--- /dev/null
+
+#include "bbtkSimpleUtilities.h"
+#define LOG_FILE_NAME "log.txt"
+
+namespace bbtk
+{
+
+
+//template <typename T>
+
+
+
+
+
+/*
+namespace what
+{
+ std::string kind(int*);
+ std::string is(int*, bool withkind=false);
+ std::string kind(double* a);
+ std::string is(double* a, bool withkind=false);
+ std::string kind(float* a);
+ std::string is(float* a, bool withkind=false);
+ std::string kind(char* a);
+ std::string is(char* a, bool withkind=false);
+ std::string kind(long* a);
+ std::string is(long* a, bool withkind=false);
+ std::string kind(short* a);
+ std::string is(short* a, bool withkind=false);
+ std::string kind(bool* a);
+ std::string is(bool* a, bool withkind=false);
+ std::string kind(void* a);
+ std::string is(void* a, bool withkind=false);
+
+ std::string kind(unsigned int* a);
+ std::string is(unsigned int* a, bool withkind=false);
+ std::string kind(unsigned char* a);
+ std::string is(unsigned char* a, bool withkind=false);
+ std::string kind(unsigned long* a);
+ std::string is(unsigned long* a, bool withkind=false);
+ std::string kind(unsigned short* a);
+ std::string is(unsigned short* a, bool withkind=false);
+ std::string kind(__int64* a);
+ std::string is(__int64* a, bool withkind=false);
+ std::string kind(unsigned __int64* a);
+ std::string is(unsigned __int64* a, bool withkind=false);
+ std::string kind(long double* a);
+ std::string is(long double* a, bool withkind=false);
+
+ std::string kind(int a);
+ std::string is(int a, bool withkind=false);
+ std::string kind(double a);
+ std::string is(double a, bool withkind=false);
+ std::string kind(float a);
+ std::string is(float a, bool withkind=false);
+ std::string kind(short a);
+ std::string is(short a, bool withkind=false);
+ std::string kind(char a);
+ std::string is(char a, bool withkind=false);
+ std::string kind(long a);
+ std::string is(long a, bool withkind=false);
+ std::string kind(bool a);
+ std::string is(bool a, bool withkind=false);
+ std::string kind(unsigned int a);
+ std::string is(unsigned int a, bool withkind=false);
+ std::string kind(unsigned char a);
+ std::string is(unsigned char a, bool withkind=false);
+ std::string kind(unsigned long a);
+ std::string is(unsigned long a, bool withkind=false);
+ std::string kind(unsigned short a);
+ std::string is(unsigned short a, bool withkind=false);
+ std::string kind(__int64 a);
+ std::string is(__int64 a, bool withkind=false);
+ std::string kind(unsigned __int64 a);
+ std::string is(unsigned __int64 a, bool withkind=false);
+ std::string kind(long double a);
+ std::string is(long double a, bool withkind=false);
+
+ std::string kind(std::vector<int> a);
+ std::string is(std::vector<int> a, bool withkind=false);
+ std::string kind(std::vector<double> a);
+ std::string is(std::vector<double> a, bool withkind=false);
+ std::string kind(std::vector<float> a);
+ std::string is(std::vector<float> a, bool withkind=false);
+ std::string kind(std::vector<short> a);
+ std::string is(std::vector<short> a, bool withkind=false);
+ std::string kind(std::vector<char> a);
+ std::string is(std::vector<char> a, bool withkind=false);
+ std::string kind(std::vector<long> a);
+ std::string is(std::vector<long> a, bool withkind=false);
