kc3-lang/angle/src/libANGLE/OverlayWidgets.cpp

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• Hash : 038adcae
  Author :
  Date : 2022-02-08T16:46:40
  

  Vulkan: Render the overlay in the graphics pipeline
  
  Bug: angleproject:6976
  Change-Id: I388d429f0726b4d6a1c4ecd446ead93579a14a1b
  Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3448643
  Reviewed-by: Jamie Madill <jmadill@chromium.org>
  Reviewed-by: Yuxin Hu <yuxinhu@google.com>
  Commit-Queue: Shahbaz Youssefi <syoussefi@chromium.org>
  

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• src/libANGLE/OverlayWidgets.cpp

• //
  // Copyright 2019 The ANGLE Project Authors. All rights reserved.
  // Use of this source code is governed by a BSD-style license that can be
  // found in the LICENSE file.
  //
  // OverlayWidgets.cpp:
  //    Implements functions that interpret widget data.  Data formats and limits correspond to the
  //    Vulkan implementation (as the only implementation).  They are generic enough so other backends
  //    could respect them too, if they implement the overlay.
  //
  
  #include "libANGLE/Overlay.h"
  #include "libANGLE/Overlay_font_autogen.h"
  
  #include <functional>
  
  namespace gl
  {
  namespace
  {
  // Internally, every widget is either Text or Graph.
  enum class WidgetInternalType
  {
      Text,
      Graph,
  
      InvalidEnum,
      EnumCount = InvalidEnum,
  };
  
  // A map that says how the API-facing widget types map to internal types.
  constexpr angle::PackedEnumMap<WidgetType, WidgetInternalType> kWidgetTypeToInternalMap = {
      {WidgetType::Count, WidgetInternalType::Text},
      {WidgetType::Text, WidgetInternalType::Text},
      {WidgetType::PerSecond, WidgetInternalType::Text},
      {WidgetType::RunningGraph, WidgetInternalType::Graph},
      {WidgetType::RunningHistogram, WidgetInternalType::Graph},
  };
  
  // Structures and limits matching uniform buffers in vulkan/shaders/src/OverlayDraw.comp.  The size
  // of text and graph widgets is chosen such that they could fit in uniform buffers with minimum
  // required Vulkan size.
  constexpr size_t kMaxRenderableTextWidgets  = 32;
  constexpr size_t kMaxRenderableGraphWidgets = 32;
  constexpr size_t kMaxTextLength             = 256;
  constexpr size_t kMaxGraphDataSize          = 256;
  
  constexpr angle::PackedEnumMap<WidgetInternalType, size_t> kWidgetInternalTypeMaxWidgets = {
      {WidgetInternalType::Text, kMaxRenderableTextWidgets},
      {WidgetInternalType::Graph, kMaxRenderableGraphWidgets},
  };
  
  ANGLE_ENABLE_STRUCT_PADDING_WARNINGS
  
  // Structure matching buffer in vulkan/shaders/src/OverlayCull.comp.
  struct WidgetCoordinates
  {
      uint32_t coordinates[kMaxRenderableTextWidgets + kMaxRenderableGraphWidgets][4];
  };
  
  // Structures matching buffers in vulkan/shaders/src/OverlayDraw.comp.
  struct TextWidgetData
  {
      uint32_t coordinates[4];
      float color[4];
      uint32_t fontSize[3];
      uint32_t padding;
      uint8_t text[kMaxTextLength];
  };
  
  struct GraphWidgetData
  {
      uint32_t coordinates[4];
      float color[4];
      uint32_t valueWidth;
      uint32_t padding[3];
      uint32_t values[kMaxGraphDataSize];
  };
  
  struct TextWidgets
  {
      TextWidgetData widgets[kMaxRenderableTextWidgets];
  };
  
  struct GraphWidgets
  {
      GraphWidgetData widgets[kMaxRenderableGraphWidgets];
  };
  
