.\" .\" $XConsortium: p060,v 5.2 94/04/17 20:54:57 rws Exp $ .\" .\" $XMCOPY .\" Copyright (c) 1990, 1991 by Sun Microsystems, Inc. and the X Consortium. .\" .\" All Rights Reserved .\" .\" Permission to use, copy, modify, and distribute this software and its .\" documentation for any purpose and without fee is hereby granted, .\" provided that the above copyright notice appear in all copies and that .\" both that copyright notice and this permission notice appear in .\" supporting documentation, and that the names of Sun Microsystems, .\" and the X Consortium not be used in advertising or publicity .\" pertaining to distribution of the software without specific, written .\" prior permission. .\" .\" SUN MICROSYSTEMS DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, .\" INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO .\" EVENT SHALL SUN MICROSYSTEMS BE LIABLE FOR ANY SPECIAL, INDIRECT OR .\" CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF .\" USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR .\" OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR .\" PERFORMANCE OF THIS SOFTWARE. .ds f \s-2FILL AREA SET 3 WITH DATA \s+2 .TH "FILL AREA SET 3 WITH DATA" 3P+ "29 February 1991" .SH NAME FILL AREA SET 3 WITH DATA \- creates a \s-2\&3D\s+2 fill area set structure element that includes colour and shading data .IX "PHIGS Extension Functions" "FILL AREA SET 3 WITH DATA" .IX "Filled Area Primitives" "FILL AREA SET 3 WITH DATA" .IX "Primitives, Filled Area Primitives" "FILL AREA SET 3 WITH DATA" .SH SYNOPSIS .SS C Syntax .ft B .ta 1.25i 3i .nf void pfill_area_set3_data ( fflag, eflag, vflag, colour_model, fdata, nfa, edata, vdata ) Pint fflag; \fIwhat data is specified per facet \fP Pint eflag; \fIwhat data is specified per edge \fP Pint vflag; \fIwhat data is specified per vertex \fP Pint colour_model; \fIcolour model\fP Pfacet_data3 *fdata; \fIfacet data\fP Pint nfa; \fInumber of fill areas in the set \fP Pedge_data_list *edata; \fIedge data list\fP Pfacet_vdata_list3 *vdata; \fIfacet vertex data list\fP .fi .ft R .SS Required PHIGS Operating States (PHOP, *, STOP, *) .SH DESCRIPTION .SS Purpose \s-2FILL AREA SET 3 WITH DATA\s+2 creates a \s-2\&3D\s+2 fill area set primitive with colour and shading data. .LP The \s-2FILL AREA SET 3 WITH DATA\s+2 is a set of closed polygonal areas defined by a series of three dimensional Modeling Coordinate points. You can specify a geometric normal for the entire fill area, and specify colour/normal information for each vertex .I "in addition" to point coordinates. The added data is used when applying lighting, shading, face distinguishing, and face culling. .SS C Input Parameters .IP \fIfflag\fR The data per facet flag specifies the available data for the entire fill area set. .sp .nf .ta .5i +\w'0 'u +\w'PFACET_COLOUR_NORMAL 'u 0 PFACET_NONE \fINo Facet Data Specified\fP 1 PFACET_COLOUR \fIFacet Colours Specified\fP 2 PFACET_NORMAL \fIFacet Normal Specified\fP 3 PFACET_COLOUR_NORMAL \fIFacet Normal and Colours Specified\fP .sp .fi .IP \fIeflag\fR The data per edge flag specifies the available information for each edge. .sp .nf .ta .5i +\w'0 'u +\w'PEDGE_VISIBILITY 'u 0 PEDGE_NONE \fINo Edge Data Specified\fP 1 PEDGE_VISIBILITY \fIEdge Visibility Flags Specified\fP .sp .fi .IP \fIvflag\fR The data per vertex flag specifies the available data for each vertex of the primitive. .sp .nf .ta .5i +\w'0 'u +\w'PVERT_COORD_COLOUR_NORMAL 'u 0 PVERT_COORD \fICoordinates Specified\fP 1 