WIP: clean up locatable stuff

WIP: added in tuples
2023-10-22 21:43:48 +02:00 · 2023-10-22 18:27:30 +02:00
7 changed files with 245 additions and 97 deletions
--- a/gg/v2/gg.bnf
+++ b/gg/v2/gg.bnf
@ -5,20 +5,19 @@
 <name> ::= (<letter> | <mark>) (<letter> | <mark> | <digit>)*
-<value> ::= <name> | <number> | <tuple> | <graph>
+<tuple>                ::= "(" <tuple-tail>
 <tuple-tail>           ::= ")" | <tuple-open-edge>
 <tuple-open-edge>      ::= <value> <tuple-open-edge-tail>
 <tuple-open-edge-tail> ::= ")"
                         | "," <tuple-tail>
                         | "<" <tuple-open-edge>
-<tuple>            ::= "(" <tuple-tail>
+<graph>                      ::= "{" <graph-tail>
-<tuple-tail>       ::= ")" | <value> <tuple-post-value>
+<graph-tail>                 ::= "}" | <name> "=" <graph-open-edge>
-<tuple-post-value> ::= ")"
+<graph-open-edge>            ::= <value> <graph-open-edge-value-tail>
-                     | "," <tuple-tail>
+                               | <tuple> <graph-open-edge-tail>
-                     | "<" <value> <tuple-post-value>
+<graph-open-edge-tail>       ::= "}" | ";" <graph-tail>
 <graph-open-edge-value-tail>  ::= <graph-open-edge-tail> | "<" <graph-open-edge>
-<graph>                ::= "{" <graph-tail>
+<value> ::= <name> | <number> | <graph>
-<graph-tail>           ::= "}" | <name> "=" <graph-open-edge>
+<gg>              ::= <eof> | <value> <gg>
 <graph-open-edge>      ::= <value> <graph-open-edge-tail>
 <graph-open-edge-tail> ::= "}"
                         | ";" <graph-tail>
                         | "<" <graph-open-edge>
 <top-level-value> ::= <name> | <number> | <graph>
 <gg>              ::= <eof> | <top-level-value> <gg>
--- a/gg/v2/location.go
+++ b/gg/v2/location.go
@ -25,10 +25,6 @@ func (e LocatedError) Error() string {
 	return fmt.Sprintf("%d:%d: %v", e.Row, e.Col, e.Err)
 }
 type locatable interface {
 	locate() Location
 }
 type locatableRune struct {
 	Location
 	r rune
@ -38,12 +34,3 @@ type locatableString struct {
 	Location
 	str string
 }
 type locatableSlice[T locatable] []T
 func (s locatableSlice[T]) locate() Location {
 	if len(s) == 0 {
 		panic("can't locate empty locatableSlice")
 	}
 	return s[0].locate()
 }
--- a/gg/v2/term.go
+++ b/gg/v2/term.go
@ -9,6 +9,7 @@ import (
 	"unicode"
 	"github.com/mediocregopher/ginger/graph"
 	"golang.org/x/exp/slices"
 )
 var (
@ -27,7 +28,7 @@ func (str stringerStr) String() string {
 	return string(str)
 }
-type term[T locatable] struct {
+type term[T any] struct {
 	name     fmt.Stringer
 	decodeFn func(d *Decoder) (T, error)
 }
@ -36,7 +37,7 @@ func (t term[T]) String() string {
 	return t.name.String()
 }
-func firstOf[T locatable](terms ...*term[T]) *term[T] {
+func firstOf[T any](terms ...*term[T]) *term[T] {
 	if len(terms) < 2 {
 		panic("firstOfTerms requires at least 2 terms")
 	}
@ -67,11 +68,11 @@ func firstOf[T locatable](terms ...*term[T]) *term[T] {
 	}
 }
-func seq[Ta, Tb, Tc locatable](
+func seq[Ta, Tb, Tc any](
 	name fmt.Stringer,
 	termA *term[Ta],
 	termB *term[Tb],
-	fn func(Ta, Tb) (Tc, error),
+	fn func(Ta, Tb) Tc,
 ) *term[Tc] {
 	return &term[Tc]{
 		name: name,
@ -90,30 +91,25 @@ func seq[Ta, Tb, Tc locatable](
 				return zero, err
 			}
-			vc, err := fn(va, vb)
+			return fn(va, vb), nil
 			if err != nil {
 				return zero, err
 			}
 			return vc, nil
 		},
 	}
 }
-func matchAndSkip[Ta, Tb locatable](
+func matchAndSkip[Ta, Tb any](
 	termA *term[Ta], termB *term[Tb],
 ) *term[Tb] {
-	return seq(termA, termA, termB, func(_ Ta, b Tb) (Tb, error) {
