Beispiel #1
0
class GitSCM(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "git.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "git"
        elif (self._platform == "Darwin"):
            executablePath = self._binaryDirectoryPath / "git"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

    def Clear(self):
        for param in self.Parameters:
            if (param is not self.Executable):
                self.Parameters[param] = None

    class Executable(metaclass=ExecutableArgument):
        pass

    class Switch_Version(metaclass=LongFlagArgument):
        _name = "version"

    Parameters = CommandLineArgumentList(Executable, Switch_Version)
Beispiel #2
0
class GitConfig(GitSCM):
    def Clear(self):
        super().Clear()
        for param in self.ConfigParameters:
            # if isinstance(param, ExecutableArgument):
            # print("{0}".format(param.Value))
            # elif isinstance(param, NamedCommandLineArgument):
            # print("{0}".format(param.Name))
            if (param is not self.Command):
                # print("  clearing: {0} = {1} to None".format(param.Name, param.Value))
                self.ConfigParameters[param] = None

    class Command(metaclass=CommandArgument):
        _name = "config"

    class SwitchUnset(metaclass=LongFlagArgument):
        _name = "unset"

    class SwitchRemoveSection(metaclass=LongFlagArgument):
        _name = "remove-section"

    class ValueFilterClean(metaclass=ValuedFlagArgument):
        _name = "clean"
        _pattern = "filter.{1}.{0}"

    class ValueFilterSmudge(metaclass=ValuedFlagArgument):
        _name = "smudge"
        _pattern = "filter.{1}.{0}"

    class ValueFilterParameters(metaclass=StringArgument):
        pass

    ConfigParameters = CommandLineArgumentList(Command, SwitchUnset,
                                               SwitchRemoveSection,
                                               ValueFilterClean,
                                               ValueFilterSmudge,
                                               ValueFilterParameters)

    def Execute(self):
        parameterList = self.Parameters.ToArgumentList()
        parameterList += self.ConfigParameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise GitException("Failed to launch Git.") from ex

        # FIXME: Replace GetReader with a shorter call to e.g. GetLine and/or GetLines
        output = ""
        for line in self.GetReader():
            output += line

        return output
Beispiel #3
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class GitRevParse(GitSCM):
    def Clear(self):
        super().Clear()
        for param in self.RevParseParameters:
            # if isinstance(param, ExecutableArgument):
            # 	print("{0}".format(param.Value))
            # elif isinstance(param, NamedCommandLineArgument):
            # 	print("{0}".format(param.Name))
            if (param is not self.Command):
                # print("  clearing: {0} = {1} to None".format(param.Name, param.Value))
                self.RevParseParameters[param] = None

    class Command(metaclass=CommandArgument):
        _name = "rev-parse"

    class SwitchInsideWorkingTree(metaclass=LongFlagArgument):
        _name = "is-inside-work-tree"

    class SwitchShowTopLevel(metaclass=LongFlagArgument):
        _name = "show-toplevel"

    class SwitchGitDir(metaclass=LongFlagArgument):
        _name = "git-dir"

    RevParseParameters = CommandLineArgumentList(Command,
                                                 SwitchInsideWorkingTree,
                                                 SwitchShowTopLevel,
                                                 SwitchGitDir)

    def Execute(self):
        parameterList = self.Parameters.ToArgumentList()
        parameterList += self.RevParseParameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise GitException("Failed to launch Git.") from ex

        # FIXME: Replace GetReader with a shorter call to e.g. GetLine and/or GetLines
        output = ""
        for line in self.GetReader():
            output += line

        return output
Beispiel #4
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class GitDescribe(GitSCM):
    def Clear(self):
        super().Clear()
        for param in self.DescribeParameters:
            # if isinstance(param, ExecutableArgument):
            # 	print("{0}".format(param.Value))
            # elif isinstance(param, NamedCommandLineArgument):
            # 	print("{0}".format(param.Name))
            if (param is not self.Command):
                # print("  clearing: {0} = {1} to None".format(param.Name, param.Value))
                self.DescribeParameters[param] = None

    class Command(metaclass=CommandArgument):
        _name = "describe"

    class SwitchAbbrev(metaclass=LongValuedFlagArgument):
        _name = "abbrev"

    class SwitchTags(metaclass=LongTupleArgument):
        _name = "tags"

    DescribeParameters = CommandLineArgumentList(Command, SwitchAbbrev,
                                                 SwitchTags)

    def Execute(self):
        parameterList = self.Parameters.ToArgumentList()
        parameterList += self.DescribeParameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise GitException("Failed to launch Git.") from ex

        # FIXME: Replace GetReader with a shorter call to e.g. GetLine and/or GetLines
        output = ""
        for line in self.GetReader():
            output += line

        return output
Beispiel #5
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class TclShell(Executable, ToolMixIn):
	def __init__(self, toolchain : ToolMixIn):
		ToolMixIn.__init__(
			self, toolchain._platform, toolchain._dryrun, toolchain._binaryDirectoryPath, toolchain._version,
			toolchain._logger)

		if (self._platform == "Windows") :      executablePath = self._binaryDirectoryPath / "quartus_sh.exe"
		elif (self._platform == "Linux") :      executablePath = self._binaryDirectoryPath / "quartus_sh"
		else :                            raise PlatformNotSupportedException(self._platform)
		super().__init__(self._platform, self._dryrun, executablePath, logger=self._logger)

		self.Parameters[self.Executable] = executablePath

	class Executable(metaclass=ExecutableArgument):
		pass

	class SwitchShell(metaclass=ShortFlagArgument):
		_name = "s"

