Artifact 2878f839993a4f287eec47286684761d4dc26ac4

File tools/cvs2fossil/lib/c2f_pbreakacycle.tcl part of check-in [e50f9ed55e] - Continued work on pass 8. Completed the handling of backward branches, file level analysis and splitting them. Extended changesets with the necessary methods to the predecessor data and proper per-revision maps. by aku on 2007-11-22 04:21:37.

## -*- tcl -*-
# # ## ### ##### ######## ############# #####################
## Copyright (c) 2007 Andreas Kupries.
#
# This software is licensed as described in the file LICENSE, which
# you should have received as part of this distribution.
#
# This software consists of voluntary contributions made by many
# individuals.  For exact contribution history, see the revision
# history and logs, available at http://fossil-scm.hwaci.com/fossil
# # ## ### ##### ######## ############# #####################

## Pass VIII. This is the final pass for breaking changeset dependency
## cycles. The two previous passes broke cycles covering revision and
## symbol changesets, respectively. This pass now breaks any remaining
## cycles each of which has to contain at least one revision and at
## least one symbol changeset.

# # ## ### ##### ######## ############# #####################
## Requirements

package require Tcl 8.4                                   ; # Required runtime.
package require snit                                      ; # OO system.
package require struct::list                              ; # Higher order list operations.
package require vc::tools::misc                           ; # Min, max.
package require vc::tools::log                            ; # User feedback.
package require vc::tools::trouble                        ; # Error reporting.
package require vc::fossil::import::cvs::repository       ; # Repository management.
package require vc::fossil::import::cvs::cyclebreaker     ; # Breaking dependency cycles.
package require vc::fossil::import::cvs::state            ; # State storage.
package require vc::fossil::import::cvs::project::rev     ; # Project level changesets

# # ## ### ##### ######## ############# #####################
## Register the pass with the management

vc::fossil::import::cvs::pass define \
    BreakAllCsetCycles \
    {Break Remaining ChangeSet Dependency Cycles} \
    ::vc::fossil::import::cvs::pass::breakacycle

# # ## ### ##### ######## ############# #####################
## 

snit::type ::vc::fossil::import::cvs::pass::breakacycle {
    # # ## ### ##### ######## #############
    ## Public API

    typemethod setup {} {
	# Define the names and structure of the persistent state of
	# this pass.

	state reading csorder
	return
    }

    typemethod load {} {
	# Pass manager interface. Executed to load data computed by
	# this pass into memory when this pass is skipped instead of
	# executed.
	return
    }

    typemethod run {} {
	# Pass manager interface. Executed to perform the
	# functionality of the pass.

	cyclebreaker precmd   [myproc BreakBackwardBranches]
	cyclebreaker savecmd  [myproc SaveOrder]
	cyclebreaker breakcmd [myproc BreakCycle]

	state transaction {
	    LoadCommitOrder
	    cyclebreaker run break-all [myproc Changesets]
	}

	repository printcsetstatistics
	return
    }

    typemethod discard {} {
	# Pass manager interface. Executed for all passes after the
	# run passes, to remove all data of this pass from the state,
	# as being out of date.
	return
    }

    # # ## ### ##### ######## #############
    ## Internal methods

    proc Changesets {} { project::rev all }

    proc LoadCommitOrder {} {
	::variable mycset

	state transaction {
	    foreach {cid pos} [state run { SELECT cid, pos FROM csorder }] {
		set cset [project::rev of $cid]
		$cset setpos $pos
		set mycset($pos) $cset
	    }
	    # Remove the order information now that we have it in
	    # memory, so that we can save it once more, for all
	    # changesets, while breaking the remaining cycles.
	    state run { DELETE FROM csorder }
	}
	return
    }

    # # ## ### ##### ######## #############

    proc BreakBackwardBranches {graph} {
	# We go over all branch changesets, i.e. the changesets
	# created by the symbols which are translated as branches, and
	# break any which are 'backward', which means that they have
	# at least one incoming revision changeset which is committed
	# after at least one of the outgoing revision changesets, per
	# the order computed in pass 6. In "cvs2svn" this is called
	# "retrograde".

	# NOTE: We might be able to use our knowledge that we are
	# looking at all changesets to create a sql which selects all
	# the branch changesets from the state in one go instead of
	# having to check each changeset separately. Consider this
	# later, get the pass working first.
	#
	# NOTE 2: Might we even be able to select the backward branch
	# changesets too ?

	foreach cset [$graph nodes] {
	    if {![$cset isbranch]} continue
	    CheckAndBreakBackwardBranch $graph $cset
	}
	return
    }

    proc CheckAndBreakBackwardBranch {graph cset} {
	while {[IsABackwardBranch $graph $cset]} {
	    log write 5 breakacycle "Breaking backward branch changeset <[$cset id]>"

	    # Knowing that the branch is backward we now look at the
	    # individual revisions in the changeset and determine
	    # which of them are responsible for the overlap. This
	    # allows us to split them into two sets, one of
	    # non-overlapping revisions, and of overlapping ones. Each
	    # induces a new changeset, and the second may still be
	    # backward and need further splitting. Hence the looping.
	    #
	    # The border used for the split is the minimal commit
	    # position among the minimal sucessor commit positions for
	    # the revisions in the changeset.

	    # Note that individual revisions may not have revision
	    # changesets are predecessors and/or successors, leaving
	    # the limits partially or completely undefined.

	    # limits : dict (revision -> list (max predecessor commit, min sucessor commit))

	    ComputeLimits $cset limits border

	    log write 6 breakacycle "At commit position border $border"

	    # Then we sort the file level items based on there they
	    # sit relative to the border into before and after the
	    # border.