  ANGLE_DISABLE_STRUCT_PADDING_WARNINGS
  
  uint32_t GetWidgetCoord(int32_t src, uint32_t extent)
  {
      int32_t dst = src < 0 ? extent + src : src;
  
      return std::min<uint32_t>(std::max(dst, 0), extent - 1);
  }
  
  void GetWidgetCoordinates(const int32_t srcCoords[4],
                            const gl::Extents &imageExtent,
                            uint32_t dstCoordsOut[4])
  {
      dstCoordsOut[0] = GetWidgetCoord(srcCoords[0], imageExtent.width);
      dstCoordsOut[1] = GetWidgetCoord(srcCoords[1], imageExtent.height);
      dstCoordsOut[2] = GetWidgetCoord(srcCoords[2], imageExtent.width);
      dstCoordsOut[3] = GetWidgetCoord(srcCoords[3], imageExtent.height);
  }
  
  void GetWidgetColor(const float srcColor[4], float dstColor[4])
  {
      memcpy(dstColor, srcColor, 4 * sizeof(dstColor[0]));
  }
  
  void GetTextFontSize(int srcFontSize, uint32_t dstFontSize[3])
  {
      // .xy contains the font glyph width/height
      dstFontSize[0] = overlay::kFontGlyphWidth >> srcFontSize;
      dstFontSize[1] = overlay::kFontGlyphHeight >> srcFontSize;
      // .z contains the mip
      dstFontSize[2] = srcFontSize;
  }
  
  void GetGraphValueWidth(const int32_t srcCoords[4], size_t valueCount, uint32_t *dstValueWidth)
  {
      const int32_t graphWidth = std::abs(srcCoords[2] - srcCoords[0]);
  
      // If valueCount doesn't divide graphWidth, the graph bars won't fit well in its frame.
      // Fix initOverlayWidgets() in that case.
      ASSERT(graphWidth % valueCount == 0);
  
      *dstValueWidth = graphWidth / valueCount;
  }
  
  void GetTextString(const std::string &src, uint8_t textOut[kMaxTextLength])
  {
      for (size_t i = 0; i < src.length() && i < kMaxTextLength; ++i)
      {
          // The font image has 95 ASCII characters starting from ' '.
          textOut[i] = src[i] - ' ';
      }
  }
  
  void GetGraphValues(const std::vector<size_t> srcValues,
                      size_t startIndex,
                      float scale,
                      uint32_t valuesOut[kMaxGraphDataSize])
  {
      ASSERT(srcValues.size() <= kMaxGraphDataSize);
  
      for (size_t i = 0; i < srcValues.size(); ++i)
      {
          size_t index = (startIndex + i) % srcValues.size();
          valuesOut[i] = static_cast<uint32_t>(srcValues[index] * scale);
      }
  }
  
  std::vector<size_t> CreateHistogram(const std::vector<size_t> values)
  {
      std::vector<size_t> histogram(values.size(), 0);
  
      for (size_t rank : values)
      {
          ++histogram[rank];
      }
  
      return histogram;
  }
  
  using OverlayWidgetCounts  = angle::PackedEnumMap<WidgetInternalType, uint32_t>;
  using AppendWidgetDataFunc = void (*)(const overlay::Widget *widget,
                                        const gl::Extents &imageExtent,
                                        TextWidgetData *textWidget,
                                        GraphWidgetData *graphWidget,
                                        OverlayWidgetCounts *widgetCounts);
  }  // namespace
  
  namespace overlay_impl
  {
  #define ANGLE_DECLARE_APPEND_WIDGET_PROC(WIDGET_ID)                                              \
      static void Append##WIDGET_ID(const overlay::Widget *widget, const gl::Extents &imageExtent, \
                                    TextWidgetData *textWidget, GraphWidgetData *graphWidget,      \
                                    OverlayWidgetCounts *widgetCounts);
  
