Artifact 77305dd8a03b2052f3d4eabcb1971d072407cc4f:
- File
kitsh/buildsrc/kitsh-0.0/mk4tcl.tcl
— part of check-in
[44e0b4f94c]
at
2010-09-26 04:40:56
on branch trunk
— Added preliminary support for using a Tcl-based metakit reader (mk4tcl.tcl,
based off ReadKit) if Mk4tcl support not found
Updated mk4tcl to cleanup if build fails, to prevent false detection (user: rkeene, size: 17901) [annotate] [blame] [check-ins using]
#! /usr/bin/env tclsh # ReadKit, a viewer/extractor/converter for starkits which does not # require TclKit or MetaKit. This file was generated by "rkgen.tcl". # # June 2002, Jean-Claude Wippler <jcw@equi4.com> # this is needed so often that I just drop copies of it all over the place if {![info exists auto_index(lassign)] && [info commands lassign] == ""} { set auto_index(lassign) { proc lassign {l args} { foreach v $l a $args { uplevel 1 [list set $a $v] } } } } catch { load {} zlib package require zlib } if {[info comm mmap] == ""} { # mmap and mvec primitives in pure Tcl (a C version is present in critlib) namespace export mmap mvec namespace eval v { array set mmap_data {} array set mvec_shifts { - -1 0 -1 1 0 2 1 4 2 8 3 16 4 16r 4 32 5 32r 5 32f 5 32fr 5 64 6 64r 6 64f 6 64fr 6 } } proc mmap {fd args} { upvar #0 v::mmap_data($fd) data # special case if fd is the name of a variable (qualified or global) if {[uplevel #0 [list info exists $fd]]} { upvar #0 $fd var set data $var } # cache a full copy of the file to simulate memory mapping if {![info exists data]} { set pos [tell $fd] seek $fd 0 end set end [tell $fd] seek $fd 0 set trans [fconfigure $fd -translation] fconfigure $fd -translation binary set data [read $fd $end] fconfigure $fd -translation $trans seek $fd $pos } set total [string length $data] if {[llength $args] == 0} { return $total } foreach {off len} $args break if {$len < 0} { set len $total } if {$len < 0 || $len > $total - $off} { set len [expr {$total - $off}] } binary scan $data @${off}a$len s return $s } proc mvec {v args} { foreach {mode data off len} $v break if {[info exists v::mvec_shifts($mode)]} { # use _mvec_get to access elements set shift $v::mvec_shifts($mode) if {[llength $v] < 4} { set len $off } set get [list _mvec_get $shift $v *] } else { # virtual mode, set to evaluate script set shift "" set len [lindex $v end] set get $v } # try to derive vector length from data length if not specified if {$len == "" || $len < 0} { set len 0 if {$shift >= 0} { if {[llength $v] < 4} { set n [string length $data] } else { set n [mmap $data] } set len [expr {($n << 3) >> $shift}] } } set nargs [llength $args] # with just a varname as arg, return info about this vector if {$nargs == 0} { if {$shift == ""} { return [list $len {} $v] } return [list $len $mode $shift] } foreach {pos count pred cond} $args break # with an index as second arg, do a single access and return element if {$nargs == 1} { return [uplevel 1 [lreplace $get end end $pos]] } if {$count < 0} { set count $len } if {$count > $len - $pos && $shift != -1} { set count [expr {$len - $pos}] } if {$nargs == 4} { upvar $pred x } set r {} incr count $pos # loop through specified range to build result vector # with four args, used that as predicate function to filter # with five args, use fourth as loop var and apply fifth as condition for {set x $pos} {$x < $count} {incr x} { set y [uplevel 1 [lreplace $get end end $x]] switch $nargs { 3 { if {![uplevel 1 [list $pred $v $x $y]]} continue } 4 { if {![uplevel 1 [list expr $cond]]} continue } } lappend r $y } return $r } proc _mvec_get {shift desc index} { foreach {mode data off len} $desc break switch -- $mode { - { return $index } 0 { return $data } } if {[llength $desc] < 4} { set off [expr {($index << $shift) >> 3}] } else { # don't load more than 8 bytes from the proper offset incr off [expr {($index << $shift) >> 