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// SPDX-License-Identifier: MIT OR MPL-2.0 OR LGPL-2.1-or-later OR GPL-2.0-or-later
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// Copyright 2010, SIL International, All rights reserved.
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#include "inc/Segment.h"
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#include "inc/Slot.h"
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#include "inc/Silf.h"
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#include "inc/CharInfo.h"
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#include "inc/Rule.h"
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#include "inc/Collider.h"
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using namespace graphite2;
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Slot::Slot(int16 *user_attrs) :
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    m_next(NULL), m_prev(NULL),
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    m_glyphid(0), m_realglyphid(0), m_original(0), m_before(0), m_after(0),
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    m_index(0), m_parent(NULL), m_child(NULL), m_sibling(NULL),
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    m_position(0, 0), m_shift(0, 0), m_advance(0, 0),
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    m_attach(0, 0), m_with(0, 0), m_just(0.),
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    m_flags(0), m_attLevel(0), m_bidiCls(-1), m_bidiLevel(0),
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    m_userAttr(user_attrs), m_justs(NULL)
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{
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}
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// take care, this does not copy any of the GrSlot pointer fields
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void Slot::set(const Slot & orig, int charOffset, size_t sizeAttr, size_t justLevels, size_t numChars)
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{
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    // leave m_next and m_prev unchanged
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    m_glyphid = orig.m_glyphid;
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    m_realglyphid = orig.m_realglyphid;
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    m_original = orig.m_original + charOffset;
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    if (charOffset + int(orig.m_before) < 0)
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        m_before = 0;
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    else
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        m_before = orig.m_before + charOffset;
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    if (charOffset <= 0 && orig.m_after + charOffset >= numChars)
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        m_after = int(numChars) - 1;
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    else
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        m_after = orig.m_after + charOffset;
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    m_parent = NULL;
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    m_child = NULL;
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    m_sibling = NULL;
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    m_position = orig.m_position;
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    m_shift = orig.m_shift;
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    m_advance = orig.m_advance;
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    m_attach = orig.m_attach;
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    m_with = orig.m_with;
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    m_flags = orig.m_flags;
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    m_attLevel = orig.m_attLevel;
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    m_bidiCls = orig.m_bidiCls;
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    m_bidiLevel = orig.m_bidiLevel;
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    if (m_userAttr && orig.m_userAttr)
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        memcpy(m_userAttr, orig.m_userAttr, sizeAttr * sizeof(*m_userAttr));
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    if (m_justs && orig.m_justs)
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        memcpy(m_justs, orig.m_justs, SlotJustify::size_of(justLevels));
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}
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void Slot::update(int /*numGrSlots*/, int numCharInfo, Position &relpos)
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{
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    m_before += numCharInfo;
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    m_after += numCharInfo;
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    m_position = m_position + relpos;
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}
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Position Slot::finalise(const Segment *seg, const Font *font, Position & base, Rect & bbox, uint8 attrLevel, float & clusterMin, bool rtl, bool isFinal, int depth)
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{
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    SlotCollision *coll = NULL;
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    if (depth > 100 || (attrLevel && m_attLevel > attrLevel)) return Position(0, 0);
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    float scale = font ? font->scale() : 1.0f;
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    Position shift(m_shift.x * (rtl * -2 + 1) + m_just, m_shift.y);
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    float tAdvance = m_advance.x + m_just;
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    if (isFinal && (coll = seg->collisionInfo(this)))
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    {
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        const Position &collshift = coll->offset();
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        if (!(coll->flags() & SlotCollision::COLL_KERN) || rtl)
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            shift = shift + collshift;
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    }
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    const GlyphFace * glyphFace = seg->getFace()->glyphs().glyphSafe(glyph());
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    if (font)
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    {
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        scale = font->scale();
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        shift *= scale;
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        if (font->isHinted() && glyphFace)
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            tAdvance = (m_advance.x - glyphFace->theAdvance().x + m_just) * scale + font->advance(glyph());
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        else
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            tAdvance *= scale;
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    }
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    Position res;
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    m_position = base + shift;
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    if (!m_parent)
