#include "Runtime/GuiSys/CTextRenderBuffer.hpp" #include "Runtime/Graphics/CGraphics.hpp" #include "Runtime/Graphics/CGraphicsPalette.hpp" #include "Runtime/Graphics/CTexture.hpp" #include "Runtime/Graphics/Shaders/CTextSupportShader.hpp" #include "Runtime/GuiSys/CFontImageDef.hpp" #include "Runtime/GuiSys/CFontRenderState.hpp" #include "Runtime/GuiSys/CInstruction.hpp" #include "Runtime/GuiSys/CRasterFont.hpp" #include "Runtime/GuiSys/CTextExecuteBuffer.hpp" namespace metaforce { struct CTextRenderBuffer::BooFontCharacters { TLockedToken m_font; // hecl::VertexBufferPool::Token m_instBuf; // boo::ObjToken m_dataBinding; // boo::ObjToken m_dataBinding2; std::vector m_charData; u32 m_charCount = 0; bool m_dirty = true; BooFontCharacters(const CToken& token) : m_font(token) {} }; struct CTextRenderBuffer::BooImage { CFontImageDef m_imageDef; // hecl::VertexBufferPool::Token m_instBuf; // std::vector> m_dataBinding; // std::vector> m_dataBinding2; CTextSupportShader::ImageInstance m_imageData; bool m_dirty = true; BooImage(const CFontImageDef& imgDef, const zeus::CVector2i& offset) : m_imageDef(imgDef) { m_imageData.SetMetrics(imgDef, offset); } }; struct CTextRenderBuffer::BooPrimitiveMark { Command m_cmd; u32 m_bindIdx; u32 m_instIdx; void SetOpacity(CTextRenderBuffer& rb, float opacity) { switch (m_cmd) { case Command::CharacterRender: { BooFontCharacters& fc = rb.m_fontCharacters[m_bindIdx]; CTextSupportShader::CharacterInstance& inst = fc.m_charData[m_instIdx]; inst.m_mulColor.a() = opacity; fc.m_dirty = true; break; } case Command::ImageRender: { BooImage& img = rb.m_images[m_bindIdx]; img.m_imageData.m_color.a() = opacity; img.m_dirty = true; break; } default: break; } } }; CTextRenderBuffer::CTextRenderBuffer(CTextRenderBuffer&&) noexcept = default; CTextRenderBuffer::CTextRenderBuffer(EMode mode, CGuiWidget::EGuiModelDrawFlags df) : x0_mode(mode), m_drawFlags(df) {} CTextRenderBuffer::~CTextRenderBuffer() = default; CTextRenderBuffer& CTextRenderBuffer::operator=(CTextRenderBuffer&&) noexcept = default; void CTextRenderBuffer::CommitResources() { if (m_committed) return; m_committed = true; /* Ensure font textures are ready outside transaction */ for (BooFontCharacters& chs : m_fontCharacters) chs.m_font->GetTexture(); // CGraphics::CommitResources([&](boo::IGraphicsDataFactory::Context& ctx) { // m_uniBuf = CTextSupportShader::s_Uniforms.allocateBlock(CGraphics::g_BooFactory); // auto uBufInfo = m_uniBuf.getBufferInfo(); // decltype(uBufInfo) uBufInfo2; // if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { // m_uniBuf2 = CTextSupportShader::s_Uniforms.allocateBlock(CGraphics::g_BooFactory); // uBufInfo2 = m_uniBuf2.getBufferInfo(); // } // // for (BooFontCharacters& chs : m_fontCharacters) { // chs.m_instBuf = CTextSupportShader::s_CharInsts.allocateBlock(CGraphics::g_BooFactory, chs.m_charCount); // auto iBufInfo = chs.m_instBuf.getBufferInfo(); // // boo::ObjToken uniforms[] = {uBufInfo.first.get()}; // boo::PipelineStage unistages[] = {boo::PipelineStage::Vertex}; // size_t unioffs[] = {size_t(uBufInfo.second)}; // size_t unisizes[] = {sizeof(CTextSupportShader::Uniform)}; // boo::ObjToken texs[] = {chs.m_font->GetTexture()}; // chs.m_dataBinding = ctx.newShaderDataBinding(CTextSupportShader::SelectTextPipeline(m_drawFlags), nullptr, // iBufInfo.first.get(), nullptr, 