbol*, Datasrc*, Datalist*, char*, Bytebuffer*);
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static void genjjni_data(Symbol* sym, Datasrc*, Datalist*, char*, Bytebuffer*);
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static void genjjni_fieldarray(Symbol*, Datasrc*, Dimset*, int, char*, Bytebuffer*);
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static void genjjni_arraydatar(Symbol* basetype,
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Datasrc* src,
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Odometer* odom,
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Putvar* closure,
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int index,
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int checkpoint,
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Bytebuffer* code);
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static void jopaquestring(Symbol* tsym, Constant* prim, Constant* target);
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static int genjjni_putmemory(struct Symbol*, char*, Bytebuffer*, Bytebuffer*);
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static int jalignment(Symbol* tsym);
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static int jvlenalignment(void);
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/**************************************************/
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/* Code for generating Java language data lists*/
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/**************************************************/
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/* Datalist rules: see the rules on the man page */
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/* Specialty wrappers for genjjni_data */
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void
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genjjni_attrdata(Symbol* asym, Bytebuffer* databuf)
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{
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Datasrc* src;
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int typecode = asym->typ.basetype->typ.typecode;
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char* memname = "memory";
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if(asym->data == NULL) return;
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if(typecode == NC_CHAR) {
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gen_charattr(asym,databuf);
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} else {
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src = datalist2src(asym->data);
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while(srcmore(src)) {
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genjjni_data(asym->typ.basetype,src,NULL,memname,databuf);
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}
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}
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}
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void
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genjjni_scalardata(Symbol* vsym, Bytebuffer* databuf)
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{
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Datasrc* src;
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char* memname = "memory";
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if(vsym->data == NULL) return;
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src = datalist2src(vsym->data);
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genjjni_data(vsym->typ.basetype,src,
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vsym->var.special._Fillvalue,memname,databuf);
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if(srcmore(src)) {
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semerror(srcline(src),"Extra data at end of datalist");
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}
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}
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void
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genjjni_fillvalue(Symbol* tsym, Datalist* fillsrc, Datasrc* src,
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char* memname, Bytebuffer* databuf)
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{
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Datalist* list = NULL;
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ASSERT(tsym->objectclass == NC_TYPE);
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list = fillsrc;
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if(list == NULL) list = getfiller(tsym);
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srcpushlist(src,list);
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genjjni_data(tsym,src,NULL,memname,databuf);
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srcpop(src);
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}
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void
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genjjni_arraydata(Symbol* vsym, Putvar* closure, Bytebuffer* databuf)
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{
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Datasrc* src;
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Datalist* list;
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int i,checkpoint;
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nc_type typecode = vsym->typ.basetype->typ.typecode;
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if(vsym->data == NULL) return;
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list = vsym->data;
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ASSERT(list->dimdata != NULL);
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src = datalist2src(list);
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/* Locate checkpoint */
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checkpoint=0;
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for(i=0;i<vsym->typ.dimset.ndims;i++) {
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if(vsym->typ.dimset.dimsyms[i]->dim.size == NC_UNLIMITED) {
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checkpoint = i;
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break;
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}
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}
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if(typecode == NC_CHAR)
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gen_chararray(vsym,closure,databuf);
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else {
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genjjni_arraydatar(vsym,src,list->dimdata,closure,0,checkpoint,databuf);
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}
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commify(databuf);
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}
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static void
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genjjni_arraydatar(Symbol* vsym,
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Datasrc* src,
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Odometer* odom,
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Putvar* closure,
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int index,
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int checkpoint,
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Bytebuffer* databuf)
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{
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int i;
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int rank = odom->rank;
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int lastdim = (index == (rank - 1)); /* last dimension*/
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int firstdim = (index == 0);
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int docheckpoint = (closure != NULL && index == checkpoint);
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int declsize = odom->dims[index].declsize;
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int isunlimited = (declsize == 0);
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Symbol* basetype = vsym->typ.basetype;
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Datalist* fillsrc = vsym->var.special._Fillvalue;
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Constant* con;
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nc_type typecode = basetype->typ.typecode;
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char* memname = "memory";
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ASSERT(index >= 0 && index < rank);
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odom->dims[index].index = 0; /* reset*/
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if(isunlimited) {
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Constant* con;
