1 /****************************************************************************
2 * RRDtool 1.2.11 Copyright by Tobi Oetiker, 1997-2005
3 ****************************************************************************
4 * rrd_gfx.c graphics wrapper for rrdtool
5 **************************************************************************/
7 /* #define DEBUG */
9 #ifdef DEBUG
10 # define DPRINTF(...) fprintf(stderr, __VA_ARGS__);
11 #else
12 # define DPRINTF(...)
13 #endif
14 #include "rrd_tool.h"
15 #include <png.h>
16 #include <ft2build.h>
17 #include FT_FREETYPE_H
18 #include FT_GLYPH_H
20 #include "rrd_gfx.h"
21 #include "rrd_afm.h"
22 #include "unused.h"
24 /* lines are better drawn on the pixle than between pixles */
25 #define LINEOFFSET 0.5
27 #define USE_PDF_FAKE_ALPHA 1
28 #define USE_EPS_FAKE_ALPHA 1
30 typedef struct gfx_char_s *gfx_char;
31 struct gfx_char_s {
32 FT_UInt index; /* glyph index */
33 FT_Vector pos; /* location from baseline in 26.6 */
34 FT_Glyph image; /* glyph bitmap */
35 };
37 typedef struct gfx_string_s *gfx_string;
38 struct gfx_string_s {
39 unsigned int width;
40 unsigned int height;
41 int count; /* number of characters */
42 gfx_char glyphs;
43 size_t num_glyphs;
44 FT_BBox bbox;
45 FT_Matrix transform;
46 };
48 /* compute string bbox */
49 static void compute_string_bbox(gfx_string string);
51 /* create a freetype glyph string */
52 gfx_string gfx_string_create ( gfx_canvas_t *canvas, FT_Face face,
53 const char *text, int rotation, double tabwidth, double size);
55 /* create a freetype glyph string */
56 static void gfx_string_destroy ( gfx_string string );
58 static
59 gfx_node_t *gfx_new_node( gfx_canvas_t *canvas,enum gfx_en type){
60 gfx_node_t *node = art_new(gfx_node_t,1);
61 if (node == NULL) return NULL;
62 node->type = type;
63 node->color = 0x0; /* color of element 0xRRGGBBAA alpha 0xff is solid*/
64 node->size =0.0; /* font size, line width */
65 node->path = NULL; /* path */
66 node->points = 0;
67 node->points_max =0;
68 node->closed_path = 0;
69 node->filename = NULL; /* font or image filename */
70 node->text = NULL;
71 node->x = 0.0;
72 node->y = 0.0; /* position */
73 node->angle = 0;
74 node->halign = GFX_H_NULL; /* text alignement */
75 node->valign = GFX_V_NULL; /* text alignement */
76 node->tabwidth = 0.0;
77 node->next = NULL;
78 if (canvas->lastnode != NULL){
79 canvas->lastnode->next = node;
80 }
81 if (canvas->firstnode == NULL){
82 canvas->firstnode = node;
83 }
84 canvas->lastnode = node;
85 return node;
86 }
88 gfx_canvas_t *gfx_new_canvas (void) {
89 gfx_canvas_t *canvas = art_new(gfx_canvas_t,1);
90 canvas->firstnode = NULL;
91 canvas->lastnode = NULL;
92 canvas->imgformat = IF_PNG; /* we default to PNG output */
93 canvas->interlaced = 0;
94 canvas->zoom = 1.0;
95 canvas->font_aa_threshold = -1.0;
96 canvas->aa_type = AA_NORMAL;
97 return canvas;
98 }
100 /* create a new line */
101 gfx_node_t *gfx_new_line(gfx_canvas_t *canvas,
102 double X0, double Y0,
103 double X1, double Y1,
104 double width, gfx_color_t color){
105 return gfx_new_dashed_line(canvas, X0, Y0, X1, Y1, width, color, 0, 0);
106 }
108 gfx_node_t *gfx_new_dashed_line(gfx_canvas_t *canvas,
109 double X0, double Y0,
110 double X1, double Y1,
111 double width, gfx_color_t color,
112 double dash_on, double dash_off){
114 gfx_node_t *node;
115 ArtVpath *vec;
116 node = gfx_new_node(canvas,GFX_LINE);
117 if (node == NULL) return NULL;
118 vec = art_new(ArtVpath, 3);
119 if (vec == NULL) return NULL;
120 vec[0].code = ART_MOVETO_OPEN; vec[0].x=X0+LINEOFFSET; vec[0].y=Y0+LINEOFFSET;
121 vec[1].code = ART_LINETO; vec[1].x=X1+LINEOFFSET; vec[1].y=Y1+LINEOFFSET;
122 vec[2].code = ART_END; vec[2].x=0;vec[2].y=0;
124 node->points = 3;
125 node->points_max = 3;
126 node->color = color;
127 node->size = width;
128 node->dash_on = dash_on;
129 node->dash_off = dash_off;
130 node->path = vec;
131 return node;
132 }
134 /* create a new area */
135 gfx_node_t *gfx_new_area (gfx_canvas_t *canvas,
136 double X0, double Y0,
137 double X1, double Y1,
138 double X2, double Y2,
139 gfx_color_t color) {
141 gfx_node_t *node;
142 ArtVpath *vec;
143 node = gfx_new_node(canvas,GFX_AREA);
144 if (node == NULL) return NULL;
145 vec = art_new(ArtVpath, 5);
146 if (vec == NULL) return NULL;
147 vec[0].code = ART_MOVETO; vec[0].x=X0; vec[0].y=Y0;
148 vec[1].code = ART_LINETO; vec[1].x=X1; vec[1].y=Y1;
149 vec[2].code = ART_LINETO; vec[2].x=X2; vec[2].y=Y2;
150 vec[3].code = ART_LINETO; vec[3].x=X0; vec[3].y=Y0;
151 vec[4].code = ART_END; vec[4].x=0; vec[4].y=0;
153 node->points = 5;
154 node->points_max = 5;
155 node->color = color;
156 node->path = vec;
158 return node;
159 }
161 /* add a point to a line or to an area */
162 int gfx_add_point (gfx_node_t *node,
163 double x, double y){
164 if (node == NULL) return 1;
165 if (node->type == GFX_AREA) {
166 double X0 = node->path[0].x;
167 double Y0 = node->path[0].y;
168 node->points -= 2;
169 art_vpath_add_point (&(node->path),
170 &(node->points),
171 &(node->points_max),
172 ART_LINETO,
173 x,y);
174 art_vpath_add_point (&(node->path),
175 &(node->points),
176 &(node->points_max),
177 ART_LINETO,
178 X0,Y0);
179 art_vpath_add_point (&(node->path),
180 &(node->points),
181 &(node->points_max),
182 ART_END,
183 0,0);
184 } else if (node->type == GFX_LINE) {
185 node->points -= 1;
186 art_vpath_add_point (&(node->path),
187 &(node->points),
188 &(node->points_max),
189 ART_LINETO,
190 x+LINEOFFSET,y+LINEOFFSET);
191 art_vpath_add_point (&(node->path),
192 &(node->points),
193 &(node->points_max),
194 ART_END,
195 0,0);
197 } else {
198 /* can only add point to areas and lines */
199 return 1;
200 }
201 return 0;
202 }
204 void gfx_close_path (gfx_node_t *node) {
205 node->closed_path = 1;
206 if (node->path[0].code == ART_MOVETO_OPEN)
207 node->path[0].code = ART_MOVETO;
208 }
210 /* create a text node */
211 gfx_node_t *gfx_new_text (gfx_canvas_t *canvas,
212 double x, double y, gfx_color_t color,
213 char* font, double size,
214 double tabwidth, double angle,
215 enum gfx_h_align_en h_align,
216 enum gfx_v_align_en v_align,
217 char* text){
218 gfx_node_t *node = gfx_new_node(canvas,GFX_TEXT);
220 node->text = strdup(text);
221 node->size = size;
222 node->filename = strdup(font);
223 node->x = x;
224 node->y = y;
225 node->angle = angle;
226 node->color = color;
227 node->tabwidth = tabwidth;
228 node->halign = h_align;
229 node->valign = v_align;
230 #if 0
231 /* debugging: show text anchor
232 green is along x-axis, red is downward y-axis */
233 if (1) {
234 double a = 2 * M_PI * -node->angle / 360.0;
235 double cos_a = cos(a);
236 double sin_a = sin(a);
237 double len = 3;
238 gfx_new_line(canvas,
239 x, y,
240 x + len * cos_a, y - len * sin_a,
241 0.2, 0x00FF0000);
242 gfx_new_line(canvas,
243 x, y,
244 x + len * sin_a, y + len * cos_a,
245 0.2, 0xFF000000);
246 }
247 #endif
248 return node;
249 }
251 int gfx_render(gfx_canvas_t *canvas,
252 art_u32 width, art_u32 height,
253 gfx_color_t background, FILE *fp){
254 switch (canvas->imgformat) {
255 case IF_PNG:
256 return gfx_render_png (canvas, width, height, background, fp);
257 case IF_SVG:
258 return gfx_render_svg (canvas, width, height, background, fp);
259 case IF_EPS:
260 return gfx_render_eps (canvas, width, height, background, fp);
261 case IF_PDF:
262 return gfx_render_pdf (canvas, width, height, background, fp);
263 default:
264 return -1;
265 }
266 }
268 static void gfx_string_destroy ( gfx_string string ) {
269 unsigned int n;
270 if (string->glyphs) {
271 for (n=0; n<string->num_glyphs; ++n)
272 FT_Done_Glyph (string->glyphs[n].image);
273 free (string->glyphs);
274 }
275 free (string);
276 }
279 double gfx_get_text_width ( gfx_canvas_t *canvas,
280 double start, char* font, double size,
281 double tabwidth, char* text, int rotation){
282 switch (canvas->imgformat) {
283 case IF_PNG:
284 return gfx_get_text_width_libart (canvas, start, font, size, tabwidth, text, rotation);
285 case IF_SVG: /* fall through */
286 case IF_EPS:
287 case IF_PDF:
288 return afm_get_text_width(start, font, size, tabwidth, text);
289 default:
290 return size * strlen(text);
291 }
292 }
294 double gfx_get_text_width_libart (
295 gfx_canvas_t *canvas, double UNUSED(start), char* font, double size,
296 double tabwidth, char* text, int rotation ){
298 int error;
299 double text_width=0;
300 FT_Face face;
301 FT_Library library=NULL;
302 gfx_string string;
304 FT_Init_FreeType( &library );
305 error = FT_New_Face( library, font, 0, &face );
306 if ( error ) {
307 FT_Done_FreeType(library);
308 return -1;
309 }
310 error = FT_Set_Char_Size(face, size*64,size*64, 100,100);
311 if ( error ) {
312 FT_Done_FreeType(library);
313 return -1;
314 }
315 string = gfx_string_create( canvas, face, text, rotation, tabwidth, size );
316 text_width = string->width;
317 gfx_string_destroy(string);
318 FT_Done_FreeType(library);
319 return text_width/64;
320 }
322 static void gfx_libart_close_path(gfx_node_t *node, ArtVpath **vec)
323 {
324 /* libart must have end==start for closed paths,
325 even if using ART_MOVETO and not ART_MOVETO_OPEN
326 so add extra point which is the same as the starting point */
327 int points_max = node->points; /* scaled array has exact size */
328 int points = node->points - 1;
329 art_vpath_add_point (vec, &points, &points_max, ART_LINETO,
330 (**vec).x, (**vec).y);
331 art_vpath_add_point (vec, &points, &points_max, ART_END, 0, 0);
332 }
335 /* find bbox of a string */
336 static void compute_string_bbox(gfx_string string) {
337 unsigned int n;
338 FT_BBox bbox;
340 bbox.xMin = bbox.yMin = 32000;
341 bbox.xMax = bbox.yMax = -32000;
342 for ( n = 0; n < string->num_glyphs; n++ ) {
343 FT_BBox glyph_bbox;
344 FT_Glyph_Get_CBox( string->glyphs[n].image, ft_glyph_bbox_gridfit,
345 &glyph_bbox );
346 if (glyph_bbox.xMin < bbox.xMin) {
347 bbox.xMin = glyph_bbox.xMin;
348 }
349 if (glyph_bbox.yMin < bbox.yMin) {
350 bbox.yMin = glyph_bbox.yMin;
351 }
352 if (glyph_bbox.xMax > bbox.xMax) {
353 bbox.xMax = glyph_bbox.xMax;
354 }
355 if (glyph_bbox.yMax > bbox.yMax) {
356 bbox.yMax = glyph_bbox.yMax;
357 }
358 }
359 if ( bbox.xMin > bbox.xMax ) {
360 bbox.xMin = 0;
361 bbox.yMin = 0;
362 bbox.xMax = 0;
363 bbox.yMax = 0;
364 }
365 string->bbox.xMin = bbox.xMin;
366 string->bbox.xMax = bbox.xMax;
367 string->bbox.yMin = bbox.yMin;
368 string->bbox.yMax = bbox.yMax;
369 }
371 /* create a free type glyph string */
372 gfx_string gfx_string_create(gfx_canvas_t *canvas, FT_Face face,const char *text,
373 int rotation, double tabwidth, double size )
374 {
376 FT_GlyphSlot slot = face->glyph; /* a small shortcut */
377 FT_Bool use_kerning;
378 FT_UInt previous;
379 FT_Vector ft_pen;
381 gfx_string string = (gfx_string) malloc (sizeof(struct gfx_string_s));
383 gfx_char glyph; /* current glyph in table */
384 int n;
385 int error;
386 int gottab = 0;
388 #ifdef HAVE_MBSTOWCS
389 wchar_t *cstr;
390 size_t clen = strlen(text)+1;
391 cstr = malloc(sizeof(wchar_t) * clen); /* yes we are allocating probably too much here, I know */
392 string->count=mbstowcs(cstr,text,clen);
393 if ( string->count == -1){
394 /* conversion did not work, so lets fall back to just use what we got */
395 string->count=clen-1;
396 for(n=0;text[n] != '\0';n++){
397 cstr[n]=(unsigned char)text[n];
398 }
399 }
400 #else
401 char *cstr = strdup(text);
402 string->count = strlen (text);
403 #endif
405 ft_pen.x = 0; /* start at (0,0) !! */
406 ft_pen.y = 0;
409 string->width = 0;
410 string->height = 0;
411 string->glyphs = (gfx_char) calloc (string->count,sizeof(struct gfx_char_s));
412 string->num_glyphs = 0;
413 string->transform.xx = (FT_Fixed)( cos(M_PI*(rotation)/180.0)*0x10000);
414 string->transform.xy = (FT_Fixed)(-sin(M_PI*(rotation)/180.0)*0x10000);
415 string->transform.yx = (FT_Fixed)( sin(M_PI*(rotation)/180.0)*0x10000);
416 string->transform.yy = (FT_Fixed)( cos(M_PI*(rotation)/180.0)*0x10000);
418 use_kerning = FT_HAS_KERNING(face);
419 previous = 0;
420 glyph = string->glyphs;
421 for (n=0; n<string->count;glyph++,n++) {
422 FT_Vector vec;
423 /* handle the tabs ...
