stash/pkg/sqlite/query.go

211 lines
4.4 KiB
Go
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package sqlite
import (
"context"
"fmt"
"strings"
"github.com/stashapp/stash/pkg/models"
)
type queryBuilder struct {
repository *repository
columns []string
from string
joins joins
whereClauses []string
havingClauses []string
args []interface{}
withClauses []string
Tag hierarchy (#1519) * Add migration script for tag relations table * Expand hierarchical filter features Expand the features of the hierarchical multi input filter with support for using a relations table, which only has parent_id and child_id columns, and support adding an additional intermediate table to join on, for example for scenes and tags which are linked by the scenes_tags table as well. * Add hierarchical filtering for tags * Add hierarchical tags support to scene markers Refactor filtering of scene markers to filterBuilder and in the process add support for hierarchical tags as well. * List parent and child tags on tag details page * Support setting parent and child tags Add support for setting parent and child tags during tag creation and tag updates. * Validate no loops are created in tags hierarchy * Update tag merging to support tag hierarcy * Add unit tests for tags.EnsureUniqueHierarchy * Fix applying recursive to with clause The SQL `RECURSIVE` of a `WITH` clause only needs to be applied once, imediately after the `WITH`. So this fixes the query building to do just that, automatically applying the `RECURSIVE` keyword when any added with clause is added as recursive. * Rename hierarchical root id column * Rewrite hierarchical filtering for performance Completely rewrite the hierarchical filtering to optimize for performance. Doing the recursive query in combination with a complex query seems to break SQLite optimizing some things which means that the recursive part might be 2,5 second slower than adding a static `VALUES()` list. This is mostly noticable in case of the tag hierarchy where setting an exclusion with any depth (or depth: all) being applied has this performance impact of 2,5 second. "Include" also suffered this issue, but some rewritten query by joining in the *_tags table in one pass and applying a `WHERE x IS NOT NULL` filter did seem to optimize that case. But that optimization isn't applied to the `IS NULL` filter of "exclude". Running a simple query beforehand to get all (recursive) items and then applying them to the query doesn't have this performance penalty. * Remove UI references to child studios and tags * Add parents to tag export * Support importing of parent relationship for tags * Assign stable ids to parent / child badges * Silence Apollo warning on parents/children fields on tags Silence warning triggered by Apollo GraphQL by explicitly instructing it to use the incoming parents/children values. By default it already does this, but it triggers a warning as it might be unintended that it uses the incoming values (instead of for example merging both arrays). Setting merge to false still applies the same behaviour (use only incoming values) but silences the warning as it's explicitly configured to work like this. * Rework detecting unique tag hierarchy Completely rework the unique tag hierarchy to detect invalid hierarchies for which a tag is "added in the middle". So when there are tags A <- B and A <- C, you could previously edit tag B and add tag C as a sub tag without it being noticed as parent A being applied twice (to tag C). While afterwards saving tag C would fail as tag A was applied as parent twice. The updated code correctly detects this scenario as well. Furthermore the error messaging has been reworked a bit and the message now mentions both the direct parent / sub tag as well as the tag which would results in the error. So in aboves example it would now show the message that tag C can't be applied because tag A already is a parent. * Update relations on cached tags when needed Update the relations on cached tags when a tag is created / updated / deleted so these always reflect the correct state. Otherwise (re)opening a tag might still show the old relations untill the page is fully reloaded or the list is navigated. But this obviously is strange when you for example have tag A, create or update tag B to have a relation to tag A, and from tags B page click through to tag A and it doesn't show that it is linked to tag B.
