melder/vendor/Shapefile/Shapefile.php

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<?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;
/**
* Abstract base class for ShapefileReader and ShapefileWriter.
* It provides some common public methods to both of them and exposes package-wide constants.
*
* Efforts have been made all throughout the library to keep it compatible with an audience
* as broader as possible and some "stylistic tradeoffs" here and there were necessary to support PHP 5.4.
*/
abstract class Shapefile
{
/////////////////////////////// PUBLIC CONSTANTS ///////////////////////////////
/** Actions */
const ACTION_IGNORE = 0;
const ACTION_CHECK = 1;
const ACTION_FORCE = 2;
/** DBF fields types */
const DBF_TYPE_CHAR = 'C';
const DBF_TYPE_DATE = 'D';
const DBF_TYPE_LOGICAL = 'L';
const DBF_TYPE_MEMO = 'M';
const DBF_TYPE_NUMERIC = 'N';
const DBF_TYPE_FLOAT = 'F';
/** File types */
const FILE_SHP = 'shp';
const FILE_SHX = 'shx';
const FILE_DBF = 'dbf';
const FILE_DBT = 'dbt';
const FILE_PRJ = 'prj';
const FILE_CPG = 'cpg';
/** Return formats */
const FORMAT_INT = 0;
const FORMAT_STR = 1;
/** File modes */
const MODE_PRESERVE = 0;
const MODE_OVERWRITE = 1;
const MODE_APPEND = 2;
/** Polygon orientations */
const ORIENTATION_CLOCKWISE = 0;
const ORIENTATION_COUNTERCLOCKWISE = 1;
const ORIENTATION_UNCHANGED = 2;
/** Shape types */
const SHAPE_TYPE_NULL = 0;
const SHAPE_TYPE_POINT = 1;
const SHAPE_TYPE_POLYLINE = 3;
const SHAPE_TYPE_POLYGON = 5;
const SHAPE_TYPE_MULTIPOINT = 8;
const SHAPE_TYPE_POINTZ = 11;
const SHAPE_TYPE_POLYLINEZ = 13;
const SHAPE_TYPE_POLYGONZ = 15;
const SHAPE_TYPE_MULTIPOINTZ = 18;
const SHAPE_TYPE_POINTM = 21;
const SHAPE_TYPE_POLYLINEM = 23;
const SHAPE_TYPE_POLYGONM = 25;
const SHAPE_TYPE_MULTIPOINTM = 28;
/** Misc */
const EOF = 0;
const UNDEFINED = null;
/////////////////////////////// OPTIONS ///////////////////////////////
/**
* Number of records to keep into buffer before writing them.
* Use a value equal or less than 0 to keep all records into buffer and write them at once.
* ShapefileWriter
* @var int
*/
const OPTION_BUFFERED_RECORDS = 'OPTION_BUFFERED_RECORDS';
const OPTION_BUFFERED_RECORDS_DEFAULT = 10;
/**
* Converts from input charset to UTF-8 all strings read from DBF files.
* ShapefileWriter
* @var bool
*/
const OPTION_CPG_ENABLE_FOR_DEFAULT_CHARSET = 'OPTION_CPG_ENABLE_FOR_DEFAULT_CHARSET';
const OPTION_CPG_ENABLE_FOR_DEFAULT_CHARSET_DEFAULT = false;
/**
* Allows a maximum field size of 255 bytes instead of 254 bytes in DBF files.
* ShapefileReader and ShapefileWriter
* @var bool
*/
const OPTION_DBF_ALLOW_FIELD_SIZE_255 = 'OPTION_DBF_ALLOW_FIELD_SIZE_255';
const OPTION_DBF_ALLOW_FIELD_SIZE_255_DEFAULT = false;
/**
* Converts from input charset to UTF-8 all strings read from DBF files.
* ShapefileReader
* @var bool
*/
const OPTION_DBF_CONVERT_TO_UTF8 = 'OPTION_DBF_CONVERT_TO_UTF8';
const OPTION_DBF_CONVERT_TO_UTF8_DEFAULT = true;
/**
* Forces all capitals field names in DBF files.
* ShapefileReader and ShapefileWriter
* @var bool
*/
const OPTION_DBF_FORCE_ALL_CAPS = 'OPTION_DBF_FORCE_ALL_CAPS';
const OPTION_DBF_FORCE_ALL_CAPS_DEFAULT = true;
/**
* Ignored fields in DBF file.
* An array of fields to ignore when reading the DBF file.
* ShapefileReader
* @var array|null
*/
const OPTION_DBF_IGNORED_FIELDS = 'OPTION_DBF_IGNORED_FIELDS';
const OPTION_DBF_IGNORED_FIELDS_DEFAULT = null;
/**
* Defines a null padding character to represent null values in DBF files.
* ShapefileReader and ShapefileWriter
* @var string|null
*/
const OPTION_DBF_NULL_PADDING_CHAR = 'OPTION_DBF_NULL_PADDING_CHAR';
const OPTION_DBF_NULL_PADDING_CHAR_DEFAULT = null;
/**
* Returns a null value for invalid dates when reading DBF files and nullify invalid dates when writing them.
* ShapefileReader and ShapefileWriter
* @var bool
*/
const OPTION_DBF_NULLIFY_INVALID_DATES = 'OPTION_DBF_NULLIFY_INVALID_DATES';
const OPTION_DBF_NULLIFY_INVALID_DATES_DEFAULT = true;
/**
* Returns dates as DateTime objects instead of ISO strings (YYYY-MM-DD).
* ShapefileReader
* @var bool
*/
const OPTION_DBF_RETURN_DATES_AS_OBJECTS = 'OPTION_DBF_RETURN_DATES_AS_OBJECTS';
const OPTION_DBF_RETURN_DATES_AS_OBJECTS_DEFAULT = false;
/**
* Deletes empty files after closing them (only if they were passed as resource handles).
* ShapefileWriter
* @var bool
*/
const OPTION_DELETE_EMPTY_FILES = 'OPTION_DELETE_EMPTY_FILES';
const OPTION_DELETE_EMPTY_FILES_DEFAULT = true;
/**
* Enforces Geometries to have all data fields defined in Shapefile.
* ShapefileWriter
* @var bool
*/
const OPTION_ENFORCE_GEOMETRY_DATA_STRUCTURE = 'OPTION_ENFORCE_GEOMETRY_DATA_STRUCTURE';
const OPTION_ENFORCE_GEOMETRY_DATA_STRUCTURE_DEFAULT = true;
/**
* Defines behaviour with existing files with the same name.
