Files
gio/ui/ops.go
T
Elias Naur 7aa7bb3be4 ui: rename ops to have Op suffixed, not prefixed
Match Go's FooError name pattern.

While we're here, rename RedrawOp to InvalidateOp.

Signed-off-by: Elias Naur <mail@eliasnaur.com>
2019-06-21 17:01:45 +02:00

289 lines
5.7 KiB
Go

package ui
import (
"encoding/binary"
"gioui.org/ui/internal/ops"
)
// Ops holds a list of serialized Ops.
type Ops struct {
// Stack of block start indices.
stack []pc
ops opsData
inAux bool
auxOff int
auxLen int
}
type opsData struct {
version int
// Serialized ops.
data []byte
// Op references.
refs []interface{}
}
// OpsReader parses an ops list. Internal use only.
type OpsReader struct {
pc pc
stack []block
ops *opsData
}
// EncodedOp represents an encoded op returned by
// OpsReader. Internal use only.
type EncodedOp struct {
Key OpKey
Data []byte
Refs []interface{}
}
// OpKey is a unique key for a given op. Internal use only.
type OpKey struct {
ops *opsData
pc int
version int
}
type block struct {
ops *opsData
retPC pc
endPC pc
}
type pc struct {
data int
refs int
}
type PushOp struct{}
type PopOp struct{}
type BlockOp struct {
ops *opsData
version int
pc pc
}
type opBlockDef struct {
endpc pc
}
type opAux struct {
len int
}
func (p PushOp) Add(o *Ops) {
o.Write([]byte{byte(ops.TypePush)})
}
func (p PopOp) Add(o *Ops) {
o.Write([]byte{byte(ops.TypePop)})
}
// Begin a block of ops.
func (o *Ops) Begin() {
o.stack = append(o.stack, o.ops.pc())
// Make room for a block definition. Filled out in End.
o.Write(make([]byte, ops.TypeBlockDefLen))
}
func (op *opAux) decode(data []byte) {
if ops.OpType(data[0]) != ops.TypeAux {
panic("invalid op")
}
bo := binary.LittleEndian
*op = opAux{
len: int(bo.Uint32(data[1:])),
}
}
func (op *opBlockDef) decode(data []byte) {
if ops.OpType(data[0]) != ops.TypeBlockDef {
panic("invalid op")
}
bo := binary.LittleEndian
dataIdx := int(bo.Uint32(data[1:]))
refsIdx := int(bo.Uint32(data[5:]))
*op = opBlockDef{
endpc: pc{
data: dataIdx,
refs: refsIdx,
},
}
}
// End the most recent block and return
// an op for invoking the completed block.
func (o *Ops) End() BlockOp {
start := o.stack[len(o.stack)-1]
o.stack = o.stack[:len(o.stack)-1]
pc := o.ops.pc()
// Write the block header reserved in Begin.
data := o.ops.data[start.data : start.data+ops.TypeBlockDefLen]
data[0] = byte(ops.TypeBlockDef)
bo := binary.LittleEndian
bo.PutUint32(data[1:], uint32(pc.data))
bo.PutUint32(data[5:], uint32(pc.refs))
return BlockOp{ops: &o.ops, pc: start, version: o.ops.version}
}
// Reset the Ops, preparing it for re-use.
func (o *Ops) Reset() {
o.inAux = false
o.stack = o.stack[:0]
o.ops.reset()
}
// Internal use only.
func (o *Ops) Aux() []byte {
if !o.inAux {
return nil
}
return o.ops.data[o.auxOff+ops.TypeAuxLen : o.auxOff+ops.TypeAuxLen+o.auxLen]
}
func (d *opsData) reset() {
d.data = d.data[:0]
d.refs = d.refs[:0]
d.version++
}
