/* * Copyright 2008 - 2013 Chris Young * * This file is part of NetSurf, http://www.netsurf-browser.org/ * * NetSurf is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; version 2 of the License. * * NetSurf is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ #include #include "amiga/font.h" #include "amiga/font_scan.h" #include "amiga/gui.h" #include "amiga/utf8.h" #include "amiga/object.h" #include "desktop/options.h" #include "css/css.h" #include "css/utils.h" #include "render/font.h" #include "utils/log.h" #include "utils/schedule.h" #include "utils/utf8.h" #include "utils/utils.h" #include #include #include #include #include #include #include #include #include #ifdef __amigaos4__ #include #endif #define NSA_UNICODE_FONT PLOT_FONT_FAMILY_COUNT #define NSA_NORMAL 0 #define NSA_ITALIC 1 #define NSA_BOLD 2 #define NSA_BOLDITALIC 3 #define NSA_OBLIQUE 4 #define NSA_BOLDOBLIQUE 6 #define NSA_VALUE_BOLDX (1 << 12) #define NSA_VALUE_BOLDY 0 #define NSA_VALUE_SHEARSIN (1 << 14) #define NSA_VALUE_SHEARCOS (1 << 16) #define NSA_FONT_EMWIDTH(s) (s / FONT_SIZE_SCALE) * (ami_xdpi / 72.0) struct ami_font_node { struct OutlineFont *font; char *bold; char *italic; char *bolditalic; struct TimeVal lastused; }; struct MinList *ami_font_list = NULL; struct List ami_diskfontlib_list; lwc_string *glypharray[0xffff + 1]; ULONG ami_devicedpi; ULONG ami_xdpi; int32 ami_font_plot_glyph(struct OutlineFont *ofont, struct RastPort *rp, uint16 char1, uint16 char2, uint32 x, uint32 y, uint32 emwidth, bool aa); int32 ami_font_width_glyph(struct OutlineFont *ofont, uint16 char1, uint16 char2, uint32 emwidth); struct OutlineFont *ami_open_outline_font(const plot_font_style_t *fstyle, uint16 codepoint); static void ami_font_cleanup(struct MinList *ami_font_list); static bool nsfont_width(const plot_font_style_t *fstyle, const char *string, size_t length, int *width); static bool nsfont_position_in_string(const plot_font_style_t *fstyle, const char *string, size_t length, int x, size_t *char_offset, int *actual_x); static bool nsfont_split(const plot_font_style_t *fstyle, const char *string, size_t length, int x, size_t *char_offset, int *actual_x); const struct font_functions nsfont = { nsfont_width, nsfont_position_in_string, nsfont_split }; bool nsfont_width(const plot_font_style_t *fstyle, const char *string, size_t length, int *width) { *width = ami_unicode_text(NULL, string, length, fstyle, 0, 0, false); if(*width <= 0) *width == length; // fudge return true; } /** * Find the position in a string where an x coordinate falls. * * \param fstyle style for this text * \param string UTF-8 string to measure * \param length length of string * \param x x coordinate to search for * \param char_offset updated to offset in string of actual_x, [0..length] * \param actual_x updated to x coordinate of character closest to x * \return true on success, false on error and error reported */ bool nsfont_position_in_string(const plot_font_style_t *fstyle, const char *string, size_t length, int x, size_t *char_offset, int *actual_x) { uint16 *utf16 = NULL, *outf16 = NULL; uint16 utf16next = 0; FIXED kern = 0; struct OutlineFont *ofont, *ufont = NULL; uint32 tx=0,i=0; size_t len, utf8len = 0; uint8 *utf8; uint32 co = 0; int utf16charlen; ULONG emwidth = (ULONG)NSA_FONT_EMWIDTH(fstyle->size); int32 tempx; len = utf8_bounded_length(string, length); if(utf8_to_enc(string,"UTF-16",length,(char **)&utf16) != UTF8_CONVERT_OK) return false; outf16 = utf16; if(!