BaseTools/Source/Python/Workspace/WorkspaceCommon.py

## @file
# Common routines used by workspace
#
# Copyright (c) 2012 - 2020, Intel Corporation. All rights reserved.<BR>
# SPDX-License-Identifier: BSD-2-Clause-Patent
#

from __future__ import absolute_import
from collections import OrderedDict, defaultdict
from Common.DataType import SUP_MODULE_USER_DEFINED
from Common.DataType import SUP_MODULE_HOST_APPLICATION
from .BuildClassObject import LibraryClassObject
import Common.GlobalData as GlobalData
from Workspace.BuildClassObject import StructurePcd
from Common.BuildToolError import RESOURCE_NOT_AVAILABLE
from Common.BuildToolError import OPTION_MISSING
from Common.BuildToolError import BUILD_ERROR
import Common.EdkLogger as EdkLogger

class OrderedListDict(OrderedDict):
    def __init__(self, *args, **kwargs):
        super(OrderedListDict, self).__init__(*args, **kwargs)
        self.default_factory = list

    def __missing__(self, key):
        self[key] = Value = self.default_factory()
        return Value

## Get all packages from platform for specified arch, target and toolchain
#
#  @param Platform: DscBuildData instance
#  @param BuildDatabase: The database saves all data for all metafiles
#  @param Arch: Current arch
#  @param Target: Current target
#  @param Toolchain: Current toolchain
#  @retval: List of packages which are DecBuildData instances
#
def GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain):
    PkgSet = set()
    if Platform.Packages:
        PkgSet.update(Platform.Packages)
    for ModuleFile in Platform.Modules:
        Data = BuildDatabase[ModuleFile, Arch, Target, Toolchain]
        PkgSet.update(Data.Packages)
        for Lib in GetLiabraryInstances(Data, Platform, BuildDatabase, Arch, Target, Toolchain):
            PkgSet.update(Lib.Packages)
    return list(PkgSet)

## Get all declared PCD from platform for specified arch, target and toolchain
#
#  @param Platform: DscBuildData instance
#  @param BuildDatabase: The database saves all data for all metafiles
#  @param Arch: Current arch
#  @param Target: Current target
#  @param Toolchain: Current toolchain
#  @retval: A dictionary contains instances of PcdClassObject with key (PcdCName, TokenSpaceGuid)
#  @retval: A dictionary contains real GUIDs of TokenSpaceGuid
#
def GetDeclaredPcd(Platform, BuildDatabase, Arch, Target, Toolchain, additionalPkgs):
    PkgList = GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain)
    PkgList = set(PkgList)
    PkgList |= additionalPkgs
    DecPcds = {}
    GuidDict = {}
    for Pkg in PkgList:
        Guids = Pkg.Guids
        GuidDict.update(Guids)
        for Pcd in Pkg.Pcds:
            PcdCName = Pcd[0]
            PcdTokenName = Pcd[1]
            if GlobalData.MixedPcd:
                for PcdItem in GlobalData.MixedPcd:
                    if (PcdCName, PcdTokenName) in GlobalData.MixedPcd[PcdItem]:
                        PcdCName = PcdItem[0]
                        break
            if (PcdCName, PcdTokenName) not in DecPcds:
                DecPcds[PcdCName, PcdTokenName] = Pkg.Pcds[Pcd]
    return DecPcds, GuidDict

## Get all dependent libraries for a module
#
#  @param Module: InfBuildData instance
#  @param Platform: DscBuildData instance
#  @param BuildDatabase: The database saves all data for all metafiles
#  @param Arch: Current arch
#  @param Target: Current target
#  @param Toolchain: Current toolchain
#  @retval: List of dependent libraries which are InfBuildData instances
#
def GetLiabraryInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain):
    return GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain,Platform.MetaFile,EdkLogger)

def GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain, FileName = '', EdkLogger = None):
    if Module.LibInstances:
        return Module.LibInstances
    ModuleType = Module.ModuleType

    # add forced library instances (specified under LibraryClasses sections)
    #
    # If a module has a MODULE_TYPE of USER_DEFINED,
    # do not link in NULL library class instances from the global [LibraryClasses.*] sections.
    #
    if Module.ModuleType != SUP_MODULE_USER_DEFINED:
        for LibraryClass in Platform.LibraryClasses.GetKeys():
            if LibraryClass.startswith("NULL") and Platform.LibraryClasses[LibraryClass, Module.ModuleType]:
                Module.LibraryClasses[LibraryClass] = Platform.LibraryClasses[LibraryClass, Module.ModuleType]

