/usr/lib/ocaml/apron/environment.idl is in libapron-ocaml-dev 0.9.10-7.
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 99 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 128 129 130 131 132 133 134 135 136 137 138 139 140 141 142 143 144 145 146 147 148 149 150 151 152 153 154 155 156 157 158 159 160 161 162 163 164 165 166 167 168 169 170 171 172 173 174 175 176 177 178 179 180 181 182 183 184 185 186 187 188 189 190 191 192 193 194 195 196 197 198 199 200 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230 231 232 233 234 235 236 237 238 239 240 241 242 243 244 245 246 247 248 249 250 251 252 253 254 255 256 257 258 259 260 261 262 263 264 265 266 267 268 269 270 271 272 273 274 275 276 277 278 279 280 281 282 283 284 285 286 287 288 289 290 291 292 293 294 295 296 297 298 299 300 301 302 303 304 305 306 307 308 309 310 311 312 313 314 | /* -*- mode: c -*- */
/* This file is part of the APRON Library, released under LGPL license.
Please read the COPYING file packaged in the distribution */
quote(C, "\n\
#include <limits.h>\n\
#include \"ap_environment.h\"\n\
#include \"caml/mlvalues.h\"\n\
#include \"apron_caml.h\"\n\
")
import "dim.idl";
import "var.idl";
quote(C,"enum typvar {\n\
AP_INT,AP_REAL\n\
};\n\
")
enum typvar {
AP_INT,AP_REAL
};
typedef [abstract,
c2ml(camlidl_apron_environment_ptr_c2ml),
ml2c(camlidl_apron_environment_ptr_ml2c)]
struct ap_environment_ptr ap_environment_ptr;
quote(MLMLI,"(** APRON Environments binding dimensions to names *)")
quote(MLI,"\n(** Making an environment from a set of integer and real variables. Raise [Failure] in case of name conflict. *)")
ap_environment_ptr ap_environment_make([size_is(intdim)]ap_var_t* name_of_intdim,
int intdim,
[size_is(realdim)]ap_var_t* name_of_realdim,
int realdim)
quote(call,"\n\
_res = ap_environment_alloc(name_of_intdim,intdim,name_of_realdim,realdim);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.make: duplicated variable names\");\n\
}\n\
assert(_res->count >= 1);\n\
")
;
quote(MLI,"\n(** Adding to an environment a set of integer and real variables. Raise [Failure] in case of name conflict. *)")
ap_environment_ptr ap_environment_add(ap_environment_ptr e,
[size_is(intdim)]ap_var_t* name_of_intdim,
int intdim,
[size_is(realdim)]ap_var_t* name_of_realdim,
int realdim)
quote(call,"\n\
_res = ap_environment_add(e,name_of_intdim,intdim,name_of_realdim,realdim);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.add: duplicated variable names\");\n\
}\n\
assert(_res->count >= 1);")
;
quote(MLI,"\n(** Remove from an environment a set of variables. Raise [Failure] in case of non-existing variables. *)")
ap_environment_ptr ap_environment_remove(ap_environment_ptr e,
[size_is(size)]ap_var_t* tvar,
int size)
quote(call,"\n\
_res = ap_environment_remove(e,tvar,size);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.remove: unknown variable names\");\n\
}\n\
assert(_res->count >= 1);")
;
quote(MLI,"\n(** Renaming in an environment a set of variables. Raise [Failure] in case of interferences with the variables that are not renamed. *)")
ap_environment_ptr ap_environment_rename(ap_environment_ptr e,
[size_is(size1)]ap_var_t* tvar1,
[size_is(size2)]ap_var_t* tvar2,
int size1,int size2)
quote(call,"\n\
if (size1!=size2){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.rename: arrays of different sizes\");\n\
}\n\
else {\n\
struct ap_dimperm_t perm;\n\
_res = ap_environment_rename(e,tvar1,tvar2,size1,&perm);\n\
ap_dimperm_clear(&perm);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.rename: unknown variables or interference of new variables with unrenamed variables\");\n\
}\n\
}\n\
assert(_res->count >= 1);")
;
quote(MLI,"\n(** Similar to previous function, but returns also \n\
the permutation on dimensions induced by the renaming. *)")