+	return seq(termA, termA, termB, func(_ Ta, b Tb) Tb {
-		return b, nil
+		return b
 	})
 }
-func oneOrMore[T locatable](t *term[T]) *term[locatableSlice[T]] {
+func oneOrMore[T any](t *term[T]) *term[[]T] {
-	return &term[locatableSlice[T]]{
+	return &term[[]T]{
 		name: stringerFn(func() string {
 			return fmt.Sprintf("one or more %v", t)
 		}),
-		decodeFn: func(d *Decoder) (locatableSlice[T], error) {
+		decodeFn: func(d *Decoder) ([]T, error) {
 			var vv []T
 			for {
 				v, err := t.decodeFn(d)
@ -135,12 +131,12 @@ func oneOrMore[T locatable](t *term[T]) *term[locatableSlice[T]] {
 	}
 }
-func zeroOrMore[T locatable](t *term[T]) *term[locatableSlice[T]] {
+func zeroOrMore[T any](t *term[T]) *term[[]T] {
-	return &term[locatableSlice[T]]{
+	return &term[[]T]{
 		name: stringerFn(func() string {
 			return fmt.Sprintf("zero or more %v", t)
 		}),
-		decodeFn: func(d *Decoder) (locatableSlice[T], error) {
+		decodeFn: func(d *Decoder) ([]T, error) {
 			var vv []T
 			for {
 				v, err := t.decodeFn(d)
@ -158,7 +154,7 @@ func zeroOrMore[T locatable](t *term[T]) *term[locatableSlice[T]] {
 	}
 }
-func mapTerm[Ta locatable, Tb locatable](
+func mapTerm[Ta, Tb any](
 	name fmt.Stringer, t *term[Ta], fn func(Ta) Tb,
 ) *term[Tb] {
 	return &term[Tb]{
@ -204,7 +200,7 @@ func runeTerm(r rune) *term[locatableRune] {
 	)
 }
-func locatableRunesToString(rr locatableSlice[locatableRune]) string {
+func locatableRunesToString(rr []locatableRune) string {
 	str := make([]rune, len(rr))
 	for i := range rr {
 		str[i] = rr[i].r
@ -213,11 +209,11 @@ func locatableRunesToString(rr locatableSlice[locatableRune]) string {
 }
 func runesToStringTerm(
-	t *term[locatableSlice[locatableRune]],
+	t *term[[]locatableRune],
 ) *term[locatableString] {
 	return mapTerm(
-		t, t, func(rr locatableSlice[locatableRune]) locatableString {
+		t, t, func(rr []locatableRune) locatableString {
-			return locatableString{rr.locate(), locatableRunesToString(rr)}
+			return locatableString{rr[0].locate(), locatableRunesToString(rr)}
 		},
 	)
 }
@ -234,10 +230,8 @@ var (
 		stringerStr("negative-number"),
 		runeTerm('-'),
 		positiveNumberTerm,
-		func(neg locatableRune, posNum locatableString) (locatableString, error) {
+		func(neg locatableRune, posNum locatableString) locatableString {
-			return locatableString{
+			return locatableString{neg.locate(), string(neg.r) + posNum.str}
 				neg.locate(), string(neg.r) + posNum.str,
 			}, nil
 		},
 	)
@ -269,50 +263,125 @@ var (
 		stringerStr("name"),
 		letterTerm,
 		letterTailTerm,
-		func(head locatableRune, tail locatableSlice[locatableRune]) (Value, error) {
+		func(head locatableRune, tail []locatableRune) Value {
 			name := string(head.r) + locatableRunesToString(tail)
-			return Value{Name: &name, Location: head.locate()}, nil
+			return Value{Name: &name, Location: head.locate()}
 		},
 	)
 )
 func openEdgeIntoValue(val Value, oe *OpenEdge) *OpenEdge {
 	switch {
 	case oe == nil:
 		return graph.ValueOut(None, val)
 	case !oe.EdgeValue().Valid:
 		return oe.WithEdgeValue(Some(val))
 	default:
 		return graph.TupleOut(Some(val), oe)
 	}
 }
 var graphTerm = func() *term[Value] {
 	type tupleState struct {
 		ins []*OpenEdge
 		oe  *OpenEdge
 	}
 	type graphState struct {
-		Location // location of last place graphState was updated
+		g  *Graph
-		g        *Graph
+		oe *OpenEdge
 		oe       *OpenEdge
 	}
 	var (
-		// pre-define these, and then fill in the pointers after, in order to
+		rightParenthesis = runeTerm(')')
-		// deal with recursive dependencies between them.