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    {
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        res = base + Position(tAdvance, m_advance.y * scale);
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        clusterMin = m_position.x;
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    }
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    else
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    {
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        float tAdv;
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        m_position += (m_attach - m_with) * scale;
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        tAdv = m_advance.x >= 0.5f ? m_position.x + tAdvance - shift.x : 0.f;
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        res = Position(tAdv, 0);
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        if ((m_advance.x >= 0.5f || m_position.x < 0) && m_position.x < clusterMin) clusterMin = m_position.x;
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    }
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    if (glyphFace)
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    {
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        Rect ourBbox = glyphFace->theBBox() * scale + m_position;
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        bbox = bbox.widen(ourBbox);
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    }
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    if (m_child && m_child != this && m_child->attachedTo() == this)
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    {
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        Position tRes = m_child->finalise(seg, font, m_position, bbox, attrLevel, clusterMin, rtl, isFinal, depth + 1);
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        if ((!m_parent || m_advance.x >= 0.5f) && tRes.x > res.x) res = tRes;
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    }
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    if (m_parent && m_sibling && m_sibling != this && m_sibling->attachedTo() == m_parent)
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    {
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        Position tRes = m_sibling->finalise(seg, font, base, bbox, attrLevel, clusterMin, rtl, isFinal, depth + 1);
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        if (tRes.x > res.x) res = tRes;
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    }
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    if (!m_parent && clusterMin < base.x)
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    {
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        Position adj = Position(m_position.x - clusterMin, 0.);
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        res += adj;
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        m_position += adj;
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        if (m_child) m_child->floodShift(adj);
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    }
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    return res;
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}
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int32 Slot::clusterMetric(const Segment *seg, uint8 metric, uint8 attrLevel, bool rtl)
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{
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    Position base;
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    if (glyph() >= seg->getFace()->glyphs().numGlyphs())
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        return 0;
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    Rect bbox = seg->theGlyphBBoxTemporary(glyph());
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    float clusterMin = 0.;
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    Position res = finalise(seg, NULL, base, bbox, attrLevel, clusterMin, rtl, false);
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    switch (metrics(metric))
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    {
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    case kgmetLsb :
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        return int32(bbox.bl.x);
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    case kgmetRsb :
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        return int32(res.x - bbox.tr.x);
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    case kgmetBbTop :
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        return int32(bbox.tr.y);
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    case kgmetBbBottom :
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        return int32(bbox.bl.y);
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    case kgmetBbLeft :
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        return int32(bbox.bl.x);
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    case kgmetBbRight :
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        return int32(bbox.tr.x);
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    case kgmetBbWidth :
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        return int32(bbox.tr.x - bbox.bl.x);
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    case kgmetBbHeight :
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        return int32(bbox.tr.y - bbox.bl.y);
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    case kgmetAdvWidth :
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        return int32(res.x);
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    case kgmetAdvHeight :
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        return int32(res.y);
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    default :
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        return 0;
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    }
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}
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#define SLOTGETCOLATTR(x) { SlotCollision *c = seg->collisionInfo(this); return c ? int(c-> x) : 0; }
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int Slot::getAttr(const Segment *seg, attrCode ind, uint8 subindex) const
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{
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    if (ind >= gr_slatJStretch && ind < gr_slatJStretch + 20 && ind != gr_slatJWidth)
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    {
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        int indx = ind - gr_slatJStretch;
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        return getJustify(seg, indx / 5, indx % 5);
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    }
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    switch (ind)
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    {
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    case gr_slatAdvX :      return int(m_advance.x);
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    case gr_slatAdvY :      return int(m_advance.y);
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    case gr_slatAttTo :     return m_parent ? 1 : 0;
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    case gr_slatAttX :      return int(m_attach.x);
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    case gr_slatAttY :      return int(m_attach.y);
