gnucash/libgnucash/engine/SchedXaction.c
2024-04-16 00:09:52 +08:00

1275 lines
37 KiB
C

/********************************************************************\
* SchedXaction.c -- Scheduled Transaction implementation. *
* Copyright (C) 2001,2007 Joshua Sled <jsled@asynchronous.org> *
* *
* 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 the Free Software Foundation; either version 2 of *
* the License, or (at your option) any later version. *
* *
* This program is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU General Public License for more details. *
* *
* You should have received a copy of the GNU General Public License*
* along with this program; if not, contact: *
* *
* Free Software Foundation Voice: +1-617-542-5942 *
* 51 Franklin Street, Fifth Floor Fax: +1-617-542-2652 *
* Boston, MA 02110-1301, USA gnu@gnu.org *
* *
\********************************************************************/
#include <config.h>
#include <glib.h>
#include <glib/gi18n.h>
#include <string.h>
#include <stdint.h>
#include "qof.h"
#include "Account.h"
#include "SX-book.h"
#include "SX-book-p.h"
#include "SX-ttinfo.h"
#include "SchedXaction.h"
#include "Transaction.h"
#include "gnc-engine.h"
#include "engine-helpers.h"
#include "qofinstance-p.h"
#undef G_LOG_DOMAIN
#define G_LOG_DOMAIN "gnc.engine.sx"
enum
{
PROP_0,
PROP_NAME, /* Table */
PROP_ENABLED, /* Table */
PROP_START_DATE, /* Table */
PROP_END_DATE, /* Table */
PROP_LAST_OCCURANCE_DATE, /* Table */
PROP_NUM_OCCURANCE, /* Table */
PROP_REM_OCCURANCE, /* Table */
PROP_AUTO_CREATE, /* Table */
PROP_AUTO_CREATE_NOTIFY, /* Table */
PROP_ADVANCE_CREATION_DAYS, /* Table */
PROP_ADVANCE_REMINDER_DAYS, /* Table */
PROP_INSTANCE_COUNT, /* Table */
PROP_TEMPLATE_ACCOUNT /* Table */
};
/* GObject initialization */
G_DEFINE_TYPE(SchedXaction, gnc_schedxaction, QOF_TYPE_INSTANCE)
static void
gnc_schedxaction_init(SchedXaction* sx)
{
sx->schedule = NULL;
g_date_clear( &sx->last_date, 1 );
g_date_clear( &sx->start_date, 1 );
g_date_clear( &sx->end_date, 1 );
sx->enabled = 1;
sx->num_occurances_total = 0;
sx->autoCreateOption = FALSE;
sx->autoCreateNotify = FALSE;
sx->advanceCreateDays = 0;
sx->advanceRemindDays = 0;
sx->instance_num = 0;
sx->deferredList = NULL;
}
static void
gnc_schedxaction_dispose(GObject *sxp)
{
G_OBJECT_CLASS(gnc_schedxaction_parent_class)->dispose(sxp);
}
static void
gnc_schedxaction_finalize(GObject* sxp)
{
G_OBJECT_CLASS(gnc_schedxaction_parent_class)->finalize(sxp);
}
/* Note that g_value_set_object() refs the object, as does
* g_object_get(). But g_object_get() only unrefs once when it disgorges
* the object, leaving an unbalanced ref, which leaks. So instead of
* using g_value_set_object(), use g_value_take_object() which doesn't
* ref the object when used in get_property().