	Parameters = CommandLineArgumentList(
			Executable,
			SwitchShell
	)
Beispiel #6
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class CoreGenerator(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "coregen.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "coregen"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        pass

    class FlagRegenerate(metaclass=ShortFlagArgument):
        _name = "r"

    class SwitchProjectFile(metaclass=ShortTupleArgument):
        _name = "p"

    class SwitchBatchFile(metaclass=ShortTupleArgument):
        _name = "b"

    Parameters = CommandLineArgumentList(Executable, FlagRegenerate,
                                         SwitchProjectFile, SwitchBatchFile)

    def Generate(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise ISEException("Failed to launch corgen.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(CoreGeneratorFilter(self.GetReader()))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  coregen messages for '{0}'".format(
                self.Parameters[self.SwitchProjectFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))
Beispiel #7
0
class ISESimulator(Executable):
    def __init__(self, platform, dryrun, executablePath, logger=None):
        super().__init__(platform, dryrun, executablePath, logger=logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        pass

    class SwitchLogFile(metaclass=ShortTupleArgument):
        _name = "log"

    class FlagGuiMode(metaclass=ShortFlagArgument):
        _name = "gui"

    class SwitchTclBatchFile(metaclass=ShortTupleArgument):
        _name = "tclbatch"

    class SwitchWaveformFile(metaclass=ShortTupleArgument):
        _name = "view"

    Parameters = CommandLineArgumentList(Executable, SwitchLogFile,
                                         FlagGuiMode, SwitchTclBatchFile,
                                         SwitchWaveformFile)

    def Simulate(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise ISEException("Failed to launch isim.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        simulationResult = CallByRefParam(SimulationResult.Error)
        try:
            iterator = iter(
                PoCSimulationResultFilter(SimulatorFilter(self.GetReader()),
                                          simulationResult))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  isim messages for '{0}'".format(
                self.Parameters[self.Executable]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))

        return simulationResult.value
Beispiel #8
0
class Fuse(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "fuse.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "fuse"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        pass

    class FlagIncremental(metaclass=ShortFlagArgument):
        _name = "incremental"

    # FlagIncremental = ShortFlagArgument(_name="incremntal")

    class FlagRangeCheck(metaclass=ShortFlagArgument):
        _name = "rangecheck"

    class SwitchMultiThreading(metaclass=ShortTupleArgument):
        _name = "mt"

    class SwitchTimeResolution(metaclass=ShortTupleArgument):
        _name = "timeprecision_vhdl"

    class SwitchProjectFile(metaclass=ShortTupleArgument):
        _name = "prj"

    class SwitchOutputFile(metaclass=ShortTupleArgument):
        _name = "o"

    class ArgTopLevel(metaclass=StringArgument):
        pass

    Parameters = CommandLineArgumentList(Executable, FlagIncremental,
                                         FlagRangeCheck, SwitchMultiThreading,
                                         SwitchTimeResolution,
                                         SwitchProjectFile, SwitchOutputFile,
                                         ArgTopLevel)

    def Link(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise ISEException("Failed to launch fuse.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(FuseFilter(self.GetReader()))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  fuse messages for '{0}'".format(
                self.Parameters[self.SwitchProjectFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))
Beispiel #9
0
class Map(Executable, ToolMixIn):
	def __init__(self, toolchain : ToolMixIn):
		ToolMixIn.__init__(
			self, toolchain._platform, toolchain._dryrun, toolchain._binaryDirectoryPath, toolchain._version,
			toolchain._logger)

		if (self._platform == "Windows") :      executablePath = self._binaryDirectoryPath / "quartus_map.exe"
		elif (self._platform == "Linux") :      executablePath = self._binaryDirectoryPath / "quartus_map"
		else :                            raise PlatformNotSupportedException(self._platform)
		Executable.__init__(self, self._platform, self._dryrun, executablePath, logger=self._logger)

		self.Parameters[self.Executable] = executablePath

		self._hasOutput =    False
		self._hasWarnings =  False
		self._hasErrors =    False

	@property
	def HasWarnings(self):  return self._hasWarnings
	@property
	def HasErrors(self):    return self._hasErrors

	class Executable(metaclass=ExecutableArgument) :
		pass

	class ArgProjectName(metaclass=StringArgument):
		pass

	class SwitchArgumentFile(metaclass=ShortValuedFlagArgument):
		_name = "f"

	class SwitchDeviceFamily(metaclass=LongValuedFlagArgument) :
		_name = "family"

	class SwitchDevicePart(metaclass=LongValuedFlagArgument) :
		_name = "part"

