/* PSPP - a program for statistical analysis.
- Copyright (C) 2011, 2012 Free Software Foundation, Inc.
+ Copyright (C) 2011, 2012, 2013 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
#include "libpspp/message.h"
#include "libpspp/misc.h"
+#include "libpspp/assertion.h"
#include "data/data-in.h"
+#include "gl/c-strtod.h"
#include "gl/minmax.h"
#include "gettext.h"
#if !ODF_READ_SUPPORT
struct casereader *
-ods_open_reader (const struct spreadsheet_read_info *gri, struct spreadsheet_read_options *opts,
+ods_open_reader (const struct spreadsheet_read_options *opts,
struct dictionary **dict)
{
msg (ME, _("Support for %s files was not compiled into this installation of PSPP"), "OpenDocument");
NULL,
};
+struct sheet_detail
+{
+ /* The name of the sheet (utf8 encoding) */
+ char *name;
+
+ int start_col;
+ int stop_col;
+ int start_row;
+ int stop_row;
+};
+
+
enum reader_state
{
STATE_INIT = 0, /* Initial state */
struct ods_reader
{
struct spreadsheet spreadsheet;
-
+ struct zip_reader *zreader;
xmlTextReaderPtr xtr;
enum reader_state state;
- bool sheet_found;
int row;
int col;
int node_type;
- int sheet_index;
+ int current_sheet;
+ xmlChar *current_sheet_name;
- const xmlChar *target_sheet;
+ const xmlChar *target_sheet_name;
int target_sheet_index;
+
int start_row;
int start_col;
int stop_row;
int stop_col;
+ int col_span;
+
+ struct sheet_detail *sheets;
+ int n_allocated_sheets;
+
struct caseproto *proto;
struct dictionary *dict;
struct ccase *first_case;
bool read_names;
struct string ods_errs;
- int span;
};
+
+static bool
+reading_target_sheet (const struct ods_reader *r)
+{
+ if (r->target_sheet_name != NULL)
+ {
+ if ( 0 == xmlStrcmp (r->target_sheet_name, r->current_sheet_name))
+ return true;
+ }
+
+ if (r->target_sheet_index == r->current_sheet + 1)
+ return true;
+
+ return false;
+}
+
+
static void process_node (struct ods_reader *r);
+
+const char *
+ods_get_sheet_name (struct spreadsheet *s, int n)
+{
+ struct ods_reader *or = (struct ods_reader *) s;
+
+ assert (n < s->n_sheets);
+
+ while (
+ (or->n_allocated_sheets <= n)
+ || or->state != STATE_SPREADSHEET
+ )
+ {
+ int ret = xmlTextReaderRead (or->xtr);
+ if ( ret != 1)
+ break;
+
+ process_node (or);
+ }
+
+ return or->sheets[n].name;
+}
+
+char *
+ods_get_sheet_range (struct spreadsheet *s, int n)
+{
+ struct ods_reader *or = (struct ods_reader *) s;
+
+ assert (n < s->n_sheets);
+
+ while (
+ (or->n_allocated_sheets <= n)
+ || (or->sheets[n].stop_row == -1)
+ || or->state != STATE_SPREADSHEET
+ )
+ {
+ int ret = xmlTextReaderRead (or->xtr);
+ if ( ret != 1)
+ break;
+
+ process_node (or);
+ }
+
+ return create_cell_ref (
+ or->sheets[n].start_col,
+ or->sheets[n].start_row,
+ or->sheets[n].stop_col,
+ or->sheets[n].stop_row);
+}
+
+
static void
ods_file_casereader_destroy (struct casereader *reader UNUSED, void *r_)
{
if (r->xtr)
xmlFreeTextReader (r->xtr);
+ r->xtr = NULL;
if ( ! ds_is_empty (&r->ods_errs))
msg (ME, "%s", ds_cstr (&r->ods_errs));
caseproto_unref (r->proto);
- free (r);
+ // free (r);
}
static void
if (name == NULL)
name = xmlStrdup (_xml ("--"));
+
r->node_type = xmlTextReaderNodeType (r->xtr);
- switch ( r->state)
+ switch (r->state)
{
case STATE_INIT:
if (0 == xmlStrcasecmp (name, _xml("office:spreadsheet")) &&
XML_READER_TYPE_ELEMENT == r->node_type)
