void write_clone_context(FILE *f, clone_context p)
clone_context check_clone_context(clone_context p)
clone_context copy_clone_context(clone_context p)
CLONE_CONTEXT.
list gen_clone_context_cons(clone_context p, list l)
clone_context read_clone_context(FILE *f)
bool clone_context_consistent_p(clone_context p)
void clone_context_assign_contents(clone_context r, clone_context v)
void clone_context_non_recursive_free(clone_context p)
clone_context make_clone_context(entity a1, entity a2, list a3, statement a4)
bool clone_context_defined_p(clone_context p)
void free_clone_context(clone_context p)
#define CLONE_CONTEXT_NEWGEN_DOMAIN
#define clone_context_domain
newgen_statement_domain_defined
void gen_free(gen_chunk *obj)
version without shared_pointers.
gen_chunk * gen_alloc(int size, int gen_check_p, int dom,...)
allocates something in newgen.
int gen_consistent_p(gen_chunk *obj)
GEN_CONSISTENT_P dynamically checks the type correctness of OBJ.
int gen_defined_p(gen_chunk *obj)
gen_chunk * gen_check(gen_chunk *obj, int t)
GEN_CHECK checks that the gen_chunk received OBJ is of the appropriate TYPE.
gen_chunk * gen_read(FILE *file)
GEN_READ reads any object from the FILE stream.
gen_chunk * gen_copy_tree(gen_chunk *obj)
void gen_write(FILE *fd, gen_chunk *obj)
GEN_WRITE writes the OBJect on the stream FD.
list gen_typed_cons(_int type, const void *item, const list next)
CONS a list with minimal type checking this cannot be done within the CONS macro because possible fun...
#define message_assert(msg, ex)
int f(int off1, int off2, int n, float r[n], float a[n], float b[n])
The structure used to build lists in NewGen.
A gen_chunk is used to store every object.