Schemacop schema V3

Table of Contents

  1. Validation
  2. Exceptions
  3. Generic Keywords
  4. Nodes
    1. String
    2. Integer
    3. Number
    4. Symbol
    5. Boolean
    6. Array
    7. Hash
    8. Object
    9. AllOf
    10. AnyOf
    11. OneOf
    12. IsNot
    13. Reference
  5. Context
  6. External schemas
  7. Default options

Validation

Using Schemacop, you can either choose to validate your data either using the graceful validate method, or the bang variant, validate!.

The validate method on a schema with some supplied data will return a Schemacop::Result object, which has some useful methods to work with the data you validated.

schema = Schemacop::Schema3.new :string, format: :date
result = schema.validate('2020-01-01')
result.class # => Schemacop::Result

With the data method, you can access the casted version of your data:

schema = Schemacop::Schema3.new :string, format: :date
result = schema.validate('2020-01-01')
result.data # => Wed, 01 Jan 2020

And with the valid? method, you can check if the supplied data validates against the schema:

schema = Schemacop::Schema3.new :string, format: :date
result = schema.validate('2020-01-01')
result.valid? # => true

On the other hand, the validate! method either returns the casted data if the validation was successful, or if the validation failed, raises a Schemacop::Exceptions::ValidationError exception:

schema = Schemacop::Schema3.new :string, format: :date
schema.validate!('2020-01-01')  # => Wed, 01 Jan 2020
schema.validate!('Foo')         # => Schemacop::Exceptions::ValidationError: /: String does not match format "date".

Exceptions

Schemacop can raise the following exceptions:

  • Schemacop::Exceptions::ValidationError: This exception is raised when the validate! method is used, and the data that was passed in is invalid. The exception message contains additional information why the validation failed.

Example:

  schema = Schemacop::Schema3.new :hash do
    int! :foo
  end

  schema.validate!(foo: 'bar')
  # => Schemacop::Exceptions::ValidationError: /foo: Invalid type, got type "String", expected "integer".
  • Schemacop::Exceptions::InvalidSchemaError: This exception is raised when the schema itself is not valid. The exception message contains additional information why the validation failed.

Example:

  Schemacop::Schema3.new :hash do
    int!
  end

  # => Schemacop::Exceptions::InvalidSchemaError: Child nodes must have a name.

Generic Keywords

The nodes in Schemacop v3 also support generic keywords, similar to JSON schema:

  • title: Short string, should be self-explanatory
  • description: Description of the schema
  • examples: Here, you can provide examples which will be valid for the schema
  • enum: Here, you may enumerate values which will be valid, if the provided value is not in the array, the validation will fail
  • default: You may provide a default value for items that will be set if the value is not given
  • require_key: If set to true, validate that the key of this node is present, regardless of the value (including nil). This is only validated if the schema type is set to :hash. Example: ruby Schemacop::Schema3.new(:hash) do str? :foo, require_key: true int? :bar, require_key: true end

The three keywords title, description and examples aren't used for validation, but can be used to document the schema. They will be included in the JSON output when you use the as_json method:

schema = Schemacop::Schema3.new :hash do
  str! :name, title: 'Name', description: 'Holds the name of the user', examples: ['Joe', 'Anna']
end

schema.as_json

# => {"properties"=>{"name"=>{"type"=>"string", "title"=>"Name", "examples"=>["Joe", "Anna"], "description"=>"Holds the name of the user"}}, "additionalProperties"=>false, "required"=>["name"], "type"=>"object"}

The enum keyword can be used to only allow a subset of values:

schema = Schemacop::Schema3.new :string, enum: ['foo', 'bar']

schema.validate!('foo') # => "foo"
schema.validate!('bar') # => "bar"
schema.validate!('baz') # => Schemacop::Exceptions::ValidationError: /: Value not included in enum ["foo", "bar"].

Please note that you can also specify values in the enum that are not valid for the schema. This means that the validation will still fail:

schema = Schemacop::Schema3.new :string, enum: ['foo', 'bar', 42]

schema.validate!('foo') # => "foo"
schema.validate!('bar') # => "bar"
schema.validate!(42)    # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Integer", expected "string".

The enum will also be provided in the json output:

schema = Schemacop::Schema3.new :string, enum: ['foo', 'bar']

schema.as_json
# => {"type"=>"string", "enum"=>["foo", "bar", 42]}

And finally, the default keyword lets you set a default value to use when no value is provided:

schema = Schemacop::Schema3.new :string, default: 'Schemacop'

schema.validate!('foo') # => "foo"
schema.validate!(nil)   # => "Schemacop"

The default value will also be provided in the json output:

schema = Schemacop::Schema3.new :string, default: 'Schemacop'

schema.as_json
# => {"type"=>"string", "default"=>"Schemacop"}

Note that the default value you use is also validated against the schema:

schema = Schemacop::Schema3.new :string, default: 42

schema.validate!('foo') # => "foo"
schema.validate!(nil)   # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Integer", expected "string".

Nodes

String

Type: :string\ DSL: str

The string type is used for strings of text and must be a ruby String object or a subclass. Using the option format, strings can be validated against and transformed into various types.

Options

  • min_length Defines the (inclusive) minimum required string length
  • max_length Defines the (inclusive) maximum required string length
  • pattern Defines a (ruby) regex pattern the value will be matched against. Must be either a string which should not be enclosed in / characters, or a Ruby Regexp. The pattern should generally start with ^ and end with $ so as to evaluate the entire string.
  • format The format option allows for basic semantic validation on certain kinds of string values that are commonly used. See section formats for more information on the available formats. Note that strings with a format are also casted into that format.
  • allow_blank By default, blank strings are allowed and left as they are when casted (e.g. the string '' is valid). If you want to disallow blank strings, set this option to false.

Formats

  • date A date according to RFC 3339, section 5.6. date format, i.e. 2018-11-13. Strings with this format will be casted to a ruby Date object.

  • date_time A date time according to RFC 3339, section 5.6. date format, i.e. 2018-11-13T20:20:39+00:00. Strings with this format will be casted to a ruby DateTime object. The time zones will be inferred by the string.

  • email Validates for a valid email address. There is no casting involved since email addresses do not have their own ruby type.

