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source: cpp/frams/_demos/geometry/geometrytestutils.cpp @ 531

Last change on this file since 531 was 382, checked in by sz, 10 years ago

Moving frams/virtfile to common/virtfile:

file references updated (includes, makefile)
common/virtfile can no longer use the Framsticks specific SString (using std::string instead)

Property svn:eol-style set to native

File size: 8.0 KB

Rev	Line
[286]	1	// This file is a part of Framsticks SDK. http://www.framsticks.com/
	2	// Copyright (C) 1999-2015 Maciej Komosinski and Szymon Ulatowski.
	3	// See LICENSE.txt for details.
[191]	4
	5	#include "geometrytestutils.h"
	6
	7	#include "../genotypeloader.h"
[382]	8	#include <common/virtfile/stdiofile.h>
[191]	9	#include <math.h>
	10	#include <stdio.h>
	11	#include <stdlib.h>
	12	#include <time.h>
	13
	14	int printGenotypesList(const char *file)
	15	{
	16	long count = 0;
	17	long totalSize = 0;
	18	MiniGenotypeLoader loader(file);
	19	MiniGenotype *genotype;
	20
	21	while (genotype = loader.loadNextGenotype())
	22	{
	23	count++;
	24	totalSize += genotype->genotype.len();
	25
	26	fprintf(stderr, "%d. (%6d chars) %s\n", count, genotype->genotype.len(),
[348]	27	genotype->name.c_str());
[191]	28	}
	29
	30	if (loader.getStatus() == MiniGenotypeLoader::OnError)
	31	{
[348]	32	fprintf(stderr, "Error: %s\n", loader.getError().c_str());
[191]	33	return 2;
	34	}
	35	else
	36	{
	37	fprintf(stderr, "\ntotal: %d items, %d chars\n", count, totalSize);
	38	return 0;
	39	}
	40	}
	41
	42	class TestInvoker
	43	{
	44	public:
	45	virtual void operator()(Model &model) = 0;
	46	};
	47
	48	int executeTestUsingLoadedModel(const char file, const char genoId, TestInvoker &test)
	49	{
	50	const char* genoName = genoId;
	51	const int genoIndex = isdigit(genoId[0]) ? atol(genoId) : 0;
	52	long count = 0;
	53	MiniGenotypeLoader loader(file);
	54	MiniGenotype *genotype;
	55
	56	while (genotype = loader.loadNextGenotype())
	57	{
	58	count++;
	59
[348]	60	if ((genoIndex == count) \|\| (strcmp(genotype->name.c_str(), genoName) == 0))
[191]	61	{
	62	Model model(genotype->genotype);
	63
	64	if (!model.isValid())
	65	{
	66	fprintf(stderr, "Cannot build Model from this genotype!\n");
	67	return 4;
	68	}
	69
	70	test(model);
	71	return 0;
	72	}
	73	}
	74
	75	if (loader.getStatus() == MiniGenotypeLoader::OnError)
	76	{
[348]	77	fprintf(stderr, "Error: %s\n", loader.getError().c_str());
[191]	78	return 2;
	79	}
	80	else
	81	{
	82	fprintf(stderr, "Genotype %s not found in %s\n", genoId, file);
	83	return 3;
	84	}
	85	}
	86
	87	int executeTestUsingRandomModel(int shape, TestInvoker &test)
	88	{
	89	Model model;
	90	model.open();
	91
	92	if ((shape < 1) \|\| (shape > 3))
	93	{
	94	shape = (rand()%3) + 1;
	95	}
	96
	97	Part *part = model.addNewPart(Part::Shape(shape));
	98	GeometryTestUtils::randomizePositionScaleAndOrient(part);
	99
	100	model.close();
	101	test(model);
	102	GeometryTestUtils::describePart(part, stdout);
[318]	103	return 0;
[191]	104	}
	105
	106	class ModelBasedTestInvoker: public TestInvoker
	107	{
	108	private:
	109	void (*test)(Model &);
	110	public:
	111	ModelBasedTestInvoker(void (*_test)(Model &)):
	112	test(_test)
	113	{}
	114	void operator()(Model &model)
	115	{
	116	test(model);
	117	}
