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abstractData.cpp
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abstractData.cpp
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//
// Copyright 2016 Pixar
//
// Licensed under the Apache License, Version 2.0 (the "Apache License")
// with the following modification; you may not use this file except in
// compliance with the Apache License and the following modification to it:
// Section 6. Trademarks. is deleted and replaced with:
//
// 6. Trademarks. This License does not grant permission to use the trade
// names, trademarks, service marks, or product names of the Licensor
// and its affiliates, except as required to comply with Section 4(c) of
// the License and to reproduce the content of the NOTICE file.
//
// You may obtain a copy of the Apache License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the Apache License with the above modification is
// distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
// KIND, either express or implied. See the Apache License for the specific
// language governing permissions and limitations under the Apache License.
//
#include "pxr/pxr.h"
#include "pxr/usd/sdf/abstractData.h"
#include "pxr/base/trace/trace.h"
#include <ostream>
#include <vector>
#include <utility>
using std::vector;
using std::pair;
using std::make_pair;
PXR_NAMESPACE_OPEN_SCOPE
TF_DEFINE_PUBLIC_TOKENS(SdfDataTokens, SDF_DATA_TOKENS);
////////////////////////////////////////////////////////////
SdfAbstractData::~SdfAbstractData()
{
}
struct SdfAbstractData_IsEmptyChecker : public SdfAbstractDataSpecVisitor
{
SdfAbstractData_IsEmptyChecker() : isEmpty(true) { }
virtual bool VisitSpec(const SdfAbstractData &, const SdfPath &)
{
isEmpty = false;
return false;
}
virtual void Done(const SdfAbstractData&)
{
// Do nothing
}
bool isEmpty;
};
bool
SdfAbstractData::IsEmpty() const
{
SdfAbstractData_IsEmptyChecker checker;
VisitSpecs(&checker);
return checker.isEmpty;
}
bool
SdfAbstractData::IsDetached() const
{
return !StreamsData();
}
struct SdfAbstractData_CopySpecs : public SdfAbstractDataSpecVisitor
{
SdfAbstractData_CopySpecs(SdfAbstractData* dest_) : dest(dest_) { }
virtual bool VisitSpec(
const SdfAbstractData& src, const SdfPath &path)
{
const std::vector<TfToken> keys = src.List(path);
dest->CreateSpec(path, src.GetSpecType(path));
TF_FOR_ALL(keyIt, keys) {
dest->Set(path, *keyIt, src.Get(path, *keyIt));
}
return true;
}
virtual void Done(const SdfAbstractData&)
{
// Do nothing
}
SdfAbstractData* dest;
};
void
SdfAbstractData::CopyFrom(const SdfAbstractDataConstPtr& source)
{
SdfAbstractData_CopySpecs copySpecsToThis(this);
source->VisitSpecs(©SpecsToThis);
}
// Visitor that checks whether all specs in the visited SdfAbstractData object
// exist in another SdfAbstractData object.
struct SdfAbstractData_CheckAllSpecsExist : public SdfAbstractDataSpecVisitor
{
SdfAbstractData_CheckAllSpecsExist(const SdfAbstractData& data)
: passed(true), _data(data) { }
virtual bool VisitSpec(
const SdfAbstractData&, const SdfPath &path)
{
if (!_data.HasSpec(path)) {
passed = false;
}
return passed;
}
virtual void Done(const SdfAbstractData&)
{
// Do nothing
}
bool passed;
private:
const SdfAbstractData& _data;
};
// Visitor that checks whether all specs in the visited SdfAbstractData object
// have the same fields and contents as another SdfAbstractData object.
struct SdfAbstractData_CheckAllSpecsMatch : public SdfAbstractDataSpecVisitor
{
SdfAbstractData_CheckAllSpecsMatch(const SdfAbstractData& rhs)
: passed(true), _rhs(rhs) { }
virtual bool VisitSpec(
const SdfAbstractData& lhs, const SdfPath &path)
{
return (passed = _AreSpecsAtPathEqual(lhs, _rhs, path));
}
virtual void Done(const SdfAbstractData&)
{
// Do nothing
}
bool passed;
private:
static bool _AreSpecsAtPathEqual(
const SdfAbstractData& lhs, const SdfAbstractData& rhs,
const SdfPath &path)
{
const TfTokenVector lhsFields = lhs.List(path);
const TfTokenVector rhsFields = rhs.List(path);
std::set<TfToken> lhsFieldSet( lhsFields.begin(), lhsFields.end() );
std::set<TfToken> rhsFieldSet( rhsFields.begin(), rhsFields.end() );
if (lhs.GetSpecType(path) != rhs.GetSpecType(path))
return false;
if (lhsFieldSet != rhsFieldSet)
return false;
TF_FOR_ALL(field, lhsFields) {
// Note: this comparison forces manufacturing of VtValues.
if (lhs.Get(path, *field) != rhs.Get(path, *field))
return false;
}
return true;
}
private:
const SdfAbstractData& _rhs;
};
bool
SdfAbstractData::Equals(const SdfAbstractDataRefPtr &rhs) const
{
TRACE_FUNCTION();
// Check that the set of specs matches.
SdfAbstractData_CheckAllSpecsExist
rhsHasAllSpecsInThis(*boost::get_pointer(rhs));
VisitSpecs(&rhsHasAllSpecsInThis);
if (!rhsHasAllSpecsInThis.passed)
return false;
SdfAbstractData_CheckAllSpecsExist thisHasAllSpecsInRhs(*this);
rhs->VisitSpecs(&thisHasAllSpecsInRhs);
if (!thisHasAllSpecsInRhs.passed)
return false;
// Check that every spec matches.
