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a13dee8d19
The new tool eases the inspection and pruning of device-tree source files. Fixes #4165
262 lines
5.8 KiB
Tcl
Executable File
262 lines
5.8 KiB
Tcl
Executable File
#!/usr/bin/tclsh
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#
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# \brief Regular-expression-based device-tree source parser
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# \author Norman Feske
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# \date 2021-05-14
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#
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# read file
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set input_pathname [lindex $argv 0]
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if {[catch {
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#
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# Create root node of the syntax tree
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#
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set txt(0) [exec cat $input_pathname]
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set typ(0) content
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set num 1
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}]} {
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foreach line {
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""
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"Parse device-tree source file and output syntax tree."
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""
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" usage: parse <source_file>"
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""
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} { puts stderr $line }
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exit -1;
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}
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# do not stop parsing (this variable is only used for debugging)
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set stop 0
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#
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# Replace all '&' characters from the original input
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# because they cause trouble with the regexp command.
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#
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regsub -all {&} $txt(0) "³" txt(0)
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##
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# Extract expression from content
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#
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# All expressions that occur in the token types 'typelist'
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# and that match the 'subexpr' criterion get replaced in
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# their original token by a reference tag and form a new
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# token of the type 'newtype'.
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#
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# The reference is coded as §<token_type><token_id>°.
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# Since the reference has the type coded in, we can
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# match sub tokens of specific types via plain regular
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# expressions.
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##
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proc extract {newtype subexpr typelist} {
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global num txt typ stop
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set old_num $num
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if {$stop} { return }
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for {set i 0} {$i < $old_num} {incr i} {
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if {[lsearch $typelist $typ($i)] > -1} {
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while {[regexp $subexpr $txt($i) mid]} {
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# new sub text #
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set typ($num) $newtype
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set txt($num) $mid
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# substitute expression by a reference #
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regsub $subexpr $txt($i) "§$newtype$num°" txt($i)
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incr num
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}
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}
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}
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}
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#####################################################
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## Rules for splitting the input into its elements ##
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#####################################################
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#
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# Starting with only the root token (content0) of the syntax tree
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# containing the whole source code as one string, we extract
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# typed sub tokens to partition the string into parts of distinct
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# meanings (token types). In the process of subsequently
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# applying extraction rules to specific token types, a syntax
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# tree is formed.
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#
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# extract C-style line comments
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extract lcomment {/\*[^\n]*?\*/} content
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# extract C-style multi-line comments
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extract mlcomment {/\*.*?\*/} content
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# extract strings
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#
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# Strings may contain quoted '"' characters.
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#
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extract string {\"([^\"]|\")*?\"} content
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# extract labels and references to labels
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extract labeldef {[\w_][\w\d_-]*:} {content}
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extract labelname {^[\w_][\w\d_-]*(?=(:|$))} {labeldef}
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extract reflabel {³[\w_][\w\d_-]*} {content}
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extract reflabelname {[\w_][\w\d_-]*$} {reflabel}
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# fold parenthesis and blocks
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extract parenblk {\([^()]*?\)} {content parenblk}
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extract block {\{[^{}]*?\}} {content parenblk block}
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extract cell {\<[^<>]*?\>} {content parenblk block}
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extract openbrace "\{" block
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extract closebrace "\}" block
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extract openparen {\(} parenblk
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extract closeparen {\)} parenblk
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# property assignments
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extract property {[\w_#][\w\d_\-,.+?#]*\s*=[^;]*;\n?} {block}
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extract propertyname {^[\w_#][\w\d_\-,.+?#]*(?=\s*=)} {property}
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extract propertyvalue {§(cell|string)\d+°} {property}
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# root nodes
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extract node {\s*/\s*§block\d+°;\n?} {content}
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extract nodename {/(?=\s*§block)} {node}
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# nodes
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extract node {(/omit-if-no-ref/)?\s*(§labeldef\d+°\s*)?\s*[\w_][\w\d_\-,.+@]*\s*§block\d+°;\n?} {content block}
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extract nodename {[\w_][\w\d_\-,.+@]*(?=\s*§block)} {node}
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# supplemental node content provided via '&label { ... }' at the top level
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extract nodesupplement {§reflabel\d+°\s*§block\d+°;\n?} {content}
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###############################
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## Back-end helper functions ##
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###############################
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##
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# Return name of reference token with specified index
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##
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proc token_by_idx {idx} {
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global typ;
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return "$typ($idx)$idx"
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}
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##
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# Return index of specified reference token
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##
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proc idx_of_token {token} {
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regexp {[0-9]+} $token idx
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return $idx
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}
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##
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# Return type of specified reference token
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##
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proc type_of_token {token} {
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regexp {[a-z]+} $token type
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return $type
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}
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##
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# Return marker for reference token
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##
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proc marker {token} {
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return "§$token°"
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}
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##
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# Return text referenced by token
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##
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proc token_text {token} {
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global txt
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return $txt([idx_of_token $token])
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}
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##
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# Assign a line number to each reference token
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#
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# To be able to provide error messages including line numbers, we
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# determine the line number for each reference token and store it
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# as an attribute.
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#
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# The result of the function is stored in the global 'ln' array.
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##
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proc assign_line_numbers {{token content0}} {
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global ln curr_ln
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if {$token == "content0"} { set curr_ln 1 }
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# assign current line number to current token
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set ln([idx_of_token $token]) $curr_ln
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# count occurrences of line breaks
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if {[type_of_token $token] == "line"} { incr curr_ln }
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if {$token == "\n"} { incr curr_ln }
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# count lines for all sub-tokens
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set tex [token_text $token]
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while {$tex != ""} {
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# count and eat raw line breaks (needed if 'whitespace' option is disabled)
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if {[regexp {^\n} $tex dummy]} {
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incr curr_ln
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regsub {\n} $tex "" tex
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}
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# ignore plain text
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if {[regexp {^[^§\n]+} $tex plain]} {
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regsub {^[^§\n]+} $tex "" tex }
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# traverse into token
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if {[regexp {^§(.+?)°} $tex dummy token]} {
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assign_line_numbers $token
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regsub {§(.+?)°} $tex "" tex
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}
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}
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}
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##
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# Look up line number of specified reference token
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##
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proc line_number {token} {
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global ln
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return $ln([idx_of_token $token])
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}
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##
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# Output tokens as valid Tcl List
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#
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# The result of this function can be used directly
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# as input by another Tcl script.
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##
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proc dump_tokens { } {
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global num typ txt
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set tokens [list]
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for {set i 0} {($i < $num)} {incr i} {
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set token [token_by_idx $i]
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set text $txt($i)
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lappend tokens [list $token [line_number $token] $text]
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}
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puts $tokens
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}
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##################
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## Main program ##
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##################
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assign_line_numbers
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dump_tokens
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