gecko-dev/xpcom/string/nsReadableUtils.h

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C

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
// IWYU pragma: private, include "nsString.h"
#ifndef nsReadableUtils_h___
#define nsReadableUtils_h___
/**
* I guess all the routines in this file are all mis-named.
* According to our conventions, they should be |NS_xxx|.
*/
#include "mozilla/Assertions.h"
#include "nsAString.h"
#include "mozilla/Tuple.h"
#include "nsTArrayForwardDeclare.h"
// Can't include mozilla/Encoding.h here. The implementations are in
// the encoding_rs and encoding_glue crates.
extern "C" {
size_t encoding_utf8_valid_up_to(uint8_t const* buffer, size_t buffer_len);
bool encoding_mem_is_ascii(uint8_t const* buffer, size_t buffer_len);
bool encoding_mem_is_basic_latin(char16_t const* buffer, size_t buffer_len);
bool encoding_mem_is_utf8_latin1(uint8_t const* buffer, size_t buffer_len);
bool encoding_mem_is_str_latin1(uint8_t const* buffer, size_t buffer_len);
bool encoding_mem_is_utf16_latin1(char16_t const* buffer, size_t buffer_len);
size_t encoding_mem_utf16_valid_up_to(char16_t const* buffer,
size_t buffer_len);
void encoding_mem_ensure_utf16_validity(char16_t* buffer, size_t buffer_len);
void encoding_mem_convert_utf16_to_latin1_lossy(const char16_t* src,
size_t src_len, char* dst,
size_t dst_len);
size_t encoding_mem_convert_utf8_to_latin1_lossy(const char* src,
size_t src_len, char* dst,
size_t dst_len);
void encoding_mem_convert_latin1_to_utf16(const char* src, size_t src_len,
char16_t* dst, size_t dst_len);
size_t encoding_mem_convert_utf16_to_utf8(const char16_t* src, size_t src_len,
char* dst, size_t dst_len);
void encoding_mem_convert_utf16_to_utf8_partial(const char16_t* src,
size_t* src_len, char* dst,
size_t* dst_len);
size_t encoding_mem_convert_utf8_to_utf16(const char* src, size_t src_len,
char16_t* dst, size_t dst_len);
}
// From the nsstring crate
extern "C" {
bool nsstring_fallible_append_utf8_impl(nsAString* aThis, const char* aOther,
size_t aOtherLen, size_t aOldLen);
bool nsstring_fallible_append_latin1_impl(nsAString* aThis, const char* aOther,
size_t aOtherLen, size_t aOldLen,
bool aAllowShrinking);
bool nscstring_fallible_append_utf16_to_utf8_impl(nsACString* aThis,
const char16_t*,
size_t aOtherLen,
size_t aOldLen);
bool nscstring_fallible_append_utf16_to_latin1_lossy_impl(nsACString* aThis,
const char16_t*,
size_t aOtherLen,
size_t aOldLen,
bool aAllowShrinking);
bool nscstring_fallible_append_utf8_to_latin1_lossy_check(
nsACString* aThis, const nsACString* aOther, size_t aOldLen);
bool nscstring_fallible_append_latin1_to_utf8_check(nsACString* aThis,
const nsACString* aOther,
size_t aOldLen);
}
/**
* If all the code points in the input are below U+0100, converts to Latin1,
* i.e. unsigned byte value is Unicode scalar value; not windows-1252. If
* there are code points above U+00FF, produces garbage in a memory-safe way
* and will likely start asserting in future debug builds. The nature of the
* garbage depends on the CPU architecture and must not be relied upon.
*
* The length of aDest must be not be less than the length of aSource.
*/
inline void LossyConvertUTF16toLatin1(mozilla::Span<const char16_t> aSource,
mozilla::Span<char> aDest) {
encoding_mem_convert_utf16_to_latin1_lossy(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
/**
* If all the code points in the input are below U+0100, converts to Latin1,
* i.e. unsigned byte value is Unicode scalar value; not windows-1252. If
* there are code points above U+00FF, asserts in debug builds and produces
* garbage in memory-safe way in release builds. The nature of the garbage
* may depend on the CPU architecture and must not be relied upon.
*
* The length of aDest must be not be less than the length of aSource.
*/
inline size_t LossyConvertUTF8toLatin1(mozilla::Span<const char> aSource,
mozilla::Span<char> aDest) {
return encoding_mem_convert_utf8_to_latin1_lossy(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
/**
* Interprets unsigned byte value as Unicode scalar value (i.e. not
* windows-1252!).
