libs/rs/driver/rsdBcc.cpp - platform/frameworks/base - Gitiles

 /*
  * Copyright (C) 2011 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 "rsdCore.h"
 #include "rsdBcc.h"
 #include "rsdRuntime.h"

 #include "rsContext.h"
 #include "rsScriptC.h"

 #include "utils/Timers.h"
 #include "utils/StopWatch.h"
 extern "C" {
 #include "libdex/ZipArchive.h"
 }


 using namespace android;
 using namespace android::renderscript;

 struct DrvScript {
     int (*mRoot)();
     void (*mInit)();

     BCCScriptRef mBccScript;

     uint32_t mInvokeFunctionCount;
     InvokeFunc_t *mInvokeFunctions;
     uint32_t mFieldCount;
     void ** mFieldAddress;
     bool * mFieldIsObject;

     const uint8_t * mScriptText;
     uint32_t mScriptTextLength;

     //uint32_t * mObjectSlots;
     //uint32_t mObjectSlotCount;

     uint32_t mPragmaCount;
     const char ** mPragmaKeys;
     const char ** mPragmaValues;

 };


 static Script * setTLS(Script *sc) {
     ScriptTLSStruct * tls = (ScriptTLSStruct *)pthread_getspecific(rsdgThreadTLSKey);
     rsAssert(tls);
     Script *old = tls->mScript;
     tls->mScript = sc;
     return old;
 }


 // Input: cacheDir
 // Input: resName
 // Input: extName
 //
 // Note: cacheFile = resName + extName
 //
 // Output: Returns cachePath == cacheDir + cacheFile
 static char *genCacheFileName(const char *cacheDir,
                               const char *resName,
                               const char *extName) {
     char cachePath[512];
     char cacheFile[sizeof(cachePath)];
     const size_t kBufLen = sizeof(cachePath) - 1;

     cacheFile[0] = '\0';
     // Note: resName today is usually something like
     //       "/com.android.fountain:raw/fountain"
     if (resName[0] != '/') {
         // Get the absolute path of the raw/***.bc file.

         // Generate the absolute path.  This doesn't do everything it
         // should, e.g. if resName is "./out/whatever" it doesn't crunch
         // the leading "./" out because this if-block is not triggered,
         // but it'll make do.
         //
         if (getcwd(cacheFile, kBufLen) == NULL) {
             LOGE("Can't get CWD while opening raw/***.bc file\n");
             return NULL;
         }
         // Append "/" at the end of cacheFile so far.
         strncat(cacheFile, "/", kBufLen);
     }

     // cacheFile = resName + extName
     //
     strncat(cacheFile, resName, kBufLen);
     if (extName != NULL) {
         // TODO(srhines): strncat() is a bit dangerous
         strncat(cacheFile, extName, kBufLen);
     }

     // Turn the path into a flat filename by replacing
     // any slashes after the first one with '@' characters.
     char *cp = cacheFile + 1;
     while (*cp != '\0') {
         if (*cp == '/') {
             *cp = '@';
         }
         cp++;
     }

     // Tack on the file name for the actual cache file path.
     strncpy(cachePath, cacheDir, kBufLen);
     strncat(cachePath, cacheFile, kBufLen);

     LOGV("Cache file for '%s' '%s' is '%s'\n", resName, extName, cachePath);
     return strdup(cachePath);
 }

 bool rsdScriptInit(const Context *rsc,
                      ScriptC *script,
                      char const *resName,
                      char const *cacheDir,
                      uint8_t const *bitcode,
                      size_t bitcodeSize,
                      uint32_t flags) {
     //LOGE("rsdScriptCreate %p %p %p %p %i %i %p", rsc, resName, cacheDir, bitcode, bitcodeSize, flags, lookupFunc);

     pthread_mutex_lock(&rsdgInitMutex);
     char *cachePath = NULL;
     uint32_t objectSlotCount = 0;

     DrvScript *drv = (DrvScript *)calloc(1, sizeof(DrvScript));
     if (drv == NULL) {
         goto error;
     }
     script->mHal.drv = drv;

     drv->mBccScript = bccCreateScript();
     script->mHal.info.isThreadable = true;
     drv->mScriptText = bitcode;
     drv->mScriptTextLength = bitcodeSize;

     //LOGE("mBccScript %p", script->mBccScript);

     if (bccRegisterSymbolCallback(drv->mBccScript, &rsdLookupRuntimeStub, script) != 0) {
         LOGE("bcc: FAILS to register symbol callback");
         goto error;
     }

     if (bccReadBC(drv->mBccScript,
                   resName,
                   (char const *)drv->mScriptText,
                   drv->mScriptTextLength, 0) != 0) {
         LOGE("bcc: FAILS to read bitcode");
         goto error;
     }

