/* ============================================================================== This file is part of the Water library. Copyright (c) 2016 ROLI Ltd. Copyright (C) 2017 Filipe Coelho Permission is granted to use this software under the terms of the ISC license http://www.isc.org/downloads/software-support-policy/isc-license/ Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted, provided that the above copyright notice and this permission notice appear in all copies. THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ============================================================================== */ #include "StringArray.h" namespace water { StringArray::StringArray() noexcept { } StringArray::StringArray (const StringArray& other) : strings (other.strings) { } #if WATER_COMPILER_SUPPORTS_MOVE_SEMANTICS StringArray::StringArray (StringArray&& other) noexcept : strings (static_cast&&> (other.strings)) { } #endif StringArray::StringArray (const String& firstValue) { strings.add (firstValue); } StringArray::StringArray (const String* initialStrings, int numberOfStrings) { strings.addArray (initialStrings, numberOfStrings); } StringArray::StringArray (const char* const* initialStrings) { strings.addNullTerminatedArray (initialStrings); } StringArray::StringArray (const char* const* initialStrings, int numberOfStrings) { strings.addArray (initialStrings, numberOfStrings); } StringArray& StringArray::operator= (const StringArray& other) { strings = other.strings; return *this; } #if WATER_COMPILER_SUPPORTS_MOVE_SEMANTICS StringArray& StringArray::operator= (StringArray&& other) noexcept { strings = static_cast&&> (other.strings); return *this; } #endif StringArray::~StringArray() { } bool StringArray::operator== (const StringArray& other) const noexcept { return strings == other.strings; } bool StringArray::operator!= (const StringArray& other) const noexcept { return ! operator== (other); } void StringArray::swapWith (StringArray& other) noexcept { strings.swapWith (other.strings); } void StringArray::clear() { strings.clear(); } void StringArray::clearQuick() { strings.clearQuick(); } const String& StringArray::operator[] (const int index) const noexcept { if (isPositiveAndBelow (index, strings.size())) return strings.getReference (index); static String empty; return empty; } String& StringArray::getReference (const int index) noexcept { return strings.getReference (index); } bool StringArray::add (const String& newString) { return strings.add (newString); } #if WATER_COMPILER_SUPPORTS_MOVE_SEMANTICS bool StringArray::add (String&& stringToAdd) { return strings.add (static_cast (stringToAdd)); } #endif bool StringArray::insert (const int index, const String& newString) { return strings.insert (index, newString); } bool StringArray::addIfNotAlreadyThere (const String& newString, const bool ignoreCase) { if (contains (newString, ignoreCase)) return false; return add (newString); } void StringArray::addArray (const StringArray& otherArray, int startIndex, int numElementsToAdd) { if (startIndex < 0) { jassertfalse; startIndex = 0; } if (numElementsToAdd < 0 || startIndex + numElementsToAdd > otherArray.size()) numElementsToAdd = otherArray.size() - startIndex; while (--numElementsToAdd >= 0) strings.add (otherArray.strings.getReference (startIndex++)); } void StringArray::mergeArray (const StringArray& otherArray, const bool ignoreCase) { for (int i = 0; i < otherArray.size(); ++i) addIfNotAlreadyThere (otherArray[i], ignoreCase); } void StringArray::set (const int index, const String& newString) { strings.set (index, newString); } bool StringArray::contains (StringRef stringToLookFor, const bool ignoreCase) const { return indexOf (stringToLookFor, ignoreCase) >= 0; } int StringArray::indexOf (StringRef stringToLookFor, const bool ignoreCase, int i) const { if (i < 0) i = 0; const int numElements = size(); if (ignoreCase) { for (; i < numElements; ++i) if (strings.getReference(i).equalsIgnoreCase (stringToLookFor)) return i; } else { for (; i < numElements; ++i) if (stringToLookFor == strings.getReference (i)) return i; } return -1; } void StringArray::move (const int currentIndex, const int newIndex) noexcept { strings.move (currentIndex, newIndex); } //============================================================================== void StringArray::remove (const int index) { strings.remove (index); } void StringArray::removeString (StringRef stringToRemove, const bool ignoreCase) { if (ignoreCase) { for (int i = size(); --i >= 0;) if (strings.getReference(i).equalsIgnoreCase (stringToRemove)) strings.remove (i); } else { for (int i = size(); --i >= 0;) if (stringToRemove == strings.getReference (i)) strings.remove (i); } } void StringArray::removeRange (int startIndex, int numberToRemove) { strings.removeRange (startIndex, numberToRemove); } //============================================================================== void StringArray::removeEmptyStrings (const bool removeWhitespaceStrings) { if (removeWhitespaceStrings) { for (int i = size(); --i >= 0;) if (! strings.getReference(i).containsNonWhitespaceChars()) strings.remove (i); } else { for (int i = size(); --i >= 0;) if (strings.getReference(i).isEmpty()) strings.remove (i); } } void StringArray::trim() { for (int i = size(); --i >= 0;) { String& s = strings.getReference(i); s = s.trim(); } } //============================================================================== struct InternalStringArrayComparator_CaseSensitive { static int compareElements (String& s1, String& s2) noexcept { return s1.compare (s2); } }; struct InternalStringArrayComparator_CaseInsensitive { static int compareElements (String& s1, String& s2) noexcept { return s1.compareIgnoreCase (s2); } }; struct InternalStringArrayComparator_Natural { static int compareElements (String& s1, String& s2) noexcept { return s1.compareNatural (s2); } }; void StringArray::sort (const bool ignoreCase) { if (ignoreCase) { InternalStringArrayComparator_CaseInsensitive comp; strings.sort (comp); } else { InternalStringArrayComparator_CaseSensitive comp; strings.sort (comp); } } void StringArray::sortNatural() { InternalStringArrayComparator_Natural comp; strings.sort (comp); } //============================================================================== String StringArray::joinIntoString (StringRef separator, int start, int numberToJoin) const { const int last = (numberToJoin < 0) ? size() : jmin (size(), start + numberToJoin); if (start < 0) start = 0; if (start >= last) return String(); if (start == last - 1) return strings.getReference (start); const size_t separatorBytes = separator.text.sizeInBytes() - sizeof (String::CharPointerType::CharType); size_t bytesNeeded = separatorBytes * (size_t) (last - start - 1); for (int i = start; i < last; ++i) bytesNeeded += strings.getReference(i).getCharPointer().sizeInBytes() - sizeof (String::CharPointerType::CharType); String result; result.preallocateBytes (bytesNeeded); String::CharPointerType dest (result.getCharPointer()); while (start < last) { const String& s = strings.getReference (start); if (! s.isEmpty()) dest.writeAll (s.getCharPointer()); if (++start < last && separatorBytes > 0) dest.writeAll (separator.text); } dest.writeNull(); return result; } int StringArray::addTokens (StringRef text, const bool preserveQuotedStrings) { return addTokens (text, " \n\r\t", preserveQuotedStrings ? "\"" : ""); } int StringArray::addTokens (StringRef text, StringRef breakCharacters, StringRef quoteCharacters) { int num = 0; if (text.isNotEmpty()) { for (String::CharPointerType t (text.text);;) { String::CharPointerType tokenEnd (CharacterFunctions::findEndOfToken (t, breakCharacters.text, quoteCharacters.text)); strings.add (String (t, tokenEnd)); ++num; if (tokenEnd.isEmpty()) break; t = ++tokenEnd; } } return num; } int StringArray::addLines (StringRef sourceText) { int numLines = 0; String::CharPointerType text (sourceText.text); bool finished = text.isEmpty(); while (! finished) { for (String::CharPointerType startOfLine (text);;) { const String::CharPointerType endOfLine (text); switch (text.getAndAdvance()) { case 0: finished = true; break; case '\n': break; case '\r': if (*text == '\n') ++text; break; default: continue; } strings.add (String (startOfLine, endOfLine)); ++numLines; break; } } return numLines; } StringArray StringArray::fromTokens (StringRef stringToTokenise, bool preserveQuotedStrings) { StringArray s; s.addTokens (stringToTokenise, preserveQuotedStrings); return s; } StringArray StringArray::fromTokens (StringRef stringToTokenise, StringRef breakCharacters, StringRef quoteCharacters) { StringArray s; s.addTokens (stringToTokenise, breakCharacters, quoteCharacters); return s; } StringArray StringArray::fromLines (StringRef stringToBreakUp) { StringArray s; s.addLines (stringToBreakUp); return s; } //============================================================================== void StringArray::removeDuplicates (const bool ignoreCase) { for (int i = 0; i < size() - 1; ++i) { const String s (strings.getReference(i)); for (int nextIndex = i + 1;;) { nextIndex = indexOf (s, ignoreCase, nextIndex); if (nextIndex < 0) break; strings.remove (nextIndex); } } } void StringArray::appendNumbersToDuplicates (const bool ignoreCase, const bool appendNumberToFirstInstance, CharPointer_UTF8 preNumberString, CharPointer_UTF8 postNumberString) { CharPointer_UTF8 defaultPre (" ("), defaultPost (")"); if (preNumberString.getAddress() == nullptr) preNumberString = defaultPre; if (postNumberString.getAddress() == nullptr) postNumberString = defaultPost; for (int i = 0; i < size() - 1; ++i) { String& s = strings.getReference(i); int nextIndex = indexOf (s, ignoreCase, i + 1); if (nextIndex >= 0) { const String original (s); int number = 0; if (appendNumberToFirstInstance) s = original + String (preNumberString) + String (++number) + String (postNumberString); else ++number; while (nextIndex >= 0) { set (nextIndex, (*this)[nextIndex] + String (preNumberString) + String (++number) + String (postNumberString)); nextIndex = indexOf (original, ignoreCase, nextIndex + 1); } } } } void StringArray::ensureStorageAllocated (int minNumElements) { strings.ensureStorageAllocated (minNumElements); } void StringArray::minimiseStorageOverheads() { strings.minimiseStorageOverheads(); } }