loplugin:unusedmethods sax,shell,stoc,basegfx

Change-Id: I8f3871fd4e82b6850718b6f2a8757f3043d00017
2015-07-06 10:06:45 +03:00
parent e9c3583c2c
commit 04c0b70c9b
15 changed files with 0 additions and 309 deletions
--- a/include/basegfx/color/bcolor.hxx
+++ b/include/basegfx/color/bcolor.hxx
@@ -131,15 +131,6 @@ namespace basegfx
            return *this;
        }
        // blend to another color using luminance
        void blend(const BColor& rColor)
        {
            const double fLuminance(luminance());
            mfX = rColor.getRed() * fLuminance;
            mfY = rColor.getGreen() * fLuminance;
            mfZ = rColor.getBlue() * fLuminance;
        }
        // luminance
        double luminance() const
        {
@@ -164,16 +155,6 @@ namespace basegfx
            return sqrt(fDistR * fDistR + fDistG * fDistG + fDistB * fDistB);
        }
        double getMinimumDistance(const BColor& rColor) const
        {
            const double fDistR(getDistanceRed(rColor));
            const double fDistG(getDistanceGreen(rColor));
            const double fDistB(getDistanceBlue(rColor));
            double fRetval(fDistR < fDistG ? fDistR : fDistG);
            return (fRetval < fDistB ? fRetval : fDistB);
        }
        double getMaximumDistance(const BColor& rColor) const
        {
            const double fDistR(getDistanceRed(rColor));
@@ -206,18 +187,6 @@ namespace basegfx
            return static_cast<const BColor&>( ::basegfx::B3DTuple::getEmptyTuple() );
        }
        com::sun::star::uno::Sequence< double > colorToDoubleSequence(const com::sun::star::uno::Reference< com::sun::star::rendering::XGraphicDevice >& /*xGraphicDevice*/) const
        {
            com::sun::star::uno::Sequence< double > aRet(4);
            double* pRet = aRet.getArray();
            pRet[0] = mfX;
            pRet[1] = mfY;
            pRet[2] = mfZ;
            pRet[3] = 1.0;
            return aRet;
        }
    };
 } // end of namespace basegfx
--- a/include/basegfx/matrix/b2dhommatrixtools.hxx
+++ b/include/basegfx/matrix/b2dhommatrixtools.hxx
@@ -218,7 +218,6 @@ namespace basegfx
            const B2DVector& getScale() const { const_cast< B2DHomMatrixBufferedOnDemandDecompose* >(this)->impCheckDecompose(); return maScale; }
            const B2DVector& getTranslate() const { const_cast< B2DHomMatrixBufferedOnDemandDecompose* >(this)->impCheckDecompose(); return maTranslate; }
            double getRotate() const { const_cast< B2DHomMatrixBufferedOnDemandDecompose* >(this)->impCheckDecompose(); return mfRotate; }
            double getShearX() const { const_cast< B2DHomMatrixBufferedOnDemandDecompose* >(this)->impCheckDecompose(); return mfShearX; }
        };
    } // end of namespace tools
--- a/include/basegfx/pixel/bpixel.hxx
+++ b/include/basegfx/pixel/bpixel.hxx
@@ -95,21 +95,16 @@ namespace basegfx
        sal_uInt8 getGreen() const { return maPixelUnion.maRGBO.mnG; }
        sal_uInt8 getBlue() const { return maPixelUnion.maRGBO.mnB; }
        sal_uInt8 getOpacity() const { return maPixelUnion.maRGBO.mnO; }
        sal_uInt32 getRedGreenBlueOpacity() const { return maPixelUnion.maCombinedRGBO.mnValue; }
        // data access write
