Esempio n. 1
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CFCGoClass*
CFCGoClass_new(CFCParcel *parcel, const char *class_name) {
    CFCUTIL_NULL_CHECK(parcel);
    CFCUTIL_NULL_CHECK(class_name);
    CFCGoClass *self = (CFCGoClass*)CFCBase_allocate(&CFCGOCLASS_META);
    self->parcel = (CFCParcel*)CFCBase_incref((CFCBase*)parcel);
    self->class_name = CFCUtil_strdup(class_name);
    // Client may be NULL, since fetch_singleton() does not always succeed.
    CFCClass *client = CFCClass_fetch_singleton(parcel, class_name);
    self->client = (CFCClass*)CFCBase_incref((CFCBase*)client);
    return self;
}
Esempio n. 2
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CFCCallable*
CFCCallable_init(CFCCallable *self, const char *exposure, const char *name,
                 CFCType *return_type, CFCParamList *param_list,
                 CFCDocuComment *docucomment) {

    exposure = exposure ? exposure : "parcel";
    CFCUTIL_NULL_CHECK(return_type);
    CFCUTIL_NULL_CHECK(param_list);
    CFCSymbol_init((CFCSymbol*)self, exposure, name);
    self->return_type = (CFCType*)CFCBase_incref((CFCBase*)return_type);
    self->param_list  = (CFCParamList*)CFCBase_incref((CFCBase*)param_list);
    self->docucomment = (CFCDocuComment*)CFCBase_incref((CFCBase*)docucomment);
    return self;
}
Esempio n. 3
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CFCPerl*
CFCPerl_init(CFCPerl *self, CFCHierarchy *hierarchy, const char *lib_dir,
             const char *boot_class, const char *header, const char *footer) {
    CFCUTIL_NULL_CHECK(hierarchy);
    CFCUTIL_NULL_CHECK(lib_dir);
    CFCUTIL_NULL_CHECK(boot_class);
    CFCUTIL_NULL_CHECK(header);
    CFCUTIL_NULL_CHECK(footer);
    self->hierarchy  = (CFCHierarchy*)CFCBase_incref((CFCBase*)hierarchy);
    self->lib_dir    = CFCUtil_strdup(lib_dir);
    self->boot_class = CFCUtil_strdup(boot_class);
    self->header     = CFCUtil_strdup(header);
    self->footer     = CFCUtil_strdup(footer);

    // Derive path to generated .xs file.
    self->xs_path = CFCUtil_sprintf("%s" CHY_DIR_SEP "%s.xs", lib_dir,
                                    boot_class);
    S_replace_double_colons(self->xs_path, CHY_DIR_SEP_CHAR);

    // Derive the name of the bootstrap function.
    self->boot_func = CFCUtil_sprintf("cfish_%s_bootstrap", boot_class);
    for (int i = 0; self->boot_func[i] != 0; i++) {
        if (!isalnum(self->boot_func[i])) {
            self->boot_func[i] = '_';
        }
    }

    return self;
}
Esempio n. 4
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void
CFCClass_add_child(CFCClass *self, CFCClass *child) {
    CFCUTIL_NULL_CHECK(child);
    if (self->tree_grown) {
        CFCUtil_die("Can't call add_child after grow_tree");
    }
    if (self->is_inert) {
        CFCUtil_die("Can't inherit from inert class %s",
                    CFCClass_get_class_name(self));
    }
    if (child->is_inert) {
        CFCUtil_die("Inert class %s can't inherit",
                    CFCClass_get_class_name(child));
    }
    self->num_kids++;
    size_t size = (self->num_kids + 1) * sizeof(CFCClass*);
    self->children = (CFCClass**)REALLOCATE(self->children, size);
    self->children[self->num_kids - 1]
        = (CFCClass*)CFCBase_incref((CFCBase*)child);
    self->children[self->num_kids] = NULL;

