/* PSPP - a program for statistical analysis.
- Copyright (C) 2007 Free Software Foundation, Inc.
+ Copyright (C) 2007, 2009 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
{
struct casereader *subreader; /* Source of input cases. */
- void (*translate) (struct ccase *input, struct ccase *output, void *aux);
+ struct ccase *(*translate) (struct ccase *input, void *aux);
bool (*destroy) (void *aux);
void *aux;
};
/* Creates and returns a new casereader whose cases are produced
by reading from SUBREADER and passing through TRANSLATE, which
- must create case OUTPUT, with OUTPUT_VALUE_CNT values, and
- populate it based on INPUT and auxiliary data AUX. TRANSLATE
- must also destroy INPUT.
+ must return the translated case, and populate it based on
+ INPUT and auxiliary data AUX. TRANSLATE must destroy its
+ input case.
+
+ The cases returned by TRANSLATE must match OUTPUT_PROTO.
When the translating casereader is destroyed, DESTROY will be
called to allow any state maintained by TRANSLATE to be freed.
when the translating casereader is destroyed. */
struct casereader *
casereader_create_translator (struct casereader *subreader,
- size_t output_value_cnt,
- void (*translate) (struct ccase *input,
- struct ccase *output,
- void *aux),
+ const struct caseproto *output_proto,
+ struct ccase *(*translate) (struct ccase *input,
+ void *aux),
bool (*destroy) (void *aux),
void *aux)
{
ct->destroy = destroy;
ct->aux = aux;
reader = casereader_create_sequential (
- NULL, output_value_cnt, casereader_get_case_cnt (ct->subreader),
+ NULL, output_proto, casereader_get_case_cnt (ct->subreader),
&casereader_translator_class, ct);
taint_propagate (casereader_get_taint (ct->subreader),
casereader_get_taint (reader));
}
/* Internal read function for translating casereader. */
-static bool
+static struct ccase *
casereader_translator_read (struct casereader *reader UNUSED,
- void *ct_, struct ccase *c)
+ void *ct_)
{
struct casereader_translator *ct = ct_;
- struct ccase tmp;
-
- if (casereader_read (ct->subreader, &tmp))
- {
- ct->translate (&tmp, c, ct->aux);
- return true;
- }
- else
- return false;
+ struct ccase *tmp = casereader_read (ct->subreader);
+ if (tmp)
+ tmp = ct->translate (tmp, ct->aux);
+ return tmp;
}
/* Internal destroy function for translating casereader. */
struct casereader_append_numeric
{
- int value_ofs;
+ struct caseproto *proto;
casenumber n;
new_value_func *func;
void *aux;
static bool can_destroy (void *can_);
-static void can_translate (struct ccase *input, struct ccase *output,
- void *can_);
+static struct ccase *can_translate (struct ccase *, void *can_);
/* Creates and returns a new casereader whose cases are produced
by reading from SUBREADER and appending an additional value,
void (*destroy) (void *aux))
{
struct casereader_append_numeric *can = xmalloc (sizeof *can);
- can->value_ofs = casereader_get_value_cnt (subreader);
+ can->proto = caseproto_ref (casereader_get_proto (subreader));
+ can->proto = caseproto_add_width (can->proto, 0);
can->n = 0;
can->aux = aux;
can->func = func;
can->destroy = destroy;
- return casereader_create_translator (subreader, can->value_ofs + 1,
+ return casereader_create_translator (subreader, can->proto,
can_translate, can_destroy, can);
}
-static void
-can_translate (struct ccase *input, struct ccase *output, void *can_)
+static struct ccase *
+can_translate (struct ccase *c, void *can_)
{
struct casereader_append_numeric *can = can_;
- double new_value = can->func (input, can->n++, can->aux);
- case_nullify (output);
- case_move (output, input);
- case_resize (output, can->value_ofs + 1);
- case_data_rw_idx (output, can->value_ofs)->f = new_value;
+ double new_value = can->func (c, can->n++, can->aux);
+ c = case_unshare_and_resize (c, can->proto);
+ case_data_rw_idx (c, caseproto_get_n_widths (can->proto) - 1)->f = new_value;
+ return c;
}
static bool
struct casereader_append_numeric *can = can_;
if (can->destroy)
can->destroy (can->aux);
+ caseproto_unref (can->proto);
free (can);
return true;
}
casenumber n;
const struct variable *var;
const struct variable *weight;
- int value_ofs;
+ struct caseproto *proto;
casenumber n_common;
double mean_rank;
double cc;
static bool car_destroy (void *car_);
-static void car_translate (struct ccase *input, struct ccase *output,
- void *car_);
+static struct ccase *car_translate (struct ccase *input, void *car_);
/* Creates and returns a new casereader whose cases are produced
by reading from SUBREADER and appending an additional value,
)
{
struct casereader_append_rank *car = xmalloc (sizeof *car);
- car->value_ofs = casereader_get_value_cnt (subreader);
+ car->proto = caseproto_ref (casereader_get_proto (subreader));
+ car->proto = caseproto_add_width (car->proto, 0);
car->weight = w;
car->var = v;
car->n = 0;
car->err = err;
car->prev_value = SYSMIS;
- return casereader_create_translator (subreader, car->value_ofs + 1,
+ return casereader_create_translator (subreader, car->proto,
car_translate, car_destroy, car);
}
{
struct casereader_append_rank *car = car_;
casereader_destroy (car->clone);
+ caseproto_unref (car->proto);
free (car);
return true;
}
-
-static void
-car_translate (struct ccase *input, struct ccase *output, void *car_)
+static struct ccase *
+car_translate (struct ccase *input, void *car_)
{
struct casereader_append_rank *car = car_;
do
{
- struct ccase c;
- if ( ! casereader_peek (car->clone, car->n + ++k, &c))
+ struct ccase *c = casereader_peek (car->clone, car->n + ++k);
+ if (c == NULL)
break;
- vxx = case_data (&c, car->var)->f;
+ vxx = case_data (c, car->var)->f;
if ( vxx == value)
{
if (car->weight)
{
- double w = case_data (&c, car->weight)->f;
+ double w = case_data (c, car->weight)->f;
if ( car->err && w < 0 )
*car->err |= RANK_ERR_NEGATIVE_WEIGHT;
weight += 1.0;
car->n_common++;
}
- case_destroy (&c);
+ case_unref (c);
}
while (vxx == value);
car->mean_rank = car->cc + (weight + 1) / 2.0;
car->n++;
- case_nullify (output);
- case_move (output, input);
- case_resize (output, car->value_ofs + 1);
- case_data_rw_idx (output, car->value_ofs)->f = car->mean_rank ;
+ input = case_unshare_and_resize (input, car->proto);
+ case_data_rw_idx (input, caseproto_get_n_widths (car->proto) - 1)->f
+ = car->mean_rank;
car->prev_value = value;
+ return input;
}