	Parameters = CommandLineArgumentList(
			Executable,
			ArgProjectName,
			SwitchArgumentFile,
			SwitchDeviceFamily,
			SwitchDevicePart
	)

	def Compile(self) :
		parameterList = self.Parameters.ToArgumentList()
		self.LogVerbose("command: {0}".format(" ".join(parameterList)))

		if (self._dryrun):
			self.LogDryRun("Start process: {0}".format(" ".join(parameterList)))
			return

		try:
			self.StartProcess(parameterList)
		except Exception as ex:
			raise QuartusException("Failed to launch quartus_map.") from ex

		self._hasOutput = False
		self._hasWarnings = False
		self._hasErrors = False
		try:
			iterator = iter(MapFilter(self.GetReader()))

			line = next(iterator)
			self._hasOutput = True
			self.LogNormal("  quartus_map messages for '{0}'".format(self.Parameters[self.SwitchArgumentFile]))
			self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))

			while True:
				self._hasWarnings |= (line.Severity is Severity.Warning)
				self._hasErrors |= (line.Severity is Severity.Error)

				line.IndentBy(self.Logger.BaseIndent + 1)
				self.Log(line)
				line = next(iterator)

		except StopIteration:
			pass
		finally:
			if self._hasOutput:
				self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))
Beispiel #10
0
class GHDL(Executable, ToolMixIn):
	def __init__(self, platform, dryrun, binaryDirectoryPath, version, backend, logger=None):
		ToolMixIn.__init__(self, platform, dryrun, binaryDirectoryPath, version, logger=logger)

		if (platform == "Windows"):     executablePath = binaryDirectoryPath / "ghdl.exe"
		elif (platform == "Linux"):     executablePath = binaryDirectoryPath / "ghdl"
		elif (platform == "Darwin"):    executablePath = binaryDirectoryPath / "ghdl"
		else:                           raise PlatformNotSupportedException(platform)
		super().__init__(platform, dryrun, executablePath, logger=logger)

		self.Executable = executablePath
		#self.Parameters[self.Executable] = executablePath

		if (platform == "Windows"):
			if (backend not in ["llvm", "mcode"]):        raise GHDLException("GHDL for Windows does not support backend '{0}'.".format(backend))
		elif (platform == "Linux"):
			if (backend not in ["gcc", "llvm", "mcode"]): raise GHDLException("GHDL for Linux does not support backend '{0}'.".format(backend))
		elif (platform == "Darwin"):
			if (backend not in ["gcc", "llvm", "mcode"]): raise GHDLException("GHDL for OS X does not support backend '{0}'.".format(backend))

		self._binaryDirectoryPath =  binaryDirectoryPath
		self._backend =              backend
		self._version =              version

		self._hasOutput =            False
		self._hasWarnings =          False
		self._hasErrors =            False

	@property
	def BinaryDirectoryPath(self):  return self._binaryDirectoryPath
	@property
	def Backend(self):              return self._backend
	@property
	def Version(self):              return self._version
	@property
	def HasWarnings(self):          return self._hasWarnings
	@property
	def HasErrors(self):            return self._hasErrors

	def deco(Arg):
		def getter(_):
			return Arg.Value
		def setter(_, value):
			Arg.Value = value
		return property(getter, setter)

	Executable = deco(ExecutableArgument("Executable", (), {}))

	#class Executable(metaclass=ExecutableArgument):
	#	pass

	class CmdAnalyze(metaclass=ShortFlagArgument):
		_name =    "a"

	class CmdElaborate(metaclass=ShortFlagArgument):
		_name =    "e"

	class CmdRun(metaclass=ShortFlagArgument):
		_name =    "r"

	class FlagVerbose(metaclass=ShortFlagArgument):
		_name =    "v"

	class FlagExplicit(metaclass=ShortFlagArgument):
		_name =    "fexplicit"

	class FlagRelaxedRules(metaclass=ShortFlagArgument):
		_name =    "frelaxed-rules"

	class FlagWarnBinding(metaclass=LongFlagArgument):
		_name =    "warn-binding"

	class FlagNoVitalChecks(metaclass=LongFlagArgument):
		_name =    "no-vital-checks"

	class FlagMultiByteComments(metaclass=LongFlagArgument):
		_name =    "mb-comments"

	class FlagSynBinding(metaclass=LongFlagArgument):
		_name =    "syn-binding"

	class FlagPSL(metaclass=ShortFlagArgument):
		_name =    "fpsl"

	class SwitchCompilerOption(metaclass=ValuedFlagListArgument):
		_pattern =  "-{0},{1}"
		_name =     "Wc"

	class SwitchAssemblerOption(metaclass=ValuedFlagListArgument):
		_pattern =  "-{0},{1}"
		_name =     "Wa"

	class SwitchLinkerOption(metaclass=ValuedFlagListArgument):
		_pattern =  "-{0},{1}"
		_name =     "Wl"

	class SwitchIEEEFlavor(metaclass=LongValuedFlagArgument):
		_name =     "ieee"

	class SwitchVHDLVersion(metaclass=LongValuedFlagArgument):
		_name =     "std"

	class SwitchVHDLLibrary(metaclass=LongValuedFlagArgument):
		_name =     "work"

	class ArgListLibraryReferences(metaclass=ValuedFlagListArgument):
		_pattern =  "-{0}{1}"
		_name =     "P"

	class ArgSourceFile(metaclass=PathArgument):
		pass

	class ArgTopLevel(metaclass=StringArgument):
		pass

	Parameters = CommandLineArgumentList(
		#Executable,
		CmdAnalyze,
		CmdElaborate,
		CmdRun,
		FlagVerbose,
		FlagExplicit,
		FlagRelaxedRules,
		FlagWarnBinding,
		FlagNoVitalChecks,
		FlagMultiByteComments,
		FlagSynBinding,
		FlagPSL,
		SwitchCompilerOption,
		SwitchAssemblerOption,
		SwitchLinkerOption,
		SwitchIEEEFlavor,
		SwitchVHDLVersion,
		SwitchVHDLLibrary,
		ArgListLibraryReferences,
		ArgSourceFile,
		ArgTopLevel
	)