{
r->state = STATE_SPREADSHEET;
+ r->current_sheet = -1;
+ r->current_sheet_name = NULL;
}
break;
case STATE_SPREADSHEET:
- if (0 == xmlStrcasecmp (name, _xml("table:table")))
+ if (0 == xmlStrcasecmp (name, _xml("table:table"))
+ &&
+ (XML_READER_TYPE_ELEMENT == r->node_type))
{
- if (XML_READER_TYPE_ELEMENT == r->node_type)
+ xmlFree (r->current_sheet_name);
+ r->current_sheet_name = xmlTextReaderGetAttribute (r->xtr, _xml ("table:name"));
+
+ ++r->current_sheet;
+
+ if (r->current_sheet >= r->n_allocated_sheets)
{
- r->col = -1;
- r->row = -1;
- ++r->sheet_index;
- if ( r->target_sheet != NULL)
- {
- xmlChar *value = xmlTextReaderGetAttribute (r->xtr, _xml ("table:name"));
- if ( 0 == xmlStrcmp (value, r->target_sheet))
- {
- r->sheet_found = true;
- r->state = STATE_TABLE;
- }
- free (value);
- }
- else if (r->target_sheet_index == r->sheet_index)
- {
- r->sheet_found = true;
- r->state = STATE_TABLE;
- }
- else if ( r->target_sheet_index == -1)
- r->state = STATE_TABLE;
+ assert (r->current_sheet == r->n_allocated_sheets);
+ r->sheets = xrealloc (r->sheets, sizeof (*r->sheets) * ++r->n_allocated_sheets);
+ r->sheets[r->n_allocated_sheets - 1].start_col = -1;
+ r->sheets[r->n_allocated_sheets - 1].stop_col = -1;
+ r->sheets[r->n_allocated_sheets - 1].start_row = -1;
+ r->sheets[r->n_allocated_sheets - 1].stop_row = -1;
+ r->sheets[r->n_allocated_sheets - 1].name = CHAR_CAST (char *, xmlStrdup (r->current_sheet_name));
}
+
+ r->col = 0;
+ r->row = 0;
+
+ r->state = STATE_TABLE;
}
- else if (XML_READER_TYPE_END_ELEMENT == r->node_type
- && r->sheet_found)
+ else if (0 == xmlStrcasecmp (name, _xml("office:spreadsheet")) &&
+ XML_READER_TYPE_ELEMENT == r->node_type)
{
r->state = STATE_INIT;
}
- break;
+ break;
case STATE_TABLE:
- if (0 == xmlStrcasecmp (name, _xml("table:table-row")) )
+ if (0 == xmlStrcasecmp (name, _xml("table:table-row")) &&
+ (XML_READER_TYPE_ELEMENT == r->node_type))
{
- if ( XML_READER_TYPE_ELEMENT == r->node_type)
- {
- if (! xmlTextReaderIsEmptyElement (r->xtr))
- {
- r->state = STATE_ROW;
- }
- r->row++;
- r->span = 1;
- }
+ xmlChar *value =
+ xmlTextReaderGetAttribute (r->xtr,
+ _xml ("table:number-rows-repeated"));
+
+ int row_span = value ? _xmlchar_to_int (value) : 1;
+
+ r->row += row_span;
+ r->col = 0;
+
+ if (! xmlTextReaderIsEmptyElement (r->xtr))
+ r->state = STATE_ROW;
}
- else if (XML_READER_TYPE_END_ELEMENT == r->node_type)
+ else if (0 == xmlStrcasecmp (name, _xml("table:table")) &&
+ (XML_READER_TYPE_END_ELEMENT == r->node_type))
{
r->state = STATE_SPREADSHEET;
}
break;
case STATE_ROW:
- if (0 == xmlStrcasecmp (name, _xml ("table:table-cell")))
+ if ( (0 == xmlStrcasecmp (name, _xml ("table:table-cell")))
+ &&
+ (XML_READER_TYPE_ELEMENT == r->node_type))
{
- if ( XML_READER_TYPE_ELEMENT == r->node_type)
- {
- xmlChar *value =
- xmlTextReaderGetAttribute (r->xtr,
- _xml ("table:number-columns-repeated"));
- r->col += r->span;
- r->span = value ? _xmlchar_to_int (value) : 1;
- free (value);
- if (! xmlTextReaderIsEmptyElement (r->xtr))
- {
- r->state = STATE_CELL;
- }
- }
+ xmlChar *value =
+ xmlTextReaderGetAttribute (r->xtr,
+ _xml ("table:number-columns-repeated"));
+
+ r->col_span = value ? _xmlchar_to_int (value) : 1;
+ r->col += r->col_span;
+
+ if (! xmlTextReaderIsEmptyElement (r->xtr))
