/* $Id$ $Revision$ */ /* vim:set shiftwidth=4 ts=8: */ /************************************************************************* * Copyright (c) 2011 AT&T Intellectual Property * All rights reserved. This program and the accompanying materials * are made available under the terms of the Eclipse Public License v1.0 * which accompanies this distribution, and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: See CVS logs. Details at http://www.graphviz.org/ *************************************************************************/ /* * graphics code generator wrapper * * This library forms the socket for run-time loadable render plugins. */ #include "config.h" #include #include "memory.h" #include "const.h" #include "macros.h" #include "colorprocs.h" #include "gvplugin_render.h" #include "cgraph.h" #include "gvcint.h" #include "geom.h" #include "geomprocs.h" #include "gvcproc.h" extern int emit_once(char *str); extern shape_desc *find_user_shape(char *name); extern boolean mapbool(char *s); #ifndef HAVE_STRCASECMP extern int strcasecmp(const char *s1, const char *s2); #endif /* storage for temporary hacks until client API is FP */ static pointf *AF; static int sizeAF; /* end hack */ int gvrender_select(GVJ_t * job, const char *str) { GVC_t *gvc = job->gvc; gvplugin_available_t *plugin; gvplugin_installed_t *typeptr; gvplugin_load(gvc, API_device, str); /* When job is created, it is zeroed out. * Some flags, such as OUTPUT_NOT_REQUIRED, may already be set, * so don't reset. */ /* job->flags = 0; */ plugin = gvc->api[API_device]; if (plugin) { typeptr = plugin->typeptr; job->device.engine = (gvdevice_engine_t *) (typeptr->engine); job->device.features = (gvdevice_features_t *) (typeptr->features); job->device.id = typeptr->id; job->device.type = plugin->typestr; job->flags |= job->device.features->flags; } else return NO_SUPPORT; /* FIXME - should differentiate problem */ /* The device plugin has a dependency on a render plugin, * so the render plugin should be available as well now */ plugin = gvc->api[API_render]; if (plugin) { typeptr = plugin->typeptr; job->render.engine = (gvrender_engine_t *) (typeptr->engine); job->render.features = (gvrender_features_t *) (typeptr->features); job->render.type = plugin->typestr; job->flags |= job->render.features->flags; if (job->device.engine) job->render.id = typeptr->id; else /* A null device engine indicates that the device id is also the renderer id * and that the renderer doesn't need "device" functions. * Device "features" settings are still available */ job->render.id = job->device.id; return GVRENDER_PLUGIN; } job->render.engine = NULL; return NO_SUPPORT; /* FIXME - should differentiate problem */ } int gvrender_features(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; int features = 0; if (gvre) { features = job->render.features->flags; } return features; } /* gvrender_begin_job: * Return 0 on success */ int gvrender_begin_job(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvdevice_initialize(job)) return 1; if (gvre) { if (gvre->begin_job) gvre->begin_job(job); } return 0; } void gvrender_end_job(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_job) gvre->end_job(job); } job->gvc->common.lib = NULL; /* FIXME - minimally this doesn't belong here */ gvdevice_finalize(job); } /* font modifiers */ #define REGULAR 0 #define BOLD 1 #define ITALIC 2 pointf gvrender_ptf(GVJ_t * job, pointf p) { pointf rv, translation, scale; translation = job->translation; scale.x = job->zoom * job->devscale.x; scale.y = job->zoom * job->devscale.y; if (job->rotation) { rv.x = -(p.y + translation.y) * scale.x; rv.y = (p.x + translation.x) * scale.y; } else { rv.x = (p.x + translation.x) * scale.x; rv.y = (p.y + translation.y) * scale.y; } return rv; } /* transform an array of n points */ /* *AF and *af must be preallocated */ /* *AF can be the same as *af for inplace transforms */ pointf *gvrender_ptf_A(GVJ_t * job, pointf * af, pointf * AF, int n) { int i; double t; pointf translation, scale; translation = job->translation; scale.x = job->zoom * job->devscale.x; scale.y = job->zoom * job->devscale.y; if (job->rotation) { for (i = 0; i < n; i++) { t = -(af[i].y + translation.y) * scale.x; AF[i].y = (af[i].x + translation.x) * scale.y; AF[i].x = t; } } else { for (i = 0; i < n; i++) { AF[i].x = (af[i].x + translation.x) * scale.x; AF[i].y = (af[i].y + translation.y) * scale.y; } } return AF; } static int gvrender_comparestr(const void *s1, const void *s2) { return strcmp(*(char **) s1, *(char **) s2); } /* gvrender_resolve_color: * N.B. strcmp cannot be used in bsearch, as it will pass a pointer * to an element in the array features->knowncolors (i.e., a char**) * as an argument of the compare function, while the arguments to * strcmp are both char*. Given this, the first argument to * bsearch must also be char**, so we use &tok. */ static void gvrender_resolve_color(gvrender_features_t * features, char *name, gvcolor_t * color) { char *tok; int rc; color->u.string = name; color->type = COLOR_STRING; tok = canontoken(name); if (!features->knowncolors || (bsearch (&tok, features->knowncolors, features->sz_knowncolors, sizeof(char *), gvrender_comparestr)) == NULL) { /* if tok was not found in known_colors */ rc = colorxlate(name, color, features->color_type); if (rc != COLOR_OK) { if (rc == COLOR_UNKNOWN) { char *missedcolor = gmalloc(strlen(name) + 16); sprintf(missedcolor, "color %s", name); if (emit_once(missedcolor)) agerr(AGWARN, "%s is not a known color.\n", name); free(missedcolor); } else { agerr(AGERR, "error in colxlate()\n"); } } } } void gvrender_begin_graph(GVJ_t * job, graph_t * g) { /* GVC_t *gvc = job->gvc; */ gvrender_engine_t *gvre = job->render.engine; /* char *s; */ if (gvre) { /* render specific init */ if (gvre->begin_graph) gvre->begin_graph(job); #if 0 /* background color */ if (((s = agget(g, "bgcolor")) != 0) && s[0]) { gvrender_resolve_color(job->render.features, s, &(gvc->bgcolor)); if (gvre->resolve_color) gvre->resolve_color(job, &(gvc->bgcolor)); } #endif } } void gvrender_end_graph(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_graph) gvre->end_graph(job); } gvdevice_format(job); } void gvrender_begin_page(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_page) gvre->begin_page(job); } } void gvrender_end_page(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_page) gvre->end_page(job); } } void gvrender_begin_layer(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_layer) gvre->begin_layer(job, job->gvc->layerIDs[job->layerNum], job->layerNum, job->numLayers); } } void gvrender_end_layer(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_layer) gvre->end_layer(job); } } void gvrender_begin_cluster(GVJ_t * job, graph_t * sg) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_cluster) gvre->begin_cluster(job); } } void gvrender_end_cluster(GVJ_t * job, graph_t * g) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_cluster) gvre->end_cluster(job); } } void gvrender_begin_nodes(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_nodes) gvre->begin_nodes(job); } } void gvrender_end_nodes(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_nodes) gvre->end_nodes(job); } } void gvrender_begin_edges(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_edges) gvre->begin_edges(job); } } void gvrender_end_edges(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_edges) gvre->end_edges(job); } } void gvrender_begin_node(GVJ_t * job, node_t * n) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_node) gvre->begin_node(job); } } void gvrender_end_node(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_node) gvre->end_node(job); } } void gvrender_begin_edge(GVJ_t * job, edge_t * e) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_edge) gvre->begin_edge(job); } } void gvrender_end_edge(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_edge) gvre->end_edge(job); } } void gvrender_begin_anchor(GVJ_t * job, char *href, char *tooltip, char *target, char *id) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_anchor) gvre->begin_anchor(job, href, tooltip, target, id); } } void gvrender_end_anchor(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_anchor) gvre->end_anchor(job); } } void gvrender_begin_label(GVJ_t * job, label_type type) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->begin_label) gvre->begin_label(job, type); } } void gvrender_end_label(GVJ_t * job) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->end_label) gvre->end_label(job); } } void gvrender_textspan(GVJ_t * job, pointf p, textspan_t * span) { gvrender_engine_t *gvre = job->render.engine; pointf PF; if (span->str && span->str[0] && (!job->obj /* because of xdgen non-conformity */ || job->obj->pen != PEN_NONE)) { if (job->flags & GVRENDER_DOES_TRANSFORM) PF = p; else PF = gvrender_ptf(job, p); if (gvre) { if (gvre->textspan) gvre->textspan(job, PF, span); } } } void gvrender_set_pencolor(GVJ_t * job, char *name) { gvrender_engine_t *gvre = job->render.engine; gvcolor_t *color = &(job->obj->pencolor); char *cp = NULL; if ((cp = strstr(name, ":"))) /* if its a color list, then use only first */ *cp = '\0'; if (gvre) { gvrender_resolve_color(job->render.features, name, color); if (gvre->resolve_color) gvre->resolve_color(job, color); } if (cp) /* restore color list */ *cp = ':'; } void gvrender_set_fillcolor(GVJ_t * job, char *name) { gvrender_engine_t *gvre = job->render.engine; gvcolor_t *color = &(job->obj->fillcolor); char *cp = NULL; if ((cp = strstr(name, ":"))) /* if its a color list, then use only first */ *cp = '\0'; if (gvre) { gvrender_resolve_color(job->render.features, name, color); if (gvre->resolve_color) gvre->resolve_color(job, color); } if (cp) *cp = ':'; } void gvrender_set_gradient_vals (GVJ_t * job, char *stopcolor, int angle, float frac) { gvrender_engine_t *gvre = job->render.engine; gvcolor_t *color = &(job->obj->stopcolor); if (gvre) { gvrender_resolve_color(job->render.features, stopcolor, color); if (gvre->resolve_color) gvre->resolve_color(job, color); } job->obj->gradient_angle = angle; job->obj->gradient_frac = frac; } void gvrender_set_style(GVJ_t * job, char **s) { gvrender_engine_t *gvre = job->render.engine; obj_state_t *obj = job->obj; char *line, *p; obj->rawstyle = s; if (gvre) { if (s) while ((p = line = *s++)) { if (streq(line, "solid")) obj->pen = PEN_SOLID; else if (streq(line, "dashed")) obj->pen = PEN_DASHED; else if (streq(line, "dotted")) obj->pen = PEN_DOTTED; else if (streq(line, "invis") || streq(line, "invisible")) obj->pen = PEN_NONE; else if (streq(line, "bold")) obj->penwidth = PENWIDTH_BOLD; else if (streq(line, "setlinewidth")) { while (*p) p++; p++; obj->penwidth = atof(p); } else if (streq(line, "filled")) obj->fill = FILL_SOLID; else if (streq(line, "unfilled")) obj->fill = FILL_NONE; else if (streq(line, "tapered")); else { agerr(AGWARN, "gvrender_set_style: unsupported style %s - ignoring\n", line); } } } } void gvrender_ellipse(GVJ_t * job, pointf * pf, int n, int filled) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->ellipse && job->obj->pen != PEN_NONE) { pointf af[2]; /* center */ af[0].x = (pf[0].x + pf[1].x) / 2.; af[0].y = (pf[0].y + pf[1].y) / 2.; /* corner */ af[1] = pf[1]; if (!(job->flags & GVRENDER_DOES_TRANSFORM)) gvrender_ptf_A(job, af, af, 2); gvre->ellipse(job, af, filled); } } } void gvrender_polygon(GVJ_t * job, pointf * af, int n, int filled) { int noPoly = 0; gvcolor_t save_pencolor; gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->polygon && job->obj->pen != PEN_NONE) { if (filled & NO_POLY) { noPoly = 1; filled &= ~NO_POLY; save_pencolor = job->obj->pencolor; job->obj->pencolor = job->obj->fillcolor; } if (job->flags & GVRENDER_DOES_TRANSFORM) gvre->polygon(job, af, n, filled); else { if (sizeAF < n) { sizeAF = n + 10; AF = grealloc(AF, sizeAF * sizeof(pointf)); } gvrender_ptf_A(job, af, AF, n); gvre->polygon(job, AF, n, filled); } if (noPoly) job->obj->pencolor = save_pencolor; } } } void gvrender_box(GVJ_t * job, boxf B, int filled) { pointf A[4]; A[0] = B.LL; A[2] = B.UR; A[1].x = A[0].x; A[1].y = A[2].y; A[3].x = A[2].x; A[3].y = A[0].y; gvrender_polygon(job, A, 4, filled); } void gvrender_beziercurve(GVJ_t * job, pointf * af, int n, int arrow_at_start, int arrow_at_end, boolean filled) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->beziercurve && job->obj->pen != PEN_NONE) { if (job->flags & GVRENDER_DOES_TRANSFORM) gvre->beziercurve(job, af, n, arrow_at_start, arrow_at_end, filled); else { if (sizeAF < n) { sizeAF = n + 10; AF = grealloc(AF, sizeAF * sizeof(pointf)); } gvrender_ptf_A(job, af, AF, n); gvre->beziercurve(job, AF, n, arrow_at_start, arrow_at_end, filled); } } } } void gvrender_polyline(GVJ_t * job, pointf * af, int n) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { if (gvre->polyline && job->obj->pen != PEN_NONE) { if (job->flags & GVRENDER_DOES_TRANSFORM) gvre->polyline(job, af, n); else { if (sizeAF < n) { sizeAF = n + 10; AF = grealloc(AF, sizeAF * sizeof(pointf)); } gvrender_ptf_A(job, af, AF, n); gvre->polyline(job, AF, n); } } } } void gvrender_comment(GVJ_t * job, char *str) { gvrender_engine_t *gvre = job->render.engine; if (!str || !str[0]) return; if (gvre) { if (gvre->comment) gvre->comment(job, str); } } static imagescale_t get_imagescale(char *s) { if (*s == '\0') return IMAGESCALE_FALSE; if (!strcasecmp(s, "width")) return IMAGESCALE_WIDTH; if (!strcasecmp(s, "height")) return IMAGESCALE_HEIGHT; if (!strcasecmp(s, "both")) return IMAGESCALE_BOTH; if (mapbool(s)) return