source: cpp/frams/_demos/geometry/geometrytestutils.h @ 283

// This file is a part of the Framsticks GDK.
// Copyright (C) 1999-2014  Maciej Komosinski and Szymon Ulatowski.  See LICENSE.txt for details.
// Refer to http://www.framsticks.com/ for further information.

#ifndef _GEOMETRYTESTUTILS_H_
#define _GEOMETRYTESTUTILS_H_

#include <frams/model/model.h>
#include <frams/model/modelparts.h>
#include <frams/util/3d.h>
#include <frams/util/sstring.h>

/**
 * @brief Geometry module testing utilities.
 * @details Contains functions frequently used by tests, such as loading or generating random Model,
 *     or adding markers of points to a Model.
 * @author Radosław Gołębiewski
 */
namespace GeometryTestUtils
{
        /**
         * @brief Execution entry point for test based on specified input model.
         * @details Parses call arguments and performs one of following tasks: printing usage message;
         *     printing list of genotypes in specified file; creating Model from loaded genotype and
         *     executing test; creating random Model and executing test.
         * @param[in] header Header of usage message. This text should contain test description.
         * @param[in] argc Number of call arguments.
         * @param[in] argv Call arguments.
         * @param[in] test Pointer to function implementing test.
         * @returns Result code: 0 - no error, 1 - incorrect arguments (usage message printed),
         *     2 - cannot open file, 3 - cannot find genotype, 4 - incorrect genotype.
         */
        int execute(const SString header, int argc, char *argv[], void (*test)(Model &));
        
        /**
         * @brief Execution entry point for test based on specified input model and density.
         * @details Parses call arguments and performs one of following tasks: printing usage message;
         *     printing list of genotypes in specified file; creating Model from loaded genotype and
         *     executing test using specified density; creating random Model and executing test using
         *     specified density.
         * @param[in] header Header of usage message. This text should contain test description.
         * @param[in] argc Number of call arguments.
         * @param[in] argv Call arguments.
         * @param[in] test Pointer to function implementing test.
         * @returns Result code: 0 - no error, 1 - incorrect arguments (usage message printed),
         *     2 - cannot open file, 3 - cannot find genotype, 4 - incorrect genotype.
         */
        int execute(const SString header, int argc, char *argv[], void (*test)(Model &, const double));
        
        /**
         * @brief Adds anchor to the specified Model.
         * @details An anchor has two functions. First is to provide Model consistency. Some functions in
         *     GeometryTestUtils namespace requires Model passed to them as an argument to contain at
         *     least one Part. All new Parts are bonded to the rest of Model using Joint connecting them
         *     with first Part of Model. Second is to provide reference which helps to understand Model
         *     position, scale and orientation. Anchor is built from four Parts: small sphere placed in
         *     global coordinate system origin and three cuboids visualising global coordinate system
         *     axes.
         * @see addAxesToModel.
         * @param[in] model Owner of Parts to be created.
         */
        void addAnchorToModel(Model &model);
        
        /**
         * @brief Adds point marker to Model.
         * @details Marker of point is a small sphere (radius = 0.05).
         * @param[in] point Location of marker.
         * @param[in] model Owner of Part to be created, must contain at least one part.
         */
        void addPointToModel(const Pt3D &point, Model &model);
        
        /**
         * @brief Adds axes markers to Model.
         * @details Axes markers are three streched (one of scales = 0.5, others = 0.05) and colored
         *     cuboids. Cuboid visualising OX axis is red, OY - green, and OZ - blue.
         * @param[in] sizes Axes visual lengths.
         * @param[in] axes Axes orientation, relatively to global coordinate system axes.
         * @param[in] center Axes intersection point, relatively to global coordinate system origin.
         * @param[in] model Owner of Parts to be created, must contain at least one part.
         */
        void addAxesToModel(const Pt3D &sizes, const Orient &axes, const Pt3D &center, Model &model);
        
        /**
         * @brief Merges two Models.
         * @details Moves all parts from source Model to target Model and - to provide Model
         *     consistency - creates Joint between firsts Parts of each of them. Each model must contain
         *     at least one Part.
         * @param[in] target Target Model, must contain at least one part.
         * @param[in] source Source Model, must contain at least one part.
         */
        void mergeModels(Model &target, Model &source);
        
        /**
         * @brief Randomizes position, scale and rotations of Part.
         * @details Sets coords of Part position to random values from range (1.5, 2.5), scales to
         *     random values from range (0.1, 1.0), and rotations around each axis to random values from
         *     range (0, M_PI).
         * @param[in] part Part which position, scale and orient should be randomized.
         */
        void randomizePositionScaleAndOrient(Part *part);
        
        /**
         * @brief Prints description of given Part to specified file.
         * @details Prints shape ("shape"), position ("x", "y", "z"), scale ("sx", "sy", "sz") and
         *     rotations ("rx", "ry", "rz") of given Part. Each value is printed in separate line using
         *     following syntax: "# NAME=VALUE".
         * @param[in] part Part to be described.
         * @param[in] output Output file.
         */
        void describePart(const Part *part, FILE *output);
}

#endif