+ std::string kind(std::vector<bool> a);
+ std::string is(std::vector<bool> a, bool withkind=false);
+ std::string kind(std::vector<__int64> a);
+ std::string is(std::vector<__int64> a, bool withkind=false);
+ std::string kind(std::vector<unsigned int> a);
+ std::string is(std::vector<unsigned int> a, bool withkind=false);
+ std::string kind(std::vector<unsigned char> a);
+ std::string is(std::vector<unsigned char> a, bool withkind=false);
+ std::string kind(std::vector<unsigned long> a);
+ std::string is(std::vector<unsigned long> a, bool withkind=false);
+ std::string kind(std::vector<unsigned short> a);
+ std::string is(std::vector<unsigned short> a, bool withkind=false);
+ std::string kind(std::vector<long double> a);
+ std::string is(std::vector<long double> a, bool withkind=false);
+
+ std::string is(double* a,int len=1, bool withkind=false);
+ std::string is(int* a,int len=1, bool withkind=false);
+ std::string is(float* a,int len=1, bool withkind=false);
+ std::string is(char* a,int len=1, bool withkind=false);
+
+}
+*/
+
+
+
+ bool persistence::writeFile(std::string stm, std::string content)
+ {
+ std::ofstream myfile (stm.c_str());
+ if (myfile.is_open())
+ {
+ myfile << content;
+ myfile.close();
+ return true;
+ }
+ else
+ {
+ return false;
+ }
+ }
+
+ std::string persistence::readFile(std::string path)
+ {
+ std::string line;
+ std::stringstream stm;
+ std::ifstream myfile (path.c_str());
+ if (myfile.is_open())
+ {
+ while (! myfile.eof() )
+ {
+ getline (myfile,line);
+ stm << line << std::endl;
+ }
+ myfile.close();
+ }
+ else
+ {
+
+ }
+ return stm.str();
+ }
+
+
+
+
+ std::string logging::fecha()
+ {
+ time_t seconds;
+ seconds = time (NULL);
+
+ //char timeStr [9];
+ std::stringstream out;
+ out << seconds;
+ std::string la_fecha = out.str();
+ //_strtime( timeStr );
+ //std::string la_fecha(timeStr);
+ return "["+la_fecha+"] ";
+ }
+
+ void logging::out(std::string texto)
+ {
+ std::ofstream outFile;
+ outFile.open(LOG_FILE_NAME, std::ios::app);
+ if (outFile)
+ {
+ outFile << fecha() << texto << std::endl;
+ }
+ }
+
+ void logging::erase()
+ {
+ std::ofstream outFile;
+ outFile.open(LOG_FILE_NAME, std::ios::out);
+ if (outFile)
+ {
+ outFile << fecha() << "INICIO" << std::endl;
+ }
+ }
+
+
+ std::vector<std::string> translate::StringSplit(std::string str, std::string delim)
+ {
+ std::vector<std::string> results;
+ int cutAt;
+ while( (cutAt = (int)str.find_first_of(delim)) != str.npos )
+ {
+ if(cutAt > 0)
+ {
+ results.push_back(str.substr(0,cutAt));
+ }
+ str = str.substr(cutAt+1);
+ }
+ if(str.length() > 0)
+ {
+ results.push_back(str);
+ }
+ return results;
+ }
+
+ std::vector<double> translate::stringTovector(std::string texto, std::string start, std::string end)
+ {
+ std::vector<double> el_vector;
+ std::vector<std::string> partes;
+
+
+ int inicial = (int)texto.find( start, 0 );
+ int final = (int)texto.find( end, 0 );
+
+ if (inicial == std::string::npos || final == std::string::npos)
+ return el_vector;
+ if (final<=inicial)
+ return el_vector;
+
+ std::string contenido = texto.substr(inicial+1, final-inicial-1);
+
+ partes = StringSplit(contenido, ",");
+ if (partes.size() != -1){