    // Add parcel dependency.
    CFCParcel *parcel       = CFCClass_get_parcel(self);
    CFCParcel *child_parcel = CFCClass_get_parcel(child);
    CFCParcel_add_inherited_parcel(child_parcel, parcel);
}
Esempio n. 5
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CFCPerlConstructor*
CFCPerlConstructor_init(CFCPerlConstructor *self, CFCClass *klass,
                        const char *alias, const char *initializer) {
    CFCUTIL_NULL_CHECK(alias);
    CFCUTIL_NULL_CHECK(klass);
    const char *class_name = CFCClass_get_class_name(klass);
    initializer = initializer ? initializer : "init";

    // Find the implementing function.
    self->init_func = NULL;
    CFCFunction **funcs = CFCClass_functions(klass);
    for (size_t i = 0; funcs[i] != NULL; i++) {
        CFCFunction *func = funcs[i];
        const char *func_name = CFCFunction_micro_sym(func);
        if (strcmp(initializer, func_name) == 0) {
            self->init_func = (CFCFunction*)CFCBase_incref((CFCBase*)func);
            break;
        }
    }
    if (!self->init_func) {
        CFCUtil_die("Missing or invalid '%s' function for '%s'",
                    initializer, class_name);
    }
    CFCParamList *param_list = CFCFunction_get_param_list(self->init_func);
    CFCPerlSub_init((CFCPerlSub*)self, param_list, class_name, alias,
                    true);
    return self;
}
Esempio n. 6
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void
CFCParcel_add_class(CFCParcel *self, CFCClass *klass) {
    // Ensure unique class name.
    const char *class_name = CFCClass_get_name(klass);
    CFCClass *other = S_fetch_class(self, class_name, 2);
    if (other) {
        CFCUtil_die("Two classes with name %s", class_name);
    }

    const char *struct_sym = CFCClass_get_struct_sym(klass);
    const char *nickname   = CFCClass_get_nickname(klass);

    for (size_t i = 0; self->classes[i]; ++i) {
        CFCClass *other = self->classes[i];

        // Ensure unique struct symbol and nickname in parcel.
        if (strcmp(struct_sym, CFCClass_get_struct_sym(other)) == 0) {
            CFCUtil_die("Class name conflict between %s and %s",
                        CFCClass_get_name(klass), CFCClass_get_name(other));
        }
        if (strcmp(nickname, CFCClass_get_nickname(other)) == 0) {
            CFCUtil_die("Class nickname conflict between %s and %s",
                        CFCClass_get_name(klass), CFCClass_get_name(other));
        }
    }

    size_t num_classes = self->num_classes;
    size_t size = (num_classes + 2) * sizeof(CFCClass*);
    CFCClass **classes = (CFCClass**)REALLOCATE(self->classes, size);
    classes[num_classes]   = (CFCClass*)CFCBase_incref((CFCBase*)klass);
    classes[num_classes+1] = NULL;
    self->classes     = classes;
    self->num_classes = num_classes + 1;
}
Esempio n. 7
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CFCPerlSub*
CFCPerlSub_init(CFCPerlSub *self, CFCParamList *param_list,
                const char *class_name, const char *alias,
                int use_labeled_params) {
    CFCUTIL_NULL_CHECK(param_list);
    CFCUTIL_NULL_CHECK(class_name);
    CFCUTIL_NULL_CHECK(alias);
    self->param_list  = (CFCParamList*)CFCBase_incref((CFCBase*)param_list);
    self->class_name  = CFCUtil_strdup(class_name);
    self->alias       = CFCUtil_strdup(alias);
    self->use_labeled_params = use_labeled_params;
    self->perl_name = CFCUtil_sprintf("%s::%s", class_name, alias);

    size_t c_name_len = strlen(self->perl_name) + sizeof("XS_") + 1;
    self->c_name = (char*)MALLOCATE(c_name_len);
    int j = 3;
    memcpy(self->c_name, "XS_", j);
    for (int i = 0, max = (int)strlen(self->perl_name); i < max; i++) {
        char c = self->perl_name[i];
        if (c == ':') {
            while (self->perl_name[i + 1] == ':') { i++; }
            self->c_name[j++] = '_';
        }
        else {
            self->c_name[j++] = c;
        }
    }
    self->c_name[j] = 0; // NULL-terminate.

