// Copyright 2016 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.

// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com

#include "xfa/fxfa/parser/cxfa_box.h"

#include <algorithm>
#include <utility>

#include "xfa/fxfa/parser/cxfa_corner.h"
#include "xfa/fxfa/parser/cxfa_edge.h"
#include "xfa/fxfa/parser/cxfa_fill.h"
#include "xfa/fxfa/parser/cxfa_margin.h"
#include "xfa/fxfa/parser/cxfa_measurement.h"
#include "xfa/fxfa/parser/cxfa_node.h"
#include "xfa/fxgraphics/cxfa_gepath.h"
#include "xfa/fxgraphics/cxfa_gepattern.h"
#include "xfa/fxgraphics/cxfa_geshading.h"
#include "xfa/fxgraphics/cxfa_graphics.h"

namespace {

std::pair<XFA_AttributeEnum, CXFA_Stroke*> Style3D(
    const std::vector<CXFA_Stroke*>& strokes) {
  if (strokes.empty())
    return {XFA_AttributeEnum::Unknown, nullptr};

  CXFA_Stroke* stroke = strokes[0];
  for (size_t i = 1; i < strokes.size(); i++) {
    CXFA_Stroke* find = strokes[i];
    if (!find)
      continue;
    if (!stroke)
      stroke = find;
    else if (stroke->GetStrokeType() != find->GetStrokeType())
      stroke = find;
    break;
  }

  XFA_AttributeEnum iType = stroke->GetStrokeType();
  if (iType == XFA_AttributeEnum::Lowered ||
      iType == XFA_AttributeEnum::Raised ||
      iType == XFA_AttributeEnum::Etched ||
      iType == XFA_AttributeEnum::Embossed) {
    return {iType, stroke};
  }
  return {XFA_AttributeEnum::Unknown, stroke};
}

void XFA_BOX_GetPath_Arc(CXFA_Box* box,
                         CFX_RectF rtDraw,
                         CXFA_GEPath& fillPath,
                         bool forceRound) {
  float a, b;
  a = rtDraw.width / 2.0f;
  b = rtDraw.height / 2.0f;
  if (box->IsCircular() || forceRound)
    a = b = std::min(a, b);

  CFX_PointF center = rtDraw.Center();
  rtDraw.left = center.x - a;
  rtDraw.top = center.y - b;
  rtDraw.width = a + a;
  rtDraw.height = b + b;
  Optional<int32_t> startAngle = box->GetStartAngle();
  Optional<int32_t> sweepAngle = box->GetSweepAngle();
  if (!startAngle && !sweepAngle) {
    fillPath.AddEllipse(rtDraw);
    return;
  }

  fillPath.AddArc(rtDraw.TopLeft(), rtDraw.Size(),
                  -startAngle.value_or(0) * FX_PI / 180.0f,
                  -sweepAngle.value_or(360) * FX_PI / 180.0f);
}

void XFA_BOX_GetPath(const std::vector<CXFA_Stroke*>& strokes,
                     CFX_RectF rtWidget,
                     CXFA_GEPath& path,
                     int32_t nIndex,
                     bool bStart,
                     bool bCorner) {
  ASSERT(nIndex >= 0 && nIndex < 8);

  int32_t n = (nIndex & 1) ? nIndex - 1 : nIndex;
  auto* corner1 = static_cast<CXFA_Corner*>(strokes[n]);
  auto* corner2 = static_cast<CXFA_Corner*>(strokes[(n + 2) % 8]);
  float fRadius1 = bCorner ? corner1->GetRadius() : 0.0f;
  float fRadius2 = bCorner ? corner2->GetRadius() : 0.0f;
  bool bInverted = corner1->IsInverted();
  float offsetY = 0.0f;
  float offsetX = 0.0f;
  bool bRound = corner1->GetJoinType() == XFA_AttributeEnum::Round;
  float halfAfter = 0.0f;
  float halfBefore = 0.0f;

  CXFA_Stroke* stroke = strokes[nIndex];
  if (stroke->IsCorner()) {
    CXFA_Stroke* strokeBefore = strokes[(nIndex + 1 * 8 - 1) % 8];
    CXFA_Stroke* strokeAfter = strokes[nIndex + 1];
    if (stroke->IsInverted()) {
      if (!stroke->SameStyles(strokeBefore, 0))
        halfBefore = strokeBefore->GetThickness() / 2;
      if (!stroke->SameStyles(strokeAfter, 0))
        halfAfter = strokeAfter->GetThickness() / 2;
    }
  } else {
    CXFA_Stroke* strokeBefore = strokes[(nIndex + 8 - 2) % 8];
    CXFA_Stroke* strokeAfter = strokes[(nIndex + 2) % 8];
    if (!bRound && !bInverted) {
      halfBefore = strokeBefore->GetThickness() / 2;
      halfAfter = strokeAfter->GetThickness() / 2;
    }
  }

