412 lines
11 KiB
Go
412 lines
11 KiB
Go
package main
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import (
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"fmt"
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"log"
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)
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// xgbResourceIdName is the name of the type used for all resource identifiers.
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// As of right now, it needs to be declared somewhere manually.
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var xgbGenResourceIdName = "Id"
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// BaseTypeMap is a map from X base types to Go types.
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// X base types should correspond to the smallest set of X types
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// that can be used to rewrite ALL X types in terms of Go types.
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// That is, if you remove any of the following types, at least one
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// XML protocol description will produce an invalid Go program.
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// The types on the left *never* show themselves in the source.
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var BaseTypeMap = map[string]string{
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"CARD8": "byte",
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"CARD16": "uint16",
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"CARD32": "uint32",
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"INT8": "int8",
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"INT16": "int16",
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"INT32": "int32",
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"BYTE": "byte",
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"BOOL": "bool",
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"float": "float64",
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"double": "float64",
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"char": "byte",
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"void": "byte",
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"Id": "Id",
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}
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// BaseTypeSizes should have precisely the same keys as in BaseTypeMap,
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// and the values should correspond to the size of the type in bytes.
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var BaseTypeSizes = map[string]uint{
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"CARD8": 1,
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"CARD16": 2,
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"CARD32": 4,
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"INT8": 1,
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"INT16": 2,
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"INT32": 4,
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"BYTE": 1,
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"BOOL": 1,
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"float": 4,
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"double": 8,
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"char": 1,
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"void": 1,
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"Id": 4,
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}
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// TypeMap is a map from types in the XML to type names that is used
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// in the functions that follow. Basically, every occurrence of the key
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// type is replaced with the value type.
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var TypeMap = map[string]string{
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"VISUALTYPE": "VisualInfo",
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"DEPTH": "DepthInfo",
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"SCREEN": "ScreenInfo",
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"Setup": "SetupInfo",
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}
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// NameMap is the same as TypeMap, but for names.
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var NameMap = map[string]string{ }
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// Reading, writing and defining...
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// Base types
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func (b *Base) Define(c *Context) {
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c.Putln("// Skipping definition for base type '%s'", SrcName(b.XmlName()))
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c.Putln("")
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}
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// Enum types
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func (enum *Enum) Define(c *Context) {
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c.Putln("const (")
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for _, item := range enum.Items {
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c.Putln("%s%s = %d", enum.SrcName(), item.srcName, item.Expr.Eval())
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}
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c.Putln(")")
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c.Putln("")
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}
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// Resource types
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func (res *Resource) Define(c *Context) {
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c.Putln("// Skipping resource definition of '%s'", SrcName(res.XmlName()))
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c.Putln("")
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}
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// TypeDef types
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func (td *TypeDef) Define(c *Context) {
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c.Putln("type %s %s", td.srcName, td.Old.SrcName())
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c.Putln("")
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}
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// Struct types
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func (s *Struct) Define(c *Context) {
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c.Putln("// '%s' struct definition", s.SrcName())
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c.Putln("// Size: %s", s.Size())
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c.Putln("type %s struct {", s.SrcName())
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for _, field := range s.Fields {
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field.Define(c)
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}
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c.Putln("}")
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c.Putln("")
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// Write function that reads bytes and produces this struct.
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s.Read(c)
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// Write function that reads a list of this structs.
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s.ReadList(c)
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// Write function that writes bytes given this struct.
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s.Write(c)
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// Write function that writes a list of this struct.
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s.WriteList(c)
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}
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// Read for a struct creates a function 'NewStructName' that takes a byte
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// slice and produces TWO values: an instance of 'StructName' and the number
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// of bytes read from the byte slice.
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// 'NewStructName' should only be used to read raw reply data from the wire.
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func (s *Struct) Read(c *Context) {
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c.Putln("// Struct read %s", s.SrcName())
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c.Putln("func New%s(buf []byte) (%s, int) {", s.SrcName(), s.SrcName())
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c.Putln("v := %s{}", s.SrcName())
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c.Putln("b := 0")
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c.Putln("consumed := 0")
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c.Putln("consumed = 0 + consumed // no-op") // dirty hack for a no-op
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c.Putln("")
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for _, field := range s.Fields {
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field.Read(c)
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}
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c.Putln("return v, b")
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c.Putln("}")
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c.Putln("")
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}
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// ReadList for a struct creates a function 'ReadStructNameList' that takes
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// a byte slice and a length and produces TWO values: an slice of StructName
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// and the number of bytes read from the byte slice.
