Merge pull request #29437 from hashicorp/jbardin/move
refactoring: complete CanChainFrom and NestedWithin
This commit is contained in:
commit
249e05f827
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@ -5,8 +5,29 @@ import (
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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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@ -149,6 +170,36 @@ func (e *MoveEndpointInModule) ModuleCallTraversals() (Module, []ModuleCall) {
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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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@ -158,60 +209,49 @@ func (e *MoveEndpointInModule) ModuleCallTraversals() (Module, []ModuleCall) {
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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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// In order to match the given module path should be at least as
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// long as the path to the module where the move endpoint was defined.
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if len(addr) < len(e.module) {
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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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containerPart := addr[:len(e.module)]
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relPart := addr[len(e.module):]
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// The names of all of the steps that align with e.module must match,
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// though the instance keys are wildcards for this part.
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for i := range e.module {
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if containerPart[i].Name != e.module[i] {
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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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}
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// The remaining module address steps must match both name and key.
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// The logic for all of these is similar but we will retrieve the
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// module address differently for each type.
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var relMatch ModuleInstance
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switch relAddr := e.relSubject.(type) {
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case ModuleInstance:
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relMatch = relAddr
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case AbsModuleCall:
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// This one requires a little more fuss because the call effectively
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// slices in two the final step of the module address.
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if len(relPart) != len(relAddr.Module)+1 {
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return false
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}
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callPart := relPart[len(relPart)-1]
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if callPart.Name != relAddr.Call.Name {
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return false
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}
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relMatch = relAddr.Module.Child(relAddr.Call.Name, callPart.InstanceKey)
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case AbsResource:
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relMatch = relAddr.Module
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case AbsResourceInstance:
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relMatch = relAddr.Module
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default:
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panic(fmt.Sprintf("unhandled relative address type %T", relAddr))
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}
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if len(relPart) != len(relMatch) {
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return false
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}
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for i := range relMatch {
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if relPart[i] != relMatch[i] {
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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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// 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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@ -222,32 +262,40 @@ func (e *MoveEndpointInModule) SelectsModule(addr ModuleInstance) bool {
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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:
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switch eSub := eSub.(type) {
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case AbsModuleCall:
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return eSub.Equal(oSub)
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}
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case ModuleInstance:
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switch eSub := eSub.(type) {
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case ModuleInstance:
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return eSub.Equal(oSub)
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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.Equal(oSub)
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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.Equal(oSub)
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return eSub.Resource.Equal(oSub.Resource)
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}
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}
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@ -258,49 +306,52 @@ func (e *MoveEndpointInModule) CanChainFrom(other *MoveEndpointInModule) bool {
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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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withinModuleCall := func(mod ModuleInstance, call AbsModuleCall) bool {
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// parent modules don't match at all
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if !call.Module.IsAncestor(mod) {
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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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rem := mod[len(call.Module):]
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return rem[0].Name == call.Call.Name
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}
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// Module calls can contain module instances, resources, and resource
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// instances.
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switch eSub := eSub.(type) {
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case AbsResource:
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return withinModuleCall(eSub.Module, oSub)
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case AbsResourceInstance:
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return withinModuleCall(eSub.Module, oSub)
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case ModuleInstance:
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return withinModuleCall(eSub, oSub)
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}
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case ModuleInstance:
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// Module instances can contain resources and resource instances.
