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diff --git a/gfx/graphite2/src/Code.cpp b/gfx/graphite2/src/Code.cpp
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+++ b/gfx/graphite2/src/Code.cpp
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+/* GRAPHITE2 LICENSING
+
+ Copyright 2010, SIL International
+ All rights reserved.
+
+ This library is free software; you can redistribute it and/or modify
+ it under the terms of the GNU Lesser General Public License as published
+ by the Free Software Foundation; either version 2.1 of License, or
+ (at your option) any later version.
+
+ This program is distributed in the hope that it will be useful,
+ but WITHOUT ANY WARRANTY; without even the implied warranty of
+ MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+ Lesser General Public License for more details.
+
+ You should also have received a copy of the GNU Lesser General Public
+ License along with this library in the file named "LICENSE".
+ If not, write to the Free Software Foundation, 51 Franklin Street,
+ Suite 500, Boston, MA 02110-1335, USA or visit their web page on the
+ internet at http://www.fsf.org/licenses/lgpl.html.
+
+Alternatively, the contents of this file may be used under the terms of the
+Mozilla Public License (http://mozilla.org/MPL) or the GNU General Public
+License, as published by the Free Software Foundation, either version 2
+of the License or (at your option) any later version.
+*/
+// This class represents loaded graphite stack machine code. It performs
+// basic sanity checks, on the incoming code to prevent more obvious problems
+// from crashing graphite.
+// Author: Tim Eves
+
+#include <cassert>
+#include <cstddef>
+#include <cstdlib>
+#include <cstring>
+#include "graphite2/Segment.h"
+#include "inc/Code.h"
+#include "inc/Face.h"
+#include "inc/GlyphFace.h"
+#include "inc/GlyphCache.h"
+#include "inc/Machine.h"
+#include "inc/Rule.h"
+#include "inc/Silf.h"
+
+#include <cstdio>
+
+#ifdef NDEBUG
+#ifdef __GNUC__
+#pragma GCC diagnostic ignored "-Wunused-parameter"
+#endif
+#endif
+
+
+using namespace graphite2;
+using namespace vm;
+
+namespace {
+
+inline bool is_return(const instr i) {
+ const opcode_t * opmap = Machine::getOpcodeTable();
+ const instr pop_ret = *opmap[POP_RET].impl,
+ ret_zero = *opmap[RET_ZERO].impl,
+ ret_true = *opmap[RET_TRUE].impl;
+ return i == pop_ret || i == ret_zero || i == ret_true;
+}
+
+struct context
+{
+ context(uint8 ref=0) : codeRef(ref) {flags.changed=false; flags.referenced=false;}
+ struct {
+ uint8 changed:1,
+ referenced:1;
+ } flags;
+ uint8 codeRef;
+};
+
+} // end namespace
+
+
+class Machine::Code::decoder
+{
+public:
+ struct limits;
+ static const int NUMCONTEXTS = 256;
+
+ decoder(limits & lims, Code &code, enum passtype pt) throw();
+
+ bool load(const byte * bc_begin, const byte * bc_end);
+ void apply_analysis(instr * const code, instr * code_end);
+ byte max_ref() { return _max_ref; }
+ int out_index() const { return _out_index; }
+
+private:
+ void set_ref(int index) throw();
+ void set_noref(int index) throw();
+ void set_changed(int index) throw();
+ opcode fetch_opcode(const byte * bc);
+ void analyse_opcode(const opcode, const int8 * const dp) throw();
+ bool emit_opcode(opcode opc, const byte * & bc);
+ bool validate_opcode(const byte opc, const byte * const bc);
+ bool valid_upto(const uint16 limit, const uint16 x) const throw();
+ bool test_context() const throw();
+ bool test_ref(int8 index) const throw();
+ void failure(const status_t s) const throw() { _code.failure(s); }
+
+ Code & _code;
