#include "UTF8DocumentIterator.h" #include "ILoader.h" #include "ILexer.h" #include "Scintilla.h" #include "CharacterCategory.h" #include "Position.h" #include "SplitVector.h" #include "Partitioning.h" #include "RunStyles.h" #include "CellBuffer.h" #include "CharClassify.h" #include "Decoration.h" #include "CaseFolder.h" #include "Document.h" using namespace Scintilla; UTF8DocumentIterator::UTF8DocumentIterator(Document* doc, Sci::Position pos, Sci::Position end) : m_pos(pos), m_end(end), m_characterIndex(0), m_doc(doc) { // Check for debug builds PLATFORM_ASSERT(m_pos <= m_end); // Ensure for release. if (m_pos > m_end) { m_pos = m_end; } readCharacter(); } UTF8DocumentIterator::UTF8DocumentIterator(const UTF8DocumentIterator& copy) : m_pos(copy.m_pos), m_end(copy.m_end), m_characterIndex(copy.m_characterIndex), m_utf8Length(copy.m_utf8Length), m_utf16Length(copy.m_utf16Length), m_doc(copy.m_doc) { // Check for debug builds PLATFORM_ASSERT(m_pos <= m_end); m_character[0] = copy.m_character[0]; m_character[1] = copy.m_character[1]; // Ensure for release. if (m_pos > m_end) { m_pos = m_end; } } UTF8DocumentIterator& UTF8DocumentIterator::operator -- () { if (m_utf16Length == 2 && m_characterIndex == 1) { m_characterIndex = 0; } else { --m_pos; // Skip past the UTF-8 extension bytes while (0x80 == (m_doc->CharAt(m_pos) & 0xC0) && m_pos > 0) --m_pos; readCharacter(); if (m_utf16Length == 2) { m_characterIndex = 1; } } return *this; } void UTF8DocumentIterator::readCharacter() { unsigned char currentChar = m_doc->CharAt(m_pos); if (currentChar & 0x80) { int mask = 0x40; int nBytes = 1; do { mask >>= 1; ++nBytes; } while (currentChar & mask); int result = currentChar & m_firstByteMask[nBytes]; Sci::Position pos = m_pos; m_utf8Length = 1; // work out the unicode point, and count the actual bytes. // If a byte does not start with 10xxxxxx then it's not part of the // the code. Therefore invalid UTF-8 encodings are dealt with, simply by stopping when // the UTF8 extension bytes are no longer valid. while ((--nBytes) && (pos < m_end) && (0x80 == ((currentChar = m_doc->CharAt(++pos)) & 0xC0))) { result = (result << 6) | (currentChar & 0x3F); ++m_utf8Length; } if (result >= 0x10000) { result -= 0x10000; m_utf16Length = 2; // UTF-16 Pair m_character[0] = static_cast(0xD800 + (result >> 10)); m_character[1] = static_cast(0xDC00 + (result & 0x3FF)); } else { m_utf16Length = 1; m_character[0] = static_cast(result); } } else { m_utf8Length = 1; m_utf16Length = 1; m_characterIndex = 0; m_character[0] = static_cast(currentChar); } } const unsigned char UTF8DocumentIterator::m_firstByteMask[7] = { 0x7F, 0x3F, 0x1F, 0x0F, 0x07, 0x03, 0x01 };