mapper/cascade_test.go - KorAP/Koral-Mapper - Gitiles

 package mapper

 import (
 	"encoding/json"
 	"testing"

 	"github.com/KorAP/Koral-Mapper/config"
 	"github.com/stretchr/testify/assert"
 	"github.com/stretchr/testify/require"
 )

 // parseJSON is a test helper that unmarshals a JSON string.
 func parseJSON(t *testing.T, s string) any {
 	t.Helper()
 	var v any
 	require.NoError(t, json.Unmarshal([]byte(s), &v))
 	return v
 }

 func TestCascadeQueryTwoAnnotationMappings(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "ann-step1", FoundryA: "opennlp", LayerA: "p",
 			FoundryB: "stts", LayerB: "p",
 			Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
 		},
 		{
 			ID: "ann-step2", FoundryA: "stts", LayerA: "p",
 			FoundryB: "upos", LayerB: "p",
 			Mappings: []config.MappingRule{`[DET] <> [PRON]`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {
 			"@type": "koral:term",
 			"foundry": "opennlp",
 			"key": "PIDAT",
 			"layer": "p",
 			"match": "match:eq"
 		}
 	}`)

 	result, err := m.CascadeQueryMappings(
 		[]string{"ann-step1", "ann-step2"},
 		[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
 		input,
 	)
 	require.NoError(t, err)

 	expected := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {
 			"@type": "koral:term",
 			"foundry": "upos",
 			"key": "PRON",
 			"layer": "p",
 			"match": "match:eq"
 		}
 	}`)
 	assert.Equal(t, expected, result)
 }

 func TestCascadeQueryMixAnnotationAndCorpus(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "ann-mapper", FoundryA: "opennlp", LayerA: "p",
 			FoundryB: "upos", LayerB: "p",
 			Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
 		},
 		{
 			ID:       "corpus-mapper",
 			Type:     "corpus",
 			Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"query": {
 			"@type": "koral:token",
 			"wrap": {
 				"@type": "koral:term",
 				"foundry": "opennlp",
 				"key": "PIDAT",
 				"layer": "p",
 				"match": "match:eq"
 			}
 		},
 		"collection": {
 			"@type": "koral:doc",
 			"key": "textClass",
 			"value": "novel",
 			"match": "match:eq"
 		}
 	}`)

 	result, err := m.CascadeQueryMappings(
 		[]string{"ann-mapper", "corpus-mapper"},
 		[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
 		input,
 	)
 	require.NoError(t, err)

 	resultMap := result.(map[string]any)

 	query := resultMap["query"].(map[string]any)
 	wrap := query["wrap"].(map[string]any)
 	assert.Equal(t, "DET", wrap["key"])
 	assert.Equal(t, "upos", wrap["foundry"])

 	collection := resultMap["collection"].(map[string]any)
 	assert.Equal(t, "genre", collection["key"])
 	assert.Equal(t, "fiction", collection["value"])
 }

 func TestCascadeQuerySingleElement(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "single", FoundryA: "opennlp", LayerA: "p",
 		FoundryB: "upos", LayerB: "p",
 		Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
 	}})
 	require.NoError(t, err)

 	makeInput := func() any {
 		return parseJSON(t, `{
 			"@type": "koral:token",
 			"wrap": {
 				"@type": "koral:term",
 				"foundry": "opennlp",
 				"key": "PIDAT",
 				"layer": "p",
 				"match": "match:eq"
 			}
 		}`)
 	}

 	opts := MappingOptions{Direction: AtoB}

 	cascadeResult, err := m.CascadeQueryMappings(
 		[]string{"single"}, []MappingOptions{opts}, makeInput(),
 	)
 	require.NoError(t, err)

 	directResult, err := m.ApplyQueryMappings("single", opts, makeInput())
 	require.NoError(t, err)

 	assert.Equal(t, directResult, cascadeResult)
 }

 func TestCascadeQueryEmptyList(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "dummy", FoundryA: "x", LayerA: "y",
 		FoundryB: "a", LayerB: "b",
 		Mappings: []config.MappingRule{`[X] <> [Y]`},
 	}})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {"@type": "koral:term", "key": "Z"}
 	}`)

 	result, err := m.CascadeQueryMappings(nil, nil, input)
 	require.NoError(t, err)
 	assert.Equal(t, input, result)
 }

 func TestCascadeQueryUnknownID(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "known", FoundryA: "x", LayerA: "y",
 		FoundryB: "a", LayerB: "b",
 		Mappings: []config.MappingRule{`[X] <> [Y]`},
 	}})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {"@type": "koral:term", "key": "X"}
 	}`)