 #if 1
     if (bccLinkFile(drv->mBccScript, "/system/lib/libclcore.bc", 0) != 0) {
         LOGE("bcc: FAILS to link bitcode");
         goto error;
     }
 #endif
     cachePath = genCacheFileName(cacheDir, resName, ".oBCC");

     if (bccPrepareExecutable(drv->mBccScript, cachePath, 0) != 0) {
         LOGE("bcc: FAILS to prepare executable");
         goto error;
     }

     free(cachePath);

     drv->mRoot = reinterpret_cast<int (*)()>(bccGetFuncAddr(drv->mBccScript, "root"));
     drv->mInit = reinterpret_cast<void (*)()>(bccGetFuncAddr(drv->mBccScript, "init"));

     drv->mInvokeFunctionCount = bccGetExportFuncCount(drv->mBccScript);
     if (drv->mInvokeFunctionCount <= 0)
         drv->mInvokeFunctions = NULL;
     else {
         drv->mInvokeFunctions = (InvokeFunc_t*) calloc(drv->mInvokeFunctionCount, sizeof(InvokeFunc_t));
         bccGetExportFuncList(drv->mBccScript, drv->mInvokeFunctionCount, (void **) drv->mInvokeFunctions);
     }

     drv->mFieldCount = bccGetExportVarCount(drv->mBccScript);
     if (drv->mFieldCount <= 0) {
         drv->mFieldAddress = NULL;
         drv->mFieldIsObject = NULL;
     } else {
         drv->mFieldAddress = (void **) calloc(drv->mFieldCount, sizeof(void *));
         drv->mFieldIsObject = (bool *) calloc(drv->mFieldCount, sizeof(bool));
         bccGetExportVarList(drv->mBccScript, drv->mFieldCount, (void **) drv->mFieldAddress);
     }

     objectSlotCount = bccGetObjectSlotCount(drv->mBccScript);
     if (objectSlotCount) {
         uint32_t * slots = new uint32_t[objectSlotCount];
         bccGetObjectSlotList(drv->mBccScript, objectSlotCount, slots);
         for (uint32_t ct=0; ct < objectSlotCount; ct++) {
             drv->mFieldIsObject[slots[ct]] = true;
         }
         delete [] slots;
     }

     uint32_t mPragmaCount;
     const char ** mPragmaKeys;
     const char ** mPragmaValues;

     const static int pragmaMax = 16;
     drv->mPragmaCount = bccGetPragmaCount(drv->mBccScript);
     if (drv->mPragmaCount <= 0) {
         drv->mPragmaKeys = NULL;
         drv->mPragmaValues = NULL;
     } else {
         drv->mPragmaKeys = (const char **) calloc(drv->mFieldCount, sizeof(const char *));
         drv->mPragmaValues = (const char **) calloc(drv->mFieldCount, sizeof(const char *));
         bccGetPragmaList(drv->mBccScript, drv->mPragmaCount, drv->mPragmaKeys, drv->mPragmaValues);
     }


     // Copy info over to runtime
     script->mHal.info.exportedFunctionCount = drv->mInvokeFunctionCount;
     script->mHal.info.exportedVariableCount = drv->mFieldCount;
     script->mHal.info.exportedPragmaCount = drv->mPragmaCount;
     script->mHal.info.exportedPragmaKeyList = drv->mPragmaKeys;
     script->mHal.info.exportedPragmaValueList = drv->mPragmaValues;
     script->mHal.info.root = drv->mRoot;


     pthread_mutex_unlock(&rsdgInitMutex);
     return true;

 error:

     pthread_mutex_unlock(&rsdgInitMutex);
     free(drv);
     return false;

 }

 typedef struct {
     Context *rsc;
     Script *script;
     const Allocation * ain;
     Allocation * aout;
     const void * usr;

     uint32_t mSliceSize;
     volatile int mSliceNum;

     const uint8_t *ptrIn;
     uint32_t eStrideIn;
     uint8_t *ptrOut;
     uint32_t eStrideOut;

     uint32_t xStart;
     uint32_t xEnd;
     uint32_t yStart;
     uint32_t yEnd;
     uint32_t zStart;
     uint32_t zEnd;
     uint32_t arrayStart;
     uint32_t arrayEnd;

     uint32_t dimX;
     uint32_t dimY;
     uint32_t dimZ;
     uint32_t dimArray;
 } MTLaunchStruct;
 typedef int (*rs_t)(const void *, void *, const void *, uint32_t, uint32_t, uint32_t, uint32_t);

 static void wc_xy(void *usr, uint32_t idx) {
     MTLaunchStruct *mtls = (MTLaunchStruct *)usr;

     while (1) {
         uint32_t slice = (uint32_t)android_atomic_inc(&mtls->mSliceNum);
         uint32_t yStart = mtls->yStart + slice * mtls->mSliceSize;
         uint32_t yEnd = yStart + mtls->mSliceSize;
         yEnd = rsMin(yEnd, mtls->yEnd);
         if (yEnd <= yStart) {
             return;
         }