*
* The length of aDest must be not be less than the length of aSource.
*/
inline void ConvertLatin1toUTF16(mozilla::Span<const char> aSource,
mozilla::Span<char16_t> aDest) {
encoding_mem_convert_latin1_to_utf16(aSource.Elements(), aSource.Length(),
aDest.Elements(), aDest.Length());
}
/**
* Lone surrogates are replaced with the REPLACEMENT CHARACTER.
*
* The length of aDest must be at least the length of aSource times three.
*
* Returns the number of code units written.
*/
inline size_t ConvertUTF16toUTF8(mozilla::Span<const char16_t> aSource,
mozilla::Span<char> aDest) {
return encoding_mem_convert_utf16_to_utf8(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
/**
* Lone surrogates are replaced with the REPLACEMENT CHARACTER.
*
* The conversion is guaranteed to be complete if the length of aDest is
* at least the length of aSource times three.
*
* The output is always valid UTF-8 ending on scalar value boundary
* even in the case of partial conversion.
*
* Returns the number of code units read and the number of code
* units written.
*/
inline mozilla::Tuple<size_t, size_t> ConvertUTF16toUTF8Partial(
mozilla::Span<const char16_t> aSource, mozilla::Span<char> aDest) {
size_t srcLen = aSource.Length();
size_t dstLen = aDest.Length();
encoding_mem_convert_utf16_to_utf8_partial(aSource.Elements(), &srcLen,
aDest.Elements(), &dstLen);
return mozilla::MakeTuple(srcLen, dstLen);
}
/**
* Malformed byte sequences are replaced with the REPLACEMENT CHARACTER.
*
* The length of aDest must at least one greater than the length of aSource.
*
* Returns the number of code units written.
*/
inline size_t ConvertUTF8toUTF16(mozilla::Span<const char> aSource,
mozilla::Span<char16_t> aDest) {
return encoding_mem_convert_utf8_to_utf16(
aSource.Elements(), aSource.Length(), aDest.Elements(), aDest.Length());
}
inline size_t Distance(const nsReadingIterator<char16_t>& aStart,
const nsReadingIterator<char16_t>& aEnd) {
MOZ_ASSERT(aStart.get() <= aEnd.get());
return static_cast<size_t>(aEnd.get() - aStart.get());
}
inline size_t Distance(const nsReadingIterator<char>& aStart,
const nsReadingIterator<char>& aEnd) {
MOZ_ASSERT(aStart.get() <= aEnd.get());
return static_cast<size_t>(aEnd.get() - aStart.get());
}
// UTF-8 to UTF-16
// Invalid UTF-8 byte sequences are replaced with the REPLACEMENT CHARACTER.
inline MOZ_MUST_USE bool CopyUTF8toUTF16(mozilla::Span<const char> aSource,
nsAString& aDest,
const mozilla::fallible_t&) {
return nsstring_fallible_append_utf8_impl(&aDest, aSource.Elements(),
aSource.Length(), 0);
}
inline void CopyUTF8toUTF16(mozilla::Span<const char> aSource,
nsAString& aDest) {
if (MOZ_UNLIKELY(!CopyUTF8toUTF16(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aSource.Length());
}
}
inline MOZ_MUST_USE bool AppendUTF8toUTF16(mozilla::Span<const char> aSource,
nsAString& aDest,
const mozilla::fallible_t&) {
return nsstring_fallible_append_utf8_impl(&aDest, aSource.Elements(),
aSource.Length(), aDest.Length());
}
inline void AppendUTF8toUTF16(mozilla::Span<const char> aSource,
nsAString& aDest) {
if (MOZ_UNLIKELY(!AppendUTF8toUTF16(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aDest.Length() + aSource.Length());
}
}
// Latin1 to UTF-16
// Interpret each incoming unsigned byte value as a Unicode scalar value (not
// windows-1252!). The function names say "ASCII" instead of "Latin1" for
// legacy reasons.