  • mailbox Validates for a valid mailbox, which is defined as a valid email enclosed in brackets (< >), with an optional name before the email address. There is no casting involved.

  • boolean The string must be either true, false, 0 or 1. This value will be casted to Ruby's TrueClass or FalseClass. Please note that the strings true and false are case-insensitive, i.e. True, TRUE etc. will also work.

  • binary The string is expected to contain binary contents. No casting or additional validation is performed.

  • integer The string must be an integer and will be casted to a ruby Integer object.

  • number The string must be a number and will be casted to a ruby Float object.

  • integer_list The string must consist of comma-separated integers casted to a ruby Array<Integer> object

  • symbol The string can be anything and will be casted to a ruby Symbol object.

Custom Formats

You can also implement your custom formats or override the behavior of the standard formats. This can be done in the initializer configuration (in case of a Rails appliation):

# config/initializers/schemacop.rb
Schemacop.register_string_formatter(
  :character_array,                        # Formatter name
  pattern: /^[a-zA-Z](,[a-zA-Z])*/,        # Regex pattern for validation
  handler: ->(value) { value.split(',') }  # Casting callback
)

# In your schema
str! :my_list, format: :character_array

Examples

# Basic example
schema = Schemacop::Schema3.new :string
schema.validate!(nil)   # => nil
schema.validate!('')    # => ""
schema.validate!('foo') # => "foo"
schema.validate!("\n")  # => "\n"

With the required option:

# Basic example
schema = Schemacop::Schema3.new :string, required: true
schema.validate!(nil)   # => Schemacop::Exceptions::ValidationError: /: Value must be given.
schema.validate!('')    # => ""
schema.validate!('foo') # => "foo"
schema.validate!("\n")  # => "\n"

With the allow_blank option:

# Basic example
schema = Schemacop::Schema3.new :string, allow_blank: false
schema.validate!(nil)   # => Schemacop::Exceptions::ValidationError: /: String is blank but must not be blank!
schema.validate!('')    # => Schemacop::Exceptions::ValidationError: /: String is blank but must not be blank!
schema.validate!('foo') # => "foo"
schema.validate!("\n")  # => Schemacop::Exceptions::ValidationError: /: String is blank but must not be blank!

Example of using a format option:

# By using a format, string values are casted to that respective format
schema = Schemacop::Schema3.new(:string, format: :date)
result = schema.validate('1980-01-13')
result.data # => Date<"Sun, 13 Jan 1980">

Integer

Type: :integer\ DSL: int

The integer type is used for whole numbers and must be a ruby Integer or a subclass. With the various available options, validations on the value of the integer can be done.

Options

  • minimum Defines an (inclusive) minimum, i.e. the number has to be equal or larger than the given number
  • exclusive_minimum Defines an exclusive minimum, i.e. the number has to larger than the given number
  • maximum Defines an (inclusive) maximum, i.e. the number has to be equal or smaller than the given number
  • exclusive_maximum Defines an exclusive maximum, i.e. the number has to smaller than the given number
  • multiple_of The received number has to be a multiple of the given number for the validation to pass.
  • cast_str When set to true, this node also accepts strings that can be casted to an integer, e.g. the values '-5' or '42'. Please note that you can only validate numbers which are in the Integer format. Blank strings will be treated equally as nil. Strings will be parsed with base 10, so only decimal numbers are allowed. Leading zeroes will be ignored.

Examples

# Validates that the input is an even number between 0 and 100 (inclusive)
schema = Schemacop::Schema3.new(:integer, minimum: 0, maximum: 100, multiple_of: 2)
schema.validate!(42)            # => 42
schema.validate!(43)            # => Schemacop::Exceptions::ValidationError: /: Value must be a multiple of 2.
schema.validate!(-2)            # => Schemacop::Exceptions::ValidationError: /: Value must have a minimum of 0.
schema.validate!(102)           # => Schemacop::Exceptions::ValidationError: /: Value must have a maximum of 100.
schema.validate!(42.1)          # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Float", expected "integer".
schema.validate!(4r)            # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Rational", expected "integer".
schema.validate!((4 + 0i))      # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Complex", expected "integer".
schema.validate!(BigDecimal(5)) # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "BigDecimal", expected "integer".

With cast_str enabled:

# Validates that the input is an even number between 0 and 100 (inclusive)
schema = Schemacop::Schema3.new(:integer, minimum: 0, maximum: 100, multiple_of: 2, cast_str: true)
schema.validate!('42')            # => 42
schema.validate!('43')            # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('-2')            # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('102')           # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('42.1')          # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('4r')            # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('(4 + 0i)')      # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(nil)             # => nil
schema.validate!('')              # => nil

Please note, that nil and blank strings are treated equally when using the cast_str option, and validating a blank string will return nil. If you need a value, use the required option:

schema = Schemacop::Schema3.new(:integer, minimum: 0, maximum: 100, multiple_of: 2, cast_str: true, required: true)
schema.validate!('42')  # => 42
schema.validate!(nil)   # => Schemacop::Exceptions::ValidationError: /: Value must be given.
schema.validate!('')    # => Schemacop::Exceptions::ValidationError: /: Value must be given.

Number

Type: :number\ DSL: num

The number type is used to validate various number classes. The following ruby classes and subclasses are valid:

  • Integer
  • Float
  • Rational
  • BigDecimal

As some subclasses of Numeric, such as Complex don't support all required oeprations, only the above list is supported. If you need support for additional number classes, please contact the Gem maintainers.

With the various available options, validations on the value of the number can be done.

Options

  • minimum Defines an (inclusive) minimum, i.e. the number has to be equal or larger than the given number
  • exclusive_minimum Defines an exclusive minimum, i.e. the number has to larger than the given number
  • maximum Defines an (inclusive) maximum, i.e. the number has to be equal or smaller than the given number
  • exclusive_maximum Defines an exclusive maximum, i.e. the number has to smaller than the given number
  • multiple_of The received number has to be a multiple of the given number for the validation to pass.
  • cast_str When set to true, this node also accepts strings that can be casted to a number, e.g. the values '0.1' or '3.1415'. Please note that you can only validate numbers which are in the Integer or Float format, i.e. values like '1.5r' or '(4 + 0i)' will not work. Blank strings will be treated equally as nil. Strings will be parsed with base 10, so only decimal numbers are allowed. Leading zeroes will be ignored.

