#include "gras/DataDesc/datadesc_private.h"
#include "gras/DataDesc/ddt_parse.yy.h"
-XBT_LOG_NEW_DEFAULT_SUBCATEGORY(ddt_parse,datadesc,
+XBT_LOG_NEW_DEFAULT_SUBCATEGORY(gras_ddt_parse,gras_ddt,
"Parsing C data structures to build GRAS data description");
typedef struct s_type_modifier{
- short is_unsigned;
- short is_short;
short is_long;
+ int is_unsigned:1;
+ int is_short:1;
- short is_struct;
- short is_union;
- short is_enum;
+ int is_struct:1;
+ int is_union:1;
+ int is_enum:1;
- short is_ref;
+ int is_ref:1;
+
+ int is_dynar:2;
+ int is_matrix:2;
} s_type_modifier_t,*type_modifier_t;
typedef struct s_field {
XBT_OUT;
}
+static void change_to_dynar_of(xbt_dynar_t dynar,gras_datadesc_type_t subtype) {
+ s_identifier_t former,ref;
+ memset(&ref,0,sizeof(ref));
+
+ XBT_IN;
+ xbt_dynar_pop(dynar,&former);
+ ref.type = gras_datadesc_dynar(subtype,NULL); /* redeclaration are ignored */
+ ref.type_name = (char*)strdup(ref.type->name);
+ ref.name = former.name;
+
+ free(former.type_name);
+
+ xbt_dynar_push(dynar,&ref);
+ XBT_OUT;
+}
+
+static void change_to_matrix_of(xbt_dynar_t dynar,gras_datadesc_type_t subtype) {
+ s_identifier_t former,ref;
+ memset(&ref,0,sizeof(ref));
+
+ XBT_IN;
+ xbt_dynar_pop(dynar,&former);
+ ref.type = gras_datadesc_matrix(subtype,NULL); /* redeclaration are ignored */
+ ref.type_name = (char*)strdup(ref.type->name);
+ ref.name = former.name;
+
+ free(former.type_name);
+
+ xbt_dynar_push(dynar,&ref);
+ XBT_OUT;
+}
+
+static void add_free_f(xbt_dynar_t dynar,void_f_pvoid_t free_f) {
+ s_identifier_t former,ref;
+ memset(&ref,0,sizeof(ref));
+
+ XBT_IN;
+ xbt_dynar_pop(dynar,&former);
+ memcpy(former.type->extra,&free_f, sizeof(free_f));
+ xbt_dynar_push(dynar,&former);
+ XBT_OUT;
+}
+
static void parse_statement(char *definition,
xbt_dynar_t identifiers,
xbt_dynar_t fields_to_push) {
THROW0(mismatch_error,0,"End of the englobing structure or union");
}
- if (XBT_LOG_ISENABLED(ddt_parse,xbt_log_priority_debug)) {
+ if (XBT_LOG_ISENABLED(gras_ddt_parse,xbt_log_priority_debug)) {
int colon_pos;
for (colon_pos = gras_ddt_parse_col_pos;
definition[colon_pos] != ';';
/* FIXME: This does not detect recursive definitions at all? */
if (identifier.tm.is_union || identifier.tm.is_enum || identifier.tm.is_struct)
- PARSE_ERROR0("Cannot handle recursive type definition yet");
+ PARSE_ERROR0("Unimplemented feature: GRAS_DEFINE_TYPE cannot handle recursive type definition yet");
/**** get the base type, giving "short a" the needed love ****/
if (!identifier.tm.is_union &&
/**** build the base type for latter use ****/
if (identifier.tm.is_union) {
- PARSE_ERROR0("Cannot handle union yet (get callback from annotation?)");
+ PARSE_ERROR0("Unimplemented feature: GRAS_DEFINE_TYPE cannot handle union yet (get callback from annotation?)");
} else if (identifier.tm.is_enum) {
- PARSE_ERROR0("Cannot handle enum yet");
+ PARSE_ERROR0("Unimplemented feature: GRAS_DEFINE_TYPE cannot handle enum yet");
} else if (identifier.tm.is_struct) {
sprintf(buffname,"struct %s",identifier.type_name);
} else {
DEBUG1("Base type is a constructed one (%s)",identifier.type_name);
- identifier.type = gras_datadesc_by_name(identifier.type_name);
- if (!identifier.type)
- PARSE_ERROR1("Unknown base type '%s'",identifier.type_name);
+ if (!strcmp(identifier.type_name,"xbt_matrix_t")) {
+ identifier.tm.is_matrix = 1;
+ } else if (!strcmp(identifier.type_name,"xbt_dynar_t")) {
+ identifier.tm.is_dynar = 1;
+ } else {
+ identifier.type = gras_datadesc_by_name(identifier.type_name);
+ if (!identifier.type)
+ PARSE_ERROR1("Unknown base type '%s'",identifier.type_name);
+ }
}
}
/* Now identifier.type and identifier.name speak about the base type.