         //LOGE("usr idx %i, x %i,%i  y %i,%i", idx, mtls->xStart, mtls->xEnd, yStart, yEnd);
         //LOGE("usr ptr in %p,  out %p", mtls->ptrIn, mtls->ptrOut);
         for (uint32_t y = yStart; y < yEnd; y++) {
             uint32_t offset = mtls->dimX * y;
             uint8_t *xPtrOut = mtls->ptrOut + (mtls->eStrideOut * offset);
             const uint8_t *xPtrIn = mtls->ptrIn + (mtls->eStrideIn * offset);

             for (uint32_t x = mtls->xStart; x < mtls->xEnd; x++) {
                 ((rs_t)mtls->script->mHal.info.root) (xPtrIn, xPtrOut, mtls->usr, x, y, 0, 0);
                 xPtrIn += mtls->eStrideIn;
                 xPtrOut += mtls->eStrideOut;
             }
         }
     }
 }

 static void wc_x(void *usr, uint32_t idx) {
     MTLaunchStruct *mtls = (MTLaunchStruct *)usr;

     while (1) {
         uint32_t slice = (uint32_t)android_atomic_inc(&mtls->mSliceNum);
         uint32_t xStart = mtls->xStart + slice * mtls->mSliceSize;
         uint32_t xEnd = xStart + mtls->mSliceSize;
         xEnd = rsMin(xEnd, mtls->xEnd);
         if (xEnd <= xStart) {
             return;
         }

         //LOGE("usr idx %i, x %i,%i  y %i,%i", idx, mtls->xStart, mtls->xEnd, yStart, yEnd);
         //LOGE("usr ptr in %p,  out %p", mtls->ptrIn, mtls->ptrOut);
         uint8_t *xPtrOut = mtls->ptrOut + (mtls->eStrideOut * xStart);
         const uint8_t *xPtrIn = mtls->ptrIn + (mtls->eStrideIn * xStart);
         for (uint32_t x = xStart; x < xEnd; x++) {
             ((rs_t)mtls->script->mHal.info.root) (xPtrIn, xPtrOut, mtls->usr, x, 0, 0, 0);
             xPtrIn += mtls->eStrideIn;
             xPtrOut += mtls->eStrideOut;
         }
     }
 }

 void rsdScriptInvokeForEach(const Context *rsc,
                             Script *s,
                             const Allocation * ain,
                             Allocation * aout,
                             const void * usr,
                             uint32_t usrLen,
                             const RsScriptCall *sc) {

     RsdHal * dc = (RsdHal *)rsc->mHal.drv;

     MTLaunchStruct mtls;
     memset(&mtls, 0, sizeof(mtls));

     if (ain) {
         mtls.dimX = ain->getType()->getDimX();
         mtls.dimY = ain->getType()->getDimY();
         mtls.dimZ = ain->getType()->getDimZ();
         //mtls.dimArray = ain->getType()->getDimArray();
     } else if (aout) {
         mtls.dimX = aout->getType()->getDimX();
         mtls.dimY = aout->getType()->getDimY();
         mtls.dimZ = aout->getType()->getDimZ();
         //mtls.dimArray = aout->getType()->getDimArray();
     } else {
         rsc->setError(RS_ERROR_BAD_SCRIPT, "rsForEach called with null allocations");
         return;
     }

     if (!sc || (sc->xEnd == 0)) {
         mtls.xEnd = mtls.dimX;
     } else {
         rsAssert(sc->xStart < mtls.dimX);
         rsAssert(sc->xEnd <= mtls.dimX);
         rsAssert(sc->xStart < sc->xEnd);
         mtls.xStart = rsMin(mtls.dimX, sc->xStart);
         mtls.xEnd = rsMin(mtls.dimX, sc->xEnd);
         if (mtls.xStart >= mtls.xEnd) return;
     }

     if (!sc || (sc->yEnd == 0)) {
         mtls.yEnd = mtls.dimY;
     } else {
         rsAssert(sc->yStart < mtls.dimY);
         rsAssert(sc->yEnd <= mtls.dimY);
         rsAssert(sc->yStart < sc->yEnd);
         mtls.yStart = rsMin(mtls.dimY, sc->yStart);
         mtls.yEnd = rsMin(mtls.dimY, sc->yEnd);
         if (mtls.yStart >= mtls.yEnd) return;
     }

     mtls.xEnd = rsMax((uint32_t)1, mtls.xEnd);
     mtls.yEnd = rsMax((uint32_t)1, mtls.yEnd);
     mtls.zEnd = rsMax((uint32_t)1, mtls.zEnd);
     mtls.arrayEnd = rsMax((uint32_t)1, mtls.arrayEnd);

     rsAssert(!ain || (ain->getType()->getDimZ() == 0));

     Context *mrsc = (Context *)rsc;
     Script * oldTLS = setTLS(s);

     mtls.rsc = mrsc;
     mtls.ain = ain;
     mtls.aout = aout;
     mtls.script = s;
     mtls.usr = usr;
     mtls.mSliceSize = 10;
     mtls.mSliceNum = 0;

     mtls.ptrIn = NULL;
     mtls.eStrideIn = 0;
     if (ain) {
         mtls.ptrIn = (const uint8_t *)ain->getPtr();
         mtls.eStrideIn = ain->getType()->getElementSizeBytes();
     }

     mtls.ptrOut = NULL;
     mtls.eStrideOut = 0;
     if (aout) {
         mtls.ptrOut = (uint8_t *)aout->getPtr();
         mtls.eStrideOut = aout->getType()->getElementSizeBytes();
     }

     if ((dc->mWorkers.mCount > 1) && s->mHal.info.isThreadable) {
         if (mtls.dimY > 1) {
             rsdLaunchThreads(mrsc, wc_xy, &mtls);
         } else {
             rsdLaunchThreads(mrsc, wc_x, &mtls);
         }

