/*
* Copyright (C) 2018 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <C2Debug.h>
#include <C2ParamInternal.h>
#include <util/C2InterfaceHelper.h>
#include <android-base/stringprintf.h>
using ::android::base::StringPrintf;
/* --------------------------------- ReflectorHelper --------------------------------- */
void C2ReflectorHelper::addStructDescriptors(
std::vector<C2StructDescriptor> &structs, _Tuple<> *) {
std::lock_guard<std::mutex> lock(_mMutex);
for (C2StructDescriptor &strukt : structs) {
// TODO: check if structure descriptions conflict with existing ones
addStructDescriptor(std::move(strukt));
}
}
std::unique_ptr<C2StructDescriptor>
C2ReflectorHelper::describe(C2Param::CoreIndex paramIndex) const {
std::lock_guard<std::mutex> lock(_mMutex);
auto it = _mStructs.find(paramIndex);
if (it == _mStructs.end()) {
return nullptr;
} else {
return std::make_unique<C2StructDescriptor>(it->second);
}
};
void C2ReflectorHelper::addStructDescriptor(C2StructDescriptor &&strukt) {
if (_mStructs.find(strukt.coreIndex()) != _mStructs.end()) {
// already added
// TODO: validate that descriptor matches stored descriptor
}
// validate that all struct fields are known to this reflector
for (const C2FieldDescriptor &fd : strukt) {
if (fd.type() & C2FieldDescriptor::STRUCT_FLAG) {
C2Param::CoreIndex coreIndex = fd.type() &~ C2FieldDescriptor::STRUCT_FLAG;
if (_mStructs.find(coreIndex) == _mStructs.end()) {
C2_LOG(INFO) << "missing struct descriptor #" << coreIndex << " for field "
<< fd.name() << " of struct #" << strukt.coreIndex();
}
}
}
_mStructs.emplace(strukt.coreIndex(), strukt);
}
/* ---------------------------- ParamHelper ---------------------------- */
class C2InterfaceHelper::ParamHelper::Impl {
public:
Impl(ParamRef param, C2StringLiteral name, C2StructDescriptor &&strukt)
: mParam(param), mName(name), _mStruct(strukt) { }
Impl(Impl&&) = default;
void addDownDependency(C2Param::Index index) {
mDownDependencies.push_back(index);
}
C2InterfaceHelper::ParamHelper::attrib_t& attrib() {
return mAttrib;
}
void build() {
// move dependencies into descriptor
mDescriptor = std::make_shared<C2ParamDescriptor>(
index(), (C2ParamDescriptor::attrib_t)mAttrib,
std::move(mName), std::move(mDependencies));
}
void createFieldsAndSupportedValues(const std::shared_ptr<C2ParamReflector> &reflector) {
for (const C2FieldUtils::Info &f :
C2FieldUtils::enumerateFields(*mDefaultValue, reflector)) {
if (!f.isArithmetic()) {
continue;
}
std::unique_ptr<C2FieldSupportedValues> fsvPointer;
// create a breakable structure
do {
C2FieldSupportedValues fsv;
switch (f.type()) {
case C2FieldDescriptor::INT32: fsv = C2SupportedRange<int32_t>::Any(); break;
case C2FieldDescriptor::UINT32: fsv = C2SupportedRange<uint32_t>::Any(); break;
case C2FieldDescriptor::INT64: fsv = C2SupportedRange<int64_t>::Any(); break;
case C2FieldDescriptor::UINT64: fsv = C2SupportedRange<uint64_t>::Any(); break;
case C2FieldDescriptor::FLOAT: fsv = C2SupportedRange<float>::Any(); break;
case C2FieldDescriptor::BLOB: fsv = C2SupportedRange<uint8_t>::Any(); break;
case C2FieldDescriptor::STRING: fsv = C2SupportedRange<char>::Any(); break;
default:
continue; // break out of do {} while
}
fsvPointer = std::make_unique<C2FieldSupportedValues>(fsv);
} while (false);
mFields.emplace_hint(
mFields.end(),
_C2FieldId(f.offset(), f.size()),
std::make_shared<FieldHelper>(
mParam, _C2FieldId(f.offset(), f.size()), std::move(fsvPointer)));
}
}
/**
* Finds a field descriptor.
