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|
/**
* @file llsd.cpp
* @brief LLSD flexible data system
*
* $LicenseInfo:firstyear=2005&license=viewerlgpl$
* Second Life Viewer Source Code
* Copyright (C) 2010, Linden Research, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation;
* version 2.1 of the License only.
*
* 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
* Lesser 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
* Linden Research, Inc., 945 Battery Street, San Francisco, CA 94111 USA
* $/LicenseInfo$
*/
// Must turn on conditional declarations in header file so definitions end up
// with proper linkage.
#define LLSD_DEBUG_INFO
#include "linden_common.h"
#include "llsd.h"
#include "llbase64.h"
#include "llerror.h"
#include "../llmath/llmath.h"
#include "llformat.h"
#include "llsdserialize.h"
#include "stringize.h"
#include <limits>
// Defend against a caller forcibly passing a negative number into an unsigned
// size_t index param
inline
bool was_negative(size_t i)
{
return (i > std::numeric_limits<int>::max());
}
#define NEGATIVE_EXIT(i) if (was_negative(i)) return
#define NEGATIVE_RETURN(i, result) NEGATIVE_EXIT(i) (result)
#ifndef LL_RELEASE_FOR_DOWNLOAD
#define NAME_UNNAMED_NAMESPACE
#endif
#ifdef NAME_UNNAMED_NAMESPACE
namespace LLSDUnnamedNamespace
#else
namespace
#endif
{
class ImplMap;
class ImplArray;
}
#ifdef NAME_UNNAMED_NAMESPACE
using namespace LLSDUnnamedNamespace;
#endif
namespace llsd
{
// statics
S32 sLLSDAllocationCount = 0;
S32 sLLSDNetObjects = 0;
} // namespace llsd
#define ALLOC_LLSD_OBJECT { llsd::sLLSDNetObjects++; llsd::sLLSDAllocationCount++; }
#define FREE_LLSD_OBJECT { llsd::sLLSDNetObjects--; }
class LLSD::Impl
/**< This class is the abstract base class of the implementation of LLSD
It provides the reference counting implementation, and the default
implementation of most methods for most data types. It also serves
as a working implementation of the Undefined type.
*/
{
protected:
Impl();
enum StaticAllocationMarker { STATIC_USAGE_COUNT = 0xFFFFFFFF };
Impl(StaticAllocationMarker);
///< This constructor is used for static objects and causes the
// suppresses adjusting the debugging counters when they are
// finally initialized.
virtual ~Impl();
bool shared() const { return (mUseCount > 1) && (mUseCount != STATIC_USAGE_COUNT); }
U32 mUseCount;
public:
static void reset(Impl*& var, Impl* impl);
///< safely set var to refer to the new impl (possibly shared)
static Impl& safe( Impl*);
static const Impl& safe(const Impl*);
///< since a NULL Impl* is used for undefined, this ensures there is
// always an object you call virtual member functions on
virtual ImplMap& makeMap(Impl*& var);
virtual ImplArray& makeArray(Impl*& var);
///< sure var is a modifiable, non-shared map or array
virtual LLSD::Type type() const { return LLSD::TypeUndefined; }
static void assignUndefined(LLSD::Impl*& var);
static void assign(LLSD::Impl*& var, const LLSD::Impl* other);
virtual void assign(Impl*& var, LLSD::Boolean);
virtual void assign(Impl*& var, LLSD::Integer);
virtual void assign(Impl*& var, LLSD::Real);
virtual void assign(Impl*& var, const LLSD::String&);
virtual void assign(Impl*& var, const LLSD::UUID&);
virtual void assign(Impl*& var, const LLSD::Date&);
virtual void assign(Impl*& var, const LLSD::URI&);
virtual void assign(Impl*& var, const LLSD::Binary&);
///< If the receiver is the right type and unshared, these are simple
// data assignments, othewise the default implementation handless
// constructing the proper Impl subclass
virtual Boolean asBoolean() const { return false; }
virtual Integer asInteger() const { return 0; }
virtual Real asReal() const { return 0.0; }
virtual String asString() const { return std::string(); }
virtual UUID asUUID() const { return LLUUID(); }
virtual Date asDate() const { return LLDate(); }
virtual URI asURI() const { return LLURI(); }
virtual const Binary& asBinary() const { static const std::vector<U8> empty; return empty; }
virtual const String& asStringRef() const { static const std::string empty; return empty; }
virtual String asXMLRPCValue() const { return "<nil/>"; }
virtual bool has(const String&) const { return false; }
virtual LLSD get(const String&) const { return LLSD(); }
virtual LLSD getKeys() const { return LLSD::emptyArray(); }
virtual void erase(const String&) { }
virtual const LLSD& ref(const String&) const{ return undef(); }
virtual size_t size() const { return 0; }
virtual LLSD get(size_t) const { return LLSD(); }
virtual void erase(size_t) { }
virtual const LLSD& ref(size_t) const { return undef(); }
virtual LLSD::map_const_iterator beginMap() const { return endMap(); }
virtual LLSD::map_const_iterator endMap() const { static const std::map<String, LLSD> empty; return empty.end(); }
virtual LLSD::array_const_iterator beginArray() const { return endArray(); }
virtual LLSD::array_const_iterator endArray() const { static const std::vector<LLSD> empty; return empty.end(); }
virtual void dumpStats() const;
virtual void calcStats(S32 type_counts[], S32 share_counts[]) const;
// Container subclasses contain LLSD objects, rather than directly
// containing Impl objects. This helper forwards through LLSD.