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switch eSub := eSub.(type) {
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case AbsResource:
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return eSub.Module.Equal(oSub) || oSub.IsAncestor(eSub.Module)
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case AbsResourceInstance:
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return eSub.Module.Equal(oSub) || oSub.IsAncestor(eSub.Module)
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}
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case AbsResource:
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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.ContainingResource().Equal(oSub)
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return eSub.Resource.Resource.Equal(oSub.Resource)
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}
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}
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@ -1078,6 +1078,7 @@ func TestAbsResourceMoveDestination(t *testing.T) {
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func TestMoveEndpointChainAndNested(t *testing.T) {
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tests := []struct {
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Endpoint, Other AbsMoveable
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EndpointMod, OtherMod Module
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CanChainFrom, NestedWithin bool
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}{
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{
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@ -1140,7 +1141,7 @@ func TestMoveEndpointChainAndNested(t *testing.T) {
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},
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Other: mustParseModuleInstanceStr("module.foo[2]"),
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CanChainFrom: false,
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NestedWithin: false,
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NestedWithin: true,
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},
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{
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@ -1203,6 +1204,7 @@ func TestMoveEndpointChainAndNested(t *testing.T) {
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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CanChainFrom: false,
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},
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{
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Endpoint: mustParseModuleInstanceStr("module.foo[2]"),
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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@ -1213,11 +1215,116 @@ func TestMoveEndpointChainAndNested(t *testing.T) {
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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CanChainFrom: false,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("resource.baz"),
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EndpointMod: Module{"foo"},
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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Other: mustParseAbsResourceInstanceStr("resource.baz"),
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OtherMod: Module{"foo"},
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("resource.baz"),
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EndpointMod: Module{"foo"},
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Other: mustParseAbsResourceInstanceStr("resource.baz"),
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OtherMod: Module{"foo"},
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("resource.baz").ContainingResource(),
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EndpointMod: Module{"foo"},
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz").ContainingResource(),
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseModuleInstanceStr("module.foo[2].module.baz"),
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Other: mustParseModuleInstanceStr("module.baz"),
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OtherMod: Module{"foo"},
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CanChainFrom: true,
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},
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{
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Endpoint: AbsModuleCall{
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Call: ModuleCall{Name: "bing"},
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},
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EndpointMod: Module{"foo", "baz"},
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Other: AbsModuleCall{
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Module: mustParseModuleInstanceStr("module.baz"),
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Call: ModuleCall{Name: "bing"},
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},
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OtherMod: Module{"foo"},
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CanChainFrom: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("resource.baz"),
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EndpointMod: Module{"foo"},
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Other: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz").ContainingResource(),
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NestedWithin: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("module.foo[2].resource.baz"),
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Other: mustParseAbsResourceInstanceStr("resource.baz").ContainingResource(),
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OtherMod: Module{"foo"},
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NestedWithin: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("resource.baz"),
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EndpointMod: Module{"foo"},
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Other: mustParseAbsResourceInstanceStr("resource.baz").ContainingResource(),
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OtherMod: Module{"foo"},
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NestedWithin: true,
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},
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{
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Endpoint: mustParseAbsResourceInstanceStr("ressurce.baz").ContainingResource(),
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EndpointMod: Module{"foo"},
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Other: mustParseModuleInstanceStr("module.foo[2]"),