*/
std::shared_ptr<FieldHelper> findField(size_t baseOffs, size_t baseSize) const {
auto it = mFields.find(_C2FieldId(baseOffs, baseSize));
if (it == mFields.end()) {
return nullptr;
}
return it->second;
}
const std::vector<ParamRef> getDependenciesAsRefs() const {
return mDependenciesAsRefs;
}
std::shared_ptr<const C2ParamDescriptor> getDescriptor() const {
return mDescriptor;
}
const std::vector<C2Param::Index> getDownDependencies() const {
return mDownDependencies;
}
C2Param::Index index() const {
if (!mDefaultValue) {
fprintf(stderr, "%s missing default value\n", mName.c_str());
}
return mDefaultValue->index();
}
C2String name() const {
return mName;
}
const ParamRef ref() const {
return mParam;
}
C2StructDescriptor retrieveStructDescriptor() {
return std::move(_mStruct);
}
void setDefaultValue(std::shared_ptr<C2Param> default_) {
mDefaultValue = default_;
}
void setDependencies(std::vector<C2Param::Index> indices, std::vector<ParamRef> refs) {
mDependencies = indices;
mDependenciesAsRefs = refs;
}
void setFields(std::vector<C2ParamFieldValues> &&fields) {
// do not allow adding fields multiple times, or to const values
if (!mFields.empty()) {
C2_LOG(FATAL) << "Trying to add fields to param " << mName << " multiple times";
} else if (mAttrib & attrib_t::IS_CONST) {
C2_LOG(FATAL) << "Trying to add fields to const param " << mName;
}
for (C2ParamFieldValues &pfv : fields) {
mFields.emplace_hint(
mFields.end(),
// _C2FieldId constructor
_C2ParamInspector::GetField(pfv.paramOrField),
// Field constructor
std::make_shared<FieldHelper>(mParam,
_C2ParamInspector::GetField(pfv.paramOrField),
std::move(pfv.values)));
}
}
void setGetter(std::function<std::shared_ptr<C2Param>(bool)> getter) {
mGetter = getter;
}
void setSetter(std::function<C2R(const C2Param *, bool, bool *, Factory &)> setter) {
mSetter = setter;
}
c2_status_t trySet(
const C2Param *value, bool mayBlock, bool *changed, Factory &f,
std::vector<std::unique_ptr<C2SettingResult>>* const failures) {
C2R result = mSetter(value, mayBlock, changed, f);
return result.retrieveFailures(failures);
}
c2_status_t validate(const std::shared_ptr<C2ParamReflector> &reflector) {
if (!mSetter && mFields.empty()) {
C2_LOG(WARNING) << "Param " << mName << " has no setter, making it const";
// dependencies are empty in this case
mAttrib |= attrib_t::IS_CONST;
} else if (!mSetter) {
C2_LOG(FATAL) << "Param " << mName << " has no setter";
}
if (mAttrib & attrib_t::IS_CONST) {
createFieldsAndSupportedValues(reflector);
} else {
// TODO: update default based on setter and verify that FSV covers the values
}
if (mFields.empty()) {
C2_LOG(FATAL) << "Param " << mName << " has no fields";
}
return C2_OK;
}
std::shared_ptr<C2Param> value() {
return mParam.get();
}
std::shared_ptr<const C2Param> value() const {
return mParam.get();
}
private:
typedef _C2ParamInspector::attrib_t attrib_t;
ParamRef mParam;
C2String mName;
C2StructDescriptor _mStruct;
std::shared_ptr<C2Param> mDefaultValue;
attrib_t mAttrib;
std::function<C2R(const C2Param *, bool, bool *, Factory &)> mSetter;
std::function<std::shared_ptr<C2Param>(bool)> mGetter;
std::vector<C2Param::Index> mDependencies;
std::vector<ParamRef> mDependenciesAsRefs;
std::vector<C2Param::Index> mDownDependencies; // TODO: this does not work for stream dependencies
std::map<_C2FieldId, std::shared_ptr<FieldHelper>> mFields;
std::shared_ptr<C2ParamDescriptor> mDescriptor;
};
C2InterfaceHelper::ParamHelper::ParamHelper(
ParamRef param, C2StringLiteral name, C2StructDescriptor &&strukt)
: mImpl(std::make_unique<C2InterfaceHelper::ParamHelper::Impl>(
param, name, std::move(strukt))) { }
C2InterfaceHelper::ParamHelper::ParamHelper(C2InterfaceHelper::ParamHelper &&) = default;
C2InterfaceHelper::ParamHelper::~ParamHelper() = default;
