require 'set' # This is the latest iteration of the gem dependency resolving algorithm. As of now, # it can resolve (as a success or failure) any set of gem dependencies we throw at it # in a reasonable amount of time. The most iterations I've seen it take is about 150. # The actual implementation of the algorithm is not as good as it could be yet, but that # can come later. # Extending Gem classes to add necessary tracking information module Gem class Specification def required_by @required_by ||= [] end end class Dependency def required_by @required_by ||= [] end end end module Bundler class Resolver ALL = Bundler::Dependency::PLATFORM_MAP.values.uniq.freeze class SpecGroup < Array include GemHelpers attr_reader :activated, :required_by def initialize(a) super @required_by = [] @activated = [] @dependencies = nil @specs = {} ALL.each do |p| @specs[p] = reverse.find { |s| s.match_platform(p) } end end def initialize_copy(o) super @required_by = o.required_by.dup @activated = o.activated.dup end def to_specs specs = {} @activated.each do |p| if s = @specs[p] platform = generic(Gem::Platform.new(s.platform)) next if specs[platform] lazy_spec = LazySpecification.new(name, version, platform, source) lazy_spec.dependencies.replace s.dependencies specs[platform] = lazy_spec end end specs.values end def activate_platform(platform) unless @activated.include?(platform) @activated << platform return __dependencies[platform] || [] end [] end def name @name ||= first.name end def version @version ||= first.version end def source @source ||= first.source end def for?(platform) @specs[platform] end def to_s "#{name} (#{version})" end private def __dependencies @dependencies ||= begin dependencies = {} ALL.each do |p| if spec = @specs[p] dependencies[p] = [] spec.dependencies.each do |dep| next if dep.type == :development dependencies[p] << DepProxy.new(dep, p) end end end dependencies end end end attr_reader :errors # Figures out the best possible configuration of gems that satisfies # the list of passed dependencies and any child dependencies without # causing any gem activation errors. # # ==== Parameters # *dependencies:: The list of dependencies to resolve # # ==== Returns # ,nil:: If the list of dependencies can be resolved, a # collection of gemspecs is returned. Otherwise, nil is returned. def self.resolve(requirements, index, source_requirements = {}, base = []) base = SpecSet.new(base) unless base.is_a?(SpecSet) resolver = new(index, source_requirements, base) result = catch(:success) do resolver.start(requirements) raise resolver.version_conflict nil end SpecSet.new(result) end def initialize(index, source_requirements, base) @errors = {} @stack = [] @base = base @index = index @deps_for = {} @missing_gems = Hash.new(0) @source_requirements = source_requirements end def debug if ENV['DEBUG_RESOLVER'] debug_info = yield debug_info = debug_info.inspect unless debug_info.is_a?(String) $stderr.puts debug_info end end def successify(activated) activated.values.map { |s| s.to_specs }.flatten.compact end def start(reqs) activated = {} @gems_size = Hash[reqs.map { |r| [r, gems_size(r)] }] resolve(reqs, activated) end def resolve(reqs, activated) # If the requirements are empty, then we are in a success state. Aka, all # gem dependencies have been resolved. throw :success, successify(activated) if reqs.empty? debug { print "\e[2J\e[f" ; "==== Iterating ====\n\n" } # Sort dependencies so that the ones that are easiest to resolve are first. # Easiest to resolve is defined by: # 1) Is this gem already activated? # 2) Do the version requirements include prereleased gems? # 3) Sort by number of gems available in the source. reqs = reqs.sort_by do |a| [ activated[a.name] ? 0 : 1, a.requirement.prerelease? ? 0 : 1, @errors[a.name] ? 0 : 1, activated[a.name] ? 0 : @gems_size[a] ] end debug { "Activated:\n" + activated.values.map {|a| " #{a}" }.join("\n") } debug { "Requirements:\n" + reqs.map {|r| " #{r}"}.join("\n") } activated = activated.dup # Pull off the first requirement so that we can resolve it current = reqs.shift debug { "Attempting:\n #{current}"} # Check if the gem has already been activated, if it has, we will make sure # that the currently activated gem satisfies the requirement. existing = activated[current.name] if existing || current.name == 'bundler' # Force the current if current.name == 'bundler' && !existing existing = search(DepProxy.new(Gem::Dependency.new('bundler', VERSION), Gem::Platform::RUBY)).first raise GemNotFound, %Q{Bundler could not find gem "bundler" (#{VERSION})} unless existing existing.required_by << existing activated['bundler'] = existing end if current.requirement.satisfied_by?