/usr/share/tcltk/tcllib1.14/doctools2idx/parse.tcl is in tcllib 1.14-dfsg-1.
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# Copyright (c) 2009 Andreas Kupries <andreas_kupries@sourceforge.net>
# Parser for docidx formatted input. The result is a struct::tree
# repesenting the contents of the document in a structured form.
# - root = index, attributes for title and label.
# - children of the root = keys of the index, attribute for keyword.
# - children of the keys = manpage and url references for the key,
# attributes for reference and label.
#
# The order of the keywords under root, and of the references under
# their keyword reflects the order of the information in the parsed
# document.
# Attributes in the nodes, except root provide location information,
# i.e. refering from there in the input the information is coming from
# (human-readable output: line/col for end of token, offset start/end
# for range covered by token.
# # ## ### ##### ######## ############# #####################
## Requirements
package require Tcl 8.4 ; # Required runtime.
package require doctools::idx::structure ; # Parse Tcl script, like subst.
package require doctools::msgcat ; # Error message L10N
package require doctools::tcl::parse ; # Parse Tcl script, like subst.
package require fileutil ; # Easy loading of files.
package require logger ; # User feedback.
package require snit ; # OO system.
package require struct::list ; # Assign
package require struct::tree ; # Internal syntax tree
# # ## ### ##### ######## ############# #####################
##
logger::initNamespace ::doctools::idx::parse
snit::type ::doctools::idx::parse {
# # ## ### ##### ######## #############
## Public API
typemethod file {path} {
log::debug [list $type file]
return [$type text [fileutil::cat $path] $path]
}
typemethod text {text {path {}}} {
log::debug [list $type text]
set ourfile $path
array set vars [array get ourvars]
array set _file {}
ClearErrors
set t [struct::tree AST]
Process $t $text [$t rootname] vars _file
StopOnErrors
ReshapeTree $t
StopOnErrors
set serial [Serialize $t]
StopOnErrors
$t destroy
return $serial
}
# # ## ### ##### ######## #############
## Manage symbol table (vset variables).
typemethod vars {} {
return [array get ourvars]
}
typemethod {var set} {name value} {
set ourvars($name) $value
return
}
typemethod {var load} {dict} {
array set ourvars $dict
return
}
typemethod {var unset} {args} {
if {![llength $args]} { lappend args * }
foreach pattern $args {
array unset ourvars $pattern
}
return
}
# # ## ### ##### ######## #############
## Manage search paths for include files.
typemethod includes {} {
return $ourincpaths
}
typemethod {include set} {paths} {
set ourincpaths [lsort -uniq $paths]
return
}
typemethod {include add} {path} {
lappend ourincpaths $path
set ourincpaths [lsort -uniq $ourincpaths]
return
}
typemethod {include remove} {path} {
set pos [lsearch $ourincpaths $path]
if {$pos < 0} return
set ourincpaths [lreplace $ourincpaths $pos $pos]
