io.polaris.core.string.PathMatcher Maven / Gradle / Ivy
package io.polaris.core.string;
import java.util.Comparator;
import java.util.Map;
/**
* 从 spring-framework 源码复制,稍作修改
*
* Strategy interface for {@code String}-based path matching.
*
The default implementation is {@link AntPathMatcher}, supporting the
* Ant-style pattern syntax.
*
* @author Juergen Hoeller
* @author Qt
* @see AntPathMatcher
* @since 1.2
* @since 1.8, Jan 12, 2024
*/
public interface PathMatcher {
/**
* Does the given {@code path} represent a pattern that can be matched
* by an implementation of this interface?
*
If the return value is {@code false}, then the {@link #match}
* method does not have to be used because direct equality comparisons
* on the static path Strings will lead to the same result.
*
* @param path the path to check
* @return {@code true} if the given {@code path} represents a pattern
*/
boolean isPattern(String path);
/**
* Match the given {@code path} against the given {@code pattern},
* according to this PathMatcher's matching strategy.
*
* @param pattern the pattern to match against
* @param path the path to test
* @return {@code true} if the supplied {@code path} matched,
* {@code false} if it didn't
*/
boolean match(String pattern, String path);
/**
* Match the given {@code path} against the corresponding part of the given
* {@code pattern}, according to this PathMatcher's matching strategy.
*
Determines whether the pattern at least matches as far as the given base
* path goes, assuming that a full path may then match as well.
*
* @param pattern the pattern to match against
* @param path the path to test
* @return {@code true} if the supplied {@code path} matched,
* {@code false} if it didn't
*/
boolean matchStart(String pattern, String path);
/**
* Given a pattern and a full path, determine the pattern-mapped part.
*
This method is supposed to find out which part of the path is matched
* dynamically through an actual pattern, that is, it strips off a statically
* defined leading path from the given full path, returning only the actually
* pattern-matched part of the path.
*
For example: For "myroot/*.html" as pattern and "myroot/myfile.html"
* as full path, this method should return "myfile.html". The detailed
* determination rules are specified to this PathMatcher's matching strategy.
*
A simple implementation may return the given full path as-is in case
* of an actual pattern, and the empty String in case of the pattern not
* containing any dynamic parts (i.e. the {@code pattern} parameter being
* a static path that wouldn't qualify as an actual {@link #isPattern pattern}).
* A sophisticated implementation will differentiate between the static parts
* and the dynamic parts of the given path pattern.
*
* @param pattern the path pattern
* @param path the full path to introspect
* @return the pattern-mapped part of the given {@code path}
* (never {@code null})
*/
String extractPathWithinPattern(String pattern, String path);
/**
* Given a pattern and a full path, extract the URI template variables. URI template
* variables are expressed through curly brackets ('{' and '}').
*
For example: For pattern "/hotels/{hotel}" and path "/hotels/1", this method will
* return a map containing "hotel"->"1".
*
* @param pattern the path pattern, possibly containing URI templates
* @param path the full path to extract template variables from
* @return a map, containing variable names as keys; variables values as values
*/
Map extractUriTemplateVariables(String pattern, String path);
/**
* Given a full path, returns a {@link Comparator} suitable for sorting patterns
* in order of explicitness for that path.
* The full algorithm used depends on the underlying implementation,
* but generally, the returned {@code Comparator} will
* {@linkplain java.util.List#sort(java.util.Comparator) sort}
* a list so that more specific patterns come before generic patterns.
*
* @param path the full path to use for comparison
* @return a comparator capable of sorting patterns in order of explicitness
*/
Comparator getPatternComparator(String path);
/**
* Combines two patterns into a new pattern that is returned.
* The full algorithm used for combining the two pattern depends on the underlying implementation.
*
* @param pattern1 the first pattern
* @param pattern2 the second pattern
* @return the combination of the two patterns
* @throws IllegalArgumentException when the two patterns cannot be combined
*/
String combine(String pattern1, String pattern2);
}