rsClosure.cpp - fp2-dev/platform/frameworks/rs - Gitiles

 #include "rsClosure.h"

 #include "cpu_ref/rsCpuCore.h"
 #include "rsContext.h" // XXX: necessary to avoid compiler error on rsScript.h below
 #include "rsScript.h"
 #include "rsType.h"

 namespace android {
 namespace renderscript {

 RsClosure rsi_ClosureCreate(Context* context, RsScriptKernelID kernelID,
                             RsAllocation returnValue,
                             RsScriptFieldID* fieldIDs, size_t fieldIDs_length,
                             uintptr_t* values, size_t values_length,
                             size_t* sizes, size_t sizes_length,
                             RsClosure* depClosures, size_t depClosures_length,
                             RsScriptFieldID* depFieldIDs,
                             size_t depFieldIDs_length) {
   rsAssert(fieldIDs_length == values_length && values_length == sizes_length &&
            sizes_length == depClosures_length &&
            depClosures_length == depFieldIDs_length);

   return (RsClosure)(new Closure(
       context, (const ScriptKernelID*)kernelID, (Allocation*)returnValue,
       fieldIDs_length, (const ScriptFieldID**)fieldIDs, (const void**)values,
       sizes, (const Closure**)depClosures,
       (const ScriptFieldID**)depFieldIDs));
 }

 void rsi_ClosureEval(Context* rsc, RsClosure closure) {
   ((Closure*)closure)->eval();
 }

 void rsi_ClosureSetArg(Context* rsc, RsClosure closure, uint32_t index,
                        uintptr_t value, size_t size) {
   ((Closure*)closure)->setArg(index, (const void*)value, size);
 }

 void rsi_ClosureSetGlobal(Context* rsc, RsClosure closure,
                           RsScriptFieldID fieldID, uintptr_t value,
                           size_t size) {
   ((Closure*)closure)->setGlobal((const ScriptFieldID*)fieldID,
                                  (const void*)value, size);
 }

 Closure::Closure(Context* context,
                  const ScriptKernelID* kernelID,
                  Allocation* returnValue,
                  const int numValues,
                  const ScriptFieldID** fieldIDs,
                  const void** values,
                  const size_t* sizes,
                  const Closure** depClosures,
                  const ScriptFieldID** depFieldIDs) :
     ObjectBase(context), mContext(context), mKernelID((ScriptKernelID*)kernelID),
     mReturnValue(returnValue) {
   size_t i;

   for (i = 0; i < (size_t)numValues && fieldIDs[i] == nullptr; i++);

   vector<const void*> args(values, values + i);
   mArgs.swap(args);

   for (; i < (size_t)numValues; i++) {
     mGlobals[fieldIDs[i]] = std::make_pair(values[i], sizes[i]);
   }

   mDependences.insert(depClosures, depClosures + numValues);

   for (i = 0; i < mArgs.size(); i++) {
     const Closure* dep = depClosures[i];
     if (dep != nullptr) {
       auto mapping = mArgDeps[dep];
       if (mapping == nullptr) {
         mapping = new map<int, const ObjectBaseRef<ScriptFieldID>*>();
         mArgDeps[dep] = mapping;
       }
       (*mapping)[i] = new ObjectBaseRef<ScriptFieldID>(
           const_cast<ScriptFieldID*>(depFieldIDs[i]));
     }
   }

   for (; i < (size_t)numValues; i++) {
     const Closure* dep = depClosures[i];
     if (dep != nullptr) {
       auto mapping = mGlobalDeps[dep];
       if (mapping == nullptr) {
         mapping = new map<const ObjectBaseRef<ScriptFieldID>*,
             const ObjectBaseRef<ScriptFieldID>*>();
         mGlobalDeps[dep] = mapping;
       }
       (*mapping)[new ObjectBaseRef<ScriptFieldID>(
           const_cast<ScriptFieldID*>(fieldIDs[i]))] =
           new ObjectBaseRef<ScriptFieldID>(
               const_cast<ScriptFieldID*>(depFieldIDs[i]));
     }
   }
 }

 Closure::~Closure() {
   for (const auto& p : mArgDeps) {
     auto map = p.second;
     for (const auto& p1 : *map) {
       delete p1.second;
     }
     delete p.second;
   }

   for (const auto& p : mGlobalDeps) {
     auto map = p.second;
     for (const auto& p1 : *map) {
       delete p1.first;
       delete p1.second;
     }
     delete p.second;
   }
 }

 void Closure::eval() {
   Script *s = mKernelID->mScript;

   for (const auto& p : mGlobals) {
     const void* value = p.second.first;
     int size = p.second.second;
     // We use -1 size to indicate an ObjectBase rather than a primitive type
     if (size < 0) {
       s->setVarObj(p.first->mSlot, (ObjectBase*)value);
     } else {
       s->setVar(p.first->mSlot, (const void*)&value, size);
     }
   }

   s->runForEach(mContext, mKernelID->mSlot, (const Allocation **)(&mArgs[0]),
                 mArgs.size(), mReturnValue, nullptr, 0, nullptr);
 }

 void Closure::setArg(const uint32_t index, const void* value, const size_t size) {
   mArgs[index] = value;
 }

 void Closure::setGlobal(const ScriptFieldID* fieldID, const void* value,
                         const size_t size) {
   mGlobals[fieldID] = std::make_pair(value, size);
 }

