Provided by: tcllib_1.15-dfsg-2_all bug

NAME

       grammar::me::cpu::core - ME virtual machine state manipulation

SYNOPSIS

       package require Tcl  8.4

       package require grammar::me::cpu::core  ?0.2?

       ::grammar::me::cpu::core disasm asm

       ::grammar::me::cpu::core asm asm

       ::grammar::me::cpu::core new asm

       ::grammar::me::cpu::core lc state location

       ::grammar::me::cpu::core tok state ?from ?to??

       ::grammar::me::cpu::core pc state

       ::grammar::me::cpu::core iseof state

       ::grammar::me::cpu::core at state

       ::grammar::me::cpu::core cc state

       ::grammar::me::cpu::core sv state

       ::grammar::me::cpu::core ok state

       ::grammar::me::cpu::core error state

       ::grammar::me::cpu::core lstk state

       ::grammar::me::cpu::core astk state

       ::grammar::me::cpu::core mstk state

       ::grammar::me::cpu::core estk state

       ::grammar::me::cpu::core rstk state

       ::grammar::me::cpu::core nc state

       ::grammar::me::cpu::core ast state

       ::grammar::me::cpu::core halted state

       ::grammar::me::cpu::core code state

       ::grammar::me::cpu::core eof statevar

       ::grammar::me::cpu::core put statevar tok lex line col

       ::grammar::me::cpu::core run statevar ?n?

_________________________________________________________________

DESCRIPTION

       This package provides an implementation of the ME virtual machine.  Please go and read the
       document grammar::me_intro first if you do not know what a ME virtual machine is.

       This implementation represents each ME  virtual  machine  as  a  Tcl  value  and  provides
       commands   to  manipulate  and  query  such  values  to  show  the  effects  of  executing
       instructions, adding tokens, retrieving state, etc.

       The values fully follow the paradigm of Tcl that every value is a string  and  while  also
       allowing  C  implementations  for  a  proper Tcl_ObjType to keep all the important data in
       native data structures.  Because of the latter it  is  recommended  to  access  the  state
       values only through the commands of this package to ensure that internal representation is
       not shimmered away.

       The actual structure used by all state values is described in section CPU STATE.

API

       The package directly provides only a single command, and all  the  functionality  is  made
       available through its methods.

       ::grammar::me::cpu::core disasm asm
              This  method  returns  a list containing a disassembly of the match instructions in
              asm. The format of asm is specified in the section MATCH PROGRAM REPRESENTATION.

              Each element of the result contains instruction label, instruction  name,  and  the
              instruction  arguments,  in  this  order.  The  label can be the empty string. Jump
              destinations are shown as labels, strings and tokens  unencoded.  Token  names  are
              prefixed  with  their  numeric  id,  if,  and  only if a tokmap is defined. The two
              components are separated by a colon.

       ::grammar::me::cpu::core asm asm
              This method returns code in the  format  as  specified  in  section  MATCH  PROGRAM
              REPRESENTATION  generated  from  ME  assembly  code  asm, which is in the format as
              returned by the method disasm.

       ::grammar::me::cpu::core new asm
              This method creates state value for a ME virtual machine in its initial  state  and
              returns it as its result.

              The  argument matchcode contains a Tcl representation of the match instructions the
              machine has to execute while parsing the input stream. Its format is  specified  in
              the section MATCH PROGRAM REPRESENTATION.

              The   tokmap   argument  taken  by  the  implementation  provided  by  the  package
              grammar::me::tcl is here hidden inside of the match instructions and therefore  not
              needed.

       ::grammar::me::cpu::core lc state location
              This  method takes the state value of a ME virtual machine and uses it to convert a
              location in the input stream (as offset) into a line number and column  index.  The
              result  of  the  method  is a 2-element list containing the two pieces in the order
              mentioned in the previous sentence.

              Note that the method cannot convert locations which the machine has  not  yet  read
              from  the input stream. In other words, if the machine has read 7 characters so far
              it is possible to convert the offsets 0 to 6, but nothing beyond  that.  This  also
              shows  that  it  is not possible to convert offsets which refer to locations before
              the beginning of the stream.

              This utility allows higher levels to convert the  location  offsets  found  in  the
              error status and the AST into more human readable data.

