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- Fixed bug in spec: PrimaryExpr is too restrictive in most places

(for instance *p was not allowed on the left side of "="). Changed
to Expression everywhere (this is too liberal, UnaryExpr is probably
good enough, but it seems funny, and we need to check semantically
anyway). This matches 6g yacc.
- Write expression syntac recursively to express evaluation order
and precedence syntactically.
- Organized open issues list, folded in stuff from todo.txt which
is now obsolete.

R=r
DELTA=108  (41 added, 52 deleted, 15 changed)
OCL=16903
CL=16910
This commit is contained in:
Robert Griesemer 2008-10-10 12:45:44 -07:00
parent 41c462c0a1
commit 57b34617e0

View File

@ -4,7 +4,7 @@ The Go Programming Language Specification (DRAFT)
Robert Griesemer, Rob Pike, Ken Thompson
----
(October 9, 2008)
(October 10, 2008)
This document is a semi-formal specification of the Go systems
@ -17,16 +17,38 @@ Any part may change substantially as design progresses.
<!--
Open issues according to gri:
Timeline (9/5/08):
- threads: 1 month
- reflection code: 2 months
- proto buf support: 3 months
- GC: 6 months
- debugger
- Jan 1, 2009: enough support to write interesting programs
Missing:
[ ] partial export of structs, methods
[ ] syntax for var args
[ ] range statement: to be defined more reasonably
[ ] reflection support
[ ] packages of multiple files
[ ] Helper syntax for composite types: allow names/indices for maps/arrays,
remove need for type in elements of composites
Todo's:
[ ] clarification on interface types, rules
[ ] clarify slice rules
[ ] clarify tuples
[ ] need to talk about precise int/floats clearly
[ ] iant suggests to use abstract/precise int for len(), cap() - good idea
(issue: what happens in len() + const - what is the type?)
Open issues:
[ ] convert should not be used for composite literals anymore,
in fact, convert() should go away
[ ] syntax for var args
[ ] reflection support in the language
[ ] partial export of structs, methods
[ ] if statement: else syntax must be fixed
[ ] range statement: to be defined more reasonably
[ ] packages of multiple files: dealing with it is convoluted
[ ] should we have a shorter list of alias types? (byte, int, uint, float)
[ ] old-style export decls (still needed, but ideally should go away)
[ ] new(arraytype, n1, n2): spec only talks about length, not capacity
@ -35,15 +57,9 @@ Open issues according to gri:
[ ] comparison operators: can we compare interfaces?
[ ] like to have assert() in the language, w/ option to disable code gen for it
[ ] composite types should uniformly create an instance instead of a pointer
[ ] clarify slice rules
[ ] something on tuples?
[ ] semantics of statements
[ ] need for type switch? (or use type guard with ok in tuple assignment?)
[ ] can we add methods to types defined in another package?
[ ] do we need anything on package vs file names?
[ ] need to talk about precise int/floats clearly
[ ] iant suggests to use abstract/precise int for len(), cap() - good idea
(issue: what happens in len() + const - what is the type?)
[ ] Do composite literals create a new literal each time (gri thinks yes)
[ ] consider syntactic notation for composite literals to make them parseable w/o type information
[ ] type switch or some form of type test needed
@ -67,7 +83,9 @@ Open issues according to gri:
Decisions in need of integration into the doc:
[ ] pair assignment is required to get map, and receive ok.
Closed issues:
Closed:
[x] can we add methods to types defined in another package? (probably not)
[x] optional semicolons: too complicated and unclear
[x] anonymous types are written using a type name, which can be a qualified identifier.
this might be a problem when referring to such a field using the type name.
@ -197,7 +215,7 @@ The syntax of PEBNF can be expressed in itself:
Parameters = "<" production_name { "," production_name } ">" .
Expression = Alternative { "|" Alternative } .