*/
static void
gnc_schedxaction_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
SchedXaction *sx;
g_return_if_fail(GNC_IS_SCHEDXACTION(object));
sx = GNC_SCHEDXACTION(object);
switch (prop_id)
{
case PROP_NAME:
g_value_set_string(value, sx->name);
break;
case PROP_ENABLED:
g_value_set_boolean(value, sx->enabled);
break;
case PROP_NUM_OCCURANCE:
g_value_set_int(value, sx->num_occurances_total);
break;
case PROP_REM_OCCURANCE:
g_value_set_int(value, sx->num_occurances_remain);
break;
case PROP_AUTO_CREATE:
g_value_set_boolean(value, sx->autoCreateOption);
break;
case PROP_AUTO_CREATE_NOTIFY:
g_value_set_boolean(value, sx->autoCreateNotify);
break;
case PROP_ADVANCE_CREATION_DAYS:
g_value_set_int(value, sx->advanceCreateDays);
break;
case PROP_ADVANCE_REMINDER_DAYS:
g_value_set_int(value, sx->advanceRemindDays);
break;
case PROP_START_DATE:
g_value_set_boxed(value, &sx->start_date);
break;
case PROP_END_DATE:
/* g_value_set_boxed raises a critical error if sx->end_date
* is invalid */
if (g_date_valid (&sx->end_date))
g_value_set_boxed(value, &sx->end_date);
break;
case PROP_LAST_OCCURANCE_DATE:
/* g_value_set_boxed raises a critical error if sx->last_date
* is invalid */
if (g_date_valid (&sx->last_date))
g_value_set_boxed(value, &sx->last_date);
break;
case PROP_INSTANCE_COUNT:
g_value_set_int(value, sx->instance_num);
break;
case PROP_TEMPLATE_ACCOUNT:
g_value_take_object(value, sx->template_acct);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void
gnc_schedxaction_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
SchedXaction *sx;
g_return_if_fail(GNC_IS_SCHEDXACTION(object));
sx = GNC_SCHEDXACTION(object);
g_assert (qof_instance_get_editlevel(sx));
switch (prop_id)
{
case PROP_NAME:
xaccSchedXactionSetName(sx, g_value_get_string(value));
break;
case PROP_ENABLED:
xaccSchedXactionSetEnabled(sx, g_value_get_boolean(value));
break;
case PROP_NUM_OCCURANCE:
xaccSchedXactionSetNumOccur(sx, g_value_get_int(value));
break;
case PROP_REM_OCCURANCE:
xaccSchedXactionSetRemOccur(sx, g_value_get_int(value));
break;
case PROP_AUTO_CREATE:
xaccSchedXactionSetAutoCreate(sx, g_value_get_boolean(value), sx->autoCreateNotify);
break;
case PROP_AUTO_CREATE_NOTIFY:
xaccSchedXactionSetAutoCreate(sx, sx->autoCreateOption, g_value_get_boolean(value));
break;
case PROP_ADVANCE_CREATION_DAYS:
xaccSchedXactionSetAdvanceCreation(sx, g_value_get_int(value));
break;
case PROP_ADVANCE_REMINDER_DAYS:
xaccSchedXactionSetAdvanceReminder(sx, g_value_get_int(value));
break;
case PROP_START_DATE:
/* Note: when passed through a boxed gvalue, the julian value of the date is copied.
The date may appear invalid until a function requiring for dmy calculation is
called. */
xaccSchedXactionSetStartDate(sx, g_value_get_boxed(value));
break;
case PROP_END_DATE:
/* Note: when passed through a boxed gvalue, the julian value of the date is copied.
The date may appear invalid until a function requiring for dmy calculation is
called. */
xaccSchedXactionSetEndDate(sx, g_value_get_boxed(value));
break;
case PROP_LAST_OCCURANCE_DATE:
/* Note: when passed through a boxed gvalue, the julian value of the date is copied.
The date may appear invalid until a function requiring for dmy calculation is
called. */
xaccSchedXactionSetLastOccurDate(sx, g_value_get_boxed(value));
break;
case PROP_INSTANCE_COUNT:
gnc_sx_set_instance_count(sx, g_value_get_int(value));
break;
case PROP_TEMPLATE_ACCOUNT:
sx_set_template_account(sx, g_value_get_object(value));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, prop_id, pspec);
break;
}
}
static void
gnc_schedxaction_class_init (SchedXactionClass *klass)
{
GObjectClass *gobject_class = G_OBJECT_CLASS (klass);
gobject_class->dispose = gnc_schedxaction_dispose;
gobject_class->finalize = gnc_schedxaction_finalize;
gobject_class->set_property = gnc_schedxaction_set_property;
gobject_class->get_property = gnc_schedxaction_get_property;
g_object_class_install_property
(gobject_class,
PROP_NAME,
g_param_spec_string ("name",
"Scheduled Transaction Name",
"The name is an arbitrary string "
"assigned by the user. It is intended to "
"a short, 5 to 30 character long string "
"that is displayed by the GUI.",
NULL,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_ENABLED,
g_param_spec_boolean ("enabled",
"Enabled",
