# frozen_string_literal: true
require 'spec_helper'
RSpec.describe RelativePositioning::Mover do
let_it_be(:user) { create(:user) }
let_it_be(:one_sibling, reload: true) { create(:project, creator: user, namespace: user.namespace) }
let_it_be(:one_free_space, reload: true) { create(:project, creator: user, namespace: user.namespace) }
let_it_be(:fully_occupied, reload: true) { create(:project, creator: user, namespace: user.namespace) }
let_it_be(:no_issues, reload: true) { create(:project, creator: user, namespace: user.namespace) }
let_it_be(:three_sibs, reload: true) { create(:project, creator: user, namespace: user.namespace) }
def create_issue(pos, parent = project)
create(:issue, author: user, project: parent, relative_position: pos)
end
range = (101..105)
indices = (0..).take(range.size)
let(:start) { ((range.first + range.last) / 2.0).floor }
subject { described_class.new(start, range) }
let_it_be(:full_set) do
range.each_with_index.map do |pos, i|
create(:issue, iid: i.succ, project: fully_occupied, relative_position: pos)
end
end
let_it_be(:sole_sibling) { create(:issue, iid: 1, project: one_sibling, relative_position: nil) }
let_it_be(:one_sibling_set) { [sole_sibling] }
let_it_be(:one_free_space_set) do
indices.drop(1).map { |iid| create(:issue, project: one_free_space, iid: iid.succ) }
end
let_it_be(:three_sibs_set) do
[1, 2, 3].map { |iid| create(:issue, iid: iid, project: three_sibs) }
end
def set_positions(positions)
mapping = issues.zip(positions).to_h do |issue, pos|
[issue, { relative_position: pos }]
end
::Gitlab::Database::BulkUpdate.execute([:relative_position], mapping)
end
def ids_in_position_order
project.issues.reorder(:relative_position).pluck(:id)
end
def relative_positions
project.issues.pluck(:relative_position)
end
describe '#move_to_end' do
def max_position
project.issues.maximum(:relative_position)
end
def move_to_end(issue)
subject.move_to_end(issue)
issue.save!
end
shared_examples 'able to place a new item at the end' do
it 'can place any new item' do
existing_issues = ids_in_position_order
new_item = create_issue(nil)
expect do
move_to_end(new_item)
end.to change { project.issues.pluck(:id, :relative_position) }
expect(new_item.relative_position).to eq(max_position)
expect(relative_positions).to all(be_between(range.first, range.last))
expect(ids_in_position_order).to eq(existing_issues + [new_item.id])
end
end
shared_examples 'able to move existing items to the end' do
it 'can move any existing item' do
issues = project.issues.reorder(:relative_position).to_a
issue = issues[index]
other_issues = issues.reject { |i| i == issue }
expect(relative_positions).to all(be_between(range.first, range.last))
if issues.last == issue
move_to_end(issue) # May not change the positions
else
expect do
move_to_end(issue)
end.to change { project.issues.pluck(:id, :relative_position) }
end
project.reset
expect(relative_positions).to all(be_between(range.first, range.last))
expect(issue.relative_position).to eq(max_position)
expect(ids_in_position_order).to eq(other_issues.map(&:id) + [issue.id])
end
end
context 'all positions are taken' do
let(:issues) { full_set }
let(:project) { fully_occupied }
it 'raises an error when placing a new item' do
new_item = create_issue(nil)
expect { subject.move_to_end(new_item) }.to raise_error(RelativePositioning::NoSpaceLeft)
end
where(:index) { indices }
with_them do
it_behaves_like 'able to move existing items to the end'
end
end
context 'there are no siblings' do
let(:issues) { [] }
let(:project) { no_issues }
it_behaves_like 'able to place a new item at the end'
end
context 'there is only one sibling' do
where(:pos) { range.to_a }
with_them do
let(:issues) { one_sibling_set }
let(:project) { one_sibling }
let(:index) { 0 }
before do
sole_sibling.reset.update!(relative_position: pos)
end
it_behaves_like 'able to place a new item at the end'
it_behaves_like 'able to move existing items to the end'
end
end
context 'at least one position is free' do
where(:free_space, :index) do
is = indices.take(range.size - 1)
range.to_a.product(is)
end
with_them do
let(:issues) { one_free_space_set }
let(:project) { one_free_space }
before do
positions = range.reject { |x| x == free_space }
set_positions(positions)
end
it_behaves_like 'able to place a new item at the end'
it_behaves_like 'able to move existing items to the end'
end
end
end
describe '#move_to_start' do
def min_position
project.issues.minimum(:relative_position)
end
def move_to_start(issue)
subject.move_to_start(issue)
issue.save!
