Richard Suchenwirth 2013-11-30 - dis2asm, the converter from the language produced by tcl::unsupported::disassemble, to the one accepted by tcl::unsupported::assemble, TAL, had a troublesome issue: it could do for and while loops, but not foreach. Disassembling a foreach loop came out as
% aproc f x {foreach j $x {puts $j}}
ByteCode 0x0x9eaad68, refCt 1, epoch 16, interp 0x0x9e057a0 (epoch 16)
Source "foreach j $x {puts $j}"
Cmds 2, src 22, inst 29, litObjs 2, aux 1, stkDepth 2, code/src 0.00
Proc 0x0x9ebb820, refCt 1, args 1, compiled locals 4
slot 0, scalar, arg, "x"
slot 1, scalar, temp
slot 2, scalar, temp
slot 3, scalar, "j"
Exception ranges 1, depth 1:
0: level 0, loop, pc 17-22, continue 10, break 26
Commands 2:
1: pc 0-27, src 0-21 2: pc 17-22, src 14-20
Command 1: "foreach j $x {puts $j}"
(0) loadScalar1 %v0 # var "x"
(2) storeScalar1 %v1 # temp var 1
(4) pop
(5) foreach_start4 0
[data=[%v1], loop=%v2
it%v1 [%v3]]
(10) foreach_step4 0
[data=[%v1], loop=%v2
it%v1 [%v3]]
(15) jumpFalse1 +11 # pc 26
Command 2: "puts $j"
(17) push1 0 # "puts"
(19) loadScalar1 %v3 # var "j"
(21) invokeStk1 2
(23) pop
(24) jump1 -14 # pc 10
(26) push1 1 # ""
(28) done and in TAL there are no instructions foreach_start (see (5)) or foreach_step (see (10)). But I wanted them so badly...
Luckily it was weekend, and I had some time on my hands - so I made this my fun project of the day. At first, I manually coded a working solution in TAL:
proc foreachtest {x {_i ""} {_l ""}} {asm {
load x
listLength
store _l
push -1
store _i
label loop;
push puts
load x
load _i
listIndex
invokeStk 2
pop
incrImm _i +1
load _l
lt
jumpTrue loop
pop
pop
push {}
}}
foreachtest {a b c d}This uses two local variables, _i as index into the input list, and _l to hold the length of the list. The code at the puts invocation did however not match the disassembly above. So as next step, I restructured the code to look exactly like the disassembly, except for extra instructions to replace foreach_start and foreach_step - I considered them macros. So here is the second version. that meets that expectation:
proc foreachtest {x {i ""} {2 ""} {1 ""}} {asm {
load x
store 1
pop
#foreach_start ;#
push -1 ;#
store 2 ;#
pop ;#
label L10
#foreach_step ;#
incrImm 2 +1 ;#
load 1 ;#
load 2 ;#
listIndex ;#
store i ;#
pop ;#
load 1 ;#
listLength ;#
lt ;#
jumpFalse L26
push puts
load i
invokeStk 2
pop
jump L10
label L26
push {}
}}
foreachtest {e f g h}The macros are comments, followed by their expansions also marked by a trailing comment. In the local variables, I accepted the numeric names
which are valid in Tcl as well. "i" now holds the current list element, like it should. The llength can be checked at runtime, no variable needed for that. There still was the problem that inside the expansion, "i" was mentioned (in the "store i" instruction), and could of course have any other name in practice (my counter-test was to use "j" instead ;^) So the macro had to be parametrized. Looking at the disassembly again, the local variable "slots" are listed:
slot 0, scalar, arg, "x"
slot 1, scalar, temp
slot 2, scalar, temp
slot 3, scalar, "j"The sequence is not the same as in the argument list, but that doesn't matter - the "temp" ones can use the slot number as their name. I save the slot info in a temporary array indexed by slot number. Now, the foreach_* macros each span three lines:
(5) foreach_start4 0
[data=[%v1], loop=%v2
it%v1 [%v3]]
(10) foreach_step4 0
[data=[%v1], loop=%v2
it%v1 [%v3]]and this is a little troublesome, as dis2asm processes one line at a time. Clearly, %v3 indicates the loop variable, so I can parse it out of there. Luckily, the foreach_start has this information in its third line, so I can look up slot(3) to retrieve the real name ("j" in this case), before the foreach_step arrives and needs to be substituted.
Proof of the pudding: disassemble, reassemble, run:
% aproc f x {foreach j $x {puts $j}} -x
proc f {x {1 {}} {2 {}} {j {}}} {asm {
load x ;# (0) loadScalar1 %v0 # var "x"
store 1 ;# (2) storeScalar1 %v1 # temp var 1
pop ;# (4) pop
push -1; store 2;pop ;# (5) foreach_start4 0
label L10;
incrImm 2 +1;load 1;load 2
listIndex;store j;pop
load 1;listLength;lt ;# (10) foreach_step4 0
jumpFalse L26 ;# (15) jumpFalse1 +11 # pc 26
push puts ;# (17) push1 0 # "puts"
load j ;# (19) loadScalar1 %v3 # var "j"
invokeStk 2 ;# (21) invokeStk1 2
pop ;# (23) pop
jump L10 ;# (24) jump1 -14 # pc 10
label L26;
push {} ;# (26) push1 1 # ""
;# (28) done
}}
% f {T A L}
T
A
LBoy, was I happy! This is still far away from a real, decent macro assembler, with the tests and the substitutions hard-wired in the code, but it is a good result for the 3 hours it took me to investigate and hack... The add_locals proc was extended to also pick up nameless temp variables;
proc add_locals {argl disasm} {
foreach line [split $disasm \n] {
if [regexp {slot.+scalar, "(.+)"} $line -> local] {
lappend argl [list $local ""]
} elseif {[regexp {slot (\d+), scalar, temp} $line -> temp]} {
lappend argl [list $temp ""]
}
}
return $argl
}The dis2asm proc was extended in various ways:
proc dis2asm body {
set fstep " incrImm 2 +1;load 1;load 2
listIndex;store @;pop
load 1;listLength;lt "
set loopvar i
set res ""
set jumptargets {}
foreach line [split $body \n] {
if [regexp {\# pc (\d+)} $line -> pc] {lappend jumptargets $pc}
}
foreach line [split $body \n] {
set line [string trim $line]
if {$line eq ""} continue
set code ""
if {[regexp {slot (\d+), (.+)} $line -> number descr]} {
set slot($number) $descr
} elseif {[regexp {it%v\d+.+\[%v(\d+)\]} $line -> number]} {
set loopvar [lindex $slot($number) end]
} elseif {[regexp {\((\d+)\) (.+)} $line -> pc instr]} {
if {$pc in $jumptargets} {append res "\n label L$pc;"}
if {[regexp {(.+)#(.+)} $instr -> instr comment]} {
set arg [lindex $comment end]
if {$arg eq ""} {set arg "{}"}
if [string match jump* $instr] {set arg L$arg}
} else {set arg ""}
set instr0 [normalize [lindex $instr 0]]
switch -- $instr0 {
invokeStk {set arg [lindex $instr end]}
incrImm {set arg [list $arg [lindex $instr end]]}
}
set code [format " %-24s" "$instr0 $arg"]
switch -- $instr0 {
startCommand {set code ""}
foreach_start {set code " push -1; store 2;pop "}
foreach_step {set code [string map [list @ $loopvar] $fstep]}
}
append res "\n $code ;# $line"
}
}
append res \n
return $res
}Now to look around for the next challenge, I have only used 25% of the weekend yet...