sanchayanmaity/gem5
1
0
Fork 0
Code Issues Pull requests Packages Projects Releases Wiki Activity
gem5/sim/param.hh
Kevin Lim f58d85128d Fixes so m5 compiles on gcc 3.4, which has much stricter syntax. Most changes come from templated code, 
which is evaluated slightly differently than in previous versions of gcc.

arch/alpha/alpha_linux_process.cc:
    Alphabetize includes.
arch/alpha/vptr.hh:
    Change the constants that are being used for alpha pagebytes to come from the ISA.
base/random.hh:
cpu/static_inst.cc:
sim/param.cc:
    Fix up template syntax.
base/range.hh:
    Include iostream for << operator.
base/res_list.hh:
base/statistics.hh:
cpu/simple_cpu/simple_cpu.hh:
cpu/static_inst.hh:
sim/eventq.hh:
sim/param.hh:
    Fixup for templated code to resolve different scope lookup in gcc 3.4.  This defers the lookup of the
    function/variable until actual instantiation time by making it dependent on the templated class/function.
base/trace.cc:
    Fix call to new.
base/trace.hh:
    Fix up #define to have full path.
cpu/base_cpu.cc:
    Fix up call to new.
dev/etherlink.hh:
dev/ns_gige.hh:
dev/sinic.hh:
    Fixup for friend class/function declaration.  g++ 3.4 no longer allows typedefs to be declared as
    a friend class.
dev/pcidev.hh:
    Fix up re-definition of access level to params.
kern/linux/linux_syscalls.hh:
kern/tru64/tru64_syscalls.hh:
    Fix up header.  Fix up template syntax.
sim/serialize.cc:
    Include errno.h.
sim/startup.cc:
    Change startupq.  queue was getting destructed before all things had called ~StartupCallback(), which lead
    to a segfault.  This puts startupq in global space, and we allocate it ourselves.  Other code may be similar
    to this and may need changing in the future.
sim/syscall_emul.hh:
    Include cpu/exec_context.hh and sim/process.hh, as forward declarations are no longer sufficient.
sim/universe.cc:
    Include errno.h

--HG--
extra : convert_revision : e49d08ee89eb06a28351f02bafc028ca6652d5af
2005-01-14 18:34:56 -05:00

787 lines
23 KiB
C++
Raw Blame History

/*
* Copyright (c) 2002-2003 The Regents of The University of Michigan
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are
* met: redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer;
* redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution;
* neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
* "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
* A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
* OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
* SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
* LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef __SIM_PARAM_HH__
#define __SIM_PARAM_HH__
#include <iostream>
#include <list>
#include <string>
#include <vector>
#include "sim/configfile.hh"
#include "sim/startup.hh"
// forward decls
class BaseParam;
class SimObject;
//
// The context of a parameter definition... usually a subclass of
// SimObjectBuilder (which derives from ParamContext), but abstracted
// here to support more global simulator control parameters as well.
//
class ParamContext : protected StartupCallback
{
private:
// static list of all ParamContext objects, built as a side effect
// of the ParamContext constructor
static std::list<ParamContext *> *ctxList;
protected:
// .ini file (database) for parameter lookup... initialized on call
// to parseParams()
IniFile *iniFilePtr;
// .ini file section for parameter lookup
const std::string iniSection;
typedef std::vector<BaseParam *> ParamList;
// list of parameters defined in this context
ParamList *paramList;
ParamList *getParamList() {
if (!paramList)
paramList = new ParamList;
return paramList;
}
public:
/// Initialization phases for ParamContext objects.
enum InitPhase {
NoAutoInit = -1, ///< Don't initialize at all... params
/// will be parsed later (used by
/// SimObjectBuilder, which parses
/// params in SimObject::create().
OutputInitPhase = 0, ///< Output stream initialization
TraceInitPhase = 1, ///< Trace context initialization:
/// depends on output streams, but
/// needs to come before others so we
/// can use tracing in other
/// ParamContext init code
StatsInitPhase = 2, ///< Stats output initialization
DefaultInitPhase = 3 ///< Everything else
};
/// Records the initialization phase for this ParamContext.
