O-codes provide for flow control in NC programs. Each block has an associated number, which is the number used after O. Care must be taken to properly match the O-numbers. O codes use the letter O not the number zero as the first character in the number like O100 or o100.
1. Numbering
Numbered O codes must have a unique number for each subroutine, .Numbering Example
(the start of o100)
o100 sub
(notice that the if-endif block uses a different number)
(the start of o110)
o110 if [#2 GT 5]
(some code here)
(the end of o110)
o110 endif
(some more code here)
(the end of o100)
o100 endsub
2. Comments
Comments on the same line as the O word should not be used as the behavior can change in the future.
The behavior is undefined if:
-
The same number is used for more than one block
-
Other words are used on a line with an O- word
-
Comments are used on a line with an O-word
Note
|
Using the lower case o makes it easier to distinguish from a 0 that might have been mistyped. For example o100 is easier to see than O100 that it is not a 0. |
3. Subroutines
Subroutines starts at Onnn sub and ends at Onnn endsub. The lines between Onnn sub and Onnn endsub are not executed until the subroutine is called with Onnn call. Each subroutine must use a unique number.
o100 sub
G53 G0 X0 Y0 Z0 (rapid move to machine home)
o100 endsub
(the subroutine is called)
o100 call
M2
Inside a subroutine, O- return can be executed. This immediately returns to the calling code, just as though O- endsub was encountered.
o100 sub
(test if parameter #2 is greater than 5)
o110 if [#2 GT 5]
(return to top of subroutine if test is true)
o100 return
o110 endif
(this only gets executed if parameter #2 is not greater than 5)
(DEBUG, parameter 1 is [#1])
o100 endsub
See the Binary Operators & Parameters sections for more information.
O- Call takes up to 30 optional arguments, which are passed to the subroutine as #1, #2 , …, #N. Parameters from #N+1 to #30 have the same value as in the calling context. On return from the subroutine, the values of parameters #1 through #30 (regardless of the number of arguments) will be restored to the values they had before the call. Parameters #1 - #30 are local to the subroutine.
Because 1 2 3 is parsed as the number 123, the parameters must be enclosed in square brackets. The following calls a subroutine with 3 arguments:
o100 sub
(test if parameter #2 is greater than 5)
o110 if [#2 GT 5]
(return to top of subroutine if test is true)
o100 return
o110 endif
(this only gets executed if parameter #2 is not greater than 5)
(DEBUG, parameter 1 is [#1])
(DEBUG, parameter 3 is [#3])
o100 endsub
o100 call [100] [2] [325]
Subroutine bodies may not be nested. They may only be called after they are defined. They may be called from other functions, and may call themselves recursively if it makes sense to do so. The maximum subroutine nesting level is 10.
Subroutines can change the value of parameters above #30 and those changes will be visible to the calling code. Subroutines may also change the value of global named parameters.
3.1. Fanuc-Style Numbered Programs
Numbered programs (both main and subprograms), the M98 call and M99 return M-codes, and their respective semantic differences are an alternative to the rs274ngc subroutines described above, provided for compatibility with Fanuc and other machine controllers.
Numbered programs are enabled by default, and may be disabled by
placing DISABLE_FANUC_STYLE_SUB = 1
in the [RS274NGC]
section
of the .ini
file.
Note
|
Numbered main and subprogram definitions and calls differ from traditional rs274ngc both in syntax and execution. To reduce the possibility of confusion, the interpreter will raise an error if definitions of one style are mixed with calls of another. |
o1 (Example 1) ; Main program 1, "Example 1"
M98 P100 ; Call subprogram 100
M30 ; End main program
o100 ; Beginning of subprogram 100
G53 G0 X0 Y0 Z0 ; Rapid move to machine home
M99 ; Return from subprogram 100
o1 (Title)
The optional main program beginning block gives the main program the
number 1
. Some controllers treat an optional following
parenthesized comment as a program title, Example 1
in this example,
but this has no special meaning in the rs274ngc interpreter.
M98 P- <L\->
Call a numbered subprogram. The block M98 P100
is analogous to the
traditional o100 call
syntax, but may only be used to call a
following numbered subprogram defined with o100
…M99
. An
optional L-word specifies a loop count.
M30
The main program must be terminated with M02
or M30
(or M99
; see
below).
O-
subprogram definition startMarks the start of a numbered subprogram definition. The block O100
is similar to o100 sub
, except that it must be placed later in the
file than the M98 P100
calling block.
M99
return from numbered subroutineThe block M99
is analogous to the traditional o100 endsub
syntax,
but may only terminate a numbered program (o100
in this example),
and may not terminate a subroutine beginning with the o100 sub
syntax.
The M98
subprogram call differs from rs274ngc O call
in the
following ways:
-
The numbered subprogram must follow the
M98
call in the program file. The interpreter will throw an error if the subprogram precedes the call block. -
Parameters
#1
,#2
, …,#30
are global and accessible in numbered subprograms, similar to higher-numbered parameters in traditional style calls. Modifications to these parameters within a subprogram are global modifications, and will be persist after subprogram return. -
M98
subprogram calls have no return value. -
M98
subprogram call blocks may contain an optional L-word specifying a loop repeat count. Without the L-word, the subprogram will execute once only (equivalent toM98 L1
). AnM98 L0
block will not execute the subprogram.
In rare cases, the M99
M-code may be used to terminate the main
program, where it indicates an endless program. When the
interpreter reaches an M99
in the main program, it will skip back to
the beginning of the file and resume execution at the first line. An
example use of an endless program is in a machine warm-up cycle; a
block delete program end /M30
block might be used to stop the cycle
at a tidy point when the operator is ready.
O1 ; Main program 1
#1 = 0
(PRINT,X MAIN BEGIN: 1=#1)
M98 P100 L5 ; Call subprogram 100
(PRINT,X MAIN END: 1=#1)
M30 ; End main program
O100 ; Subprogram 100
#1 = [#1 + 1]
M98 P200 L5 ; Call subprogram 200
(PRINT,>> O100: #1)
M99 ; Return from Subprogram 100
O200 ; Subprogram 200
#1 = [#1 + 0.01]
(PRINT,>>>> O200: #1)
M99 ; Return from Subprogram 200
In this example, parameter #1
is initialized to 0
. Subprogram
O100
is called five times in a loop. Nested within each call to
O100
, subprogram O200
is called five times in a loop, for 25 times
total.
Note that parameter #1
is global. At the end of the main program,
after updates within O100
and O200
, its value will equal 5.25
.
4. Looping
The while loop has two structures: while/endwhile, and do/while. In each case, the loop is exited when the while condition evaluates to false. The difference is when the test condition is done. The do/while loop runs the code in the loop then checks the test condition. The while/endwhile loop does the test first.
(draw a sawtooth shape)
G0 X1 Y0 (move to start position)
#1 = 0 (assign parameter #1 the value of 0)
F25 (set a feed rate)
o101 while [#1 LT 10]
G1 X0
G1 Y[#1/10] X1
#1 = [#1+1] (increment the test counter)
o101 endwhile
M2 (end program)
#1 = 0 (assign parameter #1 the value of 0)
o100 do
(debug, parameter 1 = #1)
o110 if [#1 EQ 2]
#1 = 3 (assign the value of 3 to parameter #1)
(msg, #1 has been assigned the value of 3)
o100 continue (skip to start of loop)
o110 endif
(some code here)
#1 = [#1 + 1] (increment the test counter)
o100 while [#1 LT 3]
(msg, Loop Done!)
M2
Inside a while loop, O- break immediately exits the loop, and O- continue immediately skips to the next evaluation of the while condition. If it is still true, the loop begins again at the top. If it is false, it exits the loop.
5. Conditional
The if conditional consists of a group of statements with the same o number that start with if and end with endif. Optional elseif and else conditions may be between the starting if and the ending endif.
If the if conditional evaluates to true then the group of statements following the if up to the next conditional line are executed.
If the if conditional evaluates to false then the elseif conditions are evaluated in order until one evaluates to true. If the elseif condition is true then the statements following the elseif up to the next conditional line are executed. If none of the if or elseif conditions evaluate to true then the statements following the else are executed. When a condition is evaluated to true no more conditions are evaluated in the group.
(if parameter #31 is equal to 3 set S2000)
o101 if [#31 EQ 3]
S2000
o101 endif
(if parameter #2 is greater than 5 set F100)
o102 if [#2 GT 5]
F100
o102 elseif [#2 LT 2]
(else if parameter #2 is less than 2 set F200)
F200
(else if parameter #2 is 2 through 5 set F150)
o102 else
F150
o102 endif
Several conditions may be tested for by elseif statements until the else path is finally executed if all preceding conditions are false:
(if parameter #2 is greater than 5 set F100)
O102 if [#2 GT 5]
F100
(else if parameter #2 less than 2 set F200)
O102 elseif [#2 LT 2]
F20
(parameter #2 is between 2 and 5)
O102 else
F200
O102 endif
6. Repeat
The repeat will execute the statements inside of the repeat/endrepeat the specified number of times. The example shows how you might mill a diagonal series of shapes starting at the present position.
(Mill 5 diagonal shapes)
G91 (Incremental mode)
o103 repeat [5]
... (insert milling code here)
G0 X1 Y1 (diagonal move to next position)
o103 endrepeat
G90 (Absolute mode)
7. Indirection
The O-number may be given by a parameter and/or calculation.
o[#101+2] call
For more information on computing values see the following sections
8. Calling Files
To call a separate file with a subroutine name the file the same as your call and include a sub and endsub in the file. The file must be in the directory pointed to by PROGRAM_PREFIX or SUBROUTINE_PATH in the ini file. The file name can include lowercase letters, numbers, dash, and underscore only. A named subroutine file can contain only a single subroutine definition.
o<myfile> call
o123 call
In the called file you must include the oxxx sub and endsub and the file must be a valid file.
(filename myfile.ngc)
o<myfile> sub
(code here)
o<myfile> endsub
M2
Note
|
The file names are lowercase letters only so o<MyFile> is converted to o<myfile> by the interpreter. More information about the search path and options for the search path are in the INI Configuration Section. |
9. Subroutine return values
Subroutines may optionally return a value by an optional expression at an endsub or return statement.
o123 return [#2 *5]
...
o123 endsub [3 * 4]
A subroutine return value is stored in the <_value> predefined named parameter , and the <_value_returned> predefined parameter is set to 1, to indicate a value was returned. Both parameters are global, and are cleared just before the next subroutine call.
10. Errors
The following statements cause an error message and abort the interpreter:
-
a
return
orendsub
not within a sub definition -
a label on
repeat
which is defined elsewhere -
a label on
while
which is defiĆed elsewhere and not referring to ado
-
a label on
if
defined elsewhere -
a undefined label on
else
orelseif
-
a label on
else
,elseif
orendif
not pointing to a matchingif
-
a label on
break
orcontinue
which does not point to a matchingwhile
ordo
-
a label on
endrepeat
orendwhile
no referring to a correspondingwhile
orrepeat
To make these errors non-fatal warnings on stderr, set bit 0x20 in
the [RS274NGC]FEATURE=
mask ini option.