2021-12-28 20:18:01 +00:00
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package vm
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import (
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"fmt"
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"github.com/mediocregopher/ginger/gg"
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2021-12-29 19:32:53 +00:00
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"github.com/mediocregopher/ginger/graph"
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2021-12-28 20:18:01 +00:00
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)
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// Scope encapsulates a set of names and the values they indicate, or the means
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// by which to obtain those values, and allows for the evaluation of a name to
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// its value.
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type Scope interface {
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// Evaluate accepts a name Value and returns the real Value which that name
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// points to.
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Evaluate(Value) (Value, error)
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// NewScope returns a new Scope which sub-operations within this Scope
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// should use for themselves.
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NewScope() Scope
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}
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// edgeToValue ignores the edgeValue, it only evaluates the edge's vertex as a
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// Value.
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func edgeToValue(edge graph.OpenEdge[gg.Value], scope Scope) (Value, error) {
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if ggVal, ok := edge.FromValue(); ok {
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val := Value{Value: ggVal}
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if val.Name != nil {
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return scope.Evaluate(val)
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}
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return val, nil
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}
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var tupVal Value
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tup, _ := edge.FromTuple()
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for _, tupEdge := range tup {
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val, err := EvaluateEdge(tupEdge, scope)
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if err != nil {
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return Value{}, err
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}
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tupVal.Tuple = append(tupVal.Tuple, val)
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}
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if len(tupVal.Tuple) == 1 {
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return tupVal.Tuple[0], nil
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}
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return tupVal, nil
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}
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// EvaluateEdge will use the given Scope to evaluate the edge's ultimate Value,
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// after passing all leaf vertices up the tree through all Operations found on
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// edge values.
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func EvaluateEdge(edge graph.OpenEdge[gg.Value], scope Scope) (Value, error) {
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edgeVal := Value{Value: edge.EdgeValue()}
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if edgeVal.IsZero() {
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return edgeToValue(edge, scope)
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}
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edge = edge.WithEdgeValue(gg.ZeroValue)
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if edgeVal.Name != nil {
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var err error
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if edgeVal, err = scope.Evaluate(edgeVal); err != nil {
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return Value{}, err
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}
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}
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if edgeVal.Graph != nil {
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edgeVal = Value{
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Operation: OperationFromGraph(edgeVal.Graph, scope.NewScope()),
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}
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}
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if edgeVal.Operation == nil {
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return Value{}, fmt.Errorf("edge value must be an operation")
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}
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return edgeVal.Operation.Perform(edge, scope)
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}
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// ScopeMap implements the Scope interface.
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type ScopeMap map[string]Value
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var _ Scope = ScopeMap{}
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// Evaluate uses the given name Value as a key into the ScopeMap map, and
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// returns the Value held there for the key, if any.
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func (m ScopeMap) Evaluate(nameVal Value) (Value, error) {
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if nameVal.Name == nil {
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return Value{}, fmt.Errorf("value %v is not a name value", nameVal)
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}
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val, ok := m[*nameVal.Name]
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if !ok {
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return Value{}, fmt.Errorf("%q not defined", *nameVal.Name)
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}
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return val, nil
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}
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// NewScope returns the ScopeMap as-is.
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func (m ScopeMap) NewScope() Scope {
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return m
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}
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type graphScope struct {
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*graph.Graph[gg.Value]
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parent Scope
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}
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// ScopeFromGraph returns a Scope which will use the given Graph for evaluation.
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//
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// When a name is evaluated, that name will be looked up in the Graph. The
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// name's vertex must have only a single OpenEdge leading to it. That edge will
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// be followed, with edge values being evaluated to Operations, until a Value
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// can be obtained.
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//
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// If a name does not appear in the Graph, then the given parent Scope will be
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// used to evaluate that name. If the parent Scope is nil then an error is
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// returned.
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//
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// NewScope will return the parent scope, if one is given, or an empty ScopeMap
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// if not.
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func ScopeFromGraph(g *graph.Graph[gg.Value], parent Scope) Scope {
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return &graphScope{
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Graph: g,
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parent: parent,
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}
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}
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func (g *graphScope) Evaluate(nameVal Value) (Value, error) {
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if nameVal.Name == nil {
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return Value{}, fmt.Errorf("value %v is not a name value", nameVal)
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}
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edgesIn := g.ValueIns(nameVal.Value)
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if l := len(edgesIn); l == 0 && g.parent != nil {
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return g.parent.Evaluate(nameVal)
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} else if l != 1 {
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return Value{}, fmt.Errorf(
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"%q must have exactly one input edge, found %d input edges",
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*nameVal.Name, l,
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)
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}
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return EvaluateEdge(edgesIn[0], g)
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}
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func (g *graphScope) NewScope() Scope {
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if g.parent == nil {
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return ScopeMap{}
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}
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return g.parent
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}
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