1, uniforms, unistages, unioffs, // unisizes, 1, texs, nullptr, nullptr, 0, iBufInfo.second); // // if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { // uniforms[0] = uBufInfo2.first.get(); // unioffs[0] = size_t(uBufInfo2.second); // chs.m_dataBinding2 = ctx.newShaderDataBinding(CTextSupportShader::GetTextAdditiveOverdrawPipeline(), nullptr, // iBufInfo.first.get(), nullptr, 1, uniforms, unistages, unioffs, // unisizes, 1, texs, nullptr, nullptr, 0, iBufInfo.second); // } // } // // for (BooImage& img : m_images) { // img.m_instBuf = CTextSupportShader::s_ImgInsts.allocateBlock(CGraphics::g_BooFactory, 1); // auto iBufInfo = img.m_instBuf.getBufferInfo(); // // boo::ObjToken uniforms[] = {uBufInfo.first.get()}; // boo::PipelineStage unistages[] = {boo::PipelineStage::Vertex}; // size_t unioffs[] = {size_t(uBufInfo.second)}; // size_t unisizes[] = {sizeof(CTextSupportShader::Uniform)}; // img.m_dataBinding.reserve(img.m_imageDef.x4_texs.size()); // for (TToken& tex : img.m_imageDef.x4_texs) { // boo::ObjToken texs[] = {tex->GetBooTexture()}; // texs[0]->setClampMode(boo::TextureClampMode::ClampToEdge); // img.m_dataBinding.push_back(ctx.newShaderDataBinding( // CTextSupportShader::SelectImagePipeline(m_drawFlags), nullptr, iBufInfo.first.get(), nullptr, 1, uniforms, // unistages, unioffs, unisizes, 1, texs, nullptr, nullptr, 0, iBufInfo.second)); // } // // if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { // uniforms[0] = uBufInfo2.first.get(); // unioffs[0] = size_t(uBufInfo2.second); // img.m_dataBinding2.reserve(img.m_imageDef.x4_texs.size()); // for (TToken& tex : img.m_imageDef.x4_texs) { // boo::ObjToken texs[] = {tex->GetBooTexture()}; // img.m_dataBinding2.push_back(ctx.newShaderDataBinding( // CTextSupportShader::GetImageAdditiveOverdrawPipeline(), nullptr, iBufInfo.first.get(), nullptr, 1, // uniforms, unistages, unioffs, unisizes, 1, texs, nullptr, nullptr, 0, iBufInfo.second)); // } // } // } // return true; // } BooTrace); } void CTextRenderBuffer::SetMode(EMode mode) { if (mode == EMode::BufferFill) { m_images.reserve(m_imagesCount); for (BooFontCharacters& fc : m_fontCharacters) fc.m_charData.reserve(fc.m_charCount); } m_activeFontCh = -1; x0_mode = mode; } void CTextRenderBuffer::SetPrimitiveOpacity(int idx, float opacity) { m_primitiveMarks[idx].SetOpacity(*this, opacity); } u32 CTextRenderBuffer::GetPrimitiveCount() const { return m_primitiveMarks.size(); } void CTextRenderBuffer::Render(const zeus::CColor& col, float time) { CommitResources(); // const zeus::CMatrix4f mv = CGraphics::g_GXModelView.toMatrix4f(); // const zeus::CMatrix4f proj = CGraphics::GetPerspectiveProjectionMatrix(true); // const zeus::CMatrix4f mat = proj * mv; // m_uniBuf.access() = CTextSupportShader::Uniform{mat, col}; if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { zeus::CColor colPremul = col * col.a(); colPremul.a() = col.a(); // m_uniBuf2.access() = CTextSupportShader::Uniform{mat, colPremul}; } for (BooFontCharacters& chs : m_fontCharacters) { if (chs.m_charData.size()) { if (chs.m_dirty) { // std::memmove(chs.m_instBuf.access(), chs.m_charData.data(), // sizeof(CTextSupportShader::CharacterInstance) * chs.m_charData.size()); chs.m_dirty = false; } // CGraphics::SetShaderDataBinding(chs.m_dataBinding); // CGraphics::DrawInstances(0, 