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column.go
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column.go
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// Copyright (c) Roman Atachiants and contributors. All rights reserved.
// Licensed under the MIT license. See LICENSE file in the project root for details.
package column
import (
"fmt"
"reflect"
"sync"
"github.com/kelindar/bitmap"
"github.com/kelindar/column/commit"
)
// columnType represents a type of a column.
type columnType uint8
const (
typeGeneric = columnType(0) // Generic column, every column should support this
typeNumeric = columnType(1 << 0) // Numeric column supporting float64, int64 or uint64
typeTextual = columnType(1 << 1) // Textual column supporting strings
)
// typeOf resolves all supported types of the column
func typeOf(column Column) (typ columnType) {
if _, ok := column.(Numeric); ok {
typ = typ | typeNumeric
}
if _, ok := column.(Textual); ok {
typ = typ | typeTextual
}
return
}
// --------------------------- Contracts ----------------------------
// Column represents a column implementation
type Column interface {
Grow(idx uint32)
Apply(commit.Chunk, *commit.Reader)
Value(idx uint32) (interface{}, bool)
Contains(idx uint32) bool
Index(commit.Chunk) bitmap.Bitmap
Snapshot(chunk commit.Chunk, dst *commit.Buffer)
}
// Numeric represents a column that stores numbers.
type Numeric interface {
Column
LoadFloat64(uint32) (float64, bool)
LoadUint64(uint32) (uint64, bool)
LoadInt64(uint32) (int64, bool)
FilterFloat64(commit.Chunk, bitmap.Bitmap, func(v float64) bool)
FilterUint64(commit.Chunk, bitmap.Bitmap, func(v uint64) bool)
FilterInt64(commit.Chunk, bitmap.Bitmap, func(v int64) bool)
}
// Textual represents a column that stores strings.
type Textual interface {
Column
LoadString(uint32) (string, bool)
FilterString(commit.Chunk, bitmap.Bitmap, func(v string) bool)
}
// --------------------------- Constructors ----------------------------
// Various column constructor functions for a specific types.
var (
ForString = makeStrings
ForFloat32 = makeFloat32s
ForFloat64 = makeFloat64s
ForInt = makeInts
ForInt16 = makeInt16s
ForInt32 = makeInt32s
ForInt64 = makeInt64s
ForUint = makeUints
ForUint16 = makeUint16s
ForUint32 = makeUint32s
ForUint64 = makeUint64s
ForBool = makeBools
ForEnum = makeEnum
ForKey = makeKey
)
// ForKind creates a new column instance for a specified reflect.Kind
func ForKind(kind reflect.Kind) (Column, error) {
switch kind {
case reflect.Float32:
return makeFloat32s(), nil
case reflect.Float64:
return makeFloat64s(), nil
case reflect.Int:
return makeInts(), nil
case reflect.Int16:
return makeInt16s(), nil
case reflect.Int32:
return makeInt32s(), nil
case reflect.Int64:
return makeInt64s(), nil
case reflect.Uint:
return makeUints(), nil
case reflect.Uint16:
return makeUint16s(), nil
case reflect.Uint32:
return makeUint32s(), nil
case reflect.Uint64:
return makeUint64s(), nil
case reflect.Bool:
return makeBools(), nil
case reflect.String:
return makeStrings(), nil
default:
return nil, fmt.Errorf("column: unsupported column kind (%v)", kind)
}
}
// --------------------------- Generic Options ----------------------------
// option represents options for variouos columns.
type option[T any] struct {
Merge func(value, delta T) T
}
// configure applies options
func configure[T any](opts []func(*option[T]), dst option[T]) option[T] {
for _, fn := range opts {
fn(&dst)
}
return dst
}
// WithMerge sets an optional merge function that allows you to merge a delta value to
// an existing value, atomically. The operation is performed transactionally.
func WithMerge[T any](fn func(value, delta T) T) func(*option[T]) {
return func(v *option[T]) {
v.Merge = fn
}
}
// --------------------------- Column ----------------------------
// column represents a column wrapper that synchronizes operations
type column struct {
Column
lock sync.RWMutex // The lock to protect the entire column
kind columnType // The type of the colum
name string // The name of the column
}
// columnFor creates a synchronized column for a column implementation
func columnFor(name string, v Column) *column {
return &column{
kind: typeOf(v),
name: name,
Column: v,
}
}
// IsIndex returns whether the column is an index
func (c *column) IsIndex() bool {
_, ok := c.Column.(*columnIndex)
return ok
}
// IsNumeric checks whether a column type supports certain numerical operations.
