modelRT/model/redis_recommend_test.go

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package model
import (
"fmt"
"reflect"
"strings"
"testing"
"modelRT/constants"
)
func TestFuzzyRecommendOffsetUsesFullMatchedInput(t *testing.T) {
tests := []struct {
name string
searchPrefix string
searchInput string
want int
}{
{
name: "zone fuzzy prefix",
searchPrefix: "grid000",
searchInput: "z",
want: len([]rune("grid000.z")),
},
{
name: "level one fuzzy",
searchPrefix: "",
searchInput: "g",
want: len([]rune("g")),
},
{
name: "measurement fuzzy preserves config token",
searchPrefix: "grid.zone.station.nspath.comp.config",
searchInput: "m",
want: len([]rune("grid.zone.station.nspath.comp.config.m")),
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := fuzzyRecommendOffset(tt.searchPrefix, tt.searchInput)
if got != tt.want {
t.Fatalf("expected offset %d, got %d", tt.want, got)
}
})
}
}
func TestNormalizeRecommendResultsUsesInputLengthForExactCompletion(t *testing.T) {
tests := []struct {
name string
input string
}{
{
name: "full token1 to token7 structure",
input: "grid000.zone000.station000.220kV_学府路1-testProject1.compTag.config.IA_rms_CTA-testProject1",
},
{
name: "local token4 to token7 structure",
input: "220kV_学府路1-testProject1.IA_rms_CTA-testProject1",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
results := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: []string{""},
IsFuzzy: false,
},
}
got := normalizeRecommendResults(tt.input, results)
result := got[constants.MeasTagRecommendHierarchyType.String()]
wantOffset := len([]rune(tt.input))
if result.Offset != wantOffset {
t.Fatalf("expected offset %d, got %d", wantOffset, result.Offset)
}
if len(result.QueryDatas) != 0 {
t.Fatalf("expected exact completion to return no suffix, got %v", result.QueryDatas)
}
})
}
}
func TestNormalizeRecommendResultsUsesInputLengthForLevelContinuation(t *testing.T) {
tests := []struct {
name string
input string
recommendType constants.RecommendHierarchyType
}{
{
name: "token1 grid can continue",
input: "grid000",
recommendType: constants.GridRecommendHierarchyType,
},
{
name: "token1 token2 zone can continue",
input: "grid000.zone000",
recommendType: constants.ZoneRecommendHierarchyType,
},
{
name: "token1 token2 token3 station can continue",
input: "grid000.zone000.station000",
recommendType: constants.StationRecommendHierarchyType,
},
{
name: "token1 token2 token3 token4 nspath can continue",
input: "grid000.zone000.station000.110kV_TV-demoProject",
recommendType: constants.CompNSPathRecommendHierarchyType,
},
{
name: "token1 token2 token3 token4 token5 compTag can continue",
input: "grid000.zone000.station000.110kV_TV-demoProject.cable_26-demoProject110kV_TV",
recommendType: constants.CompTagRecommendHierarchyType,
},
{
name: "token1 through token6 config can continue",
input: "grid000.zone000.station000.110kV_TV-demoProject.cable_26-demoProject110kV_TV.base_extend",
recommendType: constants.ConfigRecommendHierarchyType,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
results := map[string]SearchResult{
tt.recommendType.String(): {
RecommendType: tt.recommendType,
QueryDatas: []string{"."},
IsFuzzy: false,
},
}
got := normalizeRecommendResults(tt.input, results)
result := got[tt.recommendType.String()]
wantOffset := len([]rune(tt.input))
if result.Offset != wantOffset {