  float offsetEX = 0.0f;
  float offsetEY = 0.0f;
  float sx = 0.0f;
  float sy = 0.0f;
  float vx = 1.0f;
  float vy = 1.0f;
  float nx = 1.0f;
  float ny = 1.0f;
  CFX_PointF cpStart;
  CFX_PointF cp1;
  CFX_PointF cp2;
  if (bRound) {
    sy = FX_PI / 2;
  }
  switch (nIndex) {
    case 0:
    case 1:
      cp1 = rtWidget.TopLeft();
      cp2 = rtWidget.TopRight();
      if (nIndex == 0) {
        cpStart.x = cp1.x - halfBefore;
        cpStart.y = cp1.y + fRadius1, offsetY = -halfAfter;
      } else {
        cpStart.x = cp1.x + fRadius1 - halfBefore, cpStart.y = cp1.y,
        offsetEX = halfAfter;
      }
      vx = 1, vy = 1;
      nx = -1, ny = 0;
      if (bRound) {
        sx = bInverted ? FX_PI / 2 : FX_PI;
      } else {
        sx = 1, sy = 0;
      }
      break;
    case 2:
    case 3:
      cp1 = rtWidget.TopRight();
      cp2 = rtWidget.BottomRight();
      if (nIndex == 2) {
        cpStart.x = cp1.x - fRadius1, cpStart.y = cp1.y - halfBefore,
        offsetX = halfAfter;
      } else {
        cpStart.x = cp1.x, cpStart.y = cp1.y + fRadius1 - halfBefore,
        offsetEY = halfAfter;
      }
      vx = -1, vy = 1;
      nx = 0, ny = -1;
      if (bRound) {
        sx = bInverted ? FX_PI : FX_PI * 3 / 2;
      } else {
        sx = 0, sy = 1;
      }
      break;
    case 4:
    case 5:
      cp1 = rtWidget.BottomRight();
      cp2 = rtWidget.BottomLeft();
      if (nIndex == 4) {
        cpStart.x = cp1.x + halfBefore, cpStart.y = cp1.y - fRadius1,
        offsetY = halfAfter;
      } else {
        cpStart.x = cp1.x - fRadius1 + halfBefore, cpStart.y = cp1.y,
        offsetEX = -halfAfter;
      }
      vx = -1, vy = -1;
      nx = 1, ny = 0;
      if (bRound) {
        sx = bInverted ? FX_PI * 3 / 2 : 0;
      } else {
        sx = -1, sy = 0;
      }
      break;
    case 6:
    case 7:
      cp1 = rtWidget.BottomLeft();
      cp2 = rtWidget.TopLeft();
      if (nIndex == 6) {
        cpStart.x = cp1.x + fRadius1, cpStart.y = cp1.y + halfBefore,
        offsetX = -halfAfter;
      } else {
        cpStart.x = cp1.x, cpStart.y = cp1.y - fRadius1 + halfBefore,
        offsetEY = -halfAfter;
      }
      vx = 1;
      vy = -1;
      nx = 0;
      ny = 1;
      if (bRound) {
        sx = bInverted ? 0 : FX_PI / 2;
      } else {
        sx = 0;
        sy = -1;
      }
      break;
  }
  if (bStart) {
    path.MoveTo(cpStart);
  }
  if (nIndex & 1) {
    path.LineTo(CFX_PointF(cp2.x + fRadius2 * nx + offsetEX,
                           cp2.y + fRadius2 * ny + offsetEY));
    return;
  }
  if (bRound) {
    if (fRadius1 < 0)
      sx -= FX_PI;
    if (bInverted)
      sy *= -1;

    CFX_RectF rtRadius(cp1.x + offsetX * 2, cp1.y + offsetY * 2,
                       fRadius1 * 2 * vx - offsetX * 2,
                       fRadius1 * 2 * vy - offsetY * 2);
    rtRadius.Normalize();
    if (bInverted)
      rtRadius.Offset(-fRadius1 * vx, -fRadius1 * vy);

    path.ArcTo(rtRadius.TopLeft(), rtRadius.Size(), sx, sy);
  } else {
    CFX_PointF cp;
    if (bInverted) {
      cp.x = cp1.x + fRadius1 * vx;
      cp.y = cp1.y + fRadius1 * vy;
    } else {
      cp = cp1;
    }
    path.LineTo(cp);
    path.LineTo(CFX_PointF(cp1.x + fRadius1 * sx + offsetX,
                           cp1.y + fRadius1 * sy + offsetY));
  }
}

void XFA_BOX_GetFillPath(CXFA_Box* box,
                         const std::vector<CXFA_Stroke*>& strokes,
                         CFX_RectF rtWidget,
                         CXFA_GEPath& fillPath,
                         bool forceRound) {
  if (box->IsArc() || forceRound) {
    CXFA_Edge* edge = box->GetEdgeIfExists(0);
    float fThickness = std::fmax(0.0, edge ? edge->GetThickness() : 0);
    float fHalf = fThickness / 2;
    XFA_AttributeEnum iHand = box->GetHand();
    if (iHand == XFA_AttributeEnum::Left)
      rtWidget.Inflate(fHalf, fHalf);
    else if (iHand == XFA_AttributeEnum::Right)
      rtWidget.Deflate(fHalf, fHalf);