2021-09-09 04:58:43 +00:00
recursiveWith bool
sortAndPagination string
}
func (qb queryBuilder) body() string {
return fmt.Sprintf("SELECT %s FROM %s%s", strings.Join(qb.columns, ", "), qb.from, qb.joins.toSQL())
}
func (qb *queryBuilder) addColumn(column string) {
qb.columns = append(qb.columns, column)
}
func (qb queryBuilder) toSQL(includeSortPagination bool) string {
body := qb.body()
withClause := ""
if len(qb.withClauses) > 0 {
var recursive string
if qb.recursiveWith {
recursive = " RECURSIVE "
}
withClause = "WITH " + recursive + strings.Join(qb.withClauses, ", ") + " "
}
body = withClause + qb.repository.buildQueryBody(body, qb.whereClauses, qb.havingClauses)
if includeSortPagination {
body += qb.sortAndPagination
}
return body
}
func (qb queryBuilder) findIDs(ctx context.Context) ([]int, error) {
const includeSortPagination = true
sql := qb.toSQL(includeSortPagination)
return qb.repository.runIdsQuery(ctx, sql, qb.args)
}
func (qb queryBuilder) executeFind(ctx context.Context) ([]int, int, error) {
body := qb.body()
return qb.repository.executeFindQuery(ctx, body, qb.args, qb.sortAndPagination, qb.whereClauses, qb.havingClauses, qb.withClauses, qb.recursiveWith)
}
func (qb queryBuilder) executeCount(ctx context.Context) (int, error) {
body := qb.body()
withClause := ""
if len(qb.withClauses) > 0 {
Tag hierarchy (#1519) * Add migration script for tag relations table * Expand hierarchical filter features Expand the features of the hierarchical multi input filter with support for using a relations table, which only has parent_id and child_id columns, and support adding an additional intermediate table to join on, for example for scenes and tags which are linked by the scenes_tags table as well. * Add hierarchical filtering for tags * Add hierarchical tags support to scene markers Refactor filtering of scene markers to filterBuilder and in the process add support for hierarchical tags as well. * List parent and child tags on tag details page * Support setting parent and child tags Add support for setting parent and child tags during tag creation and tag updates. * Validate no loops are created in tags hierarchy * Update tag merging to support tag hierarcy * Add unit tests for tags.EnsureUniqueHierarchy * Fix applying recursive to with clause The SQL `RECURSIVE` of a `WITH` clause only needs to be applied once, imediately after the `WITH`. So this fixes the query building to do just that, automatically applying the `RECURSIVE` keyword when any added with clause is added as recursive. * Rename hierarchical root id column * Rewrite hierarchical filtering for performance Completely rewrite the hierarchical filtering to optimize for performance. Doing the recursive query in combination with a complex query seems to break SQLite optimizing some things which means that the recursive part might be 2,5 second slower than adding a static `VALUES()` list. This is mostly noticable in case of the tag hierarchy where setting an exclusion with any depth (or depth: all) being applied has this performance impact of 2,5 second. "Include" also suffered this issue, but some rewritten query by joining in the *_tags table in one pass and applying a `WHERE x IS NOT NULL` filter did seem to optimize that case. But that optimization isn't applied to the `IS NULL` filter of "exclude". Running a simple query beforehand to get all (recursive) items and then applying them to the query doesn't have this performance penalty. * Remove UI references to child studios and tags * Add parents to tag export * Support importing of parent relationship for tags * Assign stable ids to parent / child badges * Silence Apollo warning on parents/children fields on tags Silence warning triggered by Apollo GraphQL by explicitly instructing it to use the incoming parents/children values. By default it already does this, but it triggers a warning as it might be unintended that it uses the incoming values (instead of for example merging both arrays). Setting merge to false still applies the same behaviour (use only incoming values) but silences the warning as it's explicitly configured to work like this. * Rework detecting unique tag hierarchy Completely rework the unique tag hierarchy to detect invalid hierarchies for which a tag is "added in the middle". So when there are tags A <- B and A <- C, you could previously edit tag B and add tag C as a sub tag without it being noticed as parent A being applied twice (to tag C). While afterwards saving tag C would fail as tag A was applied as parent twice. The updated code correctly detects this scenario as well. Furthermore the error messaging has been reworked a bit and the message now mentions both the direct parent / sub tag as well as the tag which would results in the error. So in aboves example it would now show the message that tag C can't be applied because tag A already is a parent. * Update relations on cached tags when needed Update the relations on cached tags when a tag is created / updated / deleted so these always reflect the correct state. Otherwise (re)opening a tag might still show the old relations untill the page is fully reloaded or the list is navigated. But this obviously is strange when you for example have tag A, create or update tag B to have a relation to tag A, and from tags B page click through to tag A and it doesn't show that it is linked to tag B.