t.Fatalf("expected offset %d, got %d", wantOffset, result.Offset)
}
if len(result.QueryDatas) != 1 || result.QueryDatas[0] != "." {
t.Fatalf("expected level continuation '.', got %v", result.QueryDatas)
}
})
}
}
func TestNormalizeRecommendResultsKeepsFallbackOffsetZero(t *testing.T) {
input := "x"
results := map[string]SearchResult{
constants.GridRecommendHierarchyType.String(): {
RecommendType: constants.GridRecommendHierarchyType,
QueryDatas: []string{"grid000", "grid001"},
IsFuzzy: true,
IsFallback: true,
Offset: 0,
},
constants.CompNSPathRecommendHierarchyType.String(): {
RecommendType: constants.CompNSPathRecommendHierarchyType,
QueryDatas: []string{"nspath000", "nspath001"},
IsFuzzy: true,
IsFallback: true,
Offset: 0,
},
}
got := normalizeRecommendResults(input, results)
for key, result := range got {
if result.Offset != 0 {
t.Fatalf("expected fallback offset 0 for %s, got %d", key, result.Offset)
}
if len(result.QueryDatas) != 2 {
t.Fatalf("expected fallback recommends to remain intact for %s, got %v", key, result.QueryDatas)
}
}
}
func TestNormalizeRecommendResultsKeepsParentPrefixOffsetForSpecificFallback(t *testing.T) {
nsPath := "220kV_学府路1-testProject1"
input := nsPath + ".x"
offset := recommendPrefixOffset([]string{nsPath})
results := map[string]SearchResult{
constants.CompTagRecommendHierarchyType.String(): {
RecommendType: constants.CompTagRecommendHierarchyType,
QueryDatas: []string{
nsPath + ".CTA-testProject1220kV_学府路1",
nsPath + ".CB-testProject1220kV_学府路1",
},
IsFuzzy: true,
IsFallback: true,
Offset: offset,
},
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: []string{
nsPath + ".IA_rms_CTA-testProject1",
nsPath + ".IB_rms_CTA-testProject1",
},
IsFuzzy: true,
IsFallback: true,
Offset: offset,
},
}
got := normalizeRecommendResults(input, results)
if offset != 24 {
t.Fatalf("expected sample parent prefix offset 24, got %d", offset)
}
for key, result := range got {
if result.Offset != 24 {
t.Fatalf("expected specific fallback offset 24 for %s, got %d", key, result.Offset)
}
for _, recommend := range result.QueryDatas {
if strings.HasPrefix(recommend, nsPath+".") {
t.Fatalf("expected trimmed fallback recommend for %s, got %s", key, recommend)
}
}
}
}
func TestNormalizeRecommendResultsTrimsConfigFuzzySuffixes(t *testing.T) {
input := "110kV_TV-testProject1.cable_22-testProject1110kV_TV.base_extend.c"
offset := len([]rune(input))
results := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: []string{
input + "apacity",
input + "ategory",
input + "urrent",
input + "ode",
},
IsFuzzy: true,
Offset: offset,
},
}
got := normalizeRecommendResults(input, results)
result := got[constants.MeasTagRecommendHierarchyType.String()]
want := []string{"apacity", "ategory", "urrent", "ode"}
if result.Offset != offset {
t.Fatalf("expected offset %d, got %d", offset, result.Offset)
}
if !reflect.DeepEqual(result.QueryDatas, want) {
t.Fatalf("expected trimmed recommends %#v, got %#v", want, result.QueryDatas)
}
}
func TestNormalizeRecommendResultsTrimsToken4FallbackCandidates(t *testing.T) {
nsPath := "110kV_TV-testProject1"
input := nsPath + ".x"
offset := recommendPrefixOffset([]string{nsPath})
results := map[string]SearchResult{
constants.CompTagRecommendHierarchyType.String(): {
RecommendType: constants.CompTagRecommendHierarchyType,
QueryDatas: []string{