(ofont = ami_open_outline_font(fstyle, 0))) return false; *char_offset = length; for(i=0;i= (length)) { *actual_x = tx; co = length; } *char_offset = co; free(outf16); return true; } /** * Find where to split a string to make it fit a width. * * \param fstyle style for this text * \param string UTF-8 string to measure * \param length length of string * \param x width available * \param char_offset updated to offset in string of actual_x, [1..length] * \param actual_x updated to x coordinate of character closest to x * \return true on success, false on error and error reported * * On exit, char_offset indicates first character after split point. * * Note: char_offset of 0 should never be returned. * * Returns: * char_offset giving split point closest to x, where actual_x <= x * else * char_offset giving split point closest to x, where actual_x > x * * Returning char_offset == length means no split possible */ bool nsfont_split(const plot_font_style_t *fstyle, const char *string, size_t length, int x, size_t *char_offset, int *actual_x) { ULONG co; const char *str_pos = string; uint16 *utf16 = NULL,*outf16 = NULL; uint16 utf16next = 0; FIXED kern = 0; int utf16charlen = 0; struct OutlineFont *ofont, *ufont = NULL; uint32 tx=0,i=0; size_t len; int utf8_pos = 0; int32 tempx = 0; size_t coffset = 0; ULONG emwidth = (ULONG)NSA_FONT_EMWIDTH(fstyle->size); if(utf8_to_enc((char *)string,"UTF-16",length,(char **)&utf16) != UTF8_CONVERT_OK) return false; outf16 = utf16; if(!(ofont = ami_open_outline_font(fstyle, 0))) return false; *char_offset = 0; *actual_x = 0; while (utf8_pos < length) { if ((*utf16 < 0xD800) || (0xDFFF < *utf16)) utf16charlen = 1; else utf16charlen = 2; utf16next = utf16[utf16charlen]; tempx = ami_font_width_glyph(ofont, *utf16, utf16next, emwidth); if(tempx == 0) { if(ufont == NULL) { ufont = ami_open_outline_font(fstyle, *utf16); } if(ufont) { tempx = ami_font_width_glyph(ufont, *utf16, utf16next, emwidth); } /* if(tempx == 0) { tempx = ami_font_width_glyph(ofont, 0xfffd, utf16next, emwidth); } */ } tx += tempx; if ((x < tx) && (coffset != 0)) { /* Reached available width, and a space has been found; split there. */ break; } else if (*(string + str_pos) == ' ') { *actual_x = tx; coffset = utf8_pos; if (x < tx) { /* Out of space, so don't look further */ break; } } utf16 += utf16charlen; utf8_pos = utf8_next(string, length, utf8_pos); } free(outf16); if(coffset == 0) { *char_offset = length; *actual_x = tx; } else { *char_offset = coffset; } return true; } /** * Search for a font in the list and load from disk if not present */ struct ami_font_node *ami_font_open(const char *font) { struct nsObject *node; struct ami_font_node *nodedata; node = (struct nsObject *)FindIName((struct List *)ami_font_list, font); if(node) { nodedata = node->objstruct; GetSysTime(&nodedata->lastused); return