Issues in RuleContext.php (master) - Issues in master - SetBased/antlr-php-runtime - Measure and Improve Code Quality continuously with Scrutinizer

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src/RuleContext.php (1 issue)

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<?php

declare(strict_types=1);

namespace Antlr\Antlr4\Runtime;

use Antlr\Antlr4\Runtime\Atn\ATN;
use Antlr\Antlr4\Runtime\Tree\ParseTree;
use Antlr\Antlr4\Runtime\Tree\ParseTreeVisitor;
use Antlr\Antlr4\Runtime\Tree\RuleNode;
use Antlr\Antlr4\Runtime\Tree\Tree;
use Antlr\Antlr4\Runtime\Tree\Trees;

/**
 * A rule context is a record of a single rule invocation.
 *
 * We form a stack of these context objects using the parent pointer. A parent
 * pointer of null indicates that the current context is the bottom of the stack.
 * The {@see ParserRuleContext} subclass as a children list so that we can turn
 * this data structure into a tree.
 *
 * The root node always has a null pointer and invokingState of -1.
 *
 * Upon entry to parsing, the first invoked rule function creates a context object
 * (a subclass specialized for that rule such as SContext) and makes it the root
 * of a parse tree, recorded by field Parser->ctx.
 *
 *     public final s(){
 *         SContext _localctx = new SContext(_ctx, getState()); <-- create new node
 *         enterRule(_localctx, 0, RULE_s);                     <-- push it
 *         ...
 *         exitRule();                                          <-- pop back to _localctx
 *         return _localctx;
 *     }
 *
 * A subsequent rule invocation of r from the start rule s pushes a new
 * context object for r whose parent points at s and use invoking state is
 * the state with r emanating as edge label.
 *
 * The invokingState fields from a context object to the root together
 * form a stack of rule indication states where the root (bottom of the stack)
 * has a -1 sentinel value. If we invoke start symbol s then call r1,
 * which calls r2, the  would look like this:
 *
 *     SContext[-1]   <- root node (bottom of the stack)
 *     R1Context[p]   <- p in rule s called r1
 *     R2Context[q]   <- q in rule r1 called r2
 *
 * So the top of the stack, `_ctx`, represents a call to the current rule
 * and it holds the return address from another rule that invoke to this rule.
 * To invoke a rule, we must always have a current context.
 *
 * The parent contexts are useful for computing lookahead sets and getting
 * error information.
 *
 * These objects are used during parsing and prediction. For the special case
 * of parsers, we use the subclass {@see ParserRuleContext}.
 */
class RuleContext implements RuleNode
{
    /**
     * The context that invoked this rule.
     *
     * @var RuleContext|null
     */
    public $parentCtx;

    /**
     * What state invoked the rule associated with this context?
     * The "return address" is the followState of invokingState. If parent
     * is null, this should be -1 this context object represents the start rule.
     *
     * @var int
     */
    public $invokingState = -1;

    public function __construct(?RuleContext $parent, ?int $invokingState = null)
    {
        $this->parentCtx = $parent;
        $this->invokingState = $invokingState ?? -1;
    }

    public static function emptyContext() : ParserRuleContext
    {
        static $empty;

        return $empty ?? ($empty = new ParserRuleContext(null));
    }

    public function depth() : int
    {
        $n = 0;
        $p = $this;

        while ($p !== null) {
            $p = $p->parentCtx;
            $n++;
        }

        return $n;
    }

    /**
     * A context is empty if there is no invoking state; meaning nobody call
     * current context.
     */
    public function isEmpty() : bool
    {
        return $this->invokingState === -1;
    }

    public function getSourceInterval() : Interval
    {
        return Interval::invalid();
    }

    public function getRuleContext() : RuleContext
    {
        return $this;
    }

    public function getPayload() : RuleContext
    {
        return $this;
    }

    /**
     * Return the combined text of all child nodes. This method only considers
     * tokens which have been added to the parse tree.
     *
     * Since tokens on hidden channels (e.g. whitespace or comments) are not
     * added to the parse trees, they will not appear in the output
     * of this method.
     */
    public function getText() : string
    {
        $text = '';

        for ($i = 0, $count = $this->getChildCount(); $i < $count; $i++) {
            $child = $this->getChild($i);
class A
{
    function getObject()
    {
        return null;
    }

}

$a = new A();
$object = $a->getObject();

            if ($child !== null) {
                $text .= $child->getText();
            }
        }

        return $text;
    }

    public function getRuleIndex() : int
    {
        return -1;
    }

    /**
     * For rule associated with this parse tree internal node, return the outer
     * alternative number used to match the input. Default implementation
     * does not compute nor store this alt num. Create a subclass of
     * {@see ParserRuleContext} with backing field and set option
     * `contextSuperClass` to set it.
     */
    public function getAltNumber() : int
    {
        return ATN::INVALID_ALT_NUMBER;
    }