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NestedWithin: true,
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},
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{
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Endpoint: AbsModuleCall{
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Call: ModuleCall{Name: "bang"},
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},
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EndpointMod: Module{"foo", "baz", "bing"},
|
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Other: AbsModuleCall{
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Module: mustParseModuleInstanceStr("module.baz"),
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Call: ModuleCall{Name: "bing"},
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},
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OtherMod: Module{"foo"},
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NestedWithin: true,
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},
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{
|
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Endpoint: AbsModuleCall{
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Module: mustParseModuleInstanceStr("module.bing"),
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Call: ModuleCall{Name: "bang"},
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},
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EndpointMod: Module{"foo", "baz"},
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Other: AbsModuleCall{
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Module: mustParseModuleInstanceStr("module.foo.module.baz"),
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Call: ModuleCall{Name: "bing"},
|
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},
|
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NestedWithin: true,
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},
|
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}
|
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|
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for i, test := range tests {
|
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|
@ -1225,18 +1332,20 @@ func TestMoveEndpointChainAndNested(t *testing.T) {
|
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func(t *testing.T) {
|
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endpoint := &MoveEndpointInModule{
|
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relSubject: test.Endpoint,
|
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module: test.EndpointMod,
|
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}
|
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|
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other := &MoveEndpointInModule{
|
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relSubject: test.Other,
|
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module: test.OtherMod,
|
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}
|
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|
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if endpoint.CanChainFrom(other) != test.CanChainFrom {
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t.Errorf("expected %s CanChainFrom %s == %t", test.Endpoint, test.Other, test.CanChainFrom)
|
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t.Errorf("expected %s CanChainFrom %s == %t", endpoint, other, test.CanChainFrom)
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}
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|
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if endpoint.NestedWithin(other) != test.NestedWithin {
|
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t.Errorf("expected %s NestedWithin %s == %t", test.Endpoint, test.Other, test.NestedWithin)
|
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t.Errorf("expected %s NestedWithin %s == %t", endpoint, other, test.NestedWithin)
|
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}
|
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},
|
||||
)
|
||||
|
|
|
@ -324,10 +324,10 @@ func TestApplyMoves(t *testing.T) {
|
|||
},
|
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},
|
||||
|
||||
"move whole module to within indexed module and instance chained": {
|
||||
"move whole module to indexed module and move instance chained": {
|
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[]MoveStatement{
|
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testMoveStatement(t, "", "module.boo", "module.bar[0]"),
|
||||
testMoveStatement(t, "module.bar[0]", "foo.from[0]", "foo.too[0]"),
|
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testMoveStatement(t, "bar", "foo.from[0]", "foo.to[0]"),
|
||||
},
|
||||
states.BuildState(func(s *states.SyncState) {
|
||||
s.SetResourceInstanceCurrent(
|
||||
|
@ -345,19 +345,23 @@ func TestApplyMoves(t *testing.T) {
|
|||
To: instAddrs["module.bar[0].foo.from[0]"],
|
||||
},
|
||||
instAddrs["module.bar[0].foo.from[0]"].UniqueKey(): {
|
||||
From: instAddrs["module.boo.foo.from[0]"],
|
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To: instAddrs["module.bar[0].foo.from[0]"],
|
||||
From: instAddrs["module.bar[0].foo.from[0]"],
|
||||
To: instAddrs["module.bar[0].foo.to[0]"],
|
||||
},
|
||||
instAddrs["module.bar[0].foo.to[0]"].UniqueKey(): {
|
||||
From: instAddrs["module.bar[0].foo.from[0]"],
|
||||
To: instAddrs["module.bar[0].foo.to[0]"],
|
||||
},
|
||||
},
|
||||
[]string{
|
||||
`module.bar[0].foo.from[0]`,
|
||||
`module.bar[0].foo.to[0]`,
|
||||
},
|
||||
},
|
||||
|
||||
"move instance to indexed module and instance chained": {
|
||||
[]MoveStatement{
|
||||
testMoveStatement(t, "", "module.boo.foo.from[0]", "module.bar[0].foo.from[0]"),
|
||||
testMoveStatement(t, "module.bar[0]", "foo.from[0]", "foo.too[0]"),
|
||||
testMoveStatement(t, "bar", "foo.from[0]", "foo.to[0]"),
|
||||
},
|
||||
states.BuildState(func(s *states.SyncState) {
|
||||
s.SetResourceInstanceCurrent(
|
||||
|
@ -375,12 +379,16 @@ func TestApplyMoves(t *testing.T) {
|
|||
To: instAddrs["module.bar[0].foo.from[0]"],
|
||||
},
|
||||
instAddrs["module.bar[0].foo.from[0]"].UniqueKey(): {
|
||||
From: instAddrs["module.boo.foo.from[0]"],
|
||||
To: instAddrs["module.bar[0].foo.from[0]"],
|
||||
From: instAddrs["module.bar[0].foo.from[0]"],
|
||||
To: instAddrs["module.bar[0].foo.to[0]"],
|
||||
},
|
||||
instAddrs["module.bar[0].foo.to[0]"].UniqueKey(): {
|
||||
From: instAddrs["module.bar[0].foo.from[0]"],
|
||||
To: instAddrs["module.bar[0].foo.to[0]"],
|
||||
},
|
||||
},
|
||||
[]string{
|
||||
`module.bar[0].foo.from[0]`,
|
||||
`module.bar[0].foo.to[0]`,
|
||||
},
|
||||
},
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue