/* PSPP - a program for statistical analysis.
- Copyright (C) 1997-9, 2000, 2006, 2007, 2008 Free Software Foundation, Inc.
+ Copyright (C) 1997-9, 2000, 2006, 2007, 2008, 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 file_handle *handle; /* Input file handle. */
struct dictionary *dict; /* Input file dictionary. */
struct casereader *reader; /* Input data source. */
- struct ccase data; /* The current input case. */
+ struct ccase *data; /* The current input case. */
bool is_minimal; /* Does 'data' have minimum BY values across
all input files? */
bool is_sorted; /* Is file presorted on the BY variables? */
members used. */
struct variable *first; /* Variable specified on FIRST (if any). */
struct variable *last; /* Variable specified on LAST (if any). */
- struct ccase buffered_case; /* Case ready for output except that we don't
- know the value for the LAST variable yet. */
+ struct ccase *buffered_case; /* Case ready for output except that we don't
+ know the value for the LAST var yet. */
union value *prev_BY; /* Values of BY vars in buffered_case. */
};
subcase_init_empty (&proc.by_vars);
proc.first = NULL;
proc.last = NULL;
- case_nullify (&proc.buffered_case);
+ proc.buffered_case = NULL;
proc.prev_BY = NULL;
dict_set_case_limit (proc.dict, dict_get_case_limit (dataset_dict (ds)));
file->handle = NULL;
file->dict = NULL;
file->reader = NULL;
- case_nullify (&file->data);
+ file->data = NULL;
file->is_sorted = true;
file->in_name[0] = '\0';
file->in_var = NULL;
if (!file->is_sorted)
file->reader = sort_execute (file->reader, &file->by_vars);
taint_propagate (casereader_get_taint (file->reader), taint);
- casereader_read (file->reader, &file->data);
+ file->data = casereader_read (file->reader);
if (file->type == COMB_FILE)
case_matcher_add_input (proc.matcher, &file->by_vars,
&file->data, &file->is_minimal);
fh_unref (file->handle);
dict_destroy (file->dict);
casereader_destroy (file->reader);
- case_destroy (&file->data);
+ case_unref (file->data);
}
free (proc->files);
proc->files = NULL;
casewriter_destroy (proc->output);
case_matcher_destroy (proc->matcher);
subcase_destroy (&proc->by_vars);
- case_destroy (&proc->buffered_case);
+ case_unref (proc->buffered_case);
free (proc->prev_BY);
}
\f
static bool scan_table (struct comb_file *, union value by[]);
-static void create_output_case (const struct comb_proc *, struct ccase *);
+static struct ccase *create_output_case (const struct comb_proc *);
static void apply_case (const struct comb_file *, struct ccase *);
static void apply_file_case_and_advance (struct comb_file *, struct ccase *,
union value by[]);
while (case_matcher_match (proc->matcher, &by))
{
- struct ccase output;
size_t i;
for (i = 0; i < proc->n_files; i++)
struct comb_file *file = &proc->files[i];
while (file->is_minimal)
{
- create_output_case (proc, &output);
- apply_file_case_and_advance (file, &output, by);
- output_case (proc, &output, by);
+ struct ccase *output = create_output_case (proc);
+ apply_file_case_and_advance (file, output, by);
+ output_case (proc, output, by);
}
}
}
while (case_matcher_match (proc->matcher, &by))
{
- struct ccase output;
+ struct ccase *output;
size_t i;
- create_output_case (proc, &output);
+ output = create_output_case (proc);
for (i = proc->n_files; i-- > 0; )
{
struct comb_file *file = &proc->files[i];
if (file->type == COMB_FILE)
{
if (file->is_minimal)
- apply_file_case_and_advance (file, &output, NULL);
+ apply_file_case_and_advance (file, output, NULL);
}
else
{
if (scan_table (file, by))
- apply_case (file, &output);
+ apply_case (file, output);
}
}
- output_case (proc, &output, by);
+ output_case (proc, output, by);
}
output_buffered_case (proc);
}
while (case_matcher_match (proc->matcher, &by))
{
struct comb_file *first, *file;
- struct ccase output;
+ struct ccase *output;
/* Find first nonnull case in array and make an output case
from it. */
- create_output_case (proc, &output);
+ output = create_output_case (proc);
for (first = &proc->files[0]; ; first++)
