source: BLFS/libs/func_dependencies@ 9a09336

trunk
Last change on this file since 9a09336 was 78d04f3, checked in by Pierre Labastie <pierre.labastie@…>, 20 months ago

Fix "ambiguous redirect" in func_dependencies

We use grep -l "${otherlink[*]"\$ to find parentNode, since the
parentNode is the only file with a link line that matches. Problem
is that sometimes the priority line may match too. This makes a
parentNode variable containing several lines, and when redirecting
to $parentNode, creates those "ambiguous redirect" messages.
Fix: use a loop, and only grep on the first line of each file.

  • Property mode set to 100644
File size: 28.1 KB
RevLine 
[3c10176]1#!/bin/bash
2#
3
[2140f22]4#-----------------------------------------------------------------------------#
5# This is a set of (recursive) functions for manipulating a dependency graph. #
6# We use algorithms and definitions from chapter 4 (mainly section 4.2) of #
7# https://algs4.cs.princeton.edu/. The graph we manipulate is the directed #
8# graph of the dependencies: nodes are packages in the BLFS book. A node A is #
9# connected to a node B if package A depends on B. A topological order (rev- #
10# erted) is exactly what we want for a build order. But a topological order #
11# only exists if the graph is acyclic. We'll therefore have to remove cycles. #
12# There are a number of other features we want to consider: #
13# - edges are weighted according to the dependency requirement: #
14# 1 for required #
15# 2 for recommended #
16# 3 for optional #
17# 4 for external #
18# We should consider only edges with weight lower or equal to that #
19# specified by the user, but see below. #
[abadee3]20# - we do not want to build the whole book. The user requests a set of #
21# packages, and we'd like to consider only nodes reachable from this set #
[2140f22]22# using edges of weight not exceeding the specified weight. #
[abadee3]23# - we do not want to rebuild packages already built. But we still have to #
24# generate the full dependency graph, because if A depends on B, which is #
25# already built, and B depends on C, which is not built, or needs to be #
26# updated, then A may depends on C. We therefore have to remove already #
27# built (and up to date) packages from the graph, but need to keep the #
28# dependency chain. #
[2140f22]29# - when doing the topological sort, we want to consider all the edges and #
30# not only those not exceeding the specified weight: If a package A in the #
31# reachable subgraph depends optionally on another package B in the same #
[abadee3]32# subgraph, we want to build B before A if possible. But this means we'll #
33# have to remove cycles for all weights. #
34# - dependencies have another qualifier: before, after, or first. We use #
35# it as follows: for "after", we can build the dependency after the #
36# package, but if a package A depends on B with an "after" qualifier, and #
37# a package C depends on A with a "before" qualifier, C may need B to be #
38# able to use A. So the only safe way to consider "after" qualifiers is to #
39# consider that they are "before" deps for any parent of the packages #
40# considered. There is an exception to that rule: if B depends on C #
41# (possibly through a chain of several dependencies), then C should still #
42# be built before B. For "after", the dependency has to be built both #
43# before and after the package. So we duplicate the dependency as a #
44# "-pass1" package, and change the graph accordingly. #
[2140f22]45# We'll therefore have a 3 pass procedure. First build the set of nodes #
46# reachable from the root set. Second, remove dangling edges (those pointing #
47# to packages outside the node set), and move "after" edges to "before" edges #
[abadee3]48# originating from the parents as well as creating the "-pass1" nodes. Third #
49# remove cycles and generate a topological sort. #
[2140f22]50# #
[dd9ca56]51# Pass 1: graph generation #
52# ======================== #
53# Data layout for pass 1 #
54# ---------------------- #
[abadee3]55# A node of the graph is represented by a text file <nodeName>.dep. Each edge #
[2140f22]56# starting from this node is represented by a line in this file. We keep #
57# those files in the same directory. We introduce a special node named root, #
58# whose edges point to the list of nodes requested by the user. Each line #
59# contains three fields: #
60# - the weight of the edge #
[dd9ca56]61# - the qualifier: "before" (b), "after" (a), or "first" (f) #
62# - the name of the destination of the edge (without the ".dep" extension) #
63# #
64# Recursive function "generate_subgraph" #
65# -------------------------------------- #
66# This function treats a node of the graph that is not a leaf and that is #
67# seen for the first time in the DFS. The dependencies of this node are #
68# known, and stored in a .dep file. For each dependency in that file, there #
69# are three cases: #
70# - the weight of the edge leading to that dependency is higher than #
71# requested. This dependency is discarded (some information printed) #
72# - the weight of the edge is lower or equal to requested, but the node #
