#define __SP_CAIRO_RENDERER_C__ /** \file * Rendering with Cairo. */ /* * Author: * Miklos Erdelyi * * Copyright (C) 2006 Miklos Erdelyi * * Licensed under GNU GPL */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #ifdef HAVE_CAIRO_PDF #ifndef PANGO_ENABLE_BACKEND #define PANGO_ENABLE_BACKEND #endif #ifndef PANGO_ENABLE_ENGINE #define PANGO_ENABLE_ENGINE #endif #include #include #include #include #include #include #include #include #include #include "display/nr-arena.h" #include "display/nr-arena-item.h" #include "display/nr-arena-group.h" #include "display/curve.h" #include "display/canvas-bpath.h" #include "sp-item.h" #include "sp-item-group.h" #include "marker-status.h" #include "style.h" #include "sp-marker.h" #include "sp-linear-gradient.h" #include "sp-radial-gradient.h" #include "sp-root.h" #include "sp-shape.h" #include "sp-use.h" #include "sp-text.h" #include "sp-flowtext.h" #include "sp-image.h" #include "sp-symbol.h" #include "sp-pattern.h" #include "sp-mask.h" #include "sp-clippath.h" #include #include "cairo-renderer.h" #include "cairo-render-context.h" #include "extension/system.h" #include "io/sys.h" #include // include support for only the compiled-in surface types #ifdef CAIRO_HAS_PDF_SURFACE #include #endif #ifdef CAIRO_HAS_PS_SURFACE #include #endif //#define TRACE(_args) g_printf _args #define TRACE(_args) // FIXME: expose these from sp-clippath/mask.cpp struct SPClipPathView { SPClipPathView *next; unsigned int key; NRArenaItem *arenaitem; NRRect bbox; }; struct SPMaskView { SPMaskView *next; unsigned int key; NRArenaItem *arenaitem; NRRect bbox; }; namespace Inkscape { namespace Extension { namespace Internal { CairoRenderer::CairoRenderer(void) {} CairoRenderer::~CairoRenderer(void) { /* restore default signal handling for SIGPIPE */ #if !defined(_WIN32) && !defined(__WIN32__) (void) signal(SIGPIPE, SIG_DFL); #endif return; } CairoRenderContext* CairoRenderer::createContext(void) { CairoRenderContext *new_context = new CairoRenderContext(this); g_assert( new_context != NULL ); new_context->_state_stack = NULL; new_context->_state = NULL; // create initial render state CairoRenderState *state = new_context->_createState(); nr_matrix_set_identity(&state->transform); new_context->_state_stack = g_slist_prepend(new_context->_state_stack, state); new_context->_state = state; return new_context; } void CairoRenderer::destroyContext(CairoRenderContext *ctx) { delete ctx; } /* Here comes the rendering part which could be put into the 'render' methods of SPItems' */ /* The below functions are copy&pasted plus slightly modified from *_invoke_print functions. */ static void sp_item_invoke_render(SPItem *item, CairoRenderContext *ctx); static void sp_group_render(SPItem *item, CairoRenderContext *ctx); static void sp_use_render(SPItem *item, CairoRenderContext *ctx); static void sp_shape_render(SPItem *item, CairoRenderContext *ctx); static void sp_text_render(SPItem *item, CairoRenderContext *ctx); static void sp_flowtext_render(SPItem *item, CairoRenderContext *ctx); static void sp_image_render(SPItem *item, CairoRenderContext *ctx); static void sp_symbol_render(SPItem *item, CairoRenderContext *ctx); static void sp_shape_render (SPItem *item, CairoRenderContext *ctx) { NRRect pbox; SPShape *shape = SP_SHAPE(item); if (!shape->curve) return; /* fixme: Think (Lauris) */ sp_item_invoke_bbox(item, &pbox, NR::identity(), TRUE); NR::Matrix const i2d = sp_item_i2d_affine(item); SPStyle* style = SP_OBJECT_STYLE (item); CairoRenderer *renderer = ctx->getRenderer(); NRBPath bp; bp.path = SP_CURVE_BPATH(shape->curve); ctx->renderPath(&bp, style, &pbox); for (NArtBpath* bp = SP_CURVE_BPATH(shape->curve); bp->code != NR_END; bp++) { for (int m = SP_MARKER_LOC_START; m < SP_MARKER_LOC_QTY; m++) { if (sp_shape_marker_required (shape, m, bp)) { SPMarker* marker = SP_MARKER (shape->marker[m]); SPItem* marker_item = sp_item_first_item_child (SP_OBJECT (shape->marker[m])); NR::Matrix tr(sp_shape_marker_get_transform(shape, bp)); if (marker->markerUnits == SP_MARKER_UNITS_STROKEWIDTH) { tr = NR::scale(style->stroke_width.computed) * tr; } tr = marker_item->transform * marker->c2p * tr; NR::Matrix old_tr = marker_item->transform; marker_item->transform = tr; renderer->renderItem (ctx, marker_item); marker_item->transform = old_tr; } } } } static void sp_group_render(SPItem *item, CairoRenderContext *ctx) { SPGroup *group = SP_GROUP(item); CairoRenderer *renderer = ctx->getRenderer(); TRACE(("group op: %f\n", SP_SCALE24_TO_FLOAT(SP_OBJECT_STYLE(item)->opacity.value))); GSList *l = g_slist_reverse(group->childList(false)); while (l) { SPObject *o = SP_OBJECT (l->data); if (SP_IS_ITEM(o)) { renderer->renderItem (ctx, SP_ITEM (o)); } l = g_slist_remove (l, o); } } static void sp_use_render(SPItem *item, CairoRenderContext *ctx) { bool translated = false; NRMatrix tp; SPUse *use = SP_USE(item); CairoRenderer *renderer = ctx->getRenderer(); if ((use->x._set && use->x.computed != 0) || (use->y._set && use->y.computed != 0)) { nr_matrix_set_translate(&tp, use->x.computed, use->y.computed); ctx->pushState(); ctx->transform(&tp); translated = true; } if (use->child && SP_IS_ITEM(use->child)) { renderer->renderItem(ctx, SP_ITEM(use->child)); } if (translated) { ctx->popState(); } } static void sp_text_render(SPItem *item, CairoRenderContext *ctx) { SPText *group = SP_TEXT (item); group->layout.showGlyphs(ctx); } static void sp_flowtext_render(SPItem *item, CairoRenderContext *ctx) { SPFlowtext *group = SP_FLOWTEXT(item); group->layout.showGlyphs(ctx); } static void sp_image_render(SPItem *item, CairoRenderContext *ctx) { SPImage *image; NRMatrix tp, s, t; guchar *px; int w, h, rs; image = SP_IMAGE (item); if (!image->pixbuf) return; if ((image->width.computed <= 0.0) || (image->height.computed <= 0.0)) return; px = gdk_pixbuf_get_pixels (image->pixbuf); w = gdk_pixbuf_get_width (image->pixbuf); h = gdk_pixbuf_get_height (image->pixbuf); rs = gdk_pixbuf_get_rowstride (image->pixbuf); double x = image->x.computed; double y = image->y.computed; double width = image->width.computed; double height = image->height.computed; if (image->aspect_align != SP_ASPECT_NONE) { calculatePreserveAspectRatio (image->aspect_align, image->aspect_clip, (double)w, (double)h, &x, &y, &width, &height); } if (image->aspect_clip == SP_ASPECT_SLICE && !ctx->getCurrentState()->has_overflow) { ctx->addClippingRect(image->x.computed, image->y.computed, image->width.computed, image->height.computed); } nr_matrix_set_translate (&tp, x, y); nr_matrix_set_scale (&s, width / (double)w, height / (double)h); nr_matrix_multiply (&t, &s, &tp); ctx->renderImage (px, w, h, rs, &t, SP_OBJECT_STYLE (item)); } static void sp_symbol_render(SPItem *item, CairoRenderContext *ctx) { SPSymbol *symbol = SP_SYMBOL(item); if (!SP_OBJECT_IS_CLONED (symbol)) return; /* Cloned is actually renderable */ ctx->pushState(); ctx->transform(&symbol->c2p); // apply viewbox if set if (0 /*symbol->viewBox_set*/) { NRMatrix vb2user; double x, y, width, height; double view_width, view_height; x = 0.0; y = 0.0; width = 1.0; height = 1.0; view_width = symbol->viewBox.x1 - symbol->viewBox.x0; view_height = symbol->viewBox.y1 - symbol->viewBox.y0; calculatePreserveAspectRatio(symbol->aspect_align, symbol->aspect_clip, view_width, view_height, &x, &y,&width, &height); // [itemTransform *] translate(x, y) * scale(w/vw, h/vh) * translate(-vx, -vy); nr_matrix_set_identity(&vb2user); vb2user[0] = width / view_width; vb2user[3] = height / view_height; vb2user[4] = x - symbol->viewBox.x0 * vb2user[0]; vb2user[5] = y - symbol->viewBox.y0 * vb2user[3]; ctx->transform(&vb2user); } sp_group_render(item, ctx); ctx->popState(); } static void sp_root_render(SPItem *item, CairoRenderContext *ctx) { SPRoot *root = SP_ROOT(item); CairoRenderer *renderer = ctx->getRenderer(); if (!ctx->getCurrentState()->has_overflow && SP_OBJECT(item)->parent) ctx->addClippingRect(root->x.computed, root->y.computed, root->width.computed, root->height.computed); ctx->pushState(); renderer->setStateForItem(ctx, item); ctx->transform(root->c2p); sp_group_render(item, ctx); ctx->popState(); } static void sp_item_invoke_render(SPItem *item, CairoRenderContext *ctx) { if (SP_IS_ROOT(item)) { TRACE(("root\n")); return sp_root_render(item, ctx); } else if (SP_IS_GROUP(item)) { TRACE(("group\n")); return sp_group_render(item, ctx); } else if (SP_IS_SHAPE(item)) { TRACE(("shape\n")); return sp_shape_render(item, ctx); } else if (SP_IS_USE(item)) { TRACE(("use begin---\n")); sp_use_render(item, ctx); TRACE(("---use end\n")); } else if (SP_IS_SYMBOL(item)) { TRACE(("symbol\n")); return sp_symbol_render(item, ctx); } else if (SP_IS_TEXT(item)) { TRACE(("text\n")); return sp_text_render(item, ctx); } else if (SP_IS_FLOWTEXT(item)) { TRACE(("flowtext\n")); return sp_flowtext_render(item, ctx); } else if (SP_IS_IMAGE(item)) { TRACE(("image\n")); return sp_image_render(item, ctx); } } void CairoRenderer::setStateForItem(CairoRenderContext *ctx, SPItem const *item) { SPStyle const *style = SP_OBJECT_STYLE(item); ctx->setStateForStyle(style); CairoRenderState *state = ctx->getCurrentState(); state->clip_path = item->clip_ref->getObject(); state->mask = item->mask_ref->getObject(); // If parent_has_userspace is true the parent state's transform // has to be used for the mask's/clippath's context. // This is so because we use the image's/(flow)text's transform for positioning // instead of explicitly specifying it and letting the renderer do the // transformation before rendering the item. if (SP_IS_TEXT(item) || SP_IS_FLOWTEXT(item) || SP_IS_IMAGE(item)) state->parent_has_userspace = TRUE; TRACE(("set op: %f\n", state->opacity)); } void CairoRenderer::renderItem(CairoRenderContext *ctx, SPItem *item) { ctx->pushState(); setStateForItem(ctx, item); CairoRenderState *state = ctx->getCurrentState(); state->need_layer = ( state->mask || state->clip_path || state->opacity != 1.0 ); if (state->need_layer) { state->merge_opacity = FALSE; ctx->pushLayer(); } ctx->transform(item->transform); sp_item_invoke_render(item, ctx); if (state->need_layer) ctx->popLayer(); ctx->popState(); } bool CairoRenderer::setupDocument(CairoRenderContext *ctx, SPDocument *doc) { g_assert( ctx != NULL ); if (ctx->_vector_based_target) { // width and height in pt ctx->_width = sp_document_width(doc) * PT_PER_PX; ctx->_height = sp_document_height(doc) * PT_PER_PX; } else { ctx->_width = sp_document_width(doc); ctx->_height = sp_document_height(doc); } NRRect d; bool pageBoundingBox = true; if (pageBoundingBox) { d.x0 = d.y0 = 0; d.x1 = ceil(ctx->_width); d.y1 = ceil(ctx->_height); } else { SPItem* doc_item = SP_ITEM(sp_document_root(doc)); sp_item_invoke_bbox(doc_item, &d, sp_item_i2r_affine(doc_item), TRUE); if (ctx->_vector_based_target) { // convert from px to pt d.x0 *= PT_PER_PX; d.x1 *= PT_PER_PX; d.y0 *= PT_PER_PX; d.y1 *= PT_PER_PX; } } TRACE(("%f x %f\n", ctx->_width, ctx->_height)); return ctx->setupSurface(d.x1-d.x0, d.y1-d.y0); } #include "macros.h" // SP_PRINT_* void CairoRenderer::applyClipPath(CairoRenderContext *ctx, SPClipPath const *cp) { g_assert( ctx != NULL && ctx->_is_valid ); if (cp == NULL) return; CairoRenderContext::CairoRenderMode