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Location: cpp/openttd-patchpack/source/src/fontcache.cpp
r9952:9c0d3f3bcba8
17.2 KiB
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(svn r14107) -Codechange: marking reserved tile dirty twice (and even when patch option is off) is not needed
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/** @file fontcache.cpp Cache for characters from fonts. */
#include "stdafx.h"
#include "openttd.h"
#include "debug.h"
#include "spritecache.h"
#include "fontcache.h"
#include "spriteloader/spriteloader.hpp"
#include "blitter/factory.hpp"
#include "gfx_func.h"
#include "core/alloc_func.hpp"
#include "core/math_func.hpp"
#include "table/sprites.h"
#include "table/control_codes.h"
#ifdef WITH_FREETYPE
#include <ft2build.h>
#include FT_FREETYPE_H
#include FT_GLYPH_H
#ifdef WITH_FONTCONFIG
#include <fontconfig/fontconfig.h>
#endif
static FT_Library _library = NULL;
static FT_Face _face_small = NULL;
static FT_Face _face_medium = NULL;
static FT_Face _face_large = NULL;
FreeTypeSettings _freetype;
enum {
FACE_COLOUR = 1,
SHADOW_COLOUR = 2,
};
/** Get the font loaded into a Freetype face by using a font-name.
* If no appropiate font is found, the function returns an error */
#ifdef WIN32
#include <windows.h>
#include <tchar.h>
#include <shlobj.h> // SHGetFolderPath
#include "win32.h"
/* Get the font file to be loaded into Freetype by looping the registry
* location where windows lists all installed fonts. Not very nice, will
* surely break if the registry path changes, but it works. Much better
* solution would be to use CreateFont, and extract the font data from it
* by GetFontData. The problem with this is that the font file needs to be
* kept in memory then until the font is no longer needed. This could mean
* an additional memory usage of 30MB (just for fonts!) when using an eastern
* font for all font sizes */
#define FONT_DIR_NT "SOFTWARE\\Microsoft\\Windows NT\\CurrentVersion\\Fonts"
#define FONT_DIR_9X "SOFTWARE\\Microsoft\\Windows\\CurrentVersion\\Fonts"
static FT_Error GetFontByFaceName(const char *font_name, FT_Face *face)
{
FT_Error err = FT_Err_Cannot_Open_Resource;
HKEY hKey;
LONG ret;
TCHAR vbuffer[MAX_PATH], dbuffer[256];
TCHAR *font_namep;
char *font_path;
uint index;
/* On windows NT (2000, NT3.5, XP, etc.) the fonts are stored in the
* "Windows NT" key, on Windows 9x in the Windows key. To save us having
* to retrieve the windows version, we'll just query both */
ret = RegOpenKeyEx(HKEY_LOCAL_MACHINE, _T(FONT_DIR_NT), 0, KEY_READ, &hKey);
if (ret != ERROR_SUCCESS) ret = RegOpenKeyEx(HKEY_LOCAL_MACHINE, _T(FONT_DIR_9X), 0, KEY_READ, &hKey);
if (ret != ERROR_SUCCESS) {
DEBUG(freetype, 0, "Cannot open registry key HKLM\\SOFTWARE\\Microsoft\\Windows (NT)\\CurrentVersion\\Fonts");
return err;
}
/* For Unicode we need some conversion between widechar and
* normal char to match the data returned by RegEnumValue,
* otherwise just use parameter */
#if defined(UNICODE)
font_namep = MallocT<TCHAR>(MAX_PATH);
MB_TO_WIDE_BUFFER(font_name, font_namep, MAX_PATH * sizeof(TCHAR));
#else
font_namep = (char*)font_name; // only cast because in unicode pointer is not const
#endif
for (index = 0;; index++) {
TCHAR *s;
DWORD vbuflen = lengthof(vbuffer);
DWORD dbuflen = lengthof(dbuffer);
ret = RegEnumValue(hKey, index, vbuffer, &vbuflen, NULL, NULL, (byte*)dbuffer, &dbuflen);
if (ret != ERROR_SUCCESS) goto registry_no_font_found;
/* The font names in the registry are of the following 3 forms:
* - ADMUI3.fon
* - Book Antiqua Bold (TrueType)
* - Batang & BatangChe & Gungsuh & GungsuhChe (TrueType)
* We will strip the font-type '()' if any and work with the font name
* itself, which must match exactly; if...
