std.conv.parse
- multiple declarations
Function parse
The parse
family of functions works quite like the to
family, except that:
- It only works with character ranges as input.
- It takes the input by reference. (This means that rvalues - such
as string literals - are not accepted: use
to
instead.) - It advances the input to the position following the conversion.
- It does not throw if it could not convert the entire input.
Target parse(Target, Source)
(
ref Source source
)
if (isInputRange!Source && isSomeChar!(ElementType!Source) && is(Unqual!Target == bool));
This overload converts an character input range to a bool
.
Parameters
Name | Description |
---|---|
Target | the type to convert to |
source | the lvalue of an input range |
Returns
A bool
Throws
A ConvException
if the range does not represent a bool
.
Note
All character input range conversions using to
are forwarded
to parse
and do not require lvalues.
Example
auto s = "true";
bool b = parse!bool(s);
assert(b);
Function parse
Parses a character input range to an integral value.
Target parse(Target, Source)
(
ref Source s
)
if (isSomeChar!(ElementType!Source) && isIntegral!Target && !is(Target == enum));
Target parse(Target, Source)
(
ref Source source,
uint radix
)
if (isSomeChar!(ElementType!Source) && isIntegral!Target && !is(Target == enum));
Parameters
Name | Description |
---|---|
Target | the integral type to convert to |
s | the lvalue of an input range |
Returns
A number of type Target
Throws
A ConvException
If an overflow occurred during conversion or
if no character of the input was meaningfully converted.
Example
string s = "123";
auto a = parse!int(s);
writeln(a); // 123
// parse only accepts lvalues
static assert(!__traits(compiles, parse!int("123")));
Example
import std .string : tr;
string test = "123 \t 76.14";
auto a = parse!uint(test);
writeln(a); // 123
assert(test == " \t 76.14"); // parse bumps string
test = tr(test, " \t\n\r", "", "d"); // skip ws
writeln(test); // "76.14"
auto b = parse!double(test);
writeln(b); // 76.14
writeln(test); // ""
Function parse
Takes a string representing an enum
type and returns that type.
Target parse(Target, Source)
(
ref Source s
)
if (isSomeString!Source && !is(Source == enum) && is(Target == enum));
Parameters
Name | Description |
---|---|
Target | the enum type to convert to |
s | the lvalue of the range to parse |
Returns
An enum
of type Target
Throws
A ConvException
if type Target
does not have a member
represented by s
.
Example
enum EnumType : bool { a = true, b = false, c = a }
auto str = "a";
writeln(parse!EnumType(str)); // EnumType.a
Function parse
Parses a character range to a floating point number.
Target parse(Target, Source)
(
ref Source source
)
if (isInputRange!Source && isSomeChar!(ElementType!Source) && !is(Source == enum) && isFloatingPoint!Target && !is(Target == enum));
Parameters
Name | Description |
---|---|
Target | a floating point type |
source | the lvalue of the range to parse |
Returns
A floating point number of type Target
Throws
A ConvException
if source
is empty, if no number could be
parsed, or if an overflow occurred.
Example
import std .math : approxEqual;
auto str = "123.456";
assert(parse!double(str) .approxEqual(123.456));
Function parse
Parsing one character off a range returns the first element and calls popFront
.
Target parse(Target, Source)
(
ref Source s
)
if (isSomeString!Source && !is(Source == enum) && (staticIndexOf!(Unqual!Target, dchar, Unqual!(ElementEncodingType!Source)) >= 0));
Target parse(Target, Source)
(
ref Source s
)
if (!isSomeString!Source && isInputRange!Source && isSomeChar!(ElementType!Source) && isSomeChar!Target && (Target .sizeof >= ElementType!Source .sizeof) && !is(Target == enum));
Parameters
Name | Description |
---|---|
Target | the type to convert to |
s | the lvalue of an input range |
Returns
A character of type Target
Throws
A ConvException
if the range is empty.
Example
auto s = "Hello, World!";
char first = parse!char(s);
writeln(first); // 'H'
writeln(s); // "ello, World!"
Function parse
Parsing a character range to typeof(null)
returns null
if the range
spells "null"
. This function is case insensitive.
Target parse(Target, Source)
(
ref Source s
)
if (isInputRange!Source && isSomeChar!(ElementType!Source) && is(Unqual!Target == typeof(null)));
Parameters
Name | Description |
---|---|
Target | the type to convert to |
s | the lvalue of an input range |
Returns
null
Throws
A ConvException
if the range doesn't represent null
.
Example
import std .exception : assertThrown;
alias NullType = typeof(null);
auto s1 = "null";
assert(parse!NullType(s1) is null);
writeln(s1); // ""
auto s2 = "NUll"d;
assert(parse!NullType(s2) is null);
writeln(s2); // ""
auto m = "maybe";
assertThrown!ConvException(parse!NullType(m));
assert(m == "maybe"); // m shouldn't change on failure
auto s = "NULL";
assert(parse!(const NullType)(s) is null);
Function parse
Parses an array from a string given the left bracket (default '['
), right bracket (default ']'
), and element separator (by
default ','
). A trailing separator is allowed.
Target parse(Target, Source)
(
ref Source s,
dchar lbracket = '[',
dchar rbracket = ']',
dchar comma = ','
)
if (isSomeString!Source && !is(Source == enum) && isDynamicArray!Target && !is(Target == enum));
Target parse(Target, Source)
(
ref Source s,
dchar lbracket = '[',
dchar rbracket = ']',
dchar comma = ','
)
if (isExactSomeString!Source && isStaticArray!Target && !is(Target == enum));
Parameters
Name | Description |
---|---|
s | The string to parse |
lbracket | the character that starts the array |
rbracket | the character that ends the array |
comma | the character that separates the elements of the array |
Returns
An array of type Target
Example
auto s1 = `[['h', 'e', 'l', 'l', 'o'], "world"]`;
auto a1 = parse!(string[])(s1);
writeln(a1); // ["hello", "world"]
auto s2 = `["aaa", "bbb", "ccc"]`;
auto a2 = parse!(string[])(s2);
writeln(a2); // ["aaa", "bbb", "ccc"]
Function parse
Parses an associative array from a string given the left bracket (default '['
), right bracket (default ']'
), key-value separator (default ':'
), and element seprator (by default ','
).
Target parse(Target, Source)
(
ref Source s,
dchar lbracket = '[',
dchar rbracket = ']',
dchar keyval = ':',
dchar comma = ','
)
if (isSomeString!Source && !is(Source == enum) && isAssociativeArray!Target && !is(Target == enum));
Parameters
Name | Description |
---|---|
s | the string to parse |
lbracket | the character that starts the associative array |
rbracket | the character that ends the associative array |
keyval | the character that associates the key with the value |
comma | the character that separates the elements of the associative array |
Returns
An associative array of type Target
Example
auto s1 = "[1:10, 2:20, 3:30]";
auto aa1 = parse!(int[int])(s1);
writeln(aa1); // [1:10, 2:20, 3:30]
auto s2 = `["aaa":10, "bbb":20, "ccc":30]`;
auto aa2 = parse!(int[string])(s2);
writeln(aa2); // ["aaa":10, "bbb":20, "ccc":30]
auto s3 = `["aaa":[1], "bbb":[2,3], "ccc":[4,5,6]]`;
auto aa3 = parse!(int[][string])(s3);
writeln(aa3); // ["aaa":[1], "bbb":[2, 3], "ccc":[4, 5, 6]]
Authors
Walter Bright, Andrei Alexandrescu, Shin Fujishiro, Adam D. Ruppe, Kenji Hara