xfa/fde/fde_geobject.cpp - pdfium - Git at Google

 // Copyright 2014 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/fde/fde_geobject.h"

 #include "xfa/fde/fde_object.h"

 IFDE_Path* IFDE_Path::Create() {
   return new CFDE_Path;
 }
 FX_BOOL CFDE_Path::StartFigure() {
   return CloseFigure();
 }
 FX_BOOL CFDE_Path::CloseFigure() {
   FX_PATHPOINT* pPoint = GetLastPoint();
   if (pPoint) {
     pPoint->m_Flag |= FXPT_CLOSEFIGURE;
   }
   return TRUE;
 }
 FX_PATHPOINT* CFDE_Path::GetLastPoint(int32_t iCount) const {
   if (iCount < 1) {
     return NULL;
   }
   int32_t iPoints = m_Path.GetPointCount();
   if (iCount > iPoints) {
     return NULL;
   }
   return m_Path.GetPoints() + iPoints - iCount;
 }
 FX_BOOL CFDE_Path::FigureClosed() const {
   FX_PATHPOINT* pPoint = GetLastPoint();
   return pPoint ? (pPoint->m_Flag & FXPT_CLOSEFIGURE) : TRUE;
 }
 FX_PATHPOINT* CFDE_Path::AddPoints(int32_t iCount) {
   if (iCount < 1) {
     return NULL;
   }
   int32_t iPoints = m_Path.GetPointCount();
   m_Path.AddPointCount(iCount);
   return m_Path.GetPoints() + iPoints;
 }
 void CFDE_Path::MoveTo(FX_FLOAT fx, FX_FLOAT fy) {
   FX_PATHPOINT* pPoint = AddPoints(1);
   pPoint->m_PointX = fx;
   pPoint->m_PointY = fy;
   pPoint->m_Flag = FXPT_MOVETO;
 }
 void CFDE_Path::LineTo(FX_FLOAT fx, FX_FLOAT fy) {
   FX_PATHPOINT* pPoint = AddPoints(1);
   pPoint->m_PointX = fx;
   pPoint->m_PointY = fy;
   pPoint->m_Flag = FXPT_LINETO;
 }
 void CFDE_Path::BezierTo(const CFX_PointF& p1,
                          const CFX_PointF& p2,
                          const CFX_PointF& p3) {
   FX_PATHPOINT* p = AddPoints(3);
   p[0].m_PointX = p1.x;
   p[0].m_PointY = p1.y;
   p[0].m_Flag = FXPT_BEZIERTO;
   p[1].m_PointX = p2.x;
   p[1].m_PointY = p2.y;
   p[1].m_Flag = FXPT_BEZIERTO;
   p[2].m_PointX = p3.x;
   p[2].m_PointY = p3.y;
   p[2].m_Flag = FXPT_BEZIERTO;
 }
 void CFDE_Path::ArcTo(FX_BOOL bStart,
                       const CFX_RectF& rect,
                       FX_FLOAT startAngle,
                       FX_FLOAT endAngle) {
   FX_FLOAT rx = rect.width / 2;
   FX_FLOAT ry = rect.height / 2;
   FX_FLOAT cx = rect.left + rx;
   FX_FLOAT cy = rect.top + ry;
   FX_FLOAT alpha =
       FXSYS_atan2(rx * FXSYS_sin(startAngle), ry * FXSYS_cos(startAngle));
   FX_FLOAT beta =
       FXSYS_atan2(rx * FXSYS_sin(endAngle), ry * FXSYS_cos(endAngle));
   if (FXSYS_fabs(beta - alpha) > FX_PI) {
     if (beta > alpha) {
       beta -= 2 * FX_PI;
     } else {
       alpha -= 2 * FX_PI;
     }
   }
   FX_FLOAT half_delta = (beta - alpha) / 2;
   FX_FLOAT bcp = 4.0f / 3 * (1 - FXSYS_cos(half_delta)) / FXSYS_sin(half_delta);
   FX_FLOAT sin_alpha = FXSYS_sin(alpha);
   FX_FLOAT sin_beta = FXSYS_sin(beta);
   FX_FLOAT cos_alpha = FXSYS_cos(alpha);
   FX_FLOAT cos_beta = FXSYS_cos(beta);
   if (bStart)
     MoveTo(CFX_PointF(cx + rx * cos_alpha, cy + ry * sin_alpha));

