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ExtendedFamilyTabModule.php
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ExtendedFamilyTabModule.php
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<?php
/*
* webtrees - extended family tab
*
* based on vytux_cousins and simpl_cousins
*
* Copyright (C) 2021 Hermann Hartenthaler. All rights reserved.
* Copyright (C) 2013 Vytautas Krivickas and vytux.com. All rights reserved.
* Copyright (C) 2013 Nigel Osborne and kiwtrees.net. All rights reserved.
*
* webtrees: online genealogy / web based family history software
* Copyright (C) 2021 webtrees development team.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; If not, see <https://www.gnu.org/licenses/>.
*/
/*
* tbd: Offene Punkte
* ------------------
*
* siehe issues/enhancements in github
*
* Ergänzung der genetischen Nähe der jeweiligen Personengruppe in % (als Mouse-over?)
*
* Familiengruppe Neffen und Nichten: 2-stufig: erst Geschwister als P bzw. Partner als P, dann Eltern wie gehabt;
* Familiengruppe Cousins: wenn sie zur Vater und Mutter-Familie gehören, werden sie falsch zugeordnet (bei P Seudo: C2)
* Familiengruppe Schwäger und Schwägerinnen: Ergänzen der vollbürtigen Geschwister um halbbürtige und Stiefgeschwister
* Familiengruppe Partner: Problem mit Zusammenfassung, falls Geschlecht der Partner oder Geschlecht der Partner von Partner gemischt sein sollte
* Familiengruppe Partnerketten: grafische Anzeige statt Textketten
* Familiengruppe Partnerketten: von Ge. geht keine Partnerkette aus, aber sie ist Mitglied in der Partnerkette von Di. zu Ga., d.h. dies als zweite Info ergänzen
* Familiengruppe Geschwister: eventuell statt Label eigene Kategorie für Adoptiv- und Pflegekinder bzw. Stillmutter
*
* Label für Stiefkinder: etwa bei meinen Neffen Fabian, Felix, Jason und Sam
* Label für Partner: neu einbauen (Ehemann/Ehefrau/Partner/Partnerin/Verlobter/Verlobte/Ex-...)
* Label für Eltern: biologische Eltern, Stiefeltern, Adoptiveltern, Pflegeeltern
* Label oder Gruppe bei Onkel/Tante: Halbonkel/-tante = Halbbruder/-schwester eines biologichen Elternteils
*
* Code: Anpassungen an Bootstrap 5 (filter-Buttons) und webtrees 2.1 (neue Testumgebung aufsetzen)
* Code: Funktionen getSizeThumbnailW() und getSizeThumbnailH() verbessern: Option für thumbnail size? oder css für shilouette? Gibt es einen Zusammenhang oder sind sie unabhängig? Wie genau wirken sie sich aus? siehe issue von Sir Peter
* Code: eventuell Verwendung der bestehenden Funktionen "_individuals" zum Aufbau von Familienteilen verwenden statt es jedes Mal vom Probanden aus komplett neu zu gestalten
* Code: Ablaufreihenfolge in function addIndividualToFamily() umbauen wie function addIndividualToFamilyAsPartner()
* Code: eigentliche Modulfunktionen nach class_extended_family_part verschieben; hier verbleiben nur die Funktionen zum Modul an sich
* Code: Funktionen rings um das CotrolPanel und die Speicherung der Parameter in der Datenbank auslagern in eine eigene Datei
* Code: php-Klassen-Konzept verwenden
*
* Test: wie verhält es sich, wenn eine Person als Kind zu zwei Familien gehört (bei P Seudo: C2)
* Test: Stiefcousins (siehe Onkel Walter)
* Test: Schwagerehe (etwa Levirat oder Sororat)
*
* andere Verwandtschaftssysteme: eventuell auch andere als nur das Eskimo-System implementieren
* andere Verwandtschaftssysteme: Onkel als Vater- oder Mutterbruder ausweisen für Übersetzung (Label?); Tante als Vater- oder Mutterschwester ausweisen für Übersetzung (Label?);
* andere Verwandtschaftssysteme: Brüder und Schwestern als jüngere oder ältere Geschwister ausweisen für Übersetzung (in Bezugg auf Proband) (Label?)
