papercraft/corners.c

/** \file
 * Generate an OpenSCAD with connectors for each face.
 *
 */
#include <stdio.h>
#include <stdlib.h>
#include <stdint.h>
#include <stdarg.h>
#include <unistd.h>
#include <math.h>
#include <err.h>
#include <assert.h>
#include "v3.h"
#include "stl_3d.h"


int
main(void)
{
	stl_3d_t * const stl = stl_3d_parse(STDIN_FILENO);
	if (!stl)
		return EXIT_FAILURE;
	const double thickness = 6;
	const double offset = 8;

	// for each vertex, find the coplanar triangles
	// \todo: do coplanar bits
	for(int i = 0 ; i < stl->num_vertex ; i++)
	{
		const stl_vertex_t * const v = &stl->vertex[i];
		const v3_t origin = v->p;

		printf("// vertex %d\n"
			"translate([%f,%f,%f])\n"
			"//render() difference()\n"
			"{\n"
			"sphere(r=20);\n",
			i, origin.p[0], origin.p[1], origin.p[2]);
		

		for (int j = 0 ; j < v->num_face; j++)
		{
			const stl_face_t * const f = v->face[j];
			v3_t v0 = v3_sub(f->vertex[0]->p, origin);
			v3_t v1 = v3_sub(f->vertex[1]->p, origin);
			v3_t v2 = v3_sub(f->vertex[2]->p, origin);
			v3_t n;

			// compute normal of the face
			if (v->face_num[j] == 0)
				n = v3_cross(v1, v2);
			else
			if (v->face_num[j] == 1)
				n = v3_cross(v2, v0);
			else
			if (v->face_num[j] == 2)
				n = v3_cross(v0, v1);

			n = v3_scale(n, (thickness+1)/v3_mag(n)/2);

			// slide the vectors towards the center
			v3_t v0mid = v3_scale(v3_mid(v0, v1, v2), offset);
			v3_t v1mid = v3_scale(v3_mid(v1, v0, v2), offset);
			v3_t v2mid = v3_scale(v3_mid(v2, v0, v1), offset);

			v0 = v3_add(v0, v0mid);
			v1 = v3_add(v1, v1mid);
			v2 = v3_add(v2, v2mid);

			// compute the 
			v3_t v3 = v3_add(v0, n);
			v3_t v4 = v3_add(v1, n);
			v3_t v5 = v3_add(v2, n);
			v0 = v3_sub(v0, n);
			v1 = v3_sub(v1, n);
			v2 = v3_sub(v2, n);

			printf("polyhedron(\n"
				"points=[\n"
				"[%f,%f,%f],[%f,%f,%f],[%f,%f,%f],\n"
				"[%f,%f,%f],[%f,%f,%f],[%f,%f,%f],\n"
				"], %s = ["
				"  [0,1,2], [3,5,4],"
				"  [0,2,3], [2,5,3],"
				"  [0,3,4], [0,4,1],"
				"  [1,4,5], [1,5,2],"
				"]);\n",
				v0.p[0], v0.p[1], v0.p[2],
				v1.p[0], v1.p[1], v1.p[2],
				v2.p[0], v2.p[1], v2.p[2],
				v3.p[0], v3.p[1], v3.p[2],
				v4.p[0], v4.p[1], v4.p[2],
				v5.p[0], v5.p[1], v5.p[2],
#ifdef __linux__
				"triangles"
#else
				"faces"
#endif
			);
				
			//break; // only do one right now
		}

		printf("}\n");
		if (i == 1) break; // only do one right now
	}

	return 0;
}
started to split stl parser into file 2015-02-14 23:32:58 +01:00			`/** \file`
			`* Generate an OpenSCAD with connectors for each face.`
			`*`
			`*/`
			`#include <stdio.h>`
			`#include <stdlib.h>`
			`#include <stdint.h>`
			`#include <stdarg.h>`
			`#include <unistd.h>`
			`#include <math.h>`
			`#include <err.h>`
			`#include <assert.h>`
			`#include "v3.h"`
not working corners 2015-02-14 23:59:08 +01:00			`#include "stl_3d.h"`
started to split stl parser into file 2015-02-14 23:32:58 +01:00