nsPath + ".cable_22-testProject1110kV_TV",
nsPath + ".cable_23-testProject1110kV_TV",
},
IsFuzzy: true,
IsFallback: true,
Offset: offset,
},
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: []string{
nsPath + ".IA_rms_CTA-testProject1",
nsPath + ".IB_rms_CTA-testProject1",
},
IsFuzzy: true,
IsFallback: true,
Offset: offset,
},
}
got := normalizeRecommendResults(input, results)
for key, result := range got {
if result.Offset != offset {
t.Fatalf("expected offset %d for %s, got %d", offset, key, result.Offset)
}
for _, recommend := range result.QueryDatas {
if strings.HasPrefix(recommend, nsPath+".") {
t.Fatalf("expected trimmed token4 fallback recommend for %s, got %s", key, recommend)
}
}
}
if got[constants.CompTagRecommendHierarchyType.String()].QueryDatas[0] != "cable_22-testProject1110kV_TV" {
t.Fatalf("expected token5 suffixes, got %v", got[constants.CompTagRecommendHierarchyType.String()].QueryDatas)
}
if got[constants.MeasTagRecommendHierarchyType.String()].QueryDatas[0] != "IA_rms_CTA-testProject1" {
t.Fatalf("expected token7 suffixes, got %v", got[constants.MeasTagRecommendHierarchyType.String()].QueryDatas)
}
}
func TestNormalizeRecommendResultsKeepsFullAndLocalConfigMeasurementSuffixesConsistent(t *testing.T) {
fullPrefix := "grid000.zone000.station000.110kV_TV-demoProject.cable_22-testProject1110kV_TV.base_extend"
localPrefix := "110kV_TV-demoProject.cable_22-testProject1110kV_TV.base_extend"
members := []string{"capacity", "category", "current"}
fullResults := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: combineQueryResultByInput(constants.MeasTagRecommendHierarchyType, constants.FullRecommendLength, strings.Split(fullPrefix+".", "."), members),
IsFuzzy: false,
},
}
localResults := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: combineQueryResultByInput(constants.MeasTagRecommendHierarchyType, constants.IsLocalRecommendLength, strings.Split(localPrefix+".", "."), members),
IsFuzzy: false,
},
}
fullGot := normalizeRecommendResults(fullPrefix+".", fullResults)
localGot := normalizeRecommendResults(localPrefix+".", localResults)
fullRecommends := fullGot[constants.MeasTagRecommendHierarchyType.String()].QueryDatas
localRecommends := localGot[constants.MeasTagRecommendHierarchyType.String()].QueryDatas
if !reflect.DeepEqual(fullRecommends, localRecommends) {
t.Fatalf("expected full/local config measurement suffixes to match, full=%#v local=%#v", fullRecommends, localRecommends)
}
}
func TestNormalizeRecommendResultsKeepsFullAndLocalBayMeasurementSuffixesConsistent(t *testing.T) {
fullPrefix := "grid000.zone000.station000.110kV_TV-demoProject.cable_22-testProject1110kV_TV.bay"
localPrefix := "110kV_TV-demoProject.cable_22-testProject1110kV_TV.bay"
members := []string{"IA_rms", "IB_rms", "IC_rms"}
fullResults := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: combineQueryResultByInput(constants.MeasTagRecommendHierarchyType, constants.FullRecommendLength, strings.Split(fullPrefix+".", "."), members),
IsFuzzy: false,
},
}
localResults := map[string]SearchResult{
constants.MeasTagRecommendHierarchyType.String(): {
RecommendType: constants.MeasTagRecommendHierarchyType,
QueryDatas: combineQueryResultByInput(constants.MeasTagRecommendHierarchyType, constants.IsLocalRecommendLength, strings.Split(localPrefix+".", "."), members),