* Possible values:
* MODE_PRESERVE : Throws Shapefile::ERR_FILE_EXISTS
* MODE_OVERWRITE : Overwrites existing files
* MODE_APPEND : Appends new records to existing files
* ShapefileWriter
* @var int
*/
const OPTION_EXISTING_FILES_MODE = 'OPTION_EXISTING_FILES_MODE';
const OPTION_EXISTING_FILES_MODE_DEFAULT = self::MODE_PRESERVE;
/**
* Reads all Polyline and Polygon Geometries as Multi.
* ShapefileReader
* @var bool
*/
const OPTION_FORCE_MULTIPART_GEOMETRIES = 'OPTION_FORCE_MULTIPART_GEOMETRIES';
const OPTION_FORCE_MULTIPART_GEOMETRIES_DEFAULT = false;
/**
* Ignores Geometries bounding box found in Shapefile.
* ShapefileReader
* @var bool
*/
const OPTION_IGNORE_GEOMETRIES_BBOXES = 'OPTION_IGNORE_GEOMETRIES_BBOXES';
const OPTION_IGNORE_GEOMETRIES_BBOXES_DEFAULT = false;
/**
* Ignores bounding box found in Shapefile.
* ShapefileReader
* @var bool
*/
const OPTION_IGNORE_SHAPEFILE_BBOX = 'OPTION_IGNORE_SHAPEFILE_BBOX';
const OPTION_IGNORE_SHAPEFILE_BBOX_DEFAULT = false;
/**
* Defines action to perform on Polygons rings.
* They should be closed but some software don't enforce that, creating uncompliant Shapefiles.
* Possible values:
* Shapefile::ACTION_IGNORE : No action taken
* Shapefile::ACTION_CHECK : Checks for open rings and eventually throws Shapefile::ERR_GEOM_POLYGON_OPEN_RING
* Shapefile::ACTION_FORCE : Forces all rings to be closed in Polygons
* ShapefileReader
* @var int
*/
const OPTION_POLYGON_CLOSED_RINGS_ACTION = 'OPTION_POLYGON_CLOSED_RINGS_ACTION';
const OPTION_POLYGON_CLOSED_RINGS_ACTION_DEFAULT = self::ACTION_CHECK;
/**
* Allows Polygons orientation to be either clockwise or counterclockwise when reading Shapefiles.
* Set to false to enforce strict ESRI Shapefile specs (clockwise outer rings and counterclockwise inner ones)
* and raise a Shapefile::ERR_GEOM_POLYGON_WRONG_ORIENTATION error for uncompliant Shapefiles.
* ShapefileReader
* @var bool
*/
const OPTION_POLYGON_ORIENTATION_READING_AUTOSENSE = 'OPTION_POLYGON_ORIENTATION_READING_AUTOSENSE';
const OPTION_POLYGON_ORIENTATION_READING_AUTOSENSE_DEFAULT = true;
/**
* Forces a specific orientation for Polygons after reading them.
* ESRI Shapefile specs establish clockwise orientation for outer rings and counterclockwise for inner ones,
* GeoJSON require the opposite (counterclockwise outer rings and clockwise inner ones)
* and Simple Features used to be the same as GeoJSON but is currently allowing both.
* Possible values:
* Shapefile::ORIENTATION_CLOCKWISE : Forces clockwise outer ring and counterclockwise inner rings
* Shapefile::ORIENTATION_COUNTERCLOCKWISE : Forces counterclockwise outer ring and clockwise inner rings
* Shapefile::ORIENTATION_UNCHANGED : Preserves original Shapefile orientation depending on file
* ShapefileReader
* @var int
*/
const OPTION_POLYGON_OUTPUT_ORIENTATION = 'OPTION_POLYGON_OUTPUT_ORIENTATION';
const OPTION_POLYGON_OUTPUT_ORIENTATION_DEFAULT = self::ORIENTATION_COUNTERCLOCKWISE;
/**
* Suppresses M dimension.
* ShapefileReader and ShapefileWriter
* @var bool
*/
const OPTION_SUPPRESS_M = 'OPTION_SUPPRESS_M';
const OPTION_SUPPRESS_M_DEFAULT = false;
/**
* Suppresses Z dimension.
* ShapefileReader and ShapefileWriter
* @var bool
*/
const OPTION_SUPPRESS_Z = 'OPTION_SUPPRESS_Z';
const OPTION_SUPPRESS_Z_DEFAULT = false;
/////////////////////////////// ERRORS ///////////////////////////////
const ERR_UNDEFINED = 'ERR_UNDEFINED';
const ERR_UNDEFINED_MESSAGE = "Undefined error.";
const ERR_FILE_MISSING = 'ERR_FILE_MISSING';
const ERR_FILE_MISSING_MESSAGE = "A required file is missing";
const ERR_FILE_EXISTS = 'ERR_FILE_EXISTS';
const ERR_FILE_EXISTS_MESSAGE = "Check if the file exists and is readable and/or writable";
const ERR_FILE_INVALID_RESOURCE = 'ERR_FILE_INVALID_RESOURCE';
const ERR_FILE_INVALID_RESOURCE_MESSAGE = "File pointer resource not valid";
const ERR_FILE_OPEN = 'ERR_FILE_OPEN';
const ERR_FILE_OPEN_MESSAGE = "Unable to open file";
const ERR_FILE_READING = 'ERR_FILE_READING';
const ERR_FILE_READING_MESSAGE = "Error during binary file reading";
const ERR_FILE_WRITING = 'ERR_FILE_WRITING';
const ERR_FILE_WRITING_MESSAGE = "Error during binary file writing";
const ERR_SHP_TYPE_NOT_SUPPORTED = 'ERR_SHP_TYPE_NOT_SUPPORTED';
const ERR_SHP_TYPE_NOT_SUPPORTED_MESSAGE = "Shape type not supported";
const ERR_SHP_TYPE_NOT_SET = 'ERR_SHP_TYPE_NOT_SET';
const ERR_SHP_TYPE_NOT_SET_MESSAGE = "Shape type not set";
const ERR_SHP_TYPE_ALREADY_SET = 'ERR_SHP_TYPE_ALREADY_SET';