return
}
typemethod {include clear} {} {
set ourincpaths {}
return
}
# # ## ### ##### ######## #############
proc Process {t text root vv fv} {
upvar 1 $vv vars $fv _file
DropChildren $t $root
# Phase 1. Generate the basic syntax tree
if {[catch {
doctools::tcl::parse text $t $text $root
} msg]} {
if {![string match {doctools::tcl::parse *} $::errorCode]} {
# Not a parse error, rethrow.
return \
-code error \
-errorcode $::errorCode \
-errorinfo $::errorInfo \
$msg
}
# Parse error, low-level syntax breakdown, extract the
# machine-info from the errorCode, and report internally.
# See the documentation of doctools::tcl::parse for the
# definition of the format.
struct::list assign $::errorCode _ msg pos line col
# msg in {eof, char}
ReportAt $_file($root) [list $pos $pos] $line $col docidx/$msg/syntax {}
return 0
}
#doctools::parse::tcl::ShowTreeX $t {Raw Result}
# Phase 2. Check for errors.
CheckBasicConstraints $t $root _file
ResolveVarsAndIncludes $t $root vars _file
return 1
}
proc CheckBasicConstraints {t root fv} {
::variable ourfile
upvar 1 $fv _file
# Bottom-up walk through the nodes starting at the current
# root.
$t walk $root -type dfs -order pre n {
# Ignore the root node itself. Except for one thing: The
# path information is remembered for the root as well.
set _file($n) $ourfile
#puts "_file($n) = $ourfile"
if {$n eq $root} continue
switch -exact [$t get $n type] {
Text {
# Texts at the top level are irrelevant and
# removed. They have to contain only whitespace as
# well.
if {[$t depth $n] == 1} {
if {[regexp {[^[:blank:]\n]} [$t get $n text]]} {
Error $t $n docidx/plaintext
}
MarkDrop $n
}
}
Word {
# Word nodes we ignore. They are just argument
# aggregators. They will be gone later, when
# reduce arguments to their text form.
}
Command {
set cmdname [$t get $n text]
set parens [$t parent $n]
if {$parens eq $root} {
set parentt {}
} else {
set parentt [$t get $parens type]
}
set nested 0
if {($parentt eq "Command") || ($parentt eq "Word")} {
# Commands can be children/arguments of other
# commands only in very restricted
# circumstances => rb, lb, vset/1.
set nested 1
if {![Nestable $t $n $cmdname errcmdname] && [Legal $cmdname]} {
# Report only legal un-nestable commands.
# Illegal commands get their own report,
# see below.
MakeErrorMsg $t $n docidx/cmd/nested $errcmdname
}
}
if {![Legal $cmdname]} {
# Deletion is safe because we are walking
# bottom up. If nested we drop only the
# children and replace this node with a fake.
if {$nested} {
MakeErrorMsg $t $n docidx/cmd/illegal $cmdname
} else {
Error $t $n docidx/cmd/illegal $cmdname
MarkDrop $n
}
continue
}
# Check arguments of the legal commands only.
ArgInfo $cmdname min max
set argc [llength [$t children $n]]
if {$argc < $min} {
MakeErrorMsg $t $n docidx/cmd/wrongargs $cmdname $min
} elseif {$argc > $max} {
MakeErrorMsg $t $n docidx/cmd/toomanyargs $cmdname $max
}
# Convert the quoting commands for bracket into
# equivalent text nodes, and remove comments.
if {$cmdname eq "lb"} {
MakeText $t $n "\["
} elseif {$cmdname eq "rb"} {
MakeText $t $n "\]"
} elseif {$cmdname eq "comment"} {
# Remove comments or replace with error node (nested).
if {$nested} {
MakeError $t $n
} else {
MarkDrop $n
}
}
}
}
}
# Kill the nodes marked for removal now that the walker is not
# accessing them any longer.
PerformDrop $t
#doctools::parse::tcl::ShowTreeX $t {Basic Constraints}
return
}
proc ResolveVarsAndIncludes {t root vv fv} {
upvar 1 $vv vars $fv _file
# Now resolve include and vset uses ... This has to be done at
# the same time, as each include may (re)define variables.
# Bottom-up walk. Children before parent, and from the left =>
# Nested vset uses are resolved in the proper order.
$t walk $root -type dfs -order post n {
# Ignore the root node itself.
if {$n eq $root} continue
set ntype [$t get $n type]
switch -exact -- $ntype {
Text - Error {
# Ignore these nodes.
}
Word {
# Children have to be fully converted to Text, or,
# in case of trouble, Error. Aggregate the
# information.
CollapseWord $t $n
}
Command {
set cmdname [$t get $n text]
switch -exact -- $cmdname {
vset {
set argv [$t children $n]
switch -exact -- [llength $argv] {
1 {
VariableUse $t $n [lindex $argv 0]
}
2 {
struct::list assign $argv var val
VariableDefine $t $n $var $val
}
}
# vset commands at the structural toplevel are
# irrelevant and removed.
if {[$t depth $n] == 1} {
MarkDrop $n
}
}
include {
# Pulls vars, _file from this scope
ProcessInclude $t $n [lindex [$t children $n] 0]