+ int _out_index;
+ uint16 _out_length;
+ instr * _instr;
+ byte * _data;
+ limits & _max;
+ enum passtype _passtype;
+ int _stack_depth;
+ bool _in_ctxt_item;
+ int16 _slotref;
+ context _contexts[NUMCONTEXTS];
+ byte _max_ref;
+};
+
+
+struct Machine::Code::decoder::limits
+{
+ const byte * bytecode;
+ const uint8 pre_context;
+ const uint16 rule_length,
+ classes,
+ glyf_attrs,
+ features;
+ const byte attrid[gr_slatMax];
+};
+
+inline Machine::Code::decoder::decoder(limits & lims, Code &code, enum passtype pt) throw()
+: _code(code),
+ _out_index(code._constraint ? 0 : lims.pre_context),
+ _out_length(code._constraint ? 1 : lims.rule_length),
+ _instr(code._code), _data(code._data), _max(lims), _passtype(pt),
+ _stack_depth(0),
+ _in_ctxt_item(false),
+ _slotref(0),
+ _max_ref(0)
+{ }
+
+
+
+Machine::Code::Code(bool is_constraint, const byte * bytecode_begin, const byte * const bytecode_end,
+ uint8 pre_context, uint16 rule_length, const Silf & silf, const Face & face,
+ enum passtype pt, byte * * const _out)
+ : _code(0), _data(0), _data_size(0), _instr_count(0), _max_ref(0), _status(loaded),
+ _constraint(is_constraint), _modify(false), _delete(false), _own(_out==0)
+{
+#ifdef GRAPHITE2_TELEMETRY
+ telemetry::category _code_cat(face.tele.code);
+#endif
+ assert(bytecode_begin != 0);
+ if (bytecode_begin == bytecode_end)
+ {
+ // ::new (this) Code();
+ return;
+ }
+ assert(bytecode_end > bytecode_begin);
+ const opcode_t * op_to_fn = Machine::getOpcodeTable();
+
+ // Allocate code and data target buffers, these sizes are a worst case
+ // estimate. Once we know their real sizes the we'll shrink them.
+ if (_out) _code = reinterpret_cast<instr *>(*_out);
+ else _code = static_cast<instr *>(malloc(estimateCodeDataOut(bytecode_end-bytecode_begin, 1, is_constraint ? 0 : rule_length)));
+ _data = reinterpret_cast<byte *>(_code + (bytecode_end - bytecode_begin));
+
+ if (!_code || !_data) {
+ failure(alloc_failed);
+ return;
+ }
+
+ decoder::limits lims = {
+ bytecode_end,
+ pre_context,
+ rule_length,
+ silf.numClasses(),
+ face.glyphs().numAttrs(),
+ face.numFeatures(),
+ {1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,1,255,
+ 1,1,1,1,1,1,1,1,
+ 1,1,1,1,1,1,0,0,
+ 0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0,0,
+ 0,0,0,0,0,0,0, silf.numUser()}
+ };
+
+ decoder dec(lims, *this, pt);
+ if(!dec.load(bytecode_begin, bytecode_end))
+ return;
+
+ // Is this an empty program?
+ if (_instr_count == 0)
+ {
+ release_buffers();
+ ::new (this) Code();
+ return;
+ }
+
+ // When we reach the end check we've terminated it correctly
+ if (!is_return(_code[_instr_count-1])) {
+ failure(missing_return);
+ return;
+ }
+
+ assert((_constraint && immutable()) || !_constraint);
+ dec.apply_analysis(_code, _code + _instr_count);
+ _max_ref = dec.max_ref();
+
+ // Now we know exactly how much code and data the program really needs
+ // realloc the buffers to exactly the right size so we don't waste any
+ // memory.
+ assert((bytecode_end - bytecode_begin) >= ptrdiff_t(_instr_count));
+ assert((bytecode_end - bytecode_begin) >= ptrdiff_t(_data_size));
+ memmove(_code + (_instr_count+1), _data, _data_size*sizeof(byte));
+ size_t const total_sz = ((_instr_count+1) + (_data_size + sizeof(instr)-1)/sizeof(instr))*sizeof(instr);
+ if (_out)
+ *_out += total_sz;
+ else
+ _code = static_cast<instr *>(realloc(_code, total_sz));
+ _data = reinterpret_cast<byte *>(_code + (_instr_count+1));
+
+ if (!_code)
+ {
+ failure(alloc_failed);
+ return;
+ }
+
+ // Make this RET_ZERO, we should never reach this but just in case ...
