From: Jason Stover Date: Fri, 6 Jan 2006 17:27:16 +0000 (+0000) Subject: Added categorical values to coefficient table for clarity X-Git-Tag: v0.6.0~1098 X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?a=commitdiff_plain;h=0e1b4c7bad78b6039da1e932d0cc4a84fee2290f;p=pspp-builds.git Added categorical values to coefficient table for clarity --- diff --git a/src/regression.q b/src/regression.q index 60f3c39f..dd22daea 100644 --- a/src/regression.q +++ b/src/regression.q @@ -91,6 +91,57 @@ struct file_handle *model_file; int pspp_reg_rc = CMD_SUCCESS; static void run_regression (const struct casefile *, void *); +static union value *pspp_reg_coefficient_to_value (const pspp_linreg_cache *, + const struct + pspp_linreg_coeff *, + size_t); + +/* + Which value of a categorical variable corresponds to the + coefficient? This routine provides the answer IF the + categorical variable is encoded in the usual way: The + first value maps to the zero vector, the second value to + the vector (0, 1, 0, ...), the third value (0, 0, 1, 0, ...), + etc. + */ +static union value * +pspp_reg_coefficient_to_value (const pspp_linreg_cache * cache, + const struct pspp_linreg_coeff *coeff, + size_t j) +{ + size_t which = 0; + int k = 1; /* First coefficient is the intercept. */ + int found = 0; + const union value *result; + struct pspp_linreg_coeff c; + + assert (cache != NULL); + assert (coeff != NULL); + assert (coeff->v->type == ALPHA); + while (!found && k < cache->n_coeffs) + { + c = cache->coeff[k]; + /* + compare_var_names returns 0 if the variable + names match. + */ + if (!compare_var_names (coeff->v, c.v, NULL)) + { + if (j == k) + { + found = 1; + } + else + { + which++; + } + } + k++; + } + result = cat_subscript_to_value ((const size_t) which, coeff->v); + return result; +} + /* STATISTICS subcommand output functions. */ @@ -161,9 +212,13 @@ reg_stats_coeff (pspp_linreg_cache * c) double std_err; double beta; const char *label; + char *tmp; + const union value *val; + const char *val_s; struct tab_table *t; assert (c != NULL); + tmp = xnmalloc (MAX_STRING, sizeof (*tmp)); n_rows = c->n_coeffs + 2; t = tab_create (n_cols, n_rows, 0); @@ -194,7 +249,21 @@ reg_stats_coeff (pspp_linreg_cache * c) { i = indep_vars[j]; label = var_to_string (c->coeff[j].v); - tab_text (t, 1, j + 1, TAB_CENTER, label); + /* Do not overwrite the variable's name. */ + strncpy (tmp, label, MAX_STRING); + if (c->coeff[j].v->type == ALPHA) + { + /* + Append the value associated with this coefficient. + This makes sense only if we us the usual binary encoding + for that value. + */ + val = pspp_reg_coefficient_to_value (c, &(c->coeff[j]), j); + val_s = value_to_string (val, c->coeff[j].v); + strncat (tmp, val_s, MAX_STRING); + } + + tab_text (t, 1, j + 1, TAB_CENTER, tmp); /* Regression coefficients. */ @@ -226,6 +295,7 @@ reg_stats_coeff (pspp_linreg_cache * c) } tab_title (t, 0, _("Coefficients")); tab_submit (t); + free (tmp); } /* @@ -831,13 +901,13 @@ run_regression (const struct casefile *cf, void *cmd_ UNUSED) lcache->indep_std = gsl_vector_alloc (X->m->size2); lcache->depvar = (const struct variable *) depvar; /* - For large data sets, use QR decomposition. - */ + For large data sets, use QR decomposition. + */ if (n_data > sqrt (n_indep) && n_data > REG_LARGE_DATA) { lcache->method = PSPP_LINREG_SVD; } - + /* The second pass creates the design matrix. */