vibe-core/source/vibe/internal/string.d

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/**
Utility functions for string processing
Copyright: © 2012-2014 RejectedSoftware e.K.
License: Subject to the terms of the MIT license, as written in the included LICENSE.txt file.
Authors: Sönke Ludwig
*/
module vibe.internal.string;
public import std.string;
import vibe.internal.array;
import vibe.internal.allocator;
import std.algorithm;
import std.array;
import std.ascii;
import std.format;
import std.uni;
import std.utf;
import core.exception;
/**
Takes a string with possibly invalid UTF8 sequences and outputs a valid UTF8 string as near to
the original as possible.
*/
string sanitizeUTF8(immutable(ubyte)[] str)
@safe pure {
import std.encoding : sanitize;
auto ustr = cast(immutable(char)[])str;
return () @trusted { return sanitize(ustr); } ();
}
/// ditto
string sanitizeUTF8(in ubyte[] str)
@trusted pure {
import std.encoding : sanitize;
auto ustr = cast(immutable(char)[])str;
auto ret = sanitize(ustr);
if (ret.ptr is ustr.ptr) return ustr.idup;
else return ret;
}
/**
Strips the byte order mark of an UTF8 encoded string.
This is useful when the string is coming from a file.
*/
string stripUTF8Bom(string str)
@safe pure nothrow {
if (str.length >= 3 && str[0 .. 3] == [0xEF, 0xBB, 0xBF])
return str[3 ..$];
return str;
}
/**
Checks if all characters in 'str' are contained in 'chars'.
*/
bool allOf(string str, string chars)
@safe pure {
foreach (dchar ch; str)
if (!chars.canFind(ch))
return false;
return true;
}
ptrdiff_t indexOfCT(Char)(in Char[] s, dchar c, CaseSensitive cs = CaseSensitive.yes)
@safe pure {
if (__ctfe) {
if (cs == CaseSensitive.yes) {
foreach (i, dchar ch; s)
if (ch == c)
return i;
} else {
c = std.uni.toLower(c);
foreach (i, dchar ch; s)
if (std.uni.toLower(ch) == c)
return i;
}
return -1;
} else return std.string.indexOf(s, c, cs);
}
ptrdiff_t indexOfCT(Char)(in Char[] s, in Char[] needle)
{
if (__ctfe) {
if (s.length < needle.length) return -1;
foreach (i; 0 .. s.length - needle.length)
if (s[i .. i+needle.length] == needle)
return i;
return -1;
} else return std.string.indexOf(s, needle);
}
/**
Checks if any character in 'str' is contained in 'chars'.
*/
bool anyOf(string str, string chars)
@safe pure {
foreach (ch; str)
if (chars.canFind(ch))
return true;
return false;
}
/// ASCII whitespace trimming (space and tab)
string stripLeftA(string s)
@safe pure nothrow {
while (s.length > 0 && (s[0] == ' ' || s[0] == '\t'))
s = s[1 .. $];
return s;
}
/// ASCII whitespace trimming (space and tab)
string stripRightA(string s)
@safe pure nothrow {
while (s.length > 0 && (s[$-1] == ' ' || s[$-1] == '\t'))
s = s[0 .. $-1];
return s;
}
/// ASCII whitespace trimming (space and tab)
string stripA(string s)
@safe pure nothrow {
return stripLeftA(stripRightA(s));
}
/// Finds the first occurence of any of the characters in `chars`
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ptrdiff_t indexOfAny(string str, string chars)
@safe pure {
foreach (i, char ch; str)
if (chars.canFind(ch))
return i;
return -1;
}
alias countUntilAny = indexOfAny;
/**
Finds the closing bracket (works with any of '[', '$(LPAREN)', '<', '{').
Params:
str = input string
nested = whether to skip nested brackets
Returns:
The index of the closing bracket or -1 for unbalanced strings
and strings that don't start with a bracket.
*/
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ptrdiff_t matchBracket(string str, bool nested = true)
@safe pure nothrow {
if (str.length < 2) return -1;
char open = str[0], close = void;
switch (str[0]) {
case '[': close = ']'; break;
case '(': close = ')'; break;
case '<': close = '>'; break;
case '{': close = '}'; break;
default: return -1;
}
size_t level = 1;
foreach (i, char c; str[1 .. $]) {
if (nested && c == open) ++level;
else if (c == close) --level;
if (level == 0) return i + 1;
}
return -1;
}
@safe unittest
{
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static struct Test { string str; ptrdiff_t res; }
enum tests = [
Test("[foo]", 4), Test("<bar>", 4), Test("{baz}", 4),
Test("[", -1), Test("[foo", -1), Test("ab[f]", -1),
Test("[foo[bar]]", 9), Test("[foo{bar]]", 8),
];
foreach (test; tests)
assert(matchBracket(test.str) == test.res);
assert(matchBracket("[foo[bar]]", false) == 8);
static assert(matchBracket("[foo]") == 4);
}
/// Same as std.string.format, just using an allocator.
string formatAlloc(ARGS...)(IAllocator alloc, string fmt, ARGS args)
{
auto app = AllocAppender!string(alloc);
formattedWrite(&app, fmt, args);
return app.data;
}
/// Special version of icmp() with optimization for ASCII characters
int icmp2(string a, string b)
@safe pure {
size_t i = 0, j = 0;
// fast skip equal prefix
size_t min_len = min(a.length, b.length);
while( i < min_len && a[i] == b[i] ) i++;
if( i > 0 && (a[i-1] & 0x80) ) i--; // don't stop half-way in a UTF-8 sequence
j = i;
// compare the differing character and the rest of the string
while(i < a.length && j < b.length){
uint ac = cast(uint)a[i];
uint bc = cast(uint)b[j];
if( !((ac | bc) & 0x80) ){
i++;
j++;
if( ac >= 'A' && ac <= 'Z' ) ac += 'a' - 'A';
if( bc >= 'A' && bc <= 'Z' ) bc += 'a' - 'A';
if( ac < bc ) return -1;
else if( ac > bc ) return 1;
} else {
dchar acp = decode(a, i);
dchar bcp = decode(b, j);
if( acp != bcp ){
acp = std.uni.toLower(acp);
bcp = std.uni.toLower(bcp);
if( acp < bcp ) return -1;
else if( acp > bcp ) return 1;
}
}
}
if( i < a.length ) return 1;
else if( j < b.length ) return -1;
assert(i == a.length || j == b.length, "Strings equal but we didn't fully compare them!?");
return 0;
}