RangesFromBoundaryCalculator - Code Metrics - mlocati/ip-lib - Measure and Improve Code Quality continuously with Scrutinizer

RangesFromBoundaryCalculator A
last analyzed 2025-02-04 17:48 UTC

↳ Parent: Project

Complexity

Total Complexity

Size/Duplication

Total Lines	153
Duplicated Lines	0 %

Test Coverage

Coverage

100%

Importance

Changes	1
Bugs	1	Features	0

Metric	Value
eloc	49
dl	0
loc	153
ccs	53
cts	53
cp	1
rs	10
c	1
b	1
f	0
wmc	18

6 Methods

Rating	Name	Size	Complexity
A	getRanges()	12	4
A	setNumBits()	12	3
A	calculate()	23	6
A	subnetFromBits()	10	2
A	addressFromBits()	9	2
A	__construct()	4	1

<?php

namespace IPLib\Service;

use IPLib\Address\AddressInterface;
use IPLib\Factory;
use IPLib\Range\Subnet;

/**
 * Helper class to calculate the subnets describing all (and only all) the addresses between two boundaries.
 *
 * @internal
 */
class RangesFromBoundaryCalculator
{
    /**
     * The BinaryMath instance to be used to perform bitwise operations.
     *
     * @var \IPLib\Service\BinaryMath
     */
    private $math;

    /**
     * The number of bits used to represent addresses.
     *
     * @var int
     *
     * @example 32 for IPv4, 128 for IPv6
     */
    private $numBits;

    /**
     * The bit masks for every bit index.
     *
     * @var string[]
     */
    private $masks;

    /**
     * The bit unmasks for every bit index.
     *
     * @var string[]
     */
    private $unmasks;

    /**
     * Initializes the instance.
     *
     * @param int $numBits the number of bits used to represent addresses (32 for IPv4, 128 for IPv6)
     */
    public function __construct($numBits)
    {
        $this->math = new BinaryMath();
        $this->setNumBits($numBits);
    }

    /**
     * Calculate the subnets describing all (and only all) the addresses between two boundaries.
     *
     * @param \IPLib\Address\AddressInterface $from
     * @param \IPLib\Address\AddressInterface $to
     *
     * @return \IPLib\Range\Subnet[]|null return NULL if the two addresses have an invalid number of bits (that is, different from the one passed to the constructor of this class)
     */
    public function getRanges(AddressInterface $from, AddressInterface $to)
    {
        if ($from->getNumberOfBits() !== $this->numBits || $to->getNumberOfBits() !== $this->numBits) {
            return null;
        }
        if ($from->getComparableString() > $to->getComparableString()) {
            list($from, $to) = array($to, $from);
        }
        $result = array();
        $this->calculate($this->math->reduce($from->getBits()), $this->math->reduce($to->getBits()), $this->numBits, $result);

        return $result;
    }

    /**
     * Set the number of bits used to represent addresses (32 for IPv4, 128 for IPv6).
     *
     * @param int $numBits
     */
    private function setNumBits($numBits)
    {
        $numBits = (int) $numBits;
        $masks = array();
        $unmasks = array();
        for ($bit = 0; $bit < $numBits; $bit++) {
            $masks[$bit] = str_repeat('1', $numBits - $bit) . str_repeat('0', $bit);
            $unmasks[$bit] = $bit === 0 ? '0' : str_repeat('1', $bit);
        }
        $this->numBits = $numBits;
        $this->masks = $masks;
        $this->unmasks = $unmasks;
    }

    /**
     * Calculate the subnets.
     *
     * @param string $start the start address (represented in reduced bit form)
     * @param string $end the end address (represented in reduced bit form)
     * @param int $position the number of bits in the mask we are comparing at this cycle
     * @param \IPLib\Range\Subnet[] $result found ranges will be added to this variable
     */
    private function calculate($start, $end, $position, array &$result)
    {
        if ($start === $end) {
            $result[] = $this->subnetFromBits($start, $this->numBits);

            return;
        }
        for ($index = $position - 1; $index >= 0; $index--) {
            $startMasked = $this->math->andX($start, $this->masks[$index]);
            $endMasked = $this->math->andX($end, $this->masks[$index]);
            if ($startMasked !== $endMasked) {
                $position = $index;
                break;
            }
        }
        if ($startMasked === $start && $this->math->andX($this->math->increment($end), $this->unmasks[$position]) === '0') {

