shard-spectator/src/spectator/example_group.cr
2022-11-29 23:22:42 -07:00

151 lines
4.7 KiB
Crystal

require "./example_procsy_hook"
require "./hooks"
require "./node"
module Spectator
# Collection of examples and sub-groups.
class ExampleGroup < Node
include Hooks
include Indexable(Node)
@nodes = [] of Node
# Parent group this group belongs to.
getter! group : ExampleGroup
# Assigns this group to the specified *group*.
# This is an internal method and should only be called from `ExampleGroup`.
# `ExampleGroup` manages the association of nodes to groups.
protected setter group : ExampleGroup?
define_hook before_all : ExampleGroupHook do
Log.trace { "Processing before_all hooks for: #{self}" }
@group.try &.call_before_all
before_all_hooks.each &.call_once
end
define_hook after_all : ExampleGroupHook, :prepend do
Log.trace { "Processing after_all hooks for: #{self}" }
after_all_hooks.each &.call_once if finished?
if group = @group
group.call_after_all if group.finished?
end
end
define_hook before_each : ExampleHook do |example|
Log.trace { "Processing before_each hooks for: #{self}" }
@group.try &.call_before_each(example)
before_each_hooks.each &.call(example)
end
define_hook after_each : ExampleHook, :prepend do |example|
Log.trace { "Processing after_each hooks for: #{self}" }
after_each_hooks.each &.call(example)
@group.try &.call_after_each(example)
end
define_hook around_each : ExampleProcsyHook do |procsy|
Log.trace { "Processing around_each hooks for: #{self}" }
around_each_hooks.reverse_each { |hook| procsy = hook.wrap(procsy) }
if group = @group
procsy = group.call_around_each(procsy)
end
procsy
end
define_hook pre_condition : ExampleHook do |example|
Log.trace { "Processing pre_condition hooks for: #{self}" }
@group.try &.call_pre_condition(example)
pre_condition_hooks.each &.call(example)
end
define_hook post_condition : ExampleHook, :prepend do |example|
Log.trace { "Processing post_condition hooks for: #{self}" }
post_condition_hooks.each &.call(example)
@group.try &.call_post_condition(example)
end
# Creates the example group.
# The *name* describes the purpose of the group.
# It can be a `Symbol` to describe a type.
# The *location* tracks where the group exists in source code.
# This group will be assigned to the parent *group* if it is provided.
# A set of *metadata* can be used for filtering and modifying example behavior.
def initialize(@name : Label = nil, @location : Location? = nil,
@group : ExampleGroup? = nil, @metadata : Metadata? = nil)
# Ensure group is linked.
group << self if group
end
delegate size, unsafe_fetch, to: @nodes
# Yields this group and all parent groups.
def ascend
group = self
while group
yield group
group = group.group?
end
end
# Removes the specified *node* from the group.
# The node will be unassigned from this group.
def delete(node : Node)
# Only remove from the group if it is associated with this group.
return unless node.group == self
node.group = nil
@nodes.delete(node)
end
# Checks if all examples and sub-groups have finished.
def finished? : Bool
@nodes.all?(&.finished?)
end
# Constructs the full name or description of the example group.
# This prepends names of groups this group is part of.
def to_s(io : IO, *, nested = false) : Nil
unless parent = @group
# Display special string when called directly.
io << "<root>" unless nested
return
end
# Prefix with group's full name if the node belongs to a group.
parent.to_s(io, nested: true)
name = @name
# Add padding between the node names
# only if the names don't appear to be symbolic.
# Skip blank group names (like the root group).
io << ' ' unless !parent.name? || # ameba:disable Style/NegatedConditionsInUnless
(parent.name?.is_a?(Symbol) && name.is_a?(String) &&
(name.starts_with?('#') || name.starts_with?('.')))
super(io)
end
# Adds the specified *node* to the group.
# Assigns the node to this group.
# If the node already belongs to a group,
# it will be removed from the previous group before adding it to this group.
def <<(node : Node)
# Remove from existing group if the node is part of one.
if (previous = node.group?)
previous.delete(node)
end
# Add the node to this group and associate with it.
@nodes << node
node.group = self
end
end
end