    XFA_BOX_GetPath_Arc(box, rtWidget, fillPath, forceRound);
    return;
  }

  bool bSameStyles = true;
  CXFA_Stroke* stroke1 = strokes[0];
  for (int32_t i = 1; i < 8; i++) {
    CXFA_Stroke* stroke2 = strokes[i];
    if (!stroke1->SameStyles(stroke2, 0)) {
      bSameStyles = false;
      break;
    }
    stroke1 = stroke2;
  }
  if (bSameStyles) {
    stroke1 = strokes[0];
    for (int32_t i = 2; i < 8; i += 2) {
      CXFA_Stroke* stroke2 = strokes[i];
      if (!stroke1->SameStyles(stroke2, XFA_STROKE_SAMESTYLE_NoPresence |
                                            XFA_STROKE_SAMESTYLE_Corner)) {
        bSameStyles = false;
        break;
      }
      stroke1 = stroke2;
    }
    if (bSameStyles) {
      stroke1 = strokes[0];
      if (stroke1->IsInverted())
        bSameStyles = false;
      if (stroke1->GetJoinType() != XFA_AttributeEnum::Square)
        bSameStyles = false;
    }
  }
  if (bSameStyles) {
    fillPath.AddRectangle(rtWidget.left, rtWidget.top, rtWidget.width,
                          rtWidget.height);
    return;
  }

  for (int32_t i = 0; i < 8; i += 2) {
    float sx = 0.0f;
    float sy = 0.0f;
    float vx = 1.0f;
    float vy = 1.0f;
    float nx = 1.0f;
    float ny = 1.0f;
    CFX_PointF cp1, cp2;
    auto* corner1 = static_cast<CXFA_Corner*>(strokes[i]);
    auto* corner2 = static_cast<CXFA_Corner*>(strokes[(i + 2) % 8]);
    float fRadius1 = corner1->GetRadius();
    float fRadius2 = corner2->GetRadius();
    bool bInverted = corner1->IsInverted();
    bool bRound = corner1->GetJoinType() == XFA_AttributeEnum::Round;
    if (bRound) {
      sy = FX_PI / 2;
    }
    switch (i) {
      case 0:
        cp1 = rtWidget.TopLeft();
        cp2 = rtWidget.TopRight();
        vx = 1, vy = 1;
        nx = -1, ny = 0;
        if (bRound) {
          sx = bInverted ? FX_PI / 2 : FX_PI;
        } else {
          sx = 1, sy = 0;
        }
        break;
      case 2:
        cp1 = rtWidget.TopRight();
        cp2 = rtWidget.BottomRight();
        vx = -1, vy = 1;
        nx = 0, ny = -1;
        if (bRound) {
          sx = bInverted ? FX_PI : FX_PI * 3 / 2;
        } else {
          sx = 0, sy = 1;
        }
        break;
      case 4:
        cp1 = rtWidget.BottomRight();
        cp2 = rtWidget.BottomLeft();
        vx = -1, vy = -1;
        nx = 1, ny = 0;
        if (bRound) {
          sx = bInverted ? FX_PI * 3 / 2 : 0;
        } else {
          sx = -1, sy = 0;
        }
        break;
      case 6:
        cp1 = rtWidget.BottomLeft();
        cp2 = rtWidget.TopLeft();
        vx = 1, vy = -1;
        nx = 0, ny = 1;
        if (bRound) {
          sx = bInverted ? 0 : FX_PI / 2;
        } else {
          sx = 0;
          sy = -1;
        }
        break;
    }
    if (i == 0)
      fillPath.MoveTo(CFX_PointF(cp1.x, cp1.y + fRadius1));

    if (bRound) {
      if (fRadius1 < 0)
        sx -= FX_PI;
      if (bInverted)
        sy *= -1;

      CFX_RectF rtRadius(cp1.x, cp1.y, fRadius1 * 2 * vx, fRadius1 * 2 * vy);
      rtRadius.Normalize();
      if (bInverted)
        rtRadius.Offset(-fRadius1 * vx, -fRadius1 * vy);

      fillPath.ArcTo(rtRadius.TopLeft(), rtRadius.Size(), sx, sy);
    } else {
      CFX_PointF cp;
      if (bInverted) {
        cp.x = cp1.x + fRadius1 * vx;
        cp.y = cp1.y + fRadius1 * vy;
      } else {
        cp = cp1;
      }
      fillPath.LineTo(cp);
      fillPath.LineTo(CFX_PointF(cp1.x + fRadius1 * sx, cp1.y + fRadius1 * sy));
    }
    fillPath.LineTo(CFX_PointF(cp2.x + fRadius2 * nx, cp2.y + fRadius2 * ny));
  }
}

void XFA_BOX_Fill_Radial(CXFA_Fill* fill,
                         CXFA_Graphics* pGS,
                         CXFA_GEPath& fillPath,
                         CFX_RectF rtFill,
                         const CFX_Matrix& matrix) {
  ASSERT(fill);