*
* neue Idee: Statistikfunktion für webtrees zur Ermittlung der längsten und der umfangreichsten Heiratsketten in einem Tree
* neue Idee: Liste der Spitzenahnen
* neue Idee: Kette zum entferntesten Vorfahren
* neue Idee: Kette zum entferntesten Nachkommen
*/
declare(strict_types=1);
namespace Hartenthaler\Webtrees\Module\ExtendedFamily;
use Fisharebest\Webtrees\I18N;
use Fisharebest\Webtrees\Tree;
use Fisharebest\Webtrees\View;
use Fisharebest\Webtrees\Fact;
use Fisharebest\Webtrees\Registry;
use Fisharebest\Webtrees\Individual;
use Fisharebest\Webtrees\Family;
use Fisharebest\Webtrees\Gedcom;
use Fisharebest\Webtrees\GedcomCode\GedcomCodePedi;
use Fisharebest\Webtrees\FlashMessages;
use Fisharebest\Localization\Translation;
use Psr\Http\Message\ResponseInterface;
use Psr\Http\Message\ServerRequestInterface;
use Fisharebest\Webtrees\Module\AbstractModule;
use Fisharebest\Webtrees\Module\ModuleTabTrait;
use Fisharebest\Webtrees\Module\ModuleConfigTrait;
use Fisharebest\Webtrees\Module\ModuleCustomTrait;
use Fisharebest\Webtrees\Module\ModuleTabInterface;
use Fisharebest\Webtrees\Module\ModuleConfigInterface;
use Fisharebest\Webtrees\Module\ModuleCustomInterface;
use Cissee\Webtrees\Module\ExtendedRelationships;
use Hartenthaler\Webtrees\Module\ExtendedFamily\ExtendedFamily;
// string functions
use function ucfirst;
use function str_replace;
use function str_contains;
use function preg_match;
use function strval;
use function rtrim;
// array functions
// use function unset;
use function explode;
use function implode;
use function count;
use function array_key_exists;
use function in_array;
use function array_merge;
use function array_filter;
/**
* Class ExtendedFamilyTabModule
*/
class ExtendedFamilyTabModule extends AbstractModule implements ModuleTabInterface, ModuleCustomInterface, ModuleConfigInterface
{
use ModuleTabTrait;
use ModuleCustomTrait;
use ModuleConfigTrait;
/**
* list of const for module administration
*/
public const CUSTOM_TITLE = 'Extended family';
public const CUSTOM_MODULE = 'hh_extended_family';
public const CUSTOM_DESCRIPTION = 'A tab showing the extended family of an individual.';
public const CUSTOM_AUTHOR = 'Hermann Hartenthaler';
public const CUSTOM_WEBSITE = 'https://github.com/hartenthaler/' . self::CUSTOM_MODULE . '/';
public const CUSTOM_VERSION = '2.0.16.49';
public const CUSTOM_LAST = 'https://github.com/hartenthaler/' . self::CUSTOM_MODULE. '/raw/main/latest-version.txt';
/**
* list of const for extended family
*/
public const FAM_STATUS_EX = 'Ex-marriage';
public const FAM_STATUS_MARRIAGE = 'Marriage';
public const FAM_STATUS_FIANCEE = 'Fiancée';
public const FAM_STATUS_PARTNERSHIP = 'Partnership';
public const GROUP_GRANDPARENTS_FATHER_BIO = 'Biological parents of father';
public const GROUP_GRANDPARENTS_MOTHER_BIO = 'Biological parents of mother';
public const GROUP_GRANDPARENTS_U_BIO = 'Biological parents of parent';
public const GROUP_GRANDPARENTS_FATHER_STEP = 'Stepparents of father';
public const GROUP_GRANDPARENTS_MOTHER_STEP = 'Stepparents of mother';
public const GROUP_GRANDPARENTS_U_STEP = 'Stepparents of parent';
public const GROUP_GRANDPARENTS_STEP_PARENTS = 'Parents of stepparents';
public const GROUP_UNCLEAUNT_FATHER = 'Siblings of father';
public const GROUP_UNCLEAUNT_MOTHER = 'Siblings of mother';
public const GROUP_UNCLEAUNTBM_FATHER = 'Siblings-in-law of father';
public const GROUP_UNCLEAUNTBM_MOTHER = 'Siblings-in-law of mother';
public const GROUP_PARENTS_BIO = 'Biological parents';
public const GROUP_PARENTS_STEP = 'Stepparents';
// named groups ar not used for parents in law (instead the marriages are used for grouping)
// public const GROUP_PARENTSINLAW_BIO = 'Biological parents of partner';
// public const GROUP_PARENTSINLAW_STEP = 'Stepparents of partner';
public const GROUP_COPARENTSINLAW_BIO = 'Parents-in-law of biological children';
public const GROUP_COPARENTSINLAW_STEP = 'Parents-in-law of stepchildren';
// no groups for partners and partner chains
public const GROUP_SIBLINGS_FULL = 'Full siblings';
public const GROUP_SIBLINGS_HALF = 'Half siblings'; // including more than half siblings (if parents are related to each other)
public const GROUP_SIBLINGS_STEP = 'Stepsiblings';