InitPhase initPhase;
/// Constructor.
/// @param _iniSection Name of .ini section corresponding to this context.
/// @param _initPhase Initialization phase (see InitPhase).
ParamContext(const std::string &_iniSection,
InitPhase _initPhase = DefaultInitPhase);
virtual ~ParamContext() {}
// add a parameter to the context... called from the parameter
// object's constructor (see BaseParam::BaseParam())
void addParam(BaseParam *);
// call parse() on all params in this context to convert string
// representations to parameter values
virtual void parseParams(IniFile &iniFile);
// Check parameter values for validity & consistency. Default
// implementation is no-op; derive subclass & override to add
// actual functionality here
virtual void checkParams();
// Clean up at end of execution: close file descriptors, etc.
// Default implementation is no-op; derive subclass & override to
// add actual functionality here
virtual void cleanup();
// dump parameter descriptions
void describeParams(std::ostream &);
// Display the parameters & values used
void showParams(std::ostream &);
// print context information for parameter error
virtual void printErrorProlog(std::ostream &);
// resolve a SimObject name in this context to an object pointer.
virtual SimObject *resolveSimObject(const std::string &name);
// generate the name for this instance of this context (used as a
// prefix to create unique names in resolveSimObject()
virtual const std::string &getInstanceName() { return iniSection; }
// return the configuration hierarchy node for this context. Bare
// ParamContext objects have no corresponding node, so the default
// implementation returns NULL.
virtual ConfigNode *getConfigNode() { return NULL; }
// Parse all parameters registered with all ParamContext objects.
static void parseAllContexts(IniFile &iniFile);
// Check all parameters registered with all ParamContext objects.
// (calls checkParams() on each)
static void checkAllContexts();
// Print all parameter values on indicated ostream.
static void showAllContexts(std::ostream &os);
// Clean up all registered ParamContext objects. (calls cleanup()
// on each)
static void cleanupAllContexts();
// print descriptions of all parameters registered with all
// ParamContext objects
static void describeAllContexts(std::ostream &os);
};
//
// Base class for all parameter objects
//
class BaseParam
{
public:
ParamContext *context;
std::string name;
std::string description; // text description for help message
bool wasSet; // true if parameter was set by user
bool hasDefault; // true if parameter has default value
BaseParam(ParamContext *_context, const std::string &_name,
const std::string &_description, bool _hasDefault)
: context(_context), name(_name), description(_description),
wasSet(false), hasDefault(_hasDefault)
{
context->addParam(this);
}
virtual ~BaseParam() {}
// a parameter is valid only if its value was set by the user or
// it has a default value
bool isValid() const
{
return (wasSet || hasDefault);
}
// set value by parsing string
virtual void parse(const std::string &s) = 0;
// display value to stream
virtual void showValue(std::ostream &) const = 0;
// display type to stream
virtual void showType(std::ostream &) const = 0;
// signal parse or usage error
virtual void die(const std::string &err) const;
};
//
// Template classes to specialize parameters to specific types.
//
// Param<T> is for single-valued (scalar) parameters of type T.
// VectorParam<T> is for multi-valued (vector) parameters of type T.
// These are specified in the .ini file as a space-delimited list of
// arguments.
//
template <class T>
class Param : public BaseParam
{
protected:
T value;
public:
// Param with default value: set value to default
Param(ParamContext *context,
const std::string &name, const std::string &description, T dfltValue)
: BaseParam(context, name, description, true),
value(dfltValue)
{
}
// Param with no default value: leave value uninitialized
Param(ParamContext *context,
const std::string &name, const std::string &description)
: BaseParam(context, name, description, false)
{
}
virtual ~Param() {}
operator T&()
{
// if we attempt to reference an invalid parameter (i.e., one
// with no default value that was not set by the user), die.
