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author | Andy Wingo <wingo@pobox.com> | 2017-04-18 14:56:48 +0200 |
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committer | Andy Wingo <wingo@pobox.com> | 2017-04-18 21:27:45 +0200 |
commit | 7ed54fd36d2e381aa46ef8a7d2fc13a6776b573a (patch) | |
tree | b25ea9f0f0459a61ef9f5b0c34e18312d3762933 /libguile/uniform.c | |
parent | 6e573a0885d24d9ed36141ddf561c8b8b2e288e9 (diff) | |
download | guile-7ed54fd36d2e381aa46ef8a7d2fc13a6776b573a.tar.gz |
All literal constants are read-only
* libguile/array-handle.c (initialize_vector_handle): Add mutable_p
argument. Unless the vector handle is mutable, null out its
writable_elements member.
(scm_array_get_handle): Adapt to determine mutability of the various
arrays.
(scm_array_handle_elements, scm_array_handle_writable_elements):
Reverse the sense: instead of implementing read-only in terms of
read-write, go the other way around, adding an assertion in the
read-write case that the array handle is mutable.
* libguile/array-map.c (racp): Assert that the destination is mutable.
* libguile/bitvectors.c (SCM_F_BITVECTOR_IMMUTABLE, IS_BITVECTOR):
(IS_MUTABLE_BITVECTOR): Add a flag to indicate immutability.
(scm_i_bitvector_bits): Fix indentation.
(scm_i_is_mutable_bitvector): New helper.
(scm_array_handle_bit_elements)
((scm_array_handle_bit_writable_elements): Build writable_elements in
terms of elements.
(scm_bitvector_elements, scm_bitvector_writable_elements): Likewise.
(scm_c_bitvector_set_x): Require a mutable bitvector for the
fast-path.
(scm_bitvector_to_list, scm_bit_count): Use read-only elements()
function.
* libguile/bitvectors.h (scm_i_is_mutable_bitvector): New decl.
* libguile/bytevectors.c (INTEGER_ACCESSOR_PROLOGUE):
(INTEGER_GETTER_PROLOGUE, INTEGER_SETTER_PROLOGUE):
(INTEGER_REF, INTEGER_NATIVE_REF, INTEGER_SET, INTEGER_NATIVE_SET):
(GENERIC_INTEGER_ACCESSOR_PROLOGUE):
(GENERIC_INTEGER_GETTER_PROLOGUE, GENERIC_INTEGER_SETTER_PROLOGUE):
(LARGE_INTEGER_NATIVE_REF, LARGE_INTEGER_NATIVE_SET):
(IEEE754_GETTER_PROLOGUE, IEEE754_SETTER_PROLOGUE):
(IEEE754_REF, IEEE754_NATIVE_REF, IEEE754_SET, IEEE754_NATIVE_SET):
Setters require a mutable bytevector.
(SCM_BYTEVECTOR_SET_FLAG): New helper.
(SCM_BYTEVECTOR_SET_CONTIGUOUS_P, SCM_BYTEVECTOR_SET_ELEMENT_TYPE):
Remove helpers.
(SCM_VALIDATE_MUTABLE_BYTEVECTOR): New helper.
(make_bytevector, make_bytevector_from_buffer): Use
SCM_SET_BYTEVECTOR_FLAGS.
(scm_c_bytevector_set_x, scm_bytevector_fill_x)
(scm_bytevector_copy_x): Require a mutable bytevector.
* libguile/bytevectors.h (SCM_F_BYTEVECTOR_CONTIGUOUS)
(SCM_F_BYTEVECTOR_IMMUTABLE, SCM_MUTABLE_BYTEVECTOR_P): New
definitions.
* libguile/bytevectors.h (SCM_BYTEVECTOR_CONTIGUOUS_P): Just access one
bit.
* libguile/srfi-4.c (DEFINE_SRFI_4_C_FUNCS): Implement
writable_elements() in terms of elements().
* libguile/strings.c (scm_i_string_is_mutable): New helper.
* libguile/uniform.c (scm_array_handle_uniform_elements):
(scm_array_handle_uniform_writable_elements): Implement
writable_elements in terms of elements.
* libguile/vectors.c (SCM_VALIDATE_MUTABLE_VECTOR): New helper.
(scm_vector_elements, scm_vector_writable_elements): Implement
writable_elements in terms of elements.
(scm_c_vector_set_x): Require a mutable vector.
* libguile/vectors.h (SCM_F_VECTOR_IMMUTABLE, SCM_I_IS_MUTABLE_VECTOR):
New definitions.
* libguile/vm-engine.c (VM_VALIDATE_MUTABLE_BYTEVECTOR):
(VM_VALIDATE_MUTABLE_VECTOR, vector-set!, vector-set!/immediate)
(BV_BOUNDED_SET, BV_SET): Require mutable bytevector/vector.
* libguile/vm.c (vm_error_not_a_mutable_bytevector):
(vm_error_not_a_mutable_vector): New definitions.
* module/system/vm/assembler.scm (link-data): Mark residualized vectors,
bytevectors, and bitvectors as being read-only.
Diffstat (limited to 'libguile/uniform.c')
-rw-r--r-- | libguile/uniform.c | 15 |
1 files changed, 9 insertions, 6 deletions
diff --git a/libguile/uniform.c b/libguile/uniform.c index f7ca7bce9..13ee18a0c 100644 --- a/libguile/uniform.c +++ b/libguile/uniform.c @@ -67,18 +67,21 @@ scm_array_handle_uniform_element_bit_size (scm_t_array_handle *h) const void * scm_array_handle_uniform_elements (scm_t_array_handle *h) { - return scm_array_handle_uniform_writable_elements (h); + size_t esize; + const scm_t_uint8 *ret; + + esize = scm_array_handle_uniform_element_size (h); + ret = ((const scm_t_uint8 *) h->elements) + h->base * esize; + return ret; } void * scm_array_handle_uniform_writable_elements (scm_t_array_handle *h) { - size_t esize; - scm_t_uint8 *ret; + if (h->writable_elements != h->elements) + scm_wrong_type_arg_msg (NULL, 0, h->array, "mutable array"); - esize = scm_array_handle_uniform_element_size (h); - ret = ((scm_t_uint8*) h->writable_elements) + h->base * esize; - return ret; + return (void *) scm_array_handle_uniform_elements (h); } void |