void calcStats(const LLSD& llsd, S32 type_counts[], S32 share_counts[]) const
{
safe(llsd.impl).calcStats(type_counts, share_counts);
}
static const Impl& getImpl(const LLSD& llsd) { return safe(llsd.impl); }
static Impl& getImpl(LLSD& llsd) { return safe(llsd.impl); }
static const LLSD& undef();
static U32 sAllocationCount;
static U32 sOutstandingCount;
};
#ifdef NAME_UNNAMED_NAMESPACE
namespace LLSDUnnamedNamespace
#else
namespace
#endif
{
template<LLSD::Type T, class Data, class DataRef = Data>
class ImplBase : public LLSD::Impl
///< This class handles most of the work for a subclass of Impl
// for a given simple data type. Subclasses of this provide the
// conversion functions and a constructor.
{
protected:
Data mValue;
typedef ImplBase Base;
public:
ImplBase(DataRef value) : mValue(value) { }
virtual LLSD::Type type() const { return T; }
using LLSD::Impl::assign; // Unhiding base class virtuals...
virtual void assign(LLSD::Impl*& var, DataRef value) {
if (shared())
{
Impl::assign(var, value);
}
else
{
mValue = value;
}
}
};
class ImplBoolean
: public ImplBase<LLSD::TypeBoolean, LLSD::Boolean>
{
public:
ImplBoolean(LLSD::Boolean v) : Base(v) { }
virtual LLSD::Boolean asBoolean() const { return mValue; }
virtual LLSD::Integer asInteger() const { return mValue ? 1 : 0; }
virtual LLSD::Real asReal() const { return mValue ? 1 : 0; }
virtual LLSD::String asString() const;
virtual LLSD::String asXMLRPCValue() const { return mValue ? "<boolean>1</boolean>" : "<boolean>0</boolean>"; }
};
LLSD::String ImplBoolean::asString() const
// *NOTE: The reason that false is not converted to "false" is
// because that would break roundtripping,
// e.g. LLSD(false).asString().asBoolean(). There are many
// reasons for wanting LLSD("false").asBoolean() == true, such
// as "everything else seems to work that way".