Examples

# Validates that the input is a number between 0 and 50 (inclusive) and a multiple of 0.5
schema = Schemacop::Schema3.new(:number, minimum: 0.0, maximum: (50r), multiple_of: BigDecimal('0.5'))
schema.validate!(42)            # => 42
schema.validate!(42.2)          # => Schemacop::Exceptions::ValidationError: /: Value must be a multiple of 0.5.
schema.validate!(-2)            # => Schemacop::Exceptions::ValidationError: /: Value must have a minimum of 0.0.
schema.validate!(51)            # => Schemacop::Exceptions::ValidationError: /: Value must have a maximum of 50/1.
schema.validate!(42.5)          # => 42.5
schema.validate!(1.5r)          # => (3/2)
schema.validate!(BigDecimal(5)) # => 0.5e1
schema.validate!((4 + 0i))      # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Complex", expected "big_decimal" or "float" or "integer" or "rational"

With cast_str enabled:

schema = Schemacop::Schema3.new(:number, cast_str: true, minimum: 0.0, maximum: (50r), multiple_of: BigDecimal('0.5'))
schema.validate!('42')        # => 42
schema.validate!('42.2')      # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('-2')        # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('51')        # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('42.5')      # => 42.5
schema.validate!('1.5r')      # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('(4 + 0i)')  # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(nil)         # => nil
schema.validate!('')          # => nil

Please note, that nil and blank strings are treated equally when using the cast_str option, and validating a blank string will return nil. If you need a value, use the required option:

schema = Schemacop::Schema3.new(:number, cast_str: true, minimum: 0.0, maximum: (50r), multiple_of: BigDecimal('0.5'), require: true)
schema.validate!('42.5')  # => 42.5
schema.validate!(nil)     # => Schemacop::Exceptions::ValidationError: /: Value must be given.
schema.validate!('')      # => Schemacop::Exceptions::ValidationError: /: Value must be given.

Symbol

Type: :symbol\ DSL: sym

The symbol type is used to validate elements for the Ruby Symbol class.

Options

  • cast_str When set to true, this node also accepts strings that can be casted to a symbol. Blank strings will be treated equally as nil.

Examples

# Validates that the input is a symbol
schema = Schemacop::Schema3.new(:symbol)
schema.validate!(:foo)   # => :foo
schema.validate!('foo')  # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "String", expected "Symbol".
schema.validate!(123)    # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Integer", expected "Symbol".
schema.validate!(false)  # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "FalseClass", expected "Symbol".
schema.validate!(:false) # => :false

With cast_str enabled:

# Validates that the input is a symbol
schema = Schemacop::Schema3.new(:symbol, cast_str: true)
schema.validate!(':foo')   # => :":foo"
schema.validate!('foo')    # => :foo
schema.validate!('123')    # => :"123"
schema.validate!('false')  # => :false
schema.validate!(':false') # => :":false"
schema.validate!(nil)      # => nil
schema.validate!('')       # => nil

Please note, that nil and blank strings are treated equally when using the cast_str option, and validating a blank string will return nil. If you need a value, use the required option:

schema = Schemacop::Schema3.new(:symbol, cast_str: true, required: true)
schema.validate!('foo')   # => :foo
schema.validate!(nil)     # => Schemacop::Exceptions::ValidationError: /: Value must be given.
schema.validate!('')      # => Schemacop::Exceptions::ValidationError: /: Value must be given.

Boolean

Type: :boolean\ DSL: boo

The boolean type is used to validate Ruby booleans, i.e. the TrueClass and FalseClass

Options

  • cast_str When set to true, this node also accepts strings that can be casted to a boolean, namely the values 'true', 'false', '1' and '0'. Blank strings will be treated equally as nil. This casting is case-insensitive.

Examples

# Validates that the input is a boolean
schema = Schemacop::Schema3.new(:boolean)
schema.validate!(true)    # => true
schema.validate!(false)   # => false
schema.validate!(:false)  # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Symbol", expected "boolean".
schema.validate!('false') # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "String", expected "boolean".
schema.validate!(1234)    # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Integer", expected "boolean".

schema.validate!('0', cast_str: true)     # => false
schema.validate!('1', cast_str: true)     # => true
schema.validate!('false', cast_str: true) # => false
schema.validate!('true', cast_str: true)  # => true

With cast_str enabled:

schema = Schemacop::Schema3.new(:boolean, cast_str: true)
schema.validate!(true)    # => true
schema.validate!(false)   # => false
schema.validate!(:false)  # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!('false') # => false
schema.validate!(1234)    # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(nil)     # => nil
schema.validate!('')      # => nil

Please note, that nil and blank strings are treated equally when using the cast_str option, and validating a blank string will return nil. If you need a value, use the required option:

schema = Schemacop::Schema3.new(:boolean, cast_str: true, required: true)
schema.validate!('false') # => false
schema.validate!(nil)     # => Schemacop::Exceptions::ValidationError: /: Value must be given.
schema.validate!('')      # => Schemacop::Exceptions::ValidationError: /: Value must be given.

Array

Type: :array\ DSL: ary

The array type represents a ruby Array. It consists of one or multiple values, which can be validated using arbitrary nodes.

Options

  • min_items This option specifies the (inclusive) minimum number of elements the array must contain to pass the validation.

  • max_items This option specifies the (inclusive) maximum number of elements the array must contain to pass the validation.

  • unique_items This option specifies wether the items in the array must all be distinct from each other, or if there may be duplicate values. By default, this is false, i.e. duplicate values are allowed

  • filter This option allows you to filter an array before it is validated. When using casting, this also filters the data returned by the validator. If the given value is a Symbol, the method with the given name will be executed on each array item in order to determine whether it is kept. If the given value is a Proc, it will be called for each array item to determine whether it is kept. Both functions or Procs are expected to return either true or false.

This is the inverse of option reject.

  • reject This option allows you to filter an array before it is validated. When using casting, this also filters the data returned by the validator. If the given value is a Symbol, the method with the given name will be executed on each array item in order to determine whether it is removed. If the given value is a Proc, it will be called for each array item to determine whether it is removed. Both functions or Procs are expected to return either true or false.