Alternative = Term { Term } .
Term = production_name [ Arguments ] | token | Group | Option | Repetition .
Term = production_name [ Arguments ] | token [ "..." token ] | Group | Option | Repetition .
Arguments = "<" Expression { "," Expression } ">" .
Group = "(" Expression ")" .
Option = "[" Expression ")" .
@ -222,6 +240,9 @@ The parameterized production for such lists is:
In this case, P stands for the actual list element.
Where possible, recursive productions are used to express evaluation order
and operator precedence syntactically (for instance for expressions).
A production may be referenced from various places in this document
but is usually defined close to its first use. Productions and code
examples are indented.
@ -1503,7 +1524,14 @@ function literal.
Primary expressions
----
PrimaryExpr = Operand { Selector | Index | Slice | TypeGuard | Call } .
PrimaryExpr =
Operand |
PrimaryExpr Selector |
PrimaryExpr Index |
PrimaryExpr Slice |
PrimaryExpr TypeGuard |
PrimaryExpr Call .
Selector = "." identifier .
Index = "[" Expression "]" .
Slice = "[" Expression ":" Expression "]" .
@ -1657,9 +1685,9 @@ Operators
Operators combine operands into expressions.
Expression = UnaryExpr { binary_op Expression } .
UnaryExpr = unary_op UnaryExpr | PrimaryExpr .
Expression = UnaryExpr | Expression binaryOp UnaryExpr .
UnaryExpr = PrimaryExpr | unary_op UnaryExpr .
binary_op = log_op | com_op | rel_op | add_op | mul_op .
log_op = "||" | "&&" .
com_op = "<-" .
@ -1680,7 +1708,9 @@ The operand types in binary operations must be equal, with the following excepti
- If both operands are ideal numbers, the conversion is to ideal floats
if one of the operands is an ideal float (relevant for "/" and "%").
Unary operators have the highest precedence.
Unary operators have the highest precedence. They are evaluated from
right to left.
There are six precedence levels for binary operators:
multiplication operators bind strongest, followed by addition
operators, comparison operators, communication operators,
@ -1695,7 +1725,7 @@ lowest precedence:
2 &&
1 ||
Operators of the same precedence associate from left to right.
Binary operators of the same precedence associate from left to right.
For instance, "x / y / z" stands for "(x / y) / z".
Examples
@ -2017,7 +2047,7 @@ The empty statement does nothing.
Expression statements
----
ExpressionStat = PrimaryExpr .
ExpressionStat = Expression .
f(x+y)
@ -2030,7 +2060,7 @@ IncDec statements
The "++" and "--" statements increment or decrement their operands
by the (ideal) constant value 1.
IncDecStat = PrimaryExpr ( "++" | "--" ) .
IncDecStat = Expression ( "++" | "--" ) .
The following assignment statements (§Assignments) are semantically
equivalent:
@ -2048,8 +2078,7 @@ For instance, "x++" cannot be used as an operand in an expression.
Assignments
----
Assignment = PrimaryExprList assign_op ExpressionList .
PrimaryExprList = PrimaryExpr { "," PrimaryExpr } .
Assignment = ExpressionList assign_op ExpressionList .
assign_op = [ add_op | mul_op ] "=" .
@ -2272,10 +2301,10 @@ Go statements
----
A go statement starts the execution of a function as an independent
concurrent thread of control within the same address space. PrimaryExpr
concurrent thread of control within the same address space. The expression
must evaluate into a function call.
GoStat = "go" PrimaryExpr .
GoStat = "go" Expression .
Unlike with a regular function call, program execution does not wait
for the invoked function to complete.
@ -2295,7 +2324,7 @@ cases all referring to communication operations.
CommClause = CommCase [ StatementList ] .
CommCase = ( "default" | ( "case" ( SendExpr | RecvExpr) ) ) ":" .
SendExpr = Expression "<-" Expression .
RecvExpr = [ PrimaryExpr ( "=" | ":=" ) ] "<-" Expression .
RecvExpr = [ Expression ( "=" | ":=" ) ] "<-" Expression .
Each communication clause acts as a block for the purpose of scoping
(§Declarations and scope rules).