   BezierTo(CFX_PointF(cx + rx * (cos_alpha - bcp * sin_alpha),
                       cy + ry * (sin_alpha + bcp * cos_alpha)),
            CFX_PointF(cx + rx * (cos_beta + bcp * sin_beta),
                       cy + ry * (sin_beta - bcp * cos_beta)),
            CFX_PointF(cx + rx * cos_beta, cy + ry * sin_beta));
 }

 void CFDE_Path::AddBezier(const CFX_PointsF& points) {
   if (points.GetSize() != 4) {
     return;
   }
   const CFX_PointF* p = points.GetData();
   MoveTo(p[0]);
   BezierTo(p[1], p[2], p[3]);
 }
 void CFDE_Path::AddBeziers(const CFX_PointsF& points) {
   int32_t iCount = points.GetSize();
   if (iCount < 4) {
     return;
   }
   const CFX_PointF* p = points.GetData();
   const CFX_PointF* pEnd = p + iCount;
   MoveTo(p[0]);
   for (++p; p <= pEnd - 3; p += 3) {
     BezierTo(p[0], p[1], p[2]);
   }
 }
 void CFDE_Path::GetCurveTangents(const CFX_PointsF& points,
                                  CFX_PointsF& tangents,
                                  FX_BOOL bClosed,
                                  FX_FLOAT fTension) const {
   int32_t iCount = points.GetSize();
   tangents.SetSize(iCount);
   if (iCount < 3) {
     return;
   }
   FX_FLOAT fCoefficient = fTension / 3.0f;
   const CFX_PointF* pPoints = points.GetData();
   CFX_PointF* pTangents = tangents.GetData();
   for (int32_t i = 0; i < iCount; ++i) {
     int32_t r = i + 1;
     int32_t s = i - 1;
     if (r >= iCount) {
       r = bClosed ? (r - iCount) : (iCount - 1);
     }
     if (s < 0) {
       s = bClosed ? (s + iCount) : 0;
     }
     pTangents[i].x += (fCoefficient * (pPoints[r].x - pPoints[s].x));
     pTangents[i].y += (fCoefficient * (pPoints[r].y - pPoints[s].y));
   }
 }
 void CFDE_Path::AddCurve(const CFX_PointsF& points,
                          FX_BOOL bClosed,
                          FX_FLOAT fTension) {
   int32_t iLast = points.GetUpperBound();
   if (iLast < 1) {
     return;
   }
   CFX_PointsF tangents;
   GetCurveTangents(points, tangents, bClosed, fTension);
   const CFX_PointF* pPoints = points.GetData();
   CFX_PointF* pTangents = tangents.GetData();
   MoveTo(pPoints[0]);
   for (int32_t i = 0; i < iLast; ++i) {
     BezierTo(CFX_PointF(pPoints[i].x + pTangents[i].x,
                         pPoints[i].y + pTangents[i].y),
              CFX_PointF(pPoints[i + 1].x - pTangents[i + 1].x,
                         pPoints[i + 1].y - pTangents[i + 1].y),
              CFX_PointF(pPoints[i + 1].x, pPoints[i + 1].y));
   }
   if (bClosed) {
     BezierTo(CFX_PointF(pPoints[iLast].x + pTangents[iLast].x,
                         pPoints[iLast].y + pTangents[iLast].y),