"TRUE if the scheduled transaction is enabled.",
TRUE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_NUM_OCCURANCE,
g_param_spec_int ("num-occurance",
"Number of occurrences",
"Total number of occurrences for this scheduled transaction.",
0,
G_MAXINT16,
1,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_REM_OCCURANCE,
g_param_spec_int ("rem-occurance",
"Number of occurrences remaining",
"Remaining number of occurrences for this scheduled transaction.",
0,
G_MAXINT16,
1,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_AUTO_CREATE,
g_param_spec_boolean ("auto-create",
"Auto-create",
"TRUE if the transaction will be automatically "
"created when its time comes.",
FALSE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_AUTO_CREATE_NOTIFY,
g_param_spec_boolean ("auto-create-notify",
"Auto-create-notify",
"TRUE if the the user will be notified when the transaction "
"is automatically created.",
FALSE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_ADVANCE_CREATION_DAYS,
g_param_spec_int ("advance-creation-days",
"Days in advance to create",
"Number of days in advance to create this scheduled transaction.",
0,
G_MAXINT16,
0,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_ADVANCE_REMINDER_DAYS,
g_param_spec_int ("advance-reminder-days",
"Days in advance to remind",
"Number of days in advance to remind about this scheduled transaction.",
0,
G_MAXINT16,
0,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_START_DATE,
g_param_spec_boxed("start-date",
"Start Date",
"Date for the first occurrence for the scheduled transaction.",
G_TYPE_DATE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_END_DATE,
g_param_spec_boxed("end-date",
"End Date",
"Date for the scheduled transaction to end.",
G_TYPE_DATE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_LAST_OCCURANCE_DATE,
g_param_spec_boxed("last-occurance-date",
"Last Occurrence Date",
"Date for the last occurrence of the scheduled transaction.",
G_TYPE_DATE,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_INSTANCE_COUNT,
g_param_spec_int ("instance-count",
"Instance count",
"Number of instances of this scheduled transaction.",
0,
G_MAXINT16,
0,
G_PARAM_READWRITE));
g_object_class_install_property
(gobject_class,
PROP_TEMPLATE_ACCOUNT,
g_param_spec_object("template-account",
"Template account",
"Account which holds the template transactions.",
GNC_TYPE_ACCOUNT,
G_PARAM_READWRITE));
}
static void
xaccSchedXactionInit(SchedXaction *sx, QofBook *book)
{
Account *ra;
const GncGUID *guid;
gchar guidstr[GUID_ENCODING_LENGTH+1];
qof_instance_init_data (&sx->inst, GNC_ID_SCHEDXACTION, book);
/* create a new template account for our splits */
sx->template_acct = xaccMallocAccount(book);
guid = qof_instance_get_guid( sx );
xaccAccountBeginEdit( sx->template_acct );
guid_to_string_buff( guid, guidstr );
xaccAccountSetName( sx->template_acct, guidstr);
xaccAccountSetCommodity
(sx->template_acct,
gnc_commodity_table_lookup( gnc_commodity_table_get_table(book),
GNC_COMMODITY_NS_TEMPLATE, "template") );
xaccAccountSetType( sx->template_acct, ACCT_TYPE_BANK );
xaccAccountCommitEdit( sx->template_acct );
ra = gnc_book_get_template_root( book );
gnc_account_append_child( ra, sx->template_acct );
}
SchedXaction*
xaccSchedXactionMalloc(QofBook *book)
{
SchedXaction *sx;
g_return_val_if_fail (book, NULL);
sx = g_object_new(GNC_TYPE_SCHEDXACTION, NULL);
xaccSchedXactionInit( sx, book );
qof_event_gen( &sx->inst, QOF_EVENT_CREATE , NULL);
return sx;
}
static void
sxprivTransMapDelete( gpointer data, gpointer user_data )
{
Transaction *t = (Transaction *) data;
xaccTransBeginEdit( t );
xaccTransDestroy( t );
xaccTransCommitEdit( t );
return;
}
static void
delete_template_trans(SchedXaction *sx)
{
GList *templ_acct_splits, *curr_split_listref;
Split *curr_split;
Transaction *split_trans;
GList *templ_acct_transactions = NULL;
templ_acct_splits
= xaccAccountGetSplitList(sx->template_acct);
for (curr_split_listref = templ_acct_splits;
curr_split_listref;
curr_split_listref = curr_split_listref->next)
{
curr_split = (Split *) curr_split_listref->data;
split_trans = xaccSplitGetParent(curr_split);
if (! (g_list_find(templ_acct_transactions, split_trans)))
{
templ_acct_transactions
= g_list_prepend(templ_acct_transactions, split_trans);
}
}
g_list_foreach(templ_acct_transactions,
