kc3-lang/harfbuzz/src/hb-open-type.hh
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src/hb-open-type.hh
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/* * Copyright © 2007,2008,2009,2010 Red Hat, Inc. * Copyright © 2012 Google, Inc. * * This is part of HarfBuzz, a text shaping library. * * Permission is hereby granted, without written agreement and without * license or royalty fees, to use, copy, modify, and distribute this * software and its documentation for any purpose, provided that the * above copyright notice and the following two paragraphs appear in * all copies of this software. * * IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE TO ANY PARTY FOR * DIRECT, INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES * ARISING OUT OF THE USE OF THIS SOFTWARE AND ITS DOCUMENTATION, EVEN * IF THE COPYRIGHT HOLDER HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH * DAMAGE. * * THE COPYRIGHT HOLDER SPECIFICALLY DISCLAIMS ANY WARRANTIES, INCLUDING, * BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS FOR A PARTICULAR PURPOSE. THE SOFTWARE PROVIDED HEREUNDER IS * ON AN "AS IS" BASIS, AND THE COPYRIGHT HOLDER HAS NO OBLIGATION TO * PROVIDE MAINTENANCE, SUPPORT, UPDATES, ENHANCEMENTS, OR MODIFICATIONS. * * Red Hat Author(s): Behdad Esfahbod * Google Author(s): Behdad Esfahbod */ #ifndef HB_OPEN_TYPE_HH #define HB_OPEN_TYPE_HH #include "hb.hh" #include "hb-blob.hh" #include "hb-face.hh" #include "hb-machinery.hh" #include "hb-meta.hh" #include "hb-subset.hh" namespace OT { /* * * The OpenType Font File: Data Types */ /* "The following data types are used in the OpenType font file. * All OpenType fonts use Motorola-style byte ordering (Big Endian):" */ /* * Int types */ /* Integer types in big-endian order and no alignment requirement */ template <bool BE, typename Type, unsigned int Size = sizeof (Type)> struct NumType { typedef Type type; /* For reason we define cast out operator for signed/unsigned, instead of Type, see: * https://github.com/harfbuzz/harfbuzz/pull/2875/commits/09836013995cab2b9f07577a179ad7b024130467 */ typedef typename std::conditional<std::is_integral<Type>::value, typename std::conditional<std::is_signed<Type>::value, signed, unsigned>::type, Type>::type WideType; NumType () = default; explicit constexpr NumType (Type V) : v {V} {} NumType& operator = (Type V) { v = V; return *this; } operator WideType () const { return v; } bool operator == (const NumType &o) const { return (Type) v == (Type) o.v; } bool operator != (const NumType &o) const { return !(*this == o); } NumType& operator += (WideType count) { *this = *this + count; return *this; } NumType& operator -= (WideType count) { *this = *this - count; return *this; } NumType& operator ++ () { *this += 1; return *this; } NumType& operator -- () { *this -= 1; return *this; } NumType operator ++ (int) { NumType c (*this); ++*this; return c; } NumType operator -- (int) { NumType c (*this); --*this; return c; } uint32_t hash () const { return hb_array ((const char *) &v, sizeof (v)).hash (); } HB_INTERNAL static int cmp (const NumType *a, const NumType *b) { return b->cmp (*a); } HB_INTERNAL static int cmp (const void *a, const void *b) { NumType *pa = (NumType *) a; NumType *pb = (NumType *) b; return pb->cmp (*pa); } template <typename Type2, hb_enable_if (hb_is_convertible (Type2, Type))> int cmp (Type2 a) const { Type b = v; return (a > b) - (a < b); } bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_struct (this)); } protected: typename std::conditional<std::is_integral<Type>::value, HBInt<BE, Type, Size>, HBFloat<BE, Type, Size>>::type v; public: DEFINE_SIZE_STATIC (Size); }; typedef NumType<true, uint8_t> HBUINT8; /* 8-bit big-endian unsigned integer. */ typedef NumType<true, int8_t> HBINT8; /* 8-bit big-endian signed integer. */ typedef NumType<true, uint16_t> HBUINT16; /* 16-bit big-endian unsigned integer. */ typedef NumType<true, int16_t> HBINT16; /* 16-bit big-endian signed integer. */ typedef NumType<true, uint32_t> HBUINT32; /* 32-bit big-endian unsigned integer. */ typedef NumType<true, int32_t> HBINT32; /* 32-bit big-endian signed integer. */ /* Note: we cannot defined a signed HBINT24 because there's no corresponding C type. * Works for unsigned, but not signed, since we rely on compiler for sign-extension. */ typedef NumType<true, uint32_t, 3> HBUINT24; /* 24-bit big-endian unsigned integer. */ typedef NumType<false, uint16_t> HBUINT16LE; /* 16-bit little-endian unsigned integer. */ typedef NumType<false, int16_t> HBINT16LE; /* 16-bit little-endian signed integer. */ typedef NumType<false, uint32_t> HBUINT32LE; /* 32-bit little-endian unsigned integer. */ typedef NumType<false, int32_t> HBINT32LE; /* 32-bit little-endian signed integer. */ typedef NumType<true, float> HBFLOAT32BE; /* 32-bit little-endian floating point number. */ typedef NumType<true, double> HBFLOAT64BE; /* 64-bit little-endian floating point number. */ typedef NumType<false, float> HBFLOAT32LE; /* 32-bit little-endian floating point number. */ typedef NumType<false, double> HBFLOAT64LE; /* 64-bit little-endian floating point number. */ /* 15-bit unsigned number; top bit used for extension. */ struct HBUINT15 : HBUINT16 { /* TODO Flesh out; actually mask top bit. */ HBUINT15& operator = (uint16_t i ) { HBUINT16::operator= (i); return *this; } public: DEFINE_SIZE_STATIC (2); }; /* 32-bit unsigned integer with variable encoding. */ struct HBUINT32VAR { unsigned get_size () const { unsigned b0 = v[0]; if (b0 < 0x80) return 1; else if (b0 < 0xC0) return 2; else if (b0 < 0xE0) return 3; else if (b0 < 0xF0) return 4; else return 5; } static unsigned get_size (uint32_t v) { if (v < 0x80) return 1; else if (v < 0x4000) return 2; else if (v < 0x200000) return 3; else if (v < 0x10000000) return 4; else return 5; } bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_range (v, 1) && hb_barrier () && c->check_range (v, get_size ())); } operator uint32_t () const { unsigned b0 = v[0]; if (b0 < 0x80) return b0; else if (b0 < 0xC0) return ((b0 & 0x3F) << 8) | v[1]; else if (b0 < 0xE0) return ((b0 & 0x1F) << 16) | (v[1] << 8) | v[2]; else if (b0 < 0xF0) return ((b0 & 0x0F) << 24) | (v[1] << 16) | (v[2] << 8) | v[3]; else return (v[1] << 24) | (v[2] << 16) | (v[3] << 8) | v[4]; } static bool serialize (hb_serialize_context_t *c, uint32_t v) { unsigned len = get_size (v); unsigned char *buf = c->allocate_size<unsigned char> (len, false); if (unlikely (!buf)) return false; unsigned char *p = buf + len; for (unsigned i = 0; i < len; i++) { *--p = v & 0xFF; v >>= 8; } if (len > 1) buf[0] |= ((1 << (len - 1)) - 1) << (9 - len); return true; } protected: unsigned char v[5]; public: DEFINE_SIZE_MIN (1); }; /* 16-bit signed integer (HBINT16) that