            $result[] = $this->subnetFromBits($start, $this->numBits - 1 - $position);

            return;
        }
        $middleAddress = $this->math->orX($start, $this->unmasks[$position]);
        $this->calculate($start, $middleAddress, $position, $result);
        $this->calculate($this->math->increment($middleAddress), $end, $position, $result);
    }

    /**
     * Create an address instance starting from its bits.
     *
     * @param string $bits the bits of the address (represented in reduced bit form)
     *
     * @return \IPLib\Address\AddressInterface
     */
    private function addressFromBits($bits)
    {
        $bits = str_pad($bits, $this->numBits, '0', STR_PAD_LEFT);
        $bytes = array();
        foreach (explode("\n", trim(chunk_split($bits, 8, "\n"))) as $byteBits) {
            $bytes[] = bindec($byteBits);
        }

        return Factory::addressFromBytes($bytes);
    }

    /**
     * Create an range instance starting from the bits if the address and the length of the network prefix.
     *
     * @param string $bits the bits of the address (represented in reduced bit form)
     * @param int $networkPrefix the length of the network prefix
     *
     * @return \IPLib\Range\Subnet
     */
    private function subnetFromBits($bits, $networkPrefix)
    {
        $startAddress = $this->addressFromBits($bits);
        $numOnes = $this->numBits - $networkPrefix;
        if ($numOnes === 0) {
            return new Subnet($startAddress, $startAddress, $networkPrefix);
        }
        $endAddress = $this->addressFromBits(substr($bits, 0, -$numOnes) . str_repeat('1', $numOnes));