const ERR_SHP_TYPE_ALREADY_SET_MESSAGE = "Shape type has already been set";
const ERR_SHP_GEOMETRY_TYPE_NOT_COMPATIBLE = 'ERR_SHP_GEOMETRY_TYPE_NOT_COMPATIBLE';
const ERR_SHP_GEOMETRY_TYPE_NOT_COMPATIBLE_MESSAGE = "Geometry type must be compatible with Shapefile shape type";
const ERR_SHP_MISMATCHED_BBOX = 'ERR_SHP_MISMATCHED_BBOX';
const ERR_SHP_MISMATCHED_BBOX_MESSAGE = "Bounding box must have the same dimensions as the Shapefile (2D, 3D or 4D)";
const ERR_SHP_FILE_ALREADY_INITIALIZED = 'ERR_SHP_FILE_ALREADY_INITIALIZED';
const ERR_SHP_FILE_ALREADY_INITIALIZED_MESSAGE = "Cannot change Shapefile definition after it has been initialized with data";
const ERR_SHP_WRONG_RECORD_TYPE = 'ERR_SHP_WRONG_RECORD_TYPE';
const ERR_SHP_WRONG_RECORD_TYPE_MESSAGE = "Wrong record shape type";
const ERR_DBF_FILE_NOT_VALID = 'ERR_DBF_FILE_NOT_VALID';
const ERR_DBF_FILE_NOT_VALID_MESSAGE = "DBF file doesn't seem to be a valid dBase III or dBase IV format";
const ERR_DBF_MISMATCHED_FILE = 'ERR_DBF_MISMATCHED_FILE';
const ERR_DBF_MISMATCHED_FILE_MESSAGE = "Mismatched DBF file. Number of records not corresponding to the SHP file";
const ERR_DBF_EOF_REACHED = 'ERR_DBF_EOF_REACHED';
const ERR_DBF_EOF_REACHED_MESSAGE = "End of DBF file reached. Number of records not corresponding to the SHP file";
const ERR_DBF_MAX_FIELD_COUNT_REACHED = 'ERR_DBF_MAX_FIELD_COUNT_REACHED';
const ERR_DBF_MAX_FIELD_COUNT_REACHED_MESSAGE = "Cannot add other fields, maximum number of fields in a DBF file reached";
const ERR_DBF_FIELD_NAME_NOT_VALID = 'ERR_DBF_FIELD_NAME_NOT_VALID';
const ERR_DBF_FIELD_NAME_NOT_VALID_MESSAGE = "Too many field names conflicting";
const ERR_DBF_FIELD_TYPE_NOT_VALID = 'ERR_DBF_FIELD_TYPE_NOT_VALID';
const ERR_DBF_FIELD_TYPE_NOT_VALID_MESSAGE = "Field type must be CHAR, DATE, LOGICAL, MEMO or NUMERIC";
const ERR_DBF_FIELD_SIZE_NOT_VALID = 'ERR_DBF_FIELD_SIZE_NOT_VALID';
const ERR_DBF_FIELD_SIZE_NOT_VALID_MESSAGE = "Field size incorrect according to its type";
const ERR_DBF_FIELD_DECIMALS_NOT_VALID = 'ERR_DBF_FIELD_DECIMALS_NOT_VALID';
const ERR_DBF_FIELD_DECIMALS_NOT_VALID_MESSAGE = "Field decimals incorrect according to its type";
const ERR_DBF_CHARSET_CONVERSION = 'ERR_DBF_CHARSET_CONVERSION';
const ERR_DBF_CHARSET_CONVERSION_MESSAGE = "Error during conversion from provided DBF input charset to UTF-8";
const ERR_DBT_EOF_REACHED = 'ERR_DBT_EOF_REACHED';
const ERR_DBT_EOF_REACHED_MESSAGE = "End of DBT file reached. File might be corrupted";
const ERR_GEOM_NOT_EMPTY = 'ERR_GEOM_NOT_EMPTY';
const ERR_GEOM_NOT_EMPTY_MESSAGE = "Cannot reinitialize non-empty Geometry";
const ERR_GEOM_COORD_VALUE_NOT_VALID = 'ERR_GEOM_COORD_VALUE_NOT_VALID';
const ERR_GEOM_COORD_VALUE_NOT_VALID_MESSAGE = "Invalid coordinate value";
const ERR_GEOM_MISMATCHED_DIMENSIONS = 'ERR_GEOM_MISMATCHED_DIMENSIONS';
const ERR_GEOM_MISMATCHED_DIMENSIONS_MESSAGE = "All geometries in a collection must have the same dimensions (2D, 3D or 4D)";
const ERR_GEOM_MISMATCHED_BBOX = 'ERR_GEOM_MISMATCHED_BBOX';
const ERR_GEOM_MISMATCHED_BBOX_MESSAGE = "Bounding box must have the same dimensions as the Geometry (2D, 3D or 4D)";
const ERR_GEOM_MISSING_FIELD = 'ERR_GEOM_MISSING_FIELD';
const ERR_GEOM_MISSING_FIELD_MESSAGE = "Geometry is missing a field defined in the Shapefile";
const ERR_GEOM_POINT_NOT_VALID = 'ERR_GEOM_POINT_NOT_VALID';
const ERR_GEOM_POINT_NOT_VALID_MESSAGE = "A Point can be either EMPTY or al least 2D";
const ERR_GEOM_POLYGON_OPEN_RING = 'ERR_GEOM_POLYGON_OPEN_RING';
const ERR_GEOM_POLYGON_OPEN_RING_MESSAGE = "Polygons cannot contain open rings";
const ERR_GEOM_POLYGON_WRONG_ORIENTATION = 'ERR_GEOM_POLYGON_WRONG_ORIENTATION';
const ERR_GEOM_POLYGON_WRONG_ORIENTATION_MESSAGE = "Polygon orientation not compliant with Shapefile specifications";
const ERR_GEOM_RING_AREA_TOO_SMALL = 'ERR_GEOM_RING_AREA_TOO_SMALL';
const ERR_GEOM_RING_AREA_TOO_SMALL_MESSAGE = "Ring area too small. Cannot determine ring orientation";
const ERR_GEOM_RING_NOT_ENOUGH_VERTICES = 'ERR_GEOM_RING_NOT_ENOUGH_VERTICES';
const ERR_GEOM_RING_NOT_ENOUGH_VERTICES_MESSAGE = "Not enough vertices. Cannot determine ring orientation";
const ERR_INPUT_RECORD_NOT_FOUND = 'ERR_INPUT_RECORD_NOT_FOUND';
const ERR_INPUT_RECORD_NOT_FOUND_MESSAGE = "Record index not found (check the total number of records in the SHP file)";
const ERR_INPUT_FIELD_NOT_FOUND = 'ERR_INPUT_FIELD_NOT_FOUND';