  // This class interprets the generic data collected in every element into a human-understandable
  // widget.  This often means generating text specific to this item and scaling graph data to
  // something sensible.
  class AppendWidgetDataHelper
  {
    public:
      ANGLE_WIDGET_ID_X(ANGLE_DECLARE_APPEND_WIDGET_PROC)
  
    private:
      static std::ostream &OutputPerSecond(std::ostream &out, const overlay::PerSecond *perSecond);
  
      static std::ostream &OutputText(std::ostream &out, const overlay::Text *text);
  
      static std::ostream &OutputCount(std::ostream &out, const overlay::Count *count);
  
      static void AppendTextCommon(const overlay::Widget *widget,
                                   const gl::Extents &imageExtent,
                                   const std::string &text,
                                   TextWidgetData *textWidget,
                                   OverlayWidgetCounts *widgetCounts);
  
      using FormatGraphTitleFunc = std::function<std::string(size_t maxValue)>;
      static void AppendRunningGraphCommon(const overlay::Widget *widget,
                                           const gl::Extents &imageExtent,
                                           TextWidgetData *textWidget,
                                           GraphWidgetData *graphWidget,
                                           OverlayWidgetCounts *widgetCounts,
                                           FormatGraphTitleFunc formatFunc);
  
      using FormatHistogramTitleFunc =
          std::function<std::string(size_t peakRange, size_t maxValueRange, size_t numRanges)>;
      static void AppendRunningHistogramCommon(const overlay::Widget *widget,
                                               const gl::Extents &imageExtent,
                                               TextWidgetData *textWidget,
                                               GraphWidgetData *graphWidget,
                                               OverlayWidgetCounts *widgetCounts,
                                               FormatHistogramTitleFunc formatFunc);
  
      static void AppendGraphCommon(const overlay::Widget *widget,
                                    const gl::Extents &imageExtent,
                                    const std::vector<size_t> runningValues,
                                    size_t startIndex,
                                    float scale,
                                    GraphWidgetData *graphWidget,
                                    OverlayWidgetCounts *widgetCounts);
  };
  
  void AppendWidgetDataHelper::AppendTextCommon(const overlay::Widget *widget,
                                                const gl::Extents &imageExtent,
                                                const std::string &text,
                                                TextWidgetData *textWidget,
                                                OverlayWidgetCounts *widgetCounts)
  {
      GetWidgetCoordinates(widget->coords, imageExtent, textWidget->coordinates);
      GetWidgetColor(widget->color, textWidget->color);
      GetTextFontSize(widget->fontSize, textWidget->fontSize);
      GetTextString(text, textWidget->text);
  
      ++(*widgetCounts)[WidgetInternalType::Text];
  }
  
  void AppendWidgetDataHelper::AppendGraphCommon(const overlay::Widget *widget,
                                                 const gl::Extents &imageExtent,
                                                 const std::vector<size_t> runningValues,
                                                 size_t startIndex,
                                                 float scale,
                                                 GraphWidgetData *graphWidget,
                                                 OverlayWidgetCounts *widgetCounts)
  {
      const overlay::RunningGraph *widgetAsGraph = static_cast<const overlay::RunningGraph *>(widget);
  
      GetWidgetCoordinates(widget->coords, imageExtent, graphWidget->coordinates);
      GetWidgetColor(widget->color, graphWidget->color);
      GetGraphValueWidth(widget->coords, widgetAsGraph->runningValues.size(),
                         &graphWidget->valueWidth);
      GetGraphValues(runningValues, startIndex, scale, graphWidget->values);
  