    # add forced library instances (specified in module overrides)
    for LibraryClass in Platform.Modules[str(Module)].LibraryClasses:
        if LibraryClass.startswith("NULL"):
            Module.LibraryClasses[LibraryClass] = Platform.Modules[str(Module)].LibraryClasses[LibraryClass]

    # EdkII module
    LibraryConsumerList = [Module]
    Constructor = []
    ConsumedByList = OrderedListDict()
    LibraryInstance = OrderedDict()

    if not Module.LibraryClass:
        EdkLogger.verbose("")
        EdkLogger.verbose("Library instances of module [%s] [%s]:" % (str(Module), Arch))

    while len(LibraryConsumerList) > 0:
        M = LibraryConsumerList.pop()
        for LibraryClassName in M.LibraryClasses:
            if LibraryClassName not in LibraryInstance:
                # override library instance for this module
                LibraryPath = Platform.Modules[str(Module)].LibraryClasses.get(LibraryClassName,Platform.LibraryClasses[LibraryClassName, ModuleType])
                if LibraryPath is None:
                    LibraryPath = M.LibraryClasses.get(LibraryClassName)
                    if LibraryPath is None:
                        if not Module.LibraryClass:
                            EdkLogger.error("build", RESOURCE_NOT_AVAILABLE,
                                            "Instance of library class [%s] is not found" % LibraryClassName,
                                            File=FileName,
                                            ExtraData="in [%s] [%s]\n\tconsumed by module [%s]" % (str(M), Arch, str(Module)))
                        else:
                            return []

                LibraryModule = BuildDatabase[LibraryPath, Arch, Target, Toolchain]
                # for those forced library instance (NULL library), add a fake library class
                if LibraryClassName.startswith("NULL"):
                    LibraryModule.LibraryClass.append(LibraryClassObject(LibraryClassName, [ModuleType]))
                elif LibraryModule.LibraryClass is None \
                     or len(LibraryModule.LibraryClass) == 0 \
                     or (ModuleType != SUP_MODULE_USER_DEFINED and ModuleType != SUP_MODULE_HOST_APPLICATION
                         and ModuleType not in LibraryModule.LibraryClass[0].SupModList):
                    # only USER_DEFINED can link against any library instance despite of its SupModList
                    if not Module.LibraryClass:
                        EdkLogger.error("build", OPTION_MISSING,
                                        "Module type [%s] is not supported by library instance [%s]" \
                                        % (ModuleType, LibraryPath), File=FileName,
                                        ExtraData="consumed by library instance [%s] which is consumed by module [%s]" \
                                        % (str(M), str(Module))
                                        )
                    else:
                        return []

                LibraryInstance[LibraryClassName] = LibraryModule
                LibraryConsumerList.append(LibraryModule)
                if not Module.LibraryClass:
                    EdkLogger.verbose("\t" + str(LibraryClassName) + " : " + str(LibraryModule))
            else:
                LibraryModule = LibraryInstance[LibraryClassName]

            if LibraryModule is None:
                continue

            if LibraryModule.ConstructorList != [] and LibraryModule not in Constructor:
                Constructor.append(LibraryModule)

            # don't add current module itself to consumer list
            if M != Module:
                if M in ConsumedByList[LibraryModule]:
                    continue
                ConsumedByList[LibraryModule].append(M)
    #
    # Initialize the sorted output list to the empty set
    #
    SortedLibraryList = []
    #
    # Q <- Set of all nodes with no incoming edges
    #
    LibraryList = [] #LibraryInstance.values()
    Q = []
    for LibraryClassName in LibraryInstance:
        M = LibraryInstance[LibraryClassName]
        LibraryList.append(M)
        if not ConsumedByList[M]:
            Q.append(M)