* TTC files, font files which contain more than one font are seperated
* byt '&'. Our best bet will be to do substr match for the fontname
* and then let FreeType figure out which index to load */
s = _tcschr(vbuffer, _T('('));
if (s != NULL) s[-1] = '\0';
if (_tcschr(vbuffer, _T('&')) == NULL) {
if (_tcsicmp(vbuffer, font_namep) == 0) break;
} else {
if (_tcsstr(vbuffer, font_namep) != NULL) break;
}
}
if (!SUCCEEDED(SHGetFolderPath(NULL, CSIDL_FONTS, NULL, SHGFP_TYPE_CURRENT, vbuffer))) {
DEBUG(freetype, 0, "SHGetFolderPath cannot return fonts directory");
goto folder_error;
}
/* Some fonts are contained in .ttc files, TrueType Collection fonts. These
* contain multiple fonts inside this single file. GetFontData however
* returns the whole file, so we need to check each font inside to get the
* proper font.
* Also note that FreeType does not support UNICODE filesnames! */
#if defined(UNICODE)
/* We need a cast here back from wide because FreeType doesn't support
* widechar filenames. Just use the buffer we allocated before for the
* font_name search */
font_path = (char*)font_namep;
WIDE_TO_MB_BUFFER(vbuffer, font_path, MAX_PATH * sizeof(TCHAR));
#else
font_path = vbuffer;
#endif
ttd_strlcat(font_path, "\\", MAX_PATH * sizeof(TCHAR));
ttd_strlcat(font_path, WIDE_TO_MB(dbuffer), MAX_PATH * sizeof(TCHAR));
index = 0;
do {
err = FT_New_Face(_library, font_path, index, face);
if (err != FT_Err_Ok) break;
if (strncasecmp(font_name, (*face)->family_name, strlen((*face)->family_name)) == 0) break;
err = FT_Err_Cannot_Open_Resource;
} while ((FT_Long)++index != (*face)->num_faces);
folder_error:
registry_no_font_found:
#if defined(UNICODE)
free(font_namep);
#endif
RegCloseKey(hKey);
return err;
}
#else
# ifdef WITH_FONTCONFIG
static FT_Error GetFontByFaceName(const char *font_name, FT_Face *face)
{
FT_Error err = FT_Err_Cannot_Open_Resource;
if (!FcInit()) {
ShowInfoF("Unable to load font configuration");
} else {
FcPattern *match;
FcPattern *pat;
FcFontSet *fs;
FcResult result;
char *font_style;
char *font_family;
/* Split & strip the font's style */
font_family = strdup(font_name);
font_style = strchr(font_family, ',');
if (font_style != NULL) {
font_style[0] = '\0';
font_style++;
while (*font_style == ' ' || *font_style == '\t') font_style++;
}
/* Resolve the name and populate the information structure */
pat = FcNameParse((FcChar8*)font_family);
if (font_style != NULL) FcPatternAddString(pat, FC_STYLE, (FcChar8*)font_style);
FcConfigSubstitute(0, pat, FcMatchPattern);
FcDefaultSubstitute(pat);
fs = FcFontSetCreate();
match = FcFontMatch(0, pat, &result);
if (fs != NULL && match != NULL) {
int i;
FcChar8 *family;
FcChar8 *style;
FcChar8 *file;
FcFontSetAdd(fs, match);
for (i = 0; err != FT_Err_Ok && i < fs->nfont; i++) {
/* Try the new filename */
if (FcPatternGetString(fs->fonts[i], FC_FILE, 0, &file) == FcResultMatch &&
FcPatternGetString(fs->fonts[i], FC_FAMILY, 0, &family) == FcResultMatch &&
FcPatternGetString(fs->fonts[i], FC_STYLE, 0, &style) == FcResultMatch) {
/* The correct style? */
if (font_style != NULL && strcasecmp(font_style, (char*)style) != 0) continue;
/* Font config takes the best shot, which, if the family name is spelled
* wrongly a 'random' font, so check whether the family name is the
* same as the supplied name */
if (strcasecmp(font_family, (char*)family) == 0) {
err = FT_New_Face(_library, (char *)file, 0, face);
}
}
}
}
free(font_family);
FcPatternDestroy(pat);
FcFontSetDestroy(fs);
FcFini();
}
return err;
}
# else
FT_Error GetFontByFaceName(const char *font_name, FT_Face *face) {return FT_Err_Cannot_Open_Resource;}
# endif /* WITH_FONTCONFIG */
#endif
/**
* Loads the freetype font.