      ++(*widgetCounts)[WidgetInternalType::Graph];
  }
  
  void AppendWidgetDataHelper::AppendRunningGraphCommon(
      const overlay::Widget *widget,
      const gl::Extents &imageExtent,
      TextWidgetData *textWidget,
      GraphWidgetData *graphWidget,
      OverlayWidgetCounts *widgetCounts,
      AppendWidgetDataHelper::FormatGraphTitleFunc formatFunc)
  {
      const overlay::RunningGraph *graph = static_cast<const overlay::RunningGraph *>(widget);
  
      const size_t maxValue =
          *std::max_element(graph->runningValues.begin(), graph->runningValues.end());
      const int32_t graphHeight = std::abs(widget->coords[3] - widget->coords[1]);
      const float graphScale    = static_cast<float>(graphHeight) / maxValue;
  
      AppendGraphCommon(widget, imageExtent, graph->runningValues, graph->lastValueIndex + 1,
                        graphScale, graphWidget, widgetCounts);
  
      if ((*widgetCounts)[WidgetInternalType::Text] <
          kWidgetInternalTypeMaxWidgets[WidgetInternalType::Text])
      {
          std::string text = formatFunc(maxValue);
          AppendTextCommon(&graph->description, imageExtent, text, textWidget, widgetCounts);
      }
  }
  
  // static
  void AppendWidgetDataHelper::AppendRunningHistogramCommon(const overlay::Widget *widget,
                                                            const gl::Extents &imageExtent,
                                                            TextWidgetData *textWidget,
                                                            GraphWidgetData *graphWidget,
                                                            OverlayWidgetCounts *widgetCounts,
                                                            FormatHistogramTitleFunc formatFunc)
  {
      const overlay::RunningHistogram *runningHistogram =
          static_cast<const overlay::RunningHistogram *>(widget);
  
      std::vector<size_t> histogram = CreateHistogram(runningHistogram->runningValues);
      auto peakRangeIt              = std::max_element(histogram.rbegin(), histogram.rend());
      const size_t peakRangeValue   = *peakRangeIt;
      const int32_t graphHeight     = std::abs(widget->coords[3] - widget->coords[1]);
      const float graphScale        = static_cast<float>(graphHeight) / peakRangeValue;
      auto maxValueIter =
          std::find_if(histogram.rbegin(), histogram.rend(), [](size_t value) { return value != 0; });
  
      AppendGraphCommon(widget, imageExtent, histogram, 0, graphScale, graphWidget, widgetCounts);
  
      if ((*widgetCounts)[WidgetInternalType::Text] <
          kWidgetInternalTypeMaxWidgets[WidgetInternalType::Text])
      {
          size_t peakRange     = std::distance(peakRangeIt, histogram.rend() - 1);
          size_t maxValueRange = std::distance(maxValueIter, histogram.rend() - 1);
  
          std::string text = formatFunc(peakRange, maxValueRange, histogram.size());
          AppendTextCommon(&runningHistogram->description, imageExtent, text, textWidget,
                           widgetCounts);
      }
  }
  
  void AppendWidgetDataHelper::AppendFPS(const overlay::Widget *widget,
                                         const gl::Extents &imageExtent,
                                         TextWidgetData *textWidget,
                                         GraphWidgetData *graphWidget,
                                         OverlayWidgetCounts *widgetCounts)
  {
      const overlay::PerSecond *fps = static_cast<const overlay::PerSecond *>(widget);
      std::ostringstream text;
      text << "FPS: ";
      OutputPerSecond(text, fps);
  
      AppendTextCommon(widget, imageExtent, text.str(), textWidget, widgetCounts);
  }
  
  void AppendWidgetDataHelper::AppendVulkanLastValidationMessage(const overlay::Widget *widget,
                                                                 const gl::Extents &imageExtent,
                                                                 TextWidgetData *textWidget,
                                                                 GraphWidgetData *graphWidget,
                                                                 OverlayWidgetCounts *widgetCounts)
  {
      const overlay::Text *lastValidationMessage = static_cast<const overlay::Text *>(widget);
      std::ostringstream text;
      text << "Last VVL Message: ";
      OutputText(text, lastValidationMessage);
  