    #
    # start the  DAG algorithm
    #
    while True:
        EdgeRemoved = True
        while Q == [] and EdgeRemoved:
            EdgeRemoved = False
            # for each node Item with a Constructor
            for Item in LibraryList:
                if Item not in Constructor:
                    continue
                # for each Node without a constructor with an edge e from Item to Node
                for Node in ConsumedByList[Item]:
                    if Node in Constructor:
                        continue
                    # remove edge e from the graph if Node has no constructor
                    ConsumedByList[Item].remove(Node)
                    EdgeRemoved = True
                    if not ConsumedByList[Item]:
                        # insert Item into Q
                        Q.insert(0, Item)
                        break
                if Q != []:
                    break
        # DAG is done if there's no more incoming edge for all nodes
        if Q == []:
            break

        # remove node from Q
        Node = Q.pop()
        # output Node
        SortedLibraryList.append(Node)

        # for each node Item with an edge e from Node to Item do
        for Item in LibraryList:
            if Node not in ConsumedByList[Item]:
                continue
            # remove edge e from the graph
            ConsumedByList[Item].remove(Node)

            if ConsumedByList[Item]:
                continue
            # insert Item into Q, if Item has no other incoming edges
            Q.insert(0, Item)

    #
    # if any remaining node Item in the graph has a constructor and an incoming edge, then the graph has a cycle
    #
    for Item in LibraryList:
        if ConsumedByList[Item] and Item in Constructor and len(Constructor) > 1:
            if not Module.LibraryClass:
                ErrorMessage = "\tconsumed by " + "\n\tconsumed by ".join(str(L) for L in ConsumedByList[Item])
                EdkLogger.error("build", BUILD_ERROR, 'Library [%s] with constructors has a cycle' % str(Item),
                                ExtraData=ErrorMessage, File=FileName)
            else:
                return []
        if Item not in SortedLibraryList:
            SortedLibraryList.append(Item)

    #
    # Build the list of constructor and destructor names
    # The DAG Topo sort produces the destructor order, so the list of constructors must generated in the reverse order
    #
    SortedLibraryList.reverse()
    Module.LibInstances = SortedLibraryList
    SortedLibraryList = [lib.SetReferenceModule(Module) for lib in SortedLibraryList]
    return SortedLibraryList
Use LF line endings in the repository Convert the line endings stored for all text files in the repository to LF. The majority previously used DOS-style CRLF line endings. Add a .gitattributes file to enforce this and treat certain extensions as never being text files. Update PatchCheck.py to insist on LF line endings rather than CRLF. However, its other checks fail on this commit due to lots of pre-existing complaints that it only notices because the line endings have changed. Silicon/QemuSocPkg/FspBin/Patches/0001-Build-QEMU-FSP-2.0-binaries.patch needs to be treated as binary since it contains a mixture of line endings. This change has implications depending on the client platform you are using the repository from: * Windows The usual configuration for Git on Windows means that text files will be checked out to the work tree with DOS-style CRLF line endings. If that's not the case then you can configure Git to do so for the entire machine with: git config --global core.autocrlf true or for just the repository with: git config core.autocrlf true Line endings will be normalised to LF when they are committed to the repository. If you commit a text file with only LF line endings then it will be converted to CRLF line endings in your work tree. * Linux, MacOS and other Unices The usual configuration for Git on such platforms is to check files out of the repository with LF line endings. This is probably the right thing for you. In the unlikely even that you are using Git on Unix but editing or compiling on Windows for some reason then you may need to tweak your configuration to force the use of CRLF line endings as described above. * General For more information see https://docs.github.com/en/get-started/getting-started-with-git/configuring-git-to-handle-line-endings . Fixes: https://github.com/slimbootloader/slimbootloader/issues/1400 Signed-off-by: Mike Crowe <mac@mcrowe.com> 2021-11-10 11:36:23 +00:00			`## @file`
			`# Common routines used by workspace`
			`#`
			`# Copyright (c) 2012 - 2020, Intel Corporation. All rights reserved.<BR>`
			`# SPDX-License-Identifier: BSD-2-Clause-Patent`
			`#`

			`from __future__ import absolute_import`
			`from collections import OrderedDict, defaultdict`
			`from Common.DataType import SUP_MODULE_USER_DEFINED`
			`from Common.DataType import SUP_MODULE_HOST_APPLICATION`
			`from .BuildClassObject import LibraryClassObject`
			`import Common.GlobalData as GlobalData`
			`from Workspace.BuildClassObject import StructurePcd`
			`from Common.BuildToolError import RESOURCE_NOT_AVAILABLE`
			`from Common.BuildToolError import OPTION_MISSING`
			`from Common.BuildToolError import BUILD_ERROR`
			`import Common.EdkLogger as EdkLogger`

