Untitled diff
1 Introduction
1 Introduction
1.1 Terminology notes
1.1 Terminology notes
1.2 Guide notes
1.2 Guide notes
2 Source file basics
2 Source file basics
2.1 File name
2.1 File name
2.2 File encoding: UTF-8
2.2 File encoding: UTF-8
2.3 Special characters
2.3 Special characters
2.3.1 Whitespace characters
2.3.2 Special escape sequences
2.3.3 Non-ASCII characters
3 Source file structure
3 Source file structure
3.1 License or copyright information, if present
3.1 License or copyright information, if present
3.2 Package statement
3.2 Package statement
3.3 Import statements
3.3 Import statements
3.3.1 No wildcard imports
3.3.2 No line-wrapping
3.3.3 Ordering and spacing
3.4 Class declaration
3.4 Class declaration
3.4.1 Exactly one top-level class declaration
3.4.2 Class member ordering
4 Formatting
4 Formatting
4.1 Braces
4.1 Braces
4.1.1 Braces are used where optional
4.1.2 Nonempty blocks: K & R style
4.1.3 Empty blocks: may be concise
4.2 Block indentation: +2 spaces
4.2 Block indentation: +2 spaces
4.3 One statement per line
4.3 One statement per line
4.4 Column limit: 80 or 100
4.4 Column limit: 100
4.5 Line-wrapping
4.5 Line-wrapping
4.5.1 Where to break
4.5.2 Indent continuation lines at least +4 spaces
4.6 Whitespace
4.6 Whitespace
4.6.1 Vertical Whitespace
4.6.2 Horizontal whitespace
4.6.3 Horizontal alignment: never required
4.7 Grouping parentheses: recommended
4.7 Grouping parentheses: recommended
4.8 Specific constructs
4.8 Specific constructs
4.8.1 Enum classes
4.8.2 Variable declarations
4.8.3 Arrays
4.8.4 Switch statements
4.8.5 Annotations
4.8.6 Comments
4.8.7 Modifiers
4.8.8 Numeric Literals
5 Naming
5 Naming
5.1 Rules common to all identifiers
5.1 Rules common to all identifiers
5.2 Rules by identifier type
5.2 Rules by identifier type
5.2.1 Package names
5.2.2 Class names
5.2.3 Method names
5.2.4 Constant names
5.2.5 Non-constant field names
5.2.6 Parameter names
5.2.7 Local variable names
5.2.8 Type variable names
5.3 Camel case: defined
5.3 Camel case: defined
6 Programming Practices
6 Programming Practices
6.1 @Override: always used
6.1 @Override: always used
6.2 Caught exceptions: not ignored
6.2 Caught exceptions: not ignored
6.3 Static members: qualified using class
6.3 Static members: qualified using class
6.4 Finalizers: not used
6.4 Finalizers: not used
7 Javadoc
7 Javadoc
7.1 Formatting
7.1 Formatting
7.1.1 General form
7.1.2 Paragraphs
7.1.3 At-clauses
7.2 The summary fragment
7.2 The summary fragment
7.3 Where Javadoc is used
7.3 Where Javadoc is used
7.3.1 Exception: self-explanatory methods
7.3.2 Exception: overrides
1 Introduction
1 Introduction
This document serves as the complete definition of Google's coding standards for source code in the Java™ Programming Language. A Java source file is described as being in Google Style if and only if it adheres to the rules herein.
This document serves as the complete definition of Google's coding standards for source code in the Java™ Programming Language. A Java source file is described as being in Google Style if and only if it adheres to the rules herein.
Like other programming style guides, the issues covered span not only aesthetic issues of formatting, but other types of conventions or coding standards as well. However, this document focuses primarily on the hard-and-fast rules that we follow universally, and avoids giving advice that isn't clearly enforceable (whether by human or tool).
Like other programming style guides, the issues covered span not only aesthetic issues of formatting, but other types of conventions or coding standards as well. However, this document focuses primarily on the hard-and-fast rules that we follow universally, and avoids giving advice that isn't clearly enforceable (whether by human or tool).
1.1 Terminology notes
1.1 Terminology notes
In this document, unless otherwise clarified:
In this document, unless otherwise clarified:
The term class is used inclusively to mean an "ordinary" class, enum class, interface or annotation type (@interface).
The term class is used inclusively to mean an "ordinary" class, enum class, interface or annotation type (@interface).
The term comment always refers to implementation comments. We do not use the phrase "documentation comments", instead using the common term "Javadoc."
The term comment always refers to implementation comments. We do not use the phrase "documentation comments", instead using the common term "Javadoc."
Other "terminology notes" will appear occasionally throughout the document.
Other "terminology notes" will appear occasionally throughout the document.
1.2 Guide notes
1.2 Guide notes
Example code in this document is non-normative. That is, while the examples are in Google Style, they may not illustrate the only stylish way to represent the code. Optional formatting choices made in examples should not be enforced as rules.
Example code in this document is non-normative. That is, while the examples are in Google Style, they may not illustrate the only stylish way to represent the code. Optional formatting choices made in examples should not be enforced as rules.
2 Source file basics
2 Source file basics
2.1 File name
2.1 File name
The source file name consists of the case-sensitive name of the top-level class it contains, plus the .java extension.