const ERR_INPUT_FIELD_NOT_FOUND_MESSAGE = "Field not found";
const ERR_INPUT_GEOMETRY_TYPE_NOT_VALID = 'ERR_INPUT_GEOMETRY_TYPE_NOT_VALID';
const ERR_INPUT_GEOMETRY_TYPE_NOT_VALID_MESSAGE = "Geometry type not valid. Must be of specified type";
const ERR_INPUT_GEOMETRY_INDEX_NOT_VALID = 'ERR_INPUT_GEOMETRY_INDEX_NOT_VALID';
const ERR_INPUT_GEOMETRY_INDEX_NOT_VALID_MESSAGE = "Geometry index not valid (check the total number of geometries in the collection)";
const ERR_INPUT_ARRAY_NOT_VALID = 'ERR_INPUT_ARRAY_NOT_VALID';
const ERR_INPUT_ARRAY_NOT_VALID_MESSAGE = "Array not valid";
const ERR_INPUT_WKT_NOT_VALID = 'ERR_INPUT_WKT_NOT_VALID';
const ERR_INPUT_WKT_NOT_VALID_MESSAGE = "WKT not valid";
const ERR_INPUT_GEOJSON_NOT_VALID = 'ERR_INPUT_GEOJSON_NOT_VALID';
const ERR_INPUT_GEOJSON_NOT_VALID_MESSAGE = "GeoJSON not valid";
const ERR_INPUT_NUMERIC_VALUE_OVERFLOW = 'ERR_INPUT_NUMERIC_VALUE_OVERFLOW';
const ERR_INPUT_NUMERIC_VALUE_OVERFLOW_MESSAGE = "Integer value overflows field size definition";
/////////////////////////////// DEPRECATED CONSTANTS ///////////////////////////////
/**
* @deprecated This option was deprecated with v3.3.0 and will disappear in the next releases.
* Use OPTION_POLYGON_CLOSED_RINGS_ACTION instead.
*/
const OPTION_ENFORCE_POLYGON_CLOSED_RINGS = 'OPTION_ENFORCE_POLYGON_CLOSED_RINGS';
/**
* @deprecated This option was deprecated with v3.3.0 and will disappear in the next releases.
* Use OPTION_POLYGON_OUTPUT_ORIENTATION instead.
*/
const OPTION_INVERT_POLYGONS_ORIENTATION = 'OPTION_INVERT_POLYGONS_ORIENTATION';
/**
* @deprecated This constant was deprecated with v3.3.0 and will disappear in the next releases.
* Use ERR_GEOM_RING_AREA_TOO_SMALL instead.
*/
const ERR_GEOM_POLYGON_AREA_TOO_SMALL = 'ERR_GEOM_RING_AREA_TOO_SMALL';
/**
* @deprecated This constant was deprecated with v3.3.0 and will disappear in the next releases.
* Use ERR_GEOM_POLYGON_WRONG_ORIENTATION instead.
*/
const ERR_GEOM_POLYGON_NOT_VALID = 'ERR_GEOM_POLYGON_WRONG_ORIENTATION';
/////////////////////////////// INTERNAL CONSTANTS ///////////////////////////////
/** SHP files constants */
const SHP_FILE_CODE = 9994;
const SHP_HEADER_SIZE = 100;
const SHP_NO_DATA_THRESHOLD = -1e38;
const SHP_NO_DATA_VALUE = -1e40;
const SHP_VERSION = 1000;
/** SHX files constants */
const SHX_HEADER_SIZE = 100;
const SHX_RECORD_SIZE = 8;
/** DBF files constants */
const DBF_BLANK = 0x20;
const DBF_DEFAULT_CHARSET = 'ISO-8859-1';
const DBF_DELETED_MARKER = 0x2a;
const DBF_EOF_MARKER = 0x1a;
const DBF_FIELD_TERMINATOR = 0x0d;
const DBF_MAX_FIELD_COUNT = 255;
const DBF_VALUE_MASK_TRUE = 'TtYy';
const DBF_VALUE_FALSE = 'F';
const DBF_VALUE_NULL = '?';
const DBF_VALUE_TRUE = 'T';
const DBF_VERSION = 0x03;
const DBF_VERSION_WITH_DBT = 0x83;
/** DBT files constants */
const DBT_BLOCK_SIZE = 512;
const DBT_FIELD_TERMINATOR = 0x1a;
/** Shape types text description */
public static $shape_types = [
self::SHAPE_TYPE_NULL => 'Null Shape',
self::SHAPE_TYPE_POINT => 'Point',
self::SHAPE_TYPE_POLYLINE => 'PolyLine',
self::SHAPE_TYPE_POLYGON => 'Polygon',
self::SHAPE_TYPE_MULTIPOINT => 'MultiPoint',
self::SHAPE_TYPE_POINTZ => 'PointZ',
self::SHAPE_TYPE_POLYLINEZ => 'PolyLineZ',
self::SHAPE_TYPE_POLYGONZ => 'PolygonZ',
self::SHAPE_TYPE_MULTIPOINTZ => 'MultiPointZ',
self::SHAPE_TYPE_POINTM => 'PointM',
self::SHAPE_TYPE_POLYLINEM => 'PolyLineM',
self::SHAPE_TYPE_POLYGONM => 'PolygonM',
self::SHAPE_TYPE_MULTIPOINTM => 'MultiPointM',
];
/////////////////////////////// PRIVATE VARIABLES ///////////////////////////////
/**
* @var int|null Shapefile type.
*/
private $shape_type = null;
/**
* @var array|null Custom bounding box set with setCustomBoundingBox() method.
*/
private $custom_bounding_box = null;
/**
* @var array|null Computed bounding box.
*/
private $computed_bounding_box = null;
/**
* @var string|null PRJ well-known-text.
*/
private $prj = null;
/**
* @var string|null DBF charset.
*/
private $charset = null;
/**
* @var array Fields definition.
* Every field is represented by an array with the following structure:
* [
* "type" => string
* "size" => int
* "decimals" => int
* ]
*/
private $fields = [];
/**
* @var array Array of file pointer resource handles.
*/
private $files = [];
/**
* @var array Array of canonicalized absolute pathnames of open files.
* It will be populated only if files are NOT passed as stream resources.
*/
private $filenames = [];
/**
* @var array Options.
