// This file is a part of Framsticks SDK. http://www.framsticks.com/ // Copyright (C) 1999-2020 Maciej Komosinski and Szymon Ulatowski. // See LICENSE.txt for details. #include "genoobj.h" #include #include #include "collectionobj.h" #define FIELDSTRUCT GenoObj ParamEntry geno_paramtab[] = { { "Geno", 1, 16, "Geno", "All information about a single genotype.\nThis is a genetics-only object which does not contain any performance data. See also: Genotype class" }, { "name", 0, PARAM_NOSTATIC, "Name", "s 0 40", GETSET(name), }, { "rawgenotype", 0, PARAM_NOSTATIC | PARAM_READONLY, "Raw genotype", "s 1", GETONLY(genotype), "Genotype, excluding the format specifier" }, { "info", 0, PARAM_NOSTATIC, "Info", "s 1", GETSET(info), "Additional information or comments", }, { "format", 0, PARAM_NOSTATIC | PARAM_READONLY, "Format", "s", GETONLY(format), "Genotype format", }, { "genotype", 0, PARAM_NOSTATIC | PARAM_READONLY, "Genotype", "s 1", GETONLY(string), "Genes as a string of characters", }, { "isValid", 0, PARAM_NOSTATIC | PARAM_READONLY | PARAM_DEPRECATED, "Valid", "d 0 1", GETONLY(isvalid), "Use 'is_valid' instead of 'isValid'." }, { "is_valid", 0, PARAM_NOSTATIC, "Validity", "d -1 1 -1", GETSET(isvalid), "0 = invalid genotype\n" "1 = valid genotype\n" "-1 = validity is not known. This is a transient state. The value of \"is_valid\" will never be -1 when read. It is safe to treat is_valid as boolean in statements like \"if (g.is_valid) ...\". Setting \"is_valid=-1\" will make it 0 or 1 again. This third state (-1) is only needed for loading Genotype objects from files where the \"is_valid\" field might not be present." }, { "getConverted", 0, PARAM_READONLY | PARAM_NOSTATIC, "Get converted genotype", "p oGeno(s format)", PROCEDURE(p_getconvert), }, { "getConvertedWithCheckpoints", 0, PARAM_READONLY | PARAM_NOSTATIC, "Get converted genotype", "p oGeno(s format)", PROCEDURE(p_getconvert_ch), "See also Model.newWithCheckpoints()" }, { "f0genotype", 0, PARAM_NOSTATIC | PARAM_READONLY, "f0 genotype", "s 1", GETONLY(f0genotype), "converted to f0 genotype", }, { "new", 0, 0, "create new empty object", "p oGeno()", PROCEDURE(p_new), }, { "newFromString", 0, 0, "create new object from supplied string argument", "p oGeno(s genotype)", PROCEDURE(p_newfromstring), }, { "newFrom", 0, 0, "create new object", "p oGeno(s genotype,s format,s name,s description)", PROCEDURE(p_newfrom), }, { "autoname", 0, PARAM_NOSTATIC | PARAM_READONLY, "Autogenerated name", "s", GETONLY(autoname), }, { "toVector", 0, PARAM_READONLY | PARAM_NOSTATIC, "serialization support", "oVector", GETONLY(toVector), }, { "newFromVector", 0, 0, "serialization support", "p oGeno(oVector)", PROCEDURE(p_newfromvector), }, { 0, 0, 0, }, }; #undef FIELDSTRUCT void GenoObj::get_isvalid(ExtValue *ret) { ret->setInt(isValid()); } int GenoObj::set_isvalid(const ExtValue *v) { paInt n = v->getInt(); if (getValid() != n) { setValid(n); return PSET_CHANGED; } return 0; } void GenoObj::get_genotype(ExtValue *ret) { ret->setString(getGenes()); } void GenoObj::get_name(ExtValue *ret) { ret->setString(getName()); } void GenoObj::get_autoname(ExtValue *ret) { Model