/* * Copyright © 2018 Adobe 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. * * Adobe Author(s): Michiharu Ariza */ #ifndef HB_CFF_INTERP_COMMON_HH #define HB_CFF_INTERP_COMMON_HH namespace CFF { using namespace OT; typedef unsigned int OpCode; /* === Dict operators === */ /* One byte operators (0-31) */ #define OpCode_version 0 /* CFF Top */ #define OpCode_Notice 1 /* CFF Top */ #define OpCode_FullName 2 /* CFF Top */ #define OpCode_FamilyName 3 /* CFF Top */ #define OpCode_Weight 4 /* CFF Top */ #define OpCode_FontBBox 5 /* CFF Top */ #define OpCode_BlueValues 6 /* CFF Private, CFF2 Private */ #define OpCode_OtherBlues 7 /* CFF Private, CFF2 Private */ #define OpCode_FamilyBlues 8 /* CFF Private, CFF2 Private */ #define OpCode_FamilyOtherBlues 9 /* CFF Private, CFF2 Private */ #define OpCode_StdHW 10 /* CFF Private, CFF2 Private */ #define OpCode_StdVW 11 /* CFF Private, CFF2 Private */ #define OpCode_escape 12 /* All. Shared with CS */ #define OpCode_UniqueID 13 /* CFF Top */ #define OpCode_XUID 14 /* CFF Top */ #define OpCode_charset 15 /* CFF Top (0) */ #define OpCode_Encoding 16 /* CFF Top (0) */ #define OpCode_CharStrings 17 /* CFF Top, CFF2 Top */ #define OpCode_Private 18 /* CFF Top, CFF2 FD */ #define OpCode_Subrs 19 /* CFF Private, CFF2 Private */ #define OpCode_defaultWidthX 20 /* CFF Private (0) */ #define OpCode_nominalWidthX 21 /* CFF Private (0) */ #define OpCode_vsindexdict 22 /* CFF2 Private/CS */ #define OpCode_blenddict 23 /* CFF2 Private/CS */ #define OpCode_vstore 24 /* CFF2 Top */ #define OpCode_reserved25 25 #define OpCode_reserved26 26 #define OpCode_reserved27 27 /* Numbers */ #define OpCode_shortint 28 /* 16-bit integer, All */ #define OpCode_longintdict 29 /* 32-bit integer, All */ #define OpCode_BCD 30 /* real number, CFF2 Top/FD */ #define OpCode_reserved31 31 /* 1-byte integers */ #define OpCode_OneByteIntFirst 32 /* All. beginning of the range of first byte ints */ #define OpCode_OneByteIntLast 246 /* All. ending of the range of first byte int */ /* 2-byte integers */ #define OpCode_TwoBytePosInt0 247 /* All. first byte of two byte positive int (+108 to +1131) */ #define OpCode_TwoBytePosInt1 248 #define OpCode_TwoBytePosInt2 249 #define OpCode_TwoBytePosInt3 250 #define OpCode_TwoByteNegInt0 251 /* All. first byte of two byte negative int (-1131 to -108) */ #define OpCode_TwoByteNegInt1 252 #define OpCode_TwoByteNegInt2 253 #define OpCode_TwoByteNegInt3 254 /* Two byte escape operators 12, (0-41) */ #define OpCode_ESC_Base 256 #define Make_OpCode_ESC(byte2) ((OpCode)(OpCode_ESC_Base + (byte2))) inline OpCode Unmake_OpCode_ESC (OpCode op) { return (OpCode)(op - OpCode_ESC_Base); } inline bool Is_OpCode_ESC (OpCode op) { return op >= OpCode_ESC_Base; } inline unsigned int OpCode_Size (OpCode op) { return Is_OpCode_ESC (op)? 2: 1; } #define OpCode_Copyright Make_OpCode_ESC(0) /* CFF Top */ #define OpCode_isFixedPitch Make_OpCode_ESC(1) /* CFF Top (false) */ #define OpCode_ItalicAngle Make_OpCode_ESC(2) /* CFF Top (0) */ #define OpCode_UnderlinePosition Make_OpCode_ESC(3) /* CFF Top (-100) */ #define OpCode_UnderlineThickness Make_OpCode_ESC(4) /* CFF Top (50) */ #define OpCode_PaintType Make_OpCode_ESC(5) /* CFF Top (0) */ #define OpCode_CharstringType Make_OpCode_ESC(6) /* CFF Top (2) */ #define OpCode_FontMatrix Make_OpCode_ESC(7) /* CFF