}
default {
# For all other commands move the argument
# information into an attribute. Errors in
# the argument cause the command to conert
# into an error.
CollapseArguments $t $n
}
}
}
}
}
# Kill the nodes marked for removal now that the walker is
# not accessing them any longer.
PerformDrop $t
#doctools::parse::tcl::ShowTreeX $t {Vars/Includes Resolved}
return
}
proc ReshapeTree {t} {
upvar 1 _file _file
# We are assuming that there are no illegal commands in the
# tree, and further that all of lb, rb, vset, comment, and
# include are gone as well, per the operation of the previous
# phases (-> CheckBasicConstraints, ResolveVarsAndIncludes).
# The only commands which can occur here are
#
# index_begin, index_end, key, manpage, url
# Grammar:
# INDEX := index_begin KEYS index_end
# KEYS := { key ITEMS }
# ITEMS := { manpage | url }
# Hand coded LL(1) parser with explicit state machine. No
# stack required for this grammar.
set root [$t rootname]
set children [$t children $root]
lappend children $root
$t set $root text <EOF>
$t set $root range {0 0}
$t set $root line 1
$t set $root col 0
set at {}
set state INDEX
foreach n $children {
set cmdname [$t get $n text]
#puts <$n>|$cmdname|$state|
# We store the location of the last node in the root, for
# use when an unexpected eof triggers an error.
if {$n ne $root} {
$t set $root range [$t get $n range]
$t set $root line [$t get $n line]
$t set $root col [$t get $n col]
}
# LL(1) parser table. State/Nexttoken determine action and
# next state.
switch -exact -- [list $state $cmdname] {
{INDEX index_begin} {
# Pull arguments of the proper index_begin up into
# the root. Drop the expected node.
$t set $root argv [$t get $n argv]
$t delete $n
# Starting series of keywwords and their
# references. Destination is root, not that it
# matters, and we remember the state.
set at $root
set state KEYS
}
{KEYS key} {
# Starting series of references in a keyword.
# Destination for movement is this keyword, and we
# remember the state.
set at $n
set state ITEMS
}
{ITEMS index_end} -
{KEYS index_end} {
# End of the document reached, with proper closing
# of keys and references. Drop the node, and jump to
# the end state
set state EOF
$t delete $n
}
{ITEMS manpage} -
{ITEMS url} {
# Move references to their keyword.
$t move $at end $n
}
{ITEMS key} {
# Move destination of references forward.
set at $n
}
{EOF <EOF>} {
# Good, really reached the end. Nothing to be
# done.
}
{INDEX index_end} -
{INDEX key} -
{INDEX manpage} -
{INDEX url} -
{INDEX <EOF>} {
Error $t $n docidx/index_begin/missing
if {$n ne $root} {
$t delete $n
}
}
{KEYS index_begin} -
{KEYS manpage} -
{KEYS url} {
Error $t $n docidx/key/missing
if {$n ne $root} {
$t delete $n
}
}
{EOF index_begin} -
{EOF index_end} -
{EOF key} -
{EOF manpage} -
{EOF url} -
{ITEMS index_begin} {
# TODO ?! Split this, and add message which command was expected.
# Unexpected and wrong. The node is dropped.
Error $t $n docidx/$cmdname/syntax
$t delete $n
}
{KEYS <EOF>} -
{ITEMS <EOF>} {
Error $t $n docidx/index_end/missing
}
}
}
$t unset $root text
$t unset $root range
$t unset $root line
$t unset $root col
#doctools::parse::tcl::ShowTreeX $t Shaped/Structure
return
}
proc Serialize {t} {
upvar 1 _file _file
# We assume here that the tree is already in the correct
# shape/structure, i.e. of at most depth 2, a root, optionally
# a series of children for the keywords, and each keyword with
# an optional series of children for the items, i.e. manpage
# and url references.
# We now extract the basic information about the index from
# the tree, do some higher level checking on the references,
# and return the serialization of the index generated from the
# extracted data.
set error 0
set root [$t rootname]
# Root delivers index label and title.
struct::list assign [$t get $root argv] label title
array set k {}
array set r {}
# Each keyword in the tree
foreach key [$t children $root] {
set kw [lindex [$t get $key argv] 0]
set k($kw) {}
# Each reference in a key.
foreach item [$t children $key] {
struct::list assign [$t get $item argv] id rlabel
set rtype [$t get $item text]
set decl [list $rtype $rlabel]