    return self;
}
Esempio n. 8
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CFCClass*
CFCGoClass_get_client(CFCGoClass *self) {
    if (!self->client) {
        CFCClass *client = CFCClass_fetch_singleton(self->parcel, self->class_name);
        self->client = (CFCClass*)CFCBase_incref((CFCBase*)client);
    }
    return self->client;
}
Esempio n. 9
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CFCPython*
CFCPython_new(CFCHierarchy *hierarchy) {
    CFCUTIL_NULL_CHECK(hierarchy);
    CFCPython *self = (CFCPython*)CFCBase_allocate(&CFCPYTHON_META);
    self->hierarchy  = (CFCHierarchy*)CFCBase_incref((CFCBase*)hierarchy);
    self->header     = CFCUtil_strdup("");
    self->footer     = CFCUtil_strdup("");
    return self;
}
Esempio n. 10
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CFCUri*
CFCUri_init(CFCUri *self, const char *uri, CFCClass *doc_class) {
    CFCUTIL_NULL_CHECK(uri);

    self->string    = CFCUtil_strdup(uri);
    self->doc_class = (CFCClass*)CFCBase_incref((CFCBase*)doc_class);

    return self;
}
Esempio n. 11
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void
CFCParcel_register(CFCParcel *self) {
    CFCParcel *existing = CFCParcel_fetch(self->name);
    if (existing) {
        CFCUtil_die("Parcel '%s' already registered", self->name);
    }
    if (!num_registered) {
        // Init default parcel as first.
        registry = (CFCParcel**)CALLOCATE(3, sizeof(CFCParcel*));
        CFCParcel *def = CFCParcel_default_parcel();
        registry[0] = (CFCParcel*)CFCBase_incref((CFCBase*)def);
        num_registered++;
    }
    size_t size = (num_registered + 2) * sizeof(CFCParcel*);
    registry = (CFCParcel**)REALLOCATE(registry, size);
    registry[num_registered++] = (CFCParcel*)CFCBase_incref((CFCBase*)self);
    registry[num_registered]   = NULL;
}
Esempio n. 12
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CFCPerlClass*
CFCPerlClass_init(CFCPerlClass *self, CFCParcel *parcel,
                  const char *class_name) {
    CFCUTIL_NULL_CHECK(parcel);
    CFCUTIL_NULL_CHECK(class_name);
    self->parcel = (CFCParcel*)CFCBase_incref((CFCBase*)parcel);
    self->class_name = CFCUtil_strdup(class_name);
    // Client may be NULL, since fetch_singleton() does not always succeed.
    CFCClass *client = CFCClass_fetch_singleton(parcel, class_name);
    self->client = (CFCClass*)CFCBase_incref((CFCBase*)client);
    self->pod_spec          = NULL;
    self->xs_code           = NULL;
    self->cons_aliases      = NULL;
    self->cons_inits        = NULL;
    self->num_cons          = 0;
    self->exclude_cons      = 0;
    self->class_aliases     = (char**)CALLOCATE(1, sizeof(char*));
    self->num_class_aliases = 0;
    return self;
}
Esempio n. 13
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CFCBindCore*
CFCBindCore_init(CFCBindCore *self, CFCHierarchy *hierarchy,
                 const char *header, const char *footer) {
    CFCUTIL_NULL_CHECK(hierarchy);
    CFCUTIL_NULL_CHECK(header);
    CFCUTIL_NULL_CHECK(footer);
    self->hierarchy = (CFCHierarchy*)CFCBase_incref((CFCBase*)hierarchy);
    self->c_header  = CFCUtil_make_c_comment(header);
    self->c_footer  = CFCUtil_make_c_comment(footer);
    return self;
}
Esempio n. 14
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CFCParcel*
CFCParcel_init(CFCParcel *self, const char *name, const char *cnick,
               CFCVersion *version) {
    // Validate name.
    if (!name || !S_validate_name_or_cnick(name)) {
        CFCUtil_die("Invalid name: '%s'", name ? name : "[NULL]");
    }
    self->name = CFCUtil_strdup(name);