              CFX_PointF(pPoints[0].x - pTangents[0].x,
                         pPoints[0].y - pTangents[0].y),
              CFX_PointF(pPoints[0].x, pPoints[0].y));
     CloseFigure();
   }
 }
 void CFDE_Path::AddEllipse(const CFX_RectF& rect) {
   FX_FLOAT fStartAngle = 0;
   FX_FLOAT fEndAngle = FX_PI / 2;
   for (int32_t i = 0; i < 4; ++i) {
     ArcTo(i == 0, rect, fStartAngle, fEndAngle);
     fStartAngle += FX_PI / 2;
     fEndAngle += FX_PI / 2;
   }
   CloseFigure();
 }
 void CFDE_Path::AddLine(const CFX_PointF& pt1, const CFX_PointF& pt2) {
   FX_PATHPOINT* pLast = GetLastPoint();
   if (pLast == NULL || FXSYS_fabs(pLast->m_PointX - pt1.x) > 0.001 ||
       FXSYS_fabs(pLast->m_PointY - pt1.y) > 0.001) {
     MoveTo(pt1);
   }
   LineTo(pt2);
 }
 void CFDE_Path::AddPath(const IFDE_Path* pSrc, FX_BOOL bConnect) {
   CFDE_Path* pPath = (CFDE_Path*)pSrc;
   if (pPath == NULL) {
     return;
   }
   int32_t iCount = pPath->m_Path.GetPointCount();
   if (iCount < 1) {
     return;
   }
   if (bConnect) {
     LineTo(pPath->m_Path.GetPointX(0), pPath->m_Path.GetPointY(0));
   }
   m_Path.Append(&pPath->m_Path, NULL);
 }
 void CFDE_Path::AddPolygon(const CFX_PointsF& points) {
   int32_t iCount = points.GetSize();
   if (iCount < 2) {
     return;
   }
   AddLines(points);
   const CFX_PointF* p = points.GetData();
   if (FXSYS_fabs(p[0].x - p[iCount - 1].x) < 0.01f ||
       FXSYS_fabs(p[0].y - p[iCount - 1].y) < 0.01f) {
     LineTo(p[0]);
   }
   CloseFigure();
 }
 void CFDE_Path::AddLines(const CFX_PointsF& points) {
   int32_t iCount = points.GetSize();
   if (iCount < 2) {
     return;
   }
   const CFX_PointF* p = points.GetData();
   const CFX_PointF* pEnd = p + iCount;
   MoveTo(p[0]);
   for (++p; p < pEnd; ++p) {
     LineTo(*p);
   }
 }
 void CFDE_Path::AddRectangle(const CFX_RectF& rect) {
   MoveTo(rect.TopLeft());
   LineTo(rect.TopRight());
   LineTo(rect.BottomRight());
   LineTo(rect.BottomLeft());
   CloseFigure();
 }
 void CFDE_Path::GetBBox(CFX_RectF& bbox) const {
   CFX_FloatRect rect = m_Path.GetBoundingBox();
   bbox.Set(rect.left, rect.top, rect.Width(), rect.Height());
   bbox.Normalize();
 }
 void CFDE_Path::GetBBox(CFX_RectF& bbox,
                         FX_FLOAT fLineWidth,
                         FX_FLOAT fMiterLimit) const {
   CFX_FloatRect rect = m_Path.GetBoundingBox(fLineWidth, fMiterLimit);
   bbox.Set(rect.left, rect.top, rect.Width(), rect.Height());
   bbox.Normalize();
 }
	// Copyright 2014 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/fde/fde_geobject.h"

