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/*
Copyright (C) 2000 Stefan Westerfeld
[email protected]
This library is free software; you can redistribute it and/or
modify it under the terms of the GNU Library General Public
License as published by the Free Software Foundation; either
version 2 of the License, or (at your option) any later version.
This library 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
Library General Public License for more details.
You should have received a copy of the GNU Library General Public License
along with this library; see the file COPYING.LIB. If not, write to
the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
Boston, MA 02110-1301, USA.
*/
#include "anyref.h"
#include "common.h"
#include "startupmanager.h"
#include "debug.h"
#include <assert.h>
using namespace Arts;
using namespace std;
/*
* private utility class to deal with any types
*/
namespace Arts {
static class AnyRefHelper {
private:
Arts::InterfaceRepoV2 interfaceRepo;
public:
AnyRefHelper() {
interfaceRepo = DynamicCast(Dispatcher::the()->interfaceRepo());
}
void skipType(Buffer& buffer, const string& type);
} *anyRefHelper = 0;
static class AnyRefHelperStartup : public StartupClass {
void startup() {
assert(anyRefHelper == 0);
anyRefHelper = new AnyRefHelper();
}
void shutdown() {
delete anyRefHelper;
anyRefHelper = 0;
}
} The_AnyRefHelperStartup;
}
string AnyRefBase::type() const
{
/*
keep common types here, so that the string constructor doesn't need
to get called each and every time
*/
static const string tVoid("void");
static const string tByte("byte");
static const string tsByte("*byte");
static const string tLong("long");
static const string tsLong("*long");
static const string tFloat("float");
static const string tsFloat("*float");
static const string tString("string");
static const string tsString("*string");
static const string tBool("bool");
static const string tsBool("*bool");
switch(rep)
{
case repVoid: return tVoid;
// primitive types
case repByte: return tByte;
case repInt:
case repLong: return tLong;
case repFloat:
case repDouble: return tFloat;
case repString:
case repCString: return tString;
case repBool: return tBool;
// sequences of primitive types
case repByteSeq: return tsByte;
case repLongSeq: return tsLong;
case repFloatSeq: return tsFloat;
case repStringSeq: return tsString;
case repBoolSeq: return tsBool;
case repAny: return ((Any *)data)->type;
}
assert(false);
return tVoid; // silence compiler
}
void AnyRefBase::_write(Buffer *b) const
{
switch(rep)
{
case repVoid:
break;
// primitive types
case repByte: b->writeByte(*(mcopbyte *)data);
break;
case repInt: b->writeLong(*(int *)data);
break;
case repLong: b->writeLong(*(long *)data);
break;
case repFloat: b->writeFloat(*(float *)data);
break;
case repDouble: b->writeFloat(*(double *)data);
break;
case repString: b->writeString(*(string *)data);
break;
case repCString: b->writeString((const char *)data);
break;
case repBool: b->writeBool(*(bool *)data);
break;
// sequences of primitive types
case repByteSeq: b->writeByteSeq(*(vector<mcopbyte> *)data);
break;
case repLongSeq: b->writeLongSeq(*(vector<long> *)data);
break;
case repFloatSeq: b->writeFloatSeq(*(vector<float> *)data);
break;
case repStringSeq: b->writeStringSeq(*(vector<string> *)data);
break;
case repBoolSeq: b->writeBoolSeq(*(vector<bool> *)data);
break;
case repAny: b->write(((Any *)data)->value);
break;
default: assert(false);
}
}
void AnyRefBase::_read(Buffer *b) const
{
switch(rep)
{
case repVoid:
break;
// primitive types
case repByte: *(mcopbyte *)data = b->readByte();
break;
case repInt: *(int *)data = b->readLong();
break;
case repLong: *(long *)data = b->readLong();
break;
case repFloat: *(float *)data = b->readFloat();
break;
case repDouble: *(double *)data = b->readFloat();
break;
case repString: b->readString(*(string *)data);
break;
case repBool: *(bool *)data = b->readBool();
break;
// sequences of primitive types
case repByteSeq: b->readByteSeq(*(vector<mcopbyte> *)data);
break;
case repLongSeq: b->readLongSeq(*(vector<long> *)data);
break;
case repFloatSeq: b->readFloatSeq(*(vector<float> *)data);
break;
case repStringSeq: b->readStringSeq(*(vector<string> *)data);
break;
case repBoolSeq: b->readBoolSeq(*(vector<bool> *)data);
break;
case repAny:
{
// find out the size by skipping over it for the first time
long startPos = b->size() - b->remaining();
anyRefHelper->skipType(*b, ((Any *)data)->type);
// if everything went well, read the raw value in one step
long size = (b->size() - b->remaining()) - startPos;
if(!b->readError())
{
b->rewind();
b->skip(startPos);
b->read(((Any *)data)->value, size);
}
}
break;
default: assert(false);
}
}
/**
* correct skipping of an arbitary type not known at compile-time (this is
* a problem, since the size of the type will vary, due to the sequence<...>s
* contained)
*/
void AnyRefHelper::skipType(Buffer& buffer, const string& type)
{
/* sequences */
if(type[0] == '*')
{
long seqlen = buffer.readLong();
while(seqlen > 0 && !buffer.readError())
{
skipType(buffer, type.c_str()+1);
seqlen--;
}
}
else
{
TypeIdentification ti = interfaceRepo.identifyType(type);
switch(ti)
{
case tiString:
{
string s;
buffer.readString(s);
}
break;
case tiLong:
buffer.readLong();
break;
case tiFloat:
buffer.readFloat();
break;
case tiByte:
buffer.readByte();
break;
case tiBoolean:
buffer.readBool();
break;
case tiVoid:
/* nothing to do */
break;
case tiType:
{
Arts::TypeDef td = interfaceRepo.queryType(type);
if(td.name == type)
{
vector<TypeComponent>::iterator tci;
for(tci = td.contents.begin(); tci != td.contents.end();
tci++)
{
skipType(buffer,tci->type);
}
}
else
{
arts_warning("unknown type %s",type.c_str());
}
}
break;
case tiEnum:
buffer.readLong();
break;
case tiInterface:
{
ObjectReference oref;
oref.readType(buffer);
}
break;
default:
arts_warning("AnyRefHelper: can't read %s",type.c_str());
break;
}
}
}
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