| package mapper |
| |
| import ( |
| "encoding/json" |
| "testing" |
| |
| "github.com/KorAP/Koral-Mapper/config" |
| "github.com/stretchr/testify/assert" |
| "github.com/stretchr/testify/require" |
| ) |
| |
| // TestResponseMappingAnnotationCreation tests creating new annotations based on RestrictToObligatory |
| func TestResponseMappingAnnotationCreation(t *testing.T) { |
| // Simple snippet with a single annotated token |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/m:gender:masc\">Der</span>" |
| }` |
| |
| // Create test mapping list |
| mappingList := config.MappingList{ |
| ID: "test-mapper", |
| FoundryA: "marmot", |
| LayerA: "m", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[gender:masc] <> [p=M & m=M]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // For step 4, we should at least get back a processed result (even if snippet is unchanged) |
| // The main test is that no errors occurred in the processing |
| assert.NotNil(t, result) |
| |
| // Verify the result is still a map with a snippet field |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| assert.Equal(t, "<span title=\"marmot/m:gender:masc\"><span title=\"opennlp/p:M\" class=\"notinindex\"><span title=\"opennlp/m:M\" class=\"notinindex\">Der</span></span></span>", resultMap["snippet"]) |
| } |
| |
| // TestResponseMappingDebug helps debug the mapping process |
| func TestResponseMappingDebug(t *testing.T) { |
| // Simple snippet with a single annotated token |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/m:gender:masc\">Der</span>" |
| }` |
| |
| // Create test mapping list |
| mappingList := config.MappingList{ |
| ID: "test-mapper", |
| FoundryA: "marmot", |
| LayerA: "m", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[gender=masc] <> [p=M & m=M]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| // Debug: Print what the parsed rules look like |
| rules := m.parsedQueryRules["test-mapper"] |
| t.Logf("Number of parsed rules: %d", len(rules)) |
| for i, rule := range rules { |
| t.Logf("Rule %d - Upper: %+v", i, rule.Upper) |
| t.Logf("Rule %d - Lower: %+v", i, rule.Lower) |
| } |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| // Include proper foundry and layer information in the options |
| result, err := m.ApplyResponseMappings("test-mapper", MappingOptions{ |
| Direction: AtoB, |
| FoundryA: "marmot", |
| LayerA: "m", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| }, inputData) |
| assert.Nil(t, err) |
| t.Logf("Result: %+v", result) |
| } |
| |
| // TestResponseMappingWithAndRelation tests mapping rules with AND relations |
| func TestResponseMappingWithAndRelation(t *testing.T) { |
| // Snippet with multiple annotations on a single token - both must be on the same span for AND to work |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\"><span title=\"marmot/p:gender:masc\">Der</span></span>" |
| }` |
| |
| // Create test mapping list with AND relation |
| mappingList := config.MappingList{ |
| ID: "test-and-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET & gender:masc] <> [p=DT & case=nom]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-and-mapper", MappingOptions{ |
| Direction: AtoB, |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| }, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result contains the expected annotations |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| // Should contain both new annotations - checking the actual format produced |
| assert.Contains(t, snippet, `title="marmot/p:DET"`) |
| assert.Contains(t, snippet, `title="opennlp/p:DT"`) |
| assert.Contains(t, snippet, `title="marmot/p:gender:masc"`) |
| assert.Contains(t, snippet, `title="opennlp/case:nom"`) // Format is foundry/layer:value for single values |
| assert.Contains(t, snippet, `class="notinindex"`) |
| } |
| |
| // TestResponseMappingWithOrRelation tests mapping rules with OR relations |
| func TestResponseMappingWithOrRelation(t *testing.T) { |
| // Snippet with one token that matches the OR condition |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span>" |
| }` |
| |
| // Create test mapping list with OR relation |
| mappingList := config.MappingList{ |
| ID: "test-or-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET | ART] <> [determiner=true]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-or-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| |
| assert.Contains(t, snippet, `title="marmot/p:DET"`) |
| assert.Contains(t, snippet, `title="opennlp/determiner:true" class="notinindex"`) |
| assert.NotEmpty(t, snippet) |
| } |
| |
| // TestResponseMappingComplexPattern1 tests complex nested patterns |
| func TestResponseMappingComplexPattern1(t *testing.T) { |
| // Snippet with a token that has nested annotations |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:ADJA\"><span title=\"marmot/m:gender:masc\"><span title=\"marmot/m:case:nom\">alter</span></span></span>" |