+ for (int i=0; i<(int)partes.size(); i++)
+ {
+ if (partes.at(i).size() > 0)
+ {
+ double uno = atof(partes.at(i).data());
+ el_vector.push_back(uno);
+ }
+ }
+ }
+ return el_vector;
+ }
+
+ std::vector<double> translate::stringTovectorDelimited(std::string texto, std::string delimitador)
+ {
+ std::vector<double> el_vector;
+ std::vector<std::string> partes;
+
+ std::string contenido = texto;
+
+ partes = StringSplit(contenido, delimitador);
+ if (partes.size() != -1){
+ for (int i=0; i<(int)partes.size(); i++)
+ {
+ double uno = atof(partes.at(i).data());
+ el_vector.push_back(uno);
+ }
+ }
+ return el_vector;
+ }
+
+ double* translate::stringToArray(std::string texto)
+ {
+ std::vector<double> el_vector = stringTovector(texto);
+ double* array = new double[el_vector.size()];
+ for (int i=0; i<(int)el_vector.size(); i++)
+ {
+ array[i]=el_vector[i];
+ }
+ return array;
+ }
+
+ std::string translate::getInnerInfo(std::string texto)
+ {
+ int first_par = (int)texto.find("[", 0);
+ int last_par = (int)texto.rfind("]", texto.size());
+
+ return texto.substr(first_par+1,last_par-first_par-1);
+ }
+
+ std::vector<double*> translate::stringToVectorArray(std::string texto)
+ {
+ std::vector<double*> el_vector;
+ std::string innerInfo = getInnerInfo(texto);
+
+ int first_par = 0;
+ int last_par = 0;
+ int lastComma = 0;
+
+ while (lastComma != std::string::npos)
+ {
+ first_par = (int)innerInfo.find("[", lastComma);
+ last_par = (int)innerInfo.find("]", lastComma);
+ lastComma = (int)innerInfo.find(",", last_par);
+ if (first_par == std::string::npos || last_par == std::string::npos)
+ break;
+ std::string subArreglo = innerInfo.substr(first_par,last_par-first_par+1);
+ double* subArray = stringToArray(subArreglo);
+ el_vector.push_back(subArray);
+ }
+ return el_vector;
+ }
+
+ std::string translate::vectorToStringDelimited(std::vector<double> a, std::string delim)
+ {
+ std::stringstream out;
+
+ unsigned int i;
+ for (i = 0; i < a.size(); i++)
+ {
+ out << a.at(i);
+ if (i != a.size()-1)
+ out << delim;
+ }
+ return out.str();
+ }
+
+
+
+//Recorre el vector de manera ciclica
+double vectores::vectorInfinite(std::vector<double> in, int index)
+{
+ //std::cout << "index = " << index;
+ int value;
+ int tamanio = in.size();
+ bool inverso = false;
+ if (tamanio == 0)
+ return -1;
+
+ if (index < 0)
+ {
+ inverso = true;
+ index = abs(index);
+ value = tamanio - index%tamanio;
+ if (value == tamanio)
+ value = 0;
+ }else{
+ value = index%tamanio;
+ }
+ //std::cout << ", value=" << value << std::endl;
+ //return 0;
+ return in.at(value);
+}
+
+
+
+ /**
+ Ordenamiento busbuja, array[0] es el maximo
+ http://mathbits.com/mathbits/compsci/Arrays/Bubble.htm
+ **/
+ void sorts::bubble(std::vector<double> &array)
+ {
+ double i, j, flag = 1; // set flag to 1 to begin initial pass
+ double temp; // holding variable
+ double arrayLength = array.size();
+ for(i = 1; (i <= arrayLength) && flag; i++)
+ {
+ flag = 0;
+ for (j=0; j < (arrayLength -1); j++)
+ {
+ if (array[(int)(j+1)] > array[(int)j]) // ascending order simply changes to <
+ {
+ temp = array[(int)j]; // swap elements
+ array[(int)j] = array[(int)(j+1)];
+ array[(int)(j+1)] = temp;
+ flag = 1; // indicates that a swap occurred.