describes a quantity in FUnits. */ typedef HBINT16 FWORD; /* 32-bit signed integer (HBINT32) that describes a quantity in FUnits. */ typedef HBINT32 FWORD32; /* 16-bit unsigned integer (HBUINT16) that describes a quantity in FUnits. */ typedef HBUINT16 UFWORD; template <typename Type, unsigned fraction_bits> struct HBFixed : Type { static constexpr float mult = 1.f / (1 << fraction_bits); static_assert (Type::static_size * 8 > fraction_bits, ""); operator signed () const = delete; operator unsigned () const = delete; explicit operator float () const { return to_float (); } typename Type::type to_int () const { return Type::v; } void set_int (typename Type::type i ) { Type::v = i; } float to_float (float offset = 0) const { return ((int32_t) Type::v + offset) * mult; } void set_float (float f) { Type::v = roundf (f / mult); } public: DEFINE_SIZE_STATIC (Type::static_size); }; /* 16-bit signed fixed number with the low 14 bits of fraction (2.14). */ using F2DOT14 = HBFixed<HBINT16, 14>; using F4DOT12 = HBFixed<HBINT16, 12>; using F6DOT10 = HBFixed<HBINT16, 10>; /* 32-bit signed fixed-point number (16.16). */ using F16DOT16 = HBFixed<HBINT32, 16>; /* Date represented in number of seconds since 12:00 midnight, January 1, * 1904. The value is represented as a signed 64-bit integer. */ struct LONGDATETIME { bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_struct (this)); } protected: HBINT32 major; HBUINT32 minor; public: DEFINE_SIZE_STATIC (8); }; /* Array of four uint8s (length = 32 bits) used to identify a script, language * system, feature, or baseline */ struct Tag : HBUINT32 { Tag& operator = (hb_tag_t i) { HBUINT32::operator= (i); return *this; } /* What the char* converters return is NOT nul-terminated. Print using "%.4s" */ operator const char* () const { return reinterpret_cast<const char *> (this); } operator char* () { return reinterpret_cast<char *> (this); } public: DEFINE_SIZE_STATIC (4); }; /* Glyph index number, same as uint16 (length = 16 bits) */ struct HBGlyphID16 : HBUINT16 { HBGlyphID16& operator = (uint16_t i) { HBUINT16::operator= (i); return *this; } }; struct HBGlyphID24 : HBUINT24 { HBGlyphID24& operator = (uint32_t i) { HBUINT24::operator= (i); return *this; } }; /* Script/language-system/feature index */ struct Index : HBUINT16 { static constexpr unsigned NOT_FOUND_INDEX = 0xFFFFu; Index& operator = (uint16_t i) { HBUINT16::operator= (i); return *this; } }; DECLARE_NULL_NAMESPACE_BYTES (OT, Index); typedef Index NameID; struct VarIdx : HBUINT32 { static constexpr unsigned NO_VARIATION = 0xFFFFFFFFu; static_assert (NO_VARIATION == HB_OT_LAYOUT_NO_VARIATIONS_INDEX, ""); VarIdx& operator = (uint32_t i) { HBUINT32::operator= (i); return *this; } }; DECLARE_NULL_NAMESPACE_BYTES (OT, VarIdx); /* Offset, Null offset = 0 */ template <typename Type, bool has_null=true> struct Offset : Type { Offset& operator = (typename Type::type i) { Type::operator= (i); return *this; } typedef Type type; bool is_null () const { return has_null && 0 == *this; } public: DEFINE_SIZE_STATIC (sizeof (Type)); }; typedef Offset<HBUINT16> Offset16; typedef Offset<HBUINT24> Offset24; typedef Offset<HBUINT32> Offset32; /* CheckSum */ struct CheckSum : HBUINT32 { CheckSum& operator = (uint32_t i) { HBUINT32::operator= (i); return *this; } /* This is reference implementation from the spec. */ static uint32_t CalcTableChecksum (const HBUINT32 *Table, uint32_t Length) { uint32_t Sum = 0L; assert (0 == (Length & 3)); const HBUINT32 *EndPtr = Table + Length / HBUINT32::static_size; while (Table < EndPtr) Sum += *Table++; return Sum; } /* Note: data should be 4byte aligned and have 4byte padding at the end. */ void set_for_data (const void *data, unsigned int length) { *this = CalcTableChecksum ((const HBUINT32 *) data, length); } public: DEFINE_SIZE_STATIC (4); }; /* * Version Numbers */ template <typename FixedType=HBUINT16> struct FixedVersion { uint32_t to_int () const { return (major << (sizeof (FixedType) * 8)) + minor; } bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_struct (this)); } FixedType major; FixedType minor; public: DEFINE_SIZE_STATIC (2 * sizeof (FixedType)); }; /* * Template subclasses of Offset that do the dereferencing. * Use: (base+offset) */ template <typename Type, bool has_null> struct _hb_has_null { static const Type *get_null () { return nullptr; } static Type *get_crap () { return nullptr; } }; template <typename Type> struct _hb_has_null<Type, true> { static const Type *get_null () { return &Null (Type); } static Type *get_crap () { return &Crap (Type); } }; template <typename Type, typename OffsetType, typename BaseType=void, bool has_null=true> struct OffsetTo : Offset<OffsetType, has_null> { using target_t = Type; // Make sure Type is not unbounded; works only for types that are fully defined at OffsetTo time. static_assert (has_null == false || (hb_has_null_size (Type) || !hb_has_min_size (Type)), ""); HB_DELETE_COPY_ASSIGN (OffsetTo); OffsetTo () = default; OffsetTo& operator = (typename OffsetType::type i) { OffsetType::operator= (i); return *this; } const Type& operator () (const void *base) const { if (unlikely (this->is_null ())) return *_hb_has_null<Type, has_null>::get_null (); return StructAtOffset<const Type> (base, *this); } Type& operator () (void *base) const { if (unlikely (this->is_null ())) return *_hb_has_null<Type, has_null>::get_crap (); return StructAtOffset<Type> (base, *this); } template <typename Base, hb_enable_if (hb_is_convertible (const Base, const BaseType *))> friend const Type& operator + (const Base &base, const OffsetTo &offset) { return offset ((const void *) base); } template <typename Base, hb_enable_if (hb_is_convertible (const Base, const BaseType *))> friend const Type& operator + (const OffsetTo &offset, const Base &base) { return offset ((const void *) base); } template <typename Base, hb_enable_if (hb_is_convertible (Base, BaseType *))> friend Type& operator + (Base &&base, OffsetTo &offset) { return offset ((void *) base); } template <typename Base, hb_enable_if (hb_is_convertible (Base, BaseType *))> friend Type& operator + (OffsetTo &offset, Base &&base) { return offset ((void *) base); } template <typename Base, typename ...Ts> bool serialize_subset (hb_subset_context_t *c, const OffsetTo& src, const Base *src_base, Ts&&... ds) { *this = 0; if (src.is_null ()) return false; auto *s = c->serializer; s->push (); bool ret = c->dispatch (src_base+src, std::forward<Ts> (ds)...); if (ret || !has_null) s->add_link (*this, s->pop_pack ()); else s->pop_discard (); return ret; } template <typename ...Ts> bool serialize_serialize (hb_serialize_context_t *c, Ts&&... ds) { *this = 0; Type* obj = c->push<Type> (); bool ret = obj->serialize (c, std::forward<Ts> (ds)...); if (ret) c->add_link (*this, c->pop_pack ()); else c->pop_discard (); return ret; } /* TODO: Somehow merge this with previous function into a serialize_dispatch(). */ /* Workaround clang bug: https://bugs.llvm.org/show_bug.cgi?id=23029 * Can't compile: whence = hb_serialize_context_t::Head followed by Ts&&... */ template <typename ...Ts> bool serialize_copy (hb_serialize_context_t *c, const OffsetTo& src, const void *src_base, unsigned dst_bias, hb_serialize_context_t::whence_t whence, Ts&&... ds) { *this = 0; if (src.is_null ()) return false; c->push (); bool ret = c->copy (src_base+src, std::forward<Ts> (ds)...); c->add_link (*this, c->pop_pack (), whence, dst_bias); return ret; } bool serialize_copy (hb_serialize_context_t *c, const OffsetTo& src, const void *src_base, unsigned dst_bias = 0) { return serialize_copy (c, src, src_base, dst_bias, hb_serialize_context_t::Head); } bool sanitize_shallow (hb_sanitize_context_t *c, const BaseType *base) const { TRACE_SANITIZE (this); if (unlikely (!c->check_struct (this))) return_trace (false); hb_barrier (); //if (unlikely (this->is_null ())) return_trace (true); if (unlikely ((const char *) base + (unsigned) *this < (const char *) base)) return_trace (false); return_trace (true); } template <typename ...Ts> #ifndef HB_OPTIMIZE_SIZE HB_ALWAYS_INLINE #endif bool sanitize (hb_sanitize_context_t *c, const BaseType *base, Ts&&... ds) const { TRACE_SANITIZE (this); return_trace (sanitize_shallow (c, base) && hb_barrier () && (this->is_null () || c->dispatch (StructAtOffset<Type> (base, *this), std::forward<Ts> (ds)...) || neuter (c))); } /* Set the offset to Null */ bool neuter (hb_sanitize_context_t *c) const { if (!has_null) return false; return c->try_set (this, 0); } DEFINE_SIZE_STATIC (sizeof (OffsetType)); }; /* Partial specializations. */ template <typename Type, typename BaseType=void, bool has_null=true> using Offset16To = OffsetTo<Type, HBUINT16, BaseType, has_null>; template <typename Type, typename BaseType=void, bool has_null=true> using Offset24To = OffsetTo<Type, HBUINT24, BaseType, has_null>; template <typename Type, typename BaseType=void, bool has_null=true> using Offset32To = OffsetTo<Type, HBUINT32, BaseType, has_null>; template <typename Type, typename OffsetType, typename BaseType=void> using NNOffsetTo = OffsetTo<Type, OffsetType, BaseType, false>; template <typename Type, typename BaseType=void> using NNOffset16To = Offset16To<Type, BaseType, false>; template <typename Type, typename BaseType=void> using NNOffset24To = Offset24To<Type, BaseType, false>; template <typename Type, typename BaseType=void> using NNOffset32To = Offset32To<Type, BaseType, false>; /* * Array Types */ template <typename Type> struct UnsizedArrayOf { typedef Type item_t; static constexpr unsigned item_size = hb_static_size (Type); HB_DELETE_CREATE_COPY_ASSIGN (UnsizedArrayOf); const Type& operator [] (unsigned int i) const { return arrayZ[i]; } Type& operator [] (unsigned int i) { return arrayZ[i]; } static unsigned int get_size (unsigned int len) { return len * Type::static_size; } template <typename T> operator T * () { return arrayZ; } template <typename T> operator const T * () const { return arrayZ; } hb_array_t<Type> as_array (unsigned int len) { return hb_array (arrayZ, len); } hb_array_t<const Type> as_array (unsigned int len) const { return hb_array (arrayZ, len); } template <typename T> Type &lsearch (unsigned int len, const T &x, Type ¬_found = Crap (Type)) { return *as_array (len).lsearch (x, ¬_found); } template <typename T> const Type &lsearch (unsigned int len, const T &x, const Type ¬_found = Null (Type)) const { return *as_array (len).lsearch (x, ¬_found); } template <typename T> bool lfind (unsigned int len, const T &x, unsigned int *i = nullptr, hb_not_found_t not_found = HB_NOT_FOUND_DONT_STORE, unsigned int to_store = (unsigned int) -1) const { return as_array (len).lfind (x, i, not_found, to_store); } void qsort (unsigned int len, unsigned int start = 0, unsigned int end = (unsigned int) -1) { as_array (len).qsort (start, end); } bool serialize (hb_serialize_context_t *c, unsigned int items_len, bool clear = true) { TRACE_SERIALIZE (this); if (unlikely (!c->extend_size (this, get_size (items_len), clear))) return_trace (false); return_trace (true); } template <typename Iterator, hb_requires (hb_is_source_of (Iterator, Type))> bool serialize (hb_serialize_context_t *c, Iterator items) { TRACE_SERIALIZE (this); unsigned count = hb_len (items); if (unlikely (!serialize (c, count, false))) return_trace (false); /* TODO Umm. Just exhaust the iterator instead? Being extra * cautious right now.. */ for (unsigned i = 0; i < count; i++, ++items) arrayZ[i] = *items; return_trace (true); } UnsizedArrayOf* copy (hb_serialize_context_t *c, unsigned count) const { TRACE_SERIALIZE (this); auto *out = c->start_embed (this); if (unlikely (!as_array (count).copy (c))) return_trace (nullptr); return_trace (out); } template <typename ...Ts> HB_ALWAYS_INLINE bool sanitize (hb_sanitize_context_t *c, unsigned int count, Ts&&... ds) const { TRACE_SANITIZE (this); if (unlikely (!sanitize_shallow (c, count))) return_trace (false); if (!sizeof... (Ts) && hb_is_trivially_copyable(Type)) return_trace (true); hb_barrier (); for (unsigned int i = 0; i < count; i++) if (unlikely (!c->dispatch (arrayZ[i], std::forward<Ts> (ds)...))) return_trace (false); return_trace (true); } bool sanitize_shallow (hb_sanitize_context_t *c, unsigned int count) const { TRACE_SANITIZE (this); return_trace (c->check_array (arrayZ, count)); } public: Type arrayZ[HB_VAR_ARRAY]; public: DEFINE_SIZE_UNBOUNDED (0); }; /* Unsized array of offset's */ template <typename Type, typename OffsetType, typename BaseType=void, bool has_null=true> using UnsizedArray16OfOffsetTo = UnsizedArrayOf<OffsetTo<Type, OffsetType, BaseType, has_null>>; /* Unsized array of offsets relative to the beginning of the array itself. */ template <typename Type, typename OffsetType, typename BaseType=void, bool has_null=true> struct UnsizedListOfOffset16To : UnsizedArray16OfOffsetTo<Type, OffsetType, BaseType, has_null> { const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; const OffsetTo<Type, OffsetType, BaseType, has_null> *p = &this->arrayZ[i]; if (unlikely ((const void *) p < (const void *) this->arrayZ)) return Null (Type); /* Overflowed. */ hb_barrier (); return this+*p; } Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; const OffsetTo<Type, OffsetType, BaseType, has_null> *p = &this->arrayZ[i]; if (unlikely ((const void *) p < (const void *) this->arrayZ)) return Crap (Type); /* Overflowed. */ hb_barrier (); return this+*p; } template <typename ...Ts> bool sanitize (hb_sanitize_context_t *c, unsigned int