       ::grammar::me::cpu::core tok state ?from ?to??
              This  method  takes  the state value of a ME virtual machine and returns a Tcl list
              containing the part of the input stream between the locations  from  and  to  (both
              inclusive). If to is not specified it will default to the value of from. If from is
              not specified either the whole input stream is returned.

              This method places the same restrictions on its location arguments  as  the  method
              lc.

       ::grammar::me::cpu::core pc state
              This  method  takes the state value of a ME virtual machine and returns the current
              value of the stored program counter.

       ::grammar::me::cpu::core iseof state
              This method takes the state value of a ME virtual machine and returns  the  current
              value of the stored eof flag.

       ::grammar::me::cpu::core at state
              This  method  takes the state value of a ME virtual machine and returns the current
              location in the input stream.

       ::grammar::me::cpu::core cc state
              This method takes the state value of a ME virtual machine and returns  the  current
              token.

       ::grammar::me::cpu::core sv state
              This  method  takes the state value of a ME virtual machine and returns the current
              semantic value stored in it.  This is an abstract syntax tree as specified  in  the
              document grammar::me_ast, section AST VALUES.

       ::grammar::me::cpu::core ok state
              This  method  takes  the  state value of a ME virtual machine and returns the match
              status stored in it.

       ::grammar::me::cpu::core error state
              This method takes the state value of a ME virtual machine and returns  the  current
              error status stored in it.

       ::grammar::me::cpu::core lstk state
              This  method takes the state value of a ME virtual machine and returns the location
              stack.

       ::grammar::me::cpu::core astk state
              This method takes the state value of a ME  virtual  machine  and  returns  the  AST
              stack.

       ::grammar::me::cpu::core mstk state
              This  method  takes  the  state  value  of a ME virtual machine and returns the AST
              marker stack.

       ::grammar::me::cpu::core estk state
              This method takes the state value of a ME virtual machine  and  returns  the  error
              stack.

       ::grammar::me::cpu::core rstk state
              This  method  takes  the  state  value  of  a  ME  virtual  machine and returns the
              subroutine return stack.

       ::grammar::me::cpu::core nc state
              This method takes the  state  value  of  a  ME  virtual  machine  and  returns  the
              nonterminal match cache as a dictionary.

       ::grammar::me::cpu::core ast state
              This  method takes the state value of a ME virtual machine and returns the abstract
              syntax tree currently at the top of the  AST  stack  stored  in  it.   This  is  an
              abstract  syntax  tree  as  specified  in the document grammar::me_ast, section AST
              VALUES.

       ::grammar::me::cpu::core halted state
              This method takes the state value of a ME virtual machine and returns  the  current
              halt status stored in it, i.e. if the machine has stopped or not.

       ::grammar::me::cpu::core code state
              This  method  takes  the  state  value of a ME virtual machine and returns the code
              stored in it, i.e. the instructions executed by the machine.

       ::grammar::me::cpu::core eof statevar
              This method takes the state value of a ME virtual machine as stored in the variable
              named  by statevar and modifies it so that the eof flag inside is set. This signals
              to the machine that whatever token are in the  input  queue  are  the  last  to  be
              processed. There will be no more.

       ::grammar::me::cpu::core put statevar tok lex line col
              This method takes the state value of a ME virtual machine as stored in the variable
              named by statevar and modifies it so that the token tok is added to the end of  the
              input queue, with associated lexeme data lex and line/column information.

              The  operation  will fail with an error if the eof flag of the machine has been set
              through the method eof.

       ::grammar::me::cpu::core run statevar ?n?
              This method takes the state value of a ME virtual machine as stored in the variable
              named by statevar, executes a number of instructions and stores the state resulting
              from their modifications back into the variable.

              The execution loop will run until either

              •      n instructions have been executed, or

              •      a halt instruction was executed, or

              •      the input queue is empty and the code is asking for more tokens to process.

       If no limit n was set only the last two conditions are checked for.

   MATCH PROGRAM REPRESENTATION
       A match program is represented by nested Tcl list. The first element, asm, is  a  list  of
       integer  numbers,  the  instructions  to execute, and their arguments. The second element,
       pool, is a list of strings, referenced by the  instructions,  for  error  messages,  token
       names,  etc.  The  third  element,  tokmap,  provides ordering information for the tokens,
       mapping their  names  to  their  numerical  rank.  This  element  can  be  empty,  forcing
       lexicographic comparison when matching ranges.

       All ME instructions are encoded as integer numbers, with the mapping given below. A number
       of the instructions, those which handle error messages,  have  been  given  an  additional
       argument  to  supply  that  message explicitly instead of having it constructed from token
       names, etc. This allows the machine state to store only the message  ids  instead  of  the
       full strings.

       Jump  destination  arguments  are  absolute  indices into the asm element, refering to the
       instruction to jump to. Any string arguments are absolute indices into the  pool  element.
       Tokens, characters, messages, and token (actually character) classes to match are coded as
       references into the pool as well.

       [1]    "ict_advance message"

       [2]    "ict_match_token tok message"

       [3]    "ict_match_tokrange tokbegin tokend message"

       [4]    "ict_match_tokclass code message"

       [5]    "inc_restore branchlabel nt"

       [6]    "inc_save nt"

       [7]    "icf_ntcall branchlabel"

       [8]    "icf_ntreturn"

       [9]    "iok_ok"

       [10]   "iok_fail"

       [11]   "iok_negate"

       [12]   "icf_jalways branchlabel"

       [13]   "icf_jok branchlabel"

       [14]   "icf_jfail branchlabel"

       [15]   "icf_halt"

       [16]   "icl_push"

       [17]   "icl_rewind"

       [18]   "icl_pop"

       [19]   "ier_push"

       [20]   "ier_clear"

       [21]   "ier_nonterminal message"

       [22]   "ier_merge"

       [23]   "isv_clear"

       [24]   "isv_terminal"

       [25]   "isv_nonterminal_leaf nt"

       [26]   "isv_nonterminal_range nt"

       [27]   "isv_nonterminal_reduce nt"

       [28]   "ias_push"

       [29]   "ias_mark"

       [30]   "ias_mrewind"

       [31]   "ias_mpop"

CPU STATE

       A state value is a list containing the following elements, in the order listed below:

       [1]    code: Match instructions, see MATCH PROGRAM REPRESENTATION.

       [2]    pc:   Program counter, int.

       [3]    halt: Halt flag, boolean.

       [4]    eof:  Eof flag, boolean

       [5]    tc:   Terminal cache, and input queue. Structure see below.

       [6]    cl:   Current location, int.

       [7]    ct:   Current token, string.

       [8]    ok:   Match status, boolean.

       [9]    sv:   Semantic value, list.

       [10]   er:   Error status, list.

       [11]   ls:   Location stack, list.

       [12]   as:   AST stack, list.

       [13]   ms:   AST marker stack, list.

       [14]   es:   Error stack, list.

       [15]   rs:   Return stack, list.

       [16]   nc:   Nonterminal cache, dictionary.

       tc, the input queue of tokens waiting for processing and the terminal cache containing the
       tokens  already  processing  are  one unified data structure simply holding all tokens and
       their information, with the current location separating that which has been processed from
       that  which  is  waiting.  Each element of the queue/cache is a list containing the token,
       its lexeme information, line number, and column index, in this order.

       All stacks have their top element aat the end, i.e.  pushing  an  item  is  equivalent  to
       appending to the list representing the stack, and popping it removes the last element.

       er,  the  error status is either empty or a list of two elements, a location in the input,
       and a list of messages, encoded as references into the pool element of the code.

       nc, the nonterminal cache is keyed by nonterminal name and location, each  value  a  four-
       element  list containing current location, match status, semantic value, and error status,
       in this order.

BUGS, IDEAS, FEEDBACK

       This document, and the package it describes,  will  undoubtedly  contain  bugs  and  other
       problems.   Please  report  such  in  the  category  grammar_me  of the Tcllib SF Trackers
       [http://sourceforge.net/tracker/?group_id=12883].   Please  also  report  any  ideas   for
       enhancements you may have for either package and/or documentation.

KEYWORDS

       grammar, parsing, virtual machine

CATEGORY

       Grammars and finite automata

COPYRIGHT

       Copyright (c) 2005-2006 Andreas Kupries <andreas_kupries@users.sourceforge.net>