super-graph/core/graph-schema.go

495 lines
16 KiB
Go

package core
import (
"strings"
"github.com/chirino/graphql"
"github.com/chirino/graphql/resolvers"
"github.com/chirino/graphql/schema"
"github.com/dosco/super-graph/core/internal/psql"
)
var typeMap map[string]string = map[string]string{
"smallint": "Int",
"integer": "Int",
"bigint": "Int",
"smallserial": "Int",
"serial": "Int",
"bigserial": "Int",
"decimal": "Float",
"numeric": "Float",
"real": "Float",
"double precision": "Float",
"money": "Float",
"boolean": "Boolean",
}
func (sg *SuperGraph) initGraphQLEgine() error {
engine := graphql.New()
engineSchema := engine.Schema
dbSchema := sg.schema
engineSchema.Parse(`
enum OrderDirection {
asc
desc
}
`)
gqltype := func(col psql.DBColumn) schema.Type {
typeName := typeMap[strings.ToLower(col.Type)]
if typeName == "" {
typeName = "String"
}
var t schema.Type = &schema.TypeName{Ident: schema.Ident{Text: typeName}}
if col.NotNull {
t = &schema.NonNull{OfType: t}
}
return t
}
query := &schema.Object{
Name: "Query",
Fields: schema.FieldList{},
}
mutation := &schema.Object{
Name: "Mutation",
Fields: schema.FieldList{},
}
engineSchema.Types[query.Name] = query
engineSchema.Types[mutation.Name] = mutation
engineSchema.EntryPoints[schema.Query] = query
engineSchema.EntryPoints[schema.Mutation] = mutation
//validGraphQLIdentifierRegex := regexp.MustCompile(`^[A-Za-z_][A-Za-z_0-9]*$`)
scalarExpressionTypesNeeded := map[string]bool{}
tableNames := dbSchema.GetTableNames()
funcs := dbSchema.GetFunctions()
for _, table := range tableNames {
ti, err := dbSchema.GetTable(table)
if err != nil {
return err
}
if !ti.IsSingular {
continue
}
singularName := ti.Singular
// if !validGraphQLIdentifierRegex.MatchString(singularName) {
// return errors.New("table name is not a valid GraphQL identifier: " + singularName)
// }
pluralName := ti.Plural
// if !validGraphQLIdentifierRegex.MatchString(pluralName) {
// return errors.New("table name is not a valid GraphQL identifier: " + pluralName)
// }
outputType := &schema.Object{
Name: singularName + "Output",
Fields: schema.FieldList{},
}
engineSchema.Types[outputType.Name] = outputType
inputType := &schema.InputObject{
Name: singularName + "Input",
Fields: schema.InputValueList{},
}
engineSchema.Types[inputType.Name] = inputType
orderByType := &schema.InputObject{
Name: singularName + "OrderBy",
Fields: schema.InputValueList{},
}
engineSchema.Types[orderByType.Name] = orderByType
expressionTypeName := singularName + "Expression"
expressionType := &schema.InputObject{
Name: expressionTypeName,
Fields: schema.InputValueList{
&schema.InputValue{
Name: schema.Ident{Text: "and"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: expressionTypeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "or"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: expressionTypeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: expressionTypeName}}},
},
},
}
engineSchema.Types[expressionType.Name] = expressionType
for _, col := range ti.Columns {
colName := col.Name
// if !validGraphQLIdentifierRegex.MatchString(colName) {
// return errors.New("column name is not a valid GraphQL identifier: " + colName)
// }
colType := gqltype(col)
nullableColType := ""
if x, ok := colType.(*schema.NonNull); ok {
nullableColType = x.OfType.(*schema.TypeName).Ident.Text
} else {
nullableColType = colType.(*schema.TypeName).Ident.Text
}
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: colName,
Type: colType,
})
for _, f := range funcs {
if col.Type != f.Params[0].Type {
continue
}
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: f.Name + "_" + colName,
Type: colType,
})
}
// If it's a numeric type...