| }` |
| |
| // Create test mapping list with complex pattern |
| mappingList := config.MappingList{ |
| ID: "test-complex-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[ADJA & gender=masc & case=nom] <> [pos=ADJ & gender=M & case=NOM]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-complex-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result contains the expected annotations |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| assert.Contains(t, snippet, `title="marmot/p:ADJA`) |
| assert.Contains(t, snippet, `title="marmot/m:gender:masc`) |
| assert.NotContains(t, snippet, `title="opennlp`) |
| assert.NotEmpty(t, snippet) // At minimum, processing should succeed |
| } |
| |
| // TestResponseMappingComplexPattern2 tests complex nested patterns |
| func TestResponseMappingComplexPattern2(t *testing.T) { |
| // Snippet with a token that has nested annotations |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:ADJA\"><span title=\"marmot/p:gender:masc\"><span title=\"marmot/p:case:nom\">alter</span></span></span>" |
| }` |
| |
| // Create test mapping list with complex pattern |
| mappingList := config.MappingList{ |
| ID: "test-complex-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[ADJA & gender:masc & case:nom] <> [pos=ADJ & gender=M & case=NOM]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-complex-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result contains the expected annotations |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| assert.Contains(t, snippet, `title="marmot/p:ADJA`) |
| assert.Contains(t, snippet, `title="marmot/p:gender:masc`) |
| assert.Contains(t, snippet, `title="opennlp/pos:ADJ" class="notinindex"`) |
| assert.Contains(t, snippet, `title="opennlp/gender:M" class="notinindex"`) |
| assert.Contains(t, snippet, `title="opennlp/case:NOM" class="notinindex"`) |
| assert.NotEmpty(t, snippet) // At minimum, processing should succeed |
| } |
| |
| // TestResponseMappingMultipleTokens tests mapping across multiple tokens |
| func TestResponseMappingMultipleTokens(t *testing.T) { |
| // Snippet with multiple tokens |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span> <span title=\"marmot/p:ADJA\"><span title=\"marmot/m:gender:masc\">alte</span></span> <span title=\"marmot/p:NN\">Mann</span>" |
| }` |
| |
| // Create test mapping list that matches multiple patterns |
| mappingList := config.MappingList{ |
| ID: "test-multi-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [determiner=true]", |
| "[ADJA & gender:masc] <> [adjective=true & gender=M]", |
| "[NN] <> [noun=true]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-multi-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| // Should contain annotations for each matching token (checking actual output format) |
| assert.Contains(t, snippet, `title="marmot/p:DET"`) |
| assert.Contains(t, snippet, `title="opennlp/determiner:true" class="notinindex"`) // Format is foundry/layer:value for single values |
| assert.NotContains(t, snippet, `title="opennlp/adjective:true" class="notinindex"`) |
| assert.Contains(t, snippet, `title="opennlp/noun:true" class="notinindex"`) |
| } |
| |
| // TestResponseMappingNoMatch tests behavior when no patterns match |
| func TestResponseMappingNoMatch(t *testing.T) { |
| // Snippet with tokens that don't match the pattern |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:VERB\">läuft</span>" |
| }` |
| |
| // Create test mapping list with pattern that won't match |
| mappingList := config.MappingList{ |
| ID: "test-nomatch-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [determiner=true]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-nomatch-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result is unchanged since no patterns matched |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| // Should be the original snippet without new annotations |
| assert.Equal(t, `<span title="marmot/p:VERB">läuft</span>`, snippet) |
| assert.NotContains(t, snippet, `class="notinindex"`) |
| } |
| |
| // TestResponseMappingBidirectional tests bidirectional mapping (B to A direction) |
| func TestResponseMappingBidirectional(t *testing.T) { |
| // Snippet with opennlp annotations |
| responseSnippet := `{ |
| "snippet": "<span title=\"opennlp/p:DT\"><span title=\"opennlp/p:determiner:true\">Der</span></span>" |
| }` |
| |
| // Create test mapping list |
| mappingList := config.MappingList{ |
| ID: "test-bidirectional-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT & determiner:true]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| // Test B to A direction |
| result, err := m.ApplyResponseMappings("test-bidirectional-mapper", MappingOptions{Direction: BtoA}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| |
| assert.Contains(t, snippet, `title="opennlp/p:DT"`) |
| assert.Contains(t, snippet, `title="marmot/p:DET" class="notinindex"`) |
| assert.NotEmpty(t, snippet) // At minimum, processing should succeed |
| } |
| |
| // TestResponseMappingWithValuePatterns tests patterns with specific values |
| func TestResponseMappingWithValuePatterns(t *testing.T) { |
| // Snippet with value-specific annotations |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/m:case:nom\"><span title=\"marmot/m:gender:fem\">die</span></span>" |
| }` |
| |
| // Create test mapping list with value-specific patterns |
| mappingList := config.MappingList{ |
| ID: "test-value-mapper", |
| FoundryA: "marmot", |
| LayerA: "m", |
| FoundryB: "opennlp", |
| LayerB: "m", |
| Mappings: []config.MappingRule{ |
| "[case:nom & gender:fem] <> [case=NOM & gender=F]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-value-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| assert.Contains(t, snippet, `title="marmot/m:case:nom"`) // Format is foundry/layer:value |
| assert.Contains(t, snippet, `title="opennlp/case:NOM" class="notinindex"`) // Format is foundry/layer:value |
| assert.Contains(t, snippet, `title="opennlp/gender:F" class="notinindex"`) |
| } |
| |
| // TestResponseMappingNestedSpans tests handling of deeply nested span structures |
| func TestResponseMappingNestedSpans(t *testing.T) { |
| // Snippet with deeply nested spans |
| responseSnippet := `{ |
| "snippet": "<span title=\"level1/l:outer\"><span title=\"level2/l:middle\"><span title=\"marmot/p:DET\">der</span></span></span>", |
| "author": "John Doe" |
| }` |
| |
| // Create test mapping list |
| mappingList := config.MappingList{ |
| ID: "test-nested-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [determiner=yes]", |
| }, |
| } |
| |
| // Create a new mapper |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| assert.Nil(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-nested-mapper", MappingOptions{Direction: AtoB}, inputData) |
| assert.Nil(t, err) |
| |
| // Verify the result preserves the nested structure and adds new annotations |
| resultMap, ok := result.(map[string]any) |
| assert.True(t, ok) |
| assert.Contains(t, resultMap, "snippet") |
| |
| snippet := resultMap["snippet"].(string) |
| // Should contain the new annotation while preserving existing structure |
| assert.Contains(t, snippet, `title="opennlp/determiner:yes"`) // Format is foundry/layer:value |
| assert.Contains(t, snippet, `class="notinindex"`) |
| assert.Contains(t, snippet, `title="level1/l:outer"`) |
| assert.Contains(t, snippet, `title="level2/l:middle"`) |
| assert.Contains(t, snippet, `title="marmot/p:DET"`) |
| |
| author := resultMap["author"].(string) |
| assert.Equal(t, "John Doe", author) |
| } |
| |
| // TestResponseAnnotationDuplicateTokenText tests that when the same token text |
| // appears multiple times, only the correct occurrence is annotated based on its |
| // annotation context (not string position). |
| func TestResponseAnnotationDuplicateTokenText(t *testing.T) { |
| // "Der" appears twice: first as NN (no match), then as DET (match). |
| // The old string-heuristic would annotate the first "Der" because it |
| // finds the first occurrence preceded by ">". |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:NN\">Der</span> <span title=\"marmot/p:DET\">Der</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-dup-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-dup-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| // Only the second "Der" (DET) should be annotated |
| expected := `<span title="marmot/p:NN">Der</span> <span title="marmot/p:DET"><span title="opennlp/p:DT" class="notinindex">Der</span></span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationTextInTitle verifies that the SAX rewriter only wraps |
| // text nodes, not content inside title attributes, even when the token text |
| // matches part of an attribute value. |
| func TestResponseAnnotationTextInTitle(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:NN\">NN</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-title-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-title-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| expected := `<span title="marmot/p:NN"><span title="opennlp/p:NOUN" class="notinindex">NN</span></span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationWhitespaceAroundText tests that annotations are applied |
| // even when there is whitespace between the enclosing tag and the text content. |
| // The old string-heuristic fails because it requires ">" immediately before the text. |
| func TestResponseAnnotationWhitespaceAroundText(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\"> Der </span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-ws-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-ws-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| // Whitespace should be preserved, annotation wraps only the token text |