sxprivTransMapDelete,
NULL);
g_list_free (templ_acct_splits);
g_list_free (templ_acct_transactions);
return;
}
void
sx_set_template_account (SchedXaction *sx, Account *account)
{
Account *old;
old = sx->template_acct;
sx->template_acct = account;
if (old)
{
xaccAccountBeginEdit(old);
xaccAccountDestroy(old);
}
}
void
xaccSchedXactionDestroy( SchedXaction *sx )
{
qof_instance_set_destroying( QOF_INSTANCE(sx), TRUE );
gnc_sx_commit_edit( sx );
}
static void
xaccSchedXactionFree( SchedXaction *sx )
{
GList *l;
if ( sx == NULL ) return;
qof_event_gen( &sx->inst, QOF_EVENT_DESTROY , NULL);
if ( sx->name )
g_free( sx->name );
/*
* we have to delete the transactions in the
* template account ourselves
*/
delete_template_trans( sx );
xaccAccountBeginEdit( sx->template_acct );
xaccAccountDestroy( sx->template_acct );
for ( l = sx->deferredList; l; l = l->next )
{
gnc_sx_destroy_temporal_state( l->data );
l->data = NULL;
}
if ( sx->deferredList )
{
g_list_free( sx->deferredList );
sx->deferredList = NULL;
}
/* a GList of Recurrences */
g_list_free_full (sx->schedule, g_free);
/* qof_instance_release (&sx->inst); */
g_object_unref( sx );
}
/* ============================================================ */
void
gnc_sx_begin_edit (SchedXaction *sx)
{
qof_begin_edit (&sx->inst);
}
static void sx_free(QofInstance* inst )
{
xaccSchedXactionFree( GNC_SX(inst) );
}
static void commit_err (QofInstance *inst, QofBackendError errcode)
{
g_critical("Failed to commit: %d", errcode);
gnc_engine_signal_commit_error( errcode );
}
static void commit_done(QofInstance *inst)
{
qof_event_gen (inst, QOF_EVENT_MODIFY, NULL);
}
void
gnc_sx_commit_edit (SchedXaction *sx)
{
if (!qof_commit_edit (QOF_INSTANCE(sx))) return;
qof_commit_edit_part2 (&sx->inst, commit_err, commit_done, sx_free);
}
/* ============================================================ */
GList*
gnc_sx_get_schedule(const SchedXaction *sx)
{
return sx->schedule;
}
void
gnc_sx_set_schedule(SchedXaction *sx, GList *schedule)
{
g_return_if_fail(sx);
gnc_sx_begin_edit(sx);
sx->schedule = schedule;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
gchar *
xaccSchedXactionGetName( const SchedXaction *sx )
{
return sx->name;
}
void
xaccSchedXactionSetName( SchedXaction *sx, const gchar *newName )
{
g_return_if_fail( newName != NULL );
gnc_sx_begin_edit(sx);
if ( sx->name != NULL )
{
g_free( sx->name );
sx->name = NULL;
}
sx->name = g_strdup( newName );
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
const GDate*
xaccSchedXactionGetStartDate(const SchedXaction *sx )
{
g_assert (sx);
return &sx->start_date;
}
time64
xaccSchedXactionGetStartDateTT(const SchedXaction *sx )
{
g_assert (sx);
return gdate_to_time64(sx->start_date);
}
void
xaccSchedXactionSetStartDate( SchedXaction *sx, const GDate* newStart )
{
if ( newStart == NULL || !g_date_valid( newStart ))
{
/* XXX: I reject the bad data - is this the right
* thing to do <rgmerk>.
* This warning is only human readable - the caller
* doesn't know the call failed. This is bad
*/
g_critical("Invalid Start Date");
return;
}
gnc_sx_begin_edit(sx);
sx->start_date = *newStart;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
void
xaccSchedXactionSetStartDateTT( SchedXaction *sx, const time64 newStart )
{
if ( newStart == INT64_MAX )
{
/* XXX: I reject the bad data - is this the right
* thing to do <rgmerk>.
* This warning is only human readable - the caller
* doesn't know the call failed. This is bad
*/
g_critical("Invalid Start Date");
return;
}
gnc_sx_begin_edit(sx);
gnc_gdate_set_time64(&sx->start_date, newStart);
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
gboolean
xaccSchedXactionHasEndDate( const SchedXaction *sx )
{
return sx != NULL && g_date_valid( &sx->end_date );
}
const GDate*
xaccSchedXactionGetEndDate(const SchedXaction *sx )
{
g_assert (sx);
return &sx->end_date;
}
void
xaccSchedXactionSetEndDate( SchedXaction *sx, const GDate *newEnd )
{
/* Note that an invalid GDate IS a permissible value: It means that
* the SX is to run "forever". See gnc_sxed_save_sx() and
* schedXact_editor_populate() in dialog-sx-editor.c.
*/
if (newEnd == NULL ||
(g_date_valid(newEnd) && g_date_compare( newEnd, &sx->start_date ) < 0 ))
{
/* XXX: I reject the bad data - is this the right
* thing to do <rgmerk>.
* This warning is only human readable - the caller
* doesn't know the call failed. This is bad
*/
g_critical("Bad End Date: Invalid or before Start Date");
return;
}
gnc_sx_begin_edit(sx);
sx->end_date = *newEnd;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
const GDate*
xaccSchedXactionGetLastOccurDate(const SchedXaction *sx )
{
return &sx->last_date;
}
time64
xaccSchedXactionGetLastOccurDateTT(const SchedXaction *sx )
{
return gdate_to_time64(sx->last_date);
}
void
xaccSchedXactionSetLastOccurDate(SchedXaction *sx, const GDate* new_last_occur)
{
g_return_if_fail (new_last_occur != NULL);
if (g_date_valid(&sx->last_date)
&& g_date_compare(&sx->last_date, new_last_occur) == 0)
return;
gnc_sx_begin_edit(sx);
sx->last_date = *new_last_occur;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
void
xaccSchedXactionSetLastOccurDateTT(SchedXaction *sx, time64 new_last_occur)
{
GDate last_occur;
g_return_if_fail (new_last_occur != INT64_MAX);
gnc_gdate_set_time64(&last_occur, new_last_occur);
if (g_date_valid(&sx->last_date)
&& g_date_compare(&sx->last_date, &last_occur) == 0)
return;
gnc_sx_begin_edit(sx);
sx->last_date = last_occur;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
gboolean
xaccSchedXactionHasOccurDef( const SchedXaction *sx )
{
return ( xaccSchedXactionGetNumOccur( sx ) != 0 );
}
gint
xaccSchedXactionGetNumOccur( const SchedXaction *sx )
{
return sx->num_occurances_total;
}
void
xaccSchedXactionSetNumOccur(SchedXaction *sx, gint new_num)
{
if (sx->num_occurances_total == new_num)
return;
gnc_sx_begin_edit(sx);
sx->num_occurances_remain = sx->num_occurances_total = new_num;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
gint
xaccSchedXactionGetRemOccur( const SchedXaction *sx )
{
return sx->num_occurances_remain;
}
void
xaccSchedXactionSetRemOccur(SchedXaction *sx, gint num_remain)
{
/* FIXME This condition can be tightened up */
if (num_remain > sx->num_occurances_total)
{
g_warning("number remaining [%d] > total occurrences [%d]",
num_remain, sx->num_occurances_total);
}
else
{
if (num_remain == sx->num_occurances_remain)
return;
gnc_sx_begin_edit(sx);
sx->num_occurances_remain = num_remain;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
}
gint gnc_sx_get_num_occur_daterange(const SchedXaction *sx, const GDate* start_date, const GDate* end_date)
{
gint result = 0;
SXTmpStateData *tmpState;
gboolean countFirstDate;
/* SX still active? If not, return now. */
if ((xaccSchedXactionHasOccurDef(sx)
&& xaccSchedXactionGetRemOccur(sx) <= 0)
|| (xaccSchedXactionHasEndDate(sx)
&& g_date_compare(xaccSchedXactionGetEndDate(sx), start_date) < 0))
{
return result;
}
tmpState = gnc_sx_create_temporal_state (sx);
/* Should we count the first valid date we encounter? Only if the
* SX has not yet occurred so far, or if its last valid date was
* before the start date. */
countFirstDate = !g_date_valid(&tmpState->last_date)
|| (g_date_compare(&tmpState->last_date, start_date) < 0);
/* No valid date? SX has never occurred so far. */
if (!g_date_valid(&tmpState->last_date))
{
/* SX has never occurred so far */
gnc_sx_incr_temporal_state (sx, tmpState);
if (xaccSchedXactionHasOccurDef(sx) && tmpState->num_occur_rem < 0)
{
gnc_sx_destroy_temporal_state (tmpState);
return result;
}
}
/* Increase the tmpState until we are in our interval of
* interest. Only calculate anything if the sx hasn't already
* ended. */
while (g_date_compare(&tmpState->last_date, start_date) < 0)
{
gnc_sx_incr_temporal_state (sx, tmpState);
if (xaccSchedXactionHasOccurDef(sx) && tmpState->num_occur_rem < 0)
{
gnc_sx_destroy_temporal_state (tmpState);
return result;
}
}
/* Now we are in our interval of interest. Increment the