424 have a witespace glyph inserted, but set its width such that the distance
425 of the new right edge is x times tabwidth from 0,0 where x is an integer. */
426 unsigned int letter = cstr[n];
427 letter = afm_fix_osx_charset(letter); /* unsafe macro */
429 gottab = 0;
430 if (letter == '\\' && n+1 < string->count && cstr[n+1] == 't'){
431 /* we have a tab here so skip the backslash and
432 set t to ' ' so that we get a white space */
433 gottab = 1;
434 n++;
435 letter = ' ';
436 }
437 if (letter == '\t'){
438 letter = ' ';
439 gottab = 1 ;
440 }
441 /* initialize each struct gfx_char_s */
442 glyph->index = 0;
443 glyph->pos.x = 0;
444 glyph->pos.y = 0;
445 glyph->image = NULL;
446 glyph->index = FT_Get_Char_Index( face, letter );
448 /* compute glyph origin */
449 if ( use_kerning && previous && glyph->index ) {
450 FT_Vector kerning;
451 FT_Get_Kerning (face, previous, glyph->index,
452 ft_kerning_default, &kerning);
453 ft_pen.x += kerning.x;
454 ft_pen.y += kerning.y;
455 }
457 /* load the glyph image (in its native format) */
458 /* for now, we take a monochrome glyph bitmap */
459 error = FT_Load_Glyph (face, glyph->index, size > canvas->font_aa_threshold ?
460 canvas->aa_type == AA_NORMAL ? FT_LOAD_TARGET_NORMAL :
461 canvas->aa_type == AA_LIGHT ? FT_LOAD_TARGET_LIGHT :
462 FT_LOAD_TARGET_MONO : FT_LOAD_TARGET_MONO);
463 if (error) {
464 DPRINTF("couldn't load glyph: %c\n", letter)
465 continue;
466 }
467 error = FT_Get_Glyph (slot, &glyph->image);
468 if (error) {
469 DPRINTF("couldn't get glyph %c from slot %d\n", letter, (int)slot)
470 continue;
471 }
472 /* if we are in tabbing mode, we replace the tab with a space and shift the position
473 of the space so that its left edge is where the tab was supposed to land us */
474 if (gottab){
475 /* we are in gridfitting mode so the calculations happen in 1/64 pixles */
476 ft_pen.x = tabwidth*64.0 * (float)(1 + (long)(ft_pen.x / (tabwidth * 64.0))) - slot->advance.x;
477 }
478 /* store current pen position */
479 glyph->pos.x = ft_pen.x;
480 glyph->pos.y = ft_pen.y;
483 ft_pen.x += slot->advance.x;
484 ft_pen.y += slot->advance.y;
486 /* rotate glyph */
487 vec = glyph->pos;
488 FT_Vector_Transform (&vec, &string->transform);
489 error = FT_Glyph_Transform (glyph->image, &string->transform, &vec);
490 if (error) {
491 DPRINTF("couldn't transform glyph id %d\n", letter)
492 continue;
493 }
495 /* convert to a bitmap - destroy native image */
496 error = FT_Glyph_To_Bitmap (&glyph->image, size > canvas->font_aa_threshold ?
497 canvas->aa_type == AA_NORMAL ? FT_RENDER_MODE_NORMAL :
498 canvas->aa_type == AA_LIGHT ? FT_RENDER_MODE_LIGHT :
499 FT_RENDER_MODE_MONO : FT_RENDER_MODE_MONO, 0, 1);
500 if (error) {
501 DPRINTF("couldn't convert glyph id %d to bitmap\n", letter)
502 continue;
503 }
505 /* increment number of glyphs */
506 previous = glyph->index;
507 string->num_glyphs++;
508 }
509 free(cstr);
510 /* printf ("number of glyphs = %d\n", string->num_glyphs);*/
511 compute_string_bbox( string );
512 /* the last character was a tab */
513 /* if (gottab) { */
514 string->width = ft_pen.x;
515 /* } else {
516 string->width = string->bbox.xMax - string->bbox.xMin;
517 } */
518 string->height = string->bbox.yMax - string->bbox.yMin;
519 return string;
520 }
523 static int gfx_save_png (art_u8 *buffer, FILE *fp,
524 long width, long height, long bytes_per_pixel);
525 /* render grafics into png image */
527 int gfx_render_png (gfx_canvas_t *canvas,
528 art_u32 width, art_u32 height,
529 gfx_color_t background, FILE *fp){
532 FT_Library library;
533 gfx_node_t *node = canvas->firstnode;
534 /*
535 art_u8 red = background >> 24, green = (background >> 16) & 0xff;
536 art_u8 blue = (background >> 8) & 0xff, alpha = ( background & 0xff );
537 */
538 unsigned long pys_width = width * canvas->zoom;
539 unsigned long pys_height = height * canvas->zoom;
540 const int bytes_per_pixel = 4;
541 unsigned long rowstride = pys_width*bytes_per_pixel; /* bytes per pixel */
543 /* fill that buffer with out background color */
544 gfx_color_t *buffp = art_new (gfx_color_t, pys_width*pys_height);
545 art_u8 *buffer = (art_u8 *)buffp;
546 unsigned long i;
547 for (i=0;i<pys_width*pys_height;
548 i++){
549 *(buffp++)=background;
550 }
551 FT_Init_FreeType( &library );
552 while(node){
553 switch (node->type) {
554 case GFX_LINE:
555 case GFX_AREA: {
556 ArtVpath *vec;
557 double dst[6];
558 ArtSVP *svp;
559 art_affine_scale(dst,canvas->zoom,canvas->zoom);
560 vec = art_vpath_affine_transform(node->path,dst);
561 if (node->closed_path)
562 gfx_libart_close_path(node, &vec);
563 /* gfx_round_scaled_coordinates(vec); */
564 /* pvec = art_vpath_perturb(vec);
565 art_free(vec); */
566 if(node->type == GFX_LINE){
567 svp = art_svp_vpath_stroke ( vec, ART_PATH_STROKE_JOIN_ROUND,
568 ART_PATH_STROKE_CAP_ROUND,
569 node->size*canvas->zoom,4,0.25);
570 } else {
571 svp = art_svp_from_vpath ( vec );
572 /* this takes time and is unnecessary since we make
573 sure elsewhere that the areas are going clock-whise */
574 /* svpt = art_svp_uncross( svp );
575 art_svp_free(svp);
576 svp = art_svp_rewind_uncrossed(svpt,ART_WIND_RULE_NONZERO);
577 art_svp_free(svpt);
578 */
579 }
580 art_free(vec);
581 /* this is from gnome since libart does not have this yet */
582 gnome_print_art_rgba_svp_alpha (svp ,0,0, pys_width, pys_height,
583 node->color, buffer, rowstride, NULL);
584 art_svp_free(svp);
585 break;
586 }
587 case GFX_TEXT: {
588 unsigned int n;
589 int error;
590 art_u8 fcolor[4],falpha;
591 FT_Face face;
592 gfx_char glyph;
593 gfx_string string;
594 FT_Vector vec; /* 26.6 */
596 float pen_x = 0.0 , pen_y = 0.0;
597 /* double x,y; */
598 long ix,iy;
600 fcolor[0] = node->color >> 24;
601 fcolor[1] = (node->color >> 16) & 0xff;
602 fcolor[2] = (node->color >> 8) & 0xff;
603 falpha = node->color & 0xff;
604 error = FT_New_Face( library,
605 (char *)node->filename,
606 0,
607 &face );
608 if ( error ) {
609 rrd_set_error("failed to load %s",node->filename);
611 break;
612 }
613 error = FT_Set_Char_Size(face, /* handle to face object */
614 (long)(node->size*64),
615 (long)(node->size*64),
616 (long)(100*canvas->zoom),
617 (long)(100*canvas->zoom));
618 if ( error ) break;
619 pen_x = node->x * canvas->zoom;
620 pen_y = node->y * canvas->zoom;
622 string = gfx_string_create (canvas, face, node->text, node->angle, node->tabwidth, node->size);
623 switch(node->halign){
624 case GFX_H_RIGHT: vec.x = -string->bbox.xMax;
625 break;
626 case GFX_H_CENTER: vec.x = abs(string->bbox.xMax) >= abs(string->bbox.xMin) ?
627 -string->bbox.xMax/2:-string->bbox.xMin/2;
628 break;
629 case GFX_H_LEFT: vec.x = -string->bbox.xMin;
630 break;
631 case GFX_H_NULL: vec.x = 0;
632 break;
633 }
635 switch(node->valign){
636 case GFX_V_TOP: vec.y = string->bbox.yMax;
637 break;
638 case GFX_V_CENTER: vec.y = abs(string->bbox.yMax) >= abs(string->bbox.yMin) ?