 }  // namespace renderscript
 }  // namespace android
	#include "rsClosure.h"

	#include "cpu_ref/rsCpuCore.h"
	#include "rsContext.h" // XXX: necessary to avoid compiler error on rsScript.h below
	#include "rsScript.h"
	#include "rsType.h"

	namespace android {
	namespace renderscript {

	RsClosure rsi_ClosureCreate(Context* context, RsScriptKernelID kernelID,
	RsAllocation returnValue,
	RsScriptFieldID* fieldIDs, size_t fieldIDs_length,
	uintptr_t* values, size_t values_length,
	size_t* sizes, size_t sizes_length,
	RsClosure* depClosures, size_t depClosures_length,
	RsScriptFieldID* depFieldIDs,
	size_t depFieldIDs_length) {
	rsAssert(fieldIDs_length == values_length && values_length == sizes_length &&
	sizes_length == depClosures_length &&
	depClosures_length == depFieldIDs_length);

	return (RsClosure)(new Closure(
	context, (const ScriptKernelID)kernelID, (Allocation)returnValue,
	fieldIDs_length, (const ScriptFieldID)fieldIDs, (const void)values,
	sizes, (const Closure**)depClosures,
	(const ScriptFieldID**)depFieldIDs));
	}

	void rsi_ClosureEval(Context* rsc, RsClosure closure) {
	((Closure*)closure)->eval();
	}

	void rsi_ClosureSetArg(Context* rsc, RsClosure closure, uint32_t index,
	uintptr_t value, size_t size) {
	((Closure)closure)->setArg(index, (const void)value, size);
	}

	void rsi_ClosureSetGlobal(Context* rsc, RsClosure closure,
	RsScriptFieldID fieldID, uintptr_t value,
	size_t size) {
	((Closure)closure)->setGlobal((const ScriptFieldID)fieldID,
	(const void*)value, size);
	}

	Closure::Closure(Context* context,
	const ScriptKernelID* kernelID,
	Allocation* returnValue,
	const int numValues,
	const ScriptFieldID** fieldIDs,
	const void** values,
	const size_t* sizes,
	const Closure** depClosures,
	const ScriptFieldID** depFieldIDs) :
	ObjectBase(context), mContext(context), mKernelID((ScriptKernelID*)kernelID),
	mReturnValue(returnValue) {
	size_t i;

	for (i = 0; i < (size_t)numValues && fieldIDs[i] == nullptr; i++);

	vector<const void*> args(values, values + i);
	mArgs.swap(args);

	for (; i < (size_t)numValues; i++) {
	mGlobals[fieldIDs[i]] = std::make_pair(values[i], sizes[i]);
	}

	mDependences.insert(depClosures, depClosures + numValues);

	for (i = 0; i < mArgs.size(); i++) {
	const Closure* dep = depClosures[i];
	if (dep != nullptr) {
	auto mapping = mArgDeps[dep];
	if (mapping == nullptr) {
	mapping = new map<int, const ObjectBaseRef<ScriptFieldID>*>();
	mArgDeps[dep] = mapping;
	}
	(*mapping)[i] = new ObjectBaseRef<ScriptFieldID>(
	const_cast<ScriptFieldID*>(depFieldIDs[i]));
	}
	}

	for (; i < (size_t)numValues; i++) {
	const Closure* dep = depClosures[i];
	if (dep != nullptr) {
	auto mapping = mGlobalDeps[dep];
	if (mapping == nullptr) {
	mapping = new map<const ObjectBaseRef<ScriptFieldID>*,
	const ObjectBaseRef<ScriptFieldID>*>();
	mGlobalDeps[dep] = mapping;
	}
	(*mapping)[new ObjectBaseRef<ScriptFieldID>(
	const_cast<ScriptFieldID*>(fieldIDs[i]))] =
	new ObjectBaseRef<ScriptFieldID>(
	const_cast<ScriptFieldID*>(depFieldIDs[i]));
	}
	}
	}

	Closure::~Closure() {
	for (const auto& p : mArgDeps) {
	auto map = p.second;
	for (const auto& p1 : *map) {
	delete p1.second;
	}
	delete p.second;
	}

	for (const auto& p : mGlobalDeps) {
	auto map = p.second;
	for (const auto& p1 : *map) {
	delete p1.first;
	delete p1.second;
	}
	delete p.second;
	}
	}

	void Closure::eval() {
	Script *s = mKernelID->mScript;

	for (const auto& p : mGlobals) {
	const void* value = p.second.first;
	int size = p.second.second;
	// We use -1 size to indicate an ObjectBase rather than a primitive type
	if (size < 0) {
	s->setVarObj(p.first->mSlot, (ObjectBase*)value);
	} else {
	s->setVar(p.first->mSlot, (const void*)&value, size);
	}
	}

	s->runForEach(mContext, mKernelID->mSlot, (const Allocation **)(&mArgs[0]),
	mArgs.size(), mReturnValue, nullptr, 0, nullptr);
	}

	void Closure::setArg(const uint32_t index, const void* value, const size_t size) {
	mArgs[index] = value;
	}

	void Closure::setGlobal(const ScriptFieldID* fieldID, const void* value,
	const size_t size) {
	mGlobals[fieldID] = std::make_pair(value, size);
	}

	} // namespace renderscript
	} // namespace android