* occurrence date until we are beyond the end of our
* interval. Make sure to check for invalid dates here: It means
* the SX has ended. */
while (g_date_valid(&tmpState->last_date)
&& (g_date_compare(&tmpState->last_date, end_date) <= 0)
&& (!xaccSchedXactionHasEndDate(sx)
|| g_date_compare(&tmpState->last_date, xaccSchedXactionGetEndDate(sx)) <= 0)
&& (!xaccSchedXactionHasOccurDef(sx)
/* The >=0 (i.e. the ==) is important here, otherwise
* we miss the last valid occurrence of a SX which is
* limited by num_occur */
|| tmpState->num_occur_rem >= 0))
{
++result;
gnc_sx_incr_temporal_state (sx, tmpState);
}
/* If the first valid date shouldn't be counted, decrease the
* result number by one. */
if (!countFirstDate && result > 0)
--result;
gnc_sx_destroy_temporal_state (tmpState);
return result;
}
gboolean
xaccSchedXactionGetEnabled( const SchedXaction *sx )
{
return sx->enabled;
}
void
xaccSchedXactionSetEnabled( SchedXaction *sx, gboolean newEnabled)
{
gnc_sx_begin_edit(sx);
sx->enabled = newEnabled;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
void
xaccSchedXactionGetAutoCreate( const SchedXaction *sx,
gboolean *outAutoCreate,
gboolean *outNotify )
{
if (outAutoCreate != NULL)
*outAutoCreate = sx->autoCreateOption;
if (outNotify != NULL)
*outNotify = sx->autoCreateNotify;
return;
}
void
xaccSchedXactionSetAutoCreate( SchedXaction *sx,
gboolean newAutoCreate,
gboolean newNotify )
{
gnc_sx_begin_edit(sx);
sx->autoCreateOption = newAutoCreate;
sx->autoCreateNotify = newNotify;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
return;
}
gint
xaccSchedXactionGetAdvanceCreation( const SchedXaction *sx )
{
return sx->advanceCreateDays;
}
void
xaccSchedXactionSetAdvanceCreation( SchedXaction *sx, gint createDays )
{
gnc_sx_begin_edit(sx);
sx->advanceCreateDays = createDays;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
gint
xaccSchedXactionGetAdvanceReminder( const SchedXaction *sx )
{
return sx->advanceRemindDays;
}
void
xaccSchedXactionSetAdvanceReminder( SchedXaction *sx, gint reminderDays )
{
gnc_sx_begin_edit(sx);
sx->advanceRemindDays = reminderDays;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
GDate
xaccSchedXactionGetNextInstance (const SchedXaction *sx, SXTmpStateData *tsd)
{
GDate prev_occur, next_occur;
g_date_clear( &prev_occur, 1 );
if ( tsd != NULL )
prev_occur = tsd->last_date;
/* If prev_occur is in the "cleared" state and sx->start_date isn't, then
* we're at the beginning. We want to pretend prev_occur is the day before
* the start_date in case the start_date is today so that the SX will fire
* today. If start_date isn't valid either then the SX will fire anyway, no
* harm done. prev_occur cannot be before start_date either.
*/
if (g_date_valid (&sx->start_date) && (!g_date_valid ( &prev_occur ) || g_date_compare (&prev_occur, &sx->start_date)<0))
{
/* We must be at the beginning. */
prev_occur = sx->start_date;
g_date_subtract_days (&prev_occur, 1 );
}
recurrenceListNextInstance(sx->schedule, &prev_occur, &next_occur);
if ( xaccSchedXactionHasEndDate( sx ) )
{
const GDate *end_date = xaccSchedXactionGetEndDate( sx );
if ( g_date_compare( &next_occur, end_date ) > 0 )
{
g_date_clear( &next_occur, 1 );
}
}
else if ( xaccSchedXactionHasOccurDef( sx ) )
{
if ((tsd && tsd->num_occur_rem == 0) ||
(!tsd && sx->num_occurances_remain == 0 ))
{
g_date_clear( &next_occur, 1 );
}
}
return next_occur;
}
gint
gnc_sx_get_instance_count( const SchedXaction *sx, SXTmpStateData *stateData )
{
gint toRet = -1;
SXTmpStateData *tsd;
if ( stateData )
{
tsd = (SXTmpStateData*)stateData;
toRet = tsd->num_inst;
}
else
{
toRet = sx->instance_num;
}
return toRet;
}
void
gnc_sx_set_instance_count(SchedXaction *sx, gint instance_num)
{
g_return_if_fail(sx);
if (sx->instance_num == instance_num)
return;
gnc_sx_begin_edit(sx);
sx->instance_num = instance_num;
qof_instance_set_dirty(&sx->inst);
gnc_sx_commit_edit(sx);
}
GList *
xaccSchedXactionGetSplits( const SchedXaction *sx )
{
g_return_val_if_fail( sx, NULL );
return xaccAccountGetSplitList(sx->template_acct);
}
static Split *
pack_split_info (TTSplitInfo *s_info, Account *parent_acct,
Transaction *parent_trans, QofBook *book)
{
Split *split;
const gchar *credit_formula;
const gchar *debit_formula;
const GncGUID *acc_guid;
split = xaccMallocSplit(book);
xaccSplitSetMemo(split,
gnc_ttsplitinfo_get_memo(s_info));
/* Set split-action with gnc_set_num_action which is the same as
* xaccSplitSetAction with these arguments */
gnc_set_num_action(NULL, split, NULL,
gnc_ttsplitinfo_get_action(s_info));
xaccAccountInsertSplit(parent_acct,
split);
credit_formula = gnc_ttsplitinfo_get_credit_formula(s_info);
debit_formula = gnc_ttsplitinfo_get_debit_formula(s_info);
acc_guid = qof_entity_get_guid(QOF_INSTANCE(gnc_ttsplitinfo_get_account(s_info)));
qof_instance_set (QOF_INSTANCE (split),
"sx-credit-formula", credit_formula,
"sx-debit-formula", debit_formula,
"sx-account", acc_guid,
NULL);
return split;
}
void
xaccSchedXactionSetTemplateTrans(SchedXaction *sx, GList *t_t_list,
QofBook *book)
{
Transaction *new_trans;
TTInfo *tti;
TTSplitInfo *s_info;
Split *new_split;
GList *split_list;
g_return_if_fail (book);
/* delete any old transactions, if there are any */
delete_template_trans( sx );
for (; t_t_list != NULL; t_t_list = t_t_list->next)
{
tti = t_t_list->data;
new_trans = xaccMallocTransaction(book);
xaccTransBeginEdit(new_trans);
xaccTransSetDescription(new_trans,
gnc_ttinfo_get_description(tti));
xaccTransSetDatePostedSecsNormalized(new_trans, gnc_time (NULL));
/* Set tran-num with gnc_set_num_action which is the same as
* xaccTransSetNum with these arguments */
gnc_set_num_action(new_trans, NULL,
gnc_ttinfo_get_num(tti), NULL);
xaccTransSetNotes (new_trans, gnc_ttinfo_get_notes (tti));
xaccTransSetCurrency( new_trans,
gnc_ttinfo_get_currency(tti) );
for (split_list = gnc_ttinfo_get_template_splits(tti);
split_list;
split_list = split_list->next)
{
s_info = split_list->data;
new_split = pack_split_info(s_info, sx->template_acct,
new_trans, book);
xaccTransAppendSplit(new_trans, new_split);
}
xaccTransCommitEdit(new_trans);
}
}
SXTmpStateData*
gnc_sx_create_temporal_state(const SchedXaction *sx )
{
SXTmpStateData *toRet =
g_new0( SXTmpStateData, 1 );
if (g_date_valid (&(sx->last_date)))
toRet->last_date = sx->last_date;
else
g_date_set_dmy (&(toRet->last_date), 1, 1, 1970);
toRet->num_occur_rem = sx->num_occurances_remain;
toRet->num_inst = sx->instance_num;
return toRet;
}
void
gnc_sx_incr_temporal_state(const SchedXaction *sx, SXTmpStateData *tsd )
{
g_return_if_fail(tsd != NULL);
tsd->last_date = xaccSchedXactionGetNextInstance (sx, tsd);
if (xaccSchedXactionHasOccurDef (sx))
{
--tsd->num_occur_rem;
}
++tsd->num_inst;
}
void
gnc_sx_destroy_temporal_state (SXTmpStateData *tsd)
{
g_free(tsd);
}
SXTmpStateData*
gnc_sx_clone_temporal_state (SXTmpStateData *tsd)
{
SXTmpStateData *toRet = NULL;
if(tsd)
{
toRet = g_new(SXTmpStateData, 1);
*toRet = *tsd;
}
return toRet;
}
static gint
_temporal_state_data_cmp( gconstpointer a, gconstpointer b )
{
const SXTmpStateData *tsd_a = (SXTmpStateData*)a;
const SXTmpStateData *tsd_b = (SXTmpStateData*)b;
if ( !tsd_a && !tsd_b )
return 0;
if (tsd_a == tsd_b)
return 0;
if ( !tsd_a )
return 1;
if ( !tsd_b )
return -1;
return g_date_compare( &tsd_a->last_date,
&tsd_b->last_date );
}
/**
* Adds an instance to the deferred list of the SX. Added instances are
* added in (date-)sorted order.
