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|
-- love.run: main entrypoint function for LÖVE
--
-- Most apps can just use the default, but we need to override it to
-- install a test harness.
--
-- A test harness needs to check what the 'real' code did.
-- To do this it needs to hook into primitive operations performed by code.
-- Our hooks all go through the `App` global. When running tests they operate
-- on fake screen, keyboard and so on. Once all tests pass, the App global
-- will hook into the real screen, keyboard and so on.
--
-- Scroll below this function for more details.
function love.run()
App.snapshot_love()
-- Tests always run at the start.
App.run_tests_and_initialize()
--? print('==')
love.timer.step()
local dt = 0
return function()
if love.event then
love.event.pump()
for name, a,b,c,d,e,f in love.event.poll() do
if name == "quit" then
if not love.quit or not love.quit() then
return a or 0
end
end
love.handlers[name](a,b,c,d,e,f)
end
end
-- draw before update to give it a chance to mutate state
love.graphics.origin()
love.graphics.clear(love.graphics.getBackgroundColor())
App.draw()
love.graphics.present()
dt = love.timer.step()
App.update(dt)
love.timer.sleep(0.001)
end
end
-- I've been building LÖVE apps for a couple of months now, and often feel
-- stupid. I seem to have a smaller short-term memory than most people, and
-- LÖVE apps quickly grow to a point where I need longer and longer chunks of
-- focused time to make changes to them. The reason: I don't have a way to
-- write tests yet. So before I can change any piece of an app, I have to
-- bring into my head all the ways it can break. This isn't the case on other
-- platforms, where I can be productive in 5- or 10-minute increments. Because
-- I have tests.
--
-- Most test harnesses punt on testing I/O, and conventional wisdom is to test
-- business logic, not I/O. However, any non-trivial app does non-trivial I/O
-- that benefits from tests. And tests aren't very useful if it isn't obvious
-- after reading them what the intent is. Including the I/O allows us to write
-- tests that mimic how people use our program.
--
-- There's a major open research problem in testing I/O: how to write tests
-- for graphics. Pixel-by-pixel assertions get too verbose, and they're often
-- brittle because you don't care about the precise state of every last pixel.
-- Except when you do. Pixels are usually -- but not always -- the trees
-- rather than the forest.
--
-- I'm not in the business of doing research, so I'm going to shave off a
-- small subset of the problem for myself here: how to write tests about text
-- (ignoring font, color, etc.) on a graphic screen.
--
-- For example, here's how you may write a test of a simple text paginator
-- like `less`:
-- function test_paginator()
-- -- initialize environment
-- App.filesystem['/tmp/foo'] = filename([[
-- >abc
-- >def
-- >ghi
-- >jkl
-- ]])
-- App.args = {'/tmp/foo'}
-- -- define a screen with room for 2 lines of text
-- App.screen.init{
-- width=100
-- height=30
-- }
-- App.font.init{
-- height=15
-- }
-- -- check that screen shows next 2 lines of text after hitting pagedown
-- App.run_after_keychord('pagedown')
-- App.screen.check(0, 'ghi')
-- App.screen.check(15, 'jkl')
-- end
--
-- All functions starting with 'test_' (no modules) will run before the app
-- runs "for real". Each such test is a fake run of our entire program. It can
-- set as much of the environment as it wants, then run the app. Here we've
-- got a 30px screen and a 15px font, so the screen has room for 2 lines. The
-- file we're viewing has 4 lines. We assert that hitting the 'pagedown' key
-- shows the third and fourth lines.
--
-- Programs can still perform graphics, and all graphics will work in the real
-- program. We can't yet write tests for graphics, though. Those pixels are
-- basically always blank in tests. Really, there isn't even any
-- representation for them. All our fake screens know about is lines of text,
-- and what (x,y) coordinates they start at. There's some rudimentary support
-- for concatenating all blobs of text that start at the same 'y' coordinate,
-- but beware: text at y=100 is separate and non-overlapping with text at
-- y=101. You have to use the test harness within these limitations for your
-- tests to faithfully model the real world.
