/*
* Copyright (C) 2006 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#ifndef SkFontHost_DEFINED
#define SkFontHost_DEFINED
#include "SkScalerContext.h"
#include "SkTypeface.h"
class SkDescriptor;
class SkStream;
class SkWStream;
typedef uint32_t SkFontID;
typedef uint32_t SkFontTableTag;
/** \class SkFontHost
This class is ported to each environment. It is responsible for bridging
the gap between the (sort of) abstract class SkTypeface and the
platform-specific implementation that provides access to font files.
One basic task is for each create (subclass of) SkTypeface, the FontHost is
resonsible for assigning a uniqueID. The ID should be unique for the
underlying font file/data, not unique per typeface instance. Thus it is
possible/common to request a typeface for the same font more than once
(e.g. asking for the same font by name several times). The FontHost may
return seperate typeface instances in that case, or it may choose to use a
cache and return the same instance (but calling typeface->ref(), since the
caller is always responsible for calling unref() on each instance that is
returned). Either way, the fontID for those instance(s) will be the same.
In addition, the fontID should never be set to 0. That value is used as a
sentinel to indicate no-font-id.
The major aspects are:
1) Given either a name/style, return a subclass of SkTypeface that
references the closest matching font available on the host system.
2) Given the data for a font (either in a stream or a file name), return
a typeface that allows access to that data.
3) Each typeface instance carries a 32bit ID for its corresponding font.
SkFontHost turns that ID into a stream to access the font's data.
4) Given a font ID, return a subclass of SkScalerContext, which connects a
font scaler (e.g. freetype or other) to the font's data.
5) Utilites to manage the font cache (budgeting) and gamma correction
*/
class SkFontHost {
public:
/** Return a new, closest matching typeface given either an existing family
(specified by a typeface in that family) or by a familyName, and a
requested style.
1) If familyFace is null, use famillyName.
2) If famillyName is null, use familyFace.
3) If both are null, return the default font that best matches style
*/
static SkTypeface* CreateTypeface(const SkTypeface* familyFace,
const char famillyName[],
SkTypeface::Style style);
/** Return a new typeface given the data buffer. If the data does not
represent a valid font, returns null.
If a typeface instance is returned, the caller is responsible for
calling unref() on the typeface when they are finished with it.
The returned typeface may or may not have called ref() on the stream
parameter. If the typeface has not called ref(), then it may have made
a copy of the releveant data. In either case, the caller is still
responsible for its refcnt ownership of the stream.
*/
static SkTypeface* CreateTypefaceFromStream(SkStream*);
/** Return a new typeface from the specified file path. If the file does not
represent a valid font, this returns null. If a typeface is returned,
the caller is responsible for calling unref() when it is no longer used.
*/
static SkTypeface* CreateTypefaceFromFile(const char path[]);
///////////////////////////////////////////////////////////////////////////
/** Returns true if the specified unique ID matches an existing font.
Returning false is similar to calling OpenStream with an invalid ID,
which will return NULL in that case.
*/
static bool ValidFontID(SkFontID uniqueID);
/** Return a new stream to read the font data, or null if the uniqueID does
not match an existing typeface. .The caller must call stream->unref()
when it is finished reading the data.
*/
static SkStream* OpenStream(SkFontID uniqueID);
/** Some fonts are stored in files. If that is true for the fontID, then
this returns the byte length of the full file path. If path is not null,
then the full path is copied into path (allocated by the caller), up to
length bytes. If index is not null, then it is set to the truetype
collection index for this font, or 0 if the font is not in a collection.
Note: GetFileName does not assume that path is a null-terminated string,
so when it succeeds, it only copies the bytes of the file name and
nothing else (i.e. it copies exactly the number of bytes returned by the
function. If the caller wants to treat path[] as a C string, it must be
sure that it is allocated at least 1 byte larger than the returned size,
and it must copy in the terminating 0.
If the fontID does not correspond to a file, then the function returns
0, and the path and index parameters are ignored.
@param fontID The font whose file name is being queried
@param path Either NULL, or storage for receiving up to length bytes
of the font's file name. Allocated by the caller.
@param length The maximum space allocated in path (by the caller).
Ignored if path is NULL.
@param index Either NULL, or receives the TTC index for this font.
If the font is not a TTC, then will be set to 0.
@return The byte length of th font's file name, or 0 if the font is not
baked by a file.
*/
static size_t GetFileName(SkFontID fontID, char path[], size_t length,
int32_t* index);
///////////////////////////////////////////////////////////////////////////
/** Write a unique identifier to the stream, so that the same typeface can
be retrieved with Deserialize().