        return new Subnet($startAddress, $endAddress, $networkPrefix);
    }
}


1		<?php
2
3		namespace IPLib\Service;
4
5		use IPLib\Address\AddressInterface;
6		use IPLib\Factory;
7		use IPLib\Range\Subnet;
8
9		/**
10		* Helper class to calculate the subnets describing all (and only all) the addresses between two boundaries.
11		*
12		* @internal
13		*/
14		class RangesFromBoundaryCalculator
15		{
16		/**
17		* The BinaryMath instance to be used to perform bitwise operations.
18		*
19		* @var \IPLib\Service\BinaryMath
20		*/
21		private $math;
22
23		/**
24		* The number of bits used to represent addresses.
25		*
26		* @var int
27		*
28		* @example 32 for IPv4, 128 for IPv6
29		*/
30		private $numBits;
31
32		/**
33		* The bit masks for every bit index.
34		*
35		* @var string[]
36		*/
37		private $masks;
38
39		/**
40		* The bit unmasks for every bit index.
41		*
42		* @var string[]
43		*/
44		private $unmasks;
45
46		/**
47		* Initializes the instance.
48		*
49		* @param int $numBits the number of bits used to represent addresses (32 for IPv4, 128 for IPv6)
50		*/
51	26	public function __construct($numBits)
52		{
53	26	$this->math = new BinaryMath();
54	26	$this->setNumBits($numBits);
55	26	}
56
57		/**
58		* Calculate the subnets describing all (and only all) the addresses between two boundaries.
59		*
60		* @param \IPLib\Address\AddressInterface $from
61		* @param \IPLib\Address\AddressInterface $to
62		*
63		* @return \IPLib\Range\Subnet[]\|null return NULL if the two addresses have an invalid number of bits (that is, different from the one passed to the constructor of this class)
64		*/
65	44	public function getRanges(AddressInterface $from, AddressInterface $to)
66		{
67	44	if ($from->getNumberOfBits() !== $this->numBits \|\| $to->getNumberOfBits() !== $this->numBits) {
68	6	return null;
69		}
70	38	if ($from->getComparableString() > $to->getComparableString()) {
71	2	list($from, $to) = array($to, $from);
72		}
73	38	$result = array();
74	38	$this->calculate($this->math->reduce($from->getBits()), $this->math->reduce($to->getBits()), $this->numBits, $result);
75
76	38	return $result;
77		}
78
79		/**
80		* Set the number of bits used to represent addresses (32 for IPv4, 128 for IPv6).
81		*
82		* @param int $numBits
83		*/
84	26	private function setNumBits($numBits)
85		{
86	26	$numBits = (int) $numBits;
87	26	$masks = array();
88	26	$unmasks = array();
89	26	for ($bit = 0; $bit < $numBits; $bit++) {
90	26	$masks[$bit] = str_repeat('1', $numBits - $bit) . str_repeat('0', $bit);
91	26	$unmasks[$bit] = $bit === 0 ? '0' : str_repeat('1', $bit);
92		}
93	26	$this->numBits = $numBits;
94	26	$this->masks = $masks;
95	26	$this->unmasks = $unmasks;
96	26	}
97
98		/**
99		* Calculate the subnets.
100		*
101		* @param string $start the start address (represented in reduced bit form)
102		* @param string $end the end address (represented in reduced bit form)
103		* @param int $position the number of bits in the mask we are comparing at this cycle
104		* @param \IPLib\Range\Subnet[] $result found ranges will be added to this variable
105		*/
106	38	private function calculate($start, $end, $position, array &$result)
107		{
108	38	if ($start === $end) {
109	22	$result[] = $this->subnetFromBits($start, $this->numBits);
110
111	22	return;
112		}
113	32	for ($index = $position - 1; $index >= 0; $index--) {
114	32	$startMasked = $this->math->andX($start, $this->masks[$index]);
115	32	$endMasked = $this->math->andX($end, $this->masks[$index]);
116	32	if ($startMasked !== $endMasked) {
117	32	$position = $index;
118	32	break;
119		}
120		}
121	32	if ($startMasked === $start && $this->math->andX($this->math->increment($end), $this->unmasks[$position]) === '0') {
		0 ignored issues – show Comprehensibility Best Practice introduced 2025-02-04 12:20 UTC by Report Bug Copy Issue Report The variable `$startMasked` does not seem to be defined for all execution paths leading up to this point. Loading history...
122	27	$result[] = $this->subnetFromBits($start, $this->numBits - 1 - $position);
123
124	27	return;
125		}
126	17	$middleAddress = $this->math->orX($start, $this->unmasks[$position]);
127	17	$this->calculate($start, $middleAddress, $position, $result);
128	17	$this->calculate($this->math->increment($middleAddress), $end, $position, $result);
129	17	}
130
131		/**
132		* Create an address instance starting from its bits.
133		*
134		* @param string $bits the bits of the address (represented in reduced bit form)
135		*
136		* @return \IPLib\Address\AddressInterface
137		*/
138	38	private function addressFromBits($bits)
139		{
140	38	$bits = str_pad($bits, $this->numBits, '0', STR_PAD_LEFT);
141	38	$bytes = array();
142	38	foreach (explode("\n", trim(chunk_split($bits, 8, "\n"))) as $byteBits) {
143	38	$bytes[] = bindec($byteBits);
144		}
145
146	38	return Factory::addressFromBytes($bytes);
147		}
148
149		/**
150		* Create an range instance starting from the bits if the address and the length of the network prefix.
151		*
152		* @param string $bits the bits of the address (represented in reduced bit form)
153		* @param int $networkPrefix the length of the network prefix
154		*
155		* @return \IPLib\Range\Subnet
156		*/
157	38	private function subnetFromBits($bits, $networkPrefix)
158		{
159	38	$startAddress = $this->addressFromBits($bits);
160	38	$numOnes = $this->numBits - $networkPrefix;
161	38	if ($numOnes === 0) {
162	22	return new Subnet($startAddress, $startAddress, $networkPrefix);
163		}
164	27	$endAddress = $this->addressFromBits(substr($bits, 0, -$numOnes) . str_repeat('1', $numOnes));
165
166	27	return new Subnet($startAddress, $endAddress, $networkPrefix);
167		}
168		}
169

mlocati / ip-lib

RangesFromBoundaryCalculator A last analyzed 2025-02-04 17:48 UTC

Complexity

Size/Duplication

Test Coverage

Importance

6 Methods

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RangesFromBoundaryCalculator A
last analyzed 2025-02-04 17:48 UTC