lappend k($kw) $id
# Checking that all uses of a reference use the same
# type and label.
if {[info exists r($id)]} {
if {$r($id) ne $decl} {
struct::list assign $r($id) otype olabel
MakeErrorMsg $t $item docidx/ref/redef \
$id $otype $olabel $rtype $rlabel
set error 1
}
continue
}
set r($id) $decl
}
}
if {$error} return
# Caller will handle the errors.
## ### ### ### ######### ######### #########
## The part below is identical to the serialization backend of
## command 'doctools::idx::structure merge'.
# Now construct the result, from the inside out, with proper
# sorting at all levels.
set keywords {}
foreach kw [lsort -dict [array names k]] {
# Sort references in a keyword by their _labels_.
set tmp {}
foreach rid $k($kw) { lappend tmp [list $rid [lindex $r($rid) 1]] }
set refs {}
foreach item [lsort -dict -index 1 $tmp] {
lappend refs [lindex $item 0]
}
lappend keywords $kw $refs
}
set references {}
foreach rid [lsort -dict [array names r]] {
lappend references $rid $r($rid)
}
set serial [list doctools::idx \
[list \
label $label \
keywords $keywords \
references $references \
title $title]]
# Caller verify, ensure contract
#::doctools::idx::structure verify-as-canonical $serial
return $serial
}
# # ## ### ##### ######## #############
proc CollapseArguments {t n} {
#puts __CA($n)
set ok 1
set argv {}
foreach ch [$t children $n] {
lappend argv [$t get $ch text]
if {[$t get $ch type] eq "Error"} {
set ok 0
break
}
}
if {$ok} {
$t set $n argv $argv
DropChildren $t $n
} else {
MakeError $t $n
}
return
}
proc CollapseWord {t n} {
#puts __CW($n)
set ok 1
set text {}
foreach ch [$t children $n] {
append text [$t get $ch text]
if {[$t get $ch type] eq "Error"} {
set ok 0
break
}
}
if {$ok} {
MakeText $t $n $text
} else {
MakeError $t $n
}
return
}
proc VariableUse {t n var} {
upvar 1 vars vars _file _file
# vset/1 - the command returns text information to the
# caller. Extract the argument data.
set vartype [$t get $var type]
set varname [$t get $var text]
# Remove the now superfluous argument nodes.
DropChildren $t $n
if {$vartype eq "Error"} {
# First we check if the command is in trouble because it
# has a bogus argument. If so we convert it into an error
# node to signal even higher commands, and ignore it. We
# do not report an error, as the actual problem was
# reported already.
MakeError $t $n
} elseif {![info exists vars($varname)]} {
# Secondly we check if the referenced variable is
# known. If not it is trouble, and we report it.
MakeErrorMsg $t $n docidx/vset/varname/unknown $varname
} elseif {[$t depth $n] == 1} {
# Commands at the structural toplevel are irrelevant and
# removed (see caller). They have to checked again however
# to see if the use introduced non-whitespace where it
# should not be.
if {[regexp {[^[:blank:]\n]} $vars($varname)]} {
Error $t $n docidx/plaintext
}
} else {
MakeText $t $n $vars($varname)
}
}
proc VariableDefine {t n var val} {
upvar 1 vars vars
# vset/2 - the command links a variable to a value. Extract
# the argument data.
set vartype [$t get $var type]
set valtype [$t get $val type]
set varname [$t get $var text]
set value [$t get $val text]
# Remove the now superfluous argument nodes.
DropChildren $t $n
if {($vartype eq "Error") || ($valtype eq "Error")} {
# First we check if the command is in trouble because it
# has one or more bogus arguments. If so we convert it
# into an error node to signal even higher commands, and
# ignore it. We do not report an error, as the actual
# problem was reported already.
MakeError $t $n
return
}
# And save the change to the symbol table we are lugging
# around during the processing.
set vars($varname) $value
return
}
proc ProcessInclude {t n path} {
upvar 1 vars vars _file _file
::variable ourfile
# include - the command returns file content and inserts it in
# the place of the command. First extract the argument data
set pathtype [$t get $path type]
set pathname [$t get $path text]
