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.TH "FILL AREA SET 3" 3P "26 July 1991"
.SH NAME
FILL AREA SET 3 \- create a structure element specifying a \s-2\&3D\s+2 fill area set primitive
.IX "Primitives, Filled Area Primitives" "FILL AREA SET 3"
.IX "Filled Area Primitives" "FILL AREA SET 3"
.IX "Polygons, Filled Area Primitives" "FILL AREA SET 3"
.SH SYNOPSIS
.SS C Syntax
.ft B
.ta 1.25i 3i
.nf
void
pfill_area_set3 (point_list_list)
Ppoint_list_list3	*point_list_list;	\fI list of point lists\fP
.fi
.ft R
.SS Required PHIGS Operating States
(PHOP, *, STOP, *)
.SH DESCRIPTION
.SS Purpose
The \s-2FILL AREA SET 3\s+2 function puts a structure element containing
the \s-2\&3D\s+2 specification of a \s-2FILL AREA SET 3\s+2 primitive into the
currently open structure.
The \s-2FILL AREA SET 3\s+2 primitive is a group of implicitly closed polygonal
areas. This allows for specifying areas with holes or disjoint
coplanar regions.
The subroutine parameters specify the number of areas to be drawn,
the number of points used to define each area, and the coordinates of each
point.  Each set of points defines a separate closed area. All of the
areas specified in a single function call are drawn using the current
values of the \s-2FILL AREA SET 3\s+2 attributes listed below.
.LP
If the current edit mode is \s-2INSERT\s+2, the \s-2FILL AREA SET 3\s+2
element is inserted into the open structure after the element pointed to
by the structure's element pointer.  If the edit mode is \s-2REPLACE\s+2,
the \s-2FILL AREA SET 3\s+2 element replaces the element pointed to by the
element pointer. In either case, the element pointer is updated to point
to the new \s-2FILL AREA SET 3\s+2 element.
.SS C Input Parameters
.IP \fIpoint_list_list\fP
A pointer to a list of Ppoint_list_list3 structures. Each Ppoint_list_list3
structure has 2 fields, the \fInum_points_list\fP field, which is the number
of 3d point lists, and the \fIpoint_lists\fP, a pointer to a list of 
PPoint_list3.  Each Ppoint_list3 structure defines a fill area. 
Ppoint_list_list3 is defined in phigs.h as follows:
.sp .4
.ta .5i +\w'Ppoint3     'u +\w'*num_points;     'u
.nf
typedef struct {
.sp .2
	Pint         num_point_lists;       /* number of point lists  */
	Ppoint_list3 *point_lists;          /* list of point lists    */
.sp .2
} Ppoint_list_list3;
.fi
.IP
Ppoint_list3 is defined in phigs.h as follows:
.sp .4
.ta .5i +\w'Ppoint3     'u +\w'*num_points;     'u
.nf
typedef struct {
.sp .2
	Pint         num_points;       /* number of Ppoint3s in the list */
	Ppoint3      *points;          /* list of points    */
.sp .2
} Ppoint_list3;
.fi
.IP
The \fInum_points\fP component specifies the number of points used to define
the fill area. The \fIpoints\fP component is a pointer to a list,
\fInum_points\fP long, of Ppoint3 structures containing the coordinates
of the fill area vertices in Modelling Coordinates. Ppoint3 is defined in
phigs.h as follows:
.sp .4
.ta .5i +\w'Pfloat     'u +\w'x;     'u
.nf
typedef struct  {
.sp .2
	Pfloat	x;	/* x coordinate */
	Pfloat	y;	/* y coordinate */
	Pfloat	z;	/* z coordinate */
.sp .2
} Ppoint3;
.fi
.SS Execution
When the structure is traversed, the \s-2FILL AREA SET 3\s+2 element draws
the specified number of closed polygonal areas using the given points.
Each fill area forms a boundary by connecting the specified points in order.
Bounds will implicitly be closed by extending the boundary of the
fill area from the last point to the first.
.LP
The entire fill area set must be coplanar. Non-coplanar bounds are treated
in a workstation-dependent fashion.
.LP
The points are specified in Modelling Coordinates. These may be any
coordinate units that are convenient to the application.  At traversal,
these coordinates are transformed by the current Local and
global modelling transformations, the view representation
selected by the current view index, and
the workstation transformation current on the workstation to which the
structure is posted.
.LP
All the specified areas are drawn using the current values of the primitive
attributes listed below. The edge attributes, \s-2EDGE FLAG, EDGETYPE,
EDGEWIDTH SCALE FACTOR\s+2, and \s-2EDGE COLOUR INDEX\s+2, allow you to
control whether, and how, the edges of the areas are displayed independently
of the interior representation.
.LP
.SS Using Edge Attributes with Interior Style \s-2HOLLOW\s+2
.LP
If edges are not displayed, and the \s-2INTERIOR STYLE\s+2 is
\s-2HOLLOW\s+2, only the boundaries of the fill areas are drawn using the
interior colour.  If the edges are displayed when the \s-2INTERIOR
STYLE\s+2 is \s-2 HOLLOW\s+2, the edges will overlay the boundaries using
the edge colour.  If the \s-2EDGETYPE\s+2 is a broken line, the boundaries
will show through the breaks in the edge representation.
.SS Attributes Applied
The attributes listed below are used to display the
\s-2FILL AREA SET 3\s+2 primitive when the structure is traversed. The Aspect Source 
Flags (\s-2ASF\s+2s) tell where to access the output display attributes. 
These attributes can come directly from the traversal state list,
or they can be accessed indirectly, using the appropriate index 
in the traversal state list and the corresponding bundled 
representation in the PHIGS workstation state list.
.RS
.nf
.ta .5i +\w'back interior reflectance equation   'u 
.sp
interior colour			interior colour index \s-2ASF\s+2
back interior colour		back interior colour \s-2ASF\s+2
interior style			interior style \s-2ASF\s+2
back interior style		back interior style \s-2ASF\s+2
interior style index		interior style index \s-2ASF\s+2
back interior style index	back interior style index \s-2ASF\s+2
interior shading method		interior shading method \s-2ASF\s+2
back interior shading method	back interior shading method \s-2ASF\s+2
interior reflectance equation 	interior reflectance equation \s-2ASF\s+2
back interior reflectance equation	back interior reflectance equation \s-2ASF\s+2
area properties			area properties \s-2ASF\s+2
back area properties		back area properties \s-2ASF\s+2
interior index
edge colour			edge colour index \s-2ASF\s+2
edge flag			edge flag \s-2ASF\s+2
edgetype			edgetype \s-2ASF\s+2
edgewidth scale factor		edgewidth scale factor \s-2ASF\s+2
edge index
face distinguishing mode
face culling mode
depth cue index
light source state
name set
.fi
.RE
.sp .2
.SH ERRORS
.IP 005
Ignoring function, function requires state (\s-2PHOP, *, STOP, *\s+2)
.SH SEE ALSO
.nf
.IP
.ta 0.5i
.SM "FILL AREA 3 (3P)"
.SM "FILL AREA SET (3P)"
.SM "FILL AREA SET 3 WITH DATA (3P+)"
.fi