+ _code[_instr_count] = op_to_fn[RET_ZERO].impl[_constraint];
+
+#ifdef GRAPHITE2_TELEMETRY
+ telemetry::count_bytes(_data_size + (_instr_count+1)*sizeof(instr));
+#endif
+}
+
+Machine::Code::~Code() throw ()
+{
+ if (_own)
+ release_buffers();
+}
+
+
+bool Machine::Code::decoder::load(const byte * bc, const byte * bc_end)
+{
+ _max.bytecode = bc_end;
+ while (bc < bc_end)
+ {
+ const opcode opc = fetch_opcode(bc++);
+ if (opc == vm::MAX_OPCODE)
+ return false;
+
+ analyse_opcode(opc, reinterpret_cast<const int8 *>(bc));
+
+ if (!emit_opcode(opc, bc))
+ return false;
+ }
+
+ return bool(_code);
+}
+
+// Validation check and fixups.
+//
+
+opcode Machine::Code::decoder::fetch_opcode(const byte * bc)
+{
+ const byte opc = *bc++;
+
+ // Do some basic sanity checks based on what we know about the opcode
+ if (!validate_opcode(opc, bc)) return MAX_OPCODE;
+
+ // And check it's arguments as far as possible
+ switch (opcode(opc))
+ {
+ case NOP :
+ break;
+ case PUSH_BYTE :
+ case PUSH_BYTEU :
+ case PUSH_SHORT :
+ case PUSH_SHORTU :
+ case PUSH_LONG :
+ ++_stack_depth;
+ break;
+ case ADD :
+ case SUB :
+ case MUL :
+ case DIV :
+ case MIN_ :
+ case MAX_ :
+ case AND :
+ case OR :
+ case EQUAL :
+ case NOT_EQ :
+ case LESS :
+ case GTR :
+ case LESS_EQ :
+ case GTR_EQ :
+ case BITOR :
+ case BITAND :
+ if (--_stack_depth <= 0)
+ failure(underfull_stack);
+ break;
+ case NEG :
+ case TRUNC8 :
+ case TRUNC16 :
+ case NOT :
+ case BITNOT :
+ case BITSET :
+ if (_stack_depth <= 0)
+ failure(underfull_stack);
+ break;
+ case COND :
+ _stack_depth -= 2;
+ if (_stack_depth <= 0)
+ failure(underfull_stack);
+ break;
+ case NEXT :
+ case NEXT_N : // runtime checked
+ case COPY_NEXT :
+ ++_out_index;
+ if (_out_index < -1 || _out_index > _out_length || _slotref > _max.rule_length)
+ failure(out_of_range_data);
+ break;
+ case PUT_GLYPH_8BIT_OBS :
+ valid_upto(_max.classes, bc[0]);
+ test_context();
+ break;
+ case PUT_SUBS_8BIT_OBS :
+ test_ref(int8(bc[0]));
+ valid_upto(_max.classes, bc[1]);
+ valid_upto(_max.classes, bc[2]);
+ test_context();
+ break;
+ case PUT_COPY :
+ test_ref(int8(bc[0]));
+ test_context();
+ break;
+ case INSERT :
+ if (_passtype >= PASS_TYPE_POSITIONING)
+ failure(invalid_opcode);
+ ++_out_length;
+ if (_out_index < 0) ++_out_index;
+ if (_out_index < -1 || _out_index >= _out_length)
+ failure(out_of_range_data);
+ break;
+ case DELETE :
+ if (_passtype >= PASS_TYPE_POSITIONING)
+ failure(invalid_opcode);
+ if (_out_index < _max.pre_context)
+ failure(out_of_range_data);
+ --_out_index;
+ --_out_length;
