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cmd/compile: improving the documentation of various fields and functions

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This is only changes to comments, so should be fine to go into 1.17.

Change-Id: I01e28dc76b03fb3ca846d976f8ac84bc2acb2ea2
Reviewed-on: https://go-review.googlesource.com/c/go/+/318009
Run-TryBot: Dan Scales <danscales@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
Reviewed-by: Matthew Dempsky <mdempsky@google.com>
This commit is contained in:
Dan Scales 2021-04-26 14:32:23 -07:00
parent 3980c4db19
commit f24eac4771
7 changed files with 42 additions and 20 deletions
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8
src/cmd/compile/internal/inline/inl.go
View file

@ -53,8 +53,8 @@ const (
inlineBigFunctionMaxCost = 20 // Max cost of inlinee when inlining into a "big" function. inlineBigFunctionMaxCost = 20 // Max cost of inlinee when inlining into a "big" function.
) )
// InlinePackage finds functions that can be inlined and clones them before walk expands them.
func InlinePackage() { func InlinePackage() {
// Find functions that can be inlined and clone them before walk expands them.
ir.VisitFuncsBottomUp(typecheck.Target.Decls, func(list []*ir.Func, recursive bool) { ir.VisitFuncsBottomUp(typecheck.Target.Decls, func(list []*ir.Func, recursive bool) {
numfns := numNonClosures(list) numfns := numNonClosures(list)
for _, n := range list { for _, n := range list {
@ -74,8 +74,8 @@ func InlinePackage() {
} }
// CanInline determines whether fn is inlineable. // CanInline determines whether fn is inlineable.
// If so, CanInline saves fn->nbody in fn->inl and substitutes it with a copy. // If so, CanInline saves copies of fn.Body and fn.Dcl in fn.Inl.
// fn and ->nbody will already have been typechecked. // fn and fn.Body will already have been typechecked.
func CanInline(fn *ir.Func) { func CanInline(fn *ir.Func) {
if fn.Nname == nil { if fn.Nname == nil {
base.Fatalf("CanInline no nname %+v", fn) base.Fatalf("CanInline no nname %+v", fn)
@ -520,7 +520,7 @@ func inlcopy(n ir.Node) ir.Node {
return edit(n) return edit(n)
} }
// Inlcalls/nodelist/node walks fn's statements and expressions and substitutes any // InlineCalls/inlnode walks fn's statements and expressions and substitutes any
// calls made to inlineable functions. This is the external entry point. // calls made to inlineable functions. This is the external entry point.
func InlineCalls(fn *ir.Func) { func InlineCalls(fn *ir.Func) {
savefn := ir.CurFunc savefn := ir.CurFunc

5
src/cmd/compile/internal/ir/func.go
View file

@ -160,7 +160,10 @@ func (f *Func) LinksymABI(abi obj.ABI) *obj.LSym { return f.Nname.LinksymABI(abi
type Inline struct { type Inline struct {
Cost int32 // heuristic cost of inlining this function Cost int32 // heuristic cost of inlining this function
// Copies of Func.Dcl and Nbody for use during inlining. // Copies of Func.Dcl and Func.Body for use during inlining. Copies are
// needed because the function's dcl/body may be changed by later compiler
// transformations. These fields are also populated when a function from
// another package is imported.
Dcl []*Name Dcl []*Name
Body []Node Body []Node
} }

7
src/cmd/compile/internal/typecheck/func.go
View file

@ -105,8 +105,9 @@ func PartialCallType(n *ir.SelectorExpr) *types.Type {
// typechecking an inline body, as opposed to the body of a real function. // typechecking an inline body, as opposed to the body of a real function.
var inTypeCheckInl bool var inTypeCheckInl bool
// Lazy typechecking of imported bodies. For local functions, CanInline will set ->typecheck // ImportedBody returns immediately if the inlining information for fn is
// because they're a copy of an already checked body. // populated. Otherwise, fn must be an imported function. If so, ImportedBody
// loads in the dcls and body for fn, and typechecks as needed.
func ImportedBody(fn *ir.Func) { func ImportedBody(fn *ir.Func) {
if fn.Inl.Body != nil { if fn.Inl.Body != nil {
return return
@ -180,7 +181,7 @@ func fnpkg(fn *ir.Name) *types.Pkg {
return fn.Sym().Pkg return fn.Sym().Pkg
} }
// closurename generates a new unique name for a closure within // ClosureName generates a new unique name for a closure within
// outerfunc. // outerfunc.
func ClosureName(outerfunc *ir.Func) *types.Sym { func ClosureName(outerfunc *ir.Func) *types.Sym {
outer := "glob." outer := "glob."

