📄 bindata2ilda.cc

📁 torch tracking code, it is a good code
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#include "ImageGray.h"#include "LDAMachine.h"#include "matrix.h"#include "CmdLine.h"using namespace Torch;const char *help = "This program reads a bindata file and and LDA model and projects patterns into it\(c) Sebastien Marcel 2003-2004\n";int main(int argc, char *argv[]){	char *bindata_filename;	char *model_filename;	char *ilda_filename;	int n_input;	int n_output;	char *filename_out;	real variance;	bool verbose;	int verbose_level;	bool norm_d_mean;	CmdLine cmd;	cmd.setBOption("write log", false);		cmd.info(help);	cmd.addText("\nArguments:");	cmd.addSCmdArg("bindata filename", &bindata_filename, "bindata filename");	cmd.addSCmdArg("model filename", &model_filename, "LDA model filename");	cmd.addICmdArg("n_input", &n_input, "number of inputs");	cmd.addText("\nOptions:");	cmd.addSCmdOption("-o", &filename_out, "ilda.bindata", "bindata output file");	cmd.addRCmdOption("-variance", &variance, -1.0, "variance (-1 100\%)");	cmd.addICmdOption("-n_output", &n_output, -1, "number of outputs (-1 auto)");	cmd.addBCmdOption("-verbose", &verbose, false, "verbose");	cmd.addICmdOption("-verbose_level", &verbose_level, 1, "level of verbose");	cmd.addSCmdOption("-ilda", &ilda_filename, "", "iLDA model filename");	cmd.addBCmdOption("-dnorm", &norm_d_mean, false, "norm d mean");	cmd.read(argc, argv);	if(verbose == false) verbose_level = 0;	if(n_output > n_input) error("n_output > n_input");	//	LDAMachine *lda_machine = NULL;	lda_machine = new LDAMachine(n_input, norm_d_mean);	if(verbose_level >= 1)		print("Loading LDA model: %s ...\n", model_filename);	DiskXFile *file = NULL;	file = new DiskXFile(model_filename, "r");	lda_machine->loadXFile(file);	delete file;	   	//	lda_machine->setIOption("verbose_level", verbose_level);	lda_machine->setROption("variance", variance);	lda_machine->init();	if(n_output != -1) lda_machine->n_outputs = n_output;	else n_output = lda_machine->n_outputs;	//	Mat *E_inv = NULL;	E_inv = new Mat(n_input, n_input);	DiskXFile *pfMxInverse = NULL;	if(strcmp(ilda_filename, "") == 0)	{		print("Copying eigenvectors ...\n");	   		Mat *eigenvectors = NULL;        	eigenvectors = new Mat(n_input, n_input);		for(int i = 0 ; i < n_input ; i++)       			for(int j = 0 ; j < n_input ; j++)				eigenvectors->ptr[j][i] = lda_machine->eigenvectors[j][i];					print("Inversion of eigenvectors matrix ...\n");			mxInverse(eigenvectors, E_inv);		print("Saving matrix inverse ...\n");		pfMxInverse = new DiskXFile("ilda.matrix", "w");		pfMxInverse->write(&n_input, sizeof(int), 1);       		for(int j = 0 ; j < n_input ; j++)			pfMxInverse->write(E_inv->ptr[j], sizeof(double), n_input);			delete eigenvectors;	}	else	{		print("Loading matrix inverse %s ...\n", ilda_filename);		pfMxInverse = new DiskXFile(ilda_filename, "r");		int n_input_;		pfMxInverse->read(&n_input_, sizeof(int), 1);		if(n_input_ != n_input)			error("Number of inputs %d != %d incorrect\n", n_input_, n_input);       		for(int j = 0 ; j < n_input ; j++)			pfMxInverse->read(E_inv->ptr[j], sizeof(double), n_input);	}	delete pfMxInverse;	//	int dimIn;	int n_patterns;	DiskXFile *pf = NULL;	pf = new DiskXFile(bindata_filename, "r");	pf->read(&n_patterns, sizeof(int), 1);	pf->read(&dimIn, sizeof(int), 1);	if(verbose_level >= 1)	{		print("n_inputs : %d\n", dimIn);		print("n_patterns : %d\n", n_patterns);  	}	if(n_input > dimIn)	{		error("Number of inputs specified (%d) bigger than into the file (%d)", n_input, dimIn);	   		delete pf;		return 0;	}	//	float *realinput = NULL;        Sequence *seq;	float *ilda = NULL;        realinput = new float [n_input];        seq = new Sequence(&realinput, 1, n_input);	        ilda = new float [n_input];	//	DiskXFile *pfOutput = NULL;	pfOutput = new DiskXFile(filename_out, "w");	//	//	if(verbose_level >= 1)		print("Projection bindata file into PCA space (%d -> %d) ...\n", n_input, n_output);	int P = n_patterns;	pfOutput->write(&P, sizeof(int), 1);	pfOutput->write(&dimIn, sizeof(int), 1);	real MSE = 0.0;	for(int p = 0 ; p < P ; p++)	{	   	//	  	for(int i = 0 ; i < n_input ; i++)			pf->read(&realinput[i], sizeof(float), 1);   		if(verbose_level >= 2) 			print(" Seq =     [%2.3f %2.3f %2.3f ...]\n", realinput[0], realinput[1], realinput[2]);		//		lda_machine->forward(seq);					if(verbose_level >= 2) 			print(" Output =   [%2.3f %2.3f %2.3f ...]\n", lda_machine->outputs->frames[0][0], lda_machine->outputs->frames[0][1], lda_machine->outputs->frames[0][2]);		float *machine_output = lda_machine->outputs->frames[0];				if(norm_d_mean == true)			for(int j = 0 ; j < n_output ; j++) machine_output[j] += lda_machine->d_m_mean_[j];		for(int i = 0 ; i < n_input ; i++)		{			ilda[i] = 0.0;			for(int j = 0 ; j < n_output ; j++)				ilda[i] += E_inv->ptr[j][i] * machine_output[j];		}				//		float data;		float mse = 0;		for(int i = 0 ; i < n_input ; i++)		{		   	data = ilda[i];						real z = realinput[i] - data;			mse += z*z;			pfOutput->write(&data, sizeof(float), 1);   		}				mse /= (float) n_input;		print(" mse = %g\n", mse);				MSE += mse;	}		MSE /= (real) P;	print("MSE = %g\n", MSE);	//	delete pf;	delete pfOutput;		//	delete seq;	delete [] realinput;	delete [] ilda;	delete lda_machine;		  	return 0;}
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