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// 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
#ifndef _FDE_BASEOBJECT_IMP
#define _FDE_BASEOBJECT_IMP
class CFDE_Pen : public IFDE_Pen, public CFX_Target
{
public:
CFDE_Pen()
: m_Color(0)
, m_iLineCap(0)
, m_iLineJoin(0)
, m_iDashStyle(0)
, m_fDashPhase(0)
, m_fMiterLimit(10)
, m_bAutoRelease(FALSE)
, m_pBrush(NULL)
{
}
~CFDE_Pen()
{
if (m_pBrush && m_bAutoRelease) {
m_pBrush->Release();
}
}
virtual void Release()
{
FDE_Delete this;
}
virtual FX_INT32 GetType() const
{
return m_pBrush ? m_pBrush->GetType() : FDE_PENTYPE_SolidColor;
}
virtual FX_ARGB GetColor() const
{
return m_Color;
}
virtual void SetColor(FX_ARGB color)
{
m_Color = color;
}
virtual IFDE_Brush* GetBrush() const
{
return m_pBrush;
}
virtual void SetBrush(IFDE_Brush *pBrush, FX_BOOL bAutoRelease)
{
m_bAutoRelease = bAutoRelease;
m_pBrush = pBrush;
if (m_pBrush && m_pBrush->GetType() == FDE_BRUSHTYPE_Solid) {
m_Color = ((IFDE_SolidBrush*)m_pBrush)->GetColor();
}
}
virtual FX_INT32 GetLineCap() const
{
return m_iLineCap;
}
virtual void SetLineCap(FX_INT32 iLineCap)
{
m_iLineCap = iLineCap;
}
virtual FX_INT32 GetDashStyle() const
{
return m_iDashStyle;
}
virtual void SetDashStyle(FX_INT32 iDashStyle)
{
m_iDashStyle = iDashStyle;
}
virtual FX_FLOAT GetDashPhase() const
{
return m_fDashPhase;
}
virtual void SetDashPhase(FX_FLOAT fPhase)
{
m_fDashPhase = fPhase;
}
virtual FX_INT32 CountDashArray() const
{
return m_DashArray.GetSize();
}
virtual FX_INT32 GetDashArray(CFX_FloatArray &dashArray) const
{
dashArray.Copy(m_DashArray);
return dashArray.GetSize();
}
virtual void SetDashArray(const CFX_FloatArray &dashArray)
{
m_DashArray.Copy(dashArray);
}
virtual FX_INT32 GetLineJoin() const
{
return m_iLineJoin;
}
virtual void SetLineJoin(FX_INT32 iLineJoin)
{
m_iLineJoin = iLineJoin;
}
virtual FX_FLOAT GetMiterLimit() const
{
return m_fMiterLimit;
}
virtual void SetMiterLimit(FX_FLOAT fMiterLimit)
{
m_fMiterLimit = fMiterLimit;
}
virtual FX_INT32 CountCompoundPatterns() const
{
return m_CompoundPatterns.GetSize();
}
virtual FX_BOOL GetCompoundPatterns(CFDE_CompoundPatterns &compoundPatterns) const
{
return compoundPatterns.Copy(m_CompoundPatterns), TRUE;
}
virtual FX_BOOL SetCompoundPatterns(const CFDE_CompoundPatterns &compoundPatterns)
{
return m_CompoundPatterns.Copy(compoundPatterns), TRUE;
}
FX_ARGB m_Color;
FX_INT32 m_iLineCap;
FX_INT32 m_iLineJoin;
FX_INT32 m_iDashStyle;
FX_FLOAT m_fDashPhase;
FX_FLOAT m_fMiterLimit;
FX_BOOL m_bAutoRelease;
IFDE_Brush *m_pBrush;
CFX_FloatArray m_DashArray;
CFDE_CompoundPatterns m_CompoundPatterns;
};
class CFDE_SolidBrush : public IFDE_SolidBrush, public CFX_Target
{
public:
CFDE_SolidBrush() : m_Color(0xFF000000)