nodedata; } LOG(("Font cache miss: %s", font)); nodedata = AllocVec(sizeof(struct ami_font_node), MEMF_PRIVATE | MEMF_CLEAR); nodedata->font = OpenOutlineFont(font, &ami_diskfontlib_list, OFF_OPEN); if(!nodedata->font) { LOG(("Requested font not found: %s", font)); warn_user("CompError", font); FreeVec(nodedata); return NULL; } nodedata->bold = (char *)GetTagData(OT_BName, 0, nodedata->font->olf_OTagList); if(nodedata->bold) LOG(("Bold font defined for %s is %s", font, nodedata->bold)); else LOG(("Warning: No designed bold font defined for %s", font)); nodedata->italic = (char *)GetTagData(OT_IName, 0, nodedata->font->olf_OTagList); if(nodedata->italic) LOG(("Italic font defined for %s is %s", font, nodedata->italic)); else LOG(("Warning: No designed italic font defined for %s", font)); nodedata->bolditalic = (char *)GetTagData(OT_BIName, 0, nodedata->font->olf_OTagList); if(nodedata->bolditalic) LOG(("Bold-italic font defined for %s is %s", font, nodedata->bolditalic)); else LOG(("Warning: No designed bold-italic font defined for %s", font)); GetSysTime(&nodedata->lastused); node = AddObject(ami_font_list, AMINS_FONT); if(node) { node->objstruct = nodedata; node->dtz_Node.ln_Name = strdup(font); } return nodedata; } /** * Open an outline font in the specified size and style * * \param fstyle font style structure * \param codepoint open a default font instead of the one specified by fstyle * \return outline font or NULL on error */ struct OutlineFont *ami_open_outline_font(const plot_font_style_t *fstyle, uint16 codepoint) { struct ami_font_node *node; struct OutlineFont *ofont; char *fontname; ULONG ysize; int tstyle = 0; plot_font_generic_family_t fontfamily; ULONG emboldenx = 0; ULONG emboldeny = 0; ULONG shearsin = 0; ULONG shearcos = (1 << 16); if(codepoint) fontfamily = NSA_UNICODE_FONT; else fontfamily = fstyle->family; switch(fontfamily) { case PLOT_FONT_FAMILY_SANS_SERIF: fontname = nsoption_charp(font_sans); break; case PLOT_FONT_FAMILY_SERIF: fontname = nsoption_charp(font_serif); break; case PLOT_FONT_FAMILY_MONOSPACE: fontname = nsoption_charp(font_mono); break; case PLOT_FONT_FAMILY_CURSIVE: fontname = nsoption_charp(font_cursive); break; case PLOT_FONT_FAMILY_FANTASY: fontname = nsoption_charp(font_fantasy); break; case NSA_UNICODE_FONT: default: fontname = (char *)ami_font_scan_lookup(codepoint, glypharray); if(fontname == NULL) return NULL; break; } node = ami_font_open(fontname); if(!node) return NULL; if (fstyle->flags & FONTF_OBLIQUE) tstyle = NSA_OBLIQUE; if (fstyle->flags & FONTF_ITALIC) tstyle = NSA_ITALIC; if (fstyle->weight >= 700) tstyle += NSA_BOLD; switch(tstyle) { case NSA_ITALIC: if(node->italic) { node = ami_font_open(node->italic); if(!node) return NULL; } else { shearsin = NSA_VALUE_SHEARSIN; shearcos = NSA_VALUE_SHEARCOS; } break; case NSA_OBLIQUE: shearsin = NSA_VALUE_SHEARSIN; shearcos = NSA_VALUE_SHEARCOS; break; case NSA_BOLD: if(node->bold) { node = ami_font_open(node->bold); if(!node) return NULL; } else { emboldenx = NSA_VALUE_BOLDX; emboldeny = NSA_VALUE_BOLDY; } break; case NSA_BOLDOBLIQUE: shearsin = NSA_VALUE_SHEARSIN; shearcos = NSA_VALUE_SHEARCOS; if(node->bold) { node = ami_font_open(node->bold); if(!node) return NULL; } else { emboldenx = NSA_VALUE_BOLDX; emboldeny = NSA_VALUE_BOLDY; } break; case NSA_BOLDITALIC: if(node->bolditalic) { node = ami_font_open(node->bolditalic); if(!node) return NULL; } else { emboldenx = NSA_VALUE_BOLDX; emboldeny = NSA_VALUE_BOLDY; shearsin = NSA_VALUE_SHEARSIN; shearcos = NSA_VALUE_SHEARCOS; } break; } /* Scale to 16.16 fixed point */ ysize = fstyle->size * ((1 << 16) / FONT_SIZE_SCALE); ofont = node->font; if(ESetInfo(&ofont->olf_EEngine, OT_DeviceDPI, ami_devicedpi, OT_PointHeight, ysize, OT_EmboldenX, emboldenx, OT_EmboldenY, emboldeny, OT_ShearSin, shearsin, OT_ShearCos, shearcos, TAG_END) == OTERR_Success) return ofont; return NULL; } int32 ami_font_plot_glyph(struct OutlineFont *ofont, struct RastPort *rp, uint16 char1, uint16 char2, uint32 x, uint32 y, uint32 emwidth, bool aa) { struct GlyphMap *glyph; UBYTE *glyphbm; int32 char_advance = 0; FIXED kern = 0; ULONG glyphmaptag = OT_GlyphMap8Bit; ULONG template_type = BLITT_ALPHATEMPLATE; if(aa == false) { glyphmaptag = OT_GlyphMap; template_type = BLITT_TEMPLATE; } if(ESetInfo(&ofont->olf_EEngine, OT_GlyphCode, char1, OT_GlyphCode2, char2, TAG_END) == OTERR_Success) { if(EObtainInfo(&ofont->olf_EEngine, glyphmaptag, &glyph, TAG_END) == 0) { glyphbm = glyph->glm_BitMap; if(!glyphbm) return 0; if(rp) { BltBitMapTags(BLITA_SrcX, glyph->glm_BlackLeft, BLITA_SrcY, glyph->glm_BlackTop, BLITA_DestX, x - glyph->glm_X0 + glyph->glm_BlackLeft, BLITA_DestY, y - glyph->glm_Y0 + glyph->glm_BlackTop, BLITA_Width, glyph->glm_BlackWidth, BLITA_Height, glyph->glm_BlackHeight, BLITA_Source, glyphbm, BLITA_SrcType, template_type, BLITA_Dest, rp, BLITA_DestType, BLITT_RASTPORT, BLITA_SrcBytesPerRow, glyph->glm_BMModulo, TAG_DONE); } kern = 0; if(char2) EObtainInfo(&ofont->olf_EEngine, OT_TextKernPair, &kern, TAG_END); char_advance = (ULONG)(((glyph->glm_Width - kern) * emwidth) / 65536); EReleaseInfo(&ofont->olf_EEngine, glyphmaptag, glyph, TAG_END); } } return char_advance; } int32 ami_font_width_glyph(struct OutlineFont *ofont, uint16 char1, uint16 char2, uint32 emwidth) { int32 char_advance = 0; FIXED kern = 0; struct MinList *gwlist; FIXED char1w; struct GlyphWidthEntry *gwnode; if(ESetInfo(&ofont->olf_EEngine, OT_GlyphCode, char1, OT_GlyphCode2, char1, TAG_END) == OTERR_Success) { if(EObtainInfo(&ofont->olf_EEngine, OT_WidthList, &gwlist, TAG_END) == 0) { gwnode = (struct GlyphWidthEntry *)GetHead((struct List *)gwlist); if(gwnode) char1w = gwnode->gwe_Width; kern = 0; if(char2) { if(ESetInfo(&ofont->olf_EEngine, OT_GlyphCode, char1, OT_GlyphCode2, char2, TAG_END) == OTERR_Success) { EObtainInfo(&ofont->olf_EEngine, OT_TextKernPair, &kern, TAG_END); } } char_advance = (ULONG)(((char1w - kern) * emwidth) / 65536); } } return char_advance; } uint16 ami_font_translate_smallcaps(uint16 utf16char) { uint16 *p; uint16 sc_table[] = { 0x0061, 0x1D00, /* a */ 0x0062, 0x0299, /* b */ 0x0063, 0x1D04, /* c */ 0x0064, 0x1D05, /* d */ 0x0065, 0x1D07, /* e */ 0x0066, 0xA730, /* f */ 0x0067, 0x0262, /* g */ 0x0068, 0x029C, /* h */ 0x0069, 0x026A, /* i */ 0x006A, 0x1D0A, /* j */ 0x006B, 0x1D0B, /* k */ 0x006C, 