	#include "xfa/fde/fde_object.h"

	IFDE_Path* IFDE_Path::Create() {
	return new CFDE_Path;
	}
	FX_BOOL CFDE_Path::StartFigure() {
	return CloseFigure();
	}
	FX_BOOL CFDE_Path::CloseFigure() {
	FX_PATHPOINT* pPoint = GetLastPoint();
	if (pPoint) {
	pPoint->m_Flag \|= FXPT_CLOSEFIGURE;
	}
	return TRUE;
	}
	FX_PATHPOINT* CFDE_Path::GetLastPoint(int32_t iCount) const {
	if (iCount < 1) {
	return NULL;
	}
	int32_t iPoints = m_Path.GetPointCount();
	if (iCount > iPoints) {
	return NULL;
	}
	return m_Path.GetPoints() + iPoints - iCount;
	}
	FX_BOOL CFDE_Path::FigureClosed() const {
	FX_PATHPOINT* pPoint = GetLastPoint();
	return pPoint ? (pPoint->m_Flag & FXPT_CLOSEFIGURE) : TRUE;
	}
	FX_PATHPOINT* CFDE_Path::AddPoints(int32_t iCount) {
	if (iCount < 1) {
	return NULL;
	}
	int32_t iPoints = m_Path.GetPointCount();
	m_Path.AddPointCount(iCount);
	return m_Path.GetPoints() + iPoints;
	}
	void CFDE_Path::MoveTo(FX_FLOAT fx, FX_FLOAT fy) {
	FX_PATHPOINT* pPoint = AddPoints(1);
	pPoint->m_PointX = fx;
	pPoint->m_PointY = fy;
	pPoint->m_Flag = FXPT_MOVETO;
	}
	void CFDE_Path::LineTo(FX_FLOAT fx, FX_FLOAT fy) {
	FX_PATHPOINT* pPoint = AddPoints(1);
	pPoint->m_PointX = fx;
	pPoint->m_PointY = fy;
	pPoint->m_Flag = FXPT_LINETO;
	}
	void CFDE_Path::BezierTo(const CFX_PointF& p1,
	const CFX_PointF& p2,
	const CFX_PointF& p3) {
	FX_PATHPOINT* p = AddPoints(3);
	p[0].m_PointX = p1.x;
	p[0].m_PointY = p1.y;
	p[0].m_Flag = FXPT_BEZIERTO;
	p[1].m_PointX = p2.x;
	p[1].m_PointY = p2.y;
	p[1].m_Flag = FXPT_BEZIERTO;
	p[2].m_PointX = p3.x;
	p[2].m_PointY = p3.y;
	p[2].m_Flag = FXPT_BEZIERTO;
	}
	void CFDE_Path::ArcTo(FX_BOOL bStart,
	const CFX_RectF& rect,
	FX_FLOAT startAngle,
	FX_FLOAT endAngle) {
	FX_FLOAT rx = rect.width / 2;
	FX_FLOAT ry = rect.height / 2;
	FX_FLOAT cx = rect.left + rx;
	FX_FLOAT cy = rect.top + ry;
	FX_FLOAT alpha =
	FXSYS_atan2(rx * FXSYS_sin(startAngle), ry * FXSYS_cos(startAngle));
	FX_FLOAT beta =
	FXSYS_atan2(rx * FXSYS_sin(endAngle), ry * FXSYS_cos(endAngle));
	if (FXSYS_fabs(beta - alpha) > FX_PI) {
	if (beta > alpha) {
	beta -= 2 * FX_PI;
	} else {
	alpha -= 2 * FX_PI;
	}
	}
	FX_FLOAT half_delta = (beta - alpha) / 2;
	FX_FLOAT bcp = 4.0f / 3 * (1 - FXSYS_cos(half_delta)) / FXSYS_sin(half_delta);
	FX_FLOAT sin_alpha = FXSYS_sin(alpha);
	FX_FLOAT sin_beta = FXSYS_sin(beta);
	FX_FLOAT cos_alpha = FXSYS_cos(alpha);
	FX_FLOAT cos_beta = FXSYS_cos(beta);
	if (bStart)
	MoveTo(CFX_PointF(cx + rx * cos_alpha, cy + ry * sin_alpha));

	BezierTo(CFX_PointF(cx + rx * (cos_alpha - bcp * sin_alpha),
	cy + ry * (sin_alpha + bcp * cos_alpha)),
	CFX_PointF(cx + rx * (cos_beta + bcp * sin_beta),
	cy + ry * (sin_beta - bcp * cos_beta)),
	CFX_PointF(cx + rx * cos_beta, cy + ry * sin_beta));
	}

