mirror of
https://github.com/opentofu/opentofu.git
synced 2024-12-24 08:00:17 -06:00
707 lines
25 KiB
Go
707 lines
25 KiB
Go
package addrs
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import (
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"fmt"
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"reflect"
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"strings"
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"github.com/hashicorp/terraform/internal/tfdiags"
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"github.com/zclconf/go-cty/cty"
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)
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// anyKeyImpl is the InstanceKey representation indicating a wildcard, which
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// matches all possible keys. This is only used internally for matching
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// combinations of address types, where only portions of the path contain key
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// information.
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type anyKeyImpl rune
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func (k anyKeyImpl) instanceKeySigil() {
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}
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func (k anyKeyImpl) String() string {
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return fmt.Sprintf("[%s]", string(k))
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}
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func (k anyKeyImpl) Value() cty.Value {
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return cty.StringVal(string(k))
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}
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// anyKey is the only valid value of anyKeyImpl
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var anyKey = anyKeyImpl('*')
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// MoveEndpointInModule annotates a MoveEndpoint with the address of the
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// module where it was declared, which is the form we use for resolving
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// whether move statements chain from or are nested within other move
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// statements.
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type MoveEndpointInModule struct {
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// SourceRange is the location of the physical endpoint address
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// in configuration, if this MoveEndpoint was decoded from a
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// configuration expresson.
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SourceRange tfdiags.SourceRange
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// The internals are unexported here because, as with MoveEndpoint,
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// we're somewhat abusing AbsMoveable here to represent an address
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// relative to the module, rather than as an absolute address.
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// Conceptually, the following two fields represent a matching pattern
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// for AbsMoveables where the elements of "module" behave as
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// ModuleInstanceStep values with a wildcard instance key, because
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// a moved block in a module affects all instances of that module.
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// Unlike MoveEndpoint, relSubject in this case can be any of the
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// address types that implement AbsMoveable.
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module Module
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relSubject AbsMoveable
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}
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// ImpliedMoveStatementEndpoint is a special constructor for MoveEndpointInModule
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// which is suitable only for constructing "implied" move statements, which
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// means that we inferred the statement automatically rather than building it
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// from an explicit block in the configuration.
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//
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// Implied move endpoints, just as for the statements they are embedded in,
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// have somewhat-related-but-imprecise source ranges, typically referring to
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// some general configuration construct that implied the statement, because
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// by definition there is no explicit move endpoint expression in this case.
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func ImpliedMoveStatementEndpoint(addr AbsResourceInstance, rng tfdiags.SourceRange) *MoveEndpointInModule {
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// implied move endpoints always belong to the root module, because each
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// one refers to a single resource instance inside a specific module
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// instance, rather than all instances of the module where the resource
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// was declared.
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return &MoveEndpointInModule{
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SourceRange: rng,
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module: RootModule,
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relSubject: addr,
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}
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}
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func (e *MoveEndpointInModule) ObjectKind() MoveEndpointKind {
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return absMoveableEndpointKind(e.relSubject)
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}
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// String produces a string representation of the object matching pattern
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// represented by the reciever.
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//
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// Since there is no direct syntax for representing such an object matching
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// pattern, this function uses a splat-operator-like representation to stand
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// in for the wildcard instance keys.
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func (e *MoveEndpointInModule) String() string {
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if e == nil {
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return ""
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}
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var buf strings.Builder
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for _, name := range e.module {
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buf.WriteString("module.")
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buf.WriteString(name)
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buf.WriteString("[*].")
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}
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buf.WriteString(e.relSubject.String())
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// For consistency we'll also use the splat-like wildcard syntax to
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// represent the final step being either a resource or module call
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// rather than an instance, so we can more easily distinguish the two
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// in the string representation.
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switch e.relSubject.(type) {
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case AbsModuleCall, AbsResource:
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buf.WriteString("[*]")
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}
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return buf.String()
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}
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// Equal returns true if the reciever represents the same matching pattern
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// as the other given endpoint, ignoring the source location information.
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//
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// This is not an optimized function and is here primarily to help with
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// writing concise assertions in test code.
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func (e *MoveEndpointInModule) Equal(other *MoveEndpointInModule) bool {
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if (e == nil) != (other == nil) {
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return false
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}
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if !e.module.Equal(other.module) {
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return false
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}
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// This assumes that all of our possible "movables" are trivially
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// comparable with reflect, which is true for all of them at the time
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// of writing.