    // Validate or derive cnick.
    if (cnick) {
        if (!S_validate_name_or_cnick(cnick)) {
            CFCUtil_die("Invalid cnick: '%s'", cnick);
        }
        self->cnick = CFCUtil_strdup(cnick);
    }
    else {
        // Default cnick to name.
        self->cnick = CFCUtil_strdup(name);
    }

    // Default to version v0.
    if (version) {
        self->version = (CFCVersion*)CFCBase_incref((CFCBase*)version);
    }
    else {
        self->version = CFCVersion_new("v0");
    }

    // Derive prefix, Prefix, PREFIX.
    size_t cnick_len  = strlen(self->cnick);
    size_t prefix_len = cnick_len ? cnick_len + 1 : 0;
    size_t amount     = prefix_len + 1;
    self->prefix = (char*)MALLOCATE(amount);
    self->Prefix = (char*)MALLOCATE(amount);
    self->PREFIX = (char*)MALLOCATE(amount);
    memcpy(self->Prefix, self->cnick, cnick_len);
    if (cnick_len) {
        self->Prefix[cnick_len]  = '_';
        self->Prefix[cnick_len + 1]  = '\0';
    }
    else {
        self->Prefix[cnick_len] = '\0';
    }
    for (size_t i = 0; i < amount; i++) {
        self->prefix[i] = tolower(self->Prefix[i]);
        self->PREFIX[i] = toupper(self->Prefix[i]);
    }
    self->prefix[prefix_len] = '\0';
    self->Prefix[prefix_len] = '\0';
    self->PREFIX[prefix_len] = '\0';

    return self;
}
Esempio n. 15
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void
CFCClass_add_inert_var(CFCClass *self, CFCVariable *var) {
    CFCUTIL_NULL_CHECK(var);
    if (self->tree_grown) {
        CFCUtil_die("Can't call add_inert_var after grow_tree");
    }
    self->num_inert_vars++;
    size_t size = (self->num_inert_vars + 1) * sizeof(CFCVariable*);
    self->inert_vars = (CFCVariable**)REALLOCATE(self->inert_vars, size);
    self->inert_vars[self->num_inert_vars - 1]
        = (CFCVariable*)CFCBase_incref((CFCBase*)var);
    self->inert_vars[self->num_inert_vars] = NULL;
}
Esempio n. 16
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void
CFCClass_add_function(CFCClass *self, CFCFunction *func) {
    CFCUTIL_NULL_CHECK(func);
    if (self->tree_grown) {
        CFCUtil_die("Can't call add_function after grow_tree");
    }
    self->num_functions++;
    size_t size = (self->num_functions + 1) * sizeof(CFCFunction*);
    self->functions = (CFCFunction**)REALLOCATE(self->functions, size);
    self->functions[self->num_functions - 1]
        = (CFCFunction*)CFCBase_incref((CFCBase*)func);
    self->functions[self->num_functions] = NULL;
}
Esempio n. 17
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CFCC*
CFCC_init(CFCC *self, CFCHierarchy *hierarchy, const char *header,
          const char *footer) {
    CFCUTIL_NULL_CHECK(hierarchy);
    CFCUTIL_NULL_CHECK(header);
    CFCUTIL_NULL_CHECK(footer);
    self->hierarchy  = (CFCHierarchy*)CFCBase_incref((CFCBase*)hierarchy);
    self->html_gen   = CFCCHtml_new(hierarchy, header, footer);
    self->c_header   = CFCUtil_make_c_comment(header);
    self->c_footer   = CFCUtil_make_c_comment(footer);
    self->man_header = CFCUtil_make_troff_comment(header);
    self->man_footer = CFCUtil_make_troff_comment(footer);
    return self;
}
Esempio n. 18
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CFCType*
CFCType_init(CFCType *self, int flags, struct CFCParcel *parcel,
             const char *specifier, int indirection) {
    self->flags       = flags;
    self->parcel      = (CFCParcel*)CFCBase_incref((CFCBase*)parcel);
    self->specifier   = CFCUtil_strdup(specifier);
    self->indirection = indirection;
    self->c_string    = NULL;
    self->width       = 0;
    self->array       = NULL;
    self->child       = NULL;
    self->vtable_var  = NULL;