public const GROUP_SIBLINGSINLAW_SIBOFP = 'Siblings of partners';
public const GROUP_SIBLINGSINLAW_POFSIB = 'Partners of siblings';
public const GROUP_COSIBLINGSINLAW_SIBPARSIB = 'Siblings of siblings-in-law'; // sibling's partner's sibling
public const GROUP_COSIBLINGSINLAW_PARSIBPAR = 'Partners of siblings-in-law'; // partner's sibling's partner';
public const GROUP_COUSINS_FULL_FATHER = 'Children of full siblings of father';
public const GROUP_COUSINS_FULL_MOTHER = 'Children of full siblings of mother';
public const GROUP_COUSINS_FULL_U = 'Children of full siblings of parent';
public const GROUP_COUSINS_HALF_FATHER = 'Children of half siblings of father';
public const GROUP_COUSINS_HALF_MOTHER = 'Children of half siblings of mother';
public const GROUP_COUSINS_HALF_U = 'Children of half siblings of parent';
public const GROUP_NEPHEW_NIECES_CHILD_SIBLING = 'Children of siblings';
public const GROUP_NEPHEW_NIECES_CHILD_PARTNER_SIBLING = 'Siblings\' stepchildren';
public const GROUP_NEPHEW_NIECES_CHILD_SIBLING_PARTNER = 'Children of siblings of partners';
public const GROUP_CHILDREN_BIO = 'Biological children';
public const GROUP_CHILDREN_STEP = 'Stepchildren';
public const GROUP_CHILDRENINLAW_BIO = 'Partners of biological children';
public const GROUP_CHILDRENINLAW_STEP = 'Partners of stepchildren';
public const GROUP_GRANDCHILDREN_BIO = 'Biological grandchildren';
public const GROUP_GRANDCHILDREN_STEP_CHILD = 'Stepchildren of children';
public const GROUP_GRANDCHILDREN_CHILD_STEP = 'Children of stepchildren';
public const GROUP_GRANDCHILDREN_STEP_STEP = 'Stepchildren of stepchildren';
/* Find members of extended family parts
*
* @param Individual $proband
*
* @return object
*/
private function getExtendedFamily(Individual $proband): object
{
$ef = new ExtendedFamily( $proband, $this->get_config($proband) );
$obj = (object)[]; // tbd replace $obj by $ef
$obj->config = $ef->getConfig();
$obj->self = $ef->getProband();
$obj->filter = $this->getExtendedFamilyParts($obj); // tbd replace $this... by $ef->getFilters();
return $obj;
}
/**
* get extended family parts for each filter combination
*
* @param object
*
* @return array of extended family parts for all filter combinations
*/
private function getExtendedFamilyParts(object $obj): array
{
$filter = [];
foreach ($obj->config->filterOptions as $filterOption) {
$extfamObj = (object)[];
$extfamObj->efp = (object)[];
$extfamObj->efp->allCount = 0;
foreach ($this->showFamilyParts() as $efp => $element) {
if ( $element->enabled ) {
$extfamObj->efp->$efp = $this->initializedFamilyPartObject($efp);
$this->callFunction1( 'get_' . $efp, $extfamObj->efp->$efp, $obj->self->indi );
$this->filterAndAddCountersToFamilyPartObject( $extfamObj->efp->$efp, $obj->self->indi, $filterOption );
$extfamObj->efp->allCount += $extfamObj->efp->$efp->allCount;
}
}
$extfamObj->efp->summaryMessageEmptyBlocks = $this->summaryMessageEmptyBlocks($extfamObj, $obj->self->niceName);
$filter[$filterOption] = $extfamObj;
}
return $filter;
}
/**
* call functions to get extended family parts
*
* @param $name string (name of function to be called)
* @param $efp extended family part (modified by function)
* @param $individual Individual
*/
private function callFunction1($name, object &$extendedFamilyPart, Individual $individual)
{
return $this->$name($extendedFamilyPart, $individual);
}
/**
* call functions to get a branch of a extended family parts
*
* @param $name string (name of function to be called)
* @param $individual Individual
* @param string $branch (e.g. ['bio', 'step', 'full', half']
*
* @return array of object
*/
private function callFunction2($name, Individual $individual, string $branch): array
{
return $this->$name($individual, $branch);
}
/**
* list of parts of extended family
*
* @return array
*/
private function listOfFamilyParts(): array // new elements can be added, but not changed or deleted; names of elements should be shorter than 25 characters
{
return [
'grandparents', // generation +2
'uncles_and_aunts', // generation +1
'uncles_and_aunts_bm', // generation +1 // uncles and aunts by marriage
'parents', // generation +1
'parents_in_law', // generation +1
'co_parents_in_law', // generation 0