639 string->bbox.yMax/2:string->bbox.yMin/2;
640 break;
641 case GFX_V_BOTTOM: vec.y = 0;
642 break;
643 case GFX_V_NULL: vec.y = 0;
644 break;
645 }
646 pen_x += vec.x/64;
647 pen_y += vec.y/64;
648 glyph = string->glyphs;
649 for(n=0; n<string->num_glyphs; n++, glyph++) {
650 int gr;
651 FT_Glyph image;
652 FT_BitmapGlyph bit;
653 /* long buf_x,comp_n; */
654 /* make copy to transform */
655 if (! glyph->image) {
656 DPRINTF("no image\n")
657 continue;
658 }
659 error = FT_Glyph_Copy (glyph->image, &image);
660 if (error) {
661 DPRINTF("couldn't copy image\n")
662 continue;
663 }
665 /* transform it */
666 vec = glyph->pos;
667 FT_Vector_Transform (&vec, &string->transform);
669 bit = (FT_BitmapGlyph) image;
670 gr = bit->bitmap.num_grays -1;
671 /*
672 buf_x = (pen_x + 0.5) + (double)bit->left;
673 comp_n = buf_x + bit->bitmap.width > pys_width ? pys_width - buf_x : bit->bitmap.width;
674 if (buf_x < 0 || buf_x >= (long)pys_width) continue;
675 buf_x *= bytes_per_pixel ;
676 for (iy=0; iy < bit->bitmap.rows; iy++){
677 long buf_y = iy+(pen_y+0.5)-(double)bit->top;
678 if (buf_y < 0 || buf_y >= (long)pys_height) continue;
679 buf_y *= rowstride;
680 for (ix=0;ix < bit->bitmap.width;ix++){
681 *(letter + (ix*bytes_per_pixel+3)) = *(bit->bitmap.buffer + iy * bit->bitmap.width + ix);
682 }
683 art_rgba_rgba_composite(buffer + buf_y + buf_x ,letter,comp_n);
684 }
685 art_free(letter);
686 */
687 switch ( bit->bitmap.pixel_mode ) {
688 case FT_PIXEL_MODE_GRAY:
689 for (iy=0; iy < bit->bitmap.rows; iy++){
690 long buf_y = iy+(pen_y+0.5)-bit->top;
691 if (buf_y < 0 || buf_y >= (long)pys_height) continue;
692 buf_y *= rowstride;
693 for (ix=0;ix < bit->bitmap.width;ix++){
694 long buf_x = ix + (pen_x + 0.5) + (double)bit->left ;
695 art_u8 font_alpha;
697 if (buf_x < 0 || buf_x >= (long)pys_width) continue;
698 buf_x *= bytes_per_pixel ;
699 font_alpha = *(bit->bitmap.buffer + iy * bit->bitmap.pitch + ix);
700 if (font_alpha > 0){
701 fcolor[3] = (art_u8)((double)font_alpha / gr * falpha);
702 art_rgba_rgba_composite(buffer + buf_y + buf_x ,fcolor,1);
703 }
704 }
705 }
706 break;
708 case FT_PIXEL_MODE_MONO:
709 for (iy=0; iy < bit->bitmap.rows; iy++){
710 long buf_y = iy+(pen_y+0.5)-bit->top;
711 if (buf_y < 0 || buf_y >= (long)pys_height) continue;
712 buf_y *= rowstride;
713 for (ix=0;ix < bit->bitmap.width;ix++){
714 long buf_x = ix + (pen_x + 0.5) + (double)bit->left ;
716 if (buf_x < 0 || buf_x >= (long)pys_width) continue;
717 buf_x *= bytes_per_pixel ;
718 if ( (fcolor[3] = falpha * ((*(bit->bitmap.buffer + iy * bit->bitmap.pitch + ix/8) >> (7 - (ix % 8))) & 1)) > 0 )
719 art_rgba_rgba_composite(buffer + buf_y + buf_x ,fcolor,1);
720 }
721 }
722 break;
724 default:
725 rrd_set_error("unknown freetype pixel mode: %d", bit->bitmap.pixel_mode);
726 break;
727 }
729 /*
730 for (iy=0; iy < bit->bitmap.rows; iy++){
731 long buf_y = iy+(pen_y+0.5)-bit->top;
732 if (buf_y < 0 || buf_y >= (long)pys_height) continue;
733 buf_y *= rowstride;
734 for (ix=0;ix < bit->bitmap.width;ix++){
735 long buf_x = ix + (pen_x + 0.5) + (double)bit->left ;
736 art_u8 font_alpha;
738 if (buf_x < 0 || buf_x >= (long)pys_width) continue;
739 buf_x *= bytes_per_pixel ;
740 font_alpha = *(bit->bitmap.buffer + iy * bit->bitmap.width + ix);
741 font_alpha = (art_u8)((double)font_alpha / gr * falpha);
742 for (iz = 0; iz < 3; iz++){
743 art_u8 *orig = buffer + buf_y + buf_x + iz;
744 *orig = (art_u8)((double)*orig / gr * ( gr - font_alpha) +
745 (double)fcolor[iz] / gr * (font_alpha));
746 }
747 }
748 }
749 */
750 FT_Done_Glyph (image);
751 }
752 gfx_string_destroy(string);
753 }
754 }
755 node = node->next;
756 }
757 gfx_save_png(buffer,fp , pys_width,pys_height,bytes_per_pixel);
758 art_free(buffer);
759 FT_Done_FreeType( library );
760 return 0;
761 }
763 /* free memory used by nodes this will also remove memory required for
764 associated paths and svcs ... but not for text strings */
765 int
766 gfx_destroy (gfx_canvas_t *canvas){
767 gfx_node_t *next,*node = canvas->firstnode;
768 while(node){
769 next = node->next;
770 art_free(node->path);
771 free(node->text);
772 free(node->filename);
773 art_free(node);
774 node = next;
775 }
776 art_free(canvas);
777 return 0;
778 }
780 static int gfx_save_png (art_u8 *buffer, FILE *fp, long width, long height, long bytes_per_pixel){
781 png_structp png_ptr = NULL;
782 png_infop info_ptr = NULL;
783 int i;
784 png_bytep *row_pointers;
785 int rowstride = width * bytes_per_pixel;
786 png_text text[2];
788 if (fp == NULL)
789 return (1);
791 png_ptr = png_create_write_struct(PNG_LIBPNG_VER_STRING,NULL,NULL,NULL);
792 if (png_ptr == NULL)
793 {
794 return (1);
795 }
796 row_pointers = (png_bytepp)png_malloc(png_ptr,
797 height*sizeof(png_bytep));
799 info_ptr = png_create_info_struct(png_ptr);
801 if (info_ptr == NULL)
802 {
803 png_free(png_ptr,row_pointers);
804 png_destroy_write_struct(&png_ptr, (png_infopp)NULL);
805 return (1);
806 }
808 if (setjmp(png_jmpbuf(png_ptr)))
809 {
810 /* If we get here, we had a problem writing the file */
811 png_destroy_write_struct(&png_ptr, &info_ptr);
812 return (1);
813 }
815 png_init_io(png_ptr, fp);
816 png_set_IHDR (png_ptr, info_ptr,width, height,
817 8, PNG_COLOR_TYPE_RGB_ALPHA,
818 PNG_INTERLACE_NONE,
819 PNG_COMPRESSION_TYPE_DEFAULT,
820 PNG_FILTER_TYPE_DEFAULT);
822 text[0].key = "Software";
823 text[0].text = "RRDtool, Tobias Oetiker <tobi@oetike.ch>, http://tobi.oetiker.ch";
824 text[0].compression = PNG_TEXT_COMPRESSION_NONE;
825 png_set_text (png_ptr, info_ptr, text, 1);
827 /* lets make this fast while ending up with some increass in image size */
828 png_set_filter(png_ptr,0,PNG_FILTER_NONE);
829 /* png_set_filter(png_ptr,0,PNG_FILTER_SUB); */
830 png_set_compression_level(png_ptr,1);
831 /* png_set_compression_strategy(png_ptr,Z_HUFFMAN_ONLY); */
832 /*
833 png_set_filter(png_ptr,PNG_FILTER_TYPE_BASE,PNG_FILTER_SUB);
834 png_set_compression_strategy(png_ptr,Z_HUFFMAN_ONLY);
835 png_set_compression_level(png_ptr,Z_BEST_SPEED); */
837 /* Write header data */
838 png_write_info (png_ptr, info_ptr);
839 for (i = 0; i < height; i++)
840 row_pointers[i] = (png_bytep) (buffer + i*rowstride);
842 png_write_image(png_ptr, row_pointers);
843 png_write_end(png_ptr, info_ptr);
844 png_free(png_ptr,row_pointers);
845 png_destroy_write_struct(&png_ptr, &info_ptr);
846 return 1;
847 }
850 /* ----- COMMON ROUTINES for pdf, svg and eps */
851 #define min3(a, b, c) (a < b ? (a < c ? a : c) : (b < c ? b : c))
852 #define max3(a, b, c) (a > b ? (a > c ? a : c) : (b > c ? b : c))
854 #define PDF_CALC_DEBUG 0
856 typedef struct pdf_point
857 {
858 double x, y;
859 } pdf_point;
861 typedef struct
862 {
863 double ascender, descender, baselineY;
864 pdf_point sizep, minp, maxp;
865 double x, y, tdx, tdy;
866 double r, cos_r, sin_r;
867 double ma, mb, mc, md, mx, my; /* pdf coord matrix */
868 double tmx, tmy; /* last 2 coords of text coord matrix */
869 #if PDF_CALC_DEBUG
870 int debug;
871 #endif
872 } pdf_coords;
874 #if PDF_CALC_DEBUG
875 static void pdf_dump_calc(gfx_node_t *node, pdf_coords *g)
876 {
877 fprintf(stderr, "PDF CALC =============================\n");
878 fprintf(stderr, " '%s' at %f pt\n", node->text, node->size);
879 fprintf(stderr, " align h = %s, v = %s, sizep = %f, %f\n",
880 (node->halign == GFX_H_RIGHT ? "r" :
881 (node->halign == GFX_H_CENTER ? "c" :
882 (node->halign == GFX_H_LEFT ? "l" : "N"))),
883 (node->valign == GFX_V_TOP ? "t" :
884 (node->valign == GFX_V_CENTER ? "c" :
885 (node->valign == GFX_V_BOTTOM ? "b" : "N"))),
886 g->sizep.x, g->sizep.y);
887 fprintf(stderr, " r = %f = %f, cos = %f, sin = %f\n",
888 g->r, node->angle, g->cos_r, g->sin_r);
889 fprintf(stderr, " ascender = %f, descender = %f, baselineY = %f\n",
890 g->ascender, g->descender, g->baselineY);
891 fprintf(stderr, " sizep: %f, %f\n", g->sizep.x, g->sizep.y);
892 fprintf(stderr, " minp: %f, %f maxp = %f, %f\n",
893 g->minp.x, g->minp.y, g->maxp.x, g->maxp.y);
894 fprintf(stderr, " x = %f, y = %f\n", g->x, g->y);
895 fprintf(stderr, " tdx = %f, tdy = %f\n", g->tdx, g->tdy);
896 fprintf(stderr, " GM = %f, %f, %f, %f, %f, %f\n",
897 g->ma, g->mb, g->mc, g->md, g->mx, g->my);
898 fprintf(stderr, " TM = %f, %f, %f, %f, %f, %f\n",
899 g->ma, g->mb, g->mc, g->md, g->tmx, g->tmy);
900 }
901 #endif
903 #if PDF_CALC_DEBUG
904 #define PDF_DD(x) if (g->debug) x;
905 #else
906 #define PDF_DD(x)
907 #endif
909 static void pdf_rotate(pdf_coords *g, pdf_point *p)
910 {
911 double x2 = g->cos_r * p->x - g->sin_r * p->y;
912 double y2 = g->sin_r * p->x + g->cos_r * p->y;
913 PDF_DD( fprintf(stderr, " rotate(%f, %f) -> %f, %f\n", p->x, p->y, x2, y2))
914 p->x = x2;
915 p->y = y2;
916 }
919 static void pdf_calc(int page_height, gfx_node_t *node, pdf_coords *g)
920 {
921 pdf_point a, b, c;
922 #if PDF_CALC_DEBUG
923 /* g->debug = !!strstr(node->text, "RevProxy-1") || !!strstr(node->text, "08:00"); */
924 g->debug = !!strstr(node->text, "sekunder") || !!strstr(node->text, "Web");
925 #endif
926 g->x = node->x;
927 g->y = page_height - node->y;
928 if (node->angle) {
929 g->r = 2 * M_PI * node->angle / 360.0;
930 g->cos_r = cos(g->r);
931 g->sin_r = sin(g->r);
932 } else {
933 g->r = 0;
934 g->cos_r = 1;
935 g->sin_r = 0;
936 }
937 g->ascender = afm_get_ascender(node->filename, node->size);
938 g->descender = afm_get_descender(node->filename, node->size);
939 g->sizep.x = afm_get_text_width(0, node->filename, node->size, node->tabwidth, node->text);
940 /* seems like libart ignores the descender when doing vertial-align = bottom,
941 so we do that too, to get labels v-aligning properly */
942 g->sizep.y = -g->ascender; /* + afm_get_descender(font->ps_font, node->size); */
943 g->baselineY = -g->ascender - g->sizep.y / 2;
944 a.x = g->sizep.x; a.y = g->sizep.y;
945 b.x = g->sizep.x; b.y = 0;
946 c.x = 0; c.y = g->sizep.y;
947 if (node->angle) {
948 pdf_rotate(g, &a);
949 pdf_rotate(g, &b);
950 pdf_rotate(g, &c);
951 }
952 g->minp.x = min3(a.x, b.x, c.x);
953 g->minp.y = min3(a.y, b.y, c.y);
954 g->maxp.x = max3(a.x, b.x, c.x);
955 g->maxp.y = max3(a.y, b.y, c.y);
956 /* The alignment parameters in node->valign and node->halign
957 specifies the alignment in the non-rotated coordinate system
958 (very unlike pdf/postscript), which complicates matters.
