/usr/include/freehdl/kernel-map-list.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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 | #ifndef FREEHDL_KERNEL_MAP_LIST_H
#define FREEHDL_KERNEL_MAP_LIST_H
#include <freehdl/std-vhdl-types.hh>
#include <freehdl/kernel-list.hh>
#include <freehdl/kernel-classes.hh>
#include <freehdl/kernel-acl.hh>
#include <freehdl/kernel-sig-info.hh>
using namespace std;
//using namespace __gnu_cxx;
// A signal_link instance describes the connection
// between a formal and actual SIGNAL
struct signal_link {
// The following two members determine the part of
// the formal signal which is addressed by this
// link element
acl *formal_aclp;
string formal_name;
// Mode of formal parameter (in, out, inout, buffer or linkage)
char formal_mode;
// To represent f1(formal_sig) => actual_sig
// If a conversion function is used in an association list, then
// this conversion function must be executed on control of the kernel.
// However, the kernel does not know this function at kernel compile time
// Moreover, it does not even know it parameter and return value types
void (*wrapper_fn_formal)(void *dest, void *data);
// The next four members determine the part of the
// actual signal which is addressed by the map
// operation. Note, if the formal is of mode IN then
// the actual can be a constant expression. In this
// case value points to this expression and type
// describes its type.
acl *actual_aclp;
sig_info_base *actual_signal; // equal to NULL is that
// actual is an expression!
void *value; // Only used if actual is an expression
// Otherwies value is set to NULL.
type_info_interface *type; // Only used if actual is
// an expression. Otherwise equal to NULL.
// To represent formal_sig => f2(actual_sig)
void (*wrapper_fn_actual)(void *dest, void *data);
type_info_interface *get_actual_type();
void *get_actual_value();
acl *get_formal_aclp() { return formal_aclp; }
acl *get_actual_aclp() { return actual_aclp; }
// Constructor. Initializes formal_aclp, actual_aclp,
// actual_signal, value, and type.
signal_link();
// Destructor. Removes formal_aclp, actual_aclp, and
// value.
~signal_link();
};
// A generic_link instance describes the connection
// between a formal generic parameter and actual
struct generic_link {
// The following two members determine the part of
// the formal generic parameter which is addressed by
// this generic_link instance
acl *formal_aclp;
string formal_name;
// value points to value the generic parameter is
// associated with and type points to the type info
// instance.
void *value; // Points to a local copy of the generic value
type_info_interface *type; // So is the type...
type_info_interface *get_actual_type();
void *get_actual_value();
acl *get_formal_aclp() { return formal_aclp; }
acl *get_actual_aclp() { return NULL; }
// Constructor. Initializes formal_aclp, actual_aclp,
// value, and type.
generic_link();
// Destructor. Removes formal_aclp, actual_aclp, and
// value.
~generic_link();
};
class map_list {
public:
//////////////////////////////////////////////////////
// Members of map_list
//////////////////////////////////////////////////////
simple_list<signal_link*> signal_maplist;
simple_list<generic_link*> generic_maplist;
//////////////////////////////////////////////////////
// Methods of map_list
// Note, all signal_map resp. generic_map methods
// create a copy of the acls!!!
//////////////////////////////////////////////////////
// Adds a generic link to the generic_map list
// It has only one connection with expression.
void generic_map(const char *formal, acl *formal_acl,
const void *value, type_info_interface *type);
// Adds a signal link to the signal_map list
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode, sig_info_base *actual,
acl *actual_acl);
// the mapping with an expression
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode, const void *value,
type_info_interface *type);
// the mapping with open
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode);
// the mapping with formal convert function
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode,
void (*wrapper_fn_formal)(void *,void *),
sig_info_base *actual, acl *actual_acl);
// the mapping with actual convert function
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode, sig_info_base *actual,
acl *actual_acl,
void (*wrapper_fn_actual)(void *,void *));
// the mapping with formal/actual convert function
void signal_map(const char *formal, acl *formal_acl,
const char formal_mode,
void (*wrapper_fn_formal)(void *,void *),
sig_info_base *actual, acl *actual_acl,
void (*wrapper_fn_actual)(void *,void *));
// Constructor
map_list();
// Destructor
~map_list();
// Reset map_list instance so that it may be re-used
void reset();
};
// global temproary map list object
extern map_list tmpml;
#ifdef KERNEL
// ************************************************************************
// The following functions are used by the kernel only. Hence, they are
// made invisible to code emitted from hte compiler in order to reduce
// compile time
// ************************************************************************
#include <list>
#if !defined __GNUC__ || __GNUC__ != 2
#include <ext/hash_map>
#else
#include <hash_map>
#endif
#include <freehdl/kernel-util.hh>
// ***************************************************************************
// The query methods are used by the kernel or the generated code
// to search for a specific generic parameter respectively
// signal formal. Note, severals signal_link respectively
// generic_link instances may exist for formals of
// composite type. Hence, the query functions store
// in "result" a LIST of appropriate pointers.