+ if (_out_index < -1 || _out_index > _out_length)
+ failure(out_of_range_data);
+ break;
+ case ASSOC :
+ if (bc[0] == 0)
+ failure(out_of_range_data);
+ for (uint8 num = bc[0]; num; --num)
+ test_ref(int8(bc[num]));
+ test_context();
+ break;
+ case CNTXT_ITEM :
+ valid_upto(_max.rule_length, _max.pre_context + int8(bc[0]));
+ if (bc + 2 + bc[1] >= _max.bytecode) failure(jump_past_end);
+ if (_in_ctxt_item) failure(nested_context_item);
+ break;
+ case ATTR_SET :
+ case ATTR_ADD :
+ case ATTR_SUB :
+ case ATTR_SET_SLOT :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
+ valid_upto(gr_slatMax, bc[0]);
+ if (attrCode(bc[0]) == gr_slatUserDefn) // use IATTR for user attributes
+ failure(out_of_range_data);
+ test_context();
+ break;
+ case IATTR_SET_SLOT :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
+ if (valid_upto(gr_slatMax, bc[0]))
+ valid_upto(_max.attrid[bc[0]], bc[1]);
+ test_context();
+ break;
+ case PUSH_SLOT_ATTR :
+ ++_stack_depth;
+ valid_upto(gr_slatMax, bc[0]);
+ test_ref(int8(bc[1]));
+ if (attrCode(bc[0]) == gr_slatUserDefn) // use IATTR for user attributes
+ failure(out_of_range_data);
+ break;
+ case PUSH_GLYPH_ATTR_OBS :
+ case PUSH_ATT_TO_GATTR_OBS :
+ ++_stack_depth;
+ valid_upto(_max.glyf_attrs, bc[0]);
+ test_ref(int8(bc[1]));
+ break;
+ case PUSH_ATT_TO_GLYPH_METRIC :
+ case PUSH_GLYPH_METRIC :
+ ++_stack_depth;
+ valid_upto(kgmetDescent, bc[0]);
+ test_ref(int8(bc[1]));
+ // level: dp[2] no check necessary
+ break;
+ case PUSH_FEAT :
+ ++_stack_depth;
+ valid_upto(_max.features, bc[0]);
+ test_ref(int8(bc[1]));
+ break;
+ case PUSH_ISLOT_ATTR :
+ ++_stack_depth;
+ if (valid_upto(gr_slatMax, bc[0]))
+ {
+ test_ref(int8(bc[1]));
+ valid_upto(_max.attrid[bc[0]], bc[2]);
+ }
+ break;
+ case PUSH_IGLYPH_ATTR :// not implemented
+ ++_stack_depth;
+ break;
+ case POP_RET :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
+ GR_FALLTHROUGH;
+ // no break
+ case RET_ZERO :
+ case RET_TRUE :
+ break;
+ case IATTR_SET :
+ case IATTR_ADD :
+ case IATTR_SUB :
+ if (--_stack_depth < 0)
+ failure(underfull_stack);
+ if (valid_upto(gr_slatMax, bc[0]))
+ valid_upto(_max.attrid[bc[0]], bc[1]);
+ test_context();
+ break;
+ case PUSH_PROC_STATE : // dummy: dp[0] no check necessary
+ case PUSH_VERSION :
+ ++_stack_depth;
+ break;
+ case PUT_SUBS :
+ test_ref(int8(bc[0]));
+ valid_upto(_max.classes, uint16(bc[1]<< 8) | bc[2]);
+ valid_upto(_max.classes, uint16(bc[3]<< 8) | bc[4]);
+ test_context();
+ break;
+ case PUT_SUBS2 : // not implemented
+ case PUT_SUBS3 : // not implemented
+ break;
+ case PUT_GLYPH :