if nullableColType == "Float" || nullableColType == "Int" {
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "avg_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "count_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "max_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "min_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "stddev_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "stddev_pop_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "stddev_samp_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "variance_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "var_pop_" + colName,
Type: colType,
})
outputType.Fields = append(outputType.Fields, &schema.Field{
Name: "var_samp_" + colName,
Type: colType,
})
}
inputType.Fields = append(inputType.Fields, &schema.InputValue{
Name: schema.Ident{Text: colName},
Type: colType,
})
orderByType.Fields = append(orderByType.Fields, &schema.InputValue{
Name: schema.Ident{Text: colName},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "OrderDirection"}}},
})
scalarExpressionTypesNeeded[nullableColType] = true
expressionType.Fields = append(expressionType.Fields, &schema.InputValue{
Name: schema.Ident{Text: colName},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: nullableColType + "Expression"}}},
})
}
outputTypeName := &schema.TypeName{Ident: schema.Ident{Text: outputType.Name}}
inputTypeName := &schema.TypeName{Ident: schema.Ident{Text: inputType.Name}}
pluralOutputTypeName := &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: outputType.Name}}}}}
pluralInputTypeName := &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: inputType.Name}}}}}
args := schema.InputValueList{
&schema.InputValue{
Desc: &schema.Description{Text: "To sort or ordering results just use the order_by argument. This can be combined with where, search, etc to build complex queries to fit you needs."},
Name: schema.Ident{Text: "order_by"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: orderByType.Name}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "where"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: expressionType.Name}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "limit"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "Int"}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "offset"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "Int"}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "first"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "Int"}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "last"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "Int"}}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "before"},
Type: &schema.TypeName{Ident: schema.Ident{Text: "String"}},
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "after"},
Type: &schema.TypeName{Ident: schema.Ident{Text: "String"}},
},
}
if ti.PrimaryCol != nil {
t := gqltype(*ti.PrimaryCol)
if _, ok := t.(*schema.NonNull); !ok {
t = &schema.NonNull{OfType: t}
}
args = append(args, &schema.InputValue{
Desc: &schema.Description{Text: "Finds the record by the primary key"},
Name: schema.Ident{Text: "id"},
Type: t,
})
}
if ti.TSVCol != nil {
args = append(args, &schema.InputValue{
Desc: &schema.Description{Text: "Performs full text search using a TSV index"},
Name: schema.Ident{Text: "search"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
})
}
query.Fields = append(query.Fields, &schema.Field{
Desc: &schema.Description{Text: ""},
Name: singularName,
Type: outputTypeName,
Args: args,
})
query.Fields = append(query.Fields, &schema.Field{
Desc: &schema.Description{Text: ""},
Name: pluralName,
Type: pluralOutputTypeName,
Args: args,
})
mutationArgs := append(args, schema.InputValueList{
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "insert"},
Type: inputTypeName,
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "update"},
Type: inputTypeName,
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "upsert"},
Type: inputTypeName,
},
}...)
mutation.Fields = append(mutation.Fields, &schema.Field{
Name: singularName,
Args: mutationArgs,
Type: outputType,
})
mutation.Fields = append(mutation.Fields, &schema.Field{
Name: pluralName,
Args: append(mutationArgs, schema.InputValueList{
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "inserts"},
Type: pluralInputTypeName,
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "updates"},
Type: pluralInputTypeName,
},
&schema.InputValue{
Desc: &schema.Description{Text: ""},
Name: schema.Ident{Text: "upserts"},
Type: pluralInputTypeName,
},
}...),
Type: outputType,
})
}
for typeName, _ := range scalarExpressionTypesNeeded {
expressionType := &schema.InputObject{
Name: typeName + "Expression",
Fields: schema.InputValueList{
&schema.InputValue{
Name: schema.Ident{Text: "eq"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "equals"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "neq"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not_equals"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "gt"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "greater_than"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "lt"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "lesser_than"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "gte"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "greater_or_equals"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "lte"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "lesser_or_equals"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "in"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "nin"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not_in"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "like"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "nlike"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not_like"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "ilike"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "nilike"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not_ilike"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "similar"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "nsimilar"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "not_similar"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "has_key"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "has_key_any"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "has_key_all"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "contains"},
Type: &schema.NonNull{OfType: &schema.List{OfType: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: typeName}}}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "contained_in"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "String"}}},
},
&schema.InputValue{
Name: schema.Ident{Text: "is_null"},
Type: &schema.NonNull{OfType: &schema.TypeName{Ident: schema.Ident{Text: "Boolean"}}},
},
},
}
engineSchema.Types[expressionType.Name] = expressionType
}
err := engineSchema.ResolveTypes()
if err != nil {
return err
}
engine.Resolver = resolvers.Func(func(request *resolvers.ResolveRequest, next resolvers.Resolution) resolvers.Resolution {
resolver := resolvers.MetadataResolver.Resolve(request, next)
if resolver != nil {
return resolver
}
resolver = resolvers.MethodResolver.Resolve(request, next) // needed by the MetadataResolver
if resolver != nil {
return resolver
}
return nil
})
sg.ge = engine
return nil
}