X-Git-Url: https://pintos-os.org/cgi-bin/gitweb.cgi?a=blobdiff_plain;f=src%2Ft-test.q;h=b33c5c2824185ab985a96877bad50e96a358a116;hb=4fdeb2145d081ff1b84e3f6c99f9d1c048c0d64a;hp=c2fc85d7f774bdf5308cd458f5684efc65518536;hpb=d69833d7d425cd98c3793a89945153306dfa7ab3;p=pspp-builds.git diff --git a/src/t-test.q b/src/t-test.q index c2fc85d7..b33c5c28 100644 --- a/src/t-test.q +++ b/src/t-test.q @@ -16,31 +16,38 @@ You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software - Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA - 02111-1307, USA. */ + Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA + 02110-1301, USA. */ #include -#include +#include +#include "error.h" #include #include #include #include "alloc.h" #include "str.h" -#include "dcdflib/cdflib.h" +#include "case.h" #include "command.h" +#include "dictionary.h" #include "lexer.h" #include "error.h" #include "magic.h" +#include "misc.h" #include "tab.h" #include "som.h" #include "value-labels.h" #include "var.h" #include "vfm.h" -#include "pool.h" +#include "hash.h" +#include "group_proc.h" +#include "casefile.h" +#include "levene.h" +/* (headers) */ /* (specification) "T-TEST" (tts_): - groups=custom; + +groups=custom; testval=double; variables=varlist("PV_NO_SCRATCH | PV_NUMERIC"); pairs=custom; @@ -52,28 +59,94 @@ /* (declarations) */ /* (functions) */ -static struct cmd_t_test cmd; -static struct pool *t_test_pool ; +/* Function to use for testing for missing values */ +static is_missing_func value_is_missing; /* Variable for the GROUPS subcommand, if given. */ -static struct variable *groups; +static struct variable *indep_var; + +enum comparison + { + CMP_LE = -2, + CMP_EQ = 0, + }; + +struct group_properties +{ + /* The comparison criterion */ + enum comparison criterion; + + /* The width of the independent variable */ + int indep_width ; + + union { + /* The value of the independent variable at which groups are determined to + belong to one group or the other */ + double critical_value; + + + /* The values of the independent variable for each group */ + union value g_value[2]; + } v ; + +}; + + +static struct group_properties gp ; + -/* GROUPS: Number of values specified by the user; the values - specified if any. */ -static int n_groups_values; -static union value groups_values[2]; /* PAIRS: Number of pairs to be compared ; each pair. */ -static int n_pairs ; -typedef struct variable *pair_t[2] ; -static pair_t *pairs; +static int n_pairs = 0 ; +struct pair +{ + /* The variables comprising the pair */ + struct variable *v[2]; + /* The number of valid variable pairs */ + double n; -static int parse_value (union value * v, int type) ; + /* The sum of the members */ + double sum[2]; + + /* sum of squares of the members */ + double ssq[2]; + + /* Std deviation of the members */ + double std_dev[2]; + + + /* Sample Std deviation of the members */ + double s_std_dev[2]; + + /* The means of the members */ + double mean[2]; + + /* The correlation coefficient between the variables */ + double correlation; + + /* The sum of the differences */ + double sum_of_diffs; + + /* The sum of the products */ + double sum_of_prod; + + /* The mean of the differences */ + double mean_diff; + + /* The sum of the squares of the differences */ + double ssq_diffs; + + /* The std deviation of the differences */ + double std_dev_diff; +}; + +static struct pair *pairs=0; +static int parse_value (union value * v, int type) ; /* Structures and Functions for the Statistics Summary Box */ struct ssbox; @@ -101,7 +174,7 @@ void ssbox_finalize(struct ssbox *ssb); /* A function to create, populate and submit the Paired Samples Correlation box */ -void pscbox(struct cmd_t_test *cmd); +void pscbox(void); /* Structures and Functions for the Test Results Box */ @@ -134,28 +207,45 @@ enum { }; -static int common_calc (struct ccase *); -static void common_precalc (void); -static void common_postcalc (void); +static int common_calc (const struct ccase *, void *); +static void common_precalc (struct cmd_t_test *); +static void common_postcalc (struct cmd_t_test *); -static int one_sample_calc (struct ccase *); -static void one_sample_precalc (void); -static void one_sample_postcalc (void); +static int one_sample_calc (const struct ccase *, void *); +static void one_sample_precalc (struct cmd_t_test *); +static void one_sample_postcalc (struct cmd_t_test *); +static int paired_calc (const struct ccase *, void *); +static void paired_precalc (struct cmd_t_test *); +static void paired_postcalc (struct cmd_t_test *); -int -cmd_t_test(void) -{ - int mode; +static void group_precalc (struct cmd_t_test *); +static int group_calc (const struct ccase *, struct cmd_t_test *); +static void group_postcalc (struct cmd_t_test *); - struct ssbox stat_summary_box; - struct trbox test_results_box; - if (!lex_force_match_id ("T")) - return CMD_FAILURE; +static void calculate(const struct casefile *cf, void *_mode); + +static int mode; + +static struct cmd_t_test cmd; + +static int bad_weight_warn; + - lex_match ('-'); - lex_match_id ("TEST"); +static int compare_group_binary(const struct group_statistics *a, + const struct group_statistics *b, + const struct group_properties *p); + + +static unsigned hash_group_binary(const struct group_statistics *g, + const struct group_properties *p); + + + +int +cmd_t_test(void) +{ if ( !parse_t_test(&cmd) ) return CMD_FAILURE; @@ -163,13 +253,21 @@ cmd_t_test(void) if (! cmd.sbc_criteria) cmd.criteria=0.95; - if ( cmd.sbc_testval + cmd.sbc_groups + cmd.sbc_pairs != 1 ) - { - msg(SE, - _("Exactly one of TESTVAL, GROUPS or PAIRS subcommands is required") - ); - return CMD_FAILURE; - } + { + int