void C2InterfaceHelper::ParamHelper::addDownDependency(C2Param::Index index) {
return mImpl->addDownDependency(index);
}
C2InterfaceHelper::ParamHelper::attrib_t& C2InterfaceHelper::ParamHelper::attrib() {
return mImpl->attrib();
}
std::shared_ptr<C2InterfaceHelper::ParamHelper> C2InterfaceHelper::ParamHelper::build() {
mImpl->build();
return std::make_shared<C2InterfaceHelper::ParamHelper>(std::move(*this));
}
std::shared_ptr<C2InterfaceHelper::FieldHelper>
C2InterfaceHelper::ParamHelper::findField(size_t baseOffs, size_t baseSize) const {
return mImpl->findField(baseOffs, baseSize);
}
const std::vector<C2InterfaceHelper::ParamRef>
C2InterfaceHelper::ParamHelper::getDependenciesAsRefs() const {
return mImpl->getDependenciesAsRefs();
}
std::shared_ptr<const C2ParamDescriptor>
C2InterfaceHelper::ParamHelper::getDescriptor() const {
return mImpl->getDescriptor();
}
const std::vector<C2Param::Index> C2InterfaceHelper::ParamHelper::getDownDependencies() const {
return mImpl->getDownDependencies();
}
C2Param::Index C2InterfaceHelper::ParamHelper::index() const {
return mImpl->index();
}
C2String C2InterfaceHelper::ParamHelper::name() const {
return mImpl->name();
}
const C2InterfaceHelper::ParamRef C2InterfaceHelper::ParamHelper::ref() const {
return mImpl->ref();
}
C2StructDescriptor C2InterfaceHelper::ParamHelper::retrieveStructDescriptor() {
return mImpl->retrieveStructDescriptor();
}
void C2InterfaceHelper::ParamHelper::setDefaultValue(std::shared_ptr<C2Param> default_) {
mImpl->setDefaultValue(default_);
}
void C2InterfaceHelper::ParamHelper::setDependencies(
std::vector<C2Param::Index> indices, std::vector<ParamRef> refs) {
mImpl->setDependencies(indices, refs);
}
void C2InterfaceHelper::ParamHelper::setFields(std::vector<C2ParamFieldValues> &&fields) {
return mImpl->setFields(std::move(fields));
}
void C2InterfaceHelper::ParamHelper::setGetter(
std::function<std::shared_ptr<C2Param>(bool)> getter) {
mImpl->setGetter(getter);
}
void C2InterfaceHelper::ParamHelper::setSetter(
std::function<C2R(const C2Param *, bool, bool *, Factory &)> setter) {
mImpl->setSetter(setter);
}
c2_status_t C2InterfaceHelper::ParamHelper::trySet(
const C2Param *value, bool mayBlock, bool *changed, Factory &f,
std::vector<std::unique_ptr<C2SettingResult>>* const failures) {
return mImpl->trySet(value, mayBlock, changed, f, failures);
}
c2_status_t C2InterfaceHelper::ParamHelper::validate(
const std::shared_ptr<C2ParamReflector> &reflector) {
return mImpl->validate(reflector);
}
std::shared_ptr<C2Param> C2InterfaceHelper::ParamHelper::value() {
return mImpl->value();
}
std::shared_ptr<const C2Param> C2InterfaceHelper::ParamHelper::value() const {
return mImpl->value();
}
/* ---------------------------- FieldHelper ---------------------------- */
C2ParamField C2InterfaceHelper::FieldHelper::makeParamField(C2Param::Index index) const {
return _C2ParamInspector::CreateParamField(index, mFieldId);
}
C2InterfaceHelper::FieldHelper::FieldHelper(const ParamRef ¶m, const _C2FieldId &field,
std::unique_ptr<C2FieldSupportedValues> &&values)
: mParam(param),
mFieldId(field),
mPossible(std::move(values)) {
C2_LOG(VERBOSE) << "Creating field helper " << field << " "
<< C2FieldSupportedValuesHelper<uint32_t>(*mPossible);
}
void C2InterfaceHelper::FieldHelper::setSupportedValues(
std::unique_ptr<C2FieldSupportedValues> &&values) {
mSupported = std::move(values);
}
const C2FieldSupportedValues *C2InterfaceHelper::FieldHelper::getSupportedValues() const {
return (mSupported ? mSupported : mPossible).get();
}
const C2FieldSupportedValues *C2InterfaceHelper::FieldHelper::getPossibleValues() const {
return mPossible.get();
}
/* ---------------------------- Field ---------------------------- */
/**
* Wrapper around field-supported-values builder that gets stored in the
* field helper when the builder goes out of scope.