count, Ts&&... ds) const { TRACE_SANITIZE (this); return_trace ((UnsizedArray16OfOffsetTo<Type, OffsetType, BaseType, has_null> ::sanitize (c, count, this, std::forward<Ts> (ds)...))); } }; /* An array with sorted elements. Supports binary searching. */ template <typename Type> struct SortedUnsizedArrayOf : UnsizedArrayOf<Type> { hb_sorted_array_t<Type> as_array (unsigned int len) { return hb_sorted_array (this->arrayZ, len); } hb_sorted_array_t<const Type> as_array (unsigned int len) const { return hb_sorted_array (this->arrayZ, len); } operator hb_sorted_array_t<Type> () { return as_array (); } operator hb_sorted_array_t<const Type> () const { return as_array (); } template <typename T> Type &bsearch (unsigned int len, const T &x, Type ¬_found = Crap (Type)) { return *as_array (len).bsearch (x, ¬_found); } template <typename T> const Type &bsearch (unsigned int len, const T &x, const Type ¬_found = Null (Type)) const { return *as_array (len).bsearch (x, ¬_found); } template <typename T> bool bfind (unsigned int len, const T &x, unsigned int *i = nullptr, hb_not_found_t not_found = HB_NOT_FOUND_DONT_STORE, unsigned int to_store = (unsigned int) -1) const { return as_array (len).bfind (x, i, not_found, to_store); } }; /* An array with a number of elements. */ template <typename Type, typename LenType> struct ArrayOf { typedef Type item_t; static constexpr unsigned item_size = hb_static_size (Type); HB_DELETE_CREATE_COPY_ASSIGN (ArrayOf); const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; if (unlikely (i >= len)) return Null (Type); hb_barrier (); return arrayZ[i]; } Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; if (unlikely (i >= len)) return Crap (Type); hb_barrier (); return arrayZ[i]; } unsigned int get_size () const { return len.static_size + len * Type::static_size; } explicit operator bool () const { return len; } void pop () { len--; } hb_array_t< Type> as_array () { return hb_array (arrayZ, len); } hb_array_t<const Type> as_array () const { return hb_array (arrayZ, len); } /* Iterator. */ typedef hb_array_t<const Type> iter_t; typedef hb_array_t< Type> writer_t; iter_t iter () const { return as_array (); } writer_t writer () { return as_array (); } operator iter_t () const { return iter (); } operator writer_t () { return writer (); } /* Faster range-based for loop. */ const Type *begin () const { return arrayZ; } const Type *end () const { return arrayZ + len; } template <typename T> Type &lsearch (const T &x, Type ¬_found = Crap (Type)) { return *as_array ().lsearch (x, ¬_found); } template <typename T> const Type &lsearch (const T &x, const Type ¬_found = Null (Type)) const { return *as_array ().lsearch (x, ¬_found); } template <typename T> bool lfind (const T &x, unsigned int *i = nullptr, hb_not_found_t not_found = HB_NOT_FOUND_DONT_STORE, unsigned int to_store = (unsigned int) -1) const { return as_array ().lfind (x, i, not_found, to_store); } void qsort () { as_array ().qsort (); } HB_NODISCARD bool serialize (hb_serialize_context_t *c, unsigned items_len, bool clear = true) { TRACE_SERIALIZE (this); if (unlikely (!c->extend_min (this))) return_trace (false); c->check_assign (len, items_len, HB_SERIALIZE_ERROR_ARRAY_OVERFLOW); if (unlikely (!c->extend_size (this, get_size (), clear))) return_trace (false); return_trace (true); } template <typename Iterator, hb_requires (hb_is_source_of (Iterator, Type))> HB_NODISCARD bool serialize (hb_serialize_context_t *c, Iterator items) { TRACE_SERIALIZE (this); unsigned count = hb_len (items); if (unlikely (!serialize (c, count, false))) return_trace (false); /* TODO Umm. Just exhaust the iterator instead? Being extra * cautious right now.. */ for (unsigned i = 0; i < count; i++, ++items) arrayZ[i] = *items; return_trace (true); } Type* serialize_append (hb_serialize_context_t *c) { TRACE_SERIALIZE (this); len++; if (unlikely (!len || !c->extend (this))) { len--; return_trace (nullptr); } return_trace (&arrayZ[len - 1]); } ArrayOf* copy (hb_serialize_context_t *c) const { TRACE_SERIALIZE (this); auto *out = c->start_embed (this); if (unlikely (!c->extend_min (out))) return_trace (nullptr); c->check_assign (out->len, len, HB_SERIALIZE_ERROR_ARRAY_OVERFLOW); if (unlikely (!as_array ().copy (c))) return_trace (nullptr); return_trace (out); } template <typename ...Ts> HB_ALWAYS_INLINE bool sanitize (hb_sanitize_context_t *c, Ts&&... ds) const { TRACE_SANITIZE (this); if (unlikely (!sanitize_shallow (c))) return_trace (false); if (!sizeof... (Ts) && hb_is_trivially_copyable(Type)) return_trace (true); hb_barrier (); unsigned int count = len; for (unsigned int i = 0; i < count; i++) if (unlikely (!c->dispatch (arrayZ[i], std::forward<Ts> (ds)...))) return_trace (false); return_trace (true); } bool sanitize_shallow (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (len.sanitize (c) && hb_barrier () && c->check_array_sized (arrayZ, len, sizeof (LenType))); } public: LenType len; Type arrayZ[HB_VAR_ARRAY]; public: DEFINE_SIZE_ARRAY (sizeof (LenType), arrayZ); }; template <typename Type> using Array16Of = ArrayOf<Type, HBUINT16>; template <typename Type> using Array24Of = ArrayOf<Type, HBUINT24>; template <typename Type> using Array32Of = ArrayOf<Type, HBUINT32>; using PString = ArrayOf<HBUINT8, HBUINT8>; /* Array of Offset's */ template <typename Type> using Array8OfOffset24To = ArrayOf<OffsetTo<Type, HBUINT24>, HBUINT8>; template <typename Type> using Array16OfOffset16To = ArrayOf<OffsetTo<Type, HBUINT16>, HBUINT16>; template <typename Type> using Array16OfOffset32To = ArrayOf<OffsetTo<Type, HBUINT32>, HBUINT16>; template <typename Type> using Array32OfOffset32To = ArrayOf<OffsetTo<Type, HBUINT32>, HBUINT32>; /* Array of offsets relative to the beginning of the array itself. */ template <typename Type, typename OffsetType> struct List16OfOffsetTo : ArrayOf<OffsetTo<Type, OffsetType>, HBUINT16> { const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; if (unlikely (i >= this->len)) return Null (Type); hb_barrier (); return this+this->arrayZ[i]; } const Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; if (unlikely (i >= this->len)) return Crap (Type); hb_barrier (); return this+this->arrayZ[i]; } bool subset (hb_subset_context_t *c) const { TRACE_SUBSET (this); struct List16OfOffsetTo *out = c->serializer->embed (*this); if (unlikely (!out)) return_trace (false); unsigned int count = this->len; for (unsigned int i = 0; i < count; i++) out->arrayZ[i].serialize_subset (c, this->arrayZ[i], this, out); return_trace (true); } template <typename ...Ts> bool sanitize (hb_sanitize_context_t *c, Ts&&... ds) const { TRACE_SANITIZE (this); return_trace ((Array16Of<OffsetTo<Type, OffsetType>>::sanitize (c, this, std::forward<Ts> (ds)...))); } }; template <typename Type> using List16OfOffset16To = List16OfOffsetTo<Type, HBUINT16>; /* An array starting at second element. */ template <typename Type, typename LenType> struct HeadlessArrayOf { static constexpr unsigned item_size = Type::static_size; HB_DELETE_CREATE_COPY_ASSIGN (HeadlessArrayOf); const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; if (unlikely (i >= lenP1 || !i)) return Null (Type); hb_barrier (); return arrayZ[i-1]; } Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; if (unlikely (i >= lenP1 || !i)) return Crap (Type); hb_barrier (); return arrayZ[i-1]; } unsigned int get_size () const { return lenP1.static_size + get_length () * Type::static_size; } unsigned get_length () const { return lenP1 ? lenP1 - 1 : 0; } hb_array_t< Type> as_array () { return hb_array (arrayZ, get_length ()); } hb_array_t<const Type> as_array () const { return hb_array (arrayZ, get_length ()); } /* Iterator. */ typedef hb_array_t<const Type> iter_t; typedef hb_array_t< Type> writer_t; iter_t iter () const { return as_array (); } writer_t writer () { return as_array (); } operator iter_t () const { return iter (); } operator writer_t () { return writer (); } /* Faster range-based for loop. */ const Type *begin () const { return arrayZ; } const Type *end () const { return arrayZ + get_length (); } HB_NODISCARD bool serialize (hb_serialize_context_t *c, unsigned int items_len, bool clear = true) { TRACE_SERIALIZE (this); if (unlikely (!c->extend_min (this))) return_trace (false); c->check_assign (lenP1, items_len + 1, HB_SERIALIZE_ERROR_ARRAY_OVERFLOW); if (unlikely (!c->extend_size (this, get_size (), clear))) return_trace (false); return_trace (true); } template <typename Iterator, hb_requires (hb_is_source_of (Iterator, Type))> HB_NODISCARD bool serialize (hb_serialize_context_t *c, Iterator items) { TRACE_SERIALIZE (this); unsigned count = hb_len (items); if (unlikely (!serialize (c, count, false))) return_trace (false); /* TODO Umm. Just exhaust the iterator instead? Being extra * cautious right now.. */ for (unsigned i = 0; i < count; i++, ++items) arrayZ[i] = *items; return_trace (true); } template <typename ...Ts> HB_ALWAYS_INLINE bool sanitize (hb_sanitize_context_t *c, Ts&&... ds) const { TRACE_SANITIZE (this); if (unlikely (!sanitize_shallow (c))) return_trace (false); if (!sizeof... (Ts) && hb_is_trivially_copyable(Type)) return_trace (true); hb_barrier (); unsigned int count = get_length (); for (unsigned int i = 0; i < count; i++) if (unlikely (!c->dispatch (arrayZ[i], std::forward<Ts> (ds)...))) return_trace (false); return_trace (true); } private: bool sanitize_shallow (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (lenP1.sanitize (c) && hb_barrier () && (!lenP1 || c->check_array_sized (arrayZ, lenP1 - 1, sizeof (LenType)))); } public: LenType lenP1; Type arrayZ[HB_VAR_ARRAY]; public: DEFINE_SIZE_ARRAY (sizeof (LenType), arrayZ); }; template <typename Type> using HeadlessArray16Of = HeadlessArrayOf<Type, HBUINT16>; /* An array storing length-1. */ template <typename Type, typename LenType=HBUINT16> struct ArrayOfM1 { HB_DELETE_CREATE_COPY_ASSIGN (ArrayOfM1); const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; if (unlikely (i > lenM1)) return Null (Type); hb_barrier (); return arrayZ[i]; } Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; if (unlikely (i > lenM1)) return Crap (Type); hb_barrier (); return arrayZ[i]; } unsigned int get_size () const { return lenM1.static_size + (lenM1 + 1) * Type::static_size; } template <typename ...Ts> HB_ALWAYS_INLINE bool sanitize (hb_sanitize_context_t *c, Ts&&... ds) const { TRACE_SANITIZE (this); if (unlikely (!sanitize_shallow (c))) return_trace (false); if (!sizeof... (Ts) && hb_is_trivially_copyable(Type)) return_trace (true); hb_barrier (); unsigned int count = lenM1 + 1; for (unsigned int i = 0; i < count; i++) if (unlikely (!c->dispatch (arrayZ[i], std::forward<Ts> (ds)...))) return_trace (false); return_trace (true); } private: bool sanitize_shallow (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (lenM1.sanitize (c) && hb_barrier () && (c->check_array_sized (arrayZ, lenM1 + 1, sizeof (LenType)))); } public: LenType lenM1; Type arrayZ[HB_VAR_ARRAY]; public: DEFINE_SIZE_ARRAY (sizeof (LenType), arrayZ); }; /* An array with sorted elements. Supports binary searching. */ template <typename Type, typename LenType> struct SortedArrayOf : ArrayOf<Type, LenType> { hb_sorted_array_t< Type> as_array () { return hb_sorted_array (this->arrayZ, this->len); } hb_sorted_array_t<const Type> as_array () const { return hb_sorted_array (this->arrayZ, this->len); } /* Iterator. */ typedef hb_sorted_array_t<const Type> iter_t; typedef hb_sorted_array_t< Type> writer_t; iter_t iter () const { return as_array (); } writer_t writer () { return as_array (); } operator iter_t () const { return iter (); } operator writer_t () { return writer (); } /* Faster range-based for loop. */ const Type *begin () const { return this->arrayZ; } const Type *end () const { return this->arrayZ + this->len; } bool serialize (hb_serialize_context_t *c, unsigned int items_len) { TRACE_SERIALIZE (this); bool ret = ArrayOf<Type, LenType>::serialize (c, items_len); return_trace (ret); } template <typename Iterator, hb_requires (hb_is_sorted_source_of (Iterator, Type))> bool serialize (hb_serialize_context_t *c, Iterator items) { TRACE_SERIALIZE (this); bool ret = ArrayOf<Type, LenType>::serialize (c, items); return_trace (ret); } SortedArrayOf* copy (hb_serialize_context_t *c) const { TRACE_SERIALIZE (this); SortedArrayOf* out = reinterpret_cast<SortedArrayOf *> (ArrayOf<Type, LenType>::copy (c)); return_trace (out); } template <typename T> Type &bsearch (const T &x, Type ¬_found = Crap (Type)) { return *as_array ().bsearch (x, ¬_found); } template <typename T> const Type &bsearch (const T &x, const Type ¬_found = Null (Type)) const { return *as_array ().bsearch (x, ¬_found); } template <typename T> bool bfind (const T &x, unsigned int *i = nullptr, hb_not_found_t not_found = HB_NOT_FOUND_DONT_STORE, unsigned int to_store = (unsigned int) -1) const { return as_array ().bfind (x, i, not_found, to_store); } }; template <typename Type> using SortedArray16Of = SortedArrayOf<Type, HBUINT16>; template <typename Type> using SortedArray24Of = SortedArrayOf<Type, HBUINT24>; template <typename Type> using SortedArray32Of = SortedArrayOf<Type, HBUINT32>; /* * Binary-search arrays */ template <typename LenType=HBUINT16> struct BinSearchHeader { operator uint32_t () const { return len; } bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_struct (this)); } BinSearchHeader& operator = (unsigned int v) { len = v; assert (len == v); entrySelector = hb_max (1u, hb_bit_storage (v)) - 1; searchRange = 16 * (1u << entrySelector); rangeShift = v * 16 > searchRange ? 