	class SwitchIEEEAsserts(metaclass=LongValuedFlagArgument):
		_name =     "ieee-asserts"

	class SwitchVCDWaveform(metaclass=LongValuedFlagArgument):
		_name =     "vcd"

	class SwitchVCDGZWaveform(metaclass=LongValuedFlagArgument):
		_name =     "vcdgz"

	class SwitchFastWaveform(metaclass=LongValuedFlagArgument):
		_name =     "fst"

	class SwitchGHDLWaveform(metaclass=LongValuedFlagArgument):
		_name =     "wave"

	class SwitchWaveformOptionFile(metaclass=LongValuedFlagArgument):
		_name =     "read-wave-opt"		# requires GHDL update

	RunOptions = CommandLineArgumentList(
		SwitchIEEEAsserts,
		SwitchVCDWaveform,
		SwitchVCDGZWaveform,
		SwitchFastWaveform,
		SwitchGHDLWaveform,
		SwitchWaveformOptionFile
	)

	def GetGHDLAnalyze(self):
		ghdl = GHDLAnalyze(self._platform, self._dryrun, self._binaryDirectoryPath, self._version, self._backend, logger=self._logger)
		for param in ghdl.Parameters:
			if (param is not ghdl.Executable):
				ghdl.Parameters[param] = None
		ghdl.Parameters[ghdl.CmdAnalyze] = True
		return ghdl

	def GetGHDLElaborate(self):
		ghdl = GHDLElaborate(self._platform, self._dryrun, self._binaryDirectoryPath, self._version, self._backend, logger=self._logger)
		for param in ghdl.Parameters:
			if (param is not ghdl.Executable):
				ghdl.Parameters[param] = None
		ghdl.Parameters[ghdl.CmdElaborate] = True
		return ghdl

	def GetGHDLRun(self):
		ghdl = GHDLRun(self._platform, self._dryrun, self._binaryDirectoryPath, self._version, self._backend, logger=self._logger)
		for param in ghdl.Parameters:
			if (param is not ghdl.Executable):
				ghdl.Parameters[param] = None
		ghdl.Parameters[ghdl.CmdRun] =      True
		return ghdl
Beispiel #11
0
class XElab(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "xelab.bat"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "xelab"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        _value = None

    class FlagRangeCheck(metaclass=ShortFlagArgument):
        _name = "rangecheck"
        _value = None

    class SwitchMultiThreading(metaclass=ShortTupleArgument):
        _name = "mt"
        _value = None

    class SwitchVerbose(metaclass=ShortTupleArgument):
        _name = "verbose"
        _value = None

    class SwitchDebug(metaclass=ShortTupleArgument):
        _name = "debug"
        _value = None

    # class SwitchVHDL2008(metaclass=ShortFlagArgument):
    # 	_name =    "vhdl2008"
    # 	_value =  None

    class SwitchOptimization(metaclass=ShortValuedFlagArgument):
        _pattern = "--{0}{1}"
        _name = "O"
        _value = None

    class SwitchTimeResolution(metaclass=ShortTupleArgument):
        _name = "timeprecision_vhdl"
        _value = None

    class SwitchProjectFile(metaclass=ShortTupleArgument):
        _name = "prj"
        _value = None

    class SwitchLogFile(metaclass=ShortTupleArgument):
        _name = "log"
        _value = None

    class SwitchSnapshot(metaclass=ShortTupleArgument):
        _name = "s"
        _value = None

    class ArgTopLevel(metaclass=StringArgument):
        _value = None

    Parameters = CommandLineArgumentList(
        Executable,
        FlagRangeCheck,
        SwitchMultiThreading,
        SwitchTimeResolution,
        SwitchVerbose,
        SwitchDebug,
        # SwitchVHDL2008,
        SwitchOptimization,
        SwitchProjectFile,
        SwitchLogFile,
        SwitchSnapshot,
        ArgTopLevel)

    def Link(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise VivadoException("Failed to launch xelab.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(ElaborationFilter(self.GetReader()))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  xelab messages for '{0}'".format(
                self.Parameters[self.SwitchProjectFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        except VivadoException:
            raise
        # except Exception as ex:
        #	raise GHDLException("Error while executing GHDL.") from ex
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))
Beispiel #12
0
class QuestaSimulator(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "vsim.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "vsim"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        _value = None

    class FlagQuietMode(metaclass=ShortFlagArgument):
        _name = "quiet"  # Do not report 'Loading...' messages"
        _value = None

    class FlagBatchMode(metaclass=ShortFlagArgument):
        _name = "batch"
        _value = None

    class FlagGuiMode(metaclass=ShortFlagArgument):
        _name = "gui"
        _value = None

    class SwitchBatchCommand(metaclass=ShortTupleArgument):
        _name = "do"
        _value = None

    class FlagCommandLineMode(metaclass=ShortFlagArgument):
        _name = "c"
        _value = None

    class SwitchModelSimIniFile(metaclass=ShortTupleArgument):
        _name = "modelsimini"
        _value = None