	118	};
	119
	120	int GeometryTestUtils::execute(const SString header, int argc, char argv[], void (test)(Model &))
	121	{
	122	srand(time(NULL));
[299]	123	StdioFileSystem_autoselect stdiofilesys;
[191]	124
	125	if ((argc == 3) && (strcmp("-l", argv[1]) == 0))
	126	{
	127	return printGenotypesList(argv[2]);
	128	}
	129
	130	if ((argc == 4) && (strcmp("-l", argv[1]) == 0))
	131	{
	132	ModelBasedTestInvoker invoker(test);
	133	return executeTestUsingLoadedModel(argv[2], argv[3], invoker);
	134	}
	135
	136	if ((argc == 2) && (strcmp("-c", argv[1]) == 0))
	137	{
	138	ModelBasedTestInvoker invoker(test);
	139	return executeTestUsingRandomModel(-1, invoker);
	140	}
	141
	142	if ((argc == 3) && (strcmp("-c", argv[1]) == 0) && isdigit(argv[2][0]))
	143	{
	144	int shape = atol(argv[2]);
	145	ModelBasedTestInvoker invoker(test);
	146	return executeTestUsingRandomModel(shape, invoker);
	147	}
	148
	149	fprintf(stderr,
	150	"%s\n\n"
	151	"argument lists:\n"
	152	"-l FILENAME - to print list of models in file\n"
	153	"-l FILENAME GENO_ID - to load model from file and run test\n"
	154	"-c [SHAPE] - to create simple random model and run test\n\n"
	155	"FILENAME - name of file containing named f0 genotypes\n"
	156	"GENO_ID - either genotype name or index (1-based)\n"
	157	"SHAPE - 1=ellipsoid, 2=cuboid, 3=cylinder, others or none=random\n",
[348]	158	header.c_str());
[191]	159	return 1;
	160	}
	161
	162	class ModelAndDensityBasedTestInvoker: public TestInvoker
	163	{
	164	private:
	165	void (*test)(Model &, const double);
	166	double density;
	167	public:
	168	ModelAndDensityBasedTestInvoker(void (*_test)(Model &, const double), double _density):
	169	test(_test),
	170	density(_density)
	171	{}
	172
	173	void operator()(Model &model)
	174	{
	175	test(model, density);
	176	}
	177	};
	178
	179	int GeometryTestUtils::execute(const SString header, int argc, char *argv[],
	180	void (*test)(Model &, const double))
	181	{
	182	srand(time(NULL));
[299]	183	StdioFileSystem_autoselect stdiofilesys;
[191]	184
	185	if ((argc == 3) && (strcmp("-l", argv[1]) == 0))
	186	{
	187	return printGenotypesList(argv[2]);
	188	}
	189
	190	if ((argc == 5) && (strcmp("-l", argv[1]) == 0) && isdigit(argv[4][0]))
	191	{
	192	double density = atol(argv[4]);
	193	ModelAndDensityBasedTestInvoker invoker(test, density);
	194	return executeTestUsingLoadedModel(argv[2], argv[3], invoker);
	195	}
	196
	197	if ((argc == 3) && (strcmp("-c", argv[1]) == 0) && isdigit(argv[2][0]))
	198	{
	199	double density = atol(argv[2]);
	200	ModelAndDensityBasedTestInvoker invoker(test, density);
	201	return executeTestUsingRandomModel(-1, invoker);
	202	}
	203
	204	if ((argc == 4) && (strcmp("-c", argv[1]) == 0) && isdigit(argv[2][0]) && isdigit(argv[3][0]))
	205	{
	206	double density = atol(argv[2]);
	207	int shape = atol(argv[3]);
	208	ModelAndDensityBasedTestInvoker invoker(test, density);
	209	return executeTestUsingRandomModel(shape, invoker);
	210	}
	211
	212	fprintf(stderr,
	213	"%s\n\n"
	214	"argument lists:\n"
	215	"-l FILENAME - to print list of models in file\n"
	216	"-l FILENAME GENO_ID DENSITY - to load model from file and run test\n"
	217	"-c DENSITY [SHAPE] - to create simple random model and run test\n\n"
	218	"FILENAME - name of file containing named f0 genotypes\n"