{ return mValue ? "true" : ""; }
class ImplInteger
: public ImplBase<LLSD::TypeInteger, LLSD::Integer>
{
public:
ImplInteger(LLSD::Integer v) : Base(v) { }
virtual LLSD::Boolean asBoolean() const { return mValue != 0; }
virtual LLSD::Integer asInteger() const { return mValue; }
virtual LLSD::Real asReal() const { return mValue; }
virtual LLSD::String asString() const;
virtual LLSD::String asXMLRPCValue() const { return "<int>" + std::to_string(mValue) + "</int>"; }
};
LLSD::String ImplInteger::asString() const
{ return llformat("%d", mValue); }
class ImplReal
: public ImplBase<LLSD::TypeReal, LLSD::Real>
{
public:
ImplReal(LLSD::Real v) : Base(v) { }
virtual LLSD::Boolean asBoolean() const;
virtual LLSD::Integer asInteger() const;
virtual LLSD::Real asReal() const { return mValue; }
virtual LLSD::String asString() const;
virtual LLSD::String asXMLRPCValue() const { return "<double>" + std::to_string(mValue) + "</double>"; }
};
LLSD::Boolean ImplReal::asBoolean() const
{ return !llisnan(mValue) && mValue != 0.0; }
LLSD::Integer ImplReal::asInteger() const
{ return !llisnan(mValue) ? (LLSD::Integer)mValue : 0; }
LLSD::String ImplReal::asString() const
{ return llformat("%lg", mValue); }
class ImplString
: public ImplBase<LLSD::TypeString, LLSD::String, const LLSD::String&>
{
public:
ImplString(const LLSD::String& v) : Base(v) { }
virtual LLSD::Boolean asBoolean() const { return !mValue.empty(); }
virtual LLSD::Integer asInteger() const;
virtual LLSD::Real asReal() const;
virtual LLSD::String asString() const { return mValue; }
virtual LLSD::UUID asUUID() const { return LLUUID(mValue); }
virtual LLSD::Date asDate() const { return LLDate(mValue); }
virtual LLSD::URI asURI() const { return LLURI(mValue); }
virtual size_t size() const { return mValue.size(); }
virtual const LLSD::String& asStringRef() const { return mValue; }
virtual LLSD::String asXMLRPCValue() const { return "<string>" + LLStringFn::xml_encode(mValue) + "</string>"; }
};
LLSD::Integer ImplString::asInteger() const
{
// This must treat "1.23" not as an error, but as a number, which is
// then truncated down to an integer. Hence, this code doesn't call
// std::istringstream::operator>>(int&), which would not consume the
// ".23" portion.
return (int)asReal();
}
LLSD::Real ImplString::asReal() const
{
F64 v = 0.0;
std::istringstream i_stream(mValue);
i_stream >> v;
// we would probably like to ignore all trailing whitespace as
// well, but for now, simply eat the next character, and make
// sure we reached the end of the string.
// *NOTE: gcc 2.95 does not generate an eof() event on the
// stream operation above, so we manually get here to force it
// across platforms.
int c = i_stream.get();
return ((EOF ==c) ? v : 0.0);
}
class ImplUUID
: public ImplBase<LLSD::TypeUUID, LLSD::UUID, const LLSD::UUID&>
{
public:
ImplUUID(const LLSD::UUID& v) : Base(v) { }
virtual LLSD::String asString() const{ return mValue.asString(); }
virtual LLSD::UUID asUUID() const { return mValue; }
virtual LLSD::String asXMLRPCValue() const { return "<string>" + mValue.asString() + "</string>"; }
};
class ImplDate
: public ImplBase<LLSD::TypeDate, LLSD::Date, const LLSD::Date&>
{
public:
ImplDate(const LLSD::Date& v)
: ImplBase<LLSD::TypeDate, LLSD::Date, const LLSD::Date&>(v)
{ }
virtual LLSD::Integer asInteger() const
{
return (LLSD::Integer)(mValue.secondsSinceEpoch());
}
virtual LLSD::Real asReal() const
{
return mValue.secondsSinceEpoch();
}
virtual LLSD::String asString() const{ return mValue.asString(); }
virtual LLSD::Date asDate() const { return mValue; }
virtual LLSD::String asXMLRPCValue() const { return "<dateTime.iso8601>" + mValue.toHTTPDateString("%FT%T") + "</dateTime.iso8601>"; }
};
class ImplURI
: public ImplBase<LLSD::TypeURI, LLSD::URI, const LLSD::URI&>
{
public:
ImplURI(const LLSD::URI& v) : Base(v) { }
virtual LLSD::String asString() const{ return mValue.asString(); }
virtual LLSD::URI asURI() const { return mValue; }