			`class OrderedListDict(OrderedDict):`
			`def __init__(self, args, *kwargs):`
			`super(OrderedListDict, self).__init__(args, *kwargs)`
			`self.default_factory = list`

			`def __missing__(self, key):`
			`self[key] = Value = self.default_factory()`
			`return Value`

			`## Get all packages from platform for specified arch, target and toolchain`
			`#`
			`# @param Platform: DscBuildData instance`
			`# @param BuildDatabase: The database saves all data for all metafiles`
			`# @param Arch: Current arch`
			`# @param Target: Current target`
			`# @param Toolchain: Current toolchain`
			`# @retval: List of packages which are DecBuildData instances`
			`#`
			`def GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain):`
			`PkgSet = set()`
			`if Platform.Packages:`
			`PkgSet.update(Platform.Packages)`
			`for ModuleFile in Platform.Modules:`
			`Data = BuildDatabase[ModuleFile, Arch, Target, Toolchain]`
			`PkgSet.update(Data.Packages)`
			`for Lib in GetLiabraryInstances(Data, Platform, BuildDatabase, Arch, Target, Toolchain):`
			`PkgSet.update(Lib.Packages)`
			`return list(PkgSet)`

			`## Get all declared PCD from platform for specified arch, target and toolchain`
			`#`
			`# @param Platform: DscBuildData instance`
			`# @param BuildDatabase: The database saves all data for all metafiles`
			`# @param Arch: Current arch`
			`# @param Target: Current target`
			`# @param Toolchain: Current toolchain`
			`# @retval: A dictionary contains instances of PcdClassObject with key (PcdCName, TokenSpaceGuid)`
			`# @retval: A dictionary contains real GUIDs of TokenSpaceGuid`
			`#`
			`def GetDeclaredPcd(Platform, BuildDatabase, Arch, Target, Toolchain, additionalPkgs):`
			`PkgList = GetPackageList(Platform, BuildDatabase, Arch, Target, Toolchain)`
			`PkgList = set(PkgList)`
			`PkgList \|= additionalPkgs`
			`DecPcds = {}`
			`GuidDict = {}`
			`for Pkg in PkgList:`
			`Guids = Pkg.Guids`
			`GuidDict.update(Guids)`
			`for Pcd in Pkg.Pcds:`
			`PcdCName = Pcd[0]`
			`PcdTokenName = Pcd[1]`
			`if GlobalData.MixedPcd:`
			`for PcdItem in GlobalData.MixedPcd:`
			`if (PcdCName, PcdTokenName) in GlobalData.MixedPcd[PcdItem]:`
			`PcdCName = PcdItem[0]`
			`break`
			`if (PcdCName, PcdTokenName) not in DecPcds:`
			`DecPcds[PcdCName, PcdTokenName] = Pkg.Pcds[Pcd]`
			`return DecPcds, GuidDict`

			`## Get all dependent libraries for a module`
			`#`
			`# @param Module: InfBuildData instance`
			`# @param Platform: DscBuildData instance`
			`# @param BuildDatabase: The database saves all data for all metafiles`
			`# @param Arch: Current arch`
			`# @param Target: Current target`
			`# @param Toolchain: Current toolchain`
			`# @retval: List of dependent libraries which are InfBuildData instances`
			`#`
			`def GetLiabraryInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain):`
			`return GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain,Platform.MetaFile,EdkLogger)`

			`def GetModuleLibInstances(Module, Platform, BuildDatabase, Arch, Target, Toolchain, FileName = '', EdkLogger = None):`
			`if Module.LibInstances:`
			`return Module.LibInstances`
			`ModuleType = Module.ModuleType`

			`# add forced library instances (specified under LibraryClasses sections)`
			`#`
			`# If a module has a MODULE_TYPE of USER_DEFINED,`
			`# do not link in NULL library class instances from the global [LibraryClasses.*] sections.`
			`#`
			`if Module.ModuleType != SUP_MODULE_USER_DEFINED:`
			`for LibraryClass in Platform.LibraryClasses.GetKeys():`
			`if LibraryClass.startswith("NULL") and Platform.LibraryClasses[LibraryClass, Module.ModuleType]:`
			`Module.LibraryClasses[LibraryClass] = Platform.LibraryClasses[LibraryClass, Module.ModuleType]`