+ r->state = STATE_CELL;
+
+ xmlFree (value);
}
- else if (XML_READER_TYPE_END_ELEMENT == r->node_type)
+ else if ( (0 == xmlStrcasecmp (name, _xml ("table:table-row")))
+ &&
+ (XML_READER_TYPE_END_ELEMENT == r->node_type))
{
r->state = STATE_TABLE;
- r->col = -1;
- /* Set the span back to the default */
- r->span = 1;
}
break;
case STATE_CELL:
- if (0 == xmlStrcasecmp (name, _xml("text:p")))
+ if ( (0 == xmlStrcasecmp (name, _xml("text:p")))
+ &&
+ ( XML_READER_TYPE_ELEMENT == r->node_type))
{
- if ( XML_READER_TYPE_ELEMENT == r->node_type)
- {
- r->state = STATE_CELL_CONTENT;
- }
+ if (! xmlTextReaderIsEmptyElement (r->xtr))
+ r->state = STATE_CELL_CONTENT;
}
- else if (XML_READER_TYPE_END_ELEMENT == r->node_type)
+ else if
+ ( (0 == xmlStrcasecmp (name, _xml("table:table-cell")))
+ &&
+ (XML_READER_TYPE_END_ELEMENT == r->node_type)
+ )
{
r->state = STATE_ROW;
}
break;
case STATE_CELL_CONTENT:
- if (XML_READER_TYPE_TEXT != r->node_type)
+ assert (r->current_sheet >= 0);
+ assert (r->current_sheet < r->n_allocated_sheets);
+
+ if (r->sheets[r->current_sheet].start_row == -1)
+ r->sheets[r->current_sheet].start_row = r->row - 1;
+
+ if (
+ (r->sheets[r->current_sheet].start_col == -1)
+ ||
+ (r->sheets[r->current_sheet].start_col >= r->col - 1)
+ )
+ r->sheets[r->current_sheet].start_col = r->col - 1;
+
+ r->sheets[r->current_sheet].stop_row = r->row - 1;
+
+ if ( r->sheets[r->current_sheet].stop_col < r->col - 1)
+ r->sheets[r->current_sheet].stop_col = r->col - 1;
+
+ if (XML_READER_TYPE_END_ELEMENT == r->node_type)
r->state = STATE_CELL;
break;
default:
+ NOT_REACHED ();
break;
};
value_copy_str_rpad (v, var_get_width (var), xmv->text, ' ');
else
{
- const char *text ;
const struct fmt_spec *fmt = var_get_write_format (var);
enum fmt_category fc = fmt_get_category (fmt->type);
assert ( fc != FMT_CAT_STRING);
- text =
- xmv->value ? CHAR_CAST (const char *, xmv->value) : CHAR_CAST (const char *, xmv->text);
+ if ( 0 == xmlStrcmp (xmv->type, _xml("float")))
+ {
+ v->f = c_strtod (CHAR_CAST (const char *, xmv->value), NULL);
+ }
+ else
+ {
+ const char *text = xmv->value ?
+ CHAR_CAST (const char *, xmv->value) : CHAR_CAST (const char *, xmv->text);
+
- free (data_in (ss_cstr (text), "UTF-8",
- fmt->type,
- v,
- var_get_width (var),
- "UTF-8"));
+ free (data_in (ss_cstr (text), "UTF-8",
+ fmt->type,
+ v,
+ var_get_width (var),
+ "UTF-8"));
+ }
}
}
mxtr = xmlReaderForIO ((xmlInputReadCallback) zip_member_read,
(xmlInputCloseCallback) zip_member_finish,
- meta, NULL, NULL, XML_PARSE_RECOVER);
+ meta, NULL, NULL, 0);
while (1 == xmlTextReaderRead (mxtr))
{
if ( 0 == xmlStrcmp (name, _xml("meta:document-statistic")))
{
xmlChar *attr = xmlTextReaderGetAttribute (mxtr, _xml ("meta:table-count"));
-
+
if ( attr != NULL)
{
int s = _xmlchar_to_int (attr);
+ xmlFreeTextReader (mxtr);
+ xmlFree (name);
+ xmlFree (attr);
return s;
}
+ xmlFree (attr);
}
+ xmlFree (name);
}
+
+ xmlFreeTextReader (mxtr);
return -1;
}
-struct spreadsheet *ods_probe (const char *filename, bool report_errors)
+static void
+ods_error_handler (void *ctx, const char *mesg,
+ UNUSED xmlParserSeverities sev, xmlTextReaderLocatorPtr loc)
{
- struct ods_reader *r;
- struct string errs;
- xmlTextReaderPtr xtr ;
- int sheet_count;
- struct zip_member *content = NULL;