73# has already been visited (the .dep file exists). Discard too (some #
74# information printed) #
75# - the weight of the edge is lower or equal to requested, and the node #
76# has not been seen: then the dependencies of that node are generated, #
77# and there are two cases: #
78# - the node has no dependencies: just create an empty .dep file, so #
79# that we know the node has been visited #
80# - the node has dependencies: call generate_subgraph for that node #
81# #
82# This function takes four parameters: #
83# - The node filename: this is the only one useful for the algorithm #
84# - The depth: number of steps starting from root (for pretty print only) #
85# - The weight of the edge leading to that node (for printing) #
86# - The qualifier (for printing) #
87# #
[a78cfc9]88# Pass 2: graph transformation #
89# ============================ #
90# We now have three loops over nodes of the graph #
91# Loop 1: Remove dead edges #
92# ------------------------- #
[abadee3]93# Since some nodes have not been created because the edges leading to them #
94# had too high a weight, those edges have to be suppressed. #
[a78cfc9]95# For each existing node file, we make a list of lines to remove by #
96# testing whether the destination exists. We then remove the lines. #
97# Another approach would be to make a temporary file and output only #
98# lines that should stay, then rename the file. This would save a loop. #
99# All in all it is an N*e process, where N is the number of nodes and e #
100# the average number of edges originating from a node. #
101# Loop 2: Treat "after" edges #
102# --------------------------- #
103# If a node is the origin of edges qualified as "after", we want the #
104# nodes which are the destination of those edges to be built after #
105# the origin node, but before any node that depend on the origin #
106# node. For that, the general rule is to change: #
107# P---b--->A---a--->D #
108# to: #
109# P---b--->Agroupxx---b--->A #
110# | #
111# ---b--->D #
112# But there is a problem if D depends on P, possibly through a chain, #
113# because we create a cycle which shouldn't exist. If this is the case, #
114# we leave A as a dependency of P: #
115# P---b--->A #
116# #
117# Agroupxx---b--->A #
118# | #
119# ---b--->D #
120# Doing so, it may happen that Agroupxx has no parent. We then add #
121# Agroupxx as a dependency of root. The problem with this algorithm is #
122# the search for paths from D to A, which may be exponential in the #
123# number of nodes in the graph. #
[abadee3]124# #
125# Loop 3: Add -pass1 nodes #
126# ------------------------ #
127# Sometimes there is no way to escape a cycle. A package A needs B, and B #
128# needs A. In that case, it is often possible to build a degraded version #
129# of package A, then B, then rebuild A. The book indicates this with the #
130# following dependency chain, using a qualifier of "first": #
131# B---f--->A---b--->X...Y---b--->B #
132# where the X...Y notation represents a chain of dependencies from A to B. #
133# So the third loop is over nodes containing "f" qualifiers, and does the #
134# following: it creates a new node A-pass1, which is a copy of A, and #
135# remove from A-pass1 all the dependencies leading to B through a chain, #
136# to obtain: #
137# A---b--->X...Y---b--->B---b--->A-pass1 #
138# It may then happen that nothing depends on A. So this is tested, and A #
139# is added to the root node if it is orphaned. #
140# TODO: document the third pass #
[dd9ca56]141# TODO: needs also to document the .tree files #
142# TODO: The following is obsolete #
[d7c07e0]143# Circular dependencies: #
[7dc8595]144# #
[d7c07e0]145# In case we find a cirdular dependency, it has the form : #
146# parent->dependency_0->...->dependency_n->dependency_0 #
147# If we want to build dependency_n before dependency_0, no problem: #
148# we just prune the tree at dependency_n. If we want to build first #
149# dependency_0, we need to put dependency_n as a dependency of parent, #
150# then erase and rebuild the subtree from there. Now, we may have met #
151# another circular dependency in the subtree, and erasing the tree makes #
152# us forget the decision which was made. So, after first generating the #
153# list of dependencies from packages.xml, we keep the generated list in #
154# a file <nodeName>.odep, which we modify according to the decision which #
155# was made. #
[e4b1293]156#---------------------------------------------------------------------------#
157
158# Global variables:
[e576789]159# A string of spaces for indenting:
[3c10176]160declare -a spaceSTR=" "
[2140f22]161# When we are backing up from a circular dependency, `parentNode'
162# contains the node which has an edge entering the cycle
163declare parentNode
[3c10176]164
[2140f22]165#---------------------#
166generate_subgraph() { #
167#---------------------#
[3c10176]168: <<inline_doc
[2140f22]169 function: Create a subgraph of all the nodes reachable from the node
170 represented by the file whose name is $1. The edges considered
171 are those with maximal weight DEP_LEVEL (recursive function).
