src/pkg/runtime/hashmap_fast.c - go - Git at Google

 // Copyright 2013 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // Fast hashmap lookup specialized to a specific key type.
 // Included by hashmap.c once for each specialized type.

 // Note that this code differs from hash_lookup in that
 // it returns a pointer to the result, not the result itself.
 // The returned pointer is only valid until the next GC
 // point, so the caller must dereference it before then.

 // +build ignore

 #pragma textflag NOSPLIT
 void
 HASH_LOOKUP1(MapType *t, Hmap *h, KEYTYPE key, byte *value)
 {
 	uintptr bucket, i;
 	Bucket *b;
 	KEYTYPE *k;
 	byte *v;
 	uint8 top;
 	int8 keymaybe;

 	if(debug) {
 		runtime·prints("runtime.mapaccess1_fastXXX: map=");
 		runtime·printpointer(h);
 		runtime·prints("; key=");
 		t->key->alg->print(t->key->size, &key);
 		runtime·prints("\n");
 	}
 	if(h == nil || h->count == 0) {
 		value = empty_value;
 		FLUSH(&value);
 		return;
 	}
 	if(raceenabled)
 		runtime·racereadpc(h, runtime·getcallerpc(&t), HASH_LOOKUP1);
 	if(docheck)
 		check(t, h);

 	if(h->B == 0) {
 		// One-bucket table. Don't hash, just check each bucket entry.
 		b = (Bucket*)h->buckets;
 		if(FASTKEY(key)) {
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] == 0)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k) || SLOW_EQ(key, *k)) {
 					value = v;
 					FLUSH(&value);
 					return;
 				}
 			}
 		} else {
 			keymaybe = -1;
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] == 0)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k)) {
 					value = v;
 					FLUSH(&value);
 					return;
 				}
 				if(MAYBE_EQ(key, *k)) {
 					if(keymaybe >= 0) {
 						// Two same-length strings in this bucket.
 						// use slow path.
 						// TODO: keep track of more than just 1.  We could
 						// afford about 3 equals calls before it would be more
 						// expensive than 1 hash + 1 equals.
 						goto dohash;
 					}
 					keymaybe = i;
 				}
 			}
 			if(keymaybe >= 0) {
 				k = (KEYTYPE*)b->data + keymaybe;
 				if(SLOW_EQ(key, *k)) {
 					value = (byte*)((KEYTYPE*)b->data + BUCKETSIZE) + keymaybe * h->valuesize;
 					FLUSH(&value);
 					return;
 				}
 			}
 		}
 	} else {
 dohash:
 		bucket = h->hash0;
 		HASHFUNC(&bucket, sizeof(KEYTYPE), &key);
 		top = bucket >> (sizeof(uintptr)*8 - 8);
 		if(top == 0)
 			top = 1;
 		bucket &= (((uintptr)1 << h->B) - 1);
 		if(h->oldbuckets != nil) {
 			i = bucket & (((uintptr)1 << (h->B - 1)) - 1);
 			b = (Bucket*)(h->oldbuckets + i * h->bucketsize);
 			if(evacuated(b)) {
 				b = (Bucket*)(h->buckets + bucket * h->bucketsize);
 			}
 		} else {
 			b = (Bucket*)(h->buckets + bucket * h->bucketsize);
 		}
 		do {
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] != top)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k) || SLOW_EQ(key, *k)) {
 					value = v;
 					FLUSH(&value);
 					return;
 				}
 			}
 			b = b->overflow;
 		} while(b != nil);
 	}
 	value = empty_value;
 	FLUSH(&value);
 }

 #pragma textflag NOSPLIT
 void
 HASH_LOOKUP2(MapType *t, Hmap *h, KEYTYPE key, byte *value, bool res)
 {
 	uintptr bucket, i;
 	Bucket *b;
 	KEYTYPE *k;
 	byte *v;
 	uint8 top;
 	int8 keymaybe;

 	if(debug) {
 		runtime·prints("runtime.mapaccess2_fastXXX: map=");
 		runtime·printpointer(h);
 		runtime·prints("; key=");
 		t->key->alg->print(t->key->size, &key);
 		runtime·prints("\n");
 	}
 	if(h == nil || h->count == 0) {
 		value = empty_value;
 		res = false;
 		FLUSH(&value);
 		FLUSH(&res);
 		return;
 	}
 	if(raceenabled)
 		runtime·racereadpc(h, runtime·getcallerpc(&t), HASH_LOOKUP2);
 	if(docheck)
 		check(t, h);

