/* * Copyright 2013 Jeremie Roy. All rights reserved. * License: http://www.opensource.org/licenses/BSD-2-Clause */ #include #include #include // offsetof #include // memcpy #include // wcslen #include "text_buffer_manager.h" #include "utf8.h" #include "../cube_atlas.h" #include "vs_font_basic.bin.h" #include "fs_font_basic.bin.h" #include "vs_font_distance_field.bin.h" #include "fs_font_distance_field.bin.h" #include "vs_font_distance_field_subpixel.bin.h" #include "fs_font_distance_field_subpixel.bin.h" #define MAX_TEXT_BUFFER_COUNT 64 #define MAX_BUFFERED_CHARACTERS 8192 class TextBuffer { public: /// TextBuffer is bound to a fontManager for glyph retrieval /// @remark the ownership of the manager is not taken TextBuffer(FontManager* _fontManager); ~TextBuffer(); void setStyle(uint32_t _flags = STYLE_NORMAL) { m_styleFlags = _flags; } void setTextColor(uint32_t _rgba = 0x000000FF) { m_textColor = toABGR(_rgba); } void setBackgroundColor(uint32_t _rgba = 0x000000FF) { m_backgroundColor = toABGR(_rgba); } void setOverlineColor(uint32_t _rgba = 0x000000FF) { m_overlineColor = toABGR(_rgba); } void setUnderlineColor(uint32_t _rgba = 0x000000FF) { m_underlineColor = toABGR(_rgba); } void setStrikeThroughColor(uint32_t _rgba = 0x000000FF) { m_strikeThroughColor = toABGR(_rgba); } void setPenPosition(float _x, float _y) { m_penX = _x; m_penY = _y; } /// return the size of the text //Rectangle measureText(FontHandle _fontHandle, const char * _string); //Rectangle measureText(FontHandle _fontHandle, const wchar_t * _string); /// append an ASCII/utf-8 string to the buffer using current pen position and color void appendText(FontHandle _fontHandle, const char* _string); /// append a wide char unicode string to the buffer using current pen position and color void appendText(FontHandle _fontHandle, const wchar_t* _string); /// append a whole face of the atlas cube, mostly used for debugging and visualizing atlas void appendAtlasFace(uint16_t _faceIndex); /// Clear the text buffer and reset its state (pen/color) void clearTextBuffer(); /// get pointer to the vertex buffer to submit it to the graphic card const uint8_t* getVertexBuffer() { return (uint8_t*) m_vertexBuffer; } /// number of vertex in the vertex buffer uint32_t getVertexCount() { return m_vertexCount; } /// size in bytes of a vertex uint32_t getVertexSize() { return sizeof(TextVertex); } /// get a pointer to the index buffer to submit it to the graphic const uint16_t* getIndexBuffer() { return m_indexBuffer; } /// number of index in the index buffer uint32_t getIndexCount() { return m_indexCount; } /// size in bytes of an index uint32_t getIndexSize() { return sizeof(uint16_t); } uint32_t getTextColor() { return toABGR(m_textColor); } TextRectangle getRectangle() const { return m_rectangle; } private: void appendGlyph(CodePoint _codePoint, const FontInfo& _font, const GlyphInfo& _glyphInfo); void verticalCenterLastLine(float _txtDecalY, float _top, float _bottom); uint32_t toABGR(uint32_t _rgba) { return ( ( (_rgba >> 0) & 0xff) << 24) | ( ( (_rgba >> 8) & 0xff) << 16) | ( ( (_rgba >> 16) & 0xff) << 8) | ( ( (_rgba >> 24) & 0xff) << 0); } uint32_t m_styleFlags; // color states uint32_t m_textColor; uint32_t