0x029F, /* l */ 0x006D, 0x1D0D, /* m */ 0x006E, 0x0274, /* n */ 0x006F, 0x1D0F, /* o */ 0x0070, 0x1D18, /* p */ 0x0071, 0xA7EE, /* q (proposed) (Adobe codepoint 0xF771) */ 0x0072, 0x0280, /* r */ 0x0073, 0xA731, /* s */ 0x0074, 0x1D1B, /* t */ 0x0075, 0x1D1C, /* u */ 0x0076, 0x1D20, /* v */ 0x0077, 0x1D21, /* w */ 0x0078, 0xA7EF, /* x (proposed) (Adobe codepoint 0xF778) */ 0x0079, 0x028F, /* y */ 0x007A, 0x1D22, /* z */ 0x00C6, 0x1D01, /* ae */ 0x0153, 0x0276, /* oe */ #if 0 /* TODO: fill in the non-small caps character ids for these */ 0x0000, 0x1D03, /* barred b */ 0x0000, 0x0281, /* inverted r */ 0x0000, 0x1D19, /* reversed r */ 0x0000, 0x1D1A, /* turned r */ 0x0000, 0x029B, /* g with hook */ 0x0000, 0x1D06, /* eth Ð */ 0x0000, 0x1D0C, /* l with stroke */ 0x0000, 0xA7FA, /* turned m */ 0x0000, 0x1D0E, /* reversed n */ 0x0000, 0x1D10, /* open o */ 0x0000, 0x1D15, /* ou */ 0x0000, 0x1D23, /* ezh */ 0x0000, 0x1D26, /* gamma */ 0x0000, 0x1D27, /* lamda */ 0x0000, 0x1D28, /* pi */ 0x0000, 0x1D29, /* rho */ 0x0000, 0x1D2A, /* psi */ 0x0000, 0x1D2B, /* el */ 0x0000, 0xA776, /* rum */ 0x0000, 0x1DDB, /* combining g */ 0x0000, 0x1DDE, /* combining l */ 0x0000, 0x1DDF, /* combining m */ 0x0000, 0x1DE1, /* combining n */ 0x0000, 0x1DE2, /* combining r */ 0x0000, 0x1DA6, /* modifier i */ 0x0000, 0x1DA7, /* modifier i with stroke */ 0x0000, 0x1DAB, /* modifier l */ 0x0000, 0x1DB0, /* modifier n */ 0x0000, 0x1DB8, /* modifier u */ #endif 0, 0}; p = &sc_table[0]; while (*p != 0) { if(*p == utf16char) return p[1]; p++; } return utf16char; } ULONG ami_unicode_text(struct RastPort *rp, const char *string, ULONG length, const plot_font_style_t *fstyle, ULONG dx, ULONG dy, bool aa) { uint16 *utf16 = NULL, *outf16 = NULL; uint16 utf16charsc = 0, utf16nextsc = 0; uint16 utf16next = 0; int utf16charlen; struct OutlineFont *ofont, *ufont = NULL; ULONG i,gx,gy; UWORD posn; uint32 x=0; uint8 co = 0; int32 tempx = 0; ULONG emwidth = (ULONG)NSA_FONT_EMWIDTH(fstyle->size); if(!string || string[0]=='\0') return 0; if(!length) return 0; if(utf8_to_enc(string,"UTF-16",length,(char **)&utf16) != UTF8_CONVERT_OK) return 0; outf16 = utf16; if(!(ofont = ami_open_outline_font(fstyle, 0))) return 0; while(*utf16 != 0) { if ((*utf16 < 0xD800) || (0xDFFF < *utf16)) utf16charlen = 1; else utf16charlen = 2; utf16next = utf16[utf16charlen]; if(fstyle->flags & FONTF_SMALLCAPS) { utf16charsc = ami_font_translate_smallcaps(*utf16); utf16nextsc = ami_font_translate_smallcaps(utf16next); if(rp) { tempx = ami_font_plot_glyph(ofont, rp, utf16charsc, utf16nextsc, dx + x, dy, emwidth, aa); } else { tempx = ami_font_width_glyph(ofont, utf16charsc, utf16nextsc, emwidth); } } else tempx = 0; if(tempx == 0) { if(rp) { tempx = ami_font_plot_glyph(ofont, rp, *utf16, utf16next, dx + x, dy, emwidth, aa); } else { tempx = ami_font_width_glyph(ofont, *utf16, utf16next, emwidth); } } if(tempx == 0) { if(ufont == NULL) { ufont = ami_open_outline_font(fstyle, *utf16); } if(ufont) { if(rp) { tempx = ami_font_plot_glyph(ufont, rp, *utf16, utf16next, dx + x, dy, emwidth, aa); } else { tempx = ami_font_width_glyph(ufont, *utf16, utf16next, emwidth); } } /* if(tempx == 