16 * v - searchRange : 0; return *this; } protected: LenType len; LenType searchRange; LenType entrySelector; LenType rangeShift; public: DEFINE_SIZE_STATIC (8); }; template <typename Type, typename LenType=HBUINT16> using BinSearchArrayOf = SortedArrayOf<Type, BinSearchHeader<LenType>>; struct VarSizedBinSearchHeader { bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (c->check_struct (this)); } HBUINT16 unitSize; /* Size of a lookup unit for this search in bytes. */ HBUINT16 nUnits; /* Number of units of the preceding size to be searched. */ HBUINT16 searchRange; /* The value of unitSize times the largest power of 2 * that is less than or equal to the value of nUnits. */ HBUINT16 entrySelector; /* The log base 2 of the largest power of 2 less than * or equal to the value of nUnits. */ HBUINT16 rangeShift; /* The value of unitSize times the difference of the * value of nUnits minus the largest power of 2 less * than or equal to the value of nUnits. */ public: DEFINE_SIZE_STATIC (10); }; template <typename Type> struct VarSizedBinSearchArrayOf { static constexpr unsigned item_size = Type::static_size; HB_DELETE_CREATE_COPY_ASSIGN (VarSizedBinSearchArrayOf); bool last_is_terminator () const { if (unlikely (!header.nUnits)) return false; /* Gah. * * "The number of termination values that need to be included is table-specific. * The value that indicates binary search termination is 0xFFFF." */ const HBUINT16 *words = &StructAtOffset<HBUINT16> (&bytesZ, (header.nUnits - 1) * header.unitSize); unsigned int count = Type::TerminationWordCount; for (unsigned int i = 0; i < count; i++) if (words[i] != 0xFFFFu) return false; return true; } const Type& operator [] (int i_) const { unsigned int i = (unsigned int) i_; if (unlikely (i >= get_length ())) return Null (Type); hb_barrier (); return StructAtOffset<Type> (&bytesZ, i * header.unitSize); } Type& operator [] (int i_) { unsigned int i = (unsigned int) i_; if (unlikely (i >= get_length ())) return Crap (Type); hb_barrier (); return StructAtOffset<Type> (&bytesZ, i * header.unitSize); } unsigned int get_length () const { return header.nUnits - last_is_terminator (); } unsigned int get_size () const { return header.static_size + header.nUnits * header.unitSize; } template <typename ...Ts> HB_ALWAYS_INLINE bool sanitize (hb_sanitize_context_t *c, Ts&&... ds) const { TRACE_SANITIZE (this); if (unlikely (!sanitize_shallow (c))) return_trace (false); if (!sizeof... (Ts) && hb_is_trivially_copyable(Type)) return_trace (true); hb_barrier (); unsigned int count = get_length (); for (unsigned int i = 0; i < count; i++) if (unlikely (!(*this)[i].sanitize (c, std::forward<Ts> (ds)...))) return_trace (false); return_trace (true); } template <typename T> const Type *bsearch (const T &key) const { unsigned pos; return hb_bsearch_impl (&pos, key, (const void *) bytesZ, get_length (), header.unitSize, _hb_cmp_method<T, Type>) ? (const Type *) (((const char *) &bytesZ) + (pos * header.unitSize)) : nullptr; } private: bool sanitize_shallow (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (header.sanitize (c) && hb_barrier () && Type::static_size <= header.unitSize && c->check_range (bytesZ.arrayZ, header.nUnits, header.unitSize)); } protected: VarSizedBinSearchHeader header; UnsizedArrayOf<HBUINT8> bytesZ; public: DEFINE_SIZE_ARRAY (10, bytesZ); }; /* CFF INDEX */ template <typename COUNT> struct CFFIndex { unsigned int offset_array_size () const { return offSize * (count + 1); } template <typename Iterable, hb_requires (hb_is_iterable (Iterable))> bool serialize (hb_serialize_context_t *c, const Iterable &iterable, const unsigned *p_data_size = nullptr, unsigned min_off_size = 0) { TRACE_SERIALIZE (this); unsigned data_size; if (p_data_size) data_size = *p_data_size; else total_size (iterable, &data_size); auto it = hb_iter (iterable); if (unlikely (!serialize_header (c, +it, data_size, min_off_size))) return_trace (false); unsigned char *ret = c->allocate_size<unsigned char> (data_size, false); if (unlikely (!ret)) return_trace (false); for (const auto &_ : +it) { unsigned len = _.length; if (!len) continue; if (len <= 1) { *ret++ = *_.arrayZ; continue; } hb_memcpy (ret, _.arrayZ, len); ret += len; } return_trace (true); } template <typename Iterator, hb_requires (hb_is_iterator (Iterator))> bool serialize_header (hb_serialize_context_t *c, Iterator it, unsigned data_size, unsigned min_off_size = 0) { TRACE_SERIALIZE (this); unsigned off_size = (hb_bit_storage (data_size + 1) + 7) / 8; off_size = hb_max(min_off_size, off_size); /* serialize CFFIndex header */ if (unlikely (!c->extend_min (this))) return_trace (false); this->count = hb_len (it); if (!this->count) return_trace (true); if (unlikely (!c->extend (this->offSize))) return_trace (false); this->offSize = off_size; if (unlikely (!c->allocate_size<HBUINT8> (off_size * (this->count + 1), false))) return_trace (false); /* serialize indices */ unsigned int offset = 1; if (HB_OPTIMIZE_SIZE_VAL) { unsigned int i = 0; for (const auto &_ : +it) { set_offset_at (i++, offset); offset += hb_len_of (_); } set_offset_at (i, offset); } else switch (off_size) { case 1: { HBUINT8 *p = (HBUINT8 *) offsets; for (const auto &_ : +it) { *p++ = offset; offset += hb_len_of (_); } *p = offset; } break; case 2: { HBUINT16 *p = (HBUINT16 *) offsets; for (const auto &_ : +it) { *p++ = offset; offset += hb_len_of (_); } *p = offset; } break; case 3: { HBUINT24 *p = (HBUINT24 *) offsets; for (const auto &_ : +it) { *p++ = offset; offset += hb_len_of (_); } *p = offset; } break; case 4: { HBUINT32 *p = (HBUINT32 *) offsets; for (const auto &_ : +it) { *p++ = offset; offset += hb_len_of (_); } *p = offset; } break; default: break; } assert (offset == data_size + 1); return_trace (true); } template <typename Iterable, hb_requires (hb_is_iterable (Iterable))> static unsigned total_size (const Iterable &iterable, unsigned *data_size = nullptr, unsigned min_off_size = 0) { auto it = + hb_iter (iterable); if (!it) { if (data_size) *data_size = 0; return min_size; } unsigned total = 0; for (const auto &_ : +it) total += hb_len_of (_); if (data_size) *data_size = total; unsigned off_size = (hb_bit_storage (total + 1) + 7) / 8; off_size = hb_max(min_off_size, off_size); return min_size + HBUINT8::static_size + (hb_len (it) + 1) * off_size + total; } void set_offset_at (unsigned int index, unsigned int offset) { assert (index <= count); unsigned int size = offSize; const HBUINT8 *p = offsets; switch (size) { case 1: ((HBUINT8 *) p)[index] = offset; break; case 2: ((HBUINT16 *) p)[index] = offset; break; case 3: ((HBUINT24 *) p)[index] = offset; break; case 4: ((HBUINT32 *) p)[index] = offset; break; default: return; } } private: unsigned int offset_at (unsigned int index) const { assert (index <= count); unsigned int size = offSize; const HBUINT8 *p = offsets; switch (size) { case 1: return ((HBUINT8 *) p)[index]; case 2: return ((HBUINT16 *) p)[index]; case 3: return ((HBUINT24 *) p)[index]; case 4: return ((HBUINT32 *) p)[index]; default: return 0; } } const unsigned char *data_base () const { return (const unsigned char *) this + min_size + offSize.static_size - 1 + offset_array_size (); } public: hb_ubytes_t operator [] (unsigned int index) const { if (unlikely (index >= count)) return hb_ubytes_t (); hb_barrier (); unsigned offset0 = offset_at (index); unsigned offset1 = offset_at (index + 1); if (unlikely (offset1 < offset0 || offset1 > offset_at (count))) return hb_ubytes_t (); return hb_ubytes_t (data_base () + offset0, offset1 - offset0); } unsigned int get_size () const { if (count) return min_size + offSize.static_size + offset_array_size () + (offset_at (count) - 1); return min_size; /* empty CFFIndex contains count only */ } bool sanitize (hb_sanitize_context_t *c) const { TRACE_SANITIZE (this); return_trace (likely (c->check_struct (this) && hb_barrier () && (count == 0 || /* empty INDEX */ (count < count + 1u && c->check_struct (&offSize) && offSize >= 1 && offSize <= 4 && c->check_array (offsets, offSize, count + 1u) && c->check_range (data_base (), offset_at (count)))))); } public: COUNT count; /* Number of object data. Note there are (count+1) offsets */ private: HBUINT8 offSize; /* The byte size of each offset in the offsets array. */ HBUINT8 offsets[HB_VAR_ARRAY]; /* The array of (count + 1) offsets into objects array (1-base). */ /* HBUINT8 data[HB_VAR_ARRAY]; Object data */ public: DEFINE_SIZE_MIN (COUNT::static_size); }; typedef CFFIndex<HBUINT16> CFF1Index; typedef CFFIndex<HBUINT32> CFF2Index; /* TupleValues */ struct TupleValues { enum packed_value_flag_t { VALUES_ARE_ZEROS = 0x80, VALUES_ARE_BYTES = 0x00, VALUES_ARE_WORDS = 0x40, VALUES_ARE_LONGS = 0xC0, VALUES_SIZE_MASK = 0xC0, VALUE_RUN_COUNT_MASK = 0x3F }; static unsigned compile_unsafe (hb_array_t<const int> values, /* IN */ unsigned char *encoded_bytes /* OUT */) { unsigned num_values = values.length; unsigned encoded_len = 0; unsigned i = 0; while (i < num_values) { int val = values.arrayZ[i]; if (val == 0) encoded_len += encode_value_run_as_zeroes (i, encoded_bytes + encoded_len, values); else if ((int8_t) val == val) encoded_len += encode_value_run_as_bytes (i, encoded_bytes + encoded_len, values); else if ((int16_t) val == val) encoded_len += encode_value_run_as_words (i, encoded_bytes + encoded_len, values); else encoded_len += encode_value_run_as_longs (i, encoded_bytes + encoded_len, values); } return encoded_len; } static unsigned encode_value_run_as_zeroes (unsigned& i, unsigned char *it, hb_array_t<const int> values) { unsigned num_values = values.length; unsigned run_length = 0; unsigned encoded_len = 0; while (i < num_values && values.arrayZ[i] == 0) { i++; run_length++; } while (run_length >= 64) { *it++ = char (VALUES_ARE_ZEROS | 63); run_length -= 64; encoded_len++; } if (run_length) { *it++ = char (VALUES_ARE_ZEROS | (run_length - 1)); encoded_len++; } return encoded_len; } static unsigned encode_value_run_as_bytes (unsigned &i, unsigned char *it, hb_array_t<const int> values) { unsigned start = i; unsigned num_values = values.length; while (i < num_values) { int val = values.arrayZ[i]; if ((int8_t) val != val) break; /* from fonttools: if there're 2 or more zeros in a sequence, * it is better to start a new run to save bytes. */ if (val == 0 && i + 1 < num_values && values.arrayZ[i+1] == 0) break; i++; } unsigned run_length = i - start; unsigned encoded_len = 0; while (run_length >= 64) { *it++ = (VALUES_ARE_BYTES | 63); encoded_len++; for (unsigned j = 0; j < 64; j++) it[j] = static_cast<char> (values.arrayZ[start + j]); it += 64; encoded_len += 64; start += 64; run_length -= 64; } if (run_length) { *it++ = (VALUES_ARE_BYTES | (run_length - 1)); encoded_len++; for (unsigned j = 0; j < run_length; j++) it[j] = static_cast<char> (values.arrayZ[start + j]); encoded_len += run_length; } return encoded_len; } static unsigned encode_value_run_as_words (unsigned &i, unsigned char *it, hb_array_t<const int> values) { unsigned start = i; unsigned num_values = values.length; while (i < num_values) { int val = values.arrayZ[i]; if ((int16_t) val != val) break; /* start a new run for a single zero value. */ if (val == 0) break; /* From fonttools: continue word-encoded run if there's only one * single value in the range [-128, 127] because it is more compact. * Only start a new run when there're 2 continuous such values. */ if ((int8_t) val == val && i + 1 < num_values && (int8_t) values.arrayZ[i+1] == values.arrayZ[i+1]) break; i++; } unsigned run_length = i - start; unsigned encoded_len = 0; while (run_length >= 64) { *it++ = (VALUES_ARE_WORDS | 63); encoded_len++; for (unsigned j = 0; j < 64; j++) { int16_t value_val = values.arrayZ[start + j]; *it++ = static_cast<char> (value_val >> 8); *it++ = static_cast<char> (value_val & 0xFF); encoded_len += 2; } start += 64; run_length -= 64; } if (run_length) { *it++ = (VALUES_ARE_WORDS | (run_length - 1)); encoded_len++; while (start < i) { int16_t value_val = values.arrayZ[start++]; *it++ = static_cast<char> (value_val >> 8); *it++ = static_cast<char> (value_val & 0xFF); encoded_len += 2; } } return encoded_len; } static unsigned encode_value_run_as_longs (unsigned &i, unsigned char *it, hb_array_t<const int> values) { unsigned start = i; unsigned num_values = values.length; while (i < num_values) { int val = values.arrayZ[i]; if ((int16_t) val == val) break; i++; } unsigned run_length = i - start; unsigned encoded_len = 0; while (run_length >= 64) { *it++ = (VALUES_ARE_LONGS | 63); encoded_len++; for (unsigned j = 0; j < 64; j++) { int32_t value_val = values.arrayZ[start + j]; *it++ = static_cast<char> (value_val >> 24); *it++ = static_cast<char> (value_val >> 16); *it++ = static_cast<char> (value_val >> 8); *it++ = static_cast<char> (value_val & 0xFF); encoded_len += 4; } start += 64; run_length -= 64; } if (run_length) { *it++ = (VALUES_ARE_LONGS | (run_length - 1)); encoded_len++; while (start < i) { int32_t value_val = values.arrayZ[start++]; *it++ = static_cast<char> (value_val >> 24); *it++ = static_cast<char> (value_val >> 16); *it++ = static_cast<char> (value_val >> 8); *it++ = static_cast<char> (value_val & 0xFF); encoded_len += 4; } } return encoded_len; } template <typename T> static bool decompile (const HBUINT8 *&p /* IN/OUT */, hb_vector_t<T> &values /* IN/OUT */, const HBUINT8 *end, bool consume_all = false, unsigned start = 0) { unsigned i = 0; unsigned