syntax/grammar.txt - platform/external/starlark-go - Git at Google


 Grammar of Starlark
 ==================

 File = {Statement | newline} eof .

 Statement = DefStmt | IfStmt | ForStmt | WhileStmt | SimpleStmt .

 DefStmt = 'def' identifier '(' [Parameters [',']] ')' ':' Suite .

 Parameters = Parameter {',' Parameter}.

 Parameter = identifier | identifier '=' Test | '*' | '*' identifier | '**' identifier .

 IfStmt = 'if' Test ':' Suite {'elif' Test ':' Suite} ['else' ':' Suite] .

 ForStmt = 'for' LoopVariables 'in' Expression ':' Suite .

 WhileStmt = 'while' Test ':' Suite .

 Suite = [newline indent {Statement} outdent] | SimpleStmt .

 SimpleStmt = SmallStmt {';' SmallStmt} [';'] '\n' .
 # NOTE: '\n' optional at EOF

 SmallStmt = ReturnStmt
           | BreakStmt | ContinueStmt | PassStmt
           | AssignStmt
           | ExprStmt
           | LoadStmt
           .

 ReturnStmt   = 'return' [Expression] .
 BreakStmt    = 'break' .
 ContinueStmt = 'continue' .
 PassStmt     = 'pass' .
 AssignStmt   = Expression ('=' | '+=' | '-=' | '*=' | '/=' | '//=' | '%=' | '&=' | '|=' | '^=' | '<<=' | '>>=') Expression .
 ExprStmt     = Expression .

 LoadStmt = 'load' '(' string {',' [identifier '='] string} [','] ')' .

 Test = LambdaExpr
      | IfExpr
      | PrimaryExpr
      | UnaryExpr
      | BinaryExpr
      .

 LambdaExpr = 'lambda' [Parameters] ':' Test .

 IfExpr = Test 'if' Test 'else' Test .

 PrimaryExpr = Operand
             | PrimaryExpr DotSuffix
             | PrimaryExpr CallSuffix
             | PrimaryExpr SliceSuffix
             .

 Operand = identifier
         | int | float | string
         | ListExpr | ListComp
         | DictExpr | DictComp
         | '(' [Expression [',']] ')'
         | ('-' | '+') PrimaryExpr
         .

 DotSuffix   = '.' identifier .
 CallSuffix  = '(' [Arguments [',']] ')' .
 SliceSuffix = '[' [Expression] [':' Test [':' Test]] ']' .

 Arguments = Argument {',' Argument} .
 Argument  = Test | identifier '=' Test | '*' Test | '**' Test .

 ListExpr = '[' [Expression [',']] ']' .
 ListComp = '[' Test {CompClause} ']'.

 DictExpr = '{' [Entries [',']] '}' .
 DictComp = '{' Entry {CompClause} '}' .
 Entries  = Entry {',' Entry} .
 Entry    = Test ':' Test .

 CompClause = 'for' LoopVariables 'in' Test | 'if' Test .

 UnaryExpr = 'not' Test .

 BinaryExpr = Test {Binop Test} .

 Binop = 'or'
       | 'and'
       | '==' | '!=' | '<' | '>' | '<=' | '>=' | 'in' | 'not' 'in'
       | '|'
       | '^'
       | '&'
       | '-' | '+'
       | '*' | '%' | '/' | '//'
       .

 Expression = Test {',' Test} .
 # NOTE: trailing comma permitted only when within [...] or (...).

 LoopVariables = PrimaryExpr {',' PrimaryExpr} .


 # Notation (similar to Go spec):
 - lowercase and 'quoted' items are lexical tokens.
 - Capitalized names denote grammar productions.
 - (...) implies grouping
 - x | y means either x or y.
 - [x] means x is optional
 - {x} means x is repeated zero or more times
 - The end of each declaration is marked with a period.

 # Tokens
 - spaces: newline, eof, indent, outdent.
 - identifier.
 - literals: string, int, float.
 - plus all quoted tokens such as '+=', 'return'.

 # Notes:
 - Ambiguity is resolved using operator precedence.
 - The grammar does not enforce the legal order of params and args,
   nor that the first compclause must be a 'for'.

 TODO:
 - explain how the lexer generates indent, outdent, and newline tokens.
 - why is unary NOT separated from unary - and +?
 - the grammar is (mostly) in LL(1) style so, for example,
   dot expressions are formed suffixes, not complete expressions,
   which makes the spec harder to read.  Reorganize into non-LL(1) form?