  FX_ARGB crStart = fill->GetColor(false);
  FX_ARGB crEnd = fill->GetRadialColor();
  if (!fill->IsRadialToEdge())
    std::swap(crStart, crEnd);

  CXFA_GEShading shading(rtFill.Center(), rtFill.Center(), 0,
                         sqrt(rtFill.Width() * rtFill.Width() +
                              rtFill.Height() * rtFill.Height()) /
                             2,
                         true, true, crStart, crEnd);
  pGS->SetFillColor(CXFA_GEColor(&shading));
  pGS->FillPath(&fillPath, FXFILL_WINDING, &matrix);
}

void XFA_BOX_Fill_Pattern(CXFA_Fill* fill,
                          CXFA_Graphics* pGS,
                          CXFA_GEPath& fillPath,
                          CFX_RectF rtFill,
                          const CFX_Matrix& matrix) {
  ASSERT(fill);

  FX_ARGB crStart = fill->GetColor(false);
  FX_ARGB crEnd = fill->GetPatternColor();
  FX_HatchStyle iHatch = FX_HatchStyle::Cross;
  switch (fill->GetPatternType()) {
    case XFA_AttributeEnum::CrossDiagonal:
      iHatch = FX_HatchStyle::DiagonalCross;
      break;
    case XFA_AttributeEnum::DiagonalLeft:
      iHatch = FX_HatchStyle::ForwardDiagonal;
      break;
    case XFA_AttributeEnum::DiagonalRight:
      iHatch = FX_HatchStyle::BackwardDiagonal;
      break;
    case XFA_AttributeEnum::Horizontal:
      iHatch = FX_HatchStyle::Horizontal;
      break;
    case XFA_AttributeEnum::Vertical:
      iHatch = FX_HatchStyle::Vertical;
      break;
    default:
      break;
  }

  CXFA_GEPattern pattern(iHatch, crEnd, crStart);
  pGS->SetFillColor(CXFA_GEColor(&pattern, 0x0));
  pGS->FillPath(&fillPath, FXFILL_WINDING, &matrix);
}

void XFA_BOX_Fill_Linear(CXFA_Fill* fill,
                         CXFA_Graphics* pGS,
                         CXFA_GEPath& fillPath,
                         CFX_RectF rtFill,
                         const CFX_Matrix& matrix) {
  ASSERT(fill);

  FX_ARGB crStart = fill->GetColor(false);
  FX_ARGB crEnd = fill->GetLinearColor();

  CFX_PointF ptStart;
  CFX_PointF ptEnd;
  switch (fill->GetLinearType()) {
    case XFA_AttributeEnum::ToRight:
      ptStart = CFX_PointF(rtFill.left, rtFill.top);
      ptEnd = CFX_PointF(rtFill.right(), rtFill.top);
      break;
    case XFA_AttributeEnum::ToBottom:
      ptStart = CFX_PointF(rtFill.left, rtFill.top);
      ptEnd = CFX_PointF(rtFill.left, rtFill.bottom());
      break;
    case XFA_AttributeEnum::ToLeft:
      ptStart = CFX_PointF(rtFill.right(), rtFill.top);
      ptEnd = CFX_PointF(rtFill.left, rtFill.top);
      break;
    case XFA_AttributeEnum::ToTop:
      ptStart = CFX_PointF(rtFill.left, rtFill.bottom());
      ptEnd = CFX_PointF(rtFill.left, rtFill.top);
      break;
    default:
      break;
  }

  CXFA_GEShading shading(ptStart, ptEnd, false, false, crStart, crEnd);
  pGS->SetFillColor(CXFA_GEColor(&shading));
  pGS->FillPath(&fillPath, FXFILL_WINDING, &matrix);
}

void XFA_BOX_Fill(CXFA_Box* box,
                  const std::vector<CXFA_Stroke*>& strokes,
                  CXFA_Graphics* pGS,
                  const CFX_RectF& rtWidget,
                  const CFX_Matrix& matrix,
                  bool forceRound) {
  CXFA_Fill* fill = box->GetFillIfExists();
  if (!fill || !fill->IsVisible())
    return;

  pGS->SaveGraphState();
  CXFA_GEPath fillPath;
  XFA_BOX_GetFillPath(box, strokes, rtWidget, fillPath, forceRound);
  fillPath.Close();
  XFA_Element eType = fill->GetFillType();
  switch (eType) {
    case XFA_Element::Radial:
      XFA_BOX_Fill_Radial(fill, pGS, fillPath, rtWidget, matrix);
      break;
    case XFA_Element::Pattern:
      XFA_BOX_Fill_Pattern(fill, pGS, fillPath, rtWidget, matrix);
      break;
    case XFA_Element::Linear:
      XFA_BOX_Fill_Linear(fill, pGS, fillPath, rtWidget, matrix);
      break;
    default: {
      FX_ARGB cr;
      if (eType == XFA_Element::Stipple) {
        int32_t iRate = fill->GetStippleRate();
        if (iRate == 0)
          iRate = 100;

