VM for transfer

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Instruction Sets

Mnemonic Opcode
(in hex)
Other operands Stack
[before]→[after]
Description
push - value [empty] → value Pushes a value in stack
pushv - var [empty] → value Evaluates the var and pushes its value in stack
pusht - var [empty] → <value> Evaluates the var and pushes its value as a tag in stack
pushbl - N/A [empty] → blank pushes a blank in the stack
pushsb - pos [empty] → superblank pushes the superblank at 'pos' in stack
pushz - N/A [empty] → [zero_flag] pushes the current value of zero_flag in stack
pushnz - N/A [empty] → [not_zero_flag] first takes the NOT of the current value of zero_flag, then pushes the value in stack
cliptl - N/A pos, regex → value Matches 'regex' in target language 'pos' and pushes the value in stack
clipsl - N/A pos, regex → value Matches 'regex' in source language 'pos' and pushes the value in stack
storetl - N/A pos, regex, data → value Replace 'regex' in source language 'pos' with 'data'
addtrie - address pattern, pattern, ..., no_of_patterns → [empty] Pops 'no_of_pattern' amount of data from the stack, combine these patterns, add that to the trie pointing to given 'address'
lu - num lemma, tag1, ..., tagn → ^(lexical_unit)$ Pops 'num' amount of data from the stack and creates a lexical unit ^... ...$ with them, pushes the lu back in the stack
brace - num lu1, blank1, lu2, blank2, ..., lun → {... ...} Pops 'num' amount of data from the stack and creates the braced version {... ... ...}, pushes it back in the stack
chunk - num chunk_name, tag1, tag2, ... , {^... ...$} → ^chunk_name<tag1>...<tagn>{^... ...$}$ Pops 'num' amount of data from the stack and creates the chunk, pushes back in the stack
out - num chunk1, chunk2, ... → [empty] Pops 'num' amount of data from the stack and puts then in standard output
cmpi - N/A data1, data2 → [empty] Pops data1 and data2, string compares them (ignorecase), if matches (successful), set zero flag to 1 (it means we have a zero)
cmp - N/A data1, data2 → [empty] Pops data1 and data2, string compares them (case sensitive), if matches (successful), set zero flag to 1
match - N/A string, regex → [empty] Pops 'string' and 'regex', matches the string against the regex, if matches (successful), set ZF = 1
jmp - label [empty] → [empty] Jumps to the label (unconditional jump)
jz - label [empty] → [empty] Jumps to the label if zero flag is 1
jnz - label [empty] → [empty] Jumps to the label if zero flag is 0
hlt - N/A Halts the program
return - N/A PC → [empty] Returns from a subroutine
nop - N/A No operation

Sample compilation of XML code fragments

Example 1

XML t1x Code: chunking

<out>
  <chunk name="det_det_nom_adj" case="caseFirstWord">
    <tags>
      <tag><lit-tag v="SN"/></tag>
      <tag></tag>
      <tag></tag>
      <tag></tag>
    </tags>
    <lu>
      <clip pos="1" side="tl" part="lem"/>
      <clip pos="1" side="tl" part="a_det"/>
      <clip pos="1" side="tl" part="gen_sense_mf" link-to="3"/>
      <clip pos="1" side="tl" part="gen_mf"/>
      <clip pos="1" side="tl" part="nbr_sense_sp" link-to="4"/>
      <clip pos="1" side="tl" part="nbr_sp"/>
    </lu>
    
    <lu>
      <lit v="el"/>
      <lit-tag v="det.def"/>
      <clip pos="1" side="tl" part="gen_sense_mf" link-to="3"/>
      <lit-tag v="pl"/>
    </lu>
    
    <lu>
      <clip pos="3" side="tl" part="lemh"/>
      <clip pos="3" side="tl" part="a_nom"/>
      <clip pos="3" side="tl" part="gen_sense_mf" link-to="3"/>
      <clip pos="3" side="tl" part="gen_mf"/>
      <clip pos="3" side="tl" part="nbr_sense_sp" link-to="4"/>
      <clip pos="3" side="tl" part="nbr_sp"/>
      <clip pos="3" side="tl" part="lemq"/>
    </lu>
    
    
    <lu>
      
      <clip pos="2" side="tl" part="lemh"/>
      <clip pos="2" side="tl" part="a_adj"/>
      <clip pos="2" side="tl" part="gen_sense_mf" link-to="3"/>
      <clip pos="2" side="tl" part="gen_mf"/>
      <clip pos="2" side="tl" part="nbr_sense_sp" link-to="4"/>
      <clip pos="2" side="tl" part="nbr_sp" link-to="4"/>
      <clip pos="2" side="tl" part="lemq"/>
    </lu>
  </chunk>
</out>