virtual LLSD::String asXMLRPCValue() const { return "<string>" + LLStringFn::xml_encode(mValue.asString()) + "</string>"; }
};
class ImplBinary
: public ImplBase<LLSD::TypeBinary, LLSD::Binary, const LLSD::Binary&>
{
public:
ImplBinary(const LLSD::Binary& v) : Base(v) { }
virtual const LLSD::Binary& asBinary() const{ return mValue; }
virtual LLSD::String asXMLRPCValue() const { return "<base64>" + LLBase64::encode(mValue.data(), mValue.size()) + "</base64>"; }
};
class ImplMap : public LLSD::Impl
{
private:
typedef std::map<LLSD::String, LLSD> DataMap;
DataMap mData;
protected:
ImplMap(const DataMap& data) : mData(data) { }
public:
ImplMap() { }
virtual ImplMap& makeMap(LLSD::Impl*&);
virtual LLSD::Type type() const { return LLSD::TypeMap; }
virtual LLSD::Boolean asBoolean() const { return !mData.empty(); }
virtual LLSD::String asXMLRPCValue() const
{
std::ostringstream os;
os << "<struct>";
for (const auto& it : mData)
{
os << "<member><name>" << LLStringFn::xml_encode(it.first) << "</name>"
<< it.second.asXMLRPCValue() << "</member>";
}
os << "</struct>";
return os.str();
}
virtual bool has(const LLSD::String&) const;
using LLSD::Impl::get; // Unhiding get(size_t)
using LLSD::Impl::erase; // Unhiding erase(size_t)
using LLSD::Impl::ref; // Unhiding ref(size_t)
virtual LLSD get(const LLSD::String&) const;
virtual LLSD getKeys() const;
void insert(const LLSD::String& k, const LLSD& v);
virtual void erase(const LLSD::String&);
LLSD& ref(const LLSD::String&);
virtual const LLSD& ref(const LLSD::String&) const;
virtual size_t size() const { return mData.size(); }
LLSD::map_iterator beginMap() { return mData.begin(); }
LLSD::map_iterator endMap() { return mData.end(); }
virtual LLSD::map_const_iterator beginMap() const { return mData.begin(); }
virtual LLSD::map_const_iterator endMap() const { return mData.end(); }
virtual void dumpStats() const;
virtual void calcStats(S32 type_counts[], S32 share_counts[]) const;
};
ImplMap& ImplMap::makeMap(LLSD::Impl*& var)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
if (shared())
{
ImplMap* i = new ImplMap(mData);
Impl::assign(var, i);
return *i;
}
else
{
return *this;
}
}
bool ImplMap::has(const LLSD::String& k) const
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
DataMap::const_iterator i = mData.find(k);
return i != mData.end();
}
LLSD ImplMap::get(const LLSD::String& k) const
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
DataMap::const_iterator i = mData.find(k);
return (i != mData.end()) ? i->second : LLSD();
}
LLSD ImplMap::getKeys() const
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
LLSD keys = LLSD::emptyArray();
DataMap::const_iterator iter = mData.begin();
while (iter != mData.end())
{
keys.append((*iter).first);
iter++;
}
return keys;
}
void ImplMap::insert(const LLSD::String& k, const LLSD& v)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
mData.insert(DataMap::value_type(k, v));
}
void ImplMap::erase(const LLSD::String& k)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
mData.erase(k);
}
LLSD& ImplMap::ref(const LLSD::String& k)
{
return mData[k];
}
const LLSD& ImplMap::ref(const LLSD::String& k) const
{
DataMap::const_iterator i = mData.lower_bound(k);
if (i == mData.end() || mData.key_comp()(k, i->first))
{
return undef();
}
return i->second;
}
void ImplMap::dumpStats() const
{
std::cout << "Map size: " << mData.size() << std::endl;
std::cout << "LLSD Net Objects: " << llsd::sLLSDNetObjects << std::endl;
std::cout << "LLSD allocations: " << llsd::sLLSDAllocationCount << std::endl;
std::cout << "LLSD::Impl Net Objects: " << sOutstandingCount << std::endl;
std::cout << "LLSD::Impl allocations: " << sAllocationCount << std::endl;
Impl::dumpStats();
}
void ImplMap::calcStats(S32 type_counts[], S32 share_counts[]) const
{
LLSD::map_const_iterator iter = beginMap();
while (iter != endMap())
{
//std::cout << " " << (*iter).first << ": " << (*iter).second << std::endl;
Impl::calcStats((*iter).second, type_counts, share_counts);
iter++;
}
// Add in the values for this map
