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|
package flatbuffers
// Builder is a state machine for creating FlatBuffer objects.
// Use a Builder to construct object(s) starting from leaf nodes.
//
// A Builder constructs byte buffers in a last-first manner for simplicity and
// performance.
type Builder struct {
// `Bytes` gives raw access to the buffer. Most users will want to use
// FinishedBytes() instead.
Bytes []byte
minalign int
vtable []UOffsetT
objectEnd UOffsetT
vtables []UOffsetT
head UOffsetT
nested bool
finished bool
sharedStrings map[string]UOffsetT
}
const fileIdentifierLength = 4
const sizePrefixLength = 4
// NewBuilder initializes a Builder of size `initial_size`.
// The internal buffer is grown as needed.
func NewBuilder(initialSize int) *Builder {
if initialSize <= 0 {
initialSize = 0
}
b := &Builder{}
b.Bytes = make([]byte, initialSize)
b.head = UOffsetT(initialSize)
b.minalign = 1
b.vtables = make([]UOffsetT, 0, 16) // sensible default capacity
return b
}
// Reset truncates the underlying Builder buffer, facilitating alloc-free
// reuse of a Builder. It also resets bookkeeping data.
func (b *Builder) Reset() {
if b.Bytes != nil {
b.Bytes = b.Bytes[:cap(b.Bytes)]
}
if b.vtables != nil {
b.vtables = b.vtables[:0]
}
if b.vtable != nil {
b.vtable = b.vtable[:0]
}
if b.sharedStrings != nil {
for key := range b.sharedStrings {
delete(b.sharedStrings, key)
}
}
b.head = UOffsetT(len(b.Bytes))
b.minalign = 1
b.nested = false
b.finished = false
}
// FinishedBytes returns a pointer to the written data in the byte buffer.
// Panics if the builder is not in a finished state (which is caused by calling
// `Finish()`).
func (b *Builder) FinishedBytes() []byte {
b.assertFinished()
return b.Bytes[b.Head():]
}
// StartObject initializes bookkeeping for writing a new object.
func (b *Builder) StartObject(numfields int) {
b.assertNotNested()
b.nested = true
// use 32-bit offsets so that arithmetic doesn't overflow.
if cap(b.vtable) < numfields || b.vtable == nil {
b.vtable = make([]UOffsetT, numfields)
} else {
b.vtable = b.vtable[:numfields]
for i := 0; i < len(b.vtable); i++ {
b.vtable[i] = 0
}
}
b.objectEnd = b.Offset()
}
// WriteVtable serializes the vtable for the current object, if applicable.
//
// Before writing out the vtable, this checks pre-existing vtables for equality
// to this one. If an equal vtable is found, point the object to the existing
// vtable and return.
//
// Because vtable values are sensitive to alignment of object data, not all
// logically-equal vtables will be deduplicated.
//
// A vtable has the following format:
// <VOffsetT: size of the vtable in bytes, including this value>
// <VOffsetT: size of the object in bytes, including the vtable offset>
// <VOffsetT: offset for a field> * N, where N is the number of fields in
// the schema for this type. Includes deprecated fields.
// Thus, a vtable is made of 2 + N elements, each SizeVOffsetT bytes wide.
//
// An object has the following format:
// <SOffsetT: offset to this object's vtable (may be negative)>
// <byte: data>+
func (b *Builder) WriteVtable() (n UOffsetT) {
// Prepend a zero scalar to the object. Later in this function we'll
// write an offset here that points to the object's vtable:
b.PrependSOffsetT(0)
objectOffset := b.Offset()
existingVtable := UOffsetT(0)
// Trim vtable of trailing zeroes.
i := len(b.vtable) - 1
for ; i >= 0 && b.vtable[i] == 0; i-- {
}
b.vtable = b.vtable[:i+1]
// Search backwards through existing vtables, because similar vtables
// are likely to have been recently appended. See
// BenchmarkVtableDeduplication for a case in which this heuristic
// saves about 30% of the time used in writing objects with duplicate
// tables.
for i := len(b.vtables) - 1; i >= 0; i-- {
// Find the other vtable, which is associated with `i`:
vt2Offset := b.vtables[i]
vt2Start := len(b.Bytes) - int(vt2Offset)
vt2Len := GetVOffsetT(b.Bytes[vt2Start:])
metadata := VtableMetadataFields * SizeVOffsetT
vt2End := vt2Start + int(vt2Len)
vt2 := b.Bytes[vt2Start+metadata : vt2End]
// Compare the other vtable to the one under consideration.