This is the inverse of option filter.

  • parse_json Specifies whether JSON is accepted instead of an array. If this is set to true and the given value is a string, Schemacop will attempt to parse the string as JSON. If the JSON yields a valid array, it will cast the JSON to a array and validate it using the given schema.

Defaults to false.

Contains

The array node features the contains node, which you can use with the DSL method cont. With that DSL method, you can specify a schema which at least one item in the array needs to validate against.

One use case for example could be that you want an array of integers, from which at least one must be 5 or larger:

schema = Schemacop::Schema3.new :array do
  list :integer
  cont :integer, minimum: 5
end

schema.validate!([])      # => Schemacop::Exceptions::ValidationError: /: At least one entry must match schema {"type"=>"integer", "minimum"=>5}.
schema.validate!([1, 5])  # => [1, 5]
schema.validate!(['foo']) # => Schemacop::Exceptions::ValidationError: /[0]: Invalid type, got type "String", expected "integer". /: At least one entry must match schema {"type"=>"integer", "minimum"=>5}

You can also use it with the tuple validation (see below), e.g. if you want an array of 3 integers, from which at least one needs to be 5 or larger:

schema = Schemacop::Schema3.new :array do
  int
  int
  int
  cont :integer, minimum: 5
end

schema.validate!([])        # => /: Array has 0 items but must have exactly 3. /: At least one entry must match schema {"type"=>"integer", "minimum"=>5}.
schema.validate!([1, 2, 3]) # => Schemacop::Exceptions::ValidationError: /: At least one entry must match schema {"type"=>"integer", "minimum"=>5}.
schema.validate!([1, 3, 5]) # => [1, 3, 5]

Specifying properties

Array nodes support a block in which you can specify the required array contents. The array nodes support either list validation, or tuple validation, depending on how you specify your array contents.

List validation

List validation validates a sequence of arbitrary length where each item matches the same schema. Unless you specify a min_items count on the array node, an empty array will also suffice. If the option required: true is not specified, a list containing only nil values is also valid. To specify a list validation, use the list DSL method, and specify the type you want to validate against. Here, you need to specify the type of the element using the long type name (e.g. integer and not int).

For example, you can specify that you want an array with only integers between 1 and 5:

schema = Schemacop::Schema3.new :array do
  list :integer, minimum: 1, maximum: 5
end

schema.validate!([])      # => []
schema.validate!([1, 3])  # => [1, 3]
schema.validate!([0, 6])  # => Schemacop::Exceptions::ValidationError: /[0]: Value must have a minimum of 1. /[1]: Value must have a maximum of 5.
schema.validate!(['foo']) # => Schemacop::Exceptions::ValidationError: /[0]: Invalid type, got type "String", expected "integer".

You can also build more complex structures, e.g. an array containing an arbitrary number of integer arrays:

schema = Schemacop::Schema3.new :array do
  list :array do
    list :integer
  end
end

schema.validate!([])                # => []
schema.validate!([[1], [2, 3]])     # => [[1], [2, 3]]
schema.validate!([['foo'], [2, 3]]) # => Schemacop::Exceptions::ValidationError: /[0]/[0]: Invalid type, got type "String", expected "integer".

Please note that you can only specify one list item:

schema = Schemacop::Schema3.new :array do
  list :integer
  list :string
end

# => Schemacop::Exceptions::InvalidSchemaError: You can only use "list" once.
Tuple validation

On the other hand, tuple validation validates a sequence of fixed length, where each item has its own schema that it has to match. Here, the order of the items is relevant for the validation.

For example, we want a tuple with an int, followed by a string:

schema = Schemacop::Schema3.new :array do
  int
  str
end

schema.validate!([])                # => Schemacop::Exceptions::ValidationError: /: Array has 0 items but must have exactly 2.
schema.validate!([1, 'foo'])        # => [1, "foo"]
schema.validate!([1, 'foo', 'bar']) # => Schemacop::Exceptions::ValidationError: /: Array has 3 items but must have exactly 2.

When using tuple validation, you can also allow additional items in the array after the specified items, either with the option additional_items or the DSL method add. With the option additional_items set to true, you can allow any additional items:

schema = Schemacop::Schema3.new :array, additional_items: true do
  int
  str
end

schema.validate!([])                # => Schemacop::Exceptions::ValidationError: /: Array has 0 items but must have exactly 2.
schema.validate!([1, 'foo'])        # => [1, "foo"]
schema.validate!([1, 'foo', 'bar']) # => [1, "foo", "bar"]

You can also use the dsl method add to specify more exactly what type the of the additional items may be. As with any other dsl method, you may specify and valid schema which the additional items will be validated against:

schema = Schemacop::Schema3.new :array do
  int
  str
  add :integer
end

schema.validate!([])                # => Schemacop::Exceptions::ValidationError: /: Array has 0 items but must have exactly 2.
schema.validate!([1, 'foo'])        # => [1, "foo"]
schema.validate!([1, 'foo', 'bar']) # => Schemacop::Exceptions::ValidationError: /[2]: Invalid type, got type "String", expected "integer".
schema.validate!([1, 'foo', 2, 3])  # => [1, "foo", 2, 3]

Please note that you cannot use multiple add in the same array schema, this will result in an exception:

schema = Schemacop::Schema3.new :array do
  int
  add :integer
  add :string
end

# => Schemacop::Exceptions::InvalidSchemaError: You can only use "add" once to specify additional items.

If you want to specify that your schema accept multiple additional types, use the one_of type (see below for more infos). The correct way to specify that you want to allow additional items, which may be an integer or a string is as follows:

schema = Schemacop::Schema3.new :array do
  int
  add :one_of do
    int
    str
  end
end

schema.validate!([])          # => Schemacop::Exceptions::ValidationError: /: Array has 0 items but must have exactly 1.
schema.validate!([1, 2])      # => [1, 2]
schema.validate!([1, 'foo'])  # => [1, "foo"]
schema.validate!([1, :bar])   # => Schemacop::Exceptions::ValidationError: /[1]: Matches 0 definitions but should match exactly 1.

