cmd/signature-fuzzer/internal/fuzz-generator/arrayparm.go - tools - Git at Google

 // Copyright 2021 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 package generator

 import (
 	"bytes"
 	"fmt"
 )

 // arrayparm describes a parameter of array type; it implements the
 // "parm" interface.
 type arrayparm struct {
 	aname     string
 	qname     string
 	nelements uint8
 	eltype    parm
 	slice     bool
 	isBlank
 	addrTakenHow
 	isGenValFunc
 	skipCompare
 }

 func (p arrayparm) IsControl() bool {
 	return false
 }

 func (p arrayparm) TypeName() string {
 	return p.aname
 }

 func (p arrayparm) QualName() string {
 	return p.qname
 }

 func (p arrayparm) Declare(b *bytes.Buffer, prefix string, suffix string, caller bool) {
 	n := p.aname
 	if caller {
 		n = p.qname
 	}
 	b.WriteString(fmt.Sprintf("%s %s%s", prefix, n, suffix))
 }

 func (p arrayparm) String() string {
 	return fmt.Sprintf("%s %d-element array of %s", p.aname, p.nelements, p.eltype.String())
 }

 func (p arrayparm) GenValue(s *genstate, f *funcdef, value int, caller bool) (string, int) {
 	var buf bytes.Buffer

 	verb(5, "arrayparm.GenValue(%d)", value)

 	n := p.aname
 	if caller {
 		n = p.qname
 	}
 	buf.WriteString(fmt.Sprintf("%s{", n))
 	for i := 0; i < int(p.nelements); i++ {
 		var valstr string
 		valstr, value = s.GenValue(f, p.eltype, value, caller)
 		writeCom(&buf, i)
 		buf.WriteString(valstr)
 	}
 	buf.WriteString("}")
 	return buf.String(), value
 }

 func (p arrayparm) GenElemRef(elidx int, path string) (string, parm) {
 	ene := p.eltype.NumElements()
 	verb(4, "begin GenElemRef(%d,%s) on %s ene %d", elidx, path, p.String(), ene)

 	// For empty arrays, convention is to return empty string
 	if ene == 0 {
 		return "", &p
 	}

 	// Find slot within array of element of interest
 	slot := elidx / ene

 	// If this is the element we're interested in, return it
 	if ene == 1 {
 		verb(4, "hit scalar element")
 		epath := fmt.Sprintf("%s[%d]", path, slot)
 		if path == "_" || p.IsBlank() {
 			epath = "_"
 		}
 		return epath, p.eltype
 	}

 	verb(4, "recur slot=%d GenElemRef(%d,...)", slot, elidx-(slot*ene))

 	// Otherwise our victim is somewhere inside the slot
 	ppath := fmt.Sprintf("%s[%d]", path, slot)
 	if p.IsBlank() {
 		ppath = "_"
 	}
 	return p.eltype.GenElemRef(elidx-(slot*ene), ppath)
 }

 func (p arrayparm) NumElements() int {
 	return p.eltype.NumElements() * int(p.nelements)
 }

 func (p arrayparm) HasPointer() bool {
 	return p.eltype.HasPointer() || p.slice
 }
	// Copyright 2021 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	package generator

	import (
	"bytes"
	"fmt"
	)

	// arrayparm describes a parameter of array type; it implements the
	// "parm" interface.
	type arrayparm struct {
	aname string
	qname string
	nelements uint8
	eltype parm
	slice bool
	isBlank
	addrTakenHow
	isGenValFunc
	skipCompare
	}

	func (p arrayparm) IsControl() bool {
	return false
	}

	func (p arrayparm) TypeName() string {
	return p.aname
	}

	func (p arrayparm) QualName() string {
	return p.qname
	}

	func (p arrayparm) Declare(b *bytes.Buffer, prefix string, suffix string, caller bool) {
	n := p.aname
	if caller {
	n = p.qname
	}
	b.WriteString(fmt.Sprintf("%s %s%s", prefix, n, suffix))
	}

	func (p arrayparm) String() string {
	return fmt.Sprintf("%s %d-element array of %s", p.aname, p.nelements, p.eltype.String())
	}

	func (p arrayparm) GenValue(s genstate, f funcdef, value int, caller bool) (string, int) {
	var buf bytes.Buffer

	verb(5, "arrayparm.GenValue(%d)", value)

	n := p.aname
	if caller {
	n = p.qname
	}
	buf.WriteString(fmt.Sprintf("%s{", n))
	for i := 0; i < int(p.nelements); i++ {
	var valstr string
	valstr, value = s.GenValue(f, p.eltype, value, caller)
	writeCom(&buf, i)
	buf.WriteString(valstr)
	}
	buf.WriteString("}")
	return buf.String(), value
	}

	func (p arrayparm) GenElemRef(elidx int, path string) (string, parm) {
	ene := p.eltype.NumElements()
	verb(4, "begin GenElemRef(%d,%s) on %s ene %d", elidx, path, p.String(), ene)

	// For empty arrays, convention is to return empty string
	if ene == 0 {
	return "", &p
	}

	// Find slot within array of element of interest
	slot := elidx / ene

	// If this is the element we're interested in, return it
	if ene == 1 {
	verb(4, "hit scalar element")
	epath := fmt.Sprintf("%s[%d]", path, slot)
	if path == "_" \|\| p.IsBlank() {
	epath = "_"
	}
	return epath, p.eltype
	}

	verb(4, "recur slot=%d GenElemRef(%d,...)", slot, elidx-(slot*ene))

	// Otherwise our victim is somewhere inside the slot
	ppath := fmt.Sprintf("%s[%d]", path, slot)
	if p.IsBlank() {
	ppath = "_"
	}
	return p.eltype.GenElemRef(elidx-(slot*ene), ppath)
	}

	func (p arrayparm) NumElements() int {
	return p.eltype.NumElements() * int(p.nelements)
	}

	func (p arrayparm) HasPointer() bool {
	return p.eltype.HasPointer() \|\| p.slice
	}