3}] set data [mmap $data $off 8] set off 0 } switch -- $mode { 1 { binary scan $data @${off}c value return [expr {($value>>($index&7)) &1}] } 2 { binary scan $data @${off}c value return [expr {($value>>(($index&3) <<1)) &3}] } 4 { binary scan $data @${off}c value return [expr {($value>>(($index&1) <<2)) &15}] } 8 { set w 1 set f c } 16 { set w 2 set f s } 16r { set w 2 set f S } 32 { set w 4 set f i } 32r { set w 4 set f I } 32fr - 32f { set w 4 set f f } 64 - 64r { set w 8 set f i2 } 64fr - 64f { set w 8 set f d } } binary scan $data @$off$f value return $value } # vim: ft=tcl } if {[info comm dbopen] == ""} { # Decoder for MetaKit datafiles in Tcl # requires mmap/mvec primitives: #source [file join [info dirname [info script]] mvprim.tcl] namespace export dbopen dbclose dbtree access vnames vlen namespace eval v { variable widths { {8 16 1 32 2 4} {4 8 1 16 2 0} {2 4 8 1 0 16} {2 4 0 8 1 0} {1 2 4 0 8 0} {1 2 4 0 0 8} {1 2 0 4 0 0} } } proc fetch {file} { if {$file == ""} { error "temp storages not supported" } set v::data [open $file] set v::seqn 0 } proc byte_seg {off len} { incr off $v::zero return [mmap $v::data $off $len] } proc int_seg {off cnt} { set vec [list 32r [byte_seg $off [expr {4*$cnt}]]] return [mvec $vec 0 $cnt] } proc get_s {len} { set s [byte_seg $v::curr $len] incr v::curr $len return $s } proc get_v {} { set v 0 while 1 { set char [mvec $v::byte $v::curr] incr v::curr set v [expr {$v*128+($char&0xff)}] if {$char < 0} { return [incr v -128] } } } proc get_p {rows vs vo} { upvar $vs size $vo off set off 0 if {$rows == 0} { set size 0 } else { set size [get_v] if {$size > 0} { set off [get_v] } } } proc header {{end ""}} { set v::zero 0 if {$end == ""} { set end [mmap $v::data] } set v::byte [list 8 $v::data $v::zero $end] lassign [int_seg [expr {$end-16}] 4] t1 t2 t3 t4 set v::zero [expr {$end-$t2-16}] incr end -$v::zero set v::byte [list 8 $v::data $v::zero $end] lassign [int_seg 0 2] h1 h2 lassign [int_seg [expr {$h2-8}] 2] e1 e2 set v::info(mkend) $h2 set v::info(mktoc) $e2 set v::info(mklen) [expr {$e1 & 0xffffff}] set v::curr $e2 } proc layout {fmt} { regsub -all { } $fmt "" fmt regsub -all {(\w+)\[} $fmt "{\\1 {" fmt regsub -all {\]} $fmt "}}" fmt regsub -all {,} $fmt " " fmt return $fmt } proc descparse {desc} { set names {} set types {} foreach x $desc { if {[llength $x] == 1} { lassign [split $x :] name type if {$type == ""} { set type S } } else { lassign $x name type } lappend names $name lappend types $type } return [list $names $types] } proc numvec {rows type} { get_p $rows size off if {$size == 0} { return {0 0} } set w [expr {int(($size<<3) /$rows)}] if {$rows <= 7 && 0 < $size && $size <= 6} { set w [lindex [lindex $v::widths [expr {$rows-1}]] [expr {$size-1}]] } if {$w == 0} { error "numvec?" } switch $type\ F { set w 32f }\ D { set w 64f } incr off $v::zero return [list $w $v::data $off $rows] } proc lazy_str {self rows type pos sizes msize moff index} { set soff {} for {set i 0} {$i < $rows} {incr i} { set n [mvec $sizes $i] lappend soff $pos incr pos $n } if {$msize > 0} { set slen [mvec $sizes 0 $rows] set v::curr $moff set limit [expr {$moff+$msize}] for {set row 0} {$v::curr < $limit} {incr row} { incr row [get_v] get_p 1 ms mo set soff [lreplace $soff $row $row $mo] set slen [lreplace $slen $row $row $ms] } set sizes [list lindex $slen $rows] } if {$type == "S"} { set adj -1 } else { set adj 0 } set v::node($self) [list get_str $soff $sizes $adj $rows] return [mvec $v::node($self) $index] } proc get_str {soff sizes adj index} { set n [mvec $sizes $index] return [byte_seg [lindex $soff $index] [incr n $adj]] } proc lazy_sub {self desc size off rows index} { set v::curr $off lassign [descparse $desc] names types set subs {} for {set i 0} {$i < $rows} {incr i} { if {[get_v] != 0} { error "lazy_sub?" } lappend subs [prepare $types] } set v::node($self) [list get_sub $names $subs $rows] return [mvec $v::node($self) $index] } #proc backtrace {{level_adj 0}} { # set ret [list] # # set level [expr 0 - $level_adj] # for {set i [expr [info level] - $level_adj]} {$i > 1} {incr i -1} { # incr level -1 # set ret [linsert $ret 0 [lindex [info level $level] 0]] # } # set ret [linsert $ret 0 GLOBAL] # # return $ret #} proc get_sub {names subs index} { #puts stderr "DEBUG: get_sub: [list $names $subs $index]" #puts "backtrace: [backtrace]" lassign [lindex $subs $index] rows handlers return [list get_view $names $rows $handlers $rows] } proc prepare {types} { set r [get_v] set handlers {} foreach x $types { set n [incr v::seqn] lappend handlers $n switch $x { I - L - F - D { set v::node($n) [numvec $r $x] } B - S { get_p $r size off set sizes {0 0} if {$size > 0} { set sizes [numvec $r I] } get_p $r msize moff set v::node($n) [list lazy_str $n $r $x $off $sizes\ $msize $moff $r] } default { get_p $r size off set v::node($n) [list lazy_sub $n $x $size $off $r $r] } } } return [list $r $handlers] } proc get_view {names rows handlers index} { return [list get_prop $names $rows $handlers $index [llength $names]] } proc get_prop {names rows handlers index ident} { set col [lsearch -exact $names $ident] if {$col < 0} { error "unknown property: $ident" } set h [lindex $handlers $col] set ret [mvec $v::node($h) $index] return $ret } proc dbopen {db file} { # open datafile, stores datafile descriptors and starts building tree if {$db == ""} { set r {} foreach {k v} [array get v::dbs] { lappend r $k [lindex $v 0] } return $r } fetch $file header if {[get_v] != 0} { error "dbopen?" } set desc [layout [get_s [get_v]]] lassign [descparse $desc] names types set root [get_sub $names [list [prepare $types]] 0] set v::dbs($db) [list $file $v::data $desc [mvec $root 0]] return $db } proc dbclose {db} { # close datafile, get rid of stored info unset v::dbs($db) set v::data "" ;# it may be big } proc dbtree {db} { # datafile selection, first step in access navigation loop return [lindex $v::dbs($db) 3] } proc access {spec} { # this is the main access navigation loop set s [split $spec ".!"] set x [list dbtree [array size v::dbs]] foreach y $s { set x [mvec $x $y] } return $x } proc vnames {view} { # return a list of property names if {[lindex $view 0] != "get_view"} { error "vnames?" } return [lindex $view 1] } proc vlen {view} { # return the number of rows in this view if {[lindex $view 0] != "get_view"} { error "vlen?" } return [lindex $view 2] } # vim: ft=tcl } if {[info comm mk_file] == ""} { # Compatibility layer for MetaKit # requires dbopen/dbclose/dbtree/access/vnames/vlen/mvec primitives #source [file join [info dirname [info script]] decode.tcl] namespace export mk_* proc mk_file {cmd args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::file $cmd $args" lassign $args db file switch $cmd { open { return [dbopen $db $file] } close { dbclose $db } views { return [vnames [dbtree $db]] } commit { } default { error "mk_file $cmd?" } } } proc mk_view {cmd path args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::view $cmd $path $args" lassign $args a1 switch $cmd { info { return [vnames [access $path]] } layout { set layout "NOTYET" if {[llength $args] > 0 && $layout != $a1} { #error "view restructuring not supported" } return $layout } size { set len [vlen [access $path]] if {[llength $args] > 0 && $len != $a1} { error "view resizing not supported" } return [vlen [access $path]] } default { error "mk_view $cmd?" } } } proc mk_cursor {cmd cursor args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::cursor $cmd $cursor $args" upvar $cursor v switch $cmd { create { NOTYET } incr { NOTYET } pos - position { if {$args != ""} { regsub {!-?\d+$} $v {} v append v !