959 */
960 switch (node->halign) {
961 case GFX_H_RIGHT: g->tdx = -g->maxp.x; break;
962 case GFX_H_CENTER: g->tdx = -(g->maxp.x + g->minp.x) / 2; break;
963 case GFX_H_LEFT: g->tdx = -g->minp.x; break;
964 case GFX_H_NULL: g->tdx = 0; break;
965 }
966 switch(node->valign){
967 case GFX_V_TOP: g->tdy = -g->maxp.y; break;
968 case GFX_V_CENTER: g->tdy = -(g->maxp.y + g->minp.y) / 2; break;
969 case GFX_V_BOTTOM: g->tdy = -g->minp.y; break;
970 case GFX_V_NULL: g->tdy = 0; break;
971 }
972 g->ma = g->cos_r;
973 g->mb = g->sin_r;
974 g->mc = -g->sin_r;
975 g->md = g->cos_r;
976 g->mx = g->x + g->tdx;
977 g->my = g->y + g->tdy;
978 g->tmx = g->mx - g->ascender * g->mc;
979 g->tmy = g->my - g->ascender * g->md;
980 PDF_DD(pdf_dump_calc(node, g))
981 }
983 /* ------- SVG -------
984 SVG reference:
985 http://www.w3.org/TR/SVG/
986 */
987 static int svg_indent = 0;
988 static int svg_single_line = 0;
989 static const char *svg_default_font = "-dummy-";
990 typedef struct svg_dash
991 {
992 int dash_enable;
993 double dash_adjust, dash_len, dash_offset;
994 double adjusted_on, adjusted_off;
995 } svg_dash;
998 static void svg_print_indent(FILE *fp)
999 {
1000 int i;
1001 for (i = svg_indent - svg_single_line; i > 0; i--) {
1002 putc(' ', fp);
1003 putc(' ', fp);
1004 }
1005 }
1007 static void svg_start_tag(FILE *fp, const char *name)
1008 {
1009 svg_print_indent(fp);
1010 putc('<', fp);
1011 fputs(name, fp);
1012 svg_indent++;
1013 }
1015 static void svg_close_tag_single_line(FILE *fp)
1016 {
1017 svg_single_line++;
1018 putc('>', fp);
1019 }
1021 static void svg_close_tag(FILE *fp)
1022 {
1023 putc('>', fp);
1024 if (!svg_single_line)
1025 putc('\n', fp);
1026 }
1028 static void svg_end_tag(FILE *fp, const char *name)
1029 {
1030 /* name is NULL if closing empty-node tag */
1031 svg_indent--;
1032 if (svg_single_line)
1033 svg_single_line--;
1034 else if (name)
1035 svg_print_indent(fp);
1036 if (name != NULL) {
1037 fputs("</", fp);
1038 fputs(name, fp);
1039 } else {
1040 putc('/', fp);
1041 }
1042 svg_close_tag(fp);
1043 }
1045 static void svg_close_tag_empty_node(FILE *fp)
1046 {
1047 svg_end_tag(fp, NULL);
1048 }
1050 static void svg_write_text(FILE *fp, const char *text)
1051 {
1052 #ifdef HAVE_MBSTOWCS
1053 size_t clen;
1054 wchar_t *p, *cstr, ch;
1055 int text_count;
1056 if (!text)
1057 return;
1058 clen = strlen(text) + 1;
1059 cstr = malloc(sizeof(wchar_t) * clen);
1060 text_count = mbstowcs(cstr, text, clen);
1061 if (text_count == -1)
1062 text_count = mbstowcs(cstr, "Enc-Err", 6);
1063 p = cstr;
1064 #else
1065 const unsigned char *p = text, ch;
1066 if (!p)
1067 return;
1068 #endif
1069 while (1) {
1070 ch = *p++;
1071 ch = afm_fix_osx_charset(ch); /* unsafe macro */
1072 switch (ch) {
1073 case 0:
1074 #ifdef HAVE_MBSTOWCS
1075 free(cstr);
1076 #endif
1077 return;
1078 case '&': fputs("&", fp); break;
1079 case '<': fputs("<", fp); break;
1080 case '>': fputs(">", fp); break;
1081 case '"': fputs(""", fp); break;
1082 default:
1083 if (ch == 32) {
1084 if (p <= cstr + 1 || !*p || *p == 32)
1085 fputs(" ", fp); /* non-breaking space in unicode */
1086 else
1087 fputc(32, fp);
1088 } else if (ch < 32 || ch >= 127)
1089 fprintf(fp, "&#%d;", (int)ch);
1090 else
1091 putc((char)ch, fp);
1092 }
1093 }
1094 }
1096 static void svg_format_number(char *buf, int bufsize, double d)
1097 {
1098 /* omit decimals if integer to reduce filesize */
1099 char *p;
1100 snprintf(buf, bufsize, "%.2f", d);
1101 p = buf; /* doesn't trust snprintf return value */
1102 while (*p)
1103 p++;
1104 while (--p > buf) {
1105 char ch = *p;
1106 if (ch == '0') {
1107 *p = '\0'; /* zap trailing zeros */
1108 continue;
1109 }
1110 if (ch == '.')
1111 *p = '\0'; /* zap trailing dot */
1112 break;
1113 }
1114 }
1116 static void svg_write_number(FILE *fp, double d)
1117 {
1118 char buf[60];
1119 svg_format_number(buf, sizeof(buf), d);
1120 fputs(buf, fp);
1121 }
1123 static int svg_color_is_black(int c)
1124 {
1125 /* gfx_color_t is RRGGBBAA */
1126 return c == 0x000000FF;
1127 }
1129 static void svg_write_color(FILE *fp, gfx_color_t c, const char *attr)
1130 {
1131 /* gfx_color_t is RRGGBBAA, svg can use #RRGGBB and #RGB like html */
1132 gfx_color_t rrggbb = (int)((c >> 8) & 0xFFFFFF);
1133 gfx_color_t opacity = c & 0xFF;
1134 fprintf(fp, " %s=\"", attr);
1135 if ((rrggbb & 0x0F0F0F) == ((rrggbb >> 4) & 0x0F0F0F)) {
1136 /* css2 short form, #rgb is #rrggbb, not #r0g0b0 */
1137 fprintf(fp, "#%03lX",
1138 ( ((rrggbb >> 8) & 0xF00)
1139 | ((rrggbb >> 4) & 0x0F0)
1140 | ( rrggbb & 0x00F)));
1141 } else {
1142 fprintf(fp, "#%06lX", rrggbb);
1143 }
1144 fputs("\"", fp);
1145 if (opacity != 0xFF) {
1146 fprintf(fp, " opacity=\"");
1147 svg_write_number(fp, opacity / 255.0);
1148 fputs("\"", fp);
1149 }
1150 }
1152 static void svg_get_dash(gfx_node_t *node, svg_dash *d)
1153 {
1154 double offset;
1155 int mult;
1156 if (node->dash_on <= 0 || node->dash_off <= 0) {
1157 d->dash_enable = 0;
1158 return;
1159 }
1160 d->dash_enable = 1;
1161 d->dash_len = node->dash_on + node->dash_off;
1162 /* dash on/off adjustment due to round caps */
1163 d->dash_adjust = 0.8 * node->size;
1164 d->adjusted_on = node->dash_on - d->dash_adjust;
1165 if (d->adjusted_on < 0.01)
1166 d->adjusted_on = 0.01;
1167 d->adjusted_off = d->dash_len - d->adjusted_on;
1168 /* dash offset calc */
1169 if (node->path[0].x == node->path[1].x) /* only good for horz/vert lines */
1170 offset = node->path[0].y;
1171 else
1172 offset = node->path[0].x;
1173 mult = (int)fabs(offset / d->dash_len);
1174 d->dash_offset = offset - mult * d->dash_len;
1175 if (node->path[0].x < node->path[1].x || node->path[0].y < node->path[1].y)
1176 d->dash_offset = d->dash_len - d->dash_offset;
1177 }
1179 static int svg_dash_equal(svg_dash *a, svg_dash *b)
1180 {
1181 if (a->dash_enable != b->dash_enable)
1182 return 0;
1183 if (a->adjusted_on != b->adjusted_on)
1184 return 0;
1185 if (a->adjusted_off != b->adjusted_off)
1186 return 0;
1187 /* rest of properties will be the same when on+off are */
1188 return 1;
1189 }
1191 static void svg_common_path_attributes(FILE *fp, gfx_node_t *node)
1192 {
1193 svg_dash dash_info;
1194 svg_get_dash(node, &dash_info);
1195 fputs(" stroke-width=\"", fp);
1196 svg_write_number(fp, node->size);
1197 fputs("\"", fp);
1198 svg_write_color(fp, node->color, "stroke");
1199 fputs(" fill=\"none\"", fp);
1200 if (dash_info.dash_enable) {
1201 if (dash_info.dash_offset != 0) {
1202 fputs(" stroke-dashoffset=\"", fp);
1203 svg_write_number(fp, dash_info.dash_offset);
1204 fputs("\"", fp);
1205 }
1206 fputs(" stroke-dasharray=\"", fp);
1207 svg_write_number(fp, dash_info.adjusted_on);
1208 fputs(",", fp);
1209 svg_write_number(fp, dash_info.adjusted_off);
1210 fputs("\"", fp);
1211 }
1212 }
1214 static int svg_is_int_step(double a, double b)
1215 {
1216 double diff = fabs(a - b);
1217 return floor(diff) == diff;
1218 }
1220 static int svg_path_straight_segment(FILE *fp,
1221 double lastA, double currentA, double currentB,
1222 gfx_node_t *node,
1223 int segment_idx, int isx, char absChar, char relChar)
1224 {
1225 if (!svg_is_int_step(lastA, currentA)) {
1226 putc(absChar, fp);
1227 svg_write_number(fp, currentA);
1228 return 0;
1229 }
1230 if (segment_idx < node->points - 1) {
1231 ArtVpath *vec = node->path + segment_idx + 1;
1232 if (vec->code == ART_LINETO) {
1233 double nextA = (isx ? vec->x : vec->y) - LINEOFFSET;
1234 double nextB = (isx ? vec->y : vec->x) - LINEOFFSET;
1235 if (nextB == currentB
1236 && ((currentA >= lastA) == (nextA >= currentA))
1237 && svg_is_int_step(currentA, nextA)) {
1238 return 1; /* skip to next as it is a straight line */
1239 }
1240 }
1241 }
1242 putc(relChar, fp);
1243 svg_write_number(fp, currentA - lastA);
1244 return 0;
1245 }
1247 static void svg_path(FILE *fp, gfx_node_t *node, int multi)
1248 {
1249 int i;
1250 double lastX = 0, lastY = 0;
1251 /* for straight lines <path..> tags take less space than
1252 <line..> tags because of the efficient packing
1253 in the 'd' attribute */
1254 svg_start_tag(fp, "path");
1255 if (!multi)
1256 svg_common_path_attributes(fp, node);
1257 fputs(" d=\"", fp);
1258 /* specification of the 'd' attribute: */
1259 /* http://www.w3.org/TR/SVG/paths.html#PathDataGeneralInformation */
1260 for (i = 0; i < node->points; i++) {
1261 ArtVpath *vec = node->path + i;
1262 double x = vec->x - LINEOFFSET;
1263 double y = vec->y - LINEOFFSET;
1264 switch (vec->code) {
1265 case ART_MOVETO_OPEN: /* fall-through */
1266 case ART_MOVETO:
1267 putc('M', fp);
1268 svg_write_number(fp, x);
1269 putc(',', fp);
1270 svg_write_number(fp, y);
1271 break;
1272 case ART_LINETO:
1273 /* try optimize filesize by using minimal lineto commands */
1274 /* without introducing rounding errors. */
1275 if (x == lastX) {
1276 if (svg_path_straight_segment(fp, lastY, y, x, node, i, 0, 'V', 'v'))
1277 continue;
1278 } else if (y == lastY) {