**/
void
gnc_sx_add_defer_instance( SchedXaction *sx, void *deferStateData )
{
sx->deferredList = g_list_insert_sorted( sx->deferredList,
deferStateData,
_temporal_state_data_cmp );
}
/**
* Removes an instance from the deferred list. The saved SXTmpStateData existed
* for comparison only, so destroy it.
**/
void
gnc_sx_remove_defer_instance( SchedXaction *sx, void *deferStateData )
{
GList *found_by_value;
found_by_value = g_list_find_custom(
sx->deferredList, deferStateData, _temporal_state_data_cmp);
if (found_by_value == NULL)
{
g_warning("unable to find deferred instance");
return;
}
gnc_sx_destroy_temporal_state(found_by_value->data);
sx->deferredList = g_list_delete_link(sx->deferredList, found_by_value);
}
/**
* Returns the defer list from the SX; this is a (date-)sorted
* temporal-state-data instance list. The list should not be modified by the
* caller; use the gnc_sx_{add,remove}_defer_instance() functions to modify
* the list.
*
* @param sx Scheduled transaction
* @return Defer list which must not be modified by the caller
**/
GList*
gnc_sx_get_defer_instances( SchedXaction *sx )
{
return sx->deferredList;
}
static void
destroy_sx_on_book_close(QofInstance *ent, gpointer data)
{
SchedXaction* sx = GNC_SCHEDXACTION(ent);
gnc_sx_begin_edit(sx);
xaccSchedXactionDestroy(sx);
}
/**
* Destroys all SXes in the book because the book is being destroyed.
*
* @param book Book being destroyed
*/
static void
gnc_sx_book_end(QofBook* book)
{
QofCollection *col;
col = qof_book_get_collection(book, GNC_ID_SCHEDXACTION);
qof_collection_foreach(col, destroy_sx_on_book_close, NULL);
// Now destroy the template root account
gnc_book_set_template_root (book, NULL);
}
#ifdef _MSC_VER
/* MSVC compiler doesn't have C99 "designated initializers"
* so we wrap them in a macro that is empty on MSVC. */
# define DI(x) /* */
#else
# define DI(x) x
#endif
static QofObject SXDesc =
{
DI(.interface_version = ) QOF_OBJECT_VERSION,
DI(.e_type = ) GNC_SX_ID,
DI(.type_label = ) "Scheduled Transaction",
DI(.create = ) (gpointer)xaccSchedXactionMalloc,
DI(.book_begin = ) NULL,
DI(.book_end = ) gnc_sx_book_end,
DI(.is_dirty = ) qof_collection_is_dirty,
DI(.mark_clean = ) qof_collection_mark_clean,
DI(.foreach = ) qof_collection_foreach,
DI(.printable = ) NULL,
DI(.version_cmp = ) (int (*)(gpointer, gpointer)) qof_instance_version_cmp,
};
gboolean
SXRegister(void)
{
static QofParam params[] =
{
{
GNC_SX_NAME, QOF_TYPE_STRING, (QofAccessFunc)xaccSchedXactionGetName,
(QofSetterFunc)xaccSchedXactionSetName
},
{
GNC_SX_START_DATE, QOF_TYPE_DATE, (QofAccessFunc)xaccSchedXactionGetStartDateTT,
(QofSetterFunc)xaccSchedXactionSetStartDateTT
},
{
GNC_SX_LAST_DATE, QOF_TYPE_DATE, (QofAccessFunc)xaccSchedXactionGetLastOccurDateTT,
(QofSetterFunc)xaccSchedXactionSetLastOccurDateTT
},
{
GNC_SX_NUM_OCCUR, QOF_TYPE_INT64, (QofAccessFunc)xaccSchedXactionGetNumOccur,
(QofSetterFunc)xaccSchedXactionSetNumOccur
},
{
GNC_SX_REM_OCCUR, QOF_TYPE_INT64, (QofAccessFunc)xaccSchedXactionGetRemOccur,
(QofSetterFunc)xaccSchedXactionSetRemOccur
},
{ QOF_PARAM_BOOK, QOF_ID_BOOK, (QofAccessFunc)qof_instance_get_book, NULL },
{ QOF_PARAM_GUID, QOF_TYPE_GUID, (QofAccessFunc)qof_instance_get_guid, NULL },
{ NULL },
};
qof_class_register(GNC_SX_ID, NULL, params);
return qof_object_register(&SXDesc);
}