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    case gr_slatAttXOff :
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    case gr_slatAttYOff :   return 0;
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    case gr_slatAttWithX :  return int(m_with.x);
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    case gr_slatAttWithY :  return int(m_with.y);
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    case gr_slatAttWithXOff:
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    case gr_slatAttWithYOff:return 0;
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    case gr_slatAttLevel :  return m_attLevel;
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    case gr_slatBreak :     return seg->charinfo(m_original)->breakWeight();
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    case gr_slatCompRef :   return 0;
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    case gr_slatDir :       return seg->dir() & 1;
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    case gr_slatInsert :    return isInsertBefore();
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    case gr_slatPosX :      return int(m_position.x); // but need to calculate it
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    case gr_slatPosY :      return int(m_position.y);
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    case gr_slatShiftX :    return int(m_shift.x);
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    case gr_slatShiftY :    return int(m_shift.y);
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    case gr_slatMeasureSol: return -1; // err what's this?
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    case gr_slatMeasureEol: return -1;
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    case gr_slatJWidth:     return int(m_just);
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    case gr_slatUserDefnV1: subindex = 0; GR_FALLTHROUGH;
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      // no break
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    case gr_slatUserDefn :  return subindex < seg->numAttrs() ?  m_userAttr[subindex] : 0;
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    case gr_slatSegSplit :  return seg->charinfo(m_original)->flags() & 3;
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    case gr_slatBidiLevel:  return m_bidiLevel;
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    case gr_slatColFlags :		{ SlotCollision *c = seg->collisionInfo(this); return c ? c->flags() : 0; }
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    case gr_slatColLimitblx:SLOTGETCOLATTR(limit().bl.x)
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    case gr_slatColLimitbly:SLOTGETCOLATTR(limit().bl.y)
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    case gr_slatColLimittrx:SLOTGETCOLATTR(limit().tr.x)
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    case gr_slatColLimittry:SLOTGETCOLATTR(limit().tr.y)
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    case gr_slatColShiftx :	SLOTGETCOLATTR(offset().x)
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    case gr_slatColShifty :	SLOTGETCOLATTR(offset().y)
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    case gr_slatColMargin :	SLOTGETCOLATTR(margin())
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    case gr_slatColMarginWt:SLOTGETCOLATTR(marginWt())
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    case gr_slatColExclGlyph:SLOTGETCOLATTR(exclGlyph())
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    case gr_slatColExclOffx:SLOTGETCOLATTR(exclOffset().x)
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    case gr_slatColExclOffy:SLOTGETCOLATTR(exclOffset().y)
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    case gr_slatSeqClass :	SLOTGETCOLATTR(seqClass())
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    case gr_slatSeqProxClass:SLOTGETCOLATTR(seqProxClass())
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    case gr_slatSeqOrder :	SLOTGETCOLATTR(seqOrder())
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    case gr_slatSeqAboveXoff:SLOTGETCOLATTR(seqAboveXoff())
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    case gr_slatSeqAboveWt: SLOTGETCOLATTR(seqAboveWt())
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    case gr_slatSeqBelowXlim:SLOTGETCOLATTR(seqBelowXlim())
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    case gr_slatSeqBelowWt:	SLOTGETCOLATTR(seqBelowWt())
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    case gr_slatSeqValignHt:SLOTGETCOLATTR(seqValignHt())
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    case gr_slatSeqValignWt:SLOTGETCOLATTR(seqValignWt())
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    default : return 0;
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    }
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}
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#define SLOTCOLSETATTR(x) { \
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        SlotCollision *c = seg->collisionInfo(this); \
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        if (c) { c-> x ; c->setFlags(c->flags() & ~SlotCollision::COLL_KNOWN); } \
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        break; }
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#define SLOTCOLSETCOMPLEXATTR(t, y, x) { \
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        SlotCollision *c = seg->collisionInfo(this); \
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        if (c) { \
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        const t &s = c-> y; \
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        c-> x ; c->setFlags(c->flags() & ~SlotCollision::COLL_KNOWN); } \
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        break; }
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void Slot::setAttr(Segment *seg, attrCode ind, uint8 subindex, int16 value, const SlotMap & map)
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{
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    if (ind == gr_slatUserDefnV1)
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    {
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        ind = gr_slatUserDefn;
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        subindex = 0;
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        if (seg->numAttrs() == 0)
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            return;
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    }
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    else if (ind >= gr_slatJStretch && ind < gr_slatJStretch + 20 && ind != gr_slatJWidth)
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    {
256
        int indx = ind - gr_slatJStretch;
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        return setJustify(seg, indx / 5, indx % 5, value);
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    }
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260
    switch (ind)
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    {
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    case gr_slatAdvX :  m_advance.x = value; break;
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    case gr_slatAdvY :  m_advance.y = value; break;
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    case gr_slatAttTo :
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    {