Filtering

Using the options filter and reject, arrays can be filtered. Filtering happens before validation. Both options behave in the same way, with the only difference being that filter uses a inclusive approach and reject an exclusive (see filter and reject.

You can either pass a Symbol which specifies the name of the method that is called on each array item:

# FYI: This example requires active_support for the blank? method
schema = Schemacop::Schema3.new :array, reject: :blank? do
  list :string
end

schema.validate!(['', 'foo'])  # => ["foo"]

You can also pass a proc to filter or reject:

schema = Schemacop::Schema3.new :array, filter: ->(value) { value.is_a?(String) } do
  list :string
end

schema.validate!(['foo', 42])  # => ["foo"]

Note that the given method name or proc should work with all element types that could possibly be in the (unvalidated) array. If a NoMethodError is encountered during a single filtering iteration, the element will be left in the array and, in most cases, trigger a validation error later:

schema = Schemacop::Schema3.new :array, reject: :zero? do
  list :integer
end

# In this example, the value 'foo' does not respond to the method `zero?` which
# lead to a `NoMethodError` that is caught by Schemacop which in turn leaves the
# value in the array.
schema.validate!(['foo', 42, 0]) # => Schemacop::Exceptions::ValidationError: /[0]: Invalid type, got type "String", expected "integer".
Parsing JSON

By enabling parse_json, the given value will be parsed as JSON if it is a string instead of an array:

# This schema will accept any additional properties, but remove them from the result
schema = Schemacop::Schema3.new :array, parse_json: true do
  list :integer
end

schema.validate!([1, 2, 3])   # => [1, 2, 3]
schema.validate!('[1, 2, 3]') # => [1, 2, 3]

Hash

Type: :hash\ DSL: hsh

The hash type represents a ruby Hash or an object in JSON schema language. It consists of key-value-pairs that can be validated using arbitrary nodes.

Options

  • additional_properties This option specifies whether additional, unspecified properties are allowed (true) or not (false). By default, this is false, i.e. you need to explicitly set it to true if you want to allow arbitrary additional properties, or use the add DSL method (see below) to specify additional properties.

  • property_names This option allows to specify a regexp pattern (as string) which validates the keys of any properties that are not specified in the hash. This option only makes sense if additional_properties is enabled. See below for more information.

  • min_properties Specifies the (inclusive) minimum number of properties a hash must contain.

  • max_properties Specifies the (inclusive) maximum number of properties a hash must contain.

  • ignore_obsolete_properties Similar to additional_properties. If this is set to true, all additional properties are allowed (i.e. they pass the validation), but they are removed from the result hash. This is useful e.g. to validate params coming from the controller, as this only allows white-listed params and removes any params which are not whitelisted (i.e. similar to strong params from Rails).

If it is set to an enumerable (e.g. Set or Array), it functions as a white-list and only the given additional properties are allowed.

  • parse_json Specifies whether JSON is accepted instead of a hash. If this is set to true and the given value is a string, Schemacop will attempt to parse the string as JSON. If the JSON yields a valid hash, it will cast the JSON to a hash and validate it using the given schema.

Defaults to false.

Specifying properties

Hash nodes support a block in which you can specify the required hash contents.

Standard properties

It supports all type nodes, but requires the suffix ? or ! for each property, which specifies whether a property is required (!) or optional (?).

schema = Schemacop::Schema3.new :hash do
  str! :foo # Is a required property
  int? :bar # Is an optional property
end

schema.validate!({})                    # => Schemacop::Exceptions::ValidationError: /foo: Value must be given.
schema.validate!({foo: 'str'})          # => {"foo"=>"str"}
schema.validate!({foo: 'str', bar: 42}) # => {"foo"=>"str", "bar"=>42}
schema.validate!({bar: 42})             # => Schemacop::Exceptions::ValidationError: /foo: Value must be given.

The name of the properties may either be a string or a symbol, and you can pass in the property either identified by a symbol or a string:

The following two schemas are equal:

schema = Schemacop::Schema3.new :hash do
  int! :foo
end

schema.validate!(foo: 42)     # => {"foo"=>42}
schema.validate!('foo' => 42) # => {"foo"=>42}

schema = Schemacop::Schema3.new :hash do
  int! 'foo'
end

schema.validate!(foo: 42)     # => {"foo"=>42}
schema.validate!('foo' => 42) # => {"foo"=>42}

The result in both cases will be a HashWithIndifferentAccess, which means that you can access the data in the hash with the symbol as well as the string representation:

schema = Schemacop::Schema3.new :hash do
  int! :foo
end

result = schema.validate!(foo: 42)

result.class  # => ActiveSupport::HashWithIndifferentAccess
result[:foo]  # => 42
result['foo'] # 42

Please note that if you specify the value twice in the data you want to validate, once with the key being a symbol and once being a string, Schemacop will raise an error:

schema = Schemacop::Schema3.new :hash do
  int! :foo
end

schema.validate!(foo: 42, 'foo' => 43) # => Schemacop::Exceptions::ValidationError: /: Has 1 ambiguous properties: [:foo].

In addition to the normal node options (which vary from type to type, check the respective nodes for details), properties also support the as option.

With this, you can "rename" properties in the output:

schema = Schemacop::Schema3.new :hash do
  int! :foo, as: :bar
end

schema.validate!({foo: 42}) # => {"bar"=>42}

Please note that if you specify a node with the same property name multiple times, or use the as option to rename a node to the same name of another node, the last specified node will be used:

schema = Schemacop::Schema3.new :hash do
  int? :foo
  str? :foo
end

schema.validate!({foo: 1})      # => Schemacop::Exceptions::ValidationError: /foo: Invalid type, got type "Integer", expected "string".
schema.validate!({foo: 'bar'})  # => {"foo"=>"bar"}

As well as:

schema = Schemacop::Schema3.new :hash do
  int? :foo
  int? :bar, as: :foo
end

schema.validate!({foo: 1})          # => {"foo"=>1}
schema.validate!({foo: 1, bar: 2})  # => {"foo"=>2}
schema.validate!({bar: 2})          # => {"foo"=>2}