+ valid_upto(_max.classes, uint16(bc[0]<< 8) | bc[1]);
+ test_context();
+ break;
+ case PUSH_GLYPH_ATTR :
+ case PUSH_ATT_TO_GLYPH_ATTR :
+ ++_stack_depth;
+ valid_upto(_max.glyf_attrs, uint16(bc[0]<< 8) | bc[1]);
+ test_ref(int8(bc[2]));
+ break;
+ case SET_FEAT :
+ valid_upto(_max.features, bc[0]);
+ test_ref(int8(bc[1]));
+ break;
+ default:
+ failure(invalid_opcode);
+ break;
+ }
+
+ return bool(_code) ? opcode(opc) : MAX_OPCODE;
+}
+
+
+void Machine::Code::decoder::analyse_opcode(const opcode opc, const int8 * arg) throw()
+{
+ switch (opc)
+ {
+ case DELETE :
+ _code._delete = true;
+ break;
+ case ASSOC :
+ set_changed(0);
+// for (uint8 num = arg[0]; num; --num)
+// _analysis.set_noref(num);
+ break;
+ case PUT_GLYPH_8BIT_OBS :
+ case PUT_GLYPH :
+ _code._modify = true;
+ set_changed(0);
+ break;
+ case ATTR_SET :
+ case ATTR_ADD :
+ case ATTR_SUB :
+ case ATTR_SET_SLOT :
+ case IATTR_SET_SLOT :
+ case IATTR_SET :
+ case IATTR_ADD :
+ case IATTR_SUB :
+ set_noref(0);
+ break;
+ case NEXT :
+ case COPY_NEXT :
+ ++_slotref;
+ _contexts[_slotref] = context(_code._instr_count+1);
+ // if (_analysis.slotref > _analysis.max_ref) _analysis.max_ref = _analysis.slotref;
+ break;
+ case INSERT :
+ if (_slotref >= 0) --_slotref;
+ _code._modify = true;
+ break;
+ case PUT_SUBS_8BIT_OBS : // slotref on 1st parameter
+ case PUT_SUBS :
+ _code._modify = true;
+ set_changed(0);
+ GR_FALLTHROUGH;
+ // no break
+ case PUT_COPY :
+ if (arg[0] != 0) { set_changed(0); _code._modify = true; }
+ set_ref(arg[0]);
+ break;
+ case PUSH_GLYPH_ATTR_OBS :
+ case PUSH_SLOT_ATTR :
+ case PUSH_GLYPH_METRIC :
+ case PUSH_ATT_TO_GATTR_OBS :
+ case PUSH_ATT_TO_GLYPH_METRIC :
+ case PUSH_ISLOT_ATTR :
+ case PUSH_FEAT :
+ case SET_FEAT :
+ set_ref(arg[1]);
+ break;
+ case PUSH_ATT_TO_GLYPH_ATTR :
+ case PUSH_GLYPH_ATTR :
+ set_ref(arg[2]);
+ break;
+ default:
+ break;
+ }
+}
+
+
+bool Machine::Code::decoder::emit_opcode(opcode opc, const byte * & bc)
+{
+ const opcode_t * op_to_fn = Machine::getOpcodeTable();
+ const opcode_t & op = op_to_fn[opc];
+ if (op.impl[_code._constraint] == 0)
+ {
+ failure(unimplemented_opcode_used);
+ return false;
+ }
+
+ const size_t param_sz = op.param_sz == VARARGS ? bc[0] + 1 : op.param_sz;
+
+ // Add this instruction
+ *_instr++ = op.impl[_code._constraint];
+ ++_code._instr_count;
+
+ // Grab the parameters
+ if (param_sz) {
+ memcpy(_data, bc, param_sz * sizeof(byte));
+ bc += param_sz;
+ _data += param_sz;
+ _code._data_size += param_sz;
+ }
+
+ // recursively decode a context item so we can split the skip into
+ // instruction and data portions.