+		tupleEndTerm     = mapTerm(
-		graphTerm             = new(term[Value])
+			rightParenthesis,
-		graphTailTerm         = new(term[graphState])
+			rightParenthesis,
-		graphOpenEdgeTerm     = new(term[graphState])
+			func(lr locatableRune) tupleState {
-		graphOpenEdgeTailTerm = new(term[graphState])
+				// if ')', then map that to an empty state. This acts as a
-		valueTerm             = new(term[Value])
+				// sentinel value to indicate "end of tuple".
 				return tupleState{}
 			},
 		)
 		rightCurlyBrace = runeTerm('}')
 		graphEndTerm    = mapTerm(
 			rightCurlyBrace,
-			rightCurlyBrace, func(lr locatableRune) graphState {
+			rightCurlyBrace,
 			func(lr locatableRune) graphState {
 				// if '}', then map that to an empty state. This acts as a
 				// sentinel value to indicate "end of graph".
-				return graphState{Location: lr.locate()}
+				return graphState{}
 			},
 		)
 	)
 	var (
 		// pre-define these, and then fill in the pointers after, in order to
 		// deal with recursive dependencies between them.
 		valueTerm = new(term[Value])
 		tupleTerm             = new(term[*OpenEdge])
 		tupleTailTerm         = new(term[tupleState])
 		tupleOpenEdgeTerm     = new(term[tupleState])
 		tupleOpenEdgeTailTerm = new(term[tupleState])
 		graphTerm                  = new(term[Value])
 		graphTailTerm              = new(term[graphState])
 		graphOpenEdgeTerm          = new(term[graphState])
 		graphOpenEdgeTailTerm      = new(term[graphState])
 		graphOpenEdgeValueTailTerm = new(term[graphState])
 	)
 	*tupleTerm = *seq(
 		stringerStr("tuple"),
 		runeTerm('('),
 		tupleTailTerm,
 		func(lr locatableRune, ts tupleState) *OpenEdge {
 			slices.Reverse(ts.ins)
 			return graph.TupleOut(None, ts.ins...)
 		},
 	)
 	*tupleTailTerm = *firstOf(
 		tupleEndTerm,
 		mapTerm(
 			tupleOpenEdgeTerm,
 			tupleOpenEdgeTerm,
 			func(ts tupleState) tupleState {
 				ts.ins = append(ts.ins, ts.oe)
 				ts.oe = nil
 				return ts
 			},
 		),
 	)
 	*tupleOpenEdgeTerm = *seq(
 		valueTerm,
 		valueTerm,
 		tupleOpenEdgeTailTerm,
 		func(val Value, ts tupleState) tupleState {
 			ts.oe = openEdgeIntoValue(val, ts.oe)
 			return ts
 		},
 	)
 	*tupleOpenEdgeTailTerm = *firstOf(
 		tupleEndTerm,
 		matchAndSkip(runeTerm(','), tupleTailTerm),
 		matchAndSkip(runeTerm('<'), tupleOpenEdgeTerm),
 	)
 	*graphTerm = *seq(
 		stringerStr("graph"),
 		runeTerm('{'),
 		graphTailTerm,
-		func(lr locatableRune, gs graphState) (Value, error) {
+		func(lr locatableRune, gs graphState) Value {
 			if gs.g == nil {
 				gs.g = new(Graph)
 			}
-			return Value{Graph: gs.g, Location: lr.locate()}, nil
+			return Value{Graph: gs.g, Location: lr.locate()}
 		},
 	)
@ -321,42 +390,48 @@ var graphTerm = func() *term[Value] {
 		seq(
 			nameTerm,
 			nameTerm,
-			matchAndSkip(runeTerm('='), graphOpenEdgeTailTerm),