'partners', // generation 0
'partner_chains', // generation 0
'siblings', // generation 0
'siblings_in_law', // generation 0
'co_siblings_in_law', // generation 0
'cousins', // generation 0
'nephews_and_nieces', // generation -1
'children', // generation -1
'children_in_law', // generation -1
'grandchildren', // generation -2
];
}
/**
* check if there is at least one person in one of the selected extended family parts (used to decide if tab is grayed out)
*
* @param individual
*
* @return bool
*/
private function personExistsInExtendedFamily(Individual $individual): bool
{
$obj = (object)[];
$obj->config = $this->get_config( $individual );
$obj->self = $this->get_self( $individual );
$extfamObj = (object)[];
$extfamObj->efp = (object)[];
$efps = $this->showFamilyParts();
foreach ($efps as $efp => $element) {
if ( $element->enabled ) {
$extfamObj->efp->$efp = $this->initializedFamilyPartObject($efp);
$this->callFunction1( 'get_' . $efp, $extfamObj->efp->$efp, $individual );
$this->filterAndAddCountersToFamilyPartObject( $extfamObj->efp->$efp, $individual, 'all' );
if ($extfamObj->efp->$efp->allCount >0) {
return true;
}
}
}
return false;
}
/**
* get configuration information
*
* @param Individual $proband
*
* @return object
*/
private function get_config(Individual $proband): object
{
$configObj = (object)[];
$configObj->showEmptyBlock = $this->showEmptyBlock();
$configObj->showShortName = $this->showShortName();
$configObj->showLabels = $this->showLabels();
$configObj->useCompactDesign = $this->useCompactDesign();
$configObj->showThumbnail = $this->showThumbnail( $proband->tree() );
$configObj->showFilterOptions = $this->showFilterOptions();
$configObj->filterOptions = $this->getFilterOptions();
return $configObj;
}
/**
* self finding
*
* @param Individual $individual
*
* @return object
*/
private function get_self(Individual $individual): object
{
$selfObj = (object)[];
$selfObj->indi = $individual;
$selfObj->niceName = $this->niceName( $individual );
$selfObj->label = implode(", ", $this->getChildLabels( $individual ));
return $selfObj;
}
/**
* Find grandparents
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_grandparents(object &$extendedFamilyPart, Individual $individual)
{
$config = (object)[];
$config->branches = ['bio','step'];
$config->callFamilyPart = 'parents';
$config->const = [
'bio' => ['M' => self::GROUP_GRANDPARENTS_FATHER_BIO, 'F' => self::GROUP_GRANDPARENTS_MOTHER_BIO, 'U' => self::GROUP_GRANDPARENTS_U_BIO],
'step' => ['M' => self::GROUP_GRANDPARENTS_FATHER_STEP, 'F' => self::GROUP_GRANDPARENTS_MOTHER_STEP, 'U' => self::GROUP_GRANDPARENTS_U_STEP],
];
$this->get_familyBranches($config, $extendedFamilyPart, $individual);
// add biological parents and stepparents of stepparents
foreach ($this->get_stepparents_individuals($individual) as $stepparentObj) {
foreach ($this->get_bioparents_individuals($stepparentObj->indi) as $grandparentObj) {
$this->addIndividualToFamily( $extendedFamilyPart, $grandparentObj->indi, $grandparentObj->family, self::GROUP_GRANDPARENTS_STEP_PARENTS, $stepparentObj->indi );
}
foreach ($this->get_stepparents_individuals($stepparentObj->indi) as $grandparentObj) {
$this->addIndividualToFamily( $extendedFamilyPart, $grandparentObj->indi, $grandparentObj->family, self::GROUP_GRANDPARENTS_STEP_PARENTS, $stepparentObj->indi );
}
}
return;
}
/**
* Find uncles and aunts (not including uncles and aunts by marriage)
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_uncles_and_aunts(object &$extendedFamilyPart, Individual $individual)
{
if ($individual->childFamilies()->first()) {
if ($individual->childFamilies()->first()->husband() instanceof Individual) {
$this->get_uncles_and_aunts_OneSide( $extendedFamilyPart, $individual->childFamilies()->first()->husband(), self::GROUP_UNCLEAUNT_FATHER);
}
if ($individual->childFamilies()->first()->wife() instanceof Individual) {
$this->get_uncles_and_aunts_OneSide( $extendedFamilyPart, $individual->childFamilies()->first()->wife(), self::GROUP_UNCLEAUNT_MOTHER);
}
}
return;
}
/**
* Find uncles and aunts for one side (husband/wife) (not including uncles and aunts by marriage)
*
* @param object part of extended family (grandparents, uncles/aunts, cousins, ...)
