PyObject* desired_blocks_nums = NULL; /* The blocknums of the blocks that should be returned. */
PyObject* result = NULL;
- if (!PyArg_ParseTuple(args, "O|O", &inblocks, &desired_blocks_nums))
- return NULL;
-
- gf* check_blocks_produced[self->mm - self->kk]; /* This is an upper bound -- we will actually use only num_check_blocks_produced of these elements (see below). */
- PyObject* pystrs_produced[self->mm - self->kk]; /* This is an upper bound -- we will actually use only num_check_blocks_produced of these elements (see below). */
+ gf** check_blocks_produced = (gf**)alloca(self->mm - self->kk); /* This is an upper bound -- we will actually use only num_check_blocks_produced of these elements (see below). */
+ PyObject** pystrs_produced = (PyObject**)alloca(self->mm - self->kk); /* This is an upper bound -- we will actually use only num_check_blocks_produced of these elements (see below). */
unsigned num_check_blocks_produced = 0; /* The first num_check_blocks_produced elements of the check_blocks_produced array and of the pystrs_produced array will be used. */
- const gf* incblocks[self->kk];
+ const gf** incblocks = (const gf**)alloca(self->kk);
unsigned num_desired_blocks;
PyObject* fast_desired_blocks_nums = NULL;
PyObject** fast_desired_blocks_nums_items;
- unsigned c_desired_blocks_nums[self->mm];
- unsigned c_desired_checkblocks_ids[self->mm - self->kk];
+ unsigned* c_desired_blocks_nums = (unsigned*)alloca(self->mm);
+ unsigned* c_desired_checkblocks_ids = (unsigned*)alloca(self->mm - self->kk);
unsigned i;
PyObject* fastinblocks = NULL;
+ PyObject** fastinblocksitems;
+ Py_ssize_t sz, oldsz = 0;
+ unsigned char check_block_index = 0; /* index into the check_blocks_produced and (parallel) pystrs_produced arrays */
+
+ if (!PyArg_ParseTuple(args, "O|O", &inblocks, &desired_blocks_nums))
+ return NULL;
for (i=0; i<self->mm - self->kk; i++)
pystrs_produced[i] = NULL;
}
/* Construct a C array of gf*'s of the input data. */
- PyObject** fastinblocksitems = PySequence_Fast_ITEMS(fastinblocks);
+ fastinblocksitems = PySequence_Fast_ITEMS(fastinblocks);
if (!fastinblocksitems)
goto err;
- Py_ssize_t sz, oldsz = 0;
+
for (i=0; i<self->kk; i++) {
if (!PyObject_CheckReadBuffer(fastinblocksitems[i])) {
py_raise_fec_error("Precondition violation: %u'th item is required to offer the single-segment read character buffer protocol, but it does not.", i);
}
/* Allocate space for all of the check blocks. */
- unsigned char check_block_index = 0; /* index into the check_blocks_produced and (parallel) pystrs_produced arrays */
+
for (i=0; i<num_desired_blocks; i++) {
if (c_desired_blocks_nums[i] >= self->kk) {
c_desired_checkblocks_ids[check_block_index] = c_desired_blocks_nums[i];
PyObject*restrict blocknums;
PyObject* result = NULL;
+ const gf**restrict cblocks = (const gf**restrict)alloca(self->kk);
+ unsigned* cblocknums = (unsigned*)alloca(self->kk);
+ gf**restrict recoveredcstrs = (gf**)alloca(self->kk); /* self->kk is actually an upper bound -- we probably won't need all of this space. */
+ PyObject**restrict recoveredpystrs = (PyObject**restrict)alloca(self->kk); /* self->kk is actually an upper bound -- we probably won't need all of this space. */
+ unsigned i;
+ PyObject*restrict fastblocknums = NULL;
+ PyObject*restrict fastblocks;
+ unsigned needtorecover=0;
+ PyObject** fastblocksitems;
+ PyObject** fastblocknumsitems;
+ Py_ssize_t sz, oldsz = 0;
+ long tmpl;
+ unsigned nextrecoveredix=0;
+
if (!PyArg_ParseTuple(args, "OO", &blocks, &blocknums))
return NULL;
- const gf*restrict cblocks[self->kk];
- unsigned cblocknums[self->kk];
- gf*restrict recoveredcstrs[self->kk]; /* self->kk is actually an upper bound -- we probably won't need all of this space. */
- PyObject*restrict recoveredpystrs[self->kk]; /* self->kk is actually an upper bound -- we probably won't need all of this space. */
- unsigned i;
for (i=0; i<self->kk; i++)
recoveredpystrs[i] = NULL;
- PyObject*restrict fastblocknums = NULL;
- PyObject*restrict fastblocks = PySequence_Fast(blocks, "First argument was not a sequence.");
+ fastblocks = PySequence_Fast(blocks, "First argument was not a sequence.");
if (!fastblocks)
goto err;
fastblocknums = PySequence_Fast(blocknums, "Second argument was not a sequence.");
}
/* Construct a C array of gf*'s of the data and another of C ints of the blocknums. */
- unsigned needtorecover=0;
- PyObject** fastblocknumsitems = PySequence_Fast_ITEMS(fastblocknums);
+ fastblocknumsitems = PySequence_Fast_ITEMS(fastblocknums);
if (!fastblocknumsitems)
goto err;
- PyObject** fastblocksitems = PySequence_Fast_ITEMS(fastblocks);
+ fastblocksitems = PySequence_Fast_ITEMS(fastblocks);
if (!fastblocksitems)
goto err;
- Py_ssize_t sz, oldsz = 0;
+
for (i=0; i<self->kk; i++) {
if (!PyInt_Check(fastblocknumsitems[i])) {
py_raise_fec_error("Precondition violation: second argument is required to contain int.");
goto err;
}
- long tmpl = PyInt_AsLong(fastblocknumsitems[i]);
+ tmpl = PyInt_AsLong(fastblocknumsitems[i]);
if (tmpl < 0 || tmpl > 255) {
py_raise_fec_error("Precondition violation: block nums can't be less than zero or greater than 255. %ld\n", tmpl);
goto err;
fec_decode(self->fec_matrix, cblocks, recoveredcstrs, cblocknums, sz);
/* Wrap up both original primary blocks and decoded blocks into a Python list of Python strings. */
- unsigned nextrecoveredix=0;
result = PyList_New(self->kk);
if (result == NULL)
goto err;
projects / tahoe-lafs / zfec.git / commitdiff