The source file name consists of the case-sensitive name of the top-level class it contains (of which there is exactly one), plus the .java extension.
2.2 File encoding: UTF-8
2.2 File encoding: UTF-8
Source files are encoded in UTF-8.
Source files are encoded in UTF-8.
2.3 Special characters
2.3 Special characters
2.3.1 Whitespace characters
2.3.1 Whitespace characters
Aside from the line terminator sequence, the ASCII horizontal space character (0x20) is the only whitespace character that appears anywhere in a source file. This implies that:
Aside from the line terminator sequence, the ASCII horizontal space character (0x20) is the only whitespace character that appears anywhere in a source file. This implies that:
All other whitespace characters in string and character literals are escaped.
All other whitespace characters in string and character literals are escaped.
Tab characters are not used for indentation.
Tab characters are not used for indentation.
2.3.2 Special escape sequences
2.3.2 Special escape sequences
For any character that has a special escape sequence (\b, \t, \n, \f, \r, \", \' and \\), that sequence is used rather than the corresponding octal (e.g. \012) or Unicode (e.g. \u000a) escape.
For any character that has a special escape sequence (\b, \t, \n, \f, \r, \", \' and \\), that sequence is used rather than the corresponding octal (e.g. \012) or Unicode (e.g. \u000a) escape.
2.3.3 Non-ASCII characters
2.3.3 Non-ASCII characters
For the remaining non-ASCII characters, either the actual Unicode character (e.g. ∞) or the equivalent Unicode escape (e.g. \u221e) is used, depending only on which makes the code easier to read and understand.
For the remaining non-ASCII characters, either the actual Unicode character (e.g. ∞) or the equivalent Unicode escape (e.g. \u221e) is used. The choice depends only on which makes the code easier to read and understand, although Unicode escapes outside string literals and comments are strongly discouraged.
Tip: In the Unicode escape case, and occasionally even when actual Unicode characters are used, an explanatory comment can be very helpful.
Tip: In the Unicode escape case, and occasionally even when actual Unicode characters are used, an explanatory comment can be very helpful.
Examples:
Examples:
Example Discussion
Example Discussion
String unitAbbrev = "μs"; Best: perfectly clear even without a comment.
String unitAbbrev = "μs"; Best: perfectly clear even without a comment.
String unitAbbrev = "\u03bcs"; // "μs" Allowed, but there's no reason to do this.
String unitAbbrev = "\u03bcs"; // "μs" Allowed, but there's no reason to do this.
String unitAbbrev = "\u03bcs"; // Greek letter mu, "s" Allowed, but awkward and prone to mistakes.
String unitAbbrev = "\u03bcs"; // Greek letter mu, "s" Allowed, but awkward and prone to mistakes.
String unitAbbrev = "\u03bcs"; Poor: the reader has no idea what this is.
String unitAbbrev = "\u03bcs"; Poor: the reader has no idea what this is.
return '\ufeff' + content; // byte order mark Good: use escapes for non-printable characters, and comment if necessary.
return '\ufeff' + content; // byte order mark Good: use escapes for non-printable characters, and comment if necessary.
Tip: Never make your code less readable simply out of fear that some programs might not handle non-ASCII characters properly. If that should happen, those programs are broken and they must be fixed.
Tip: Never make your code less readable simply out of fear that some programs might not handle non-ASCII characters properly. If that should happen, those programs are broken and they must be fixed.
3 Source file structure
3 Source file structure
A source file consists of, in order:
A source file consists of, in order:
License or copyright information, if present
License or copyright information, if present
Package statement
Package statement
Import statements
Import statements
Exactly one top-level class
Exactly one top-level class
Exactly one blank line separates each section that is present.
Exactly one blank line separates each section that is present.
3.1 License or copyright information, if present
3.1 License or copyright information, if present
If license or copyright information belongs in a file, it belongs here.
If license or copyright information belongs in a file, it belongs here.
3.2 Package statement
3.2 Package statement
The package statement is not line-wrapped. The column limit (Section 4.4, Column limit: 80 or 100) does not apply to package statements.
The package statement is not line-wrapped. The column limit (Section 4.4, Column limit: 100) does not apply to package statements.
3.3 Import statements
3.3 Import statements
3.3.1 No wildcard imports
3.3.1 No wildcard imports
Wildcard imports, static or otherwise, are not used.
Wildcard imports, static or otherwise, are not used.
3.3.2 No line-wrapping
3.3.2 No line-wrapping
Import statements are not line-wrapped. The column limit (Section 4.4, Column limit: 80 or 100) does not apply to import statements.
Import statements are not line-wrapped. The column limit (Section 4.4, Column limit: 100) does not apply to import statements.
3.3.3 Ordering and spacing
3.3.3 Ordering and spacing
Import statements are divided into the following groups, in this order, with each group separated by a single blank line:
Imports are ordered as follows:
All static imports in a single group
All static imports in a single block.
com.google imports (only if this source file is in the com.google package space)
All non-static imports in a single block.
Third-party imports, one group per top-level package, in ASCII sort order
for example: android, com, junit, org, sun
If there are both static and non-static imports, a single blank line separates the two blocks. There are no other blank lines between import statements.
java imports
javax imports
Within a group there are no blank lines, and the imported names appear in ASCII sort order. (Note: this is not the same as the import statements being in ASCII sort order; the presence of semicolons warps the result.)
