/* * Copyright © 2018 Adobe Systems Incorporated. * * 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_DICT_COMMON_HH #define HB_CFF_INTERP_DICT_COMMON_HH #include "hb-cff-interp-common.hh" #include namespace CFF { using namespace OT; /* an opstr and the parsed out dict value(s) */ struct DictVal : OpStr { inline void init (void) { single_val.set_int (0); multi_val.init (); } inline void fini (void) { multi_val.fini (); } Number single_val; hb_vector_t multi_val; }; typedef DictVal NumDictVal; template struct DictValues { inline void init (void) { opStart = 0; values.init (); } inline void fini (void) { values.fini (); } inline void addOp (OpCode op, const SubByteStr& substr = SubByteStr ()) { VAL *val = values.push (); val->op = op; val->str = ByteStr (substr.str, opStart, substr.offset - opStart); opStart = substr.offset; } inline void addOp (OpCode op, const SubByteStr& substr, const VAL &v) { VAL *val = values.push (v); val->op = op; val->str = ByteStr (substr.str, opStart, substr.offset - opStart); opStart = substr.offset; } inline bool hasOp (OpCode op) const { for (unsigned int i = 0; i < getNumValues (); i++) if (getValue (i).op == op) return true; return false; } inline unsigned getNumValues (void) const { return values.len; } inline const VAL &getValue (unsigned int i) const { return values[i]; } inline const VAL &operator [] (unsigned int i) const { return getValue (i); } unsigned int opStart; hb_vector_t values; }; template struct TopDictValues : DictValues { inline void init (void) { DictValues::init (); charStringsOffset = 0; FDArrayOffset = 0; } inline void fini (void) { DictValues::fini (); } inline unsigned int calculate_serialized_op_size (const OPSTR& opstr) const { switch (opstr.op) { case OpCode_CharStrings: case OpCode_FDArray: return OpCode_Size (OpCode_longintdict) + 4 + OpCode_Size (opstr.op); default: return opstr.str.len; } } unsigned int charStringsOffset; unsigned int FDArrayOffset; }; struct DictOpSet : OpSet { static inline bool process_op (OpCode op, InterpEnv& env) { switch (op) { case OpCode_longintdict: /* 5-byte integer */ return env.argStack.push_longint_from_substr (env.substr); case OpCode_BCD: /* real number */ float v; if (unlikely (!env.argStack.check_overflow (1) || !parse_bcd (env.substr, v))) return false; env.argStack.push_real (v); return true; default: return OpSet::process_op (op, env); } return true; } static inline bool parse_bcd (SubByteStr& substr, float& v) { v = 0.0f; bool neg = false; double int_part = 0; long frac_part = 0; unsigned int frac_count = 0; bool exp_neg = false; unsigned int exp_part = 0; enum Part { INT_PART=0, FRAC_PART, EXP_PART } part = INT_PART; enum Nibble { DECIMAL=10, EXP_POS, EXP_NEG, RESERVED, NEG, END }; double value = 0.0; unsigned char byte = 0; for (unsigned int i = 0;; i++) { char d; if ((i & 1) == 0) { if (!substr.avail ()) return false; byte = substr[0]; substr.inc (); d = byte >> 4; } else d = byte & 0x0F; switch (d) { case RESERVED: return false; case END: value = (double)(neg? -int_part: int_part); if (frac_count > 0) value += (frac_part / pow (10.0, (double)frac_count)); if (exp_part != 0) { if (exp_neg) value /= pow (10.0, (double)exp_part); else value *= pow (10.0, (double)exp_part); } v = (float)value; return true; case NEG: if (i != 0) return false; neg = true; break; case DECIMAL: if (part != INT_PART) return false; part = FRAC_PART; break; case EXP_NEG: exp_neg = true; /* NO BREAK */ case EXP_POS: if (part == EXP_PART) return false; part = EXP_PART; break; default: switch (part) { default: case INT_PART: int_part = (int_part * 10) + d; break; case FRAC_PART: frac_part = (frac_part * 10) + d; frac_count++; break; case EXP_PART: exp_part = (exp_part * 10) + d; break; } } } return false; } static inline bool is_hint_op (OpCode op) { switch (op) { case OpCode_BlueValues: case OpCode_OtherBlues: case OpCode_FamilyBlues: case OpCode_FamilyOtherBlues: case OpCode_StemSnapH: case OpCode_StemSnapV: case OpCode_StdHW: case OpCode_StdVW: case OpCode_BlueScale: case OpCode_BlueShift: case OpCode_BlueFuzz: case OpCode_ForceBold: case OpCode_LanguageGroup: case OpCode_ExpansionFactor: return true; default: return false; } } }; template struct TopDictOpSet : DictOpSet { static inline bool process_op (OpCode op, InterpEnv& env, TopDictValues & dictval) { switch (op) { case OpCode_CharStrings: if (unlikely (!env.argStack.check_pop_uint (dictval.charStringsOffset))) return false; env.clear_args (); break; case OpCode_FDArray: if (unlikely (!env.argStack.check_pop_uint (dictval.FDArrayOffset))) return false; env.clear_args (); break; default: return DictOpSet::process_op (op, env); } return true; } }; template struct DictInterpreter : Interpreter { inline bool interpret (PARAM& param) { param.init (); do { OpCode op; if (unlikely (!SUPER::env.fetch_op (op) || !OPSET::process_op (op, SUPER::env, param))) return false; } while (SUPER::env.substr.avail ()); return true; } private: typedef Interpreter SUPER; }; } /* namespace CFF */ #endif /* HB_CFF_INTERP_DICT_COMMON_HH */