	219	"GENO_ID - either genotype name or index (1-based)\n"
	220	"DENSITY - minimal number of samples per unit\n"
[299]	221	"SHAPE - 1=ellipsoid, 2=cuboid, 3=cylinder, others or none=random\n",
[348]	222	header.c_str());
[191]	223	return 1;
	224	}
	225
	226	void GeometryTestUtils::addAnchorToModel(Model &model)
	227	{
	228	Part *part = model.addNewPart(Part::SHAPE_ELLIPSOID);
	229
	230	part->p = Pt3D(0);
	231	part->scale = Pt3D(0.1);
	232	part->vcolor = Pt3D(1.0, 0.0, 1.0);
	233
	234	addAxesToModel(Pt3D(0.5), Orient(Orient_1), Pt3D(0.0), model);
	235	}
	236
	237	void GeometryTestUtils::addPointToModel(const Pt3D &markerLocation, Model &model)
	238	{
	239	Part *anchor = model.getPart(0);
	240	Part *part = model.addNewPart(Part::SHAPE_ELLIPSOID);
	241
	242	part->p = Pt3D(markerLocation);
	243	part->scale = Pt3D(0.05);
	244	part->vcolor = Pt3D(1.0, 1.0, 0.0);
	245
	246	model.addNewJoint(anchor, part, Joint::SHAPE_SOLID);
	247	}
	248
	249	void GeometryTestUtils::addAxesToModel(const Pt3D &sizes, const Orient &axes, const Pt3D &center,
	250	Model &model)
	251	{
	252	Part *anchor = model.getPart(0);
	253	Part *part;
	254
	255	part = model.addNewPart(Part::SHAPE_CUBOID);
	256	part->scale = Pt3D(sizes.x, 0.05, 0.05);
	257	part->setOrient(axes);
	258	part->p = center;
	259	part->vcolor = Pt3D(1.0, 0.0, 0.0);
	260	model.addNewJoint(anchor, part, Joint::SHAPE_SOLID);
	261
	262	part = model.addNewPart(Part::SHAPE_CUBOID);
	263	part->scale = Pt3D(0.05, sizes.y, 0.05);
	264	part->setOrient(axes);
	265	part->p = center;
	266	part->vcolor = Pt3D(0.0, 1.0, 0.0);
	267	model.addNewJoint(anchor, part, Joint::SHAPE_SOLID);
	268
	269	part = model.addNewPart(Part::SHAPE_CUBOID);
	270	part->scale = Pt3D(0.05, 0.05, sizes.z);
	271	part->setOrient(axes);
	272	part->p = center;
	273	part->vcolor = Pt3D(0.0, 0.0, 1.0);
	274	model.addNewJoint(anchor, part, Joint::SHAPE_SOLID);
	275	}
	276
	277	void GeometryTestUtils::mergeModels(Model &target, Model &source)
	278	{
	279	Part *targetAnchor = target.getPart(0);
	280	Part *sourceAnchor = source.getPart(0);
	281
	282	target.moveElementsFrom(source);
	283
	284	target.addNewJoint(targetAnchor, sourceAnchor, Joint::SHAPE_SOLID);
	285	}
	286
	287	double frand(double from, double width)
	288	{
	289	return from + width * ((rand()%10000) / 10000.0);
	290	}
	291
	292	void GeometryTestUtils::randomizePositionScaleAndOrient(Part *part)
	293	{
	294	part->p = Pt3D(frand(1.5, 1.0), frand(1.5, 1.0), frand(1.5, 1.0));
	295	part->scale = Pt3D(frand(0.1, 0.9), frand(0.1, 0.9), frand(0.1, 0.9));
	296	part->setRot(Pt3D(frand(0.0, M_PI), frand(0.0, M_PI), frand(0.0, M_PI)));
	297	}
	298
	299	void GeometryTestUtils::describePart(const Part part, FILE output)
	300	{
	301	fprintf(output, "# shape=%d\n", part->shape);
	302	fprintf(output, "# x=%f\n", part->p.x);
	303	fprintf(output, "# y=%f\n", part->p.y);
	304	fprintf(output, "# z=%f\n", part->p.z);
	305	fprintf(output, "# sx=%f\n", part->scale.x);
	306	fprintf(output, "# sy=%f\n", part->scale.y);
	307	fprintf(output, "# sz=%f\n", part->scale.z);
	308	fprintf(output, "# rx=%f\n", part->rot.x);
	309	fprintf(output, "# ry=%f\n", part->rot.y);
	310	fprintf(output, "# rz=%f\n", part->rot.z);
	311	}

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