	void CFDE_Path::AddBezier(const CFX_PointsF& points) {
	if (points.GetSize() != 4) {
	return;
	}
	const CFX_PointF* p = points.GetData();
	MoveTo(p[0]);
	BezierTo(p[1], p[2], p[3]);
	}
	void CFDE_Path::AddBeziers(const CFX_PointsF& points) {
	int32_t iCount = points.GetSize();
	if (iCount < 4) {
	return;
	}
	const CFX_PointF* p = points.GetData();
	const CFX_PointF* pEnd = p + iCount;
	MoveTo(p[0]);
	for (++p; p <= pEnd - 3; p += 3) {
	BezierTo(p[0], p[1], p[2]);
	}
	}
	void CFDE_Path::GetCurveTangents(const CFX_PointsF& points,
	CFX_PointsF& tangents,
	FX_BOOL bClosed,
	FX_FLOAT fTension) const {
	int32_t iCount = points.GetSize();
	tangents.SetSize(iCount);
	if (iCount < 3) {
	return;
	}
	FX_FLOAT fCoefficient = fTension / 3.0f;
	const CFX_PointF* pPoints = points.GetData();
	CFX_PointF* pTangents = tangents.GetData();
	for (int32_t i = 0; i < iCount; ++i) {
	int32_t r = i + 1;
	int32_t s = i - 1;
	if (r >= iCount) {
	r = bClosed ? (r - iCount) : (iCount - 1);
	}
	if (s < 0) {
	s = bClosed ? (s + iCount) : 0;
	}
	pTangents[i].x += (fCoefficient * (pPoints[r].x - pPoints[s].x));
	pTangents[i].y += (fCoefficient * (pPoints[r].y - pPoints[s].y));
	}
	}
	void CFDE_Path::AddCurve(const CFX_PointsF& points,
	FX_BOOL bClosed,
	FX_FLOAT fTension) {
	int32_t iLast = points.GetUpperBound();
	if (iLast < 1) {
	return;
	}
	CFX_PointsF tangents;
	GetCurveTangents(points, tangents, bClosed, fTension);
	const CFX_PointF* pPoints = points.GetData();
	CFX_PointF* pTangents = tangents.GetData();
	MoveTo(pPoints[0]);
	for (int32_t i = 0; i < iLast; ++i) {
	BezierTo(CFX_PointF(pPoints[i].x + pTangents[i].x,
	pPoints[i].y + pTangents[i].y),
	CFX_PointF(pPoints[i + 1].x - pTangents[i + 1].x,
	pPoints[i + 1].y - pTangents[i + 1].y),
	CFX_PointF(pPoints[i + 1].x, pPoints[i + 1].y));
	}
	if (bClosed) {
	BezierTo(CFX_PointF(pPoints[iLast].x + pTangents[iLast].x,
	pPoints[iLast].y + pTangents[iLast].y),
	CFX_PointF(pPoints[0].x - pTangents[0].x,
	pPoints[0].y - pTangents[0].y),
	CFX_PointF(pPoints[0].x, pPoints[0].y));
	CloseFigure();
	}
	}
	void CFDE_Path::AddEllipse(const CFX_RectF& rect) {
	FX_FLOAT fStartAngle = 0;
	FX_FLOAT fEndAngle = FX_PI / 2;
	for (int32_t i = 0; i < 4; ++i) {
	ArcTo(i == 0, rect, fStartAngle, fEndAngle);
	fStartAngle += FX_PI / 2;
	fEndAngle += FX_PI / 2;
	}
	CloseFigure();
	}
	void CFDE_Path::AddLine(const CFX_PointF& pt1, const CFX_PointF& pt2) {
	FX_PATHPOINT* pLast = GetLastPoint();
	if (pLast == NULL \|\| FXSYS_fabs(pLast->m_PointX - pt1.x) > 0.001 \|\|
	FXSYS_fabs(pLast->m_PointY - pt1.y) > 0.001) {
	MoveTo(pt1);
	}
	LineTo(pt2);
	}
	void CFDE_Path::AddPath(const IFDE_Path* pSrc, FX_BOOL bConnect) {
	CFDE_Path* pPath = (CFDE_Path*)pSrc;
	if (pPath == NULL) {
	return;
	}
	int32_t iCount = pPath->m_Path.GetPointCount();
	if (iCount < 1) {
	return;
	}
	if (bConnect) {
	LineTo(pPath->m_Path.GetPointX(0), pPath->m_Path.GetPointY(0));
	}
	m_Path.Append(&pPath->m_Path, NULL);
	}
	void CFDE_Path::AddPolygon(const CFX_PointsF& points) {
	int32_t iCount = points.GetSize();
	if (iCount < 2) {
	return;
	}
	AddLines(points);
	const CFX_PointF* p = points.GetData();
	if (FXSYS_fabs(p[0].x - p[iCount - 1].x) < 0.01f \|\|
	FXSYS_fabs(p[0].y - p[iCount - 1].y) < 0.01f) {
	LineTo(p[0]);
	}
	CloseFigure();
	}
	void CFDE_Path::AddLines(const CFX_PointsF& points) {
	int32_t iCount = points.GetSize();
	if (iCount < 2) {
	return;
	}
	const CFX_PointF* p = points.GetData();
	const CFX_PointF* pEnd = p + iCount;
	MoveTo(p[0]);
	for (++p; p < pEnd; ++p) {
	LineTo(*p);
	}
	}
	void CFDE_Path::AddRectangle(const CFX_RectF& rect) {
	MoveTo(rect.TopLeft());
	LineTo(rect.TopRight());
	LineTo(rect.BottomRight());
	LineTo(rect.BottomLeft());
	CloseFigure();
	}
	void CFDE_Path::GetBBox(CFX_RectF& bbox) const {
	CFX_FloatRect rect = m_Path.GetBoundingBox();
	bbox.Set(rect.left, rect.top, rect.Width(), rect.Height());
	bbox.Normalize();
	}
	void CFDE_Path::GetBBox(CFX_RectF& bbox,
	FX_FLOAT fLineWidth,
	FX_FLOAT fMiterLimit) const {
	CFX_FloatRect rect = m_Path.GetBoundingBox(fLineWidth, fMiterLimit);
	bbox.Set(rect.left, rect.top, rect.Width(), rect.Height());
	bbox.Normalize();
	}