Within each block the imported names appear in ASCII sort order. (Note: this is not the same as the import statements being in ASCII sort order, since '.' sorts before ';'.)
3.4 Class declaration
3.4 Class declaration
3.4.1 Exactly one top-level class declaration
3.4.1 Exactly one top-level class declaration
Each top-level class resides in a source file of its own.
Each top-level class resides in a source file of its own.
3.4.2 Class member ordering
3.4.2 Class member ordering
The ordering of the members of a class can have a great effect on learnability, but there is no single correct recipe for how to do it. Different classes may order their members differently.
The ordering of the members of a class can have a great effect on learnability, but there is no single correct recipe for how to do it. Different classes may order their members differently.
What is important is that each class order its members in some logical order, which its maintainer could explain if asked. For example, new methods are not just habitually added to the end of the class, as that would yield "chronological by date added" ordering, which is not a logical ordering.
What is important is that each class order its members in some logical order, which its maintainer could explain if asked. For example, new methods are not just habitually added to the end of the class, as that would yield "chronological by date added" ordering, which is not a logical ordering.
3.4.2.1 Overloads: never split
3.4.2.1 Overloads: never split
When a class has multiple constructors, or multiple methods with the same name, these appear sequentially, with no intervening members.
When a class has multiple constructors, or multiple methods with the same name, these appear sequentially, with no intervening members (not even private ones).
4 Formatting
4 Formatting
Terminology Note: block-like construct refers to the body of a class, method or constructor. Note that, by Section 4.8.3.1 on array initializers, any array initializer may optionally be treated as if it were a block-like construct.
Terminology Note: block-like construct refers to the body of a class, method or constructor. Note that, by Section 4.8.3.1 on array initializers, any array initializer may optionally be treated as if it were a block-like construct.
4.1 Braces
4.1 Braces
4.1.1 Braces are used where optional
4.1.1 Braces are used where optional
Braces are used with if, else, for, do and while statements, even when the body is empty or contains only a single statement.
Braces are used with if, else, for, do and while statements, even when the body is empty or contains only a single statement.
4.1.2 Nonempty blocks: K & R style
4.1.2 Nonempty blocks: K & R style
Braces follow the Kernighan and Ritchie style ("Egyptian brackets") for nonempty blocks and block-like constructs:
Braces follow the Kernighan and Ritchie style ("Egyptian brackets") for nonempty blocks and block-like constructs:
No line break before the opening brace.
No line break before the opening brace.
Line break after the opening brace.
Line break after the opening brace.
Line break before the closing brace.
Line break before the closing brace.
Line break after the closing brace if that brace terminates a statement or the body of a method, constructor or named class. For example, there is no line break after the brace if it is followed by else or a comma.
Line break after the closing brace, only if that brace terminates a statement or terminates the body of a method, constructor, or named class. For example, there is no line break after the brace if it is followed by else or a comma.
Examples:
Example:
return () -> {
while (condition()) {
method();
}
};
return new MyClass() {
return new MyClass() {
@Override public void method() {
@Override public void method() {
if (condition()) {
if (condition()) {
try {
try {
something();
something();
} catch (ProblemException e) {
} catch (ProblemException e) {
recover();
recover();
}
}
} else if (otherCondition()) {
somethingElse();
} else {
lastThing();
}
}
}
}
};
};
A few exceptions for enum classes are given in Section 4.8.1, Enum classes.
A few exceptions for enum classes are given in Section 4.8.1, Enum classes.
4.1.3 Empty blocks: may be concise
4.1.3 Empty blocks: may be concise
An empty block or block-like construct may be closed immediately after it is opened, with no characters or line break in between ({}), unless it is part of a multi-block statement (one that directly contains multiple blocks: if/else-if/else or try/catch/finally).
An empty block or block-like construct may be closed immediately after it is opened, with no characters or line break in between ({}), unless it is part of a multi-block statement (one that directly contains multiple blocks: if/else-if/else or try/catch/finally).
Example:
Example:
void doNothing() {}
void doNothing() {}
4.2 Block indentation: +2 spaces
4.2 Block indentation: +2 spaces
Each time a new block or block-like construct is opened, the indent increases by two spaces. When the block ends, the indent returns to the previous indent level. The indent level applies to both code and comments throughout the block. (See the example in Section 4.1.2, Nonempty blocks: K & R Style.)
Each time a new block or block-like construct is opened, the indent increases by two spaces. When the block ends, the indent returns to the previous indent level. The indent level applies to both code and comments throughout the block. (See the example in Section 4.1.2, Nonempty blocks: K & R Style.)
4.3 One statement per line
4.3 One statement per line
Each statement is followed by a line-break.
Each statement is followed by a line break.
4.4 Column limit: 80 or 100
4.4 Column limit: 100
Projects are free to choose a column limit of either 80 or 100 characters. Except as noted below, any line that would exceed this limit must be line-wrapped, as explained in Section 4.5, Line-wrapping.
Java code has a column limit of 100 characters. Except as noted below, any line that would exceed this limit must be line-wrapped, as explained in Section 4.5, Line-wrapping.