IsFuzzy: false,
},
}
fullGot := normalizeRecommendResults(fullPrefix+".", fullResults)
localGot := normalizeRecommendResults(localPrefix+".", localResults)
fullRecommends := fullGot[constants.MeasTagRecommendHierarchyType.String()].QueryDatas
localRecommends := localGot[constants.MeasTagRecommendHierarchyType.String()].QueryDatas
if !reflect.DeepEqual(fullRecommends, localRecommends) {
t.Fatalf("expected full/local bay measurement suffixes to match, full=%#v local=%#v", fullRecommends, localRecommends)
}
}
func TestRecommendGroupTokens(t *testing.T) {
tests := []struct {
name string
inputSlice []string
wantCompTag string
wantConfig string
wantOK bool
}{
{
name: "full token1 to token7 input",
inputSlice: []string{"grid000", "zone000", "station000", "nspath", "comp_tag", "base_extend", ""},
wantCompTag: "comp_tag",
wantConfig: "base_extend",
wantOK: true,
},
{
name: "local token4 to token7 input",
inputSlice: []string{"nspath", "comp_tag", "component", ""},
wantCompTag: "comp_tag",
wantConfig: "component",
wantOK: true,
},
{
name: "missing config token",
inputSlice: []string{"nspath", ""},
wantOK: false,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
gotCompTag, gotConfig, gotOK := recommendGroupTokens(tt.inputSlice)
if gotOK != tt.wantOK {
t.Fatalf("expected ok %t, got %t", tt.wantOK, gotOK)
}
if gotCompTag != tt.wantCompTag || gotConfig != tt.wantConfig {
t.Fatalf("expected compTag/config %q/%q, got %q/%q", tt.wantCompTag, tt.wantConfig, gotCompTag, gotConfig)
}
})
}
}
func TestConfigRecommendCompTag(t *testing.T) {
tests := []struct {
name string
inputSlice []string
want string
wantOK bool
}{
{
name: "full token1 to token6 input",
inputSlice: []string{"grid000", "zone000", "station000", "nspath", "comp_tag", "b"},
want: "comp_tag",
wantOK: true,
},
{
name: "local token4 to token6 input",
inputSlice: []string{"nspath", "comp_tag", "b"},
want: "comp_tag",
wantOK: true,
},
{
name: "missing comp tag",
inputSlice: []string{"nspath"},
wantOK: false,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, gotOK := configRecommendCompTag(tt.inputSlice)
if gotOK != tt.wantOK {
t.Fatalf("expected ok %t, got %t", tt.wantOK, gotOK)
}
if got != tt.want {
t.Fatalf("expected compTag %q, got %q", tt.want, got)
}
})
}
}
func TestFilterMembersByTrimmedPrefix(t *testing.T) {
tests := []struct {
name string
members []string
searchInput string
wantMembers []string
wantMatchInput string
}{
{
name: "config typo falls back to previous rune",
members: []string{"bay", "base_extend", "model", "rated", "stable", "component"},
searchInput: "bx",
wantMembers: []string{"bay", "base_extend"},
wantMatchInput: "b",
},
{
name: "measurement typo falls back to previous rune",
members: []string{"I_A_rms", "I_B_rms", "U_A_rms"},
searchInput: "Ix",
wantMembers: []string{"I_A_rms", "I_B_rms"},
wantMatchInput: "I",
},
{
name: "no fallback to empty prefix",
members: []string{"bay", "base_extend"},
searchInput: "x",
wantMembers: []string{},
wantMatchInput: "",
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
gotMembers, gotMatchInput := filterMembersByTrimmedPrefix(tt.members, tt.searchInput)
if !reflect.DeepEqual(gotMembers, tt.wantMembers) {
t.Fatalf("expected members %#v, got %#v", tt.wantMembers, gotMembers)
}
if gotMatchInput != tt.wantMatchInput {