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return reflect.DeepEqual(e.relSubject, other.relSubject)
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}
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// Module returns the address of the module where the receiving address was
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// declared.
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func (e *MoveEndpointInModule) Module() Module {
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return e.module
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}
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// InModuleInstance returns an AbsMoveable address which concatenates the
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// given module instance address with the receiver's relative object selection
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// to produce one example of an instance that might be affected by this
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// move statement.
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//
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// The result is meaningful only if the given module instance is an instance
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// of the same module returned by the method Module. InModuleInstance doesn't
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// fully verify that (aside from some cheap/easy checks), but it will produce
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// meaningless garbage if not.
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func (e *MoveEndpointInModule) InModuleInstance(modInst ModuleInstance) AbsMoveable {
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if len(modInst) != len(e.module) {
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// We don't check all of the steps to make sure that their names match,
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// because it would be expensive to do that repeatedly for every
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// instance of a module, but if the lengths don't match then that's
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// _obviously_ wrong.
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panic("given instance address does not match module address")
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}
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switch relSubject := e.relSubject.(type) {
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case ModuleInstance:
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ret := make(ModuleInstance, 0, len(modInst)+len(relSubject))
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ret = append(ret, modInst...)
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ret = append(ret, relSubject...)
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return ret
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case AbsModuleCall:
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retModAddr := make(ModuleInstance, 0, len(modInst)+len(relSubject.Module))
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retModAddr = append(retModAddr, modInst...)
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retModAddr = append(retModAddr, relSubject.Module...)
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return relSubject.Call.Absolute(retModAddr)
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case AbsResourceInstance:
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retModAddr := make(ModuleInstance, 0, len(modInst)+len(relSubject.Module))
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retModAddr = append(retModAddr, modInst...)
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retModAddr = append(retModAddr, relSubject.Module...)
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return relSubject.Resource.Absolute(retModAddr)
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case AbsResource:
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retModAddr := make(ModuleInstance, 0, len(modInst)+len(relSubject.Module))
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retModAddr = append(retModAddr, modInst...)
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retModAddr = append(retModAddr, relSubject.Module...)
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return relSubject.Resource.Absolute(retModAddr)
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default:
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panic(fmt.Sprintf("unexpected move subject type %T", relSubject))
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}
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}
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// ModuleCallTraversals returns both the address of the module where the
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// receiver was declared and any other module calls it traverses through
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// while selecting a particular object to move.
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//
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// This is a rather special-purpose function here mainly to support our
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// validation rule that a module can only traverse down into child modules
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// that belong to the same module package.
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func (e *MoveEndpointInModule) ModuleCallTraversals() (Module, []ModuleCall) {
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// We're returning []ModuleCall rather than Module here to make it clearer
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// that this is a relative sequence of calls rather than an absolute
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// module path.
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var steps []ModuleInstanceStep
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switch relSubject := e.relSubject.(type) {
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case ModuleInstance:
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// We want all of the steps except the last one here, because the
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// last one is always selecting something declared in the same module
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// even though our address structure doesn't capture that.
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steps = []ModuleInstanceStep(relSubject[:len(relSubject)-1])
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case AbsModuleCall:
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steps = []ModuleInstanceStep(relSubject.Module)
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case AbsResourceInstance:
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steps = []ModuleInstanceStep(relSubject.Module)
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case AbsResource:
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steps = []ModuleInstanceStep(relSubject.Module)
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default:
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panic(fmt.Sprintf("unexpected move subject type %T", relSubject))
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}
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ret := make([]ModuleCall, len(steps))
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for i, step := range steps {
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ret[i] = ModuleCall{Name: step.Name}
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}
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return e.module, ret
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}
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// synthModuleInstance constructs a module instance out of the module path and
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// any module portion of the relSubject, substituting Module and Call segments
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// with ModuleInstanceStep using the anyKey value.
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// This is only used internally for comparison of these complete paths, but
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// does not represent how the individual parts are handled elsewhere in the
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// code.
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func (e *MoveEndpointInModule) synthModuleInstance() ModuleInstance {
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var inst ModuleInstance
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for _, mod := range e.module {
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inst = append(inst, ModuleInstanceStep{Name: mod, InstanceKey: anyKey})
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}
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switch sub := e.relSubject.(type) {
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case ModuleInstance:
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inst = append(inst, sub...)
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case AbsModuleCall:
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inst = append(inst, sub.Module...)
