/*************************************************************************
*
* Name: goen_get_point_info_m7()
*
* Type
*
* Type Parameter IOGF Description
* pwr_sGraphPlcNode *graphbody Pointer to objecttype data
* unsigned long point Connection point nr
* unsigned long *mask Mask for drawing inputs/outputs
* goen_conpoint_type *info_pointer Pointer to calculated data
*
* Description:
* Calculates relativ koordinates for a connectionpoint and investigates
* the connectionpoint type.
*
**************************************************************************/
int goen_get_point_info_m7( WGre *grectx, pwr_sGraphPlcNode *graphbody,
unsigned long point, unsigned int *mask,
unsigned long node_width, goen_conpoint_type *info_pointer,
vldh_t_node node)
{
int inputpoints, outputpoints;
unsigned long pointmask;
unsigned int *inmask_pointer;
unsigned int *outmask_pointer;
int inputs;
int interns;
int outputs;
double ll_x,ll_y,ur_x,ur_y;
/* Get number of parameters */
inputs = graphbody->parameters[PAR_INPUT];
interns = graphbody->parameters[PAR_INTERN];
outputs = graphbody->parameters[PAR_OUTPUT];
inmask_pointer = mask++;
outmask_pointer = mask;
/* Check if input in mask (first bit) */
pointmask = 1;
inputpoints = 0;
inputpoints = ((*inmask_pointer & 1 || *inmask_pointer & 2) != 0);
// inputpoints += ((*inmask_pointer & pointmask) != 0);
/* Check if output in mask (first bit) */
pointmask = 1;
outputpoints = 0;
outputpoints += ((*outmask_pointer & pointmask) != 0);
flow_MeasureNode( node->hn.node_id, &ll_x, &ll_y, &ur_x, &ur_y);
f_width = ur_x - ll_x;
f_height = ur_y - ll_y;
f_width -= 2* GOEN_F_LINEWIDTH;
f_height -= 2* GOEN_F_LINEWIDTH;
if ( inputpoints > 0)
f_width -= f_pinlength;
if ( outputpoints > 0)
f_width -= f_pinlength;
if (( point == 0) && (inputpoints != 0))
{
info_pointer->x = - f_width/2.0
-f_pinlength *( 1 - ( outputpoints == 0 ) * 0.5);
info_pointer->y = 0.0;
info_pointer->type = CON_LEFT;
}
if ((point == 1) || ((point == 0) && (inputpoints == 0)))
{
info_pointer->x = f_width/2.0
+ f_pinlength *( 1 - ( inputpoints == 0 ) * 0.5);
info_pointer->y = 0.0;
info_pointer->type = CON_RIGHT;
}
return GOEN__SUCCESS;
}
/*************************************************************************
*
* Name: goen_get_point_info_m1()
*
* Type
*
* Type Parameter IOGF Description
* pwr_sGraphPlcNode *graphbody Pointer to objecttype data
* unsigned long point Connection point nr
* unsigned long *mask Mask for drawing inputs/outputs
* goen_conpoint_type *info_pointer Pointer to calculated data
*
* Description:
* Calculates relativ koordinates for a connectionpoint and investigates
* the connectionpoint type.
*
**************************************************************************/
int goen_get_point_info_m1( WGre *grectx, pwr_sGraphPlcNode *graphbody,
unsigned long point, unsigned int *mask,
unsigned long node_width, goen_conpoint_type *info_pointer,
vldh_t_node node)
{
int i;
int inputpoints, outputpoints;
unsigned long pointmask;
unsigned int *mask_pointer;
int i_innr;
int i_internnr;
int i_outnr;
double ll_x,ll_y,ur_x,ur_y;
/* Get number of parameters */
i_innr = graphbody->parameters[PAR_INPUT];
i_internnr = graphbody->parameters[PAR_INTERN];
i_outnr = graphbody->parameters[PAR_OUTPUT];
/* Count number of inputpoints in mask */
mask_pointer = mask;
pointmask = 1;
inputpoints = 0;
for ( i = 0; i < i_innr; i++)
{
inputpoints += ((*mask_pointer & pointmask) != 0);
pointmask <<= 1;
}
/* Count number of outputpoints in mask */
pointmask = 1;
outputpoints = 0;
mask_pointer++;
for ( i = 0; i < i_outnr; i++)
{
outputpoints += ((*mask_pointer & pointmask) != 0);
pointmask <<= 1;
}
flow_MeasureNode( node->hn.node_id,
&ll_x,&ll_y,&ur_x,&ur_y);
f_width = ur_x - ll_x - 2* GOEN_F_LINEWIDTH;
f_height = ur_y - ll_y - 2* GOEN_F_LINEWIDTH;
if ( inputpoints > 0)
f_width -= f_pinlength;
if ( outputpoints > 0)
f_width -= f_pinlength;
if ( (int)point < inputpoints )
{
/* Connectionpoint is an input */
info_pointer->x = - f_width/2.0
-f_pinlength *( 1 - ( outputpoints == 0 ) * 0.5);
info_pointer->y = f_height/2.0 - f_header/2 - point * f_repeat;
info_pointer->type = CON_LEFT;
}
else
{
/* Connectionpoint is an output */
info_pointer->x = f_width/2.0 + f_pinlength
*( 1 - ( inputpoints == 0 ) * 0.5);
info_pointer->y = f_height/2.0 - f_header/2 -
(point - inputpoints) * f_repeat;
info_pointer->type = CON_RIGHT;
}
return GOEN__SUCCESS;
}
/*************************************************************************
*
* Name: int trace_flow_cb()
*
* Type int
*
* Type Parameter IOGF Description
*
* Description:
* Callback from flow.