IMAGESCALE_TRUE; return IMAGESCALE_FALSE; } static imagepos_t get_imagepos(char *s) { if (*s == '\0') return IMAGEPOS_MIDDLE_CENTER; if (!strcasecmp(s, "tl")) return IMAGEPOS_TOP_LEFT; if (!strcasecmp(s, "tc")) return IMAGEPOS_TOP_CENTER; if (!strcasecmp(s, "tr")) return IMAGEPOS_TOP_RIGHT; if (!strcasecmp(s, "ml")) return IMAGEPOS_MIDDLE_LEFT; if (!strcasecmp(s, "mc")) return IMAGEPOS_MIDDLE_CENTER; if (!strcasecmp(s, "mr")) return IMAGEPOS_MIDDLE_RIGHT; if (!strcasecmp(s, "bl")) return IMAGEPOS_BOTTOM_LEFT; if (!strcasecmp(s, "bc")) return IMAGEPOS_BOTTOM_CENTER; if (!strcasecmp(s, "br")) return IMAGEPOS_BOTTOM_RIGHT; return IMAGEPOS_MIDDLE_CENTER; } /* gvrender_usershape: * Scale image to fill polygon bounding box according to "imagescale", * positioned at "imagepos" */ void gvrender_usershape(GVJ_t * job, char *name, pointf * a, int n, boolean filled, char *imagescale, char *imagepos) { gvrender_engine_t *gvre = job->render.engine; usershape_t *us; double iw, ih, pw, ph; double scalex, scaley; /* scale factors */ boxf b; /* target box */ int i; point isz; imagepos_t position; assert(job); assert(name); assert(name[0]); if (!(us = gvusershape_find(name))) { if (find_user_shape(name)) { if (gvre && gvre->library_shape) gvre->library_shape(job, name, a, n, filled); } return; } isz = gvusershape_size_dpi(us, job->dpi); if ((isz.x <= 0) && (isz.y <= 0)) return; /* compute bb of polygon */ b.LL = b.UR = a[0]; for (i = 1; i < n; i++) { EXPANDBP(b, a[i]); } pw = b.UR.x - b.LL.x; ph = b.UR.y - b.LL.y; ih = (double) isz.y; iw = (double) isz.x; scalex = pw / iw; scaley = ph / ih; switch (get_imagescale(imagescale)) { case IMAGESCALE_TRUE: /* keep aspect ratio fixed by just using the smaller scale */ if (scalex < scaley) { iw *= scalex; ih *= scalex; } else { iw *= scaley; ih *= scaley; } break; case IMAGESCALE_WIDTH: iw *= scalex; break; case IMAGESCALE_HEIGHT: ih *= scaley; break; case IMAGESCALE_BOTH: iw *= scalex; ih *= scaley; break; case IMAGESCALE_FALSE: default: break; } /* if image is smaller in any dimension, apply the specified positioning */ position = get_imagepos(imagepos); if (iw < pw) { switch (position) { case IMAGEPOS_TOP_LEFT: case IMAGEPOS_MIDDLE_LEFT: case IMAGEPOS_BOTTOM_LEFT: b.UR.x = b.LL.x + iw; break; case IMAGEPOS_TOP_RIGHT: case IMAGEPOS_MIDDLE_RIGHT: case IMAGEPOS_BOTTOM_RIGHT: b.LL.x += (pw - iw); b.UR.x = b.LL.x + iw; break; default: b.LL.x += (pw - iw) / 2.0; b.UR.x -= (pw - iw) / 2.0; break; } } if (ih < ph) { switch (position) { case IMAGEPOS_TOP_LEFT: case IMAGEPOS_TOP_CENTER: case IMAGEPOS_TOP_RIGHT: b.LL.y = b.UR.y - ih; break; case IMAGEPOS_BOTTOM_LEFT: case IMAGEPOS_BOTTOM_CENTER: case IMAGEPOS_BOTTOM_RIGHT: b.LL.y += ih; b.UR.y = b.LL.y - ih; break; default: b.LL.y += (ph - ih) / 2.0; b.UR.y -= (ph - ih) / 2.0; break; } } /* convert from graph to device coordinates */ if (!(job->flags & GVRENDER_DOES_TRANSFORM)) { b.LL = gvrender_ptf(job, b.LL); b.UR = gvrender_ptf(job, b.UR); } if (b.LL.x > b.UR.x) { double d = b.LL.x; b.LL.x = b.UR.x; b.UR.x = d; } if (b.LL.y > b.UR.y) { double d = b.LL.y; b.LL.y = b.UR.y; b.UR.y = d; } if (gvre) { gvloadimage(job, us, b, filled, job->render.type); } } void gvrender_set_penwidth(GVJ_t * job, double penwidth) { gvrender_engine_t *gvre = job->render.engine; if (gvre) { job->obj->penwidth = penwidth; /*if (gvre->set_penwidth) gvre->set_penwidth(job, penwidth); */ } }