{
m_Matrix.Reset();
}
virtual void Release()
{
FDE_Delete this;
}
virtual FX_INT32 GetType() const
{
return FDE_BRUSHTYPE_Solid;
}
virtual const CFX_Matrix& GetMatrix() const
{
return m_Matrix;
}
virtual void ResetMatrix()
{
m_Matrix.Reset();
}
virtual void TranslateMatrix(FX_FLOAT dx, FX_FLOAT dy)
{
m_Matrix.Translate(dx, dy);
}
virtual void RotateMatrix(FX_FLOAT fRadian)
{
m_Matrix.Rotate(fRadian);
}
virtual void ScaleMatrix(FX_FLOAT sx, FX_FLOAT sy)
{
m_Matrix.Scale(sx, sy);
}
virtual void ConcatMatrix(const CFX_Matrix &matrix)
{
m_Matrix.Concat(matrix);
}
virtual void SetMatrix(const CFX_Matrix &matrix)
{
m_Matrix = matrix;
}
virtual FX_ARGB GetColor() const
{
return m_Color;
}
virtual void SetColor(FX_ARGB color)
{
m_Color = color;
}
FX_ARGB m_Color;
CFX_Matrix m_Matrix;
};
class CFDE_HatchBrush : public IFDE_HatchBrush, public CFX_Target
{
public:
CFDE_HatchBrush() : m_iStyle(-1), m_BackColor(0), m_ForeColor(0)
{
m_Matrix.Reset();
}
virtual void Release()
{
FDE_Delete this;
}
virtual FX_INT32 GetType() const
{
return FDE_BRUSHTYPE_Hatch;
}
virtual const CFX_Matrix& GetMatrix() const
{
return m_Matrix;
}
virtual void ResetMatrix()
{
m_Matrix.Reset();
}
virtual void TranslateMatrix(FX_FLOAT dx, FX_FLOAT dy)
{
m_Matrix.Translate(dx, dy);
}
virtual void RotateMatrix(FX_FLOAT fRadian)
{
m_Matrix.Rotate(fRadian);
}
virtual void ScaleMatrix(FX_FLOAT sx, FX_FLOAT sy)
{
m_Matrix.Scale(sx, sy);
}
virtual void ConcatMatrix(const CFX_Matrix &matrix)
{
m_Matrix.Concat(matrix);
}
virtual void SetMatrix(const CFX_Matrix &matrix)
{
m_Matrix = matrix;
}
virtual FX_ARGB GetColor(FX_BOOL bForegroundColor) const
{
return bForegroundColor ? m_ForeColor : m_BackColor;
}
virtual void SetColor(FX_ARGB color, FX_BOOL bForegroundColor)
{
if (bForegroundColor) {
m_ForeColor = color;
} else {
m_BackColor = color;
}
}
virtual FX_INT32 GetHatchStyle() const
{
return m_iStyle;
};
virtual FX_BOOL SetHatchStyle(FX_INT32 iHatchStyle)
{
m_iStyle = iHatchStyle;
return m_iStyle >= FDE_HATCHSTYLE_Min && m_iStyle <= FDE_HATCHSTYLE_Max;
}
FX_INT32 m_iStyle;
FX_ARGB m_BackColor;
FX_ARGB m_ForeColor;
CFX_Matrix m_Matrix;
};
class CFDE_TextureBrush : public IFDE_TextureBrush, public CFX_Target
{
public:
CFDE_TextureBrush()
: m_iWrap(0)
, m_pImage(NULL)
, m_bAutoRelease(FALSE)
{
m_Matrix.Reset();
}
virtual void Release()
{
FDE_Delete this;
}
virtual FX_INT32 GetType() const
{
return FDE_BRUSHTYPE_Texture;
}
virtual const CFX_Matrix& GetMatrix() const
{
return m_Matrix;
}
virtual void ResetMatrix()
{
m_Matrix.Reset();
}
virtual void TranslateMatrix(FX_FLOAT dx, FX_FLOAT dy)
{
m_Matrix.Translate(dx, dy);
}
virtual void RotateMatrix(FX_FLOAT fRadian)
{
m_Matrix.Rotate(fRadian);
}
virtual void ScaleMatrix(FX_FLOAT sx, FX_FLOAT sy)