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func (s *Struct) ReadList(c *Context) {
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c.Putln("// Struct list read %s", s.SrcName())
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c.Putln("func Read%sList(buf []byte, length int) ([]%s, int) {",
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s.SrcName(), s.SrcName())
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c.Putln("v := make([]%s, length)", s.SrcName())
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c.Putln("b := 0")
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c.Putln("consumed := 0")
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c.Putln("consumed = 0 + consumed // no-op") // dirty hack for a no-op
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c.Putln("for i := 0; i < length; i++ {")
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c.Putln("v[i], consumed = New%s(buf[b:])", s.SrcName())
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c.Putln("b += consumed")
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c.Putln("}")
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c.Putln("return v, pad(b)")
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c.Putln("}")
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c.Putln("")
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}
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func (s *Struct) Write(c *Context) {
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c.Putln("// Struct write %s", s.SrcName())
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c.Putln("")
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}
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func (s *Struct) WriteList(c *Context) {
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c.Putln("// Write struct list %s", s.SrcName())
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c.Putln("")
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}
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// Union types
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func (u *Union) Define(c *Context) {
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c.Putln("// Union definition %s", u.SrcName())
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}
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func (u *Union) Read(c *Context, prefix string) {
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c.Putln("// Union read %s", u.SrcName())
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}
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func (u *Union) Write(c *Context, prefix string) {
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c.Putln("// Union write %s", u.SrcName())
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}
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// Event types
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func (e *Event) Define(c *Context) {
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c.Putln("// Event definition %s (%d)", e.SrcName(), e.Number)
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}
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func (e *Event) Read(c *Context, prefix string) {
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c.Putln("// Event read %s", e.SrcName())
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}
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func (e *Event) Write(c *Context, prefix string) {
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c.Putln("// Event write %s", e.SrcName())
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}
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// EventCopy types
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func (e *EventCopy) Define(c *Context) {
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c.Putln("// EventCopy definition %s (%d)", e.SrcName(), e.Number)
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c.Putln("")
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c.Putln("const %s = %d", e.SrcName(), e.Number)
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c.Putln("")
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c.Putln("type %s %s", e.EvType(), e.Old.(*Event).EvType())
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c.Putln("")
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c.Putln("func New%s(buf []byte) %s {", e.SrcName(), e.EvType())
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c.Putln("return (%s)(New%s(buf))", e.EvType(), e.Old.SrcName())
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c.Putln("}")
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c.Putln("")
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c.Putln("func (ev %s) ImplementsEvent() { }", e.EvType())
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c.Putln("")
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c.Putln("func (ev %s) Bytes() []byte {", e.EvType())
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c.Putln("return (%s)(ev).Bytes()", e.Old.(*Event).EvType())
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c.Putln("}")
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c.Putln("")
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c.Putln("func init() {")
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c.Putln("newEventFuncs[%d] = New%s", e.Number, e.SrcName())
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c.Putln("}")
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c.Putln("")
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}
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// Error types
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func (e *Error) Define(c *Context) {
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c.Putln("// Error definition %s (%d)", e.SrcName(), e.Number)
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c.Putln("")
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}
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func (e *Error) Read(c *Context, prefix string) {
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c.Putln("// Error read %s", e.SrcName())
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}
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func (e *Error) Write(c *Context, prefix string) {
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c.Putln("// Error write %s", e.SrcName())
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}
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// ErrorCopy types
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func (e *ErrorCopy) Define(c *Context) {
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c.Putln("// ErrorCopy definition %s (%d)", e.SrcName(), e.Number)
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c.Putln("")
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c.Putln("const %s = %d", e.ErrConst(), e.Number)
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c.Putln("")
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c.Putln("type %s %s", e.ErrType(), e.Old.(*Error).ErrType())
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c.Putln("")
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c.Putln("func New%s(buf []byte) %s {", e.SrcName(), e.ErrType())
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c.Putln("return (%s)(New%s(buf))", e.ErrType(), e.Old.SrcName())
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c.Putln("}")
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c.Putln("")
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c.Putln("func (err %s) ImplementsError() { }", e.ErrType())
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c.Putln("")
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c.Putln("func (err %s) Bytes() []byte {", e.ErrType())
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c.Putln("return (%s)(err).Bytes()", e.Old.(*Error).ErrType())
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c.Putln("}")
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c.Putln("")
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c.Putln("func init() {")
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c.Putln("newErrorFuncs[%d] = New%s", e.Number, e.SrcName())
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c.Putln("}")
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c.Putln("")
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}
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// Field definitions, reads and writes.