*/
private $options = [];
/**
* @var int Total number of records.
*/
private $tot_records;
/**
* @var bool|null Flag to store whether the machine is big endian or not.
*/
private $flag_big_endian_machine = null;
/**
* @var bool Flag representing whether the Shapefile has been initialized with any Geometry or not.
*/
private $flag_initialized = false;
/////////////////////////////// PUBLIC ///////////////////////////////
/**
* Checks if Shapefile is of type Z.
*
* @return bool
*/
public function isZ()
{
$shape_type = $this->getShapeType(Shapefile::FORMAT_INT);
return $shape_type > 10 && $shape_type < 20;
}
/**
* Checks if Shapefile is of type M.
*
* @return bool
*/
public function isM()
{
return $this->getShapeType(Shapefile::FORMAT_INT) > 10;
}
/**
* Gets shape type either as integer or string.
*
* @param int $format Optional desired output format.
* It can be on of the following:
* - Shapefile::FORMAT_INT [default]
* - Shapefile::FORMAT_STR
*
* @return int|string
*/
public function getShapeType($format = Shapefile::FORMAT_INT)
{
if ($this->shape_type === null) {
throw new ShapefileException(Shapefile::ERR_SHP_TYPE_NOT_SET);
}
if ($format == Shapefile::FORMAT_STR) {
return Shapefile::$shape_types[$this->shape_type];
} else {
return $this->shape_type;
}
}
/**
* Gets Shapefile bounding box.
*
* @return array
*/
public function getBoundingBox()
{
return $this->custom_bounding_box ?: $this->computed_bounding_box;
}
/**
* Gets PRJ well-known-text.
*
* @return string
*/
public function getPRJ()
{
return $this->prj;
}
/**
* Gets DBF charset.
*
* @return string
*/
public function getCharset()
{
return $this->charset ?: Shapefile::DBF_DEFAULT_CHARSET;
}
/**
* Sets or resets DBF charset.
*
* @param mixed $charset Name of the charset.
* Pass a falsy value (eg. false or "") to reset it to default.
*
* @return self Returns $this to provide a fluent interface.
*/
public function setCharset($charset)
{
$this->charset = $charset ?: Shapefile::DBF_DEFAULT_CHARSET;
return $this;
}
/**
* Gets all fields names.
*
* @return array
*/
public function getFieldsNames()
{
return array_keys($this->fields);
}
/**
* Gets all fields definitions.
*
* @return array
*/
public function getFields()
{
return $this->fields;
}
/**
* Gets a field type.
*
* @param string $name Name of the field.
*
* @return string
*/
public function getFieldType($name)
{
return $this->getField($name)['type'];
}
/**
* Gets a field size.
*
* @param string $name Name of the field.
*
* @return int
*/
public function getFieldSize($name)
{
return $this->getField($name)['size'];
}
/**
* Gets a field decimals.
*
* @param string $name Name of the field.
*
* @return int
*/
public function getFieldDecimals($name)
{
return $this->getField($name)['decimals'];
}
/**
* Gets a complete field definition.
*
* The returned array contains the following elements:
* [
* "type" => string
* "size" => int
* "decimals" => int
* ]
*
* @param string $name Name of the field.
*
* @return array
*/
public function getField($name)
{
$name = $this->normalizeDBFFieldNameCase($name);
if (!isset($this->fields[$name])) {
throw new ShapefileException(Shapefile::ERR_INPUT_FIELD_NOT_FOUND, $name);
}
return $this->fields[$name];
}
/**
* Gets total number of records in SHP and DBF files.
*
* @return int
*/
public function getTotRecords()
{
return $this->tot_records;
}
/////////////////////////////// PROTECTED ///////////////////////////////
/**
* Opens file pointer resource handles to specified files with binary read or write access.
*
* (Filenames are mapped here because files are closed in destructors and working directory may be different!)
*
* @param string|array $files Path to SHP file / Array of paths / Array of resource handles of individual files.
* @param bool $write_access Access type: false = read; true = write.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function openFiles($files, $write_access)
{
// Create $files array from single string (SHP filename)
if (is_string($files)) {
$basename = (substr($files, -4) == '.' . Shapefile::FILE_SHP) ? substr($files, 0, -4) : $files;
$files = [
Shapefile::FILE_SHP => $basename . '.' . Shapefile::FILE_SHP,
Shapefile::FILE_SHX => $basename . '.' . Shapefile::FILE_SHX,
Shapefile::FILE_DBF => $basename . '.' . Shapefile::FILE_DBF,
Shapefile::FILE_DBT => $basename . '.' . Shapefile::FILE_DBT,
Shapefile::FILE_PRJ => $basename . '.' . Shapefile::FILE_PRJ,
Shapefile::FILE_CPG => $basename . '.' . Shapefile::FILE_CPG,
];
}
// Make sure required files are specified
if (!is_array($files) || !isset($files[Shapefile::FILE_SHP])) {
throw new ShapefileException(Shapefile::ERR_FILE_MISSING, strtoupper(Shapefile::FILE_SHP));
}
if (!is_array($files) || !isset($files[Shapefile::FILE_SHX])) {
throw new ShapefileException(Shapefile::ERR_FILE_MISSING, strtoupper(Shapefile::FILE_SHX));
}
if (!is_array($files) || !isset($files[Shapefile::FILE_DBF])) {
throw new ShapefileException(Shapefile::ERR_FILE_MISSING, strtoupper(Shapefile::FILE_DBF));
}
$mode = $write_access ? 'c+b' : 'rb';
if ($files === array_filter($files, 'is_resource')) {
// Resource handles
foreach ($files as $type => $file) {
$file_mode = stream_get_meta_data($file)['mode'];
if (
get_resource_type($file) != 'stream'
|| (!$write_access && !in_array($file_mode, array('rb', 'r+b', 'w+b', 'x+b', 'c+b')))
|| ($write_access && !in_array($file_mode, array('r+b', 'wb', 'w+b', 'xb', 'x+b', 'cb', 'c+b')))
) {
throw new ShapefileException(Shapefile::ERR_FILE_INVALID_RESOURCE, strtoupper($type));
}
$this->files[$type] = $file;
}
$this->filenames = [];
} else {
// Filenames
foreach (
[
Shapefile::FILE_SHP => true,
Shapefile::FILE_SHX => true,
Shapefile::FILE_DBF => true,
Shapefile::FILE_DBT => false,
Shapefile::FILE_PRJ => false,
Shapefile::FILE_CPG => false,
] as $type => $required
) {
if (isset($files[$type])) {
if (
(!$write_access && is_string($files[$type]) && is_readable($files[$type]) && is_file($files[$type]))
|| ($write_access && is_string($files[$type]) && is_writable(dirname($files[$type])) && (!file_exists($files[$type]) || ($this->getOption(Shapefile::OPTION_EXISTING_FILES_MODE) != Shapefile::MODE_PRESERVE && is_readable($files[$type]) && is_file($files[$type]))))
) {
$handle = fopen($files[$type], $mode);
if ($handle === false) {
throw new ShapefileException(Shapefile::ERR_FILE_OPEN, $files[$type]);
}
$this->files[$type] = $handle;
$this->filenames[$type] = realpath(stream_get_meta_data($handle)['uri']);
} elseif ($required) {
throw new ShapefileException(Shapefile::ERR_FILE_EXISTS, $files[$type]);
}
}
}
}
foreach (array_keys($this->files) as $file_type) {
$this->setFilePointer($file_type, 0);
}
return $this;
}
/**
* Closes all open resource handles.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function closeFiles()
{
if (count($this->filenames) > 0) {
foreach ($this->files as $handle) {
fclose($handle);
}
}
return $this;
}
/**
* Truncates an open resource handle to a given length.
