src/pkg/runtime/hashmap.h - go - Git at Google

 // Copyright 2009 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.

 // This file contains the implementation of Go's map type.
 //
 // The map is just a hash table.  The data is arranged
 // into an array of buckets.  Each bucket contains up to
 // 8 key/value pairs.  The low-order bits of the hash are
 // used to select a bucket.  Each bucket contains a few
 // high-order bits of each hash to distinguish the entries
 // within a single bucket.
 //
 // If more than 8 keys hash to a bucket, we chain on
 // extra buckets.
 //
 // When the hashtable grows, we allocate a new array
 // of buckets twice as big.  Buckets are incrementally
 // copied from the old bucket array to the new bucket array.
 //
 // Map iterators walk through the array of buckets and
 // return the keys in walk order (bucket #, then overflow
 // chain order, then bucket index).  To maintain iteration
 // semantics, we never move keys within their bucket (if
 // we did, keys might be returned 0 or 2 times).  When
 // growing the table, iterators remain iterating through the
 // old table and must check the new table if the bucket
 // they are iterating through has been moved ("evacuated")
 // to the new table.

 // Maximum number of key/value pairs a bucket can hold.
 #define BUCKETSIZE 8

 // Maximum average load of a bucket that triggers growth.
 #define LOAD 6.5

 // Picking LOAD: too large and we have lots of overflow
 // buckets, too small and we waste a lot of space.  I wrote
 // a simple program to check some stats for different loads:
 // (64-bit, 8 byte keys and values)
 //        LOAD    %overflow  bytes/entry     hitprobe    missprobe
 //        4.00         2.13        20.77         3.00         4.00
 //        4.50         4.05        17.30         3.25         4.50
 //        5.00         6.85        14.77         3.50         5.00
 //        5.50        10.55        12.94         3.75         5.50
 //        6.00        15.27        11.67         4.00         6.00
 //        6.50        20.90        10.79         4.25         6.50
 //        7.00        27.14        10.15         4.50         7.00
 //        7.50        34.03         9.73         4.75         7.50
 //        8.00        41.10         9.40         5.00         8.00
 //
 // %overflow   = percentage of buckets which have an overflow bucket
 // bytes/entry = overhead bytes used per key/value pair
 // hitprobe    = # of entries to check when looking up a present key
 // missprobe   = # of entries to check when looking up an absent key
 //
 // Keep in mind this data is for maximally loaded tables, i.e. just
 // before the table grows.  Typical tables will be somewhat less loaded.

 // Maximum key or value size to keep inline (instead of mallocing per element).
 // Must fit in a uint8.
 // Fast versions cannot handle big values - the cutoff size for
 // fast versions in ../../cmd/gc/walk.c must be at most this value.
 #define MAXKEYSIZE 128
 #define MAXVALUESIZE 128

 typedef struct Bucket Bucket;
 struct Bucket
 {
 	// Note: the format of the Bucket is encoded in ../../cmd/gc/reflect.c and
 	// ../reflect/type.go.  Don't change this structure without also changing that code!
 	uint8  tophash[BUCKETSIZE]; // top 8 bits of hash of each entry (or special mark below)
 	Bucket *overflow;           // overflow bucket, if any
 	uint64 data[1];             // BUCKETSIZE keys followed by BUCKETSIZE values
 };
 // NOTE: packing all the keys together and then all the values together makes the
 // code a bit more complicated than alternating key/value/key/value/... but it allows
 // us to eliminate padding which would be needed for, e.g., map[int64]int8.

 // tophash values.  We reserve a few possibilities for special marks.
 // Each bucket (including its overflow buckets, if any) will have either all or none of its
 // entries in the Evacuated* states (except during the evacuate() method, which only happens
 // during map writes and thus no one else can observe the map during that time).
 enum
 {
 	Empty = 0,		// cell is empty
 	EvacuatedEmpty = 1,	// cell is empty, bucket is evacuated.
 	EvacuatedX = 2,		// key/value is valid.  Entry has been evacuated to first half of larger table.
 	EvacuatedY = 3,		// same as above, but evacuated to second half of larger table.
 	MinTopHash = 4, 	// minimum tophash for a normal filled cell.
 };
 #define evacuated(b) ((b)->tophash[0] > Empty && (b)->tophash[0] < MinTopHash)