// If they are equal, store the offset and break:
if vtableEqual(b.vtable, objectOffset, vt2) {
existingVtable = vt2Offset
break
}
}
if existingVtable == 0 {
// Did not find a vtable, so write this one to the buffer.
// Write out the current vtable in reverse , because
// serialization occurs in last-first order:
for i := len(b.vtable) - 1; i >= 0; i-- {
var off UOffsetT
if b.vtable[i] != 0 {
// Forward reference to field;
// use 32bit number to assert no overflow:
off = objectOffset - b.vtable[i]
}
b.PrependVOffsetT(VOffsetT(off))
}
// The two metadata fields are written last.
// First, store the object bytesize:
objectSize := objectOffset - b.objectEnd
b.PrependVOffsetT(VOffsetT(objectSize))
// Second, store the vtable bytesize:
vBytes := (len(b.vtable) + VtableMetadataFields) * SizeVOffsetT
b.PrependVOffsetT(VOffsetT(vBytes))
// Next, write the offset to the new vtable in the
// already-allocated SOffsetT at the beginning of this object:
objectStart := SOffsetT(len(b.Bytes)) - SOffsetT(objectOffset)
WriteSOffsetT(b.Bytes[objectStart:],
SOffsetT(b.Offset())-SOffsetT(objectOffset))
// Finally, store this vtable in memory for future
// deduplication:
b.vtables = append(b.vtables, b.Offset())
} else {
// Found a duplicate vtable.
objectStart := SOffsetT(len(b.Bytes)) - SOffsetT(objectOffset)
b.head = UOffsetT(objectStart)
// Write the offset to the found vtable in the
// already-allocated SOffsetT at the beginning of this object:
WriteSOffsetT(b.Bytes[b.head:],
SOffsetT(existingVtable)-SOffsetT(objectOffset))
}
b.vtable = b.vtable[:0]
return objectOffset
}
// EndObject writes data necessary to finish object construction.
func (b *Builder) EndObject() UOffsetT {
b.assertNested()
n := b.WriteVtable()
b.nested = false
return n
}
// Doubles the size of the byteslice, and copies the old data towards the
// end of the new byteslice (since we build the buffer backwards).
func (b *Builder) growByteBuffer() {
if (int64(len(b.Bytes)) & int64(0xC0000000)) != 0 {
panic("cannot grow buffer beyond 2 gigabytes")
}
newLen := len(b.Bytes) * 2
if newLen == 0 {
newLen = 1
}
if cap(b.Bytes) >= newLen {
b.Bytes = b.Bytes[:newLen]
} else {
extension := make([]byte, newLen-len(b.Bytes))
b.Bytes = append(b.Bytes, extension...)
}
middle := newLen / 2
copy(b.Bytes[middle:], b.Bytes[:middle])
}
// Head gives the start of useful data in the underlying byte buffer.
// Note: unlike other functions, this value is interpreted as from the left.
func (b *Builder) Head() UOffsetT {
return b.head
}
// Offset relative to the end of the buffer.
func (b *Builder) Offset() UOffsetT {
return UOffsetT(len(b.Bytes)) - b.head
}
// Pad places zeros at the current offset.
func (b *Builder) Pad(n int) {
for i := 0; i < n; i++ {
b.PlaceByte(0)
}
}
// Prep prepares to write an element of `size` after `additional_bytes`
// have been written, e.g. if you write a string, you need to align such
// the int length field is aligned to SizeInt32, and the string data follows it
// directly.