    return self;
}
Esempio n. 19
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void
CFCClass_add_method(CFCClass *self, CFCMethod *method) {
    CFCUTIL_NULL_CHECK(method);
    if (self->tree_grown) {
        CFCUtil_die("Can't call add_method after grow_tree");
    }
    if (self->is_inert) {
        CFCUtil_die("Can't add_method to an inert class");
    }
    self->num_methods++;
    size_t size = (self->num_methods + 1) * sizeof(CFCMethod*);
    self->methods = (CFCMethod**)REALLOCATE(self->methods, size);
    self->methods[self->num_methods - 1]
        = (CFCMethod*)CFCBase_incref((CFCBase*)method);
    self->methods[self->num_methods] = NULL;
}
Esempio n. 20
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static void
S_register(CFCClass *self) {
    if (registry_size == registry_cap) {
        size_t new_cap = registry_cap + 10;
        registry = (CFCClassRegEntry*)REALLOCATE(
                       registry,
                       (new_cap + 1) * sizeof(CFCClassRegEntry));
        for (size_t i = registry_cap; i <= new_cap; i++) {
            registry[i].key = NULL;
            registry[i].klass = NULL;
        }
        registry_cap = new_cap;
    }

    CFCParcel  *parcel     = CFCClass_get_parcel(self);
    const char *prefix     = CFCParcel_get_prefix(parcel);
    const char *class_name = CFCClass_get_class_name(self);
    const char *cnick      = CFCClass_get_cnick(self);
    const char *key        = self->full_struct_sym;

    for (size_t i = 0; i < registry_size; i++) {
        CFCClass   *other            = registry[i].klass;
        CFCParcel  *other_parcel     = CFCClass_get_parcel(other);
        const char *other_prefix     = CFCParcel_get_prefix(other_parcel);
        const char *other_class_name = CFCClass_get_class_name(other);
        const char *other_cnick      = CFCClass_get_cnick(other);

        if (strcmp(class_name, other_class_name) == 0) {
            CFCUtil_die("Two classes with name %s", class_name);
        }
        if (strcmp(registry[i].key, key) == 0) {
            CFCUtil_die("Class name conflict between %s and %s",
                        class_name, other_class_name);
        }
        if (strcmp(prefix, other_prefix) == 0
            && strcmp(cnick, other_cnick) == 0
           ) {
            CFCUtil_die("Class nickname conflict between %s and %s",
                        class_name, other_class_name);
        }
    }

    registry[registry_size].key   = CFCUtil_strdup(key);
    registry[registry_size].klass = (CFCClass*)CFCBase_incref((CFCBase*)self);
    registry_size++;
}
Esempio n. 21
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static void
S_add_tree(CFCHierarchy *self, CFCClass *klass) {
    CFCUTIL_NULL_CHECK(klass);
    const char *full_struct_sym = CFCClass_full_struct_sym(klass);
    for (size_t i = 0; self->trees[i] != NULL; i++) {
        const char *existing = CFCClass_full_struct_sym(self->trees[i]);
        if (strcmp(full_struct_sym, existing) == 0) {
            CFCUtil_die("Tree '%s' alread added", full_struct_sym);
        }
    }
    self->num_trees++;
    size_t size = (self->num_trees + 1) * sizeof(CFCClass*);
    self->trees = (CFCClass**)REALLOCATE(self->trees, size);
    self->trees[self->num_trees - 1]
        = (CFCClass*)CFCBase_incref((CFCBase*)klass);
    self->trees[self->num_trees] = NULL;
}
Esempio n. 22
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static void
S_register(CFCDocument *self) {
    if (CFCDocument_fetch(self->name) != NULL) {
        CFCUtil_die("Two documents with name %s", self->name);
    }