* First type to load the fontname as if it were a path. If that fails,
* try to resolve the filename of the font using fontconfig, where the
* format is 'font family name' or 'font family name, font style'.
*/
static void LoadFreeTypeFont(const char *font_name, FT_Face *face, const char *type)
{
FT_Error error;
if (StrEmpty(font_name)) return;
error = FT_New_Face(_library, font_name, 0, face);
if (error != FT_Err_Ok) error = GetFontByFaceName(font_name, face);
if (error == FT_Err_Ok) {
DEBUG(freetype, 2, "Requested '%s', using '%s %s'", font_name, (*face)->family_name, (*face)->style_name);
/* Attempt to select the unicode character map */
error = FT_Select_Charmap(*face, ft_encoding_unicode);
if (error == FT_Err_Ok) return; // Success
if (error == FT_Err_Invalid_CharMap_Handle) {
/* Try to pick a different character map instead. We default to
* the first map, but platform_id 0 encoding_id 0 should also
* be unicode (strange system...) */
FT_CharMap found = (*face)->charmaps[0];
int i;
for (i = 0; i < (*face)->num_charmaps; i++) {
FT_CharMap charmap = (*face)->charmaps[i];
if (charmap->platform_id == 0 && charmap->encoding_id == 0) {
found = charmap;
}
}
if (found != NULL) {
error = FT_Set_Charmap(*face, found);
if (error == FT_Err_Ok) return;
}
}
}
FT_Done_Face(*face);
*face = NULL;
ShowInfoF("Unable to use '%s' for %s font, FreeType reported error 0x%X, using sprite font instead", font_name, type, error);
}
void InitFreeType()
{
if (StrEmpty(_freetype.small_font) && StrEmpty(_freetype.medium_font) && StrEmpty(_freetype.large_font)) {
DEBUG(freetype, 1, "No font faces specified, using sprite fonts instead");
return;
}
if (FT_Init_FreeType(&_library) != FT_Err_Ok) {
ShowInfoF("Unable to initialize FreeType, using sprite fonts instead");
return;
}
DEBUG(freetype, 2, "Initialized");
/* Load each font */
LoadFreeTypeFont(_freetype.small_font, &_face_small, "small");
LoadFreeTypeFont(_freetype.medium_font, &_face_medium, "medium");
LoadFreeTypeFont(_freetype.large_font, &_face_large, "large");
/* Set each font size */
if (_face_small != NULL) FT_Set_Pixel_Sizes(_face_small, 0, _freetype.small_size);
if (_face_medium != NULL) FT_Set_Pixel_Sizes(_face_medium, 0, _freetype.medium_size);
if (_face_large != NULL) FT_Set_Pixel_Sizes(_face_large, 0, _freetype.large_size);
}
static FT_Face GetFontFace(FontSize size)
{
switch (size) {
default: NOT_REACHED();
case FS_NORMAL: return _face_medium;
case FS_SMALL: return _face_small;
case FS_LARGE: return _face_large;
}
}
struct GlyphEntry {
Sprite *sprite;
byte width;
};
/* The glyph cache. This is structured to reduce memory consumption.
* 1) There is a 'segment' table for each font size.
* 2) Each segment table is a discrete block of characters.
* 3) Each block contains 256 (aligned) characters sequential characters.
*
* The cache is accessed in the following way:
* For character 0x0041 ('A'): _glyph_ptr[FS_NORMAL][0x00][0x41]
* For character 0x20AC (Euro): _glyph_ptr[FS_NORMAL][0x20][0xAC]
*
* Currently only 256 segments are allocated, "limiting" us to 65536 characters.
* This can be simply changed in the two functions Get & SetGlyphPtr.