end
shared_examples 'able to place a new item at the start' do
it 'can place any new item' do
existing_issues = ids_in_position_order
new_item = create_issue(nil)
expect do
move_to_start(new_item)
end.to change { project.issues.pluck(:id, :relative_position) }
expect(relative_positions).to all(be_between(range.first, range.last))
expect(new_item.relative_position).to eq(min_position)
expect(ids_in_position_order).to eq([new_item.id] + existing_issues)
end
end
shared_examples 'able to move existing items to the start' do
it 'can move any existing item' do
issues = project.issues.reorder(:relative_position).to_a
issue = issues[index]
other_issues = issues.reject { |i| i == issue }
expect(relative_positions).to all(be_between(range.first, range.last))
if issues.first == issue
move_to_start(issue) # May not change the positions
else
expect do
move_to_start(issue)
end.to change { project.issues.pluck(:id, :relative_position) }
end
project.reset
expect(relative_positions).to all(be_between(range.first, range.last))
expect(issue.relative_position).to eq(min_position)
expect(ids_in_position_order).to eq([issue.id] + other_issues.map(&:id))
end
end
context 'all positions are taken' do
let(:issues) { full_set }
let(:project) { fully_occupied }
it 'raises an error when placing a new item' do
new_item = create(:issue, project: project, relative_position: nil)
expect { subject.move_to_start(new_item) }.to raise_error(RelativePositioning::NoSpaceLeft)
end
where(:index) { indices }
with_them do
it_behaves_like 'able to move existing items to the start'
end
end
context 'there are no siblings' do
let(:project) { no_issues }
let(:issues) { [] }
it_behaves_like 'able to place a new item at the start'
end
context 'there is only one sibling' do
where(:pos) { range.to_a }
with_them do
let(:issues) { one_sibling_set }
let(:project) { one_sibling }
let(:index) { 0 }
before do
sole_sibling.reset.update!(relative_position: pos)
end
it_behaves_like 'able to place a new item at the start'
it_behaves_like 'able to move existing items to the start'
end
end
context 'at least one position is free' do
where(:free_space, :index) do
range.to_a.product((0..).take(range.size - 1).to_a)
end
with_them do
let(:issues) { one_free_space_set }
let(:project) { one_free_space }
before do
set_positions(range.reject { |x| x == free_space })
end
it_behaves_like 'able to place a new item at the start'
it_behaves_like 'able to move existing items to the start'
end
end
end
describe '#move' do
shared_examples 'able to move a new item' do
let(:other_issues) { project.issues.reorder(relative_position: :asc).to_a }
let!(:previous_order) { other_issues.map(&:id) }
it 'can place any new item betwen two others' do
new_item = create_issue(nil)
subject.move(new_item, lhs, rhs)
new_item.save!
lhs.reset
rhs.reset
expect(new_item.relative_position).to be_between(range.first, range.last)
expect(new_item.relative_position).to be_between(lhs.relative_position, rhs.relative_position)
ids = project.issues.reorder(:relative_position).pluck(:id).reject { |id| id == new_item.id }
expect(ids).to eq(previous_order)
end
it 'can place any new item after another' do
new_item = create_issue(nil)
subject.move(new_item, lhs, nil)
new_item.save!
lhs.reset
expect(new_item.relative_position).to be_between(range.first, range.last)
expect(new_item.relative_position).to be > lhs.relative_position
ids = project.issues.reorder(:relative_position).pluck(:id).reject { |id| id == new_item.id }
expect(ids).to eq(previous_order)
end
it 'can place any new item before another' do
new_item = create_issue(nil)
subject.move(new_item, nil, rhs)
new_item.save!