// If all you need to do is align, `additionalBytes` will be 0.
func (b *Builder) Prep(size, additionalBytes int) {
// Track the biggest thing we've ever aligned to.
if size > b.minalign {
b.minalign = size
}
// Find the amount of alignment needed such that `size` is properly
// aligned after `additionalBytes`:
alignSize := (^(len(b.Bytes) - int(b.Head()) + additionalBytes)) + 1
alignSize &= (size - 1)
// Reallocate the buffer if needed:
for int(b.head) <= alignSize+size+additionalBytes {
oldBufSize := len(b.Bytes)
b.growByteBuffer()
b.head += UOffsetT(len(b.Bytes) - oldBufSize)
}
b.Pad(alignSize)
}
// PrependSOffsetT prepends an SOffsetT, relative to where it will be written.
func (b *Builder) PrependSOffsetT(off SOffsetT) {
b.Prep(SizeSOffsetT, 0) // Ensure alignment is already done.
if !(UOffsetT(off) <= b.Offset()) {
panic("unreachable: off <= b.Offset()")
}
off2 := SOffsetT(b.Offset()) - off + SOffsetT(SizeSOffsetT)
b.PlaceSOffsetT(off2)
}
// PrependUOffsetT prepends an UOffsetT, relative to where it will be written.
func (b *Builder) PrependUOffsetT(off UOffsetT) {
b.Prep(SizeUOffsetT, 0) // Ensure alignment is already done.
if !(off <= b.Offset()) {
panic("unreachable: off <= b.Offset()")
}
off2 := b.Offset() - off + UOffsetT(SizeUOffsetT)
b.PlaceUOffsetT(off2)
}
// StartVector initializes bookkeeping for writing a new vector.
//
// A vector has the following format:
// <UOffsetT: number of elements in this vector>
// <T: data>+, where T is the type of elements of this vector.
func (b *Builder) StartVector(elemSize, numElems, alignment int) UOffsetT {
b.assertNotNested()
b.nested = true
b.Prep(SizeUint32, elemSize*numElems)
b.Prep(alignment, elemSize*numElems) // Just in case alignment > int.
return b.Offset()
}
// EndVector writes data necessary to finish vector construction.
func (b *Builder) EndVector(vectorNumElems int) UOffsetT {
b.assertNested()
// we already made space for this, so write without PrependUint32
b.PlaceUOffsetT(UOffsetT(vectorNumElems))
b.nested = false
return b.Offset()
}
// CreateSharedString Checks if the string is already written
// to the buffer before calling CreateString
func (b *Builder) CreateSharedString(s string) UOffsetT {
if b.sharedStrings == nil {
b.sharedStrings = make(map[string]UOffsetT)
}
if v, ok := b.sharedStrings[s]; ok {
return v
}
off := b.CreateString(s)
b.sharedStrings[s] = off
return off
}
// CreateString writes a null-terminated string as a vector.
func (b *Builder) CreateString(s string) UOffsetT {
b.assertNotNested()
b.nested = true
b.Prep(int(SizeUOffsetT), (len(s)+1)*SizeByte)
b.PlaceByte(0)
l := UOffsetT(len(s))
b.head -= l
copy(b.Bytes[b.head:b.head+l], s)
return b.EndVector(len(s))
}
// CreateByteString writes a byte slice as a string (null-terminated).
func (b *Builder) CreateByteString(s []byte) UOffsetT {
b.assertNotNested()
b.nested = true
b.Prep(int(SizeUOffsetT), (len(s)+1)*SizeByte)
b.PlaceByte(0)
l := UOffsetT(len(s))
b.head -= l
copy(b.Bytes[b.head:b.head+l], s)
return b.EndVector(len(s))
}
// CreateByteVector writes a ubyte vector
func (b *Builder) CreateByteVector(v []byte) UOffsetT {
b.assertNotNested()
b.nested = true
b.Prep(int(SizeUOffsetT), len(v)*SizeByte)
l := UOffsetT(len(v))
b.head -= l
copy(b.Bytes[b.head:b.head+l], v)
return b.EndVector(len(v))
}
func (b *Builder) assertNested() {
// If you get this assert, you're in an object while trying to write
// data that belongs outside of an object.
// To fix this, write non-inline data (like vectors) before creating
// objects.
if !b.nested {
panic("Incorrect creation order: must be inside object.")
}
}
func (b *Builder) assertNotNested() {
// If you hit this, you're trying to construct a Table/Vector/String
// during the construction of its parent table (between the MyTableBuilder
// and builder.Finish()).
// Move the creation of these sub-objects to above the MyTableBuilder to
// not get this assert.
