Пример #1
0
void
sp_gradient_pattern_common_setup(cairo_pattern_t *cp,
                                 SPGradient *gr,
                                 Geom::OptRect const &bbox,
                                 double opacity)
{
    // set spread type
    switch (gr->getSpread()) {
    case SP_GRADIENT_SPREAD_REFLECT:
        cairo_pattern_set_extend(cp, CAIRO_EXTEND_REFLECT);
        break;
    case SP_GRADIENT_SPREAD_REPEAT:
        cairo_pattern_set_extend(cp, CAIRO_EXTEND_REPEAT);
        break;
    case SP_GRADIENT_SPREAD_PAD:
    default:
        cairo_pattern_set_extend(cp, CAIRO_EXTEND_PAD);
        break;
    }

    // add stops
    for (std::vector<SPGradientStop>::iterator i = gr->vector.stops.begin();
         i != gr->vector.stops.end(); ++i)
    {
        // multiply stop opacity by paint opacity
        cairo_pattern_add_color_stop_rgba(cp, i->offset,
            i->color.v.c[0], i->color.v.c[1], i->color.v.c[2], i->opacity * opacity);
    }

    // set pattern matrix
    Geom::Affine gs2user = gr->gradientTransform;
    if (gr->getUnits() == SP_GRADIENT_UNITS_OBJECTBOUNDINGBOX && bbox) {
        Geom::Affine bbox2user(bbox->width(), 0, 0, bbox->height(), bbox->left(), bbox->top());
        gs2user *= bbox2user;
    }
    ink_cairo_pattern_set_matrix(cp, gs2user.inverse());
}
Пример #2
0
void font_instance::LoadGlyph(int glyph_id)
{
    if ( pFont == NULL ) {
        return;
    }
    InitTheFace();
#ifndef USE_PANGO_WIN32
    if ( !FT_IS_SCALABLE(theFace) ) {
        return; // bitmap font
    }
#endif

    if ( id_to_no.find(glyph_id) == id_to_no.end() ) {
        Geom::PathBuilder path_builder;

        if ( nbGlyph >= maxGlyph ) {
            maxGlyph=2*nbGlyph+1;
            glyphs=(font_glyph*)realloc(glyphs,maxGlyph*sizeof(font_glyph));
        }
        font_glyph  n_g;
        n_g.pathvector=NULL;
        n_g.bbox[0]=n_g.bbox[1]=n_g.bbox[2]=n_g.bbox[3]=0;
        n_g.h_advance = 0;
        n_g.v_advance = 0;
        n_g.h_width = 0;
        n_g.v_width = 0;
        bool   doAdd=false;

#ifdef USE_PANGO_WIN32

#ifndef GGO_UNHINTED         // For compatibility with old SDKs.
#define GGO_UNHINTED 0x0100
#endif

        MAT2 identity = {{0,1},{0,0},{0,0},{0,1}};
        OUTLINETEXTMETRIC otm;
        GetOutlineTextMetrics(daddy->hScreenDC, sizeof(otm), &otm);
        GLYPHMETRICS metrics;
        DWORD bufferSize=GetGlyphOutline (daddy->hScreenDC, glyph_id, GGO_GLYPH_INDEX | GGO_NATIVE | GGO_UNHINTED, &metrics, 0, NULL, &identity);
        double scale=1.0/daddy->fontSize;
        n_g.h_advance=metrics.gmCellIncX*scale;
        n_g.v_advance=otm.otmTextMetrics.tmHeight*scale;
        n_g.h_width=metrics.gmBlackBoxX*scale;
        n_g.v_width=metrics.gmBlackBoxY*scale;
        if ( bufferSize == GDI_ERROR) {
            // shit happened
        } else if ( bufferSize == 0) {
            // character has no visual representation, but is valid (eg whitespace)
            doAdd=true;
        } else {
            char *buffer = new char[bufferSize];
            if ( GetGlyphOutline (daddy->hScreenDC, glyph_id, GGO_GLYPH_INDEX | GGO_NATIVE | GGO_UNHINTED, &metrics, bufferSize, buffer, &identity) <= 0 ) {
                // shit happened
            } else {
                // Platform SDK is rubbish, read KB87115 instead
                DWORD polyOffset=0;
                while ( polyOffset < bufferSize ) {
                    TTPOLYGONHEADER const *polyHeader=(TTPOLYGONHEADER const *)(buffer+polyOffset);
                    if (polyOffset+polyHeader->cb > bufferSize) break;

                    if (polyHeader->dwType == TT_POLYGON_TYPE) {
                        path_builder.moveTo(pointfx_to_nrpoint(polyHeader->pfxStart, scale));
                        DWORD curveOffset=polyOffset+sizeof(TTPOLYGONHEADER);