*/
template<typename T>
struct SupportedValuesBuilder : C2ParamFieldValuesBuilder<T> {
SupportedValuesBuilder(
C2ParamField &field, std::shared_ptr<C2InterfaceHelper::FieldHelper> helper)
: C2ParamFieldValuesBuilder<T>(field), _mHelper(helper), _mField(field) {
}
/**
* Save builder values on destruction.
*/
virtual ~SupportedValuesBuilder() override {
_mHelper->setSupportedValues(std::move(C2ParamFieldValues(*this).values));
}
private:
std::shared_ptr<C2InterfaceHelper::FieldHelper> _mHelper;
C2ParamField _mField;
};
template<typename T>
C2ParamFieldValuesBuilder<T> C2InterfaceHelper::Field<T>::shouldBe() const {
return C2ParamFieldValuesBuilder<T>(_mField);
}
template<typename T>
C2ParamFieldValuesBuilder<T> C2InterfaceHelper::Field<T>::mustBe() {
return SupportedValuesBuilder<T>(_mField, _mHelper);
}
/*
template<typename T> C2SettingResultsBuilder C2InterfaceHelper::Field<T>::validatePossible(T &value)
const {
/// TODO
return C2SettingResultsBuilder::Ok();
}
*/
template<typename T>
C2InterfaceHelper::Field<T>::Field(std::shared_ptr<FieldHelper> helper, C2Param::Index index)
: _mHelper(helper), _mField(helper->makeParamField(index)) { }
template struct C2InterfaceHelper::Field<uint8_t>;
template struct C2InterfaceHelper::Field<char>;
template struct C2InterfaceHelper::Field<int32_t>;
template struct C2InterfaceHelper::Field<uint32_t>;
//template struct C2InterfaceHelper::Field<c2_cntr32_t>;
template struct C2InterfaceHelper::Field<int64_t>;
template struct C2InterfaceHelper::Field<uint64_t>;
//template struct C2InterfaceHelper::Field<c2_cntr64_t>;
template struct C2InterfaceHelper::Field<float>;
/* --------------------------------- Factory --------------------------------- */
struct C2InterfaceHelper::FactoryImpl : public C2InterfaceHelper::Factory {
virtual std::shared_ptr<C2ParamReflector> getReflector() const override {
return _mReflector;
}
virtual std::shared_ptr<ParamHelper>
getParamHelper(const ParamRef ¶m) const override {
return _mParams.find(param)->second;
}
public:
FactoryImpl(std::shared_ptr<C2ParamReflector> reflector)
: _mReflector(reflector) { }
virtual ~FactoryImpl() = default;
void addParam(std::shared_ptr<ParamHelper> param) {
_mParams.insert({ param->ref(), param });
_mIndexToHelper.insert({param->index(), param});
// add down-dependencies (and validate dependencies as a result)
size_t ix = 0;
for (const ParamRef &ref : param->getDependenciesAsRefs()) {
// dependencies must already be defined
if (!_mParams.count(ref)) {
C2_LOG(FATAL) << "Parameter " << param->name() << " has a dependency at index "
<< ix << " that is not yet defined";
}
_mParams.find(ref)->second->addDownDependency(param->index());
++ix;
}
_mDependencyIndex.emplace(param->index(), _mDependencyIndex.size());
}
std::shared_ptr<ParamHelper> getParam(C2Param::Index ix) const {
// TODO: handle streams separately
const auto it = _mIndexToHelper.find(ix);
if (it == _mIndexToHelper.end()) {
return nullptr;
}
return it->second;
}
/**
* TODO: this could return a copy using proper pointer cast.