rhs.reset
expect(new_item.relative_position).to be_between(range.first, range.last)
expect(new_item.relative_position).to be < rhs.relative_position
ids = project.issues.reorder(:relative_position).pluck(:id).reject { |id| id == new_item.id }
expect(ids).to eq(previous_order)
end
end
shared_examples 'able to move an existing item' do
let(:all_issues) { project.issues.reorder(:relative_position).to_a }
let(:item) { all_issues[index] }
let(:positions) { project.reset.issues.pluck(:relative_position) }
let(:other_issues) { all_issues.reject { |i| i == item } }
let!(:previous_order) { other_issues.map(&:id) }
let(:new_order) do
project.issues.where.not(id: item.id).reorder(:relative_position).pluck(:id)
end
it 'can place any item betwen two others' do
subject.move(item, lhs, rhs)
item.save!
lhs.reset
rhs.reset
expect(positions).to all(be_between(range.first, range.last))
expect(positions).to match_array(positions.uniq)
expect(item.relative_position).to be_between(lhs.relative_position, rhs.relative_position)
expect(new_order).to eq(previous_order)
end
def sequence(expected_sequence)
range = (expected_sequence.first.relative_position..expected_sequence.last.relative_position)
project.issues.reorder(:relative_position).where(relative_position: range)
end
it 'can place any item after another' do
subject.move(item, lhs, nil)
item.save!
lhs.reset
expect(positions).to all(be_between(range.first, range.last))
expect(positions).to match_array(positions.uniq)
expect(item.relative_position).to be >= lhs.relative_position
expected_sequence = [lhs, item].uniq
expect(sequence(expected_sequence)).to eq(expected_sequence)
expect(new_order).to eq(previous_order)
end
it 'can place any item before another' do
subject.move(item, nil, rhs)
item.save!
rhs.reset
expect(positions).to all(be_between(range.first, range.last))
expect(positions).to match_array(positions.uniq)
expect(item.relative_position).to be <= rhs.relative_position
expected_sequence = [item, rhs].uniq
expect(sequence(expected_sequence)).to eq(expected_sequence)
expect(new_order).to eq(previous_order)
end
end
context 'all positions are taken' do
let(:issues) { full_set }
let(:project) { fully_occupied }
where(:idx_a, :idx_b) do
indices.product(indices).select { |a, b| a < b }
end
with_them do
let(:lhs) { issues[idx_a].reset }
let(:rhs) { issues[idx_b].reset }
it 'raises an error when placing a new item anywhere' do
new_item = create_issue(nil)
expect { subject.move(new_item, lhs, rhs) }
.to raise_error(Gitlab::RelativePositioning::NoSpaceLeft)
expect { subject.move(new_item, nil, rhs) }
.to raise_error(Gitlab::RelativePositioning::NoSpaceLeft)
expect { subject.move(new_item, lhs, nil) }
.to raise_error(Gitlab::RelativePositioning::NoSpaceLeft)
end
where(:index) { indices }
with_them do
it_behaves_like 'able to move an existing item'
end
end
end
context 'there are no siblings' do
let(:project) { no_issues }
it 'raises an ArgumentError when both first and last are nil' do
new_item = create_issue(nil)
expect { subject.move(new_item, nil, nil) }.to raise_error(ArgumentError)
end
end
context 'there are a couple of siblings' do
where(:pos_movable, :pos_a, :pos_b) do
xs = range.to_a
xs.product(xs).product(xs).map(&:flatten)
.select { |vals| vals == vals.uniq && vals[1] < vals[2] }
end
with_them do
let(:issues) { three_sibs_set }
let(:project) { three_sibs }
let(:index) { 0 }
let(:lhs) { issues[1] }
let(:rhs) { issues[2] }
before do
set_positions([pos_movable, pos_a, pos_b])
end
it_behaves_like 'able to move a new item'
it_behaves_like 'able to move an existing item'
end
end
context 'at least one position is free' do
where(:free_space, :index, :pos_a, :pos_b) do
is = indices.reverse.drop(1)
range.to_a.product(is).product(is).product(is)
.map(&:flatten)
.select { |_, _, a, b| a < b }
end
with_them do
let(:issues) { one_free_space_set }
let(:project) { one_free_space }
let(:lhs) { issues[pos_a] }
let(:rhs) { issues[pos_b] }
before do
set_positions(range.reject { |x| x == free_space })
end
it_behaves_like 'able to move a new item'
it_behaves_like 'able to move an existing item'
end
end
end
end