    if (registry_size == registry_cap) {
        size_t new_cap = registry_cap + 10;
        size_t bytes   = (new_cap + 1) * sizeof(CFCDocument*);
        registry = (CFCDocument**)REALLOCATE(registry, bytes);
        registry_cap = new_cap;
    }

    registry[registry_size]   = (CFCDocument*)CFCBase_incref((CFCBase*)self);
    registry[registry_size+1] = NULL;
    registry_size++;
}
Esempio n. 23
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CFCPerl*
CFCPerl_init(CFCPerl *self, CFCHierarchy *hierarchy, const char *lib_dir,
             const char *header, const char *footer) {
    CFCUTIL_NULL_CHECK(hierarchy);
    CFCUTIL_NULL_CHECK(lib_dir);
    CFCUTIL_NULL_CHECK(header);
    CFCUTIL_NULL_CHECK(footer);
    self->hierarchy  = (CFCHierarchy*)CFCBase_incref((CFCBase*)hierarchy);
    self->lib_dir    = CFCUtil_strdup(lib_dir);
    self->header     = CFCUtil_strdup(header);
    self->footer     = CFCUtil_strdup(footer);
    self->c_header   = CFCUtil_make_c_comment(header);
    self->c_footer   = CFCUtil_make_c_comment(footer);
    self->pod_header = CFCUtil_make_perl_comment(header);
    self->pod_footer = CFCUtil_make_perl_comment(footer);

    return self;
}
Esempio n. 24
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CFCPrereq*
CFCPrereq_init(CFCPrereq *self, const char *name, CFCVersion *version) {
    // Validate name.
    if (!name || !S_validate_name_or_nickname(name)) {
        CFCUtil_die("Invalid name: '%s'", name ? name : "[NULL]");
    }
    self->name = CFCUtil_strdup(name);

    // Default to version v0.
    if (version) {
        self->version = (CFCVersion*)CFCBase_incref((CFCBase*)version);
    }
    else {
        self->version = CFCVersion_new("v0");
    }

    return self;
}
Esempio n. 25
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void
CFCGoClass_register(CFCGoClass *self) {
    if (registry_size == registry_cap) {
        size_t new_cap = registry_cap + 10;
        size_t amount = (new_cap + 1) * sizeof(CFCGoClass*);
        registry = (CFCGoClass**)REALLOCATE(registry, amount);
        for (size_t i = registry_cap; i <= new_cap; i++) {
            registry[i] = NULL;
        }
        registry_cap = new_cap;
    }
    CFCGoClass *existing = CFCGoClass_singleton(self->class_name);
    if (existing) {
        CFCUtil_die("Class '%s' already registered", self->class_name);
    }
    registry[registry_size] = (CFCGoClass*)CFCBase_incref((CFCBase*)self);
    registry_size++;
    qsort(registry, registry_size, sizeof(CFCGoClass*),
          S_compare_cfcgoclass);
}
Esempio n. 26
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static void
S_add_file(CFCHierarchy *self, CFCFile *file) {
    CFCUTIL_NULL_CHECK(file);
    CFCClass **classes = CFCFile_classes(file);

    self->num_files++;
    size_t size = (self->num_files + 1) * sizeof(CFCFile*);
    self->files = (CFCFile**)REALLOCATE(self->files, size);
    self->files[self->num_files - 1]
        = (CFCFile*)CFCBase_incref((CFCBase*)file);
    self->files[self->num_files] = NULL;