func (d *opsData) write(op []byte, refs ...interface{}) {
d.data = append(d.data, op...)
d.refs = append(d.refs, refs...)
}
func (o *Ops) Write(op []byte, refs ...interface{}) {
t := ops.OpType(op[0])
if len(refs) != t.NumRefs() {
panic("invalid ref count")
}
switch t {
case ops.TypeAux:
// Write only the data.
op = op[1:]
if !o.inAux {
o.inAux = true
o.auxOff = o.ops.pc().data
o.auxLen = 0
header := make([]byte, ops.TypeAuxLen)
header[0] = byte(ops.TypeAux)
o.ops.write(header)
}
o.auxLen += len(op)
default:
if o.inAux {
o.inAux = false
bo := binary.LittleEndian
bo.PutUint32(o.ops.data[o.auxOff+1:], uint32(o.auxLen))
}
}
o.ops.write(op, refs...)
}
func (d *opsData) pc() pc {
return pc{data: len(d.data), refs: len(d.refs)}
}
func (b *BlockOp) decode(data []byte, refs []interface{}) {
if ops.OpType(data[0]) != ops.TypeBlock {
panic("invalid op")
}
bo := binary.LittleEndian
dataIdx := int(bo.Uint32(data[1:]))
refsIdx := int(bo.Uint32(data[5:]))
version := int(bo.Uint32(data[9:]))
*b = BlockOp{
ops: refs[0].(*opsData),
pc: pc{
data: dataIdx,
refs: refsIdx,
},
version: version,
}
}
func (b BlockOp) Add(o *Ops) {
data := make([]byte, ops.TypeBlockLen)
data[0] = byte(ops.TypeBlock)
bo := binary.LittleEndian
bo.PutUint32(data[1:], uint32(b.pc.data))
bo.PutUint32(data[5:], uint32(b.pc.refs))
bo.PutUint32(data[9:], uint32(b.version))
o.Write(data, b.ops)
}
// Reset start reading from the op list.
func (r *OpsReader) Reset(ops *Ops) {
r.ops = &ops.ops
r.stack = r.stack[:0]
r.pc = pc{}
}
func (r *OpsReader) Decode() (EncodedOp, bool) {
for {
if len(r.stack) > 0 {
b := r.stack[len(r.stack)-1]
if r.pc == b.endPC {
r.ops = b.ops
r.pc = b.retPC
r.stack = r.stack[:len(r.stack)-1]
continue
}
}
if r.pc.data == len(r.ops.data) {
return EncodedOp{}, false
}
key := OpKey{ops: r.ops, pc: r.pc.data, version: r.ops.version}
t := ops.OpType(r.ops.data[r.pc.data])
n := t.Size()
nrefs := t.NumRefs()
data := r.ops.data[r.pc.data : r.pc.data+n]
refs := r.ops.refs[r.pc.refs : r.pc.refs+nrefs]
switch t {
case ops.TypeAux:
var op opAux
op.decode(data)
n += op.len
data = r.ops.data[r.pc.data : r.pc.data+n]
case ops.TypeBlock:
var op BlockOp
op.decode(data, refs)
blockOps := op.ops
if ops.OpType(blockOps.data[op.pc.data]) != ops.TypeBlockDef {
panic("invalid block reference")
}
if op.version != op.ops.version {
panic("invalid BlockOp reference to reset Ops")
}
var opDef opBlockDef
opDef.decode(blockOps.data[op.pc.data : op.pc.data+ops.TypeBlockDef.Size()])
retPC := r.pc
retPC.data += n
retPC.refs += nrefs
r.stack = append(r.stack, block{
ops: r.ops,
retPC: retPC,
endPC: opDef.endpc,
})
r.ops = blockOps
r.pc = op.pc
r.pc.data += ops.TypeBlockDef.Size()
r.pc.refs += ops.TypeBlockDef.NumRefs()
continue
case ops.TypeBlockDef:
var op opBlockDef
op.decode(data)
r.pc = op.endpc
continue
}
r.pc.data += n
r.pc.refs += nrefs
return EncodedOp{Key: key, Data: data, Refs: refs}, true
}
}