172 input vars: $1 : file name corresponding to the node whose edges will be
173 followed for the DFS
174 $2 : weight of the edge leading to this node
175 $3 : depth (root is 1)
[dd9ca56]176 $4 : qualifier (a for after, b for before, f for first)
[7ac11f0]177 externals: vars: DEP_LEVEL contains 1 if we want to build the
178 tree only for required dependencies,
179 2 if we want also recommended ones,
[2140f22]180 3 if we want also optional ones, but only
181 for the requested packages,
182 4 if we want all the dependencies
[dd9ca56]183 (excluding external of course)
[7ac11f0]184 MAIL_SERVER contains the name of the MTA we want to use.
185 files: ../xsl/dependencies.xsl: stylesheet for creating the
186 .dep files
[e91a15d]187 ../packages.xml: File containing packages id
[7ac11f0]188 and dependencies
[2140f22]189 returns: 0 if the tree has been successfully created
190 output: files: for each node reachable from $1, a file <node>.dep.
191 on error: nothing
192 on success: nothing
193inline_doc
194
195local depFile=$1
196local -i weight=$2
197local -i depth=$3
198local qualifier=$4
199local -i spacing=0
200local priostring
201local buildstring
202local id_of_dep
203local prio_of_dep
204local build_of_dep
205local dep_level
206
207if (( depth < 10 )); then spacing=1; fi
208case $weight in
209 1) priostring=required ;;
210 2) priostring=recommended ;;
211 3) priostring=optional ;;
212esac
213case $qualifier in
[dd9ca56]214 a) buildstring=runtime ;;
215 b|f) buildstring= ;;
[2140f22]216esac
217dep_level=$DEP_LEVEL
218if [ "$dep_level" = 3 ] && [ "$depth" -gt 2 ]; then dep_level=2; fi
219if [ "$dep_level" -gt 3 ]; then dep_level=3; fi
220echo -en "\nNode: $depth${spaceSTR:0:$(( depth + spacing ))}${RED}${depFile%.dep}${OFF} $priostring $buildstring"
221
222depth=$(( depth + 1 ))
223if (( depth < 10 )); then spacing=1; else spacing=0; fi
224# Start of loop
225{
226while read prio_of_dep build_of_dep id_of_dep; do
[e030049]227 case $prio_of_dep in
[2140f22]228 1) priostring=required ;;
229 2) priostring=recommended ;;
230 3) priostring=optional ;;
231 4) priostring=external ;;
[e030049]232 esac
233 case $build_of_dep in
[dd9ca56]234 a ) buildstring=runtime ;;
235 b|f) buildstring= ;;
[e030049]236 esac
237# Has this entry already been seen?
[dd9ca56]238# TODO: no there is no special case!
[e030049]239# We have a special case here: if the entry has been seen at depth > 2
240# and now depth=2 and DEP_LEVEL=3, optional deps have not been processed.
241# If this is the case, just consider it has not been seen.
[2140f22]242 if [ -f ${id_of_dep}.dep ] ; then
[e030049]243 case $depth$DEP_LEVEL in
244 23) ;;
245 *)
[2140f22]246# Just display it and proceed.
[e030049]247 echo -en "\nEdge: $depth${spaceSTR:0:$((depth + spacing))}${MAGENTA}${id_of_dep}${OFF} $priostring $buildstring"
248 continue
249 ;;
250 esac
[2140f22]251 fi
252# Is the weight higher than requested?