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        const uint16 idx = uint16(value);
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        if (idx < map.size() && map[idx])
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        {
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            Slot *other = map[idx];
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            if (other == this || other == m_parent || other->isCopied()) break;
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            if (m_parent) { m_parent->removeChild(this); attachTo(NULL); }
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            Slot *pOther = other;
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            int count = 0;
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            bool foundOther = false;
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            while (pOther)
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            {
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                ++count;
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                if (pOther == this) foundOther = true;
279
                pOther = pOther->attachedTo();
280
            }
281
            for (pOther = m_child; pOther; pOther = pOther->m_child)
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                ++count;
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            for (pOther = m_sibling; pOther; pOther = pOther->m_sibling)
284
                ++count;
285
            if (count < 100 && !foundOther && other->child(this))
286
            {
287
                attachTo(other);
288
                if ((map.dir() != 0) ^ (idx > subindex))
289
                    m_with = Position(advance(), 0);
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                else        // normal match to previous root
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                    m_attach = Position(other->advance(), 0);
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            }
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        }
294
        break;
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    }
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    case gr_slatAttX :          m_attach.x = value; break;
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    case gr_slatAttY :          m_attach.y = value; break;
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    case gr_slatAttXOff :
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    case gr_slatAttYOff :       break;
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    case gr_slatAttWithX :      m_with.x = value; break;
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    case gr_slatAttWithY :      m_with.y = value; break;
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    case gr_slatAttWithXOff :
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    case gr_slatAttWithYOff :   break;
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    case gr_slatAttLevel :
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        m_attLevel = byte(value);
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        break;
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    case gr_slatBreak :
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        seg->charinfo(m_original)->breakWeight(value);
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        break;
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    case gr_slatCompRef :   break;      // not sure what to do here
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    case gr_slatDir : break;
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    case gr_slatInsert :
313
        markInsertBefore(value? true : false);
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        break;
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    case gr_slatPosX :      break; // can't set these here
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    case gr_slatPosY :      break;
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    case gr_slatShiftX :    m_shift.x = value; break;
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    case gr_slatShiftY :    m_shift.y = value; break;
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    case gr_slatMeasureSol :    break;
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    case gr_slatMeasureEol :    break;
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    case gr_slatJWidth :    just(value); break;
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    case gr_slatSegSplit :  seg->charinfo(m_original)->addflags(value & 3); break;
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    case gr_slatUserDefn :  m_userAttr[subindex] = value; break;
324
    case gr_slatColFlags :  {
325
        SlotCollision *c = seg->collisionInfo(this);
326
        if (c)
327
            c->setFlags(value);
328
        break; }
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    case gr_slatColLimitblx :	SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(Position(value, s.bl.y), s.tr)))
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    case gr_slatColLimitbly :	SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(Position(s.bl.x, value), s.tr)))
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    case gr_slatColLimittrx :	SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(s.bl, Position(value, s.tr.y))))
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    case gr_slatColLimittry :	SLOTCOLSETCOMPLEXATTR(Rect, limit(), setLimit(Rect(s.bl, Position(s.tr.x, value))))
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    case gr_slatColMargin :		SLOTCOLSETATTR(setMargin(value))
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    case gr_slatColMarginWt :	SLOTCOLSETATTR(setMarginWt(value))
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    case gr_slatColExclGlyph :	SLOTCOLSETATTR(setExclGlyph(value))
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    case gr_slatColExclOffx :	SLOTCOLSETCOMPLEXATTR(Position, exclOffset(), setExclOffset(Position(value, s.y)))
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    case gr_slatColExclOffy :	SLOTCOLSETCOMPLEXATTR(Position, exclOffset(), setExclOffset(Position(s.x, value)))
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    case gr_slatSeqClass :		SLOTCOLSETATTR(setSeqClass(value))
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	case gr_slatSeqProxClass :	SLOTCOLSETATTR(setSeqProxClass(value))
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    case gr_slatSeqOrder :		SLOTCOLSETATTR(setSeqOrder(value))
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    case gr_slatSeqAboveXoff :	SLOTCOLSETATTR(setSeqAboveXoff(value))
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    case gr_slatSeqAboveWt :	SLOTCOLSETATTR(setSeqAboveWt(value))
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    case gr_slatSeqBelowXlim :	SLOTCOLSETATTR(setSeqBelowXlim(value))
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    case gr_slatSeqBelowWt :	SLOTCOLSETATTR(setSeqBelowWt(value))
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    case gr_slatSeqValignHt :	SLOTCOLSETATTR(setSeqValignHt(value))
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    case gr_slatSeqValignWt :	SLOTCOLSETATTR(setSeqValignWt(value))
347
    default :
348
        break;
349
    }
350
}
351