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if(!firstdim) {
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if(!issublist(src)) {
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semerror(srcline(src),"Unlimited data must be enclosed in {..}");
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return;
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}
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srcpush(src); /* enter the unlimited data */
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}
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while((con=srcpeek(src))!=NULL) {
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if(lastdim) {
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if(isprimplus(typecode)) {
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bbCat(databuf," ");
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genjjni_primdata(basetype,src,fillsrc,memname,databuf);
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} else
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genjjni_data(basetype,src,fillsrc,memname,databuf);
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} else {
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genjjni_arraydatar(vsym,src,odom,closure,index+1,
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checkpoint,databuf);
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}
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odom->dims[index].index++;
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if(docheckpoint) {
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closure->putvar(closure,odom,databuf);
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}
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}
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odom->dims[index].datasize = odom->dims[index].index;
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if(!firstdim) srcpop(src);
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} else { /* !isunlimited*/
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for(i=0;i<declsize;i++) {
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con = srcpeek(src);
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if(lastdim) {
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if(isprimplus(typecode)) {
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bbCat(databuf," ");
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genjjni_primdata(basetype,src,fillsrc,memname,databuf);
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} else
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genjjni_data(basetype,src,fillsrc,memname,databuf);
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} else { /* ! lastdim*/
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(void)genjjni_arraydatar(vsym,src,odom,closure,
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index+1,checkpoint,
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databuf);
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}
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odom->dims[index].index++;
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if(docheckpoint) {
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closure->putvar(closure,odom,databuf);
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}
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}
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}
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}
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/**************************************************/
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/* This is the general datalist processing procedure */
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static void
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genjjni_data(Symbol* tsym, Datasrc* datasrc, Datalist* fillsrc,
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char* memname, Bytebuffer* databuf)
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{
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int usecmpd;
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Constant* con = srcpeek(datasrc);
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Bytebuffer* constdata = NULL;
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nc_type typecode = tsym->typ.typecode;
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if(con == NULL || con->nctype == NC_FILLVALUE) {
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srcnext(datasrc);
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genjjni_fillvalue(tsym,fillsrc,datasrc,memname,databuf);
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return;
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}
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switch (tsym->subclass) {
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case NC_ENUM:
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case NC_OPAQUE:
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case NC_PRIM:
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if(issublist(datasrc)) {
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semerror(srcline(datasrc),"Expected primitive found {..}");
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}
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bbCat(databuf," ");
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genjjni_primdata(tsym,datasrc,NULL,memname,databuf);
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break;
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case NC_COMPOUND: {
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int i;
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if(!issublist(datasrc)) {
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semerror(srcline(datasrc),
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"Compound data must be enclosed in {..}");
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}
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srcpush(datasrc);
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for(i=0;i<listlength(tsym->subnodes);i++) {
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Symbol* field = (Symbol*)listget(tsym->subnodes,i);
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genjjni_data(field,datasrc,fillsrc,memname,databuf);
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}
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srcpop(datasrc);
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} break;
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case NC_VLEN: {
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char stmt[C_MAX_STMT];
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Constant* cp;
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char vlenname[1024];
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if(!issublist(datasrc)) {
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semerror(srcline(datasrc),"Vlen data must be enclosed in {..}");
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}
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cp = srcnext(datasrc);
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sprintf(vlenname,"vlen_%u",cp->value.compoundv->vlen.uid);
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/* Use special alignment */
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nprintf(stmt,sizeof(stmt),"Memory.align(%s,%d);\n",
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vlenname,jvlenalignment());
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bbCat(databuf,stmt);
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/* generate and store the nc_vlen_t instance*/
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sprintf(stmt,"Memory.put_vlen(%s,new long[]{%lld, %s_addr});\n",
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memname,
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(long long)cp->value.compoundv->vlen.count,
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vlenname);
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bbCat(databuf,stmt);
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} break;
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case NC_FIELD:
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/* enclose in braces if and only if field is an array */
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usecmpd = (issublist(datasrc) && tsym->typ.dimset.ndims > 0);
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if(usecmpd) srcpush(datasrc);
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constdata = bbNew();
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if(tsym->typ.dimset.ndims > 0) {
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genjjni_fieldarray(tsym->typ.basetype,datasrc,&tsym->typ.dimset,0,
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memname,constdata);