        void setRed(sal_uInt8 nNew) { maPixelUnion.maRGBO.mnR = nNew; }
        void setGreen(sal_uInt8 nNew) { maPixelUnion.maRGBO.mnG = nNew; }
        void setBlue(sal_uInt8 nNew) { maPixelUnion.maRGBO.mnB = nNew; }
        void setOpacity(sal_uInt8 nNew) { maPixelUnion.maRGBO.mnO = nNew; }
        void setRedGreenBlueOpacity(sal_uInt32 nRedGreenBlueOpacity) { maPixelUnion.maCombinedRGBO.mnValue = nRedGreenBlueOpacity; }
        void setRedGreenBlue(sal_uInt8 nR, sal_uInt8 nG, sal_uInt8 nB) { maPixelUnion.maRGBO.mnR = nR; maPixelUnion.maRGBO.mnG = nG; maPixelUnion.maRGBO.mnB = nB; }
        // comparators
        bool isInvisible() const { return (0 == maPixelUnion.maRGBO.mnO); }
        bool isVisible() const { return (0 != maPixelUnion.maRGBO.mnO); }
        bool isEmpty() const { return isInvisible(); }
        bool isUsed() const { return isVisible(); }
        bool operator==( const BPixel& rPixel ) const
        {
--- a/include/basegfx/range/b1drange.hxx
+++ b/include/basegfx/range/b1drange.hxx
@@ -71,12 +71,6 @@ namespace basegfx
            return maRange.isEmpty();
        }
        /// reset the object to empty state again, clearing all values
        void reset()
        {
            maRange.reset();
        }
        bool operator==( const B1DRange& rRange ) const
        {
            return (maRange == rRange.maRange);
@@ -87,11 +81,6 @@ namespace basegfx
            return (maRange != rRange.maRange);
        }
        bool equal(const B1DRange& rRange) const
        {
            return (maRange.equal(rRange.maRange));
        }
        /// get lower bound of the set. returns arbitrary values for empty sets.
        double getMinimum() const
        {
@@ -122,12 +111,6 @@ namespace basegfx
            return maRange.isInside(fValue);
        }
        /// yields true if rRange is inside, or equal to set
        bool isInside(const B1DRange& rRange) const
        {
            return maRange.isInside(rRange.maRange);
        }
        /// yields true if rRange at least partly inside set
        bool overlaps(const B1DRange& rRange) const
        {
@@ -158,11 +141,6 @@ namespace basegfx
            maRange.intersect(rRange.maRange);
        }
        /// grow set by fValue on both sides
        void grow(double fValue)
        {
            maRange.grow(fValue);
        }
    };
 } // end of namespace basegfx
--- a/include/basegfx/range/b2ibox.hxx
+++ b/include/basegfx/range/b2ibox.hxx
@@ -104,13 +104,6 @@ namespace basegfx
            return maRangeX.isEmpty() || maRangeY.isEmpty();
        }
        /// reset the object to empty state again, clearing all values
        void reset()
        {
            maRangeX.reset();
            maRangeY.reset();
        }
        bool operator==( const B2IBox& rBox ) const
        {
            return (maRangeX == rBox.maRangeX
@@ -177,24 +170,6 @@ namespace basegfx
                );
        }
        /// return difference between upper and lower value. returns (0,0) for empty sets.
        B2I64Tuple getRange() const
        {
            return B2I64Tuple(
                maRangeX.getRange(),
                maRangeY.getRange()
                );
        }
        /// return center point of set. returns (0,0) for empty sets.