2021-09-09 04:58:43 +00:00
var recursive string
if qb.recursiveWith {
recursive = " RECURSIVE "
}
withClause = "WITH " + recursive + strings.Join(qb.withClauses, ", ") + " "
}
body = qb.repository.buildQueryBody(body, qb.whereClauses, qb.havingClauses)
countQuery := withClause + qb.repository.buildCountQuery(body)
return qb.repository.runCountQuery(ctx, countQuery, qb.args)
}
func (qb *queryBuilder) addWhere(clauses ...string) {
for _, clause := range clauses {
if len(clause) > 0 {
qb.whereClauses = append(qb.whereClauses, clause)
}
}
}
func (qb *queryBuilder) addHaving(clauses ...string) {
for _, clause := range clauses {
if len(clause) > 0 {
qb.havingClauses = append(qb.havingClauses, clause)
}
}
}
Tag hierarchy (#1519) * Add migration script for tag relations table * Expand hierarchical filter features Expand the features of the hierarchical multi input filter with support for using a relations table, which only has parent_id and child_id columns, and support adding an additional intermediate table to join on, for example for scenes and tags which are linked by the scenes_tags table as well. * Add hierarchical filtering for tags * Add hierarchical tags support to scene markers Refactor filtering of scene markers to filterBuilder and in the process add support for hierarchical tags as well. * List parent and child tags on tag details page * Support setting parent and child tags Add support for setting parent and child tags during tag creation and tag updates. * Validate no loops are created in tags hierarchy * Update tag merging to support tag hierarcy * Add unit tests for tags.EnsureUniqueHierarchy * Fix applying recursive to with clause The SQL `RECURSIVE` of a `WITH` clause only needs to be applied once, imediately after the `WITH`. So this fixes the query building to do just that, automatically applying the `RECURSIVE` keyword when any added with clause is added as recursive. * Rename hierarchical root id column * Rewrite hierarchical filtering for performance Completely rewrite the hierarchical filtering to optimize for performance. Doing the recursive query in combination with a complex query seems to break SQLite optimizing some things which means that the recursive part might be 2,5 second slower than adding a static `VALUES()` list. This is mostly noticable in case of the tag hierarchy where setting an exclusion with any depth (or depth: all) being applied has this performance impact of 2,5 second. "Include" also suffered this issue, but some rewritten query by joining in the *_tags table in one pass and applying a `WHERE x IS NOT NULL` filter did seem to optimize that case. But that optimization isn't applied to the `IS NULL` filter of "exclude". Running a simple query beforehand to get all (recursive) items and then applying them to the query doesn't have this performance penalty. * Remove UI references to child studios and tags * Add parents to tag export * Support importing of parent relationship for tags * Assign stable ids to parent / child badges * Silence Apollo warning on parents/children fields on tags Silence warning triggered by Apollo GraphQL by explicitly instructing it to use the incoming parents/children values. By default it already does this, but it triggers a warning as it might be unintended that it uses the incoming values (instead of for example merging both arrays). Setting merge to false still applies the same behaviour (use only incoming values) but silences the warning as it's explicitly configured to work like this. * Rework detecting unique tag hierarchy Completely rework the unique tag hierarchy to detect invalid hierarchies for which a tag is "added in the middle". So when there are tags A <- B and A <- C, you could previously edit tag B and add tag C as a sub tag without it being noticed as parent A being applied twice (to tag C). While afterwards saving tag C would fail as tag A was applied as parent twice. The updated code correctly detects this scenario as well. Furthermore the error messaging has been reworked a bit and the message now mentions both the direct parent / sub tag as well as the tag which would results in the error. So in aboves example it would now show the message that tag C can't be applied because tag A already is a parent. * Update relations on cached tags when needed Update the relations on cached tags when a tag is created / updated / deleted so these always reflect the correct state. Otherwise (re)opening a tag might still show the old relations untill the page is fully reloaded or the list is navigated. But this obviously is strange when you for example have tag A, create or update tag B to have a relation to tag A, and from tags B page click through to tag A and it doesn't show that it is linked to tag B.