*/
std::shared_ptr<C2Param> getParamValue(C2Param::Index ix) const {
std::shared_ptr<ParamHelper> helper = getParam(ix);
return helper ? helper->value() : nullptr;
}
c2_status_t querySupportedParams(
std::vector<std::shared_ptr<C2ParamDescriptor>> *const params) const {
for (const auto &it : _mParams) {
// TODO: change querySupportedParams signature?
params->push_back(
std::const_pointer_cast<C2ParamDescriptor>(it.second->getDescriptor()));
}
// TODO: handle errors
return C2_OK;
}
size_t getDependencyIndex(C2Param::Index ix) {
// in this version of the helper there is only a single stream so
// we can look up directly by index
auto it = _mDependencyIndex.find(ix);
return it == _mDependencyIndex.end() ? SIZE_MAX : it->second;
}
private:
std::map<ParamRef, std::shared_ptr<ParamHelper>> _mParams;
std::map<C2Param::Index, std::shared_ptr<ParamHelper>> _mIndexToHelper;
std::shared_ptr<C2ParamReflector> _mReflector;
std::map<C2Param::Index, size_t> _mDependencyIndex;
};
/* --------------------------------- Helper --------------------------------- */
namespace {
static std::string asString(C2Param *p) {
char addr[20];
sprintf(addr, "%p:[", p);
std::string v = addr;
for (size_t i = 0; i < p->size(); ++i) {
char d[4];
sprintf(d, " %02x", *(((uint8_t *)p) + i));
v += d + (i == 0);
}
return v + "]";
}
}
C2InterfaceHelper::C2InterfaceHelper(std::shared_ptr<C2ReflectorHelper> reflector)
: mReflector(reflector),
_mFactory(std::make_shared<FactoryImpl>(reflector)) { }
size_t C2InterfaceHelper::GetBaseOffset(const std::shared_ptr<C2ParamReflector> &reflector,
C2Param::CoreIndex index, size_t offset) {
std::unique_ptr<C2StructDescriptor> param = reflector->describe(index);
if (param == nullptr) {
return ~(size_t)0; // param structure not described
}
for (const C2FieldDescriptor &field : *param) {
size_t fieldOffset = _C2ParamInspector::GetOffset(field);
size_t fieldSize = _C2ParamInspector::GetSize(field);
size_t fieldExtent = field.extent();
if (offset < fieldOffset) {
return ~(size_t)0; // not found
}
if (offset == fieldOffset) {
// exact match
return offset;
}
if (field.extent() == 0 || offset < fieldOffset + fieldSize * fieldExtent) {
// reduce to first element in case of array
offset = fieldOffset + (offset - fieldOffset) % fieldSize;
if (field.type() >= C2FieldDescriptor::STRUCT_FLAG) {
// this offset is within a field
offset = GetBaseOffset(
reflector, field.type() & ~C2FieldDescriptor::STRUCT_FLAG,
offset - fieldOffset);
return ~offset ? fieldOffset + offset : offset;
}
}
}
return ~(size_t)0; // not found
}
void C2InterfaceHelper::addParameter(std::shared_ptr<ParamHelper> param) {
mReflector->addStructDescriptor(param->retrieveStructDescriptor());
c2_status_t err = param->validate(mReflector);
if (err != C2_CORRUPTED) {
_mFactory->addParam(param);
}
}
c2_status_t C2InterfaceHelper::config(
const std::vector<C2Param*> ¶ms, c2_blocking_t mayBlock,
std::vector<std::unique_ptr<C2SettingResult>>* const failures, bool updateParams,
std::vector<std::shared_ptr<C2Param>> *changes __unused /* TODO */) {
bool paramWasInvalid = false; // TODO is this the same as bad value?