1279 if (svg_path_straight_segment(fp, lastX, x, y, node, i, 1, 'H', 'h'))
1280 continue;
1281 } else {
1282 putc('L', fp);
1283 svg_write_number(fp, x);
1284 putc(',', fp);
1285 svg_write_number(fp, y);
1286 }
1287 break;
1288 case ART_CURVETO: break; /* unsupported */
1289 case ART_END: break; /* nop */
1290 }
1291 lastX = x;
1292 lastY = y;
1293 }
1294 if (node->closed_path)
1295 fputs(" Z", fp);
1296 fputs("\"", fp);
1297 svg_close_tag_empty_node(fp);
1298 }
1300 static void svg_multi_path(FILE *fp, gfx_node_t **nodeR)
1301 {
1302 /* optimize for multiple paths with the same color, penwidth, etc. */
1303 int num = 1;
1304 gfx_node_t *node = *nodeR;
1305 gfx_node_t *next = node->next;
1306 while (next) {
1307 if (next->type != node->type
1308 || next->size != node->size
1309 || next->color != node->color
1310 || next->dash_on != node->dash_on
1311 || next->dash_off != node->dash_off)
1312 break;
1313 next = next->next;
1314 num++;
1315 }
1316 if (num == 1) {
1317 svg_path(fp, node, 0);
1318 return;
1319 }
1320 svg_start_tag(fp, "g");
1321 svg_common_path_attributes(fp, node);
1322 svg_close_tag(fp);
1323 while (num && node) {
1324 svg_path(fp, node, 1);
1325 if (!--num)
1326 break;
1327 node = node->next;
1328 *nodeR = node;
1329 }
1330 svg_end_tag(fp, "g");
1331 }
1333 static void svg_area(FILE *fp, gfx_node_t *node)
1334 {
1335 int i;
1336 double startX = 0, startY = 0;
1337 svg_start_tag(fp, "polygon");
1338 fputs(" ", fp);
1339 svg_write_color(fp, node->color, "fill");
1340 fputs(" points=\"", fp);
1341 for (i = 0; i < node->points; i++) {
1342 ArtVpath *vec = node->path + i;
1343 double x = vec->x - LINEOFFSET;
1344 double y = vec->y - LINEOFFSET;
1345 switch (vec->code) {
1346 case ART_MOVETO_OPEN: /* fall-through */
1347 case ART_MOVETO:
1348 svg_write_number(fp, x);
1349 putc(',', fp);
1350 svg_write_number(fp, y);
1351 startX = x;
1352 startY = y;
1353 break;
1354 case ART_LINETO:
1355 if (i == node->points - 2
1356 && node->path[i + 1].code == ART_END
1357 && fabs(x - startX) < 0.001 && fabs(y - startY) < 0.001) {
1358 break; /* poly area always closed, no need for last point */
1359 }
1360 putc(' ', fp);
1361 svg_write_number(fp, x);
1362 putc(',', fp);
1363 svg_write_number(fp, y);
1364 break;
1365 case ART_CURVETO: break; /* unsupported */
1366 case ART_END: break; /* nop */
1367 }
1368 }
1369 fputs("\"", fp);
1370 svg_close_tag_empty_node(fp);
1371 }
1373 static void svg_text(FILE *fp, gfx_node_t *node)
1374 {
1375 pdf_coords g;
1376 const char *fontname;
1377 /* as svg has 0,0 in top-left corner (like most screens) instead of
1378 bottom-left corner like pdf and eps, we have to fake the coords
1379 using offset and inverse sin(r) value */
1380 int page_height = 1000;
1381 pdf_calc(page_height, node, &g);
1382 if (node->angle != 0) {
1383 svg_start_tag(fp, "g");
1384 /* can't use svg_write_number as 2 decimals is far from enough to avoid
1385 skewed text */
1386 fprintf(fp, " transform=\"matrix(%f,%f,%f,%f,%f,%f)\"",
1387 g.ma, -g.mb, -g.mc, g.md, g.tmx, page_height - g.tmy);
1388 svg_close_tag(fp);
1389 }
1390 svg_start_tag(fp, "text");
1391 if (!node->angle) {
1392 fputs(" x=\"", fp);
1393 svg_write_number(fp, g.tmx);
1394 fputs("\" y=\"", fp);
1395 svg_write_number(fp, page_height - g.tmy);
1396 fputs("\"", fp);
1397 }
1398 fontname = afm_get_font_name(node->filename);
1399 if (strcmp(fontname, svg_default_font))
1400 fprintf(fp, " font-family=\"%s\"", fontname);
1401 fputs(" font-size=\"", fp);
1402 svg_write_number(fp, node->size);
1403 fputs("\"", fp);
1404 if (!svg_color_is_black(node->color))
1405 svg_write_color(fp, node->color, "fill");
1406 svg_close_tag_single_line(fp);
1407 /* support for node->tabwidth missing */
1408 svg_write_text(fp, node->text);
1409 svg_end_tag(fp, "text");
1410 if (node->angle != 0)
1411 svg_end_tag(fp, "g");
1412 }
1414 int gfx_render_svg (gfx_canvas_t *canvas,
1415 art_u32 width, art_u32 height,
1416 gfx_color_t background, FILE *fp){
1417 gfx_node_t *node = canvas->firstnode;
1418 /* Find the first font used, and assume it is the mostly used
1419 one. It reduces the number of font-familty attributes. */
1420 while (node) {
1421 if (node->type == GFX_TEXT && node->filename) {
1422 svg_default_font = afm_get_font_name(node->filename);
1423 break;
1424 }
1425 node = node->next;
1426 }
1427 fputs(
1428 "<?xml version=\"1.0\" standalone=\"no\"?>\n"
1429 "<!DOCTYPE svg PUBLIC \"-//W3C//DTD SVG 1.0//EN\"\n"
1430 " \"http://www.w3.org/TR/2001/REC-SVG-20010904/DTD/svg10.dtd\">\n"
1431 "<!--\n"
1432 " SVG file created by\n"
1433 " RRDtool " PACKAGE_VERSION " Tobias Oetiker, http://tobi.oetiker.ch\n"
1434 "\n"
1435 " The width/height attributes in the outhermost svg node\n"
1436 " are just default sizes for the browser which is used\n"
1437 " if the svg file is openened directly without being\n"
1438 " embedded in an html file.\n"
1439 " The viewBox is the local coord system for rrdtool.\n"
1440 "-->\n", fp);
1441 svg_start_tag(fp, "svg");
1442 fputs(" width=\"", fp);
1443 svg_write_number(fp, width * canvas->zoom);
1444 fputs("\" height=\"", fp);
1445 svg_write_number(fp, height * canvas->zoom);
1446 fputs("\" x=\"0\" y=\"0\" viewBox=\"", fp);
1447 svg_write_number(fp, -LINEOFFSET);
1448 fputs(" ", fp);
1449 svg_write_number(fp, -LINEOFFSET);
1450 fputs(" ", fp);
1451 svg_write_number(fp, width - LINEOFFSET);
1452 fputs(" ", fp);
1453 svg_write_number(fp, height - LINEOFFSET);
1454 fputs("\" preserveAspectRatio=\"xMidYMid\"", fp);
1455 fprintf(fp, " font-family=\"%s\"", svg_default_font); /* default font */
1456 fputs(" stroke-linecap=\"round\" stroke-linejoin=\"round\"", fp);
1457 svg_close_tag(fp);
1458 svg_start_tag(fp, "rect");
1459 fprintf(fp, " x=\"0\" y=\"0\" width=\"%d\" height=\"%d\"", width, height);
1460 svg_write_color(fp, background, "fill");
1461 svg_close_tag_empty_node(fp);
1462 node = canvas->firstnode;
1463 while (node) {
1464 switch (node->type) {
1465 case GFX_LINE:
1466 svg_multi_path(fp, &node);
1467 break;
1468 case GFX_AREA:
1469 svg_area(fp, node);
1470 break;
1471 case GFX_TEXT:
1472 svg_text(fp, node);
1473 }
1474 node = node->next;
1475 }
1476 svg_end_tag(fp, "svg");
1477 return 0;
1478 }
1480 /* ------- EPS -------
1481 EPS and Postscript references:
1482 http://partners.adobe.com/asn/developer/technotes/postscript.html
1483 */
1485 typedef struct eps_font
1486 {
1487 const char *ps_font;
1488 int id;
1489 struct eps_font *next;
1490 } eps_font;
1492 typedef struct eps_state
1493 {
1494 FILE *fp;
1495 gfx_canvas_t *canvas;
1496 art_u32 page_width, page_height;
1497 eps_font *font_list;
1498 /*--*/
1499 gfx_color_t color;
1500 const char *font;
1501 double font_size;
1502 double line_width;
1503 int linecap, linejoin;
1504 int has_dash;
1505 } eps_state;
1507 static void eps_set_color(eps_state *state, gfx_color_t color)
1508 {
1509 #if USE_EPS_FAKE_ALPHA
1510 double a1, a2;
1511 #endif
1512 /* gfx_color_t is RRGGBBAA */
1513 if (state->color == color)
1514 return;
1515 #if USE_EPS_FAKE_ALPHA
1516 a1 = (color & 255) / 255.0;
1517 a2 = 255 * (1 - a1);
1518 #define eps_color_calc(x) (int)( ((x) & 255) * a1 + a2)
1519 #else
1520 #define eps_color_calc(x) (int)( (x) & 255)
1521 #endif
1522 /* gfx_color_t is RRGGBBAA */
1523 if (state->color == color)
1524 return;
1525 fprintf(state->fp, "%d %d %d Rgb\n",
1526 eps_color_calc(color >> 24),
1527 eps_color_calc(color >> 16),
1528 eps_color_calc(color >> 8));
1529 state->color = color;
1530 }
1532 static int eps_add_font(eps_state *state, gfx_node_t *node)
1533 {
1534 /* The fonts list could be postponed to the end using
1535 (atend), but let's be nice and have them in the header. */
1536 const char *ps_font = afm_get_font_postscript_name(node->filename);
1537 eps_font *ef;
1538 for (ef = state->font_list; ef; ef = ef->next) {
1539 if (!strcmp(ps_font, ef->ps_font))
1540 return 0;
1541 }
1542 ef = malloc(sizeof(eps_font));
1543 if (ef == NULL) {
1544 rrd_set_error("malloc for eps_font");
1545 return -1;
1546 }
1547 ef->next = state->font_list;
1548 ef->ps_font = ps_font;
1549 state->font_list = ef;
1550 return 0;
1551 }
1553 static void eps_list_fonts(eps_state *state, const char *dscName)
1554 {
1555 eps_font *ef;
1556 int lineLen = strlen(dscName);
1557 if (!state->font_list)
1558 return;
1559 fputs(dscName, state->fp);
1560 for (ef = state->font_list; ef; ef = ef->next) {
1561 int nameLen = strlen(ef->ps_font);
1562 if (lineLen + nameLen > 100 && lineLen) {
1563 fputs("\n", state->fp);
1564 fputs("%%- \n", state->fp);
1565 lineLen = 5;
1566 } else {
1567 fputs(" ", state->fp);
1568 lineLen++;
1569 }
1570 fputs(ef->ps_font, state->fp);
1571 lineLen += nameLen;
1572 }
1573 fputs("\n", state->fp);
1574 }
1576 static void eps_define_fonts(eps_state *state)
1577 {
1578 eps_font *ef;
1579 if (!state->font_list)
1580 return;
1581 for (ef = state->font_list; ef; ef = ef->next) {
1582 /* PostScript¨ LANGUAGE REFERENCE third edition
