/*! \file log_median.h \brief Functions for column wise summarizing a matrix by computing the median and then \f$\log_2\f$ transforming */ #ifndef LOG_MEDIAN_H #define LOG_MEDIAN_H 1 /*! \brief compute the median for subset of rows and the \f$\log_2\f$ transform it * * Given a data matrix of probe intensities compute median and then \f$\log_2\f$ transform it. Also compute SE of this estimate * on a column by column basis using only a specified subset of rows. Specifically, the median of each column is computed * the it is \f$\log_2\f$ transformed. The sample standard error is also computed. * * * @param data a matrix containing data stored column-wise stored in rows*cols length of memory * @param rows the number of rows in the matrix * @param cols the number of columns in the matrix * @param cur_rows indices specifying which rows in the matrix to use * @param results pre-allocated space to store output log2 averages. Should be of length cols * @param nprobes the number of * @param resultsSE pre-allocated space to store SE of log2 averages. Should be of length cols * * */ void LogMedian(double *data, int rows, int cols, int *cur_rows, double *results, int nprobes, double *resultsSE); /*! \brief compute the median for subset of rows and the \f$\log_2\f$ transform it * * Given a data matrix of probe intensities compute median and then \f$\log_2\f$ transform it. Computed on a column by column basis using only a specified subset of rows. * Specifically, the median of each column is computed * the it is \f$\log_2\f$ transformed. * * * @param data a matrix containing data stored column-wise stored in rows*cols length of memory * @param rows the number of rows in the matrix * @param cols the number of columns in the matrix * @param cur_rows indices specifying which rows in the matrix to use * @param results pre-allocated space to store output log2 averages. Should be of length cols * @param nprobes the number of rows in cur_rows * * */ void LogMedian_noSE(double *data, int rows, int cols, int *cur_rows, double *results, int nprobes); /*! \brief compute the median for each column and then \f$\log_2\f$ transform it * * Given a data matrix of probe intensities compute median and then \f$\log_2\f$ transform it. Also produce the SE of this estimate * on a column by column basis. Specifically, the median is computed for each column and then \f$\log_2\f$ transformed. * The sample standard error is also computed. On output the data matrix will * be unchanged. * * * @param data a matrix containing data stored column-wise stored in rows*cols length of memory * @param rows the number of rows in the matrix * @param cols the number of columns in the matrix * @param results pre-allocated space to store output log2 averages. Should be of length cols * @param resultsSE pre-allocated space to store SE of log2 averages. Should be of length cols * * */ void logmedian(double *data, int rows, int cols, double *results, double *resultsSE); /*! \brief compute the median for each column and then \f$\log_2\f$ transform it * * Given a data matrix of probe intensities compute median and then \f$\log_2\f$ transform it. Also produce the SE of this estimate * on a column by column basis. Specifically, the median is computed for each column and then \f$\log_2\f$ transformed. * The sample standard error is also computed. On output the data matrix will * be changed. * * * @param data a matrix containing data stored column-wise stored in rows*cols length of memory * @param rows the number of rows in the matrix * @param cols the number of columns in the matrix * @param results pre-allocated space to store output log2 averages. Should be of length cols * @param resultsSE pre-allocated space to store SE of log2 averages. Should be of length cols * * */ void logmedian_no_copy(double *data, int rows, int cols, double *results, double *resultsSE); #endif