+ }
+ }
+ }
+ }
+
+};
+
+
--- /dev/null
+#ifndef _BBTKSIMPLEUTILITIES_H_
+#define _BBTKSIMPLEUTILITIES_H_
+
+#include <time.h>
+#include <vtkType.h>
+#include <vtkImageData.h>
+#include <cstdlib>
+#include <iostream>
+#include <sstream>
+#include <vector>
+#include <string>
+#include <time.h>
+#include <fstream>
+
+
+
+namespace bbtk
+{
+
+
+
+template <typename T>
+class Memcache
+{
+public:
+ vtkImageData* db;
+
+ Memcache()
+ {
+ db = NULL;
+ }
+
+ ~Memcache()
+ {
+ if (db!=NULL)
+ db->Delete();
+ }
+
+ void init(int x, int y, int z)
+ {
+ //Se pregunta al OS el tamanio de la palabra de un apuntador
+ int palabra = sizeof(T);
+ db = vtkImageData::New();
+ db->SetScalarType(Memcache::darTipo(palabra));
+ db->SetDimensions(x,y,z);
+ db->SetOrigin(0, 0, 0);
+ db->AllocateScalars();
+ db->Update();
+ }
+ void* get(int x, int y, int z)
+ {
+ T* apap = (T*)db->GetScalarPointer(x,y,z);
+ void* ap = (void*)*apap;
+ return ap;
+ }
+
+ void* pop(int x, int y, int z)
+ {
+ T* apap = (T*)db->GetScalarPointer(x,y,z);
+ void* ap = (void*)*apap;
+ *apap = NULL;
+ return ap;
+ }
+
+ void put(int x, int y, int z, void* apt)
+ {
+ T* punto = (T*)db->GetScalarPointer(x,y,z);
+ *punto = (T)apt;
+ }
+ void clear()
+ {
+ int ext[6];
+ db->GetExtent(ext);
+ T* ap1;
+ for (int i=ext[0]; i<=ext[1]; i++)
+ {
+ for (int j=ext[2]; j<=ext[3]; j++)
+ {
+ for (int k=ext[4]; k<=ext[5]; k++)
+ {
+ ap1 = (T*)db->GetScalarPointer(i,j,k);
+ *ap1 = NULL;
+ }
+ }
+ }
+ }
+ static int darTipo(int tamanio)
+ {
+ if (tamanio == sizeof(char))
+ return VTK_CHAR;
+ if (tamanio == sizeof(unsigned char))
+ return VTK_UNSIGNED_CHAR;
+ if (tamanio == sizeof(short))
+ return VTK_SHORT;
+ if (tamanio == sizeof(unsigned short))
+ return VTK_UNSIGNED_SHORT;
+ if (tamanio == sizeof(int))
+ return VTK_INT;
+ if (tamanio == sizeof(unsigned int))
+ return VTK_UNSIGNED_INT;
+ if (tamanio == sizeof(long))
+ return VTK_LONG;
+ if (tamanio == sizeof(unsigned long))
+ return VTK_UNSIGNED_LONG;
+ if (tamanio == sizeof(float))
+ return VTK_FLOAT;
+ if (tamanio == sizeof(double))
+ return VTK_DOUBLE;
+ return 0;
+ }
+
+};
+
+
+class tiempo
+{
+ public:
+ static time_t first, second;
+ static double bytes;
+static void tic(vtkImageData* img)
+ {
+ tiempo::bytes = VTK_SIZE(img);
+ tiempo::first = time (NULL);
+ }
+ static void tic(int bytes_=0)
+ {
+ tiempo::bytes = bytes_;
+ tiempo::first = time (NULL);
+ }
+
+ static void toc()
+ {
+ tiempo::second = time (NULL);
+ double diferencia = difftime (tiempo::second,tiempo::first);
+ printf ("Total time for %f Bytes is %f (%f Bytes/s)\n", tiempo::bytes, diferencia, tiempo::bytes/diferencia);
+ }
+
+ static int VTK_SIZE(vtkImageData* img)
+ {
+ int dims[3];
+ img->GetDimensions(dims);
+ int tamanio = VTK_SIZE_T(img->GetScalarType());
+ std::cout << "[" << dims[0] << "x" << dims[1] << "x" << dims[2] << "x" << tamanio << "]" << std::endl;
+ return dims[0]*dims[1]*dims[2]*tamanio;
+ }
+ static int VTK_SIZE_T(int tipo)
+ {
+ switch(tipo)
+ {
+ case VTK_CHAR:
+ return sizeof(char);
+ break;
+ case VTK_UNSIGNED_CHAR:
+ return sizeof(unsigned char);
+ break;
+ case VTK_SHORT:
+ return sizeof(short);
+ break;
+ case VTK_UNSIGNED_SHORT:
+ return sizeof(unsigned short);