1583 page 349 */
1584 fprintf(state->fp,
1585 "%%\n"
1586 "/%s findfont dup length dict begin\n"
1587 "{ 1 index /FID ne {def} {pop pop} ifelse } forall\n"
1588 "/Encoding ISOLatin1Encoding def\n"
1589 "currentdict end\n"
1590 "/%s-ISOLatin1 exch definefont pop\n"
1591 "/SetFont-%s { /%s-ISOLatin1 findfont exch scalefont setfont } bd\n",
1592 ef->ps_font, ef->ps_font, ef->ps_font, ef->ps_font);
1593 }
1594 }
1596 static int eps_prologue(eps_state *state)
1597 {
1598 gfx_node_t *node;
1599 fputs(
1600 "%!PS-Adobe-3.0 EPSF-3.0\n"
1601 "%%Creator: RRDtool " PACKAGE_VERSION " Tobias Oetiker, http://tobi.oetiker.ch\n"
1602 /* can't like weird chars here */
1603 "%%Title: (RRDtool output)\n"
1604 "%%DocumentData: Clean7Bit\n"
1605 "", state->fp);
1606 fprintf(state->fp, "%%%%BoundingBox: 0 0 %d %d\n",
1607 state->page_width, state->page_height);
1608 for (node = state->canvas->firstnode; node; node = node->next) {
1609 if (node->type == GFX_TEXT && eps_add_font(state, node) == -1)
1610 return -1;
1611 }
1612 eps_list_fonts(state, "%%DocumentFonts:");
1613 eps_list_fonts(state, "%%DocumentNeededFonts:");
1614 fputs(
1615 "%%EndComments\n"
1616 "%%BeginProlog\n"
1617 "%%EndProlog\n" /* must have, or BoundingBox is ignored */
1618 "/bd { bind def } bind def\n"
1619 "", state->fp);
1620 fprintf(state->fp, "/X { %.2f add } bd\n", LINEOFFSET);
1621 fputs(
1622 "/X2 {X exch X exch} bd\n"
1623 "/M {X2 moveto} bd\n"
1624 "/L {X2 lineto} bd\n"
1625 "/m {moveto} bd\n"
1626 "/l {lineto} bd\n"
1627 "/S {stroke} bd\n"
1628 "/CP {closepath} bd\n"
1629 "/WS {setlinewidth stroke} bd\n"
1630 "/F {fill} bd\n"
1631 "/T1 {gsave} bd\n"
1632 "/T2 {concat 0 0 moveto show grestore} bd\n"
1633 "/T {moveto show} bd\n"
1634 "/Rgb { 255.0 div 3 1 roll\n"
1635 " 255.0 div 3 1 roll \n"
1636 " 255.0 div 3 1 roll setrgbcolor } bd\n"
1637 "", state->fp);
1638 eps_define_fonts(state);
1639 return 0;
1640 }
1642 static void eps_clear_dash(eps_state *state)
1643 {
1644 if (!state->has_dash)
1645 return;
1646 state->has_dash = 0;
1647 fputs("[1 0] 0 setdash\n", state->fp);
1648 }
1650 static void eps_write_linearea(eps_state *state, gfx_node_t *node)
1651 {
1652 int i;
1653 FILE *fp = state->fp;
1654 int useOffset = 0;
1655 int clearDashIfAny = 1;
1656 eps_set_color(state, node->color);
1657 if (node->type == GFX_LINE) {
1658 svg_dash dash_info;
1659 if (state->linecap != 1) {
1660 fputs("1 setlinecap\n", fp);
1661 state->linecap = 1;
1662 }
1663 if (state->linejoin != 1) {
1664 fputs("1 setlinejoin\n", fp);
1665 state->linejoin = 1;
1666 }
1667 svg_get_dash(node, &dash_info);
1668 if (dash_info.dash_enable) {
1669 clearDashIfAny = 0;
1670 state->has_dash = 1;
1671 fputs("[", fp);
1672 svg_write_number(fp, dash_info.adjusted_on);
1673 fputs(" ", fp);
1674 svg_write_number(fp, dash_info.adjusted_off);
1675 fputs("] ", fp);
1676 svg_write_number(fp, dash_info.dash_offset);
1677 fputs(" setdash\n", fp);
1678 }
1679 }
1680 if (clearDashIfAny)
1681 eps_clear_dash(state);
1682 for (i = 0; i < node->points; i++) {
1683 ArtVpath *vec = node->path + i;
1684 double x = vec->x;
1685 double y = state->page_height - vec->y;
1686 if (vec->code == ART_MOVETO_OPEN || vec->code == ART_MOVETO)
1687 useOffset = (fabs(x - floor(x) - 0.5) < 0.01 && fabs(y - floor(y) - 0.5) < 0.01);
1688 if (useOffset) {
1689 x -= LINEOFFSET;
1690 y -= LINEOFFSET;
1691 }
1692 switch (vec->code) {
1693 case ART_MOVETO_OPEN: /* fall-through */
1694 case ART_MOVETO:
1695 svg_write_number(fp, x);
1696 fputc(' ', fp);
1697 svg_write_number(fp, y);
1698 fputc(' ', fp);
1699 fputs(useOffset ? "M\n" : "m\n", fp);
1700 break;
1701 case ART_LINETO:
1702 svg_write_number(fp, x);
1703 fputc(' ', fp);
1704 svg_write_number(fp, y);
1705 fputc(' ', fp);
1706 fputs(useOffset ? "L\n" : "l\n", fp);
1707 break;
1708 case ART_CURVETO: break; /* unsupported */
1709 case ART_END: break; /* nop */
1710 }
1711 }
1712 if (node->type == GFX_LINE) {
1713 if (node->closed_path)
1714 fputs("CP ", fp);
1715 if (node->size != state->line_width) {
1716 state->line_width = node->size;
1717 svg_write_number(fp, state->line_width);
1718 fputs(" WS\n", fp);
1719 } else {
1720 fputs("S\n", fp);
1721 }
1722 } else {
1723 fputs("F\n", fp);
1724 }
1725 }
1727 static void eps_write_text(eps_state *state, gfx_node_t *node)
1728 {
1729 FILE *fp = state->fp;
1730 const char *ps_font = afm_get_font_postscript_name(node->filename);
1731 int lineLen = 0;
1732 pdf_coords g;
1733 #ifdef HAVE_MBSTOWCS
1734 size_t clen;
1735 wchar_t *p, *cstr, ch;
1736 int text_count;
1737 if (!node->text)
1738 return;
1739 clen = strlen(node->text) + 1;
1740 cstr = malloc(sizeof(wchar_t) * clen);
1741 text_count = mbstowcs(cstr, node->text, clen);
1742 if (text_count == -1)
1743 text_count = mbstowcs(cstr, "Enc-Err", 6);
1744 p = cstr;
1745 #else
1746 const unsigned char *p = node->text, ch;
1747 if (!p)
1748 return;
1749 #endif
1750 pdf_calc(state->page_height, node, &g);
1751 eps_set_color(state, node->color);
1752 if (strcmp(ps_font, state->font) || node->size != state->font_size) {
1753 state->font = ps_font;
1754 state->font_size = node->size;
1755 svg_write_number(fp, state->font_size);
1756 fprintf(fp, " SetFont-%s\n", state->font);
1757 }
1758 if (node->angle)
1759 fputs("T1 ", fp);
1760 fputs("(", fp);
1761 lineLen = 20;
1762 while (1) {
1763 ch = *p;
1764 if (!ch)
1765 break;
1766 ch = afm_fix_osx_charset(ch); /* unsafe macro */
1767 if (++lineLen > 70) {
1768 fputs("\\\n", fp); /* backslash and \n */
1769 lineLen = 0;
1770 }
1771 switch (ch) {
1772 case '%':
1773 case '(':
1774 case ')':
1775 case '\\':
1776 fputc('\\', fp);
1777 fputc(ch, fp);
1778 break;
1779 case '\n':
1780 fputs("\\n", fp);
1781 break;
1782 case '\r':
1783 fputs("\\r", fp);
1784 break;
1785 case '\t':
1786 fputs("\\t", fp);
1787 break;
1788 default:
1789 if (ch > 255) {
1790 fputc('?', fp);
1791 } else if (ch >= 126 || ch < 32) {
1792 fprintf(fp, "\\%03o", (unsigned int)ch);
1793 lineLen += 3;
1794 } else {
1795 fputc(ch, fp);
1796 }
1797 }
1798 p++;
1799 }
1800 #ifdef HAVE_MBSTOWCS
1801 free(cstr);
1802 #endif
1803 if (node->angle) {
1804 /* can't use svg_write_number as 2 decimals is far from enough to avoid
1805 skewed text */
1806 fprintf(fp, ") [%f %f %f %f %f %f] T2\n",
1807 g.ma, g.mb, g.mc, g.md, g.tmx, g.tmy);
1808 } else {
1809 fputs(") ", fp);
1810 svg_write_number(fp, g.tmx);
1811 fputs(" ", fp);
1812 svg_write_number(fp, g.tmy);
1813 fputs(" T\n", fp);
1814 }
1815 }
1817 static int eps_write_content(eps_state *state)
1818 {
1819 gfx_node_t *node;
1820 fputs("%\n", state->fp);
1821 for (node = state->canvas->firstnode; node; node = node->next) {
1822 switch (node->type) {
1823 case GFX_LINE:
1824 case GFX_AREA:
1825 eps_write_linearea(state, node);
1826 break;
1827 case GFX_TEXT:
1828 eps_write_text(state, node);
1829 break;
1830 }
1831 }
1832 return 0;
1833 }
1835 int gfx_render_eps (gfx_canvas_t *canvas,
1836 art_u32 width, art_u32 height,
1837 gfx_color_t background, FILE *fp){
1838 struct eps_state state;
1839 state.fp = fp;
1840 state.canvas = canvas;
1841 state.page_width = width;
1842 state.page_height = height;
1843 state.font = "no-default-font";
1844 state.font_size = -1;
1845 state.color = 0; /* black */
1846 state.font_list = NULL;
1847 state.linecap = -1;
1848 state.linejoin = -1;
1849 state.has_dash = 0;
1850 state.line_width = 1;
1851 if (eps_prologue(&state) == -1)
1852 return -1;
1853 eps_set_color(&state, background);
1854 fprintf(fp, "0 0 M 0 %d L %d %d L %d 0 L fill\n",
1855 height, width, height, width);
1856 if (eps_write_content(&state) == -1)
1857 return 0;
1858 fputs("showpage\n", fp);
1859 fputs("%%EOF\n", fp);
1860 while (state.font_list) {
1861 eps_font *next = state.font_list->next;
1862 free(state.font_list);
1863 state.font_list = next;
1864 }
1865 return 0;
1866 }
1868 /* ------- PDF -------
1869 PDF references page:
1870 http://partners.adobe.com/public/developer/pdf/index_reference.html
1871 */
1873 typedef struct pdf_buffer
1874 {
1875 int id, is_obj, is_dict, is_stream, pdf_file_pos;
1876 char *data;
1877 int alloc_size, current_size;
1878 struct pdf_buffer *previous_buffer, *next_buffer;
1879 struct pdf_state *state;
1880 } pdf_buffer;
1882 typedef struct pdf_font
1883 {
1884 const char *ps_font;
1885 pdf_buffer obj;
1886 struct pdf_font *next;
1887 } pdf_font;
1889 typedef struct pdf_state
1890 {
1891 FILE *fp;
1892 gfx_canvas_t *canvas;
1893 art_u32 page_width, page_height;
1894 pdf_font *font_list;
1895 pdf_buffer *first_buffer, *last_buffer;
1896 int pdf_file_pos;
1897 int has_failed;
1898 /*--*/
1899 gfx_color_t stroke_color, fill_color;
1900 int font_id;
1901 double font_size;
1902 double line_width;
1903 svg_dash dash;
1904 int linecap, linejoin;
1905 int last_obj_id;
1906 /*--*/
1907 pdf_buffer pdf_header;
1908 pdf_buffer info_obj, catalog_obj, pages_obj, page1_obj;
1909 pdf_buffer fontsdict_obj;
1910 pdf_buffer graph_stream;
1911 } pdf_state;
