};
#endif
-/* LZX window size must be a power of 2 between 2^15 and 2^21, inclusively. */
-bool
-lzx_window_size_valid(size_t window_size)
+/* Round the specified compression block size (not LZX block size) up to the
+ * next valid LZX window size, and return its order (log2). Or, if the block
+ * size is 0 or greater than the largest valid LZX window size, return 0. */
+unsigned
+lzx_get_window_order(size_t max_block_size)
{
- if (window_size == 0 || (u32)window_size != window_size)
- return false;
- u32 order = bsr32(window_size);
- if (window_size != 1U << order)
- return false;
- return (order >= LZX_MIN_WINDOW_ORDER && order <= LZX_MAX_WINDOW_ORDER);
+ unsigned order;
+
+ if (max_block_size == 0 || max_block_size > (1 << LZX_MAX_WINDOW_ORDER))
+ return 0;
+
+ order = bsr32(max_block_size);
+
+ if ((1 << order) != max_block_size)
+ order++;
+
+ return max(order, LZX_MIN_WINDOW_ORDER);
}
-/* Given a valid LZX window size, return the number of symbols that will exist
+/* Given a valid LZX window order, return the number of symbols that will exist
* in the main Huffman code. */
unsigned
-lzx_get_num_main_syms(u32 window_size)
+lzx_get_num_main_syms(unsigned window_order)
{
+ u32 window_size = 1 << window_order;
+
/* NOTE: the calculation *should* be as follows:
*
* u32 max_offset = window_size - LZX_MIN_MATCH_LEN;