| expected := `<span title="marmot/p:DET"> <span title="opennlp/p:DT" class="notinindex">Der</span> </span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationCrossElementText tests annotation of individual tokens |
| // whose text spans across sibling/child elements. |
| func TestResponseAnnotationCrossElementText(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Die</span> <span title=\"base/s:s\"><span title=\"marmot/p:NN\">Sonne</span></span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-cross-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-cross-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| assert.Contains(t, snippet, `<span title="opennlp/p:DT" class="notinindex">Die</span>`) |
| assert.Contains(t, snippet, `<span title="opennlp/p:NOUN" class="notinindex">Sonne</span>`) |
| assert.Contains(t, snippet, `title="base/s:s"`) |
| } |
| |
| // TestResponseAnnotationSubstringToken tests that a short token ("er") is |
| // annotated only in its own text node and not when it appears as a prefix of |
| // another word ("er Mann") in an earlier text node. |
| func TestResponseAnnotationSubstringToken(t *testing.T) { |
| // "er" appears at the start of "er Mann" (NN span) and as standalone (PPER span). |
| // The old heuristic matches the first occurrence because "er" is preceded by ">" |
| // and followed by " ". |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:NN\">er Mann</span> <span title=\"marmot/p:PPER\">er</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-sub-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[PPER] <> [PRP]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-sub-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| // The NN "er Mann" must remain unchanged; only the PPER "er" gets annotated |
| expected := `<span title="marmot/p:NN">er Mann</span> <span title="marmot/p:PPER"><span title="opennlp/p:PRP" class="notinindex">er</span></span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationSelfClosingTags verifies that self-closing tags like |
| // <br/> are preserved and do not interfere with annotation insertion. |
| func TestResponseAnnotationSelfClosingTags(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span><br/><span title=\"marmot/p:NN\">Mann</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-br-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-br-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| assert.Contains(t, snippet, "<br/>") |
| assert.Contains(t, snippet, `<span title="opennlp/p:DT" class="notinindex">Der</span>`) |
| assert.Contains(t, snippet, `<span title="opennlp/p:NOUN" class="notinindex">Mann</span>`) |
| } |
| |
| // TestResponseAnnotationEntityReferences verifies that entity references |
| // (&, <, etc.) are correctly preserved in output. |
| func TestResponseAnnotationEntityReferences(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:NN\">Haus & Hof</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-entity-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-entity-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| // Entity reference must be preserved (re-encoded) in the annotated output |
| expected := `<span title="marmot/p:NN"><span title="opennlp/p:NOUN" class="notinindex">Haus & Hof</span></span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationEntityLtGt verifies < and > are re-encoded. |
| func TestResponseAnnotationEntityLtGt(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:SYM\"><tag></span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-ltgt-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[SYM] <> [PUNCT]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-ltgt-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| expected := `<span title="marmot/p:SYM"><span title="opennlp/p:PUNCT" class="notinindex"><tag></span></span>` |
| assert.Equal(t, expected, snippet) |
| } |
| |
| // TestResponseAnnotationCDATAGraceful verifies that a CDATA section in the |
| // snippet does not cause errors and is passed through unchanged. |
| func TestResponseAnnotationCDATAGraceful(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span><![CDATA[ raw ]]><span title=\"marmot/p:NN\">Mann</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-cdata-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-cdata-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| assert.Contains(t, snippet, "<![CDATA[ raw ]]>") |
| assert.Contains(t, snippet, `<span title="opennlp/p:NOUN" class="notinindex">Mann</span>`) |
| } |
| |
| // TestResponseAnnotationOverlappingSpans verifies that when two independent |
| // rules match the same token, both annotations are applied. |