Impl::calcStats(type_counts, share_counts);
}
class ImplArray : public LLSD::Impl
{
private:
typedef std::vector<LLSD> DataVector;
DataVector mData;
protected:
ImplArray(const DataVector& data) : mData(data) { }
public:
ImplArray() { }
virtual ImplArray& makeArray(Impl*&);
virtual LLSD::Type type() const { return LLSD::TypeArray; }
virtual LLSD::Boolean asBoolean() const { return !mData.empty(); }
virtual LLSD::String asXMLRPCValue() const
{
std::ostringstream os;
os << "<array><data>";
for (const auto& it : mData)
{
os << it.asXMLRPCValue();
}
os << "</data></array>";
return os.str();
}
using LLSD::Impl::get; // Unhiding get(LLSD::String)
using LLSD::Impl::erase; // Unhiding erase(LLSD::String)
using LLSD::Impl::ref; // Unhiding ref(LLSD::String)
virtual size_t size() const;
virtual LLSD get(size_t) const;
void set(size_t, const LLSD&);
void insert(size_t, const LLSD&);
LLSD& append(const LLSD&);
virtual void erase(size_t);
LLSD& ref(size_t);
virtual const LLSD& ref(size_t) const;
LLSD::array_iterator beginArray() { return mData.begin(); }
LLSD::array_iterator endArray() { return mData.end(); }
LLSD::reverse_array_iterator rbeginArray() { return mData.rbegin(); }
LLSD::reverse_array_iterator rendArray() { return mData.rend(); }
virtual LLSD::array_const_iterator beginArray() const { return mData.begin(); }
virtual LLSD::array_const_iterator endArray() const { return mData.end(); }
virtual void calcStats(S32 type_counts[], S32 share_counts[]) const;
};
ImplArray& ImplArray::makeArray(Impl*& var)
{
if (shared())
{
ImplArray* i = new ImplArray(mData);
Impl::assign(var, i);
return *i;
}
else
{
return *this;
}
}
size_t ImplArray::size() const { return mData.size(); }
LLSD ImplArray::get(size_t i) const
{
NEGATIVE_RETURN(i, LLSD());
DataVector::size_type index = i;
return (index < mData.size()) ? mData[index] : LLSD();
}
void ImplArray::set(size_t i, const LLSD& v)
{
NEGATIVE_EXIT(i);
DataVector::size_type index = i;
if (index >= mData.size())
{
mData.resize(index + 1);
}
mData[index] = v;
}
void ImplArray::insert(size_t i, const LLSD& v)
{
NEGATIVE_EXIT(i);
DataVector::size_type index = i;
if (index >= mData.size()) // tbd - sanity check limit for index ?
{
mData.resize(index + 1);
}
mData.insert(mData.begin() + index, v);
}
LLSD& ImplArray::append(const LLSD& v)
{
mData.push_back(v);
return mData.back();
}
void ImplArray::erase(size_t i)
{
NEGATIVE_EXIT(i);
DataVector::size_type index = i;
if (index < mData.size())
{
mData.erase(mData.begin() + index);
}
}
LLSD& ImplArray::ref(size_t i)
{
DataVector::size_type index = was_negative(i)? 0 : i;
if (index >= mData.size())
{
mData.resize(index + 1);
}
return mData[index];
}
const LLSD& ImplArray::ref(size_t i) const
{
NEGATIVE_RETURN(i, undef());
DataVector::size_type index = i;
if (index >= mData.size())
{
return undef();
}
return mData[index];
}
void ImplArray::calcStats(S32 type_counts[], S32 share_counts[]) const
{
LLSD::array_const_iterator iter = beginArray();
while (iter != endArray())
{ // Add values for all items held in the array
Impl::calcStats((*iter), type_counts, share_counts);
iter++;
}
// Add in the values for this array
Impl::calcStats(type_counts, share_counts);
}
}
LLSD::Impl::Impl()
: mUseCount(0)
{
++sAllocationCount;
++sOutstandingCount;
}
LLSD::Impl::Impl(StaticAllocationMarker)
: mUseCount(0)
{
}
LLSD::Impl::~Impl()
{
--sOutstandingCount;
}
void LLSD::Impl::reset(Impl*& var, Impl* impl)
{
if (impl && impl->mUseCount != STATIC_USAGE_COUNT)
{
++impl->mUseCount;
}
if (var && var->mUseCount != STATIC_USAGE_COUNT && --var->mUseCount == 0)
{
delete var;
}
var = impl;
}
LLSD::Impl& LLSD::Impl::safe(Impl* impl)
{
static Impl theUndefined(STATIC_USAGE_COUNT);
return impl ? *impl : theUndefined;
}
const LLSD::Impl& LLSD::Impl::safe(const Impl* impl)
{
static Impl theUndefined(STATIC_USAGE_COUNT);
return impl ? *impl : theUndefined;
}
ImplMap& LLSD::Impl::makeMap(Impl*& var)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