    /**
     * Set the outer alternative number for this context node. Default
     * implementation does nothing to avoid backing field overhead for trees
     * that don't need it. Create a subclass of {@see ParserRuleContext} with backing
     * field and set option `contextSuperClass`.
     */
    public function setAltNumber(int $altNumber) : void
    {
    }

    /**
     * @return RuleContext|null
     */
    public function getParent() : ?Tree
    {
        return $this->parentCtx;
    }

    public function setParent(?RuleContext $ctx) : void
    {
        $this->parentCtx = $ctx;
    }

    /**
     * @return ParseTree|null
     */
    public function getChild(int $i, ?string $type = null) : ?Tree
    {
        return null;
    }

    public function getChildCount() : int
    {
        return 0;
    }

    public function accept(ParseTreeVisitor $visitor)
    {
        return $visitor->visitChildren($this);
    }

    /**
     * Print out a whole tree, not just a node, in LISP format
     * (root child1 .. childN). Print just a node if this is a leaf.
     *
     * @param array<string>|null $ruleNames
     */
    public function toStringTree(?array $ruleNames = null) : string
    {
        return Trees::toStringTree($this, $ruleNames);
    }

    public function __toString() : string
    {
        return $this->toString();
    }

    /**
     * @param array<string>|null $ruleNames
     */
    public function toString(?array $ruleNames = null, ?RuleContext $stop = null) : string
    {
        $p = $this;
        $string = '[';

        while ($p !== null && $p !== $stop) {
            if ($ruleNames === null) {
                if (!$p->isEmpty()) {
                    $string .= $p->invokingState;
                }
            } else {
                $ri = $p->getRuleIndex();
                $ruleName = $ri >= 0 && $ri < \count($ruleNames) ? $ruleNames[$ri] : (string) $ri;
                $string .= $ruleName;
            }

            if ($p->parentCtx !== null && ($ruleNames !== null || !$p->parentCtx->isEmpty())) {
                $string .= ' ';
            }