    class FlagOptimization(metaclass=ShortFlagArgument):
        _name = "vopt"
        _value = None

    class FlagReportAsError(metaclass=ShortTupleArgument):
        _name = "error"
        _value = None

    class SwitchTimeResolution(metaclass=ShortTupleArgument):
        _name = "t"  # -t [1|10|100]fs|ps|ns|us|ms|sec  Time resolution limit
        _value = None

    class ArgLogFile(metaclass=ShortTupleArgument):
        _name = "l"  # what's the difference to -logfile ?
        _value = None

    class ArgKeepStdOut(metaclass=ShortFlagArgument):
        _name = "keepstdout"

    class ArgVHDLLibraryName(metaclass=ShortTupleArgument):
        _name = "lib"
        _value = None

    class ArgOnFinishMode(metaclass=ShortTupleArgument):
        _name = "onfinish"
        _value = None  # Customize the kernel shutdown behavior at the end of simulation; Valid modes: ask, stop, exit, final (Default: ask)

    class SwitchTopLevel(metaclass=StringArgument):
        _value = None

    Parameters = CommandLineArgumentList(
        Executable, FlagQuietMode, FlagBatchMode, FlagGuiMode,
        SwitchBatchCommand, FlagCommandLineMode, SwitchModelSimIniFile,
        FlagOptimization, FlagReportAsError, ArgLogFile, ArgKeepStdOut,
        ArgVHDLLibraryName, SwitchTimeResolution, ArgOnFinishMode,
        SwitchTopLevel)

    def Simulate(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise QuestaSimException("Failed to launch vsim run.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        simulationResult = CallByRefParam(SimulationResult.Error)
        try:
            iterator = iter(
                PoCSimulationResultFilter(QuestaVSimFilter(self.GetReader()),
                                          simulationResult))

            line = next(iterator)
            line.IndentBy(self.Logger.BaseIndent + 1)
            self._hasOutput = True
            self.LogNormal("  vsim messages for '{0}'".format(
                self.Parameters[self.SwitchTopLevel]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))
            self.Log(line)

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line = next(iterator)
                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)

        except PoCSimulationResultNotFoundException:
            if self.Parameters[self.FlagGuiMode]:
                simulationResult <<= SimulationResult.GUIRun
        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))

        return simulationResult.value
Beispiel #13
0
class ActiveHDLVHDLLibraryTool(Executable, ToolMixIn):
	"""Abstraction layer of Active-HDL's VHDL library management tool 'vlib'."""
	def __init__(self, toolchain : ToolMixIn):
		ToolMixIn.__init__(
			self, toolchain._platform, toolchain._dryrun, toolchain._binaryDirectoryPath, toolchain._version,
			toolchain._logger)

		if (self._platform == "Windows"):    executablePath = self._binaryDirectoryPath / "vlib.exe"
		else:                                raise PlatformNotSupportedException(self._platform)
		super().__init__(self._platform, self._dryrun, executablePath, logger=self._logger)

		self._hasOutput =    False
		self._hasWarnings =  False
		self._hasErrors =    False

		self.Parameters[self.Executable] = executablePath

	@property
	def HasWarnings(self):
		return self._hasWarnings

	@property
	def HasErrors(self):
		return self._hasErrors

	class Executable(metaclass=ExecutableArgument):
		_value =  None

	# class FlagVerbose(metaclass=FlagArgument):
	# 	_name =    "-v"
	# 	_value =  None

	class SwitchLibraryName(metaclass=StringArgument):
		_value =  None

	Parameters = CommandLineArgumentList(
		Executable,
		# FlagVerbose,
		SwitchLibraryName
	)

	def CreateLibrary(self):
		parameterList = self.Parameters.ToArgumentList()
		self.LogVerbose("command: {0}".format(" ".join(parameterList)))

		try:
			self.StartProcess(parameterList)
		except Exception as ex:
			raise ActiveHDLException("Failed to launch alib run.") from ex

		self._hasOutput = False
		self._hasWarnings = False
		self._hasErrors = False
		try:
			iterator = iter(VHDLLibraryToolFilter(self.GetReader()))
			line = next(iterator)

			self._hasOutput = True
			self.LogNormal("  alib messages for '{0}'".format(self.Parameters[self.SwitchLibraryName]))
			self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))

			while True:
				self._hasWarnings |=  (line.Severity is Severity.Warning)
				self._hasErrors |=    (line.Severity is Severity.Error)

				line.IndentBy(self.Logger.BaseIndent + 1)
				self.Log(line)
				line = next(iterator)

		except StopIteration:
			pass
		finally:
			if self._hasOutput:
				self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))
Beispiel #14
0
class Make(Executable):
    def __init__(self, platform, dryrun, logger=None):
        if (platform == "Linux"): executablePath = "/usr/bin/make"
        else: raise PlatformNotSupportedException(platform)
        super().__init__(platform, dryrun, executablePath, logger=logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    class Executable(metaclass=ExecutableArgument):
        pass

    class SwitchGui(metaclass=ValuedFlagArgument):
        _name = "GUI"

    Parameters = CommandLineArgumentList(Executable, SwitchGui)

    def RunCocotb(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise GNUException("Failed to launch Make.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        simulationResult = CallByRefParam(SimulationResult.Error)
        try:
            iterator = iter(
                CocotbSimulationResultFilter(
                    GNUMakeQuestaSimFilter(self.GetReader()),
                    simulationResult))

            line = next(iterator)
            line.IndentBy(self.Logger.BaseIndent + 1)
            self._hasOutput = True
            self.LogNormal("  Make messages")
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))
            self.Log(line)