ImplMap* im = new ImplMap;
reset(var, im);
return *im;
}
ImplArray& LLSD::Impl::makeArray(Impl*& var)
{
ImplArray* ia = new ImplArray;
reset(var, ia);
return *ia;
}
void LLSD::Impl::assign(Impl*& var, const Impl* other)
{
reset(var, const_cast<Impl*>(other));
}
void LLSD::Impl::assignUndefined(Impl*& var)
{
reset(var, 0);
}
void LLSD::Impl::assign(Impl*& var, LLSD::Boolean v)
{
reset(var, new ImplBoolean(v));
}
void LLSD::Impl::assign(Impl*& var, LLSD::Integer v)
{
reset(var, new ImplInteger(v));
}
void LLSD::Impl::assign(Impl*& var, LLSD::Real v)
{
reset(var, new ImplReal(v));
}
void LLSD::Impl::assign(Impl*& var, const LLSD::String& v)
{
reset(var, new ImplString(v));
}
void LLSD::Impl::assign(Impl*& var, const LLSD::UUID& v)
{
reset(var, new ImplUUID(v));
}
void LLSD::Impl::assign(Impl*& var, const LLSD::Date& v)
{
reset(var, new ImplDate(v));
}
void LLSD::Impl::assign(Impl*& var, const LLSD::URI& v)
{
reset(var, new ImplURI(v));
}
void LLSD::Impl::assign(Impl*& var, const LLSD::Binary& v)
{
reset(var, new ImplBinary(v));
}
const LLSD& LLSD::Impl::undef()
{
static const LLSD immutableUndefined;
return immutableUndefined;
}
void LLSD::Impl::dumpStats() const
{
S32 type_counts[LLSD::TypeLLSDNumTypes + 1];
memset(&type_counts, 0, sizeof(type_counts));
S32 share_counts[LLSD::TypeLLSDNumTypes + 1];
memset(&share_counts, 0, sizeof(share_counts));
// Add info from all the values this object has
calcStats(type_counts, share_counts);
S32 type_index = LLSD::TypeLLSDTypeBegin;
while (type_index != LLSD::TypeLLSDTypeEnd)
{
std::cout << LLSD::typeString((LLSD::Type)type_index) << " type "
<< type_counts[type_index] << " objects, "
<< share_counts[type_index] << " shared"
<< std::endl;
type_index++;
}
}
void LLSD::Impl::calcStats(S32 type_counts[], S32 share_counts[]) const
{
S32 tp = S32(type());
if (0 <= tp && tp < LLSD::TypeLLSDNumTypes)
{
type_counts[tp]++;
if (shared())
{
share_counts[tp]++;
}
}
}
U32 LLSD::Impl::sAllocationCount = 0;
U32 LLSD::Impl::sOutstandingCount = 0;
#ifdef NAME_UNNAMED_NAMESPACE
namespace LLSDUnnamedNamespace
#else
namespace
#endif
{
inline LLSD::Impl& safe(LLSD::Impl* impl)
{ return LLSD::Impl::safe(impl); }
inline ImplMap& makeMap(LLSD::Impl*& var)
{ return safe(var).makeMap(var); }
inline ImplArray& makeArray(LLSD::Impl*& var)
{ return safe(var).makeArray(var); }
}
LLSD::LLSD() : impl(0) { ALLOC_LLSD_OBJECT; }
LLSD::~LLSD() { FREE_LLSD_OBJECT; Impl::reset(impl, 0); }
LLSD::LLSD(const LLSD& other) : impl(0) { ALLOC_LLSD_OBJECT; assign(other); }
void LLSD::assign(const LLSD& other) { Impl::assign(impl, other.impl); }
void LLSD::clear() { Impl::assignUndefined(impl); }
LLSD::Type LLSD::type() const { return safe(impl).type(); }
// Scalar Constructors
LLSD::LLSD(Boolean v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(Integer v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(Real v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(const UUID& v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(const String& v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(const Date& v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(const URI& v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
LLSD::LLSD(const Binary& v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
// Scalar Assignment
void LLSD::assign(Boolean v) { safe(impl).assign(impl, v); }
void LLSD::assign(Integer v) { safe(impl).assign(impl, v); }
void LLSD::assign(Real v) { safe(impl).assign(impl, v); }
void LLSD::assign(const String& v) { safe(impl).assign(impl, v); }
void LLSD::assign(const UUID& v) { safe(impl).assign(impl, v); }
void LLSD::assign(const Date& v) { safe(impl).assign(impl, v); }
void LLSD::assign(const URI& v) { safe(impl).assign(impl, v); }
void LLSD::assign(const Binary& v) { safe(impl).assign(impl, v); }
// Scalar Accessors
LLSD::Boolean LLSD::asBoolean() const { return safe(impl).asBoolean(); }
LLSD::Integer LLSD::asInteger() const { return safe(impl).asInteger(); }
LLSD::Real LLSD::asReal() const { return safe(impl).asReal(); }