      AppendTextCommon(widget, imageExtent, text.str(), textWidget, widgetCounts);
  }
  
  void AppendWidgetDataHelper::AppendVulkanValidationMessageCount(const overlay::Widget *widget,
                                                                  const gl::Extents &imageExtent,
                                                                  TextWidgetData *textWidget,
                                                                  GraphWidgetData *graphWidget,
                                                                  OverlayWidgetCounts *widgetCounts)
  {
      const overlay::Count *validationMessageCount = static_cast<const overlay::Count *>(widget);
      std::ostringstream text;
      text << "VVL Message Count: ";
      OutputCount(text, validationMessageCount);
  
      AppendTextCommon(widget, imageExtent, text.str(), textWidget, widgetCounts);
  }
  
  void AppendWidgetDataHelper::AppendVulkanRenderPassCount(const overlay::Widget *widget,
                                                           const gl::Extents &imageExtent,
                                                           TextWidgetData *textWidget,
                                                           GraphWidgetData *graphWidget,
                                                           OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t maxValue) {
          std::ostringstream text;
          text << "RenderPass Count (Max: " << maxValue << ")";
          return text.str();
      };
  
      AppendRunningGraphCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts, format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanSecondaryCommandBufferPoolWaste(
      const overlay::Widget *widget,
      const gl::Extents &imageExtent,
      TextWidgetData *textWidget,
      GraphWidgetData *graphWidget,
      OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t peakRange, size_t maxValueRange, size_t numRanges) {
          std::ostringstream text;
          size_t peakPercent = (peakRange * 100 + 50) / numRanges;
          text << "CB Pool Waste (Peak: " << peakPercent << "%)";
          return text.str();
      };
  
      AppendRunningHistogramCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts,
                                   format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanRenderPassBufferCount(const overlay::Widget *widget,
                                                                 const gl::Extents &imageExtent,
                                                                 TextWidgetData *textWidget,
                                                                 GraphWidgetData *graphWidget,
                                                                 OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t peakRange, size_t maxValueRange, size_t numRanges) {
          std::ostringstream text;
          text << "RP VkBuffers (Peak: " << peakRange << ", Max: " << maxValueRange << ")";
          return text.str();
      };
  
      AppendRunningHistogramCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts,
                                   format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanWriteDescriptorSetCount(const overlay::Widget *widget,
                                                                   const gl::Extents &imageExtent,
                                                                   TextWidgetData *textWidget,
                                                                   GraphWidgetData *graphWidget,
                                                                   OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t maxValue) {
          std::ostringstream text;
          text << "WriteDescriptorSet Count (Max: " << maxValue << ")";
          return text.str();
      };
  
      AppendRunningGraphCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts, format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanDescriptorSetAllocations(const overlay::Widget *widget,
                                                                    const gl::Extents &imageExtent,
                                                                    TextWidgetData *textWidget,
                                                                    GraphWidgetData *graphWidget,
                                                                    OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t maxValue) {
          std::ostringstream text;
          text << "Descriptor Set Allocations (Max: " << maxValue << ")";
          return text.str();
      };
  
      AppendRunningGraphCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts, format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanShaderBufferDSHitRate(const overlay::Widget *widget,
                                                                 const gl::Extents &imageExtent,
                                                                 TextWidgetData *textWidget,
                                                                 GraphWidgetData *graphWidget,
                                                                 OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t maxValue) {
          std::ostringstream text;
          text << "Shader Buffer DS Hit Rate (Max: " << maxValue << "%)";
          return text.str();
      };
  
      AppendRunningGraphCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts, format);
  }
  
  void AppendWidgetDataHelper::AppendVulkanDynamicBufferAllocations(const overlay::Widget *widget,
                                                                    const gl::Extents &imageExtent,
                                                                    TextWidgetData *textWidget,
                                                                    GraphWidgetData *graphWidget,
                                                                    OverlayWidgetCounts *widgetCounts)
  {
      auto format = [](size_t maxValue) {
          std::ostringstream text;
          text << "DynamicBuffer Allocations (Max: " << maxValue << ")";
          return text.str();
      };
  