SdfAbstractData_CheckAllSpecsMatch
thisSpecsMatchRhsSpecs(*boost::get_pointer(rhs));
VisitSpecs(&thisSpecsMatchRhsSpecs);
return thisSpecsMatchRhsSpecs.passed;
}
// Visitor for collecting a sorted set of all paths in an SdfAbstractData.
struct SdfAbstractData_SortedPathCollector : public SdfAbstractDataSpecVisitor
{
virtual bool VisitSpec(
const SdfAbstractData& data, const SdfPath &path)
{
paths.insert(path);
return true;
}
virtual void Done(const SdfAbstractData&)
{
// Do nothing
}
SdfPathSet paths;
};
void
SdfAbstractData::WriteToStream(std::ostream& os) const
{
TRACE_FUNCTION();
// We sort keys and fields below to ensure a stable output ordering.
SdfAbstractData_SortedPathCollector collector;
VisitSpecs(&collector);
for (SdfPath const &path: collector.paths) {
const SdfSpecType specType = GetSpecType(path);
os << path << " " << TfEnum::GetDisplayName(specType) << '\n';
const TfTokenVector fields = List(path);
const std::set<TfToken> fieldSet(fields.begin(), fields.end());
for (TfToken const &fieldName: fieldSet) {
const VtValue value = Get(path, fieldName);
os << " "
<< fieldName << " "
<< value.GetTypeName() << " "
<< value << '\n';
}
}
}
void
SdfAbstractData::VisitSpecs(SdfAbstractDataSpecVisitor* visitor) const
{
if (TF_VERIFY(visitor)) {
_VisitSpecs(visitor);
visitor->Done(*this);
}
}
bool
SdfAbstractData::HasSpecAndField(
const SdfPath &path, const TfToken &fieldName,
SdfAbstractDataValue *value, SdfSpecType *specType) const
{
*specType = GetSpecType(path);
return *specType != SdfSpecTypeUnknown && Has(path, fieldName, value);
}
bool
SdfAbstractData::HasSpecAndField(
const SdfPath &path, const TfToken &fieldName,
VtValue *value, SdfSpecType *specType) const
{
*specType = GetSpecType(path);
return *specType != SdfSpecTypeUnknown && Has(path, fieldName, value);
}
std::type_info const &
SdfAbstractData::GetTypeid(const SdfPath &path, const TfToken &fieldName) const
{
return Get(path, fieldName).GetTypeid();
}
bool
SdfAbstractData::HasDictKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath,
SdfAbstractDataValue* value) const
{
VtValue tmp;
bool result = HasDictKey(path, fieldName, keyPath, value ? &tmp : NULL);
if (result && value) {
value->StoreValue(tmp);
}
return result;
}
bool
SdfAbstractData::HasDictKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath,
VtValue *value) const
{
// Attempt to look up field.
VtValue dictVal;
if (Has(path, fieldName, &dictVal) && dictVal.IsHolding<VtDictionary>()) {
// It's a dictionary -- attempt to find element at keyPath.
if (VtValue const *v =
dictVal.UncheckedGet<VtDictionary>().GetValueAtPath(keyPath)) {
if (value)
*value = *v;
return true;
}
}
return false;
}
VtValue
SdfAbstractData::GetDictValueByKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath) const
{
VtValue result;
HasDictKey(path, fieldName, keyPath, &result);
return result;
}
void
SdfAbstractData::SetDictValueByKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath,
const VtValue &value)
{
if (value.IsEmpty()) {
EraseDictValueByKey(path, fieldName, keyPath);
return;
}
VtValue dictVal = Get(path, fieldName);
// Swap out existing dictionary (if present).
VtDictionary dict;
dictVal.Swap(dict);
// Now modify dict.
dict.SetValueAtPath(keyPath, value);
// Swap it back into the VtValue, and set it.
dictVal.Swap(dict);
Set(path, fieldName, dictVal);
}
void
SdfAbstractData::SetDictValueByKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath,
const SdfAbstractDataConstValue& value)
{
VtValue vtval;
value.GetValue(&vtval);
SetDictValueByKey(path, fieldName, keyPath, vtval);
}
void
SdfAbstractData::EraseDictValueByKey(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath)
{
VtValue dictVal = Get(path, fieldName);
if (dictVal.IsHolding<VtDictionary>()) {
// Swap out existing dictionary (if present).
VtDictionary dict;
dictVal.Swap(dict);
// Now modify dict.
dict.EraseValueAtPath(keyPath);
// Swap it back into the VtValue, and set it.
if (dict.empty()) {
Erase(path, fieldName);
} else {
dictVal.Swap(dict);
Set(path, fieldName, dictVal);
}
}
}
std::vector<TfToken>
SdfAbstractData::ListDictKeys(const SdfPath &path,
const TfToken &fieldName,
const TfToken &keyPath) const
{
vector<TfToken> result;
VtValue dictVal = GetDictValueByKey(path, fieldName, keyPath);
if (dictVal.IsHolding<VtDictionary>()) {
VtDictionary const &dict = dictVal.UncheckedGet<VtDictionary>();
result.reserve(dict.size());
TF_FOR_ALL(i, dict)
result.push_back(TfToken(i->first));
}
return result;
}
////////////////////////////////////////////////////////////
SdfAbstractDataSpecVisitor::~SdfAbstractDataSpecVisitor()
{
}
PXR_NAMESPACE_CLOSE_SCOPE