LLSD::String LLSD::asString() const { return safe(impl).asString(); }
LLSD::UUID LLSD::asUUID() const { return safe(impl).asUUID(); }
LLSD::Date LLSD::asDate() const { return safe(impl).asDate(); }
LLSD::URI LLSD::asURI() const { return safe(impl).asURI(); }
const LLSD::Binary& LLSD::asBinary() const { return safe(impl).asBinary(); }
const LLSD::String& LLSD::asStringRef() const { return safe(impl).asStringRef(); }
LLSD::String LLSD::asXMLRPCValue() const { return "<value>" + safe(impl).asXMLRPCValue() + "</value>"; }
static bool inline check(bool condition, const char* warning_message)
{
if (!condition)
{
LL_WARNS() << warning_message << LL_ENDL;
}
return condition;
}
static bool parseXMLRPCArrayValue(LLSD& target, LLSD::TreeNode* node)
{
LLSD::TreeNode* data = node->getFirstChild();
if (!check(data, "No array inner XML element (<data> expected)") ||
!check(data->hasName("data"), "Invalid array inner XML element (<data> expected)") ||
!check(!data->getNextSibling(), "Multiple array inner XML elements (single <data> expected)"))
return false;
for (LLSD::TreeNode* item = data->getFirstChild(); item; item = item->getNextSibling())
{
LLSD value;
if (!value.fromXMLRPCValue(item))
return false;
target.append(value);
}
return true;
}
static bool parseXMLRPCStructValue(LLSD& target, LLSD::TreeNode* node)
{
for (LLSD::TreeNode* item = node->getFirstChild(); item; item = item->getNextSibling())
{
if (!check(item->hasName("member"), "Invalid struct inner XML element (<member> expected)"))
return false;
std::string name;
LLSD value;
for (LLSD::TreeNode* subitem = item->getFirstChild(); subitem; subitem = subitem->getNextSibling())
{
if (subitem->hasName("name"))
{
name = LLStringFn::xml_decode(subitem->getTextContents());
}
else if (!value.fromXMLRPCValue(subitem))
{
return false;
}
}
if (!check(!name.empty(), "Empty struct member name"))
return false;
target.insert(name, value);
}
return true;
}
bool LLSD::fromXMLRPCValue(TreeNode* node)
{
clear();
llassert(node);
if (!node)
return false;
if (!check(node->hasName("value"), "Invalid XML element (<value> expected)"))
return false;
TreeNode* inner = node->getFirstChild();
if (!inner)
{
check(false, "No inner XML element (value type expected)");
// Value with no type qualifier is treated as string
assign(LLStringFn::xml_decode(node->getTextContents()));
return true;
}
if (!check(!inner->getNextSibling(), "Multiple inner XML elements (single expected)"))
return false;
if (inner->hasName("string"))
{
assign(LLStringFn::xml_decode(inner->getTextContents()));
return true;
}
if (inner->hasName("int") || inner->hasName("i4"))
{
assign(std::stoi(inner->getTextContents()));
return true;
}
if (inner->hasName("double"))
{
assign(std::stod(inner->getTextContents()));
return true;
}
if (inner->hasName("boolean"))
{
assign(!!std::stoi(inner->getTextContents()));
return true;
}
if (inner->hasName("dateTime.iso8601"))
{
assign(Date(inner->getTextContents()));
return true;
}
if (inner->hasName("base64"))
{
std::string decoded = LLBase64::decodeAsString(inner->getTextContents());
Binary binary(decoded.size());
memcpy(binary.data(), decoded.data(), decoded.size());
assign(binary);
return true;
}
if (inner->hasName("array"))
{
if (!parseXMLRPCArrayValue(*this, inner))
{
clear();
return false;
}
return true;
}
if (inner->hasName("struct"))
{
if (!parseXMLRPCStructValue(*this, inner))
{
clear();
return false;
}
return true;
}
check(false, "Unknown inner XML element (known value type expected)");
// Value with unknown type qualifier is treated as string
assign(LLStringFn::xml_decode(inner->getTextContents()));
return true;
}
// const char * helpers
LLSD::LLSD(const char* v) : impl(0) { ALLOC_LLSD_OBJECT; assign(v); }
void LLSD::assign(const char* v)
{
if(v) assign(std::string(v));
else assign(std::string());
}
LLSD LLSD::emptyMap()
{
LLSD v;
makeMap(v.impl);
return v;
}
bool LLSD::has(const String& k) const { return safe(impl).has(k); }