m=0; + if (cmd.sbc_testval) ++m; + if (cmd.sbc_groups) ++m; + if (cmd.sbc_pairs) ++m; + + if ( m != 1) + { + msg(SE, + _("TESTVAL, GROUPS and PAIRS subcommands are mutually exclusive.") + ); + free_t_test(&cmd); + return CMD_FAILURE; + } + } if (cmd.sbc_testval) mode=T_1_SAMPLE; @@ -178,42 +276,88 @@ cmd_t_test(void) else mode=T_PAIRED; - if ( mode == T_PAIRED && cmd.sbc_variables) + if ( mode == T_PAIRED) { - msg(SE, _("VARIABLES subcommand is not appropriate with PAIRS")); - return CMD_FAILURE; - } + if (cmd.sbc_variables) + { + msg(SE, _("VARIABLES subcommand is not appropriate with PAIRS")); + free_t_test(&cmd); + return CMD_FAILURE; + } + else + { + /* Iterate through the pairs and put each variable that is a + member of a pair into cmd.v_variables */ - procedure(common_precalc,common_calc,common_postcalc); + int i; + struct hsh_iterator hi; + struct hsh_table *hash; + struct variable *v; - if (mode == T_1_SAMPLE) - procedure(one_sample_precalc,one_sample_calc,one_sample_postcalc); + hash = hsh_create (n_pairs, compare_var_names, hash_var_name, 0, 0); - t_test_pool = pool_create (); + for (i=0; i < n_pairs; ++i) + { + hsh_insert(hash,pairs[i].v[0]); + hsh_insert(hash,pairs[i].v[1]); + } - ssbox_create(&stat_summary_box,&cmd,mode); - ssbox_populate(&stat_summary_box,&cmd); - ssbox_finalize(&stat_summary_box); + assert(cmd.n_variables == 0); + cmd.n_variables = hsh_count(hash); - if ( mode == T_PAIRED) + cmd.v_variables = xrealloc(cmd.v_variables, + sizeof(struct variable) * cmd.n_variables); + /* Iterate through the hash */ + for (i=0,v = (struct variable *) hsh_first(hash,&hi); + v != 0; + v=hsh_next(hash,&hi) ) + cmd.v_variables[i++]=v; + + hsh_destroy(hash); + } + } + else if ( !cmd.sbc_variables) { - pscbox(&cmd); + msg(SE, _("One or more VARIABLES must be specified.")); + free_t_test(&cmd); + return CMD_FAILURE; } - trbox_create(&test_results_box,&cmd,mode); - trbox_populate(&test_results_box,&cmd); - trbox_finalize(&test_results_box); - pool_destroy (t_test_pool); + /* If /MISSING=INCLUDE is set, then user missing values are ignored */ + if (cmd.incl == TTS_INCLUDE ) + value_is_missing = is_system_missing; + else + value_is_missing = is_missing; + + bad_weight_warn = 1; + + multipass_procedure_with_splits (calculate, &cmd); - t_test_pool=0; + n_pairs=0; + free(pairs); + pairs=0; + + if ( mode == T_IND_SAMPLES) + { + int v; + /* Destroy any group statistics we created */ + for (v = 0 ; v < cmd.n_variables ; ++v ) + { + struct group_proc *grpp = group_proc_get (cmd.v_variables[v]); + hsh_destroy (grpp->group_hash); + } + } + free_t_test(&cmd); return CMD_SUCCESS; } static int -tts_custom_groups (struct cmd_t_test *cmd unused) +tts_custom_groups (struct cmd_t_test *cmd UNUSED) { + int n_group_values=0; + lex_match('='); if (token != T_ALL && @@ -224,63 +368,84 @@ tts_custom_groups (struct cmd_t_test *cmd unused) return 0; } - groups = parse_variable (); - if (!groups) + indep_var = parse_variable (); + if (!indep_var) { lex_error ("expecting variable name in GROUPS subcommand"); return 0; } - if (groups->type == T_STRING && groups->width > MAX_SHORT_STRING) + if (indep_var->type == T_STRING && indep_var->width > MAX_SHORT_STRING) { msg (SE, _("Long string variable %s is not valid here."), - groups->name); + indep_var->name); return 0; } if (!lex_match ('(')) { - if (groups->type == NUMERIC) + if (indep_var->type == NUMERIC) { - n_groups_values = 2; - groups_values[0].f = 1; - groups_values[1].f = 2; + gp.v.g_value[0].f = 1; + gp.v.g_value[1].f = 2; + + gp.criterion = CMP_EQ; + + n_group_values = 2; + return 1; } else { - msg (SE, _("When applying GROUPS to a string variable, at " - "least one value must be specified.")); + msg (SE, _("When applying GROUPS to a string variable, two " + "values must be specified.")); return 0; } } - if (!parse_value (&groups_values[0],groups->type)) - return 0; - n_groups_values = 1; + if (!parse_value (&gp.v.g_value[0], indep_var->type)) + return 0; lex_match (','); if (lex_match (')')) - return 1; + { + if (indep_var->type != NUMERIC) + { + + msg (SE, _("When applying GROUPS to a string variable, two " + "values must be specified.")); + return 0; + } + gp.criterion = CMP_LE; + gp.v.critical_value = gp.v.g_value[0].f; + + n_group_values = 1; + return 1; + } - if (!parse_value (&groups_values[1],groups->type)) + if (!parse_value (&gp.v.g_value[1], indep_var->type)) return 0; - n_groups_values = 2; + n_group_values = 2; if (!lex_force_match (')')) return 0; - return 1; -} + if ( n_group_values == 2 ) + gp.criterion = CMP_EQ ; + else + gp.criterion = CMP_LE ; + return 1; +} static int -tts_custom_pairs (struct cmd_t_test *cmd unused) +tts_custom_pairs (struct cmd_t_test *cmd UNUSED) { struct variable **vars; int n_vars; + int n_pairs_local; int n_before_WITH ; int n_after_WITH = -1; @@ -332,11 +497,11 @@ tts_custom_pairs (struct cmd_t_test *cmd unused) n_before_WITH, n_after_WITH ); return 0; } - n_pairs=n_before_WITH; + n_pairs_local=n_before_WITH; } else if (n_before_WITH > 0) /* WITH keyword given, but not PAIRED keyword */ { - n_pairs=n_before_WITH * n_after_WITH ; + n_pairs_local=n_before_WITH * n_after_WITH ; } else /* Neither WITH nor PAIRED keyword given */ { @@ -349,35 +514,36 @@ tts_custom_pairs (struct cmd_t_test *cmd unused) } /* how many ways can you pick 2 from n_vars ? */ - n_pairs = n_vars * (n_vars -1 ) /2 ; + n_pairs_local = n_vars * (n_vars -1 ) /2 ; } + /* Allocate storage for the pairs */ - pairs = xrealloc(pairs,sizeof(pair_t) *n_pairs); + pairs = xrealloc(pairs, sizeof(struct pair) * (n_pairs + n_pairs_local) ); /* Populate the pairs with the appropriate variables */ if ( paired ) { int