inline MOZ_MUST_USE bool CopyASCIItoUTF16(mozilla::Span<const char> aSource,
nsAString& aDest,
const mozilla::fallible_t&) {
return nsstring_fallible_append_latin1_impl(&aDest, aSource.Elements(),
aSource.Length(), 0, true);
}
inline void CopyASCIItoUTF16(mozilla::Span<const char> aSource,
nsAString& aDest) {
if (MOZ_UNLIKELY(!CopyASCIItoUTF16(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aSource.Length());
}
}
inline MOZ_MUST_USE bool AppendASCIItoUTF16(mozilla::Span<const char> aSource,
nsAString& aDest,
const mozilla::fallible_t&) {
return nsstring_fallible_append_latin1_impl(
&aDest, aSource.Elements(), aSource.Length(), aDest.Length(), false);
}
inline void AppendASCIItoUTF16(mozilla::Span<const char> aSource,
nsAString& aDest) {
if (MOZ_UNLIKELY(!AppendASCIItoUTF16(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aDest.Length() + aSource.Length());
}
}
// UTF-16 to UTF-8
// Unpaired surrogates are replaced with the REPLACEMENT CHARACTER.
inline MOZ_MUST_USE bool CopyUTF16toUTF8(mozilla::Span<const char16_t> aSource,
nsACString& aDest,
const mozilla::fallible_t&) {
return nscstring_fallible_append_utf16_to_utf8_impl(
&aDest, aSource.Elements(), aSource.Length(), 0);
}
inline void CopyUTF16toUTF8(mozilla::Span<const char16_t> aSource,
nsACString& aDest) {
if (MOZ_UNLIKELY(!CopyUTF16toUTF8(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aSource.Length());
}
}
inline MOZ_MUST_USE bool AppendUTF16toUTF8(
mozilla::Span<const char16_t> aSource, nsACString& aDest,
const mozilla::fallible_t&) {
return nscstring_fallible_append_utf16_to_utf8_impl(
&aDest, aSource.Elements(), aSource.Length(), aDest.Length());
}
inline void AppendUTF16toUTF8(mozilla::Span<const char16_t> aSource,
nsACString& aDest) {
if (MOZ_UNLIKELY(!AppendUTF16toUTF8(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aDest.Length() + aSource.Length());
}
}
// UTF-16 to Latin1
// If all code points in the input are below U+0100, represents each scalar
// value as an unsigned byte. (This is not windows-1252!) If there are code
// points above U+00FF, memory-safely produces garbage and will likely start
// asserting in future debug builds. The nature of the garbage may differ
// based on CPU architecture and must not be relied upon. The names say
// "ASCII" instead of "Latin1" for legacy reasons.
inline MOZ_MUST_USE bool LossyCopyUTF16toASCII(
mozilla::Span<const char16_t> aSource, nsACString& aDest,
const mozilla::fallible_t&) {
return nscstring_fallible_append_utf16_to_latin1_lossy_impl(
&aDest, aSource.Elements(), aSource.Length(), 0, true);
}
inline void LossyCopyUTF16toASCII(mozilla::Span<const char16_t> aSource,
nsACString& aDest) {
if (MOZ_UNLIKELY(!LossyCopyUTF16toASCII(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aSource.Length());
}
}
inline MOZ_MUST_USE bool LossyAppendUTF16toASCII(
mozilla::Span<const char16_t> aSource, nsACString& aDest,
const mozilla::fallible_t&) {
return nscstring_fallible_append_utf16_to_latin1_lossy_impl(
&aDest, aSource.Elements(), aSource.Length(), aDest.Length(), false);
}
inline void LossyAppendUTF16toASCII(mozilla::Span<const char16_t> aSource,
nsACString& aDest) {
if (MOZ_UNLIKELY(
!LossyAppendUTF16toASCII(aSource, aDest, mozilla::fallible))) {
aDest.AllocFailed(aDest.Length() + aSource.Length());
}
}
/**
* Returns a new |char| buffer containing a zero-terminated copy of |aSource|.
*
* Allocates and returns a new |char| buffer which you must free with |free|.
* Performs a conversion with LossyConvertUTF16toLatin1() writing into the
* newly-allocated buffer.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource a 16-bit wide string
* @return a new |char| buffer you must free with |free|.
*/
char* ToNewCString(const nsAString& aSource);
/**
* Returns a new |char| buffer containing a zero-terminated copy of |aSource|.
*
* Allocates and returns a new |char| buffer which you must free with |free|.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource an 8-bit wide string
* @return a new |char| buffer you must free with |free|.
*/
char* ToNewCString(const nsACString& aSource);
/**
* Returns a new |char| buffer containing a zero-terminated copy of |aSource|.