m_backgroundColor; uint32_t m_overlineColor; uint32_t m_underlineColor; uint32_t m_strikeThroughColor; //position states float m_penX; float m_penY; float m_originX; float m_originY; float m_lineAscender; float m_lineDescender; float m_lineGap; TextRectangle m_rectangle; /// FontManager* m_fontManager; void setVertex(uint32_t _i, float _x, float _y, uint32_t _rgba, uint8_t _style = STYLE_NORMAL) { m_vertexBuffer[_i].x = _x; m_vertexBuffer[_i].y = _y; m_vertexBuffer[_i].rgba = _rgba; m_styleBuffer[_i] = _style; } struct TextVertex { float x, y; int16_t u, v, w, t; uint32_t rgba; }; TextVertex* m_vertexBuffer; uint16_t* m_indexBuffer; uint8_t* m_styleBuffer; uint32_t m_vertexCount; uint32_t m_indexCount; uint32_t m_lineStartIndex; }; TextBuffer::TextBuffer(FontManager* _fontManager) : m_styleFlags(STYLE_NORMAL) , m_textColor(0xffffffff) , m_backgroundColor(0xffffffff) , m_overlineColor(0xffffffff) , m_underlineColor(0xffffffff) , m_strikeThroughColor(0xffffffff) , m_penX(0) , m_penY(0) , m_originX(0) , m_originY(0) , m_lineAscender(0) , m_lineDescender(0) , m_lineGap(0) , m_fontManager(_fontManager) , m_vertexBuffer(new TextVertex[MAX_BUFFERED_CHARACTERS * 4]) , m_indexBuffer(new uint16_t[MAX_BUFFERED_CHARACTERS * 6]) , m_styleBuffer(new uint8_t[MAX_BUFFERED_CHARACTERS * 4]) , m_vertexCount(0) , m_indexCount(0) , m_lineStartIndex(0) { m_rectangle.width = 0; m_rectangle.height = 0; } TextBuffer::~TextBuffer() { delete[] m_vertexBuffer; delete[] m_indexBuffer; } void TextBuffer::appendText(FontHandle _fontHandle, const char* _string) { GlyphInfo glyph; const FontInfo& font = m_fontManager->getFontInfo(_fontHandle); if (m_vertexCount == 0) { m_originX = m_penX; m_originY = m_penY; m_lineDescender = 0; // font.m_descender; m_lineAscender = 0; //font.m_ascender; } CodePoint codepoint = 0; uint32_t state = 0; for (; *_string; ++_string) { if (!utf8_decode(&state, (uint32_t*)&codepoint, *_string) ) { if (m_fontManager->getGlyphInfo(_fontHandle, codepoint, glyph) ) { appendGlyph(codepoint, font, glyph); } else { BX_CHECK(false, "Glyph not found"); } } } if (state != UTF8_ACCEPT) { // assert(false && "The string is not well-formed"); return; //"The string is not well-formed\n" } } void TextBuffer::appendText(FontHandle _fontHandle, const wchar_t* _string) { GlyphInfo glyph; const FontInfo& font = m_fontManager->getFontInfo(_fontHandle); if (m_vertexCount == 0) { m_originX = m_penX; m_originY = m_penY; m_lineDescender = 0; // font.m_descender; m_lineAscender = 0; //font.m_ascender; m_lineGap = 0; } for (uint32_t ii = 0, end = wcslen(_string); ii < end; ++ii) { uint32_t _codePoint = _string[ii]; if (m_fontManager->getGlyphInfo(_fontHandle, _codePoint, glyph) ) { appendGlyph(_codePoint, font, glyph); } else { BX_CHECK(false, "Glyph not found"); } } } void TextBuffer::appendAtlasFace(uint16_t _faceIndex) { float x0 = m_penX; float y0 = m_penY; float x1 = x0 + (float)m_fontManager->getAtlas()->getTextureSize(); float y1 = y0 + (float)m_fontManager->getAtlas()->getTextureSize(); m_fontManager->getAtlas()->packFaceLayerUV(_faceIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_backgroundColor); setVertex(m_vertexCount + 1, x0, y1, m_backgroundColor); setVertex(m_vertexCount + 