if (first->is_minimal)
break;
- apply_file_case_and_advance (first, &output, by);
+ apply_file_case_and_advance (first, output, by);
/* Read additional cases and update the output case from
them. (Don't update the output case from any duplicate
file < &proc->files[proc->n_files]; file++)
{
while (file->is_minimal)
- apply_file_case_and_advance (file, &output, by);
+ apply_file_case_and_advance (file, output, by);
}
- casewriter_write (proc->output, &output);
+ casewriter_write (proc->output, output);
/* Write duplicate cases in the master file directly to the
output. */
n_duplicates++;
while (first->is_minimal)
{
- create_output_case (proc, &output);
- apply_file_case_and_advance (first, &output, by);
- casewriter_write (proc->output, &output);
+ output = create_output_case (proc);
+ apply_file_case_and_advance (first, output, by);
+ casewriter_write (proc->output, output);
}
}
}
static bool
scan_table (struct comb_file *file, union value by[])
{
- while (!case_is_null (&file->data))
+ while (file->data != NULL)
{
- int cmp = subcase_compare_3way_xc (&file->by_vars, by, &file->data);
+ int cmp = subcase_compare_3way_xc (&file->by_vars, by, file->data);
if (cmp > 0)
{
- case_destroy (&file->data);
- casereader_read (file->reader, &file->data);
+ case_unref (file->data);
+ file->data = casereader_read (file->reader);
}
else
return cmp == 0;
return false;
}
-/* Creates OUTPUT as an output case for PROC, by initializing each of
- its values to system-missing or blanks, except that the values
- of IN variables are set to 0. */
-static void
-create_output_case (const struct comb_proc *proc, struct ccase *output)
+/* Creates and returns an output case for PROC, initializing each
+ of its values to system-missing or blanks, except that the
+ values of IN variables are set to 0. */
+static struct ccase *
+create_output_case (const struct comb_proc *proc)
{
size_t n_vars = dict_get_var_cnt (proc->dict);
+ struct ccase *output;
size_t i;
- case_create (output, dict_get_next_value_idx (proc->dict));
+ output = case_create (dict_get_next_value_idx (proc->dict));
for (i = 0; i < n_vars; i++)
{
struct variable *v = dict_get_var (proc->dict, i);
if (file->in_var != NULL)
case_data_rw (output, file->in_var)->f = false;
}
+ return output;
}
/* Copies the data from FILE's case into output case OUTPUT.
static void
apply_case (const struct comb_file *file, struct ccase *output)
{
- subcase_copy (&file->src, &file->data, &file->dst, output);
+ subcase_copy (&file->src, file->data, &file->dst, output);
if (file->in_var != NULL)
case_data_rw (output, file->in_var)->f = true;
}
union value by[])
{
apply_case (file, output);
- case_destroy (&file->data);
- casereader_read (file->reader, &file->data);
+ case_unref (file->data);
+ file->data = casereader_read (file->reader);
if (by)
- file->is_minimal = (!case_is_null (&file->data)
- && subcase_equal_cx (&file->by_vars, &file->data, by));
+ file->is_minimal = (file->data != NULL
+ && subcase_equal_cx (&file->by_vars, file->data, by));
}
/* Writes OUTPUT, whose BY values has been extracted into BY, to
{
new_BY = !subcase_equal_xx (&proc->by_vars, proc->prev_BY, by);
if (proc->last != NULL)
- case_data_rw (&proc->buffered_case, proc->last)->f = new_BY;
- casewriter_write (proc->output, &proc->buffered_case);
+ case_data_rw (proc->buffered_case, proc->last)->f = new_BY;
+ casewriter_write (proc->output, proc->buffered_case);
}
else
new_BY = true;
- case_move (&proc->buffered_case, output);
+ proc->buffered_case = output;
if (proc->first != NULL)
- case_data_rw (&proc->buffered_case, proc->first)->f = new_BY;
+ case_data_rw (proc->buffered_case, proc->first)->f = new_BY;
if (new_BY)
{
if (proc->prev_BY != NULL)
{
if (proc->last != NULL)
- case_data_rw (&proc->buffered_case, proc->last)->f = 1.0;
- casewriter_write (proc->output, &proc->buffered_case);
- case_nullify (&proc->buffered_case);
+ case_data_rw (proc->buffered_case, proc->last)->f = 1.0;
+ casewriter_write (proc->output, proc->buffered_case);
+ proc->buffered_case = NULL;
}
}