2021-09-09 04:58:43 +00:00
func (qb *queryBuilder) addWith(recursive bool, clauses ...string) {
for _, clause := range clauses {
if len(clause) > 0 {
qb.withClauses = append(qb.withClauses, clause)
}
}
Tag hierarchy (#1519) * Add migration script for tag relations table * Expand hierarchical filter features Expand the features of the hierarchical multi input filter with support for using a relations table, which only has parent_id and child_id columns, and support adding an additional intermediate table to join on, for example for scenes and tags which are linked by the scenes_tags table as well. * Add hierarchical filtering for tags * Add hierarchical tags support to scene markers Refactor filtering of scene markers to filterBuilder and in the process add support for hierarchical tags as well. * List parent and child tags on tag details page * Support setting parent and child tags Add support for setting parent and child tags during tag creation and tag updates. * Validate no loops are created in tags hierarchy * Update tag merging to support tag hierarcy * Add unit tests for tags.EnsureUniqueHierarchy * Fix applying recursive to with clause The SQL `RECURSIVE` of a `WITH` clause only needs to be applied once, imediately after the `WITH`. So this fixes the query building to do just that, automatically applying the `RECURSIVE` keyword when any added with clause is added as recursive. * Rename hierarchical root id column * Rewrite hierarchical filtering for performance Completely rewrite the hierarchical filtering to optimize for performance. Doing the recursive query in combination with a complex query seems to break SQLite optimizing some things which means that the recursive part might be 2,5 second slower than adding a static `VALUES()` list. This is mostly noticable in case of the tag hierarchy where setting an exclusion with any depth (or depth: all) being applied has this performance impact of 2,5 second. "Include" also suffered this issue, but some rewritten query by joining in the *_tags table in one pass and applying a `WHERE x IS NOT NULL` filter did seem to optimize that case. But that optimization isn't applied to the `IS NULL` filter of "exclude". Running a simple query beforehand to get all (recursive) items and then applying them to the query doesn't have this performance penalty. * Remove UI references to child studios and tags * Add parents to tag export * Support importing of parent relationship for tags * Assign stable ids to parent / child badges * Silence Apollo warning on parents/children fields on tags Silence warning triggered by Apollo GraphQL by explicitly instructing it to use the incoming parents/children values. By default it already does this, but it triggers a warning as it might be unintended that it uses the incoming values (instead of for example merging both arrays). Setting merge to false still applies the same behaviour (use only incoming values) but silences the warning as it's explicitly configured to work like this. * Rework detecting unique tag hierarchy Completely rework the unique tag hierarchy to detect invalid hierarchies for which a tag is "added in the middle". So when there are tags A <- B and A <- C, you could previously edit tag B and add tag C as a sub tag without it being noticed as parent A being applied twice (to tag C). While afterwards saving tag C would fail as tag A was applied as parent twice. The updated code correctly detects this scenario as well. Furthermore the error messaging has been reworked a bit and the message now mentions both the direct parent / sub tag as well as the tag which would results in the error. So in aboves example it would now show the message that tag C can't be applied because tag A already is a parent. * Update relations on cached tags when needed Update the relations on cached tags when a tag is created / updated / deleted so these always reflect the correct state. Otherwise (re)opening a tag might still show the old relations untill the page is fully reloaded or the list is navigated. But this obviously is strange when you for example have tag A, create or update tag B to have a relation to tag A, and from tags B page click through to tag A and it doesn't show that it is linked to tag B.
2021-09-09 04:58:43 +00:00
qb.recursiveWith = qb.recursiveWith || recursive
}
func (qb *queryBuilder) addArg(args ...interface{}) {
qb.args = append(qb.args, args...)
}
func (qb *queryBuilder) hasJoin(alias string) bool {
for _, j := range qb.joins {
if j.alias() == alias {
return true
}
}
return false
}
func (qb *queryBuilder) join(table, as, onClause string) {
newJoin := join{
table: table,
as: as,
onClause: onClause,
joinType: "LEFT",
}
qb.joins.add(newJoin)
}
func (qb *queryBuilder) addJoins(joins ...join) {
qb.joins.add(joins...)