Top, CFF2 Top (.001 0 0 .001 0 0)*/ #define OpCode_StrokeWidth Make_OpCode_ESC(8) /* CFF Top (0) */ #define OpCode_BlueScale Make_OpCode_ESC(9) /* CFF Private, CFF2 Private (0.039625) */ #define OpCode_BlueShift Make_OpCode_ESC(10) /* CFF Private, CFF2 Private (7) */ #define OpCode_BlueFuzz Make_OpCode_ESC(11) /* CFF Private, CFF2 Private (1) */ #define OpCode_StemSnapH Make_OpCode_ESC(12) /* CFF Private, CFF2 Private */ #define OpCode_StemSnapV Make_OpCode_ESC(13) /* CFF Private, CFF2 Private */ #define OpCode_ForceBold Make_OpCode_ESC(14) /* CFF Private (false) */ #define OpCode_reservedESC15 Make_OpCode_ESC(15) #define OpCode_reservedESC16 Make_OpCode_ESC(16) #define OpCode_LanguageGroup Make_OpCode_ESC(17) /* CFF Private, CFF2 Private (0) */ #define OpCode_ExpansionFactor Make_OpCode_ESC(18) /* CFF Private, CFF2 Private (0.06) */ #define OpCode_initialRandomSeed Make_OpCode_ESC(19) /* CFF Private (0) */ #define OpCode_SyntheticBase Make_OpCode_ESC(20) /* CFF Top */ #define OpCode_PostScript Make_OpCode_ESC(21) /* CFF Top */ #define OpCode_BaseFontName Make_OpCode_ESC(22) /* CFF Top */ #define OpCode_BaseFontBlend Make_OpCode_ESC(23) /* CFF Top */ #define OpCode_reservedESC24 Make_OpCode_ESC(24) #define OpCode_reservedESC25 Make_OpCode_ESC(25) #define OpCode_reservedESC26 Make_OpCode_ESC(26) #define OpCode_reservedESC27 Make_OpCode_ESC(27) #define OpCode_reservedESC28 Make_OpCode_ESC(28) #define OpCode_reservedESC29 Make_OpCode_ESC(29) #define OpCode_ROS Make_OpCode_ESC(30) /* CFF Top_CID */ #define OpCode_CIDFontVersion Make_OpCode_ESC(31) /* CFF Top_CID (0) */ #define OpCode_CIDFontRevision Make_OpCode_ESC(32) /* CFF Top_CID (0) */ #define OpCode_CIDFontType Make_OpCode_ESC(33) /* CFF Top_CID (0) */ #define OpCode_CIDCount Make_OpCode_ESC(34) /* CFF Top_CID (8720) */ #define OpCode_UIDBase Make_OpCode_ESC(35) /* CFF Top_CID */ #define OpCode_FDArray Make_OpCode_ESC(36) /* CFF Top_CID, CFF2 Top */ #define OpCode_FDSelect Make_OpCode_ESC(37) /* CFF Top_CID, CFF2 Top */ #define OpCode_FontName Make_OpCode_ESC(38) /* CFF Top_CID */ /* === CharString operators === */ #define OpCode_hstem 1 /* CFF, CFF2 */ #define OpCode_Reserved2 2 #define OpCode_vstem 3 /* CFF, CFF2 */ #define OpCode_vmoveto 4 /* CFF, CFF2 */ #define OpCode_rlineto 5 /* CFF, CFF2 */ #define OpCode_hlineto 6 /* CFF, CFF2 */ #define OpCode_vlineto 7 /* CFF, CFF2 */ #define OpCode_rrcurveto 8 /* CFF, CFF2 */ #define OpCode_Reserved9 9 #define OpCode_callsubr 10 /* CFF, CFF2 */ #define OpCode_return 11 /* CFF */ // #define OpCode_escape 12 /* CFF, CFF2 */ #define OpCode_Reserved13 13 #define OpCode_endchar 14 /* CFF */ #define OpCode_vsindexcs 15 /* CFF2 */ #define OpCode_blendcs 16 /* CFF2 */ #define OpCode_Reserved17 17 #define OpCode_hstemhm 18 /* CFF, CFF2 */ #define OpCode_hintmask 19 /* CFF, CFF2 */ #define OpCode_cntrmask 20 /* CFF, CFF2 */ #define OpCode_rmoveto 21 /* CFF, CFF2 */ #define OpCode_hmoveto 22 /* CFF, CFF2 */ #define OpCode_vstemhm 23 /* CFF, CFF2 */ #define OpCode_rcurveline 24 /* CFF, CFF2 */ #define OpCode_rlinecurve 25 /* CFF, CFF2 */ #define OpCode_vvcurveto 26 /* CFF, CFF2 */ #define OpCode_hhcurveto 27 /* CFF, CFF2 */ // #define OpCode_shortint 28 /* CFF, CFF2 */ #define OpCode_callgsubr 29 /* CFF, CFF2 */ #define OpCode_vhcurveto 30 /* CFF, CFF2 */ #define OpCode_hvcurveto 