melder/vendor/Shapefile/Geometry/Geometry.php

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2024-02-16 15:35:01 +01:00
<?php
/**
* PHP Shapefile - PHP library to read and write ESRI Shapefiles, compatible with WKT and GeoJSON
*
* @package Shapefile
* @author Gaspare Sganga
* @version 3.3.0
* @license MIT
* @link https://gasparesganga.com/labs/php-shapefile/
*/
namespace Shapefile\Geometry;
use Shapefile\Shapefile;
use Shapefile\ShapefileException;
/**
* Abstract base class for all geometries.
* It defines some common public methods and some helper protected functions.
*/
abstract class Geometry
{
/**
* @var array|null Custom bounding box set with setCustomBoundingBox() method.
*/
private $custom_bounding_box = null;
/**
* @var array Data of the Geometry.
*/
private $data = [];
/**
* @var bool Flag representing whether the Geometry is empty.
*/
private $flag_empty = true;
/**
* @var bool Flag representing whether the Geometry has Z dimension.
*/
private $flag_z = false;
/**
* @var bool Flag representing whether the Geometry has M dimension.
*/
private $flag_m = false;
/**
* @var bool Flag representing whether the DBF record is deleted.
*/
private $flag_deleted = false;
/////////////////////////////// ABSTRACT ///////////////////////////////
/**
* Initialize the Geometry with a structured array.
*
* @param array $array Array structured according to Geometry type.
*
* @return self Returns $this to provide a fluent interface.
*/
abstract public function initFromArray($array);
/**
* Initialize the Geometry with WKT.
*
* @param string $wkt WKT string.
*
* @return self Returns $this to provide a fluent interface.
*/
abstract public function initFromWKT($wkt);
/**
* Initialize the Geometry with GeoJSON.
*
* @param string $geojson GeoJSON string.
*
* @return self Returns $this to provide a fluent interface.
*/
abstract public function initFromGeoJSON($geojson);
/**
* Gets the Geometry as a structured array.
*
* @return array
*/
abstract public function getArray();
/**
* Gets the Geometry as WKT.
*
* @return string
*/
abstract public function getWKT();
/**
* Gets the Geometry as GeoJSON.
*
* @param bool $flag_bbox If true include the bounding box in the GeoJSON output.
* @param bool $flag_feature If true output a GeoJSON Feature with all the data.
*
* @return string
*/
abstract public function getGeoJSON($flag_bbox = true, $flag_feature = false);
/**
* Gets Geometry bounding box.
* If a custom one is defined, it will be returned instead of a computed one.
*
* @return array Associative array with the xmin, xmax, ymin, ymax and optional zmin, zmax, mmin, mmax values.
*/
abstract public function getBoundingBox();
/**
* Gets the Shape base type of the Geometry.
* This is not intended for users, but Shapefile requires it for internal mechanisms.
*
* @internal
*
* @return int
*/
abstract public function getSHPBasetype();
/**
* Gets the WKT base type of the Geometry.
*
* @return string
*/
abstract protected function getWKTBasetype();
/**
* Gets the GeoJSON base type of the Geometry.
*
* @return string
*/
abstract protected function getGeoJSONBasetype();
/////////////////////////////// PUBLIC ///////////////////////////////
/**
* Gets the state of the Empty flag.
*
* @return bool
*/
public function isEmpty()
{
return $this->flag_empty;
}
/**
* Gets the state of the Z flag.
*
* @return bool
*/
public function isZ()
{
return $this->flag_z;
}
/**
* Gets the state of the M flag.
*
* @return bool
*/
public function isM()
{
return $this->flag_m;
}
/**
* Gets the state of the Deleted flag.
*
* @return bool
*/
public function isDeleted()
{
return $this->flag_deleted;
}
/**
* Sets the state of the Deleted flag.
*
* @param bool $value
*
* @return self Returns $this to provide a fluent interface.
*/
public function setFlagDeleted($value)
{
$this->flag_deleted = $value;
return $this;
}
/**
* Sets a custom bounding box for the Geometry.
* No check is carried out except a formal compliance of dimensions.
*
* @param array $bounding_box Associative array with the xmin, xmax, ymin, ymax and optional zmin, zmax, mmin, mmax values.
*
* @return self Returns $this to provide a fluent interface.
*/
public function setCustomBoundingBox($bounding_box)
{
$bounding_box = array_intersect_key($bounding_box, array_flip(['xmin', 'xmax', 'ymin', 'ymax', 'zmin', 'zmax', 'mmin', 'mmax']));
if (
$this->isEmpty()
|| !isset($bounding_box['xmin'], $bounding_box['xmax'], $bounding_box['ymin'], $bounding_box['ymax'])
|| (($this->isZ() && !isset($bounding_box['zmin'], $bounding_box['zmax'])) || (!$this->isZ() && (isset($bounding_box['zmin']) || isset($bounding_box['zmax']))))
|| (($this->isM() && !isset($bounding_box['mmin'], $bounding_box['mmax'])) || (!$this->isM() && (isset($bounding_box['mmin']) || isset($bounding_box['mmax']))))
) {
throw new ShapefileException(Shapefile::ERR_GEOM_MISMATCHED_BBOX);
}
$this->custom_bounding_box = $bounding_box;
return $this;
}
/**
* Resets custom bounding box for the Geometry.
