source: cpp/frams/model/modelobj.cpp @ 1311

Last change on this file since 1311 was 1277, checked in by Maciej Komosinski, 15 months ago

Added Model.is_valid

File size: 7.6 KB
RevLine 
[722]1#include "modelobj.h"
2#include <frams/vm/classes/genoobj.h>
3#include <frams/util/extvalue.h>
4#include <frams/vm/classes/3dobject.h>
5
6#define FIELDSTRUCT ModelObj
7ParamEntry modelobj_paramtab[] =
8{
[1277]9        { "Model", 1, 22, "Model", },
[722]10        { "se", 0, PARAM_NOSTATIC, "startenergy", "f", FIELD(startenergy), },
[1183]11        { "Vstyle", 0, PARAM_NOSTATIC, "Visual style", "s", FIELD(vis_style), "See the \"Visual style definition\" context for more information"},
[722]12
[732]13        { "geno", 0, PARAM_NOSTATIC | PARAM_READONLY, "Geno", "oGeno", GETONLY(geno), },
14        { "newFromString", 0, 0, "Create a new object", "p oModel(s genotype)", PROCEDURE(p_newfromstring), },
15        { "newFromGeno", 0, 0, "Create a new object", "p oModel(oGeno)", PROCEDURE(p_newfromgeno), },
16        { "newWithCheckpoints", 0, 0, "Create a new object", "p oModel(x Geno object or string genotype)", PROCEDURE(p_newwithcheckpoints), "Creates a Model with the \"Checkpoints\" option enabled. Genotype converters supporting Checkpoints provide a sequence of Models that reflects development stages of the creature (this sequence is used purely for debugging and visualization of phenotype growth/development). Checkpoint Models can be accessed using getCheckpoint(i) for i ranging from 0 to numcheckpoints-1. Models created without the Checkpoint option and Models coming from unsupported converters have numcheckpoints=0." },
[722]17
[732]18        { "numparts", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Number of parts", "d", GETONLY(numparts), },
19        { "numjoints", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Number of joints", "d", GETONLY(numjoints), },
20        { "numneurons", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Number of neurons", "d", GETONLY(numneurons), },
21        { "numconnections", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Number of neuron connections", "d", GETONLY(numconnections), },
[1277]22        { "is_valid", 0, PARAM_READONLY | PARAM_NOSTATIC, "Validity", "d 0 1", GETONLY(is_valid) },
[722]23
[1158]24        { "getPart", 0, PARAM_READONLY | PARAM_USERHIDDEN | PARAM_NOSTATIC, "getPart (static model information)", "p oPart(d index)", PROCEDURE(p_getpart), },
25        { "getJoint", 0, PARAM_READONLY | PARAM_USERHIDDEN | PARAM_NOSTATIC, "getJoint (static model information)", "p oJoint(d index)", PROCEDURE(p_getjoint), },
26        { "getNeuroDef", 0, PARAM_READONLY | PARAM_USERHIDDEN | PARAM_NOSTATIC, "getNeuroDef", "p oNeuroDef(d index)", PROCEDURE(p_getneuro), },
[722]27
[732]28        { "size_x", 0, PARAM_READONLY | PARAM_NOSTATIC | PARAM_DEPRECATED, "Bounding box x size", "f", FIELD(size.x), "(size_x,size_y,size_z) are dimensions of the axis-aligned bounding box of the creature, including imaginary Part sizes (Part.s, usually 1.0). A creature consisting of a single default part has the size of (2.0,2.0,2.0) - twice the Part.s value (like a sphere diameter is twice its radius).\nSee also: Creature.moveAbs" },
29        { "size_y", 0, PARAM_READONLY | PARAM_NOSTATIC | PARAM_DEPRECATED, "Bounding box y size", "f", FIELD(size.y), "See Model.size_x" },
30        { "size_z", 0, PARAM_READONLY | PARAM_NOSTATIC | PARAM_DEPRECATED, "Bounding box z size", "f", FIELD(size.z), "See Model.size_x" },
[722]31        { "bboxSize", 0, PARAM_READONLY | PARAM_NOSTATIC, "Bounding box size", "oXYZ", GETONLY(bboxsize) },
[732]32        { "numcheckpoints", 0, PARAM_DONTSAVE | PARAM_READONLY | PARAM_NOSTATIC, "Number of checkpoints", "d", GETONLY(numcheckpoints) },
[1158]33        { "getCheckpoint", 0, PARAM_READONLY | PARAM_USERHIDDEN | PARAM_NOSTATIC, "getCheckpoint", "p oModel(d index)", PROCEDURE(p_getcheckpoint),
[732]34        "Checkpoint Model objects are only valid as long as the parent Model object exists.\n"
35        "See also: Model.newWithCheckpoints()\n\n"
36        "// incorrect usage - calling getCheckpoint() on a temporary object:\n"
37        "var c=Model.newWithCheckpoints(\"XXX\").getCheckpoint(1).genotype.geno;\n\n"
38        "// correct usage - keeping the parent Model reference in 'm':\n"
39        "var m=Model.newWithCheckpoints(\"XXX\");\n"
40        "var c=m.getCheckpoint(1).genotype.geno;\n"
41        },
42        { "shape_type", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Shape type", "d 0 3 ~Unknown~Illegal~Ball-and-stick~Solids", GETONLY(shape_type) },