			`int`
angle between face detector 2015-02-15 01:11:52 +01:00			`main(void)`
started to split stl parser into file 2015-02-14 23:32:58 +01:00			`{`
not working corners 2015-02-14 23:59:08 +01:00			`stl_3d_t * const stl = stl_3d_parse(STDIN_FILENO);`
			`if (!stl)`
started to split stl parser into file 2015-02-14 23:32:58 +01:00			`return EXIT_FAILURE;`
plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`const double thickness = 6;`
inset triangle works 2015-02-15 04:22:16 +01:00			`const double offset = 8;`
started to split stl parser into file 2015-02-14 23:32:58 +01:00
not working corners 2015-02-14 23:59:08 +01:00			`// for each vertex, find the coplanar triangles`
			`// \todo: do coplanar bits`
			`for(int i = 0 ; i < stl->num_vertex ; i++)`
			`{`
			`const stl_vertex_t * const v = &stl->vertex[i];`
generate first module 2015-02-15 01:53:31 +01:00			`const v3_t origin = v->p;`
started to split stl parser into file 2015-02-14 23:32:58 +01:00
generate first module 2015-02-15 01:53:31 +01:00			`printf("// vertex %d\n"`
inset triangle works 2015-02-15 04:22:16 +01:00			`"translate([%f,%f,%f])\n"`
plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`"//render() difference()\n"`
			`"{\n"`
inset triangle works 2015-02-15 04:22:16 +01:00			`"sphere(r=20);\n",`
generate first module 2015-02-15 01:53:31 +01:00			`i, origin.p[0], origin.p[1], origin.p[2]);`

started to split stl parser into file 2015-02-14 23:32:58 +01:00
not working corners 2015-02-14 23:59:08 +01:00			`for (int j = 0 ; j < v->num_face; j++)`
			`{`
triangle neighbor finding works 2015-02-15 01:01:12 +01:00			`const stl_face_t * const f = v->face[j];`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00			`v3_t v0 = v3_sub(f->vertex[0]->p, origin);`
			`v3_t v1 = v3_sub(f->vertex[1]->p, origin);`
			`v3_t v2 = v3_sub(f->vertex[2]->p, origin);`
			`v3_t n;`

inset triangle works 2015-02-15 04:22:16 +01:00			`// compute normal of the face`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00			`if (v->face_num[j] == 0)`
			`n = v3_cross(v1, v2);`
			`else`
			`if (v->face_num[j] == 1)`
			`n = v3_cross(v2, v0);`
			`else`
			`if (v->face_num[j] == 2)`
			`n = v3_cross(v0, v1);`

plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`n = v3_scale(n, (thickness+1)/v3_mag(n)/2);`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00
inset triangle works 2015-02-15 04:22:16 +01:00			`// slide the vectors towards the center`
			`v3_t v0mid = v3_scale(v3_mid(v0, v1, v2), offset);`
			`v3_t v1mid = v3_scale(v3_mid(v1, v0, v2), offset);`
			`v3_t v2mid = v3_scale(v3_mid(v2, v0, v1), offset);`

			`v0 = v3_add(v0, v0mid);`
			`v1 = v3_add(v1, v1mid);`
			`v2 = v3_add(v2, v2mid);`

			`// compute the`
plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`v3_t v3 = v3_add(v0, n);`
			`v3_t v4 = v3_add(v1, n);`
			`v3_t v5 = v3_add(v2, n);`
			`v0 = v3_sub(v0, n);`
			`v1 = v3_sub(v1, n);`
			`v2 = v3_sub(v2, n);`
generate first module 2015-02-15 01:53:31 +01:00
fill in sides of plane 2015-02-15 02:10:17 +01:00			`printf("polyhedron(\n"`
generate first module 2015-02-15 01:53:31 +01:00			`"points=[\n"`
			`"[%f,%f,%f],[%f,%f,%f],[%f,%f,%f],\n"`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00			`"[%f,%f,%f],[%f,%f,%f],[%f,%f,%f],\n"`
linux fixes for old openscad 2015-02-15 18:48:25 +01:00			`"], %s = ["`
plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`" [0,1,2], [3,5,4],"`
			`" [0,2,3], [2,5,3],"`
			`" [0,3,4], [0,4,1],"`
			`" [1,4,5], [1,5,2],"`
fill in sides of plane 2015-02-15 02:10:17 +01:00			`"]);\n",`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00			`v0.p[0], v0.p[1], v0.p[2],`
generate first module 2015-02-15 01:53:31 +01:00			`v1.p[0], v1.p[1], v1.p[2],`
			`v2.p[0], v2.p[1], v2.p[2],`
generate two planes, separated by thickness 2015-02-15 02:03:39 +01:00			`v3.p[0], v3.p[1], v3.p[2],`
			`v4.p[0], v4.p[1], v4.p[2],`
linux fixes for old openscad 2015-02-15 18:48:25 +01:00			`v5.p[0], v5.p[1], v5.p[2],`
			`#ifdef __linux__`
			`"triangles"`
			`#else`
			`"faces"`
			`#endif`
generate first module 2015-02-15 01:53:31 +01:00			`);`

plane around center works; need to inset 2015-02-15 02:27:35 +01:00			`//break; // only do one right now`
started to split stl parser into file 2015-02-14 23:32:58 +01:00			`}`

			`printf("}\n");`
linux fixes for old openscad 2015-02-15 18:48:25 +01:00			`if (i == 1) break; // only do one right now`
started to split stl parser into file 2015-02-14 23:32:58 +01:00			`}`

			`return 0;`
			`}`