*
* @param string $file_type File type.
* @param int $size Optional size to truncate to.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function fileTruncate($file_type, $size = 0)
{
ftruncate($this->files[$file_type], $size);
return $this;
}
/**
* Checks if file type has been opened.
*
* @param string $file_type File type.
*
* @return bool
*/
protected function isFileOpen($file_type)
{
return isset($this->files[$file_type]);
}
/**
* Gets an array of the open resource handles.
*
* @return array
*/
protected function getFiles()
{
return $this->files;
}
/**
* Gets an array of canonicalized absolute pathnames if files were NOT passed as stream resources, or an empty array if they were.
*
* @return array
*/
protected function getFilenames()
{
return $this->filenames;
}
/**
* Gets size of an open a resource handle.
*
* @param string $file_type File type (member of $this->files array).
*
* @return int
*/
protected function getFileSize($file_type)
{
return fstat($this->files[$file_type])['size'];
}
/**
* Gets current pointer position of a resource handle.
*
* @param string $file_type File type (member of $this->files array).
*
* @return int
*/
protected function getFilePointer($file_type)
{
return ftell($this->files[$file_type]);
}
/**
* Sets the pointer position of a resource handle to specified value.
*
* @param string $file_type File type (member of $this->files array).
* @param int $position The position to set the pointer to.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFilePointer($file_type, $position)
{
fseek($this->files[$file_type], $position, SEEK_SET);
return $this;
}
/**
* Resets the pointer position of a resource handle to its end.
*
* @param string $file_type File type (member of $this->files array).
*
* @return self Returns $this to provide a fluent interface.
*/
protected function resetFilePointer($file_type)
{
fseek($this->files[$file_type], 0, SEEK_END);
return $this;
}
/**
* Increase the pointer position of a resource handle of specified value.
*
* @param string $file_type File type (member of $this->files array).
* @param int $offset The offset to move the pointer for.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFileOffset($file_type, $offset)
{
fseek($this->files[$file_type], $offset, SEEK_CUR);
return $this;
}
/**
* Reads data from an open resource handle.
*
* @param string $file_type File type.
* @param int $length Number of bytes to read.
*
* @return string
*/
protected function readData($file_type, $length)
{
$ret = @fread($this->files[$file_type], $length);
if ($ret === false) {
throw new ShapefileException(Shapefile::ERR_FILE_READING);
}
return $ret;
}
/**
* Writes binary string packed data to an open resource handle.
*
* @param string $file_type File type.
* @param string $data Binary string packed data to write.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function writeData($file_type, $data)
{
if (@fwrite($this->files[$file_type], $data) === false) {
throw new ShapefileException(Shapefile::ERR_FILE_WRITING);
}
return $this;
}
/**
* Checks if machine is big endian.
*
* @return bool
*/
protected function isBigEndianMachine()
{
if ($this->flag_big_endian_machine === null) {
$this->flag_big_endian_machine = current(unpack('v', pack('S', 0xff))) !== 0xff;
}
return $this->flag_big_endian_machine;
}
/**
* Initializes options with default and user-provided values.
*
* @param array $options Array of options to initialize.
* @param array $custom User-provided options
*
* @return self Returns $this to provide a fluent interface.
*/
protected function initOptions($options, $custom)
{
// Make sure compulsory options used in this abstract class are defined
$options = array_unique(array_merge($options, [
Shapefile::OPTION_DBF_ALLOW_FIELD_SIZE_255,
Shapefile::OPTION_DBF_FORCE_ALL_CAPS,
Shapefile::OPTION_SUPPRESS_M,
Shapefile::OPTION_SUPPRESS_Z,
]));
// Defaults
$defaults = [];
foreach ($options as $option) {
$defaults[$option] = constant('Shapefile\Shapefile::' . $option . '_DEFAULT');
}
// Filter custom options
$custom = array_intersect_key(array_change_key_case($custom, CASE_UPPER), $defaults);
// Initialize option array
$this->options = $custom + $defaults;
// Use only the first character of OPTION_DBF_NULL_PADDING_CHAR if it's set and is not false or empty
$k = Shapefile::OPTION_DBF_NULL_PADDING_CHAR;
if (array_key_exists($k, $this->options)) {
$this->options[$k] = ($this->options[$k] === false || $this->options[$k] === null || $this->options[$k] === '') ? null : substr($this->options[$k], 0, 1);
}
// Parse OPTION_DBF_IGNORED_FIELDS
$k = Shapefile::OPTION_DBF_IGNORED_FIELDS;
if (array_key_exists($k, $this->options)) {
$this->options[$k] = is_array($this->options[$k]) ? array_map([$this, 'normalizeDBFFieldNameCase'], $this->options[$k]) : [];
}
return $this;
}
/**
* Gets option value.
*
* @param string $option Name of the option.
*
* @return string
*/
protected function getOption($option)
{
return $this->options[$option];
}
/**
* Sets option value.
*
* @param string $option Name of the option.
* @param mixed $value Value of the option.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setOption($option, $value)
{
$this->options[$option] = $value;
return $this;
}
/**
* Sets shape type.
* It can be called just once for an instance of the class.