* @param Individual parent
* @param string family side (FAM_SIDE_FATHER, FAM_SIDE_MOTHER); father is default
*/
private function get_uncles_and_aunts_OneSide(object &$extendedFamilyPart, Individual $parent, string $side)
{
foreach ($parent->childFamilies() as $family1) { // Gen 2 F
foreach ($family1->spouses() as $grandparent) { // Gen 2 P
foreach ($grandparent->spouseFamilies() as $family2) { // Gen 2 F
foreach ($family2->children() as $uncleaunt) { // Gen 1 P
if($uncleaunt !== $parent) {
$this->addIndividualToFamily( $extendedFamilyPart, $uncleaunt, $family2, $side, $parent );
}
}
}
}
}
return;
}
/**
* Find uncles and aunts by marriage
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_uncles_and_aunts_bm(object $efp, Individual $individual)
{
if ($individual->childFamilies()->first()) {
if ($individual->childFamilies()->first()->husband() instanceof Individual) {
$this->get_uncles_and_aunts_bmOneSide( $efp, $individual->childFamilies()->first()->husband(), self::GROUP_UNCLEAUNTBM_FATHER);
}
if ($individual->childFamilies()->first()->wife() instanceof Individual) {
$this->get_uncles_and_aunts_bmOneSide( $efp, $individual->childFamilies()->first()->wife(), self::GROUP_UNCLEAUNTBM_MOTHER);
}
}
return;
}
/**
* Find uncles and aunts by marriage for one side
*
* @param object part of extended family (modified by this function)
* @param Individual parent
* @param string family side (FAM_SIDE_FATHER, FAM_SIDE_MOTHER); father is default
*/
private function get_uncles_and_aunts_bmOneSide(object &$extendedFamilyPart, Individual $parent, string $side)
{
foreach ($parent->childFamilies() as $family1) { // Gen 2 F
foreach ($family1->spouses() as $grandparent) { // Gen 2 P
foreach ($grandparent->spouseFamilies() as $family2) { // Gen 2 F
foreach ($family2->children() as $uncleaunt) { // Gen 1 P
if($uncleaunt !== $parent) {
foreach ($uncleaunt->spouseFamilies() as $family3) { // Gen 1 F
foreach ($family3->spouses() as $uncleaunt2) { // Gen 1 P
if($uncleaunt2 !== $uncleaunt) {
$this->addIndividualToFamily( $extendedFamilyPart, $uncleaunt2, $family3, $side, $uncleaunt );
}
}
}
}
}
}
}
}
return;
}
/**
* Find parents
*
* @param object extended family part (modified by this function)
* @param $individual Individual
*/
private function get_parents(object &$extendedFamilyPart, Individual $individual)
{
foreach ($this->get_bioparents_individuals($individual) as $parentObj) {
$this->addIndividualToFamily( $extendedFamilyPart, $parentObj->indi, $parentObj->family, self::GROUP_PARENTS_BIO, $individual );
}
foreach ($this->get_stepparents_individuals($individual) as $stepparentObj) {
$this->addIndividualToFamily( $extendedFamilyPart, $stepparentObj->indi, $stepparentObj->family, self::GROUP_PARENTS_STEP, $individual );
}
return;
}
/**
* Find parents-in-law (parents of partners including partners of partners)
*
* @param object extended family part (modified by function)
* @param $individual Individual
*/
private function get_parents_in_law(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family) { // Gen 0 F
foreach ($family->spouses() as $spouse) { // Gen 0 P
if ($spouse !== $individual) {
if (($spouse->childFamilies()->first()) && ($spouse->childFamilies()->first()->husband() instanceof Individual)) {
$this->addIndividualToFamily( $extendedFamilyPart, $spouse->childFamilies()->first()->husband(), $spouse->childFamilies()->first(), '', $spouse, $individual );
}
if (($spouse->childFamilies()->first()) && ($spouse->childFamilies()->first()->wife() instanceof Individual)) {
$this->addIndividualToFamily( $extendedFamilyPart, $spouse->childFamilies()->first()->wife(), $spouse->childFamilies()->first(), '', $spouse, $individual );
}
}
}
}
return;
}
/**
* Find co-parents-in-law (parents of children-in-law)
*
* @param object extended family part (modified by this fuction)
* @param Individual $individual
*/
private function get_co_parents_in_law(object $extendedFamilyPart, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->children() as $child) { // Gen -1 P
foreach ($child->spouseFamilies() as $family2) { // Gen -1 F
foreach ($family2->spouses() as $child_in_law) { // Gen -1 P
if ($child_in_law !== $child) {
if ( ($child_in_law->childFamilies()->first()) && ($child_in_law->childFamilies()->first()->husband() instanceof Individual) ) { // husband() or wife() may not exist
