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mirror of https://github.com/golang/go synced 2024-11-25 03:57:56 -07:00

address most of the editorial comments through "types"

R=rsc
DELTA=41  (9 added, 4 deleted, 28 changed)
OCL=25611
CL=25611
This commit is contained in:
Rob Pike 2009-03-02 19:13:40 -08:00
parent ea3d4540b3
commit da38974c88

View File

@ -188,10 +188,6 @@ The form <code>"a ... b"</code> represents the set of characters from
<code>a</code> through <code>b</code> as alternatives.
</p>
<p>
Where possible, recursive productions are used to express evaluation order
and operator precedence syntactically.
</p>
<hr/>
<h2>Source code representation</h2>
@ -621,8 +617,9 @@ uintptr smallest uint type large enough to store the uninterpreted
</pre>
<p>
Except for <code>byte</code>, which is an alias for <code>uint8</code>,
to avoid portability issues all numeric types are distinct. Conversions
To avoid portability issues all numeric types are distinct except
<code>byte</code>, which is an alias for <code>uint8</code>.
Conversions
are required when different numeric types are mixed in an expression
or assignment. For instance, <code>int32</code> and <code>int</code>
are not the same type even though they may have the same size on a
@ -669,7 +666,7 @@ StringLit = string_lit { string_lit } .
<p>
A struct is a sequence of named
elements, called fields, with various types. A struct type declares
an identifier and type for each field. Within a struct field identifiers
an identifier and type for each field. Within a struct, field identifiers
must be unique and field types must be complete (§Types).
</p>
@ -696,8 +693,8 @@ struct {
<p>
A field declared with a type but no field identifier is an <i>anonymous field</i>.
Such a field type must be specified as
a type name <code>T</code> or as a pointer to a type name <code>*T</code>
and <code>T</code> itself may not be
a type name <code>T</code> or as a pointer to a type name <code>*T</code>,
and <code>T</code> itself, may not be
a pointer or interface type. The unqualified type name acts as the field identifier.
</p>
@ -706,8 +703,8 @@ a pointer or interface type. The unqualified type name acts as the field identif
struct {
T1; // the field name is T1
*T2; // the field name is T2
P.T3; // the field name is the unqualified type name T3
*P.T4; // the field name is the unqualified type name T4
P.T3; // the field name is T3
*P.T4; // the field name is T4
x, y int;
}
</pre>
@ -782,7 +779,7 @@ indices 0 through the <code>len(a)-1</code> (§Indexes).
<p>
A pointer type denotes the set of all pointers to variables of a given
type, called the ``base type'' of the pointer.
type, called the <i>base type</i> of the pointer.
A pointer value may be <code>nil</code>.
</p>
@ -826,7 +823,7 @@ The types of parameters and results must be complete.
<p>
For the last parameter only, instead of a type one may write
<code>...</code> to indicate that the function may be invoked with
an arbitrary number (including zero) of additional arguments of any
zero or more additional arguments of any
type. If parameters of such a function are named, the final identifier
list must be a single name, that of the <code>...</code> parameter.
</p>
@ -995,7 +992,8 @@ and the relationship between <code>len()</code> and <code>cap()</code> is:
</pre>
<p>
The value of an uninitialized slice is <code>nil</code>, and its length and capacity
The value of an uninitialized slice is <code>nil</code>.
The length and capacity of a <code>nil</code> slice
are 0. A new, initialized slice value for a given element type <code>T</code> is
made using the built-in function <code>make</code>, which takes a slice type
and parameters specifying the length and optionally the capacity:
@ -1020,7 +1018,7 @@ produces the same slice as allocating an array and slicing it:
</p>
<pre>
make([capacity]T)[0 : length]
make([]T, capacity)[0 : length]
</pre>
@ -1062,20 +1060,27 @@ map [string] interface {}
The number of elements is called the length and is never negative.
The length of a map <code>m</code> can be discovered using the
built-in function <code>len(m)</code> and may change during execution.
The value of an uninitialized map is <code>nil</code>
The value of an uninitialized map is <code>nil</code>.
</p>
<p>
Upon creation, a map is empty. Values may be added and removed
during execution using special forms of assignment (§Assignments).
A new, empty map value is made using the built-in
function <code>make</code>, which takes the map type and an optional
capacity, an allocation hint, as arguments:
capacity hint as arguments:
</p>
<pre>
make(map[string] int, 100);
make(map[string] int)
make(map[string] int, 100)
</pre>
<p>
The initial capacity does not bound its size:
maps grow to accommodate the number of items
stored in them.
</p>
<h3>Channel types</h3>
<p>
@ -1113,7 +1118,7 @@ which takes the channel type and an optional capacity as arguments:
</p>
<pre>
make(chan int, 100);
make(chan int, 100)
</pre>
<p>
@ -1130,7 +1135,7 @@ Types may be <i>different</i>, <i>structurally equal</i> (or just <i>equal</i>),
or <i>identical</i>.
Go is <i>type safe</i>: different types cannot be mixed
in binary operations and values cannot be assigned to variables of different
types. They can be assigned to variables of equal type.
types. Values can be assigned to variables of equal type.
</p>
<h3>Type equality and identity </h3>
@ -1245,7 +1250,7 @@ When assigning to a slice variable, the array is not copied but a
slice comprising the entire array is created.
</li>
<li>
A value can be assigned to an interface variable if the dynamic
A value can be assigned to an interface variable if the static
type of the value implements the interface.
</li>
<li>
@ -1273,8 +1278,8 @@ compared for equality or inequality using the <code>==</code> and
Arrays and structs may not be compared to anything.
</li>
<li>
A slice value may only be compared explicitly against <code>nil</code>
and is equal to <code>nil</code> if it has been assigned the explicit
A slice value may only be compared explicitly against <code>nil</code>.
A slice value is equal to <code>nil</code> if it has been assigned the explicit
value <code>nil</code> or if it is a variable (or array element,
field, etc.) that has not been modified since it was created
uninitialized.
@ -1294,15 +1299,15 @@ unequal if one equals <code>nil</code> and one does not.
Pointer values are equal if they point to the same location.
</li>
<li>
Function values are equal if they point to the same function.
Function values are equal if they refer to the same function.
</li>
<li>
Channel and map values are equal if they were created by the same call of <code>make</code>
Channel and map values are equal if they were created by the same call to <code>make</code>
(§Making slices, maps, and channels).
</li>
<li>
Interface values are comparison compatible if they have the same static type and
equal if they have the same dynamic type.
Interface values may be compared if they have the same static type.
They will be equal only if they have the same dynamic type and the underlying values are equal.
</li>
</ul>
<hr/>
@ -1437,7 +1442,7 @@ CompleteType = Type .
<p>
If the type (CompleteType) is omitted, the constants take the
individual types of the corresponding expressions, which may be
``ideal integer'' or ``ideal float'' (§Ideal number). If the type
<i>ideal integer</i> or <i>ideal float</i> (§Ideal number). If the type
is present, all constants take the type specified, and the types
of all the expressions must be assignment-compatible
with that type.