#define __NR_ARENA_IMAGE_C__ /* * RGBA display list system for inkscape * * Author: * Lauris Kaplinski * * Copyright (C) 2001-2002 Lauris Kaplinski * Copyright (C) 2001 Ximian, Inc. * * Released under GNU GPL, read the file 'COPYING' for more information */ #include #include <2geom/transforms.h> #include #include "../preferences.h" #include "nr-arena-image.h" #include "style.h" #include "display/nr-arena.h" #include "display/nr-filter.h" #include "display/nr-filter-gaussian.h" #include "sp-filter.h" #include "sp-filter-reference.h" #include "sp-gaussian-blur.h" #include "filters/blend.h" #include "display/nr-filter-blend.h" int nr_arena_image_x_sample = 1; int nr_arena_image_y_sample = 1; /* * NRArenaCanvasImage * */ static void nr_arena_image_class_init (NRArenaImageClass *klass); static void nr_arena_image_init (NRArenaImage *image); static void nr_arena_image_finalize (NRObject *object); static unsigned int nr_arena_image_update (NRArenaItem *item, NRRectL *area, NRGC *gc, unsigned int state, unsigned int reset); static unsigned int nr_arena_image_render (cairo_t *ct, NRArenaItem *item, NRRectL *area, NRPixBlock *pb, unsigned int flags); static NRArenaItem *nr_arena_image_pick (NRArenaItem *item, Geom::Point p, double delta, unsigned int sticky); static NRArenaItemClass *parent_class; NRType nr_arena_image_get_type (void) { static NRType type = 0; if (!type) { type = nr_object_register_type (NR_TYPE_ARENA_ITEM, "NRArenaImage", sizeof (NRArenaImageClass), sizeof (NRArenaImage), (void (*) (NRObjectClass *)) nr_arena_image_class_init, (void (*) (NRObject *)) nr_arena_image_init); } return type; } static void nr_arena_image_class_init (NRArenaImageClass *klass) { NRObjectClass *object_class; NRArenaItemClass *item_class; object_class = (NRObjectClass *) klass; item_class = (NRArenaItemClass *) klass; parent_class = (NRArenaItemClass *) ((NRObjectClass *) klass)->parent; object_class->finalize = nr_arena_image_finalize; object_class->cpp_ctor = NRObject::invoke_ctor; item_class->update = nr_arena_image_update; item_class->render = nr_arena_image_render; item_class->pick = nr_arena_image_pick; } static void nr_arena_image_init (NRArenaImage *image) { image->px = NULL; image->pxw = image->pxh = image->pxrs = 0; image->x = image->y = 0.0; image->width = 256.0; image->height = 256.0; image->grid2px.setIdentity(); image->style = 0; } static void nr_arena_image_finalize (NRObject *object) { NRArenaImage *image = NR_ARENA_IMAGE (object); image->px = NULL; ((NRObjectClass *) parent_class)->finalize (object); } static unsigned int nr_arena_image_update( NRArenaItem *item, NRRectL */*area*/, NRGC *gc, unsigned int /*state*/, unsigned int /*reset*/ ) { Geom::Matrix grid2px; // clear old bbox nr_arena_item_request_render(item); NRArenaImage *image = NR_ARENA_IMAGE (item); /* Copy affine */ grid2px = gc->transform.inverse(); double hscale, vscale; // todo: replace with Geom::Scale if (image->px) { hscale = image->pxw / image->width; vscale = image->pxh / image->height; } else { hscale = 1.0; vscale = 1.0; } image->grid2px[0] = grid2px[0] * hscale; image->grid2px[2] = grid2px[2] * hscale; image->grid2px[4] = grid2px[4] * hscale; image->grid2px[1] = grid2px[1] * vscale; image->grid2px[3] = grid2px[3] * vscale; image->grid2px[5] = grid2px[5] * vscale; image->grid2px[4] -= image->x * hscale; image->grid2px[5] -= image->y * vscale; /* Calculate bbox */ if (image->px) { NRRect bbox; bbox.x0 = image->x; bbox.y0 = image->y; bbox.x1 = image->x + image->width; bbox.y1 = image->y + image->height; image->c00 = (Geom::Point(bbox.x0, bbox.y0) * gc->transform); image->c01 = (Geom::Point(bbox.x0, bbox.y1) * gc->transform); image->c10 = (Geom::Point(bbox.x1, bbox.y0) * gc->transform); image->c11 = (Geom::Point(bbox.x1, bbox.y1) * gc->transform); nr_rect_d_matrix_transform (&bbox, &bbox, gc->transform); item->bbox.x0 = (int) floor (bbox.x0); item->bbox.y0 = (int) floor (bbox.y0); item->bbox.x1 = (int) ceil (bbox.x1); item->bbox.y1 = (int) ceil (bbox.y1); } else { item->bbox.x0 = (int) gc->transform[4]; item->bbox.y0 = (int) gc->transform[5]; item->bbox.x1 = item->bbox.x0 - 1; item->bbox.y1 = item->bbox.y0 - 1; } return NR_ARENA_ITEM_STATE_ALL; } #define FBITS 12 #define b2i (image->grid2px) static unsigned int nr_arena_image_render( cairo_t *ct, NRArenaItem *item, NRRectL */*area*/, NRPixBlock *pb, unsigned int /*flags*/ ) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); nr_arena_image_x_sample = prefs->getInt("/options/bitmapoversample/value", 1); nr_arena_image_y_sample = nr_arena_image_x_sample; bool outline = (item->arena->rendermode == Inkscape::RENDERMODE_OUTLINE); NRArenaImage *image = NR_ARENA_IMAGE (item); Geom::Matrix d2s; d2s[0] = b2i[0]; d2s[1] = b2i[1]; d2s[2] = b2i[2]; d2s[3] = b2i[3]; d2s[4] = b2i[0] * pb->area.x0 + b2i[2] * pb->area.y0 + b2i[4]; d2s[5] = b2i[1] * pb->area.x0 + b2i[3] * pb->area.y0 + b2i[5]; if (!outline) { if (!image->px) return item->state; guint32 Falpha = item->opacity; if (Falpha < 1) return item->state; unsigned char * dpx = NR_PIXBLOCK_PX (pb); int const drs = pb->rs; int const dw = pb->area.x1 - pb->area.x0; int const dh = pb->area.y1 - pb->area.y0; unsigned char * spx = image->px; int const srs = image->pxrs; int const sw = image->pxw; int const sh = image->pxh; if (pb->mode == NR_PIXBLOCK_MODE_R8G8B8) { /* fixme: This is not implemented yet (Lauris) */ /* nr_R8G8B8_R8G8B8_R8G8B8A8_N_TRANSFORM (dpx, dw, dh, drs, spx, sw, sh, srs, d2s, Falpha, nr_arena_image_x_sample, nr_arena_image_y_sample); */ } else if (pb->mode == NR_PIXBLOCK_MODE_R8G8B8A8P) { nr_R8G8B8A8_P_R8G8B8A8_P_R8G8B8A8_N_TRANSFORM (dpx, dw, dh, drs, spx, sw, sh, srs, d2s, Falpha, nr_arena_image_x_sample, nr_arena_image_y_sample); } else if (pb->mode == NR_PIXBLOCK_MODE_R8G8B8A8N) { //FIXME: The _N_N_N_ version gives a gray border around images, see bug 906376 // This mode is only used when exporting, screen rendering always has _P_P_P_, so I decided to simply replace it for now // Feel free to propose a better fix //nr_R8G8B8A8_N_R8G8B8A8_N_R8G8B8A8_N_TRANSFORM (dpx, dw, dh, drs, spx, sw, sh, srs, d2s, Falpha, nr_arena_image_x_sample, nr_arena_image_y_sample); nr_R8G8B8A8_P_R8G8B8A8_P_R8G8B8A8_N_TRANSFORM (dpx, dw, dh, drs, spx, sw, sh, srs, d2s, Falpha, nr_arena_image_x_sample, nr_arena_image_y_sample); } pb->empty = FALSE; } else { // outline; draw a rect instead if (!ct) return item->state; guint32 rgba = prefs->getInt("/options/wireframecolors/images", 0xff0000ff); // FIXME: we use RGBA buffers but cairo writes BGRA (on i386), so we must cheat // by setting color channels in the "wrong" order cairo_set_source_rgba(ct, SP_RGBA32_B_F(rgba), SP_RGBA32_G_F(rgba), SP_RGBA32_R_F(rgba), SP_RGBA32_A_F(rgba)); cairo_set_line_width(ct, 0.5); cairo_new_path(ct); Geom::Point shift(pb->area.x0, pb->area.y0); Geom::Point c00 = image->c00 - shift; Geom::Point c01 = image->c01 - shift; Geom::Point c11 = image->c11 - shift; Geom::Point c10 = image->c10 - shift; cairo_move_to (ct, c00[Geom::X], c00[Geom::Y]); // the box cairo_line_to (ct, c10[Geom::X], c10[Geom::Y]); cairo_line_to (ct, c11[Geom::X], c11[Geom::Y]); cairo_line_to (ct, c01[Geom::X], c01[Geom::Y]); cairo_line_to (ct, c00[Geom::X], c00[Geom::Y]); // the diagonals cairo_line_to (ct, c11[Geom::X], c11[Geom::Y]); cairo_move_to (ct, c10[Geom::X], c10[Geom::Y]); cairo_line_to (ct, c01[Geom::X], c01[Geom::Y]); cairo_stroke(ct); pb->empty = FALSE; } return item->state; } /** Calculates the closest distance from p to the segment a1-a2*/ double distance_to_segment (Geom::Point p, Geom::Point a1, Geom::Point a2) { // calculate sides of the triangle and their squares double d1 = Geom::L2(p - a1); double d1_2 = d1 * d1; double d2 = Geom::L2(p - a2); double d2_2 = d2 * d2; double a = Geom::L2(a1 - a2); double a_2 = a * a; // if one of the angles at the base is > 90, return the corresponding side if (d1_2 + a_2 <= d2_2) return d1; if (d2_2 + a_2 <= d1_2) return d2; // otherwise calculate the height to the base double peri = (a + d1 + d2)/2; return (2*sqrt(peri * (peri - a) * (peri - d1) * (peri - d2))/a); } static NRArenaItem * nr_arena_image_pick( NRArenaItem *item, Geom::Point p, double delta, unsigned int /*sticky*/ ) { NRArenaImage *image = NR_ARENA_IMAGE (item); if (!image->px) return NULL; bool outline = (item->arena->rendermode == Inkscape::RENDERMODE_OUTLINE); if (outline) { // frame if (distance_to_segment (p, image->c00, image->c10) < delta) return item; if (distance_to_segment (p, image->c10, image->c11) < delta) return item; if (distance_to_segment (p, image->c11, image->c01) < delta) return item; if (distance_to_segment (p, image->c01, image->c00) < delta) return item; // diagonals if (distance_to_segment (p, image->c00, image->c11) < delta) return item; if (distance_to_segment (p, image->c10, image->c01) < delta) return item; return NULL; } else { unsigned char *const pixels = image->px; int const width = image->pxw; int const height = image->pxh; int const rowstride = image->pxrs; Geom::Point tp = p * image->grid2px; int const ix = (int)(tp[Geom::X]); int const iy = (int)(tp[Geom::Y]); if ((ix < 0) || (iy < 0) || (ix >= width) || (iy >= height)) return NULL; unsigned char *pix_ptr = pixels + iy * rowstride + ix * 4; // is the alpha not transparent? return (pix_ptr[3] > 0) ? item : NULL; } } /* Utility */ void nr_arena_image_set_pixels (NRArenaImage *image, unsigned char const *px, unsigned int pxw, unsigned int pxh, unsigned int pxrs) { nr_return_if_fail (image != NULL); nr_return_if_fail (NR_IS_ARENA_IMAGE (image)); image->px = (unsigned char *) px; image->pxw = pxw; image->pxh = pxh; image->pxrs = pxrs; nr_arena_item_request_update (NR_ARENA_ITEM (image), NR_ARENA_ITEM_STATE_ALL, FALSE); } void nr_arena_image_set_geometry (NRArenaImage *image, double x, double y, double width, double height) { nr_return_if_fail (image != NULL); nr_return_if_fail (NR_IS_ARENA_IMAGE (image)); image->x = x; image->y = y; image->width = width; image->height = height; nr_arena_item_request_update (NR_ARENA_ITEM (image), NR_ARENA_ITEM_STATE_ALL, FALSE); } void nr_arena_image_set_style (NRArenaImage *image, SPStyle *style) { g_return_if_fail(image != NULL); g_return_if_fail(NR_IS_ARENA_IMAGE(image)); if (style) sp_style_ref(style); if (image->style) sp_style_unref(image->style); image->style = style; //if image has a filter if (style->filter.set && style->getFilter()) { if (!image->filter) { int primitives = sp_filter_primitive_count(SP_FILTER(style->getFilter())); image->filter = new Inkscape::Filters::Filter(primitives); } sp_filter_build_renderer(SP_FILTER(style->getFilter()), image->filter); } else { //no filter set for this image delete image->filter; image->filter = NULL; } if (style && style->enable_background.set && style->enable_background.value == SP_CSS_BACKGROUND_NEW) { image->background_new = true; } nr_arena_item_request_update(image, NR_ARENA_ITEM_STATE_ALL, FALSE); } /* 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 :