DomainLogic::__construct() - Code Metrics - Inspection of "Release version 2.0.0" - jmgq/php-a-star - Measure and Improve Code Quality continuously with Scrutinizer

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Push — master ( 152a70...0c8393 )

by Jose

created 2021-02-08 22:01 UTC

DomainLogic::__construct() A

↳ Parent: DomainLogic

Complexity

Conditions	1
Paths	1

Size

Total Lines	8
Code Lines	2

Duplication

Lines	0
Ratio	0 %

Code Coverage

Tests	3
CRAP Score	1

Importance

Changes	1
Bugs	0	Features	0

Metric	Value
eloc	2
c	1
b	0
f	0
dl	0
loc	8
ccs	3
cts	3
cp	1
rs	10
cc	1
nc	1
nop	1
crap	1

<?php

namespace JMGQ\AStar\Example\Terrain;

use JMGQ\AStar\DomainLogicInterface;

class DomainLogic implements DomainLogicInterface
{
    private TerrainCost $terrainCost;
    /** @var Position[][] */
    private array $positions;

    public function __construct(TerrainCost $terrainCost)
    {
        $this->terrainCost = $terrainCost;

        // We store all the Position objects in a matrix for efficiency, so that we don't need to create new Position
        // instances every time we call "getAdjacentNodes". If we created new positions with every call, the algorithm
        // would still work correctly but it would be a bit slower.
        $this->positions = $this->generatePositions($terrainCost);
    }

    /**
     * @param Position $node
     * @return Position[]
     */
    public function getAdjacentNodes(mixed $node): iterable
    {
        $adjacentNodes = [];

        [$startingRow, $endingRow, $startingColumn, $endingColumn] = $this->calculateAdjacentBoundaries($node);

        for ($row = $startingRow; $row <= $endingRow; $row++) {
            for ($column = $startingColumn; $column <= $endingColumn; $column++) {
                $adjacentNode = $this->positions[$row][$column];

                if (!$node->isEqualTo($adjacentNode)) {
                    $adjacentNodes[] = $adjacentNode;
                }
            }
        }

        return $adjacentNodes;
    }

    /**
     * @param Position $node
     * @param Position $adjacent
     * @return float|int
     */
    public function calculateRealCost(mixed $node, mixed $adjacent): float | int
    {
        if ($node->isAdjacentTo($adjacent)) {
            return $this->terrainCost->getCost($adjacent->getRow(), $adjacent->getColumn());
        }

        return TerrainCost::INFINITE;
    }

    /**
     * @param Position $fromNode
     * @param Position $toNode
     * @return float|int
     */
    public function calculateEstimatedCost(mixed $fromNode, mixed $toNode): float | int
    {
        return $this->euclideanDistance($fromNode, $toNode);
    }

    private function euclideanDistance(Position $a, Position $b): float
    {
        $rowFactor = ($a->getRow() - $b->getRow()) ** 2;
        $columnFactor = ($a->getColumn() - $b->getColumn()) ** 2;

        return sqrt($rowFactor + $columnFactor);
    }

    /**
     * @param Position $position
     * @return int[]
     */
    private function calculateAdjacentBoundaries(Position $position): array
    {
        if ($position->getRow() === 0) {
            $startingRow = 0;
        } else {
            $startingRow = $position->getRow() - 1;
        }

        if ($position->getRow() === $this->terrainCost->getTotalRows() - 1) {
            $endingRow = $position->getRow();
        } else {
            $endingRow = $position->getRow() + 1;
        }

        if ($position->getColumn() === 0) {
            $startingColumn = 0;
        } else {
            $startingColumn = $position->getColumn() - 1;
        }

        if ($position->getColumn() === $this->terrainCost->getTotalColumns() - 1) {
            $endingColumn = $position->getColumn();
        } else {
            $endingColumn = $position->getColumn() + 1;
        }

        return [$startingRow, $endingRow, $startingColumn, $endingColumn];
    }

    /**
     * @param TerrainCost $terrainCost
     * @return Position[][]
     */
    private function generatePositions(TerrainCost $terrainCost): array
    {
        $positions = [];

        for ($row = 0; $row < $terrainCost->getTotalRows(); $row++) {
            for ($column = 0; $column < $terrainCost->getTotalColumns(); $column++) {
                $positions[$row][$column] = new Position($row, $column);
            }
        }

