'overlap' parameter in instantiateVariableFont was a bool, now it is a tri-state IntEnum, with value 2 meaning 'remove the overlaps'. The old bool False/True (0/1) values continue to work like before.
Also added a new --remove-overlaps commandline option to fonttools varLib.instancer script.
This adds a `help` verb (and `--help` option) to the `fonttools` command line tool. Submodules will be listed in the help text if they have an importable `main` function with a docstring, and `main`'s docstring will be used as the one-line description for the help text.
I use the term 'location' for map of {axis_tag: float} coordinates, 'axisRanges'
for a map of {axis_tag: Tuple[float, float]} ranges, and 'axisLimits' to include
either single-float coordinates or range tuples.
Even if HVAR no longer contains any variations, it's better to keep it because
otherwise one would have to check the glyphs' phantom points to confirm that
the advance widths (or heights for VVAR) don't vary
The current method for L1 and L2 partial instacing of STAT table --
i.e. drop all pinned axes are respective axis values -- was incorrect.
STAT design axis are a superset of the fvar axes, they describe the relations
between members of a font family in which some aspects may be implemented as
variation axes within a single VF, others as multiple discrete fonts.
When we remove an axis from fvar, we still want to keep the STAT's DesignAxis,
as well as the single AxisValue table along that design axis which describes
the position of the new instance within the family's stylistic attributes.
This means, intantiateAvar will never drop any DesignAxis, but will only drops
AxisValue tables when: 1) we're pinning an axis and the desired instance
coordinate doesn't exactly equal any of the existing AxisValue records;
2) we're restricting an axis range, and the (nominal) AxisValue falls
outside of the desired range.
We never add new AxisValue records, as that's a design decision that
is outside of the scope of the partial instancer.
Added method to limitTupleVariationAxisRanges which takes a map of
axis tags to (min, max) ranges and drops entire deltasets when outside
of the new limits, or scales the ones that are within range.
Modified _TupleVarStoreAdapter to account for the fact that, when limiting
axes, existing regions can be modifed rathern than simply dropped
(see rebuildRegions).
Implemented limiting axis ranges for fvar, FeatureVariations, and avar.
Note how we pass user-scale coordinates to instantiateAvar, because we need
both the default normalized coordinates and the ones mapped forward (by
the very same avar table that we are instancing).
STAT table support will follow in a separate commit.
Previously we were calling glyf.setCoordinates method only when a glyph had some
variation deltas to be applied to the default glyf coordinates.
However, some composite glyph may contain no variation delta but their base glyphs
may change, thus we still need to update the sidebearings and bounding box of the
composite glyphs.
continue checking subsequent condition tables in case the other may
be format=1 and may reference a pinned axis; in which case, these
conditions need to be dropped from the condition set, or the whole
record needs to be dropped if the instance coordinate is outside the
condition range.
Condition tables within a condition set are associated with a AND
boolean operator, so if any one doesn't match, the whole set doesn't
apply. Even if we don't recognize one condition format, if we do
ascertain that another condition table does not match the current
partial instance location, we can drop the FeatureVariation record
since it doesn't apply.
there was a logic issue in the function that checks whether a FeatureVariationRecord
has a unique set of condition (was returning False instead of True for unsupported condition).
It's safer to always keep such records with unknown condition formats as new formats
may be added in the future. A warning is already issued in these cases.
After partial instancing, multiple FeatureVariationRecords may end up with
the same set of conditions (e.g. if one references two axes, one of which
is dropped, and a subsequent one also references the same axis that was
kept in the preceding record's condition set, and the min/max values are
the same for both records).
Therefore, we make sure only the first unique record with a given
configuration of conditions is kept. Any additional records with identical
conditions will never match the current context so they can be dropped.
ConditionTable.AxisIndex needs to change when dropping axes, to
refer to the same axis in the modified fvar.axes array.
There was also another bug when a condition was not met,
and the `applies` flag (initialised to `True`) was not set to
`False`, thus substutions were incorrectly applied.