Exceptions:
Exceptions:
Lines where obeying the column limit is not possible (for example, a long URL in Javadoc, or a long JSNI method reference).
Lines where obeying the column limit is not possible (for example, a long URL in Javadoc, or a long JSNI method reference).
package and import statements (see Sections 3.2 Package statement and 3.3 Import statements).
package and import statements (see Sections 3.2 Package statement and 3.3 Import statements).
Command lines in a comment that may be cut-and-pasted into a shell.
Command lines in a comment that may be cut-and-pasted into a shell.
4.5 Line-wrapping
4.5 Line-wrapping
Terminology Note: When code that might otherwise legally occupy a single line is divided into multiple lines, typically to avoid overflowing the column limit, this activity is called line-wrapping.
Terminology Note: When code that might otherwise legally occupy a single line is divided into multiple lines, this activity is called line-wrapping.
There is no comprehensive, deterministic formula showing exactly how to line-wrap in every situation. Very often there are several valid ways to line-wrap the same piece of code.
There is no comprehensive, deterministic formula showing exactly how to line-wrap in every situation. Very often there are several valid ways to line-wrap the same piece of code.
Note: While the typical reason for line-wrapping is to avoid overflowing the column limit, even code that would in fact fit within the column limit may be line-wrapped at the author's discretion.
Tip: Extracting a method or local variable may solve the problem without the need to line-wrap.
Tip: Extracting a method or local variable may solve the problem without the need to line-wrap.
4.5.1 Where to break
4.5.1 Where to break
The prime directive of line-wrapping is: prefer to break at a higher syntactic level. Also:
The prime directive of line-wrapping is: prefer to break at a higher syntactic level. Also:
When a line is broken at a non-assignment operator the break comes before the symbol. (Note that this is not the same practice used in Google style for other languages, such as C++ and JavaScript.)
When a line is broken at a non-assignment operator the break comes before the symbol. (Note that this is not the same practice used in Google style for other languages, such as C++ and JavaScript.)
This also applies to the following "operator-like" symbols: the dot separator (.), the ampersand in type bounds (<T extends Foo & Bar>), and the pipe in catch blocks (catch (FooException | BarException e)).
This also applies to the following "operator-like" symbols: the dot separator (.), the two colons of a method reference (::), the ampersand in type bounds (<T extends Foo & Bar>), and the pipe in catch blocks (catch (FooException | BarException e)).
When a line is broken at an assignment operator the break typically comes after the symbol, but either way is acceptable.
When a line is broken at an assignment operator the break typically comes after the symbol, but either way is acceptable.
This also applies to the "assignment-operator-like" colon in an enhanced for ("foreach") statement.
This also applies to the "assignment-operator-like" colon in an enhanced for ("foreach") statement.
A method or constructor name stays attached to the open parenthesis (() that follows it.
A method or constructor name stays attached to the open parenthesis (() that follows it.
A comma (,) stays attached to the token that precedes it.
A comma (,) stays attached to the token that precedes it.
Note: The primary goal for line wrapping is to have clear code, not necessarily code that fits in the smallest number of lines.
4.5.2 Indent continuation lines at least +4 spaces
4.5.2 Indent continuation lines at least +4 spaces
When line-wrapping, each line after the first (each continuation line) is indented at least +4 from the original line.
When line-wrapping, each line after the first (each continuation line) is indented at least +4 from the original line.
When there are multiple continuation lines, indentation may be varied beyond +4 as desired. In general, two continuation lines use the same indentation level if and only if they begin with syntactically parallel elements.
When there are multiple continuation lines, indentation may be varied beyond +4 as desired. In general, two continuation lines use the same indentation level if and only if they begin with syntactically parallel elements.
Section 4.6.3 on Horizontal alignment addresses the discouraged practice of using a variable number of spaces to align certain tokens with previous lines.
Section 4.6.3 on Horizontal alignment addresses the discouraged practice of using a variable number of spaces to align certain tokens with previous lines.
4.6 Whitespace
4.6 Whitespace
4.6.1 Vertical Whitespace
4.6.1 Vertical Whitespace
A single blank line appears:
A single blank line appears:
Between consecutive members (or initializers) of a class: fields, constructors, methods, nested classes, static initializers, instance initializers.
Between consecutive members (or initializers) of a class: fields, constructors, methods, nested classes, static initializers, instance initializers.
Exception: A blank line between two consecutive fields (having no other code between them) is optional. Such blank lines are used as needed to create logical groupings of fields.
Exception: A blank line between two consecutive fields (having no other code between them) is optional. Such blank lines are used as needed to create logical groupings of fields.
Within method bodies, as needed to create logical groupings of statements.
Exception: Blank lines between enum constants are covered in Section 4.8.1.
Between statements, as needed to organize the code into logical subsections.
Optionally before the first member or after the last member of the class (neither encouraged nor discouraged).
Optionally before the first member or after the last member of the class (neither encouraged nor discouraged).
As required by other sections of this document (such as Section 3.3, Import statements).
As required by other sections of this document (such as Section 3, Source file structure, and Section 3.3, Import statements).
Multiple consecutive blank lines are permitted, but never required (or encouraged).