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} else {
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genjjni_data(tsym->typ.basetype,datasrc,NULL,memname,constdata);
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}
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/* If this was a primitive valued field, then generate a
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Memory.put_XXX call
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*/
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if(isprimplus(typecode)) {
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genjjni_putmemory(tsym,memname,databuf,constdata);
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} else /* It is already one or more Memory.put_XX calls */
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bbAppendn(databuf,bbContents(constdata),bbLength(constdata));
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if(usecmpd) srcpop(datasrc);
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bbFree(constdata);
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bbNull(databuf);
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break;
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default: PANIC1("genjjni_data: unexpected subclass %d",tsym->subclass);
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}
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}
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/* Used only for structure field arrays*/
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static void
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genjjni_fieldarray(Symbol* basetype, Datasrc* src, Dimset* dimset, int index,
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char* memname, Bytebuffer* databuf)
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{
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int i;
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Symbol* dim = dimset->dimsyms[index];
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unsigned int size = dim->dim.size;
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int lastdim = (index == (dimset->ndims - 1)); /* last dimension*/
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int typecode = basetype->typ.typecode;
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if(typecode == NC_CHAR) {
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/* Collect the char field in a separate buffer */
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Bytebuffer* fieldbuf = bbNew();
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gen_charfield(src,dimset,index,fieldbuf);
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/* Add to the existing data buf using Memory */
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jquotestring(fieldbuf,'"');
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bbCat(databuf," ");
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bbCat(databuf,bbContents(fieldbuf));
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bbFree(fieldbuf);
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} else {
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ASSERT(size != 0);
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for(i=0;i<size;i++) {
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bbCat(databuf," ");
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if(lastdim) {
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if(isprimplus(typecode)) {
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bbCat(databuf," ");
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genjjni_primdata(basetype,src,NULL,memname,databuf);
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} else
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genjjni_data(basetype,src,NULL,memname,databuf);
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} else { /* !lastdim*/
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genjjni_fieldarray(basetype,src,dimset,index+1,memname,databuf);
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}
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}
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}
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}
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void
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genjjni_vlendata(List* vlenconstants, Bytebuffer* databuf)
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{
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int i,count;
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Datasrc* vlensrc;
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char tmp[C_MAX_STMT];
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char memname[1024];
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Bytebuffer* vlenbuf = bbNew();
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for(i=0;i<listlength(vlenconstants);i++) {
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Constant* cmpd = (Constant*)listget(vlenconstants,i);
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Symbol* tsym = cmpd->value.compoundv->vlen.schema;
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Symbol* basetype = tsym->typ.basetype;
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int typecode = basetype->typ.typecode;
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sprintf(memname,"vlen_%u",cmpd->value.compoundv->vlen.uid);
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count = 0;
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vlensrc = datalist2src(cmpd->value.compoundv);
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bbClear(vlenbuf);
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if(typecode == NC_CHAR) {
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/* Collect the char sequence in a separate buffer */
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gen_charseq(vlensrc,vlenbuf);
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count = bbLength(vlenbuf);
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/* Add to the existing data buf as a single constant */
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jquotestring(vlenbuf,'"');
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/* Insert into the Memory buffer */
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genjjni_putmemory(basetype,memname,databuf,vlenbuf);
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} else {
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while(srcmore(vlensrc)) {
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genjjni_data(tsym->typ.basetype,vlensrc,NULL,memname,vlenbuf);
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count++;
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}
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ASSERT(count == cmpd->value.compoundv->vlen.count);
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/* Hack to handle user-defined vs primitive basetypes */
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if(isprimplus(typecode)) {
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genjjni_putmemory(basetype,memname,databuf,vlenbuf);
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} else { /* constdata should have the necessary Memory.put ops */
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bbCat(databuf,bbContents(vlenbuf));
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}
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/* Now store the address */
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sprintf(tmp,"%s_addr = Memory.address(%s);\n",
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memname,memname);
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bbCat(databuf,tmp);
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}
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}
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bbFree(vlenbuf);
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}
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void
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genjjni_vlenconstants(List* vlenconstants, Bytebuffer* databuf)
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{
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int i;
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char tmp[C_MAX_STMT];
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char memname[1024];
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for(i=0;i<listlength(vlenconstants);i++) {
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Constant* cmpd = (Constant*)listget(vlenconstants,i);
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sprintf(memname,"vlen_%u",cmpd->value.compoundv->vlen.uid);
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/* Define the memory buffer and a place to stick its address */