$this->addIndividualToFamily( $extendedFamilyPart, $child_in_law->childFamilies()->first()->husband(), $family2, self::GROUP_COPARENTSINLAW_BIO );
}
if ( ($child_in_law->childFamilies()->first()) && ($child_in_law->childFamilies()->first()->wife() instanceof Individual) ) {
$this->addIndividualToFamily( $extendedFamilyPart, $child_in_law->childFamilies()->first()->wife(), $family2, self::GROUP_COPARENTSINLAW_BIO );
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->children() as $stepchild) { // Gen -1 P
foreach ($stepchild->spouseFamilies() as $family3) { // Gen -1 F
foreach ($family3->spouses() as $stepchild_in_law) { // Gen -1 P
if ($stepchild_in_law !== $stepchild) {
if ( ($stepchild_in_law->childFamilies()->first()) && ($stepchild_in_law->childFamilies()->first()->husband() instanceof Individual)) { // husband() or wife() may not exist
$this->addIndividualToFamily( $extendedFamilyPart, $stepchild_in_law->childFamilies()->first()->husband(), $family3, self::GROUP_COPARENTSINLAW_STEP, $stepchild );
}
if ( ($stepchild_in_law->childFamilies()->first()) && ($stepchild_in_law->childFamilies()->first()->wife() instanceof Individual)) {
$this->addIndividualToFamily( $extendedFamilyPart, $stepchild_in_law->childFamilies()->first()->wife(), $family3, self::GROUP_COPARENTSINLAW_STEP, $stepchild );
}
}
}
}
}
}
}
}
return;
}
/**
* Find partners including partners of partners
*
* @param modified object extended family part
* @param Individual $individual
*/
private function get_partners(object $efp, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
if ( $spouse1 !== $individual ) {
$this->addIndividualToFamilyAsPartner( $spouse1, $efp, $individual );
}
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->spouses() as $spouse2) { // Gen 0 P
if ( $spouse2 !== $spouse1 && $spouse2 !== $individual ) {
$this->addIndividualToFamilyAsPartner( $spouse2, $efp, $spouse1 );
}
}
}
}
}
return;
}
/**
* Find a chain of partners
*
* @param Individual $individual
*
* @param modified object extended family part
*/
private function get_partner_chains(object &$extendedFamilyPart, Individual $individual)
{
$chainRootNode = (object)[];
$chainRootNode->chains = [];
$chainRootNode->indi = $individual;
$chainRootNode->filterComment = '';
$stop = (object)[]; // avoid endless loops
$stop->indiList = [];
$stop->indiList[] = $individual->xref();
$stop->familyList = [];
$extendedFamilyPart->chains = $this->get_partner_chains_recursive ($chainRootNode, $stop);
return;
}
/**
* Find chains of partners recursive
*
* @param object $node
* @param object stoplist with arrays of indi-xref and fam-xref
*
* @return array
*/
private function get_partner_chains_recursive(object $node, object &$stop): array
{
$new_nodes = []; // array of object ($node->indi; $node->chains)
$i = 0;
foreach ($node->indi->spouseFamilies() as $family) {
if (!in_array($family->xref(), $stop->familyList)) {
foreach ($family->spouses() as $spouse) {
if ( $spouse->xref() !== $node->indi->xref() ) {
if (!in_array($spouse->xref(), $stop->indiList)) {
$new_node = (object)[];
$new_node->chains = [];
$new_node->indi = $spouse;
$new_node->filterComment = '';
$stop->indiList[] = $spouse->xref();
$stop->familyList[] = $family->xref();
$new_node->chains = $this->get_partner_chains_recursive($new_node, $stop);
$new_nodes[$i] = $new_node;
$i++;
} else {
break;
}
}
}
}
}
return $new_nodes;
}
/**
* Find full and half siblings, as well as stepsiblings
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_siblings(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->childFamilies() as $family) { // Gen 1 F
foreach ($family->children() as $sibling_full) { // Gen 0 P
if ($sibling_full !== $individual) {
$this->addIndividualToFamily( $extendedFamilyPart, $sibling_full, $family, self::GROUP_SIBLINGS_FULL );
}
}
}
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->spouses() as $spouse1) { // Gen 1 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling_half) { // Gen 0 P
if ($sibling_half !== $individual) {
$this->addIndividualToFamily( $extendedFamilyPart, $sibling_half, $family1, self::GROUP_SIBLINGS_HALF );
}
}
}
}
}
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->spouses() as $spouse1) { // Gen 1 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 1 F
foreach ($family2->spouses() as $spouse2) { // Gen 1 P
foreach ($spouse2->spouseFamilies() as $family3) { // Gen 1 F
