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The C based gRPC (C++, Python, Ruby, Objective-C, PHP, C#)
https://grpc.io/
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229 lines
8.3 KiB
229 lines
8.3 KiB
2 years ago
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#ifdef __aarch64__
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#include <stdio.h>
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#include <stdint.h>
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#include <arm_neon.h>
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int utf8_naive(const unsigned char *data, int len);
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#if 0
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static void print128(const char *s, const uint8x16_t v128)
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{
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unsigned char v8[16];
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vst1q_u8(v8, v128);
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if (s)
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printf("%s:\t", s);
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for (int i = 0; i < 16; ++i)
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printf("%02x ", v8[i]);
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printf("\n");
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}
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#endif
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/*
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* Map high nibble of "First Byte" to legal character length minus 1
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* 0x00 ~ 0xBF --> 0
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* 0xC0 ~ 0xDF --> 1
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* 0xE0 ~ 0xEF --> 2
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* 0xF0 ~ 0xFF --> 3
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*/
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static const uint8_t _first_len_tbl[] = {
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 2, 3,
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};
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/* Map "First Byte" to 8-th item of range table (0xC2 ~ 0xF4) */
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static const uint8_t _first_range_tbl[] = {
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0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 8, 8, 8, 8,
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};
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/*
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* Range table, map range index to min and max values
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* Index 0 : 00 ~ 7F (First Byte, ascii)
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* Index 1,2,3: 80 ~ BF (Second, Third, Fourth Byte)
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* Index 4 : A0 ~ BF (Second Byte after E0)
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* Index 5 : 80 ~ 9F (Second Byte after ED)
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* Index 6 : 90 ~ BF (Second Byte after F0)
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* Index 7 : 80 ~ 8F (Second Byte after F4)
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* Index 8 : C2 ~ F4 (First Byte, non ascii)
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* Index 9~15 : illegal: u >= 255 && u <= 0
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*/
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static const uint8_t _range_min_tbl[] = {
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0x00, 0x80, 0x80, 0x80, 0xA0, 0x80, 0x90, 0x80,
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0xC2, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF, 0xFF,
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};
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static const uint8_t _range_max_tbl[] = {
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0x7F, 0xBF, 0xBF, 0xBF, 0xBF, 0x9F, 0xBF, 0x8F,
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0xF4, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00,
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};
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/*
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* This table is for fast handling four special First Bytes(E0,ED,F0,F4), after
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* which the Second Byte are not 80~BF. It contains "range index adjustment".
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* - The idea is to minus byte with E0, use the result(0~31) as the index to
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* lookup the "range index adjustment". Then add the adjustment to original
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* range index to get the correct range.
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* - Range index adjustment
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* +------------+---------------+------------------+----------------+
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* | First Byte | original range| range adjustment | adjusted range |
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* +------------+---------------+------------------+----------------+
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* | E0 | 2 | 2 | 4 |
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* +------------+---------------+------------------+----------------+
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* | ED | 2 | 3 | 5 |
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* +------------+---------------+------------------+----------------+
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* | F0 | 3 | 3 | 6 |
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* +------------+---------------+------------------+----------------+
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* | F4 | 4 | 4 | 8 |
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* +------------+---------------+------------------+----------------+
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* - Below is a uint8x16x2 table, data is interleaved in NEON register. So I'm
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* putting it vertically. 1st column is for E0~EF, 2nd column for F0~FF.