// ***************************************************************************
// Returns in result a list of pointers to the generic_link
// instances with formal_name = name. Returns true
// if at least one entry was found.
bool query_generic(map_list *mlist, list<generic_link*> &result, const string &name);
// Returns in result a list of pointers to the signal_link
// instances with formal_name = name. Returns true
// if at least actual was found.
bool query_signal(map_list *mlist, list<signal_link*> &result, const string &name);
// Calculates the index range for an unconstrained formal array port
// or generic parameter. The bounds are determined from the index type
// of the array respectively the index values which were used in the
// association list. Returns -1 if an error occured, 0 otherwise.
// Returns the bound in "left" and "right". Note thet left, right and
// dir are vectors as a port or gemeric may be of an muti-dimensionale
// type. The first vector element will correspond with index 1, the
// nexxt with index 2, .... "name" is the name of the formal, "ainfo"
// the info instance of the formal and "mlist" a list of elements
// associated with the formal.
int
get_unconstrained_port_array_bounds(list<signal_link*> *mlist, const string &name,
array_info *ainfo, vector<int> &left, vector<range_direction> &dir,
vector<int> &right);
int
get_unconstrained_generic_array_bounds(list<generic_link*> *mlist, const string &name,
array_info *ainfo, vector<int> &left, vector<range_direction> &dir,
vector<int> &right);
// Creates an new array_info instance for an unconstrained array. The
// array bounds are extracted from the left, dir and right vectors
// which are usually determined by function
// get_unconstrained_*_array_bounds. unc_array_info points to the
// corressponding array_info of the unconstrained array.
array_info *
create_array_info_for_unconstrained_link_array(array_info *unc_array_info,
vector<int> &left, vector<range_direction> &dir,
vector<int> &right, const int rc=-1);
// ***************************************************************************
// Data structure to store mapping links between port signals and normal
// and/or port signals.
// ***************************************************************************
// To support multiple fathers of a signal (a composite signal)
// which represents the partial/direct/indirect signal interconnection
// direct mapping : formal => actual
// partial mapping : formal(1 downto 0) => actual(0 downto 1) or actual.field
// indirect mapping : f1(formal) => f2(actual)
struct fl_link {
// Determines which part of the formal signal is addressed
acl *formal_aclp;
// Determines which part of the actual signal is addressed
acl *actual_aclp;
// wrapper function to support conversion function of formal/actual signal
void (*wrapper_fn_formal)(void *dest, void *data);
void (*wrapper_fn_actual)(void *dest, void *data);
// Points to the actual signal
sig_info_base *actual;
fl_link() {
formal_aclp = actual_aclp = NULL;
wrapper_fn_formal = wrapper_fn_actual = NULL;
actual = NULL;
}
fl_link(const fl_link &m) {
formal_aclp = m.formal_aclp->clone();
actual_aclp = m.actual_aclp->clone();
wrapper_fn_formal = m.wrapper_fn_formal;
wrapper_fn_actual = m.wrapper_fn_actual;
actual = m.actual;
}
~fl_link() {
if (formal_aclp != NULL) delete formal_aclp;
if (actual_aclp != NULL) delete actual_aclp;
}
};
typedef hash_map<sig_info_base *, list<fl_link>, pointer_hash<sig_info_base *> > port_signal_link_map_t;
// Stores the father signal(s) of port signals
extern port_signal_link_map_t port_signal_link_map;
#endif
#endif
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