foreach ($family3->children() as $sibling_step) { // Gen 0 P
if ($sibling_step !== $individual) {
$this->addIndividualToFamily( $extendedFamilyPart, $sibling_step, $family1, self::GROUP_SIBLINGS_STEP );
}
}
}
}
}
}
}
return;
}
/**
* Find siblings-in-law (partners of siblings and siblings of partners)
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_siblings_in_law(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->children() as $sibling_full) { // Gen 0 P
if ($sibling_full !== $individual) {
foreach ($sibling_full->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->spouses() as $spouse) { // Gen 0 P
if ( $spouse !== $sibling_full ) {
$this->addIndividualToFamily( $extendedFamilyPart, $spouse, $family2, self::GROUP_SIBLINGSINLAW_POFSIB, $sibling_full );
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
if ( $spouse1 !== $individual ) {
foreach ($spouse1->childFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling) { // Gen 0 P
if ($sibling !== $spouse1) {
$this->addIndividualToFamily( $extendedFamilyPart, $sibling, $family1, self::GROUP_SIBLINGSINLAW_SIBOFP, $spouse1 );
}
}
}
}
}
}
return;
}
/**
* Find co-siblings-in-law (partner's sibling's partner and sibling's partner's sibling)
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_co_siblings_in_law(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->children() as $sibling_full) { // Gen 0 P
if ($sibling_full !== $individual) {
foreach ($sibling_full->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->spouses() as $spouse) { // Gen 0 P
if ( $spouse !== $sibling_full ) {
foreach ($spouse->childFamilies() as $family3) { // Gen 1 F
foreach ($family3->children() as $co_sibling_full) { // Gen 0 P
if ($co_sibling_full !== $spouse) {
$this->addIndividualToFamily( $extendedFamilyPart, $co_sibling_full, $family3, self::GROUP_COSIBLINGSINLAW_SIBPARSIB, $spouse );
}
}
}
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
if ( $spouse1 !== $individual ) {
foreach ($spouse1->childFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling) { // Gen 0 P
if ($sibling !== $spouse1) {
foreach ($sibling->spouseFamilies() as $family3) {
foreach ($family3->spouses() as $cosiblinginlaw) {
if ($cosiblinginlaw !== $sibling) {
$this->addIndividualToFamily( $extendedFamilyPart, $cosiblinginlaw, $family3, self::GROUP_COSIBLINGSINLAW_PARSIBPAR, $sibling );
}
}
}
}
}
}
}
}
}
return;
}
/**
* Find full and half cousins (children of full and half siblings of father and mother)
*
* @param object extended family part (modified by function)
* @param Individual $individual
*/
private function get_cousins(object $extendedFamilyPart, Individual $individual)
{
$config = (object)[];
$config->branches = ['full','half'];
$config->callFamilyPart = 'cousins';
$config->const = [
'full' => ['M' => self::GROUP_COUSINS_FULL_FATHER, 'F' => self::GROUP_COUSINS_FULL_MOTHER, 'U' => self::GROUP_COUSINS_FULL_U],
'half' => ['M' => self::GROUP_COUSINS_HALF_FATHER, 'F' => self::GROUP_COUSINS_HALF_MOTHER, 'U' => self::GROUP_COUSINS_HALF_U],
];
$this->get_familyBranches($config, $extendedFamilyPart, $individual);
return;
}
/**
* Find nephews and nieces
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_nephews_and_nieces(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->spouses() as $spouse1) { // Gen 1 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling) { // Gen 0 P
if ( $sibling !== $individual) {
foreach ($sibling->spouseFamilies() as $family3) { // Gen 0 F
foreach ($family3->children() as $nephewniece) { // Gen -1 P
$this->addIndividualToFamily( $extendedFamilyPart, $nephewniece, $family1, self::GROUP_NEPHEW_NIECES_CHILD_SIBLING, $sibling );
}
}
}
}
}
}
}
foreach ($individual->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->spouses() as $spouse1) { // Gen 1 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling) { // Gen 0 P
if ( $sibling !== $individual ) {
foreach ($sibling->spouseFamilies() as $family3) { // Gen 0 F
foreach ($family3->spouses() as $parent) { // Gen 0 P
foreach ($parent->spouseFamilies() as $family4) { // Gen 0 F
foreach ($family4->children() as $nephewniece) { // Gen -1 P
$this->addIndividualToFamily( $extendedFamilyPart, $nephewniece, $family1, self::GROUP_NEPHEW_NIECES_CHILD_PARTNER_SIBLING, $sibling );
}
}
}
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family0) { // Gen 0 F
foreach ($family0->spouses() as $spouse0) { // Gen 0 P
if ( $spouse0 !== $individual ) {
foreach ($spouse0->childFamilies() as $family1) { // Gen 1 F
foreach ($family1->spouses() as $parent_in_law) { // Gen 1 P
foreach ($parent_in_law->spouseFamilies() as $family2) { // Gen 1 F
foreach ($family2->children() as $sibling_in_law) { // Gen 0 P
if ( $sibling_in_law !== $spouse0) {
foreach ($sibling_in_law->spouseFamilies() as $family3) { // Gen 0 F
foreach ($family3->children() as $nephewniece) { // Gen -1 P
$this->addIndividualToFamily( $extendedFamilyPart, $nephewniece, $family0, self::GROUP_NEPHEW_NIECES_CHILD_SIBLING_PARTNER, $spouse0, $sibling_in_law );
}
}
}
}
}
}
}
}
}
}
return;
}
/**
* Find children including step-children
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_children(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->children() as $child) { // Gen -1 P
$this->addIndividualToFamily( $extendedFamilyPart, $child, $family1, self::GROUP_CHILDREN_BIO );
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->children() as $child) { // Gen -1 P
$this->addIndividualToFamily( $extendedFamilyPart, $child, $family2, self::GROUP_CHILDREN_STEP );
}
}
}
}
return;
}
/**
* Find children-in-law (partner of children and stepchildren)
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_children_in_law(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->children() as $child) { // Gen -1 P
foreach ($child->spouseFamilies() as $family2) { // Gen -1 F
foreach ($family2->spouses() as $child_in_law) { // Gen -1 P
if ($child_in_law !== $child) {
$this->addIndividualToFamily( $extendedFamilyPart, $child_in_law, $family1, self::GROUP_CHILDRENINLAW_BIO, $child );
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->children() as $stepchild) { // Gen -1 P
foreach ($stepchild->spouseFamilies() as $family3) { // Gen -1 F
foreach ($family3->spouses() as $stepchild_in_law) { // Gen -1 P
if ($stepchild_in_law !== $stepchild) {
$this->addIndividualToFamily( $extendedFamilyPart, $stepchild_in_law, $family1, self::GROUP_CHILDRENINLAW_STEP, $stepchild );
}
}
}
}
}
}
}
return;
}
/**
* Find grandchildren including step- and step-step-grandchildren
*
* @param object extended family part (modified by this function)
* @param Individual $individual
*/
private function get_grandchildren(object &$extendedFamilyPart, Individual $individual)
{
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->children() as $biochild) { // Gen -1 P
foreach ($biochild->spouseFamilies() as $family2) { // Gen -1 F
foreach ($family2->children() as $biograndchild) { // Gen -2 P
$this->addIndividualToFamily( $extendedFamilyPart, $biograndchild, $family1, self::GROUP_GRANDCHILDREN_BIO );
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->children() as $biochild) { // Gen -1 P
foreach ($biochild->spouseFamilies() as $family2) { // Gen -1 F
foreach ($family2->spouses() as $spouse) { // Gen -1 P
foreach ($spouse->spouseFamilies() as $family3) { // Gen -1 F
foreach ($family3->children() as $step_child) { // Gen -2 P
$this->addIndividualToFamily( $extendedFamilyPart, $step_child, $family1, self::GROUP_GRANDCHILDREN_STEP_CHILD );
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->children() as $stepchild) { // Gen -1 P
foreach ($stepchild->spouseFamilies() as $family3) { // Gen -1 F
foreach ($family3->children() as $child_step) { // Gen -2 P
$this->addIndividualToFamily( $extendedFamilyPart, $child_step, $family1, self::GROUP_GRANDCHILDREN_CHILD_STEP );
}
}
}
}
}
}
foreach ($individual->spouseFamilies() as $family1) { // Gen 0 F
foreach ($family1->spouses() as $spouse1) { // Gen 0 P
foreach ($spouse1->spouseFamilies() as $family2) { // Gen 0 F
foreach ($family2->children() as $child) { // Gen -1 P
foreach ($child->spouseFamilies() as $family3) { // Gen -1 F
foreach ($family3->spouses() as $childstepchild) { // Gen -1 P
foreach ($childstepchild->spouseFamilies() as $family4) { // Gen -1 F
foreach ($family4->children() as $step_step) { // Gen -2 P
$this->addIndividualToFamily( $extendedFamilyPart, $step_step, $family1, self::GROUP_GRANDCHILDREN_STEP_STEP );
}
}
}
}
}
}
}
}
return;
}
/**
* initialize part of extended family (object contains arrays of individuals or families and several counter values)
*
* @param string name of part of extended family
* @return initialized object