	Grammar of Starlark
	==================

	File = {Statement \| newline} eof .

	Statement = DefStmt \| IfStmt \| ForStmt \| WhileStmt \| SimpleStmt .

	DefStmt = 'def' identifier '(' [Parameters [',']] ')' ':' Suite .

	Parameters = Parameter {',' Parameter}.

	Parameter = identifier \| identifier '=' Test \| '' \| '' identifier \| '**' identifier .

	IfStmt = 'if' Test ':' Suite {'elif' Test ':' Suite} ['else' ':' Suite] .

	ForStmt = 'for' LoopVariables 'in' Expression ':' Suite .

	WhileStmt = 'while' Test ':' Suite .

	Suite = [newline indent {Statement} outdent] \| SimpleStmt .

	SimpleStmt = SmallStmt {';' SmallStmt} [';'] '\n' .
	# NOTE: '\n' optional at EOF

	SmallStmt = ReturnStmt
	\| BreakStmt \| ContinueStmt \| PassStmt
	\| AssignStmt
	\| ExprStmt
	\| LoadStmt
	.

	ReturnStmt = 'return' [Expression] .
	BreakStmt = 'break' .
	ContinueStmt = 'continue' .
	PassStmt = 'pass' .
	AssignStmt = Expression ('=' \| '+=' \| '-=' \| '*=' \| '/=' \| '//=' \| '%=' \| '&=' \| '\|=' \| '^=' \| '<<=' \| '>>=') Expression .
	ExprStmt = Expression .

	LoadStmt = 'load' '(' string {',' [identifier '='] string} [','] ')' .

	Test = LambdaExpr
	\| IfExpr
	\| PrimaryExpr
	\| UnaryExpr
	\| BinaryExpr
	.

	LambdaExpr = 'lambda' [Parameters] ':' Test .

	IfExpr = Test 'if' Test 'else' Test .

	PrimaryExpr = Operand
	\| PrimaryExpr DotSuffix
	\| PrimaryExpr CallSuffix
	\| PrimaryExpr SliceSuffix
	.

	Operand = identifier
	\| int \| float \| string
	\| ListExpr \| ListComp
	\| DictExpr \| DictComp
	\| '(' [Expression [',']] ')'
	\| ('-' \| '+') PrimaryExpr
	.

	DotSuffix = '.' identifier .
	CallSuffix = '(' [Arguments [',']] ')' .
	SliceSuffix = '[' [Expression] [':' Test [':' Test]] ']' .

	Arguments = Argument {',' Argument} .
	Argument = Test \| identifier '=' Test \| '' Test \| '*' Test .

	ListExpr = '[' [Expression [',']] ']' .
	ListComp = '[' Test {CompClause} ']'.

	DictExpr = '{' [Entries [',']] '}' .
	DictComp = '{' Entry {CompClause} '}' .
	Entries = Entry {',' Entry} .
	Entry = Test ':' Test .

	CompClause = 'for' LoopVariables 'in' Test \| 'if' Test .

	UnaryExpr = 'not' Test .

	BinaryExpr = Test {Binop Test} .

	Binop = 'or'
	\| 'and'
	\| '==' \| '!=' \| '<' \| '>' \| '<=' \| '>=' \| 'in' \| 'not' 'in'
	\| '\|'
	\| '^'
	\| '&'
	\| '-' \| '+'
	\| '*' \| '%' \| '/' \| '//'
	.

	Expression = Test {',' Test} .
	# NOTE: trailing comma permitted only when within [...] or (...).

	LoopVariables = PrimaryExpr {',' PrimaryExpr} .


	# Notation (similar to Go spec):
	- lowercase and 'quoted' items are lexical tokens.
	- Capitalized names denote grammar productions.
	- (...) implies grouping
	- x \| y means either x or y.
	- [x] means x is optional
	- {x} means x is repeated zero or more times
	- The end of each declaration is marked with a period.

	# Tokens
	- spaces: newline, eof, indent, outdent.
	- identifier.
	- literals: string, int, float.
	- plus all quoted tokens such as '+=', 'return'.

	# Notes:
	- Ambiguity is resolved using operator precedence.
	- The grammar does not enforce the legal order of params and args,
	nor that the first compclause must be a 'for'.

	TODO:
	- explain how the lexer generates indent, outdent, and newline tokens.
	- why is unary NOT separated from unary - and +?
	- the grammar is (mostly) in LL(1) style so, for example,
	dot expressions are formed suffixes, not complete expressions,
	which makes the spec harder to read. Reorganize into non-LL(1) form?