4, chs.m_charData.size()); if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { // CGraphics::SetShaderDataBinding(chs.m_dataBinding2); // CGraphics::DrawInstances(0, 4, chs.m_charData.size()); } } } for (BooImage& img : m_images) { if (img.m_dirty) { // *img.m_instBuf.access() = img.m_imageData; img.m_dirty = false; } // const int idx = int(img.m_imageDef.x0_fps * time) % img.m_dataBinding.size(); // CGraphics::SetShaderDataBinding(img.m_dataBinding[idx]); // CGraphics::DrawInstances(0, 4, 1); if (m_drawFlags == CGuiWidget::EGuiModelDrawFlags::AlphaAdditiveOverdraw) { // CGraphics::SetShaderDataBinding(img.m_dataBinding2[idx]); // CGraphics::DrawInstances(0, 4, 1); } } } void CTextRenderBuffer::AddImage(const zeus::CVector2i& offset, const CFontImageDef& image) { if (x0_mode == EMode::AllocTally) m_primitiveMarks.push_back({Command::ImageRender, m_imagesCount++, 0}); else m_images.emplace_back(image, offset); } void CTextRenderBuffer::AddCharacter(const zeus::CVector2i& offset, char16_t ch, const zeus::CColor& color) { if (m_activeFontCh == UINT32_MAX) return; BooFontCharacters& chs = m_fontCharacters[m_activeFontCh]; if (x0_mode == EMode::AllocTally) m_primitiveMarks.push_back({Command::CharacterRender, m_activeFontCh, chs.m_charCount++}); else { const CGlyph* glyph = chs.m_font.GetObj()->GetGlyph(ch); CTextSupportShader::CharacterInstance& inst = chs.m_charData.emplace_back(); inst.SetMetrics(*glyph, offset); inst.m_fontColor = m_main * color; inst.m_outlineColor = m_outline * color; inst.m_mulColor = zeus::skWhite; } } void CTextRenderBuffer::AddPaletteChange(const zeus::CColor& main, const zeus::CColor& outline) { m_main = main; m_outline = outline; } void CTextRenderBuffer::AddFontChange(const TToken& font) { for (size_t i = 0; i < m_fontCharacters.size(); ++i) { BooFontCharacters& chs = m_fontCharacters[i]; if (*chs.m_font.GetObjectTag() == *font.GetObjectTag()) { m_activeFontCh = i; return; } } m_activeFontCh = m_fontCharacters.size(); m_fontCharacters.emplace_back(font); } bool CTextRenderBuffer::HasSpaceAvailable(const zeus::CVector2i& origin, const zeus::CVector2i& extent) const { std::pair bounds = AccumulateTextBounds(); if (bounds.first.x > bounds.second.x) return true; if (0 < origin.y) return false; zeus::CVector2i size = bounds.second - bounds.first; return size.y <= extent.y; } std::pair CTextRenderBuffer::AccumulateTextBounds() const { std::pair ret = std::make_pair(zeus::CVector2i{INT_MAX, INT_MAX}, zeus::CVector2i{INT_MIN, INT_MIN}); for (const BooFontCharacters& chars : m_fontCharacters) { for (const CTextSupportShader::CharacterInstance& charInst : chars.m_charData) { ret.first.x = std::min(ret.first.x, int(charInst.m_pos[0].x())); ret.first.y = std::min(ret.first.y, int(charInst.m_pos[0].z())); ret.second.x = std::max(ret.second.x, int(charInst.m_pos[3].x())); ret.second.y = std::max(ret.second.y, int(charInst.m_pos[3].z())); } } for (const BooImage& imgs : m_images) { ret.first.x = std::min(ret.first.x, int(imgs.m_imageData.m_pos[0].x())); ret.first.y = std::min(ret.first.y, int(imgs.m_imageData.m_pos[0].z())); ret.second.x = std::max(ret.second.x, int(imgs.m_imageData.m_pos[3].x())); ret.second.y = std::max(ret.second.y, int(imgs.m_imageData.m_pos[3].z())); } return ret; } } // namespace metaforce