Stars are not eaten unless 'int' was omitted.
- We will have to enhance it if we are in fact asked for array or reference */
+ We will have to enhance it if we are in fact asked for array or reference.
+
+ Dynars and matrices also need some extra love (prodiged as annotations)
+ */
/**** look for the symbols of this type ****/
for(expect_id_separator = 0;
/* Handle fixed size arrays */
gras_ddt_parse_tok_num = gras_ddt_parse_lex_n_dump();
if (gras_ddt_parse_tok_num == GRAS_DDT_PARSE_TOKEN_RB) {
- PARSE_ERROR0("Cannot deal with [] constructs (yet)");
+ PARSE_ERROR0("Unimplemented feature: GRAS_DEFINE_TYPE cannot deal with [] constructs (yet)");
} else if (gras_ddt_parse_tok_num == GRAS_DDT_PARSE_TOKEN_WORD) {
char *end;
long int size=strtol(gras_ddt_parse_text, &end, 10);
- if (end == gras_ddt_parse_text || *end != '\0')
- PARSE_ERROR1("Unparsable size of array (found '%c', expected number)",*end);
+ if (end == gras_ddt_parse_text || *end != '\0') {
+ /* Not a number. Get the constant value, if any */
+ int *storage=xbt_dict_get_or_null(gras_dd_constants,gras_ddt_parse_text);
+ if (storage) {
+ size = *storage;
+ } else {
+ PARSE_ERROR1("Unparsable size of array. Found '%s', expected number or known constant. Need to use gras_datadesc_set_const(), huh?",
+ gras_ddt_parse_text);
+ }
+ }
/* replace the previously pushed type to an array of it */
change_to_fixed_array(identifiers,size);
xbt_dynar_push(fields_to_push,&keyval);
}
}
+ } else if (!strcmp(keyname,"subtype")) {
+ gras_datadesc_type_t subtype = gras_datadesc_by_name(keyval);
+ if (identifier.tm.is_matrix) {
+ change_to_matrix_of(identifiers,subtype);
+ identifier.tm.is_matrix = -1;
+ } else if (identifier.tm.is_dynar) {
+ change_to_dynar_of(identifiers,subtype);
+ identifier.tm.is_dynar = -1;
+ } else {
+ PARSE_ERROR1("subtype annotation only accepted for dynars and matrices, but passed to '%s'",identifier.type_name);
+ }
+ free(keyval);
+ } else if (!strcmp(keyname,"free_f")) {
+ int *storage=xbt_dict_get_or_null(gras_dd_constants,keyval);
+ if (!storage)
+ PARSE_ERROR1("value for free_f annotation of field %s is not a known constant",identifier.name);
+ if (identifier.tm.is_matrix == -1) {
+ add_free_f(identifiers,*(void_f_pvoid_t**)storage);
+ identifier.tm.is_matrix = 0;
+ } else if (identifier.tm.is_dynar == -1) {
+ add_free_f(identifiers,*(void_f_pvoid_t**)storage);
+ identifier.tm.is_dynar = 0;
+ } else {
+ PARSE_ERROR1("free_f annotation only accepted for dynars and matrices which subtype is already declared (field %s)",
+ identifier.name);
+ }
+ free(keyval);
} else {
+ free(keyval);
PARSE_ERROR1("Unknown annotation type: '%s'",keyname);
}
PARSE_ERROR0("Unparasable symbol (maybe a def struct in a def struct or a parser bug ;)");
}
+ if (identifier.tm.is_matrix>0)
+ PARSE_ERROR0("xbt_matrix_t field without 'subtype' annotation");
+ if (identifier.tm.is_dynar>0)
+ PARSE_ERROR0("xbt_dynar_t field without 'subtype' annotation");
+
XBT_OUT;
}
parse_type_modifier(&tm);
if (tm.is_ref)
- PARSE_ERROR0("Cannot handle reference without annotation");
+ PARSE_ERROR0("GRAS_DEFINE_TYPE cannot handle reference without annotation");
/* get the aliasing name */
if (gras_ddt_parse_tok_num != GRAS_DDT_PARSE_TOKEN_WORD)
gras_ddt_parse_text);
/* (FIXME: should) build the alias */
- PARSE_ERROR0("Cannot handle typedef yet");
+ PARSE_ERROR0("Unimplemented feature: GRAS_DEFINE_TYPE cannot handle typedef yet");
XBT_OUT;
return typedef_desc;
XBT_OUT;
return res;
}
+
+xbt_dict_t gras_dd_constants;
+/** \brief Declare a constant to the parsing mecanism. See the "\#define and fixed size array" section */
+void gras_datadesc_set_const(const char*name, int value) {
+ int *stored = xbt_new(int, 1);
+ *stored=value;
+
+ xbt_dict_set(gras_dd_constants,name, stored, free);
+}