      AppendRunningGraphCommon(widget, imageExtent, textWidget, graphWidget, widgetCounts, format);
  }
  
  std::ostream &AppendWidgetDataHelper::OutputPerSecond(std::ostream &out,
                                                        const overlay::PerSecond *perSecond)
  {
      return out << perSecond->lastPerSecondCount;
  }
  
  std::ostream &AppendWidgetDataHelper::OutputText(std::ostream &out, const overlay::Text *text)
  {
      return out << text->text;
  }
  
  std::ostream &AppendWidgetDataHelper::OutputCount(std::ostream &out, const overlay::Count *count)
  {
      return out << count->count;
  }
  }  // namespace overlay_impl
  
  namespace
  {
  #define ANGLE_APPEND_WIDGET_MAP_PROC(WIDGET_ID) \
      {WidgetId::WIDGET_ID, overlay_impl::AppendWidgetDataHelper::Append##WIDGET_ID},
  
  constexpr angle::PackedEnumMap<WidgetId, AppendWidgetDataFunc> kWidgetIdToAppendDataFuncMap = {
      ANGLE_WIDGET_ID_X(ANGLE_APPEND_WIDGET_MAP_PROC)};
  }  // namespace
  
  namespace overlay
  {
  RunningGraph::RunningGraph(size_t n) : runningValues(n, 0) {}
  RunningGraph::~RunningGraph() = default;
  }  // namespace overlay
  
  size_t OverlayState::getWidgetCoordinatesBufferSize() const
  {
      return sizeof(WidgetCoordinates);
  }
  
  size_t OverlayState::getTextWidgetsBufferSize() const
  {
      return sizeof(TextWidgets);
  }
  
  size_t OverlayState::getGraphWidgetsBufferSize() const
  {
      return sizeof(GraphWidgets);
  }
  
  void OverlayState::fillWidgetData(const gl::Extents &imageExtents,
                                    uint8_t *textData,
                                    uint8_t *graphData,
                                    uint32_t *activeTextWidgetCountOut,
                                    uint32_t *activeGraphWidgetCountOut) const
  {
      TextWidgets *textWidgets   = reinterpret_cast<TextWidgets *>(textData);
      GraphWidgets *graphWidgets = reinterpret_cast<GraphWidgets *>(graphData);
  
      memset(textWidgets, overlay::kFontCharacters, sizeof(*textWidgets));
      memset(graphWidgets, 0, sizeof(*graphWidgets));
  
      OverlayWidgetCounts widgetCounts = {};
  
      for (WidgetId id : angle::AllEnums<WidgetId>())
      {
          const std::unique_ptr<overlay::Widget> &widget = mOverlayWidgets[id];
          if (!widget->enabled)
          {
              continue;
          }
  
          WidgetInternalType internalType = kWidgetTypeToInternalMap[widget->type];
          ASSERT(internalType != WidgetInternalType::InvalidEnum);
  
          if (widgetCounts[internalType] >= kWidgetInternalTypeMaxWidgets[internalType])
          {
              continue;
          }
  
          AppendWidgetDataFunc appendFunc = kWidgetIdToAppendDataFuncMap[id];
          ASSERT(appendFunc);
          appendFunc(widget.get(), imageExtents,
                     &textWidgets->widgets[widgetCounts[WidgetInternalType::Text]],
                     &graphWidgets->widgets[widgetCounts[WidgetInternalType::Graph]], &widgetCounts);
      }
  
      *activeTextWidgetCountOut  = widgetCounts[WidgetInternalType::Text];
      *activeGraphWidgetCountOut = widgetCounts[WidgetInternalType::Graph];
  }
  
  }  // namespace gl
  

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