 	_, err = m.CascadeQueryMappings(
 		[]string{"known", "nonexistent"},
 		[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
 		input,
 	)
 	assert.Error(t, err)
 	assert.Contains(t, err.Error(), "nonexistent")
 }

 // --- Response cascade tests ---

 func TestCascadeQueryRewritesPreservedAcrossSteps(t *testing.T) {
 	// Step 1 changes foundry (opennlp->stts) and key (PIDAT->DET).
 	// Step 2 changes foundry (stts->upos) and key (DET->PRON).
 	// Rewrites from step 1 must survive step 2's replacement.
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "step1", FoundryA: "opennlp", LayerA: "p",
 			FoundryB: "stts", LayerB: "p",
 			Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
 		},
 		{
 			ID: "step2", FoundryA: "stts", LayerA: "p",
 			FoundryB: "upos", LayerB: "p",
 			Mappings: []config.MappingRule{`[DET] <> [PRON]`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {
 			"@type": "koral:term",
 			"foundry": "opennlp",
 			"key": "PIDAT",
 			"layer": "p",
 			"match": "match:eq"
 		}
 	}`)

 	result, err := m.CascadeQueryMappings(
 		[]string{"step1", "step2"},
 		[]MappingOptions{
 			{Direction: AtoB, AddRewrites: true},
 			{Direction: AtoB, AddRewrites: true},
 		},
 		input,
 	)
 	require.NoError(t, err)

 	// After both steps, the term should have one rewrite per step:
 	// step 1 recorded the full original term (opennlp/p/PIDAT),
 	// step 2 recorded the full original term (stts/p/DET).
 	expected := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {
 			"@type": "koral:term",
 			"foundry": "upos",
 			"key": "PRON",
 			"layer": "p",
 			"match": "match:eq",
 			"rewrites": [
 				{
 					"@type": "koral:rewrite",
 					"editor": "Koral-Mapper",
 					"original": {
 						"@type": "koral:term",
 						"foundry": "opennlp",
 						"key": "PIDAT",
 						"layer": "p",
 						"match": "match:eq"
 					}
 				},
 				{
 					"@type": "koral:rewrite",
 					"editor": "Koral-Mapper",
 					"original": {
 						"@type": "koral:term",
 						"foundry": "stts",
 						"key": "DET",
 						"layer": "p",
 						"match": "match:eq"
 					}
 				}
 			]
 		}
 	}`)
 	assert.Equal(t, expected, result)
 }

 func TestCascadeQueryRewritesPreservedStructuralChange(t *testing.T) {
 	// Step 1 changes foundry (opennlp->stts) and key (PIDAT->DET).
 	// Step 2 replaces Term with TermGroup (structural change).
 	// Rewrites from step 1 must be carried into the new TermGroup.
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "sc-step1", FoundryA: "opennlp", LayerA: "p",
 			FoundryB: "stts", LayerB: "p",
 			Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
 		},
 		{
 			ID: "sc-step2", FoundryA: "stts", LayerA: "p",
 			FoundryB: "tt", LayerB: "pos",
 			Mappings: []config.MappingRule{`[DET] <> [opennlp/p=DET & opennlp/p=PronType:Art]`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"@type": "koral:token",
 		"wrap": {
 			"@type": "koral:term",
 			"foundry": "opennlp",
 			"key": "PIDAT",
 			"layer": "p",
 			"match": "match:eq"
 		}
 	}`)

 	result, err := m.CascadeQueryMappings(
 		[]string{"sc-step1", "sc-step2"},
 		[]MappingOptions{
 			{Direction: AtoB, AddRewrites: true},
 			{Direction: AtoB, AddRewrites: true},
 		},
 		input,
 	)
 	require.NoError(t, err)

 	// Step 1 produced a single rewrite with the full original term (opennlp/p/PIDAT).
 	// Step 2 replaced the term with a TermGroup (structural change) and produced
 	// another single rewrite with the full original term (stts/p/DET).
 	// Both rewrites must appear on the TermGroup.
 	resultMap := result.(map[string]any)
 	wrap := resultMap["wrap"].(map[string]any)
 	require.Equal(t, "koral:termGroup", wrap["@type"])

 	rewrites := wrap["rewrites"].([]any)
 	require.Len(t, rewrites, 2)

