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Programming language control flow structure From Wikipedia, the free encyclopedia
In computer programming, COMEFROM (or COME FROM) is an obscure control flow structure used in some programming languages, originally as a joke. COMEFROM
is the inverse of GOTO
in that it can take the execution state from any arbitrary point in code to a COMEFROM
statement.
The point in code where the state transfer happens is usually given as a parameter to COMEFROM
. Whether the transfer happens before or after the instruction at the specified transfer point depends on the language used. Depending on the language used, multiple COMEFROM
s referencing the same departure point may be invalid, be non-deterministic, be executed in some sort of defined priority, or even induce parallel or otherwise concurrent execution as seen in Threaded Intercal.[citation needed]
A simple example of a "COMEFROM x
" statement is a label x
(which does not need to be physically located anywhere near its corresponding COMEFROM
) that acts as a "trap door". When code execution reaches the label, control gets passed to the statement following the COMEFROM
. This may also be conditional, passing control only if a condition is satisfied, analogous to a GOTO within an IF statement. The primary difference from GOTO is that GOTO only depends on the local structure of the code, while COMEFROM depends on the global structure – a GOTO transfers control when it reaches a line with a GOTO statement, while COMEFROM requires scanning the entire program or scope to see if any COMEFROM statements are in scope for the line, and then verifying if a condition is hit. The effect of this is primarily to make debugging (and understanding the control flow of the program) extremely difficult, since there is no indication near the line or label in question that control will mysteriously jump to another point of the program – one must study the entire program to see if any COMEFROM statements reference that line or label.
Debugger hooks can be used to implement a COMEFROM statement, as in the humorous Python goto module;[1] see below. This also can be implemented with the gcc feature "asm goto" as used by the Linux kernel configuration option CONFIG_JUMP_LABEL. A no-op has its location stored, to be replaced by a jump to an executable fragment that at its end returns to the instruction after the no-op.
COMEFROM
was initially seen in lists of joke assembly language instructions (as 'CMFRM'). It was elaborated upon in a Datamation article by R. Lawrence Clark in 1973,[2] written in response to Edsger Dijkstra's letter Go To Statement Considered Harmful. COMEFROM was eventually implemented in the C-INTERCAL variant of the esoteric programming language INTERCAL along with the even more obscure 'computed COMEFROM
'. There were also Fortran proposals[3] for 'assigned COME FROM
' and a 'DONT
' keyword (to complement the existing 'DO
' loop).
On 1 April 2004, Richie Hindle published an implementation of both GOTO
and COMEFROM
for the Python programming language.[1] Despite being released on April Fools' Day and not being intended for serious use, the syntax is valid and the implementation fully works.
The following is an example of a program in a hypothetical BASIC dialect with "COMEFROM
" instead of "GOTO
".
10 COMEFROM 40
20 INPUT "WHAT IS YOUR NAME? "; A$
30 PRINT "HELLO, "; A$
40 REM
This program (hypothetically) works by asking the user for their name, greeting them with the same name, and continuing all over again. The instruction "REM
" on line 40 is simply a NOP (in this case, a REMark or comment) — the "COMEFROM
" statement on line 10 causes a branch back to that line when execution reaches line 40, regardless of its contents.
A fully runnable example in Python with the joke goto
module installed (which uses debugger hooks to control program execution) looks like this:
from goto import comefrom, label
comefrom .repeat
name = raw_input('What is your name? ')
if name:
print("Hello", name)
label .repeat
print("Goodbye!")
This is an implementation in Ruby of the Intercal COME FROM statement.
$come_from_labels = {}
def label(l)
if $come_from_labels[l]
$come_from_labels[l].call
end
end
def come_from(l)
callcc do |block|
$come_from_labels[l] = block
end
end
The OS/360 Fortran G compiler has a debug packet feature. Its "AT" statement is similar to COMEFROM in that it hands the control flow over to the debug block. Breakpoints in general are similar.[4]
INTEGER SOLON, GFAR, EWELL
.
.
.
10 SOLON = GFAR * SQRT(FLOAT(EWELL))
11 IF (SOLON) 40, 50, 60
.
.
.
DEBUG UNIT(3)
AT 11
DISPLAY GFAR, SOLON, EWELL
END
DIMENSION STOCK(1000),OUT(1000)
.
.
.
DO 30 I=1, 1000
25 STOCK(I)=STOCK(I) - OUT(I)
30 CONTINUE
35 A = B + C
.
.
.
DEBUG UNIT(3)
AT 35
DISPLAY STOCK
END
10 A = 1.5
12 L = 1
15 B = A + 1.5
20 DO 22 I = 1,5
.
.
.
22 CONTINUE
25 C = B + 3.16
30 D = C/2
STOP
.
.
.
DEBUG UNIT(3), TRACE
C DEBUG PACKET NUMBER 1
AT 10
TRACE ON
C DEBUG PACKET NUMBER 2
AT 20
TRACE OFF
DO 35 I = 1,3
.
.
.
35 CONTINUE
TRACE ON
C DEBUG PACKET NUMBER 3
AT 30
TRACE OFF
END
COMEFROM
[5]Serious programming contrivances involving ideas resembling COMEFROM:
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