**************************************************************************/
static int trace_flow_cb( FlowCtx *ctx, flow_tEvent event)
{
WGre *gre;
vldh_t_node source, dest;
void *vobject;
double ll_x, ll_y, ur_x, ur_y, width;
int subwindow_nr;
int sts;
flow_GetCtxUserData( ctx, (void **)&gre);
gre->search_rectangle_delete();
if ( event->any.type == flow_eEventType_CreateCon)
{
if ( flow_GetNodeGroup( event->con_create.source_object) ==
flow_eNodeGroup_Trace)
return 1;
flow_GetUserData( event->con_create.source_object, (void **) &source);
if ( event->con_create.dest_object)
{
if ( flow_GetNodeGroup( event->con_create.dest_object) ==
flow_eNodeGroup_Trace)
return 1;
flow_GetUserData( event->con_create.dest_object, (void **) &dest);
}
else
dest = 0;
(gre->gre_con_created) (gre,
event->con_create.x, event->con_create.y,
source, event->con_create.source_conpoint,
dest, event->con_create.dest_conpoint, 0, &sts);
}
switch ( event->event)
{
case flow_eEvent_Init:
break;
case flow_eEvent_MB2DoubleClick:
switch ( event->object.object_type)
{
case flow_eObjectType_Node:
if ( flow_GetNodeGroup( event->object.object) ==
flow_eNodeGroup_Trace)
{
flow_DeleteNodeCons( event->object.object);
flow_DeleteNode( event->object.object);
}
break;
default:
;
}
break;
case flow_eEvent_MB1PressCtrl:
{
vldh_t_node vnode;
vldh_t_con vcon;
double pos_x, pos_y;
double *x_arr, *y_arr;
int i, num;
/* Object moved */
switch ( event->object.object_type)
{
case flow_eObjectType_Node:
if ( flow_GetNodeGroup( event->object.object) ==
flow_eNodeGroup_Trace)
break;
flow_GetUserData( event->object.object, (void **) &vnode);
flow_GetNodePosition( event->object.object, &pos_x, &pos_y);
vnode->ln.x = pos_x;
vnode->ln.y = pos_y;
vldh_nodemodified( vnode);
(gre->gre_node_moved) (gre);
break;
case flow_eObjectType_Con:
if ( flow_GetConGroup( event->object.object) ==
flow_eConGroup_Trace)
break;
flow_GetUserData( event->object.object, (void **) &vcon);
flow_GetConPosition( event->object.object, &x_arr, &y_arr, &num);
for ( i = 0; i < num; i++)
{
vcon->lc.point[i].x = x_arr[i];
vcon->lc.point[i].y = y_arr[i];
}
vcon->lc.point_count = num;
vldh_conmodified( vcon);
break;
default:
;
}
break;
}
case flow_eEvent_MB1DoubleClick:
/* Open attribute editor */
switch ( event->object.object_type)
{
case flow_eObjectType_Node:
if ( flow_GetNodeGroup( event->object.object) ==
flow_eNodeGroup_Trace)
break;
gre->popupmenu_mode = GRE_POPUPMENUMODE_OBJECT;
flow_GetUserData( event->object.object, &vobject);
(gre->gre_attribute) (gre, (vldh_t_node) vobject);
break;
default:
;
}
break;
case flow_eEvent_MB1DoubleClickShift:
/* Open subwindow */
switch ( event->object.object_type)
{
case flow_eObjectType_Node:
if ( flow_GetNodeGroup( event->object.object) ==
flow_eNodeGroup_Trace)
break;