Compiled Code

push    "det_det_nom_adj"
push    "<SN>"
pusht   tipus_det          ; first evaluate the variable, append/prepend '<>', then push in the stack
pusht   gen_chunk
pusht   nbr_chunk

push    1
push    "^\w+"             ; lem
cliptl
push    1
push    [regex]            ; a_det
cliptl
push    "<3>"              ; since link-to overrides everything else, we do not need any dedicated instruction
                           ; for that
push    1
push    [regex]            ; gen_mf
cliptl
push    "<4>"
push    1
push    [regex]            ; nbr_sp
cliptl
lu      6                  ; pop 6 items, concat, create lexical unit ^...$ and push back in stack

pushbl                     ; push a blank

push    "el"
push    "<det><def>"
push    "<3>"
push    "<pl>"
lu      4                  ; pop 4 items from the stack, create a lexical unit ^...$ and then
                           ; push in the stack

pushsb 1

push   3
push   [regex]             ; lemh
cliptl
push   3
push   [regex]             ; a_nom
cliptl
push   "<3>"
push   3
push   [regex]             ; gen_mf
cliptl
push   "<4>"
push   3
push   [regex]             ; nbr_sp
cliptl
push   3
push   [regex]             ; lemq
cliptl
lu     7

pushbl
pushsb 2

pushv  adjectiu1           ; its a var, so eval and push the value
push   3
push   [regex]             ; lemh
cliptl
push   3
push   [regex]             ; a_adj
cliptl
push   "<3>"
push   3
push   [regex]             ; gen_mf
cliptl
push   "<4>"
push   "<4>"               ; a bit confused, there are two link-to in the XML
push   3
push   [regex]             ; lemq
cliptl
lu     7

brace  7                   ; no of blank + lexical unit = 7
                           ; pop 7 items, concat, prepend and append {, } then push back

chunk  6                   ; create the chunk, ^...{^...$}$, and push back in stack

out    1                   ; give output (number of chunks = 1)

Example 2

XML t1x Code

<section-def-cats>
  <def-cat n="nom">
    <cat-item tags="n.*"/>
  </def-cat>
 
  <def-cat n="det">
    <cat-item tags="det.*"/>
    <cat-item tags="predet.*"/>
  </def-cat>
</section-def-cats>

<section-rules>
  <rule>
    <pattern>
      <pattern-item n="det"/>
    </pattern>
  </rule>
  <rule>
    <pattern>
      <pattern-item n="nom"/>
    </pattern>
    <action/>
  </rule>
  <rule>
    <pattern>
      <pattern-item n="det"/>
      <pattern-item n="nom"/>
    </pattern>
  <action/>
  </rule>
</section-rules>

Compiled Code

                         ;first rule: def-cat has two equivalent cat-items
push      "\w<det>\t"    ;load pattern into stack
push      1
addtrie   [address1]     ;define a trie pattern with value 1 (the first rule)

push      "\w<predet>\t" ;same with the second cat-item
push      1
addtrie   [address1]
                         ;second rule (and so on) very simple, unique cat-item
push      "\w<n>\t"
push      1
addtrie   [address2]
                         ;third rule (here is the trick: multiple cat-items in one of the words)
push      "\w<det>\t"
push      "\w<n>\t"
push      2              ; we have 'det' followed by a 'nom', so addtrie has to pop two elements
addtrie   [address3]

push      "\w<predet>\t"
push      "\w<n>\t"
push      2
addtrie   [address3]

Example 3

XML t1x Code

<def-macro n="f_coma" npar="1">
  <choose>
    <when>
      <test>
        <equal caseless="yes">
          <clip pos="1" side="sl" part="lem"/>
          <lit v="como"/>
        </equal>
      </test>
      <let>
        <clip pos="1" side="tl" part="lem"/>
        <get-case-from pos="1">
          <lit v="com a"/>
        </get-case-from>
      </let>
    </when>
  </choose>
</def-macro>

Compiled code

f_coma:  push      1        ; "pos" of "clip"
         push      "^\w+"   ; "lem"
         clipsl             ; gets the value clips on the top of the stack.
                            ; "sl" side is implied in the name of the instruction
         push      "como"
         cmpi               ; does the comparison and cleans the stack, it means caseless
         jnz       end      ; if the comparison does not succeeds, go to end
                            ; semantics: j = jump n = not z = zero flag is activated
                            ; zero flag is activated when a comparison succeeds
                            ; or an arithmetical operation gives 0
         push      1        ; "pos" of "clip"
         push      "^\w+"
         push      "com a"
         storetl            ; store the value provided in the top of the stack
                            ; given position 1, "tl" side and "lem"

end:     ...

Example 4

XML t1x Code

<test>
 <or>
   <not>
     <equal>
       <clip pos="1" side="sl" part="gen"/>
       <clip pos="3" side="sl" part="gen"/>
     </equal>
   </not>
   <not>
     <equal>
       <clip pos="2" side="sl" part="gen"/>
       <clip pos="3" side="sl" part="gen"/>
     </equal>
   </not>
 </or>
</test>

Compiled code

start:      push       1
            push       [regex]           ; part="gen"
            clipsl
            push       3
            push       [regex]           ; part="gen"
            clipsl
            cmp                          ; compare (case sensitive)
            pushnz                       ; NOT zero flag and push in stack
            
            push       2
            push       [regex]           ; part="gen"
            clipsl
            push       3
            push       [regex]           ; part="gen"
            clipsl
            cmp                          ; compare (case sensitive)
            pushnz
            
            or                           ; pop 2 items and OR, push result in stack
            jnz        end               ; jump if zero flag is 0 (we did not get ZERO as the result)
                        
            ... ... ...
            (code for successful test)
            ... ... ...
end:        ...