(existing.version) debug { " * [SUCCESS] Already activated" } @errors.delete(existing.name) # Since the current requirement is satisfied, we can continue resolving # the remaining requirements. # I have no idea if this is the right way to do it, but let's see if it works # The current requirement might activate some other platforms, so let's try # adding those requirements here. dependencies = existing.activate_platform(current.__platform) reqs.concat dependencies dependencies.each do |dep| next if dep.type == :development @gems_size[dep] ||= gems_size(dep) end resolve(reqs, activated) else debug { " * [FAIL] Already activated" } @errors[existing.name] = [existing, current] debug { current.required_by.map {|d| " * #{d.name} (#{d.requirement})" }.join("\n") } # debug { " * All current conflicts:\n" + @errors.keys.map { |c| " - #{c}" }.join("\n") } # Since the current requirement conflicts with an activated gem, we need # to backtrack to the current requirement's parent and try another version # of it (maybe the current requirement won't be present anymore). If the # current requirement is a root level requirement, we need to jump back to # where the conflicting gem was activated. parent = current.required_by.last # `existing` could not respond to required_by if it is part of the base set # of specs that was passed to the resolver (aka, instance of LazySpecification) parent ||= existing.required_by.last if existing.respond_to?(:required_by) # We track the spot where the current gem was activated because we need # to keep a list of every spot a failure happened. if parent && parent.name != 'bundler' debug { " -> Jumping to: #{parent.name}" } required_by = existing.respond_to?(:required_by) && existing.required_by.last throw parent.name, required_by && required_by.name else # The original set of dependencies conflict with the base set of specs # passed to the resolver. This is by definition an impossible resolve. raise version_conflict end end else # There are no activated gems for the current requirement, so we are going # to find all gems that match the current requirement and try them in decending # order. We also need to keep a set of all conflicts that happen while trying # this gem. This is so that if no versions work, we can figure out the best # place to backtrack to. conflicts = Set.new # Fetch all gem versions matching the requirement matching_versions = search(current) # If we found no versions that match the current requirement if matching_versions.empty? # If this is a top-level Gemfile requirement if current.required_by.empty? if base = @base[current.name] and !base.empty? version = base.first.version message = "You have requested:\n" \ " #{current.name} #{current.requirement}\n\n" \ "The bundle currently has #{current.name} locked at #{version}.\n" \ "Try running `bundle update #{current.name}`" elsif current.source name = current.name versions = @source_requirements[name][name].map { |s| s.version } message = "Could not find gem '#{current}' in #{current.source}.\n" if versions.any? message << "Source contains '#{name}' at: #{versions.join(', ')}" else message << "Source does not contain any versions of '#{current}'" end else message = "Could not find gem '#{current}' " if @index.source_types.include?(Bundler::Source::Rubygems) message << "in any of the gem sources listed in your Gemfile." else message << "in the gems available on this machine." end end raise GemNotFound, message # This is not a top-level Gemfile requirement else @errors[current.name] = [nil, current] end end matching_versions.reverse_each do |spec_group| conflict = resolve_requirement(spec_group, current, reqs.dup, activated.dup) conflicts << conflict if conflict end # If the current requirement is a root level gem and we have conflicts, we # can figure out the best spot to backtrack to. if current.required_by.empty? && !conflicts.empty? # Check the current "catch" stack for the first one that is included in the # conflicts set. That is where the parent of the conflicting gem was required. # By jumping back to this spot, we can try other version of the parent of # the conflicting gem, hopefully finding a combination that activates correctly. @stack.reverse_each do |savepoint| if conflicts.include?(savepoint) debug { " -> Jumping to: #{savepoint}" } throw savepoint end end end end end def resolve_requirement(spec_group, requirement, reqs, activated) # We are going to try activating the spec. We need to keep track of stack of # requirements that got us to the point of activating this gem. spec_group.required_by.replace requirement.required_by spec_group.required_by << requirement activated[spec_group.name] = spec_group debug { " Activating: #{spec_group.name} (#{spec_group.version})" } debug { spec_group.required_by.map { |d| " * #{d.name} (#{d.requirement})" }.join("\n") } dependencies = spec_group.activate_platform(requirement.