PVERT_COORD_COLOUR \fICoordinates and Vertex Colour Specified\fP 2 PVERT_COORD_NORMAL \fICoordinates and Vertex Normal Specified\fP 3 PVERT_COORD_COLOUR_NORMAL \fICoordinates, Vertex Colour, and Vertex Normal Specified\fP .sp .fi .bp .IP \fIcolour_model\fR The colour type for specified facet and/or vertex colours. .sp .nf .ta .5i +\w'0 'u +\w'PMODEL_CIELUV 'u 0 PINDIRECT \fIColour Index Specified\fP 1 PMODEL_RGB \fIRed, Green, and Blue\fP 2 PMODEL_CIELUV \fICIE Colour Model\fP 3 PMODEL_HSV \fIHue, Saturation, and Value\fP 4 PMODEL_HLS \fIHue, Lightness, and Saturation\fP .sp .fi .IP \fIfdata\fP A pointer to a Pfacet_data3 structure that specifies the fill area and optionally associated colour information. Pfacet_data3 is defined as follows: .sp .2 .nf .ta .5i +1i +1i .sp .2 typedef union { .sp .2 Pcoval colr; /* colour */ Pvec3 normal; /* unit normal*/ Pconorm3 conorm; /* colour and normal */ .sp .2 } Pfacet_data3; .IP .fi Pcoval is defined as: .nf .ta .5i +1i +1i .sp .2 typedef union { .sp .2 Pint ind; /* index in workstation colour bundle table */ Pcolr_rep direct; /* direct colour components */ .sp .2 } Pcoval; .IP .fi Pcolr_rep is defined as: .ta .5i +1i +1i .nf .sp .2 typedef union { .sp .2 Prgb rgb; /* Red Green Blue colour specification */ Pcieluv cieluv; /* CIE L*U*V* colour specification */ Phls hls; /* Hue Lightness Saturation colour specification */ Phsv hsv; /* Hue Saturation Value colour specification */ Pdata unsupp; /* Colour in unsupported colour model */ .sp .2 } Pcolr_rep; .sp .2 .fi .IP Prgb is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Pfloat red; /* red, hue, etc */ Pfloat green; /* green, saturation, lightness, etc */ Pfloat blue; /* blue, value, saturation, etc */ .sp .2 } Prgb; .sp .2 .fi .IP Pcieluv is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Pfloat cieluv_x; /* x coefficient */ Pfloat cieluv_y; /* y coefficient */ Pfloat cieluv_y_lum; /* y luminance */ .sp .2 } Pcieluv; .sp .2 .fi .bp .IP Phsv is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Pfloat hue; /* hue */ Pfloat satur; /* saturation */ Pfloat value; /* value */ .sp .2 } Phsv; .fi .IP Phls is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .yp .2 Pfloat hue; /* hue */ Pfloat lightness; /* lightness */ Pfloat satur; /* saturation */ .sp .2 } Phls; .fi .IP Pdata is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 size_t size; /* size of data */ char *data /* pointer to data */ .sp .2 } Pdata; .sp .2 .fi .IP Pvec3 is defined in phigs.h as follows: .ta .5i +1i +1i .nf .sp .2 typedef struct { .sp .2 Pfloat delta_x; /* x magnitude */ Pfloat delta_y; /* y magnitude */ Pfloat delta_z; /* z magnitude */ .sp .2 } Pvec3; .sp .2 .fi .IP Pconorm3 is defined in phigs.h as follows: .ta .5i +1i +1i .nf .sp .2 typedef struct { .sp .2 Pcoval colr; /* colour */ Pvec3 norm; /* normal */ .sp .2 } Pconorm3; .sp .2 .fi .IP Pcoval and Pvec3 are defined above. .IP \fInfa\fR The number of fill areas in the set. .IP \fIedata\fR A pointer to an array (nfa) of Pedge_data_list structures that specifies the edge data. Pedge_data_list is defined as: .sp .2 .