Example 5

XML t1x Code

<def-list n="verbos_est">
  <list-item v="actuar"/>
  <list-item v="buscar"/>
  <list-item v="estudiar"/>
  <list-item v="existir"/>
  <list-item v="ingressar"/>
  <list-item v="introduir"/>
  <list-item v="penetrar"/>
  <list-item v="publicar"/>
  <list-item v="treballar"/>
  <list-item v="viure"/>
</def-list>

<rule>
  <pattern>
    <pattern-item n="verb"/>
    <pattern-item n="a"/>
  </pattern>
  <action>
  <choose>
    <when>
       <test>
         <in caseless="yes"/>
           <clip pos="1" side="sl" part="lem"/>
           <list n="verbos_est"/>
         </in>
       </test>
       <let>
         <clip pos="2" side="tl" part="lem"/>
         <lit v="en"/>
       </let>
    </when>
  </choose>
</rule>

Compiled code

                push       "actuar"
                push       "buscar"
                push       "estudiar"
                push       "existir"
                push       "ingressar"
                push       "introduir"
                push       "penetrar"
                push       "publicar"
                push       "treballar"
                push       "viure"
                push       10                ; number of elements in the list
                mklist     verbos_est        ; make a list variable named 'verbos_est' and put the last 10 data
                                             ; from the stack in the list
                                         
rule1:          push      [regex_verb]
                push      [regex_a]
                push      2
                addtrie   rule1_action
                ... ... ...
                ... ... ...
                         
rule1_action:   push      1
                push      "^\w+"            ; lem
                clipsl                      ; we have lemmma in stack now
                incini    verbox_est        ; if in verbos_est (ignore case), set ZF = 1, else ZF = 0       
                jnz       rule1_end

                push      2
                push      "^\w+"
                push      "en"
                storetl
rule1_end:      ...

Example 6

XML t1x Code

<rule comment="REGLA: DET DET ADJ NOM (your many beautiful cats)">
  <pattern>
    <pattern-item n="det"/>
    <pattern-item n="det"/>
    <pattern-item n="adj"/>
    <pattern-item n="nom"/>
  </pattern>
  <action>
    <call-macro n="firstWord">
      <with-param pos="1"/>
    </call-macro>
    <call-macro n="f_concord4">
      <with-param pos="4"/>
      <with-param pos="3"/>
      <with-param pos="2"/>
      <with-param pos="1"/>
    </call-macro>
    <call-macro n="comparatiu_adj1">
      <with-param pos="3"/>
    </call-macro>
    <call-macro n="determiner">
      <with-param pos="1"/>
    </call-macro>
    <out> 
      <chunk name="det_det_nom_adj" case="caseFirstWord">
        <tags>
          <tag><lit-tag v="SN"/></tag>
          <tag></tag>
          <tag></tag>
          <tag></tag>
        </tags>
        <lu>   
          <clip pos="1" side="tl" part="lem"/> 
          <clip pos="1" side="tl" part="a_det"/>
          <clip pos="1" side="tl" part="gen_sense_mf" link-to="3"/>
          <clip pos="1" side="tl" part="gen_mf"/>
          <clip pos="1" side="tl" part="nbr_sense_sp" link-to="4"/>
          <clip pos="1" side="tl" part="nbr_sp"/>
        </lu> 
        
        <lu> 
          <clip pos="2" side="tl" part="lemh"/> 
          <clip pos="2" side="tl" part="a_det"/>
          <clip pos="2" side="tl" part="gen_sense_mf" link-to="3"/>
          <clip pos="2" side="tl" part="gen_mf"/>
          <clip pos="2" side="tl" part="nbr_sense_sp" link-to="4"/>
          <clip pos="2" side="tl" part="nbr_sp"/>
        </lu> 
        
        <lu>   
          <clip pos="4" side="tl" part="lemh"/> 
          <clip pos="4" side="tl" part="a_nom"/>
          <clip pos="4" side="tl" part="gen_sense_mf" link-to="3"/>
          <clip pos="4" side="tl" part="gen_mf"/>
          <clip pos="4" side="tl" part="nbr_sense_sp" link-to="4"/>
          <clip pos="4" side="tl" part="nbr_sp" />
          <clip pos="4" side="tl" part="lemq"/> 
        </lu>
        
        <lu> 
             
          <clip pos="3" side="tl" part="lemh"/> 
          <clip pos="3" side="tl" part="a_adj"/>
          <clip pos="3" side="tl" part="gen_sense_mf" link-to="3"/>
          <clip pos="3" side="tl" part="gen_mf"/>
          <clip pos="3" side="tl" part="nbr_sense_sp" link-to="4"/>
          <clip pos="3" side="tl" part="nbr_sp"/>
        </lu> 
      </chunk>
    </out>
 </action>
</rule>

Compiled code

Development Notes

  • None of the macro and actions need to return anything (unlike conventional functions), so provision for returning a value (using stack) is unnecessary