wide/vendor/golang.org/x/tools/go/pointer/constraint.go

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// Copyright 2013 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 pointer
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import "go/types"
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type constraint interface {
// For a complex constraint, returns the nodeid of the pointer
// to which it is attached. For addr and copy, returns dst.
ptr() nodeid
// renumber replaces each nodeid n in the constraint by mapping[n].
renumber(mapping []nodeid)
// presolve is a hook for constraint-specific behaviour during
// pre-solver optimization. Typical implementations mark as
// indirect the set of nodes to which the solver will add copy
// edges or PTS labels.
presolve(h *hvn)
// solve is called for complex constraints when the pts for
// the node to which they are attached has changed.
solve(a *analysis, delta *nodeset)
String() string
}
// dst = &src
// pts(dst) ⊇ {src}
// A base constraint used to initialize the solver's pt sets
type addrConstraint struct {
dst nodeid // (ptr)
src nodeid
}
func (c *addrConstraint) ptr() nodeid { return c.dst }
func (c *addrConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst = src
// A simple constraint represented directly as a copyTo graph edge.
type copyConstraint struct {
dst nodeid // (ptr)
src nodeid
}
func (c *copyConstraint) ptr() nodeid { return c.dst }
func (c *copyConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst = src[offset]
// A complex constraint attached to src (the pointer)
type loadConstraint struct {
offset uint32
dst nodeid
src nodeid // (ptr)
}
func (c *loadConstraint) ptr() nodeid { return c.src }
func (c *loadConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst[offset] = src
// A complex constraint attached to dst (the pointer)
type storeConstraint struct {
offset uint32
dst nodeid // (ptr)
src nodeid
}
func (c *storeConstraint) ptr() nodeid { return c.dst }
func (c *storeConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst = &src.f or dst = &src[0]
// A complex constraint attached to dst (the pointer)
type offsetAddrConstraint struct {
offset uint32
dst nodeid
src nodeid // (ptr)
}
func (c *offsetAddrConstraint) ptr() nodeid { return c.src }
func (c *offsetAddrConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst = src.(typ) where typ is an interface
// A complex constraint attached to src (the interface).
// No representation change: pts(dst) and pts(src) contains tagged objects.
type typeFilterConstraint struct {
typ types.Type // an interface type
dst nodeid
src nodeid // (ptr)
}
func (c *typeFilterConstraint) ptr() nodeid { return c.src }
func (c *typeFilterConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// dst = src.(typ) where typ is a concrete type
// A complex constraint attached to src (the interface).
//
// If exact, only tagged objects identical to typ are untagged.
// If !exact, tagged objects assignable to typ are untagged too.
// The latter is needed for various reflect operators, e.g. Send.
//
// This entails a representation change:
// pts(src) contains tagged objects,
// pts(dst) contains their payloads.
type untagConstraint struct {
typ types.Type // a concrete type
dst nodeid
src nodeid // (ptr)
exact bool
}
func (c *untagConstraint) ptr() nodeid { return c.src }
func (c *untagConstraint) renumber(mapping []nodeid) {
c.dst = mapping[c.dst]
c.src = mapping[c.src]
}
// src.method(params...)
// A complex constraint attached to iface.
type invokeConstraint struct {
method *types.Func // the abstract method
iface nodeid // (ptr) the interface
params nodeid // the start of the identity/params/results block
}
func (c *invokeConstraint) ptr() nodeid { return c.iface }
func (c *invokeConstraint) renumber(mapping []nodeid) {
c.iface = mapping[c.iface]
c.params = mapping[c.params]
}