X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=src%2Fmath%2Fcovariance.c;h=446ee6621a1e11881c37e5dba04d8d645c1610a8;hb=81579d9e9f994fb2908f50af41c3eb033d216e58;hp=1d908b3d1754ab9980f5717e968fb478598a14b5;hpb=194d01aaac43a41a174037357f89bc164b5c5213;p=pspp-builds.git diff --git a/src/math/covariance.c b/src/math/covariance.c index 1d908b3d..446ee662 100644 --- a/src/math/covariance.c +++ b/src/math/covariance.c @@ -1,5 +1,5 @@ /* PSPP - a program for statistical analysis. - Copyright (C) 2009 Free Software Foundation, Inc. + Copyright (C) 2009, 2010, 2011 Free Software Foundation, Inc. This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by @@ -16,24 +16,62 @@ #include -#include -#include "covariance.h" -#include -#include "moments.h" +#include "math/covariance.h" + #include -#include -#include -#include -#include "categoricals.h" + +#include "data/case.h" +#include "data/variable.h" +#include "libpspp/assertion.h" +#include "libpspp/misc.h" +#include "math/categoricals.h" +#include "math/moments.h" + +#include "gl/xalloc.h" #define n_MOMENTS (MOMENT_VARIANCE + 1) +/* Create a new matrix of NEW_SIZE x NEW_SIZE and copy the elements of + matrix IN into it. IN must be a square matrix, and in normal usage + it will be smaller than NEW_SIZE. + IN is destroyed by this function. The return value must be destroyed + when no longer required. +*/ +static gsl_matrix * +resize_matrix (gsl_matrix *in, size_t new_size) +{ + size_t i, j; + + gsl_matrix *out = NULL; + + assert (in->size1 == in->size2); + + if (new_size <= in->size1) + return in; + + out = gsl_matrix_calloc (new_size, new_size); + + for (i = 0; i < in->size1; ++i) + { + for (j = 0; j < in->size2; ++j) + { + double x = gsl_matrix_get (in, i, j); + + gsl_matrix_set (out, i, j, x); + } + } + + gsl_matrix_free (in); + + return out; +} + struct covariance { /* The variables for which the covariance matrix is to be calculated. */ size_t n_vars; - const struct variable **vars; + const struct variable *const *vars; /* Categorical variables. */ struct categoricals *categoricals; @@ -96,11 +134,11 @@ covariance_moments (const struct covariance *cov, int m) /* Create a covariance struct. */ struct covariance * -covariance_1pass_create (size_t n_vars, const struct variable **vars, +covariance_1pass_create (size_t n_vars, const struct variable *const *vars, const struct variable *weight, enum mv_class exclude) { size_t i; - struct covariance *cov = xmalloc (sizeof *cov); + struct covariance *cov = xzalloc (sizeof *cov); cov->passes = 1; cov->state = 0; @@ -121,7 +159,9 @@ covariance_1pass_create (size_t n_vars, const struct variable **vars, cov->n_cm = (n_vars * (n_vars - 1) ) / 2; - cov->cm = xcalloc (sizeof *cov->cm, cov->n_cm); + if (cov->n_cm > 0) + cov->cm = xcalloc (sizeof *cov->cm, cov->n_cm); + cov->categoricals = NULL; return cov; } @@ -133,8 +173,8 @@ covariance_1pass_create (size_t n_vars, const struct variable **vars, until then. */ struct covariance * -covariance_2pass_create (size_t n_vars, const struct variable **vars, - size_t n_catvars, const struct variable **catvars, +covariance_2pass_create (size_t n_vars, const struct variable *const *vars, + struct categoricals *cats, const struct variable *wv, enum mv_class exclude) { size_t i; @@ -157,10 +197,10 @@ covariance_2pass_create (size_t n_vars, const struct variable **vars, cov->exclude = exclude; - cov->n_cm = - 1; + cov->n_cm = -1; cov->cm = NULL; - cov->categoricals = categoricals_create (catvars, n_catvars, wv); + cov->categoricals = cats; return cov; } @@ -175,16 +215,16 @@ static int cm_idx (const struct covariance *cov, int i, int j) { int as; - const int n2j = cov->n_vars - 2 - j; - const int nj = cov->n_vars - 2 ; + const int n2j = cov->dim - 2 - j; + const