    for (size_t i = 0; classes[i] != NULL; i++) {
        CFCClass *klass = classes[i];
        const char *parent_name = CFCClass_get_parent_class_name(klass);
        if (!parent_name) {
            S_add_tree(self, klass);
        }
    }
}
Esempio n. 27
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// Pass down member vars to from parent to children.
static void
S_bequeath_member_vars(CFCClass *self) {
    for (size_t i = 0; self->children[i] != NULL; i++) {
        CFCClass *child = self->children[i];
        size_t num_vars = self->num_member_vars + child->num_member_vars;
        size_t size = (num_vars + 1) * sizeof(CFCVariable*);
        child->member_vars
            = (CFCVariable**)REALLOCATE(child->member_vars, size);
        memmove(child->member_vars + self->num_member_vars,
                child->member_vars,
                child->num_member_vars * sizeof(CFCVariable*));
        memcpy(child->member_vars, self->member_vars,
               self->num_member_vars * sizeof(CFCVariable*));
        for (size_t j = 0; self->member_vars[j] != NULL; j++) {
            CFCBase_incref((CFCBase*)child->member_vars[j]);
        }
        child->num_member_vars = num_vars;
        child->member_vars[num_vars] = NULL;
        S_bequeath_member_vars(child);
    }
}
Esempio n. 28
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CFCType*
CFCType_new_composite(int flags, CFCType *child, int indirection,
                      const char *array) {
    if (!child) {
        CFCUtil_die("Missing required param 'child'");
    }
    flags |= CFCTYPE_COMPOSITE;
    S_check_flags(flags, CFCTYPE_COMPOSITE | CFCTYPE_NULLABLE, "Composite");

    CFCType *self = CFCType_new(flags, NULL, CFCType_get_specifier(child),
                                indirection);
    self->child = (CFCType*)CFCBase_incref((CFCBase*)child);

    // Record array spec.
    const char *array_spec = array ? array : "";
    size_t array_spec_size = strlen(array_spec) + 1;
    self->array = (char*)MALLOCATE(array_spec_size);
    strcpy(self->array, array_spec);

    return self;
}
Esempio n. 29
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CFCType*
CFCType_init(CFCType *self, int flags, struct CFCParcel *parcel,
             const char *specifier, int indirection, const char *c_string) {
    self->flags       = flags;
    self->parcel      = (CFCParcel*)CFCBase_incref((CFCBase*)parcel);
    self->specifier   = CFCUtil_strdup(specifier);
    self->indirection = indirection;
    self->c_string    = c_string ? CFCUtil_strdup(c_string) : CFCUtil_strdup("");
    self->width       = 0;
    self->array       = NULL;
    self->child       = NULL;
    if (flags & CFCTYPE_OBJECT) {
        self->vtable_var = CFCUtil_strdup(specifier);
        for (int i = 0; self->vtable_var[i] != 0; i++) {
            self->vtable_var[i] = toupper(self->vtable_var[i]);
        }
    }
    else {
        self->vtable_var  = NULL;
    }
    return self;
}
Esempio n. 30
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CFCPerlMethod*
CFCPerlMethod_init(CFCPerlMethod *self, CFCMethod *method,
                   const char *alias) {
    CFCParamList *param_list = CFCMethod_get_param_list(method);
    const char *class_name = CFCMethod_get_class_name(method);
    int use_labeled_params = CFCParamList_num_vars(param_list) > 2
                             ? 1 : 0;

    // The Clownfish destructor needs to be spelled DESTROY for Perl.
    if (!alias) {
        alias = CFCMethod_micro_sym(method);
    }
    static const char destroy_uppercase[] = "DESTROY";
    if (strcmp(alias, "destroy") == 0) {
        alias = destroy_uppercase;
    }

    CFCPerlSub_init((CFCPerlSub*)self, param_list, class_name, alias,
                    use_labeled_params);
    self->method = (CFCMethod*)CFCBase_incref((CFCBase*)method);
    return self;
}