i; - assert(n_pairs == n_vars/2); - for (i = 0; i < n_pairs ; ++i) + assert(n_pairs_local == n_vars/2); + for (i = 0; i < n_pairs_local ; ++i) { - pairs[i][0] = vars[i]; - pairs[i][1] = vars[i+n_pairs]; + pairs[i].v[n_pairs+0] = vars[i]; + pairs[i].v[n_pairs+1] = vars[i+n_pairs_local]; } } else if (n_before_WITH > 0) /* WITH keyword given, but not PAIRED keyword */ { int i,j; - int p=0; + int p=n_pairs; for(i=0 ; i < n_before_WITH ; ++i ) { for(j=0 ; j < n_after_WITH ; ++j) { - pairs[p][0] = vars[i]; - pairs[p][1] = vars[j+n_before_WITH]; + pairs[p].v[0] = vars[i]; + pairs[p].v[1] = vars[j+n_before_WITH]; ++p; } } @@ -385,19 +551,22 @@ tts_custom_pairs (struct cmd_t_test *cmd unused) else /* Neither WITH nor PAIRED given */ { int i,j; - int p=0; + int p=n_pairs; for(i=0 ; i < n_vars ; ++i ) { for(j=i+1 ; j < n_vars ; ++j) { - pairs[p][0] = vars[i]; - pairs[p][1] = vars[j]; + pairs[p].v[0] = vars[i]; + pairs[p].v[1] = vars[j]; ++p; } } } + n_pairs+=n_pairs_local; + + free (vars); return 1; } @@ -416,7 +585,7 @@ parse_value (union value * v, int type ) { if (!lex_force_string ()) return 0; - strncpy (v->s, ds_value (&tokstr), ds_length (&tokstr)); + strncpy (v->s, ds_c_str (&tokstr), ds_length (&tokstr)); } lex_get (); @@ -440,6 +609,7 @@ void ssbox_independent_samples_init(struct ssbox *this, void ssbox_paired_init(struct ssbox *this, struct cmd_t_test *cmd); + /* Factory to create an ssbox */ void ssbox_create(struct ssbox *ssb, struct cmd_t_test *cmd, int mode) @@ -461,6 +631,7 @@ ssbox_create(struct ssbox *ssb, struct cmd_t_test *cmd, int mode) } + /* Despatcher for the populate method */ void ssbox_populate(struct ssbox *ssb,struct cmd_t_test *cmd) @@ -484,6 +655,8 @@ ssbox_base_finalize(struct ssbox *ssb) tab_submit(ssb->t); } + + /* Initialize a ssbox struct */ void ssbox_base_init(struct ssbox *this, int cols,int rows) @@ -513,7 +686,7 @@ ssbox_one_sample_init(struct ssbox *this, ssbox_base_init(this, hsize,vsize); tab_title (this->t, 0, _("One-Sample Statistics")); - tab_vline(this->t, TAL_2, 1,0,vsize); + tab_vline(this->t, TAL_2, 1,0,vsize - 1); tab_text (this->t, 1, 0, TAB_CENTER | TAT_TITLE, _("N")); tab_text (this->t, 2, 0, TAB_CENTER | TAT_TITLE, _("Mean")); tab_text (this->t, 3, 0, TAB_CENTER | TAT_TITLE, _("Std. Deviation")); @@ -535,8 +708,8 @@ ssbox_independent_samples_init(struct ssbox *this, ssbox_base_init(this, hsize,vsize); tab_title (this->t, 0, _("Group Statistics")); - tab_vline(this->t,0,1,0,vsize); - tab_text (this->t, 1, 0, TAB_CENTER | TAT_TITLE, groups->name); + tab_vline(this->t,0,1,0,vsize - 1); + tab_text (this->t, 1, 0, TAB_CENTER | TAT_TITLE, indep_var->name); tab_text (this->t, 2, 0, TAB_CENTER | TAT_TITLE, _("N")); tab_text (this->t, 3, 0, TAB_CENTER | TAT_TITLE, _("Mean")); tab_text (this->t, 4, 0, TAB_CENTER | TAT_TITLE, _("Std. Deviation")); @@ -551,35 +724,95 @@ ssbox_independent_samples_populate(struct ssbox *ssb, { int i; + char *val_lab0=0; char *val_lab1=0; - char *val_lab2=0; + double indep_value[2]; + + char prefix[2][3]={"",""}; + + if ( indep_var->type == NUMERIC ) + { + val_lab0 = val_labs_find( indep_var->val_labs,gp.v.g_value[0]); + val_lab1 = val_labs_find( indep_var->val_labs,gp.v.g_value[1]); + } + else + { + val_lab0 = gp.v.g_value[0].s; + val_lab1 = gp.v.g_value[1].s; + } - if ( groups->type == NUMERIC ) + if (gp.criterion == CMP_LE ) { - val_lab1 = val_labs_find( groups->val_labs,groups_values[0]); - val_lab2 = val_labs_find( groups->val_labs,groups_values[1]); + strcpy(prefix[0],"< "); + strcpy(prefix[1],">="); + indep_value[0] = gp.v.critical_value; + indep_value[1] = gp.v.critical_value; } else { - val_lab1 = groups_values[0].s; - val_lab2 = groups_values[1].s; + indep_value[0] = gp.v.g_value[0].f; + indep_value[1] = gp.v.g_value[1].f; } assert(ssb->t); for (i=0; i < cmd->n_variables; ++i) { + struct variable *var = cmd->v_variables[i]; + struct hsh_table *grp_hash = group_proc_get (var)->group_hash; + int count=0; + tab_text (ssb->t, 0, i*2+1, TAB_LEFT, cmd->v_variables[i]->name); - if (val_lab1) - tab_text (ssb->t, 1, i*2+1, TAB_LEFT, val_lab1); + if (val_lab0) + tab_text (ssb->t, 1, i*2+1, TAB_LEFT | TAT_PRINTF, + "%s%s", prefix[0], val_lab0); else - tab_float(ssb->t, 1 ,i*2+1, TAB_LEFT, groups_values[0].f, 2,0); + tab_text (ssb->t, 1, i*2+1, TAB_LEFT | TAT_PRINTF, + "%s%g", prefix[0], indep_value[0]); - if (val_lab2) - tab_text (ssb->t, 1, i*2+1+1, TAB_LEFT, val_lab2); + + if (val_lab1) + tab_text (ssb->t, 1, i*2+1+1, TAB_LEFT | TAT_PRINTF, + "%s%s", prefix[1], val_lab1); else - tab_float(ssb->t, 1 ,i*2+1+1, TAB_LEFT, groups_values[1].f,2,0); + tab_text (ssb->t, 1, i*2+1+1, TAB_LEFT | TAT_PRINTF, + "%s%g", prefix[1], indep_value[1]); + + + /* Fill in the group statistics */ + for ( count = 0 ; count < 2 ; ++count ) + { + union value search_val; + + struct group_statistics *gs; + + if ( gp.criterion == CMP_LE ) + { + if ( count == 0 ) + { + /* less than ( < ) case */ + search_val.f = gp.v.critical_value - 1.0; + } + else + { + /* >= case */ + search_val.f = gp.v.critical_value + 1.0; + } + } + else + { + search_val = gp.v.g_value[count]; + } + + gs = hsh_find(grp_hash, (void *) &search_val); + assert(gs); + + tab_float(ssb->t, 2 ,i*2+count+1, TAB_RIGHT, gs->n, 2, 0); + tab_float(ssb->t, 3 ,i*2+count+1, TAB_RIGHT, gs->mean, 8, 2); + tab_float(ssb->t, 4 ,i*2+count+1, TAB_RIGHT, gs->std_dev, 8, 3); + tab_float(ssb->t, 5 ,i*2+count+1, TAB_RIGHT, gs->se_mean, 8, 3); + } } } @@ -589,7 +822,7 @@ void ssbox_paired_populate(struct ssbox *ssb, /* Initialize the paired values ssbox */ void -ssbox_paired_init(struct ssbox *this, struct cmd_t_test *cmd unused) +ssbox_paired_init(struct ssbox *this, struct cmd_t_test *cmd UNUSED) { int hsize=6; @@ -610,26 +843,36 @@ ssbox_paired_init(struct ssbox *this, struct cmd_t_test *cmd unused) /* Populate the ssbox for paired values */ void -ssbox_paired_populate(struct ssbox *ssb,struct cmd_t_test *cmd unused) +ssbox_paired_populate(struct ssbox *ssb,struct cmd_t_test *cmd UNUSED) { int i; - struct string ds; assert(ssb->t); - ds_init(t_test_pool,&ds,15); for (i=0; i < n_pairs; ++i) { - ds_clear(&ds); + int j; - ds_printf(&ds,_("Pair %d"),i); + tab_text (ssb->t, 0, i*2+1, TAB_LEFT | TAT_PRINTF , _("Pair %d"),i); - tab_text (ssb->t, 0, i*2+1, TAB_LEFT, ds.string); - tab_text (ssb->t, 1, i*2+1, TAB_LEFT, pairs[i][0]->name); - tab_text (ssb->t, 1, i*2+2, TAB_LEFT, pairs[i][1]->name); - } + for (j=0 ; j < 2 ; ++j) + { + struct group_statistics *gs; + + gs = &group_proc_get (pairs[i].v[j])->ugs; - ds_destroy(&ds); + /* Titles */ + + tab_text (ssb->t, 1, i*2+j+1, TAB_LEFT, pairs[i].v[j]->name); + + /* Values */ + tab_float (ssb->t,2, i*2+j+1, TAB_RIGHT, pairs[i].mean[j], 8, 2); + tab_float (ssb->t,3, i*2+j+1, TAB_RIGHT, pairs[i].n, 2, 0); + tab_float (ssb->t,4, i*2+j+1, TAB_RIGHT, pairs[i].std_dev[j], 8, 3); + tab_float (ssb->t,5, i*2+j+1, TAB_RIGHT, pairs[i].std_dev[j]/sqrt(pairs[i].n), 8, 3); + + } + } } /* Populate the one sample ssbox */ @@ -642,14 +885,13 @@ ssbox_one_sample_populate(struct ssbox *ssb, struct cmd_t_test *cmd) for (i=0; i < cmd->n_variables; ++i) { - struct t_test_proc *ttp; - ttp= &cmd->v_variables[i]->p.t_t; + struct group_statistics *gs = &group_proc_get (cmd->v_variables[i])->ugs; tab_text (ssb->t, 0, i+1, TAB_LEFT, cmd->v_variables[i]->name); - tab_float (ssb->t,1, i+1, TAB_RIGHT, ttp->n, 2, 0); - tab_float (ssb->t,2, i+1, TAB_RIGHT, ttp->mean, 8, 2); - tab_float (ssb->t,3, i+1, TAB_RIGHT, ttp->std_dev, 8, 2); - tab_float (ssb->t,4, i+1, TAB_RIGHT, ttp->se_mean, 8, 3); + tab_float (ssb->t,1, i+1, TAB_RIGHT, gs->n, 2, 0); + tab_float (ssb->t,2, i+1, TAB_RIGHT, gs->mean, 8, 2); + tab_float (ssb->t,3, i+1, TAB_RIGHT, gs->std_dev, 8, 2); + tab_float (ssb->t,4, i+1, TAB_RIGHT, gs->se_mean, 8, 3); } } @@ -719,13 +961,11 @@ trbox_finalize(struct trbox *trb) /* Initialize the independent samples trbox */ void trbox_independent_samples_init(struct trbox *self, - struct cmd_t_test *cmd unused) + struct cmd_t_test *cmd UNUSED) { const int hsize=11; const int vsize=cmd->n_variables*2+3; - struct string ds; - assert(self); self->populate = trbox_independent_samples_populate; @@ -738,7 +978,7 @@ trbox_independent_samples_init(struct trbox *self, tab_hline(self->t,TAL_1, hsize-2,hsize-1,2); tab_box(self->t,-1,-1,-1,TAL_1, hsize-2,2,hsize-1,vsize-1); tab_joint_text(self->t, 2, 0, 3, 0, - TAB_CENTER,_("Levine's Test for Equality of Variances")); + TAB_CENTER,_("Levene's Test for Equality of Variances")); tab_joint_text(self->t, 4,0,hsize-1,0, TAB_CENTER,_("t-test for Equality of Means")); @@ -752,14 +992,10 @@ trbox_independent_samples_init(struct trbox *self, tab_text(self->t,9,2, TAB_CENTER | TAT_TITLE,_("Lower")); tab_text(self->t,10,2, TAB_CENTER | TAT_TITLE,_("Upper")); - ds_init(t_test_pool,&ds,80); - - ds_printf(&ds,_("%d%% Confidence Interval of the Difference"), - (int)round(cmd->criteria*100.0)); - - tab_joint_text(self->t,9,1,10,1,TAB_CENTER, ds.string); + tab_joint_text(self->t, 9, 1, 10, 1, TAB_CENTER | TAT_PRINTF, + _("%g%% Confidence Interval of the Difference"), + cmd->criteria*100.0); - ds_destroy(&ds); } /* Populate the independent samples trbox */ @@ -772,46 +1008,168 @@ trbox_independent_samples_populate(struct trbox *self, assert(self); for (i=0; i < cmd->n_variables; ++i) { + double p,q; + + double t; + double df; + + double df1, df2; + + double pooled_variance; + double std_err_diff; + double mean_diff; + + struct variable *var = cmd->v_variables[i]; + struct group_proc *grp_data = group_proc_get (var); + + struct hsh_table *grp_hash = grp_data->group_hash; + + struct group_statistics *gs0 ; + struct group_statistics *gs1 ; + + union value search_val; + + if ( gp.criterion == CMP_LE ) + search_val.f = gp.v.critical_value - 1.0; + else + search_val = gp.v.g_value[0]; + + gs0 = hsh_find(grp_hash, (void *) &search_val); + assert(gs0); + + if ( gp.criterion == CMP_LE ) + search_val.f = gp.v.critical_value + 1.0; + else + search_val = gp.v.g_value[1]; + + gs1 = hsh_find(grp_hash, (void *) &search_val); + assert(gs1); + + tab_text (self->t, 0, i*2+3, TAB_LEFT, cmd->v_variables[i]->name); tab_text (self->t, 1, i*2+3, TAB_LEFT, _("Equal variances assumed")); + + tab_float(self->t, 2, i*2+3, TAB_CENTER, grp_data->levene, 8,3); + + /* Now work out the significance of the Levene test */ + df1 = 1; df2 = grp_data->ugs.n - 2; + q = gsl_cdf_fdist_Q(grp_data->levene, df1, df2); + + tab_float(self->t, 3, i*2+3, TAB_CENTER, q, 8,3 ); + + df = gs0->n + gs1->n - 2.0 ; + tab_float (self->t, 5, i*2+3, TAB_RIGHT, df, 2, 0); + + pooled_variance = ( (gs0->n )*pow2(gs0->s_std_dev) + + + (gs1->n )*pow2(gs1->s_std_dev) + ) / df ; + + t = (gs0->mean - gs1->mean) / sqrt(pooled_variance) ; + t /= sqrt((gs0->n + gs1->n)/(gs0->n*gs1->n)); + + tab_float (self->t, 4, i*2+3, TAB_RIGHT, t, 8, 3); + + p = gsl_cdf_tdist_P(t, df); + q = gsl_cdf_tdist_Q(t, df); + + tab_float(self->t, 6, i*2+3, TAB_RIGHT, 2.0*(t>0?q:p) , 8, 3); + + mean_diff = gs0->mean - gs1->mean; + tab_float(self->t, 7, i*2+3, TAB_RIGHT, mean_diff, 8, 3); + + + std_err_diff = sqrt( pow2(gs0->se_mean) + pow2(gs1->se_mean)); + tab_float(self->t, 8, i*2+3, TAB_RIGHT, std_err_diff, 8, 3); + + + /* Now work out the confidence interval */ + q = (1 - cmd->criteria)/2.0; /* 2-tailed test */ + + t = gsl_cdf_tdist_Qinv(q,df); + tab_float(self->t, 