count = consume_all ? UINT_MAX : values.length; if (consume_all) values.alloc ((end - p) / 2); while (i < count) { if (unlikely (p + 1 > end)) return consume_all; unsigned control = *p++; unsigned run_count = (control & VALUE_RUN_COUNT_MASK) + 1; if (consume_all) { if (unlikely (!values.resize_dirty (values.length + run_count))) return false; } unsigned stop = i + run_count; if (unlikely (stop > count)) return false; unsigned skip = i < start ? hb_min (start - i, run_count) : 0; i += skip; if ((control & VALUES_SIZE_MASK) == VALUES_ARE_ZEROS) { for (; i < stop; i++) values.arrayZ[i] = 0; } else if ((control & VALUES_SIZE_MASK) == VALUES_ARE_WORDS) { if (unlikely (p + run_count * HBINT16::static_size > end)) return false; p += skip * HBINT16::static_size; #ifndef HB_OPTIMIZE_SIZE for (; i + 3 < stop; i += 4) { values.arrayZ[i] = * (const HBINT16 *) p; p += HBINT16::static_size; values.arrayZ[i + 1] = * (const HBINT16 *) p; p += HBINT16::static_size; values.arrayZ[i + 2] = * (const HBINT16 *) p; p += HBINT16::static_size; values.arrayZ[i + 3] = * (const HBINT16 *) p; p += HBINT16::static_size; } #endif for (; i < stop; i++) { values.arrayZ[i] = * (const HBINT16 *) p; p += HBINT16::static_size; } } else if ((control & VALUES_SIZE_MASK) == VALUES_ARE_LONGS) { if (unlikely (p + run_count * HBINT32::static_size > end)) return false; p += skip * HBINT32::static_size; for (; i < stop; i++) { values.arrayZ[i] = * (const HBINT32 *) p; p += HBINT32::static_size; } } else if ((control & VALUES_SIZE_MASK) == VALUES_ARE_BYTES) { if (unlikely (p + run_count > end)) return false; p += skip * HBINT8::static_size; #ifndef HB_OPTIMIZE_SIZE for (; i + 3 < stop; i += 4) { values.arrayZ[i] = * (const HBINT8 *) p++; values.arrayZ[i + 1] = * (const HBINT8 *) p++; values.arrayZ[i + 2] = * (const HBINT8 *) p++; values.arrayZ[i + 3] = * (const HBINT8 *) p++; } #endif for (; i < stop; i++) values.arrayZ[i] = * (const HBINT8 *) p++; } } return true; } struct iter_t : hb_iter_with_fallback_t<iter_t, int> { iter_t (const unsigned char *p_, unsigned len_) : p (p_), endp (p_ + len_) { if (ensure_run ()) read_value (); } private: const unsigned char *p; const unsigned char * const endp; int current_value = 0; signed run_count = 0; unsigned width = 0; bool ensure_run () { if (likely (run_count > 0)) return true; if (unlikely (p >= endp)) { run_count = 0; current_value = 0; return false; } unsigned control = *p++; run_count = (control & VALUE_RUN_COUNT_MASK) + 1; width = control & VALUES_SIZE_MASK; switch (width) { case VALUES_ARE_ZEROS: width = 0; break; case VALUES_ARE_BYTES: width = HBINT8::static_size; break; case VALUES_ARE_WORDS: width = HBINT16::static_size; break; case VALUES_ARE_LONGS: width = HBINT32::static_size; break; default: assert (false); } if (unlikely (p + run_count * width > endp)) { run_count = 0; current_value = 0; return false; } return true; } void read_value () { switch (width) { case 0: current_value = 0; break; case 1: current_value = * (const HBINT8 *) p; break; case 2: current_value = * (const HBINT16 *) p; break; case 4: current_value = * (const HBINT32 *) p; break; } p += width; } public: typedef int __item_t__; __item_t__ __item__ () const { return current_value; } bool __more__ () const { return run_count || p < endp; } void __next__ () { run_count--; if (unlikely (!ensure_run ())) return; read_value (); } void __forward__ (unsigned n) { if (unlikely (!ensure_run ())) return; while (n) { unsigned i = hb_min (n, (unsigned) run_count); run_count -= i; n -= i; p += (i - 1) * width; if (unlikely (!ensure_run ())) return; read_value (); } } bool operator != (const iter_t& o) const { return p != o.p || run_count != o.run_count; } iter_t __end__ () const { iter_t it (endp, 0); return it; } }; struct fetcher_t { fetcher_t (const unsigned char *p_, unsigned len_) : p (p_), end (p_ + len_) {} private: const unsigned char *p; const unsigned char * const end; signed run_count = 0; unsigned width = 0; bool ensure_run () { if (run_count > 0) return true; if (unlikely (p >= end)) { run_count = 0; return false; } unsigned control = *p++; run_count = (control & VALUE_RUN_COUNT_MASK) + 1; width = control & VALUES_SIZE_MASK; switch (width) { case VALUES_ARE_ZEROS: width = 0; break; case VALUES_ARE_BYTES: width = HBINT8::static_size; break; case VALUES_ARE_WORDS: width = HBINT16::static_size; break; case VALUES_ARE_LONGS: width = HBINT32::static_size; break; default: assert (false); } if (unlikely (p + run_count * width > end)) { run_count = 0; return false; } return true; } void skip (unsigned n) { while (n) { if (unlikely (!ensure_run ())) return; unsigned i = hb_min (n, (unsigned) run_count); run_count -= i; n -= i; p += i * width; } } template <bool scaled> void _add_to (hb_array_t<float> out, float scale = 1.0f) { unsigned n = out.length; float *arrayZ = out.arrayZ; for (unsigned i = 0; i < n;) { if (unlikely (!ensure_run ())) break; unsigned count = hb_min (n - i, (unsigned) run_count); switch (width) { case 0: { arrayZ += count; break; } case 1: { const auto *pp = (const HBINT8 *) p; unsigned j = 0; #ifndef HB_OPTIMIZE_SIZE for (; j + 3 < count; j += 4) { *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; } #endif for (; j < count; j++) *arrayZ++ += scaled ? *pp++ * scale : *pp++; p = (const unsigned char *) pp; } break; case 2: { const auto *pp = (const HBINT16 *) p; unsigned j = 0; #ifndef HB_OPTIMIZE_SIZE for (; j + 3 < count; j += 4) { *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; *arrayZ++ += scaled ? *pp++ * scale : *pp++; } #endif for (; j < count; j++) *arrayZ++ += scaled ? *pp++ * scale : *pp++; p = (const unsigned char *) pp; } break; case 4: { const auto *pp = (const HBINT32 *) p; for (unsigned j = 0; j < count; j++) *arrayZ++ += scaled ? *pp++ * scale : *pp++; p = (const unsigned char *) pp; } break; } run_count -= count; i += count; } } public: void add_to (hb_array_t<float> out, float scale = 1.0f) { unsigned n = out.length; if (scale == 0.0f) { skip (n); return; } #ifndef HB_OPTIMIZE_SIZE if (scale == 1.0f) _add_to<false> (out); else #endif _add_to<true> (out, scale); } }; }; struct TupleList : CFF2Index { TupleValues::iter_t operator [] (unsigned i) const { auto bytes = CFF2Index::operator [] (i); return TupleValues::iter_t (bytes.arrayZ, bytes.length); } TupleValues::fetcher_t fetcher (unsigned i) const { auto bytes = CFF2Index::operator [] (i); return TupleValues::fetcher_t (bytes.arrayZ, bytes.length); } }; // Alignment template <unsigned int alignment> struct Align { unsigned get_size (const void *base) const { unsigned offset = (const char *) this - (const char *) base; return (alignment - offset) & (alignment - 1); } public: DEFINE_SIZE_MIN (0); }; } /* namespace OT */ #endif /* HB_OPEN_TYPE_HH */