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*/
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static const uint8_t _range_adjust_tbl[] = {
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/* index -> 0~15 16~31 <- index */
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/* E0 -> */ 2, 3, /* <- F0 */
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0, 0,
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0, 0,
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0, 0,
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0, 4, /* <- F4 */
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0, 0,
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0, 0,
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0, 0,
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0, 0,
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0, 0,
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0, 0,
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0, 0,
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0, 0,
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/* ED -> */ 3, 0,
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0, 0,
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0, 0,
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};
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/* 2x ~ 4x faster than naive method */
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/* Return 0 on success, -1 on error */
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int utf8_range(const unsigned char *data, int len)
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{
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if (len >= 16) {
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uint8x16_t prev_input = vdupq_n_u8(0);
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uint8x16_t prev_first_len = vdupq_n_u8(0);
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/* Cached tables */
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const uint8x16_t first_len_tbl = vld1q_u8(_first_len_tbl);
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const uint8x16_t first_range_tbl = vld1q_u8(_first_range_tbl);
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const uint8x16_t range_min_tbl = vld1q_u8(_range_min_tbl);
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const uint8x16_t range_max_tbl = vld1q_u8(_range_max_tbl);
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const uint8x16x2_t range_adjust_tbl = vld2q_u8(_range_adjust_tbl);
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/* Cached values */
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const uint8x16_t const_1 = vdupq_n_u8(1);
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const uint8x16_t const_2 = vdupq_n_u8(2);
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const uint8x16_t const_e0 = vdupq_n_u8(0xE0);
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/* We use two error registers to remove a dependency. */
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uint8x16_t error1 = vdupq_n_u8(0);
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uint8x16_t error2 = vdupq_n_u8(0);
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while (len >= 16) {
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const uint8x16_t input = vld1q_u8(data);
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/* high_nibbles = input >> 4 */
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const uint8x16_t high_nibbles = vshrq_n_u8(input, 4);
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/* first_len = legal character length minus 1 */
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/* 0 for 00~7F, 1 for C0~DF, 2 for E0~EF, 3 for F0~FF */
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/* first_len = first_len_tbl[high_nibbles] */
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const uint8x16_t first_len =
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vqtbl1q_u8(first_len_tbl, high_nibbles);
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/* First Byte: set range index to 8 for bytes within 0xC0 ~ 0xFF */
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/* range = first_range_tbl[high_nibbles] */
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uint8x16_t range = vqtbl1q_u8(first_range_tbl, high_nibbles);
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/* Second Byte: set range index to first_len */
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/* 0 for 00~7F, 1 for C0~DF, 2 for E0~EF, 3 for F0~FF */
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/* range |= (first_len, prev_first_len) << 1 byte */
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range =
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vorrq_u8(range, vextq_u8(prev_first_len, first_len, 15));
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/* Third Byte: set range index to saturate_sub(first_len, 1) */
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/* 0 for 00~7F, 0 for C0~DF, 1 for E0~EF, 2 for F0~FF */
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uint8x16_t tmp1, tmp2;
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/* tmp1 = (first_len, prev_first_len) << 2 bytes */
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tmp1 = vextq_u8(prev_first_len, first_len, 14);
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/* tmp1 = saturate_sub(tmp1, 1) */
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tmp1 = vqsubq_u8(tmp1, const_1);
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/* range |= tmp1 */
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range = vorrq_u8(range, tmp1);
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/* Fourth Byte: set range index to saturate_sub(first_len, 2) */
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/* 0 for 00~7F, 0 for C0~DF, 0 for E0~EF, 1 for F0~FF */
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/* tmp2 = (first_len, prev_first_len) << 3 bytes */
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tmp2 = vextq_u8(prev_first_len, first_len, 13);
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/* tmp2 = saturate_sub(tmp2, 2) */
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tmp2 = vqsubq_u8(tmp2, const_2);
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/* range |= tmp2 */
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range = vorrq_u8(range, tmp2);
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/*
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* Now we have below range indices caluclated
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* Correct cases:
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* - 8 for C0~FF
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* - 3 for 1st byte after F0~FF
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* - 2 for 1st byte after E0~EF or 2nd byte after F0~FF
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* - 1 for 1st byte after C0~DF or 2nd byte after E0~EF or
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* 3rd byte after F0~FF
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* - 0 for others
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* Error cases:
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* 9,10,11 if non ascii First Byte overlaps
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* E.g., F1 80 C2 90 --> 8 3 10 2, where 10 indicates error
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*/
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/* Adjust Second Byte range for special First Bytes(E0,ED,F0,F4) */
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/* See _range_adjust_tbl[] definition for details */
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/* Overlaps lead to index 9~15, which are illegal in range table */
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uint8x16_t shift1 = vextq_u8(prev_input, input, 15);
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uint8x16_t pos = vsubq_u8(shift1, const_e0);
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range = vaddq_u8(range, vqtbl2q_u8(range_adjust_tbl, pos));
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/* Load min and max values per calculated range index */
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uint8x16_t minv = vqtbl1q_u8(range_min_tbl, range);
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uint8x16_t maxv = vqtbl1q_u8(range_max_tbl, range);
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/* Check value range */
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error1 = vorrq_u8(error1, vcltq_u8(input, minv));
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error2 = vorrq_u8(error2, vcgtq_u8(input, maxv));
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prev_input = input;
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prev_first_len = first_len;
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data += 16;
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len -= 16;
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}
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/* Merge our error counters together */
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error1 = vorrq_u8(error1, error2);
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/* Delay error check till loop ends */
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if (vmaxvq_u8(error1))
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return -1;
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/* Find previous token (not 80~BF) */
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uint32_t token4;
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vst1q_lane_u32(&token4, vreinterpretq_u32_u8(prev_input), 3);
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const int8_t *token = (const int8_t *)&token4;
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int lookahead = 0;
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if (token[3] > (int8_t)0xBF)
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lookahead = 1;
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else if (token[2] > (int8_t)0xBF)
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lookahead = 2;
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else if (token[1] > (int8_t)0xBF)
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lookahead = 3;
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data -= lookahead;
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len += lookahead;
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}
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/* Check remaining bytes with naive method */
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return utf8_naive(data, len);
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}
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#endif
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