         //LOGE("launch 1");
     } else {
         //LOGE("launch 3");
         for (uint32_t ar = mtls.arrayStart; ar < mtls.arrayEnd; ar++) {
             for (uint32_t z = mtls.zStart; z < mtls.zEnd; z++) {
                 for (uint32_t y = mtls.yStart; y < mtls.yEnd; y++) {
                     uint32_t offset = mtls.dimX * mtls.dimY * mtls.dimZ * ar +
                                       mtls.dimX * mtls.dimY * z +
                                       mtls.dimX * y;
                     uint8_t *xPtrOut = mtls.ptrOut + (mtls.eStrideOut * offset);
                     const uint8_t *xPtrIn = mtls.ptrIn + (mtls.eStrideIn * offset);

                     for (uint32_t x = mtls.xStart; x < mtls.xEnd; x++) {
                         ((rs_t)s->mHal.info.root) (xPtrIn, xPtrOut, usr, x, y, z, ar);
                         xPtrIn += mtls.eStrideIn;
                         xPtrOut += mtls.eStrideOut;
                     }
                 }
             }
         }
     }

     setTLS(oldTLS);
 }


 int rsdScriptInvokeRoot(const Context *dc, Script *script) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;

     Script * oldTLS = setTLS(script);
     int ret = drv->mRoot();
     setTLS(oldTLS);

     return ret;
 }

 void rsdScriptInvokeInit(const Context *dc, Script *script) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;

     if (drv->mInit) {
         drv->mInit();
     }
 }


 void rsdScriptInvokeFunction(const Context *dc, Script *script,
                             uint32_t slot,
                             const void *params,
                             size_t paramLength) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;
     //LOGE("invoke %p %p %i %p %i", dc, script, slot, params, paramLength);

     Script * oldTLS = setTLS(script);
     ((void (*)(const void *, uint32_t))
         drv->mInvokeFunctions[slot])(params, paramLength);
     setTLS(oldTLS);
 }

 void rsdScriptSetGlobalVar(const Context *dc, const Script *script,
                            uint32_t slot, void *data, size_t dataLength) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;
     //rsAssert(!script->mFieldIsObject[slot]);
     //LOGE("setGlobalVar %p %p %i %p %i", dc, script, slot, data, dataLength);

     int32_t *destPtr = ((int32_t **)drv->mFieldAddress)[slot];
     if (!destPtr) {
         //LOGV("Calling setVar on slot = %i which is null", slot);
         return;
     }

     memcpy(destPtr, data, dataLength);
 }

 void rsdScriptSetGlobalBind(const Context *dc, const Script *script, uint32_t slot, void *data) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;
     //rsAssert(!script->mFieldIsObject[slot]);
     //LOGE("setGlobalBind %p %p %i %p", dc, script, slot, data);

     int32_t *destPtr = ((int32_t **)drv->mFieldAddress)[slot];
     if (!destPtr) {
         //LOGV("Calling setVar on slot = %i which is null", slot);
         return;
     }

     memcpy(destPtr, &data, sizeof(void *));
 }

 void rsdScriptSetGlobalObj(const Context *dc, const Script *script, uint32_t slot, ObjectBase *data) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;
     //rsAssert(script->mFieldIsObject[slot]);
     //LOGE("setGlobalObj %p %p %i %p", dc, script, slot, data);

     int32_t *destPtr = ((int32_t **)drv->mFieldAddress)[slot];
     if (!destPtr) {
         //LOGV("Calling setVar on slot = %i which is null", slot);
         return;
     }

     rsrSetObject(dc, script, (ObjectBase **)destPtr, data);
 }

 void rsdScriptDestroy(const Context *dc, Script *script) {
     DrvScript *drv = (DrvScript *)script->mHal.drv;

     if (drv->mFieldAddress) {
         for (size_t ct=0; ct < drv->mFieldCount; ct++) {
             if (drv->mFieldIsObject[ct]) {
                 // The field address can be NULL if the script-side has
                 // optimized the corresponding global variable away.
                 if (drv->mFieldAddress[ct]) {
                     rsrClearObject(dc, script, (ObjectBase **)drv->mFieldAddress[ct]);
                 }
             }
         }
         delete [] drv->mFieldAddress;
         delete [] drv->mFieldIsObject;
         drv->mFieldAddress = NULL;
         drv->mFieldIsObject = NULL;
         drv->mFieldCount = 0;
     }

     if (drv->mInvokeFunctions) {
         delete [] drv->mInvokeFunctions;
         drv->mInvokeFunctions = NULL;
         drv->mInvokeFunctionCount = 0;
     }
     free(drv);
     script->mHal.drv = NULL;

