/* * cameo.c - Toolpath adaptation and machine control * * Written 2010 by Werner Almesberger * Copyright 2010 Werner Almesberger * * 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. */ #include #include #include #include "path.h" #include "gnuplot.h" static int dog_bone = 0; static void process_path(struct path *path, int inside) { int left; struct path *new; left = path_tool_is_left(path); if (inside) new = path_offset(path, !left, path->notch); else new = path_offset(path, left, path->notch || dog_bone); path_replace(path, new); } static void process_paths(struct path *paths) { struct path *leftmost, *path; /* * We don't have an algorithm (yet) that can detect which paths are * inside other paths. Therefore, we fake it by looking for the path * that contains lowest x coordinate. This ought to be the outer * boundary of the piece. * * Note that this heuristic falls apart when a job consists of * multiple pieces. In this case, the #%outside hint can be used to * explicitly tell cameo to treat the path as an outside edge. */ leftmost = path_find_leftmost(paths); for (path = paths; path; path = path->next) if (path != leftmost && !path->outside) process_path(path, 1); for (path = paths; path; path = path->next) if (path != leftmost && path->outside) process_path(path, 0); process_path(leftmost, 0); } static void usage(const char *name) { fprintf(stderr, "usage: %s [-d] r_mm [in.gnuplot [out.gnuplot]]\n\n" " -d put a dog-bone notch in each concave external corner\n" , name); exit(1); } int main(int argc, char **argv) { char *in = NULL, *out = NULL; double r; struct path *paths; int c; while ((c = getopt(argc, argv, "d")) != EOF) switch (c) { case 'd': dog_bone = 1; break; default: usage(*argv); } switch (argc-optind) { case 3: out = argv[optind+2]; /* fall through */ case 2: in = argv[optind+1]; /* fall through */ case 1: r = atof(argv[optind]); break; default: usage(*argv); } paths = gnuplot_read(in, r); process_paths(paths); gnuplot_write(out, paths); return 0; }