$args return $args } if {![regexp {\d+$} $v n]} { set n -1 } return $n } default { error "mk_cursor $cmd?" } } } proc mk_get {path args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::get $path $args" set rowref [access $path] set sized 0 if {[lindex $args 0] == "-size"} { set sized 1 set args [lrange $args 1 end] } set ids 0 if {[llength $args] == 0} { set args [vnames $rowref] set ids 1 } set r {} foreach x $args { if {$ids} { lappend r $x } set v [mvec $rowref $x] if {[string range $v 0 8] == "get_view "} { # XXX: ?!?!?: TODO: FIX set v 1 } catch { set v [zlib decompress $v] } if {$sized} { lappend r [string length $v] } else { lappend r $v } } if {[llength $args] == 1} { set r [lindex $r 0] } return $r } proc mk_loop {cursor path args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::loop $cursor $path ..." upvar $cursor v if {[llength $args] == 0} { set args [list $path] set path $v regsub {!-?\d+$} $path {} path } lassign $args a1 a2 a3 a4 set rowref [access $path] set first 0 set limit [vlen $rowref] set step 1 switch [llength $args] { 1 { set body $a1 } 2 { set first $a1 set body $a2 } 3 { set first $a1 set limit $a2 set body $a3 } 4 { set first $a1 set limit $a2 set step $a3 set body $a4 } default { error "mk_loop arg count?" } } set code 0 for {set i $first} {$i < $limit} {incr i $step} { set v $path!$i set code [catch [list uplevel 1 $body] err] switch $code { 1 - 2 { return -code $code $err } 3 { break } } } } proc mk_select {path args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::select $path $args" # only handle the simplest case: exact matches if {[lindex $args 0] == "-count"} { set maxitems [lindex $args 1] set args [lrange $args 2 end] } set currmatchmode "caseinsensitive" set keys {} set value {} set matchmodes {} for {set idx 0} {$idx < [llength $args]} {incr idx 2} { switch -glob -- [lindex $args $idx] { "-glob" { set currmatchmode "glob" incr idx -1 continue } "-*" { error "Unhandled option: [lindex $args $idx]" } } set k [lindex $args $idx] set v [lindex $args [expr {$idx+1}]] lappend keys $k lappend values $v lappend matchmodes $currmatchmode } set r {} mk_loop c $path { set x [eval mk_get $c $keys] set matchCnt 0 for {set idx 0} {$idx < [llength $x]} {incr idx} { set val [lindex $values $idx] set chkval [lindex $x $idx] set matchmode [lindex $matchmodes $idx] switch -- $matchmode { "caseinsensitive" { if {$val == $chkval} { incr matchCnt } } "glob" { if {[string match $val $chkval]} { incr matchCnt } } } } if {$matchCnt == [llength $keys]} { lappend r [mk_cursor position c] } } if {[info exists maxitems]} { set r [lrange $r 0 [expr $maxitems - 1]] } return $r } proc mk__rechan {path prop cmd chan args} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::_rechan $path $prop $cmd $chan $args" set key [list $path $prop] if {![info exists ::mk__cache($key)]} { set ::mk__cache($key) [mk::get $path $prop] } if {![info exists ::mk__offset($key)]} { set ::mk__offset($key) 0 } set data $::mk__cache($key) set offset $::mk__offset($key) switch -- $cmd { "read" { set count [lindex $args 0] set retval [string range $data $offset [expr {$offset + $count - 1}]] set readbytes [string length $retval] incr offset $readbytes } "close" { unset -nocomplain ::mk__cache($key) unset -nocomplain ::mk__offset($key) return } default { #puts stderr "${indent}DEBUG: mk::_rechan: Called for cmd $cmd" return -code error "Not implemented: cmd = $cmd" } } set ::mk__offset($key) $offset return $retval } proc mk_channel {path prop {mode "r"}} { #set indent [string repeat " " [info level]] #puts stderr "${indent}DEBUG: mk::channel $path $prop $mode" set fd [rechan [list mk__rechan $path $prop] 2] return $fd } # vim: ft=tcl } # set up the MetaKit compatibility definitions foreach x {file view cursor get loop select channel} { interp alias {} ::mk::$x {} ::mk_$x } package provide Mk4tcl 2.4.0.1