31 /* CFF, CFF2 */ #define OpCode_fixedcs 255 /* 32-bit fixed */ /* Two byte escape operators 12, (0-41) */ #define OpCode_dotsection Make_OpCode_ESC(0) /* CFF (obsoleted) */ #define OpCode_ReservedESC1 Make_OpCode_ESC(1) #define OpCode_ReservedESC2 Make_OpCode_ESC(2) #define OpCode_and Make_OpCode_ESC(3) /* CFF */ #define OpCode_or Make_OpCode_ESC(4) /* CFF */ #define OpCode_not Make_OpCode_ESC(5) /* CFF */ #define OpCode_ReservedESC6 Make_OpCode_ESC(6) #define OpCode_ReservedESC7 Make_OpCode_ESC(7) #define OpCode_ReservedESC8 Make_OpCode_ESC(8) #define OpCode_abs Make_OpCode_ESC(9) /* CFF */ #define OpCode_add Make_OpCode_ESC(10) /* CFF */ #define OpCode_sub Make_OpCode_ESC(11) /* CFF */ #define OpCode_div Make_OpCode_ESC(12) /* CFF */ #define OpCode_ReservedESC13 Make_OpCode_ESC(13) #define OpCode_neg Make_OpCode_ESC(14) /* CFF */ #define OpCode_eq Make_OpCode_ESC(15) /* CFF */ #define OpCode_ReservedESC16 Make_OpCode_ESC(16) #define OpCode_ReservedESC17 Make_OpCode_ESC(17) #define OpCode_drop Make_OpCode_ESC(18) /* CFF */ #define OpCode_ReservedESC19 Make_OpCode_ESC(19) #define OpCode_put Make_OpCode_ESC(20) /* CFF */ #define OpCode_get Make_OpCode_ESC(21) /* CFF */ #define OpCode_ifelse Make_OpCode_ESC(22) /* CFF */ #define OpCode_random Make_OpCode_ESC(23) /* CFF */ #define OpCode_mul Make_OpCode_ESC(24) /* CFF */ // #define OpCode_reservedESC25 Make_OpCode_ESC(25) #define OpCode_sqrt Make_OpCode_ESC(26) /* CFF */ #define OpCode_dup Make_OpCode_ESC(27) /* CFF */ #define OpCode_exch Make_OpCode_ESC(28) /* CFF */ #define OpCode_index Make_OpCode_ESC(29) /* CFF */ #define OpCode_roll Make_OpCode_ESC(30) /* CFF */ #define OpCode_reservedESC31 Make_OpCode_ESC(31) #define OpCode_reservedESC32 Make_OpCode_ESC(32) #define OpCode_reservedESC33 Make_OpCode_ESC(33) #define OpCode_hflex Make_OpCode_ESC(34) /* CFF, CFF2 */ #define OpCode_flex Make_OpCode_ESC(35) /* CFF, CFF2 */ #define OpCode_hflex1 Make_OpCode_ESC(36) /* CFF, CFF2 */ #define OpCode_flex1 Make_OpCode_ESC(37) /* CFF, CFF2 */ #define OpCode_Invalid 65535 struct Number { inline void init (void) { set_int (0); } inline void fini (void) {} inline void set_int (int v) { format = NumInt; u.int_val = v; } inline int to_int (void) const { return is_int ()? u.int_val: (int)to_real (); } inline void set_fixed (int32_t v) { format = NumFixed; u.fixed_val = v; } inline int32_t to_fixed (void) const { if (is_fixed ()) return u.fixed_val; else if (is_real ()) return (int32_t)(u.real_val * 65536.0f); else return (int32_t)(u.int_val << 16); } inline void set_real (float v) { format = NumReal; u.real_val = v; } inline float to_real (void) const { if (is_real ()) return u.real_val; if (is_fixed ()) return u.fixed_val / 65536.0f; else return (float)u.int_val; } inline int ceil (void) const { switch (format) { default: case NumInt: return u.int_val; case NumFixed: return (u.fixed_val + 0xFFFF) >> 16; case NumReal: return (int)ceilf (u.real_val); } } inline int floor (void) const { switch (format) { default: case NumInt: return u.int_val; case NumFixed: return u.fixed_val >> 16; case NumReal: return (int)floorf (u.real_val); } } inline bool in_int_range (void) const { if (is_int ()) return true; if (is_fixed () && ((u.fixed_val & 0xFFFF) == 0)) return true; else return ((float)(int16_t)to_int () == u.real_val); } inline bool