*/
static void Serialize(const SkTypeface*, SkWStream*);
/** Given a stream created by Serialize(), return a new typeface (like
CreateTypeface) or return NULL if no match is found.
*/
static SkTypeface* Deserialize(SkStream*);
///////////////////////////////////////////////////////////////////////////
/** Return a subclass of SkScalarContext
*/
static SkScalerContext* CreateScalerContext(const SkDescriptor* desc);
/** Given a "current" fontID, return the next logical fontID to use
when searching fonts for a given unicode value. Typically the caller
will query a given font, and if a unicode value is not supported, they
will call this, and if 0 is not returned, will search that font, and so
on. This process must be finite, and when the fonthost sees a
font with no logical successor, it must return 0.
*/
static uint32_t NextLogicalFont(SkFontID fontID);
///////////////////////////////////////////////////////////////////////////
/** Given a filled-out rec, the fonthost may decide to modify it to reflect
what the host is actually capable of fulfilling. For example, if the
rec is requesting a level of hinting that, for this host, maps some
other level (e.g. kFull -> kNormal), it should update the rec to reflect
what will actually be done. This is an optimization so that the font
cache does not contain different recs (i.e. keys) that in reality map to
the same output.
A lazy (but valid) fonthost can do nothing in its FilterRec routine.
*/
static void FilterRec(SkScalerContext::Rec* rec);
///////////////////////////////////////////////////////////////////////////
/** Return the number of tables in the font
*/
static int CountTables(SkFontID);
/** Copy into tags[] (allocated by the caller) the list of table tags in
the font, and return the number. This will be the same as CountTables()
or 0 if an error occured.
*/
static int GetTableTags(SkFontID, SkFontTableTag[]);
/** Given a table tag, return the size of its contents, or 0 if not present
*/
static size_t GetTableSize(SkFontID, SkFontTableTag);
/** Copy the contents of a table into data (allocated by the caller). Note
that the contents of the table will be in their native endian order
(which for most truetype tables is big endian). If the table tag is
not found, or there is an error copying the data, then 0 is returned.
If this happens, it is possible that some or all of the memory pointed
to by data may have been written to, even though an error has occured.
@param fontID the font to copy the table from
@param tag The table tag whose contents are to be copied
@param offset The offset in bytes into the table's contents where the
copy should start from.
@param length The number of bytes, starting at offset, of table data
to copy.
@param data storage address where the table contents are copied to
@return the number of bytes actually copied into data. If offset+length
exceeds the table's size, then only the bytes up to the table's
size are actually copied, and this is the value returned. If
offset > the table's size, or tag is not a valid table,
then 0 is returned.
*/
static size_t GetTableData(SkFontID fontID, SkFontTableTag tag,
size_t offset, size_t length, void* data);
///////////////////////////////////////////////////////////////////////////
/** Return the number of bytes (approx) that should be purged from the font
cache. The input parameter is the cache's estimate of how much as been
allocated by the cache so far.
To purge (basically) everything, return the input parameter.
To purge nothing, return 0
*/
static size_t ShouldPurgeFontCache(size_t sizeAllocatedSoFar);
/** Return SkScalerContext gamma flag, or 0, based on the paint that will be
used to draw something with antialiasing.
*/
static int ComputeGammaFlag(const SkPaint& paint);
/** Return NULL or a pointer to 256 bytes for the black (table[0]) and
white (table[1]) gamma tables.
*/
static void GetGammaTables(const uint8_t* tables[2]);
///////////////////////////////////////////////////////////////////////////
/** LCDs either have their color elements arranged horizontally or
vertically. When rendering subpixel glyphs we need to know which way
round they are.
Note, if you change this after startup, you'll need to flush the glyph
cache because it'll have the wrong type of masks cached.
*/
enum LCDOrientation {
kHorizontal_LCDOrientation = 0, //!< this is the default
kVertical_LCDOrientation = 1,
};
static void SetSubpixelOrientation(LCDOrientation orientation);
static LCDOrientation GetSubpixelOrientation();
/** LCD color elements can vary in order. For subpixel text we need to know
the order which the LCDs uses so that the color fringes are in the
correct place.
Note, if you change this after startup, you'll need to flush the glyph
cache because it'll have the wrong type of masks cached.
kNONE_LCDOrder means that the subpixel elements are not spatially
separated in any usable fashion.
*/
enum LCDOrder {
kRGB_LCDOrder = 0, //!< this is the default
kBGR_LCDOrder = 1,
kNONE_LCDOrder = 2,
};
static void SetSubpixelOrder(LCDOrder order);
static LCDOrder GetSubpixelOrder();
};
#endif