*/
static GlyphEntry **_glyph_ptr[FS_END];
static GlyphEntry *GetGlyphPtr(FontSize size, WChar key)
{
if (_glyph_ptr[size] == NULL) return NULL;
if (_glyph_ptr[size][GB(key, 8, 8)] == NULL) return NULL;
return &_glyph_ptr[size][GB(key, 8, 8)][GB(key, 0, 8)];
}
static void SetGlyphPtr(FontSize size, WChar key, const GlyphEntry *glyph)
{
if (_glyph_ptr[size] == NULL) {
DEBUG(freetype, 3, "Allocating root glyph cache for size %u", size);
_glyph_ptr[size] = CallocT<GlyphEntry*>(256);
}
if (_glyph_ptr[size][GB(key, 8, 8)] == NULL) {
DEBUG(freetype, 3, "Allocating glyph cache for range 0x%02X00, size %u", GB(key, 8, 8), size);
_glyph_ptr[size][GB(key, 8, 8)] = CallocT<GlyphEntry>(256);
}
DEBUG(freetype, 4, "Set glyph for unicode character 0x%04X, size %u", key, size);
_glyph_ptr[size][GB(key, 8, 8)][GB(key, 0, 8)].sprite = glyph->sprite;
_glyph_ptr[size][GB(key, 8, 8)][GB(key, 0, 8)].width = glyph->width;
}
void *AllocateFont(size_t size)
{
return MallocT<byte>(size);
}
/* Check if a glyph should be rendered with antialiasing */
static bool GetFontAAState(FontSize size)
{
/* AA is only supported for 32 bpp */
if (BlitterFactoryBase::GetCurrentBlitter()->GetScreenDepth() != 32) return false;
switch (size) {
default: NOT_REACHED();
case FS_NORMAL: return _freetype.medium_aa;
case FS_SMALL: return _freetype.small_aa;
case FS_LARGE: return _freetype.large_aa;
}
}
const Sprite *GetGlyph(FontSize size, WChar key)
{
FT_Face face = GetFontFace(size);
FT_GlyphSlot slot;
GlyphEntry new_glyph;
GlyphEntry *glyph;
SpriteLoader::Sprite sprite;
int width;
int height;
int x;
int y;
int y_adj;
assert(IsPrintable(key));
/* Bail out if no face loaded, or for our special characters */
if (face == NULL || (key >= SCC_SPRITE_START && key <= SCC_SPRITE_END)) {
SpriteID sprite = GetUnicodeGlyph(size, key);
if (sprite == 0) sprite = GetUnicodeGlyph(size, '?');
return GetSprite(sprite);
}
/* Check for the glyph in our cache */
glyph = GetGlyphPtr(size, key);
if (glyph != NULL && glyph->sprite != NULL) return glyph->sprite;
slot = face->glyph;
bool aa = GetFontAAState(size);
FT_Load_Char(face, key, FT_LOAD_DEFAULT);
FT_Render_Glyph(face->glyph, aa ? FT_RENDER_MODE_NORMAL : FT_RENDER_MODE_MONO);
/* Despite requesting a normal glyph, FreeType may have returned a bitmap */
aa = (slot->bitmap.palette_mode == FT_PIXEL_MODE_GRAY);
/* Add 1 pixel for the shadow on the medium font. Our sprite must be at least 1x1 pixel */
width = max(1, slot->bitmap.width + (size == FS_NORMAL));
height = max(1, slot->bitmap.rows + (size == FS_NORMAL));
/* FreeType has rendered the glyph, now we allocate a sprite and copy the image into it */
sprite.data = CallocT<SpriteLoader::CommonPixel>(width * height);
sprite.width = width;
sprite.height = height;
sprite.x_offs = slot->bitmap_left;
// XXX 2 should be determined somehow... it's right for the normal face
y_adj = (size == FS_NORMAL) ? 2 : 0;
sprite.y_offs = GetCharacterHeight(size) - slot->bitmap_top - y_adj;
/* Draw shadow for medium size */
if (size == FS_NORMAL) {
for (y = 0; y < slot->bitmap.rows; y++) {
for (x = 0; x < slot->bitmap.width; x++) {
if (aa ? (slot->bitmap.buffer[x + y * slot->bitmap.pitch] > 0) : HasBit(slot->bitmap.buffer[(x / 8) + y * slot->bitmap.pitch], 7 - (x % 8))) {
sprite.data[1 + x + (1 + y) * sprite.width].m = SHADOW_COLOUR;