*
* Allocates and returns a new |char| buffer which you must free with
* |free|.
* Performs an encoding conversion from a UTF-16 string to a UTF-8 string with
* unpaired surrogates replaced with the REPLACEMENT CHARACTER copying
* |aSource| to your new buffer.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource a UTF-16 string (made of char16_t's)
* @param aUTF8Count the number of 8-bit units that was returned
* @return a new |char| buffer you must free with |free|.
*/
char* ToNewUTF8String(const nsAString& aSource, uint32_t* aUTF8Count = nullptr);
/**
* Returns a new |char16_t| buffer containing a zero-terminated copy of
* |aSource|.
*
* Allocates and returns a new |char16_t| buffer which you must free with
* |free|.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource a UTF-16 string
* @return a new |char16_t| buffer you must free with |free|.
*/
char16_t* ToNewUnicode(const nsAString& aSource);
/**
* Returns a new |char16_t| buffer containing a zero-terminated copy of
* |aSource|.
*
* Allocates and returns a new |char16_t| buffer which you must free with
* |free|.
*
* Performs an encoding conversion by 0-padding 8-bit wide characters up to
* 16-bits wide (i.e. Latin1 to UTF-16 conversion) while copying |aSource|
* to your new buffer.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource a Latin1 string
* @return a new |char16_t| buffer you must free with |free|.
*/
char16_t* ToNewUnicode(const nsACString& aSource);
/**
* Returns a new |char16_t| buffer containing a zero-terminated copy
* of |aSource|.
*
* Allocates and returns a new |char| buffer which you must free with
* |free|. Performs an encoding conversion from UTF-8 to UTF-16
* while copying |aSource| to your new buffer. Malformed byte sequences
* are replaced with the REPLACEMENT CHARACTER.
*
* The new buffer is zero-terminated, but that may not help you if |aSource|
* contains embedded nulls.
*
* @param aSource an 8-bit wide string, UTF-8 encoded
* @param aUTF16Count the number of 16-bit units that was returned
* @return a new |char16_t| buffer you must free with |free|.
* (UTF-16 encoded)
*/
char16_t* UTF8ToNewUnicode(const nsACString& aSource,
uint32_t* aUTF16Count = nullptr);
/**
* Copies |aLength| 16-bit code units from the start of |aSource| to the
* |char16_t| buffer |aDest|.
*
* After this operation |aDest| is not null terminated.
*
* @param aSource a UTF-16 string
* @param aSrcOffset start offset in the source string
* @param aDest a |char16_t| buffer
* @param aLength the number of 16-bit code units to copy
* @return pointer to destination buffer - identical to |aDest|
*/
char16_t* CopyUnicodeTo(const nsAString& aSource, uint32_t aSrcOffset,
char16_t* aDest, uint32_t aLength);
/**
* Returns |true| if |aString| contains only ASCII characters, that is,
* characters in the range (0x00, 0x7F).
*
* @param aString a 16-bit wide string to scan
*/
inline bool IsASCII(mozilla::Span<const char16_t> aString) {
size_t length = aString.Length();
const char16_t* ptr = aString.Elements();
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
char16_t accu = 0;
for (size_t i = 0; i < length; i++) {
accu |= ptr[i];
}
return accu < 0x80U;
}
return encoding_mem_is_basic_latin(ptr, length);
}
/**
* Returns |true| if |aString| contains only ASCII characters, that is,
* characters in the range (0x00, 0x7F).
*
* @param aString a 8-bit wide string to scan
*/
inline bool IsASCII(mozilla::Span<const char> aString) {
size_t length = aString.Length();
const uint8_t* ptr = reinterpret_cast<const uint8_t*>(aString.Elements());
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
uint8_t accu = 0;
for (size_t i = 0; i < length; i++) {
accu |= ptr[i];
}
return accu < 0x80U;
}
return encoding_mem_is_ascii(ptr, length);
}
/**
* Returns |true| if |aString| contains only Latin1 characters, that is,
* characters in the range (U+0000, U+00FF).
*
* @param aString a potentially-invalid UTF-16 string to scan
*/
inline bool IsUTF16Latin1(mozilla::Span<const char16_t> aString) {
size_t length = aString.Length();
const char16_t* ptr = aString.Elements();
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
char16_t accu = 0;
for (size_t i = 0; i < length; i++) {
accu |= ptr[i];
}
return accu < 0x100U;
}
return encoding_mem_is_utf16_latin1(ptr, length);
}
/**
* Returns |true| if |aString| contains only Latin1 characters, that is,
* characters in the range (U+0000, U+00FF).