253 if [ "$prio_of_dep" -gt $dep_level ]; then
254# Just display it and proceed.
255 echo -en "\n Out: $depth${spaceSTR:0:$((depth + spacing))}${YELLOW}${id_of_dep}${OFF} $priostring $buildstring"
256 continue
257 fi
258# Otherwise, let's build the corresponding subgraph.
259 xsltproc --stringparam idofdep "$id_of_dep" \
260 --stringparam MTA "$MAIL_SERVER" \
261 -o ${id_of_dep}.dep \
262 ../xsl/dependencies.xsl ../packages.xml
263
264 if [[ -s ${id_of_dep}.dep ]]; then # this dependency has dependencies
265 generate_subgraph ${id_of_dep}.dep $prio_of_dep $depth $build_of_dep
266 else # id_of_dep has no dependencies, just touch the file and display
267 touch ${id_of_dep}.dep
268 echo -en "\nLeaf: $depth${spaceSTR:0:$((depth + spacing))}${CYAN}${id_of_dep}${OFF} $priostring $buildstring"
269 fi
270done
271} <$depFile
272depth=$(( depth - 1 ))
273if (( depth < 10 )); then spacing=1; else spacing=0; fi
274echo -en "\n End: $depth${spaceSTR:0:$((depth + spacing))}${GREEN}${depFile%.dep}${OFF}"
275return 0
276}
277
278#-----------#
279path_to() { #
280#-----------#
281: <<inline_doc
282 function: check whether there is a path from $1 to $2 on the graph
283 input vars: $1 contains the filename of the starting node.
284 $2 contains the name of the node to reach
285 $3 contains the weight above which we do not want to
286 follow an edge
[e0bbc6e]287 $seen (global) contains the list of already seen nodes.
288 It must ve set to " " prior to calling the function
[2140f22]289 returns: 0 if the node has been found
290 1 if not
291 on error: nothing
292 on success: nothing
293inline_doc
294local start=$1
295local seek=$2
296local prio=$3
297local prio_of_dep
298local build_of_dep
299local id_of_dep
300local r
301
302if test "${start%.dep}" = "$seek"; then return 0; fi
[59afe73]303seen="$seen${start%.dep} "
[5afaf7c]304if test -s $start; then
[2140f22]305 {
306 while read prio_of_dep build_of_dep id_of_dep; do
307 if test "$prio" -lt "$prio_of_dep"; then continue; fi
[5afaf7c]308 if ! test "${seen% $id_of_dep *}" = "$seen"; then continue; fi
[2140f22]309 if path_to ${id_of_dep}.dep $seek $prio; then return 0; fi
310 done
311 } < $start
312fi
313return 1
314}
315#------------------#
316clean_subgraph() { #
317#------------------#
318: <<inline_doc
319 function: Remove dangling edges and create groups of deps for "after"
320 deps: A-before->B-after->C becomes:
321 A -before-> Bgroupxx -before-> B
322 \
323 -before-> C
324 the name of the group is chosen so that it is unlikely as
325 a package name (so that it is removed when building the
326 xml book).
[141d072]327 Also change the "first" qualifier so that a cycle:
328 A -first-> B ---chain---> A becomes:
329 B ---chain---> A -before-> B-pass1
330 and we remove all the dependencies which have a chain to
331 A in B-pass1.
332 Since we do not change anything else, it may happen that
333 nothing depends on B. In that case, B is appended to root.
