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#
# Example of user-supplied built-in strings and objects
#
# Top level keys:
#
# - add_forced_strings: provide a list of keys to be forced into ROM
# - objects: objects to add, replace, delete, or modify
#
# See examples below for details on how to use these.
#
# Note that genbuiltins.py (and make_dist.py) accepts multiple user built-in
# YAML files, so that you can manage your custom strings and objects in
# individual YAML files for modularity.
#
# When using pointer compression, all ROM strings and objects need a number
# from the ROM pointer compression range (e.g. [0xf800,0xffff]). By default
# there is space for ~1000 user strings and objects. You can tweak the range
# starting point if you need more space.
#
# Strings that must be included in ROM even if not referenced by any
# built-in object. String data is in a raw format where Unicode codepoints
# U+0000...U+00FF are identified with exact bytes in the string (allows
# invalid UTF-8 so that internal strings can be represented). Placing
# strings in ROM avoids interning them if they're encountered at run time;
# you can e.g. add function and constant names used in custom Ecmascript
# bindings.
#
# NOTE: You don't need to list any keys of custom built-in objects here
# as those strings will automatically be included in ROM strings. Duplicates
# are eliminated automatically so it's still safe to include strings here
# "just in case".
add_forced_strings:
# If numbers are often string coerced it might be useful to add e.g.
# numbers 0-9 or 0-99.
- str: "0"
- str: "1"
- str: "2"
- str: "3"
- str: "4"
- str: "5"
- str: "6"
- str: "7"
- str: "8"
- str: "9"
# Non-ascii strings: encode into UTF-8, map bytes to U+0000...U+00FF.
#
# >>> u'säätö'.encode('utf-8').encode('hex')
# '73c3a4c3a474c3b6'
- str: "s\u00c3\u00a4\u00c3\u00a4t\u00c3\u00b6"
# Custom run-time constants are useful to add (if they're not already
# present as keys of any builtin-in object).
- str: "Led1"
- str: "Led2"
- str: "Led3"
- str: "Led4"
- str: "Led5"
- str: "Led6"
- str: "Led7"
- str: "Led8"
# In general, any strings that may be used frequently can be added,
# at the cost of increasing ROM footprint and reducing RAM footprint
# (the tradeoff is quite close to 1:1, i.e. memory usage moves from
# RAM to ROM but does not decrease as such).
#
# You can find eligible strings in many ways, e.g. by grepping source
# code, or by adding a few debug prints to Duktape string intern code.
- str: "Content-Type"
- str: "Content-Type: application/octet-stream"
- str: "Arglebargle, glop-glyf!?!"
- str: "Do you want your possessions identified?"
- str: "Project Marathon"
- str: "Motel Key"
- str: "Bus Ticket"
- str: "foo"
- str: "bar"
- str: "quux"
- str: "baz"
# Objects to add, replace, delete, or modify:
#
# - If the object entry contains 'delete': true', the object will be
# deleted. Error if the object doesn't exist.
#
# - If the object entry contains 'replace: true', the object will be
# replaced; if the object doesn't exist it'll be added with a warning.
#
# - If the object entry contains 'modify: true', the object will be
# modified incrementally. Error if the object doesn't exist.
#
# - If the object entry contains 'add: true', the object will be added.
# Error if the object already exists. This is the default if no keys
# listed above are given.
objects:
# Example of adding an object. Properties may reference other objects using
# the 'id' strings even if the object hasn't been introduced yet (and may be
# introduced by a different user builtins YAML file).
#
# Add a built-in object with plain property values. This just creates the
# built-in object; for the object to be actually useful you must use e.g.
# 'modify: true' to add a reference to the object to some existing object
# reachable from the global object (see below for an example pointing to
# this object).
#
# (In more detail, it's sufficient for the custom object to be reachable
# from any object with a 'bidx', but in practice objects are reachable
# directly on indirectly through the global object.)
- id: bi_star_trek
add: true
class: Object # recommended for objects
internal_prototype: bi_object_prototype # recommended so that e.g. .toString() works
# Because we don't give explicit property attributes here, defaults
# (writable, configurable, not enumerable) are used automatically.
properties:
- key: "tos"
value: true
- key: "tng"
value: true
- key: "ds9"
value: true
- key: "voy"
value: true
- key: "ent"