			`# add forced library instances (specified in module overrides)`
			`for LibraryClass in Platform.Modules[str(Module)].LibraryClasses:`
			`if LibraryClass.startswith("NULL"):`
			`Module.LibraryClasses[LibraryClass] = Platform.Modules[str(Module)].LibraryClasses[LibraryClass]`

			`# EdkII module`
			`LibraryConsumerList = [Module]`
			`Constructor = []`
			`ConsumedByList = OrderedListDict()`
			`LibraryInstance = OrderedDict()`

			`if not Module.LibraryClass:`
			`EdkLogger.verbose("")`
			`EdkLogger.verbose("Library instances of module [%s] [%s]:" % (str(Module), Arch))`

			`while len(LibraryConsumerList) > 0:`
			`M = LibraryConsumerList.pop()`
			`for LibraryClassName in M.LibraryClasses:`
			`if LibraryClassName not in LibraryInstance:`
			`# override library instance for this module`
			`LibraryPath = Platform.Modules[str(Module)].LibraryClasses.get(LibraryClassName,Platform.LibraryClasses[LibraryClassName, ModuleType])`
			`if LibraryPath is None:`
			`LibraryPath = M.LibraryClasses.get(LibraryClassName)`
			`if LibraryPath is None:`
			`if not Module.LibraryClass:`
			`EdkLogger.error("build", RESOURCE_NOT_AVAILABLE,`
			`"Instance of library class [%s] is not found" % LibraryClassName,`
			`File=FileName,`
			`ExtraData="in [%s] [%s]\n\tconsumed by module [%s]" % (str(M), Arch, str(Module)))`
			`else:`
			`return []`

			`LibraryModule = BuildDatabase[LibraryPath, Arch, Target, Toolchain]`
			`# for those forced library instance (NULL library), add a fake library class`
			`if LibraryClassName.startswith("NULL"):`
			`LibraryModule.LibraryClass.append(LibraryClassObject(LibraryClassName, [ModuleType]))`
			`elif LibraryModule.LibraryClass is None \`
			`or len(LibraryModule.LibraryClass) == 0 \`
			`or (ModuleType != SUP_MODULE_USER_DEFINED and ModuleType != SUP_MODULE_HOST_APPLICATION`
			`and ModuleType not in LibraryModule.LibraryClass[0].SupModList):`
			`# only USER_DEFINED can link against any library instance despite of its SupModList`
			`if not Module.LibraryClass:`
			`EdkLogger.error("build", OPTION_MISSING,`
			`"Module type [%s] is not supported by library instance [%s]" \`
			`% (ModuleType, LibraryPath), File=FileName,`
feat: [BaseTools] Update to latest EDK2 stable tag 202211 (#1791) This patch updated SBL BaseTools to be in sync with EDK2 stable tag 202211. Preserve previous changes made in GNUmakefile, Makefile, RunTest, and PatchCheck to prevent compiling issue. Add condition to match last line when reporting "No newline at end of file" Signed-off-by: Kevin Tsai <kevin.tsai@intel.com> Signed-off-by: Kevin Tsai <kevin.tsai@intel.com> 2022-12-19 16:21:27 -07:00			`ExtraData="consumed by library instance [%s] which is consumed by module [%s]" \`
			`% (str(M), str(Module))`
			`)`
Use LF line endings in the repository Convert the line endings stored for all text files in the repository to LF. The majority previously used DOS-style CRLF line endings. Add a .gitattributes file to enforce this and treat certain extensions as never being text files. Update PatchCheck.py to insist on LF line endings rather than CRLF. However, its other checks fail on this commit due to lots of pre-existing complaints that it only notices because the line endings have changed. Silicon/QemuSocPkg/FspBin/Patches/0001-Build-QEMU-FSP-2.0-binaries.patch needs to be treated as binary since it contains a mixture of line endings. This change has implications depending on the client platform you are using the repository from: * Windows The usual configuration for Git on Windows means that text files will be checked out to the work tree with DOS-style CRLF line endings. If that's not the case then you can configure Git to do so for the entire machine with: git config --global core.autocrlf true or for just the repository with: git config core.autocrlf true Line endings will be normalised to LF when they are committed to the repository. If you commit a text file with only LF line endings then it will be converted to CRLF line endings in your work tree. * Linux, MacOS and other Unices The usual configuration for Git on such platforms is to check files out of the repository with LF line endings. This is probably the right thing for you. In the unlikely even that you are using Git on Unix but editing or compiling on Windows for some reason then you may need to tweak your configuration to force the use of CRLF line endings as described above. * General For more information see https://docs.github.com/en/get-started/getting-started-with-git/configuring-git-to-handle-line-endings . Fixes: https://github.com/slimbootloader/slimbootloader/issues/1400 Signed-off-by: Mike Crowe <mac@mcrowe.com> 2021-11-10 11:36:23 +00:00			`else:`
			`return []`