 	if(h->B == 0) {
 		// One-bucket table. Don't hash, just check each bucket entry.
 		b = (Bucket*)h->buckets;
 		if(FASTKEY(key)) {
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] == 0)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k) || SLOW_EQ(key, *k)) {
 					value = v;
 					res = true;
 					FLUSH(&value);
 					FLUSH(&res);
 					return;
 				}
 			}
 		} else {
 			keymaybe = -1;
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] == 0)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k)) {
 					value = v;
 					res = true;
 					FLUSH(&value);
 					FLUSH(&res);
 					return;
 				}
 				if(MAYBE_EQ(key, *k)) {
 					if(keymaybe >= 0) {
 						// Two same-length strings in this bucket.
 						// use slow path.
 						// TODO: keep track of more than just 1.  We could
 						// afford about 3 equals calls before it would be more
 						// expensive than 1 hash + 1 equals.
 						goto dohash;
 					}
 					keymaybe = i;
 				}
 			}
 			if(keymaybe >= 0) {
 				k = (KEYTYPE*)b->data + keymaybe;
 				if(SLOW_EQ(key, *k)) {
 					value = (byte*)((KEYTYPE*)b->data + BUCKETSIZE) + keymaybe * h->valuesize;
 					res = true;
 					FLUSH(&value);
 					FLUSH(&res);
 					return;
 				}
 			}
 		}
 	} else {
 dohash:
 		bucket = h->hash0;
 		HASHFUNC(&bucket, sizeof(KEYTYPE), &key);
 		top = bucket >> (sizeof(uintptr)*8 - 8);
 		if(top == 0)
 			top = 1;
 		bucket &= (((uintptr)1 << h->B) - 1);
 		if(h->oldbuckets != nil) {
 			i = bucket & (((uintptr)1 << (h->B - 1)) - 1);
 			b = (Bucket*)(h->oldbuckets + i * h->bucketsize);
 			if(evacuated(b)) {
 				b = (Bucket*)(h->buckets + bucket * h->bucketsize);
 			}
 		} else {
 			b = (Bucket*)(h->buckets + bucket * h->bucketsize);
 		}
 		do {
 			for(i = 0, k = (KEYTYPE*)b->data, v = (byte*)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
 				if(b->tophash[i] != top)
 					continue;
 				if(QUICK_NE(key, *k))
 					continue;
 				if(QUICK_EQ(key, *k) || SLOW_EQ(key, *k)) {
 					value = v;
 					res = true;
 					FLUSH(&value);
 					FLUSH(&res);
 					return;
 				}
 			}
 			b = b->overflow;
 		} while(b != nil);
 	}
 	value = empty_value;
 	res = false;
 	FLUSH(&value);
 	FLUSH(&res);
 }
	// Copyright 2013 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// Fast hashmap lookup specialized to a specific key type.
	// Included by hashmap.c once for each specialized type.

	// Note that this code differs from hash_lookup in that
	// it returns a pointer to the result, not the result itself.
	// The returned pointer is only valid until the next GC
	// point, so the caller must dereference it before then.

	// +build ignore

	#pragma textflag NOSPLIT
	void
	HASH_LOOKUP1(MapType t, Hmap h, KEYTYPE key, byte *value)
	{
	uintptr bucket, i;
	Bucket *b;
	KEYTYPE *k;
	byte *v;
	uint8 top;
	int8 keymaybe;

	if(debug) {
	runtime·prints("runtime.mapaccess1_fastXXX: map=");
	runtime·printpointer(h);
	runtime·prints("; key=");
	t->key->alg->print(t->key->size, &key);
	runtime·prints("\n");
	}
	if(h == nil \|\| h->count == 0) {
	value = empty_value;
	FLUSH(&value);
	return;
	}
	if(raceenabled)
	runtime·racereadpc(h, runtime·getcallerpc(&t), HASH_LOOKUP1);
	if(docheck)
	check(t, h);

