/* Copyright (C) 2001-2006 Artifex Software, Inc. All Rights Reserved. This software is provided AS-IS with no warranty, either express or implied. This software is distributed under license and may not be copied, modified or distributed except as expressly authorized under the terms of that license. Refer to licensing information at http://www.artifex.com/ or contact Artifex Software, Inc., 7 Mt. Lassen Drive - Suite A-134, San Rafael, CA 94903, U.S.A., +1(415)492-9861, for further information. */ /* $Id: gdevxxf.c 8250 2007-09-25 13:31:24Z giles $ */ /* External font (xfont) implementation for X11. */ #include "math_.h" #include "memory_.h" #include "x_.h" #include "gx.h" #include "gxdevice.h" #include "gdevx.h" #include "gsstruct.h" #include "gsutil.h" #include "gserrors.h" #include "gxxfont.h" /* Define the smallest point size that we trust X to render reasonably well. */ #define min_X_font_size 6 /* Define the largest point size where X will do a better job than we can. */ #define max_X_font_size 35 extern gx_device_X gs_x11_device; extern const byte gs_map_std_to_iso[256]; extern const byte gs_map_iso_to_std[256]; /* Declare the xfont procedures */ static xfont_proc_lookup_font(x_lookup_font); static xfont_proc_char_xglyph(x_char_xglyph); static xfont_proc_char_metrics(x_char_metrics); static xfont_proc_render_char(x_render_char); static xfont_proc_release(x_release); static const gx_xfont_procs x_xfont_procs = { x_lookup_font, x_char_xglyph, x_char_metrics, x_render_char, x_release }; /* Return the xfont procedure record. */ const gx_xfont_procs * gdev_x_get_xfont_procs(gx_device * dev) { return &x_xfont_procs; } /* Define a X11 xfont. */ typedef struct x_xfont_s x_xfont; struct x_xfont_s { gx_xfont_common common; gx_device_X *xdev; XFontStruct *font; int encoding_index; int My; int angle; }; gs_private_st_dev_ptrs1(st_x_xfont, x_xfont, "x_xfont", x_xfont_enum_ptrs, x_xfont_reloc_ptrs, xdev); /* ---------------- Utilities ---------------- */ /* Search one set of font maps for a font with a given name. */ static x11fontmap * find_fontmap(x11fontmap *fmps, const byte *fname, uint len) { x11fontmap *fmp = fmps; while (fmp) { if (len == strlen(fmp->ps_name) && strncmp(fmp->ps_name, (const char *)fname, len) == 0) break; fmp = fmp->next; } return fmp; } /* Find an X font with a given name, encoding, and size. */ static char * find_x_font(gx_device_X *xdev, char x11template[256], x11fontmap *fmp, const char *encoding_name, x11fontlist *fls, int xheight, bool *scalable_font) { int i; char *x11fontname = 0; int len1 = strlen(fmp->x11_name) + 1; if (fls->count == -1) { sprintf(x11template, "%s-*-*-*-*-*-*-%s", fmp->x11_name, encoding_name); fls->names = XListFonts(xdev->dpy, x11template, 32, &fls->count); } *scalable_font = false; for (i = 0; i < fls->count; i++) { const char *szp = fls->names[i] + len1; int size = 0; while (*szp >= '0' && *szp <= '9') size = size * 10 + *szp++ - '0'; if (size == 0) { *scalable_font = true; continue; } if (size == xheight) return fls->names[i]; } if (*scalable_font && xdev->useScalableFonts) { sprintf(x11template, "%s-%d-0-0-0-*-0-%s", fmp->x11_name, xheight, encoding_name); x11fontname = x11template; } return x11fontname; } /* ---------------- xfont procedures ---------------- */ /* Look up a font. */ static gx_xfont * x_lookup_font(gx_device * dev, const byte * fname, uint len, int encoding_index, const gs_uid * puid, const gs_matrix * pmat, gs_memory_t * mem) { gx_device_X *xdev = (gx_device_X *) dev; x_xfont *xxf; char x11template[256]; char *x11fontname = NULL; XFontStruct *x11font; x11fontmap *fmp; double height; int xwidth, xheight, angle; Boolean My; bool scalable_font; if (!xdev->useXFonts) return NULL; if (pmat->xy == 0 && pmat->yx == 0) { xwidth = fabs(pmat->xx * 1000) + 0.5; xheight = fabs(pmat->yy * 1000) + 0.5; height = fabs(pmat->yy * 1000); angle = (pmat->xx > 0 ? 0 : 180); My = (pmat->xx > 0 && pmat->yy > 0) || (pmat->xx < 0 && pmat->yy < 0); } else if (pmat->xx == 0 && pmat->yy == 0) { xwidth = fabs(pmat->xy * 1000) + 0.5; xheight = fabs(pmat->yx * 1000) + 0.5; height = fabs(pmat->yx * 1000); angle = (pmat->yx < 0 ? 