 	// First rewrite is from step 1 (carried forward): full original term
 	rw0 := rewrites[0].(map[string]any)
 	assert.Equal(t, "Koral-Mapper", rw0["editor"])
 	original0 := rw0["original"].(map[string]any)
 	assert.Equal(t, "koral:term", original0["@type"])
 	assert.Equal(t, "PIDAT", original0["key"])
 	assert.Equal(t, "opennlp", original0["foundry"])

 	// Second rewrite is from step 2: full original term
 	rw1 := rewrites[1].(map[string]any)
 	assert.Equal(t, "Koral-Mapper", rw1["editor"])
 	original1 := rw1["original"].(map[string]any)
 	assert.Equal(t, "koral:term", original1["@type"])
 	assert.Equal(t, "DET", original1["key"])
 }

 func TestCascadeResponseTwoCorpusMappings(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "corpus-step1", Type: "corpus",
 			Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
 		},
 		{
 			ID: "corpus-step2", Type: "corpus",
 			Mappings: []config.MappingRule{`genre=fiction <> category=lit`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"fields": [{
 			"@type": "koral:field",
 			"key": "textClass",
 			"value": "novel",
 			"type": "type:string"
 		}]
 	}`)

 	result, err := m.CascadeResponseMappings(
 		[]string{"corpus-step1", "corpus-step2"},
 		[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
 		input,
 	)
 	require.NoError(t, err)

 	fields := result.(map[string]any)["fields"].([]any)
 	require.GreaterOrEqual(t, len(fields), 3)

 	assert.Equal(t, "textClass", fields[0].(map[string]any)["key"])

 	assert.Equal(t, "genre", fields[1].(map[string]any)["key"])
 	assert.Equal(t, "fiction", fields[1].(map[string]any)["value"])

 	assert.Equal(t, "category", fields[2].(map[string]any)["key"])
 	assert.Equal(t, "lit", fields[2].(map[string]any)["value"])
 }

 func TestCascadeResponseMixAnnotationAndCorpus(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{
 		{
 			ID: "ann-resp", FoundryA: "opennlp", LayerA: "p",
 			FoundryB: "upos", LayerB: "p",
 			Mappings: []config.MappingRule{`[DET] <> [PRON]`},
 		},
 		{
 			ID:       "corpus-resp",
 			Type:     "corpus",
 			Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
 		},
 	})
 	require.NoError(t, err)

 	input := parseJSON(t, `{
 		"snippet": "<span title=\"opennlp/p:DET\">Der</span>",
 		"fields": [{
 			"@type": "koral:field",
 			"key": "textClass",
 			"value": "novel",
 			"type": "type:string"
 		}]
 	}`)

 	result, err := m.CascadeResponseMappings(
 		[]string{"ann-resp", "corpus-resp"},
 		[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
 		input,
 	)
 	require.NoError(t, err)

 	resultMap := result.(map[string]any)

 	snippet := resultMap["snippet"].(string)
 	assert.Contains(t, snippet, "opennlp/p:DET")
 	assert.Contains(t, snippet, "upos/p:PRON")

 	fields := resultMap["fields"].([]any)
 	require.GreaterOrEqual(t, len(fields), 2)
 	assert.Equal(t, "genre", fields[1].(map[string]any)["key"])
 }

 func TestCascadeResponseSingleElement(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "corpus-single", Type: "corpus",
 		Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
 	}})
 	require.NoError(t, err)

 	makeInput := func() any {
 		return parseJSON(t, `{
 			"fields": [{
 				"@type": "koral:field",
 				"key": "textClass",
 				"value": "novel",
 				"type": "type:string"
 			}]
 		}`)
 	}

 	opts := MappingOptions{Direction: AtoB}

 	cascadeResult, err := m.CascadeResponseMappings(
 		[]string{"corpus-single"}, []MappingOptions{opts}, makeInput(),
 	)
 	require.NoError(t, err)

 	directResult, err := m.ApplyResponseMappings("corpus-single", opts, makeInput())
 	require.NoError(t, err)

 	assert.Equal(t, directResult, cascadeResult)
 }

 func TestCascadeResponseEmptyList(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "dummy", Type: "corpus",
 		Mappings: []config.MappingRule{`x=y <> a=b`},
 	}})
 	require.NoError(t, err)

 	input := parseJSON(t, `{"fields": []}`)

 	result, err := m.CascadeResponseMappings(nil, nil, input)
 	require.NoError(t, err)
 	assert.Equal(t, input, result)
 }

 func TestCascadeResponseUnknownID(t *testing.T) {
 	m, err := NewMapper([]config.MappingList{{
 		ID: "known", Type: "corpus",
 		Mappings: []config.MappingRule{`x=y <> a=b`},
 	}})
 	require.NoError(t, err)