*
* If you know that the argument is always absolutely guaranteed to be valid
* UTF-8, use the faster UnsafeIsValidUTF8Latin1() instead.
*
* @param aString potentially-invalid UTF-8 string to scan
*/
inline bool IsUTF8Latin1(mozilla::Span<const char> aString) {
size_t length = aString.Length();
const uint8_t* ptr = reinterpret_cast<const uint8_t*>(aString.Elements());
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
for (size_t i = 0; i < length; i++) {
if (ptr[i] >= 0x80U) {
ptr += i;
length -= i;
// This loop can't handle non-ASCII, but the Rust code can, so
// upon seeing non-ASCII, break the loop and let the Rust code
// handle the rest of the buffer (including the non-ASCII byte).
goto end;
}
}
return true;
}
end:
return encoding_mem_is_utf8_latin1(ptr, length);
}
/**
* Returns |true| if |aString| contains only Latin1 characters, that is,
* characters in the range (U+0000, U+00FF).
*
* The argument MUST be valid UTF-8. If you are at all unsure, use IsUTF8Latin1
* instead!
*
* @param aString known-valid UTF-8 string to scan
*/
inline bool UnsafeIsValidUTF8Latin1(mozilla::Span<const char> aString) {
size_t length = aString.Length();
const uint8_t* ptr = reinterpret_cast<const uint8_t*>(aString.Elements());
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
for (size_t i = 0; i < length; i++) {
if (ptr[i] >= 0x80U) {
ptr += i;
length -= i;
goto end;
}
}
return true;
}
end:
return encoding_mem_is_str_latin1(ptr, length);
}
/**
* Returns |true| if |aString| is a valid UTF-8 string.
*
* Note that this doesn't check whether the string might look like a valid
* string in another encoding, too, e.g. ISO-2022-JP.
*
* @param aString an 8-bit wide string to scan
*/
inline bool IsUTF8(mozilla::Span<const char> aString) {
size_t length = aString.Length();
const uint8_t* ptr = reinterpret_cast<const uint8_t*>(aString.Elements());
// For short strings, calling into Rust is a pessimization, and the SIMD
// code won't have a chance to kick in anyway.
if (length < 16) {
for (size_t i = 0; i < length; i++) {
if (ptr[i] >= 0x80U) {
ptr += i;
length -= i;
goto end;
}
}
return true;
}
end:
return length == encoding_utf8_valid_up_to(ptr, length);
}
/**
* Returns the index of the first unpaired surrogate or
* the length of the string if there are none.
*/
inline uint32_t UTF16ValidUpTo(mozilla::Span<const char16_t> aString) {
return encoding_mem_utf16_valid_up_to(aString.Elements(), aString.Length());
}
/**
* Replaces unpaired surrogates with U+FFFD in the argument.
*/
inline void EnsureUTF16ValiditySpan(mozilla::Span<char16_t> aString) {
encoding_mem_ensure_utf16_validity(aString.Elements(), aString.Length());
}
/**
* Replaces unpaired surrogates with U+FFFD in the argument.
*
* Copies a shared string buffer or an otherwise read-only
* buffer only if there are unpaired surrogates.
*/
inline void EnsureUTF16Validity(nsAString& aString) {
uint32_t upTo = UTF16ValidUpTo(aString);
uint32_t len = aString.Length();
if (upTo == len) {
return;
}
char16_t* ptr = aString.BeginWriting();
auto span = mozilla::MakeSpan(ptr, len);
span[upTo] = 0xFFFD;
EnsureUTF16ValiditySpan(span.From(upTo + 1));
}
bool ParseString(const nsACString& aAstring, char aDelimiter,
nsTArray<nsCString>& aArray);
/**
* Converts case in place in the argument string.
*/
void ToUpperCase(nsACString&);
void ToLowerCase(nsACString&);
void ToUpperCase(nsACString&);
void ToLowerCase(nsACString&);
/**
* Converts case from string aSource to aDest.
*/
void ToUpperCase(const nsACString& aSource, nsACString& aDest);
void ToLowerCase(const nsACString& aSource, nsACString& aDest);
/**
* Finds the leftmost occurrence of |aPattern|, if any in the range
* |aSearchStart|..|aSearchEnd|.