// Ignoring this assert may appear to work in simple cases, but the reason
// it is here is that storing objects in-line may cause vtable offsets
// to not fit anymore. It also leads to vtable duplication.
if b.nested {
panic("Incorrect creation order: object must not be nested.")
}
}
func (b *Builder) assertFinished() {
// If you get this assert, you're attempting to get access a buffer
// which hasn't been finished yet. Be sure to call builder.Finish()
// with your root table.
// If you really need to access an unfinished buffer, use the Bytes
// buffer directly.
if !b.finished {
panic("Incorrect use of FinishedBytes(): must call 'Finish' first.")
}
}
// PrependBoolSlot prepends a bool onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependBoolSlot(o int, x, d bool) {
val := byte(0)
if x {
val = 1
}
def := byte(0)
if d {
def = 1
}
b.PrependByteSlot(o, val, def)
}
// PrependByteSlot prepends a byte onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependByteSlot(o int, x, d byte) {
if x != d {
b.PrependByte(x)
b.Slot(o)
}
}
// PrependUint8Slot prepends a uint8 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependUint8Slot(o int, x, d uint8) {
if x != d {
b.PrependUint8(x)
b.Slot(o)
}
}
// PrependUint16Slot prepends a uint16 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependUint16Slot(o int, x, d uint16) {
if x != d {
b.PrependUint16(x)
b.Slot(o)
}
}
// PrependUint32Slot prepends a uint32 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependUint32Slot(o int, x, d uint32) {
if x != d {
b.PrependUint32(x)
b.Slot(o)
}
}
// PrependUint64Slot prepends a uint64 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependUint64Slot(o int, x, d uint64) {
if x != d {
b.PrependUint64(x)
b.Slot(o)
}
}
// PrependInt8Slot prepends a int8 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependInt8Slot(o int, x, d int8) {
if x != d {
b.PrependInt8(x)
b.Slot(o)
}
}
// PrependInt16Slot prepends a int16 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependInt16Slot(o int, x, d int16) {
if x != d {
b.PrependInt16(x)
b.Slot(o)
}
}
// PrependInt32Slot prepends a int32 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependInt32Slot(o int, x, d int32) {
if x != d {
b.PrependInt32(x)
b.Slot(o)
}
}
// PrependInt64Slot prepends a int64 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependInt64Slot(o int, x, d int64) {
if x != d {
b.PrependInt64(x)
b.Slot(o)
}
}
// PrependFloat32Slot prepends a float32 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependFloat32Slot(o int, x, d float32) {
if x != d {
b.PrependFloat32(x)
b.Slot(o)
}
}
// PrependFloat64Slot prepends a float64 onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependFloat64Slot(o int, x, d float64) {
if x != d {
b.PrependFloat64(x)
b.Slot(o)
}
}
// PrependUOffsetTSlot prepends an UOffsetT onto the object at vtable slot `o`.
// If value `x` equals default `d`, then the slot will be set to zero and no
// other data will be written.
func (b *Builder) PrependUOffsetTSlot(o int, x, d UOffsetT) {
if x != d {
b.PrependUOffsetT(x)
b.Slot(o)
}
}
// PrependStructSlot prepends a struct onto the object at vtable slot `o`.
// Structs are stored inline, so nothing additional is being added.
// In generated code, `d` is always 0.
func (b *Builder) PrependStructSlot(voffset int, x, d UOffsetT) {
if x != d {
b.assertNested()
if x != b.Offset() {
panic("inline data write outside of object")
}
b.Slot(voffset)
}
}
// Slot sets the vtable key `voffset` to the current location in the buffer.
func (b *Builder) Slot(slotnum int) {
b.vtable[slotnum] = UOffsetT(b.Offset())
}
// FinishWithFileIdentifier finalizes a buffer, pointing to the given `rootTable`.
// as well as applys a file identifier
func (b *Builder) FinishWithFileIdentifier(rootTable UOffsetT, fid []byte) {
if fid == nil || len(fid) != fileIdentifierLength {
panic("incorrect file identifier length")
}
// In order to add a file identifier to the flatbuffer message, we need
// to prepare an alignment and file identifier length
b.Prep(b.minalign, SizeInt32+fileIdentifierLength)
for i := fileIdentifierLength - 1; i >= 0; i-- {
// place the file identifier
b.PlaceByte(fid[i])
}
// finish
b.Finish(rootTable)
}
// FinishSizePrefixed finalizes a buffer, pointing to the given `rootTable`.
