[subset] Finish out hb-subset-instancer-solver.cc
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@ -28,8 +28,6 @@
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*
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* https://github.com/fonttools/fonttools/blob/f73220816264fc383b8a75f2146e8d69e455d398/Lib/fontTools/varLib/instancer/solver.py
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*
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* See XXX markers for unfinished parts.
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*
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* Where that file returns None for a triple, we return Triple{}.
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* This should be safe.
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*/
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@ -45,6 +43,13 @@ struct Triple {
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Triple (float minimum_, float middle_, float maximum_) :
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minimum (minimum_), middle (middle_), maximum (maximum_) {}
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bool operator == (const Triple &o)
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{
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return minimum == o.minimum &&
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middle == o.middle &&
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maximum == o.maximum;
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}
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float minimum;
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float middle;
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float maximum;
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@ -53,6 +58,31 @@ struct Triple {
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static inline Triple _reverse_negate(const Triple &v)
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{ return {-v.maximum, -v.middle, -v.minimum}; }
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static inline float supportScalar (float coord, const Triple &tent)
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{
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/* Copied from VarRegionAxis::evaluate() */
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float start = tent.minimum, peak = tent.middle, end = tent.maximum;
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if (unlikely (start > peak || peak > end))
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return 1.;
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if (unlikely (start < 0 && end > 0 && peak != 0))
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return 1.;
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if (peak == 0 || coord == peak)
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return 1.;
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if (coord <= start || end <= coord)
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return 0.;
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/* Interpolate */
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if (coord < peak)
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return (coord - start) / (peak - start);
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else
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return (end - coord) / (end - peak);
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}
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using result_item_t = hb_pair_t<float, Triple>;
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using result_t = hb_vector_t<result_item_t>;
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@ -124,7 +154,7 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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*/
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if (axisMax < peak)
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{
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float mult = 1.f; //XXX supportScalar({"tag": axisMax}, {"tag": tent})
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float mult = supportScalar (axisMax, tent);
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tent = Triple{lower, axisMax, axisMax};
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result_t vec = _solve (tent, axisLimit);
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@ -137,13 +167,13 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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// lower <= axisDef <= peak <= axisMax
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float gain = 1.0f; // XXX supportScalar({"tag": axisDef}, {"tag": tent})
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float gain = supportScalar (axisDef, tent);
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result_t out {hb_pair (gain, Triple{})};
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// First, the positive side
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// outGain is the scalar of axisMax at the tent.
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float outGain = 1.f; // XXX supportScalar({"tag": axisMax}, {"tag": tent})
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float outGain = supportScalar (axisMax, tent);
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/* Case 3a: Gain is more than outGain. The tent down-slope crosses
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* the axis into negative. We have to split it into multiples.
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@ -183,7 +213,7 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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if (upper >= axisMax)
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{
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Triple loc {crossing, axisMax, axisMax};
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float scalar = 1.f; // XXX supportScalar({"tag": axisMax}, {"tag": tent})
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float scalar = supportScalar (axisMax, tent);
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out.push (hb_pair (scalar - gain, loc));
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}
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@ -294,7 +324,7 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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float scalar1 = 1.f;
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Triple loc2 {peak, axisMax, axisMax};
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float scalar2 = 1.f; // XXX supportScalar({"tag": axisMax}, {"tag": tent})
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float scalar2 = supportScalar (axisMax, tent);
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out.push (hb_pair (scalar1 - gain, loc1));
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// Don't add a dirac delta!
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@ -321,7 +351,7 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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if (lower <= axisMin)
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{
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Triple loc {axisMin, axisMin, axisDef};
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float scalar = 1.f; // XXX supportScalar({"tag": axisMin}, {"tag": tent})
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float scalar = supportScalar (axisMin, tent);
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out.push (hb_pair (scalar - gain, loc));
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}
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@ -362,6 +392,36 @@ _solve (Triple tent, Triple axisLimit, bool negative = false)
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return out;
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}
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/* Normalizes value based on a min/default/max triple. */
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static inline float normalizeValue (float v, const Triple &triple, bool extrapolate = false)
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{
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/*
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>>> normalizeValue(400, (100, 400, 900))
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0.0
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>>> normalizeValue(100, (100, 400, 900))
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-1.0
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>>> normalizeValue(650, (100, 400, 900))
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0.5
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*/
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float lower = triple.minimum, def = triple.middle, upper = triple.maximum;
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assert (lower <= def && def <= upper);
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if (!extrapolate)
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v = hb_max (hb_min (v, upper), lower);
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if ((v == def) || (lower == upper))
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return 0.f;
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if ((v < def && lower != def) || (v > def && upper == def))
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return (v - def) / (def - lower);
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else
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{
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assert ((v > def && upper != def) ||
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(v < def && lower == def));
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return (v - def) / (upper - def);
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}
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}
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/* Given a tuple (lower,peak,upper) "tent" and new axis limits
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* (axisMin,axisDefault,axisMax), solves how to represent the tent
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* under the new axis configuration. All values are in normalized
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@ -391,15 +451,21 @@ rebase_tent (Triple tent, Triple axisLimit)
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result_t sols = _solve (tent, axisLimit);
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#if 0
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// XXX
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n = lambda v: normalizeValue(v, axisLimit, extrapolate=True)
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sols = [
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(scalar, (n(v[0]), n(v[1]), n(v[2])) if v is not None else None)
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for scalar, v in sols
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if scalar
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]
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#endif
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auto n = [&axisLimit] (float v) { return normalizeValue (v, axisLimit, true); };
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result_t out;
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for (auto &p : sols)
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{
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if (!p.first) continue;
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if (p.second == Triple{})
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{
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out.push (p);
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continue;
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}
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Triple t = p.second;
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out.push (hb_pair (p.first,
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Triple{n (t.minimum), n (t.middle), n (t.maximum)}));
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}
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return sols;
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}
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