+ break;
+ case VTK_INT:
+ return sizeof(int);
+ break;
+ case VTK_UNSIGNED_INT:
+ return sizeof(unsigned int);
+ break;
+ case VTK_LONG:
+ return sizeof(long);
+ break;
+ case VTK_UNSIGNED_LONG:
+ return sizeof(unsigned long);
+ break;
+ case VTK_FLOAT:
+ return sizeof(float);
+ break;
+ case VTK_DOUBLE:
+ return sizeof(double);
+ break;
+ default:
+ return 0;
+ break;
+ }
+ }
+};
+
+/*
+namespace what
+{
+ std::string kind(int*);
+ std::string is(int*, bool withkind=false);
+ std::string kind(double* a);
+ std::string is(double* a, bool withkind=false);
+ std::string kind(float* a);
+ std::string is(float* a, bool withkind=false);
+ std::string kind(char* a);
+ std::string is(char* a, bool withkind=false);
+ std::string kind(long* a);
+ std::string is(long* a, bool withkind=false);
+ std::string kind(short* a);
+ std::string is(short* a, bool withkind=false);
+ std::string kind(bool* a);
+ std::string is(bool* a, bool withkind=false);
+ std::string kind(void* a);
+ std::string is(void* a, bool withkind=false);
+
+ std::string kind(unsigned int* a);
+ std::string is(unsigned int* a, bool withkind=false);
+ std::string kind(unsigned char* a);
+ std::string is(unsigned char* a, bool withkind=false);
+ std::string kind(unsigned long* a);
+ std::string is(unsigned long* a, bool withkind=false);
+ std::string kind(unsigned short* a);
+ std::string is(unsigned short* a, bool withkind=false);
+ std::string kind(__int64* a);
+ std::string is(__int64* a, bool withkind=false);
+ std::string kind(unsigned __int64* a);
+ std::string is(unsigned __int64* a, bool withkind=false);
+ std::string kind(long double* a);
+ std::string is(long double* a, bool withkind=false);
+
+ std::string kind(int a);
+ std::string is(int a, bool withkind=false);
+ std::string kind(double a);
+ std::string is(double a, bool withkind=false);
+ std::string kind(float a);
+ std::string is(float a, bool withkind=false);
+ std::string kind(short a);
+ std::string is(short a, bool withkind=false);
+ std::string kind(char a);
+ std::string is(char a, bool withkind=false);
+ std::string kind(long a);
+ std::string is(long a, bool withkind=false);
+ std::string kind(bool a);
+ std::string is(bool a, bool withkind=false);
+ std::string kind(unsigned int a);
+ std::string is(unsigned int a, bool withkind=false);
+ std::string kind(unsigned char a);
+ std::string is(unsigned char a, bool withkind=false);
+ std::string kind(unsigned long a);
+ std::string is(unsigned long a, bool withkind=false);
+ std::string kind(unsigned short a);
+ std::string is(unsigned short a, bool withkind=false);
+ std::string kind(__int64 a);
+ std::string is(__int64 a, bool withkind=false);
+ std::string kind(unsigned __int64 a);
+ std::string is(unsigned __int64 a, bool withkind=false);
+ std::string kind(long double a);
+ std::string is(long double a, bool withkind=false);
+
+ std::string kind(std::vector<int> a);
+ std::string is(std::vector<int> a, bool withkind=false);
+ std::string kind(std::vector<double> a);
+ std::string is(std::vector<double> a, bool withkind=false);
+ std::string kind(std::vector<float> a);
+ std::string is(std::vector<float> a, bool withkind=false);
+ std::string kind(std::vector<short> a);