If you want to specify a node which may be one of multiple types, use the one_of node (see further down for more details):

schema = Schemacop::Schema3.new :hash do
  one_of! :foo do
    int
    str
  end
end

schema.validate!({foo: 1})      # => {"foo"=>1}
schema.validate!({foo: 'bar'})  # => {"foo"=>"bar"}
Pattern properties

In addition to symbols, property keys can also be a regular expression. Here, you may only use the optional ? suffix for the property. This allows any property, which matches the type and the name of the property matches the regular expression.

schema = Schemacop::Schema3.new :hash do
  # The following statement allows any number of integer properties of which the
  # name starts with `id_`.
  int? /^id_.*$/
end

schema.validate!({})                      # => {}
schema.validate!({id_foo: 1})             # => {"id_foo"=>1}
schema.validate!({id_foo: 1, id_bar: 2})  # => {"id_foo"=>1, "id_bar"=>2}
schema.validate!({foo: 3})                # => Schemacop::Exceptions::ValidationError: /: Obsolete property "foo".
Additional properties & property names

In addition to standard properties, you can allow the hash to contain additional, unspecified properties. By default, this is turned off if you have defined at least one standard property.

When it comes to additional properties, you have the choice to either just enable all of them by enabling the option additional_properties:

# This schema will accept any additional properties
schema = Schemacop::Schema3.new :hash, additional_properties: true

schema.validate!({}) # => {}
schema.validate!({foo: :bar, baz: 42}) # => {"foo"=>:bar, "baz"=>42}

Using the DSL method add in the hash-node's body however, you can specify an additional schema to which additional properties must adhere:

Schemacop::Schema3.new :hash do
  int! :id

  # Allow any additional properties besides `id`, but their value must be a
  # string.
  add :string
end

schema.validate!({id: 1})             # => {"id"=>1}
schema.validate!({id: 1, foo: 'bar'}) # => {"id"=>1, "foo"=>"bar"}
schema.validate!({id: 1, foo: 42})    # => Schemacop::Exceptions::ValidationError: /foo: Invalid type, got type "Integer", expected "string".

Using the option property_names, you can additionaly specify a pattern that any additional property keys must adhere to:

# The following schema allows any number of properties, but all keys must
# consist of downcase letters from a-z.
schema = Schemacop::Schema3.new :hash, additional_properties: true, property_names: '^[a-z]+$'


schema.validate!({})            # => {}
schema.validate!({foo: 123})    # => {"foo"=>123}
schema.validate!({Foo: 'bar'})  # => Schemacop::Exceptions::ValidationError: /: Property name "Foo" does not match "^[a-z]+$".

# The following schema allows any number of properties, but all keys must
# consist of downcase letters from a-z AND the properties must be arrays.
schema = Schemacop::Schema3.new :hash, additional_properties: true, property_names: '^[a-z]+$' do
  add :array
end

schema.validate!({})                # => {}
schema.validate!({foo: [1, 2, 3]})  # => {"foo"=>[1, 2, 3]}
schema.validate!({foo: :bar})       # => Schemacop::Exceptions::ValidationError: /foo: Invalid type, got type "Symbol", expected "array".
schema.validate!({Foo: :bar})       # => Schemacop::Exceptions::ValidationError: /: Property name :Foo does not match "^[a-z]+$". /Foo: Invalid type, got type "Symbol", expected "array".
Ignoring obsolete properties

By enabling ignore_obsolete_properties, you can filter out any unspecified params, while still passing validation:

# This schema will accept any additional properties, but remove them from the result
schema = Schemacop::Schema3.new :hash, ignore_obsolete_properties: true do
  int? :foo
end

schema.validate!({}) # => {}
schema.validate!({foo: :bar}) # => {"foo"=>:bar}
schema.validate!({foo: :bar, baz: 42}) # => {"foo"=>:bar}
Parsing JSON

By enabling parse_json, the given value will be parsed as JSON if it is a string instead of a hash:

# This schema will accept any additional properties, but remove them from the result
schema = Schemacop::Schema3.new :hash, parse_json: true do
  int! :id
  str! :name
end

schema.validate!({
  id: 42,
  name: 'Jane Doe'
}) # => { id: 42, name: 'Jane Doe' }
schema.validate!('{ "id": 42, name: "Jane Doe" }') # => { "id" => 42, "name" => 'Jane Doe' }

Note that the parsed JSON will always result in string hash keys, not symbols.

Dependencies

Using the DSL method dep, you can specifiy (non-nested) property dependencies:

# In this example, `billing_address` and `phone_number` are required if
# `credit_card` is given, and `credit_card` is required if `billing_address` is
# given.
schema = Schemacop::Schema3.new :hash do
  str! :name
  str? :credit_card
  str? :billing_address
  str? :phone_number

  dep :credit_card, :billing_address, :phone_number
  dep :billing_address, :credit_card
end

schema.validate!({}) # => Schemacop::Exceptions::ValidationError: /name: Value must be given.
schema.validate!({name: 'Joe Doe'}) # => {"name"=>"Joe Doe"}
schema.validate!({
  name: 'Joe Doe',
  billing_address: 'Street 42'
})
# => Schemacop::Exceptions::ValidationError: /: Missing property "credit_card" because "billing_address" is given.

schema.validate!({
  name: 'Joe Doe',
  credit_card: 'XXXX XXXX XXXX XXXX X'
})
# => Schemacop::Exceptions::ValidationError: /: Missing property "billing_address" because "credit_card" is given. /: Missing property "phone_number" because "credit_card" is given.

schema.validate!({
  name: 'Joe Doe',
  billing_address: 'Street 42',
  phone_number: '000-000-00-00',
  credit_card: 'XXXX XXXX XXXX XXXX X'
})
# => {"name"=>"Joe Doe", "credit_card"=>"XXXX XXXX XXXX XXXX X", "billing_address"=>"Street 42", "phone_number"=>"000-000-00-00"}

Object

Type: :object\ DSL: obj

The object type represents a Ruby Object. Please note that the as_json method on nodes of this type will just return {} (an empty JSON object), as there isn't a useful way to represent a Ruby object without conflicting with the Hash type. If you want to represent a JSON object, you should use the Hash node.