--
-- One drawback of this approach: the y coordinate used depends on font size,
-- which feels brittle.
--
-- In the fullness of time App will support all side-effecting primitives
-- exposed by LÖVE, but so far it supports just a rudimentary set of things I
-- happen to have needed so far.
App = {screen={}}
-- save/restore various framework globals we care about -- only on very first load
function App.snapshot_love()
if Love_snapshot then return end
Love_snapshot = {}
-- save the entire initial font; it doesn't seem reliably recreated using newFont
Love_snapshot.initial_font = love.graphics.getFont()
end
function App.undo_initialize()
love.graphics.setFont(Love_snapshot.initial_font)
end
function App.run_tests_and_initialize()
App.load()
App.run_tests()
App.disable_tests()
App.initialize_globals()
App.initialize(love.arg.parseGameArguments(arg), arg)
end
function App.initialize_for_test()
App.screen.init({width=100, height=50})
App.screen.contents = {} -- clear screen
App.filesystem = {}
App.fake_key_pressed = {}
App.fake_mouse_state = {x=-1, y=-1}
if App.initialize_globals then App.initialize_globals() end
end
function App.screen.init(dims)
App.screen.width = dims.width
App.screen.height = dims.height
end
function App.screen.print(msg, x,y)
local screen_row = 'y'..tostring(y)
--? print('drawing "'..msg..'" at y '..tostring(y))
local screen = App.screen
if screen.contents[screen_row] == nil then
screen.contents[screen_row] = {}
for i=0,screen.width-1 do
screen.contents[screen_row][i] = ''
end
end
if x < screen.width then
screen.contents[screen_row][x] = msg
end
end
function App.color(color)
love.graphics.setColor(color.r, color.g, color.b, color.a)
end
App.time = 1
function App.getTime()
return App.time
end
function App.wait_fake_time(t)
App.time = App.time + t
end
-- LÖVE's Text primitive retains no trace of the string it was created from,
-- so we'll wrap it for our tests.
--
-- This implies that we need to hook any operations we need on Text objects.
function App.newText(font, s)
return {type='text', data=s, text=love.graphics.newText(font, s)}
end
function App.width(text)
return text.text:getWidth()
end
function App.screen.draw(obj, x,y)
if type(obj) == 'userdata' then
-- ignore most things as graphics the test harness can't handle
elseif obj.type == 'text' then
App.screen.print(obj.data, x,y)
else
print(obj.type)
assert(false)
end
end
App.clipboard = ''
function App.getClipboardText()
return App.clipboard
end
function App.setClipboardText(s)
App.clipboard = s
end
App.fake_key_pressed = {}
function App.fake_key_press(key)
App.fake_key_pressed[key] = true
end
function App.fake_key_release(key)
App.fake_key_pressed[key] = nil
end
function App.modifier_down(key)
return App.fake_key_pressed[key]
end
App.fake_mouse_state = {x=-1, y=-1} -- x,y always set
function App.fake_mouse_press(x,y, mouse_button)
App.fake_mouse_state.x = x
App.fake_mouse_state.y = y
App.fake_mouse_state[mouse_button] = true
end
function App.fake_mouse_release(x,y, mouse_button)
App.fake_mouse_state.x = x
App.fake_mouse_state.y = y
App.fake_mouse_state[mouse_button] = nil
end
function App.mouse_move(x,y)
App.fake_mouse_state.x = x
App.fake_mouse_state.y = y
end
function App.mouse_down(mouse_button)
return App.fake_mouse_state[mouse_button]
end
function App.mouse_x()
return App.fake_mouse_state.x
end
function App.mouse_y()
return App.fake_mouse_state.y
end
-- all textinput events are also keypresses
-- TODO: handle chords of multiple keys
function App.run_after_textinput(t)
App.keypressed(t)
App.textinput(t)
App.keyreleased(t)
App.screen.contents = {}
App.draw()
end
-- not all keys are textinput
-- TODO: handle chords of multiple keys
function App.run_after_keychord(chord)
App.keychord_pressed(chord)
App.keyreleased(chord)
App.screen.contents = {}