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line = next(iterator)
                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))

        return simulationResult.value
Beispiel #15
0
class Simulator(Executable, ToolMixIn):
	"""Abstraction layer of Active-HDL's VHDL simulator 'vsim'."""
	def __init__(self, platform, dryrun, binaryDirectoryPath, version, logger=None):
		ToolMixIn.__init__(self, platform, dryrun, binaryDirectoryPath, version, logger=logger)
		if (self._platform == "Windows"):    executablePath = binaryDirectoryPath / "vsimsa.exe"
		# elif (self._platform == "Linux"):    executablePath = binaryDirectoryPath / "vsimsa"
		else:                                            raise PlatformNotSupportedException(self._platform)
		super().__init__(platform, dryrun, executablePath, logger=logger)

		self.Parameters[self.Executable] = executablePath

	class Executable(metaclass=ExecutableArgument):
		_value =  None

	# class FlagVerbose(metaclass=ShortFlagArgument):
	# 	_name =    "v"
	# 	_value =  None
	#
	# class FlagOptimization(metaclass=ShortFlagArgument):
	# 	_name =    "vopt"
	# 	_value =  None
	#
	# class FlagCommandLineMode(metaclass=ShortFlagArgument):
	# 	_name =    "c"
	# 	_value =  None
	#
	# class SwitchTimeResolution(metaclass=ShortTupleArgument):
	# 	_name =    "t"
	# 	_value =  None

	class SwitchBatchCommand(metaclass=ShortTupleArgument):
		_name =    "do"

	# class SwitchTopLevel(metaclass=ShortValuedFlagArgument):
	# 	_name =    ""
	# 	_value =  None

	Parameters = CommandLineArgumentList(
		Executable,
		# FlagVerbose,
		# FlagOptimization,
		# FlagCommandLineMode,
		# SwitchTimeResolution,
		SwitchBatchCommand
		# SwitchTopLevel
	)

	# units = ("fs", "ps", "us", "ms", "sec", "min", "hr")

	def Simulate(self):
		parameterList = self.Parameters.ToArgumentList()

		self.LogVerbose("command: {0}".format(" ".join(parameterList)))
		self.LogDebug("tcl commands: {0}".format(self.Parameters[self.SwitchBatchCommand]))

		_indent = "    "
		print(_indent + "vsimsa messages for '{0}.{1}'".format("??????", "??????"))  # self.VHDLLibrary, topLevel))
		print(_indent + "-" * 80)
		try:
			self.StartProcess(parameterList)
			for line in self.GetReader():
				print(_indent + line)
		except Exception as ex:
			raise ex  # SimulatorException() from ex
		print(_indent + "-" * 80)
Beispiel #16
0
class StandaloneSimulator(Executable, ToolMixIn):
	"""Abstraction layer of Active-HDL's VHDL standalone simulator 'vsimsa'."""
	def __init__(self, toolchain : ToolMixIn):
		ToolMixIn.__init__(
			self, toolchain._platform, toolchain._dryrun, toolchain._binaryDirectoryPath, toolchain._version,
			toolchain._logger)

		if (self._platform == "Windows"):    executablePath = self._binaryDirectoryPath / "vsimsa.exe"
		else:                                raise PlatformNotSupportedException(self._platform)
		super().__init__(self._platform, self._dryrun, executablePath, logger=self._logger)

		self._hasOutput =    False
		self._hasWarnings =  False
		self._hasErrors =    False

		self.Parameters[self.Executable] = executablePath

	@property
	def HasWarnings(self):
		return self._hasWarnings

	@property
	def HasErrors(self):
		return self._hasErrors

	class Executable(metaclass=ExecutableArgument):
		_value =  None

	class SwitchBatchCommand(metaclass=ShortTupleArgument):
		_name =    "do"
		_value =  None

	Parameters = CommandLineArgumentList(
		Executable,
		SwitchBatchCommand
	)

	def Simulate(self):
		parameterList = self.Parameters.ToArgumentList()
		self.LogVerbose("command: {0}".format(" ".join(parameterList)))
		self.LogDebug("tcl commands: {0}".format(self.Parameters[self.SwitchBatchCommand]))

		try:
			self.StartProcess(parameterList)
		except Exception as ex:
			raise ActiveHDLException("Failed to launch vsimsa run.") from ex

		self._hasOutput = False
		self._hasWarnings = False
		self._hasErrors = False
		simulationResult = CallByRefParam(SimulationResult.Error)
		try:
			iterator = iter(PoCSimulationResultFilter(SimulatorFilter(self.GetReader()), simulationResult))
			line = next(iterator)

			self._hasOutput = True
			self.LogNormal("  vsimsa messages for '{0}.{1}'".format("?????", "?????"))
			self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))

			while True:
				self._hasWarnings |=  (line.Severity is Severity.Warning)
				self._hasErrors |=    (line.Severity is Severity.Error)

				line.IndentBy(self.Logger.BaseIndent + 1)
				self.Log(line)
				line = next(iterator)

		except StopIteration:
			pass
		finally:
			if self._hasOutput:
				self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))