9, i*2+3, TAB_RIGHT, + mean_diff - t * std_err_diff, 8, 3); + + tab_float(self->t, 10, i*2+3, TAB_RIGHT, + mean_diff + t * std_err_diff, 8, 3); + + + { + double se2; + /* Now for the \sigma_1 != \sigma_2 case */ tab_text (self->t, 1, i*2+3+1, TAB_LEFT, _("Equal variances not assumed")); + + + se2 = (pow2(gs0->s_std_dev)/(gs0->n -1) ) + + (pow2(gs1->s_std_dev)/(gs1->n -1) ); + + t = mean_diff / sqrt(se2) ; + tab_float (self->t, 4, i*2+3+1, TAB_RIGHT, t, 8, 3); + + df = pow2(se2) / ( + (pow2(pow2(gs0->s_std_dev)/(gs0->n - 1 )) + /(gs0->n -1 ) + ) + + + (pow2(pow2(gs1->s_std_dev)/(gs1->n - 1 )) + /(gs1->n -1 ) + ) + ) ; + tab_float (self->t, 5, i*2+3+1, TAB_RIGHT, df, 8, 3); + + p = gsl_cdf_tdist_P(t, df); + q = gsl_cdf_tdist_Q(t, df); + + tab_float(self->t, 6, i*2+3+1, TAB_RIGHT, 2.0*(t>0?q:p) , 8, 3); + + /* Now work out the confidence interval */ + q = (1 - cmd->criteria)/2.0; /* 2-tailed test */ + + t = gsl_cdf_tdist_Qinv(q, df); + + tab_float(self->t, 7, i*2+3+1, TAB_RIGHT, mean_diff, 8, 3); + + + tab_float(self->t, 8, i*2+3+1, TAB_RIGHT, std_err_diff, 8, 3); + + + tab_float(self->t, 9, i*2+3+1, TAB_RIGHT, + mean_diff - t * std_err_diff, 8, 3); + + tab_float(self->t, 10, i*2+3+1, TAB_RIGHT, + mean_diff + t * std_err_diff, 8, 3); + + } } } /* Initialize the paired samples trbox */ void trbox_paired_init(struct trbox *self, - struct cmd_t_test *cmd unused) + struct cmd_t_test *cmd UNUSED) { const int hsize=10; - const int vsize=n_pairs*2+3; - - struct string ds; + const int vsize=n_pairs+3; self->populate = trbox_paired_populate; - trbox_base_init(self,n_pairs*2,hsize); + trbox_base_init(self,n_pairs,hsize); tab_title (self->t, 0, _("Paired Samples Test")); tab_hline(self->t,TAL_1,2,6,1); - tab_vline(self->t,TAL_2,2,0,vsize); + tab_vline(self->t,TAL_2,2,0,vsize - 1); tab_joint_text(self->t,2,0,6,0,TAB_CENTER,_("Paired Differences")); tab_box(self->t,-1,-1,-1,TAL_1, 2,1,6,vsize-1); tab_box(self->t,-1,-1,-1,TAL_1, 6,0,hsize-1,vsize-1); tab_hline(self->t,TAL_1,5,6, 2); tab_vline(self->t,TAL_0,6,0,1); - ds_init(t_test_pool,&ds,80); - - ds_printf(&ds,_("%d%% Confidence Interval of the Difference"), - (int)round(cmd->criteria*100.0)); - - tab_joint_text(self->t,5,1,6,1,TAB_CENTER, ds.string); - - ds_destroy(&ds); + tab_joint_text(self->t, 5, 1, 6, 1, TAB_CENTER | TAT_PRINTF, + _("%g%% Confidence Interval of the Difference"), + cmd->criteria*100.0); tab_text (self->t, 2, 2, TAB_CENTER | TAT_TITLE, _("Mean")); tab_text (self->t, 3, 2, TAB_CENTER | TAT_TITLE, _("Std. Deviation")); @@ -826,23 +1184,62 @@ trbox_paired_init(struct trbox *self, /* Populate the paired samples trbox */ void trbox_paired_populate(struct trbox *trb, - struct cmd_t_test *cmd unused) + struct cmd_t_test *cmd UNUSED) { int i; - struct string ds; - - ds_init(t_test_pool,&ds,15); for (i=0; i < n_pairs; ++i) { - ds_clear(&ds); - ds_printf(&ds,_("Pair %d"),i); + double p,q; + double se_mean; + + double n = pairs[i].n; + double t; + double df = n - 1; + + tab_text (trb->t, 0, i+3, TAB_LEFT | TAT_PRINTF, _("Pair %d"),i); + + tab_text (trb->t, 1, i+3, TAB_LEFT | TAT_PRINTF, "%s - %s", + pairs[i].v[0]->name, pairs[i].v[1]->name); + + tab_float(trb->t, 2, i+3, TAB_RIGHT, pairs[i].mean_diff, 8, 4); + + tab_float(trb->t, 3, i+3, TAB_RIGHT, pairs[i].std_dev_diff, 8, 5); + + /* SE Mean */ + se_mean = pairs[i].std_dev_diff / sqrt(n) ; + tab_float(trb->t, 4, i+3, TAB_RIGHT, se_mean, 8,5 ); + + /* Now work out the confidence interval */ + q = (1 - cmd->criteria)/2.0; /* 2-tailed test */ + + t = gsl_cdf_tdist_Qinv(q, df); + + tab_float(trb->t, 5, i+3, TAB_RIGHT, + pairs[i].mean_diff - t * se_mean , 8, 4); + + tab_float(trb->t, 6, i+3, TAB_RIGHT, + pairs[i].mean_diff + t * se_mean , 8, 4); + + t = (pairs[i].mean[0] - pairs[i].mean[1]) + / sqrt ( + ( pow2 (pairs[i].s_std_dev[0]) + pow2 (pairs[i].s_std_dev[1]) - + 2 * pairs[i].correlation * + pairs[i].s_std_dev[0] * pairs[i].s_std_dev[1] ) + / (n - 1) + ); + + tab_float(trb->t, 7, i+3, TAB_RIGHT, t , 8,3 ); + + /* Degrees of freedom */ + tab_float(trb->t, 8, i+3, TAB_RIGHT, df , 2, 0 ); + + p = gsl_cdf_tdist_P(t,df); + q = gsl_cdf_tdist_P(t,df); + + tab_float(trb->t, 9, i+3, TAB_RIGHT, 2.0*(t>0?q:p) , 8, 3); - tab_text (trb->t, 0, i*2+3, TAB_LEFT, ds.string); - tab_text (trb->t, 1, i*2+3, TAB_LEFT, pairs[i][0]->name); - tab_text (trb->t, 1, i*2+4, TAB_LEFT, pairs[i][1]->name); } - ds_destroy(&ds); } /* Initialize the one sample trbox */ @@ -852,24 +1249,23 @@ trbox_one_sample_init(struct trbox *self, struct cmd_t_test *cmd ) const int hsize=7; const int vsize=cmd->n_variables+3; - struct string ds; - self->populate = trbox_one_sample_populate; trbox_base_init(self, cmd->n_variables,hsize); tab_title (self->t, 0, _("One-Sample Test")); tab_hline(self->t, TAL_1, 1, hsize - 1, 1); - tab_vline(self->t, TAL_2, 1, 0, vsize); - ds_init(t_test_pool, &ds, 80); - ds_printf(&ds,_("Test Value = %f"),cmd->n_testval); - tab_joint_text(self->t, 1, 0, hsize-1,0, TAB_CENTER,ds.string); + tab_vline(self->t, TAL_2, 1, 0, vsize - 1); + + tab_joint_text(self->t, 1, 0, hsize-1,0, TAB_CENTER | TAT_PRINTF, + _("Test Value = %f"), cmd->n_testval[0]); + tab_box(self->t, -1, -1, -1, TAL_1, 1,1,hsize-1,vsize-1); - ds_clear(&ds); - ds_printf(&ds,_("%d%% Confidence Interval of the Difference"), - (int)round(cmd->criteria*100.0)); - tab_joint_text(self->t,5,1,6,1,TAB_CENTER, ds.string); - ds_destroy(&ds); + + tab_joint_text(self->t,5,1,6,1,TAB_CENTER | TAT_PRINTF, + _("%g%% Confidence Interval of the Difference"), + cmd->criteria*100.0); + tab_vline(self->t,TAL_0,6,1,1); tab_hline(self->t,TAL_1,5,6,2); tab_text (self->t, 1, 2, TAB_CENTER | TAT_TITLE, _("t")); @@ -892,55 +1288,41 @@ trbox_one_sample_populate(struct trbox *trb, struct cmd_t_test *cmd) for (i=0; i < cmd->n_variables; ++i) { - int which =1; double t; double p,q; double df; - int status; - double bound; - struct t_test_proc *ttp; - ttp= &cmd->v_variables[i]->p.t_t; + struct group_statistics *gs = &group_proc_get (cmd->v_variables[i])->ugs; tab_text (trb->t, 0, i+3, TAB_LEFT, cmd->v_variables[i]->name); - t = (ttp->mean - cmd->n_testval ) * sqrt(ttp->n) / ttp->std_dev ; + t = (gs->mean - cmd->n_testval[0] ) * sqrt(gs->n) / gs->std_dev ; tab_float (trb->t, 1, i+3, TAB_RIGHT, t, 8,3); /* degrees of freedom */ - df = ttp->n - 1; + df = gs->n - 1; tab_float (trb->t, 2, i+3, TAB_RIGHT, df, 8,0); - cdft(&which, &p, &q, &t, &df, &status, &bound); - - if ( 0 != status ) - { - msg( SE, _("Error calculating T statistic (cdft returned %d)."),status); - } - + p = gsl_cdf_tdist_P(t, df); + q = gsl_cdf_tdist_Q(t, df); - /* Multiply by 2 to get 2-tailed significance */ - tab_float (trb->t, 3, i+3, TAB_RIGHT, q*2.0, 8,3); + /* Multiply by 2 to get 2-tailed significance, makeing sure we've got + the correct tail*/ + tab_float (trb->t, 3, i+3, TAB_RIGHT, 2.0*(t>0?q:p), 8,3); - tab_float (trb->t, 4, i+3, TAB_RIGHT, ttp->mean_diff, 8,3); + tab_float (trb->t, 4, i+3, TAB_RIGHT, gs->mean_diff, 8,3); q = (1 - cmd->criteria)/2.0; /* 2-tailed test */ - p = 1 - q ; - which=2; /* Calc T from p,q and df */ - cdft(&which, &p, &q, &t, &df, &status, &bound); - if ( 0 != status ) - { - msg( SE, _("Error calculating T statistic (cdft returned %d)."),status); - } + t = gsl_cdf_tdist_Qinv(q, df); tab_float (trb->t, 5, i+3, TAB_RIGHT, - ttp->mean_diff - t * ttp->se_mean, 8,4); + gs->mean_diff - t * gs->se_mean, 8,4); tab_float (trb->t, 6, i+3, TAB_RIGHT, - ttp->mean_diff + t * ttp->se_mean, 8,4); + gs->mean_diff + t * gs->se_mean, 8,4); } } @@ -969,7 +1351,7 @@ trbox_base_finalize(struct trbox *trb) /* Create , populate and submit the Paired Samples Correlation box */ void -pscbox(struct cmd_t_test *cmd) +pscbox(void) { const int rows=1+n_pairs; const int cols=5; @@ -992,55 +1374,92 @@ pscbox(struct cmd_t_test *cmd) tab_text(table, 3,0, TAB_CENTER | TAT_TITLE, _("Correlation")); tab_text(table, 4,0, TAB_CENTER | TAT_TITLE, _("Sig.")); - /* row headings */ - { - struct string ds; - - ds_init(t_test_pool,&ds,15); - for (i=0; i < n_pairs; ++i) { - ds_clear(&ds); - ds_printf(&ds,_("Pair %d"),i); - tab_text(table, 0,i+1, TAB_LEFT | TAT_TITLE, ds.string); + double p,q; - ds_clear(&ds); - ds_printf(&ds,_("%s & %s"),pairs[i][0]->name,pairs[i][1]->name); - tab_text(table, 1,i+1, TAB_LEFT | TAT_TITLE, ds.string); - } + double df = pairs[i].n -2; - ds_destroy(&ds); - } + double correlation_t = + pairs[i].correlation * sqrt(df) / + sqrt(1 - pow2(pairs[i].correlation)); + /* row headings */ + tab_text(table, 0,i+1, TAB_LEFT | TAT_TITLE | TAT_PRINTF, + _("Pair %d"), i); + + tab_text(table, 1,i+1, TAB_LEFT | TAT_TITLE | TAT_PRINTF, + _("%s & %s"), pairs[i].v[0]->name, pairs[i].v[1]->name); + + + /* row data */ + tab_float(table, 2, i+1, TAB_RIGHT, pairs[i].n, 4, 0); + tab_float(table, 3, i+1, TAB_RIGHT, pairs[i].correlation, 8, 3); + + p = gsl_cdf_tdist_P(correlation_t, df); + q = gsl_cdf_tdist_Q(correlation_t, df); + + tab_float(table, 4, i+1, TAB_RIGHT, 2.0*(correlation_t>0?q:p), 8, 3); + } + tab_submit(table); } + /* Calculation Implementation */ /* Per case calculations common to all variants of the T test */ static int -common_calc (struct ccase *c) +common_calc (const struct ccase *c, void *_cmd) { int i; + struct cmd_t_test *cmd = (struct cmd_t_test *)_cmd; + + double weight = dict_get_case_weight(default_dict,c,&bad_weight_warn); + + + /* Skip the entire case if /MISSING=LISTWISE is set */ + if ( cmd->miss == TTS_LISTWISE ) + { + for(i=0; i< cmd->n_variables ; ++i) + { + struct variable *v = cmd->v_variables[i]; + const union value *val = case_data (c, v->fv); + + if (value_is_missing(val,v) ) + { + return 0; + } + } + } + + /* Listwise has to be implicit if the independent variable is missing ?? */ + if ( cmd->sbc_groups ) + { + const union value *gv = case_data (c, indep_var->fv); + if ( value_is_missing(gv,indep_var) ) + { + return 0; + } + } - double weight = dict_get_case_weight(default_dict,c); - for(i=0; i< cmd.n_variables ; ++i) + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - struct variable *v = cmd.v_variables[i]; - union value *val = &c->data[v->fv]; + struct group_statistics *gs; + struct variable *v = cmd->v_variables[i]; + const union value *val = case_data (c, v->fv); - ttp= &cmd.v_variables[i]->p.t_t; + gs= &group_proc_get (cmd->v_variables[i])->ugs; - if (val->f != SYSMIS) + if (! value_is_missing(val,v) ) { - ttp->n+=weight; - ttp->sum+=weight * val->f; - ttp->ssq+=weight * val->f * val->f; + gs->n+=weight; + gs->sum+=weight * val->f; + gs->ssq+=weight * val->f * val->f; } } return 0; @@ -1048,63 +1467,84 @@ common_calc (struct ccase *c) /* Pre calculations common to all variants of the T test */ static void -common_precalc (void) +common_precalc ( struct cmd_t_test *cmd ) { int i=0; - - for(i=0; i< cmd.n_variables ; ++i) + + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - ttp= &cmd.v_variables[i]->p.t_t; + struct group_statistics *gs; + gs= &group_proc_get (cmd->v_variables[i])->ugs; - ttp->sum=0; - ttp->n=0; - ttp->ssq=0; - ttp->sum_diff=0; + gs->sum=0; + gs->n=0; + gs->ssq=0; + gs->sum_diff=0; } } /* Post calculations common to all variants of the T test */ void -common_postcalc (void) +common_postcalc ( struct cmd_t_test *cmd ) { int i=0; - for(i=0; i< cmd.n_variables ; ++i) + + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - ttp= &cmd.v_variables[i]->p.t_t; + struct