ap_environment_ptr
ap_environment_rename_perm(ap_environment_ptr e,
[size_is(size1)]ap_var_t* tvar1,
[size_is(size2)]ap_var_t* tvar2,
int size1,int size2,
[out] struct ap_dimperm_t perm)
quote(call,"\n\
if (size1!=size2){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.rename: arrays of different sizes\");\n\
}\n\
else {\n\
_res = ap_environment_rename(e,tvar1,tvar2,size1,&perm);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.rename_dimperm: unknown variables or interference of new variables with unrenamed variables\");\n\
}\n\
}\n\
assert(_res->count >= 1);")
quote(dealloc,"ap_dimperm_clear(&perm);")
;
quote(MLI,"\n
(** Compute the least common environment of 2 environment, \n\
that is, the environment composed of all the variables \n\
of the 2 environments.\n\
Raise [Failure] if the same variable has different types \n\
in the 2 environment.\
*)")
ap_environment_ptr ap_environment_lce(ap_environment_ptr e1,
ap_environment_ptr e2)
quote(call,"\n\
{\n\
ap_dimchange_t *c1;\n\
ap_dimchange_t *c2;\n\
_res = ap_environment_lce(e1,e2,&c1,&c2);\n\
if (c1) ap_dimchange_free(c1);\n\
if (c2) ap_dimchange_free(c2);\n\
}\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.lce: variable with two different types\");\n\
}\n\
assert(_res->count >= 1);")
;
quote(MLI,"\n
(** Similar to the previous function, but returns also the transformations \n\
required to convert from [e1] (resp. [e2]) \n\
to the lce. If [None] is returned, this means \n\
that [e1] (resp. [e2]) is identic to the lce.*)")
ap_environment_ptr
ap_environment_lce_change([in] ap_environment_ptr e1,
[in] ap_environment_ptr e2,
[out,unique] ap_dimchange_t *c1,
[out,unique] ap_dimchange_t *c2)
quote(call,"\n\
{\n\
_res = ap_environment_lce(e1,e2,&c1,&c2);\n\
}\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.lce: variable with two different types\");\n\
}\n\
assert(_res->count >= 1);")
quote(dealloc,"
if (c1) ap_dimchange_free(c1);
if (c2) ap_dimchange_free(c2);
")
;
quote(MLI,"\n
(** [dimchange e1 e2] computes the transformation for \n\
converting from an environment [e1] to a superenvironment \n\
[e2]. Raises [Failure] if [e2] is not a superenvironment.\
*)")
[ref]ap_dimchange_t *ap_environment_dimchange(ap_environment_ptr e1,
ap_environment_ptr e2)
quote(call,"\n\
_res = ap_environment_dimchange(e1,e2);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.dimchange: the second environment is not a superenvironment of the first one\");\n\
}\n\
")
quote(dealloc,"ap_dimchange_free(_res);")
;
quote(MLI,"\n
(** [dimchange2 e1 e2] computes the transformation for
converting from an environment [e1] to a (compatible) environment
[e2], by first adding (some) variables of [e2] and then removing
(some) variables of [e1]. Raises [Failure] if the two environments
are incompatible.
*)")
[ref]struct ap_dimchange2_t *ap_environment_dimchange2(ap_environment_ptr e1,
ap_environment_ptr e2)
quote(call,"\n\
_res = ap_environment_dimchange2(e1,e2);\n\
if (_res==NULL){\n\
camlidl_free(_ctx);\n\
caml_failwith(\"Environment.dimchange2: the two environments are not compatible\");\n\
}\n\
")
quote(dealloc,"ap_dimchange2_free(_res);")
;
quote(MLI,"\n(** Test equality if two environments *)")
boolean ap_environment_equal(ap_environment_ptr env1,
ap_environment_ptr env2)
quote(call,"\n\
_res = ap_environment_is_eq(env1,env2);\n\
");
quote(MLI,"\n(** Compare two environment. [compare env1 env2] return [-2] if the environements are not compatible (a variable has different types in the 2 environements), [-1] if [env1] is a subset of env2, [0] if equality, [+1] if env1 is a superset of env2, and [+2] otherwise (the lce exists and is a strict superset of both) *)")
int ap_environment_compare(ap_environment_ptr env1,
ap_environment_ptr env2);