bool paramNotFound = false;
bool paramBadValue = false;
bool paramNoMemory = false;
bool paramBlocking = false;
bool paramTimedOut = false;
bool paramCorrupted = false;
// dependencies
// down dependencies are marked dirty, but params set are not immediately
// marked dirty (unless they become down dependency) so that we can
// avoid setting them if they did not change
// TODO: there could be multiple indices for the same dependency index
// { depIx, paramIx } may be a suitable key
std::map<size_t, std::pair<C2Param::Index, bool>> dependencies;
// we cannot determine the last valid parameter, so add an extra
// loop iteration after the last parameter
for (size_t p_ix = 0; p_ix <= params.size(); ++p_ix) {
C2Param *p = nullptr;
C2Param::Index paramIx = 0u;
size_t paramDepIx = SIZE_MAX;
bool last = p_ix == params.size();
if (!last) {
p = params[p_ix];
if (!*p) {
paramWasInvalid = true;
p->invalidate();
continue;
}
paramIx = p->index();
paramDepIx = getDependencyIndex(paramIx);
if (paramDepIx == SIZE_MAX) {
// unsupported parameter
paramNotFound = true;
continue;
}
//
// first insert - mark not dirty
// it may have been marked dirty by a dependency update
// this does not overrwrite(!)
(void)dependencies.insert({ paramDepIx, { paramIx, false /* dirty */ }});
auto it = dependencies.find(paramDepIx);
C2_LOG(VERBOSE) << "marking dependency for setting at #" << paramDepIx << ": "
<< it->second.first << ", update "
<< (it->second.second ? "always (dirty)" : "only if changed");
} else {
// process any remaining dependencies
if (dependencies.empty()) {
continue;
}
C2_LOG(VERBOSE) << "handling dirty down dependencies after last setting";
}
// process any dirtied down-dependencies until the next param
while (dependencies.size() && dependencies.begin()->first <= paramDepIx) {
auto min = dependencies.begin();
C2Param::Index ix = min->second.first;
bool dirty = min->second.second;
dependencies.erase(min);
std::shared_ptr<ParamHelper> param = _mFactory->getParam(ix);
C2_LOG(VERBOSE) << "old value " << asString(param->value().get());
if (!last) {
C2_LOG(VERBOSE) << "new value " << asString(p);
}
if (!last && !dirty && ix == paramIx && *param->value() == *p) {
// no change in value - and dependencies were not updated
// no need to update
C2_LOG(VERBOSE) << "ignoring setting unchanged param " << ix;
continue;
}
// apply setting
bool changed = false;
C2_LOG(VERBOSE) << "setting param " << ix;
std::shared_ptr<C2Param> oldValue = param->value();
c2_status_t res = param->trySet(
(!last && paramIx == ix) ? p : param->value().get(), mayBlock,
&changed, *_mFactory, failures);
std::shared_ptr<C2Param> newValue = param->value();
C2_CHECK_EQ(oldValue == newValue, *oldValue == *newValue);
switch (res) {
case C2_OK: break;
case C2_BAD_VALUE: paramBadValue = true; break;
case C2_NO_MEMORY: paramNoMemory = true; break;
case C2_TIMED_OUT: paramTimedOut = true; break;
case C2_BLOCKING: paramBlocking = true; break;
case C2_CORRUPTED: paramCorrupted = true; break;
default: ;// TODO fatal
}
// copy back result for configured values (or invalidate if it does not fit or match)
if (updateParams && !last && paramIx == ix) {
if (!p->updateFrom(*param->value())) {
p->invalidate();
}
}
// compare ptrs as params are copy on write
if (changed) {
C2_LOG(VERBOSE) << "param " << ix << " value changed";
// value changed update down-dependencies and mark them dirty
for (const C2Param::Index ix : param->getDownDependencies()) {
C2_LOG(VERBOSE) << 1;
auto insert_res = dependencies.insert(