                        while ( curveOffset < polyOffset+polyHeader->cb ) {
                            TTPOLYCURVE const *polyCurve=(TTPOLYCURVE const *)(buffer+curveOffset);
                            POINTFX const *p=polyCurve->apfx;
                            POINTFX const *endp=p+polyCurve->cpfx;

                            switch (polyCurve->wType) {
                            case TT_PRIM_LINE:
                                while ( p != endp )
                                    path_builder.lineTo(pointfx_to_nrpoint(*p++, scale));
                                break;

                            case TT_PRIM_QSPLINE:
                                {
                                    g_assert(polyCurve->cpfx >= 2);

                                    // The list of points specifies one or more control points and ends with the end point.
                                    // The intermediate points (on the curve) are the points between the control points.
                                    Geom::Point this_control = pointfx_to_nrpoint(*p++, scale);
                                    while ( p+1 != endp ) { // Process all "midpoints" (all points except the last)
                                        Geom::Point new_control = pointfx_to_nrpoint(*p++, scale);
                                        path_builder.quadTo(this_control, (new_control+this_control)/2);
                                        this_control = new_control;
                                    }
                                    Geom::Point end = pointfx_to_nrpoint(*p++, scale);
                                    path_builder.quadTo(this_control, end);
                                }
                                break;

                            case 3:  // TT_PRIM_CSPLINE
                                g_assert(polyCurve->cpfx % 3 == 0);
                                while ( p != endp ) {
                                    path_builder.curveTo(pointfx_to_nrpoint(p[0], scale),
                                                         pointfx_to_nrpoint(p[1], scale),
                                                         pointfx_to_nrpoint(p[2], scale));
                                    p += 3;
                                }
                                break;
                            }
                            curveOffset += sizeof(TTPOLYCURVE)+sizeof(POINTFX)*(polyCurve->cpfx-1);
                        }
                    }
                    polyOffset += polyHeader->cb;
                }
                doAdd=true;
            }
            delete [] buffer;
        }
#else
        if (FT_Load_Glyph (theFace, glyph_id, FT_LOAD_NO_SCALE | FT_LOAD_NO_HINTING | FT_LOAD_NO_BITMAP)) {
            // shit happened
        } else {
            if ( FT_HAS_HORIZONTAL(theFace) ) {
                n_g.h_advance=((double)theFace->glyph->metrics.horiAdvance)/((double)theFace->units_per_EM);
                n_g.h_width=((double)theFace->glyph->metrics.width)/((double)theFace->units_per_EM);
            } else {
                n_g.h_width=n_g.h_advance=((double)(theFace->bbox.xMax-theFace->bbox.xMin))/((double)theFace->units_per_EM);
            }
            if ( FT_HAS_VERTICAL(theFace) ) {
                n_g.v_advance=((double)theFace->glyph->metrics.vertAdvance)/((double)theFace->units_per_EM);
                n_g.v_width=((double)theFace->glyph->metrics.height)/((double)theFace->units_per_EM);
            } else {
                n_g.v_width=n_g.v_advance=((double)theFace->height)/((double)theFace->units_per_EM);
            }
            if ( theFace->glyph->format == ft_glyph_format_outline ) {
                FT_Outline_Funcs ft2_outline_funcs = {
                    ft2_move_to,
                    ft2_line_to,
                    ft2_conic_to,
                    ft2_cubic_to,
                    0, 0
                };
                FT2GeomData user(path_builder, 1.0/((double)theFace->units_per_EM));
                FT_Outline_Decompose (&theFace->glyph->outline, &ft2_outline_funcs, &user);
            }
            doAdd=true;
        }
#endif
        path_builder.finish();

        if ( doAdd ) {
            Geom::PathVector pv = path_builder.peek();
            // close all paths
            for (Geom::PathVector::iterator i = pv.begin(); i != pv.end(); ++i) {
                i->close();
            }
            if ( !pv.empty() ) {
                n_g.pathvector = new Geom::PathVector(pv);
                Geom::OptRect bounds = bounds_exact(*n_g.pathvector);
                if (bounds) {
                    n_g.bbox[0] = bounds->left();
                    n_g.bbox[1] = bounds->top();
                    n_g.bbox[2] = bounds->right();
                    n_g.bbox[3] = bounds->bottom();
                }
            }
            glyphs[nbGlyph]=n_g;
            id_to_no[glyph_id]=nbGlyph;
            nbGlyph++;
        }
    } else {
    }
}