Multiple consecutive blank lines are permitted, but never required (or encouraged).
4.6.2 Horizontal whitespace
4.6.2 Horizontal whitespace
Beyond where required by the language or other style rules, and apart from literals, comments and Javadoc, a single ASCII space also appears in the following places only.
Beyond where required by the language or other style rules, and apart from literals, comments and Javadoc, a single ASCII space also appears in the following places only.
Separating any reserved word, such as if, for or catch, from an open parenthesis (() that follows it on that line
Separating any reserved word, such as if, for or catch, from an open parenthesis (() that follows it on that line
Separating any reserved word, such as else or catch, from a closing curly brace (}) that precedes it on that line
Separating any reserved word, such as else or catch, from a closing curly brace (}) that precedes it on that line
Before any open curly brace ({), with two exceptions:
Before any open curly brace ({), with two exceptions:
@SomeAnnotation({a, b}) (no space is used)
@SomeAnnotation({a, b}) (no space is used)
String[][] x = {{"foo"}}; (no space is required between {{, by item 8 below)
String[][] x = {{"foo"}}; (no space is required between {{, by item 8 below)
On both sides of any binary or ternary operator. This also applies to the following "operator-like" symbols:
On both sides of any binary or ternary operator. This also applies to the following "operator-like" symbols:
the ampersand in a conjunctive type bound: <T extends Foo & Bar>
the ampersand in a conjunctive type bound: <T extends Foo & Bar>
the pipe for a catch block that handles multiple exceptions: catch (FooException | BarException e)
the pipe for a catch block that handles multiple exceptions: catch (FooException | BarException e)
the colon (:) in an enhanced for ("foreach") statement
the colon (:) in an enhanced for ("foreach") statement
the arrow in a lambda expression: (String str) -> str.length()
but not
the two colons (::) of a method reference, which is written like Object::toString
the dot separator (.), which is written like object.toString()
After ,:; or the closing parenthesis ()) of a cast
After ,:; or the closing parenthesis ()) of a cast
On both sides of the double slash (//) that begins an end-of-line comment. Here, multiple spaces are allowed, but not required.
On both sides of the double slash (//) that begins an end-of-line comment. Here, multiple spaces are allowed, but not required.
Between the type and variable of a declaration: List<String> list
Between the type and variable of a declaration: List<String> list
Optional just inside both braces of an array initializer
Optional just inside both braces of an array initializer
new int[] {5, 6} and new int[] { 5, 6 } are both valid
new int[] {5, 6} and new int[] { 5, 6 } are both valid
Note: This rule never requires or forbids additional space at the start or end of a line, only interior space.
This rule is never interpreted as requiring or forbidding additional space at the start or end of a line; it addresses only interior space.
4.6.3 Horizontal alignment: never required
4.6.3 Horizontal alignment: never required
Terminology Note: Horizontal alignment is the practice of adding a variable number of additional spaces in your code with the goal of making certain tokens appear directly below certain other tokens on previous lines.
Terminology Note: Horizontal alignment is the practice of adding a variable number of additional spaces in your code with the goal of making certain tokens appear directly below certain other tokens on previous lines.
This practice is permitted, but is never required by Google Style. It is not even required to maintain horizontal alignment in places where it was already used.
This practice is permitted, but is never required by Google Style. It is not even required to maintain horizontal alignment in places where it was already used.
Here is an example without alignment, then using alignment:
Here is an example without alignment, then using alignment:
private int x; // this is fine
private int x; // this is fine
private Color color; // this too
private Color color; // this too
private int x; // permitted, but future edits
private int x; // permitted, but future edits
private Color color; // may leave it unaligned
private Color color; // may leave it unaligned
Tip: Alignment can aid readability, but it creates problems for future maintenance. Consider a future change that needs to touch just one line. This change may leave the formerly-pleasing formatting mangled, and that is allowed. More often it prompts the coder (perhaps you) to adjust whitespace on nearby lines as well, possibly triggering a cascading series of reformattings. That one-line change now has a "blast radius." This can at worst result in pointless busywork, but at best it still corrupts version history information, slows down reviewers and exacerbates merge conflicts.
Tip: Alignment can aid readability, but it creates problems for future maintenance. Consider a future change that needs to touch just one line. This change may leave the formerly-pleasing formatting mangled, and that is allowed. More often it prompts the coder (perhaps you) to adjust whitespace on nearby lines as well, possibly triggering a cascading series of reformattings. That one-line change now has a "blast radius." This can at worst result in pointless busywork, but at best it still corrupts version history information, slows down reviewers and exacerbates merge conflicts.
4.7 Grouping parentheses: recommended
4.7 Grouping parentheses: recommended
Optional grouping parentheses are omitted only when author and reviewer agree that there is no reasonable chance the code will be misinterpreted without them, nor would they have made the code easier to read. It is not reasonable to assume that every reader has the entire Java operator precedence table memorized.
Optional grouping parentheses are omitted only when author and reviewer agree that there is no reasonable chance the code will be misinterpreted without them, nor would they have made the code easier to read. It is not reasonable to assume that every reader has the entire Java operator precedence table memorized.
4.8 Specific constructs
4.8 Specific constructs
4.8.1 Enum classes
4.8.1 Enum classes
After each comma that follows an enum constant, a line-break is optional.