43        { "solid_model", 0, PARAM_DONTSAVE | PARAM_NOSTATIC | PARAM_READONLY, "Solid shapes model", "oModel", GETONLY(solid_model), "Conversion of this Model to solid shapes. Note! Only available when this Model has shape_type==2 (Ball-and-stick)." },
[722]44
45        { 0, 0, 0, },
46};
47#undef FIELDSTRUCT
48
49void ModelObj::get_geno(ExtValue *ret)
50{
51        Geno *g;
52        if ((!geno.isValid()) && isValid())
53                g = new Geno(getF0Geno());
54        else
55                g = new Geno(geno);
56        ret->setObject(GenoObj::makeDynamicObjectAndDecRef(g));
57}
58
59void ModelObj::p_newfromstring(ExtValue *args, ExtValue *ret)
60{
[999]61        *ret = makeDynamicObject(new Model(Geno(args[0].getString()), Model::SHAPETYPE_UNKNOWN));
[722]62}
63
64void ModelObj::p_newfromgeno(ExtValue *args, ExtValue *ret)
65{
66        Geno *g = GenoObj::fromObject(args[0].getObject());
67        if (g)
[999]68                *ret = makeDynamicObject(new Model(*g, Model::SHAPETYPE_UNKNOWN));
[722]69        else
70                ret->setEmpty();
71}
72
[732]73void ModelObj::p_newwithcheckpoints(ExtValue *args, ExtValue *ret)
74{
75        Model *m = NULL;
76        if (args[0].getType() == TString)
[999]77                m = new Model(Geno(args[0].getString()), Model::SHAPETYPE_UNKNOWN, false, true);
[732]78        else
79        {
80                Geno *g = GenoObj::fromObject(args[0].getObject(), false);
81                if (g)
[999]82                        m = new Model(*g, Model::SHAPETYPE_UNKNOWN, false, true);
[732]83                else
84                        logPrintf("Model", "newWithCheckpoints", LOG_ERROR, "Geno or string expected, %s found", args[0].typeDescription().c_str());
85        }
86
87        if (m != NULL)
88                *ret = makeDynamicObject(m);
89        else
90                ret->setEmpty();
91}
92
[722]93Param& ModelObj::getStaticParam()
94{
95#ifdef __CODEGUARD__
96        static ModelObj static_modelobj;
[732]97        static Param static_modelparam(modelobj_paramtab, &static_modelobj);
[722]98#else
99        static Param static_modelparam(modelobj_paramtab);
100#endif
101        return static_modelparam;
102}
103
104Param& ModelObj::getDynamicParam()
105{
106        static Param dynamic_modelparam(modelobj_paramtab);
107        return dynamic_modelparam;
108}
109
110ParamInterface* ModelObj::getInterface()
111{
112        return &getStaticParam();
113}
114
115ExtObject ModelObj::makeStaticObject(Model* m)
116{
117        return ExtObject(&getStaticParam(), (void*)m);
118}
119
120ExtObject ModelObj::makeDynamicObject(Model* m)
121{
122        return ExtObject(&getDynamicParam(), (DestrBase*)m);
123}
124
125Model* ModelObj::fromObject(const ExtValue& v, bool warn)
126{
127        return (Model*)v.getObjectTarget(getStaticParam().getName(), warn);
128}
129
130void ModelObj::p_getpart(PARAMPROCARGS)
131{
132        int i = args->getInt();
133        if ((i < 0) || (i >= getPartCount()))
134        {
135                ret->setEmpty();
136                return;
137        }
138        ret->setObject(ExtObject(&Part::getStaticParam(), getPart(i)));
139}
140
141void ModelObj::p_getjoint(PARAMPROCARGS)
142{
143        int i = args->getInt();
144        if ((i < 0) || (i >= getJointCount()))
145        {
146                ret->setEmpty();
147                return;
148        }
149        ret->setObject(ExtObject(&Joint::getStaticParam(), getJoint(i)));
150}
151
152void ModelObj::p_getneuro(PARAMPROCARGS)
153{
154        int i = args->getInt();
155        if ((i < 0) || (i >= getNeuroCount()))
156        {
157                ret->setEmpty();
158                return;
159        }
160        ret->setObject(ExtObject(&Neuro::getStaticParam(), getNeuro(i)));
161}
162
163void ModelObj::get_bboxsize(ExtValue *ret)
164{
165        *ret = Pt3D_Ext::makeDynamicObject(new Pt3D_Ext(size));
166}
[732]167
168void ModelObj::p_getcheckpoint(PARAMPROCARGS)
169{
170        int i = args->getInt();
171        if ((i < 0) || (i >= getCheckpointCount()))
172        {
173                ret->setEmpty();
174                return;
175        }
176        ret->setObject(makeStaticObject(getCheckpoint(i)));
177}
178
179void ModelObj::get_solid_model(ExtValue *ret)
180{
[999]181        if (getShapeType() != Model::SHAPETYPE_BALL_AND_STICK)
[732]182                ret->setEmpty();
183        Model *m = new Model;
184        m->open();
185        m->buildUsingSolidShapeTypes(*this);
186        m->close();
187        *ret = makeDynamicObject(m);
188}
189
190void ModelObj::get_shape_type(ExtValue *ret)
191{
192        ret->setInt(getShapeType());
193}
[1277]194
195void ModelObj::get_is_valid(ExtValue *ret)
196{
197        ret->setInt(isValid());
198}
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