*
* @param int $type Shape type. It can be on of the following:
* - Shapefile::SHAPE_TYPE_NULL
* - Shapefile::SHAPE_TYPE_POINT
* - Shapefile::SHAPE_TYPE_POLYLINE
* - Shapefile::SHAPE_TYPE_POLYGON
* - Shapefile::SHAPE_TYPE_MULTIPOINT
* - Shapefile::SHAPE_TYPE_POINTZ
* - Shapefile::SHAPE_TYPE_POLYLINEZ
* - Shapefile::SHAPE_TYPE_POLYGONZ
* - Shapefile::SHAPE_TYPE_MULTIPOINTZ
* - Shapefile::SHAPE_TYPE_POINTM
* - Shapefile::SHAPE_TYPE_POLYLINEM
* - Shapefile::SHAPE_TYPE_POLYGONM
* - Shapefile::SHAPE_TYPE_MULTIPOINTM
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setShapeType($type)
{
if ($this->shape_type !== null) {
throw new ShapefileException(Shapefile::ERR_SHP_TYPE_ALREADY_SET);
}
if (!isset(Shapefile::$shape_types[$type])) {
throw new ShapefileException(Shapefile::ERR_SHP_TYPE_NOT_SUPPORTED, $type);
}
$this->shape_type = $type;
return $this;
}
/**
* Gets Shapefile base type, regardless of Z and M dimensions.
*
* @return int
*/
protected function getBasetype()
{
return $this->getShapeType(Shapefile::FORMAT_INT) % 10;
}
/**
* Overwrites computed bounding box for the Shapefile.
* 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 $this to provide a fluent interface.
*/
protected function overwriteComputedBoundingBox($bounding_box)
{
$this->computed_bounding_box = $this->sanitizeBoundingBox($bounding_box);
return $this;
}
/**
* Sets a custom bounding box for the Shapefile.
* 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 $this to provide a fluent interface.
*/
protected function setCustomBoundingBox($bounding_box)
{
$this->custom_bounding_box = $this->sanitizeBoundingBox($bounding_box);
return $this;
}
/**
* Resets custom bounding box for the Shapefile.
* 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.
*/
protected function resetCustomBoundingBox()
{
$this->custom_bounding_box = null;
return $this;
}
/**
* Sets PRJ well-known-text.
*
* @param string $prj PRJ well-known-text.
* Pass a falsy value (eg. false or "") to delete it.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setPRJ($prj)
{
$this->prj = $prj ?: null;
return $this;
}
/**
* Sets current total number of records.
*
* @param int $tot_records Total number of records currently in the files.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setTotRecords($tot_records)
{
$this->tot_records = $tot_records;
return $this;
}
/**
* Gets the state of the initialized flag.
*
* @return bool
*/
protected function isInitialized()
{
return $this->flag_initialized;
}
/**
* Sets the state of the initialized flag.
*
* @param bool $value
*
* @return self Returns $this to provide a fluent interface.
*/
protected function setFlagInitialized($value)
{
$this->flag_initialized = $value;
return $this;
}
/**
* Adds a field to the shapefile definition.
* Returns the effective field name after eventual sanitization.
*
* @param string $name Name of the field. Invalid names will be sanitized
* (maximum 10 characters, only letters, numbers and underscores are allowed).
* @param string $type Type of the field. It can be on of the following:
* - Shapefile::DBF_TYPE_CHAR
* - Shapefile::DBF_TYPE_DATE
* - Shapefile::DBF_TYPE_LOGICAL
* - Shapefile::DBF_TYPE_MEMO
* - Shapefile::DBF_TYPE_NUMERIC
* - Shapefile::DBF_TYPE_FLOAT
* @param int $size Lenght of the field, depending on the type.
* @param int $decimals Optional number of decimal digits for numeric type.
*
* @return string
*/
protected function addField($name, $type, $size, $decimals)
{
// Check init
if ($this->isInitialized()) {
throw new ShapefileException(Shapefile::ERR_SHP_FILE_ALREADY_INITIALIZED);
}
// Check filed count
if (count($this->fields) >= Shapefile::DBF_MAX_FIELD_COUNT) {
throw new ShapefileException(Shapefile::ERR_DBF_MAX_FIELD_COUNT_REACHED, Shapefile::DBF_MAX_FIELD_COUNT);
}
// Sanitize name and normalize case
$name = $this->normalizeDBFFieldNameCase($this->sanitizeDBFFieldName($name));
// Check type
if (
$type !== Shapefile::DBF_TYPE_CHAR
&& $type !== Shapefile::DBF_TYPE_DATE
&& $type !== Shapefile::DBF_TYPE_LOGICAL
&& $type !== Shapefile::DBF_TYPE_MEMO
&& $type !== Shapefile::DBF_TYPE_NUMERIC
&& $type !== Shapefile::DBF_TYPE_FLOAT
) {
throw new ShapefileException(Shapefile::ERR_DBF_FIELD_TYPE_NOT_VALID, $type);
}
// Check size
$size = intval($size);
$max_size = $this->getOption(Shapefile::OPTION_DBF_ALLOW_FIELD_SIZE_255) ? 255 : 254;
if (
($size < 1)
|| ($type == Shapefile::DBF_TYPE_CHAR && $size > $max_size)
|| ($type == Shapefile::DBF_TYPE_DATE && $size !== 8)
|| ($type == Shapefile::DBF_TYPE_LOGICAL && $size !== 1)
|| ($type == Shapefile::DBF_TYPE_MEMO && $size !== 10)
|| ($type == Shapefile::DBF_TYPE_NUMERIC && $size > $max_size)
|| ($type == Shapefile::DBF_TYPE_FLOAT && $size > $max_size)
) {
throw new ShapefileException(Shapefile::ERR_DBF_FIELD_SIZE_NOT_VALID, $size);
}
// Minimal decimal formal check
$decimals = intval($decimals);
if (
($type != Shapefile::DBF_TYPE_NUMERIC && $type != Shapefile::DBF_TYPE_FLOAT && $decimals !== 0)
|| ($type == Shapefile::DBF_TYPE_FLOAT && $decimals === 0)
|| ($decimals < 0)
|| ($decimals > 0 && $size - 1 <= $decimals)
) {
throw new ShapefileException(Shapefile::ERR_DBF_FIELD_DECIMALS_NOT_VALID, $type . ' - ' . $decimals);
}
// Add field
$this->fields[$name] = [
'type' => $type,
'size' => $size,
'decimals' => $decimals,
];
return $name;
}
/**
* Normalize field name case according to OPTION_DBF_FORCE_ALL_CAPS status.