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// Pad fields
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func (f *PadField) Define(c *Context) {
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c.Putln("// padding: %d bytes", f.Bytes)
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}
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func (f *PadField) Read(c *Context) {
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c.Putln("b += %s // padding", f.Size())
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c.Putln("")
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}
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// Single fields
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func (f *SingleField) Define(c *Context) {
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c.Putln("%s %s", f.SrcName(), f.Type.SrcName())
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}
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func ReadSimpleSingleField(c *Context, name string, typ Type) {
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switch t := typ.(type) {
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case *Resource:
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c.Putln("%s = get32(buf[b:])", name)
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case *TypeDef:
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switch t.Size().Eval() {
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case 1:
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c.Putln("%s = %s(buf[b])", name, t.SrcName())
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case 2:
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c.Putln("%s = %s(get16(buf[b:]))", name, t.SrcName())
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case 4:
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c.Putln("%s = %s(get32(buf[b:]))", name, t.SrcName())
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case 8:
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c.Putln("%s = %s(get64(buf[b:]))", name, t.SrcName())
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}
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case *Base:
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var val string
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switch t.Size().Eval() {
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case 1:
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val = fmt.Sprintf("buf[b]")
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case 2:
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val = fmt.Sprintf("get16(buf[b:])")
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case 4:
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val = fmt.Sprintf("get32(buf[b:])")
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case 8:
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val = fmt.Sprintf("get64(buf[b:])")
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}
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// We need to convert base types if they aren't uintXX or byte
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ty := t.SrcName()
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if ty != "byte" && ty != "uint16" && ty != "uint32" && ty != "uint64" {
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val = fmt.Sprintf("%s(%s)", ty, val)
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}
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c.Putln("%s = %s", name, val)
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default:
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log.Fatalf("Cannot read field '%s' as a simple field with %T type.",
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name, typ)
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}
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c.Putln("b += %s", typ.Size())
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}
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func (f *SingleField) Read(c *Context) {
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switch t := f.Type.(type) {
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case *Resource:
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ReadSimpleSingleField(c, fmt.Sprintf("v.%s", f.SrcName()), t)
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case *TypeDef:
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ReadSimpleSingleField(c, fmt.Sprintf("v.%s", f.SrcName()), t)
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case *Base:
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ReadSimpleSingleField(c, fmt.Sprintf("v.%s", f.SrcName()), t)
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case *Struct:
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c.Putln("v.%s, consumed = New%s(buf[b:])", f.SrcName(), t.SrcName())
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c.Putln("b += consumed")
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c.Putln("")
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default:
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log.Fatalf("Cannot read field '%s' with %T type.", f.XmlName(), f.Type)
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}
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}
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// List fields
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func (f *ListField) Define(c *Context) {
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c.Putln("%s []%s // length: %s",
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f.SrcName(), f.Type.SrcName(), f.Size())
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}
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func (f *ListField) Read(c *Context) {
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switch t := f.Type.(type) {
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case *Resource:
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length := f.LengthExpr.Reduce("v.", "")
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c.Putln("v.%s = make([]Id, %s)", f.SrcName(), length)
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c.Putln("for i := 0; i < %s; i++ {", length)
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ReadSimpleSingleField(c, fmt.Sprintf("v.%s[i]", f.SrcName()), t)
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c.Putln("}")
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c.Putln("")
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case *Base:
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length := f.LengthExpr.Reduce("v.", "")
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c.Putln("v.%s = make([]%s, %s)", f.SrcName(), t.SrcName(), length)
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c.Putln("for i := 0; i < %s; i++ {", length)
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ReadSimpleSingleField(c, fmt.Sprintf("v.%s[i]", f.SrcName()), t)
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c.Putln("}")
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c.Putln("")
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case *Struct:
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c.Putln("v.%s, consumed = Read%sList(buf[b:], %s)",
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f.SrcName(), t.SrcName(), f.LengthExpr.Reduce("v.", ""))
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c.Putln("b += consumed")
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c.Putln("")
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default:
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log.Fatalf("Cannot read list field '%s' with %T type.",
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f.XmlName(), f.Type)
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}
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}
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// Local fields
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func (f *LocalField) Define(c *Context) {
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c.Putln("// local field: %s %s", f.SrcName(), f.Type.SrcName())
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}
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func (f *LocalField) Read(c *Context) {
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c.Putln("// reading local field: %s (%s) :: %s",
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f.SrcName(), f.Size(), f.Type.SrcName())
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}
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// Expr fields
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func (f *ExprField) Define(c *Context) {
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c.Putln("// expression field: %s %s (%s)",
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f.SrcName(), f.Type.SrcName(), f.Expr)
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}
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func (f *ExprField) Read(c *Context) {
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c.Putln("// reading expression field: %s (%s) (%s) :: %s",
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f.SrcName(), f.Size(), f.Expr, f.Type.SrcName())
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}
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// Value field
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func (f *ValueField) Define(c *Context) {
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c.Putln("// valueparam field: type: %s, mask name: %s, list name: %s",
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f.MaskType.SrcName(), f.MaskName, f.ListName)
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}
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func (f *ValueField) Read(c *Context) {
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c.Putln("// reading valueparam: type: %s, mask name: %s, list name: %s",
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f.MaskType.SrcName(), f.MaskName, f.ListName)
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}
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// Switch field
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func (f *SwitchField) Define(c *Context) {
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c.Putln("// switch field: %s (%s)", f.Name, f.Expr)
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}
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func (f *SwitchField) Read(c *Context) {
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c.Putln("// reading switch field: %s (%s)", f.Name, f.Expr)
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}
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