        B2DPoint getCenter() const
        {
            return B2DPoint(
                maRangeX.getCenter(),
                maRangeY.getCenter()
                );
        }
        /// yields true if point is contained in set
        bool isInside(const B2ITuple& rTuple) const
        {
@@ -204,24 +179,6 @@ namespace basegfx
                );
        }
        /// yields true if rBox is inside, or equal to set
        bool isInside(const B2IBox& rBox) const
        {
            return (
                maRangeX.isInside(rBox.maRangeX)
                && maRangeY.isInside(rBox.maRangeY)
                );
        }
        /// yields true if rBox at least partly inside set
        bool overlaps(const B2IBox& rBox) const
        {
            return (
                maRangeX.overlaps(rBox.maRangeX)
                && maRangeY.overlaps(rBox.maRangeY)
                );
        }
        /// add point to the set, expanding as necessary
        void expand(const B2ITuple& rTuple)
        {
@@ -229,13 +186,6 @@ namespace basegfx
            maRangeY.expand(rTuple.getY());
        }
        /// add rBox to the set, expanding as necessary
        void expand(const B2IBox& rBox)
        {
            maRangeX.expand(rBox.maRangeX);
            maRangeY.expand(rBox.maRangeY);
        }
        /// calc set intersection
        void intersect(const B2IBox& rBox)
        {
@@ -243,13 +193,6 @@ namespace basegfx
            maRangeY.intersect(rBox.maRangeY);
        }
        /// grow set by nValue on all sides
        void grow(sal_Int32 nValue)
        {
            maRangeX.grow(nValue);
            maRangeY.grow(nValue);
        }
    private:
        BasicBox        maRangeX;
        BasicBox        maRangeY;
--- a/include/basegfx/range/b2irange.hxx
+++ b/include/basegfx/range/b2irange.hxx
@@ -178,15 +178,6 @@ namespace basegfx
                );
        }
        /// return center point of set. returns (0,0) for empty sets.
        B2DPoint getCenter() const
        {
            return B2DPoint(
                maRangeX.getCenter(),
                maRangeY.getCenter()
                );
        }
        /// yields true if given point is contained in set
        bool isInside(const B2ITuple& rTuple) const
        {
@@ -196,33 +187,6 @@ namespace basegfx
                );
        }
        /// yields true if rRange is inside, or equal to set
        bool isInside(const B2IRange& rRange) const
        {
            return (
                maRangeX.isInside(rRange.maRangeX)
                && maRangeY.isInside(rRange.maRangeY)
                );
        }
        /// yields true if rRange at least partly inside set
        bool overlaps(const B2IRange& rRange) const
        {
            return (
                maRangeX.overlaps(rRange.maRangeX)
                && maRangeY.overlaps(rRange.maRangeY)
                );
        }
        /// yields true if overlaps(rRange) does, and the overlap is larger than infinitesimal
        bool overlapsMore(const B2IRange& rRange) const
        {
            return (
                maRangeX.overlapsMore(rRange.maRangeX)
                && maRangeY.overlapsMore(rRange.maRangeY)
                );
        }
        /// add point to the set, expanding as necessary
        void expand(const B2ITuple& rTuple)
        {
@@ -244,13 +208,6 @@ namespace basegfx
            maRangeY.intersect(rRange.maRangeY);
        }
        /// grow set by nValue on all sides
        void grow(sal_Int32 nValue)
        {
            maRangeX.grow(nValue);
            maRangeY.grow(nValue);
        }
    private:
        typedef ::basegfx::BasicRange< ValueType, TraitsType >  MyBasicRange;
--- a/include/basegfx/range/b3drange.hxx
+++ b/include/basegfx/range/b3drange.hxx
@@ -102,13 +102,6 @@ namespace basegfx
                || maRangeZ != rRange.maRangeZ);
        }
        bool equal(const B3DRange& rRange) const
        {
            return (maRangeX.equal(rRange.maRangeX)