	if(h->B == 0) {
	// One-bucket table. Don't hash, just check each bucket entry.
	b = (Bucket*)h->buckets;
	if(FASTKEY(key)) {
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] == 0)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, k) \|\| SLOW_EQ(key, k)) {
	value = v;
	FLUSH(&value);
	return;
	}
	}
	} else {
	keymaybe = -1;
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] == 0)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, *k)) {
	value = v;
	FLUSH(&value);
	return;
	}
	if(MAYBE_EQ(key, *k)) {
	if(keymaybe >= 0) {
	// Two same-length strings in this bucket.
	// use slow path.
	// TODO: keep track of more than just 1. We could
	// afford about 3 equals calls before it would be more
	// expensive than 1 hash + 1 equals.
	goto dohash;
	}
	keymaybe = i;
	}
	}
	if(keymaybe >= 0) {
	k = (KEYTYPE*)b->data + keymaybe;
	if(SLOW_EQ(key, *k)) {
	value = (byte)((KEYTYPE)b->data + BUCKETSIZE) + keymaybe * h->valuesize;
	FLUSH(&value);
	return;
	}
	}
	}
	} else {
	dohash:
	bucket = h->hash0;
	HASHFUNC(&bucket, sizeof(KEYTYPE), &key);
	top = bucket >> (sizeof(uintptr)*8 - 8);
	if(top == 0)
	top = 1;
	bucket &= (((uintptr)1 << h->B) - 1);
	if(h->oldbuckets != nil) {
	i = bucket & (((uintptr)1 << (h->B - 1)) - 1);
	b = (Bucket)(h->oldbuckets + i h->bucketsize);
	if(evacuated(b)) {
	b = (Bucket)(h->buckets + bucket h->bucketsize);
	}
	} else {
	b = (Bucket)(h->buckets + bucket h->bucketsize);
	}
	do {
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] != top)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, k) \|\| SLOW_EQ(key, k)) {
	value = v;
	FLUSH(&value);
	return;
	}
	}
	b = b->overflow;
	} while(b != nil);
	}
	value = empty_value;
	FLUSH(&value);
	}

	#pragma textflag NOSPLIT
	void
	HASH_LOOKUP2(MapType t, Hmap h, KEYTYPE key, byte *value, bool res)
	{
	uintptr bucket, i;
	Bucket *b;
	KEYTYPE *k;
	byte *v;
	uint8 top;
	int8 keymaybe;

	if(debug) {
	runtime·prints("runtime.mapaccess2_fastXXX: map=");
	runtime·printpointer(h);
	runtime·prints("; key=");
	t->key->alg->print(t->key->size, &key);
	runtime·prints("\n");
	}
	if(h == nil \|\| h->count == 0) {
	value = empty_value;
	res = false;
	FLUSH(&value);
	FLUSH(&res);
	return;
	}
	if(raceenabled)
	runtime·racereadpc(h, runtime·getcallerpc(&t), HASH_LOOKUP2);
	if(docheck)
	check(t, h);

	if(h->B == 0) {
	// One-bucket table. Don't hash, just check each bucket entry.
	b = (Bucket*)h->buckets;
	if(FASTKEY(key)) {
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] == 0)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, k) \|\| SLOW_EQ(key, k)) {
	value = v;
	res = true;
	FLUSH(&value);
	FLUSH(&res);
	return;
	}
	}
	} else {
	keymaybe = -1;
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] == 0)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, *k)) {
	value = v;
	res = true;
	FLUSH(&value);
	FLUSH(&res);
	return;
	}
	if(MAYBE_EQ(key, *k)) {
	if(keymaybe >= 0) {
	// Two same-length strings in this bucket.
	// use slow path.
	// TODO: keep track of more than just 1. We could
	// afford about 3 equals calls before it would be more
	// expensive than 1 hash + 1 equals.
	goto dohash;
	}
	keymaybe = i;
	}
	}
	if(keymaybe >= 0) {
	k = (KEYTYPE*)b->data + keymaybe;
	if(SLOW_EQ(key, *k)) {
	value = (byte)((KEYTYPE)b->data + BUCKETSIZE) + keymaybe * h->valuesize;
	res = true;
	FLUSH(&value);
	FLUSH(&res);
	return;
	}
	}
	}
	} else {
	dohash:
	bucket = h->hash0;
	HASHFUNC(&bucket, sizeof(KEYTYPE), &key);
	top = bucket >> (sizeof(uintptr)*8 - 8);
	if(top == 0)
	top = 1;
	bucket &= (((uintptr)1 << h->B) - 1);
	if(h->oldbuckets != nil) {
	i = bucket & (((uintptr)1 << (h->B - 1)) - 1);
	b = (Bucket)(h->oldbuckets + i h->bucketsize);
	if(evacuated(b)) {
	b = (Bucket)(h->buckets + bucket h->bucketsize);
	}
	} else {
	b = (Bucket)(h->buckets + bucket h->bucketsize);
	}
	do {
	for(i = 0, k = (KEYTYPE)b->data, v = (byte)(k + BUCKETSIZE); i < BUCKETSIZE; i++, k++, v += h->valuesize) {
	if(b->tophash[i] != top)
	continue;
	if(QUICK_NE(key, *k))
	continue;
	if(QUICK_EQ(key, k) \|\| SLOW_EQ(key, k)) {
	value = v;
	res = true;
	FLUSH(&value);
	FLUSH(&res);
	return;
	}
	}
	b = b->overflow;
	} while(b != nil);
	}
	value = empty_value;
	res = false;
	FLUSH(&value);
	FLUSH(&res);
	}