quote(MLI,"\n(** Hashing function for environments *)")
int ap_environment_hash(ap_environment_ptr env);
quote(MLI,"\n(** Return the dimension of the environment *)")
struct ap_dimension_t ap_environment_dimension(ap_environment_ptr e)
quote(call,"_res.intdim = e->intdim; _res.realdim = e->realdim;");
quote(MLI,"\n(** Return the size of the environment *)")
unsigned int ap_environment_size(ap_environment_ptr e)
quote(call,"_res = e->intdim + e->realdim;");
quote(MLI,"\n(** Return true if the variable is present in the environment. *)")
boolean ap_environment_mem_var(ap_environment_ptr e, ap_var_t var)
quote(call,"\n\
{\n\
ap_dim_t dim;\n\
dim = ap_environment_dim_of_var(e,var);\n\
_res = (dim != AP_DIM_MAX);\n\
}");
quote(MLI,"\n(** Return the type of variables in the environment. If the variable does not belong to the environment, raise a [Failure] exception. *)")
enum typvar ap_environment_typ_of_var(ap_environment_ptr e, ap_var_t var)
quote(call,"\n\
{\n\
ap_dim_t dim;\n\
dim = ap_environment_dim_of_var(e,var);\n\
if (dim==AP_DIM_MAX)\n\
caml_failwith(\"Environment.dim_of_var: unknown variable in the environment\");\n\
_res =\n\
dim=( dim<e->intdim ? AP_INT : AP_REAL);\n\
}");
quote(MLI,"\n(** Return the (lexicographically ordered) sets of integer and real variables in the environment *)")
void ap_environment_vars(ap_environment_ptr e,
[out,size_is((*e).intdim)]ap_var_t* name_of_intdim,
[out,size_is((*e).realdim)]ap_var_t* name_of_realdim)
quote(call,"\n\
{\n\
size_t i;\n\
for(i=0;i<e->intdim;i++) name_of_intdim[i] = ap_var_operations->copy(e->var_of_dim[i]);\n \
for(i=0;i<e->realdim;i++) name_of_realdim[i] = ap_var_operations->copy(e->var_of_dim[e->intdim+i]);\n \
}");
quote(MLI,"\n(** Return the variable corresponding to the given dimension in the environment. Raise [Failure] is the dimension is out of the range of the environment (greater than or equal to [dim env]) *)")
ap_var_t ap_environment_var_of_dim(ap_environment_ptr e, ap_dim_t dim)
quote(call,"\n\
if (dim>=e->intdim+e->realdim){\n\
caml_failwith(\"Environment.var_of_dim: dim out of range w.r.t. the environment\");\n\
}\n\
_res = ap_var_operations->copy(e->var_of_dim[dim]);");
quote(MLI,"\n(** Return the dimension associated to the given variable in the environment. Raise [Failure] if the variable does not belong to the environment. *)")
ap_dim_t ap_environment_dim_of_var(ap_environment_ptr e, ap_var_t var)
quote(call,"\n\
_res = ap_environment_dim_of_var(e,var);\n\
if (_res==AP_DIM_MAX){\n\
caml_failwith(\"Environment.dim_of_var: unknown variable in the environment\");\n\
}");
quote(MLMLI,"\n(** Printing *)")
quote(MLI,"val print :\n\
?first:(unit, Format.formatter, unit) format ->\n\
?sep:(unit, Format.formatter, unit) format ->\n\
?last:(unit, Format.formatter, unit) format ->\n\
Format.formatter -> t -> unit\n\
")
quote(ML,"\n\
let print\n\
?(first=(\"[|@[\":(unit,Format.formatter,unit) format))\n\
?(sep = (\";@ \":(unit,Format.formatter,unit) format))\n\
?(last = (\"@]|]\":(unit,Format.formatter,unit) format))\n\
(fmt:Format.formatter)\n\
(env: t)\n\
: unit\n\
=\n\
let dim = dimension env in\n\
if dim.Dim.intd+dim.Dim.reald=0 then begin\n\
Format.fprintf fmt first;\n\
Format.fprintf fmt last;\n\
end\n\
else begin\n\
Format.fprintf fmt first;\n\
let first = ref true in\n\
for i=0 to pred dim.Dim.intd do\n\
let var = var_of_dim env i in\n\
if !first then first := false else Format.fprintf fmt sep;\n\
Format.fprintf fmt \"%i> %s:int\"\n\
i (Var.to_string var)\n\
done;\n\
for i=dim.Dim.intd to dim.Dim.intd + (pred dim.Dim.reald) do\n\
let var = var_of_dim env i in\n\
if !first then first := false else Format.fprintf fmt sep;\n\
Format.fprintf fmt \"%i> %s:real\"\n\
i (Var.to_string var)\n\
done;\n\
Format.fprintf fmt last;\n\
end\n\
")
|