                    && maRangeY.equal(rRange.maRangeY)
                    && maRangeZ.equal(rRange.maRangeZ));
        }
        double getMinX() const
        {
            return maRangeX.getMinimum();
@@ -154,24 +147,6 @@ namespace basegfx
            return maRangeZ.getRange();
        }
        B3DPoint getMinimum() const
        {
            return B3DPoint(
                maRangeX.getMinimum(),
                maRangeY.getMinimum(),
                maRangeZ.getMinimum()
                );
        }
        B3DPoint getMaximum() const
        {
            return B3DPoint(
                maRangeX.getMaximum(),
                maRangeY.getMaximum(),
                maRangeZ.getMaximum()
                );
        }
        B3DVector getRange() const
        {
            return B3DVector(
@@ -190,39 +165,6 @@ namespace basegfx
                );
        }
        double getCenterX() const
        {
            return maRangeX.getCenter();
        }
        double getCenterY() const
        {
            return maRangeY.getCenter();
        }
        double getCenterZ() const
        {
            return maRangeZ.getCenter();
        }
        bool isInside(const B3DTuple& rTuple) const
        {
            return (
                maRangeX.isInside(rTuple.getX())
                && maRangeY.isInside(rTuple.getY())
                && maRangeZ.isInside(rTuple.getZ())
                );
        }
        bool isInside(const B3DRange& rRange) const
        {
            return (
                maRangeX.isInside(rRange.maRangeX)
                && maRangeY.isInside(rRange.maRangeY)
                && maRangeZ.isInside(rRange.maRangeZ)
                );
        }
        bool overlaps(const B3DRange& rRange) const
        {
            return (
@@ -246,13 +188,6 @@ namespace basegfx
            maRangeZ.expand(rRange.maRangeZ);
        }
        void intersect(const B3DRange& rRange)
        {
            maRangeX.intersect(rRange.maRangeX);
            maRangeY.intersect(rRange.maRangeY);
            maRangeZ.intersect(rRange.maRangeZ);
        }
        void grow(double fValue)
        {
            maRangeX.grow(fValue);
--- a/include/basegfx/tuple/b2i64tuple.hxx
+++ b/include/basegfx/tuple/b2i64tuple.hxx
@@ -91,18 +91,6 @@ namespace basegfx
            return mnY;
        }
        /// Set X-Coordinate of 2D Tuple
        void setX(sal_Int64 fX)
        {
            mnX = fX;
        }
        /// Set Y-Coordinate of 2D Tuple
        void setY(sal_Int64 fY)
        {
            mnY = fY;
        }
        /// Array-access to 2D Tuple
        const sal_Int64& operator[] (int nPos) const
        {
@@ -171,8 +159,6 @@ namespace basegfx
            return B2I64Tuple(-mnX, -mnY);
        }
        bool equalZero() const { return mnX == 0 && mnY == 0; }
        bool operator==( const B2I64Tuple& rTup ) const
        {
            return this == &rTup || (rTup.mnX == mnX && rTup.mnY == mnY);
--- a/include/basegfx/tuple/b3ituple.hxx
+++ b/include/basegfx/tuple/b3ituple.hxx
@@ -104,24 +104,6 @@ namespace basegfx
            return mnZ;
        }
        /// set X-Coordinate of 3D Tuple
        void setX(sal_Int32 nX)
        {
            mnX = nX;
        }
        /// set Y-Coordinate of 3D Tuple
        void setY(sal_Int32 nY)
        {
            mnY = nY;
        }
        /// set Z-Coordinate of 3D Tuple
        void setZ(sal_Int32 nZ)
        {
            mnZ = nZ;
        }
        /// Array-access to 3D Tuple
        const sal_Int32& operator[] (int nPos) const
        {
--- a/include/basegfx/vector/b3dvector.hxx
+++ b/include/basegfx/vector/b3dvector.hxx
@@ -126,18 +126,6 @@ namespace basegfx
            return sqrt(fLen);
        }
        /** Calculate the length in the XY-Plane for this 3D Vector
            @return The XY-Plane Length of the 3D Vector
        */
        double getXYLength() const
        {
            double fLen((mfX * mfX) + (mfY * mfY));