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inst = append(inst, ModuleInstanceStep{Name: sub.Call.Name, InstanceKey: anyKey})
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case AbsResource:
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inst = append(inst, sub.Module...)
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case AbsResourceInstance:
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inst = append(inst, sub.Module...)
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default:
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panic(fmt.Sprintf("unhandled relative address type %T", sub))
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}
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return inst
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}
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// SelectsModule returns true if the reciever directly selects either
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// the given module or a resource nested directly inside that module.
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//
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// This is a good function to use to decide which modules in a state
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// to consider when processing a particular move statement. For a
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// module move the given module itself is what will move, while a
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// resource move indicates that we should search each of the resources in
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// the given module to see if they match.
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func (e *MoveEndpointInModule) SelectsModule(addr ModuleInstance) bool {
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synthInst := e.synthModuleInstance()
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// In order to match the given module instance, our combined path must be
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// equal in length.
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if len(synthInst) != len(addr) {
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return false
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}
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for i, step := range synthInst {
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switch step.InstanceKey {
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case anyKey:
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// we can match any key as long as the name matches
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if step.Name != addr[i].Name {
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return false
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}
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default:
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if step != addr[i] {
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return false
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}
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}
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}
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return true
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}
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// SelectsResource returns true if the receiver directly selects either
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// the given resource or one of its instances.
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func (e *MoveEndpointInModule) SelectsResource(addr AbsResource) bool {
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// Only a subset of subject types can possibly select a resource, so
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// we'll take care of those quickly before we do anything more expensive.
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switch e.relSubject.(type) {
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case AbsResource, AbsResourceInstance:
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// okay
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default:
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return false // can't possibly match
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}
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if !e.SelectsModule(addr.Module) {
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return false
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}
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// If we get here then we know the module part matches, so we only need
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// to worry about the relative resource part.
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switch relSubject := e.relSubject.(type) {
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case AbsResource:
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return addr.Resource.Equal(relSubject.Resource)
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case AbsResourceInstance:
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// We intentionally ignore the instance key, because we consider
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// instances to be part of the resource they belong to.
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return addr.Resource.Equal(relSubject.Resource.Resource)
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default:
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// We should've filtered out all other types above
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panic(fmt.Sprintf("unsupported relSubject type %T", relSubject))
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}
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}
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// moduleInstanceCanMatch indicates that modA can match modB taking into
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// account steps with an anyKey InstanceKey as wildcards. The comparison of
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// wildcard steps is done symmetrically, because varying portions of either
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// instance's path could have been derived from configuration vs evaluation.
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// The length of modA must be equal or shorter than the length of modB.
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func moduleInstanceCanMatch(modA, modB ModuleInstance) bool {
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for i, step := range modA {
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switch {
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case step.InstanceKey == anyKey || modB[i].InstanceKey == anyKey:
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// we can match any key as long as the names match
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if step.Name != modB[i].Name {
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return false
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}
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default:
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if step != modB[i] {
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return false
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}
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}
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}
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return true
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}
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// CanChainFrom returns true if the reciever describes an address that could
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// potentially select an object that the other given address could select.
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//
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// In other words, this decides whether the move chaining rule applies, if
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// the reciever is the "to" from one statement and the other given address
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// is the "from" of another statement.
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func (e *MoveEndpointInModule) CanChainFrom(other *MoveEndpointInModule) bool {
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eMod := e.synthModuleInstance()
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oMod := other.synthModuleInstance()
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// if the complete paths are different lengths, these cannot refer to the
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// same value.
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if len(eMod) != len(oMod) {
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return false
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}
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if !moduleInstanceCanMatch(oMod, eMod) {
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return false
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}
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eSub := e.relSubject
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oSub := other.relSubject
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switch oSub := oSub.(type) {
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case AbsModuleCall, ModuleInstance:
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switch eSub.(type) {
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case AbsModuleCall, ModuleInstance:
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// we already know the complete module path including any final
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// module call name is equal.
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return true
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}
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case AbsResource:
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switch eSub := eSub.(type) {
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case AbsResource:
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return eSub.Resource.Equal(oSub.Resource)
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}
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case AbsResourceInstance:
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switch eSub := eSub.(type) {
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case AbsResourceInstance:
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return eSub.Resource.Equal(oSub.Resource)
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}
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}
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return false
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}
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// NestedWithin returns true if the reciever describes an address that is
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// contained within one of the objects that the given other address could
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// select.