// The buffer is prefixed with the size of the buffer, excluding the size
// of the prefix itself.
func (b *Builder) FinishSizePrefixed(rootTable UOffsetT) {
b.finish(rootTable, true)
}
// FinishSizePrefixedWithFileIdentifier finalizes a buffer, pointing to the given `rootTable`
// and applies a file identifier. The buffer is prefixed with the size of the buffer,
// excluding the size of the prefix itself.
func (b *Builder) FinishSizePrefixedWithFileIdentifier(rootTable UOffsetT, fid []byte) {
if fid == nil || len(fid) != fileIdentifierLength {
panic("incorrect file identifier length")
}
// In order to add a file identifier and size prefix to the flatbuffer message,
// we need to prepare an alignment, a size prefix length, and file identifier length
b.Prep(b.minalign, SizeInt32+fileIdentifierLength+sizePrefixLength)
for i := fileIdentifierLength - 1; i >= 0; i-- {
// place the file identifier
b.PlaceByte(fid[i])
}
// finish
b.finish(rootTable, true)
}
// Finish finalizes a buffer, pointing to the given `rootTable`.
func (b *Builder) Finish(rootTable UOffsetT) {
b.finish(rootTable, false)
}
// finish finalizes a buffer, pointing to the given `rootTable`
// with an optional size prefix.
func (b *Builder) finish(rootTable UOffsetT, sizePrefix bool) {
b.assertNotNested()
if sizePrefix {
b.Prep(b.minalign, SizeUOffsetT+sizePrefixLength)
} else {
b.Prep(b.minalign, SizeUOffsetT)
}
b.PrependUOffsetT(rootTable)
if sizePrefix {
b.PlaceUint32(uint32(b.Offset()))
}
b.finished = true
}
// vtableEqual compares an unwritten vtable to a written vtable.
func vtableEqual(a []UOffsetT, objectStart UOffsetT, b []byte) bool {
if len(a)*SizeVOffsetT != len(b) {
return false
}
for i := 0; i < len(a); i++ {
x := GetVOffsetT(b[i*SizeVOffsetT : (i+1)*SizeVOffsetT])
// Skip vtable entries that indicate a default value.
if x == 0 && a[i] == 0 {
continue
}
y := SOffsetT(objectStart) - SOffsetT(a[i])
if SOffsetT(x) != y {
return false
}
}
return true
}
// PrependBool prepends a bool to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependBool(x bool) {
b.Prep(SizeBool, 0)
b.PlaceBool(x)
}
// PrependUint8 prepends a uint8 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependUint8(x uint8) {
b.Prep(SizeUint8, 0)
b.PlaceUint8(x)
}
// PrependUint16 prepends a uint16 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependUint16(x uint16) {
b.Prep(SizeUint16, 0)
b.PlaceUint16(x)
}
// PrependUint32 prepends a uint32 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependUint32(x uint32) {
b.Prep(SizeUint32, 0)
b.PlaceUint32(x)
}
// PrependUint64 prepends a uint64 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependUint64(x uint64) {
b.Prep(SizeUint64, 0)
b.PlaceUint64(x)
}
// PrependInt8 prepends a int8 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependInt8(x int8) {
b.Prep(SizeInt8, 0)
b.PlaceInt8(x)
}
// PrependInt16 prepends a int16 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependInt16(x int16) {
b.Prep(SizeInt16, 0)
b.PlaceInt16(x)
}
// PrependInt32 prepends a int32 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependInt32(x int32) {
b.Prep(SizeInt32, 0)
b.PlaceInt32(x)
}
// PrependInt64 prepends a int64 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependInt64(x int64) {
b.Prep(SizeInt64, 0)
b.PlaceInt64(x)
}
// PrependFloat32 prepends a float32 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependFloat32(x float32) {
b.Prep(SizeFloat32, 0)
b.PlaceFloat32(x)
}
// PrependFloat64 prepends a float64 to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependFloat64(x float64) {
b.Prep(SizeFloat64, 0)
b.PlaceFloat64(x)
}
// PrependByte prepends a byte to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependByte(x byte) {
b.Prep(SizeByte, 0)
b.PlaceByte(x)
}
// PrependVOffsetT prepends a VOffsetT to the Builder buffer.
