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textshaping is predominantly intended to be used by other packages
implementing graphic devicees and calling it from the C level. As such
it exports a set of functions that match the needs of graphic devices.
The C API builds upon that of systemfonts and you’ll thus need to link
to both packages to access it succesfully. This is done with the
LinkingTo
field in the DESCRIPTION
file:
LinkingTo:
systemfonts,
textshaping
You will further need to make sure that both packages are loaded when you need to use the C API. This is most easily done by importing a function from each package into your namespace.
In your C/C++ code you’ll then have
#include <textshaping.h>
to get access to the
functions described below. The functions are available in the
textshaping
namespace.
The C API expects fonts to be given as FontSettings
structs which can be obtained from the systemfonts C API with
locate_font_with_features()
. This makes it possible to both
get access to the font file location along with potential OpenType
features registered to the font.
int string_width(
const char* string,
FontSettings font_info,
double size,
double res,
int include_bearing,
double* width
)
This function calculates the width of a string, ignoring any newlines (these are automatically being handled by the graphic engine). It takes a UTF-8 encoded string, along with a FontSettings struct to use for shaping the string before calculating the width. It also take a size in pt and a res in ppi for setting the size. In addition it takes an include_bearing flag to control whether the bearings of the first and last character should be taken into account (this is recommended by the graphic engine). It will write the width in pts to the passed in pointer and return 0 if successful.
int string_shape(
const char* string,
FontSettings font_info,
double size,
double res,
std::vector<Point>& loc,
std::vector<uint32_t>& id,
std::vector<int>& cluster,
std::vector<unsigned int>& font,
std::vector<FontSettings>& fallbacks,
std::vector<double>& fallback_scaling
)
This function takes care of all the nitty-gritty of shaping a single
line of text. It takes the same font information input as
string_width()
, that is, a FontSettings
struct
and size and res. It further accepts a number of vectors where the
shaping information will be written. loc
will end up
containing the location of each glyph in pts starting from a (0, 0)
origin. Since the graphic engine only pass single lines to the graphic
device at a time then line breaking is not handled and for now all
returned y positions are set to 0.0 (this may change in the future
depending on the development of the graphic engine). The glyph id in the
font file will be written to the id
vector You will need to
use this to look up the glyph to render instead of relying on the
characters in the input string due to the potential substitution and
merging of glyphs happening during shaping. The cluster
array is currently unused (and will thus not be touched) but may in the
future contain identifications of which character in the input string
relates to the provided glyphs. The font
,
fallback
, and fallback_scaling
vectors will be
filled with information about the selected fonts for the shaping. The
font
vector will map each glyph to a font in the
fallback
vector. The first element in the
fallback
vector will be the requested font, and if any
additional elements exist it will be due to font fallback occurring. The
fallback_scaling
vector is holding information about how
the shaping of non-scalable fonts has been scaled. It contains one
element for each elements in fallback
. If the value is
negative the font is scalable and no scaling of the metrics have
occurred. If it is positive it is the value that has been multiplied to
the glyph metrics.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.