		return simulationResult.value
Beispiel #17
0
class VHDLCompiler(Executable, ToolMixIn):
	"""Abstraction layer of Active-HDL's VHDL compiler 'vcom'."""
	def __init__(self, toolchain : ToolMixIn):
		ToolMixIn.__init__(
			self, toolchain._platform, toolchain._dryrun, toolchain._binaryDirectoryPath, toolchain._version,
			toolchain._logger)

		if (self._platform == "Windows"):    executablePath = self._binaryDirectoryPath / "vcom.exe"
		else:                                raise PlatformNotSupportedException(self._platform)
		super().__init__(self._platform, self._dryrun, executablePath, logger=self._logger)

		self._hasOutput =    False
		self._hasWarnings =  False
		self._hasErrors =    False

		self.Parameters[self.Executable] = executablePath

	@property
	def HasWarnings(self):
		return self._hasWarnings

	@property
	def HasErrors(self):
		return self._hasErrors

	class Executable(metaclass=ExecutableArgument):
		_value =  None

	class FlagNoRangeCheck(metaclass=LongFlagArgument):
		_name =    "norangecheck"
		_value =  None

	class SwitchVHDLVersion(metaclass=ShortValuedFlagArgument):
		_pattern =  "-{1}"
		_name =      ""
		_value =    None

	class SwitchVHDLLibrary(metaclass=ShortTupleArgument):
		_name =    "work"
		_value =  None

	class ArgSourceFile(metaclass=PathArgument):
		_value =  None

	Parameters = CommandLineArgumentList(
		Executable,
		FlagNoRangeCheck,
		SwitchVHDLVersion,
		SwitchVHDLLibrary,
		ArgSourceFile
	)

	# -reorder                      enables automatic file ordering
	# -O[0 | 1 | 2 | 3]             set optimization level
	# -93                                conform to VHDL 1076-1993
	# -2002                              conform to VHDL 1076-2002 (default)
	# -2008                              conform to VHDL 1076-2008
	# -relax                             allow 32-bit integer literals
	# -incr                              switching compiler to fast incremental mode

	def Compile(self):
		parameterList = self.Parameters.ToArgumentList()
		self.LogVerbose("command: {0}".format(" ".join(parameterList)))

		if (self._dryrun):
			self.LogDryRun("Start process: {0}".format(" ".join(parameterList)))
			return

		try:
			self.StartProcess(parameterList)
		except Exception as ex:
			raise ActiveHDLException("Failed to launch acom run.") from ex

		self._hasOutput = False
		self._hasWarnings = False
		self._hasErrors = False
		try:
			iterator = iter(VHDLCompilerFilter(self.GetReader()))
			line = next(iterator)


			self._hasOutput = True
			self.LogNormal("  acom messages for '{0}'".format(self.Parameters[self.ArgSourceFile]))
			self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))

			while True:
				self._hasWarnings |= (line.Severity is Severity.Warning)
				self._hasErrors |= (line.Severity is Severity.Error)

				line.IndentBy(self.Logger.BaseIndent + 1)
				self.Log(line)
				line = next(iterator)

		except StopIteration:
			pass
		finally:
			if self._hasOutput:
				self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent*2)))
Beispiel #18
0
class GTKWave(Executable):
    def __init__(self,
                 platform,
                 dryrun,
                 binaryDirectoryPath,
                 version,
                 logger=None):
        if (platform == "Windows"):
            executablePath = binaryDirectoryPath / "gtkwave.exe"
        elif (platform == "Linux"):
            executablePath = binaryDirectoryPath / "gtkwave"
        elif (platform == "Darwin"):
            executablePath = binaryDirectoryPath / "gtkwave"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(platform, dryrun, executablePath, logger=logger)

        self.Parameters[self.Executable] = executablePath

        self._binaryDirectoryPath = binaryDirectoryPath
        self._version = version

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def BinaryDirectoryPath(self):
        return self._binaryDirectoryPath

    @property
    def Version(self):
        return self._version

    class Executable(metaclass=ExecutableArgument):
        pass

    class SwitchDumpFile(metaclass=LongValuedFlagArgument):
        _name = "dump"

    class SwitchSaveFile(metaclass=LongValuedFlagArgument):
        _name = "save"

    Parameters = CommandLineArgumentList(Executable, SwitchDumpFile,
                                         SwitchSaveFile)

    def View(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise GTKWaveException("Failed to launch GTKWave run.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(GTKWaveFilter(self.GetReader()))

            line = next(iterator)
            line.IndentBy(self.Logger.BaseIndent + 1)
            self._hasOutput = True
            self.LogNormal("  GTKWave messages for '{0}'".format(
                self.Parameters[self.SwitchDumpFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))
            self.Log(line)