+			matchAndSkip(runeTerm('='), graphOpenEdgeTerm),
-			func(name Value, gs graphState) (graphState, error) {
+			func(name Value, gs graphState) graphState {
 				if gs.g == nil {
 					gs.g = new(Graph)
 				}
 				gs.g = gs.g.AddValueIn(name, gs.oe)
 				gs.oe = nil
-				gs.Location = name.locate()
+				return gs
 				return gs, nil
 			},
 		),
 	)
 	*graphOpenEdgeTerm = *firstOf(
-		graphEndTerm,
+		seq(
-		matchAndSkip(runeTerm(';'), graphTailTerm),
+			valueTerm,
-		matchAndSkip(runeTerm('<'), graphOpenEdgeTailTerm),
+			valueTerm,
 			graphOpenEdgeValueTailTerm,
 			func(val Value, gs graphState) graphState {
 				gs.oe = openEdgeIntoValue(val, gs.oe)
 				return gs
 			},
 		),
 		seq(
 			tupleTerm,
 			tupleTerm,
 			graphOpenEdgeTailTerm,
 			func(oe *OpenEdge, gs graphState) graphState {
 				gs.oe = oe
 				return gs
 			},
 		),
 	)
-	*graphOpenEdgeTailTerm = *seq(
+	*graphOpenEdgeTailTerm = *firstOf(
-		valueTerm,
+		graphEndTerm,
-		valueTerm,
+		matchAndSkip(runeTerm(';'), graphTailTerm),
-		graphOpenEdgeTerm,
+	)
 		func(val Value, gs graphState) (graphState, error) {
 			if gs.oe == nil {
 				gs.oe = graph.ValueOut(None, val)
 			} else if !gs.oe.EdgeValue().Valid {
 				gs.oe = gs.oe.WithEdgeValue(Some(val))
 			} else {
 				gs.oe = graph.TupleOut(Some(val), gs.oe)
 			}
-			gs.Location = val.locate()
+	*graphOpenEdgeValueTailTerm = *firstOf(
-			return gs, nil
+		graphOpenEdgeTailTerm,
-		},
+		matchAndSkip(runeTerm('<'), graphOpenEdgeTerm),
 	)
 	*valueTerm = *firstOf(nameTerm, numberTerm, graphTerm)
--- a/gg/v2/term_test.go
+++ b/gg/v2/term_test.go
@ -84,7 +84,7 @@ func TestTermDecoding(t *testing.T) {
 		{in: `{}`, exp: expGraph(1, 1, new(Graph))},
 		{in: `{`, expErr: `1:2: expected '}' or name`},
 		{in: `{a}`, expErr: `1:3: expected '='`},
-		{in: `{a=}`, expErr: `1:4: expected name or number or graph`},
+		{in: `{a=}`, expErr: `1:4: expected name or number or graph or tuple`},
 		{
 			in: `{foo=a}`,
 			exp: expGraph(
@ -217,4 +217,89 @@ func TestTermDecoding(t *testing.T) {
 			),
 		},
 	})
 	runTests(t, "tuple", graphTerm, []test{
 		{
 			in: `{foo=(a)}`,
 			exp: expGraph(
 				1, 1, new(Graph).
 					AddValueIn(
 						expName(2, 1, "foo"),
 						graph.ValueOut(None, expName(6, 1, "a")),
 					),
 			),
 		},
 		{
 			in: `{foo=(a<b)}`,
 			exp: expGraph(
 				1, 1, new(Graph).
 					AddValueIn(
 						expName(2, 1, "foo"),
 						graph.ValueOut(
 							Some(expName(6, 1, "a")),
 							expName(8, 1, "b"),
 						),
 					),
 			),
 		},
 		{
 			in: `{foo=a<(b)}`,
 			exp: expGraph(
 				1, 1, new(Graph).
 					AddValueIn(
 						expName(2, 1, "foo"),
 						graph.ValueOut(
 							Some(expName(6, 1, "a")),
 							expName(8, 1, "b"),
 						),
 					),
 			),
 		},
 		{
 			in: `{foo=a<(b,c)}`,
 			exp: expGraph(
 				1, 1, new(Graph).