            if((0.0 == fLen) || (1.0 == fLen))
                return fLen;
            return sqrt(fLen);
        }
        /** Calculate the length in the XZ-Plane for this 3D Vector
            @return The XZ-Plane Length of the 3D Vector
@@ -194,20 +182,6 @@ namespace basegfx
        */
        B3DVector& normalize();
        /** Test if this 3D Vector is normalized
            @return
            true if lenth of vector is equal to 1.0
            false else
        */
        bool isNormalized() const
        {
            const double fOne(1.0);
            const double fScalar(scalar(*this));
            return (::basegfx::fTools::equal(fOne, fScalar));
        }
        /** get a 3D Vector which is perpendicular to this and a given 3D Vector
            @attention This only works if this and the given 3D Vector are
--- a/sax/inc/xml2utf.hxx
+++ b/sax/inc/xml2utf.hxx
@@ -56,10 +56,6 @@ public:
    Unicode2TextConverter( rtl_TextEncoding encoding );
    ~Unicode2TextConverter();
    inline ::com::sun::star::uno::Sequence<sal_Int8> convert( const OUString &s )
        {
            return convert( s.getStr() , s.getLength() );
        }
    ::com::sun::star::uno::Sequence<sal_Int8> convert( const sal_Unicode * , sal_Int32 nLength );
    bool canContinue() {  return m_bCanContinue; }
--- a/shell/inc/internal/i_xml_parser_event_handler.hxx
+++ b/shell/inc/internal/i_xml_parser_event_handler.hxx
@@ -40,10 +40,6 @@ class i_xml_parser_event_handler
 public:
    virtual ~i_xml_parser_event_handler() {};
    virtual void start_document() = 0;
    virtual void end_document() = 0;
    virtual void start_element(
        const string_t& raw_name,
        const string_t& local_name,
@@ -59,9 +55,6 @@ public:
    virtual void ignore_whitespace(
        const string_t& whitespaces) = 0;
    virtual void processing_instruction(
        const string_t& target, const string_t& data) = 0;
    virtual void comment(const string_t& comment) = 0;
 };
--- a/shell/source/unix/sysshell/recently_used_file_handler.cxx
+++ b/shell/source/unix/sysshell/recently_used_file_handler.cxx
@@ -266,16 +266,9 @@ namespace /* private */ {
                current_element_ += character;
        }
        virtual void start_document() SAL_OVERRIDE {}
        virtual void end_document() SAL_OVERRIDE   {}
        virtual void ignore_whitespace(const string_t& /*whitespaces*/) SAL_OVERRIDE
        {}
        virtual void processing_instruction(
            const string_t& /*target*/, const string_t& /*data*/) SAL_OVERRIDE
        {}
        virtual void comment(const string_t& /*comment*/) SAL_OVERRIDE
        {}
    private:
--- a/stoc/source/corereflection/base.hxx
+++ b/stoc/source/corereflection/base.hxx
@@ -159,10 +159,6 @@ public:
        { return _pTypeDescr; }
    IdlReflectionServiceImpl *  getReflection() const
        { return _pReflection; }
    css::uno::Reference< css::lang::XMultiServiceFactory > getSMgr() const
        { return _pReflection->getSMgr(); }
    css::uno::Reference< css::container::XHierarchicalNameAccess > getTDMgr() const
        { return getReflection()->getTDMgr(); }
    // Ctor
    IdlClassImpl( IdlReflectionServiceImpl * pReflection,
@@ -346,8 +342,6 @@ protected:
 public:
    IdlReflectionServiceImpl *  getReflection() const
        { return _pReflection; }
    css::uno::Reference< css::lang::XMultiServiceFactory > getSMgr() const
        { return _pReflection->getSMgr(); }
    typelib_TypeDescription *   getTypeDescr() const
        { return _pTypeDescr; }
    typelib_TypeDescription *   getDeclTypeDescr() const
--- a/stoc/source/javavm/javavm.hxx
+++ b/stoc/source/javavm/javavm.hxx
@@ -128,9 +128,6 @@ private:
    virtual void SAL_CALL disposing() SAL_OVERRIDE;
    JavaVM * createJavaVM(JVM const & jvm, JNIEnv ** pMainThreadEnv);
        // throws css::uno::RuntimeException
    void registerConfigChangesListener();
    void setINetSettingsInVM(bool set_reset);