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line = next(iterator)
                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))
Beispiel #19
0
class XSim(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "xsim.bat"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "xsim"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        _value = None

    class SwitchLogFile(metaclass=ShortTupleArgument):
        _name = "-log"
        _value = None

    class FlagGuiMode(metaclass=ShortFlagArgument):
        _name = "-gui"
        _value = None

    class SwitchTclBatchFile(metaclass=ShortTupleArgument):
        _name = "-tclbatch"
        _value = None

    class SwitchWaveformFile(metaclass=ShortTupleArgument):
        _name = "-view"
        _value = None

    class SwitchSnapshot(metaclass=StringArgument):
        _value = None

    Parameters = CommandLineArgumentList(Executable, SwitchLogFile,
                                         FlagGuiMode, SwitchTclBatchFile,
                                         SwitchWaveformFile, SwitchSnapshot)

    def Simulate(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise VivadoException("Failed to launch xsim.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        simulationResult = CallByRefParam(SimulationResult.Error)
        try:
            iterator = iter(
                PoCSimulationResultFilter(SimulatorFilter(self.GetReader()),
                                          simulationResult))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  xsim messages for '{0}'".format(
                self.Parameters[self.SwitchSnapshot]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))

        return simulationResult.value
Beispiel #20
0
class Synth(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "synthesis.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "synthesis"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        pass

    class SwitchProjectFile(metaclass=ShortTupleArgument):
        _name = "f"
        _value = None

    Parameters = CommandLineArgumentList(Executable, SwitchProjectFile)

    def GetLogFileReader(self, logFile):
        while True:
            if logFile.exists(): break
            time.sleep(5)  # FIXME: implement a 'tail -f' functionality

        with logFile.open('r') as logFileHandle:
            for line in logFileHandle:
                yield line[:-1]

    def Compile(self, logFile):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise LatticeException("Failed to launch LSE.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(CompilerFilter(self.GetReader()))

            line = next(iterator)
            self._hasOutput = True
            self.LogNormal("  LSE messages for '{0}'".format(
                self.Parameters[self.SwitchProjectFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)
                line = next(iterator)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))
Beispiel #21
0
class QuestaVHDLCompiler(Executable, ToolMixIn):
    def __init__(self, toolchain: ToolMixIn):
        ToolMixIn.__init__(self, toolchain._platform, toolchain._dryrun,
                           toolchain._binaryDirectoryPath, toolchain._version,
                           toolchain._logger)

        if (self._platform == "Windows"):
            executablePath = self._binaryDirectoryPath / "vcom.exe"
        elif (self._platform == "Linux"):
            executablePath = self._binaryDirectoryPath / "vcom"
        else:
            raise PlatformNotSupportedException(self._platform)
        super().__init__(self._platform,
                         self._dryrun,
                         executablePath,
                         logger=self._logger)

        self.Parameters[self.Executable] = executablePath

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False

    @property
    def HasWarnings(self):
        return self._hasWarnings

    @property
    def HasErrors(self):
        return self._hasErrors

    class Executable(metaclass=ExecutableArgument):
        _value = None

    class FlagTime(metaclass=ShortFlagArgument):
        _name = "time"  # Print the compilation wall clock time
        _value = None

    class FlagExplicit(metaclass=ShortFlagArgument):
        _name = "explicit"
        _value = None

    class FlagQuietMode(metaclass=ShortFlagArgument):
        _name = "quiet"  # Do not report 'Loading...' messages"
        _value = None

    class SwitchModelSimIniFile(metaclass=ShortTupleArgument):
        _name = "modelsimini"
        _value = None

    class FlagRangeCheck(metaclass=ShortFlagArgument):
        _name = "rangecheck"
        _value = None

    class SwitchVHDLVersion(metaclass=StringArgument):
        _pattern = "-{0}"
        _value = None

    class ArgLogFile(metaclass=ShortTupleArgument):
        _name = "l"  # what's the difference to -logfile ?
        _value = None

    class SwitchVHDLLibrary(metaclass=ShortTupleArgument):
        _name = "work"
        _value = None

    class ArgSourceFile(metaclass=PathArgument):
        _value = None

    Parameters = CommandLineArgumentList(Executable, FlagTime, FlagExplicit,
                                         FlagQuietMode, SwitchModelSimIniFile,
                                         FlagRangeCheck, SwitchVHDLVersion,
                                         ArgLogFile, SwitchVHDLLibrary,
                                         ArgSourceFile)

    def Compile(self):
        parameterList = self.Parameters.ToArgumentList()
        self.LogVerbose("command: {0}".format(" ".join(parameterList)))

        if (self._dryrun):
            self.LogDryRun("Start process: {0}".format(
                " ".join(parameterList)))
            return

        try:
            self.StartProcess(parameterList)
        except Exception as ex:
            raise QuestaSimException("Failed to launch vcom run.") from ex

        self._hasOutput = False
        self._hasWarnings = False
        self._hasErrors = False
        try:
            iterator = iter(QuestaVComFilter(self.GetReader()))

            line = next(iterator)
            line.IndentBy(self.Logger.BaseIndent + 1)
            self._hasOutput = True
            self.LogNormal("  vcom messages for '{0}'".format(
                self.Parameters[self.ArgSourceFile]))
            self.LogNormal("  " + ("-" * (78 - self.Logger.BaseIndent * 2)))
            self.Log(line)

            while True:
                self._hasWarnings |= (line.Severity is Severity.Warning)
                self._hasErrors |= (line.Severity is Severity.Error)

                line = next(iterator)
                line.IndentBy(self.Logger.BaseIndent + 1)
                self.Log(line)

        except StopIteration:
            pass
        finally:
            if self._hasOutput:
                self.LogNormal("  " + ("-" *
                                       (78 - self.Logger.BaseIndent * 2)))

    def GetTclCommand(self):
        parameterList = self.Parameters.ToArgumentList()
        return "vcom " + " ".join(parameterList[1:])