        int32_t a;
        FX_COLORREF rgb;
        std::tie(a, rgb) = ArgbToColorRef(fill->GetStippleColor());
        cr = ArgbEncode(iRate * a / 100, rgb);
      } else {
        cr = fill->GetColor(false);
      }
      pGS->SetFillColor(CXFA_GEColor(cr));
      pGS->FillPath(&fillPath, FXFILL_WINDING, &matrix);
    } break;
  }
  pGS->RestoreGraphState();
}

void XFA_BOX_StrokeArc(CXFA_Box* box,
                       CXFA_Graphics* pGS,
                       CFX_RectF rtWidget,
                       const CFX_Matrix& matrix,
                       bool forceRound) {
  CXFA_Edge* edge = box->GetEdgeIfExists(0);
  if (!edge || !edge->IsVisible())
    return;

  bool bVisible;
  float fThickness;
  XFA_AttributeEnum i3DType;
  std::tie(i3DType, bVisible, fThickness) = box->Get3DStyle();
  bool lowered3d = false;
  if (i3DType != XFA_AttributeEnum::Unknown) {
    if (bVisible && fThickness >= 0.001f)
      lowered3d = true;
  }

  float fHalf = edge->GetThickness() / 2;
  if (fHalf < 0) {
    fHalf = 0;
  }

  XFA_AttributeEnum iHand = box->GetHand();
  if (iHand == XFA_AttributeEnum::Left) {
    rtWidget.Inflate(fHalf, fHalf);
  } else if (iHand == XFA_AttributeEnum::Right) {
    rtWidget.Deflate(fHalf, fHalf);
  }
  if (!forceRound || !lowered3d) {
    if (fHalf < 0.001f)
      return;

    CXFA_GEPath arcPath;
    XFA_BOX_GetPath_Arc(box, rtWidget, arcPath, forceRound);
    if (edge)
      edge->Stroke(&arcPath, pGS, matrix);
    return;
  }
  pGS->SaveGraphState();
  pGS->SetLineWidth(fHalf);

  float a, b;
  a = rtWidget.width / 2.0f;
  b = rtWidget.height / 2.0f;
  if (forceRound) {
    a = std::min(a, b);
    b = a;
  }

  CFX_PointF center = rtWidget.Center();
  rtWidget.left = center.x - a;
  rtWidget.top = center.y - b;
  rtWidget.width = a + a;
  rtWidget.height = b + b;

  float startAngle = 0, sweepAngle = 360;
  startAngle = startAngle * FX_PI / 180.0f;
  sweepAngle = -sweepAngle * FX_PI / 180.0f;

  CXFA_GEPath arcPath;
  arcPath.AddArc(rtWidget.TopLeft(), rtWidget.Size(), 3.0f * FX_PI / 4.0f,
                 FX_PI);

  pGS->SetStrokeColor(CXFA_GEColor(0xFF808080));
  pGS->StrokePath(&arcPath, &matrix);
  arcPath.Clear();
  arcPath.AddArc(rtWidget.TopLeft(), rtWidget.Size(), -1.0f * FX_PI / 4.0f,
                 FX_PI);

  pGS->SetStrokeColor(CXFA_GEColor(0xFFFFFFFF));
  pGS->StrokePath(&arcPath, &matrix);
  rtWidget.Deflate(fHalf, fHalf);
  arcPath.Clear();
  arcPath.AddArc(rtWidget.TopLeft(), rtWidget.Size(), 3.0f * FX_PI / 4.0f,
                 FX_PI);

  pGS->SetStrokeColor(CXFA_GEColor(0xFF404040));
  pGS->StrokePath(&arcPath, &matrix);
  arcPath.Clear();
  arcPath.AddArc(rtWidget.TopLeft(), rtWidget.Size(), -1.0f * FX_PI / 4.0f,
                 FX_PI);

  pGS->SetStrokeColor(CXFA_GEColor(0xFFC0C0C0));
  pGS->StrokePath(&arcPath, &matrix);
  pGS->RestoreGraphState();
}

void XFA_Draw3DRect(CXFA_Graphics* pGraphic,
                    const CFX_RectF& rt,
                    float fLineWidth,
                    const CFX_Matrix& matrix,
                    FX_ARGB argbTopLeft,
                    FX_ARGB argbBottomRight) {
  float fBottom = rt.bottom();
  float fRight = rt.right();
  CXFA_GEPath pathLT;
  pathLT.MoveTo(CFX_PointF(rt.left, fBottom));
  pathLT.LineTo(CFX_PointF(rt.left, rt.top));
  pathLT.LineTo(CFX_PointF(fRight, rt.top));
  pathLT.LineTo(CFX_PointF(fRight - fLineWidth, rt.top + fLineWidth));
  pathLT.LineTo(CFX_PointF(rt.left + fLineWidth, rt.top + fLineWidth));
  pathLT.LineTo(CFX_PointF(rt.left + fLineWidth, fBottom - fLineWidth));
  pathLT.LineTo(CFX_PointF(rt.left, fBottom));
  pGraphic->SetFillColor(CXFA_GEColor(argbTopLeft));
  pGraphic->FillPath(&pathLT, FXFILL_WINDING, &matrix);