saved_mode = ctx->getRenderMode(); ctx->setRenderMode(CairoRenderContext::RENDER_MODE_CLIP); NRMatrix saved_ctm; if (cp->clipPathUnits == SP_CONTENT_UNITS_OBJECTBOUNDINGBOX) { NRMatrix t; //SP_PRINT_DRECT("clipd", cp->display->bbox); NRRect clip_bbox(cp->display->bbox); nr_matrix_set_scale(&t, clip_bbox.x1 - clip_bbox.x0, clip_bbox.y1 - clip_bbox.y0); t.c[4] = clip_bbox.x0; t.c[5] = clip_bbox.y0; nr_matrix_multiply(&t, &t, &ctx->getCurrentState()->transform); ctx->getTransform(&saved_ctm); ctx->setTransform(&t); } TRACE(("BEGIN clip\n")); SPObject *co = SP_OBJECT(cp); for (SPObject *child = sp_object_first_child(co) ; child != NULL; child = SP_OBJECT_NEXT(child) ) { if (SP_IS_ITEM(child)) { SPItem *item = SP_ITEM(child); renderItem(ctx, item); } } TRACE(("END clip\n")); // do clipping only if this was the first call to applyClipPath if (ctx->getClipMode() == CairoRenderContext::CLIP_MODE_PATH && saved_mode == CairoRenderContext::RENDER_MODE_NORMAL) cairo_clip(ctx->_cr); if (cp->clipPathUnits == SP_CONTENT_UNITS_OBJECTBOUNDINGBOX) ctx->setTransform(&saved_ctm); ctx->setRenderMode(saved_mode); } void CairoRenderer::applyMask(CairoRenderContext *ctx, SPMask const *mask) { g_assert( ctx != NULL && ctx->_is_valid ); if (mask == NULL) return; //SP_PRINT_DRECT("maskd", &mask->display->bbox); NRRect mask_bbox(mask->display->bbox); // TODO: should the bbox be transformed if maskUnits != userSpaceOnUse ? if (mask->maskContentUnits == SP_CONTENT_UNITS_OBJECTBOUNDINGBOX) { NRMatrix t; nr_matrix_set_scale(&t, mask_bbox.x1 - mask_bbox.x0, mask_bbox.y1 - mask_bbox.y0); t.c[4] = mask_bbox.x0; t.c[5] = mask_bbox.y0; nr_matrix_multiply(&t, &t, &ctx->getCurrentState()->transform); ctx->setTransform(&t); } // clip mask contents ctx->addClippingRect(mask_bbox.x0, mask_bbox.y0, mask_bbox.x1 - mask_bbox.x0, mask_bbox.y1 - mask_bbox.y0); ctx->pushState(); TRACE(("BEGIN mask\n")); SPObject *co = SP_OBJECT(mask); for (SPObject *child = sp_object_first_child(co) ; child != NULL; child = SP_OBJECT_NEXT(child) ) { if (SP_IS_ITEM(child)) { SPItem *item = SP_ITEM(child); renderItem(ctx, item); } } TRACE(("END mask\n")); ctx->popState(); } void calculatePreserveAspectRatio(unsigned int aspect_align, unsigned int aspect_clip, double vp_width, double vp_height, double *x, double *y, double *width, double *height) { if (aspect_align == SP_ASPECT_NONE) return; double scalex, scaley, scale; double new_width, new_height; scalex = *width / vp_width; scaley = *height / vp_height; scale = (aspect_clip == SP_ASPECT_MEET) ? MIN(scalex, scaley) : MAX(scalex, scaley); new_width = vp_width * scale; new_height = vp_height * scale; /* Now place viewbox to requested position */ switch (aspect_align) { case SP_ASPECT_XMIN_YMIN: break; case SP_ASPECT_XMID_YMIN: *x -= 0.5 * (new_width - *width); break; case SP_ASPECT_XMAX_YMIN: *x -= 1.0 * (new_width - *width); break; case SP_ASPECT_XMIN_YMID: *y -= 0.5 * (new_height - *height); break; case SP_ASPECT_XMID_YMID: *x -= 0.5 * (new_width - *width); *y -= 0.5 * (new_height - *height); break; case SP_ASPECT_XMAX_YMID: *x -= 1.0 * (new_width - *width); *y -= 0.5 * (new_height - *height); break; case SP_ASPECT_XMIN_YMAX: *y -= 1.0 * (new_height - *height); break; case SP_ASPECT_XMID_YMAX: *x -= 0.5 * (new_width - *width); *y -= 1.0 * (new_height - *height); break; case SP_ASPECT_XMAX_YMAX: *x -= 1.0 * (new_width - *width); *y -= 1.0 * (new_height - *height); break; default: break; } *width = new_width; *height = new_height; } #include "clear-n_.h" } /* namespace Internal */ } /* namespace Extension */ } /* namespace Inkscape */ #undef TRACE /* End of GNU GPL code */ #endif /* HAVE_CAIRO_PDF */ /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=99 :