 }
	/*
	* Copyright (C) 2011 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 "rsdCore.h"
	#include "rsdBcc.h"
	#include "rsdRuntime.h"

	#include "rsContext.h"
	#include "rsScriptC.h"

	#include "utils/Timers.h"
	#include "utils/StopWatch.h"
	extern "C" {
	#include "libdex/ZipArchive.h"
	}


	using namespace android;
	using namespace android::renderscript;

	struct DrvScript {
	int (*mRoot)();
	void (*mInit)();

	BCCScriptRef mBccScript;

	uint32_t mInvokeFunctionCount;
	InvokeFunc_t *mInvokeFunctions;
	uint32_t mFieldCount;
	void ** mFieldAddress;
	bool * mFieldIsObject;

	const uint8_t * mScriptText;
	uint32_t mScriptTextLength;

	//uint32_t * mObjectSlots;
	//uint32_t mObjectSlotCount;

	uint32_t mPragmaCount;
	const char ** mPragmaKeys;
	const char ** mPragmaValues;

	};


	static Script * setTLS(Script *sc) {
	ScriptTLSStruct * tls = (ScriptTLSStruct *)pthread_getspecific(rsdgThreadTLSKey);
	rsAssert(tls);
	Script *old = tls->mScript;
	tls->mScript = sc;
	return old;
	}


	// Input: cacheDir
	// Input: resName
	// Input: extName
	//
	// Note: cacheFile = resName + extName
	//
	// Output: Returns cachePath == cacheDir + cacheFile
	static char genCacheFileName(const char cacheDir,
	const char *resName,
	const char *extName) {
	char cachePath[512];
	char cacheFile[sizeof(cachePath)];
	const size_t kBufLen = sizeof(cachePath) - 1;

	cacheFile[0] = '\0';
	// Note: resName today is usually something like
	// "/com.android.fountain:raw/fountain"
	if (resName[0] != '/') {
	// Get the absolute path of the raw/***.bc file.

	// Generate the absolute path. This doesn't do everything it
	// should, e.g. if resName is "./out/whatever" it doesn't crunch
	// the leading "./" out because this if-block is not triggered,
	// but it'll make do.
	//
	if (getcwd(cacheFile, kBufLen) == NULL) {
	LOGE("Can't get CWD while opening raw/***.bc file\n");
	return NULL;
	}
	// Append "/" at the end of cacheFile so far.
	strncat(cacheFile, "/", kBufLen);
	}

	// cacheFile = resName + extName
	//
	strncat(cacheFile, resName, kBufLen);
	if (extName != NULL) {
	// TODO(srhines): strncat() is a bit dangerous
	strncat(cacheFile, extName, kBufLen);
	}

	// Turn the path into a flat filename by replacing
	// any slashes after the first one with '@' characters.
	char *cp = cacheFile + 1;
	while (*cp != '\0') {
	if (*cp == '/') {
	*cp = '@';
	}
	cp++;
	}

	// Tack on the file name for the actual cache file path.
	strncpy(cachePath, cacheDir, kBufLen);
	strncat(cachePath, cacheFile, kBufLen);

	LOGV("Cache file for '%s' '%s' is '%s'\n", resName, extName, cachePath);
	return strdup(cachePath);
	}

	bool rsdScriptInit(const Context *rsc,
	ScriptC *script,
	char const *resName,
	char const *cacheDir,
	uint8_t const *bitcode,
	size_t bitcodeSize,
	uint32_t flags) {
	//LOGE("rsdScriptCreate %p %p %p %p %i %i %p", rsc, resName, cacheDir, bitcode, bitcodeSize, flags, lookupFunc);

	pthread_mutex_lock(&rsdgInitMutex);
	char *cachePath = NULL;
	uint32_t objectSlotCount = 0;

	DrvScript drv = (DrvScript )calloc(1, sizeof(DrvScript));
	if (drv == NULL) {
	goto error;
	}
	script->mHal.drv = drv;

	drv->mBccScript = bccCreateScript();
	script->mHal.info.isThreadable = true;
	drv->mScriptText = bitcode;
	drv->mScriptTextLength = bitcodeSize;

	//LOGE("mBccScript %p", script->mBccScript);

	if (bccRegisterSymbolCallback(drv->mBccScript, &rsdLookupRuntimeStub, script) != 0) {
	LOGE("bcc: FAILS to register symbol callback");
	goto error;
	}

	if (bccReadBC(drv->mBccScript,
	resName,
	(char const *)drv->mScriptText,
	drv->mScriptTextLength, 0) != 0) {
	LOGE("bcc: FAILS to read bitcode");
	goto error;
	}