*
* @param string $input Field name to be case-normalized.
*
* @return string
*/
protected function normalizeDBFFieldNameCase($input)
{
return $this->getOption(Shapefile::OPTION_DBF_FORCE_ALL_CAPS) ? strtoupper($input) : $input;
}
/**
* Pairs a Geometry with the Shapefile.
* It enforces the Geometry type and computes Shapefile bounding box.
* After that the Shapefile will be considered as "initialized" and no changes will be allowd to its structure.
*
* @param \Shapefile\Geometry\Geometry $Geometry Geometry to pair with.
*
* @return self Returns $this to provide a fluent interface.
*/
protected function pairGeometry(Geometry\Geometry $Geometry)
{
// Geometry type
if (
$this->getBasetype() !== $Geometry->getSHPBasetype()
|| (!$Geometry->isEmpty() && $Geometry->isZ() !== $this->isZ() && !$this->getOption(Shapefile::OPTION_SUPPRESS_Z))
|| (!$Geometry->isEmpty() && $Geometry->isM() !== $this->isM() && !$this->getOption(Shapefile::OPTION_SUPPRESS_M))
) {
throw new ShapefileException(Shapefile::ERR_SHP_GEOMETRY_TYPE_NOT_COMPATIBLE, $this->getShapeType(Shapefile::FORMAT_INT) . ' - ' . $this->getShapeType(Shapefile::FORMAT_STR));
}
// Bounding box
$bbox = $Geometry->getBoundingBox();
if (!$this->computed_bounding_box && $bbox) {
if ($this->getOption(Shapefile::OPTION_SUPPRESS_Z)) {
unset($bbox['zmin'], $bbox['zmax']);
}
if ($this->getOption(Shapefile::OPTION_SUPPRESS_M)) {
unset($bbox['mmin'], $bbox['mmax']);
}
$this->computed_bounding_box = $bbox;
} elseif ($bbox) {
if ($bbox['xmin'] < $this->computed_bounding_box['xmin']) {
$this->computed_bounding_box['xmin'] = $bbox['xmin'];
}
if ($bbox['xmax'] > $this->computed_bounding_box['xmax']) {
$this->computed_bounding_box['xmax'] = $bbox['xmax'];
}
if ($bbox['ymin'] < $this->computed_bounding_box['ymin']) {
$this->computed_bounding_box['ymin'] = $bbox['ymin'];
}
if ($bbox['ymax'] > $this->computed_bounding_box['ymax']) {
$this->computed_bounding_box['ymax'] = $bbox['ymax'];
}
if ($this->isZ() && !$this->getOption(Shapefile::OPTION_SUPPRESS_Z)) {
if ($bbox['zmin'] < $this->computed_bounding_box['zmin']) {
$this->computed_bounding_box['zmin'] = $bbox['zmin'];
}
if ($bbox['zmax'] > $this->computed_bounding_box['zmax']) {
$this->computed_bounding_box['zmax'] = $bbox['zmax'];
}
}
if ($this->isM() && !$this->getOption(Shapefile::OPTION_SUPPRESS_M)) {
if ($this->computed_bounding_box['mmin'] === false || $bbox['mmin'] < $this->computed_bounding_box['mmin']) {
$this->computed_bounding_box['mmin'] = $bbox['mmin'];
}
if ($this->computed_bounding_box['mmax'] === false || $bbox['mmax'] > $this->computed_bounding_box['mmax']) {
$this->computed_bounding_box['mmax'] = $bbox['mmax'];
}
}
}
// Mark Shapefile as initialized
$this->setFlagInitialized(true);
return $this;
}
/////////////////////////////// PRIVATE ///////////////////////////////
/**
* Checks formal compliance of a bounding box dimensions.
*
* @param array $bounding_box Associative array with the xmin, xmax, ymin, ymax and optional zmin, zmax, mmin, mmax values.
*/
private function sanitizeBoundingBox($bounding_box)
{
$bounding_box = array_intersect_key($bounding_box, array_flip(['xmin', 'xmax', 'ymin', 'ymax', 'zmin', 'zmax', 'mmin', 'mmax']));
if ($this->getOption(Shapefile::OPTION_SUPPRESS_Z)) {
unset($bounding_box['zmin'], $bounding_box['zmax']);
}
if ($this->getOption(Shapefile::OPTION_SUPPRESS_M)) {
unset($bounding_box['mmin'], $bounding_box['mmax']);
}
if (
!isset($bounding_box['xmin'], $bounding_box['xmax'], $bounding_box['ymin'], $bounding_box['ymax'])
|| (
($this->isZ() && !$this->getOption(Shapefile::OPTION_SUPPRESS_Z) && !isset($bounding_box['zmin'], $bounding_box['zmax']))
|| (!$this->isZ() && (isset($bounding_box['zmin']) || isset($bounding_box['zmax'])))
)
|| (
($this->isM() && !$this->getOption(Shapefile::OPTION_SUPPRESS_M) && !isset($bounding_box['mmin'], $bounding_box['mmax']))
|| (!$this->isM() && (isset($bounding_box['mmin']) || isset($bounding_box['mmax'])))
)
) {
throw new ShapefileException(Shapefile::ERR_SHP_MISMATCHED_BBOX);
}
return $bounding_box;
}
/**
* Returns a valid name for a DBF field.
*
* Only letters, numbers and underscores are allowed, everything else is converted to underscores.
* Field names get truncated to 10 characters and conflicting ones are truncated to 8 characters adding a number from 1 to 99.
*
* @param string $input Raw name to be sanitized.
*
* @return string
*/
private function sanitizeDBFFieldName($input)
{
if ($input === '') {
return $input;
}
$ret = substr(preg_replace('/[^a-zA-Z0-9]/', '_', $input), 0, 10);
$fieldnames = array_fill_keys(array_keys(array_change_key_case($this->fields, CASE_UPPER)), true);
if (isset($fieldnames[strtoupper($ret)])) {
$ret = substr($ret, 0, 8) . '_1';
while (isset($fieldnames[strtoupper($ret)])) {
$n = intval(trim(substr($ret, -2), '_')) + 1;
if ($n > 99) {
throw new ShapefileException(Shapefile::ERR_DBF_FIELD_NAME_NOT_VALID, $input);
}
$ret = substr($ret, 0, -2) . str_pad($n, 2, '_', STR_PAD_LEFT);
}
}
return $ret;
}
}