+/** \file fec.c Forward error correction based on Vandermonde matrices. */
+
/*
- * fec.c -- forward error correction based on Vandermonde matrices
* 980624
* (C) 1997-98 Luigi Rizzo (luigi@iet.unipi.it)
*
* OF SUCH DAMAGE.
*/
+#include <regex.h>
+
#include "para.h"
#include "error.h"
#include "portable_io.h"
#include "string.h"
#include "fec.h"
-#define GF_BITS 8 /* code over GF(256) */
+/** Code over GF(256). */
+#define GF_BITS 8
+/** The largest number in GF(256) */
#define GF_SIZE ((1 << GF_BITS) - 1)
/*
* To speed up computations, we have tables for logarithm, exponent and inverse
- * of a number. We use a table for multiplication as well (it takes 64K, no big
- * deal even on a PDA, especially because it can be pre-initialized an put into
- * a ROM!). The macro gf_mul(x,y) takes care of multiplications.
+ * of a number.
+ */
+
+/** Index->poly form conversion table. */
+static unsigned char gf_exp[2 * GF_SIZE];
+
+/** Poly->index form conversion table. */
+static int gf_log[GF_SIZE + 1];
+
+/** Inverse of a field element. */
+static unsigned char inverse[GF_SIZE + 1];
+
+/**
+ * The multiplication table.
+ *
+ * We use a table for multiplication as well. It takes 64K, no big deal even on
+ * a PDA, especially because it can be pre-initialized and put into a ROM.
+ *
+ * \sa \ref gf_mul.
*/
-static unsigned char gf_exp[2 * GF_SIZE]; /* index->poly form conversion table */
-static int gf_log[GF_SIZE + 1]; /* Poly->index form conversion table */
-static unsigned char inverse[GF_SIZE + 1]; /* inverse of field elem. */
static unsigned char gf_mul_table[GF_SIZE + 1][GF_SIZE + 1];
-/* Multiply two numbers. */
+
+/** Multiply two GF numbers. */
#define gf_mul(x,y) gf_mul_table[x][y]
/* Compute x % GF_SIZE without a slow divide. */
-static inline unsigned char modnn(int x)
+__a_const static inline unsigned char modnn(int x)
{
while (x >= GF_SIZE) {
x -= GF_SIZE;
inverse[i] = gf_exp[GF_SIZE - gf_log[i]];
}
+/** How often the loop is unrolled. */
+#define UNROLL 16
+
/*
* Compute dst[] = dst[] + c * src[]
*
* This is used often, so better optimize it! Currently the loop is unrolled 16
* times. The case c=0 is also optimized, whereas c=1 is not.
*/
-#define UNROLL 16
-static void addmul(unsigned char *dst1, const unsigned char const *src1,
+static void addmul(unsigned char *dst1, const unsigned char *src1,
unsigned char c, int sz)
{
+ unsigned char *dst, *lim, *col;
+ const unsigned char *src = src1;
+
if (c == 0)
return;
- unsigned char *dst = dst1, *lim = &dst[sz - UNROLL + 1],
- *col = gf_mul_table[c];
- const unsigned char const *src = src1;
+
+ dst = dst1;
+ lim = &dst[sz - UNROLL + 1];
+ col = gf_mul_table[c];
for (; dst < lim; dst += UNROLL, src += UNROLL) {
dst[0] ^= col[src[0]];
}
}
+/** Swap two numbers. */
#define FEC_SWAP(a,b) {typeof(a) tmp = a; a = b; b = tmp;}
/*
* Compute the inverse of a matrix.
*
* k is the size of the matrix 'src' (Gauss-Jordan, adapted from Numerical
- * Recipes in C). Returns -1 if 'src' is singular.
+ * Recipes in C). Returns negative on errors.
*/
static int invert_mat(unsigned char *src, int k)
{
fec_initialized = 1;
}
+/** Internal FEC parameters. */
struct fec_parms {
- int k, n; /* parameters of the code */
+ /** Number of data slices. */
+ int k;
+ /** Number of slices (including redundant slices). */
+ int n;
+ /** The encoding matrix, computed by init_fec(). */
unsigned char *enc_matrix;
};
projects / paraslash.git / blobdiff