+ if (opc == CNTXT_ITEM)
+ {
+ assert(_out_index == 0);
+ _in_ctxt_item = true;
+ _out_index = _max.pre_context + int8(_data[-2]);
+ _slotref = int8(_data[-2]);
+ _out_length = _max.rule_length;
+
+ const size_t ctxt_start = _code._instr_count;
+ byte & instr_skip = _data[-1];
+ byte & data_skip = *_data++;
+ ++_code._data_size;
+ const byte *curr_end = _max.bytecode;
+
+ if (load(bc, bc + instr_skip))
+ {
+ bc += instr_skip;
+ data_skip = instr_skip - (_code._instr_count - ctxt_start);
+ instr_skip = _code._instr_count - ctxt_start;
+ _max.bytecode = curr_end;
+
+ _out_length = 1;
+ _out_index = 0;
+ _slotref = 0;
+ _in_ctxt_item = false;
+ }
+ else
+ {
+ _out_index = 0;
+ _slotref = 0;
+ return false;
+ }
+ }
+
+ return bool(_code);
+}
+
+
+void Machine::Code::decoder::apply_analysis(instr * const code, instr * code_end)
+{
+ // insert TEMP_COPY commands for slots that need them (that change and are referenced later)
+ int tempcount = 0;
+ if (_code._constraint) return;
+
+ const instr temp_copy = Machine::getOpcodeTable()[TEMP_COPY].impl[0];
+ for (const context * c = _contexts, * const ce = c + _slotref; c < ce; ++c)
+ {
+ if (!c->flags.referenced || !c->flags.changed) continue;
+
+ instr * const tip = code + c->codeRef + tempcount;
+ memmove(tip+1, tip, (code_end - tip) * sizeof(instr));
+ *tip = temp_copy;
+ ++code_end;
+ ++tempcount;
+ _code._delete = true;
+ }
+
+ _code._instr_count = code_end - code;
+}
+
+
+inline
+bool Machine::Code::decoder::validate_opcode(const byte opc, const byte * const bc)
+{
+ if (opc >= MAX_OPCODE)
+ {
+ failure(invalid_opcode);
+ return false;
+ }
+ const opcode_t & op = Machine::getOpcodeTable()[opc];
+ if (op.impl[_code._constraint] == 0)
+ {
+ failure(unimplemented_opcode_used);
+ return false;
+ }
+ if (op.param_sz == VARARGS && bc >= _max.bytecode)
+ {
+ failure(arguments_exhausted);
+ return false;
+ }
+ const size_t param_sz = op.param_sz == VARARGS ? bc[0] + 1 : op.param_sz;
+ if (bc - 1 + param_sz >= _max.bytecode)
+ {
+ failure(arguments_exhausted);
+ return false;
+ }
+ return true;
+}
+
+
+bool Machine::Code::decoder::valid_upto(const uint16 limit, const uint16 x) const throw()
+{
+ const bool t = (limit != 0) && (x < limit);
+ if (!t) failure(out_of_range_data);
+ return t;
+}
+
+inline
+bool Machine::Code::decoder::test_ref(int8 index) const throw()
+{
+ if (_code._constraint && !_in_ctxt_item)
+ {
+ if (index > 0 || -index > _max.pre_context)
+ {
+ failure(out_of_range_data);
+ return false;
+ }
+ }
+ else
+ return valid_upto(_max.rule_length, _slotref + _max.pre_context + index);
+ return true;
+}
+
+bool Machine::Code::decoder::test_context() const throw()
+{
+ if (_out_index >= _out_length || _out_index < 0 || _slotref >= NUMCONTEXTS - 1)
+ {
+ failure(out_of_range_data);
+ return false;
+ }
+ return true;
+}
+
+inline
+void Machine::Code::failure(const status_t s) throw() {
+ release_buffers();
+ _status = s;
+}
+
+
+inline
+void Machine::Code::decoder::set_ref(int index) throw() {
+ if (index + _slotref < 0 || index + _slotref >= NUMCONTEXTS) return;
+ _contexts[index + _slotref].flags.referenced = true;
+ if (index + _slotref > _max_ref) _max_ref = index + _slotref;
+}
+
+
+inline
+void Machine::Code::decoder::set_noref(int index) throw() {
+ if (index + _slotref < 0 || index + _slotref >= NUMCONTEXTS) return;
+ if (index + _slotref > _max_ref) _max_ref = index + _slotref;
+}
+
+
+inline
+void Machine::Code::decoder::set_changed(int index) throw() {
+ if (index + _slotref < 0 || index + _slotref >= NUMCONTEXTS) return;
+ _contexts[index + _slotref].flags.changed= true;
+ if (index + _slotref > _max_ref) _max_ref = index + _slotref;
+}
+
+
+void Machine::Code::release_buffers() throw()
+{
+ if (_own)
+ free(_code);
+ _code = 0;
+ _data = 0;
+ _own = false;
+}
+
+
+int32 Machine::Code::run(Machine & m, slotref * & map) const
+{
+// assert(_own);
+ assert(*this); // Check we are actually runnable
+
+ if (m.slotMap().size() <= size_t(_max_ref + m.slotMap().context())
+ || m.slotMap()[_max_ref + m.slotMap().context()] == 0)
+ {
+ m._status = Machine::slot_offset_out_bounds;
+ return 1;
+// return m.run(_code, _data, map);
+ }
+
+ return m.run(_code, _data, map);
+}
+