 struct Hmap
 {
 	// Note: the format of the Hmap is encoded in ../../cmd/gc/reflect.c and
 	// ../reflect/type.go.  Don't change this structure without also changing that code!
 	uintgo  count;        // # live cells == size of map.  Must be first (used by len() builtin)
 	uint32  flags;
 	uint32  hash0;        // hash seed
 	uint8   B;            // log_2 of # of buckets (can hold up to LOAD * 2^B items)
 	uint8   keysize;      // key size in bytes
 	uint8   valuesize;    // value size in bytes
 	uint16  bucketsize;   // bucket size in bytes

 	byte    *buckets;     // array of 2^B Buckets. may be nil if count==0.
 	byte    *oldbuckets;  // previous bucket array of half the size, non-nil only when growing
 	uintptr nevacuate;    // progress counter for evacuation (buckets less than this have been evacuated)
 };

 // possible flags
 enum
 {
 	IndirectKey = 1,    // storing pointers to keys
 	IndirectValue = 2,  // storing pointers to values
 	Iterator = 4,       // there may be an iterator using buckets
 	OldIterator = 8,    // there may be an iterator using oldbuckets
 };

 // Macros for dereferencing indirect keys
 #define IK(h, p) (((h)->flags & IndirectKey) != 0 ? *(byte**)(p) : (p))
 #define IV(h, p) (((h)->flags & IndirectValue) != 0 ? *(byte**)(p) : (p))

 // If you modify Hiter, also change cmd/gc/reflect.c to indicate
 // the layout of this structure.
 struct Hiter
 {
 	uint8* key; // Must be in first position.  Write nil to indicate iteration end (see cmd/gc/range.c).
 	uint8* value; // Must be in second position (see cmd/gc/range.c).

 	MapType *t;
 	Hmap *h;
 	byte *buckets; // bucket ptr at hash_iter initialization time
 	struct Bucket *bptr; // current bucket

 	uint8 offset; // intra-bucket offset to start from during iteration (should be big enough to hold BUCKETSIZE-1)
 	bool done;

 	// state of table at time iterator is initialized
 	uint8 B;

 	// iter state
 	uintptr bucket;
 	uintptr i;
 	intptr check_bucket;
 };
	// Copyright 2009 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.

	// This file contains the implementation of Go's map type.
	//
	// The map is just a hash table. The data is arranged
	// into an array of buckets. Each bucket contains up to
	// 8 key/value pairs. The low-order bits of the hash are
	// used to select a bucket. Each bucket contains a few
	// high-order bits of each hash to distinguish the entries
	// within a single bucket.
	//
	// If more than 8 keys hash to a bucket, we chain on
	// extra buckets.
	//
	// When the hashtable grows, we allocate a new array
	// of buckets twice as big. Buckets are incrementally
	// copied from the old bucket array to the new bucket array.
	//
	// Map iterators walk through the array of buckets and
	// return the keys in walk order (bucket #, then overflow
	// chain order, then bucket index). To maintain iteration
	// semantics, we never move keys within their bucket (if
	// we did, keys might be returned 0 or 2 times). When
	// growing the table, iterators remain iterating through the
	// old table and must check the new table if the bucket
	// they are iterating through has been moved ("evacuated")
	// to the new table.

	// Maximum number of key/value pairs a bucket can hold.
	#define BUCKETSIZE 8

	// Maximum average load of a bucket that triggers growth.
	#define LOAD 6.5

	// Picking LOAD: too large and we have lots of overflow
	// buckets, too small and we waste a lot of space. I wrote
	// a simple program to check some stats for different loads:
	// (64-bit, 8 byte keys and values)
	// LOAD %overflow bytes/entry hitprobe missprobe
	// 4.00 2.13 20.77 3.00 4.00
	// 4.50 4.05 17.30 3.25 4.50
	// 5.00 6.85 14.77 3.50 5.00
	// 5.50 10.55 12.94 3.75 5.50
	// 6.00 15.27 11.67 4.00 6.00
	// 6.50 20.90 10.79 4.25 6.50
	// 7.00 27.14 10.15 4.50 7.00
	// 7.50 34.03 9.73 4.75 7.50
	// 8.00 41.10 9.40 5.00 8.00
	//
	// %overflow = percentage of buckets which have an overflow bucket
	// bytes/entry = overhead bytes used per key/value pair
	// hitprobe = # of entries to check when looking up a present key
	// missprobe = # of entries to check when looking up an absent key
	//
	// Keep in mind this data is for maximally loaded tables, i.e. just
	// before the table grows. Typical tables will be somewhat less loaded.