5
src/cmd/compile/internal/typecheck/iimport.go
View file

@ -42,6 +42,9 @@ var (
inlineImporter = map[*types.Sym]iimporterAndOffset{} inlineImporter = map[*types.Sym]iimporterAndOffset{}
) )
// expandDecl returns immediately if n is already a Name node. Otherwise, n should
// be an Ident node, and expandDecl reads in the definition of the specified
// identifier from the appropriate package.
func expandDecl(n ir.Node) ir.Node { func expandDecl(n ir.Node) ir.Node {
if n, ok := n.(*ir.Name); ok { if n, ok := n.(*ir.Name); ok {
return n return n
@ -61,6 +64,8 @@ func expandDecl(n ir.Node) ir.Node {
return r.doDecl(n.Sym()) return r.doDecl(n.Sym())
} }
// ImportBody reads in the dcls and body of an imported function (which should not
// yet have been read in).
func ImportBody(fn *ir.Func) { func ImportBody(fn *ir.Func) {
if fn.Inl.Body != nil { if fn.Inl.Body != nil {
base.Fatalf("%v already has inline body", fn) base.Fatalf("%v already has inline body", fn)

2
src/cmd/compile/internal/typecheck/typecheck.go
View file

@ -66,6 +66,8 @@ func FuncBody(n *ir.Func) {
var importlist []*ir.Func var importlist []*ir.Func
// AllImportedBodies reads in the bodies of all imported functions and typechecks
// them, if needed.
func AllImportedBodies() { func AllImportedBodies() {
for _, n := range importlist { for _, n := range importlist {
if n.Inl != nil { if n.Inl != nil {

8
src/cmd/compile/internal/types/sym.go
View file

@ -32,8 +32,12 @@ type Sym struct {
Pkg *Pkg Pkg *Pkg
Name string // object name Name string // object name
// saved and restored by Pushdcl/Popdcl // Def, Block, and Lastlineno are saved and restored by Pushdcl/Popdcl.
Def Object // definition: ONAME OTYPE OPACK or OLITERAL
// The unique ONAME, OTYPE, OPACK, or OLITERAL node that this symbol is
// bound to within the current scope. (Most parts of the compiler should
// prefer passing the Node directly, rather than relying on this field.)
Def Object
Block int32 // blocknumber to catch redeclaration Block int32 // blocknumber to catch redeclaration
Lastlineno src.XPos // last declaration for diagnostic Lastlineno src.XPos // last declaration for diagnostic

23
src/cmd/compile/internal/types/type.go
View file

@ -11,9 +11,9 @@ import (
"sync" "sync"
) )
// IRNode represents an ir.Node, but without needing to import cmd/compile/internal/ir, // Object represents an ir.Node, but without needing to import cmd/compile/internal/ir,
// which would cause an import cycle. The uses in other packages must type assert // which would cause an import cycle. The uses in other packages must type assert
// values of type IRNode to ir.Node or a more specific type. // values of type Object to ir.Node or a more specific type.
type Object interface { type Object interface {
Pos() src.XPos Pos() src.XPos
Sym() *Sym Sym() *Sym
@ -157,12 +157,15 @@ type Type struct {
// Width is the width of this Type in bytes. // Width is the width of this Type in bytes.
Width int64 // valid if Align > 0 Width int64 // valid if Align > 0
// list of base methods (excluding embedding)
methods Fields methods Fields
// list of all methods (including embedding)
allMethods Fields allMethods Fields
// canonical OTYPE node for a named type (should be an ir.Name node with same sym) // canonical OTYPE node for a named type (should be an ir.Name node with same sym)
nod Object nod Object
underlying *Type // original type (type literal or predefined type) // the underlying type (type literal or predeclared type) for a defined type
underlying *Type
// Cache of composite types, with this type being the element type. // Cache of composite types, with this type being the element type.
cache struct { cache struct {
@ -423,8 +426,11 @@ type Slice struct {
Elem *Type // element type Elem *Type // element type
} }
// A Field represents a field in a struct or a method in an interface or // A Field is a (Sym, Type) pairing along with some other information, and,
// associated with a named type. // depending on the context, is used to represent:
// - a field in a struct
// - a method in an interface or associated with a named type
// - a function parameter
type Field struct { type Field struct {
flags bitset8 flags bitset8
@ -1656,9 +1662,10 @@ var (
) )
// NewNamed returns a new named type for the given type name. obj should be an // NewNamed returns a new named type for the given type name. obj should be an
// ir.Name. The new type is incomplete, and the underlying type should be set // ir.Name. The new type is incomplete (marked as TFORW kind), and the underlying
// later via SetUnderlying(). References to the type are maintained until the type // type should be set later via SetUnderlying(). References to the type are
// is filled in, so those references can be updated when the type is complete. // maintained until the type is filled in, so those references can be updated when
// the type is complete.
func NewNamed(obj Object) *Type { func NewNamed(obj Object) *Type {
t := New(TFORW) t := New(TFORW)
t.sym = obj.Sym() t.sym = obj.Sym()