* It will cause getBoundingBox() method to return a normally computed bbox instead of a custom one.
*
* @return self Returns $this to provide a fluent interface.
*/
public function resetCustomBoundingBox()
{
$this->custom_bounding_box = null;
return $this;
}
/**
* Gets data value for speficied field name.
*
* @param string $fieldname Name of the field.
*
* @return mixed
*/
public function getData($fieldname)
{
if (!isset($this->data[$fieldname])) {
throw new ShapefileException(Shapefile::ERR_INPUT_FIELD_NOT_FOUND, $fieldname);
}
return $this->data[$fieldname];
}
/**
* Sets data value for speficied field name.
*
* @param string $fieldname Name of the field.
* @param mixed $value Value to assign to the field.
*
* @return self Returns $this to provide a fluent interface.
*/
public function setData($fieldname, $value)
{
$this->data[$fieldname] = $value;
return $this;
}
/**
* Gets an array of defined data.
*
* @return array
*/
public function getDataArray()
{
return $this->data;
}
/**
* Sets an array of data.
*
* @param array $data Associative array of values.
*
* @return self Returns $this to provide a fluent interface.
*/
public function setDataArray($data)
{
foreach ($data as $fieldname => $value) {
$this->data[$fieldname] = $value;
}
return $this;
}
/////////////////////////////// PROTECTED ///////////////////////////////
/**
* Sets the state of the Empty flag.
*
* @param bool $value
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFlagEmpty($value)
{
$this->flag_empty = $value;
return $this;
}
/**
* Sets the state of the Z flag.
*
* @param bool $value
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFlagZ($value)
{
$this->flag_z = $value;
return $this;
}
/**
* Sets the state of the M flag.
*
* @param bool $value
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFlagM($value)
{
$this->flag_m = $value;
return $this;
}
/**
* Checks if the Geometry has been initialized (it is not empty) and if YES throws an exception.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function checkInit()
{
if (!$this->isEmpty()) {
throw new ShapefileException(Shapefile::ERR_GEOM_NOT_EMPTY);
}
return $this;
}
/**
* Gets the custom bounding box.
*
* @return array
*
* @return self Returns $this to provide a fluent interface.
*/
protected function getCustomBoundingBox()
{
return $this->custom_bounding_box;
return $this;
}
/**
* Sanitize WKT.
* It attempts to sanitize user-provided WKT and throws an exception if it appears to be invalid.
*
* @param string $wkt The WKT to sanitize.
*
* @return string Sanitized WKT.
*/
protected function wktSanitize($wkt)
{
// Normalize whitespaces
$wkt = strtoupper(preg_replace('/\s+/', ' ', trim($wkt)));
// Normalize commas
$wkt = str_replace(array(', ', ' ,'), ',', $wkt);
// Check basetype
if (substr($wkt, 0, strlen($this->getWKTBasetype())) != strtoupper($this->getWKTBasetype())) {
throw new ShapefileException(Shapefile::ERR_INPUT_WKT_NOT_VALID);
}
return $wkt;
}
/**
* Checks if WKT represents an empty Geometry.
*
* @param string $wkt
*
* @return bool
*/
protected function wktIsEmpty($wkt)
{
return substr($wkt, -5) == 'EMPTY';
}
/**
* Checks if WKT represents a Geometry that has a Z dimension.
*
* @param string $wkt The whole sanitized WKT.
*
* @return bool
*/
protected function wktIsZ($wkt)
{
return strpos(trim(substr($wkt, strlen($this->getWKTBasetype()), 3)), 'Z') !== false;
}
/**
* Checks if WKT represents a Geometry that has a M dimension.
*
* @param string $wkt The whole sanitized WKT.
*
* @return bool
*/
protected function wktIsM($wkt)
{
return strpos(trim(substr($wkt, strlen($this->getWKTBasetype()), 3)), 'M') !== false;
}
/**
* Extracts data from WKT.
*
* @param string $wkt The whole sanitized WKT.
*
* @return string
*/
protected function wktExtractData($wkt)
{
if ($this->wktIsEmpty($wkt)) {
return null;
}
$begin = strpos($wkt, '(');
if ($begin === false) {
throw new ShapefileException(ERR_INPUT_WKT_NOT_VALID);
}
$end = strrpos($wkt, ')');
if ($end === false) {
throw new ShapefileException(ERR_INPUT_WKT_NOT_VALID);
}
return trim(substr($wkt, $begin + 1, $end - $begin - 1));
}
/**
* Parse a group of WKT coordinates into an associative array.
* Refer to parseCoordinatesArray() method for output details.
*
* @param string $coordinates_string The WKT coordinates group.
* @param bool $force_z Flag to enforce the presence of Z dimension.
* @param bool $force_m Flag to enforce the presence of M dimension.
*
* @return array
*/
protected function wktParseCoordinates($coordinates_string, $force_z, $force_m)
{
return $this->parseCoordinatesArray(explode(' ', trim($coordinates_string)), $force_z, $force_m, Shapefile::ERR_INPUT_WKT_NOT_VALID);
}
/**
* Returns an initialized WKT according to the Geometry properties.
*
* @return string
*/
protected function wktInitializeOutput()
{
$ret = $this->getWKTBasetype();
if ($this->isEmpty()) {
$ret .= ' EMPTY';
} else {
$ret .= ($this->isZ() ? 'Z' : '') . ($this->isM() ? 'M' : '');
}
return $ret;
}
/**
* Return sanitized GeoJSON, keeping just the geometry part.
* It attempts to sanitize user-provided GeoJSON and throws an exception if it appears to be invalid.
*
* @param string $geojson The GeoJSON to sanitize.
*
* @return string
*/
protected function geojsonSanitize($geojson)
{
$geojson = json_decode($geojson, true);
// If it is null it means "an empty Geometry"
if ($geojson === null) {
return null;
}
// If it is a Feature just keep the Geometry part
if (isset($geojson['geometry'])) {
$geojson = $geojson['geometry'];
}
// Check if "type" and "coordinates" are defined
if (!isset($geojson['type'], $geojson['coordinates'])) {
throw new ShapefileException(Shapefile::ERR_INPUT_GEOJSON_NOT_VALID);
}
// Check if "type" is consistent with current Geometry
if (substr(strtoupper(trim($geojson['type'])), 0, strlen($this->getGeoJSONBasetype())) != strtoupper($this->getGeoJSONBasetype())) {
throw new ShapefileException(Shapefile::ERR_INPUT_GEOJSON_NOT_VALID);
}
return $geojson;
}
/**
* Checks if GeoJSON type represents a Geometry that has a M dimension.
*
* @param string $type The type speficied in the GeoJSON.
*
* @return bool
*/
protected function geojsonIsM($type)
{
return substr($type, -1) == 'M';
}
/**
* Parse an array of GeoJSON coordinates into an associative array.
* Refer to parseCoordinatesArray() method for output details.
*
* @param string $coordinates_array GeoJSON coordinates array.
* @param bool $force_m Flag to enforce the presence of M dimension.
*
* @return array
*/
protected function geojsonParseCoordinates($coordinates_array, $force_m)
{
return $this->parseCoordinatesArray($coordinates_array, false, $force_m, Shapefile::ERR_INPUT_GEOJSON_NOT_VALID);
}
/**
* Builds valid GeoJSON starting from raw coordinates.
*
* @param array $coordinates GeoJSON coordinates array.
* @param bool $flag_bbox If true include the bounding box in the GeoJSON output.
* @param bool $flag_feature If true output a GeoJSON Feature with all the data.
*
* @return array
*/
protected function geojsonPackOutput($coordinates, $flag_bbox, $flag_feature)
{
$ret = [];
// Type
$ret['type'] = $this->getGeoJSONBasetype() . ($this->isM() ? 'M' : '');
// Bounding box
if ($flag_bbox) {
$ret['bbox'] = [];
$bbox = $this->getBoundingBox();
$ret['bbox'][] = $bbox['xmin'];
$ret['bbox'][] = $bbox['ymin'];
if ($this->isZ()) {
$ret['bbox'][] = $bbox['zmin'];
}
if ($this->isM()) {
$ret['bbox'][] = $bbox['mmin'];
}
$ret['bbox'][] = $bbox['xmax'];
$ret['bbox'][] = $bbox['ymax'];
if ($this->isZ()) {
$ret['bbox'][] = $bbox['zmax'];
}
if ($this->isM()) {
$ret['bbox'][] = $bbox['mmax'];
}
}
// Coordinates
$ret['coordinates'] = $coordinates;
// Feature
if ($flag_feature) {
$ret = [
'type' => 'Feature',
'geometry' => $ret,
'properties' => $this->data,
];
}
return json_encode($ret);
}
/////////////////////////////// PRIVATE ///////////////////////////////
/**
* Parses an indexed array of coordinates and returns an associative one in the form of:
* [
* "x" => float
* "y" => float
* "z" => float|null
* "m" => float|null
* ]
*
* @param float[] $coordinates The indexed array of coordinates to parse.
* @param bool $force_z Flag to enforce the presence of Z dimension.
* @param bool $force_m Flag to enforce the presence of M dimension.
* @param int $err_code Error code to throw an exception in case of invalid input.
*
* @return array
*/
private function parseCoordinatesArray($coordinates, $force_z, $force_m, $err_code)
{
$count = count($coordinates);
if (
$count < 2 ||
(($force_z || $force_m) && $count < 3) ||
($force_z && $force_m && $count < 4) ||
$count > 4
) {
throw new ShapefileException($err_code);
}
$ret = [
'x' => $coordinates[0],
'y' => $coordinates[1],
'z' => null,
'm' => null,
];
if ($count == 3) {
if ($force_m) {
$ret['m'] = $coordinates[2];
} else {
$ret['z'] = $coordinates[2];
}
}
if ($count == 4) {
$ret['z'] = $coordinates[2];
$ret['m'] = $coordinates[3];
}
return $ret;
}
}