-
- struct zip_reader *zreader = NULL;
-
- ds_init_empty (&errs);
-
- zreader = zip_reader_create (filename, &errs);
+ struct ods_reader *r = ctx;
+
+ msg (MW, _("There was a problem whilst reading the %s file `%s' (near line %d): `%s'"),
+ "ODF",
+ r->spreadsheet.file_name,
+ xmlTextReaderLocatorLineNumber (loc),
+ mesg);
+}
- if (zreader == NULL)
- return NULL;
- content = zip_member_open (zreader, "content.xml");
+static bool
+init_reader (struct ods_reader *r, bool report_errors)
+{
+ struct zip_member *content = zip_member_open (r->zreader, "content.xml");
+ xmlTextReaderPtr xtr;
if ( content == NULL)
- goto error;
+ return false;
zip_member_ref (content);
- sheet_count = get_sheet_count (zreader);
xtr = xmlReaderForIO ((xmlInputReadCallback) zip_member_read,
- (xmlInputCloseCallback) zip_member_finish,
- content, NULL, NULL, XML_PARSE_RECOVER);
+ (xmlInputCloseCallback) zip_member_finish,
+ content, NULL, NULL,
+ report_errors ? 0 : (XML_PARSE_NOERROR | XML_PARSE_NOWARNING) );
if ( xtr == NULL)
- goto error;
+ return false;
- r = xzalloc (sizeof *r);
r->xtr = xtr;
r->spreadsheet.type = SPREADSHEET_ODS;
+ r->row = 0;
+ r->col = 0;
+ r->current_sheet = 0;
+ r->state = STATE_INIT;
+
+ if (report_errors)
+ xmlTextReaderSetErrorHandler (xtr, ods_error_handler, r);
+
+ return true;
+}
+
+
+struct spreadsheet *
+ods_probe (const char *filename, bool report_errors)
+{
+ struct ods_reader *r;
+ struct string errs = DS_EMPTY_INITIALIZER;
+ int sheet_count;
+ struct zip_reader *zr = zip_reader_create (filename, &errs);
+
+ if (zr == NULL)
+ {
+ if (report_errors)
+ {
+ msg (ME, _("Cannot open %s as a OpenDocument file: %s"),
+ filename, ds_cstr (&errs));
+ }
+ return NULL;
+ }
+
+ sheet_count = get_sheet_count (zr);
+
+ r = xzalloc (sizeof *r);
+ r->zreader = zr;
+
+ if (! init_reader (r, report_errors))
+ {
+ goto error;
+ }
+
r->spreadsheet.n_sheets = sheet_count;
+ r->n_allocated_sheets = 0;
+ r->sheets = NULL;
ds_destroy (&errs);
return &r->spreadsheet;
error:
- zip_reader_destroy (zreader);
+ zip_reader_destroy (r->zreader);
ds_destroy (&errs);
+ free (r);
return NULL;
}
struct casereader *
ods_make_reader (struct spreadsheet *spreadsheet,
- const struct spreadsheet_read_info *gri, struct spreadsheet_read_options *opts)
+ const struct spreadsheet_read_options *opts)
{
intf ret = 0;
xmlChar *type = NULL;
xmlChar *val_string = NULL;
assert (r);
- r->read_names = gri->read_names;
+ r->read_names = opts->read_names;
ds_init_empty (&r->ods_errs);
+
+ if ( !init_reader (r, true))
+ goto error;
+
if ( opts->cell_range )
{
if ( ! convert_cell_ref (opts->cell_range,
}
r->state = STATE_INIT;
- r->target_sheet = BAD_CAST opts->sheet_name;
+ r->target_sheet_name = BAD_CAST opts->sheet_name;
r->target_sheet_index = opts->sheet_index;
- r->row = r->col = -1;
- r->sheet_index = 0;
+ r->row = r->col = 0;
- /* If CELLRANGE was given, then we know how many variables should be read */
- if ( r->stop_col != -1 )
- {
- assert (var_spec == NULL);
- n_var_specs = r->stop_col - r->start_col + 1;
- var_spec = xrealloc (var_spec, sizeof (*var_spec) * n_var_specs);
- memset (var_spec, '\0', sizeof (*var_spec) * n_var_specs);
- }
+#if 0
+ printf ("%s:%d %d,%d %d,%d\n", __FILE__, __LINE__,
+ r->start_col,
+ r->start_row,
+ r->stop_col,
+ r->stop_row);