gre->popupmenu_mode = GRE_POPUPMENUMODE_OBJECT;
flow_MeasureNode( event->object.object, &ll_x,&ll_y,&ur_x,&ur_y);
width = ur_x - ll_x;
if ( event->object.x > ( ll_x + width / 2 ))
subwindow_nr = 1;
else
subwindow_nr = 2;
flow_GetUserData( event->object.object, &vobject);
(gre->gre_subwindow) ( gre, (vldh_t_node)vobject, subwindow_nr);
break;
default:
;
}
break;
case flow_eEvent_MB3Press:
{
/* Popup menu */
int x_pix, y_pix;
vldh_t_node current_node;
flow_tObject *select_list;
int select_cnt;
if ( event->object.object_type != flow_eObjectType_Node)
break;
if ( flow_GetNodeGroup( event->object.object) == flow_eNodeGroup_Trace)
break;
flow_PositionToPixel( gre->flow_ctx, event->object.x,
event->object.y, &x_pix, &y_pix);
gre->get_popup_position( &x_pix, &y_pix);
current_node = 0;
/* If there is no selected object, select current object */
if ( gre->popupmenu_mode == GRE_POPUPMENUMODE_OBJECT)
{
flow_GetSelectList( ctx, &select_list, &select_cnt);
if ( !select_cnt)
{
if ( event->object.object_type == flow_eObjectType_Node)
/* Get the current object */
flow_GetUserData( event->object.object, (void **)¤t_node);
}
}
(gre->gre_popupmenu) (gre, x_pix, y_pix,
gre->popupmenu_mode, current_node);
break;
}
case flow_eEvent_MB1ClickCtrl:
{
char help_title[32];
vldh_t_node node;
vldh_t_con con;
int size, sts;
if ( event->object.object_type == flow_eObjectType_Node)
{
if ( flow_GetNodeGroup( event->object.object) ==
flow_eNodeGroup_Trace)
break;
flow_GetUserData( event->object.object, (void **)&node);
sts = ldh_ObjidToName(
(node->hn.wind)->hw.ldhses,
cdh_ClassIdToObjid( node->ln.cid), ldh_eName_Object,
help_title, sizeof( help_title), &size);
WFoe::error_msg(sts);
if ( EVEN(sts)) return 1;
(gre->gre_help) ( gre, help_title);
}
if ( event->object.object_type == flow_eObjectType_Con)
{
if ( flow_GetConGroup( event->object.object) ==
flow_eConGroup_Trace)
break;
flow_GetUserData( event->object.object, (void **)&con);
sts = ldh_ObjidToName(
(gre->wind)->hw.ldhses,
cdh_ClassIdToObjid( con->lc.cid), ldh_eName_Object,
help_title, sizeof( help_title), &size);
WFoe::error_msg(sts);
if ( EVEN(sts)) return 1;
(gre->gre_help) ( gre, help_title);
}
break;
}
case flow_eEvent_MB1DoubleClickShiftCtrl:
{
trace_changevalue( gre, event->object.object);
break;
}
default:
;
}
return 1;
}
/*************************************************************************
*
* Name: goen_get_point_info_m15()
*
* Type
*
* Type Parameter IOGF Description
* pwr_sGraphPlcNode *graphbody Pointer to objecttype data
* unsigned long point Connection point nr
* unsigned long *mask Mask for drawing inputs/outputs
* goen_conpoint_type *info_pointer Pointer to calculated data
*
* Description:
* Calculates relativ koordinates for a connectionpoint and investigates
* the connectionpoint type.
