opentofu/terraform/node_resource_plan.go

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package terraform
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import (
"github.com/hashicorp/terraform/dag"
)
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// NodePlannableResource represents a resource that is "plannable":
// it is ready to be planned in order to create a diff.
type NodePlannableResource struct {
*NodeAbstractResource
}
// GraphNodeEvalable
func (n *NodePlannableResource) EvalTree() EvalNode {
return &EvalSequence{
Nodes: []EvalNode{
// The EvalTree for a plannable resource primarily involves
// interpolating the count since it can contain variables
// we only just received access to.
//
// With the interpolated count, we can then DynamicExpand
// into the proper number of instances.
&EvalInterpolate{Config: n.Config.RawCount},
&EvalCountFixZeroOneBoundary{Resource: n.Config},
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},
}
}
// GraphNodeDynamicExpandable
func (n *NodePlannableResource) DynamicExpand(ctx EvalContext) (*Graph, error) {
// Grab the state which we read
state, lock := ctx.State()
lock.RLock()
defer lock.RUnlock()
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// Expand the resource count which must be available by now from EvalTree
count, err := n.Config.Count()
if err != nil {
return nil, err
}
// The concrete resource factory we'll use
concreteResource := func(a *NodeAbstractResource) dag.Vertex {
// Add the config and state since we don't do that via transforms
a.Config = n.Config
return &NodePlannableResourceInstance{
NodeAbstractResource: a,
}
}
// The concrete resource factory we'll use for oprhans
concreteResourceOrphan := func(a *NodeAbstractResource) dag.Vertex {
return &NodePlannableResourceOrphan{
NodeAbstractResource: a,
}
}
// Start creating the steps
steps := []GraphTransformer{
// Expand the count.
&ResourceCountTransformer{
Concrete: concreteResource,
Count: count,
Addr: n.ResourceAddr(),
},
// Add the count orphans
&OrphanResourceCountTransformer{
Concrete: concreteResourceOrphan,
Count: count,
Addr: n.ResourceAddr(),
State: state,
},
// TODO: deposed
// TODO: targeting
// Attach the state
&AttachStateTransformer{State: state},
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// Connect references so ordering is correct
&ReferenceTransformer{},
// Make sure there is a single root
&RootTransformer{},
}
// Build the graph
b := &BasicGraphBuilder{Steps: steps, Validate: true}
return b.Build(ctx.Path())
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}