352
int Slot::getJustify(const Segment *seg, uint8 level, uint8 subindex) const
353
{
354
    if (level && level >= seg->silf()->numJustLevels()) return 0;
355

356
    if (m_justs)
357
        return m_justs->values[level * SlotJustify::NUMJUSTPARAMS + subindex];
358

359
    if (level >= seg->silf()->numJustLevels()) return 0;
360
    Justinfo *jAttrs = seg->silf()->justAttrs() + level;
361

362
    switch (subindex) {
363
        case 0 : return seg->glyphAttr(gid(), jAttrs->attrStretch());
364
        case 1 : return seg->glyphAttr(gid(), jAttrs->attrShrink());
365
        case 2 : return seg->glyphAttr(gid(), jAttrs->attrStep());
366
        case 3 : return seg->glyphAttr(gid(), jAttrs->attrWeight());
367
        case 4 : return 0;      // not been set yet, so clearly 0
368
        default: return 0;
369
    }
370
}
371

372
void Slot::setJustify(Segment *seg, uint8 level, uint8 subindex, int16 value)
373
{
374
    if (level && level >= seg->silf()->numJustLevels()) return;
375
    if (!m_justs)
376
    {
377
        SlotJustify *j = seg->newJustify();
378
        if (!j) return;
379
        j->LoadSlot(this, seg);
380
        m_justs = j;
381
    }
382
    m_justs->values[level * SlotJustify::NUMJUSTPARAMS + subindex] = value;
383
}
384

385
bool Slot::child(Slot *ap)
386
{
387
    if (this == ap) return false;
388
    else if (ap == m_child) return true;
389
    else if (!m_child)
390
        m_child = ap;
391
    else
392
        return m_child->sibling(ap);
393
    return true;
394
}
395

396
bool Slot::sibling(Slot *ap)
397
{
398
    if (this == ap) return false;
399
    else if (ap == m_sibling) return true;
400
    else if (!m_sibling || !ap)
401
        m_sibling = ap;
402
    else
403
        return m_sibling->sibling(ap);
404
    return true;
405
}
406