[2140f22]334 input vars: None
335 files: <node>.dep files containing dangling edges and
336 "after" qualifiers
337 returns: 0
338 output: files: <node>.dep files containing no dangling edges and
339 no "after" qualifiers
340 on error: nothing
341 on success: nothing
342inline_doc
343
344local node
345local id_of_dep
346local prio_of_dep
347local build_of_dep
348local lines_to_remove
349local lines_to_change
350local parent
351local p
352local b
353local start
354local seen
355
356for node in $(ls *.dep); do
357 if test $node = root.dep; then continue; fi
[28546ae]358 echo Cleaning $node
[2140f22]359 lines_to_remove=
360 {
361 while read prio_of_dep build_of_dep id_of_dep; do
362 if ! test -f ${id_of_dep}.dep; then
363 lines_to_remove="$lines_to_remove $id_of_dep"
364 continue
365 fi
366 done
367 } <$node
368 for id_of_dep in $lines_to_remove; do
369 sed "/\ $id_of_dep\$/d" -i $node
370 done
371done
372for node in $(grep -l ' a ' *.dep); do
373 lines_to_remove=
[28546ae]374 echo Process "runtime" deps in $node
[2140f22]375 if ! [ -e ${node%.dep}groupxx.dep ]; then
[e0bbc6e]376 b=0 # Nothing depends on <node>groupxx
[2140f22]377 for parent in $(grep -l ${node%.dep}\$ *); do
[e0bbc6e]378 p=0 # No "after" dependency depends on this parent
[2140f22]379 for start in $(grep ' a ' $node | cut -d' ' -f3); do
[e0bbc6e]380 seen=" " # global variable used in "path_to"
[2140f22]381 if path_to ${start}.dep ${parent%.dep} 3; then p=1; break; fi
382 done
383 if test $p = 0; then
[f1edc8e]384 b=1
[2140f22]385 sed -i "s/\ ${node%.dep}\$/&groupxx/" $parent
386 fi
387 done
388 echo "1 b ${node%.dep}" > ${node%.dep}groupxx.dep
[f1edc8e]389 if test $b = 0; then echo "1 b ${node%.dep}groupxx" >> root.dep; fi
[2140f22]390 fi
391 {
392 while read prio_of_dep build_of_dep id_of_dep; do
393 if test $build_of_dep = a; then
394 if ! grep -q ${id_of_dep} ${node%.dep}groupxx.dep; then
395 echo "$prio_of_dep b ${id_of_dep}" >> ${node%.dep}groupxx.dep
396 fi
397 lines_to_remove="$lines_to_remove $id_of_dep"
398 fi
399 done
400 } <$node
401 for id_of_dep in $lines_to_remove; do
[5156f51]402 sed "/a\ $id_of_dep\$/d" -i $node
[2140f22]403 done
404done
405for node in $(grep -l ' f ' *); do
[28546ae]406 echo Process "first" deps in $node
[2140f22]407 lines_to_change=
408 {
409 while read prio_of_dep build_of_dep id_of_dep; do
410 if test $build_of_dep = f; then
411 if ! test -f ${id_of_dep}-pass1.dep; then
412 cp ${id_of_dep}{,-pass1}.dep;
413 fi
414 lines_to_change="$lines_to_change $id_of_dep"
[e0bbc6e]415 unset lr # lines to remove in -pass1
[2140f22]416 {
417 while read p b start; do
[e0bbc6e]418 seen=" " # global variable used in "path_to"
[2140f22]419 if path_to ${start}.dep ${node%.dep} $p; then
420 lr="$lr $start"
421 fi
422 done
423 } < ${id_of_dep}-pass1.dep
424 for p in $lr; do
425 sed "/\ $p\$/d" -i ${id_of_dep}-pass1.dep
426 done
427 fi
428 done
429 } <$node
430 for id_of_dep in $lines_to_change; do
[d80302b]431 sed "/\ $id_of_dep\$/"'{s/[[:digit:]] f /1 b /;s/$/-pass1/}' -i $node
[141d072]432 if ! grep -q " $id_of_dep\$" *.dep; then
433 echo 1 b $id_of_dep >>root.dep
434 fi
[2140f22]435 done
436done
437} # End clean_subgraph
438
439#----------------------------#
440generate_dependency_tree() { #
441#----------------------------#
442: <<inline_doc
443 function: Create a subtree of the dependency tree
444 (recursive function)
445 input vars: $1 : file with a list of targets (child nodes)
446 the first line of the file is the link
447 $2 : priority (1=req, 2=rec, 3=opt)
[e4b1293]448 returns: 0 if the tree has been successfully created
449 1 if we are backing up to the parent of a circular dep
[2140f22]450 and there are only required deps in the cycle