m(*this, Model::SHAPETYPE_UNKNOWN); ret->setString(AutoName::makeName(m)); } int GenoObj::set_name(const ExtValue *v) { setName(v->getString()); return PSET_CHANGED; } void GenoObj::get_info(ExtValue *ret) { ret->setString(getComment()); } void GenoObj::get_string(ExtValue *ret) { ret->setString(getGenesAndFormat()); } void GenoObj::get_format(ExtValue *ret) { ret->setString(getFormat()); } int GenoObj::set_info(const ExtValue *v) { setComment(v->getString()); return PSET_CHANGED; } void GenoObj::get_f0genotype(ExtValue *ret) { ret->setString(getConverted(Geno::F0_FORMAT_LIST).getGenes()); } SString GenoObj::formatFromExtValue(ExtValue& v) { if (v.getType() == TInt) { char ch = v.getInt(); return SString(&ch, 1); } if (v.getType() == TString) { return v.getString(); } return Geno::FORMAT_INVALID; } void GenoObj::p_getconvert(ExtValue *args, ExtValue *ret) { *ret = makeDynamicObjectAndDecRef(new Geno(getConverted(formatFromExtValue(args[0])))); } void GenoObj::p_getconvert_ch(ExtValue *args, ExtValue *ret) { *ret = makeDynamicObjectAndDecRef(new Geno(getConverted(formatFromExtValue(args[0]), NULL, true))); } void GenoObj::p_new(ExtValue *args, ExtValue *ret) { *ret = makeDynamicObjectAndDecRef(new Geno()); } void GenoObj::p_newfromstring(ExtValue *args, ExtValue *ret) { *ret = makeDynamicObjectAndDecRef(new Geno(args[0].getString())); } void GenoObj::p_newfrom(ExtValue *args, ExtValue *ret) { *ret = makeDynamicObjectAndDecRef(new Geno(args[3].getString(), formatFromExtValue(args[2]), args[1].getString(), args[0].getString())); } Param& GenoObj::getStaticParam() { #ifdef __CODEGUARD__ static GenoObj static_genoobj; static Param static_genoparam(geno_paramtab, &static_genoobj); #else static Param static_genoparam(geno_paramtab); #endif return static_genoparam; } Param& GenoObj::getDynamicParam() { static Param dynamic_genoparam(geno_paramtab); return dynamic_genoparam; } ParamInterface* GenoObj::getInterface() { return &getStaticParam(); } ExtObject GenoObj::makeStaticObject(Geno* g) { return ExtObject(&getStaticParam(), (void*)g); } ExtObject GenoObj::makeDynamicObject(Geno* g) { return ExtObject(&getDynamicParam(), (DestrBase*)g); } ExtObject GenoObj::makeDynamicObjectAndDecRef(Geno* g) { const ExtObject& o = makeDynamicObject(g); g->decref(); return o; } Geno* GenoObj::fromObject(const ExtValue& v, bool warn) { return (Geno*)v.getObjectTarget(getStaticParam().getName(), warn); } void GenoObj::get_toVector(ExtValue *ret) { VectorObject *vec = new VectorObject; vec->data += new ExtValue(getGenesAndFormat()); vec->data += new ExtValue(getName()); vec->data += new ExtValue(getComment()); ret->setObject(ExtObject(&VectorObject::par, vec)); } void GenoObj::p_newfromvector(ExtValue *args, ExtValue *ret) { VectorObject *vec = VectorObject::fromObject(args->getObject()); if (vec && (vec->data.size() >= 3)) { SString g = vec->get(0) ? vec->get(0)->getString() : SString::empty(); SString n = vec->get(1) ? vec->get(1)->getString() : SString::empty(); SString c = vec->get(2) ? vec->get(2)->getString() : SString::empty(); *ret = makeDynamicObjectAndDecRef(new Geno(g, Geno::FORMAT_UNKNOWN, n, c)); } else ret->setEmpty(); } ///////////// REGISTER_DESERIALIZABLE(GenoObj)