proc SplitIntoWords {block} { # We need to split the block up into words but cannot use # list operations as they throw away some significant # quoting, and [split] ignores braces as it should. # Therefore what we do is gradually build up a string out of # whitespace separated strings. We cannot use [split] to # split the block into whitespace separated strings as it # throws away the whitespace which maybe important so we # have to do it all by hand. set words {} set word "" while {[string length $block]} { # Look for the next group of whitespace characters. if {[regexp -indices "\[ \t\n\]+" $block all]} { # Remove the text leading up to and including the white space # from the block. set text [string range $block 0 [lindex $all 1]] set block [string range $block [expr {[lindex $all 1] + 1}] end] } else { # Take everything up to the end of the block. set text $block set block {} } # Add the text to the end of the word we are building up. append word $text if { [catch {llength $word} length] == 0 && $length == 1} { # The word is a valid list so add it to the list. lappend words [string trim $word] set word {} } } # If the last word has not been added to the list then there # is a problem. if { [string length $word] } { error "incomplete word \"$word\"" } return $words } proc SplitIntoWordsStripComments {block} { # We need to split the block up into words but cannot use # list operations as they throw away some significant # quoting, and [split] ignores braces as it should. # Therefore what we do is gradually build up a string out of # whitespace separated strings. We cannot use [split] to # split the block into whitespace separated strings as it # throws away the whitespace which maybe important so we # have to do it all by hand. set words {} set word "" set comment 0 while {[string length $block]} { # Look for the next group of whitespace characters. if {[regexp -indices "\[ \t\n\]+" $block all]} { # Remove the text leading up to and including the white space # from the block. set text [string range $block 0 [lindex $all 1]] set block [string range $block [expr {[lindex $all 1] + 1}] end] } else { # Take everything up to the end of the block. set text $block set block {} } # Add the text to the end of the word we are building up. append word $text # If the word is a comment then check to see whether it is # complete yet. if { $comment } { set index [string first "\n" $word] if { $index != -1 } { # The comment has been terminated. set comment 0 } # Discard the part of the comment which has already been # found, even if a whole comment has been found only white space # could have come after the newline and that whitespace is not # significant. set word "" } elseif { [regexp -indices "^\[ \t\n\]*#" $word all] } { # The word starts with a hash so it is a comment, strip # off the matched portion which could contain newline # characters which would confuse the search for a terminating # newline character. set word [string range $word [lindex $all 1] end] set index [string first "\n" $word] if { $index == -1 } { # The comment has not yet been terminated so keep looking # for the comment. set comment 1 } # Discard the part of the comment which has already been # found, even if a whole comment has been found only white space # could have come after the newline and that whitespace is not # significant. set word "" } elseif { [catch {llength $word} length] == 0 && $length == 1} { # The word is a valid list so add it to the list. lappend words [string trim $word] set word {} } } # If the last word has not been added to the list then there # is a problem. if { [string length $word] } { error "incomplete word \"$word\"" } return $words }
The function below is an improved version of the first function, SplitIntoWords. When the input to the first function is a string containing many words inside quotes, then the running time for the first function is O(N²) where N is the number of words in the input. For example, if the input is: {pattern {a b c d e}}, then the first function must parse the partial list:
{a {a b {a b c ... {a b c d e}This type of input can be very common because the input is often a pattern action pairs where the action is a Tcl script containing many words and the pattern is a single word. The following function improves the running time by only making a list check when a word with a quote character ["{}] is seen. This can reduce the running time for the above example from O(N²) to O(N). However, the worst case running time is still O(N²) when every word inside the list also contains a quote character.
proc SplitIntoWords {block} { # We need to split the block up into words but cannot use # list operations as they throw away some significant # quoting, and [split] ignores braces as it should. # Therefore what we do is gradually build up a string out of # whitespace separated strings. We cannot use [split] to # split the block into whitespace separated strings as it # throws away the whitespace which maybe important so we # have to do it all by hand. set words {} set word "" while {[string length $block]} { # Look for the next word containing a quote: " { } if {[regexp -indices {[^ \t\n]*[\"\{\}]+[^ \t\n]*} \ $block all]} { # Get the text leading up to this word, but not # including this word from the block. set text [string range $block 0 \ [expr {[lindex $all 0] - 1}]] # Get the word with the quote set wordWithQuote [string range $block \ [lindex $all 0] [lindex $all 1]] # Remove all text up to and including the word from the # block. set block [string range $block \ [expr {[lindex $all 1] + 1}] end] } else { # Take everything up to the end of the block. set text $block set wordWithQuote {} set block {} } if {$word != {}} { # If we saw a word with quote before, then there is a # partial list starting with that word. In this case, add # the text and the current word to this partial list. append word $text $wordWithQuote } else { # Add the text to the result. There is no need to parse # the text because it couldn't be a part of any list. # Then start a list with the word because we need to pass # this word to the Tcl parser append words $text set word $wordWithQuote } if { [catch {llength $word} length] == 0 && $length == 1} { # The word is a valid list so add it to the list. lappend words [string trim $word] set word {} } } # If the last word has not been added to the list then there # is a problem. if { [string length $word] } { error "incomplete word \"$word\"" } return $words }
Who made this? It's quite neat... -FW