int nj = cov->dim - 2 ; assert (i >= 0); - assert (j < cov->n_vars); + assert (j < cov->dim); if ( i == 0) return -1; - if (j >= cov->n_vars - 1) + if (j >= cov->dim - 1) return -1; if ( i <= j) @@ -197,7 +237,41 @@ cm_idx (const struct covariance *cov, int i, int j) return i - 1 + as; } -static void + +/* + Returns true iff the variable corresponding to the Ith element of the covariance matrix + has a missing value for case C +*/ +static bool +is_missing (const struct covariance *cov, int i, const struct ccase *c) +{ + const struct variable *var = i < cov->n_vars ? + cov->vars[i] : + categoricals_get_variable_by_subscript (cov->categoricals, i - cov->n_vars); + + const union value *val = case_data (c, var); + + return var_is_value_missing (var, val, cov->exclude); +} + + +static double +get_val (const struct covariance *cov, int i, const struct ccase *c) +{ + if ( i < cov->n_vars) + { + const struct variable *var = cov->vars[i]; + + const union value *val = case_data (c, var); + + return val->f; + } + + return categoricals_get_binary_by_subscript (cov->categoricals, i - cov->n_vars, c); +} + +#if 0 +void dump_matrix (const gsl_matrix *m) { size_t i, j; @@ -209,6 +283,7 @@ dump_matrix (const gsl_matrix *m) printf ("\n"); } } +#endif /* Call this function for every case in the data set */ void @@ -224,21 +299,21 @@ covariance_accumulate_pass1 (struct covariance *cov, const struct ccase *c) cov->state = 1; } - categoricals_update (cov->categoricals, c); + if (cov->categoricals) + categoricals_update (cov->categoricals, c); - for (i = 0 ; i < cov->n_vars; ++i) + for (i = 0 ; i < cov->dim; ++i) { - const union value *val1 = case_data (c, cov->vars[i]); + double v1 = get_val (cov, i, c); - if ( var_is_value_missing (cov->vars[i], val1, cov->exclude)) + if ( is_missing (cov, i, c)) continue; - for (j = 0 ; j < cov->n_vars; ++j) + for (j = 0 ; j < cov->dim; ++j) { double pwr = 1.0; - const union value *val2 = case_data (c, cov->vars[j]); - if ( var_is_value_missing (cov->vars[j], val2, cov->exclude)) + if ( is_missing (cov, j, c)) continue; for (m = 0 ; m <= MOMENT_MEAN; ++m) @@ -246,7 +321,7 @@ covariance_accumulate_pass1 (struct covariance *cov, const struct ccase *c) double *x = gsl_matrix_ptr (cov->moments[m], i, j); *x += pwr * weight; - pwr *= val1->f; + pwr *= v1; } } } @@ -267,40 +342,85 @@ covariance_accumulate_pass2 (struct covariance *cov, const struct ccase *c) if (! cov->pass_two_first_case_seen) { + size_t m; assert (cov->state == 1); cov->state = 2; - cov->dim = cov->n_vars + categoricals_total (cov->categoricals); + cov->dim = cov->n_vars; + + if (cov->categoricals) + cov->dim += categoricals_total (cov->categoricals) + - categoricals_get_n_variables (cov->categoricals); + cov->n_cm = (cov->dim * (cov->dim - 1) ) / 2; cov->cm = xcalloc (sizeof *cov->cm, cov->n_cm); + /* Grow the moment matrices so that they're large enough to accommodate the + categorical elements */ + for (i = 0; i < n_MOMENTS; ++i) + { + cov->moments[i] = resize_matrix (cov->moments[i], cov->dim); + } + + if (cov->categoricals) + categoricals_done (cov->categoricals); + + /* Populate the moments matrices with the categorical value elements */ + for (i = cov->n_vars; i < cov->dim; ++i) + { + for (j = 0 ; j < cov->dim ; ++j) /* FIXME: This is WRONG !!! */ + { + double w = categoricals_get_weight_by_subscript (cov->categoricals, i - cov->n_vars); + + gsl_matrix_set (cov->moments[MOMENT_NONE], i, j, w); + + w = categoricals_get_sum_by_subscript (cov->categoricals, i - cov->n_vars); + + gsl_matrix_set (cov->moments[MOMENT_MEAN], i, j, w); + } + } + + /* FIXME: This is WRONG!! It must be fixed to properly handle missing values. For + now it assumes there are none */ + for (m = 0 ; m < n_MOMENTS; ++m) + { + for (i = 0 ; i < cov->dim ; ++i) + { + double x = gsl_matrix_get (cov->moments[m], i, cov->n_vars -1); + for (j = cov->n_vars; j < cov->dim; ++j) + { + gsl_matrix_set (cov->moments[m], i, j, x); + } + } + } + /* Divide the means by the number of samples */ - for (i = 0; i < cov->n_vars; ++i) + for (i = 0; i < cov->dim; ++i) { - for (j = 0; j < cov->n_vars; ++j) + for (j = 0; j < cov->dim; ++j) { double *x = gsl_matrix_ptr (cov->moments[MOMENT_MEAN], i, j); *x /= gsl_matrix_get (cov->moments[MOMENT_NONE], i, j); - } + } } } - for (i = 0 ; i < cov->n_vars; ++i) + for (i = 0 ; i < cov->dim; ++i) { - const union value *val1 = case_data (c, cov->vars[i]); + double v1 = get_val (cov, i, c); - if ( var_is_value_missing (cov->vars[i], val1, cov->exclude)) + if ( is_missing (cov, i, c)) continue; - for (j = 0 ; j < cov->n_vars; ++j) + for (j = 0 ; j < cov->dim; ++j) { int idx; double ss ; - const union value *val2 = case_data (c, cov->vars[j]); + double v2 = get_val (cov, j, c); - const double s = pow2 (val1->f - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) * weight; + const double s = pow2 (v1 - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) * weight; - if ( var_is_value_missing (cov->vars[j], val2, cov->exclude)) + if ( is_missing (cov, j, c)) continue; { @@ -309,9 +429,9 @@ covariance_accumulate_pass2 (struct covariance *cov, const struct ccase *c) } ss = - (val1->f - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) + (v1 - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) * - (val2->f - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) + (v2 - gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) * weight ; @@ -320,7 +440,6 @@ covariance_accumulate_pass2 (struct covariance *cov, const struct ccase *c) { cov->cm [idx] += ss; } - } } @@ -345,20 +464,20 @@ covariance_accumulate (struct covariance *cov, const struct ccase *c) cov->state = 1; } - for (i = 0 ; i < cov->n_vars; ++i) + for (i = 0 ; i < cov->dim; ++i) { const union value *val1 = case_data (c, cov->vars[i]); - if ( var_is_value_missing (cov->vars[i], val1, cov->exclude)) + if ( is_missing (cov, i, c)) continue; - for (j = 0 ; j < cov->n_vars; ++j) + for (j = 0 ; j < cov->dim; ++j) { double pwr = 1.0; int idx; const union value *val2 = case_data (c, cov->vars[j]); - if ( var_is_value_missing (cov->vars[j], val2, cov->exclude)) + if ( is_missing (cov, j, c)) continue; idx = cm_idx (cov, i, j); @@ -389,12 +508,12 @@ static gsl_matrix * cm_to_gsl (struct covariance *cov) { int i, j; - gsl_matrix *m = gsl_matrix_calloc (cov->n_vars, cov->n_vars); + gsl_matrix *m = gsl_matrix_calloc (cov->dim, cov->dim); /* Copy the non-diagonal elements from cov->cm */ - for ( j = 0 ; j < cov->n_vars - 1; ++j) + for ( j = 0 ; j < cov->dim - 1; ++j) { - for (i = j+1 ; i < cov->n_vars; ++i) + for (i = j+1 ; i < cov->dim; ++i) { double x = cov->cm [cm_idx (cov, i, j)]; gsl_matrix_set (m, i, j, x); @@ -403,7 +522,7 @@ cm_to_gsl (struct covariance *cov) } /* Copy the diagonal elements from cov->moments[2] */ - for (j = 0 ; j < cov->n_vars ; ++j) + for (j = 0 ; j < cov->dim ; ++j) { double sigma = gsl_matrix_get (cov->moments[2], j, j); gsl_matrix_set (m, j, j, sigma); @@ -413,13 +532,13 @@ cm_to_gsl (struct covariance *cov) } -static const gsl_matrix * +static gsl_matrix * covariance_calculate_double_pass (struct covariance *cov) { size_t i, j; - for (i = 0 ; i < cov->n_vars; ++i) + for (i = 0 ; i < cov->dim; ++i) { - for (j = 0 ; j < cov->n_vars; ++j) + for (j = 0 ; j < cov->dim; ++j) { int idx; double *x = gsl_matrix_ptr (cov->moments[MOMENT_VARIANCE], i, j); @@ -437,7 +556,7 @@ covariance_calculate_double_pass (struct covariance *cov) return cm_to_gsl (cov); } -static const gsl_matrix * +static gsl_matrix * covariance_calculate_single_pass (struct covariance *cov) { size_t i, j; @@ -448,9 +567,9 @@ covariance_calculate_single_pass (struct covariance *cov) /* Divide the moments by the number of samples */ if ( m > 0) { - for (i = 0 ; i < cov->n_vars; ++i) + for (i = 0 ; i < cov->dim; ++i) { - for (j = 0 ; j < cov->n_vars; ++j) + for (j = 0 ; j < cov->dim; ++j) { double *x = gsl_matrix_ptr (cov->moments[m], i, j); *x /= gsl_matrix_get (cov->moments[0], i, j); @@ -463,9 +582,9 @@ covariance_calculate_single_pass (struct covariance *cov) } /* Centre the moments */ - for ( j = 0 ; j < cov->n_vars - 1; ++j) + for ( j = 0 ; j < cov->dim - 1; ++j) { - for (i = j + 1 ; i < cov->n_vars; ++i) + for (i = j + 1 ; i < cov->dim; ++i) { double *x = &cov->cm [cm_idx (cov, i, j)]; @@ -482,16 +601,16 @@ covariance_calculate_single_pass (struct covariance *cov) } +/* Return a pointer to gsl_matrix containing the pairwise covariances. The + caller owns the returned matrix and must free it when it is no longer + needed. -/* - Return a pointer to gsl_matrix containing the pairwise covariances. - The matrix remains owned by the COV object, and must not be freed. - Call this function only after all data have been accumulated. -*/ -const gsl_matrix * + Call this function only after all data have been accumulated. */ +gsl_matrix * covariance_calculate (struct covariance *cov) { - assert ( cov->state > 0 ); + if ( cov->state <= 0 ) + return NULL; switch (cov->passes) { @@ -506,7 +625,95 @@ covariance_calculate (struct covariance *cov) } } +/* + Covariance computed without dividing by the sample size. + */ +static gsl_matrix * +covariance_calculate_double_pass_unnormalized (struct covariance *cov) +{ + size_t i, j; + for (i = 0 ; i < cov->dim; ++i) + { + for (j = 0 ; j < cov->dim; ++j) + { + int idx; + double *x = gsl_matrix_ptr (cov->moments[MOMENT_VARIANCE], i, j); + + idx = cm_idx (cov, i, j); + if ( idx >= 0) + { + x = &cov->cm [idx]; + } + } + } + + return cm_to_gsl (cov); +} + +static gsl_matrix * +covariance_calculate_single_pass_unnormalized (struct covariance *cov) +{ + size_t i, j; + + for (i = 0 ; i < cov->dim; ++i) + { + for (j = 0 ; j < cov->dim; ++j) + { + double *x = gsl_matrix_ptr (cov->moments[MOMENT_VARIANCE], i, j); + *x -= pow2 (gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j)) + / gsl_matrix_get (cov->moments[MOMENT_NONE], i, j); + } + } + for ( j = 0 ; j < cov->dim - 1; ++j) + { + for (i = j + 1 ; i < cov->dim; ++i) + { + double *x = &cov->cm [cm_idx (cov, i, j)]; + + *x -= + gsl_matrix_get (cov->moments[MOMENT_MEAN], i, j) + * + gsl_matrix_get (cov->moments[MOMENT_MEAN], j, i) + / gsl_matrix_get (cov->moments[MOMENT_NONE], i, j); + } + } + + return cm_to_gsl (cov); +} + +/* Return a pointer to gsl_matrix containing the pairwise covariances. The + caller owns the returned matrix and must free it when it is no longer + needed. + + Call this function only after all data have been accumulated. */ +gsl_matrix * +covariance_calculate_unnormalized (struct covariance *cov) +{ + if ( cov->state <= 0 ) + return NULL; + + switch (cov->passes) + { + case 1: + return covariance_calculate_single_pass_unnormalized (cov); + break; + case 2: + return covariance_calculate_double_pass_unnormalized (cov); + break; + default: + NOT_REACHED (); + } +} + +/* Function to access the categoricals used by COV + The return value is owned by the COV +*/ +const struct categoricals * +covariance_get_categoricals (const struct covariance *cov) +{ + return cov->categoricals; +} /* Destroy the COV object */ @@ -514,7 +721,8 @@ void covariance_destroy (struct covariance *cov) { size_t i; - free (cov->vars); + + categoricals_destroy (cov->categoricals); for (i = 0; i < n_MOMENTS; ++i) gsl_matrix_free (cov->moments[i]);