/* * gp2rml.c - Convert from gnuplot to RML * * Written 2010-2013, 2015 by Werner Almesberger * Copyright 2010-2013, 2015 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. */ /* * When setting the pen up and pen down positions (!PZ), pen up must be a * zero or positive coordinate relative to Z0 and pen down must be negative * or zero. * * Our pen up position is defined as the maximum pen down height plus some * clearance. All Z coordinates are relative to Z0. * * All this means that we have to set Z0 (with !ZO, that's zet-oh) such that * it is between the maximum pen down and pen up. Since pen up is also defined * via the maximum pen down, we have to read all coordinates before we can * calculate Z0 and then emit the correct positioning commands. Yuck. * * We choose Z0 = maximum pen down. */ /* * @@@ speed selection anomaly: * * Seems that !ZZ movements of the MDX-15 only use !VZ and VS is completely * ignored. */ #include #include #include #include #include #define V_MAX 15.0 struct segment { double x, y, z; struct segment *next; }; struct path { struct segment *segments; struct path *next; }; static struct path *paths = NULL, *curr_path; static struct segment **next_seg; static double z_max = -1e6; /* -1 km :) */ static double z_scale = 1; /* < 1: compress; > 1: stretch */ #define units(mm) ((int) round((mm) * 40.0)) #define alloc_type(t) \ ({ t *alloc_tmp = malloc(sizeof(t)); \ if (!alloc_tmp) \ abort(); \ alloc_tmp; }) static void new_path(void) { struct path *new; new = alloc_type(struct path); if (paths) curr_path->next = new; else paths = new; curr_path = new; new->segments = NULL; new->next = NULL; next_seg = &new->segments; } static void process_file(FILE *file) { int lineno = 0; char buf[1024]; double x, y, z; int n; struct segment *seg; new_path(); while (fgets(buf, sizeof(buf), file)) { lineno++; if (*buf == '!' || *buf == '#') continue; n = sscanf(buf, "%lf %lf %lf\n", &x, &y, &z); switch (n) { case -1: if (curr_path->segments) new_path(); continue; case 2: z = 0; /* fall through */ case 3: break; default: fprintf(stderr, "invalid data at line %d\n", lineno); exit(1); } seg = alloc_type(struct segment); seg->x = x; seg->y = y; seg->z = z; seg->next = NULL; *next_seg = seg; next_seg = &seg->next; if (z_max < z) z_max = z; } } static void output_paths(double z_clear, double xy_speed, double z_speed) { const struct path *path; const struct segment *seg; double x = 0, y = 0, z = 0; double d, s = 0, t = 0; double txy, tz; printf("IN;!MC1;PA\n"); printf("!ZO%d;!PZ0,%d;PU\n", units(z_max), units(z_clear)); printf("VS%f;!VZ%f\n", xy_speed, z_speed); for (path = paths; path; path = path->next) { seg = path->segments; if (!seg) continue; printf("!PZ%d,%d;PA%d,%d;PD\n", units(seg->z-z_max), units(z_clear), units(seg->x), units(seg->y)); d = hypot(x - seg->x, y - seg->y); s += d; s += z - z_max; t += d / V_MAX; t += (z - z_max) / z_speed; x = seg->x; y = seg->y; z = seg->z; seg = seg->next; while (seg) { printf("!ZZ%d,%d,%d\n", units(seg->x), units(seg->y), units((seg->z - z_max) * z_scale)); d = hypot(x - seg->x, y - seg->y); txy = d / xy_speed; tz = fabs(z - seg->z) / z_speed; t += txy > tz ? txy : tz; d = hypot(d, z - seg->z); s += d; x = seg->x; y = seg->y; z = seg->z; seg = seg->next; } printf("PU\n"); d = z_max + z_clear - z; s += d; t += d / V_MAX; z = z_max + z_clear; } printf("!MC0;!ZO0;!PZ0,0;PU0,0;IN\n"); d = -z + hypot(x, y); s += d; t += d / V_MAX; fprintf(stderr, "Distance %.1f mm, time %.1f s\n", s, t); } static void usage(const char *name) { fprintf(stderr, "usage: %s [-s z_scale] z_clear[mm] xy_speed z_speed [file]\n\n" " -s z_scale scale Z axis by z_scale (default: 1.0)\n" " -t top set the top elevation, in mm (default: auto-detect)\n" " z_clear clearance above the highest peak, in mm (must be > 0)\n" " Unit (\"mm\") can optionally be specified\n" " xy_speed cutting speed, in mm/s\n" " z_speed vertical speed when lowering the pen, in mm/s\n" , name); exit(1); } int main(int argc, char *const *argv) { FILE *file; char *end; int i; double p[3]; int c; while ((c = getopt(argc, argv, "s:t:")) != EOF) switch (c) { case 's': z_scale = strtod(optarg, &end); if (*end) usage(*argv); break; case 't': z_max = strtod(optarg, &end); if (*end && !strcmp(end, "mm")) usage(*argv); break; default: usage(*argv); } switch (argc - optind) { case 3: file = stdin; break; case 4: file = fopen(argv[optind + 3], "r"); if (!file) { perror(argv[optind + 3]); return 1; } break; default: usage(*argv); } for (i = 0; i != 3; i++) { p[i] = strtod(argv[optind + i], &end); /* * Allow the clearance to have a unit, for consistency in * mkmk-simple */ if (!i && *end && !strcmp(end, "mm")) continue; if (*end || p[i] <= 0) usage(*argv); } process_file(file); output_paths(p[0], p[1], p[2]); if (ferror(stdout)) perror("stdout"); if (fclose(stdout) == EOF) perror("stdout"); return 0; }