/usr/include/freehdl/kernel-sig-info.hh is in libfreehdl0-dev 0.0.8-2.2ubuntu2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 | #ifndef FREEHDL_KERNEL_SIG_INFO_H
#define FREEHDL_KERNEL_SIG_INFO_H
#include <string>
#include <freehdl/kernel-classes.hh>
#include <freehdl/kernel-list.hh>
#include <freehdl/kernel-name-stack.hh>
#include <freehdl/std-standard.hh>
/*
* Information flow of signals
*/
#define vIN 1
#define vOUT 2
#define vINOUT 3
#define vBUFFER 4
#define vLINKAGE 5
/*
* Some internal kernal flags
*/
#define IS_DUMPED 1
/*
* Signal type of a signal
*/
#define vREGISTER 1
#define vBUS 2
/*
* Signal kind types
*/
#define vPLAIN 0
#define vDELAYED 1
#define vTRANSACTION 2
#define vSTABLE 3
#define vQUIET 4
#define vALIAS 5
/*
* Delay type
*/
#define vTRANSPORT 1
#define vINERTIAL 2
/******************************************************
* Some definitions which are used by the kernel only
******************************************************/
#ifdef KERNEL
#include <string>
#include <map>
#include <list>
#include <freehdl/kernel-source-descriptor.hh>
#include <freehdl/kernel-db.hh>
// Define some data types for the kernel data base. Note that some
// information about signals are not directly stored to the
// corresponding sig_info class bus put into the kernel data base in
// order to make sig_info more slim.
struct sig_info_extensions {
// Scalar items the signal reader consists of
int scalar_count;
// List of drivers for the signal. Note that there is an entry in
// the list for each scalar element which is driven by a process
//simple_list<driver_info*> driver_list;
char mode;
char sig_type;
char kind;
// Instance name and name of the signal
string instance_name, name;
// A set of flags defined by the kernel to store kernel related
// informations about this signal. This flag is intialized with 0.
int kernel_flags;
// Points to the next sig_info_base in the list. Used to get a list
// of sig_info_base pointer according to their creation time.
sig_info_base *next_sig_info;
};
define_db_key_type (sig_info_base*, sig_info_base_p);
define_db_entry_type (sig_info_extensions, sig_info_extension);
// signal_name_table is a hash tables (map) to associate signal names with
// the corresponding sign_info_base pointers.
typedef map<string, sig_info_base*, less<string> > signal_map_t;
extern signal_map_t signal_name_table;
// A stack which is used to keep track which signals has been created
// within which component during elaboration. Note that this stack
// does only include any valid data during elaboration. It is cleared
// before simulation starts.
typedef list<list<sig_info_base *> > signal_component_stack_t;
extern signal_component_stack_t signal_component_stack;
/******************************************************
* End of internal kernel definitions
******************************************************/
#endif
class reader_info;
class map_list;
/* sig info core class. This class holds all informations which are
* needed by some functions that require only a subset of the entire
* sig_info information set. */
struct sig_info_core {
// Type of the signal
type_info_interface *type;
// array of reader_info pointers. There is a separate pointer
// for each scalar element of the signal
reader_info **readers;
};
/*
* Base sig info class
*/
struct sig_info_base : public sig_info_core {
// Points to the reader object of the signal
void *reader_pointer;
/* Constructors */
sig_info_base(name_stack &iname, const char *n, const char *sln,
map_list *mlist, type_info_interface *ty, char dir, void *sr);
sig_info_base(name_stack &iname, const char *n, const char *sln,
type_info_interface *ty, char sty, void *sr);
sig_info_base(name_stack &iname, const char *n, const char *sln,
type_info_interface *ty, char attr, sig_info_base *base_sig,
acl *aclp, vtime delay, void *sr);
sig_info_base(name_stack &iname, const char *n, const char *sln,
type_info_interface *ty, sig_info_base *aliased_sig,
acl *aclp, void *sr);
// Cleans up sig_info
void cleanup ();
// Inits the reader of a signal
void init_reader(const void *src);
};
template<class T>class sig_info : public sig_info_base {
public:
/* Casts the reader pointer to the corresponding type */
T &reader() { return *(T*)reader_pointer; }
/* Constructor to instantiate a port signal */
sig_info(name_stack &iname, const char *n, const char *sln, map_list *mlist,
type_info_interface *type, char direction, void *sr) :
sig_info_base(iname, n, sln, mlist, type, direction, sr) {};
/* Constructor to instantiate "normal" signal */
sig_info(name_stack &iname, const char *n, const char *sln,
type_info_interface *type, char sigtype, void *sr) :
sig_info_base(iname, n, sln, type, sigtype, sr) {};
/* Constructor to instantiate a signal kind attribute */
sig_info(name_stack &iname, const char *n, const char *sln,
type_info_interface *type, char attr, sig_info_base *base_sig,
acl *aclp, vtime delay, void *sr) :
sig_info_base(iname, n, sln, type, attr, base_sig, aclp, delay, sr) {};
/* Constructor to instantiate a guard signal */
sig_info(name_stack &iname, const char *n, const char *sln,
void *reader, void *sr) :
sig_info_base(iname, n, sln, reader, sr) {};
/* Constructor to instantiate an alias signal */
sig_info(name_stack &iname, const char *n, const char *sln,
type_info_interface *ty, sig_info_base *aliased_sig,
acl *aclp, void *sr) :
sig_info_base (iname, n, sln, ty, aliased_sig, aclp, sr) {};
/* Init the reader of the signal */
void init(const T &value) { init_reader(&value); }
};
#endif
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