			`LibraryInstance[LibraryClassName] = LibraryModule`
			`LibraryConsumerList.append(LibraryModule)`
			`if not Module.LibraryClass:`
			`EdkLogger.verbose("\t" + str(LibraryClassName) + " : " + str(LibraryModule))`
			`else:`
			`LibraryModule = LibraryInstance[LibraryClassName]`

			`if LibraryModule is None:`
			`continue`

			`if LibraryModule.ConstructorList != [] and LibraryModule not in Constructor:`
			`Constructor.append(LibraryModule)`

			`# don't add current module itself to consumer list`
			`if M != Module:`
			`if M in ConsumedByList[LibraryModule]:`
			`continue`
			`ConsumedByList[LibraryModule].append(M)`
			`#`
			`# Initialize the sorted output list to the empty set`
			`#`
			`SortedLibraryList = []`
			`#`
			`# Q <- Set of all nodes with no incoming edges`
			`#`
			`LibraryList = [] #LibraryInstance.values()`
			`Q = []`
			`for LibraryClassName in LibraryInstance:`
			`M = LibraryInstance[LibraryClassName]`
			`LibraryList.append(M)`
			`if not ConsumedByList[M]:`
			`Q.append(M)`

			`#`
			`# start the DAG algorithm`
			`#`
			`while True:`
			`EdgeRemoved = True`
			`while Q == [] and EdgeRemoved:`
			`EdgeRemoved = False`
			`# for each node Item with a Constructor`
			`for Item in LibraryList:`
			`if Item not in Constructor:`
			`continue`
			`# for each Node without a constructor with an edge e from Item to Node`
			`for Node in ConsumedByList[Item]:`
			`if Node in Constructor:`
			`continue`
			`# remove edge e from the graph if Node has no constructor`
			`ConsumedByList[Item].remove(Node)`
			`EdgeRemoved = True`
			`if not ConsumedByList[Item]:`
			`# insert Item into Q`
			`Q.insert(0, Item)`
			`break`
			`if Q != []:`
			`break`
			`# DAG is done if there's no more incoming edge for all nodes`
			`if Q == []:`
			`break`

			`# remove node from Q`
			`Node = Q.pop()`
			`# output Node`
			`SortedLibraryList.append(Node)`

			`# for each node Item with an edge e from Node to Item do`
			`for Item in LibraryList:`
			`if Node not in ConsumedByList[Item]:`
			`continue`
			`# remove edge e from the graph`
			`ConsumedByList[Item].remove(Node)`

			`if ConsumedByList[Item]:`
			`continue`
			`# insert Item into Q, if Item has no other incoming edges`
			`Q.insert(0, Item)`

			`#`
			`# if any remaining node Item in the graph has a constructor and an incoming edge, then the graph has a cycle`
			`#`
			`for Item in LibraryList:`
			`if ConsumedByList[Item] and Item in Constructor and len(Constructor) > 1:`
			`if not Module.LibraryClass:`
			`ErrorMessage = "\tconsumed by " + "\n\tconsumed by ".join(str(L) for L in ConsumedByList[Item])`
			`EdkLogger.error("build", BUILD_ERROR, 'Library [%s] with constructors has a cycle' % str(Item),`
			`ExtraData=ErrorMessage, File=FileName)`
			`else:`
			`return []`
			`if Item not in SortedLibraryList:`
			`SortedLibraryList.append(Item)`

			`#`
			`# Build the list of constructor and destructor names`
			`# The DAG Topo sort produces the destructor order, so the list of constructors must generated in the reverse order`
			`#`
			`SortedLibraryList.reverse()`
			`Module.LibInstances = SortedLibraryList`
			`SortedLibraryList = [lib.SetReferenceModule(Module) for lib in SortedLibraryList]`
			`return SortedLibraryList`