+#endif
/* Advance to the start of the cells for the target sheet */
- while ( (r->row < r->start_row ))
+ while ( ! reading_target_sheet (r)
+ || r->state != STATE_ROW || r->row <= r->start_row )
{
if (1 != (ret = xmlTextReaderRead (r->xtr)))
break;
goto error;
}
- if ( gri->read_names)
+ if ( opts->read_names)
{
while (1 == (ret = xmlTextReaderRead (r->xtr)))
{
int idx;
+
process_node (r);
- if ( r->row > r->start_row)
- break;
- if (r->col == -1 && r->row == r->start_row)
+ /* If the row is finished then stop for now */
+ if (r->state == STATE_TABLE && r->row > r->start_row)
break;
- if ( r->col < r->start_col)
+ idx = r->col - r->start_col -1 ;
+
+ if ( idx < 0)
continue;
- idx = r->col - r->start_col;
+ if (r->stop_col != -1 && idx > r->stop_col - r->start_col)
+ continue;
if (r->state == STATE_CELL_CONTENT
&&
XML_READER_TYPE_TEXT == r->node_type)
{
xmlChar *value = xmlTextReaderValue (r->xtr);
+
if ( idx >= n_var_specs)
{
-
var_spec = xrealloc (var_spec, sizeof (*var_spec) * (idx + 1));
/* xrealloc (unlike realloc) doesn't initialise its memory to 0 */
memset (var_spec + n_var_specs,
0,
- (n_var_specs - idx + 1) * sizeof (*var_spec));
+ (idx - n_var_specs + 1) * sizeof (*var_spec));
n_var_specs = idx + 1;
}
var_spec[idx].firstval.text = 0;
var_spec[idx].firstval.type = 0;
var_spec [idx].name = strdup (CHAR_CAST (const char *, value));
- free (value);
- value = NULL;
+
+ xmlFree (value);
}
}
}
{
int idx;
process_node (r);
- if ( r->row >= r->start_row + 1 + gri->read_names)
+
+ if ( ! reading_target_sheet (r) )
break;
- if ( r->col < r->start_col)
- continue;
+ /* If the row is finished then stop for now */
+ if (r->state == STATE_TABLE &&
+ r->row > r->start_row + (opts->read_names ? 1 : 0))
+ break;
- if ( r->col - r->start_col + 1 > n_var_specs)
+ idx = r->col - r->start_col - 1;
+ if (idx < 0)
continue;
- idx = r->col - r->start_col;
+ if (r->stop_col != -1 && idx > r->stop_col - r->start_col)
+ continue;
if ( r->state == STATE_CELL &&
XML_READER_TYPE_ELEMENT == r->node_type)
if ( r->state == STATE_CELL_CONTENT &&
XML_READER_TYPE_TEXT == r->node_type)
{
+#if 0
+ printf ("%s:%d Idx %d n_var_specs %d\n", __FILE__, __LINE__,
+ idx, n_var_specs);
+
+ printf ("%s:%d Idx %d r_col %d\n", __FILE__, __LINE__,
+ idx, r->col);
+#endif
+
+ if (idx >= n_var_specs)
+ {
+ var_spec = xrealloc (var_spec, sizeof (*var_spec) * (idx + 1));
+ memset (var_spec + n_var_specs,
+ 0,
+ (idx - n_var_specs + 1) * sizeof (*var_spec));
+
+ var_spec [idx].name = NULL;
+ n_var_specs = idx + 1;
+ }
+
var_spec [idx].firstval.type = type;
var_spec [idx].firstval.text = xmlTextReaderValue (r->xtr);
var_spec [idx].firstval.value = val_string;
+
val_string = NULL;
type = NULL;
}
}
+
/* Create the dictionary and populate it */
r->spreadsheet.dict = r->dict = dict_create (
CHAR_CAST (const char *, xmlTextReaderConstEncoding (r->xtr)));
- for (i = 0 ; i < n_var_specs ; ++i )
+ for (i = 0; i < n_var_specs ; ++i )
{
struct fmt_spec fmt;
struct variable *var = NULL;
char *name = dict_make_unique_var_name (r->dict, var_spec[i].name, &vstart);
- int width = xmv_to_width (&var_spec[i].firstval, gri->asw);
+ int width = xmv_to_width (&var_spec[i].firstval, opts->asw);
dict_create_var (r->dict, name, width);
free (name);
r->first_case = case_create (r->proto);