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Pint num_edges; /* number of edges */ Pedge_data_arr edgedata; /* edge data */ .sp .2 } Pedge_data_list; .IP .fi Pedge_data_arr is defined as: .ta .5i +1i +1i .sp .4 typedef union { .sp .2 Pedge_flag *edges; /* array of edge flags */ .fi /* implementation dependent data */ .sp .2 } Pedge_data_arr; .fi .bp .IP Pedge_flag is defined as: .sp .2 .nf .ta .5i +1i +1i .sp .2 typedef enum { .sp .2 PEDGE_OFF, PEDGE_ON .sp .2 } Pedge_flag; .fi .IP \fIvdata\fR A pointer to an array (nfa) of Pfacet_vdata_list3 structures that specifies each fill area in the set and optionally associated colour information. Pfacet_vdata_list3 is defined as: .sp .2 .nf .ta .5i +1.25i +1i .sp .2 typedef struct { .sp .2 Pint num_vertices; /* number of vertices */ Pfacet_vdata_arr3 vertex_data; /* facet vertex data */ .sp .2 } Pfacet_vdata_list3; .IP .fi Pfacet_vdata_arr3 is defined as: .sp .2 .nf .ta .5i +1i +1i .sp .2 typedef union { .sp .2 Ppoint3 *points; /* array of points */ Pptco3 *ptcolrs; /* array of points and colours */ Pptnorm3 *ptnorms; /* array of points and normals */ Pptconorm3 *ptconorms; /* array of points, colours, and normals */ /* implementation dependent types can go here */ .\" /* implementation dependent data pointer */...in code .sp .2 } Pfacet_vdata_arr3; .fi .IP Ppoint3 is defined as: .sp .2 .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Pfloat x; /* x coordinate */ Pfloat y; /* y coordinate */ Pfloat z; /* z coordinate */ .sp .2 } Ppoint3; .IP .fi Pptco3 is defined as: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Ppoint3 point; /* point coordinates */ Pcoval colr; /* colour */ .sp .2 } Pptco3; .fi .IP Ppoint3 anc Pcoval are defined above. Pptnorm3 is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Ppoint3 point; /* point coordinates */ Pvec3 norm; /* normal */ .sp .2 } Pptnorm3; .fi .IP Ppoint3 and Pvec3 are defined above. Pptconorm3 is defined in phigs.h as follows: .nf .ta .5i +1i +1i .sp .2 typedef struct { .sp .2 Ppoint3 point; /* point coordinates */ Pcoval colr; /* colour */ Pvec3 norm; /* normal */ .sp .2 } Pptconorm3; /* point with colour and normal */ .fi .IP Ppoint3, Pcoval, and Pvec3 are defined above. .SS Execution Depending on the edit mode, a \s-2FILL AREA SET 3 WITH DATA\s+2 element is inserted into the open structure after the element pointer, or replaces the element pointed to by the element pointer. In either case, the element pointer is updated to point to the newly created \s-2FILL AREA SET 3 WITH DATA\s+2 element. .LP When the structure is traversed, \s-2FILL AREA SET 3 WITH DATA\s+2 draws an implicitly closed polygonal area with multiple boundaries. \s-2PHIGS\s0 implicitly closes the area by extending each fill area boundary from the last point to the first point. Fill areas can be empty, hollow, shaded, or filled with a color, pattern, or hatch. The interior of the primitive is defined by the odd winding rule. The \s-2FILL AREA SET 3 WITH DATA\s+2 element can specify the facet color and normal vector as well as colours and normal vectors for each vertex. These colours and normal vectors are used in conjunction with the current lighting and depth cueing attributes to colour and shade the primitive. Note that unexpected lighting effects will result if the supplied normals are not of unit length. .LP The application should insure that the fill area set points are coplanar. Display of non-coplanar fill area set is device dependent. \s-2FILL AREA SET 3 WITH DATA\s+2 elements containing fewer than three vertices can be created, but they are treated in a device dependent manner during structure traversal. .SS Attributes Applied The attributes listed below are used to display the \s-2FILL AREA SET 3 WITH DATA\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\s+2, \s-2*\s+2, \s-2STOP\s+2, \s-2*\s+2) .SH SEE ALSO .nf .IP .ta 0.5i .SM "FILL AREA SET 3 (3P)" .fi