{
m_Matrix.Scale(sx, sy);
}
virtual void ConcatMatrix(const CFX_Matrix &matrix)
{
m_Matrix.Concat(matrix);
}
virtual void SetMatrix(const CFX_Matrix &matrix)
{
m_Matrix = matrix;
}
virtual IFDE_Image* GetImage() const
{
return m_pImage;
}
virtual void SetImage(IFDE_Image *pImage, FX_BOOL bAutoRelease)
{
m_pImage = pImage;
m_bAutoRelease = bAutoRelease;
}
virtual FX_INT32 GetWrapMode() const
{
return m_iWrap;
}
virtual void SetWrapMode(FX_INT32 iWrapMode)
{
m_iWrap = iWrapMode;
}
FX_INT32 m_iWrap;
IFDE_Image *m_pImage;
FX_BOOL m_bAutoRelease;
CFX_Matrix m_Matrix;
};
class CFDE_LinearBrush : public IFDE_LinearGradientBrush, public CFX_Target
{
public:
CFDE_LinearBrush() : m_EndColor(0), m_StartColor(0), m_iWrapMode(0)
{
m_StartPoint.x = m_StartPoint.y = m_EndPoint.x = m_EndPoint.y = 0;
m_Matrix.Reset();
}
virtual void Release()
{
FDE_Delete this;
}
virtual FX_INT32 GetType() const
{
return FDE_BRUSHTYPE_LinearGradient;
}
virtual const CFX_Matrix& GetMatrix() const
{
return m_Matrix;
}
virtual void ResetMatrix()
{
m_Matrix.Reset();
}
virtual void TranslateMatrix(FX_FLOAT dx, FX_FLOAT dy)
{
m_Matrix.Translate(dx, dy);
}
virtual void RotateMatrix(FX_FLOAT fRadian)
{
m_Matrix.Rotate(fRadian);
}
virtual void ScaleMatrix(FX_FLOAT sx, FX_FLOAT sy)
{
m_Matrix.Scale(sx, sy);
}
virtual void ConcatMatrix(const CFX_Matrix &matrix)
{
m_Matrix.Concat(matrix);
}
virtual void SetMatrix(const CFX_Matrix &matrix)
{
m_Matrix = matrix;
}
virtual void GetLinearPoints(CFX_PointF &startingPoint, CFX_PointF &endingPoint) const
{
startingPoint = m_StartPoint;
endingPoint = m_EndPoint;
}
virtual void SetLinearPoints(const CFX_PointF &startingPoint, const CFX_PointF &endingPoint)
{
m_StartPoint = startingPoint;
m_EndPoint = endingPoint;
}
virtual void GetLinearColors(FX_ARGB &startingColor, FX_ARGB &endingColor) const
{
startingColor = m_StartColor;
endingColor = m_EndColor;
}
virtual void SetLinearColors(const FX_ARGB &startingColor, const FX_ARGB &endingColor)
{
m_StartColor = startingColor;
m_EndColor = endingColor;
}
virtual FX_INT32 CountGradientColors() const
{
return m_GradColors.GetSize();
}
virtual FX_BOOL GetGradientColors(CFDE_GradientColors &colors) const
{
return colors.Copy(m_GradColors), TRUE;
}
virtual FX_BOOL SetGradientColors(const CFDE_GradientColors &colors)
{
return m_GradColors.Copy(colors), TRUE;
}
virtual FX_INT32 GetWrapMode() const
{
return m_iWrapMode;
}
virtual void SetWrapMode(FX_INT32 iWrapMode)
{
m_iWrapMode = iWrapMode;
}
CFX_PointF m_EndPoint;
CFX_PointF m_StartPoint;
FX_ARGB m_EndColor;
FX_ARGB m_StartColor;
CFDE_GradientColors m_GradColors;
FX_INT32 m_iWrapMode;
CFX_Matrix m_Matrix;
};
#endif
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