case_set_missing (r->first_case);
- for ( i = 0 ; i < n_var_specs ; ++i )
+ for (i = 0 ; i < n_var_specs; ++i)
{
const struct variable *var = dict_get_var (r->dict, i);
convert_xml_to_value (r->first_case, var, &var_spec[i].firstval);
}
- // zip_reader_destroy (zreader);
+ /* Read in the first row of data */
+ while (1 == xmlTextReaderRead (r->xtr))
+ {
+ process_node (r);
+
+ if (r->state == STATE_ROW)
+ break;
+ }
+
+ // zip_reader_destroy (zreader);
for ( i = 0 ; i < n_var_specs ; ++i )
{
free (var_spec);
+
return casereader_create_sequential
(NULL,
r->proto,
error:
- // zip_reader_destroy (zreader);
+ //zip_reader_destroy (zreader);
for ( i = 0 ; i < n_var_specs ; ++i )
{
{
struct ccase *c = NULL;
xmlChar *val_string = NULL;
+ xmlChar *type = NULL;
struct ods_reader *r = r_;
- int current_row = r->row;
- if ( r->row == -1)
- return NULL;
-
- if ( !r->used_first_case )
+ if (!r->used_first_case)
{
r->used_first_case = true;
return r->first_case;
}
- if ( r->state > STATE_INIT)
+
+ /* Advance to the start of a row. (If there is one) */
+ while (r->state != STATE_ROW
+ && 1 == xmlTextReaderRead (r->xtr)
+ )
+ {
+ process_node (r);
+ }
+
+
+ if ( ! reading_target_sheet (r)
+ || r->state < STATE_TABLE
+ || (r->stop_row != -1 && r->row > r->stop_row + 1)
+ )
{
- c = case_create (r->proto);
- case_set_missing (c);
+ return NULL;
}
+ c = case_create (r->proto);
+ case_set_missing (c);
+
while (1 == xmlTextReaderRead (r->xtr))
{
process_node (r);
- if ( r->row > current_row)
- {
- break;
- }
- if ( r->col < r->start_col || (r->stop_col != -1 && r->col > r->stop_col))
- {
- continue;
- }
- if ( r->col - r->start_col >= caseproto_get_n_widths (r->proto))
- {
- continue;
- }
- if ( r->stop_row != -1 && r->row > r->stop_row)
- {
- continue;
- }
- if ( r->state == STATE_CELL &&
- r->node_type == XML_READER_TYPE_ELEMENT )
+
+ if ( r->stop_row != -1 && r->row > r->stop_row + 1)
+ break;
+
+ if (r->state == STATE_CELL &&
+ r->node_type == XML_READER_TYPE_ELEMENT)
{
+ type = xmlTextReaderGetAttribute (r->xtr, _xml ("office:value-type"));
val_string = xmlTextReaderGetAttribute (r->xtr, _xml ("office:value"));
}
- if ( r->state == STATE_CELL_CONTENT && r->node_type == XML_READER_TYPE_TEXT )
+ if (r->state == STATE_CELL_CONTENT &&
+ r->node_type == XML_READER_TYPE_TEXT)
{
int col;
struct xml_value *xmv = xzalloc (sizeof *xmv);
xmv->text = xmlTextReaderValue (r->xtr);
- xmv->value = val_string;
+ xmv->value = val_string;
+ xmv->type = type;
val_string = NULL;
- for (col = 0; col < r->span ; ++col)
+ for (col = 0; col < r->col_span; ++col)
{
- const int idx = r->col + col - r->start_col;
-
- const struct variable *var = dict_get_var (r->dict, idx);
-
+ const struct variable *var;
+ const int idx = r->col + col - r->start_col - 1;
+ if (idx < 0)
+ continue;
+ if (r->stop_col != -1 && idx > r->stop_col - r->start_col )
+ break;
+
+ var = dict_get_var (r->dict, idx);
convert_xml_to_value (c, var, xmv);
}
- free (xmv->text);
- free (xmv->value);
+
+ xmlFree (xmv->text);
+ xmlFree (xmv->value);
+ xmlFree (xmv->type);
free (xmv);
}
-
- if ( r->state < STATE_TABLE)
+ if ( r->state <= STATE_TABLE)
break;
}
- if (NULL == c || (r->stop_row != -1 && r->row > r->stop_row + 1))
- {
- case_unref (c);
- return NULL;
- }
- else
- {
- return c;
- }
+ return c;
}
#endif