	    SplitRevisions $limits normalrevisions backwardrevisions

	    set replacements [project::rev split $cset $normalrevisions $backwardrevisions]
	    cyclebreaker replace $graph $cset $replacements

	    # At last check that the normal frament is indeed not
	    # backward, and iterate over the possibly still backward
	    # second fragment.

	    struct::list assign $replacements normal backward
	    if {[IsABackwardBranch $dg $normal]} { trouble internal "The normal fragment is unexpectedly a backward branch" }

	    set cset $backward
	}
	return
    }

    proc IsABackwardBranch {dg cset} {
	# A branch is "backward" if it has at least one incoming
	# revision changeset which is committed after at least one of
	# the outgoing revision changesets, per the order computed in
	# pass 6.

	# Rephrased, the maximal commit position found among the
	# incoming revision changesets is larger than the minimal
	# commit position found among the outgoing revision
	# changesets. Assuming that we have both incoming and outgoing
	# revision changesets.

	# The helper "Positions" computes the set of commit positions
	# for a set of changesets, which can be a mix of revision and
	# symbol changesets.

	set predecessors [Positions [$dg nodes -in  $cset]]
	set successors   [Positions [$dg nodes -out $cset]]

	return [expr {
		      [llength $predecessors] &&
		      [llength $successors]   &&
		      ([max $predecessors] >= [min $successors])
		  }]
    }

    proc Positions {changesets} {
	# To compute the set of commit positions from the set of
	# changesets we first map each changeset to its position (*)
	# and then filter out the invalid responses (the empty string)
	# returned by the symbol changesets.
	#
	# (*) This data was loaded into memory earlir in the pass, by
	#     LoadCommitOrder.

	return [struct::list filter [struct::list map $changesets \
					 [myproc ToPosition]] \
		    [myproc ValidPosition]]
    }

    proc ToPosition    {cset} { $cset pos }
    proc ValidPosition {pos}  { expr {$pos ne ""} }

    proc ComputeLimits {cset lv bv} {
	upvar 1 $lv thelimits $bv border

	# Initialize the boundaries for all revisions.

	array set limits {}
	foreach revision [$cset revisions] {
	    set limits($revision) {0 {}}
	}

	# Compute and store the maximal predecessors per revision

	foreach {revision csets} [$cset predecessormap] {
	    set s [Positions $csets]
	    if {![llength $s]} continue
	    set limits($revision) [lreplace $limits($revision) 0 0 [max $s]]
	}

	# Compute and store the minimal successors per revision

	foreach {revision csets} [$cset successormap] {
	    set s [Positions $csets]
	    if {![llength $s]} continue
	    set limits($revision) [lreplace $limits($revision) 1 1 [min $s]]
	}

	# Check that the ordering at the file level is correct. We
	# cannot have backward ordering per revision, or something is
	# wrong.

	foreach revision [array names limits] {
	    struct::list assign $limits($revision) maxp mins
	    # Handle min successor position "" as representing infinity
	    if {$mins eq ""} continue
	    if {$maxp < $mins} continue

	    trouble internal "Branch revision $revision is backward at file level ($maxp >= $mins)"
	}

	# Save the limits for the splitter, and compute the border at
	# which to split as the minimum of all minimal successor
	# positions.

	set thelimits [array get limits]
	set border [min [struct::list filter [struct::list map [Values $thelimits] \
						  [myproc MinSuccessorPosition]] \
			     [myproc ValidPosition]]]
	return
    }

    proc Values {dict} {
	set res {}
	foreach {k v} $dict { lappend res $v }
	return $res
    }

    proc MinSuccessorPosition {item} { lindex $item 1 }

    proc SplitRevisions {limits nv bv} {
	upvar 1 $nv normalrevisions $bv backwardrevisions

	set normalrevisions   {}
	set backwardrevisions {}

	foreach {rev v} $limits {
	    struct::list assign $v maxp mins
	    if {$maxp >= $border} {
		lappend backwardrevisions  $rev
	    } else {
		lappend normalrevisions $rev
	    }
	}

	if {![llength $normalrevisions]}   { trouble internal "Set of normal revisions is empty" }
	if {![llength $backwardrevisions]} { trouble internal "Set of backward revisions is empty" }
	return
    }


    # # ## ### ##### ######## #############

    proc SaveOrder {cset pos} {
    }

    # # ## ### ##### ######## #############

    proc BreakCycle {graph} {
	cyclebreaker break $graph
    }

    # # ## ### ##### ######## #############

    typevariable mycset -array {} ; # Map from commit positions to the
				    # changeset (object ref) at that
				    # position.

    # # ## ### ##### ######## #############
    ## Configuration

    pragma -hasinstances   no ; # singleton
    pragma -hastypeinfo    no ; # no introspection
    pragma -hastypedestroy no ; # immortal

    # # ## ### ##### ######## #############
}

namespace eval ::vc::fossil::import::cvs::pass {
    namespace export breakacycle
    namespace eval breakacycle {
	namespace import ::vc::fossil::import::cvs::cyclebreaker
	namespace import ::vc::fossil::import::cvs::repository
	namespace import ::vc::fossil::import::cvs::state
	namespace eval project {
	    namespace import ::vc::fossil::import::cvs::project::rev
	}
	namespace import ::vc::tools::misc::*
	namespace import ::vc::tools::trouble
	namespace import ::vc::tools::log
	log register breakacycle
    }
}

# # ## ### ##### ######## ############# #####################
## Ready

package provide vc::fossil::import::cvs::pass::breakacycle 1.0
return