After each comma that follows an enum constant, a line break is optional. Additional blank lines (usually just one) are also allowed. This is one possibility:
private enum Answer {
YES {
@Override public String toString() {
return "yes";
}
},
NO,
MAYBE
}
An enum class with no methods and no documentation on its constants may optionally be formatted as if it were an array initializer (see Section 4.8.3.1 on array initializers).
An enum class with no methods and no documentation on its constants may optionally be formatted as if it were an array initializer (see Section 4.8.3.1 on array initializers).
private enum Suit { CLUBS, HEARTS, SPADES, DIAMONDS }
private enum Suit { CLUBS, HEARTS, SPADES, DIAMONDS }
Since enum classes are classes, all other rules for formatting classes apply.
Since enum classes are classes, all other rules for formatting classes apply.
4.8.2 Variable declarations
4.8.2 Variable declarations
4.8.2.1 One variable per declaration
4.8.2.1 One variable per declaration
Every variable declaration (field or local) declares only one variable: declarations such as int a, b; are not used.
Every variable declaration (field or local) declares only one variable: declarations such as int a, b; are not used.
4.8.2.2 Declared when needed, initialized as soon as possible
4.8.2.2 Declared when needed
Local variables are not habitually declared at the start of their containing block or block-like construct. Instead, local variables are declared close to the point they are first used (within reason), to minimize their scope. Local variable declarations typically have initializers, or are initialized immediately after declaration.
Local variables are not habitually declared at the start of their containing block or block-like construct. Instead, local variables are declared close to the point they are first used (within reason), to minimize their scope. Local variable declarations typically have initializers, or are initialized immediately after declaration.
4.8.3 Arrays
4.8.3 Arrays
4.8.3.1 Array initializers: can be "block-like"
4.8.3.1 Array initializers: can be "block-like"
Any array initializer may optionally be formatted as if it were a "block-like construct." For example, the following are all valid (not an exhaustive list):
Any array initializer may optionally be formatted as if it were a "block-like construct." For example, the following are all valid (not an exhaustive list):
new int[] { new int[] {
new int[] { new int[] {
0, 1, 2, 3 0,
0, 1, 2, 3 0,
} 1,
} 1,
2,
2,
new int[] { 3,
new int[] { 3,
0, 1, }
0, 1, }
2, 3
2, 3
} new int[]
} new int[]
{0, 1, 2, 3}
{0, 1, 2, 3}
4.8.3.2 No C-style array declarations
4.8.3.2 No C-style array declarations
The square brackets form a part of the type, not the variable: String[] args, not String args[].
The square brackets form a part of the type, not the variable: String[] args, not String args[].
4.8.4 Switch statements
4.8.4 Switch statements
Terminology Note: Inside the braces of a switch block are one or more statement groups. Each statement group consists of one or more switch labels (either case FOO: or default:), followed by one or more statements.
Terminology Note: Inside the braces of a switch block are one or more statement groups. Each statement group consists of one or more switch labels (either case FOO: or default:), followed by one or more statements.
4.8.4.1 Indentation
4.8.4.1 Indentation
As with any other block, the contents of a switch block are indented +2.
As with any other block, the contents of a switch block are indented +2.
After a switch label, a newline appears, and the indentation level is increased +2, exactly as if a block were being opened. The following switch label returns to the previous indentation level, as if a block had been closed.
After a switch label, a newline appears, and the indentation level is increased +2, exactly as if a block were being opened. The following switch label returns to the previous indentation level, as if a block had been closed.
4.8.4.2 Fall-through: commented
4.8.4.2 Fall-through: commented
Within a switch block, each statement group either terminates abruptly (with a break, continue, return or thrown exception), or is marked with a comment to indicate that execution will or might continue into the next statement group. Any comment that communicates the idea of fall-through is sufficient (typically // fall through). This special comment is not required in the last statement group of the switch block. Example:
Within a switch block, each statement group either terminates abruptly (with a break, continue, return or thrown exception), or is marked with a comment to indicate that execution will or might continue into the next statement group. Any comment that communicates the idea of fall-through is sufficient (typically // fall through). This special comment is not required in the last statement group of the switch block. Example:
switch (input) {
switch (input) {
case 1:
case 1:
case 2:
case 2:
prepareOneOrTwo();
prepareOneOrTwo();
// fall through
// fall through
case 3:
case 3:
handleOneTwoOrThree();
handleOneTwoOrThree();
break;
break;
default:
default:
handleLargeNumber(input);
handleLargeNumber(input);
}
}
Notice that no comment is needed after case 1:, only at the end of the statement group.
4.8.4.3 The default case is present
4.8.4.3 The default case is present
Each switch statement includes a default statement group, even if it contains no code.
Each switch statement includes a default statement group, even if it contains no code.