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func (e *MoveEndpointInModule) NestedWithin(other *MoveEndpointInModule) bool {
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eMod := e.synthModuleInstance()
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oMod := other.synthModuleInstance()
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// In order to be nested within the given endpoint, the module path must be
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// shorter or equal.
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if len(oMod) > len(eMod) {
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return false
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}
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if !moduleInstanceCanMatch(oMod, eMod) {
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return false
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}
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eSub := e.relSubject
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oSub := other.relSubject
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switch oSub := oSub.(type) {
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case AbsModuleCall:
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switch eSub.(type) {
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case AbsModuleCall:
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// we know the other endpoint selects our module, but if we are
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// also a module call our path must be longer to be nested.
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return len(eMod) > len(oMod)
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}
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return true
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case ModuleInstance:
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switch eSub.(type) {
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case ModuleInstance, AbsModuleCall:
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// a nested module must have a longer path
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return len(eMod) > len(oMod)
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}
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return true
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case AbsResource:
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if len(eMod) != len(oMod) {
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// these resources are from different modules
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return false
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}
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// A resource can only contain a resource instance.
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switch eSub := eSub.(type) {
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case AbsResourceInstance:
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return eSub.Resource.Resource.Equal(oSub.Resource)
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}
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}
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return false
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}
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// matchModuleInstancePrefix is an internal helper to decide whether the given
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// module instance address refers to either the module where the move endpoint
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// was declared or some descendent of that module.
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//
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// If so, it will split the given address into two parts: the "prefix" part
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// which corresponds with the module where the statement was declared, and
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// the "relative" part which is the remainder that the relSubject of the
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// statement might match against.
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//
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// The second return value is another example of our light abuse of
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// ModuleInstance to represent _relative_ module references rather than
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// absolute: it's a module instance address relative to the same return value.
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// Because the exported idea of ModuleInstance represents only _absolute_
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// module instance addresses, we mustn't expose that value through any exported
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// API.
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func (e *MoveEndpointInModule) matchModuleInstancePrefix(instAddr ModuleInstance) (ModuleInstance, ModuleInstance, bool) {
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if len(e.module) > len(instAddr) {
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return nil, nil, false // to short to possibly match
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}
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for i := range e.module {
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if e.module[i] != instAddr[i].Name {
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return nil, nil, false
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}
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}
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// If we get here then we have a match, so we'll slice up the input
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// to produce the prefix and match segments.
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return instAddr[:len(e.module)], instAddr[len(e.module):], true
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}
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// MoveDestination considers a an address representing a module
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// instance in the context of source and destination move endpoints and then,
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// if the module address matches the from endpoint, returns the corresponding
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// new module address that the object should move to.
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//
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// MoveDestination will return false in its second return value if the receiver
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// doesn't match fromMatch, indicating that the given move statement doesn't
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// apply to this object.
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//
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// Both of the given endpoints must be from the same move statement and thus
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// must have matching object types. If not, MoveDestination will panic.
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func (m ModuleInstance) MoveDestination(fromMatch, toMatch *MoveEndpointInModule) (ModuleInstance, bool) {
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// NOTE: This implementation assumes the invariant that fromMatch and
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// toMatch both belong to the same configuration statement, and thus they
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// will both have the same address type and the same declaration module.
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// The root module instance is not itself moveable.
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if m.IsRoot() {
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return nil, false
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}
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// The two endpoints must either be module call or module instance
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// addresses, or else this statement can never match.
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if fromMatch.ObjectKind() != MoveEndpointModule {
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return nil, false
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}
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// The rest of our work will be against the part of the reciever that's
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// relative to the declaration module. mRel is a weird abuse of
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// ModuleInstance that represents a relative module address, similar to
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// what we do for MoveEndpointInModule.relSubject.
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mPrefix, mRel, match := fromMatch.matchModuleInstancePrefix(m)
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if !match {
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return nil, false
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}
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// Our next goal is to split mRel into two parts: the match (if any) and
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// the suffix. Our result will then replace the match with the replacement
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// in toMatch while preserving the prefix and suffix.