if (!isValid())
die("not found");
return value;
}
// display value to stream
virtual void showValue(std::ostream &os) const;
// display type to stream
virtual void showType(std::ostream &) const;
// set value by parsing string
virtual void parse(const std::string &s);
};
//
// Template class for vector-valued parameters (lists)
//
template <class T>
class VectorParam : public BaseParam
{
protected:
std::vector<T> value;
public:
typedef typename std::vector<T>::size_type size_type;
// Param with default value: set value to default
VectorParam(ParamContext *context, const std::string &name,
const std::string &description,
const std::vector<T> &dfltValue)
: BaseParam(context, name, description, true),
value(dfltValue)
{
}
// Param with no default value: leave value uninitialized
VectorParam(ParamContext *context,
const std::string &name, const std::string &description)
: BaseParam(context, name, description, false)
{
}
virtual ~VectorParam() {}
// basic vector access methods
size_type size() const
{
if (!isValid())
die("not found");
return value.size();
}
const T &operator[](size_type n) const
{
if (!isValid())
die("not found");
return value[n];
}
// return reference to value vector
operator std::vector<T>&()
{
if (!isValid())
die("not found");
return value;
}
// display value to stream
virtual void showValue(std::ostream &os) const;
// display type to stream
virtual void showType(std::ostream &) const;
// set value by parsing string
virtual void parse(const std::string &s);
};
//
// Specialization of Param<int> and VectorParam<int> to handle
// enumerated types is done in two ways, using SimpleEnumParam and
// MappedEnumParam (and their vector counterparts,
// SimpleEnumVectorParam and MappedEnumVectorParam). SimpleEnumParam
// takes an array of strings and maps them to integers based on array
// index. MappedEnumParam takes an array of string-to-int mappings,
// allowing for mapping strings to non-contiguous integer values, or
// mapping multiple strings to the same integer value.
//
// Both SimpleEnumParam and MappedEnumParam are implemented using a
// single template class, EnumParam<Map>, which takes the type of the map
// as a parameter (const char * or EnumParamMap). Similarly,
// SimpleEnumVectorParam and MappedEnumVectorParam are both
// implemented using EnumVectorParam<Map>.
//
template <class Map>
class EnumParam : public Param<int>
{
const int num_values;
const Map *map;
public:
// Param with default value: set value to default
EnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const Map *_map, int _num_values,
int dfltValue)
: Param<int>(context, name, description, dfltValue),
num_values(_num_values), map(_map)
{
}
// Param with no default value: leave value uninitialized
EnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const Map *_map, int _num_values)
: Param<int>(context, name, description),
num_values(_num_values), map(_map)
{
}
virtual ~EnumParam() {}
// display value to stream
virtual void showValue(std::ostream &os) const;
// display type to stream
virtual void showType(std::ostream &) const;
// set value by parsing string
virtual void parse(const std::string &s);
};
//
// Vector counterpart to SimpleEnumParam
//
template <class Map>
class EnumVectorParam : public VectorParam<int>
{
const int num_values;
const Map *map;
public:
// Param with default value: set value to default
EnumVectorParam(ParamContext *context,
const std::string &name, const std::string &description,
const Map *_map, int _num_values,
std::vector<int> &dfltValue)
: VectorParam<int>(context, name, description, dfltValue),
num_values(_num_values), map(_map)
{
}
// Param with no default value: leave value uninitialized
EnumVectorParam(ParamContext *context,
const std::string &name, const std::string &description,
const Map *_map, int _num_values)
: VectorParam<int>(context, name, description),
num_values(_num_values), map(_map)
{
}
virtual ~EnumVectorParam() {}
// display value to stream
virtual void showValue(std::ostream &os) const;
// display type to stream
virtual void showType(std::ostream &) const;
// set value by parsing string
virtual void parse(const std::string &s);
};
// Specialize EnumParam for a particular enumeration type ENUM
// (automates casting to get value of enum type)
template <class ENUM>
class SimpleEnumParam : public EnumParam<const char *>
{
public:
SimpleEnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const char **_map, int _num_values,
ENUM dfltValue)
: EnumParam<const char *>(context, name, description,
_map, _num_values, (int)dfltValue)
{
}
SimpleEnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const char **_map, int _num_values)
: EnumParam<const char *>(context, name, description,
_map, _num_values)
{
}
operator ENUM() const
{
if (!isValid())
die("not found");
return (ENUM)value;
}
};
// Specialize EnumParam for a particular enumeration type ENUM
// (automates casting to get value of enum type)
template <class ENUM>
class SimpleEnumVectorParam : public EnumVectorParam<const char *>
{
public:
// skip default value constructor: too much pain to convert
// vector<ENUM> initializer to vector<int>
SimpleEnumVectorParam(ParamContext *context,
const std::string &name,
const std::string &description,
const char **_map, int _num_values)
: EnumVectorParam<const char *>(context, name, description,
_map, _num_values)
{
}
ENUM operator[](size_type n)
{
if (!isValid())
die("not found");
return (ENUM)value[n];
}
};
//
// Handle enums via string-to-int map (see comment above).
//
// An array of string-to-int mappings must be supplied using the
// following type.
typedef struct {
const char *name;
int value;
} EnumParamMap;
// Specialize EnumParam for a particular enumeration type ENUM
// (automates casting to get value of enum type)
template <class ENUM>
class MappedEnumParam : public EnumParam<EnumParamMap>
{
public:
MappedEnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const EnumParamMap *_map, int _num_values,
ENUM dfltValue)
: EnumParam<EnumParamMap>(context, name, description,
_map, _num_values, (int)dfltValue)
{
}
MappedEnumParam(ParamContext *context,
const std::string &name, const std::string &description,
const EnumParamMap *_map, int _num_values)
: EnumParam<EnumParamMap>(context, name, description,
_map, _num_values)
{
}
operator ENUM()
{
if (!isValid())
die("not found");
return (ENUM)value[this->n];
}
};
// Specialize EnumParam for a particular enumeration type ENUM
// (automates casting to get value of enum type)
template <class ENUM>
class MappedEnumVectorParam : public EnumVectorParam<EnumParamMap>
{
public:
// skip default value constructor: too much pain to convert
// vector<ENUM> initializer to vector<int>
MappedEnumVectorParam(ParamContext *context,
const std::string &name,
const std::string &description,
const EnumParamMap *_map, int _num_values)
: EnumVectorParam<EnumParamMap>(context, name, description,
_map, _num_values)
{
}
ENUM operator[](size_type n)
{
if (!isValid())
die("not found");
return (ENUM)value[n];
}
};
//
// Parameters that point to other simulation objects (e.g. caches,
// busses, etc.) are handled by specializing SimObjectBaseParam to the
// specific subtype. The main purpose of SimObjectBaseParam is to
// provide a place to stick several helper functions common to all
// SimObject-derived parameters.
//
class SimObjectBaseParam : public BaseParam
{
public:
SimObjectBaseParam(ParamContext *context, const std::string &name,
const std::string &description, bool hasDefault)
: BaseParam(context, name, description, hasDefault)
{
}
virtual ~SimObjectBaseParam() {}
// helper function for SimObjectParam<T>::showValue()
void showValue(std::ostream &os, SimObject *obj) const;
// helper function for SimObjectParam<T>::parse()
void parse(const std::string &s, SimObject *&value);
// helper function for SimObjectParam<T>::parse()
void parse(const std::string &s, std::vector<SimObject *>&value_vec);
};
//
// Parameter to a specific type of SimObject. Note that T must be a
// pointer to a class derived from SimObject (e.g., <CPU *>).