# Remove the now superfluous argument nodes.
DropChildren $t $n
# Check for problems stemming from other trouble.
if {$pathtype eq "Error"} {
# First we check if the command is in trouble because it
# has a bogus argument. If so convert it into an error
# node to signal even higher commands, and ignore it. We
# do not report an error, as the actual problem was
# reported already.
MakeError $t $n
return
}
if {![GetFile $ourfile $pathname text fullpath error emsg]} {
switch -exact -- $error {
notfound { Error $t $n docidx/include/path/notfound $pathname }
notread { Error $t $n docidx/include/read-failed $fullpath $emsg }
}
MarkDrop $n
return
}
# Parse the file. This also resolves variables further.
set currenterrors [GetErrors]
set currentpath $ourfile
ClearErrors
# WIBNI :: Remember the path as relative to the current path.
set ourfile $fullpath
if {![Process $t $text $n vars _file]} {
set newerrors [GetErrors]
SetErrors $currenterrors
set ourfile $currentpath
Error $t $n docidx/include/syntax $fullpath $newerrors
MarkDrop $n
return
}
if {![$t numchildren $n]} {
# Inclusion did not generate additional content, we can
# ignore the command completely.
MarkDrop $n
return
}
# Create marker nodes which show the file entry/exit
# transitions. Disabled, makes shaping tree structure too
# complex. And checking the syntax as well, if we wish to have
# only proper complete structures in an include file. Need
# proper LR parser for that (is not LL(1)), or maybe even
# something like earley-aycock for full handling of an
# ambigous grammar.
if 0 {
set fstart [$t insert $n 0]
set fstop [$t insert $n end]
$t set $fstart type Command
$t set $fstop type Command
$t set $fstart text include_begin
$t set $fstop text include_end
$t set $fstart path $fullpath
$t set $fstop path $fullpath
}
# Remove the include command itself, merging its children
# into the place it occupied in its parent.
$t cut $n
return
}
# # ## ### ##### ######## #############
## Note: The import plugin for docidx rewrites the 'GetFile'
## command below to make use of an alias provided by the
## plugin manager. This re-enables the ability of this class
## to handle include files which would otherwise be gone due
## to the necessary file operations (exists, isfile,
## readable, open, read) be disallowed by the safe
## environment the plugin operates in.
##
## Any changes to GetFile have to reviewed for their impact on
## doctools::idx::import::docidx, and possibly ported over.
proc GetFile {currentfile path dv pv ev mv} {
upvar 1 $dv data $pv fullpath $ev error $mv emessage
set data {}
set error {}
set emessage {}
# Find the file, or not.
set fullpath [Locate $path]
if {$fullpath eq {}} {
set fullpath $path
set error notfound
return 0
}
# Read contents, or not.
if {[catch {
set data [fileutil::cat $fullpath]
} msg]} {
set error notread
set emessage $msg
return 0
}
return 1
}
proc Locate {path} {
upvar 1 currentfile currentfile
if {$currentfile ne {}} {
set pathstosearch \
[linsert $ourincpaths 0 \
[file dirname [file normalize $currentfile]]]
} else {
set pathstosearch $ourincpaths
}
foreach base $pathstosearch {
set try [file join $base $path]
if {![file exists $try]} continue
return $try
}
# Nothing found
return {}
}
# # ## ### ##### ######## #############
## Management of nodes to kill
proc MarkDrop {n} {
::variable ourtokill
lappend ourtokill $n
#puts %%mark4kill=$n|[info level -1]
return
}
proc DropChildren {t n} {
foreach child [$t children $n] {
MarkDrop $child
}
return
}
proc PerformDrop {t} {
::variable ourtokill
#puts __PD($t)=<[join $ourtokill ,]>
foreach n $ourtokill {
#puts x($n/[$t exists $n])
if {![$t exists $n]} continue
#puts ^^DEL($n)
$t delete $n
}
set ourtokill {}
return
}
# # ## ### ##### ######## #############
## Command predicates
proc Nestable {t n cmdname cv} {
upvar 1 $cv outname
set outname $cmdname
switch -exact -- $cmdname {
lb - rb { return 1 }
vset {
if {[$t numchildren $n] == 1} {
return 1
}
append outname /2
}
}
return 0
}
proc Legal {cmdname} {
::variable ourcmds
#parray ourcmds
return [info exists ourcmds($cmdname)]