4.8.5 Annotations
4.8.5 Annotations
Annotations applying to a class, method or constructor appear immediately after the documentation block, and each annotation is listed on a line of its own (that is, one annotation per line). These line breaks do not constitute line-wrapping (Section 4.5, Line-wrapping), so the indentation level is not increased. Example:
Annotations applying to a class, method or constructor appear immediately after the documentation block, and each annotation is listed on a line of its own (that is, one annotation per line). These line breaks do not constitute line-wrapping (Section 4.5, Line-wrapping), so the indentation level is not increased. Example:
@Override
@Override
@Nullable
@Nullable
public String getNameIfPresent() { ... }
public String getNameIfPresent() { ... }
Exception: A single parameterless annotation may instead appear together with the first line of the signature, for example:
Exception: A single parameterless annotation may instead appear together with the first line of the signature, for example:
@Override public int hashCode() { ... }
@Override public int hashCode() { ... }
Annotations applying to a field also appear immediately after the documentation block, but in this case, multiple annotations (possibly parameterized) may be listed on the same line; for example:
Annotations applying to a field also appear immediately after the documentation block, but in this case, multiple annotations (possibly parameterized) may be listed on the same line; for example:
@Partial @Mock DataLoader loader;
@Partial @Mock DataLoader loader;
There are no specific rules for formatting parameter and local variable annotations.
There are no specific rules for formatting annotations on parameters, local variables, or types.
4.8.6 Comments
4.8.6 Comments
This section addresses implementation comments. Javadoc is addressed separately in Section 7, Javadoc.
4.8.6.1 Block comment style
4.8.6.1 Block comment style
Block comments are indented at the same level as the surrounding code. They may be in /* ... */ style or // ... style. For multi-line /* ... */ comments, subsequent lines must start with * aligned with the * on the previous line.
Block comments are indented at the same level as the surrounding code. They may be in /* ... */ style or // ... style. For multi-line /* ... */ comments, subsequent lines must start with * aligned with the * on the previous line.
/*
/*
* This is // And so /* Or you can
* This is // And so /* Or you can
* okay. // is this. * even do this. */
* okay. // is this. * even do this. */
*/
*/
Comments are not enclosed in boxes drawn with asterisks or other characters.
Comments are not enclosed in boxes drawn with asterisks or other characters.
Tip: When writing multi-line comments, use the /* ... */ style if you want automatic code formatters to re-wrap the lines when necessary (paragraph-style). Most formatters don't re-wrap lines in // ... style comment blocks.
Tip: When writing multi-line comments, use the /* ... */ style if you want automatic code formatters to re-wrap the lines when necessary (paragraph-style). Most formatters don't re-wrap lines in // ... style comment blocks.
4.8.7 Modifiers
4.8.7 Modifiers
Class and member modifiers, when present, appear in the order recommended by the Java Language Specification:
Class and member modifiers, when present, appear in the order recommended by the Java Language Specification:
public protected private abstract static final transient volatile synchronized native strictfp
public protected private abstract default static final transient volatile synchronized native strictfp
4.8.8 Numeric Literals
4.8.8 Numeric Literals
long-valued integer literals use an uppercase L suffix, never lowercase (to avoid confusion with the digit 1). For example, 3000000000L rather than 3000000000l.
long-valued integer literals use an uppercase L suffix, never lowercase (to avoid confusion with the digit 1). For example, 3000000000L rather than 3000000000l.
5 Naming
5 Naming
5.1 Rules common to all identifiers
5.1 Rules common to all identifiers
Identifiers use only ASCII letters and digits, and in two cases noted below, underscores. Thus each valid identifier name is matched by the regular expression \w+ .
Identifiers use only ASCII letters and digits, and, in a small number of cases noted below, underscores. Thus each valid identifier name is matched by the regular expression \w+ .
In Google Style special prefixes or suffixes, like those seen in the examples name_, mName, s_name and kName, are not used.
In Google Style special prefixes or suffixes, like those seen in the examples name_, mName, s_name and kName, are not used.
5.2 Rules by identifier type
5.2 Rules by identifier type
5.2.1 Package names
5.2.1 Package names
Package names are all lowercase, with consecutive words simply concatenated together (no underscores). For example, com.example.deepspace, not com.example.deepSpace or com.example.deep_space.
Package names are all lowercase, with consecutive words simply concatenated together (no underscores). For example, com.example.deepspace, not com.example.deepSpace or com.example.deep_space.
5.2.2 Class names
5.2.2 Class names
Class names are written in UpperCamelCase.
Class names are written in UpperCamelCase.
Class names are typically nouns or noun phrases. For example, Character or ImmutableList. Interface names may also be nouns or noun phrases (for example, List), but may sometimes be adjectives or adjective phrases instead (for example, Readable).
Class names are typically nouns or noun phrases. For example, Character or ImmutableList. Interface names may also be nouns or noun phrases (for example, List), but may sometimes be adjectives or adjective phrases instead (for example, Readable).
There are no specific rules or even well-established conventions for naming annotation types.
There are no specific rules or even well-established conventions for naming annotation types.
Test classes are named starting with the name of the class they are testing, and ending with Test. For example, HashTest or HashIntegrationTest.
Test classes are named starting with the name of the class they are testing, and ending with Test. For example, HashTest or HashIntegrationTest.
5.2.3 Method names
5.2.3 Method names
Method names are written in lowerCamelCase.
Method names are written in lowerCamelCase.
Method names are typically verbs or verb phrases. For example, sendMessage or stop.
Method names are typically verbs or verb phrases. For example, sendMessage or stop.