1913 static void pdf_init_buffer(pdf_state *state, pdf_buffer *buf)
1914 {
1915 int initial_size = 32;
1916 buf->state = state;
1917 buf->id = -42;
1918 buf->alloc_size = 0;
1919 buf->current_size = 0;
1920 buf->data = (char*)malloc(initial_size);
1921 buf->is_obj = 0;
1922 buf->previous_buffer = NULL;
1923 buf->next_buffer = NULL;
1924 if (buf->data == NULL) {
1925 rrd_set_error("malloc for pdf_buffer data");
1926 state->has_failed = 1;
1927 return;
1928 }
1929 buf->alloc_size = initial_size;
1930 if (state->last_buffer)
1931 state->last_buffer->next_buffer = buf;
1932 if (state->first_buffer == NULL)
1933 state->first_buffer = buf;
1934 buf->previous_buffer = state->last_buffer;
1935 state->last_buffer = buf;
1936 }
1938 static void pdf_put(pdf_buffer *buf, const char *text, int len)
1939 {
1940 if (len <= 0)
1941 return;
1942 if (buf->alloc_size < buf->current_size + len) {
1943 int new_size = buf->alloc_size;
1944 char *new_buf;
1945 while (new_size < buf->current_size + len)
1946 new_size *= 4;
1947 new_buf = (char*)malloc(new_size);
1948 if (new_buf == NULL) {
1949 rrd_set_error("re-malloc for pdf_buffer data");
1950 buf->state->has_failed = 1;
1951 return;
1952 }
1953 memcpy(new_buf, buf->data, buf->current_size);
1954 free(buf->data);
1955 buf->data = new_buf;
1956 buf->alloc_size = new_size;
1957 }
1958 memcpy(buf->data + buf->current_size, text, len);
1959 buf->current_size += len;
1960 }
1962 static void pdf_put_char(pdf_buffer *buf, char c)
1963 {
1964 if (buf->alloc_size >= buf->current_size + 1) {
1965 buf->data[buf->current_size++] = c;
1966 } else {
1967 char tmp[1];
1968 tmp[0] = (char)c;
1969 pdf_put(buf, tmp, 1);
1970 }
1971 }
1973 static void pdf_puts(pdf_buffer *buf, const char *text)
1974 {
1975 pdf_put(buf, text, strlen(text));
1976 }
1978 static void pdf_indent(pdf_buffer *buf)
1979 {
1980 pdf_puts(buf, "\t");
1981 }
1983 static void pdf_putsi(pdf_buffer *buf, const char *text)
1984 {
1985 pdf_indent(buf);
1986 pdf_puts(buf, text);
1987 }
1989 static void pdf_putint(pdf_buffer *buf, int i)
1990 {
1991 char tmp[20];
1992 sprintf(tmp, "%d", i);
1993 pdf_puts(buf, tmp);
1994 }
1996 static void pdf_putnumber(pdf_buffer *buf, double d)
1997 {
1998 char tmp[50];
1999 svg_format_number(tmp, sizeof(tmp), d);
2000 pdf_puts(buf, tmp);
2001 }
2003 static void pdf_put_string_contents_wide(pdf_buffer *buf, const afm_char *text)
2004 {
2005 const afm_char *p = text;
2006 while (1) {
2007 afm_char ch = *p;
2008 ch = afm_fix_osx_charset(ch); /* unsafe macro */
2009 switch (ch) {
2010 case 0:
2011 return;
2012 case '(':
2013 pdf_puts(buf, "\\(");
2014 break;
2015 case ')':
2016 pdf_puts(buf, "\\)");
2017 break;
2018 case '\\':
2019 pdf_puts(buf, "\\\\");
2020 break;
2021 case '\n':
2022 pdf_puts(buf, "\\n");
2023 break;
2024 case '\r':
2025 pdf_puts(buf, "\\r");
2026 break;
2027 case '\t':
2028 pdf_puts(buf, "\\t");
2029 break;
2030 default:
2031 if (ch > 255) {
2032 pdf_put_char(buf, '?');
2033 } else if (ch >= 126 || ch < 32) {
2034 pdf_put_char(buf, ch);
2035 } else if (ch >= 0 && ch <= 255) {
2036 char tmp[10];
2037 snprintf(tmp, sizeof(tmp), "\\%03o", (int)ch);
2038 pdf_puts(buf, tmp);
2039 }
2040 }
2041 p++;
2042 }
2043 }
2045 static void pdf_put_string_contents(pdf_buffer *buf, const char *text)
2046 {
2047 #ifdef HAVE_MBSTOWCS
2048 size_t clen = strlen(text) + 1;
2049 wchar_t *cstr = malloc(sizeof(wchar_t) * clen);
2050 int text_count = mbstowcs(cstr, text, clen);
2051 if (text_count == -1)
2052 text_count = mbstowcs(cstr, "Enc-Err", 6);
2053 pdf_put_string_contents_wide(buf, cstr);
2054 #if 0
2055 if (*text == 'W') {
2056 fprintf(stderr, "Decoding utf8 for '%s'\n", text);
2057 wchar_t *p = cstr;
2058 char *pp = text;
2059 fprintf(stderr, "sz wc = %d\n", sizeof(wchar_t));
2060 while (*p) {
2061 fprintf(stderr, " %d = %c versus %d = %c\n", *p, (char)*p, 255 & (int)*pp, *pp);
2062 p++;
2063 pp++;
2064 }
2065 }
2066 #endif
2067 free(cstr);
2068 #else
2069 pdf_put_string_contents_wide(buf, text);
2070 #endif
2071 }
2073 static void pdf_init_object(pdf_state *state, pdf_buffer *buf)
2074 {
2075 pdf_init_buffer(state, buf);
2076 buf->id = ++state->last_obj_id;
2077 buf->is_obj = 1;
2078 buf->is_stream = 0;
2079 }
2081 static void pdf_init_dict(pdf_state *state, pdf_buffer *buf)
2082 {
2083 pdf_init_object(state, buf);
2084 buf->is_dict = 1;
2085 }
2087 static void pdf_set_color(pdf_buffer *buf, gfx_color_t color,
2088 gfx_color_t *current_color, const char *op)
2089 {
2090 #if USE_PDF_FAKE_ALPHA
2091 double a1, a2;
2092 #endif
2093 /* gfx_color_t is RRGGBBAA */
2094 if (*current_color == color)
2095 return;
2096 #if USE_PDF_FAKE_ALPHA
2097 a1 = (color & 255) / 255.0;
2098 a2 = 1 - a1;
2099 #define pdf_color_calc(x) ( ((x) & 255) / 255.0 * a1 + a2)
2100 #else
2101 #define pdf_color_calc(x) ( ((x) & 255) / 255.0)
2102 #endif
2103 pdf_putnumber(buf, pdf_color_calc(color >> 24));
2104 pdf_puts(buf, " ");
2105 pdf_putnumber(buf, pdf_color_calc(color >> 16));
2106 pdf_puts(buf, " ");
2107 pdf_putnumber(buf, pdf_color_calc(color >> 8));
2108 pdf_puts(buf, " ");
2109 pdf_puts(buf, op);
2110 pdf_puts(buf, "\n");
2111 *current_color = color;
2112 }
2114 static void pdf_set_stroke_color(pdf_buffer *buf, gfx_color_t color)
2115 {
2116 pdf_set_color(buf, color, &buf->state->stroke_color, "RG");
2117 }
2119 static void pdf_set_fill_color(pdf_buffer *buf, gfx_color_t color)
2120 {
2121 pdf_set_color(buf, color, &buf->state->fill_color, "rg");
2122 }
2124 static pdf_font *pdf_find_font(pdf_state *state, gfx_node_t *node)
2125 {
2126 const char *ps_font = afm_get_font_postscript_name(node->filename);
2127 pdf_font *ef;
2128 for (ef = state->font_list; ef; ef = ef->next) {
2129 if (!strcmp(ps_font, ef->ps_font))
2130 return ef;
2131 }
2132 return NULL;
2133 }
2135 static void pdf_add_font(pdf_state *state, gfx_node_t *node)
2136 {
2137 pdf_font *ef = pdf_find_font(state, node);
2138 if (ef)
2139 return;
2140 ef = malloc(sizeof(pdf_font));
2141 if (ef == NULL) {
2142 rrd_set_error("malloc for pdf_font");
2143 state->has_failed = 1;
2144 return;
2145 }
2146 pdf_init_dict(state, &ef->obj);
2147 ef->next = state->font_list;
2148 ef->ps_font = afm_get_font_postscript_name(node->filename);
2149 state->font_list = ef;
2150 /* fonts dict */
2151 pdf_putsi(&state->fontsdict_obj, "/F");
2152 pdf_putint(&state->fontsdict_obj, ef->obj.id);
2153 pdf_puts(&state->fontsdict_obj, " ");
2154 pdf_putint(&state->fontsdict_obj, ef->obj.id);
2155 pdf_puts(&state->fontsdict_obj, " 0 R\n");
2156 /* fonts def */
2157 pdf_putsi(&ef->obj, "/Type /Font\n");
2158 pdf_putsi(&ef->obj, "/Subtype /Type1\n");
2159 pdf_putsi(&ef->obj, "/Name /F");
2160 pdf_putint(&ef->obj, ef->obj.id);
2161 pdf_puts(&ef->obj, "\n");
2162 pdf_putsi(&ef->obj, "/BaseFont /");
2163 pdf_puts(&ef->obj, ef->ps_font);
2164 pdf_puts(&ef->obj, "\n");
2165 pdf_putsi(&ef->obj, "/Encoding /WinAnsiEncoding\n");
2166 /* 'Cp1252' (this is latin 1 extended with 27 characters;
2167 the encoding is also known as 'winansi')
2168 http://www.lowagie.com/iText/tutorial/ch09.html */
2169 }
2171 static void pdf_create_fonts(pdf_state *state)
2172 {
2173 gfx_node_t *node;
2174 for (node = state->canvas->firstnode; node; node = node->next) {
2175 if (node->type == GFX_TEXT)
2176 pdf_add_font(state, node);
2177 }
2178 }
2180 static void pdf_write_linearea(pdf_state *state, gfx_node_t *node)
2181 {
2182 int i;
2183 pdf_buffer *s = &state->graph_stream;
2184 if (node->type == GFX_LINE) {
2185 svg_dash dash_info;
2186 svg_get_dash(node, &dash_info);
2187 if (!svg_dash_equal(&dash_info, &state->dash)) {
2188 state->dash = dash_info;
2189 if (dash_info.dash_enable) {
2190 pdf_puts(s, "[");
2191 pdf_putnumber(s, dash_info.adjusted_on);
2192 pdf_puts(s, " ");
2193 pdf_putnumber(s, dash_info.adjusted_off);
2194 pdf_puts(s, "] ");
2195 pdf_putnumber(s, dash_info.dash_offset);
2196 pdf_puts(s, " d\n");
2197 } else {
2198 pdf_puts(s, "[] 0 d\n");
2199 }
2200 }
2201 pdf_set_stroke_color(s, node->color);
2202 if (state->linecap != 1) {
2203 pdf_puts(s, "1 j\n");
2204 state->linecap = 1;
2205 }
2206 if (state->linejoin != 1) {
2207 pdf_puts(s, "1 J\n");
2208 state->linejoin = 1;
2209 }
2210 if (node->size != state->line_width) {
2211 state->line_width = node->size;
2212 pdf_putnumber(s, state->line_width);
2213 pdf_puts(s, " w\n");
2214 }
2215 } else {
2216 pdf_set_fill_color(s, node->color);
2217 }
2218 for (i = 0; i < node->points; i++) {
2219 ArtVpath *vec = node->path + i;
2220 double x = vec->x;
2221 double y = state->page_height - vec->y;
2222 if (node->type == GFX_AREA) {
2223 x += LINEOFFSET; /* adjust for libart handling of areas */
2224 y -= LINEOFFSET;
2225 }
2226 switch (vec->code) {
2227 case ART_MOVETO_OPEN: /* fall-through */
2228 case ART_MOVETO:
2229 pdf_putnumber(s, x);
2230 pdf_puts(s, " ");
2231 pdf_putnumber(s, y);
2232 pdf_puts(s, " m\n");
2233 break;
2234 case ART_LINETO:
2235 pdf_putnumber(s, x);