451 2 if we are backing up to the parent of a circular dep
452 and there are recommended deps and no optional deps in the
453 cycle
454 3 if we are backing up to the parent of a circular dep
455 and there are optiional deps in the cycle
[33ee66c]456 modifies: vars: parentNode is set when return is not 0
[e4b1293]457 output: files: for each <pkg> with dependencies in $1,
[2140f22]458 a file <pkg>.tree and its dependencies
[3c10176]459 on error: nothing
460 on success: nothing
461inline_doc
462
[2140f22]463local depFile=$1
[7dc8595]464local priority=$2
[e576789]465local -a rootlink
[7dc8595]466local -a priolink
[e576789]467local -a otherlink
468local -i depth
469local -i count=0
470local id_of_dep
[2140f22]471local build_of_dep
472local prio_of_dep
[e576789]473local parent
474local lines_to_remove=
475local srootlink
[7dc8595]476local priostring
477local dpriostring
478local i
[e576789]479
480{
[2140f22]481read -a rootlink
[e576789]482depth=${#rootlink[*]}
[2140f22]483read -a priolink
[e576789]484srootlink="${rootlink[*]} "
[7dc8595]485case $priority in
486 1) priostring=required ;;
487 2) priostring=recommended ;;
488 3) priostring=optional ;;
489esac
[2140f22]490# start of depFile
491echo -en "\nNode: $depth${spaceSTR:0:$depth}${RED}${depFile%.tree}${OFF} $priostring"
[e576789]492
[2140f22]493while read prio_of_dep build_of_dep id_of_dep; do
494 case $prio_of_dep in
[7dc8595]495 1) dpriostring=required ;;
496 2) dpriostring=recommended ;;
497 3) dpriostring=optional ;;
[2140f22]498 esac
[e576789]499# count entries in file
500 (( count++ ))
501# Has this entry already been seen?
[2140f22]502 if [ -f ${id_of_dep}.tree ]; then # found ${id_of_dep}.tree already in tree
503 otherlink=($(head -n 1 ${id_of_dep}.tree))
[2e1c1c3]504 if [ -z "${otherlink[*]}" ]
[2140f22]505 then echo otherlink empty for $id_of_dep.tree
[e576789]506 echo This should not happen, but happens to happen...
507 exit 1
508 fi
[2140f22]509#Do not use "${rootlink[*]}" =~ "${otherlink[*]}": case rootlink=(1 11)
[e576789]510# and otherlink=(1 1)
[e4b1293]511 if [[ ${srootlink#"${otherlink[*]} "} != ${srootlink} ]]; then # cir. dep
[7dc8595]512 echo -en "\nCirc: $((depth+1))${spaceSTR:0:$((depth+1))}${YELLOW}${id_of_dep}${OFF} $dpriostring"
[2140f22]513# Find lowest priority in branch from parent to depFile:
[7dc8595]514 p2=0
515 for (( i=${#otherlink[*]}; i < $depth ; i++ )) ; do
516 if (( ${priolink[i]} > $p2 )); then p2=${priolink[i]}; fi
517 done
518 if (( $prio_of_dep >= $p2 )); then # prune
[e4b1293]519 lines_to_remove="$lines_to_remove $id_of_dep"
[2140f22]520 sed -i "/$id_of_dep/d" ${depFile/.tree/.dep}
521 else # find and set parent, then return lowest priority
522# The parent has the same link without the last entry.
523# We do not need otherlink anymore so just destroy the last element
524 unset otherlink[-1]
[78d04f3]525# We cannot use grep -l, because we need to restrict to the first line,
526# since the prio line may match
527 for f in *.tree; do
528 if head -n1 $f | grep -q ^"${otherlink[*]}"\$; then
529 parentNode=$f; break
530 fi
531 done
[2140f22]532 return $p2
[e4b1293]533 fi
[2140f22]534 else # not circular: prune tree (but not .dep, since it may happen that
[7ac11f0]535 # the tree is destroyed and rebuilt in another order)
[e576789]536 lines_to_remove="$lines_to_remove $id_of_dep"
[e4b1293]537 fi # circular or not
538 continue # this dependency has already been seen, and the associated
539 # subtree computed. We are done
540 fi # Has this entry already been seen?
[2140f22]541# So, this entry has not already been seen. Let's build the corresponding
542# subtree. First check there is a subtree...