| func TestResponseAnnotationOverlappingSpans(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\"><span title=\"marmot/m:case:nom\">Der</span></span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-overlap-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-overlap-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| // The existing nested structure must be preserved, with new annotation added |
| assert.Contains(t, snippet, `title="marmot/p:DET"`) |
| assert.Contains(t, snippet, `title="marmot/m:case:nom"`) |
| assert.Contains(t, snippet, `title="opennlp/p:DT" class="notinindex"`) |
| assert.Contains(t, snippet, "Der") |
| } |
| |
| // TestResponseAnnotationEmptyTextNodes verifies that empty or whitespace-only |
| // text nodes are passed through without errors and without spurious annotations. |
| func TestResponseAnnotationEmptyTextNodes(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\"></span> <span title=\"marmot/p:NN\">Mann</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-empty-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-empty-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| // The empty DET span should not get an annotation |
| // The NN token "Mann" should be annotated |
| assert.Contains(t, snippet, `<span title="marmot/p:DET"></span>`) |
| assert.Contains(t, snippet, `<span title="opennlp/p:NOUN" class="notinindex">Mann</span>`) |
| } |
| |
| // TestResponseAnnotationWhitespaceOnlyNodes verifies that whitespace-only text |
| // nodes are preserved without annotations. |
| func TestResponseAnnotationWhitespaceOnlyNodes(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\"> </span><span title=\"marmot/p:NN\">Mann</span>" |
| }` |
| |
| mappingList := config.MappingList{ |
| ID: "test-wsonly-mapper", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", |
| "[NN] <> [NOUN]", |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| result, err := m.ApplyResponseMappings("test-wsonly-mapper", MappingOptions{Direction: AtoB}, inputData) |
| require.NoError(t, err) |
| |
| snippet := result.(map[string]any)["snippet"].(string) |
| |
| // Whitespace-only text should not be annotated |
| assert.Contains(t, snippet, `<span title="marmot/p:DET"> </span>`) |
| assert.Contains(t, snippet, `<span title="opennlp/p:NOUN" class="notinindex">Mann</span>`) |
| } |
| |
| // TestResponseMappingWithLayerOverride tests layer precedence rules |
| func TestResponseMappingWithLayerOverride(t *testing.T) { |
| // Test 1: Explicit layer in mapping rule should take precedence over MappingOptions |
| t.Run("Explicit layer takes precedence", func(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span>" |
| }` |
| |
| // Mapping rule with explicit layer [p=DT] - this should NOT be overridden |
| mappingList := config.MappingList{ |
| ID: "test-layer-precedence", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", // default layer |
| Mappings: []config.MappingRule{ |
| "[DET] <> [p=DT]", // Explicit layer "p" should not be overridden |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| // Apply with layer override - should NOT affect explicit layer in mapping rule |
| result, err := m.ApplyResponseMappings("test-layer-precedence", MappingOptions{ |
| Direction: AtoB, |
| LayerB: "pos", // This should NOT override the explicit "p" layer in [p=DT] |
| }, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| // Should use explicit layer "p" from mapping rule, NOT "pos" from override |
| assert.Contains(t, snippet, `title="opennlp/p:DT" class="notinindex"`) |
| assert.NotContains(t, snippet, `title="opennlp/pos:DT" class="notinindex"`) |
| }) |
| |
| // Test 2: Implicit layer in mapping rule should use MappingOptions layer override |
| t.Run("Implicit layer uses MappingOptions override", func(t *testing.T) { |
| responseSnippet := `{ |
| "snippet": "<span title=\"marmot/p:DET\">Der</span>" |
| }` |
| |
| // Mapping rule with implicit layer [DT] - this should use layer override |
| mappingList := config.MappingList{ |
| ID: "test-layer-override", |
| FoundryA: "marmot", |
| LayerA: "p", |
| FoundryB: "opennlp", |
| LayerB: "p", // default layer |
| Mappings: []config.MappingRule{ |
| "[DET] <> [DT]", // No explicit layer - should use override |
| }, |
| } |
| |
| m, err := NewMapper([]config.MappingList{mappingList}) |
| require.NoError(t, err) |
| |
| var inputData any |
| err = json.Unmarshal([]byte(responseSnippet), &inputData) |
| require.NoError(t, err) |
| |
| // Apply with layer override - should affect implicit layer in mapping rule |
| result, err := m.ApplyResponseMappings("test-layer-override", MappingOptions{ |
| Direction: AtoB, |
| LayerB: "pos", // This should override the default layer for [DT] |
| }, inputData) |
| require.NoError(t, err) |
| |
| resultMap := result.(map[string]any) |
| snippet := resultMap["snippet"].(string) |
| |
| // Should use layer "pos" from override, NOT default "p" layer |
| assert.Contains(t, snippet, `title="opennlp/pos:DT" class="notinindex"`) |
| assert.NotContains(t, snippet, `title="opennlp/p:DT" class="notinindex"`) |
| }) |
| } |