*
* Returns |true| if a match was found, and adjusts |aSearchStart| and
* |aSearchEnd| to point to the match. If no match was found, returns |false|
* and makes |aSearchStart == aSearchEnd|.
*
* Currently, this is equivalent to the O(m*n) implementation previously on
* |ns[C]String|.
*
* If we need something faster, then we can implement that later.
*/
bool FindInReadable(const nsAString& aPattern, nsAString::const_iterator&,
nsAString::const_iterator&,
const nsStringComparator& = nsDefaultStringComparator());
bool FindInReadable(const nsACString& aPattern, nsACString::const_iterator&,
nsACString::const_iterator&,
const nsCStringComparator& = nsDefaultCStringComparator());
/* sometimes we don't care about where the string was, just that we
* found it or not */
inline bool FindInReadable(
const nsAString& aPattern, const nsAString& aSource,
const nsStringComparator& aCompare = nsDefaultStringComparator()) {
nsAString::const_iterator start, end;
aSource.BeginReading(start);
aSource.EndReading(end);
return FindInReadable(aPattern, start, end, aCompare);
}
inline bool FindInReadable(
const nsACString& aPattern, const nsACString& aSource,
const nsCStringComparator& aCompare = nsDefaultCStringComparator()) {
nsACString::const_iterator start, end;
aSource.BeginReading(start);
aSource.EndReading(end);
return FindInReadable(aPattern, start, end, aCompare);
}
bool CaseInsensitiveFindInReadable(const nsACString& aPattern,
nsACString::const_iterator&,
nsACString::const_iterator&);
/**
* Finds the rightmost occurrence of |aPattern|
* Returns |true| if a match was found, and adjusts |aSearchStart| and
* |aSearchEnd| to point to the match. If no match was found, returns |false|
* and makes |aSearchStart == aSearchEnd|.
*/
bool RFindInReadable(const nsAString& aPattern, nsAString::const_iterator&,
nsAString::const_iterator&,
const nsStringComparator& = nsDefaultStringComparator());
bool RFindInReadable(const nsACString& aPattern, nsACString::const_iterator&,
nsACString::const_iterator&,
const nsCStringComparator& = nsDefaultCStringComparator());
/**
* Finds the leftmost occurrence of |aChar|, if any in the range
* |aSearchStart|..|aSearchEnd|.
*
* Returns |true| if a match was found, and adjusts |aSearchStart| to
* point to the match. If no match was found, returns |false| and
* makes |aSearchStart == aSearchEnd|.
*/
bool FindCharInReadable(char16_t aChar, nsAString::const_iterator& aSearchStart,
const nsAString::const_iterator& aSearchEnd);
bool FindCharInReadable(char aChar, nsACString::const_iterator& aSearchStart,
const nsACString::const_iterator& aSearchEnd);
bool StringBeginsWith(const nsAString& aSource, const nsAString& aSubstring);
bool StringBeginsWith(const nsAString& aSource, const nsAString& aSubstring,
const nsStringComparator& aComparator);
bool StringBeginsWith(const nsACString& aSource, const nsACString& aSubstring);
bool StringBeginsWith(const nsACString& aSource, const nsACString& aSubstring,
const nsCStringComparator& aComparator);
bool StringEndsWith(const nsAString& aSource, const nsAString& aSubstring);
bool StringEndsWith(const nsAString& aSource, const nsAString& aSubstring,
const nsStringComparator& aComparator);
bool StringEndsWith(const nsACString& aSource, const nsACString& aSubstring);
bool StringEndsWith(const nsACString& aSource, const nsACString& aSubstring,
const nsCStringComparator& aComparator);
const nsString& EmptyString();
const nsCString& EmptyCString();
const nsString& VoidString();
const nsCString& VoidCString();
/**
* Compare a UTF-8 string to an UTF-16 string.
*
* Returns 0 if the strings are equal, -1 if aUTF8String is less
* than aUTF16Count, and 1 in the reverse case. Errors are replaced
* with U+FFFD and then the U+FFFD is compared as if it had occurred
* in the input. If aErr is not nullptr, *aErr is set to true if
* either string had malformed sequences.
*/
int32_t CompareUTF8toUTF16(const nsACString& aUTF8String,
const nsAString& aUTF16String, bool* aErr = nullptr);
void AppendUCS4ToUTF16(const uint32_t aSource, nsAString& aDest);
#endif // !defined(nsReadableUtils_h___)