/*
- * Copyright 2016 Facebook, Inc.
+ * Copyright 2017 Facebook, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
#include <folly/Portability.h>
-#if FOLLY_X64 || defined(__i386__) || FOLLY_PPC64
+#if FOLLY_X64 || defined(__i386__) || FOLLY_PPC64 || FOLLY_A64
#define HAVE_GROUP_VARINT 1
#include <cstdint>
* buffer of size bytes.
*/
static size_t partialCount(const char* p, size_t size) {
- char v = *p;
+ uint8_t v = uint8_t(*p);
size_t s = kHeaderSize;
s += 1 + b0key(v);
if (s > size) return 0;
* return the number of bytes used by the encoding.
*/
static size_t encodedSize(const char* p) {
- return (kHeaderSize + kGroupSize +
- b0key(*p) + b1key(*p) + b2key(*p) + b3key(*p));
+ return kHeaderSize + kGroupSize +
+ b0key(uint8_t(*p)) + b1key(uint8_t(*p)) +
+ b2key(uint8_t(*p)) + b3key(uint8_t(*p));
}
/**
* that we must be able to read at least 17 bytes from the input pointer, p.
*/
static const char* decode(const char* p, uint32_t* dest) {
- uint8_t key = p[0];
+ uint8_t key = uint8_t(p[0]);
__m128i val = _mm_loadu_si128((const __m128i*)(p+1));
__m128i mask =
_mm_load_si128((const __m128i*)&detail::groupVarintSSEMasks[key * 2]);
*/
static const char* decode(const char* p, uint32_t* a, uint32_t* b,
uint32_t* c, uint32_t* d) {
- uint8_t key = p[0];
+ uint8_t key = uint8_t(p[0]);
__m128i val = _mm_loadu_si128((const __m128i*)(p+1));
__m128i mask =
_mm_load_si128((const __m128i*)&detail::groupVarintSSEMasks[key * 2]);
// Extracting 32 bits at a time out of an XMM register is a SSE4 feature
#if FOLLY_SSE >= 4
- *a = _mm_extract_epi32(r, 0);
- *b = _mm_extract_epi32(r, 1);
- *c = _mm_extract_epi32(r, 2);
- *d = _mm_extract_epi32(r, 3);
+ *a = uint32_t(_mm_extract_epi32(r, 0));
+ *b = uint32_t(_mm_extract_epi32(r, 1));
+ *c = uint32_t(_mm_extract_epi32(r, 2));
+ *d = uint32_t(_mm_extract_epi32(r, 3));
#else /* !__SSE4__ */
*a = _mm_extract_epi16(r, 0) + (_mm_extract_epi16(r, 1) << 16);
*b = _mm_extract_epi16(r, 2) + (_mm_extract_epi16(r, 3) << 16);
private:
static uint8_t key(uint32_t x) {
// __builtin_clz is undefined for the x==0 case
- return 3 - (__builtin_clz(x|1) / 8);
+ return uint8_t(3 - (__builtin_clz(x | 1) / 8));
}
static size_t b0key(size_t x) { return x & 3; }
static size_t b1key(size_t x) { return (x >> 2) & 3; }
*/
static size_t size(uint64_t a, uint64_t b, uint64_t c, uint64_t d,
uint64_t e) {
- return (kHeaderSize + kGroupSize +
- key(a) + key(b) + key(c) + key(d) + key(e));
+ return kHeaderSize + kGroupSize +
+ key(a) + key(b) + key(c) + key(d) + key(e);
}
/**
*/
static size_t encodedSize(const char* p) {
uint16_t n = loadUnaligned<uint16_t>(p);
- return (kHeaderSize + kGroupSize +
- b0key(n) + b1key(n) + b2key(n) + b3key(n) + b4key(n));
+ return kHeaderSize + kGroupSize +
+ b0key(n) + b1key(n) + b2key(n) + b3key(n) + b4key(n);
}
/**
*/
static char* encode(char* p, uint64_t a, uint64_t b, uint64_t c,
uint64_t d, uint64_t e) {
- uint8_t b0key = key(a);
- uint8_t b1key = key(b);
- uint8_t b2key = key(c);
- uint8_t b3key = key(d);
- uint8_t b4key = key(e);
+ uint16_t b0key = key(a);
+ uint16_t b1key = key(b);
+ uint16_t b2key = key(c);
+ uint16_t b3key = key(d);
+ uint16_t b4key = key(e);
storeUnaligned<uint16_t>(
p,
- (b4key << 12) | (b3key << 9) | (b2key << 6) | (b1key << 3) | b0key);
+ uint16_t(
+ (b4key << 12) |
+ (b3key << 9) |
+ (b2key << 6) |
+ (b1key << 3) |
+ b0key));
p += 2;
storeUnaligned(p, a);
p += b0key+1;
static uint8_t key(uint64_t x) {
// __builtin_clzll is undefined for the x==0 case
- return 7 - (__builtin_clzll(x|1) / 8);
+ return uint8_t(7 - (__builtin_clzll(x | 1) / 8));
}
- static uint8_t b0key(uint16_t x) { return x & 7; }
- static uint8_t b1key(uint16_t x) { return (x >> 3) & 7; }
- static uint8_t b2key(uint16_t x) { return (x >> 6) & 7; }
- static uint8_t b3key(uint16_t x) { return (x >> 9) & 7; }
- static uint8_t b4key(uint16_t x) { return (x >> 12) & 7; }
+ static uint8_t b0key(uint16_t x) { return x & 7u; }
+ static uint8_t b1key(uint16_t x) { return (x >> 3) & 7u; }
+ static uint8_t b2key(uint16_t x) { return (x >> 6) & 7u; }
+ static uint8_t b3key(uint16_t x) { return (x >> 9) & 7u; }
+ static uint8_t b4key(uint16_t x) { return (x >> 12) & 7u; }
static const uint64_t kMask[];
};
bool next(type* val) {
if (pos_ == count_) {
// refill
- size_t rem = end_ - p_;
+ size_t rem = size_t(end_ - p_);
if (rem == 0 || remaining_ == 0) {
return false;
}
}
} else {
// Can't decode a full group
- count_ = Base::partialCount(p_, end_ - p_);
+ count_ = Base::partialCount(p_, size_t(end_ - p_));
if (remaining_ >= count_) {
remaining_ -= count_;
p_ = end_;
CHECK(pos_ == count_ && (p_ == end_ || remaining_ == 0));
// p_ may point to the internal buffer (tmp_), but we want
// to return subpiece of the original data
- size_t size = end_ - p_;
+ size_t size = size_t(end_ - p_);
return StringPiece(rrest_ - size, rrest_);
}