 					AddValueIn(
 						expName(2, 1, "foo"),
 						graph.TupleOut(
 							Some(expName(6, 1, "a")),
 							graph.ValueOut(None, expName(8, 1, "b")),
 							graph.ValueOut(None, expName(10, 1, "c")),
 						),
 					),
 			),
 		},
 		{
 			in: `{foo=a<(b<c)}`,
 			exp: expGraph(
 				1, 1, new(Graph).
 					AddValueIn(
 						expName(2, 1, "foo"),
 						graph.TupleOut(
 							Some(expName(6, 1, "a")),
 							graph.TupleOut(
 								Some(expName(6, 1, "b")),
 								graph.ValueOut(None, expName(8, 1, "c")),
 							),
 						),
 					),
 			),
 		},
 		//{
 		//	in: `{foo=a<(b<(c))}`,
 		//	exp: expGraph(
 		//		1, 1, new(Graph).
 		//			AddValueIn(
 		//				expName(2, 1, "foo"),
 		//				graph.TupleOut(
 		//					Some(expName(6, 1, "a")),
 		//					graph.TupleOut(
 		//						Some(expName(6, 1, "b")),
 		//						graph.ValueOut(None, expName(8, 1, "c")),
 		//					),
 		//				),
 		//			),
 		//	),
 		//},
 	})
 }
--- a/go.mod
+++ b/go.mod
@ -7,5 +7,6 @@ require github.com/stretchr/testify v1.7.0
 require (
 	github.com/davecgh/go-spew v1.1.0 // indirect
 	github.com/pmezard/go-difflib v1.0.0 // indirect
 	golang.org/x/exp v0.0.0-20231006140011-7918f672742d // indirect
 	gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c // indirect
 )
--- a/go.sum
+++ b/go.sum
@ -5,6 +5,8 @@ github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZN
 github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
 github.com/stretchr/testify v1.7.0 h1:nwc3DEeHmmLAfoZucVR881uASk0Mfjw8xYJ99tb5CcY=
 github.com/stretchr/testify v1.7.0/go.mod h1:6Fq8oRcR53rry900zMqJjRRixrwX3KX962/h/Wwjteg=
 golang.org/x/exp v0.0.0-20231006140011-7918f672742d h1:jtJma62tbqLibJ5sFQz8bKtEM8rJBtfilJ2qTU199MI=
 golang.org/x/exp v0.0.0-20231006140011-7918f672742d/go.mod h1:ldy0pHrwJyGW56pPQzzkH36rKxoZW1tw7ZJpeKx+hdo=
 gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405 h1:yhCVgyC4o1eVCa2tZl7eS0r+SDo693bJlVdllGtEeKM=
 gopkg.in/check.v1 v0.0.0-20161208181325-20d25e280405/go.mod h1:Co6ibVJAznAaIkqp8huTwlJQCZ016jof/cbN4VW5Yz0=
 gopkg.in/yaml.v3 v3.0.0-20200313102051-9f266ea9e77c h1:dUUwHk2QECo/6vqA44rthZ8ie2QXMNeKRTHCNY2nXvo=
--- a/graph/graph.go
+++ b/graph/graph.go
@ -126,7 +126,7 @@ func TupleOut[E, V Value](edgeVal E, ins ...*OpenEdge[E, V]) *OpenEdge[E, V] {
 	if len(ins) == 1 {
 		var (
-			zero V
+			zero E
 			in   = ins[0]
 		)
@ -353,7 +353,6 @@ type reducedEdge[Ea, Va Value, Vb any] struct {
 // If a value or edge is connected to multiple times within the root OpenEdge it
 // will only be mapped/reduced a single time, and the result of that single
 // map/reduction will be passed to each dependant operation.
 //
 func MapReduce[Ea, Va Value, Vb any](
 	root *OpenEdge[Ea, Va],
 	mapVal func(Va) (Vb, error),
Author	SHA1	Message	Date
Brian Picciano	303d40a6c3	WIP: clean up locatable stuff	2023-10-22 21:43:48 +02:00
Brian Picciano	b2f67afe50	WIP: added in tuples	2023-10-22 18:27:30 +02:00