 	_, err = m.CascadeResponseMappings(
 		[]string{"nonexistent"},
 		[]MappingOptions{{Direction: AtoB}},
 		parseJSON(t, `{"fields": []}`),
 	)
 	assert.Error(t, err)
 	assert.Contains(t, err.Error(), "nonexistent")
 }
	package mapper

	import (
	"encoding/json"
	"testing"

	"github.com/KorAP/Koral-Mapper/config"
	"github.com/stretchr/testify/assert"
	"github.com/stretchr/testify/require"
	)

	// parseJSON is a test helper that unmarshals a JSON string.
	func parseJSON(t *testing.T, s string) any {
	t.Helper()
	var v any
	require.NoError(t, json.Unmarshal([]byte(s), &v))
	return v
	}

	func TestCascadeQueryTwoAnnotationMappings(t *testing.T) {
	m, err := NewMapper([]config.MappingList{
	{
	ID: "ann-step1", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "stts", LayerB: "p",
	Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
	},
	{
	ID: "ann-step2", FoundryA: "stts", LayerA: "p",
	FoundryB: "upos", LayerB: "p",
	Mappings: []config.MappingRule{`[DET] <> [PRON]`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	}`)

	result, err := m.CascadeQueryMappings(
	[]string{"ann-step1", "ann-step2"},
	[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
	input,
	)
	require.NoError(t, err)

	expected := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "upos",
	"key": "PRON",
	"layer": "p",
	"match": "match:eq"
	}
	}`)
	assert.Equal(t, expected, result)
	}

	func TestCascadeQueryMixAnnotationAndCorpus(t *testing.T) {
	m, err := NewMapper([]config.MappingList{
	{
	ID: "ann-mapper", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "upos", LayerB: "p",
	Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
	},
	{
	ID: "corpus-mapper",
	Type: "corpus",
	Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"query": {
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	},
	"collection": {
	"@type": "koral:doc",
	"key": "textClass",
	"value": "novel",
	"match": "match:eq"
	}
	}`)

	result, err := m.CascadeQueryMappings(
	[]string{"ann-mapper", "corpus-mapper"},
	[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
	input,
	)
	require.NoError(t, err)

	resultMap := result.(map[string]any)

	query := resultMap["query"].(map[string]any)
	wrap := query["wrap"].(map[string]any)
	assert.Equal(t, "DET", wrap["key"])
	assert.Equal(t, "upos", wrap["foundry"])

	collection := resultMap["collection"].(map[string]any)
	assert.Equal(t, "genre", collection["key"])
	assert.Equal(t, "fiction", collection["value"])
	}

	func TestCascadeQuerySingleElement(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "single", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "upos", LayerB: "p",
	Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
	}})
	require.NoError(t, err)

	makeInput := func() any {
	return parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	}`)
	}

	opts := MappingOptions{Direction: AtoB}

	cascadeResult, err := m.CascadeQueryMappings(
	[]string{"single"}, []MappingOptions{opts}, makeInput(),
	)
	require.NoError(t, err)

	directResult, err := m.ApplyQueryMappings("single", opts, makeInput())
	require.NoError(t, err)

	assert.Equal(t, directResult, cascadeResult)
	}

	func TestCascadeQueryEmptyList(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "dummy", FoundryA: "x", LayerA: "y",
	FoundryB: "a", LayerB: "b",
	Mappings: []config.MappingRule{`[X] <> [Y]`},
	}})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {"@type": "koral:term", "key": "Z"}
	}`)

	result, err := m.CascadeQueryMappings(nil, nil, input)
	require.NoError(t, err)
	assert.Equal(t, input, result)
	}

	func TestCascadeQueryUnknownID(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "known", FoundryA: "x", LayerA: "y",
	FoundryB: "a", LayerB: "b",
	Mappings: []config.MappingRule{`[X] <> [Y]`},
	}})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {"@type": "koral:term", "key": "X"}
	}`)