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var mSuffix, mNewMatch ModuleInstance
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switch relSubject := fromMatch.relSubject.(type) {
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case ModuleInstance:
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if len(relSubject) > len(mRel) {
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return nil, false // too short to possibly match
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}
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for i := range relSubject {
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if relSubject[i] != mRel[i] {
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return nil, false // this step doesn't match
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}
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}
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// If we get to here then we've found a match. Since the statement
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// addresses are already themselves ModuleInstance fragments we can
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|
// just slice out the relevant parts.
|
|
mNewMatch = toMatch.relSubject.(ModuleInstance)
|
|
mSuffix = mRel[len(relSubject):]
|
|
case AbsModuleCall:
|
|
// The module instance part of relSubject must be a prefix of
|
|
// mRel, and mRel must be at least one step longer to account for
|
|
// the call step itself.
|
|
if len(relSubject.Module) > len(mRel)-1 {
|
|
return nil, false
|
|
}
|
|
for i := range relSubject.Module {
|
|
if relSubject.Module[i] != mRel[i] {
|
|
return nil, false // this step doesn't match
|
|
}
|
|
}
|
|
// The call name must also match the next step of mRel, after
|
|
// the relSubject.Module prefix.
|
|
callStep := mRel[len(relSubject.Module)]
|
|
if callStep.Name != relSubject.Call.Name {
|
|
return nil, false
|
|
}
|
|
// If we get to here then we've found a match. We need to construct
|
|
// a new mNewMatch that's an instance of the "new" relSubject with
|
|
// the same key as our call.
|
|
mNewMatch = toMatch.relSubject.(AbsModuleCall).Instance(callStep.InstanceKey)
|
|
mSuffix = mRel[len(relSubject.Module)+1:]
|
|
default:
|
|
panic("invalid address type for module-kind move endpoint")
|
|
}
|
|
|
|
ret := make(ModuleInstance, 0, len(mPrefix)+len(mNewMatch)+len(mSuffix))
|
|
ret = append(ret, mPrefix...)
|
|
ret = append(ret, mNewMatch...)
|
|
ret = append(ret, mSuffix...)
|
|
return ret, true
|
|
}
|
|
|
|
// MoveDestination considers a an address representing a resource
|
|
// in the context of source and destination move endpoints and then,
|
|
// if the resource address matches the from endpoint, returns the corresponding
|
|
// new resource address that the object should move to.
|
|
//
|
|
// MoveDestination will return false in its second return value if the receiver
|
|
// doesn't match fromMatch, indicating that the given move statement doesn't
|
|
// apply to this object.
|
|
//
|
|
// Both of the given endpoints must be from the same move statement and thus
|
|
// must have matching object types. If not, MoveDestination will panic.
|
|
func (r AbsResource) MoveDestination(fromMatch, toMatch *MoveEndpointInModule) (AbsResource, bool) {
|
|
switch fromMatch.ObjectKind() {
|
|
case MoveEndpointModule:
|
|
// If we've moving a module then any resource inside that module
|
|
// moves too.
|
|
fromMod := r.Module
|
|
toMod, match := fromMod.MoveDestination(fromMatch, toMatch)
|
|
if !match {
|
|
return AbsResource{}, false
|
|
}
|
|
return r.Resource.Absolute(toMod), true
|
|
|
|
case MoveEndpointResource:
|
|
fromRelSubject, ok := fromMatch.relSubject.(AbsResource)
|
|
if !ok {
|
|
// The only other possible type for a resource move is
|
|
// AbsResourceInstance, and that can never match an AbsResource.
|
|
return AbsResource{}, false
|
|
}
|
|
|
|
// fromMatch can only possibly match the reciever if the resource
|
|
// portions are identical, regardless of the module paths.
|
|
if fromRelSubject.Resource != r.Resource {
|
|
return AbsResource{}, false
|
|
}
|
|
|
|
// The module path portion of relSubject must have a prefix that
|
|
// matches the module where our endpoints were declared.
|
|
mPrefix, mRel, match := fromMatch.matchModuleInstancePrefix(r.Module)
|
|
if !match {
|
|
return AbsResource{}, false
|
|
}
|
|
|
|
// The remaining steps of the module path must _exactly_ match
|
|
// the relative module path in the "fromMatch" address.
|
|
if len(mRel) != len(fromRelSubject.Module) {
|
|
return AbsResource{}, false // can't match if lengths are different
|
|
}
|
|
for i := range mRel {
|
|
if mRel[i] != fromRelSubject.Module[i] {
|
|
return AbsResource{}, false // all of the steps must match
|
|
}
|
|
}
|
|
|
|
// If we got here then we have a match, and so our result is the
|
|
// module instance where the statement was declared (mPrefix) followed
|
|
// by the "to" relative address in toMatch.