LLSD LLSD::get(const String& k) const { return safe(impl).get(k); }
LLSD LLSD::getKeys() const { return safe(impl).getKeys(); }
void LLSD::insert(const String& k, const LLSD& v) { makeMap(impl).insert(k, v); }
LLSD& LLSD::with(const String& k, const LLSD& v)
{
makeMap(impl).insert(k, v);
return *this;
}
void LLSD::erase(const String& k) { makeMap(impl).erase(k); }
LLSD& LLSD::operator[](const String& k)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
return makeMap(impl).ref(k);
}
const LLSD& LLSD::operator[](const String& k) const
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
return safe(impl).ref(k);
}
LLSD LLSD::emptyArray()
{
LLSD v;
makeArray(v.impl);
return v;
}
size_t LLSD::size() const { return safe(impl).size(); }
LLSD LLSD::get(Integer i) const { return safe(impl).get(i); }
void LLSD::set(Integer i, const LLSD& v){ makeArray(impl).set(i, v); }
void LLSD::insert(Integer i, const LLSD& v) { makeArray(impl).insert(i, v); }
LLSD& LLSD::with(Integer i, const LLSD& v)
{
makeArray(impl).insert(i, v);
return *this;
}
LLSD& LLSD::append(const LLSD& v) { return makeArray(impl).append(v); }
void LLSD::erase(Integer i) { makeArray(impl).erase(i); }
LLSD& LLSD::operator[](size_t i)
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
return makeArray(impl).ref(i);
}
const LLSD& LLSD::operator[](size_t i) const
{
LL_PROFILE_ZONE_SCOPED_CATEGORY_LLSD;
return safe(impl).ref(i);
}
static const char *llsd_dump(const LLSD &llsd, bool useXMLFormat)
{
// sStorage is used to hold the string representation of the llsd last
// passed into this function. If this function is never called (the
// normal case when not debugging), nothing is allocated. Otherwise
// sStorage will point to the result of the last call. This will actually
// be one leak, but since this is used only when running under the
// debugger, it should not be an issue.
static char *sStorage = NULL;
delete[] sStorage;
std::string out_string;
{
std::ostringstream out;
if (useXMLFormat)
out << LLSDXMLStreamer(llsd);
else
out << LLSDNotationStreamer(llsd);
out_string = out.str();
}
auto len = out_string.length();
sStorage = new char[len + 1];
memcpy(sStorage, out_string.c_str(), len);
sStorage[len] = '\0';
return sStorage;
}
/// Returns XML version of llsd -- only to be called from debugger
const char *LLSD::dumpXML(const LLSD &llsd)
{
return llsd_dump(llsd, true);
}
/// Returns Notation version of llsd -- only to be called from debugger
const char *LLSD::dump(const LLSD &llsd)
{
return llsd_dump(llsd, false);
}
LLSD::map_iterator LLSD::beginMap() { return makeMap(impl).beginMap(); }
LLSD::map_iterator LLSD::endMap() { return makeMap(impl).endMap(); }
LLSD::map_const_iterator LLSD::beginMap() const { return safe(impl).beginMap(); }
LLSD::map_const_iterator LLSD::endMap() const { return safe(impl).endMap(); }
LLSD::array_iterator LLSD::beginArray() { return makeArray(impl).beginArray(); }
LLSD::array_iterator LLSD::endArray() { return makeArray(impl).endArray(); }
LLSD::array_const_iterator LLSD::beginArray() const{ return safe(impl).beginArray(); }
LLSD::array_const_iterator LLSD::endArray() const { return safe(impl).endArray(); }
LLSD::reverse_array_iterator LLSD::rbeginArray() { return makeArray(impl).rbeginArray(); }
LLSD::reverse_array_iterator LLSD::rendArray() { return makeArray(impl).rendArray(); }
namespace llsd
{
U32 allocationCount() { return LLSD::Impl::sAllocationCount; }
U32 outstandingCount() { return LLSD::Impl::sOutstandingCount; }
// Diagnostic dump of contents in an LLSD object
void dumpStats(const LLSD& llsd) { LLSD::Impl::getImpl(llsd).dumpStats(); }
} // namespace llsd
// static
std::string LLSD::typeString(Type type)
{
static const char * sTypeNameArray[] = {
"Undefined",
"Boolean",
"Integer",
"Real",
"String",
"UUID",
"Date",
"URI",
"Binary",
"Map",
"Array"
};
if (0 <= type && type < LL_ARRAY_SIZE(sTypeNameArray))
{
return sTypeNameArray[type];
}
return STRINGIZE("** invalid type value " << type);
}
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