operator > (const Number &n) const { switch (format) { default: case NumInt: return u.int_val > n.to_int (); case NumFixed: return u.fixed_val > n.to_fixed (); case NumReal: return u.real_val > n.to_real (); } } inline bool operator < (const Number &n) const { return n > *this; } inline bool operator >= (const Number &n) const { return ! (*this < n); } inline bool operator <= (const Number &n) const { return ! (*this > n); } inline const Number &operator += (const Number &n) { if (format == NumReal || n.format == NumReal) set_real (to_real () + n.to_real ()); else if (format == NumFixed || n.format == NumFixed) set_fixed (to_fixed () + n.to_fixed ()); else set_int (to_int () + n.to_int ()); return *this; } protected: enum NumFormat { NumInt, NumFixed, NumReal }; NumFormat format; union { int int_val; int32_t fixed_val; float real_val; } u; inline bool is_int (void) const { return format == NumInt; } inline bool is_fixed (void) const { return format == NumFixed; } inline bool is_real (void) const { return format == NumReal; } }; /* byte string */ struct UnsizedByteStr : UnsizedArrayOf { // encode 2-byte int (Dict/CharString) or 4-byte int (Dict) template inline static bool serialize_int (hb_serialize_context_t *c, OpCode intOp, int value) { TRACE_SERIALIZE (this); if (unlikely ((value < minVal || value > maxVal))) return_trace (false); HBUINT8 *p = c->allocate_size (1); if (unlikely (p == nullptr)) return_trace (false); p->set (intOp); INTTYPE *ip = c->allocate_size (INTTYPE::static_size); if (unlikely (ip == nullptr)) return_trace (false); ip->set ((unsigned int)value); return_trace (true); } inline static bool serialize_int4 (hb_serialize_context_t *c, int value) { return serialize_int (c, OpCode_longintdict, value); } inline static bool serialize_int2 (hb_serialize_context_t *c, int value) { return serialize_int (c, OpCode_shortint, value); } }; struct ByteStr { inline ByteStr (void) : str (&Null(UnsizedByteStr)), len (0) {} inline ByteStr (const UnsizedByteStr& s, unsigned int l) : str (&s), len (l) {} inline ByteStr (const char *s, unsigned int l=0) : str ((const UnsizedByteStr *)s), len (l) {} /* sub-string */ inline ByteStr (const ByteStr &bs, unsigned int offset, unsigned int len_) { str = (const UnsizedByteStr *)&bs.str[offset]; len = len_; } inline bool sanitize (hb_sanitize_context_t *c) const { return str->sanitize (c, len); } inline const HBUINT8& operator [] (unsigned int i) const { assert (str && (i < len)); return (*str)[i]; } inline bool serialize (hb_serialize_context_t *c, const ByteStr &src) { TRACE_SERIALIZE (this); HBUINT8 *dest = c->allocate_size (src.len); if (unlikely (dest == nullptr)) return_trace (false); memcpy (dest, src.str, src.len); return_trace (true); } inline unsigned int get_size (void) const { return len; } inline bool check_limit (unsigned int offset, unsigned int count) const { return (offset + count <= len); } const UnsizedByteStr *str; unsigned int len; }; struct SubByteStr { inline SubByteStr (void) { init (); } inline void init (void) { str = ByteStr (0); offset = 0; error = false; } inline void fini (void) {} inline SubByteStr (const ByteStr &str_, unsigned int offset_ = 0) : str (str_), offset (offset_), error (false) {} inline void reset (const ByteStr &str_, unsigned int offset_ = 0) { str = str_; offset = offset_; error = false; } inline const HBUINT8& operator [] (int i) { if (unlikely ((unsigned int)(offset + i) >= str.len)) { set_error (); return Null(HBUINT8); } else return str[offset + i]; } inline operator ByteStr (void) const { return ByteStr (str, offset, str.len - offset); } inline bool avail (unsigned int count=1) const { return str.check_limit (offset, count); } inline void inc (unsigned int count=1) { offset += count; assert (count <= str.len); } inline void set_error (void) { error = true; } inline bool in_error (void) const { return error; } ByteStr str; unsigned int offset; /* beginning of the sub-string within str */ protected: bool error; }; typedef hb_vector_t ByteStrArray; /* stack */ template struct Stack { inline void init (void) { error = false; count = 0; elements.init (); elements.resize (kSizeLimit); for (unsigned int i = 0; i < elements.len; i++) elements[i].init (); } inline void fini (void) { elements.fini_deep (); } inline ELEM& operator [] (unsigned int i) { if (unlikely (i >= count)) set_error (); return elements[i]; } inline void push (const ELEM &v) { if (likely (count < elements.len)) elements[count++] = v; else set_error (); } inline ELEM &push (void) { if (likely (count < elements.len)) return elements[count++]; else { set_error (); return Crap(ELEM); } } inline ELEM& pop (void) { if (likely (count > 0)) return elements[--count]; else { set_error (); return Crap(ELEM); } } inline void pop (unsigned int n) { if (likely (count >= n)) count -= n; else set_error (); } inline const ELEM& peek (void) { if (likely (count > 0)) return elements[count-1]; else { set_error (); return Null(ELEM); } } inline void unpop (void) { if (likely (count < elements.len)) count++; else set_error (); } inline void clear (void) { count = 0; } inline bool in_error (void) const { return (error || elements.in_error ()); } inline void set_error (void) { error = true; } inline unsigned int get_count (void) const { return count; } inline bool is_empty (void) const { return count == 0; } static const unsigned int kSizeLimit = LIMIT; protected: bool error; unsigned int count; hb_vector_t elements; }; /* argument stack */ template struct ArgStack : Stack { inline void push_int (int v) { ARG &n = S::push (); n.set_int (v); } inline void push_fixed (int32_t v) { ARG &n = S::push (); n.set_fixed (v); } inline void push_real (float v) { ARG &n = S::push (); n.set_real (v); } inline ARG& pop_num (void) { return this->pop (); } inline int pop_int (void) { return this->pop ().to_int (); } inline unsigned int pop_uint (void) { int i = pop_int (); if (unlikely (i < 0)) { i = 0; S::set_error (); } return (unsigned)i; } inline void push_longint_from_substr (SubByteStr& substr) { push_int ((substr[0] << 24) | (substr[1] << 16) | (substr[2] << 8) | (substr[3])); substr.inc (4); } inline bool push_fixed_from_substr (SubByteStr& substr) { if (unlikely (!substr.avail (4))) return false; push_fixed ((int32_t)*(const HBUINT32*)&substr[0]); substr.inc (4); return true; } private: typedef Stack S; }; /* an operator prefixed by its operands in a byte string */ struct OpStr { inline void init (void) {} inline void fini (void) {} OpCode op; ByteStr str; }; /* base of OP_SERIALIZER */ struct OpSerializer { protected: inline bool copy_opstr (hb_serialize_context_t *c, const OpStr& opstr) const { TRACE_SERIALIZE (this); HBUINT8 *d = c->allocate_size (opstr.str.len); if (unlikely (d == nullptr)) return_trace (false); memcpy (d, &opstr.str.str[0], opstr.str.len); return_trace (true); } }; template struct ParsedValues { inline void init (void) { opStart = 0; values.init (); } inline void fini (void) { values.fini_deep (); } inline void add_op (OpCode op, const SubByteStr& substr = SubByteStr ()) { VAL *val = values.push (); val->op = op; assert (substr.offset >= opStart); val->str = ByteStr (substr.str, opStart, substr.offset - opStart); opStart = substr.offset; } inline void add_op (OpCode op, const SubByteStr& substr, const VAL &v) { VAL *val = values.push (v); val->op = op; assert (substr.offset >= opStart); val->str = ByteStr (substr.str, opStart, substr.offset - opStart); opStart = substr.offset; } inline bool has_op (OpCode op) const { for (unsigned int i = 0; i < get_count (); i++) if (get_value (i).op == op) return true; return false; } inline unsigned get_count (void) const { return values.len; } inline const VAL &get_value (unsigned int i) const { return values[i]; } inline const VAL &operator [] (unsigned int i) const { return get_value (i); } unsigned int opStart; hb_vector_t values; }; template struct InterpEnv { inline void init (const ByteStr &str_) { substr.reset (str_); argStack.init (); error = false; } inline void fini (void) { argStack.fini (); } inline bool in_error (void) const { return error || substr.in_error () || argStack.in_error (); } inline void set_error (void) { error = true; } inline OpCode fetch_op (void) { OpCode op = OpCode_Invalid; if (unlikely (!substr.avail ())) return OpCode_Invalid; op = (OpCode)(unsigned char)substr[0]; if (op == OpCode_escape) { if (unlikely (!substr.avail ())) return OpCode_Invalid; op = Make_OpCode_ESC(substr[1]); substr.inc (); } substr.inc (); return op; } inline const ARG& eval_arg (unsigned int i) { return argStack[i]; } inline ARG& pop_arg (void) { return argStack.pop (); } inline void pop_n_args (unsigned int n) { assert (n <= argStack.get_count ()); argStack.pop (n); } inline void clear_args (void) { pop_n_args (argStack.get_count ()); } SubByteStr substr; ArgStack argStack; protected: bool error; }; typedef InterpEnv<> NumInterpEnv; template struct OpSet { static inline void process_op (OpCode op, InterpEnv& env) { switch (op) { case OpCode_shortint: env.argStack.push_int ((int16_t)((env.substr[0] << 8) | env.substr[1])); env.substr.inc (2); break; case OpCode_TwoBytePosInt0: case OpCode_TwoBytePosInt1: case OpCode_TwoBytePosInt2: case OpCode_TwoBytePosInt3: env.argStack.push_int ((int16_t)((op - OpCode_TwoBytePosInt0) * 256 + env.substr[0] + 108)); env.substr.inc (); break; case OpCode_TwoByteNegInt0: case OpCode_TwoByteNegInt1: case OpCode_TwoByteNegInt2: case OpCode_TwoByteNegInt3: env.argStack.push_int ((int16_t)(-(op - OpCode_TwoByteNegInt0) * 256 - env.substr[0] - 108)); env.substr.inc (); break; default: /* 1-byte integer */ if (likely ((OpCode_OneByteIntFirst <= op) && (op <= OpCode_OneByteIntLast))) { env.argStack.push_int ((int)op - 139); } else { /* invalid unknown operator */ env.clear_args (); env.set_error (); } break; } } }; template struct Interpreter { inline ~Interpreter(void) { fini (); } inline void fini (void) { env.fini (); } ENV env; }; } /* namespace CFF */ #endif /* HB_CFF_INTERP_COMMON_HH */