t.Fatalf("expected matched input %q, got %q", tt.wantMatchInput, gotMatchInput)
}
})
}
}
func TestDotAndTypoInputsShareTrimmedPrefixFallback(t *testing.T) {
tests := []struct {
name string
dotInput string
typoInput string
members []string
wantSuffix []string
}{
{
name: "token1 grid",
dotInput: "g.",
typoInput: "gx",
members: []string{"grid000", "grid001", "zone000"},
wantSuffix: []string{"grid000", "grid001"},
},
{
name: "token2 zone",
dotInput: "z.",
typoInput: "zx",
members: []string{"zone000", "zone001", "station000"},
wantSuffix: []string{"zone000", "zone001"},
},
{
name: "token3 station",
dotInput: "s.",
typoInput: "sx",
members: []string{"station000", "station001", "zone000"},
wantSuffix: []string{"station000", "station001"},
},
{
name: "token4 nspath",
dotInput: "1.",
typoInput: "1x",
members: []string{"110kV_TV-demoProject", "110kV_TV-testProject1", "220kV_TV-demoProject"},
wantSuffix: []string{"110kV_TV-demoProject", "110kV_TV-testProject1"},
},
{
name: "token5 component tag",
dotInput: "c.",
typoInput: "cx",
members: []string{"cable_22-testProject1110kV_TV", "cable_26-demoProject110kV_TV", "bay"},
wantSuffix: []string{"cable_22-testProject1110kV_TV", "cable_26-demoProject110kV_TV"},
},
{
name: "token6 config",
dotInput: "b.",
typoInput: "bx",
members: []string{"bay", "base_extend", "component"},
wantSuffix: []string{"bay", "base_extend"},
},
{
name: "token7 measurement",
dotInput: "I.",
typoInput: "Ix",
members: []string{"IA_rms", "IB_rms", "UA_rms"},
wantSuffix: []string{"IA_rms", "IB_rms"},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
dotSearchInput := strings.TrimSuffix(tt.dotInput, ".")
typoSearchInput := trimLastRune(tt.typoInput)
dotMembers, dotMatchedInput := filterMembersByTrimmedPrefix(tt.members, dotSearchInput)
typoMembers, typoMatchedInput := filterMembersByTrimmedPrefix(tt.members, typoSearchInput)
if dotMatchedInput != typoMatchedInput {
t.Fatalf("expected dot and typo matched input to be equal, dot=%q typo=%q", dotMatchedInput, typoMatchedInput)
}
if !reflect.DeepEqual(dotMembers, typoMembers) {
t.Fatalf("expected dot and typo members to be equal, dot=%#v typo=%#v", dotMembers, typoMembers)
}
if !reflect.DeepEqual(dotMembers, tt.wantSuffix) {
t.Fatalf("expected members %#v, got %#v", tt.wantSuffix, dotMembers)
}
})
}
}
func TestExactMatchChecksForInput(t *testing.T) {
tests := []struct {
name string
inputSlice []string
want []exactMatchCheck
}{
{
name: "token1 can be grid or local nspath",
inputSlice: []string{"g"},
want: []exactMatchCheck{
{setKey: constants.RedisAllGridSetKey, member: "g"},
{setKey: constants.RedisAllCompNSPathSetKey, member: "g"},
},
},
{
name: "token1 token2 can be zone comp tag or nspath meas",
inputSlice: []string{"grid000", "z"},
want: []exactMatchCheck{
{setKey: fmt.Sprintf(constants.RedisSpecGridZoneSetKey, "grid000"), member: "z"},
{setKey: fmt.Sprintf(constants.RedisSpecCompNSPathCompTagSetKey, "grid000"), member: "z"},
{setKey: constants.RedisAllCompTagSetKey, member: "z"},
{setKey: fmt.Sprintf(constants.RedisSpecCompNSPathMeasSetKey, "grid000"), member: "z"},
},
},
{
name: "token1 token2 token3 can be station or local config",
inputSlice: []string{"grid000", "zone000", "s"},
want: []exactMatchCheck{
{setKey: fmt.Sprintf(constants.RedisSpecZoneStationSetKey, "zone000"), member: "s"},
{setKey: constants.RedisAllConfigSetKey, member: "s"},
