#include <math.h>

#include <maya/MIOStream.h>

#include <maya/MSimple.h>

#include <maya/MTimer.h>

#include <maya/MGlobal.h>

#include <maya/MThreadPool.h>

DeclareSimpleCommand( threadTestCmd, PLUGIN_COMPANY, "2010");

typedef struct _threadDataTag

{

	int threadNo;

	long primesFound;

	long start, end;

} threadData;

typedef struct _taskDataTag

{

	long start, end, totalPrimes;

} taskData;

#define NUM_TASKS	16

// No global information used in function

static bool TestForPrime(int val)

{

	int limit, factor = 3;

	limit = (long)(sqrtf((float)val)+0.5f);

	while( (factor <= limit) && (val % factor))

		factor ++;

	return (factor > limit);

}

// Primes finder. This function is called from multiple threads

MThreadRetVal Primes(void *data)

{

	threadData *myData = (threadData *)data;

	for( int i = myData->start + myData->threadNo*2; i <= myData->end; i += 2*NUM_TASKS )

	{

		if( TestForPrime(i) )

			myData->primesFound++;

	}

	return (MThreadRetVal)0;

}

// Function to create thread tasks

void DecomposePrimes(void *data, MThreadRootTask *root)

{

	taskData *taskD = (taskData *)data;

	threadData tdata[NUM_TASKS];

	for( int i = 0; i < NUM_TASKS; ++i )

	{

		tdata[i].threadNo = i;

		tdata[i].primesFound = 0;

		tdata[i].start = taskD->start;

		tdata[i].end = taskD->end;

		MThreadPool::createTask(Primes, (void *)&tdata[i], root);

	}

	MThreadPool::executeAndJoin(root);

	for( int i = 0; i < NUM_TASKS; ++i )

	{

		taskD->totalPrimes += tdata[i].primesFound;

	}

}

// Single threaded calculation

int SerialPrimes(int start, int end)

{

	int primesFound = 0;

	for( int i = start; i <= end; i+=2)

	{

		if( TestForPrime(i) )

			primesFound++;

	}

	return primesFound;

}

// Set up and tear down parallel tasks

int ParallelPrimes(int start, int end)

{

	MStatus stat = MThreadPool::init();

	if( MStatus::kSuccess != stat ) {

		MString str = MString("Error creating threadpool");

		MGlobal::displayError(str);

		return 0;

	}

	taskData tdata;

	tdata.totalPrimes = 0;

	tdata.start = start;

	tdata.end = end;

	MThreadPool::newParallelRegion(DecomposePrimes, (void *)&tdata);

	// pool is reference counted. Release reference to current thread instance

	MThreadPool::release();

	// release reference to whole pool which deletes all threads

	MThreadPool::release();

	return tdata.totalPrimes;

}

// MSimple command that invokes the serial and parallel thread calculations

MStatus threadTestCmd::doIt( const MArgList& args )

{

	MString introStr = MString("Computation of primes using the Maya API");

	MGlobal::displayInfo(introStr);

	if(args.length() != 2) {

		MString str = MString("Invalid number of arguments, usage: threadTestCmd 1 10000");

		MGlobal::displayError(str);

		return MStatus::kFailure;

	}

	MStatus stat;

	int start = args.asInt( 0, &stat );

	if ( MS::kSuccess != stat ) {

		MString str = MString("Invalid argument 1, usage: threadTestCmd 1 10000");

		MGlobal::displayError(str);

		return MStatus::kFailure;

	}

	int end = args.asInt( 1, &stat );

	if ( MS::kSuccess != stat ) {

		MString str = MString("Invalid argument 2, usage: threadTestCmd 1 10000");

		MGlobal::displayError(str);

		return MStatus::kFailure;

	}

	// start search on an odd number

	if((start % 2) == 0 ) start++;

	// run single threaded

	MTimer timer;

	timer.beginTimer();

	int serialPrimes = SerialPrimes(start, end);

	timer.endTimer();

	double serialTime = timer.elapsedTime();

	// run multithreaded

	timer.beginTimer();

	int parallelPrimes = ParallelPrimes(start, end);

	timer.endTimer();

	double parallelTime = timer.elapsedTime();

	// check for correctness

	if ( serialPrimes != parallelPrimes ) {

		MString str("Error: Computations inconsistent");

		MGlobal::displayError(str);

		return MStatus::kFailure;

	}

	// print results

	double ratio = serialTime/parallelTime;

	MString str = MString("\nElapsed time for serial computation: ") + serialTime + MString("s\n");

	str += MString("Elapsed time for parallel computation: ") + parallelTime + MString("s\n");

	str += MString("Speedup: ") + ratio + MString("x\n");

	MGlobal::displayInfo(str);

	return MStatus::kSuccess;

}