  CXFA_GEPath pathRB;
  pathRB.MoveTo(CFX_PointF(fRight, rt.top));
  pathRB.LineTo(CFX_PointF(fRight, fBottom));
  pathRB.LineTo(CFX_PointF(rt.left, fBottom));
  pathRB.LineTo(CFX_PointF(rt.left + fLineWidth, fBottom - fLineWidth));
  pathRB.LineTo(CFX_PointF(fRight - fLineWidth, fBottom - fLineWidth));
  pathRB.LineTo(CFX_PointF(fRight - fLineWidth, rt.top + fLineWidth));
  pathRB.LineTo(CFX_PointF(fRight, rt.top));
  pGraphic->SetFillColor(CXFA_GEColor(argbBottomRight));
  pGraphic->FillPath(&pathRB, FXFILL_WINDING, &matrix);
}

void XFA_BOX_Stroke_3DRect_Lowered(CXFA_Graphics* pGS,
                                   CFX_RectF rt,
                                   float fThickness,
                                   const CFX_Matrix& matrix) {
  float fHalfWidth = fThickness / 2.0f;
  CFX_RectF rtInner(rt);
  rtInner.Deflate(fHalfWidth, fHalfWidth);

  CXFA_GEPath path;
  path.AddRectangle(rt.left, rt.top, rt.width, rt.height);
  path.AddRectangle(rtInner.left, rtInner.top, rtInner.width, rtInner.height);
  pGS->SetFillColor(CXFA_GEColor(0xFF000000));
  pGS->FillPath(&path, FXFILL_ALTERNATE, &matrix);
  XFA_Draw3DRect(pGS, rtInner, fHalfWidth, matrix, 0xFF808080, 0xFFC0C0C0);
}

void XFA_BOX_Stroke_3DRect_Raised(CXFA_Graphics* pGS,
                                  CFX_RectF rt,
                                  float fThickness,
                                  const CFX_Matrix& matrix) {
  float fHalfWidth = fThickness / 2.0f;
  CFX_RectF rtInner(rt);
  rtInner.Deflate(fHalfWidth, fHalfWidth);

  CXFA_GEPath path;
  path.AddRectangle(rt.left, rt.top, rt.width, rt.height);
  path.AddRectangle(rtInner.left, rtInner.top, rtInner.width, rtInner.height);
  pGS->SetFillColor(CXFA_GEColor(0xFF000000));
  pGS->FillPath(&path, FXFILL_ALTERNATE, &matrix);
  XFA_Draw3DRect(pGS, rtInner, fHalfWidth, matrix, 0xFFFFFFFF, 0xFF808080);
}

void XFA_BOX_Stroke_3DRect_Etched(CXFA_Graphics* pGS,
                                  CFX_RectF rt,
                                  float fThickness,
                                  const CFX_Matrix& matrix) {
  float fHalfWidth = fThickness / 2.0f;
  XFA_Draw3DRect(pGS, rt, fThickness, matrix, 0xFF808080, 0xFFFFFFFF);
  CFX_RectF rtInner(rt);
  rtInner.Deflate(fHalfWidth, fHalfWidth);
  XFA_Draw3DRect(pGS, rtInner, fHalfWidth, matrix, 0xFFFFFFFF, 0xFF808080);
}

void XFA_BOX_Stroke_3DRect_Embossed(CXFA_Graphics* pGS,
                                    CFX_RectF rt,
                                    float fThickness,
                                    const CFX_Matrix& matrix) {
  float fHalfWidth = fThickness / 2.0f;
  XFA_Draw3DRect(pGS, rt, fThickness, matrix, 0xFF808080, 0xFF000000);
  CFX_RectF rtInner(rt);
  rtInner.Deflate(fHalfWidth, fHalfWidth);
  XFA_Draw3DRect(pGS, rtInner, fHalfWidth, matrix, 0xFF000000, 0xFF808080);
}