func (c *column) IsNumeric() bool {
return (c.kind & typeNumeric) == typeNumeric
}
// IsTextual checks whether a column type supports certain string operations.
func (c *column) IsTextual() bool {
return (c.kind & typeTextual) == typeTextual
}
// Grow grows the size of the column
func (c *column) Grow(idx uint32) {
c.lock.Lock()
defer c.lock.Unlock()
c.Column.Grow(idx)
}
// Apply performs a series of operations on a column.
func (c *column) Apply(chunk commit.Chunk, r *commit.Reader) {
c.lock.RLock()
defer c.lock.RUnlock()
r.Rewind()
c.Column.Apply(chunk, r)
}
// Index loads the appropriate column index for a given chunk
func (c *column) Index(chunk commit.Chunk) bitmap.Bitmap {
c.lock.RLock()
defer c.lock.RUnlock()
return c.Column.Index(chunk)
}
// Snapshot takes a snapshot of a column, skipping indexes
func (c *column) Snapshot(chunk commit.Chunk, buffer *commit.Buffer) bool {
if c.IsIndex() {
return false
}
buffer.Reset(c.name)
c.Column.Snapshot(chunk, buffer)
return true
}
// Value retrieves a value at a specified index
func (c *column) Value(idx uint32) (v interface{}, ok bool) {
v, ok = c.Column.Value(idx)
return
}
// --------------------------- Accessor ----------------------------
// Reader represents a generic reader
type reader[T any] struct {
cursor *uint32
reader T
}
// readerFor creates a read-only accessor
func readerFor[T any](txn *Txn, columnName string) reader[T] {
column, ok := txn.columnAt(columnName)
if !ok {
panic(fmt.Errorf("column: column '%s' does not exist", columnName))
}
target, ok := column.Column.(T)
if !ok {
var want T
panic(fmt.Errorf("column: column '%s' is not of specified type (has=%T, want=%T)",
columnName, column.Column, want))
}
return reader[T]{
cursor: &txn.cursor,
reader: target,
}
}
// --------------------------- Any Writer ----------------------------
// rwAny represents read-write accessor for any column type
type rwAny struct {
rdAny
writer *commit.Buffer
}
// Set sets the value at the current transaction cursor
func (s rwAny) Set(value any) error {
return s.writer.PutAny(commit.Put, *s.cursor, value)
}
// --------------------------- Any Reader ----------------------------
// rdAny represents a read-only accessor for any value
type rdAny reader[Column]
// Get loads the value at the current transaction cursor
func (s rdAny) Get() (any, bool) {
return s.reader.Value(*s.cursor)
}
// readAnyOf creates a new any reader
func readAnyOf(txn *Txn, columnName string) rdAny {
return rdAny(readerFor[Column](txn, columnName))
}
// Any returns a column accessor
func (txn *Txn) Any(columnName string) rwAny {
return rwAny{
rdAny: readAnyOf(txn, columnName),
writer: txn.bufferFor(columnName),
}
}
// --------------------------- segment list ----------------------------
// Chunks represents a chunked array storage
type chunks[T any] []struct {
fill bitmap.Bitmap // The fill-list
data []T // The actual values
}
// chunkAt loads the fill and data list at a particular chunk
func (s chunks[T]) chunkAt(chunk commit.Chunk) (bitmap.Bitmap, []T) {
fill := s[chunk].fill
data := s[chunk].data
return fill, data
}
// Grow grows a segment list
func (s *chunks[T]) Grow(idx uint32) {
chunk := int(commit.ChunkAt(idx))
for i := len(*s); i <= chunk; i++ {
*s = append(*s, struct {
fill bitmap.Bitmap
data []T
}{
fill: make(bitmap.Bitmap, chunkSize/64),
data: make([]T, chunkSize),
})
}
}
// Index returns the fill list for the segment
func (s chunks[T]) Index(chunk commit.Chunk) (fill bitmap.Bitmap) {
if int(chunk) < len(s) {
fill = s[chunk].fill
}
return
}