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sprintf(tmp,"static long %s = Memory.create();\n",memname);
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bbCat(databuf,tmp);
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sprintf(tmp,"static long %s_addr = 0L;\n",memname);
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bbCat(databuf,tmp);
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}
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}
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/**************************************************/
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static void
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genjjni_primdata(Symbol* tsym, Datasrc* src, Datalist* filler,
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char* memname, Bytebuffer* databuf)
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{
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Constant target, *prim;
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prim = srcnext(src);
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if(prim == NULL || prim->nctype == NC_FILLVALUE) {
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genjjni_fillvalue(tsym,filler,src,memname,databuf);
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return;
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}
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target.nctype = tsym->typ.typecode;
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if(prim == NULL) {
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#ifdef GENFILL
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/* generate a fill value*/
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nc_getfill(&target);
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/* fall thru*/
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#else
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return;
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#endif
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}
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ASSERT(prim->nctype != NC_COMPOUND);
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switch (target.nctype) {
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case NC_ECONST:
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if(tsym->subclass != NC_ENUM) {
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semerror(prim->lineno,"Conversion to enum not supported (yet)");
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nc_getfill(&target);
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} else {
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target.nctype = NC_ECONST;
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convert1(prim,&target);
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}
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break;
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case NC_OPAQUE:
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target.nctype = NC_STRING;
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jopaquestring(tsym,prim,&target);
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break;
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case NC_CHAR:
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/* Hack to handle the char case as a string */
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target = cloneconstant(prim);
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break;
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default:
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convert1(prim,&target);
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break;
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}
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/* add hack for java bug in converting floats */
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if(target.nctype == NC_FLOAT) bbCat(databuf," (float)");
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bbCat(databuf,jconst(&target));
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}
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/* Convert an opaque to a java string */
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static void
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jopaquestring(Symbol* tsym, Constant* prim, Constant* target)
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{
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int i;
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static char hexdigits[] = "0123456789ABCDEF";
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char* op = prim->value.opaquev.stringv;
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size_t oplen = prim->value.opaquev.len;
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unsigned char* p;
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char* opstring;
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ASSERT((oplen%2) == 0);
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opstring = (char*)ecalloc(oplen*(2+4));
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opstring[0]='\0';
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p=(unsigned char*)op;
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for(i=0;i<oplen;i++,p++) {
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char tmp[8];
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unsigned int b = *p;
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char digit1 = hexdigits[(b & 0x0f)];
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char digit2 = hexdigits[((b>>4) & 0x0f)];
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strcpy(tmp,"\\u00");
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tmp[5] = digit2;
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tmp[6] = digit1;
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tmp[7] = '\0';
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strcat(opstring,tmp);
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}
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target->value.stringv.stringv = opstring;
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target->value.stringv.len = strlen(opstring);
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}
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static int
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jalignment(Symbol* tsym)
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{
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nc_type nctype = tsym->typ.typecode;
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int alignment = 0;
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if(nctype == NC_ECONST)
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alignment = nctypealignment(tsym->typ.typecode);
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else if(usingclassic && nctype == NC_STRING)
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alignment = nctypealignment(NC_CHAR);
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else if(nctype == NC_CHAR)
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alignment = nctypealignment(NC_CHAR);
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else
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alignment = nctypealignment(nctype);
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return alignment;
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}
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static int
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genjjni_putmemory(Symbol* tsym, char* memname, Bytebuffer* databuf, Bytebuffer* constbuf)
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{
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char stmt[1024];
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nc_type typecode = tsym->typ.typecode;
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commify(constbuf);
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nprintf(stmt,sizeof(stmt),"Memory.align(%s,%d);\n",
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memname,jalignment(tsym));
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bbCat(databuf,stmt);
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|
|
if(typecode == NC_CHAR) {
|
|
nprintf(stmt,sizeof(stmt),"Memory.put_%sarray(%s,",
|
|
jstype(typecode),memname);
|
|
bbCat(databuf,stmt);
|
|
bbAppendn(databuf,bbContents(constbuf),bbLength(constbuf));
|
|
bbCat(databuf,");\n");
|
|
} else {
|
|
nprintf(stmt,sizeof(stmt),"Memory.put_%sarray(%s,new %s[]{",
|
|
jstype(typecode),
|
|
memname,
|
|
jarraytype(typecode));
|
|
bbCat(databuf,stmt);
|
|
bbAppendn(databuf,bbContents(constbuf),bbLength(constbuf));
|
|
bbCat(databuf,"});\n");
|
|
}
|
|
return NC_NOERR;
|
|
}
|
|
|
|
static int
|
|
jvlenalignment(void)
|
|
{
|
|
return nctypealignment(NC_VLEN);
|
|
}
|
|
|
|
#endif /*ENABLE_JAVA*/
|