#include <stdio.h>
#include <string.h>
#include "unicode/utypes.h"
#if !UCONFIG_NO_COLLATION
#include "collationdata.h"
#include "collationdatareader.h"
#include "collationinfo.h"
#include "uassert.h"
#include "uvectr32.h"
U_NAMESPACE_BEGIN
void
CollationInfo::printSizes(int32_t sizeWithHeader, const int32_t indexes[]) {
int32_t totalSize = indexes[CollationDataReader::IX_TOTAL_SIZE];
if(sizeWithHeader > totalSize) {
printf(" header size: %6ld\n", (long)(sizeWithHeader - totalSize));
}
int32_t length = indexes[CollationDataReader::IX_INDEXES_LENGTH];
printf(" indexes: %6ld *4 = %6ld\n", (long)length, (long)length * 4);
length = getDataLength(indexes, CollationDataReader::IX_REORDER_CODES_OFFSET);
if(length != 0) {
printf(" reorder codes: %6ld *4 = %6ld\n", (long)length / 4, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_REORDER_TABLE_OFFSET);
if(length != 0) {
U_ASSERT(length >= 256);
printf(" reorder table: %6ld\n", (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_TRIE_OFFSET);
if(length != 0) {
printf(" trie size: %6ld\n", (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_RESERVED8_OFFSET);
if(length != 0) {
printf(" reserved (offset 8): %6ld\n", (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_CES_OFFSET);
if(length != 0) {
printf(" CEs: %6ld *8 = %6ld\n", (long)length / 8, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_RESERVED10_OFFSET);
if(length != 0) {
printf(" reserved (offset 10): %6ld\n", (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_CE32S_OFFSET);
if(length != 0) {
printf(" CE32s: %6ld *4 = %6ld\n", (long)length / 4, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_ROOT_ELEMENTS_OFFSET);
if(length != 0) {
printf(" rootElements: %6ld *4 = %6ld\n", (long)length / 4, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_CONTEXTS_OFFSET);
if(length != 0) {
printf(" contexts: %6ld *2 = %6ld\n", (long)length / 2, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_UNSAFE_BWD_OFFSET);
if(length != 0) {
printf(" unsafeBwdSet: %6ld *2 = %6ld\n", (long)length / 2, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_FAST_LATIN_TABLE_OFFSET);
if(length != 0) {
printf(" fastLatin table: %6ld *2 = %6ld\n", (long)length / 2, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_SCRIPTS_OFFSET);
if(length != 0) {
printf(" scripts data: %6ld *2 = %6ld\n", (long)length / 2, (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_COMPRESSIBLE_BYTES_OFFSET);
if(length != 0) {
U_ASSERT(length >= 256);
printf(" compressibleBytes: %6ld\n", (long)length);
}
length = getDataLength(indexes, CollationDataReader::IX_RESERVED18_OFFSET);
if(length != 0) {
printf(" reserved (offset 18): %6ld\n", (long)length);
}
printf(" collator binary total size: %6ld\n", (long)sizeWithHeader);
}
int32_t
CollationInfo::getDataLength(const int32_t indexes[], int32_t startIndex) {
return indexes[startIndex + 1] - indexes[startIndex];
}
void
CollationInfo::printReorderRanges(const CollationData &data, const int32_t *codes, int32_t length) {
UErrorCode errorCode = U_ZERO_ERROR;
UVector32 ranges(errorCode);
data.makeReorderRanges(codes, length, ranges, errorCode);
if(U_FAILURE(errorCode)) {
printf(" error building reorder ranges: %s\n", u_errorName(errorCode));
return;
}
int32_t start = 0;
for(int32_t i = 0; i < ranges.size(); ++i) {
int32_t pair = ranges.elementAti(i);
int32_t limit = (pair >> 16) & 0xffff;
int16_t offset = (int16_t)pair;
if(offset == 0) {
printf(" [%04x, %04x[\n", start, limit);
} else if(offset > 0) {
printf(" reorder [%04x, %04x[ by offset %02x to [%04x, %04x[\n",
start, limit, offset,
start + (offset << 8), limit + (offset << 8));
} else {
printf(" reorder [%04x, %04x[ by offset -%02x to [%04x, %04x[\n",
start, limit, -offset,
start + (offset << 8), limit + (offset << 8));
}
start = limit;
}
}
U_NAMESPACE_END
#endif // !UCONFIG_NO_COLLATION