Underscores may appear in JUnit test method names to separate logical components of the name. One typical pattern is test<MethodUnderTest>_<state>, for example testPop_emptyStack. There is no One Correct Way to name test methods.
Underscores may appear in JUnit test method names to separate logical components of the name. One typical pattern is test<MethodUnderTest>_<state>, for example testPop_emptyStack. There is no One Correct Way to name test methods.
5.2.4 Constant names
5.2.4 Constant names
Constant names use CONSTANT_CASE: all uppercase letters, with words separated by underscores. But what is a constant, exactly?
Constant names use CONSTANT_CASE: all uppercase letters, with words separated by underscores. But what is a constant, exactly?
Every constant is a static final field, but not all static final fields are constants. Before choosing constant case, consider whether the field really feels like a constant. For example, if any of that instance's observable state can change, it is almost certainly not a constant. Merely intending to never mutate the object is generally not enough. Examples:
Every constant is a static final field, but not all static final fields are constants. Before choosing constant case, consider whether the field really feels like a constant. For example, if any of that instance's observable state can change, it is almost certainly not a constant. Merely intending to never mutate the object is generally not enough. Examples:
// Constants
// Constants
static final int NUMBER = 5;
static final int NUMBER = 5;
static final ImmutableList<String> NAMES = ImmutableList.of("Ed", "Ann");
static final ImmutableList<String> NAMES = ImmutableList.of("Ed", "Ann");
static final Joiner COMMA_JOINER = Joiner.on(','); // because Joiner is immutable
static final Joiner COMMA_JOINER = Joiner.on(','); // because Joiner is immutable
static final SomeMutableType[] EMPTY_ARRAY = {};
static final SomeMutableType[] EMPTY_ARRAY = {};
enum SomeEnum { ENUM_CONSTANT }
enum SomeEnum { ENUM_CONSTANT }
// Not constants
// Not constants
static String nonFinal = "non-final";
static String nonFinal = "non-final";
final String nonStatic = "non-static";
final String nonStatic = "non-static";
static final Set<String> mutableCollection = new HashSet<String>();
static final Set<String> mutableCollection = new HashSet<String>();
static final ImmutableSet<SomeMutableType> mutableElements = ImmutableSet.of(mutable);
static final ImmutableSet<SomeMutableType> mutableElements = ImmutableSet.of(mutable);
static final Logger logger = Logger.getLogger(MyClass.getName());
static final Logger logger = Logger.getLogger(MyClass.getName());
static final String[] nonEmptyArray = {"these", "can", "change"};
static final String[] nonEmptyArray = {"these", "can", "change"};
These names are typically nouns or noun phrases.
These names are typically nouns or noun phrases.
5.2.5 Non-constant field names
5.2.5 Non-constant field names
Non-constant field names (static or otherwise) are written in lowerCamelCase.
Non-constant field names (static or otherwise) are written in lowerCamelCase.
These names are typically nouns or noun phrases. For example, computedValues or index.
These names are typically nouns or noun phrases. For example, computedValues or index.
5.2.6 Parameter names
5.2.6 Parameter names
Parameter names are written in lowerCamelCase.
Parameter names are written in lowerCamelCase.
One-character parameter names should be avoided.
One-character parameter names in public methods should be avoided.
5.2.7 Local variable names
5.2.7 Local variable names
Local variable names are written in lowerCamelCase, and can be abbreviated more liberally than other types of names.
Local variable names are written in lowerCamelCase.
However, one-character names should be avoided, except for temporary and looping variables.
Even when final and immutable, local variables are not considered to be constants, and should not be styled as constants.
Even when final and immutable, local variables are not considered to be constants, and should not be styled as constants.
5.2.8 Type variable names
5.2.8 Type variable names
Each type variable is named in one of two styles:
Each type variable is named in one of two styles:
A single capital letter, optionally followed by a single numeral (such as E, T, X, T2)
A single capital letter, optionally followed by a single numeral (such as E, T, X, T2)
A name in the form used for classes (see Section 5.2.2, Class names), followed by the capital letter T (examples: RequestT, FooBarT).
A name in the form used for classes (see Section 5.2.2, Class names), followed by the capital letter T (examples: RequestT, FooBarT).
5.3 Camel case: defined
5.3 Camel case: defined
Sometimes there is more than one reasonable way to convert an English phrase into camel case, such as when acronyms or unusual constructs like "IPv6" or "iOS" are present. To improve predictability, Google Style specifies the following (nearly) deterministic scheme.
Sometimes there is more than one reasonable way to convert an English phrase into camel case, such as when acronyms or unusual constructs like "IPv6" or "iOS" are present. To improve predictability, Google Style specifies the following (nearly) deterministic scheme.
Beginning with the prose form of the name:
Beginning with the prose form of the name:
Convert the phrase to plain ASCII and remove any apostrophes. For example, "Müller's algorithm" might become "Muellers algorithm".
Convert the phrase to plain ASCII and remove any apostrophes. For example, "Müller's algorithm" might become "Muellers algorithm".
Divide this result into words, splitting on spaces and any remaining punctuation (typically hyphens).
Divide this result into words, splitting on spaces and any remaining punctuation (typically hyphens).
Recommended: if a
Recommended: if any word already has a conventional camel-case appearanc