407
bool Slot::removeChild(Slot *ap)
408
{
409
    if (this == ap || !m_child || !ap) return false;
410
    else if (ap == m_child)
411
    {
412
        Slot *nSibling = m_child->nextSibling();
413
        m_child->nextSibling(NULL);
414
        m_child = nSibling;
415
        return true;
416
    }
417
    for (Slot *p = m_child; p; p = p->m_sibling)
418
    {
419
        if (p->m_sibling && p->m_sibling == ap)
420
        {
421
            p->m_sibling = p->m_sibling->m_sibling;
422
            ap->nextSibling(NULL);
423
            return true;
424
        }
425
    }
426
    return false;
427
}
428

429
void Slot::setGlyph(Segment *seg, uint16 glyphid, const GlyphFace * theGlyph)
430
{
431
    m_glyphid = glyphid;
432
    m_bidiCls = -1;
433
    if (!theGlyph)
434
    {
435
        theGlyph = seg->getFace()->glyphs().glyphSafe(glyphid);
436
        if (!theGlyph)
437
        {
438
            m_realglyphid = 0;
439
            m_advance = Position(0.,0.);
440
            return;
441
        }
442
    }
443
    m_realglyphid = theGlyph->attrs()[seg->silf()->aPseudo()];
444
    if (m_realglyphid > seg->getFace()->glyphs().numGlyphs())
445
        m_realglyphid = 0;
446
    const GlyphFace *aGlyph = theGlyph;
447
    if (m_realglyphid)
448
    {
449
        aGlyph = seg->getFace()->glyphs().glyphSafe(m_realglyphid);
450
        if (!aGlyph) aGlyph = theGlyph;
451
    }
452
    m_advance = Position(aGlyph->theAdvance().x, 0.);
453
    if (seg->silf()->aPassBits())
454
    {
455
        seg->mergePassBits(uint8(theGlyph->attrs()[seg->silf()->aPassBits()]));
456
        if (seg->silf()->numPasses() > 16)
457
            seg->mergePassBits(theGlyph->attrs()[seg->silf()->aPassBits()+1] << 16);
458
    }
459
}
460

461
void Slot::floodShift(Position adj, int depth)
462
{
463
    if (depth > 100)
464
        return;
465
    m_position += adj;
466
    if (m_child) m_child->floodShift(adj, depth + 1);
467
    if (m_sibling) m_sibling->floodShift(adj, depth + 1);
468
}
469

470
void SlotJustify::LoadSlot(const Slot *s, const Segment *seg)
471
{
472
    for (int i = seg->silf()->numJustLevels() - 1; i >= 0; --i)
473
    {
474
        Justinfo *justs = seg->silf()->justAttrs() + i;
475
        int16 *v = values + i * NUMJUSTPARAMS;
476
        v[0] = seg->glyphAttr(s->gid(), justs->attrStretch());
477
        v[1] = seg->glyphAttr(s->gid(), justs->attrShrink());
478
        v[2] = seg->glyphAttr(s->gid(), justs->attrStep());
479
        v[3] = seg->glyphAttr(s->gid(), justs->attrWeight());
480
    }
481
}
482

483
Slot * Slot::nextInCluster(const Slot *s) const
484
{
485
    Slot *base;
486
    if (s->firstChild())
487
        return s->firstChild();
488
    else if (s->nextSibling())
489
        return s->nextSibling();
490
    while ((base = s->attachedTo()))
491
    {
492
        // if (base->firstChild() == s && base->nextSibling())
493
        if (base->nextSibling())
494
            return base->nextSibling();
495
        s = base;
496
    }
497
    return NULL;
498
}
499

500
bool Slot::isChildOf(const Slot *base) const
501
{
502
    for (Slot *p = m_parent; p; p = p->m_parent)
503
        if (p == base)
504
            return true;
505
    return false;
506
}
507

508