543# Use -s, because it may happen that after removing lines, .dep exists
[d7c07e0]544# but is empty.
[2140f22]545 if [[ -s ${id_of_dep}.dep ]]; then # this dependency has dependencies
546 sed "1i${rootlink[*]} $count\\
547${priolink[*]} $prio_of_dep" < ${id_of_dep}.dep \
548 > ${id_of_dep}.tree # add link and priolink
549 generate_dependency_tree ${id_of_dep}.tree $prio_of_dep
[e576789]550# Test return value, in case we exchange dependencies
[2140f22]551 p2=$?
552 case $p2 in
553 0) # Normal return
554 ;;
555 $prio_of_dep) # we remove this dep, but since it may become unreachable,
556 # move it to be built later (as a dep of parent).
557 tree_erase ${id_of_dep}.tree
558 lines_to_remove="$lines_to_remove $id_of_dep"
559 sed -i "/${id_of_dep}/d" ${depFile/.tree/.dep}
560 echo "$prio_of_dep b $id_of_dep" >> $parentNode
561# must be added to .dep in case parentNode is destroyed when erasing
562# the tree
563 echo "$prio_of_dep b $id_of_dep" >> ${parentNode/.tree/.dep}
564 continue
565 ;;
566 *) # We are backing up
567 return $p2
568 ;;
569 esac
570 else # id_of_dep has no dependencies, just record the link in a file
571 # and print
572 echo "${rootlink[*]} $count" > ${id_of_dep}.tree
573 echo -en "\nLeaf: $(($depth+1))${spaceSTR:0:$(($depth+1))}${CYAN}${id_of_dep}${OFF} $dpriostring"
574 fi
[e576789]575done
[2140f22]576echo -en "\n End: $depth${spaceSTR:0:$depth}${GREEN}${depFile%.tree}${OFF}"
577} <$depFile
[e576789]578# It may happen that a file is created with several times
579# the same line. Normally, all those lines but one
580# would be flagged to be removed (or all of them if
[e4b1293]581# the dependency appeared before). A simple sed /$line/d
[e576789]582# destroys all the lines. We should instead remove
583# only one for each appearance of it in lines_to_remove.
[e4b1293]584# so first get the position of last line and then delete
[e576789]585# that line
586for line in $lines_to_remove
[2140f22]587 do lineno=$(sed -n /^[[:digit:]]\ b\ $line\$/= $depFile | tail -n1)
588 sed -i ${lineno}d $depFile
[e576789]589done
590return 0
591}
[3c10176]592
[2140f22]593
[e576789]594#---------------#
595tree_browse() { #
596#---------------#
597local file=$1
598local f
599
600#echo file=$file
[7dc8595]601for f in $(grep '[^0-9 ]' $file | sed 's/.* //'); do
[e576789]602# echo f=$f
[2140f22]603 if grep -q '[^0-9 ]' ${f}.tree ; then
604 tree_browse ${f}.tree
[3c10176]605 fi
[e576789]606 echo $f
607done
608}
[3c10176]609
[e576789]610#--------------#
611tree_erase() { #
612#--------------#
613local file=$1
614local f
[6c8095a]615local rootlink
[f37d08b]616local rootlink2
[e576789]617
618#echo file=$file
[6c8095a]619rootlink="$(head -n1 $file) "
[7dc8595]620for f in $(grep '[^0-9 ]' $file | sed 's/.* //'); do
[2140f22]621 if [ -f ${f}.tree ]; then
622 rootlink2="$(head -n1 ${f}.tree) "
[6c8095a]623# We want two things:
624# i) do not erase the file if it is in another branch
625# ii) do not erase the file if there is a circular dependency
626# for case i), we test that rootlink is contained in rootlink2
627# for case ii), we test that rootlink2 is not contained in
628# rootlink.
[f37d08b]629# See comment above about srootlink
[6c8095a]630 if [[ ${rootlink2#${rootlink}} != ${rootlink2} &&
631 ${rootlink#${rootlink2}} == ${rootlink} ]] ; then
[2140f22]632 tree_erase ${f}.tree
[e576789]633 fi
634 fi
635done
636rm -f $file
[3c10176]637}
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