value: true
# Example of plain value types supported at the moment:
#
# - Object, function, and accessor types not illustrated here
# (see src/builtins.yaml for examples of those).
#
# - Duktape buffer and pointer types cannot be used by built-in
# objects at the moment.
#
# - The "null" type is supported for ROM init data but not for RAM
# init data. Null values are replaced with "undefined" for RAM
# init data at the moment (with a build warning).
#
# - One simple way of coming up with exact IEEE doubles is to use
# Python:
#
# import struct
# print(struct.pack('>d', 12345.6789).encode('hex'))
- id: bi_type_examples
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "undefinedType"
value:
type: undefined
attributes: wec
- key: "nullType"
value: null
attributes: wec
- key: "booleanType"
value: true
attributes: wec
- key: "integerType"
value: 123
attributes: wec
- key: "floatType"
value: 123.4
attributes: wec
- key: "ieeeDoubleType" # Allows exact specification of IEEE doubles
value:
attributes: wec
value:
type: double
bytes: "41d2658965400000" # 123456789.0 as IEEE double, big endian
- key: "stringType"
value: "foobar" # Encode string as UTF-8, then map bytes to U+0000...U+00FF
attributes: wec
# Object IDs are only resolved when metadata loading is complete, so it's
# OK to create reference loops or refer to objects defined later (even in
# a separate YAML file not yet loaded).
- id: bi_circular1
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "name"
value: "circular1"
- key: "ref"
value:
type: object
id: bi_circular2
- id: bi_circular2
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "name"
value: "circular2"
- key: "ref"
value:
type: object
id: bi_circular1
# Example of unreachable objects; these will be dropped by genbuiltins.py
# with a note in the build log.
- id: my_unreachable_object1
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "foo"
value: "bar"
- id: my_unreachable_object2
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "foo"
value: "bar"
- id: my_disabled
disable: true # will be skipped in metadata
add: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "bar"
value: "quux"
# Example of an object to be replaced entirely.
#
# Replace Error.prototype entirely with a stripped one.
- id: bi_error_prototype
replace: true
class: Error
internal_prototype: bi_object_prototype
properties:
- key: "constructor"
value:
type: object
id: bi_error_constructor
attributes: "wc"
- key: "name"
value: "Error"
- key: "message"
value: ""
- id: bi_json
disable: true # disabled in metadata
replace: true
class: Object
internal_prototype: bi_object_prototype
properties:
- key: "bar"
value: "quux"
# Example of how to delete an existing built-in object entirely. Dangling
# references are automatically deleted with a note in the build log.
#
# This doesn't currently work very well for Duktape built-ins because most
# built-ins are expected to be present in Duktape internals (and they have
# a DUK_BIDX_xxx index).
#
# Deleting user objects may be useful e.g. if a base YAML file provides your
# custom built-ins and a target specific YAML file removes bindings not
# needed for a certain target.
#
# In this example we'd delete the StarTrek object. The global reference
# global.StarTrek would be deleted automatically.
- id: bi_star_trek
disable: true # disabled in metadata
delete: true
# Examples of modifying an object, i.e. augment top level metadata, add
# property, delete property, or modify a property. You can operate on the
# same object multiple times in the same 'objects' list.
#
# Top level keys other than 'properties' are copied over the existing object
# so that you can e.g. change the class of an object.
#
# Property list is then walked in order.
#
# If a property has "delete: true" the property is deleted:
#
# - If the key doesn't exist in the existing object, ignore silently.
#
# - If the key exists, delete the property.
#
# Otherwise the property is added/modified:
#
# - If the key already exists the existing property is replaced
# (and keeps its enumeration position).
#
# - If the key doesn't exist the property is added to the end of
# the property list.
#
# XXX: At present there's no support for reordering properties which would
# be nice because it affects enumeration order (and may affect performance
# marginally).
# Add references to the example objects added above into the global object.
# The references can be in any object reachable from the global object of
# course. Unreachable objects will be dropped with a build note.
- id: bi_global
modify: true
properties:
- key: 'StarTrek'
value:
type: object
id: bi_star_trek
- key: 'TypeExamples'
value:
type: object
id: bi_type_examples
- key: 'circular1'
value:
type: object
id: bi_circular1
# The 'structured' type can be used to represent structured (object)
# values compactly, with property attributes etc set similarly to
# JSON.parse() return value. Useful for e.g. build info objects and such.
#
# The JSON equivalent of the value below would be:
# {
# "comment": "structured value; there are some type limitations now, e.g. arrays not supported",
# "foo": 123,
# "bar": "quux",
# "quux": {
# "comment": "object property",
# "foo": 321
# }
# }
- key: 'ExampleStructured1'
value:
type: structured
value:
comment: structured value; there are some type limitations now, e.g. arrays not supported
foo: 123
bar: 'quux'
quux:
comment: object property
foo: 321
# Note that because JSON is a subset of YAML, you can give the structured
# value directly in JSON notation if you wish.
- key: 'ExampleStructured2'
value:
type: structured
value: { "build_date": "2016-01-31T11:22:33Z", "build_host": "c64", "build_time": 15.34 }
# User functions can be expressed using shorthand or longhand.
# Duktape will automatically emit an internal declaration for the
# function:
#
# extern duk_ret_t my_dummy_adder(duk_context *ctx);
#
# User code must then provide that function, but there's no need
# to declare the function e.g. using DUK_USE_USER_DECLARE config
# option.
- key: 'myDummyAdder'
value:
type: function
constructable: false
native: my_dummy_adder
varargs: true
disable: true # Disabled by default here; provide my_dummy_adder()
# if you enable this.
# Example of how to delete a property from an existing built-in. In this
# example Math.cos() is deleted.
- id: bi_math
modify: true
properties:
- key: 'cos'
delete: true