void XFA_BOX_Stroke_Rect(CXFA_Box* box,
                         const std::vector<CXFA_Stroke*>& strokes,
                         CXFA_Graphics* pGS,
                         CFX_RectF rtWidget,
                         const CFX_Matrix& matrix) {
  bool bVisible;
  float fThickness;
  XFA_AttributeEnum i3DType;
  std::tie(i3DType, bVisible, fThickness) = box->Get3DStyle();
  if (i3DType != XFA_AttributeEnum::Unknown) {
    if (!bVisible || fThickness < 0.001f) {
      return;
    }
    switch (i3DType) {
      case XFA_AttributeEnum::Lowered:
        XFA_BOX_Stroke_3DRect_Lowered(pGS, rtWidget, fThickness, matrix);
        break;
      case XFA_AttributeEnum::Raised:
        XFA_BOX_Stroke_3DRect_Raised(pGS, rtWidget, fThickness, matrix);
        break;
      case XFA_AttributeEnum::Etched:
        XFA_BOX_Stroke_3DRect_Etched(pGS, rtWidget, fThickness, matrix);
        break;
      case XFA_AttributeEnum::Embossed:
        XFA_BOX_Stroke_3DRect_Embossed(pGS, rtWidget, fThickness, matrix);
        break;
      default:
        NOTREACHED();
        break;
    }
    return;
  }
  bool bClose = false;
  bool bSameStyles = true;
  CXFA_Stroke* stroke1 = strokes[0];
  for (int32_t i = 1; i < 8; i++) {
    CXFA_Stroke* stroke2 = strokes[i];
    if (!stroke1->SameStyles(stroke2, 0)) {
      bSameStyles = false;
      break;
    }
    stroke1 = stroke2;
  }
  if (bSameStyles) {
    stroke1 = strokes[0];
    bClose = true;
    for (int32_t i = 2; i < 8; i += 2) {
      CXFA_Stroke* stroke2 = strokes[i];
      if (!stroke1->SameStyles(stroke2, XFA_STROKE_SAMESTYLE_NoPresence |
                                            XFA_STROKE_SAMESTYLE_Corner)) {
        bSameStyles = false;
        break;
      }
      stroke1 = stroke2;
    }
    if (bSameStyles) {
      stroke1 = strokes[0];
      if (stroke1->IsInverted())
        bSameStyles = false;
      if (stroke1->GetJoinType() != XFA_AttributeEnum::Square)
        bSameStyles = false;
    }
  }
  bool bStart = true;
  CXFA_GEPath path;
  for (int32_t i = 0; i < 8; i++) {
    CXFA_Stroke* stroke = strokes[i];
    if ((i % 1) == 0 && stroke->GetRadius() < 0) {
      bool bEmpty = path.IsEmpty();
      if (!bEmpty) {
        if (stroke)
          stroke->Stroke(&path, pGS, matrix);
        path.Clear();
      }
      bStart = true;
      continue;
    }
    XFA_BOX_GetPath(strokes, rtWidget, path, i, bStart, !bSameStyles);

    bStart = !stroke->SameStyles(strokes[(i + 1) % 8], 0);
    if (bStart) {
      if (stroke)
        stroke->Stroke(&path, pGS, matrix);
      path.Clear();
    }
  }
  bool bEmpty = path.IsEmpty();
  if (!bEmpty) {
    if (bClose) {
      path.Close();
    }
    if (strokes[7])
      strokes[7]->Stroke(&path, pGS, matrix);
  }
}

void XFA_BOX_Stroke(CXFA_Box* box,
                    const std::vector<CXFA_Stroke*>& strokes,
                    CXFA_Graphics* pGS,
                    CFX_RectF rtWidget,
                    const CFX_Matrix& matrix,
                    bool forceRound) {
  if (box->IsArc() || forceRound) {
    XFA_BOX_StrokeArc(box, pGS, rtWidget, matrix, forceRound);
    return;
  }

  bool bVisible = false;
  for (int32_t j = 0; j < 4; j++) {
    if (strokes[j * 2 + 1]->IsVisible()) {
      bVisible = true;
      break;
    }
  }
  if (!bVisible)
    return;

  for (int32_t i = 1; i < 8; i += 2) {
    float fThickness = std::fmax(0.0, strokes[i]->GetThickness());
    float fHalf = fThickness / 2;
    XFA_AttributeEnum iHand = box->GetHand();
    switch (i) {
      case 1:
        if (iHand == XFA_AttributeEnum::Left) {
          rtWidget.top -= fHalf;
          rtWidget.height += fHalf;
        } else if (iHand == XFA_AttributeEnum::Right) {
          rtWidget.top += fHalf;
          rtWidget.height -= fHalf;
        }
        break;
      case 3:
        if (iHand == XFA_AttributeEnum::Left) {
          rtWidget.width += fHalf;
        } else if (iHand == XFA_AttributeEnum::Right) {
          rtWidget.width -= fHalf;
        }
        break;
      case 5:
        if (iHand == XFA_AttributeEnum::Left) {
          rtWidget.height += fHalf;
        } else if (iHand == XFA_AttributeEnum::Right) {
          rtWidget.height -= fHalf;
        }
        break;
      case 7:
        if (iHand == XFA_AttributeEnum::Left) {
          rtWidget.left -= fHalf;
          rtWidget.width += fHalf;
        } else if (iHand == XFA_AttributeEnum::Right) {
          rtWidget.left += fHalf;
          rtWidget.width -= fHalf;
        }
        break;
    }
  }
  XFA_BOX_Stroke_Rect(box, strokes, pGS, rtWidget, matrix);
}

}  // namespace

CXFA_Box::CXFA_Box(CXFA_Document* pDoc,
                   XFA_PacketType ePacket,
                   uint32_t validPackets,
                   XFA_ObjectType oType,
                   XFA_Element eType,
                   const PropertyData* properties,
                   const AttributeData* attributes,
                   const WideStringView& elementName,
                   std::unique_ptr<CJX_Object> js_node)
    : CXFA_Node(pDoc,
                ePacket,
                validPackets,
                oType,
                eType,
                properties,
                attributes,
                elementName,
                std::move(js_node)) {}

