/* Skeleton of program that manipulates a PLY object. (Was plyxform.) Greg Turk, August 1994 --------------------------------------------------------------- Copyright (c) 1994 The Board of Trustees of The Leland Stanford Junior University. All rights reserved. Permission to use, copy, modify and distribute this software and its documentation for any purpose is hereby granted without fee, provided that the above copyright notice and this permission notice appear in all copies of this software and that you do not sell the software. THE SOFTWARE IS PROVIDED "AS IS" AND WITHOUT WARRANTY OF ANY KIND, EXPRESS, IMPLIED OR OTHERWISE, INCLUDING WITHOUT LIMITATION, ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. */ #include #include #include #include /* user's vertex and face definitions for a polygonal object */ typedef struct Vertex { float x,y,z; void *other_props; /* other properties */ } Vertex; typedef struct Face { unsigned char nverts; /* number of vertex indices in list */ int *verts; /* vertex index list */ void *other_props; /* other properties */ } Face; char *elem_names[] = { /* list of the kinds of elements in the user's object */ "vertex", "face" }; PlyProperty vert_props[] = { /* list of property information for a vertex */ {"x", PLY_FLOAT, PLY_FLOAT, offsetof(Vertex,x), 0, 0, 0, 0}, {"y", PLY_FLOAT, PLY_FLOAT, offsetof(Vertex,y), 0, 0, 0, 0}, {"z", PLY_FLOAT, PLY_FLOAT, offsetof(Vertex,z), 0, 0, 0, 0}, }; PlyProperty face_props[] = { /* list of property information for a vertex */ {"vertex_indices", PLY_INT, PLY_INT, offsetof(Face,verts), 1, PLY_UCHAR, PLY_UCHAR, offsetof(Face,nverts)}, }; /*** the PLY object ***/ static int nverts,nfaces; static Vertex **vlist; static Face **flist; static PlyOtherElems *other_elements = NULL; static PlyOtherProp *vert_other,*face_other; static int nelems; static char **elist; static int num_comments; static char **comments; static int num_obj_info; static char **obj_info; static int file_type; static float xtrans = 0; static float ytrans = 0; static float ztrans = 0; static float xscale = 1; static float yscale = 1; static float zscale = 1; /****************************************************************************** Main program. ******************************************************************************/ main(int argc, char *argv[]) { int i,j; char *s; char *progname; progname = argv[0]; while (--argc > 0 && (*++argv)[0]=='-') { for (s = argv[0]+1; *s; s++) switch (*s) { case 's': xscale = atof (*++argv); yscale = atof (*++argv); zscale = atof (*++argv); argc -= 3; break; case 't': xtrans = atof (*++argv); ytrans = atof (*++argv); ztrans = atof (*++argv); argc -= 3; break; default: usage (progname); exit (-1); break; } } read_file(); transform(); write_file(); } /****************************************************************************** Print out usage information. ******************************************************************************/ usage(char *progname) { fprintf (stderr, "usage: %s [flags] out.ply\n", progname); fprintf (stderr, " -t xtrans ytrans ztrans\n"); fprintf (stderr, " -s xscale yscale zscale\n"); fprintf (stderr, "(point = trans_factor + scale_factor * point)\n"); } /****************************************************************************** Transform the PLY object. ******************************************************************************/ transform() { int i; Vertex *vert; for (i = 0; i < nverts; i++) { vert = vlist[i]; vert->x = xtrans + xscale * vert->x; vert->y = ytrans + yscale * vert->y; vert->z = ztrans + zscale * vert->z; } } /****************************************************************************** Read in the PLY file from standard in. ******************************************************************************/ read_file() { int i,j,k; PlyFile *ply; int nprops; int num_elems; PlyProperty **plist; char *elem_name; float version; /*** Read in the original PLY object ***/ ply = ply_read (stdin, &nelems, &elist); ply_get_info (ply, &version, &file_type); for (i = 0; i < nelems; i++) { /* get the description of the first element */ elem_name = elist[i]; plist = ply_get_element_description (ply, elem_name, &num_elems, &nprops); if (equal_strings ("vertex", elem_name)) { /* create a vertex list to hold all the vertices */ vlist = (Vertex **) malloc (sizeof (Vertex *) * num_elems); nverts = num_elems; /* set up for getting vertex elements */ ply_get_property (ply, elem_name, &vert_props[0]); ply_get_property (ply, elem_name, &vert_props[1]); ply_get_property (ply, elem_name, &vert_props[2]); vert_other = ply_get_other_properties (ply, elem_name, offsetof(Vertex,other_props)); /* grab all the vertex elements */ for (j = 0; j < num_elems; j++) { vlist[j] = (Vertex *) malloc (sizeof (Vertex)); ply_get_element (ply, (void *) vlist[j]); } } else if (equal_strings ("face", elem_name)) { /* create a list to hold all the face elements */ flist = (Face **) malloc (sizeof (Face *) * num_elems); nfaces = num_elems; /* set up for getting face elements */ ply_get_property (ply, elem_name, &face_props[0]); face_other = ply_get_other_properties (ply, elem_name, offsetof(Face,other_props)); /* grab all the face elements */ for (j = 0; j < num_elems; j++) { flist[j] = (Face *) malloc (sizeof (Face)); ply_get_element (ply, (void *) flist[j]); } } else other_elements = ply_get_other_element (ply, elem_name, num_elems); } comments = ply_get_comments (ply, &num_comments); obj_info = ply_get_obj_info (ply, &num_obj_info); ply_close (ply); } /****************************************************************************** Write out the PLY file to standard out. ******************************************************************************/ write_file() { int i,j,k; PlyFile *ply; int num_elems; char *elem_name; /*** Write out the final PLY object ***/ ply = ply_write (stdout, nelems, elem_names, file_type); /* describe what properties go into the vertex and face elements */ ply_element_count (ply, "vertex", nverts); ply_describe_property (ply, "vertex", &vert_props[0]); ply_describe_property (ply, "vertex", &vert_props[1]); ply_describe_property (ply, "vertex", &vert_props[2]); ply_describe_other_properties (ply, vert_other, offsetof(Vertex,other_props)); ply_element_count (ply, "face", nfaces); ply_describe_property (ply, "face", &face_props[0]); ply_describe_other_properties (ply, face_other, offsetof(Face,other_props)); ply_describe_other_elements (ply, other_elements); for (i = 0; i < num_comments; i++) ply_put_comment (ply, comments[i]); for (i = 0; i < num_obj_info; i++) ply_put_obj_info (ply, obj_info[i]); ply_header_complete (ply); /* set up and write the vertex elements */ ply_put_element_setup (ply, "vertex"); for (i = 0; i < nverts; i++) ply_put_element (ply, (void *) vlist[i]); /* set up and write the face elements */ ply_put_element_setup (ply, "face"); for (i = 0; i < nfaces; i++) ply_put_element (ply, (void *) flist[i]); ply_put_other_elements (ply); /* close the PLY file */ ply_close (ply); }