2236 pdf_puts(s, " ");
2237 pdf_putnumber(s, y);
2238 pdf_puts(s, " l\n");
2239 break;
2240 case ART_CURVETO: break; /* unsupported */
2241 case ART_END: break; /* nop */
2242 }
2243 }
2244 if (node->type == GFX_LINE) {
2245 pdf_puts(s, node->closed_path ? "s\n" : "S\n");
2246 } else {
2247 pdf_puts(s, "f\n");
2248 }
2249 }
2252 static void pdf_write_matrix(pdf_state *state, gfx_node_t *node, pdf_coords *g, int useTM)
2253 {
2254 char tmp[150];
2255 pdf_buffer *s = &state->graph_stream;
2256 if (node->angle == 0) {
2257 pdf_puts(s, "1 0 0 1 ");
2258 pdf_putnumber(s, useTM ? g->tmx : g->mx);
2259 pdf_puts(s, " ");
2260 pdf_putnumber(s, useTM ? g->tmy : g->my);
2261 } else {
2262 /* can't use svg_write_number as 2 decimals is far from enough to avoid
2263 skewed text */
2264 sprintf(tmp, "%f %f %f %f %f %f",
2265 g->ma, g->mb, g->mc, g->md,
2266 useTM ? g->tmx : g->mx,
2267 useTM ? g->tmy : g->my);
2268 pdf_puts(s, tmp);
2269 }
2270 }
2272 static void pdf_write_text(pdf_state *state, gfx_node_t *node,
2273 int last_was_text, int next_is_text)
2274 {
2275 pdf_coords g;
2276 pdf_buffer *s = &state->graph_stream;
2277 pdf_font *font = pdf_find_font(state, node);
2278 if (font == NULL) {
2279 rrd_set_error("font disappeared");
2280 state->has_failed = 1;
2281 return;
2282 }
2283 pdf_calc(state->page_height, node, &g);
2284 #if PDF_CALC_DEBUG
2285 pdf_puts(s, "q % debug green box\n");
2286 pdf_write_matrix(state, node, &g, 0);
2287 pdf_puts(s, " cm\n");
2288 pdf_set_fill_color(s, 0x90FF9000);
2289 pdf_puts(s, "0 0.4 0 rg\n");
2290 pdf_puts(s, "0 0 ");
2291 pdf_putnumber(s, g.sizep.x);
2292 pdf_puts(s, " ");
2293 pdf_putnumber(s, g.sizep.y);
2294 pdf_puts(s, " re\n");
2295 pdf_puts(s, "f\n");
2296 pdf_puts(s, "Q\n");
2297 #endif
2298 pdf_set_fill_color(s, node->color);
2299 if (PDF_CALC_DEBUG || !last_was_text)
2300 pdf_puts(s, "BT\n");
2301 if (state->font_id != font->obj.id || node->size != state->font_size) {
2302 state->font_id = font->obj.id;
2303 state->font_size = node->size;
2304 pdf_puts(s, "/F");
2305 pdf_putint(s, font->obj.id);
2306 pdf_puts(s, " ");
2307 pdf_putnumber(s, node->size);
2308 pdf_puts(s, " Tf\n");
2309 }
2310 pdf_write_matrix(state, node, &g, 1);
2311 pdf_puts(s, " Tm\n");
2312 pdf_puts(s, "(");
2313 pdf_put_string_contents(s, node->text);
2314 pdf_puts(s, ") Tj\n");
2315 if (PDF_CALC_DEBUG || !next_is_text)
2316 pdf_puts(s, "ET\n");
2317 }
2319 static void pdf_write_content(pdf_state *state)
2320 {
2321 gfx_node_t *node;
2322 int last_was_text = 0, next_is_text;
2323 for (node = state->canvas->firstnode; node; node = node->next) {
2324 switch (node->type) {
2325 case GFX_LINE:
2326 case GFX_AREA:
2327 pdf_write_linearea(state, node);
2328 break;
2329 case GFX_TEXT:
2330 next_is_text = node->next && node->next->type == GFX_TEXT;
2331 pdf_write_text(state, node, last_was_text, next_is_text);
2332 break;
2333 }
2334 last_was_text = node->type == GFX_TEXT;
2335 }
2336 }
2338 static void pdf_init_document(pdf_state *state)
2339 {
2340 pdf_init_buffer(state, &state->pdf_header);
2341 pdf_init_dict(state, &state->catalog_obj);
2342 pdf_init_dict(state, &state->info_obj);
2343 pdf_init_dict(state, &state->pages_obj);
2344 pdf_init_dict(state, &state->page1_obj);
2345 pdf_init_dict(state, &state->fontsdict_obj);
2346 pdf_create_fonts(state);
2347 if (state->has_failed)
2348 return;
2349 /* make stream last object in file */
2350 pdf_init_object(state, &state->graph_stream);
2351 state->graph_stream.is_stream = 1;
2352 }
2354 static void pdf_setup_document(pdf_state *state)
2355 {
2356 const char *creator = "RRDtool " PACKAGE_VERSION " Tobias Oetiker, http://tobi.oetiker.ch";
2357 /* all objects created by now, so init code can reference them */
2358 /* HEADER */
2359 pdf_puts(&state->pdf_header, "%PDF-1.3\n");
2360 /* following 8 bit comment is recommended by Adobe for
2361 indicating binary file to file transfer applications */
2362 pdf_puts(&state->pdf_header, "%\xE2\xE3\xCF\xD3\n");
2363 /* INFO */
2364 pdf_putsi(&state->info_obj, "/Creator (");
2365 pdf_put_string_contents(&state->info_obj, creator);
2366 pdf_puts(&state->info_obj, ")\n");
2367 /* CATALOG */
2368 pdf_putsi(&state->catalog_obj, "/Type /Catalog\n");
2369 pdf_putsi(&state->catalog_obj, "/Pages ");
2370 pdf_putint(&state->catalog_obj, state->pages_obj.id);
2371 pdf_puts(&state->catalog_obj, " 0 R\n");
2372 /* PAGES */
2373 pdf_putsi(&state->pages_obj, "/Type /Pages\n");
2374 pdf_putsi(&state->pages_obj, "/Kids [");
2375 pdf_putint(&state->pages_obj, state->page1_obj.id);
2376 pdf_puts(&state->pages_obj, " 0 R]\n");
2377 pdf_putsi(&state->pages_obj, "/Count 1\n");
2378 /* PAGE 1 */
2379 pdf_putsi(&state->page1_obj, "/Type /Page\n");
2380 pdf_putsi(&state->page1_obj, "/Parent ");
2381 pdf_putint(&state->page1_obj, state->pages_obj.id);
2382 pdf_puts(&state->page1_obj, " 0 R\n");
2383 pdf_putsi(&state->page1_obj, "/MediaBox [0 0 ");
2384 pdf_putint(&state->page1_obj, state->page_width);
2385 pdf_puts(&state->page1_obj, " ");
2386 pdf_putint(&state->page1_obj, state->page_height);
2387 pdf_puts(&state->page1_obj, "]\n");
2388 pdf_putsi(&state->page1_obj, "/Contents ");
2389 pdf_putint(&state->page1_obj, state->graph_stream.id);
2390 pdf_puts(&state->page1_obj, " 0 R\n");
2391 pdf_putsi(&state->page1_obj, "/Resources << /Font ");
2392 pdf_putint(&state->page1_obj, state->fontsdict_obj.id);
2393 pdf_puts(&state->page1_obj, " 0 R >>\n");
2394 }
2396 static void pdf_write_string_to_file(pdf_state *state, const char *text)
2397 {
2398 fputs(text, state->fp);
2399 state->pdf_file_pos += strlen(text);
2400 }
2402 static void pdf_write_buf_to_file(pdf_state *state, pdf_buffer *buf)
2403 {
2404 char tmp[40];
2405 buf->pdf_file_pos = state->pdf_file_pos;
2406 if (buf->is_obj) {
2407 snprintf(tmp, sizeof(tmp), "%d 0 obj\n", buf->id);
2408 pdf_write_string_to_file(state, tmp);
2409 }
2410 if (buf->is_dict)
2411 pdf_write_string_to_file(state, "<<\n");
2412 if (buf->is_stream) {
2413 snprintf(tmp, sizeof(tmp), "<< /Length %d >>\n", buf->current_size);
2414 pdf_write_string_to_file(state, tmp);
2415 pdf_write_string_to_file(state, "stream\n");
2416 }
2417 fwrite(buf->data, 1, buf->current_size, state->fp);
2418 state->pdf_file_pos += buf->current_size;
2419 if (buf->is_stream)
2420 pdf_write_string_to_file(state, "endstream\n");
2421 if (buf->is_dict)
2422 pdf_write_string_to_file(state, ">>\n");
2423 if (buf->is_obj)
2424 pdf_write_string_to_file(state, "endobj\n");
2425 }
2427 static void pdf_write_to_file(pdf_state *state)
2428 {
2429 pdf_buffer *buf = state->first_buffer;
2430 int xref_pos;
2431 state->pdf_file_pos = 0;
2432 pdf_write_buf_to_file(state, &state->pdf_header);
2433 while (buf) {
2434 if (buf->is_obj)
2435 pdf_write_buf_to_file(state, buf);
2436 buf = buf->next_buffer;
2437 }
2438 xref_pos = state->pdf_file_pos;
2439 fprintf(state->fp, "xref\n");
2440 fprintf(state->fp, "%d %d\n", 0, state->last_obj_id + 1);
2441 /* TOC lines must be exactly 20 bytes including \n */
2442 fprintf(state->fp, "%010d %05d f\x20\n", 0, 65535);
2443 for (buf = state->first_buffer; buf; buf = buf->next_buffer) {
2444 if (buf->is_obj)
2445 fprintf(state->fp, "%010d %05d n\x20\n", buf->pdf_file_pos, 0);
2446 }
2447 fprintf(state->fp, "trailer\n");
2448 fprintf(state->fp, "<<\n");
2449 fprintf(state->fp, "\t/Size %d\n", state->last_obj_id + 1);
2450 fprintf(state->fp, "\t/Root %d 0 R\n", state->catalog_obj.id);
2451 fprintf(state->fp, "\t/Info %d 0 R\n", state->info_obj.id);
2452 fprintf(state->fp, ">>\n");
2453 fprintf(state->fp, "startxref\n");
2454 fprintf(state->fp, "%d\n", xref_pos);
2455 fputs("%%EOF\n", state->fp);
2456 }
2458 static void pdf_free_resources(pdf_state *state)
2459 {
2460 pdf_buffer *buf = state->first_buffer;
2461 while (buf) {
2462 free(buf->data);
2463 buf->data = NULL;
2464 buf->alloc_size = buf->current_size = 0;
2465 buf = buf->next_buffer;
2466 }
2467 while (state->font_list) {
2468 pdf_font *next = state->font_list->next;
2469 free(state->font_list);
2470 state->font_list = next;
2471 }
2472 }
2474 int gfx_render_pdf (gfx_canvas_t *canvas,
2475 art_u32 width, art_u32 height,
2476 gfx_color_t UNUSED(background), FILE *fp){
2477 struct pdf_state state;
2478 memset(&state, 0, sizeof(pdf_state));
2479 state.fp = fp;
2480 state.canvas = canvas;
2481 state.page_width = width;
2482 state.page_height = height;
2483 state.font_id = -1;
2484 state.font_size = -1;
2485 state.font_list = NULL;
2486 state.linecap = -1;
2487 state.linejoin = -1;
2488 pdf_init_document(&state);
2489 /*
2490 pdf_set_color(&state, background);
2491 fprintf(fp, "0 0 M 0 %d L %d %d L %d 0 L fill\n",
2492 height, width, height, width);
2493 */
2494 if (!state.has_failed)
2495 pdf_write_content(&state);
2496 if (!state.has_failed)
2497 pdf_setup_document(&state);
2498 if (!state.has_failed)
2499 pdf_write_to_file(&state);
2500 pdf_free_resources(&state);
2501 return state.has_failed ? -1 : 0;
2502 }