*
**************************************************************************/
int goen_get_point_info_m15( WGre *grectx, pwr_sGraphPlcNode *graphbody,
unsigned long point, unsigned int *mask,
unsigned long node_width, goen_conpoint_type *info_pointer,
vldh_t_node node)
{
int inputpoints, outputpoints;
unsigned long pointmask;
unsigned int *inmask_pointer;
unsigned int *outmask_pointer;
double ll_x,ll_y,ur_x,ur_y;
int first_input, second_input;
inmask_pointer = mask++;
outmask_pointer = mask;
/* Check if first input in mask (first bit) */
pointmask = 1;
first_input = ((*inmask_pointer & pointmask) != 0);
pointmask = 2;
second_input = ((*inmask_pointer & pointmask) != 0);
inputpoints = first_input + second_input;
/* Check if output in mask (first bit) */
pointmask = 1;
outputpoints = 0;
outputpoints += ((*outmask_pointer & pointmask) != 0);
flow_MeasureNode( node->hn.node_id, &ll_x, &ll_y, &ur_x, &ur_y);
f_width = ur_x - ll_x;
f_height = ur_y - ll_y;
f_width -= 2* GOEN_F_LINEWIDTH;
f_width -= f_pinlength * (( inputpoints != 0 ) + ( outputpoints != 0 ));
f_height -= 2* GOEN_F_LINEWIDTH;
if (( point == 0) && first_input)
{
info_pointer->x = - f_width/2.0
-f_pinlength *( 1 - ( outputpoints == 0 ) * 0.5);
info_pointer->y = GOEN_F_GRID/2;
info_pointer->type = CON_LEFT;
}
if ((( point == 0) && ( !first_input && second_input)) ||
(( point == 1) && ( inputpoints == 2)))
{
info_pointer->x = - f_width/2.0
-f_pinlength *( 1 - ( outputpoints == 0 ) * 0.5);
info_pointer->y = - GOEN_F_GRID/2;
info_pointer->type = CON_LEFT;
}
if (((point == 2) && (inputpoints == 2)) ||
((point == 1) && (inputpoints == 1)) ||
((point == 0) && (inputpoints == 0)))
{
info_pointer->x = f_width/2.0
+ f_pinlength *( 1 - ( inputpoints == 0 ) * 0.5);
info_pointer->y = GOEN_F_GRID / 2;
info_pointer->type = CON_RIGHT;
}
return GOEN__SUCCESS;
}
/*************************************************************************
*
* Name: goen_get_point_info_m14()
*
* Type
*
* Type Parameter IOGF Description
* pwr_sGraphPlcNode *graphbody Pointer to objecttype data
* unsigned long point Connection point nr
* unsigned long *mask Mask for drawing inputs/outputs
* goen_conpoint_type *info_pointer Pointer to calculated data
*
* Description:
* Calculates relativ koordinates for a connectionpoint and investigates
* the connectionpoint type.
*
**************************************************************************/
int goen_get_point_info_m14( WGre *grectx, pwr_sGraphPlcNode *graphbody,
unsigned long point, unsigned int *mask,
unsigned long node_width, goen_conpoint_type *info_pointer,
vldh_t_node node)
{
int i;
int inputpoints, outputpoints;
unsigned long inpointmask;
unsigned long outpointmask;
int sts;
double ll_x,ll_y,ur_x,ur_y;
int rows;
ldh_sParDef *bodydef;
/* Get the runtime paramters for this class */
sts = ldh_GetObjectBodyDef( (node->hn.wind)->hw.ldhses,
node->ln.cid, "RtBody", 1,
&bodydef, &rows);
if ( EVEN(sts) ) return sts;
/* Count number of inputpoints and outputpoints in mask */
inpointmask = 1;
outpointmask = 1;
inputpoints = 0;
outputpoints = 0;
for ( i = 0; i < rows; i++)
{
if ( bodydef[i].ParClass == pwr_eClass_Input)
{
inputpoints += ((*mask & inpointmask) != 0);
inpointmask <<= 1;
}
if ( bodydef[i].ParClass == pwr_eClass_Output)
{
outputpoints += ((*(mask+1) & outpointmask) != 0);
outpointmask <<= 1;
}
}
flow_MeasureNode( node->hn.node_id, &ll_x, &ll_y, &ur_x, &ur_y);
f_width = ur_x - ll_x;
f_height = ur_y - ll_y;
f_width -= 2* GOEN_F_LINEWIDTH;
f_height -= 2* GOEN_F_LINEWIDTH;
if ( inputpoints > 0)
f_width -= f_pinlength;
if ( outputpoints > 0)
f_width -= f_pinlength;
if ( (int)point < inputpoints )
{
/* Connectionpoint is an input */
info_pointer->x = - f_width/2.0
-f_pinlength *( 1 - ( outputpoints == 0 ) * 0.5);
info_pointer->y = f_height/2.0 - (point + 1.5) * f_repeat;
info_pointer->type = CON_LEFT;
}
else
{
/* Connectionpoint is an output */
info_pointer->x = f_width/2.0 + f_pinlength
*( 1 - ( inputpoints == 0 ) * 0.5);
info_pointer->y = f_height/2.0 -
(point + 1.5 - inputpoints) * f_repeat;
info_pointer->type = CON_RIGHT;
}
free( (char *)bodydef);
return GOEN__SUCCESS;
}