{ getDependencyIndex(ix), { ix, true /* dirty */ }});
if (!insert_res.second) {
(*insert_res.first).second.second = true; // mark dirty
}
auto it = dependencies.find(getDependencyIndex(ix));
C2_CHECK(it->second.second);
C2_LOG(VERBOSE) << "marking down dependencies to update at #"
<< getDependencyIndex(ix) << ": " << it->second.first;
}
}
}
}
return (paramCorrupted ? C2_CORRUPTED :
paramBlocking ? C2_BLOCKING :
paramTimedOut ? C2_TIMED_OUT :
paramNoMemory ? C2_NO_MEMORY :
(paramBadValue || paramWasInvalid) ? C2_BAD_VALUE :
paramNotFound ? C2_BAD_INDEX : C2_OK);
}
size_t C2InterfaceHelper::getDependencyIndex(C2Param::Index ix) const {
return _mFactory->getDependencyIndex(ix);
}
c2_status_t C2InterfaceHelper::query(
const std::vector<C2Param*> &stackParams,
const std::vector<C2Param::Index> &heapParamIndices,
c2_blocking_t mayBlock __unused /* TODO */,
std::vector<std::unique_ptr<C2Param>>* const heapParams) const {
bool paramWasInvalid = false;
bool paramNotFound = false;
bool paramDidNotFit = false;
bool paramNoMemory = false;
for (C2Param* const p : stackParams) {
if (!*p) {
paramWasInvalid = true;
p->invalidate();
} else {
std::shared_ptr<C2Param> value = _mFactory->getParamValue(p->index());
if (!value) {
paramNotFound = true;
p->invalidate();
} else if (!p->updateFrom(*value)) {
paramDidNotFit = true;
p->invalidate();
}
}
}
for (const C2Param::Index ix : heapParamIndices) {
std::shared_ptr<C2Param> value = _mFactory->getParamValue(ix);
if (value) {
std::unique_ptr<C2Param> p = C2Param::Copy(*value);
if (p != nullptr) {
heapParams->push_back(std::move(p));
} else {
paramNoMemory = true;
}
} else {
paramNotFound = true;
}
}
return paramNoMemory ? C2_NO_MEMORY :
paramNotFound ? C2_BAD_INDEX :
// the following errors are not marked in the return value
paramDidNotFit ? C2_OK :
paramWasInvalid ? C2_OK : C2_OK;
}
c2_status_t C2InterfaceHelper::querySupportedParams(
std::vector<std::shared_ptr<C2ParamDescriptor>> *const params) const {
return _mFactory->querySupportedParams(params);
}
c2_status_t C2InterfaceHelper::querySupportedValues(
std::vector<C2FieldSupportedValuesQuery> &fields, c2_blocking_t mayBlock __unused) const {
for (C2FieldSupportedValuesQuery &query : fields) {
C2_LOG(VERBOSE) << "querying field " << query.field();
C2Param::Index ix = _C2ParamInspector::GetIndex(query.field());
std::shared_ptr<ParamHelper> param = _mFactory->getParam(ix);
if (!param) {
C2_LOG(VERBOSE) << "bad param";
query.status = C2_BAD_INDEX;
continue;
}
size_t offs = GetBaseOffset(
mReflector, ix,
_C2ParamInspector::GetOffset(query.field()) - sizeof(C2Param));
if (~offs == 0) {
C2_LOG(VERBOSE) << "field could not be found";
query.status = C2_NOT_FOUND;
continue;
}
offs += sizeof(C2Param);
C2_LOG(VERBOSE) << "field resolved to "
<< StringPrintf("@%02zx+%02x", offs, _C2ParamInspector::GetSize(query.field()));
std::shared_ptr<FieldHelper> field =
param->findField(offs, _C2ParamInspector::GetSize(query.field()));
if (!field) {
C2_LOG(VERBOSE) << "bad field";
query.status = C2_NOT_FOUND;
continue;
}
const C2FieldSupportedValues *values = nullptr;
switch (query.type()) {
case C2FieldSupportedValuesQuery::CURRENT:
values = field->getSupportedValues();
break;
case C2FieldSupportedValuesQuery::POSSIBLE:
values = field->getPossibleValues();
break;
default:
C2_LOG(VERBOSE) << "bad query type: " << query.type();
query.status = C2_BAD_VALUE;
}
if (values) {
query.values = *values;
query.status = C2_OK;
} else {
C2_LOG(DEBUG) << "no values published by component";
query.status = C2_CORRUPTED;
}
}
return C2_OK;
}