sprite.data[1 + x + (1 + y) * sprite.width].a = aa ? slot->bitmap.buffer[x + y * slot->bitmap.pitch] : 0xFF;
}
}
}
}
for (y = 0; y < slot->bitmap.rows; y++) {
for (x = 0; x < slot->bitmap.width; x++) {
if (aa ? (slot->bitmap.buffer[x + y * slot->bitmap.pitch] > 0) : HasBit(slot->bitmap.buffer[(x / 8) + y * slot->bitmap.pitch], 7 - (x % 8))) {
sprite.data[x + y * sprite.width].m = FACE_COLOUR;
sprite.data[x + y * sprite.width].a = aa ? slot->bitmap.buffer[x + y * slot->bitmap.pitch] : 0xFF;
}
}
}
new_glyph.sprite = BlitterFactoryBase::GetCurrentBlitter()->Encode(&sprite, AllocateFont);
free(sprite.data);
new_glyph.width = (slot->advance.x >> 6) + (size != FS_NORMAL);
SetGlyphPtr(size, key, &new_glyph);
return new_glyph.sprite;
}
uint GetGlyphWidth(FontSize size, WChar key)
{
FT_Face face = GetFontFace(size);
GlyphEntry *glyph;
if (face == NULL || (key >= SCC_SPRITE_START && key <= SCC_SPRITE_END)) {
SpriteID sprite = GetUnicodeGlyph(size, key);
if (sprite == 0) sprite = GetUnicodeGlyph(size, '?');
return SpriteExists(sprite) ? GetSprite(sprite)->width + (size != FS_NORMAL) : 0;
}
glyph = GetGlyphPtr(size, key);
if (glyph == NULL || glyph->sprite == NULL) {
GetGlyph(size, key);
glyph = GetGlyphPtr(size, key);
}
return glyph->width;
}
#endif /* WITH_FREETYPE */
/* Sprite based glyph mapping */
#include "table/unicode.h"
static SpriteID **_unicode_glyph_map[FS_END];
/** Get the SpriteID of the first glyph for the given font size */
static SpriteID GetFontBase(FontSize size)
{
switch (size) {
default: NOT_REACHED();
case FS_NORMAL: return SPR_ASCII_SPACE;
case FS_SMALL: return SPR_ASCII_SPACE_SMALL;
case FS_LARGE: return SPR_ASCII_SPACE_BIG;
}
}
SpriteID GetUnicodeGlyph(FontSize size, uint32 key)
{
if (_unicode_glyph_map[size][GB(key, 8, 8)] == NULL) return 0;
return _unicode_glyph_map[size][GB(key, 8, 8)][GB(key, 0, 8)];
}
void SetUnicodeGlyph(FontSize size, uint32 key, SpriteID sprite)
{
if (_unicode_glyph_map[size] == NULL) _unicode_glyph_map[size] = CallocT<SpriteID*>(256);
if (_unicode_glyph_map[size][GB(key, 8, 8)] == NULL) _unicode_glyph_map[size][GB(key, 8, 8)] = CallocT<SpriteID>(256);
_unicode_glyph_map[size][GB(key, 8, 8)][GB(key, 0, 8)] = sprite;
}
void InitializeUnicodeGlyphMap()
{
for (FontSize size = FS_NORMAL; size != FS_END; size++) {
/* Clear out existing glyph map if it exists */
if (_unicode_glyph_map[size] != NULL) {
for (uint i = 0; i < 256; i++) {
if (_unicode_glyph_map[size][i] != NULL) free(_unicode_glyph_map[size][i]);
}
free(_unicode_glyph_map[size]);
_unicode_glyph_map[size] = NULL;
}
SpriteID base = GetFontBase(size);
for (uint i = ASCII_LETTERSTART; i < 256; i++) {
SpriteID sprite = base + i - ASCII_LETTERSTART;
if (!SpriteExists(sprite)) continue;
SetUnicodeGlyph(size, i, sprite);
SetUnicodeGlyph(size, i + SCC_SPRITE_START, sprite);
}
for (uint i = 0; i < lengthof(_default_unicode_map); i++) {
byte key = _default_unicode_map[i].key;
if (key == CLRA || key == CLRL) {
/* Clear the glyph. This happens if the glyph at this code point
* is non-standard and should be accessed by an SCC_xxx enum
* entry only. */
if (key == CLRA || size == FS_LARGE) {
SetUnicodeGlyph(size, _default_unicode_map[i].code, 0);
}
} else {
SpriteID sprite = base + key - ASCII_LETTERSTART;
SetUnicodeGlyph(size, _default_unicode_map[i].code, sprite);
}
}
}
}
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