},
},
{
name: "token1 token2 token3 token4 can be nspath or local meas",
inputSlice: []string{"grid000", "zone000", "station000", "1"},
want: []exactMatchCheck{
{setKey: fmt.Sprintf(constants.RedisSpecStationCompNSPATHSetKey, "station000"), member: "1"},
{setKey: fmt.Sprintf(constants.RedisSpecCompTagMeasSetKey, "zone000"), member: "1"},
},
},
{
name: "token1 through token5 component tag",
inputSlice: []string{"grid000", "zone000", "station000", "nspath", "c"},
want: []exactMatchCheck{
{setKey: fmt.Sprintf(constants.RedisSpecCompNSPathCompTagSetKey, "nspath"), member: "c"},
{setKey: constants.RedisAllCompTagSetKey, member: "c"},
},
},
{
name: "token1 through token6 config",
inputSlice: []string{"grid000", "zone000", "station000", "nspath", "comp_tag", "b"},
want: []exactMatchCheck{
{setKey: constants.RedisAllConfigSetKey, member: "b"},
},
},
{
name: "token1 through token7 measurement",
inputSlice: []string{"grid000", "zone000", "station000", "nspath", "comp_tag", "bay", "I"},
want: []exactMatchCheck{
{setKey: fmt.Sprintf(constants.RedisSpecCompTagMeasSetKey, "comp_tag"), member: "I"},
},
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got := exactMatchChecksForInput(tt.inputSlice)
if !reflect.DeepEqual(got, tt.want) {
t.Fatalf("expected checks %#v, got %#v", tt.want, got)
}
})
}
}
func TestFallbackSpecificSetKey(t *testing.T) {
tests := []struct {
name string
hierarchy constants.RecommendHierarchyType
inputSlice []string
want string
wantOK bool
}{
{
name: "zone fallback uses grid specific set",
hierarchy: constants.ZoneRecommendHierarchyType,
inputSlice: []string{"grid000", "z"},
want: fmt.Sprintf(constants.RedisSpecGridZoneSetKey, "grid000"),
wantOK: true,
},
{
name: "component tag fallback uses previous nspath token",
hierarchy: constants.CompTagRecommendHierarchyType,
inputSlice: []string{"grid000", "I"},
want: fmt.Sprintf(constants.RedisSpecCompNSPathCompTagSetKey, "grid000"),
wantOK: true,
},
{
name: "measurement fallback skips config token and uses component tag",
hierarchy: constants.MeasTagRecommendHierarchyType,
inputSlice: []string{"nspath", "comp_tag", "config", "m"},
want: fmt.Sprintf(constants.RedisSpecCompTagMeasSetKey, "comp_tag"),
wantOK: true,
},
{
name: "config fallback has no parent specific set",
hierarchy: constants.ConfigRecommendHierarchyType,
inputSlice: []string{"nspath", "comp_tag", ""},
wantOK: false,
},
{
name: "missing previous token",
hierarchy: constants.ZoneRecommendHierarchyType,
inputSlice: []string{"z"},
wantOK: false,
},
}
for _, tt := range tests {
t.Run(tt.name, func(t *testing.T) {
got, ok := fallbackSpecificSetKey(tt.hierarchy, tt.inputSlice)
if ok != tt.wantOK {
t.Fatalf("expected ok %t, got %t", tt.wantOK, ok)
}
if got != tt.want {
t.Fatalf("expected key %q, got %q", tt.want, got)
}
})
}
}
func TestShouldFallbackToInitialRecommend(t *testing.T) {
tests := []struct {
input string
want bool
}{
{input: "", want: false},
{input: ".", want: true},
{input: ".x", want: true},
{input: "..x", want: true},
{input: "...x", want: true},
{input: "grid000", want: false},
{input: "grid000.", want: false},
{input: "grid000.zone000", want: false},
}
for _, tt := range tests {
t.Run(tt.input, func(t *testing.T) {
got := shouldFallbackToInitialRecommend(tt.input)
if got != tt.want {
t.Fatalf("expected %t, got %t", tt.want, got)
}
})
}
}