/* * Copyright 2013 Jeremie Roy. All rights reserved. * License: http://www.opensource.org/licenses/BSD-2-Clause */ #include // wcslen #include "text_metrics.h" #include "utf8.h" TextMetrics::TextMetrics(FontManager* _fontManager) : m_fontManager(_fontManager) , m_width(0) , m_height(0) , m_x(0) , m_lineHeight(0) , m_lineGap(0) { } void TextMetrics::appendText(FontHandle _fontHandle, const char* _string) { const FontInfo& font = m_fontManager->getFontInfo(_fontHandle); if (font.lineGap > m_lineGap) { m_lineGap = font.lineGap; } if ( (font.ascender - font.descender) > m_lineHeight) { m_height -= m_lineHeight; m_lineHeight = font.ascender - font.descender; m_height += m_lineHeight; } CodePoint codepoint = 0; uint32_t state = 0; for (; *_string; ++_string) { if (!utf8_decode(&state, (uint32_t*)&codepoint, *_string) ) { const GlyphInfo* glyph = m_fontManager->getGlyphInfo(_fontHandle, codepoint); if (NULL != glyph) { if (codepoint == L'\n') { m_height += m_lineGap + font.ascender - font.descender; m_lineGap = font.lineGap; m_lineHeight = font.ascender - font.descender; m_x = 0; break; } m_x += glyph->advance_x; if(m_x > m_width) { m_width = m_x; } } else { BX_CHECK(false, "Glyph not found"); } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); } void TextMetrics::appendText(FontHandle _fontHandle, const wchar_t* _string) { const FontInfo& font = m_fontManager->getFontInfo(_fontHandle); if (font.lineGap > m_lineGap) { m_lineGap = font.lineGap; } if ( (font.ascender - font.descender) > m_lineHeight) { m_height -= m_lineHeight; m_lineHeight = font.ascender - font.descender; m_height += m_lineHeight; } for (uint32_t ii = 0, end = (uint32_t)wcslen(_string); ii < end; ++ii) { uint32_t codepoint = _string[ii]; const GlyphInfo* glyph = m_fontManager->getGlyphInfo(_fontHandle, codepoint); if (NULL != glyph) { if (codepoint == L'\n') { m_height += m_lineGap + font.ascender - font.descender; m_lineGap = font.lineGap; m_lineHeight = font.ascender - font.descender; m_x = 0; break; } m_x += glyph->advance_x; if(m_x > m_width) { m_width = m_x; } } else { BX_CHECK(false, "Glyph not found"); } } } TextLineMetrics::TextLineMetrics(const FontInfo& _fontInfo) { m_lineHeight = _fontInfo.ascender - _fontInfo.descender + _fontInfo.lineGap; } uint32_t TextLineMetrics::getLineCount(const char* _string) const { CodePoint codepoint = 0; uint32_t state = 0; uint32_t lineCount = 1; for (; *_string; ++_string) { if (utf8_decode(&state, (uint32_t*)&codepoint, *_string) == UTF8_ACCEPT) { if(codepoint == L'\n') { ++lineCount; } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); return lineCount; } uint32_t TextLineMetrics::getLineCount(const wchar_t* _string) const { uint32_t lineCount = 1; for ( ;*_string != L'\0'; ++_string) { if(*_string == L'\n') { ++lineCount; } } return lineCount; } void TextLineMetrics::getSubText(const char* _string, uint32_t _firstLine, uint32_t _lastLine, const char*& _begin, const char*& _end) { CodePoint codepoint = 0; uint32_t state = 0; // y is bottom of a text line uint32_t currentLine = 0; while(*_string && (currentLine < _firstLine)) { for (; *_string; ++_string) { if (utf8_decode(&state, (uint32_t*)&codepoint, *_string) == UTF8_ACCEPT) { if (codepoint == L'\n') { ++currentLine; ++_string; break; } } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); _begin = _string; while ( (*_string) && (currentLine < _lastLine) ) { for (; *_string; ++_string) { if(utf8_decode(&state, (uint32_t*)&codepoint, *_string) == UTF8_ACCEPT) { if(codepoint == L'\n') { ++currentLine; ++_string; break; } } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); _end = _string; } void TextLineMetrics::getSubText(const wchar_t* _string, uint32_t _firstLine, uint32_t _lastLine, const wchar_t*& _begin, const wchar_t*& _end) { uint32_t currentLine = 0; while ( (*_string != L'\0') && (currentLine < _firstLine) ) { for ( ;*_string != L'\0'; ++_string) { if(*_string == L'\n') { ++currentLine; ++_string; break; } } } _begin = _string; while ( (*_string != L'\0') && (currentLine < _lastLine) ) { for ( ;*_string != L'\0'; ++_string) { if(*_string == L'\n') { ++currentLine; ++_string; break; } } } _end = _string; } void TextLineMetrics::getVisibleText(const char* _string, float _top, float _bottom, const char*& _begin, const char*& _end) { CodePoint codepoint = 0; uint32_t state = 0; // y is bottom of a text line float y = m_lineHeight; while (*_string && (y < _top) ) { for (; *_string; ++_string) { if(utf8_decode(&state, (uint32_t*)&codepoint, *_string) == UTF8_ACCEPT) { if(codepoint == L'\n') { y += m_lineHeight; ++_string; break; } } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); _begin = _string; // y is now top of a text line y -= m_lineHeight; while ( (*_string) && (y < _bottom) ) { for (; *_string; ++_string) { if(utf8_decode(&state, (uint32_t*)&codepoint, *_string) == UTF8_ACCEPT) { if(codepoint == L'\n') { y += m_lineHeight; ++_string; break; } } } } BX_CHECK(state == UTF8_ACCEPT, "The string is not well-formed"); _end = _string; } void TextLineMetrics::getVisibleText(const wchar_t* _string, float _top, float _bottom, const wchar_t*& _begin, const wchar_t*& _end) { // y is bottom of a text line float y = m_lineHeight; const wchar_t* _textEnd = _string + wcslen(_string); while (y < _top) { for (const wchar_t* _current = _string; _current < _textEnd; ++_current) { if(*_current == L'\n') { y += m_lineHeight; ++_string; break; } } } _begin = _string; // y is now top of a text line y -= m_lineHeight; while (y < _bottom ) { for (const wchar_t* _current = _string; _current < _textEnd; ++_current) { if(*_current == L'\n') { y += m_lineHeight; ++_string; break; } } } _end = _string; }