#ifndef OT_LAYOUT_GPOS_PAIRPOSFORMAT2_HH #define OT_LAYOUT_GPOS_PAIRPOSFORMAT2_HH #include "ValueFormat.hh" namespace OT { namespace Layout { namespace GPOS_impl { struct PairPosFormat2 { protected: HBUINT16 format; /* Format identifier--format = 2 */ Offset16To coverage; /* Offset to Coverage table--from * beginning of subtable */ ValueFormat valueFormat1; /* ValueRecord definition--for the * first glyph of the pair--may be zero * (0) */ ValueFormat valueFormat2; /* ValueRecord definition--for the * second glyph of the pair--may be * zero (0) */ Offset16To classDef1; /* Offset to ClassDef table--from * beginning of PairPos subtable--for * the first glyph of the pair */ Offset16To classDef2; /* Offset to ClassDef table--from * beginning of PairPos subtable--for * the second glyph of the pair */ HBUINT16 class1Count; /* Number of classes in ClassDef1 * table--includes Class0 */ HBUINT16 class2Count; /* Number of classes in ClassDef2 * table--includes Class0 */ ValueRecord values; /* Matrix of value pairs: * class1-major, class2-minor, * Each entry has value1 and value2 */ public: DEFINE_SIZE_ARRAY (16, values); bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); if (!(c->check_struct (this) && coverage.sanitize (c, this) && classDef1.sanitize (c, this) && classDef2.sanitize (c, this))) return_trace (false); unsigned int len1 = valueFormat1.get_len (); unsigned int len2 = valueFormat2.get_len (); unsigned int stride = len1 + len2; unsigned int record_size = valueFormat1.get_size () + valueFormat2.get_size (); unsigned int count = (unsigned int) class1Count * (unsigned int) class2Count; return_trace (c->check_range ((const void *) values, count, record_size) && valueFormat1.sanitize_values_stride_unsafe (c, this, &values[0], count, stride) && valueFormat2.sanitize_values_stride_unsafe (c, this, &values[len1], count, stride)); } bool intersects (const hb_set_t *glyphs) const { return (this+coverage).intersects (glyphs) && (this+classDef2).intersects (glyphs); } void closure_lookups (hb_closure_lookups_context_t *c) const {} void collect_variation_indices (hb_collect_variation_indices_context_t *c) const { if (!intersects (c->glyph_set)) return; if ((!valueFormat1.has_device ()) && (!valueFormat2.has_device ())) return; hb_set_t klass1_glyphs, klass2_glyphs; if (!(this+classDef1).collect_coverage (&klass1_glyphs)) return; if (!(this+classDef2).collect_coverage (&klass2_glyphs)) return; hb_set_t class1_set, class2_set; for (const unsigned cp : + c->glyph_set->iter () | hb_filter (this + coverage)) { if (!klass1_glyphs.has (cp)) class1_set.add (0); else { unsigned klass1 = (this+classDef1).get (cp); class1_set.add (klass1); } } class2_set.add (0); for (const unsigned cp : + c->glyph_set->iter () | hb_filter (klass2_glyphs)) { unsigned klass2 = (this+classDef2).get (cp); class2_set.add (klass2); } if (class1_set.is_empty () || class2_set.is_empty () || (class2_set.get_population() == 1 && class2_set.has(0))) return; unsigned len1 = valueFormat1.get_len (); unsigned len2 = valueFormat2.get_len (); const hb_array_t values_array = values.as_array ((unsigned)class1Count * (unsigned) class2Count * (len1 + len2)); for (const unsigned class1_idx : class1_set.iter ()) { for (const unsigned class2_idx : class2_set.iter ()) { unsigned start_offset = (class1_idx * (unsigned) class2Count + class2_idx) * (len1 + len2); if (valueFormat1.has_device ()) valueFormat1.collect_variation_indices (c, this, values_array.sub_array (start_offset, len1)); if (valueFormat2.has_device ()) valueFormat2.collect_variation_indices (c, this, values_array.sub_array (start_offset+len1, len2)); } } } void collect_glyphs (hb_collect_glyphs_context_t *c) const { if (unlikely (!(this+coverage).collect_coverage (c->input))) return; if (unlikely (!(this+classDef2).collect_coverage (c->input))) return; } const Coverage &get_coverage () const { return this+coverage; } bool apply (hb_ot_apply_context_t *c) const { TRACE_APPLY (this); hb_buffer_t *buffer = c->buffer; unsigned int index = (this+coverage).get_coverage (buffer->cur().codepoint); if (likely (index == NOT_COVERED)) return_trace (false); hb_ot_apply_context_t::skipping_iterator_t &skippy_iter = c->iter_input; skippy_iter.reset (buffer->idx, 1); unsigned unsafe_to; if (!skippy_iter.next (&unsafe_to)) { buffer->unsafe_to_concat (buffer->idx, unsafe_to); return_trace (false); } unsigned int len1 = valueFormat1.get_len (); unsigned int len2 = valueFormat2.get_len (); unsigned int record_len = len1 + len2; unsigned int klass1 = (this+classDef1).get_class (buffer->cur().codepoint); unsigned int klass2 = (this+classDef2).get_class (buffer->info[skippy_iter.idx].codepoint); if (unlikely (klass1 >= class1Count || klass2 >= class2Count)) { buffer->unsafe_to_concat (buffer->idx, skippy_iter.idx + 1); return_trace (false); } const Value *v = &values[record_len * (klass1 * class2Count + klass2)]; bool applied_first = false, applied_second = false; /* Isolate simple kerning and apply it half to each side. * Results in better cursor positinoing / underline drawing. * * Disabled, because causes issues... :-( * https://github.com/harfbuzz/harfbuzz/issues/3408 * https://github.com/harfbuzz/harfbuzz/pull/3235#issuecomment-1029814978 */ #ifndef HB_SPLIT_KERN if (0) #endif { if (!len2) { const hb_direction_t dir = buffer->props.direction; const bool horizontal = HB_DIRECTION_IS_HORIZONTAL (dir); const bool backward = HB_DIRECTION_IS_BACKWARD (dir); unsigned mask = horizontal ? ValueFormat::xAdvance : ValueFormat::yAdvance; if (backward) mask |= mask >> 2; /* Add eg. xPlacement in RTL. */ /* Add Devices. */ mask |= mask << 4; if (valueFormat1 & ~mask) goto bail; /* Is simple kern. Apply value on an empty position slot, * then split it between sides. */ hb_glyph_position_t pos{}; if (valueFormat1.apply_value (c, this, v, pos)) { hb_position_t *src = &pos.x_advance; hb_position_t *dst1 = &buffer->cur_pos().x_advance; hb_position_t *dst2 = &buffer->pos[skippy_iter.idx].x_advance; unsigned i = horizontal ? 0 : 1; hb_position_t kern = src[i]; hb_position_t kern1 = kern >> 1; hb_position_t kern2 = kern - kern1; if (!backward) { dst1[i] += kern1; dst2[i] += kern2; dst2[i + 2] += kern2; } else { dst1[i] += kern1; dst1[i + 2] += src[i + 2] - kern2; dst2[i] += kern2; } applied_first = applied_second = kern != 0; goto success; } goto boring; } } bail: applied_first = valueFormat1.apply_value (c, this, v, buffer->cur_pos()); applied_second = valueFormat2.apply_value (c, this, v + len1, buffer->pos[skippy_iter.idx]); success: if (applied_first || applied_second) buffer->unsafe_to_break (buffer->idx, skippy_iter.idx + 1); else boring: buffer->unsafe_to_concat (buffer->idx, skippy_iter.idx + 1); buffer->idx = skippy_iter.idx; if (len2) buffer->idx++; return_trace (true); } bool subset (hb_subset_context_t *c) const { TRACE_SUBSET (this); auto *out = c->serializer->start_embed (*this); if (unlikely (!c->serializer->extend_min (out))) return_trace (false); out->format = format; hb_map_t klass1_map; out->classDef1.serialize_subset (c, classDef1, this, &klass1_map, true, true, &(this + coverage)); out->class1Count = klass1_map.get_population (); hb_map_t klass2_map; out->classDef2.serialize_subset (c, classDef2, this, &klass2_map, true, false); out->class2Count = klass2_map.get_population (); unsigned len1 = valueFormat1.get_len (); unsigned len2 = valueFormat2.get_len (); hb_pair_t newFormats = hb_pair (valueFormat1, valueFormat2); if (c->plan->flags & HB_SUBSET_FLAGS_NO_HINTING) newFormats = compute_effective_value_formats (klass1_map, klass2_map); out->valueFormat1 = newFormats.first; out->valueFormat2 = newFormats.second; for (unsigned class1_idx : + hb_range ((unsigned) class1Count) | hb_filter (klass1_map)) { for (unsigned class2_idx : + hb_range ((unsigned) class2Count) | hb_filter (klass2_map)) { unsigned idx = (class1_idx * (unsigned) class2Count + class2_idx) * (len1 + len2); valueFormat1.copy_values (c->serializer, newFormats.first, this, &values[idx], c->plan->layout_variation_idx_map); valueFormat2.copy_values (c->serializer, newFormats.second, this, &values[idx + len1], c->plan->layout_variation_idx_map); } } const hb_set_t &glyphset = *c->plan->glyphset_gsub (); const hb_map_t &glyph_map = *c->plan->glyph_map; auto it = + hb_iter (this+coverage) | hb_filter (glyphset) | hb_map_retains_sorting (glyph_map) ; out->coverage.serialize_serialize (c->serializer, it); return_trace (out->class1Count && out->class2Count && bool (it)); } hb_pair_t compute_effective_value_formats (const hb_map_t& klass1_map, const hb_map_t& klass2_map) const { unsigned len1 = valueFormat1.get_len (); unsigned len2 = valueFormat2.get_len (); unsigned format1 = 0; unsigned format2 = 0; for (unsigned class1_idx : + hb_range ((unsigned) class1Count) | hb_filter (klass1_map)) { for (unsigned class2_idx : + hb_range ((unsigned) class2Count) | hb_filter (klass2_map)) { unsigned idx = (class1_idx * (unsigned) class2Count + class2_idx) * (len1 + len2); format1 = format1 | valueFormat1.get_effective_format (&values[idx]); format2 = format2 | valueFormat2.get_effective_format (&values[idx + len1]); } } return hb_pair (format1, format2); } }; } } } #endif // OT_LAYOUT_GPOS_PAIRPOSFORMAT2_HH