0) { if(rp) { tempx = ami_font_plot_glyph(ofont, rp, 0xfffd, utf16next, dx + x, dy, emwidth, aa); } else { tempx = ami_font_width_glyph(ofont, 0xfffd, utf16next, emwidth); } } */ } x += tempx; utf16 += utf16charlen; } free(outf16); return x; } void ami_font_initscanner(bool force, bool save) { ami_font_scan_init(nsoption_charp(font_unicode_file), force, save, glypharray); } void ami_font_finiscanner(void) { ami_font_scan_fini(glypharray); } void ami_font_savescanner(void) { ami_font_scan_save(nsoption_charp(font_unicode_file), glypharray); } void ami_init_fonts(void) { /* Initialise Unicode font scanner */ ami_font_initscanner(false, true); /* Initialise font caching etc lists */ ami_font_list = NewObjList(); NewList(&ami_diskfontlib_list); /* run first cleanup in ten minutes */ schedule(60000, (schedule_callback_fn)ami_font_cleanup, ami_font_list); } void ami_close_fonts(void) { LOG(("Cleaning up font cache")); FreeObjList(ami_font_list); ami_font_list = NULL; ami_font_finiscanner(); } void ami_font_close(struct ami_font_node *node) { /* Called from FreeObjList if node type is AMINS_FONT */ CloseOutlineFont(node->font, &ami_diskfontlib_list); } static void ami_font_cleanup(struct MinList *ami_font_list) { struct nsObject *node; struct nsObject *nnode; struct ami_font_node *fnode; struct TimeVal curtime; if(IsMinListEmpty(ami_font_list)) return; node = (struct nsObject *)GetHead((struct List *)ami_font_list); do { nnode=(struct nsObject *)GetSucc((struct Node *)node); fnode = node->objstruct; GetSysTime(&curtime); SubTime(&curtime, &fnode->lastused); if(curtime.Seconds > 300) { LOG(("Freeing %s not used for %d seconds", node->dtz_Node.ln_Name, curtime.Seconds)); DelObject(node); } }while(node=nnode); /* reschedule to run in five minutes */ schedule(30000, (schedule_callback_fn)ami_font_cleanup, ami_font_list); } void ami_font_setdevicedpi(int id) { DisplayInfoHandle dih; struct DisplayInfo dinfo; ULONG ydpi = nsoption_int(amiga_ydpi); ULONG xdpi = nsoption_int(amiga_ydpi); nscss_screen_dpi = INTTOFIX(nsoption_int(amiga_ydpi)); if(id && (nsoption_int(monitor_aspect_x) != 0) && (nsoption_int(monitor_aspect_y) != 0)) { if(dih = FindDisplayInfo(id)) { if(GetDisplayInfoData(dih, &dinfo, sizeof(struct DisplayInfo), DTAG_DISP, 0)) { int xres = dinfo.Resolution.x; int yres = dinfo.Resolution.y; if((nsoption_int(monitor_aspect_x) != 4) || (nsoption_int(monitor_aspect_y) != 3)) { /* AmigaOS sees 4:3 modes as square in the DisplayInfo database, * so we correct other modes to "4:3 equiv" here. */ xres = (xres * nsoption_int(monitor_aspect_x)) / 4; yres = (yres * nsoption_int(monitor_aspect_y)) / 3; } xdpi = (yres * ydpi) / xres; LOG(("XDPI = %ld, YDPI = %ld (DisplayInfo resolution %ld x %ld, corrected %ld x %ld)", xdpi, ydpi, dinfo.Resolution.x, dinfo.Resolution.y, xres, yres)); } } } ami_xdpi = xdpi; ami_devicedpi = (xdpi << 16) | ydpi; } /* The below are simple font routines which should not be used for page rendering */ struct TextFont *ami_font_open_disk_font(struct TextAttr *tattr) { struct TextFont *tfont = OpenDiskFont(tattr); return tfont; } void ami_font_close_disk_font(struct TextFont *tfont) { CloseFont(tfont); }