2, x1, y1, m_backgroundColor); setVertex(m_vertexCount + 3, x1, y0, m_backgroundColor); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; } void TextBuffer::clearTextBuffer() { m_vertexCount = 0; m_indexCount = 0; m_lineStartIndex = 0; m_lineAscender = 0; m_lineDescender = 0; m_rectangle.width = 0; m_rectangle.height = 0; } void TextBuffer::appendGlyph(CodePoint _codePoint, const FontInfo& _font, const GlyphInfo& _glyphInfo) { if (_codePoint == L'\n') { m_penX = m_originX; m_penY -= m_lineDescender; m_penY += m_lineGap; m_lineDescender = 0; m_lineAscender = 0; m_lineStartIndex = m_vertexCount; return; } if (_font.ascender > m_lineAscender || (_font.descender < m_lineDescender) ) { if (_font.descender < m_lineDescender) { m_lineDescender = _font.descender; m_lineGap = _font.lineGap; } float txtDecals = (_font.ascender - m_lineAscender); m_lineAscender = _font.ascender; m_lineGap = _font.lineGap; m_penY += txtDecals; verticalCenterLastLine( (txtDecals), (m_penY - m_lineAscender), (m_penY - m_lineDescender + m_lineGap) ); } float kerning = 0; m_penX += kerning * _font.scale; GlyphInfo& blackGlyph = m_fontManager->getBlackGlyph(); if (m_styleFlags & STYLE_BACKGROUND && m_backgroundColor & 0xFF000000) { float x0 = (m_penX - kerning); float y0 = (m_penY - m_lineAscender); float x1 = ( (float)x0 + (_glyphInfo.advance_x) ); float y1 = (m_penY - m_lineDescender + m_lineGap); m_fontManager->getAtlas()->packUV(blackGlyph.regionIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_backgroundColor, STYLE_BACKGROUND); setVertex(m_vertexCount + 1, x0, y1, m_backgroundColor, STYLE_BACKGROUND); setVertex(m_vertexCount + 2, x1, y1, m_backgroundColor, STYLE_BACKGROUND); setVertex(m_vertexCount + 3, x1, y0, m_backgroundColor, STYLE_BACKGROUND); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; } if (m_styleFlags & STYLE_UNDERLINE && m_underlineColor & 0xFF000000) { float x0 = (m_penX - kerning); float y0 = (m_penY - m_lineDescender / 2); float x1 = ( (float)x0 + (_glyphInfo.advance_x) ); float y1 = y0 + _font.underlineThickness; m_fontManager->getAtlas()->packUV(blackGlyph.regionIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_underlineColor, STYLE_UNDERLINE); setVertex(m_vertexCount + 1, x0, y1, m_underlineColor, STYLE_UNDERLINE); setVertex(m_vertexCount + 2, x1, y1, m_underlineColor, STYLE_UNDERLINE); setVertex(m_vertexCount + 3, x1, y0, m_underlineColor, STYLE_UNDERLINE); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; } if (m_styleFlags & STYLE_OVERLINE && m_overlineColor & 0xFF000000) { float x0 = (m_penX - kerning); float y0 = (m_penY - _font.ascender); float x1 = ( (float)x0 + (_glyphInfo.advance_x) ); float y1 = y0 + _font.underlineThickness; m_fontManager->getAtlas()->packUV(blackGlyph.regionIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_overlineColor, STYLE_OVERLINE); setVertex(m_vertexCount + 1, x0, y1, m_overlineColor, STYLE_OVERLINE); setVertex(m_vertexCount + 2, x1, y1, m_overlineColor, STYLE_OVERLINE); setVertex(m_vertexCount + 3, x1, y0, m_overlineColor, STYLE_OVERLINE); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; } if (m_styleFlags & STYLE_STRIKE_THROUGH && m_strikeThroughColor & 0xFF000000) { float x0 = (m_penX - kerning); float y0 = (m_penY - _font.ascender / 3); float x1 = ( (float)x0 + (_glyphInfo.advance_x) ); float y1 = y0 + _font.underlineThickness; m_fontManager->getAtlas()->packUV(blackGlyph.regionIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_strikeThroughColor, STYLE_STRIKE_THROUGH); setVertex(m_vertexCount + 1, x0, y1, m_strikeThroughColor, STYLE_STRIKE_THROUGH); setVertex(m_vertexCount + 2, x1, y1, m_strikeThroughColor, STYLE_STRIKE_THROUGH); setVertex(m_vertexCount + 3, x1, y0, m_strikeThroughColor, STYLE_STRIKE_THROUGH); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; } float x0_precise = m_penX + (_glyphInfo.offset_x); float x0 = (x0_precise); float y0 = (m_penY + (_glyphInfo.offset_y) ); float x1 = (x0 + _glyphInfo.width); float y1 = (y0 + _glyphInfo.height); m_fontManager->getAtlas()->packUV(_glyphInfo.regionIndex, (uint8_t*)m_vertexBuffer, sizeof(TextVertex) * m_vertexCount + offsetof(TextVertex, u), sizeof(TextVertex) ); setVertex(m_vertexCount + 0, x0, y0, m_textColor); setVertex(m_vertexCount + 1, x0, y1, m_textColor); setVertex(m_vertexCount + 2, x1, y1, m_textColor); setVertex(m_vertexCount + 3, x1, y0, m_textColor); m_indexBuffer[m_indexCount + 0] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 1] = m_vertexCount + 1; m_indexBuffer[m_indexCount + 2] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 3] = m_vertexCount + 0; m_indexBuffer[m_indexCount + 4] = m_vertexCount + 2; m_indexBuffer[m_indexCount + 5] = m_vertexCount + 3; m_vertexCount += 4; m_indexCount += 6; m_penX += _glyphInfo.advance_x; if (m_penX > m_rectangle.width) { m_rectangle.width = m_penX; } if ( (m_penY - m_lineDescender) > m_rectangle.height) { m_rectangle.height = (m_penY - m_lineDescender); } } void TextBuffer::verticalCenterLastLine(float _dy, float _top, float _bottom) { for (uint32_t ii = m_lineStartIndex; ii < m_vertexCount; ii += 4) { if (m_styleBuffer[ii] == STYLE_BACKGROUND) { m_vertexBuffer[ii + 0].y = _top; m_vertexBuffer[ii + 1].y = _bottom; m_vertexBuffer[ii + 2].y = _bottom; m_vertexBuffer[ii + 3].y = _top; } else { m_vertexBuffer[ii + 0].y += _dy; m_vertexBuffer[ii + 1].y += _dy; m_vertexBuffer[ii + 2].y += _dy; m_vertexBuffer[ii + 3].y += _dy; } } } TextBufferManager::TextBufferManager(FontManager* _fontManager) : m_textBufferHandles(MAX_TEXT_BUFFER_COUNT) , m_fontManager(_fontManager) { m_textBuffers = new BufferCache[MAX_TEXT_BUFFER_COUNT]; const bgfx::Memory* vs_font_basic; const bgfx::Memory* fs_font_basic; const bgfx::Memory* vs_font_distance_field; const bgfx::Memory* fs_font_distance_field; const bgfx::Memory* vs_font_distance_field_subpixel; const bgfx::Memory* fs_font_distance_field_subpixel; switch (bgfx::getRendererType() ) { case bgfx::RendererType::Direct3D9: vs_font_basic = bgfx::makeRef(vs_font_basic_dx9, sizeof(vs_font_basic_dx9) ); fs_font_basic = bgfx::makeRef(fs_font_basic_dx9, sizeof(fs_font_basic_dx9) ); vs_font_distance_field = bgfx::makeRef(vs_font_distance_field_dx9, sizeof(vs_font_distance_field_dx9) ); fs_font_distance_field = bgfx::makeRef(fs_font_distance_field_dx9, sizeof(fs_font_distance_field_dx9) ); vs_font_distance_field_subpixel = bgfx::makeRef(vs_font_distance_field_subpixel_dx9, sizeof(vs_font_distance_field_subpixel_dx9) ); fs_font_distance_field_subpixel = bgfx::makeRef(fs_font_distance_field_subpixel_dx9, sizeof(fs_font_distance_field_subpixel_dx9) ); break; case bgfx::RendererType::Direct3D11: vs_font_basic = bgfx::makeRef(vs_font_basic_dx11, sizeof(vs_font_basic_dx11) ); fs_font_basic = bgfx::makeRef(fs_font_basic_dx11, sizeof(fs_font_basic_dx11) ); vs_font_distance_field = bgfx::makeRef(vs_font_distance_field_dx11, sizeof(vs_font_distance_field_dx11) ); fs_font_distance_field = bgfx::makeRef(fs_font_distance_field_dx11, sizeof(fs_font_distance_field_dx11) ); vs_font_distance_field_subpixel = bgfx::makeRef(vs_font_distance_field_subpixel_dx11, sizeof(vs_font_distance_field_subpixel_dx11) ); fs_font_distance_field_subpixel = bgfx::makeRef(fs_font_distance_field_subpixel_dx11, sizeof(fs_font_distance_field_subpixel_dx11) ); break; default: vs_font_basic = bgfx::makeRef(vs_font_basic_glsl, sizeof(vs_font_basic_glsl) ); fs_font_basic = bgfx::makeRef(fs_font_basic_glsl, sizeof(fs_font_basic_glsl) ); vs_font_distance_field = bgfx::makeRef(vs_font_distance_field_glsl, sizeof(vs_font_distance_field_glsl) ); fs_font_distance_field = bgfx::makeRef(fs_font_distance_field_glsl, sizeof(fs_font_distance_field_glsl) ); vs_font_distance_field_subpixel = bgfx::makeRef(vs_font_distance_field_subpixel_glsl, sizeof(vs_font_distance_field_subpixel_glsl) ); fs_font_distance_field_subpixel = bgfx::makeRef(fs_font_distance_field_subpixel_glsl, sizeof(fs_font_distance_field_subpixel_glsl) ); break; } bgfx::VertexShaderHandle vsh; bgfx::FragmentShaderHandle fsh; vsh = bgfx::createVertexShader(vs_font_basic); fsh = bgfx::createFragmentShader(fs_font_basic); m_basicProgram = bgfx::createProgram(vsh, fsh); bgfx::destroyVertexShader(vsh); bgfx::destroyFragmentShader(fsh); vsh = bgfx::createVertexShader(vs_font_distance_field); fsh = bgfx::createFragmentShader(fs_font_distance_field); m_distanceProgram = bgfx::createProgram(vsh, fsh); bgfx::destroyVertexShader(vsh); bgfx::destroyFragmentShader(fsh); vsh = bgfx::createVertexShader(vs_font_distance_field_subpixel); fsh = bgfx::createFragmentShader(fs_font_distance_field_subpixel); m_distanceSubpixelProgram = bgfx::createProgram(vsh, fsh); bgfx::destroyVertexShader(vsh); bgfx::destroyFragmentShader(fsh); m_vertexDecl.begin(); m_vertexDecl.add(bgfx::Attrib::Position, 2, bgfx::AttribType::Float); m_vertexDecl.add(bgfx::Attrib::TexCoord0, 4, bgfx::AttribType::Int16, true); m_vertexDecl.add(bgfx::Attrib::Color0, 4, bgfx::AttribType::Uint8, true); m_vertexDecl.end(); u_texColor = bgfx::createUniform("u_texColor", bgfx::UniformType::Uniform1iv); u_inverse_gamma = bgfx::createUniform("u_inverse_gamma", bgfx::UniformType::Uniform1f); } TextBufferManager::~TextBufferManager() { BX_CHECK(m_textBufferHandles.getNumHandles() == 0, "All the text buffers must be destroyed before destroying the manager"); delete[] m_textBuffers; bgfx::destroyUniform(u_texColor); bgfx::destroyUniform(u_inverse_gamma); bgfx::destroyProgram(m_basicProgram); bgfx::destroyProgram(m_distanceProgram); bgfx::destroyProgram(m_distanceSubpixelProgram); } TextBufferHandle TextBufferManager::createTextBuffer(uint32_t _type, BufferType _bufferType) { uint16_t textIdx = m_textBufferHandles.alloc(); BufferCache& bc = m_textBuffers[textIdx]; bc.textBuffer = new TextBuffer(m_fontManager); bc.fontType = _type; bc.bufferType = _bufferType; bc.indexBufferHandle = bgfx::invalidHandle; bc.vertexBufferHandle = bgfx::invalidHandle; TextBufferHandle ret = {textIdx}; return ret; } void TextBufferManager::destroyTextBuffer(TextBufferHandle _handle) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; m_textBufferHandles.free(_handle.idx); delete bc.textBuffer; bc.textBuffer = NULL; if (bc.vertexBufferHandle == bgfx::invalidHandle) { return; } switch (bc.bufferType) { case STATIC: { bgfx::IndexBufferHandle ibh; bgfx::VertexBufferHandle vbh; ibh.idx = bc.indexBufferHandle; vbh.idx = bc.vertexBufferHandle; bgfx::destroyIndexBuffer(ibh); bgfx::destroyVertexBuffer(vbh); } break; case DYNAMIC: bgfx::DynamicIndexBufferHandle ibh; bgfx::DynamicVertexBufferHandle vbh; ibh.idx = bc.indexBufferHandle; vbh.idx = bc.vertexBufferHandle; bgfx::destroyDynamicIndexBuffer(ibh); bgfx::destroyDynamicVertexBuffer(vbh); break; case TRANSIENT: //naturally destroyed break; } } void TextBufferManager::submitTextBuffer(TextBufferHandle _handle, uint8_t _id, int32_t _depth) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; uint32_t indexSize = bc.textBuffer->getIndexCount() * bc.textBuffer->getIndexSize(); uint32_t vertexSize = bc.textBuffer->getVertexCount() * bc.textBuffer->getVertexSize(); const bgfx::Memory* mem; bgfx::setTexture(0, u_texColor, m_fontManager->getAtlas()->getTextureHandle() ); float inverse_gamme = 1.0f / 2.2f; bgfx::setUniform(u_inverse_gamma, &inverse_gamme); switch (bc.fontType) { case FONT_TYPE_ALPHA: bgfx::setProgram(m_basicProgram); bgfx::setState(BGFX_STATE_RGB_WRITE | BGFX_STATE_BLEND_FUNC(BGFX_STATE_BLEND_SRC_ALPHA, BGFX_STATE_BLEND_INV_SRC_ALPHA) ); break; case FONT_TYPE_DISTANCE: bgfx::setProgram(m_distanceProgram); bgfx::setState(BGFX_STATE_RGB_WRITE | BGFX_STATE_BLEND_FUNC(BGFX_STATE_BLEND_SRC_ALPHA, BGFX_STATE_BLEND_INV_SRC_ALPHA) ); break; case FONT_TYPE_DISTANCE_SUBPIXEL: bgfx::setProgram(m_distanceSubpixelProgram); bgfx::setState(BGFX_STATE_RGB_WRITE | BGFX_STATE_BLEND_FUNC(BGFX_STATE_BLEND_FACTOR, BGFX_STATE_BLEND_INV_SRC_COLOR), bc.textBuffer->getTextColor() ); break; } switch (bc.bufferType) { case STATIC: { bgfx::IndexBufferHandle ibh; bgfx::VertexBufferHandle vbh; if (bc.vertexBufferHandle == bgfx::invalidHandle) { mem = bgfx::alloc(indexSize); memcpy(mem->data, bc.textBuffer->getIndexBuffer(), indexSize); ibh = bgfx::createIndexBuffer(mem); mem = bgfx::alloc(vertexSize); memcpy(mem->data, bc.textBuffer->getVertexBuffer(), vertexSize); vbh = bgfx::createVertexBuffer(mem, m_vertexDecl); bc.indexBufferHandle = ibh.idx; bc.vertexBufferHandle = vbh.idx; } else { ibh.idx = bc.indexBufferHandle; vbh.idx = bc.vertexBufferHandle; } bgfx::setVertexBuffer(vbh, bc.textBuffer->getVertexCount() ); bgfx::setIndexBuffer(ibh, bc.textBuffer->getIndexCount() ); } break; case DYNAMIC: { bgfx::DynamicIndexBufferHandle ibh; bgfx::DynamicVertexBufferHandle vbh; if (bc.vertexBufferHandle == bgfx::invalidHandle) { mem = bgfx::alloc(indexSize); memcpy(mem->data, bc.textBuffer->getIndexBuffer(), indexSize); ibh = bgfx::createDynamicIndexBuffer(mem); mem = bgfx::alloc(vertexSize); memcpy(mem->data, bc.textBuffer->getVertexBuffer(), vertexSize); vbh = bgfx::createDynamicVertexBuffer(mem, m_vertexDecl); bc.indexBufferHandle = ibh.idx; bc.vertexBufferHandle = vbh.idx; } else { ibh.idx = bc.indexBufferHandle; vbh.idx = bc.vertexBufferHandle; mem = bgfx::alloc(indexSize); memcpy(mem->data, bc.textBuffer->getIndexBuffer(), indexSize); bgfx::updateDynamicIndexBuffer(ibh, mem); mem = bgfx::alloc(vertexSize); memcpy(mem->data, bc.textBuffer->getVertexBuffer(), vertexSize); bgfx::updateDynamicVertexBuffer(vbh, mem); } bgfx::setVertexBuffer(vbh, bc.textBuffer->getVertexCount() ); bgfx::setIndexBuffer(ibh, bc.textBuffer->getIndexCount() ); } break; case TRANSIENT: { bgfx::TransientIndexBuffer tib; bgfx::TransientVertexBuffer tvb; bgfx::allocTransientIndexBuffer(&tib, bc.textBuffer->getIndexCount() ); bgfx::allocTransientVertexBuffer(&tvb, bc.textBuffer->getVertexCount(), m_vertexDecl); memcpy(tib.data, bc.textBuffer->getIndexBuffer(), indexSize); memcpy(tvb.data, bc.textBuffer->getVertexBuffer(), vertexSize); bgfx::setVertexBuffer(&tvb, bc.textBuffer->getVertexCount() ); bgfx::setIndexBuffer(&tib, bc.textBuffer->getIndexCount() ); } break; } bgfx::submit(_id, _depth); } void TextBufferManager::setStyle(TextBufferHandle _handle, uint32_t _flags) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setStyle(_flags); } void TextBufferManager::setTextColor(TextBufferHandle _handle, uint32_t _rgba) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setTextColor(_rgba); } void TextBufferManager::setBackgroundColor(TextBufferHandle _handle, uint32_t _rgba) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setBackgroundColor(_rgba); } void TextBufferManager::setOverlineColor(TextBufferHandle _handle, uint32_t _rgba) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setOverlineColor(_rgba); } void TextBufferManager::setUnderlineColor(TextBufferHandle _handle, uint32_t _rgba) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setUnderlineColor(_rgba); } void TextBufferManager::setStrikeThroughColor(TextBufferHandle _handle, uint32_t _rgba) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setStrikeThroughColor(_rgba); } void TextBufferManager::setPenPosition(TextBufferHandle _handle, float _x, float _y) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->setPenPosition(_x, _y); } void TextBufferManager::appendText(TextBufferHandle _handle, FontHandle _fontHandle, const char* _string) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->appendText(_fontHandle, _string); } void TextBufferManager::appendText(TextBufferHandle _handle, FontHandle _fontHandle, const wchar_t* _string) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->appendText(_fontHandle, _string); } void TextBufferManager::appendAtlasFace(TextBufferHandle _handle, uint16_t _faceIndex) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->appendAtlasFace(_faceIndex); } void TextBufferManager::clearTextBuffer(TextBufferHandle _handle) { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; bc.textBuffer->clearTextBuffer(); } TextRectangle TextBufferManager::getRectangle(TextBufferHandle _handle) const { BX_CHECK(bgfx::invalidHandle != _handle.idx, "Invalid handle used"); BufferCache& bc = m_textBuffers[_handle.idx]; return bc.textBuffer->getRectangle(); }