tile38/internal/collection/item/packed.go

285 lines
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2019-02-17 23:10:02 +03:00
package item
import (
"fmt"
"unsafe"
"github.com/h2so5/half"
)
// kind bits bytes values min max
// --------------------------------------------------------------------
// 0 5 1 32 -16 15
// 1 13 2 16384 -4095 4095
// 2 21 3 2097152 -1048576 1048575
// 3 29 4 536870912 -268435456 268435455
// 4 16 3 -- standard 16-bit floating point --
// 5 32 5 -- standard 32-bit floating point --
// 6 64 9 -- standard 64-bit floating point --
const maxFieldBytes = 9
const (
maxInt5 = 15
maxInt13 = 4095
maxInt21 = 1048575
maxInt29 = 268435455
)
func appendPacked(dst []byte, f64 float64) []byte {
if f64 == 0 {
return append(dst, 0)
}
i64 := int64(f64)
if f64 == float64(i64) {
// whole number
var signed byte
if i64 < 0 {
i64 *= -1
signed = 16
}
if i64 <= maxInt5 {
return append(dst, 0<<5|signed|
byte(i64))
}
if i64 <= maxInt13 {
return append(dst, 1<<5|signed|
byte(i64>>8), byte(i64))
}
if i64 <= maxInt21 {
return append(dst, 2<<5|signed|
byte(i64>>16), byte(i64>>8), byte(i64))
}
if i64 <= maxInt29 {
return append(dst, 3<<5|signed|
byte(i64>>24), byte(i64>>16), byte(i64>>8), byte(i64))
}
// fallthrough
}
f32 := float32(f64)
if f64 == float64(f32) {
f16 := half.NewFloat16(f32)
if f32 == f16.Float32() {
dst = append(dst, 4<<5, 0, 0)
*(*half.Float16)(unsafe.Pointer(&dst[len(dst)-2])) = f16
return dst
}
dst = append(dst, 5<<5, 0, 0, 0, 0)
*(*float32)(unsafe.Pointer(&dst[len(dst)-4])) = f32
return dst
}
dst = append(dst, 6<<5, 0, 0, 0, 0, 0, 0, 0, 0)
*(*float64)(unsafe.Pointer(&dst[len(dst)-8])) = f64
return dst
}
func skipPacked(data []byte, count int) (out []byte, read int) {
var i int
for i < len(data) {
if read >= count {
return data[i:], read
}
kind := data[i] >> 5
if kind < 4 {
i += int(kind) + 1
} else if kind == 4 {
i += 3
} else if kind == 5 {
i += 5
} else {
i += 9
}
read++
}
return nil, read
}
func readPacked(data []byte) ([]byte, float64) {
if len(data) == 0 {
return nil, 0
}
if data[0] == 0 {
return data[1:], 0
}
kind := data[0] >> 5
switch kind {
case 0, 1, 2, 3:
// whole number
var value float64
if kind == 0 {
value = float64(
uint32(data[0] & 0xF),
)
} else if kind == 1 {
value = float64(
uint32(data[0]&0xF)<<8 | uint32(data[1]),
)
} else if kind == 2 {
value = float64(
uint32(data[0]&0xF)<<16 | uint32(data[1])<<8 |
uint32(data[2]),
)
} else {
value = float64(
uint32(data[0]&0xF)<<24 | uint32(data[1])<<16 |
uint32(data[2])<<8 | uint32(data[3]),
)
}
if data[0]&0x10 != 0 {
value *= -1
}
return data[kind+1:], value
case 4:
// 16-bit float
return data[3:],
float64((*half.Float16)(unsafe.Pointer(&data[1])).Float32())
case 5:
// 32-bit float
return data[5:],
float64(*(*float32)(unsafe.Pointer(&data[1])))
case 6:
// 64-bit float
return data[9:], *(*float64)(unsafe.Pointer(&data[1]))
}
panic("invalid data")
}
func (item *Item) packedGenerateFieldBytes(values []float64) []byte {
var dst []byte
for i := 0; i < len(values); i++ {
dst = appendPacked(dst, values[i])
}
return dst
}
func (item *Item) packedSetField(index int, value float64) (updated bool) {
if false {
func() {
data := item.fieldsBytes()
fmt.Printf("%v >> [%x]", value, data)
defer func() {
data := item.fieldsBytes()
fmt.Printf(" >> [%x]\n", data)
}()
}()
}
/////////////////////////////////////////////////////////////////
// original field bytes
headBytes := item.fieldsBytes()
// quickly skip over head fields.
// returns the start of the field at index, and the number of valid
// fields that were read.
fieldBytes, read := skipPacked(headBytes, index)
// number of empty/blank bytes that need to be added between the
// head bytes and the new field bytes.
var blankSpace int
// data a that follows the new field bytes
var tailBytes []byte
if len(fieldBytes) == 0 {
// field at index was not found.
if value == 0 {
// zero value is the default, so we can assume that the fields was
// not updated.
return false
}
// set the blank space
blankSpace = index - read
fieldBytes = nil
} else {
// field at index was found.
// truncate the head bytes to reflect only the bytes up to
// the current field.
headBytes = headBytes[:len(headBytes)-len(fieldBytes)]
// read the current value and get the tail data following the
// current field.
var cvalue float64
tailBytes, cvalue = readPacked(fieldBytes)
if cvalue == value {
// no change to value
return false
}
// truncate the field bytes to exactly match current field.
fieldBytes = fieldBytes[:len(fieldBytes)-len(tailBytes)]
}
// create the new field bytes
{
var buf [maxFieldBytes]byte
newFieldBytes := appendPacked(buf[:0], value)
if len(newFieldBytes) == len(fieldBytes) {
// no change in data size, update in place
copy(fieldBytes, newFieldBytes)
return true
}
// reassign the field bytes
fieldBytes = newFieldBytes
}
// hang on to the item id
id := item.ID()
// create a new byte slice
// head+blank+field+tail+id
nbytes := make([]byte,
len(headBytes)+blankSpace+len(fieldBytes)+len(tailBytes)+len(id))
// fill the data
copy(nbytes, headBytes)
copy(nbytes[len(headBytes)+blankSpace:], fieldBytes)
copy(nbytes[len(headBytes)+blankSpace+len(fieldBytes):], tailBytes)
copy(nbytes[len(headBytes)+blankSpace+len(fieldBytes)+len(tailBytes):], id)
// update the field size
item.setFieldsDataSize(len(nbytes) - len(id))
// update the data pointer
item.data = unsafe.Pointer(&nbytes[0])
return true
}
func (item *Item) packedForEachField(count int, iter func(value float64) bool) {
data := item.fieldsBytes()
if count < 0 {
// iterate over of the known the values
for len(data) > 0 {
var value float64
data, value = readPacked(data)
if !iter(value) {
return
}
}
} else {
for i := 0; i < count; i++ {
var value float64
data, value = readPacked(data)
if !iter(value) {
return
}
}
}
}
func (item *Item) packedGetField(index int) float64 {
var idx int
var fvalue float64
item.packedForEachField(-1, func(value float64) bool {
if idx == index {
fvalue = value
return false
}
idx++
return true
})
return fvalue
}