Function std.algorithm.searching.findSplitAfter
These functions find
the first occurrence of
in needle
and then split haystack
as follows.
haystack
returns a tuple findSplit
result
containing three
ranges. result[0]
is the portion of
before haystack
, needle
result[1]
is the portion of
that matches
haystack
, and needle
result[2]
is the portion of
after
the match. If haystack
was not found, needle
result[0]
comprehends
entirely and haystack
result[1]
and result[2]
are empty.
returns a tuple findSplitBefore
result
containing two
ranges. result[0]
is the portion of
before haystack
, and needle
result[1]
is the balance of
starting
with the match. If haystack
was not found, needle
result[0]
comprehends
entirely and haystack
result[1]
is empty.
returns a tuple findSplitAfter
result
containing two ranges.
result[0]
is the portion of
up to and including the
match, and haystack
result[1]
is the balance of
starting
after the match. If haystack
was not found, needle
result[0]
is empty
and result[1]
is
.
haystack
In all
cases, the concatenation of the returned ranges spans the
entire
.
haystack
If
is a random-access range, haystack
all
three components of the
tuple have the same type as
. Otherwise, haystack
must be a forward range and the type of haystack
result[0]
and result[1]
is the same as std.range.takeExactly.
Prototype
auto findSplitAfter(alias pred, R1, R2)( R1 haystack, R2 needle ) if (isForwardRange!R1 && isForwardRange!R2);
Example
auto a = "Carl Sagan Memorial Station"; auto r = findSplit(a, "Velikovsky"); assert(r[0] == a); assert(r[1].empty); assert(r[2].empty); r = findSplit(a, " "); assert(r[0] == "Carl"); assert(r[1] == " "); assert(r[2] == "Sagan Memorial Station"); auto r1 = findSplitBefore(a, "Sagan"); assert(r1[0] == "Carl ", r1[0]); assert(r1[1] == "Sagan Memorial Station"); auto r2 = findSplitAfter(a, "Sagan"); assert(r2[0] == "Carl Sagan"); assert(r2[1] == " Memorial Station");