	_, err = m.CascadeQueryMappings(
	[]string{"known", "nonexistent"},
	[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
	input,
	)
	assert.Error(t, err)
	assert.Contains(t, err.Error(), "nonexistent")
	}

	// --- Response cascade tests ---

	func TestCascadeQueryRewritesPreservedAcrossSteps(t *testing.T) {
	// Step 1 changes foundry (opennlp->stts) and key (PIDAT->DET).
	// Step 2 changes foundry (stts->upos) and key (DET->PRON).
	// Rewrites from step 1 must survive step 2's replacement.
	m, err := NewMapper([]config.MappingList{
	{
	ID: "step1", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "stts", LayerB: "p",
	Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
	},
	{
	ID: "step2", FoundryA: "stts", LayerA: "p",
	FoundryB: "upos", LayerB: "p",
	Mappings: []config.MappingRule{`[DET] <> [PRON]`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	}`)

	result, err := m.CascadeQueryMappings(
	[]string{"step1", "step2"},
	[]MappingOptions{
	{Direction: AtoB, AddRewrites: true},
	{Direction: AtoB, AddRewrites: true},
	},
	input,
	)
	require.NoError(t, err)

	// After both steps, the term should have one rewrite per step:
	// step 1 recorded the full original term (opennlp/p/PIDAT),
	// step 2 recorded the full original term (stts/p/DET).
	expected := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "upos",
	"key": "PRON",
	"layer": "p",
	"match": "match:eq",
	"rewrites": [
	{
	"@type": "koral:rewrite",
	"editor": "Koral-Mapper",
	"original": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	},
	{
	"@type": "koral:rewrite",
	"editor": "Koral-Mapper",
	"original": {
	"@type": "koral:term",
	"foundry": "stts",
	"key": "DET",
	"layer": "p",
	"match": "match:eq"
	}
	}
	]
	}
	}`)
	assert.Equal(t, expected, result)
	}

	func TestCascadeQueryRewritesPreservedStructuralChange(t *testing.T) {
	// Step 1 changes foundry (opennlp->stts) and key (PIDAT->DET).
	// Step 2 replaces Term with TermGroup (structural change).
	// Rewrites from step 1 must be carried into the new TermGroup.
	m, err := NewMapper([]config.MappingList{
	{
	ID: "sc-step1", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "stts", LayerB: "p",
	Mappings: []config.MappingRule{`[PIDAT] <> [DET]`},
	},
	{
	ID: "sc-step2", FoundryA: "stts", LayerA: "p",
	FoundryB: "tt", LayerB: "pos",
	Mappings: []config.MappingRule{`[DET] <> [opennlp/p=DET & opennlp/p=PronType:Art]`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"@type": "koral:token",
	"wrap": {
	"@type": "koral:term",
	"foundry": "opennlp",
	"key": "PIDAT",
	"layer": "p",
	"match": "match:eq"
	}
	}`)

	result, err := m.CascadeQueryMappings(
	[]string{"sc-step1", "sc-step2"},
	[]MappingOptions{
	{Direction: AtoB, AddRewrites: true},
	{Direction: AtoB, AddRewrites: true},
	},
	input,
	)
	require.NoError(t, err)

	// Step 1 produced a single rewrite with the full original term (opennlp/p/PIDAT).
	// Step 2 replaced the term with a TermGroup (structural change) and produced
	// another single rewrite with the full original term (stts/p/DET).
	// Both rewrites must appear on the TermGroup.
	resultMap := result.(map[string]any)
	wrap := resultMap["wrap"].(map[string]any)
	require.Equal(t, "koral:termGroup", wrap["@type"])

	rewrites := wrap["rewrites"].([]any)
	require.Len(t, rewrites, 2)

	// First rewrite is from step 1 (carried forward): full original term
	rw0 := rewrites[0].(map[string]any)
	assert.Equal(t, "Koral-Mapper", rw0["editor"])
	original0 := rw0["original"].(map[string]any)
	assert.Equal(t, "koral:term", original0["@type"])
	assert.Equal(t, "PIDAT", original0["key"])
	assert.Equal(t, "opennlp", original0["foundry"])