In the most basic form, this node will accept anything:

schema = Schemacop::Schema3.new :object

schema.validate!(nil)         # => nil
schema.validate!(true)        # => true
schema.validate!(false)       # => false
schema.validate!(Object.new)  # => #<Object:0x0000556ab4f58dd0>
schema.validate!('foo')       # => "foo"

If you want to limit the allowed classes, you can so so by specifying an array of allowed classes:

schema = Schemacop::Schema3.new :object, classes: [String]

schema.validate!(nil)             # => nil
schema.validate!(true)            # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "TrueClass", expected "String".
schema.validate!(Object.new)      # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Object", expected "String".
schema.validate!('foo')           # => "foo"
schema.validate!('foo'.html_safe) # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "ActiveSupport::SafeBuffer", expected "String".

Here, the node checks if the given value is an instance of any of the given classes with instance_of?, i.e. the exact class and not a subclass.

If you want to allow subclasses, you can specify this by using the strict option:

schema = Schemacop::Schema3.new :object, classes: [String], strict: false

schema.validate!(nil)             # => nil
schema.validate!(true)            # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "TrueClass", expected "String".
schema.validate!(Object.new)      # => Schemacop::Exceptions::ValidationError: /: Invalid type, got type "Object", expected "String".
schema.validate!('foo')           # => "foo"
schema.validate!('foo'.html_safe) # => "foo"

If you set the strict option to false, the check is done using is_a? instead of instance_of?, which also allows subclasses

AllOf

Type: :all_of\ DSL: all_of

With the AllOf node you can specify multiple schemas, for which the given value needs to validate against every one:

schema = Schemacop::Schema3.new :all_of do
  str min_length: 2
  str max_length: 4
end

schema.validate!('foo')   # => "foo"
schema.validate!('foooo') # => Schemacop::Exceptions::ValidationError: /: Does not match all allOf conditions.

Please note that it's possible to create nonsensical schemas with this node, as you can combine multiple schemas which contradict each other:

schema = Schemacop::Schema3.new :all_of do
  str min_length: 4
  str max_length: 1
end

schema.validate!('foo')   # => Schemacop::Exceptions::ValidationError: /: Does not match all allOf conditions.
schema.validate!('foooo') # => Schemacop::Exceptions::ValidationError: /: Does not match all allOf conditions.

AnyOf

Type: :any_of\ DSL: any_of

Similar to the all_of node, you can specify multiple schemas, for which the given value needs to validate against at least one of the schemas.

For example, your value needs to be either a string which is at least 2 characters long, or an integer:

schema = Schemacop::Schema3.new :any_of do
  str min_length: 2
  int
end

schema.validate!('f')   # => Schemacop::Exceptions::ValidationError: /: Does not match any anyOf condition.
schema.validate!('foo') # => "foo"
schema.validate!(42)    # => 42

Please note that you need to specify at least one item in the any_of node:

Schemacop::Schema3.new :any_of # => Schemacop::Exceptions::InvalidSchemaError: Node "any_of" makes only sense with at least 1 item.

OneOf

Type: :one_of\ DSL: one_of

Similar to the all_of node, you can specify multiple schemas, for which the given value needs to validate against exaclty one of the schemas. If the given value validates against multiple schemas, the value is invalid.

For example, if you want an integer which is either a multiple of 2 or 3, but not both (i.e. no multiple of 6), you could do it as follows:

schema = Schemacop::Schema3.new :one_of do
  int multiple_of: 2
  int multiple_of: 3
end

schema.validate!(2) # => 2
schema.validate!(3) # => 3
schema.validate!(4) # => 4
schema.validate!(5) # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(6) # => Schemacop::Exceptions::ValidationError: /: Matches 2 definitions but should match exactly 1.

Again, as previously with the AllOf node, you're allowed to create schemas which will not work for any input, e.g. by specifying the same schema twice:

schema = Schemacop::Schema3.new :one_of do
  int multiple_of: 2
  int multiple_of: 2
end

schema.validate!(2) # => Schemacop::Exceptions::ValidationError: /: Matches 2 definitions but should match exactly 1.
schema.validate!(3) # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(4) # => Schemacop::Exceptions::ValidationError: /: Matches 2 definitions but should match exactly 1.
schema.validate!(5) # => Schemacop::Exceptions::ValidationError: /: Matches 0 definitions but should match exactly 1.
schema.validate!(6) # => Schemacop::Exceptions::ValidationError: /: Matches 2 definitions but should match exactly 1.

IsNot

Type: :is_not\ DSL: is_not

With the is_not node, you can specify a schema which the given value must not validate against, i.e. every value which matches the schema will make this node invalid.

For example, you want anything but the numbers between 3 and 5:

schema = Schemacop::Schema3.new :is_not do
  int minimum: 3, maximum: 5
end

schema.validate!(nil)   # => nil
schema.validate!(1)     # => 1
schema.validate!(2)     # => 2
schema.validate!(3)     # => Schemacop::Exceptions::ValidationError: /: Must not match schema: {"type"=>"integer", "minimum"=>3, "maximum"=>5}.
schema.validate!('foo') # => "foo"

Note that a is_not node needs exactly one item:

schema = Schemacop::Schema3.new :is_not # => Schemacop::Exceptions::InvalidSchemaError: Node "is_not" only allows exactly one item.

Reference

Referencing DSL: ref\ Type: reference

Definition DSL: scm

Finally, with the Reference node, you can define schemas and then later reference them for usage, e.g. when you have a rather long schema which you need at multiple places.