group_statistics *gs; + gs= &group_proc_get (cmd->v_variables[i])->ugs; - ttp->mean=ttp->sum / ttp->n; - ttp->std_dev= sqrt( - ttp->n/(ttp->n-1) * - ( (ttp->ssq / ttp->n ) - ttp->mean * ttp->mean ) + gs->mean=gs->sum / gs->n; + gs->s_std_dev= sqrt( + ( (gs->ssq / gs->n ) - gs->mean * gs->mean ) ) ; - ttp->se_mean = ttp->std_dev / sqrt(ttp->n); + gs->std_dev= sqrt( + gs->n/(gs->n-1) * + ( (gs->ssq / gs->n ) - gs->mean * gs->mean ) + ) ; - ttp->mean_diff= ttp->sum_diff / ttp->n; + gs->se_mean = gs->std_dev / sqrt(gs->n); + gs->mean_diff= gs->sum_diff / gs->n; } } /* Per case calculations for one sample t test */ static int -one_sample_calc (struct ccase *c) +one_sample_calc (const struct ccase *c, void *cmd_) { int i; + struct cmd_t_test *cmd = (struct cmd_t_test *)cmd_; - double weight = dict_get_case_weight(default_dict,c); - for(i=0; i< cmd.n_variables ; ++i) + double weight = dict_get_case_weight(default_dict,c,&bad_weight_warn); + + /* Skip the entire case if /MISSING=LISTWISE is set */ + if ( cmd->miss == TTS_LISTWISE ) + { + for(i=0; i< cmd->n_variables ; ++i) + { + struct variable *v = cmd->v_variables[i]; + const union value *val = case_data (c, v->fv); + + if (value_is_missing(val,v) ) + { + return 0; + } + } + } + + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - struct variable *v = cmd.v_variables[i]; - union value *val = &c->data[v->fv]; + struct group_statistics *gs; + struct variable *v = cmd->v_variables[i]; + const union value *val = case_data (c, v->fv); - ttp= &cmd.v_variables[i]->p.t_t; + gs= &group_proc_get (cmd->v_variables[i])->ugs; - if (val->f != SYSMIS) - ttp->sum_diff += weight * (val->f - cmd.n_testval); + if ( ! value_is_missing(val,v)) + gs->sum_diff += weight * (val->f - cmd->n_testval[0]); } return 0; @@ -1112,31 +1552,444 @@ one_sample_calc (struct ccase *c) /* Pre calculations for one sample t test */ static void -one_sample_precalc (void) +one_sample_precalc ( struct cmd_t_test *cmd ) { - int i=0; - - for(i=0; i< cmd.n_variables ; ++i) + int i=0; + + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - ttp= &cmd.v_variables[i]->p.t_t; + struct group_statistics *gs; + gs= &group_proc_get (cmd->v_variables[i])->ugs; - ttp->sum_diff=0; + gs->sum_diff=0; } } /* Post calculations for one sample t test */ static void -one_sample_postcalc (void) +one_sample_postcalc (struct cmd_t_test *cmd) { int i=0; - for(i=0; i< cmd.n_variables ; ++i) + for(i=0; i< cmd->n_variables ; ++i) + { + struct group_statistics *gs; + gs= &group_proc_get (cmd->v_variables[i])->ugs; + + gs->mean_diff = gs->sum_diff / gs->n ; + } +} + + + +static void +paired_precalc (struct cmd_t_test *cmd UNUSED) +{ + int i; + + for(i=0; i < n_pairs ; ++i ) + { + pairs[i].n = 0; + pairs[i].sum[0] = 0; pairs[i].sum[1] = 0; + pairs[i].ssq[0] = 0; pairs[i].ssq[1] = 0; + pairs[i].sum_of_prod = 0; + pairs[i].correlation = 0; + pairs[i].sum_of_diffs = 0; + pairs[i].ssq_diffs = 0; + } + +} + + +static int +paired_calc (const struct ccase *c, void *cmd_) +{ + int i; + + struct cmd_t_test *cmd = (struct cmd_t_test *) cmd_; + + double weight = dict_get_case_weight(default_dict,c,&bad_weight_warn); + + /* Skip the entire case if /MISSING=LISTWISE is set , + AND one member of a pair is missing */ + if ( cmd->miss == TTS_LISTWISE ) + { + for(i=0; i < n_pairs ; ++i ) + { + struct variable *v0 = pairs[i].v[0]; + struct variable *v1 = pairs[i].v[1]; + + const union value *val0 = case_data (c, v0->fv); + const union value *val1 = case_data (c, v1->fv); + + if ( value_is_missing(val0,v0) || + value_is_missing(val1,v1) ) + { + return 0; + } + } + } + + for(i=0; i < n_pairs ; ++i ) + { + struct variable *v0 = pairs[i].v[0]; + struct variable *v1 = pairs[i].v[1]; + + const union value *val0 = case_data (c, v0->fv); + const union value *val1 = case_data (c, v1->fv); + + if ( ( !value_is_missing(val0,v0) && !value_is_missing(val1,v1) ) ) + { + pairs[i].n += weight; + pairs[i].sum[0] += weight * val0->f; + pairs[i].sum[1] += weight * val1->f; + + pairs[i].ssq[0] += weight * pow2(val0->f); + pairs[i].ssq[1] += weight * pow2(val1->f); + + pairs[i].sum_of_prod += weight * val0->f * val1->f ; + + pairs[i].sum_of_diffs += weight * ( val0->f - val1->f ) ; + pairs[i].ssq_diffs += weight * pow2(val0->f - val1->f); + } + } + + return 0; +} + +static void +paired_postcalc (struct cmd_t_test *cmd UNUSED) +{ + int i; + + for(i=0; i < n_pairs ; ++i ) + { + int j; + const double n = pairs[i].n; + + for (j=0; j < 2 ; ++j) + { + pairs[i].mean[j] = pairs[i].sum[j] / n ; + pairs[i].s_std_dev[j] = sqrt((pairs[i].ssq[j] / n - + pow2(pairs[i].mean[j])) + ); + + pairs[i].std_dev[j] = sqrt(n/(n-1)*(pairs[i].ssq[j] / n - + pow2(pairs[i].mean[j])) + ); + } + + pairs[i].correlation = pairs[i].sum_of_prod / pairs[i].n - + pairs[i].mean[0] * pairs[i].mean[1] ; + /* correlation now actually contains the covariance */ + + pairs[i].correlation /= pairs[i].std_dev[0] * pairs[i].std_dev[1]; + pairs[i].correlation *= pairs[i].n / ( pairs[i].n - 1 ); + + pairs[i].mean_diff = pairs[i].sum_of_diffs / n ; + + pairs[i].std_dev_diff = sqrt ( n / (n - 1) * ( + ( pairs[i].ssq_diffs / n ) + - + pow2(pairs[i].mean_diff ) + ) ); + } +} + +static void +group_precalc (struct cmd_t_test *cmd ) +{ + int i; + int j; + + for(i=0; i< cmd->n_variables ; ++i) + { + struct group_proc *ttpr = group_proc_get (cmd->v_variables[i]); + + /* There's always 2 groups for a T - TEST */ + ttpr->n_groups = 2; + + gp.indep_width = indep_var->width; + + ttpr->group_hash = hsh_create(2, + (hsh_compare_func *) compare_group_binary, + (hsh_hash_func *) hash_group_binary, + (hsh_free_func *) free_group, + (void *) &gp ); + + for (j=0 ; j < 2 ; ++j) + { + + struct group_statistics *gs = (struct group_statistics *) + xmalloc (sizeof(struct group_statistics)); + + gs->sum = 0; + gs->n = 0; + gs->ssq = 0; + + if ( gp.criterion == CMP_EQ ) + { + gs->id = gp.v.g_value[j]; + } + else + { + if ( j == 0 ) + gs->id.f = gp.v.critical_value - 1.0 ; + else + gs->id.f = gp.v.critical_value + 1.0 ; + } + + hsh_insert ( ttpr->group_hash, (void *) gs ); + + } + } + +} + +static int +group_calc (const struct ccase *c, struct cmd_t_test *cmd) +{ + int i; + + const union value *gv = case_data (c, indep_var->fv); + + const double weight = dict_get_case_weight(default_dict,c,&bad_weight_warn); + + if ( value_is_missing(gv,indep_var) ) + { + return 0; + } + + if ( cmd->miss == TTS_LISTWISE ) + { + for(i=0; i< cmd->n_variables ; ++i) + { + struct variable *v = cmd->v_variables[i]; + const union value *val = case_data (c, v->fv); + + if (value_is_missing(val,v) ) + { + return 0; + } + } + } + + gv = case_data (c, indep_var->fv); + + for(i=0; i< cmd->n_variables ; ++i) + { + struct variable *var = cmd->v_variables[i]; + const union value *val = case_data (c, var->fv); + struct hsh_table *grp_hash = group_proc_get (var)->group_hash; + struct group_statistics *gs; + + gs = hsh_find(grp_hash, (void *) gv); + + /* If the independent variable doesn't match either of the values + for this case then move on to the next case */ + if ( ! gs ) + return 0; + + if ( !value_is_missing(val,var) ) + { + gs->n+=weight; + gs->sum+=weight * val->f; + gs->ssq+=weight * pow2(val->f); + } + } + + return 0; +} + + +static void +group_postcalc ( struct cmd_t_test *cmd ) +{ + int i; + + for(i=0; i< cmd->n_variables ; ++i) { - struct t_test_proc *ttp; - ttp= &cmd.v_variables[i]->p.t_t; + struct variable *var = cmd->v_variables[i]; + struct hsh_table *grp_hash = group_proc_get (var)->group_hash; + struct hsh_iterator g; + struct group_statistics *gs; + int count=0; + + for (gs = hsh_first (grp_hash,&g); + gs != 0; + gs = hsh_next(grp_hash,&g)) + { + gs->mean = gs->sum / gs->n; + + gs->s_std_dev= sqrt( + ( (gs->ssq / gs->n ) - gs->mean * gs->mean ) + ) ; + + gs->std_dev= sqrt( + gs->n/(gs->n-1) * + ( (gs->ssq / gs->n ) - gs->mean * gs->mean ) + ) ; + + gs->se_mean = gs->std_dev / sqrt(gs->n); + count ++; + } + assert(count == 2); + } +} + + +static void +calculate(const struct casefile *cf, void *cmd_) +{ + struct ssbox stat_summary_box; + struct trbox test_results_box; + + struct casereader *r; + struct ccase c; + + struct cmd_t_test *cmd = (struct cmd_t_test *) cmd_; + + common_precalc(cmd); + for(r = casefile_get_reader (cf); + casereader_read (r, &c) ; + case_destroy (&c)) + { + common_calc(&c,cmd); + } + casereader_destroy (r); + common_postcalc(cmd); + + switch(mode) + { + case T_1_SAMPLE: + one_sample_precalc(cmd); + for(r = casefile_get_reader (cf); + casereader_read (r, &c) ; + case_destroy (&c)) + { + one_sample_calc(&c,cmd); + } + casereader_destroy (r); + one_sample_postcalc(cmd); + + break; + case T_PAIRED: + paired_precalc(cmd); + for(r = casefile_get_reader (cf); + casereader_read (r, &c) ; + case_destroy (&c)) + { + paired_calc(&c,cmd); + } + casereader_destroy (r); + paired_postcalc(cmd); + + break; + case T_IND_SAMPLES: + + group_precalc(cmd); + for(r = casefile_get_reader (cf); + casereader_read (r, &c) ; + case_destroy (&c)) + { + group_calc(&c,cmd); + } + casereader_destroy (r); + group_postcalc(cmd); + + levene(cf, indep_var, cmd->n_variables, cmd->v_variables, + (cmd->miss == TTS_LISTWISE)?LEV_LISTWISE:LEV_ANALYSIS , + value_is_missing); + break; + } + + ssbox_create(&stat_summary_box,cmd,mode); + ssbox_populate(&stat_summary_box,cmd); + ssbox_finalize(&stat_summary_box); + + if ( mode == T_PAIRED) + pscbox(); + + trbox_create(&test_results_box,cmd,mode); + trbox_populate(&test_results_box,cmd); + trbox_finalize(&test_results_box); + +} + +short which_group(const struct group_statistics *g, + const struct group_properties *p); + +/* Return -1 if the id of a is less than b; +1 if greater than and + 0 if equal */ +static int +compare_group_binary(const struct group_statistics *a, + const struct group_statistics *b, + const struct group_properties *p) +{ + short flag_a; + short flag_b; + + if ( p->criterion == CMP_LE ) + { + /* less-than-or-equal comparision is not meaningfull for + alpha variables, so we shouldn't ever arrive here */ + assert(p->indep_width == 0 ) ; - ttp->mean_diff = ttp->sum_diff / ttp->n ; + flag_a = ( a->id.f < p->v.critical_value ) ; + flag_b = ( b->id.f < p->v.critical_value ) ; + } + else + { + flag_a = which_group(a, p); + flag_b = which_group(b, p); } + + if (flag_a < flag_b ) + return -1; + + return (flag_a > flag_b); +} + +/* This is a degenerate case of a hash, since it can only return three possible + values. It's really a comparison, being used as a hash function */ + +static unsigned +hash_group_binary(const struct group_statistics *g, + const struct group_properties *p) +{ + short flag = -1; + + if ( p->criterion == CMP_LE ) + { + /* Not meaningfull to do a less than compare for alpha values ? */ + assert(p->indep_width == 0 ) ; + flag = ( g->id.f < p->v.critical_value ) ; + } + else if ( p->criterion == CMP_EQ) + { + flag = which_group(g,p); + } + else + assert(0); + + return flag; +} + +/* return 0 if G belongs to group 0, + 1 if it belongs to group 1, + 2 if it belongs to neither group */ +short +which_group(const struct group_statistics *g, + const struct group_properties *p) +{ + + if ( 0 == compare_values (&g->id, &p->v.g_value[0], p->indep_width)) + return 0; + + if ( 0 == compare_values (&g->id, &p->v.g_value[1], p->indep_width)) + return 1; + + return 2; } +