	// Second rewrite is from step 2: full original term
	rw1 := rewrites[1].(map[string]any)
	assert.Equal(t, "Koral-Mapper", rw1["editor"])
	original1 := rw1["original"].(map[string]any)
	assert.Equal(t, "koral:term", original1["@type"])
	assert.Equal(t, "DET", original1["key"])
	}

	func TestCascadeResponseTwoCorpusMappings(t *testing.T) {
	m, err := NewMapper([]config.MappingList{
	{
	ID: "corpus-step1", Type: "corpus",
	Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
	},
	{
	ID: "corpus-step2", Type: "corpus",
	Mappings: []config.MappingRule{`genre=fiction <> category=lit`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"fields": [{
	"@type": "koral:field",
	"key": "textClass",
	"value": "novel",
	"type": "type:string"
	}]
	}`)

	result, err := m.CascadeResponseMappings(
	[]string{"corpus-step1", "corpus-step2"},
	[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
	input,
	)
	require.NoError(t, err)

	fields := result.(map[string]any)["fields"].([]any)
	require.GreaterOrEqual(t, len(fields), 3)

	assert.Equal(t, "textClass", fields[0].(map[string]any)["key"])

	assert.Equal(t, "genre", fields[1].(map[string]any)["key"])
	assert.Equal(t, "fiction", fields[1].(map[string]any)["value"])

	assert.Equal(t, "category", fields[2].(map[string]any)["key"])
	assert.Equal(t, "lit", fields[2].(map[string]any)["value"])
	}

	func TestCascadeResponseMixAnnotationAndCorpus(t *testing.T) {
	m, err := NewMapper([]config.MappingList{
	{
	ID: "ann-resp", FoundryA: "opennlp", LayerA: "p",
	FoundryB: "upos", LayerB: "p",
	Mappings: []config.MappingRule{`[DET] <> [PRON]`},
	},
	{
	ID: "corpus-resp",
	Type: "corpus",
	Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
	},
	})
	require.NoError(t, err)

	input := parseJSON(t, `{
	"snippet": "<span title=\"opennlp/p:DET\">Der</span>",
	"fields": [{
	"@type": "koral:field",
	"key": "textClass",
	"value": "novel",
	"type": "type:string"
	}]
	}`)

	result, err := m.CascadeResponseMappings(
	[]string{"ann-resp", "corpus-resp"},
	[]MappingOptions{{Direction: AtoB}, {Direction: AtoB}},
	input,
	)
	require.NoError(t, err)

	resultMap := result.(map[string]any)

	snippet := resultMap["snippet"].(string)
	assert.Contains(t, snippet, "opennlp/p:DET")
	assert.Contains(t, snippet, "upos/p:PRON")

	fields := resultMap["fields"].([]any)
	require.GreaterOrEqual(t, len(fields), 2)
	assert.Equal(t, "genre", fields[1].(map[string]any)["key"])
	}

	func TestCascadeResponseSingleElement(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "corpus-single", Type: "corpus",
	Mappings: []config.MappingRule{`textClass=novel <> genre=fiction`},
	}})
	require.NoError(t, err)

	makeInput := func() any {
	return parseJSON(t, `{
	"fields": [{
	"@type": "koral:field",
	"key": "textClass",
	"value": "novel",
	"type": "type:string"
	}]
	}`)
	}

	opts := MappingOptions{Direction: AtoB}

	cascadeResult, err := m.CascadeResponseMappings(
	[]string{"corpus-single"}, []MappingOptions{opts}, makeInput(),
	)
	require.NoError(t, err)

	directResult, err := m.ApplyResponseMappings("corpus-single", opts, makeInput())
	require.NoError(t, err)

	assert.Equal(t, directResult, cascadeResult)
	}

	func TestCascadeResponseEmptyList(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "dummy", Type: "corpus",
	Mappings: []config.MappingRule{`x=y <> a=b`},
	}})
	require.NoError(t, err)

	input := parseJSON(t, `{"fields": []}`)

	result, err := m.CascadeResponseMappings(nil, nil, input)
	require.NoError(t, err)
	assert.Equal(t, input, result)
	}

	func TestCascadeResponseUnknownID(t *testing.T) {
	m, err := NewMapper([]config.MappingList{{
	ID: "known", Type: "corpus",
	Mappings: []config.MappingRule{`x=y <> a=b`},
	}})
	require.NoError(t, err)

	_, err = m.CascadeResponseMappings(
	[]string{"nonexistent"},
	[]MappingOptions{{Direction: AtoB}},
	parseJSON(t, `{"fields": []}`),
	)
	assert.Error(t, err)
	assert.Contains(t, err.Error(), "nonexistent")
	}