App.draw()
end
function App.run_after_mouse_click(x,y, mouse_button)
App.fake_mouse_press(x,y, mouse_button)
App.mousepressed(x,y, mouse_button)
App.fake_mouse_release(x,y, mouse_button)
App.mousereleased(x,y, mouse_button)
App.screen.contents = {}
App.draw()
end
function App.run_after_mouse_press(x,y, mouse_button)
App.fake_mouse_press(x,y, mouse_button)
App.mousepressed(x,y, mouse_button)
App.screen.contents = {}
App.draw()
end
function App.run_after_mouse_release(x,y, mouse_button)
App.fake_mouse_release(x,y, mouse_button)
App.mousereleased(x,y, mouse_button)
App.screen.contents = {}
App.draw()
end
function App.screen.check(y, expected_contents, msg)
--? print('checking for "'..expected_contents..'" at y '..tostring(y))
local screen_row = 'y'..tostring(y)
local contents = ''
if App.screen.contents[screen_row] == nil then
error('no text at y '..tostring(y))
end
for i,s in ipairs(App.screen.contents[screen_row]) do
contents = contents..s
end
check_eq(contents, expected_contents, msg)
end
-- fake files
function App.open_for_writing(filename)
App.filesystem[filename] = ''
return {
write = function(self, ...)
local args = {...}
for i,s in ipairs(args) do
App.filesystem[filename] = App.filesystem[filename]..s
end
end,
close = function(self)
end,
}
end
function App.open_for_reading(filename)
if App.filesystem[filename] then
return {
lines = function(self)
return App.filesystem[filename]:gmatch('[^\n]+')
end,
close = function(self)
end,
}
end
end
function App.run_tests()
local sorted_names = {}
for name,binding in pairs(_G) do
if name:find('test_') == 1 then
table.insert(sorted_names, name)
end
end
table.sort(sorted_names)
for _,name in ipairs(sorted_names) do
App.initialize_for_test()
_G[name]()
end
print()
-- clean up all test methods
for _,name in ipairs(sorted_names) do
_G[name] = nil
end
end
-- call this once all tests are run
-- can't run any tests after this
function App.disable_tests()
-- have LÖVE delegate all handlers to App if they exist
for name in pairs(love.handlers) do
if App[name] then
love.handlers[name] = App[name]
end
end
-- test methods are disallowed outside tests
App.run_tests = nil
App.disable_tests = nil
App.screen.init = nil
App.filesystem = nil
App.time = nil
App.run_after_textinput = nil
App.run_after_keychord = nil
App.keypress = nil
App.keyrelease = nil
App.run_after_mouse_click = nil
App.run_after_mouse_press = nil
App.run_after_mouse_release = nil
App.fake_key_pressed = nil
App.fake_key_press = nil
App.fake_key_release = nil
App.fake_mouse_state = nil
App.fake_mouse_press = nil
App.fake_mouse_release = nil
-- other methods dispatch to real hardware
App.screen.print = love.graphics.print
App.newText = love.graphics.newText
App.screen.draw = love.graphics.draw
App.width = function(text) return text:getWidth() end
if Current_app == nil or Current_app == 'run' then
App.open_for_reading = function(filename) return io.open(filename, 'r') end
App.open_for_writing = function(filename) return io.open(filename, 'w') end
elseif Current_app == 'source' then
-- HACK: source editor requires a couple of different foundational definitions
App.open_for_reading =
function(filename)
local result = love.filesystem.newFile(filename)
local ok, err = result:open('r')
if ok then
return result
else
return ok, err
end
end
App.open_for_writing =
function(filename)
local result = love.filesystem.newFile(filename)
local ok, err = result:open('w')
if ok then
return result
else
return ok, err
end
end
end
App.getTime = love.timer.getTime
App.getClipboardText = love.system.getClipboardText
App.setClipboardText = love.system.setClipboardText
App.modifier_down = love.keyboard.isDown
App.mouse_move = love.mouse.setPosition
App.mouse_down = love.mouse.isDown
App.mouse_x = love.mouse.getX
App.mouse_y = love.mouse.getY
end
|