Examples

For example, let's define an object with an schema called Address, which we'll reference multiple times:

schema = Schemacop::Schema3.new :hash do
  scm :Address do
    str! :street
    str! :zip_code
    str! :location
    str! :country
  end

  ref! :shipping_address, :Address
  ref! :billing_address, :Address
end

schema.validate!({}) # => Schemacop::Exceptions::ValidationError: /shipping_address: Value must be given. /billing_address: Value must be given.
schema.validate!({
  shipping_address: 'foo',
  billing_address: 42
})
# => Schemacop::Exceptions::ValidationError: /shipping_address: Invalid type, got type "String", expected "object". /billing_address: Invalid type, got type "Integer", expected "object".

schema.validate!({
  shipping_address: {
    street:   'Example Street 42',
    zip_code: '12345',
    location: 'London',
    country:  'United Kingdom'
  },
  billing_address: {
    street:   'Main St.',
    zip_code: '54321',
    location: 'Washington DC',
    country:  'USA'
  }
})

# => {"shipping_address"=>{"street"=>"Example Street 42", "zip_code"=>"12345", "location"=>"London", "country"=>"United Kingdom"}, "billing_address"=>{"street"=>"Main St.", "zip_code"=>"54321", "location"=>"Washington DC", "country"=>"USA"}}

Note that if you use the reference node with the long type name reference, e.g. in an array, you need to specify the "name" of the schema in the path option:

schema = Schemacop::Schema3.new :array do
  scm :User do
    str! :first_name
    str! :last_name
  end

  list :reference, path: :User
end

schema.validate!([])                                      # => []
schema.validate!([{first_name: 'Joe', last_name: 'Doe'}]) # => [{"first_name"=>"Joe", "last_name"=>"Doe"}]
schema.validate!([id: 42, first_name: 'Joe'])             # => Schemacop::Exceptions::ValidationError: /[0]/last_name: Value must be given. /[0]: Obsolete property "id".

Context

Schemacop also features the concept of a Context. You can define schemas in a context, and then reference them in other schemas in that context. This is e.g. useful if you need a part of the schema to be different depending on the business action.

Examples:

# Define a new context
context = Schemacop::V3::Context.new

# Define the :Person schema in that context
context.schema :Person do
  str! :first_name
  str! :last_name
  ref? :info, :PersonInfo
end

# And also define the :PersonInfo schema in that context
context.schema :PersonInfo do
  str! :born_at, format: :date
end

# Now we can define our general schema, where we reference the :Person schema.
# Note that at this point, we don't know what's in the :Person schema.
schema = Schemacop::Schema3.new :reference, path: :Person

# Validate the data in the context we defined before, where we need the first_name
# and last_name of a person, as well as an optional info hash with the born_at date
# of the person.
Schemacop.with_context context do
  schema.validate!({first_name: 'Joe', last_name: 'Doe', info: { born_at: '1980-01-01'} })
  # => {"first_name"=>"Joe", "last_name"=>"Doe", "info"=>{"born_at"=>Tue, 01 Jan 1980}}
end

# Now we might want another context, where the person is more anonymous, and as
# such, we need another schema
other_context = Schemacop::V3::Context.new

# Here, we only want the nickname of the person
other_context.schema :Person do
  str! :nickname
end

# Finally, validate the data in the new context. We do not want the real name or
# birth date of the person, instead only the nickname is allowed.
Schemacop.with_context other_context do
  schema.validate!({first_name: 'Joe', last_name: 'Doe', info: { born_at: '1980-01-01'} })
  # => Schemacop::Exceptions::ValidationError: /nickname: Value must be given.
  #    /: Obsolete property "first_name".
  #    /: Obsolete property "last_name".
  #    /: Obsolete property "info".

  schema.validate!({nickname: 'J.'}) # => {"nickname"=>"J."}
end

As one can see, we validated the data against the same schema, but because we defined the referenced schemas differently in the two contexts, we were able to use other data in the second context than in the first.

External schemas

Finally, Schemacop features the possibility to specify schemas in seperate files. This is especially useful is you have schemas in your application which are used multiple times throughout the application.

For each schema, you define the schema in a separate file, and after loading the schemas, you can reference them in other schemas. The schema can be retrieved by using the file name, e.g. user in the example app/schemas/user.rb below.

The default load path is 'app/schemas', but this can be configured by setting the value of the load_paths attribute of the Schemacop module.

Please note that the following predescence order is used for the schemas:

local schemas > context schemas > global schemas

Where:

  • local schemas: Defined by using the DSL method scm
  • context schemas: Defined in the current context using context.schema
  • global schemas: Defined in a ruby file in the load path

External schemas in Rails applications

In Rails applications, your schemas are automatically eager-loaded from the load path 'app/schemas' when your application is started, unless your application is running in the DEVELOPMENT environment. In the DEVELOPMENT environment, schemas are loaded each time when they are used, and as such you can make changes to your external schemas without having to restart the server each time.

After starting your application, you can reference them like normally defined reference schemas, with the name being relative to the load path.

Example:

You defined the following two schemas in the 'app/schemas' directory:

# app/schemas/user.rb
schema :hash do
  str! :first_name
  str! :last_name
  ary? :groups do
    list :reference, path: 'nested/group'
  end
end
# app/schemas/nested/group.rb
schema :hash do
  str! :name
end

To use the schema, you then can simply reference the schema as with normal reference schemas:

schema = Schemacop::Schema3.new :hash do
  ref! :usr, :user
end

schema.validate!({usr: {first_name: 'Joe', last_name: 'Doe'}})
  # => {"usr"=>{"first_name"=>"Joe", "last_name"=>"Doe"}}

schema.validate!({usr: {first_name: 'Joe', last_name: 'Doe', groups: []}})
  # => {"usr"=>{"first_name"=>"Joe", "last_name"=>"Doe", "groups"=>[]}}

schema.validate!({usr: {first_name: 'Joe', last_name: 'Doe', groups: [{name: 'foo'}, {name: 'bar'}]}})
  # => {"usr"=>{"first_name"=>"Joe", "last_name"=>"Doe", "groups"=>[{"name"=>"foo"}, {"name"=>"bar"}]}}

External schemas in Non-Rails applications

Usage in non-Rails applications is the same as with usage in Rails applications, however you might need to eager load the schemas yourself:

Schemacop::V3::GlobalContext.eager_load!

As mentioned before, you can also use the external schemas without having to eager-load them, but if you use the schemas multiple times, it might be better to eager-load them on start of your application / script.

Default options

Using the setting Schemacop.v3_default_options, you can specify a hash containing default options that will be used for every schemacop node (options not supported by a particular node are automatically ignored). Options passed directly to a node still take precedence. The setting can be set in an initializer:

# config/initializers/schemacop.rb
Schemacop.v3_default_options = { cast_str: true }.freeze

# Example schema: As cast_str is enabled in the default options, strings will
# automatically be casted where supported.
schema = Schemacop::Schema3.new(:integer)
schema.validate!('42')  # => 42