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IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF * THE POSSIBILITY OF SUCH DAMAGE. */ /** \file Mv.cpp \brief motion vector class */ #include "Mv.h" #include "Common.h" #include "Slice.h" const MvPrecision Mv::m_amvrPrecision[4] = { MvPrecision::QUARTER, MvPrecision::ONE, MvPrecision::FOUR, MvPrecision::HALF }; // for cu.imv=0, 1, 2 and 3 const MvPrecision Mv::m_amvrPrecAffine[3] = { MvPrecision::QUARTER, MvPrecision::SIXTEENTH, MvPrecision::ONE }; // for cu.imv=0, 1 and 2 const MvPrecision Mv::m_amvrPrecIbc[3] = { MvPrecision::ONE, MvPrecision::ONE, MvPrecision::FOUR }; // for cu.imv=0, 1 and 2 void (*clipMv) ( Mv& rcMv, const struct Position& pos, const struct Size& size, const class SPS& sps, const class PPS& pps ); void clipMvInPic ( Mv& rcMv, const struct Position& pos, const struct Size& size, const class SPS& sps, const class PPS& pps ) { if (pps.getWrapAroundEnabledFlag()) { wrapClipMv(rcMv, pos, size, &sps, &pps); return; } int mvShift = MV_FRACTIONAL_BITS_INTERNAL; const int offset = PIC_MARGIN / 2; int horMax = (pps.getPicWidthInLumaSamples() + offset - (int) pos.x - 1) << mvShift; int horMin = (-(int) sps.getMaxCUWidth() - offset - (int) pos.x + 1) * (1 << mvShift); int verMax = (pps.getPicHeightInLumaSamples() + offset - (int) pos.y - 1) << mvShift; int verMin = (-(int) sps.getMaxCUHeight() - offset - (int) pos.y + 1) * (1 << mvShift); // Keep LSBs such as to not change filter phase const int mask = (1 << MV_FRACTIONAL_BITS_INTERNAL) - 1; rcMv.setHor(std::min(horMax, std::max(horMin, rcMv.getHor())) | (rcMv.getHor() & mask)); rcMv.setVer(std::min(verMax, std::max(verMin, rcMv.getVer())) | (rcMv.getVer() & mask)); } void clipMvInSubpic ( Mv& rcMv, const struct Position& pos, const struct Size& size, const class SPS& sps, const class PPS& pps ) { if (pps.getWrapAroundEnabledFlag()) { wrapClipMv(rcMv, pos, size, &sps, &pps); return; } int mvShift = MV_FRACTIONAL_BITS_INTERNAL; const int offset = PIC_MARGIN / 2; int horMax = (pps.getPicWidthInLumaSamples() + offset - (int) pos.x - 1) << mvShift; int horMin = (-(int) sps.getMaxCUWidth() - offset - (int) pos.x + 1) * (1 << mvShift); int verMax = (pps.getPicHeightInLumaSamples() + offset - (int) pos.y - 1) << mvShift; int verMin = (-(int) sps.getMaxCUHeight() - offset - (int) pos.y + 1) * (1 << mvShift); const SubPic& curSubPic = pps.getSubPicFromPos(pos); if (curSubPic.getTreatedAsPicFlag()) { horMax = ((curSubPic.getSubPicRight() + 1) + offset - (int) pos.x - 1) << mvShift; horMin = (-(int) sps.getMaxCUWidth() - offset - ((int) pos.x - curSubPic.getSubPicLeft()) + 1) * (1 << mvShift); verMax = ((curSubPic.getSubPicBottom() + 1) + offset - (int) pos.y - 1) << mvShift; verMin = (-(int) sps.getMaxCUHeight() - offset - ((int) pos.y - curSubPic.getSubPicTop()) + 1) * (1 << mvShift); } // Keep LSBs such as to not change filter phase const int mask = (1 << MV_FRACTIONAL_BITS_INTERNAL) - 1; rcMv.setHor(std::min(horMax, std::max(horMin, rcMv.getHor())) | (rcMv.getHor() & mask)); rcMv.setVer(std::min(verMax, std::max(verMin, rcMv.getVer())) | (rcMv.getVer() & mask)); } bool wrapClipMv( Mv& rcMv, const Position& pos, const struct Size& size, const SPS *sps, const PPS *pps ) { bool wrapRef = true; const int mvShift = MV_FRACTIONAL_BITS_INTERNAL; const int offset = PIC_MARGIN / 2; int horMax = (pps->getPicWidthInLumaSamples() + sps->getMaxCUWidth() - size.width + offset - (int) pos.x - 1) << mvShift; int horMin = (-(int) sps->getMaxCUWidth() - offset - (int) pos.x + 1) * (1 << mvShift); int verMax = (pps->getPicHeightInLumaSamples() + offset - (int) pos.y - 1) << mvShift; int verMin = (-(int) sps->getMaxCUHeight() - offset - (int) pos.y + 1) * (1 << mvShift); const SubPic& curSubPic = pps->getSubPicFromPos( pos ); if( curSubPic.getTreatedAsPicFlag() ) { verMax = ((curSubPic.getSubPicBottom() + 1) + offset - (int) pos.y - 1) << mvShift; verMin = (-(int) sps->getMaxCUHeight() - offset - ((int) pos.y - curSubPic.getSubPicTop()) + 1) * (1 << mvShift); } int mvX = rcMv.getHor(); if (mvX > horMax) { mvX -= pps->getWrapAroundOffset() << mvShift; wrapRef = false; } if (mvX < horMin) { mvX += pps->getWrapAroundOffset() << mvShift; wrapRef = false; } // Keep LSBs such as to not change filter phase const int mask = (1 << MV_FRACTIONAL_BITS_INTERNAL) - 1; rcMv.setHor(std::min(horMax, std::max(horMin, mvX)) | (mvX & mask)); rcMv.setVer(std::min(verMax, std::max(verMin, rcMv.getVer())) | (rcMv.getVer() & mask)); return wrapRef; } //! \}