+ std::string is(std::vector<short> a, bool withkind=false);
+ std::string kind(std::vector<char> a);
+ std::string is(std::vector<char> a, bool withkind=false);
+ std::string kind(std::vector<long> a);
+ std::string is(std::vector<long> a, bool withkind=false);
+ std::string kind(std::vector<bool> a);
+ std::string is(std::vector<bool> a, bool withkind=false);
+ std::string kind(std::vector<__int64> a);
+ std::string is(std::vector<__int64> a, bool withkind=false);
+ std::string kind(std::vector<unsigned int> a);
+ std::string is(std::vector<unsigned int> a, bool withkind=false);
+ std::string kind(std::vector<unsigned char> a);
+ std::string is(std::vector<unsigned char> a, bool withkind=false);
+ std::string kind(std::vector<unsigned long> a);
+ std::string is(std::vector<unsigned long> a, bool withkind=false);
+ std::string kind(std::vector<unsigned short> a);
+ std::string is(std::vector<unsigned short> a, bool withkind=false);
+ std::string kind(std::vector<long double> a);
+ std::string is(std::vector<long double> a, bool withkind=false);
+
+ std::string is(double* a,int len=1, bool withkind=false);
+ std::string is(int* a,int len=1, bool withkind=false);
+ std::string is(float* a,int len=1, bool withkind=false);
+ std::string is(char* a,int len=1, bool withkind=false);
+}
+
+*/
+
+class persistence
+{
+ public:
+ bool writeFile(std::string stm, std::string content);
+ std::string readFile(std::string stm);
+};
+
+class logging
+{
+ public:
+ std::string fecha();
+ void out(std::string texto);
+ void erase();
+};
+
+class translate
+{
+ public:
+ /**
+ el texto debe ser de la forma [12,45.6] y retorna un vector con la informacion esperada
+ **/
+ std::vector<double> stringTovector(std::string, std::string start="[", std::string end="]");
+ /**
+ Ayuda a parsear una linea de texto que contiene numeros
+ */
+ std::vector<double> stringTovectorDelimited(std::string, std::string);
+
+ std::string vectorToStringDelimited(std::vector<double> a, std::string delim);
+ std::vector<double*> stringToVectorArray(std::string);
+ /**
+ StringSplit toma str y lo parte por el delimitador delim y retorna el vector de partes
+ **/
+ std::vector<std::string> StringSplit(std::string, std::string);
+ /**
+ Lo mismo que stringTovector, pero retornando un arreglo en vez de un vector
+ **/
+ double* stringToArray(std::string);
+ std::string getInnerInfo(std::string);
+// std::vector<double*> stringToVectorArray(std::string);
+};
+
+class vectores
+{
+ public:
+ //Recorre el vector de manera ciclica
+ double vectorInfinite(std::vector<double> in, int index);
+};
+
+class sorts
+{
+ public:
+ void bubble(std::vector<double> &array);
+};
+
+}
+
+#endif /* _DLL_H_ */
--- /dev/null
+#include "bbtkStaticLecture.h"
+
+
+ void bbtkStaticLecture::setPixelValue(int i, int j, int k, vtkImageData* img, double value)
+ {
+ //double rta;
+ int scalar_type = img->GetScalarType();
+ int* ext = img->GetExtent();
+ if (i < ext[0])
+ return;
+ if (i > ext[1])
+ return;
+
+ if (j < ext[2])
+ return;
+ if (j > ext[3])
+ return;
+
+ if (k < ext[4])
+ return;
+ if (k > ext[5])
+ return;
+
+ switch (scalar_type)
+ {
+ case VTK_CHAR:
+ char * ap2;