	#if 1
	if (bccLinkFile(drv->mBccScript, "/system/lib/libclcore.bc", 0) != 0) {
	LOGE("bcc: FAILS to link bitcode");
	goto error;
	}
	#endif
	cachePath = genCacheFileName(cacheDir, resName, ".oBCC");

	if (bccPrepareExecutable(drv->mBccScript, cachePath, 0) != 0) {
	LOGE("bcc: FAILS to prepare executable");
	goto error;
	}

	free(cachePath);

	drv->mRoot = reinterpret_cast<int (*)()>(bccGetFuncAddr(drv->mBccScript, "root"));
	drv->mInit = reinterpret_cast<void (*)()>(bccGetFuncAddr(drv->mBccScript, "init"));

	drv->mInvokeFunctionCount = bccGetExportFuncCount(drv->mBccScript);
	if (drv->mInvokeFunctionCount <= 0)
	drv->mInvokeFunctions = NULL;
	else {
	drv->mInvokeFunctions = (InvokeFunc_t*) calloc(drv->mInvokeFunctionCount, sizeof(InvokeFunc_t));
	bccGetExportFuncList(drv->mBccScript, drv->mInvokeFunctionCount, (void **) drv->mInvokeFunctions);
	}

	drv->mFieldCount = bccGetExportVarCount(drv->mBccScript);
	if (drv->mFieldCount <= 0) {
	drv->mFieldAddress = NULL;
	drv->mFieldIsObject = NULL;
	} else {
	drv->mFieldAddress = (void *) calloc(drv->mFieldCount, sizeof(void ));
	drv->mFieldIsObject = (bool *) calloc(drv->mFieldCount, sizeof(bool));
	bccGetExportVarList(drv->mBccScript, drv->mFieldCount, (void **) drv->mFieldAddress);
	}

	objectSlotCount = bccGetObjectSlotCount(drv->mBccScript);
	if (objectSlotCount) {
	uint32_t * slots = new uint32_t[objectSlotCount];
	bccGetObjectSlotList(drv->mBccScript, objectSlotCount, slots);
	for (uint32_t ct=0; ct < objectSlotCount; ct++) {
	drv->mFieldIsObject[slots[ct]] = true;
	}
	delete [] slots;
	}

	uint32_t mPragmaCount;
	const char ** mPragmaKeys;
	const char ** mPragmaValues;

	const static int pragmaMax = 16;
	drv->mPragmaCount = bccGetPragmaCount(drv->mBccScript);
	if (drv->mPragmaCount <= 0) {
	drv->mPragmaKeys = NULL;
	drv->mPragmaValues = NULL;
	} else {
	drv->mPragmaKeys = (const char *) calloc(drv->mFieldCount, sizeof(const char ));
	drv->mPragmaValues = (const char *) calloc(drv->mFieldCount, sizeof(const char ));
	bccGetPragmaList(drv->mBccScript, drv->mPragmaCount, drv->mPragmaKeys, drv->mPragmaValues);
	}



	// Copy info over to runtime
	script->mHal.info.exportedFunctionCount = drv->mInvokeFunctionCount;
	script->mHal.info.exportedVariableCount = drv->mFieldCount;
	script->mHal.info.exportedPragmaCount = drv->mPragmaCount;
	script->mHal.info.exportedPragmaKeyList = drv->mPragmaKeys;
	script->mHal.info.exportedPragmaValueList = drv->mPragmaValues;
	script->mHal.info.root = drv->mRoot;


	pthread_mutex_unlock(&rsdgInitMutex);
	return true;

	error:

	pthread_mutex_unlock(&rsdgInitMutex);
	free(drv);
	return false;

	}

	typedef struct {
	Context *rsc;
	Script *script;
	const Allocation * ain;
	Allocation * aout;
	const void * usr;

	uint32_t mSliceSize;
	volatile int mSliceNum;

	const uint8_t *ptrIn;
	uint32_t eStrideIn;
	uint8_t *ptrOut;
	uint32_t eStrideOut;

	uint32_t xStart;
	uint32_t xEnd;
	uint32_t yStart;
	uint32_t yEnd;
	uint32_t zStart;
	uint32_t zEnd;
	uint32_t arrayStart;
	uint32_t arrayEnd;

	uint32_t dimX;
	uint32_t dimY;
	uint32_t dimZ;
	uint32_t dimArray;
	} MTLaunchStruct;
	typedef int (rs_t)(const void , void , const void , uint32_t, uint32_t, uint32_t, uint32_t);

	static void wc_xy(void *usr, uint32_t idx) {
	MTLaunchStruct mtls = (MTLaunchStruct )usr;

	while (1) {
	uint32_t slice = (uint32_t)android_atomic_inc(&mtls->mSliceNum);
	uint32_t yStart = mtls->yStart + slice * mtls->mSliceSize;
	uint32_t yEnd = yStart + mtls->mSliceSize;
	yEnd = rsMin(yEnd, mtls->yEnd);
	if (yEnd <= yStart) {
	return;
	}