}
proc ArgInfo {cmdname minv maxv} {
::variable ourcmds
upvar 1 $minv min $maxv max
foreach {min max} $ourcmds($cmdname) break
return
}
# # ## ### ##### ######## #############
## Higher level error handling, node conversion.
proc MakeError {t n} {
#puts %%error=$n|[info level -1]
$t set $n type Error
DropChildren $t $n
return
}
proc MakeErrorMsg {t n msg args} {
upvar 1 _file _file
#puts %%error=$n|[info level -1]
Report $t $n $msg $args
$t set $n type Error
DropChildren $t $n
return
}
proc MakeText {t n text} {
#puts %%text=$n|[info level -1]
$t set $n type Text
$t set $n text $text
DropChildren $t $n
return
}
# # ## ### ##### ######## #############
## Error reporting
proc Error {t n text args} {
upvar 1 _file _file
Report $t $n $text $args
}
proc Report {t n text details} {
upvar 1 _file _file
ReportAt $_file($n) [$t get $n range] [$t get $n line] [$t get $n col] $text $details
return
}
proc ReportAt {file range line col text details} {
::variable ourerrors
#puts !![list $file $range $line $col $text $details]/[info level -1]
lappend ourerrors [list $file $range $line $col $text $details]
return
}
# # ## ### ##### ######## #############
## Error Management
proc ClearErrors {} {
::variable ourerrors {}
return
}
proc GetErrors {} {
::variable ourerrors
return $ourerrors
}
proc SetErrors {t} {
::variable ourerrors $t
return
}
# # ## ### ##### ######## #############
## Error Response
proc StopOnErrors {} {
::variable ourerrors
if {![llength $ourerrors]} return
upvar 1 t t
$t destroy
doctools::msgcat::init idx
set info [SortMessages $ourerrors]
set msg [Formatted $info {}]
return -code error -errorcode $info $msg
}
proc Formatted {errors prefix} {
set lines {}
foreach err $errors {
struct::list assign $err file range line col msg details
#8.5: set text [msgcat::mc $msg {*}$details]
set text [eval [linsert $details 0 msgcat::mc $msg]]
if {![string length $prefix] && [string length $file]} {
set prefix "\"$file\" "
}
lappend lines "${prefix}error on line $line.$col: $text"
if {$msg eq "docidx/include/syntax"} {
struct::list assign $details path moreerrors
lappend lines [Formatted [SortMessages $moreerrors] "\"$path\": "]
}
}
return [join $lines \n]
}
proc SortMessages {messages} {
return [lsort -dict -index 0 \
[lsort -dict -index 2 \
[lsort -dict -index 3 \
[lsort -unique $messages]]]]
}
# # ## ### ##### ######## #############
## Parser state
# Path to the file currently processed, if known. Empty if not known
typevariable ourfile {}
# Array of variables for use by vset. During parsing a local copy
# is used so that variables set by the document cannot spill back
# to the parser state.
typevariable ourvars -array {}
# List of paths to use when searching for an include file.
typevariable ourincpaths {}
# Record of errors found so far. List of 5-tuples containing token
# range, line, column of firt character after the token, error
# code, and error arguments, in this order.
typevariable ourerrors {}
# List of nodes marked for removal.
typevariable ourtokill {}
# Map of legal commands to their min/max number of arguments.
typevariable ourcmds -array {
comment {1 1}
include {1 1}
lb {0 0}
rb {0 0}
vset {1 2}
index_begin {2 2}
index_end {0 0}
key {1 1}
manpage {2 2}
url {2 2}
}
# # ## ### ##### ######## #############
## Configuration
pragma -hasinstances no ; # singleton
pragma -hastypeinfo no ; # no introspection
pragma -hastypedestroy no ; # immortal
##
# # ## ### ##### ######## #############
}
# # ## ### ##### ######## ############# #####################
## Ready
package provide doctools::idx::parse 0.1
return
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