}
func (qb *queryBuilder) addFilter(f *filterBuilder) error {
err := f.getError()
if err != nil {
return err
}
clause, args := f.generateWithClauses()
if len(clause) > 0 {
Tag hierarchy (#1519) * Add migration script for tag relations table * Expand hierarchical filter features Expand the features of the hierarchical multi input filter with support for using a relations table, which only has parent_id and child_id columns, and support adding an additional intermediate table to join on, for example for scenes and tags which are linked by the scenes_tags table as well. * Add hierarchical filtering for tags * Add hierarchical tags support to scene markers Refactor filtering of scene markers to filterBuilder and in the process add support for hierarchical tags as well. * List parent and child tags on tag details page * Support setting parent and child tags Add support for setting parent and child tags during tag creation and tag updates. * Validate no loops are created in tags hierarchy * Update tag merging to support tag hierarcy * Add unit tests for tags.EnsureUniqueHierarchy * Fix applying recursive to with clause The SQL `RECURSIVE` of a `WITH` clause only needs to be applied once, imediately after the `WITH`. So this fixes the query building to do just that, automatically applying the `RECURSIVE` keyword when any added with clause is added as recursive. * Rename hierarchical root id column * Rewrite hierarchical filtering for performance Completely rewrite the hierarchical filtering to optimize for performance. Doing the recursive query in combination with a complex query seems to break SQLite optimizing some things which means that the recursive part might be 2,5 second slower than adding a static `VALUES()` list. This is mostly noticable in case of the tag hierarchy where setting an exclusion with any depth (or depth: all) being applied has this performance impact of 2,5 second. "Include" also suffered this issue, but some rewritten query by joining in the *_tags table in one pass and applying a `WHERE x IS NOT NULL` filter did seem to optimize that case. But that optimization isn't applied to the `IS NULL` filter of "exclude". Running a simple query beforehand to get all (recursive) items and then applying them to the query doesn't have this performance penalty. * Remove UI references to child studios and tags * Add parents to tag export * Support importing of parent relationship for tags * Assign stable ids to parent / child badges * Silence Apollo warning on parents/children fields on tags Silence warning triggered by Apollo GraphQL by explicitly instructing it to use the incoming parents/children values. By default it already does this, but it triggers a warning as it might be unintended that it uses the incoming values (instead of for example merging both arrays). Setting merge to false still applies the same behaviour (use only incoming values) but silences the warning as it's explicitly configured to work like this. * Rework detecting unique tag hierarchy Completely rework the unique tag hierarchy to detect invalid hierarchies for which a tag is "added in the middle". So when there are tags A <- B and A <- C, you could previously edit tag B and add tag C as a sub tag without it being noticed as parent A being applied twice (to tag C). While afterwards saving tag C would fail as tag A was applied as parent twice. The updated code correctly detects this scenario as well. Furthermore the error messaging has been reworked a bit and the message now mentions both the direct parent / sub tag as well as the tag which would results in the error. So in aboves example it would now show the message that tag C can't be applied because tag A already is a parent. * Update relations on cached tags when needed Update the relations on cached tags when a tag is created / updated / deleted so these always reflect the correct state. Otherwise (re)opening a tag might still show the old relations untill the page is fully reloaded or the list is navigated. But this obviously is strange when you for example have tag A, create or update tag B to have a relation to tag A, and from tags B page click through to tag A and it doesn't show that it is linked to tag B.
2021-09-09 04:58:43 +00:00
qb.addWith(f.recursiveWith, clause)
}
if len(args) > 0 {
// WITH clause always comes first and thus precedes alk args
qb.args = append(args, qb.args...)
}
clause, args = f.generateWhereClauses()
if len(clause) > 0 {
qb.addWhere(clause)
}
if len(args) > 0 {
qb.addArg(args...)
}
clause, args = f.generateHavingClauses()
if len(clause) > 0 {
qb.addHaving(clause)
}
if len(args) > 0 {
qb.addArg(args...)
}
qb.addJoins(f.getAllJoins()...)
return nil
}
func (qb *queryBuilder) parseQueryString(columns []string, q string) {
specs := models.ParseSearchString(q)
for _, t := range specs.MustHave {
var clauses []string
for _, column := range columns {
clauses = append(clauses, column+" LIKE ?")
qb.addArg(like(t))
}
qb.addWhere("(" + strings.Join(clauses, " OR ") + ")")
}
for _, t := range specs.MustNot {
for _, column := range columns {
qb.addWhere(coalesce(column) + " NOT LIKE ?")
qb.addArg(like(t))
}
}
for _, set := range specs.AnySets {
var clauses []string
for _, column := range columns {
for _, v := range set {
clauses = append(clauses, column+" LIKE ?")
qb.addArg(like(v))
}
}
qb.addWhere("(" + strings.Join(clauses, " OR ") + ")")
}
}