	//LOGE("usr idx %i, x %i,%i y %i,%i", idx, mtls->xStart, mtls->xEnd, yStart, yEnd);
	//LOGE("usr ptr in %p, out %p", mtls->ptrIn, mtls->ptrOut);
	for (uint32_t y = yStart; y < yEnd; y++) {
	uint32_t offset = mtls->dimX * y;
	uint8_t xPtrOut = mtls->ptrOut + (mtls->eStrideOut offset);
	const uint8_t xPtrIn = mtls->ptrIn + (mtls->eStrideIn offset);

	for (uint32_t x = mtls->xStart; x < mtls->xEnd; x++) {
	((rs_t)mtls->script->mHal.info.root) (xPtrIn, xPtrOut, mtls->usr, x, y, 0, 0);
	xPtrIn += mtls->eStrideIn;
	xPtrOut += mtls->eStrideOut;
	}
	}
	}
	}

	static void wc_x(void *usr, uint32_t idx) {
	MTLaunchStruct mtls = (MTLaunchStruct )usr;

	while (1) {
	uint32_t slice = (uint32_t)android_atomic_inc(&mtls->mSliceNum);
	uint32_t xStart = mtls->xStart + slice * mtls->mSliceSize;
	uint32_t xEnd = xStart + mtls->mSliceSize;
	xEnd = rsMin(xEnd, mtls->xEnd);
	if (xEnd <= xStart) {
	return;
	}

	//LOGE("usr idx %i, x %i,%i y %i,%i", idx, mtls->xStart, mtls->xEnd, yStart, yEnd);
	//LOGE("usr ptr in %p, out %p", mtls->ptrIn, mtls->ptrOut);
	uint8_t xPtrOut = mtls->ptrOut + (mtls->eStrideOut xStart);
	const uint8_t xPtrIn = mtls->ptrIn + (mtls->eStrideIn xStart);
	for (uint32_t x = xStart; x < xEnd; x++) {
	((rs_t)mtls->script->mHal.info.root) (xPtrIn, xPtrOut, mtls->usr, x, 0, 0, 0);
	xPtrIn += mtls->eStrideIn;
	xPtrOut += mtls->eStrideOut;
	}
	}
	}

	void rsdScriptInvokeForEach(const Context *rsc,
	Script *s,
	const Allocation * ain,
	Allocation * aout,
	const void * usr,
	uint32_t usrLen,
	const RsScriptCall *sc) {

	RsdHal * dc = (RsdHal *)rsc->mHal.drv;

	MTLaunchStruct mtls;
	memset(&mtls, 0, sizeof(mtls));

	if (ain) {
	mtls.dimX = ain->getType()->getDimX();
	mtls.dimY = ain->getType()->getDimY();
	mtls.dimZ = ain->getType()->getDimZ();
	//mtls.dimArray = ain->getType()->getDimArray();
	} else if (aout) {
	mtls.dimX = aout->getType()->getDimX();
	mtls.dimY = aout->getType()->getDimY();
	mtls.dimZ = aout->getType()->getDimZ();
	//mtls.dimArray = aout->getType()->getDimArray();
	} else {
	rsc->setError(RS_ERROR_BAD_SCRIPT, "rsForEach called with null allocations");
	return;
	}

	if (!sc \|\| (sc->xEnd == 0)) {
	mtls.xEnd = mtls.dimX;
	} else {
	rsAssert(sc->xStart < mtls.dimX);
	rsAssert(sc->xEnd <= mtls.dimX);
	rsAssert(sc->xStart < sc->xEnd);
	mtls.xStart = rsMin(mtls.dimX, sc->xStart);
	mtls.xEnd = rsMin(mtls.dimX, sc->xEnd);
	if (mtls.xStart >= mtls.xEnd) return;
	}

	if (!sc \|\| (sc->yEnd == 0)) {
	mtls.yEnd = mtls.dimY;
	} else {
	rsAssert(sc->yStart < mtls.dimY);
	rsAssert(sc->yEnd <= mtls.dimY);
	rsAssert(sc->yStart < sc->yEnd);
	mtls.yStart = rsMin(mtls.dimY, sc->yStart);
	mtls.yEnd = rsMin(mtls.dimY, sc->yEnd);
	if (mtls.yStart >= mtls.yEnd) return;
	}

	mtls.xEnd = rsMax((uint32_t)1, mtls.xEnd);
	mtls.yEnd = rsMax((uint32_t)1, mtls.yEnd);
	mtls.zEnd = rsMax((uint32_t)1, mtls.zEnd);
	mtls.arrayEnd = rsMax((uint32_t)1, mtls.arrayEnd);

	rsAssert(!ain \|\| (ain->getType()->getDimZ() == 0));

	Context mrsc = (Context )rsc;
	Script * oldTLS = setTLS(s);

	mtls.rsc = mrsc;
	mtls.ain = ain;
	mtls.aout = aout;
	mtls.script = s;
	mtls.usr = usr;
	mtls.mSliceSize = 10;
	mtls.mSliceNum = 0;

	mtls.ptrIn = NULL;
	mtls.eStrideIn = 0;
	if (ain) {
	mtls.ptrIn = (const uint8_t *)ain->getPtr();
	mtls.eStrideIn = ain->getType()->getElementSizeBytes();
	}

	mtls.ptrOut = NULL;
	mtls.eStrideOut = 0;
	if (aout) {
	mtls.ptrOut = (uint8_t *)aout->getPtr();
	mtls.eStrideOut = aout->getType()->getElementSizeBytes();
	}

	if ((dc->mWorkers.mCount > 1) && s->mHal.info.isThreadable) {
	if (mtls.dimY > 1) {
	rsdLaunchThreads(mrsc, wc_xy, &mtls);
	} else {
	rsdLaunchThreads(mrsc, wc_x, &mtls);
	}

