Use SSE2 in is_valid_ascii() where available.

Per flame graph from Jelte Fennema, COPY FROM ... USING BINARY shows input validation taking at least 5% of the profile, so it's worth trying to be more efficient here. With this change, validation of pure ASCII is nearly 40% faster on contemporary Intel hardware. To make this change legible and easier to adopt to additional architectures, use helper functions to abstract the platform details away. Reviewed by Nathan Bossart Discussion: https://www.postgresql.org/message-id/CAFBsxsG%3Dk8t%3DC457FXnoBXb%3D8iA4OaZkbFogFMachWif7mNnww%40mail.gmail.com
2022-08-26 15:01:24 +07:00 · 2022-08-26 15:01:24 +07:00 · 121d2d3d70
parent ab9717847a
commit 121d2d3d70
3 changed files with 86 additions and 14 deletions
--- a/src/common/wchar.c
+++ b/src/common/wchar.c
@ -1919,10 +1919,11 @@ pg_utf8_verifystr(const unsigned char *s, int len)
 	uint32		state = BGN;

 /*
- * Sixteen seems to give the best balance of performance across different
- * byte distributions.
+ * With a stride of two vector widths, gcc will unroll the loop. Even if
+ * the compiler can unroll a longer loop, it's not worth it because we
+ * must fall back to the byte-wise algorithm if we find any non-ASCII.
 */
-#define STRIDE_LENGTH 16
+#define STRIDE_LENGTH (2 * sizeof(Vector8))

 	if (len >= STRIDE_LENGTH)
 	{
--- a/src/include/mb/pg_wchar.h
+++ b/src/include/mb/pg_wchar.h
@ -19,6 +19,8 @@
 #ifndef PG_WCHAR_H
 #define PG_WCHAR_H

+#include "port/simd.h"
+
 /*
 * The pg_wchar type
 */
@ -704,25 +706,28 @@ extern WCHAR *pgwin32_message_to_UTF16(const char *str, int len, int *utf16len);
 * Verify a chunk of bytes for valid ASCII.
 *
 * Returns false if the input contains any zero bytes or bytes with the
- * high-bit set. Input len must be a multiple of 8.
+ * high-bit set. Input len must be a multiple of the chunk size (8 or 16).
 */
 static inline bool
 is_valid_ascii(const unsigned char *s, int len)
 {
 	const unsigned char *const s_end = s + len;
-	uint64		chunk,
-				highbit_cum = UINT64CONST(0),
-				zero_cum = UINT64CONST(0x8080808080808080);
+	Vector8		chunk;
+	Vector8		highbit_cum = vector8_broadcast(0);
+#ifdef USE_NO_SIMD
+	Vector8		zero_cum = vector8_broadcast(0x80);
+#endif

 	Assert(len % sizeof(chunk) == 0);

 	while (s < s_end)
 	{
-		memcpy(&chunk, s, sizeof(chunk));
+		vector8_load(&chunk, s);
+
+		/* Capture any zero bytes in this chunk. */
+#ifdef USE_NO_SIMD

 		/*
-		 * Capture any zero bytes in this chunk.
-		 *
 		 * First, add 0x7f to each byte. This sets the high bit in each byte,
 		 * unless it was a zero. If any resulting high bits are zero, the
 		 * corresponding high bits in the zero accumulator will be cleared.
@ -733,21 +738,32 @@ is_valid_ascii(const unsigned char *s, int len)
 		 * any input bytes did have the high bit set, it doesn't matter
 		 * because we check for those separately.
 		 */
-		zero_cum &= (chunk + UINT64CONST(0x7f7f7f7f7f7f7f7f));
+		zero_cum &= (chunk + vector8_broadcast(0x7F));
+#else
+
+		/*
+		 * Set all bits in each lane of the highbit accumulator where input
+		 * bytes are zero.
+		 */
+		highbit_cum = vector8_or(highbit_cum,
+								 vector8_eq(chunk, vector8_broadcast(0)));
+#endif

 		/* Capture all set bits in this chunk. */
-		highbit_cum |= chunk;
+		highbit_cum = vector8_or(highbit_cum, chunk);

 		s += sizeof(chunk);
 	}

 	/* Check if any high bits in the high bit accumulator got set. */
-	if (highbit_cum & UINT64CONST(0x8080808080808080))
+	if (vector8_is_highbit_set(highbit_cum))
 		return false;

+#ifdef USE_NO_SIMD
 	/* Check if any high bits in the zero accumulator got cleared. */
-	if (zero_cum != UINT64CONST(0x8080808080808080))
+	if (zero_cum != vector8_broadcast(0x80))
 		return false;
+#endif

 	return true;
 }
--- a/src/include/port/simd.h
+++ b/src/include/port/simd.h
@ -52,7 +52,18 @@ static inline Vector8 vector8_broadcast(const uint8 c);
 static inline bool vector8_has(const Vector8 v, const uint8 c);
 static inline bool vector8_has_zero(const Vector8 v);
 static inline bool vector8_has_le(const Vector8 v, const uint8 c);
+static inline bool vector8_is_highbit_set(const Vector8 v);

+/* arithmetic operations */
+static inline Vector8 vector8_or(const Vector8 v1, const Vector8 v2);
+
+/* Different semantics for SIMD architectures. */
+#ifndef USE_NO_SIMD
+
+/* comparisons between vectors */
+static inline Vector8 vector8_eq(const Vector8 v1, const Vector8 v2);
+
+#endif							/* ! USE_NO_SIMD */

 /*
 * Load a chunk of memory into the given vector.
@ -193,4 +204,48 @@ vector8_has_le(const Vector8 v, const uint8 c)
 	return result;
 }

+/*
+ * Return true if the high bit of any element is set
+ */
+static inline bool
+vector8_is_highbit_set(const Vector8 v)
+{
+#ifdef USE_SSE2
+	return _mm_movemask_epi8(v) != 0;
+#else
+	return v & vector8_broadcast(0x80);
+#endif
+}
+
+/*
+ * Return the bitwise OR of the inputs
+ */
+static inline Vector8
+vector8_or(const Vector8 v1, const Vector8 v2)
+{
+#ifdef USE_SSE2
+	return _mm_or_si128(v1, v2);
+#else
+	return v1 | v2;
+#endif
+}
+
+
+/* Different semantics for SIMD architectures. */
+#ifndef USE_NO_SIMD
+
+/*
+ * Return a vector with all bits set in each lane where the the corresponding
+ * lanes in the inputs are equal.
+ */
+static inline Vector8
+vector8_eq(const Vector8 v1, const Vector8 v2)
+{
+#ifdef USE_SSE2
+	return _mm_cmpeq_epi8(v1, v2);
+#endif
+}
+
+#endif							/* ! USE_NO_SIMD */
+
 #endif							/* SIMD_H */