+ ap2 = (char *) img->GetScalarPointer(i,j,k);
+ *ap2 = (char) value;
+ break;
+ case VTK_UNSIGNED_CHAR:
+ unsigned char * ap3;
+ ap3 = (unsigned char *) img->GetScalarPointer(i,j,k);
+ *ap3 = (unsigned char) value;
+ break;
+ case VTK_SHORT:
+ short * ap4;
+ ap4 = (short *) img->GetScalarPointer(i,j,k);
+ *ap4 = (short) value;
+ break;
+ case VTK_UNSIGNED_SHORT:
+ unsigned short * ap5;
+ ap5 = (unsigned short *) img->GetScalarPointer(i,j,k);
+ *ap5 = (unsigned short) value;
+ break;
+ case VTK_INT:
+ int * ap6;
+ ap6 = (int *) img->GetScalarPointer(i,j,k);
+ *ap6 = (int) value;
+ break;
+ case VTK_UNSIGNED_INT:
+ unsigned int * ap7;
+ ap7 = (unsigned int *) img->GetScalarPointer(i,j,k);
+ *ap7 = (unsigned int) value;
+ break;
+ case VTK_LONG:
+ long * ap8;
+ ap8 = (long *) img->GetScalarPointer(i,j,k);
+ *ap8 = (long) value;
+ break;
+ case VTK_UNSIGNED_LONG:
+ unsigned long * ap9;
+ ap9 = (unsigned long *) img->GetScalarPointer(i,j,k);
+ *ap9 = (unsigned long) value;
+ break;
+ case VTK_FLOAT:
+ float * ap10;
+ ap10 = (float *) img->GetScalarPointer(i,j,k);
+ *ap10 = (float) value;
+ break;
+ case VTK_DOUBLE:
+ double * ap11;
+ ap11 = (double *) img->GetScalarPointer(i,j,k);
+ *ap11 = (double) value;
+ break;
+ }
+ }
+ double bbtkStaticLecture::getPixelValue(int i, int j, int k, vtkImageData* img)
+ {
+ double rta;
+ int scalar_type = img->GetScalarType();
+ int* ext = img->GetExtent();
+ if (i < ext[0])
+ i=ext[0];
+ if (i > ext[1])
+ i=ext[1];
+
+ if (j < ext[2])
+ j=ext[2];
+ if (j > ext[3])
+ j=ext[3];
+
+ if (k < ext[4])
+ k=ext[4];
+ if (k > ext[5])
+ k=ext[5];
+
+ switch (scalar_type)
+ {
+ case VTK_CHAR:
+ char * ap2;
+ ap2 = (char *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap2;
+ break;
+ case VTK_UNSIGNED_CHAR:
+ unsigned char * ap3;
+ ap3 = (unsigned char *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap3;
+ break;
+ case VTK_SHORT:
+ short * ap4;
+ ap4 = (short *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap4;
+ break;
+ case VTK_UNSIGNED_SHORT:
+ unsigned short * ap5;
+ ap5 = (unsigned short *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap5;
+ break;
+ case VTK_INT:
+ int * ap6;
+ ap6 = (int *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap6;
+ break;
+ case VTK_UNSIGNED_INT:
+ unsigned int * ap7;
+ ap7 = (unsigned int *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap7;
+ break;
+ case VTK_LONG:
+ long * ap8;
+ ap8 = (long *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap8;
+ break;
+ case VTK_UNSIGNED_LONG:
+ unsigned long * ap9;
+ ap9 = (unsigned long *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap9;
+ break;
+ case VTK_FLOAT:
+ float * ap10;
+ ap10 = (float *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap10;
+ break;
+ case VTK_DOUBLE:
+ double * ap11;
+ ap11 = (double *) img->GetScalarPointer(i,j,k);
+ rta = (double) *ap11;
+ break;
+ }
+ return rta;
+ }
--- /dev/null
+#ifndef __bbtkStaticLecture__h__
+#define __bbtkStaticLecture__h__
+
+#include <vtkType.h>
+#include <vtkImageData.h>
+
+class bbtkStaticLecture
+{
+public:
+ void setPixelValue(int i, int j, int k, vtkImageData* img, double value);
+ double getPixelValue(int i, int j, int k, vtkImageData* img);
+};
+
+#endif