|
|
toRelSubject := toMatch.relSubject.(AbsResource)
|
|
var mNew ModuleInstance
|
|
if len(mPrefix) > 0 || len(toRelSubject.Module) > 0 {
|
|
mNew = make(ModuleInstance, 0, len(mPrefix)+len(toRelSubject.Module))
|
|
mNew = append(mNew, mPrefix...)
|
|
mNew = append(mNew, toRelSubject.Module...)
|
|
}
|
|
ret := toRelSubject.Resource.Absolute(mNew)
|
|
return ret, true
|
|
|
|
default:
|
|
panic("unexpected object kind")
|
|
}
|
|
}
|
|
|
|
// MoveDestination considers a an address representing a resource
|
|
// instance in the context of source and destination move endpoints and then,
|
|
// if the instance address matches the from endpoint, returns the corresponding
|
|
// new instance address that the object should move to.
|
|
//
|
|
// MoveDestination will return false in its second return value if the receiver
|
|
// doesn't match fromMatch, indicating that the given move statement doesn't
|
|
// apply to this object.
|
|
//
|
|
// Both of the given endpoints must be from the same move statement and thus
|
|
// must have matching object types. If not, MoveDestination will panic.
|
|
func (r AbsResourceInstance) MoveDestination(fromMatch, toMatch *MoveEndpointInModule) (AbsResourceInstance, bool) {
|
|
switch fromMatch.ObjectKind() {
|
|
case MoveEndpointModule:
|
|
// If we've moving a module then any resource inside that module
|
|
// moves too.
|
|
fromMod := r.Module
|
|
toMod, match := fromMod.MoveDestination(fromMatch, toMatch)
|
|
if !match {
|
|
return AbsResourceInstance{}, false
|
|
}
|
|
return r.Resource.Absolute(toMod), true
|
|
|
|
case MoveEndpointResource:
|
|
switch fromMatch.relSubject.(type) {
|
|
case AbsResource:
|
|
oldResource := r.ContainingResource()
|
|
newResource, match := oldResource.MoveDestination(fromMatch, toMatch)
|
|
if !match {
|
|
return AbsResourceInstance{}, false
|
|
}
|
|
return newResource.Instance(r.Resource.Key), true
|
|
case AbsResourceInstance:
|
|
fromRelSubject, ok := fromMatch.relSubject.(AbsResourceInstance)
|
|
if !ok {
|
|
// The only other possible type for a resource move is
|
|
// AbsResourceInstance, and that can never match an AbsResource.
|
|
return AbsResourceInstance{}, false
|
|
}
|
|
|
|
// fromMatch can only possibly match the reciever if the resource
|
|
// portions are identical, regardless of the module paths.
|
|
if fromRelSubject.Resource != r.Resource {
|
|
return AbsResourceInstance{}, false
|
|
}
|
|
|
|
// The module path portion of relSubject must have a prefix that
|
|
// matches the module where our endpoints were declared.
|
|
mPrefix, mRel, match := fromMatch.matchModuleInstancePrefix(r.Module)
|
|
if !match {
|
|
return AbsResourceInstance{}, false
|
|
}
|
|
|
|
// The remaining steps of the module path must _exactly_ match
|
|
// the relative module path in the "fromMatch" address.
|
|
if len(mRel) != len(fromRelSubject.Module) {
|
|
return AbsResourceInstance{}, false // can't match if lengths are different
|
|
}
|
|
for i := range mRel {
|
|
if mRel[i] != fromRelSubject.Module[i] {
|
|
return AbsResourceInstance{}, false // all of the steps must match
|
|
}
|
|
}
|
|
|
|
// If we got here then we have a match, and so our result is the
|
|
// module instance where the statement was declared (mPrefix) followed
|
|
// by the "to" relative address in toMatch.
|
|
toRelSubject := toMatch.relSubject.(AbsResourceInstance)
|
|
var mNew ModuleInstance
|
|
if len(mPrefix) > 0 || len(toRelSubject.Module) > 0 {
|
|
mNew = make(ModuleInstance, 0, len(mPrefix)+len(toRelSubject.Module))
|
|
mNew = append(mNew, mPrefix...)
|
|
mNew = append(mNew, toRelSubject.Module...)
|
|
}
|
|
ret := toRelSubject.Resource.Absolute(mNew)
|
|
return ret, true
|
|
default:
|
|
panic("invalid address type for resource-kind move endpoint")
|
|
}
|
|
default:
|
|
panic("unexpected object kind")
|
|
}
|
|
}
|