	// Maximum key or value size to keep inline (instead of mallocing per element).
	// Must fit in a uint8.
	// Fast versions cannot handle big values - the cutoff size for
	// fast versions in ../../cmd/gc/walk.c must be at most this value.
	#define MAXKEYSIZE 128
	#define MAXVALUESIZE 128

	typedef struct Bucket Bucket;
	struct Bucket
	{
	// Note: the format of the Bucket is encoded in ../../cmd/gc/reflect.c and
	// ../reflect/type.go. Don't change this structure without also changing that code!
	uint8 tophash[BUCKETSIZE]; // top 8 bits of hash of each entry (or special mark below)
	Bucket *overflow; // overflow bucket, if any
	uint64 data[1]; // BUCKETSIZE keys followed by BUCKETSIZE values
	};
	// NOTE: packing all the keys together and then all the values together makes the
	// code a bit more complicated than alternating key/value/key/value/... but it allows
	// us to eliminate padding which would be needed for, e.g., map[int64]int8.

	// tophash values. We reserve a few possibilities for special marks.
	// Each bucket (including its overflow buckets, if any) will have either all or none of its
	// entries in the Evacuated* states (except during the evacuate() method, which only happens
	// during map writes and thus no one else can observe the map during that time).
	enum
	{
	Empty = 0, // cell is empty
	EvacuatedEmpty = 1, // cell is empty, bucket is evacuated.
	EvacuatedX = 2, // key/value is valid. Entry has been evacuated to first half of larger table.
	EvacuatedY = 3, // same as above, but evacuated to second half of larger table.
	MinTopHash = 4, // minimum tophash for a normal filled cell.
	};
	#define evacuated(b) ((b)->tophash[0] > Empty && (b)->tophash[0] < MinTopHash)

	struct Hmap
	{
	// Note: the format of the Hmap is encoded in ../../cmd/gc/reflect.c and
	// ../reflect/type.go. Don't change this structure without also changing that code!
	uintgo count; // # live cells == size of map. Must be first (used by len() builtin)
	uint32 flags;
	uint32 hash0; // hash seed
	uint8 B; // log_2 of # of buckets (can hold up to LOAD * 2^B items)
	uint8 keysize; // key size in bytes
	uint8 valuesize; // value size in bytes
	uint16 bucketsize; // bucket size in bytes

	byte *buckets; // array of 2^B Buckets. may be nil if count==0.
	byte *oldbuckets; // previous bucket array of half the size, non-nil only when growing
	uintptr nevacuate; // progress counter for evacuation (buckets less than this have been evacuated)
	};

	// possible flags
	enum
	{
	IndirectKey = 1, // storing pointers to keys
	IndirectValue = 2, // storing pointers to values
	Iterator = 4, // there may be an iterator using buckets
	OldIterator = 8, // there may be an iterator using oldbuckets
	};

	// Macros for dereferencing indirect keys
	#define IK(h, p) (((h)->flags & IndirectKey) != 0 ? (byte*)(p) : (p))
	#define IV(h, p) (((h)->flags & IndirectValue) != 0 ? (byte*)(p) : (p))

	// If you modify Hiter, also change cmd/gc/reflect.c to indicate
	// the layout of this structure.
	struct Hiter
	{
	uint8* key; // Must be in first position. Write nil to indicate iteration end (see cmd/gc/range.c).
	uint8* value; // Must be in second position (see cmd/gc/range.c).

	MapType *t;
	Hmap *h;
	byte *buckets; // bucket ptr at hash_iter initialization time
	struct Bucket *bptr; // current bucket

	uint8 offset; // intra-bucket offset to start from during iteration (should be big enough to hold BUCKETSIZE-1)
	bool done;

	// state of table at time iterator is initialized
	uint8 B;

	// iter state
	uintptr bucket;
	uintptr i;
	intptr check_bucket;
	};