	//LOGE("launch 1");
	} else {
	//LOGE("launch 3");
	for (uint32_t ar = mtls.arrayStart; ar < mtls.arrayEnd; ar++) {
	for (uint32_t z = mtls.zStart; z < mtls.zEnd; z++) {
	for (uint32_t y = mtls.yStart; y < mtls.yEnd; y++) {
	uint32_t offset = mtls.dimX * mtls.dimY * mtls.dimZ * ar +
	mtls.dimX * mtls.dimY * z +
	mtls.dimX * y;
	uint8_t xPtrOut = mtls.ptrOut + (mtls.eStrideOut offset);
	const uint8_t xPtrIn = mtls.ptrIn + (mtls.eStrideIn offset);

	for (uint32_t x = mtls.xStart; x < mtls.xEnd; x++) {
	((rs_t)s->mHal.info.root) (xPtrIn, xPtrOut, usr, x, y, z, ar);
	xPtrIn += mtls.eStrideIn;
	xPtrOut += mtls.eStrideOut;
	}
	}
	}
	}
	}

	setTLS(oldTLS);
	}


	int rsdScriptInvokeRoot(const Context dc, Script script) {
	DrvScript drv = (DrvScript )script->mHal.drv;

	Script * oldTLS = setTLS(script);
	int ret = drv->mRoot();
	setTLS(oldTLS);

	return ret;
	}

	void rsdScriptInvokeInit(const Context dc, Script script) {
	DrvScript drv = (DrvScript )script->mHal.drv;

	if (drv->mInit) {
	drv->mInit();
	}
	}


	void rsdScriptInvokeFunction(const Context dc, Script script,
	uint32_t slot,
	const void *params,
	size_t paramLength) {
	DrvScript drv = (DrvScript )script->mHal.drv;
	//LOGE("invoke %p %p %i %p %i", dc, script, slot, params, paramLength);

	Script * oldTLS = setTLS(script);
	((void ()(const void , uint32_t))
	drv->mInvokeFunctions[slot])(params, paramLength);
	setTLS(oldTLS);
	}

	void rsdScriptSetGlobalVar(const Context dc, const Script script,
	uint32_t slot, void *data, size_t dataLength) {
	DrvScript drv = (DrvScript )script->mHal.drv;
	//rsAssert(!script->mFieldIsObject[slot]);
	//LOGE("setGlobalVar %p %p %i %p %i", dc, script, slot, data, dataLength);

	int32_t destPtr = ((int32_t *)drv->mFieldAddress)[slot];
	if (!destPtr) {
	//LOGV("Calling setVar on slot = %i which is null", slot);
	return;
	}

	memcpy(destPtr, data, dataLength);
	}

	void rsdScriptSetGlobalBind(const Context dc, const Script script, uint32_t slot, void *data) {
	DrvScript drv = (DrvScript )script->mHal.drv;
	//rsAssert(!script->mFieldIsObject[slot]);
	//LOGE("setGlobalBind %p %p %i %p", dc, script, slot, data);

	int32_t destPtr = ((int32_t *)drv->mFieldAddress)[slot];
	if (!destPtr) {
	//LOGV("Calling setVar on slot = %i which is null", slot);
	return;
	}

	memcpy(destPtr, &data, sizeof(void *));
	}

	void rsdScriptSetGlobalObj(const Context dc, const Script script, uint32_t slot, ObjectBase *data) {
	DrvScript drv = (DrvScript )script->mHal.drv;
	//rsAssert(script->mFieldIsObject[slot]);
	//LOGE("setGlobalObj %p %p %i %p", dc, script, slot, data);

	int32_t destPtr = ((int32_t *)drv->mFieldAddress)[slot];
	if (!destPtr) {
	//LOGV("Calling setVar on slot = %i which is null", slot);
	return;
	}

	rsrSetObject(dc, script, (ObjectBase **)destPtr, data);
	}

	void rsdScriptDestroy(const Context dc, Script script) {
	DrvScript drv = (DrvScript )script->mHal.drv;

	if (drv->mFieldAddress) {
	for (size_t ct=0; ct < drv->mFieldCount; ct++) {
	if (drv->mFieldIsObject[ct]) {
	// The field address can be NULL if the script-side has
	// optimized the corresponding global variable away.
	if (drv->mFieldAddress[ct]) {
	rsrClearObject(dc, script, (ObjectBase **)drv->mFieldAddress[ct]);
	}
	}
	}
	delete [] drv->mFieldAddress;
	delete [] drv->mFieldIsObject;
	drv->mFieldAddress = NULL;
	drv->mFieldIsObject = NULL;
	drv->mFieldCount = 0;
	}

	if (drv->mInvokeFunctions) {
	delete [] drv->mInvokeFunctions;
	drv->mInvokeFunctions = NULL;
	drv->mInvokeFunctionCount = 0;
	}
	free(drv);
	script->mHal.drv = NULL;

	}