90 : 270); My = (pmat->yx > 0 && pmat->xy < 0) || (pmat->yx < 0 && pmat->xy > 0); } else { return NULL; } /* Don't do very small fonts, where font metrics are way off */ /* due to rounding and the server does a very bad job of scaling, */ /* or very large fonts, where we can do just as good a job and */ /* the server may lock up the entire window system while rasterizing */ /* the whole font. */ if (xwidth < min_X_font_size || xwidth > max_X_font_size || xheight < min_X_font_size || xheight > max_X_font_size ) return NULL; if (!xdev->useFontExtensions && (My || angle != 0)) return NULL; switch (encoding_index) { case 0: fmp = find_fontmap(xdev->regular_fonts, fname, len); if (fmp == NULL) return NULL; x11fontname = find_x_font(xdev, x11template, fmp, "Adobe-fontspecific", &fmp->std, xheight, &scalable_font); if (!x11fontname) { x11fontname = find_x_font(xdev, x11template, fmp, "ISO8859-1", &fmp->iso, xheight, &scalable_font); encoding_index = 1; } break; case 1: fmp = find_fontmap(xdev->regular_fonts, fname, len); if (fmp == NULL) return NULL; x11fontname = find_x_font(xdev, x11template, fmp, "ISO8859-1", &fmp->iso, xheight, &scalable_font); if (!x11fontname) { x11fontname = find_x_font(xdev, x11template, fmp, "Adobe-fontspecific", &fmp->std, xheight, &scalable_font); encoding_index = 0; } break; case 2: fmp = xdev->symbol_fonts; goto sym; case 3: fmp = xdev->dingbat_fonts; sym: fmp = find_fontmap(fmp, fname, len); if (fmp == NULL) return NULL; x11fontname = find_x_font(xdev, x11template, fmp, "Adobe-fontspecific", &fmp->std, xheight, &scalable_font); default: return NULL; } if (!x11fontname) return NULL; if (xwidth != xheight || angle != 0 || My) { if (!xdev->useScalableFonts || !scalable_font) return NULL; sprintf(x11template, "%s%s+%d-%d+%d-0-0-0-*-0-%s", fmp->x11_name, (My ? "+My" : ""), angle * 64, xheight, xwidth, (encoding_index == 1 ? "ISO8859-1" : "Adobe-fontspecific")); x11fontname = x11template; } x11font = XLoadQueryFont(xdev->dpy, x11fontname); if (x11font == NULL) return NULL; /* Don't bother with 16-bit or 2 byte fonts yet */ if (x11font->min_byte1 || x11font->max_byte1) { XFreeFont(xdev->dpy, x11font); return NULL; } xxf = gs_alloc_struct(mem, x_xfont, &st_x_xfont, "x_lookup_font"); if (xxf == NULL) return NULL; xxf->common.procs = &x_xfont_procs; xxf->xdev = xdev; xxf->font = x11font; xxf->encoding_index = encoding_index; xxf->My = (My ? -1 : 1); xxf->angle = angle; if (xdev->logXFonts) { dprintf3("Using %s\n for %s at %g pixels.\n", x11fontname, fmp->ps_name, height); dflush(); } return (gx_xfont *) xxf; } /* Convert a character name or index to an xglyph code. */ static gx_xglyph x_char_xglyph(gx_xfont * xf, gs_char chr, int encoding_index, gs_glyph glyph, const gs_const_string *glyph_name) { const x_xfont *xxf = (x_xfont *) xf; if (chr == gs_no_char) return gx_no_xglyph; /* can't look up names yet */ if (encoding_index != xxf->encoding_index) { if (encoding_index == 0 && xxf->encoding_index == 1) chr = gs_map_std_to_iso[chr]; else if (encoding_index == 1 && xxf->encoding_index == 0) chr = gs_map_iso_to_std[chr]; else return gx_no_xglyph; if (chr == 0) return gx_no_xglyph; } if (chr < xxf->font->min_char_or_byte2 || chr > xxf->font->max_char_or_byte2) return gx_no_xglyph; if (xxf->font->per_char) { int i = chr - xxf->font->min_char_or_byte2; const XCharStruct *xc = &xxf->font->per_char[i]; if ((xc->lbearing == 0) && (xc->rbearing == 0) && (xc->ascent == 0) && (xc->descent == 0)) return gx_no_xglyph; } return (gx_xglyph) chr; } /* Get the metrics for a character. */ static int x_char_metrics(gx_xfont * xf, gx_xglyph xg, int wmode, gs_point * pwidth, gs_int_rect * pbbox) { const x_xfont *xxf = (const x_xfont *) xf; int width; if (wmode != 0) return gs_error_undefined; if (xxf->font->per_char == NULL) { width = xxf->font->max_bounds.width; pbbox->p.x = xxf->font->max_bounds.lbearing; pbbox->q.x = xxf->font->max_bounds.rbearing; pbbox->p.y = -xxf->font->max_bounds.ascent; pbbox->q.y = xxf->font->max_bounds.descent; } else { int i = xg - xxf->font->min_char_or_byte2; const XCharStruct *xc = &xxf->font->per_char[i]; width = xc->width; pbbox->p.x = xc->lbearing; pbbox->q.x = xc->rbearing; pbbox->p.y = -xc->ascent; pbbox->q.y = xc->descent; } switch (xxf->angle) { case 0: pwidth->x = width, pwidth->y = 0; break; case 90: pwidth->x = 0, pwidth->y = -xxf->My * width; break; case 180: pwidth->x = -width, pwidth->y = 0; break; case 270: pwidth->x = 0, pwidth->y = xxf->My * width; break; } return 0; } /* Render a character. */ static int x_render_char(gx_xfont * xf, gx_xglyph xg, gx_device * dev, int xo, int yo, gx_color_index color, int required) { x_xfont *xxf = (x_xfont *) xf; char chr = (char)xg; gs_point wxy; gs_int_rect bbox; int x, y, w, h; int code; if (dev->dname == gs_x11_device.dname && !((gx_device_X *)dev)->is_buffered) { gx_device_X *xdev = (gx_device_X *)dev; code = (*xf->common.procs->char_metrics) (xf, xg, 0, &wxy, &bbox); if (code < 0) return code; /* Buffer text for more efficient X interaction. */ if (xdev->text.item_count == MAX_TEXT_ITEMS || xdev->text.char_count == MAX_TEXT_CHARS || (IN_TEXT(xdev) && (yo != xdev->text.origin.y || color != xdev->fore_color || xxf->font->fid != xdev->fid)) ) { DRAW_TEXT(xdev); xdev->text.item_count = xdev->text.char_count = 0; } if (xdev->text.item_count == 0) { X_SET_FILL_STYLE(xdev, FillSolid); X_SET_FORE_COLOR(xdev, color); X_SET_FUNCTION(xdev, GXcopy); xdev->text.origin.x = xdev->text.x = xo; xdev->text.origin.y = yo; xdev->text.items[0].font = xdev->fid = xxf->font->fid; } /* * The following is wrong for rotated text, but it doesn't matter, * because the next call of x_render_char will have a different Y. */ { int index = xdev->text.item_count; XTextItem *item = &xdev->text.items[index]; char *pchar = &xdev->text.chars[xdev->text.char_count++]; int delta = xo - xdev->text.x; *pchar = chr; if (index > 0 && delta == 0) { /* Continue the same item. */ item[-1].nchars++; } else { /* Start a new item. */ item->chars = pchar; item->nchars = 1; item->delta = delta; if (index > 0) item->font = None; xdev->text.item_count++; } xdev->text.x = xo + wxy.x; } if (xdev->bpixmap != (Pixmap) 0) { x = xo + bbox.p.x; y = yo + bbox.p.y; w = bbox.q.x - bbox.p.x; h = bbox.q.y - bbox.p.y; fit_fill(dev, x, y, w, h); x_update_add(xdev, x, y, w, h); } return 0; } else if (!required) return -1; /* too hard */ else { /* Display on an intermediate bitmap, then copy the bits. */ gx_device_X *xdev = xxf->xdev; int wbm, raster; int i; XImage *xim; Pixmap xpm; GC fgc; byte *bits; dev_proc_copy_mono((*copy_mono)) = dev_proc(dev, copy_mono); code = (*xf->common.procs->char_metrics) (xf, xg, 0, &wxy, &bbox); if (code < 0) return code; w = bbox.q.x - bbox.p.x; h = bbox.q.y - bbox.p.y; wbm = ROUND_UP(w, align_bitmap_mod * 8); raster = wbm >> 3; bits = (byte *) gs_malloc(xdev->memory, h, raster, "x_render_char"); if (bits == 0) return gs_error_limitcheck; xpm = XCreatePixmap(xdev->dpy, xdev->win, w, h, 1); fgc = XCreateGC(xdev->dpy, xpm, None, NULL); XSetForeground(xdev->dpy, fgc, 0); XFillRectangle(xdev->dpy, xpm, fgc, 0, 0, w, h); XSetForeground(xdev->dpy, fgc, 1); XSetFont(xdev->dpy, fgc, xxf->font->fid); XDrawString(xdev->dpy, xpm, fgc, -bbox.p.x, -bbox.p.y, &chr, 1); xim = XGetImage(xdev->dpy, xpm, 0, 0, w, h, 1, ZPixmap); i = 0; for (y = 0; y < h; y++) { char b = 0; for (x = 0; x < wbm; x++) { b = b << 1; if (x < w) b += XGetPixel(xim, x, y); if ((x & 7) == 7) bits[i++] = b; } } code = (*copy_mono) (dev, bits, 0, raster, gx_no_bitmap_id, xo + bbox.p.x, yo + bbox.p.y, w, h, gx_no_color_index, color); gs_free(xdev->memory, (char *)bits, h, raster, "x_render_char"); XFreePixmap(xdev->dpy, xpm); XFreeGC(xdev->dpy, fgc); XDestroyImage(xim); return (code < 0 ? code : 0); } } /* Release an xfont. */ static int x_release(gx_xfont * xf, gs_memory_t * mem) { #if 0 /* The device may not be open. Cannot reliably free the font. */ x_xfont *xxf = (x_xfont *) xf; XFreeFont(xxf->xdev->dpy, xxf->font); #endif if (mem != NULL) gs_free_object(mem, xf, "x_release"); return 0; }