CXFA_Box::~CXFA_Box() = default;

XFA_AttributeEnum CXFA_Box::GetHand() {
  return JSObject()->GetEnum(XFA_Attribute::Hand);
}

XFA_AttributeEnum CXFA_Box::GetPresence() {
  return JSObject()
      ->TryEnum(XFA_Attribute::Presence, true)
      .value_or(XFA_AttributeEnum::Visible);
}

int32_t CXFA_Box::CountEdges() {
  return CountChildren(XFA_Element::Edge, false);
}

CXFA_Edge* CXFA_Box::GetEdgeIfExists(int32_t nIndex) {
  if (nIndex == 0)
    return JSObject()->GetOrCreateProperty<CXFA_Edge>(nIndex,
                                                      XFA_Element::Edge);
  return JSObject()->GetProperty<CXFA_Edge>(nIndex, XFA_Element::Edge);
}

std::vector<CXFA_Stroke*> CXFA_Box::GetStrokes() {
  return GetStrokesInternal(false);
}

bool CXFA_Box::IsCircular() {
  return JSObject()->GetBoolean(XFA_Attribute::Circular);
}

Optional<int32_t> CXFA_Box::GetStartAngle() {
  return JSObject()->TryInteger(XFA_Attribute::StartAngle, false);
}

Optional<int32_t> CXFA_Box::GetSweepAngle() {
  return JSObject()->TryInteger(XFA_Attribute::SweepAngle, false);
}

CXFA_Fill* CXFA_Box::GetFillIfExists() const {
  return JSObject()->GetProperty<CXFA_Fill>(0, XFA_Element::Fill);
}

CXFA_Fill* CXFA_Box::GetOrCreateFillIfPossible() {
  return JSObject()->GetOrCreateProperty<CXFA_Fill>(0, XFA_Element::Fill);
}

CXFA_Margin* CXFA_Box::GetMarginIfExists() {
  return GetChild<CXFA_Margin>(0, XFA_Element::Margin, false);
}

std::tuple<XFA_AttributeEnum, bool, float> CXFA_Box::Get3DStyle() {
  if (IsArc())
    return {XFA_AttributeEnum::Unknown, false, 0.0f};

  std::vector<CXFA_Stroke*> strokes = GetStrokesInternal(true);
  CXFA_Stroke* stroke;
  XFA_AttributeEnum iType;

  std::tie(iType, stroke) = Style3D(strokes);
  if (iType == XFA_AttributeEnum::Unknown)
    return {XFA_AttributeEnum::Unknown, false, 0.0f};

  return {iType, stroke->IsVisible(), stroke->GetThickness()};
}

std::vector<CXFA_Stroke*> CXFA_Box::GetStrokesInternal(bool bNull) {
  std::vector<CXFA_Stroke*> strokes;
  strokes.resize(8);

  for (int32_t i = 0, j = 0; i < 4; i++) {
    CXFA_Corner* corner;
    if (i == 0) {
      corner =
          JSObject()->GetOrCreateProperty<CXFA_Corner>(i, XFA_Element::Corner);
    } else {
      corner = JSObject()->GetProperty<CXFA_Corner>(i, XFA_Element::Corner);
    }

    // TODO(dsinclair): If i == 0 and GetOrCreateProperty failed, we can end up
    // with a null corner in the first position.
    if (corner || i == 0) {
      strokes[j] = corner;
    } else if (!bNull) {
      if (i == 1 || i == 2)
        strokes[j] = strokes[0];
      else
        strokes[j] = strokes[2];
    }
    j++;

    CXFA_Edge* edge;
    if (i == 0)
      edge = JSObject()->GetOrCreateProperty<CXFA_Edge>(i, XFA_Element::Edge);
    else
      edge = JSObject()->GetProperty<CXFA_Edge>(i, XFA_Element::Edge);

    // TODO(dsinclair): If i == 0 and GetOrCreateProperty failed, we can end up
    // with a null edge in the first position.
    if (edge || i == 0) {
      strokes[j] = edge;
    } else if (!bNull) {
      if (i == 1 || i == 2)
        strokes[j] = strokes[1];
      else
        strokes[j] = strokes[3];
    }
    j++;
  }
  return strokes;
}

void CXFA_Box::Draw(CXFA_Graphics* pGS,
                    const CFX_RectF& rtWidget,
                    const CFX_Matrix& matrix,
                    bool forceRound) {
  if (GetPresence() != XFA_AttributeEnum::Visible)
    return;

  XFA_Element eType = GetElementType();
  if (eType != XFA_Element::Arc && eType != XFA_Element::Border &&
      eType != XFA_Element::Rectangle) {
    return;
  }
  std::vector<CXFA_Stroke*> strokes;
  if (!forceRound && eType != XFA_Element::Arc)
    strokes = GetStrokes();

  XFA_BOX_Fill(this, strokes, pGS, rtWidget, matrix, forceRound);
  XFA_BOX_Stroke(this, strokes, pGS, rtWidget, matrix, forceRound);
}