//
template <class T> class SimObjectParam;
template <class T>
class SimObjectParam<T *> : public SimObjectBaseParam
{
protected:
T *value;
public:
// initialization w/o default
SimObjectParam(ParamContext *context,
const std::string &name, const std::string &description)
: SimObjectBaseParam(context, name, description, false)
{
}
// initialization wit=h default
SimObjectParam(ParamContext *context,
const std::string &name, const std::string &description,
T *dfltValue)
: SimObjectBaseParam(context, name, description, true),
value(dfltValue)
{
}
virtual ~SimObjectParam() {}
// convert to pointer
operator T*()
{
if (!isValid())
die("not found");
return value;
}
T *operator->() const
{
if (!isValid())
die("not found");
return value;
}
// display value to stream
virtual void showValue(std::ostream &os) const
{
SimObjectBaseParam::showValue(os, value);
}
// display type to stream: see REGISTER_SIM_OBJECT macro in
// sim_object.hh for declaration
virtual void showType(std::ostream &os) const;
// set value by parsing string
virtual void parse(const std::string &s)
{
SimObject *so_ptr;
// first parse to generic SimObject *
SimObjectBaseParam::parse(s, so_ptr);
// now dynamic_cast to specific derived type
value = dynamic_cast<T *>(so_ptr);
// check for failure of dynamic_cast
if (value == NULL && so_ptr != NULL)
die("not of appropriate type");
}
};
//
// Vector counterpart to SimObjectParam<T>
//
template <class T> class SimObjectVectorParam;
template <class T>
class SimObjectVectorParam<T *> : public SimObjectBaseParam
{
protected:
std::vector<T *> value;
public:
typedef typename std::vector<T *>::size_type size_type;
SimObjectVectorParam(ParamContext *context,
const std::string &name,
const std::string &description)
: SimObjectBaseParam(context, name, description, false)
{
}
SimObjectVectorParam(ParamContext *context,
const std::string &name,
const std::string &description,
std::vector<T *> dfltValue)
: SimObjectBaseParam(context, name, description, true),
value(dfltValue)
{
}
virtual ~SimObjectVectorParam() {}
// basic vector access methods
size_type size() const
{
if (!isValid())
die("not found");
return value.size();
}
T *&operator[](size_type n)
{
if (!isValid())
die("not found");
return value[n];
}
// return reference to value vector
operator std::vector<T *>&()
{
if (!isValid())
die("not found");
return value;
}
// display value to stream
virtual void showValue(std::ostream &os) const
{
for (int i = 0; i < value.size(); i++) {
if (i != 0)
os << " ";
SimObjectBaseParam::showValue(os, value[i]);
}
}
// display type to stream: see
virtual void showType(std::ostream &os) const;
// set value by parsing string
virtual void parse(const std::string &s)
{
std::vector<SimObject *> so_ptr_vec;
// first parse to generic SimObject * vector (from SimObjectBaseParam)
SimObjectBaseParam::parse(s, so_ptr_vec);
value.resize(so_ptr_vec.size());
for (int i = 0; i < so_ptr_vec.size(); ++i) {
// now dynamic_cast to specific derived type
value[i] = dynamic_cast<T *>(so_ptr_vec[i]);
// check for failure of dynamic_cast
if (value[i] == NULL && so_ptr_vec[i] != NULL)
die("not of appropriate type");
}
}
};
//
// Macro to define showType() methods for SimObjectParam &
// SimObjectVectorParam. Can't do this automatically as it requires a
// string name for the type, which you can't get from a template
// argument. For concrete derived SimObject types, this macro is
// automatically invoked by REGISTER_SIM_OBJECT() (see sim_object.hh).
//
#define DEFINE_SIM_OBJECT_CLASS_NAME(CLASS_NAME, OBJ_CLASS) \
void \
SimObjectParam<OBJ_CLASS *>::showType(std::ostream &os) const \
{ \
os << CLASS_NAME; \
} \
\
void \
SimObjectVectorParam<OBJ_CLASS *>::showType(std::ostream &os) const \
{ \
os << "vector of " << CLASS_NAME; \
}
//
// Declarations for low-level parsing & displaying functions. These
// are used internally, but should not be used directly by clients of
// the parameter mechanism, but are declared here so they can be
// shared with the serialization code (see sim/serialize.cc).
template <class T> bool parseParam(const std::string &str, T &data);
template <class T> void showParam(std::ostream &os, const T &data);
#endif // _SIM_PARAM_HH_
Reference in a new issue View git blame Copy permalink