        return $positions;
    }
}


1		<?php
2
3		namespace JMGQ\AStar\Example\Terrain;
4
5		use JMGQ\AStar\DomainLogicInterface;
6
7		class DomainLogic implements DomainLogicInterface
8		{
9		private TerrainCost $terrainCost;
10		/** @var Position[][] */
11		private array $positions;
12
13	15	public function __construct(TerrainCost $terrainCost)
14		{
15	15	$this->terrainCost = $terrainCost;
16
17		// We store all the Position objects in a matrix for efficiency, so that we don't need to create new Position
18		// instances every time we call "getAdjacentNodes". If we created new positions with every call, the algorithm
19		// would still work correctly but it would be a bit slower.
20	15	$this->positions = $this->generatePositions($terrainCost);
21	15	}
22
23		/**
24		* @param Position $node
25		* @return Position[]
26		*/
27	10	public function getAdjacentNodes(mixed $node): iterable
28		{
29	10	$adjacentNodes = [];
30
31	10	[$startingRow, $endingRow, $startingColumn, $endingColumn] = $this->calculateAdjacentBoundaries($node);
32
33	10	for ($row = $startingRow; $row <= $endingRow; $row++) {
34	10	for ($column = $startingColumn; $column <= $endingColumn; $column++) {
35	10	$adjacentNode = $this->positions[$row][$column];
36
37	10	if (!$node->isEqualTo($adjacentNode)) {
38	10	$adjacentNodes[] = $adjacentNode;
39		}
40		}
41		}
42
43	10	return $adjacentNodes;
44		}
45
46		/**
47		* @param Position $node
48		* @param Position $adjacent
49		* @return float\|int
50		*/
51	8	public function calculateRealCost(mixed $node, mixed $adjacent): float \| int
52		{
53	8	if ($node->isAdjacentTo($adjacent)) {
54	7	return $this->terrainCost->getCost($adjacent->getRow(), $adjacent->getColumn());
55		}
56
57	1	return TerrainCost::INFINITE;
58		}
59
60		/**
61		* @param Position $fromNode
62		* @param Position $toNode
63		* @return float\|int
64		*/
65	8	public function calculateEstimatedCost(mixed $fromNode, mixed $toNode): float \| int
66		{
67	8	return $this->euclideanDistance($fromNode, $toNode);
68		}
69
70	8	private function euclideanDistance(Position $a, Position $b): float
71		{
72	8	$rowFactor = ($a->getRow() - $b->getRow()) ** 2;
73	8	$columnFactor = ($a->getColumn() - $b->getColumn()) ** 2;
74
75	8	return sqrt($rowFactor + $columnFactor);
76		}
77
78		/**
79		* @param Position $position
80		* @return int[]
81		*/
82	10	private function calculateAdjacentBoundaries(Position $position): array
83		{
84	10	if ($position->getRow() === 0) {
85	8	$startingRow = 0;
86		} else {
87	8	$startingRow = $position->getRow() - 1;
88		}
89
90	10	if ($position->getRow() === $this->terrainCost->getTotalRows() - 1) {
91	5	$endingRow = $position->getRow();
92		} else {
93	9	$endingRow = $position->getRow() + 1;
94		}
95
96	10	if ($position->getColumn() === 0) {
97	8	$startingColumn = 0;
98		} else {
99	8	$startingColumn = $position->getColumn() - 1;
100		}
101
102	10	if ($position->getColumn() === $this->terrainCost->getTotalColumns() - 1) {
103	4	$endingColumn = $position->getColumn();
104		} else {
105	9	$endingColumn = $position->getColumn() + 1;
106		}
107
108	10	return [$startingRow, $endingRow, $startingColumn, $endingColumn];
109		}
110
111		/**
112		* @param TerrainCost $terrainCost
113		* @return Position[][]
114		*/
115	15	private function generatePositions(TerrainCost $terrainCost): array
116		{
117	15	$positions = [];
118
119	15	for ($row = 0; $row < $terrainCost->getTotalRows(); $row++) {
120	15	for ($column = 0; $column < $terrainCost->getTotalColumns(); $column++) {
121	15	$positions[$row][$column] = new Position($row, $column);
122		}
123		}
124
125	15	return $positions;
126		}
127		}
128

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DomainLogic::__construct() A

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