__platform) # Now, we have to loop through all child dependencies and add them to our # array of requirements. debug { " Dependencies"} dependencies.each do |dep| next if dep.type == :development debug { " * #{dep.name} (#{dep.requirement})" } dep.required_by.replace(requirement.required_by) dep.required_by << requirement @gems_size[dep] ||= gems_size(dep) reqs << dep end # We create a savepoint and mark it by the name of the requirement that caused # the gem to be activated. If the activated gem ever conflicts, we are able to # jump back to this point and try another version of the gem. length = @stack.length @stack << requirement.name retval = catch(requirement.name) do # try to resolve the next option resolve(reqs, activated) end # clear the search cache since the catch means we couldn't meet the # requirement we need with the current constraints on search clear_search_cache # Since we're doing a lot of throw / catches. A push does not necessarily match # up to a pop. So, we simply slice the stack back to what it was before the catch # block. @stack.slice!(length..-1) retval end def gems_size(dep) search(dep).size end def clear_search_cache @deps_for = {} end def search(dep) if base = @base[dep.name] and base.any? reqs = [dep.requirement.as_list, base.first.version.to_s].flatten.compact d = Gem::Dependency.new(base.first.name, *reqs) else d = dep.dep end @deps_for[d.hash] ||= begin index = @source_requirements[d.name] || @index results = index.search(d, @base[d.name]) if results.any? version = results.first.version nested = [[]] results.each do |spec| if spec.version != version nested << [] version = spec.version end nested.last << spec end deps = nested.map{|a| SpecGroup.new(a) }.select{|sg| sg.for?(dep.__platform) } else deps = [] end end end def clean_req(req) if req.to_s.include?(">= 0") req.to_s.gsub(/ \(.*?\)$/, '') else req.to_s.gsub(/\, (runtime|development)\)$/, ')') end end def version_conflict VersionConflict.new(errors.keys, error_message) end # For a given conflicted requirement, print out what exactly went wrong def gem_message(requirement) m = "" # A requirement that is required by itself is actually in the Gemfile, and does # not "depend on" itself if requirement.required_by.first && requirement.required_by.first.name != requirement.name m << " #{clean_req(requirement.required_by.first)} depends on\n" m << " #{clean_req(requirement)}\n" else m << " #{clean_req(requirement)}\n" end m << "\n" end def error_message errors.inject("") do |o, (conflict, (origin, requirement))| # origin is the SpecSet of specs from the Gemfile that is conflicted with if origin o << %{Bundler could not find compatible versions for gem "#{origin.name}":\n} o << " In Gemfile:\n" o << gem_message(requirement) # If the origin is "bundler", the conflict is us if origin.name == "bundler" o << " Current Bundler version:\n" other_bundler_required = !requirement.requirement.satisfied_by?(origin.version) # If the origin is a LockfileParser, it does not respond_to :required_by elsif !origin.respond_to?(:required_by) || !(origin.required_by.first) o << " In snapshot (Gemfile.lock):\n" end o << gem_message(origin) # If the bundle wants a newer bundler than the running bundler, explain if origin.name == "bundler" && other_bundler_required o << "This Gemfile requires a different version of Bundler.\n" o << "Perhaps you need to update Bundler by running `gem install bundler`?" end # origin is nil if the required gem and version cannot be found in any of # the specified sources else # if the gem cannot be found because of a version conflict between lockfile and gemfile, # print a useful error that suggests running `bundle update`, which may fix things # # @base is a SpecSet of the gems in the lockfile # conflict is the name of the gem that could not be found if locked = @base[conflict].first o << "Bundler could not find compatible versions for gem #{conflict.inspect}:\n" o << " In snapshot (Gemfile.lock):\n" o << " #{clean_req(locked)}\n\n" o << " In Gemfile:\n" o << gem_message(requirement) o << "Running `bundle update` will rebuild your snapshot from scratch, using only\n" o << "the gems in your Gemfile, which may resolve the conflict.\n" # the rest of the time, the gem cannot be found because it does not exist in the known sources else if requirement.required_by.first o << "Could not find gem '#{clean_req(requirement)}', which is required by " o << "gem '#{clean_req(requirement.required_by.first)}', in any of the sources." else o << "Could not find gem '#{clean_req(requirement)} in any of the sources\n" end end end o end end end end