// Aligns and checks for space.
func (b *Builder) PrependVOffsetT(x VOffsetT) {
b.Prep(SizeVOffsetT, 0)
b.PlaceVOffsetT(x)
}
// PlaceBool prepends a bool to the Builder, without checking for space.
func (b *Builder) PlaceBool(x bool) {
b.head -= UOffsetT(SizeBool)
WriteBool(b.Bytes[b.head:], x)
}
// PlaceUint8 prepends a uint8 to the Builder, without checking for space.
func (b *Builder) PlaceUint8(x uint8) {
b.head -= UOffsetT(SizeUint8)
WriteUint8(b.Bytes[b.head:], x)
}
// PlaceUint16 prepends a uint16 to the Builder, without checking for space.
func (b *Builder) PlaceUint16(x uint16) {
b.head -= UOffsetT(SizeUint16)
WriteUint16(b.Bytes[b.head:], x)
}
// PlaceUint32 prepends a uint32 to the Builder, without checking for space.
func (b *Builder) PlaceUint32(x uint32) {
b.head -= UOffsetT(SizeUint32)
WriteUint32(b.Bytes[b.head:], x)
}
// PlaceUint64 prepends a uint64 to the Builder, without checking for space.
func (b *Builder) PlaceUint64(x uint64) {
b.head -= UOffsetT(SizeUint64)
WriteUint64(b.Bytes[b.head:], x)
}
// PlaceInt8 prepends a int8 to the Builder, without checking for space.
func (b *Builder) PlaceInt8(x int8) {
b.head -= UOffsetT(SizeInt8)
WriteInt8(b.Bytes[b.head:], x)
}
// PlaceInt16 prepends a int16 to the Builder, without checking for space.
func (b *Builder) PlaceInt16(x int16) {
b.head -= UOffsetT(SizeInt16)
WriteInt16(b.Bytes[b.head:], x)
}
// PlaceInt32 prepends a int32 to the Builder, without checking for space.
func (b *Builder) PlaceInt32(x int32) {
b.head -= UOffsetT(SizeInt32)
WriteInt32(b.Bytes[b.head:], x)
}
// PlaceInt64 prepends a int64 to the Builder, without checking for space.
func (b *Builder) PlaceInt64(x int64) {
b.head -= UOffsetT(SizeInt64)
WriteInt64(b.Bytes[b.head:], x)
}
// PlaceFloat32 prepends a float32 to the Builder, without checking for space.
func (b *Builder) PlaceFloat32(x float32) {
b.head -= UOffsetT(SizeFloat32)
WriteFloat32(b.Bytes[b.head:], x)
}
// PlaceFloat64 prepends a float64 to the Builder, without checking for space.
func (b *Builder) PlaceFloat64(x float64) {
b.head -= UOffsetT(SizeFloat64)
WriteFloat64(b.Bytes[b.head:], x)
}
// PlaceByte prepends a byte to the Builder, without checking for space.
func (b *Builder) PlaceByte(x byte) {
b.head -= UOffsetT(SizeByte)
WriteByte(b.Bytes[b.head:], x)
}
// PlaceVOffsetT prepends a VOffsetT to the Builder, without checking for space.
func (b *Builder) PlaceVOffsetT(x VOffsetT) {
b.head -= UOffsetT(SizeVOffsetT)
WriteVOffsetT(b.Bytes[b.head:], x)
}
// PlaceSOffsetT prepends a SOffsetT to the Builder, without checking for space.
func (b *Builder) PlaceSOffsetT(x SOffsetT) {
b.head -= UOffsetT(SizeSOffsetT)
WriteSOffsetT(b.Bytes[b.head:], x)
}
// PlaceUOffsetT prepends a UOffsetT to the Builder, without checking for space.
func (b *Builder) PlaceUOffsetT(x UOffsetT) {
b.head -= UOffsetT(SizeUOffsetT)
WriteUOffsetT(b.Bytes[b.head:], x)
}
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