            $p = $p->parentCtx;
        }

        return $string . ']';
    }
}


1		<?php
2
3		declare(strict_types=1);
4
5		namespace Antlr\Antlr4\Runtime;
6
7		use Antlr\Antlr4\Runtime\Atn\ATN;
8		use Antlr\Antlr4\Runtime\Tree\ParseTree;
9		use Antlr\Antlr4\Runtime\Tree\ParseTreeVisitor;
10		use Antlr\Antlr4\Runtime\Tree\RuleNode;
11		use Antlr\Antlr4\Runtime\Tree\Tree;
12		use Antlr\Antlr4\Runtime\Tree\Trees;
13
14		/**
15		* A rule context is a record of a single rule invocation.
16		*
17		* We form a stack of these context objects using the parent pointer. A parent
18		* pointer of null indicates that the current context is the bottom of the stack.
19		* The {@see ParserRuleContext} subclass as a children list so that we can turn
20		* this data structure into a tree.
21		*
22		* The root node always has a null pointer and invokingState of -1.
23		*
24		* Upon entry to parsing, the first invoked rule function creates a context object
25		* (a subclass specialized for that rule such as SContext) and makes it the root
26		* of a parse tree, recorded by field Parser->ctx.
27		*
28		* public final s(){
29		* SContext _localctx = new SContext(_ctx, getState()); <-- create new node
30		* enterRule(_localctx, 0, RULE_s); <-- push it
31		* ...
32		* exitRule(); <-- pop back to _localctx
33		* return _localctx;
34		* }
35		*
36		* A subsequent rule invocation of r from the start rule s pushes a new
37		* context object for r whose parent points at s and use invoking state is
38		* the state with r emanating as edge label.
39		*
40		* The invokingState fields from a context object to the root together
41		* form a stack of rule indication states where the root (bottom of the stack)
42		* has a -1 sentinel value. If we invoke start symbol s then call r1,
43		* which calls r2, the would look like this:
44		*
45		* SContext[-1] <- root node (bottom of the stack)
46		* R1Context[p] <- p in rule s called r1
47		* R2Context[q] <- q in rule r1 called r2
48		*
49		* So the top of the stack, `_ctx`, represents a call to the current rule
50		* and it holds the return address from another rule that invoke to this rule.
51		* To invoke a rule, we must always have a current context.
52		*
53		* The parent contexts are useful for computing lookahead sets and getting
54		* error information.
55		*
56		* These objects are used during parsing and prediction. For the special case
57		* of parsers, we use the subclass {@see ParserRuleContext}.
58		*/
59		class RuleContext implements RuleNode
60		{
61		/**
62		* The context that invoked this rule.
63		*
64		* @var RuleContext\|null
65		*/
66		public $parentCtx;
67
68		/**
69		* What state invoked the rule associated with this context?
70		* The "return address" is the followState of invokingState. If parent
71		* is null, this should be -1 this context object represents the start rule.
72		*
73		* @var int
74		*/
75		public $invokingState = -1;
76
77	7	public function __construct(?RuleContext $parent, ?int $invokingState = null)
78		{
79	7	$this->parentCtx = $parent;
80	7	$this->invokingState = $invokingState ?? -1;
81	7	}
82
83	1	public static function emptyContext() : ParserRuleContext
84		{
85	1	static $empty;
86
87	1	return $empty ?? ($empty = new ParserRuleContext(null));
88		}
89
90		public function depth() : int
91		{
92		$n = 0;
93		$p = $this;
94
95		while ($p !== null) {
96		$p = $p->parentCtx;
97		$n++;
98		}
99
100		return $n;
101		}
102
103		/**
104		* A context is empty if there is no invoking state; meaning nobody call
105		* current context.
106		*/
107		public function isEmpty() : bool
108		{
109		return $this->invokingState === -1;
110		}
111
112		public function getSourceInterval() : Interval
113		{
114		return Interval::invalid();
115		}
116
117		public function getRuleContext() : RuleContext
118		{
119		return $this;
120		}
121
122		public function getPayload() : RuleContext
123		{
124		return $this;
125		}
126
127		/**
128		* Return the combined text of all child nodes. This method only considers
129		* tokens which have been added to the parse tree.
130		*
131		* Since tokens on hidden channels (e.g. whitespace or comments) are not
132		* added to the parse trees, they will not appear in the output
133		* of this method.
134		*/
135		public function getText() : string
136		{
137		$text = '';
138
139		for ($i = 0, $count = $this->getChildCount(); $i < $count; $i++) {
140		$child = $this->getChild($i);
		0 ignored issues – show Bug introduced 2020-12-10 12:02 UTC by Report Bug Copy Issue Report Show Similar Issues like this Are you sure the assignment to `$child` is correct as `$this->getChild($i)` targeting `Antlr\Antlr4\Runtime\RuleContext::getChild()` seems to always return null. This check looks for function or method calls that always return null and whose return value is assigned to a variable. class A { function getObject() { return null; } } $a = new A(); $object = $a->getObject(); The method `getObject()` can return nothing but null, so it makes no sense to assign that value to a variable. The reason is most likely that a function or method is imcomplete or has been reduced for debug purposes. Loading history...
141
142		if ($child !== null) {
143		$text .= $child->getText();
144		}
145		}
146
147		return $text;
148		}
149
150		public function getRuleIndex() : int
151		{
152		return -1;
153		}
154
155		/**
156		* For rule associated with this parse tree internal node, return the outer
157		* alternative number used to match the input. Default implementation
158		* does not compute nor store this alt num. Create a subclass of
159		* {@see ParserRuleContext} with backing field and set option
160		* `contextSuperClass` to set it.
161		*/
162		public function getAltNumber() : int
163		{
164		return ATN::INVALID_ALT_NUMBER;
165		}
166
167		/**
168		* Set the outer alternative number for this context node. Default
169		* implementation does nothing to avoid backing field overhead for trees
170		* that don't need it. Create a subclass of {@see ParserRuleContext} with backing
171		* field and set option `contextSuperClass`.
172		*/
173	4	public function setAltNumber(int $altNumber) : void
174		{
175	4	}
176
177		/**
178		* @return RuleContext\|null
179		*/
180		public function getParent() : ?Tree
181		{
182		return $this->parentCtx;
183		}
184
185	4	public function setParent(?RuleContext $ctx) : void
186		{
187	4	$this->parentCtx = $ctx;
188	4	}
189
190		/**
191		* @return ParseTree\|null
192		*/
193		public function getChild(int $i, ?string $type = null) : ?Tree
194		{
195		return null;
196		}
197
198		public function getChildCount() : int
199		{
200		return 0;
201		}
202
203	3	public function accept(ParseTreeVisitor $visitor)
204		{
205	3	return $visitor->visitChildren($this);
206		}
207
208		/**
209		* Print out a whole tree, not just a node, in LISP format
210		* (root child1 .. childN). Print just a node if this is a leaf.
211		*
212		* @param array<string>\|null $ruleNames
213		*/
214		public function toStringTree(?array $ruleNames = null) : string
215		{
216		return Trees::toStringTree($this, $ruleNames);
217		}
218
219		public function __toString() : string
220		{
221		return $this->toString();
222		}
223
224		/**
225		* @param array<string>\|null $ruleNames
226		*/
227		public function toString(?array $ruleNames = null, ?RuleContext $stop = null) : string
228		{
229		$p = $this;
230		$string = '[';
231
232		while ($p !== null && $p !== $stop) {
233		if ($ruleNames === null) {
234		if (!$p->isEmpty()) {
235		$string .= $p->invokingState;
236		}
237		} else {
238		$ri = $p->getRuleIndex();
239		$ruleName = $ri >= 0 && $ri < \count($ruleNames) ? $ruleNames[$ri] : (string) $ri;
240		$string .= $ruleName;
241		}
242
243		if ($p->parentCtx !== null && ($ruleNames !== null \|\| !$p->parentCtx->isEmpty())) {
244		$string .= ' ';
245		}
246
247		$p = $p->parentCtx;
248		}
249
250		return $string . ']';
251		}
252		}
253

SetBased / antlr-php-runtime

Issues (67)

src/RuleContext.php (1 issue)

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