dfhack/test/quickfort/ecosystem.lua

355 lines
13 KiB
Lua

-- tests the quickfort ecosystem end-to-end via:
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-- .csv -> quickfort/buildingplan/dig-now -> blueprint -> .csv
--
-- test cases are sets of .csv files in the
-- blueprints/library/test/ecosystem/in directory
--
-- test metadata is stored in an associated #notes blueprint:
-- description (required)
-- width (required)
-- height (required)
-- depth (default is 1)
-- start (cursor offset for input blueprints, default is 1,1)
--
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-- depends on blueprint, buildingplan, and dig-now plugins (as well as the
-- quickfort script, of course)
--
-- note that this test harness cannot (yet) test #query blueprints that define
-- rooms since furniture is not actually built during the test. It also cannot
-- test blueprints that #build flooring and then #build a workshop on top, again
-- since the flooring is never actually built. We can support these features
-- once we figure out how to programmatically deconstruct buildlings without
-- crashing the game.
config.mode = 'fortress'
local argparse = require('argparse')
local blueprint = require('plugins.blueprint')
local quickfort_list = reqscript('internal/quickfort/list')
local quickfort_command = reqscript('internal/quickfort/command')
local utils = require('utils')
local blueprints_dir = 'blueprints/'
local input_dir = 'library/test/ecosystem/in/'
local golden_dir = 'library/test/ecosystem/golden/'
local output_dir = 'library/test/ecosystem/out/'
local phase_names = utils.invert(blueprint.valid_phases)
-- clear the output dir before each test run (but not after -- to allow
-- inspection of failed results)
local function test_wrapper(test_fn)
local outdir = blueprints_dir .. output_dir
if dfhack.filesystem.exists(outdir) then
for _, v in ipairs(dfhack.filesystem.listdir_recursive(outdir)) do
if not v.isdir then
os.remove(v.path)
end
end
end
test_fn()
end
config.wrapper = test_wrapper
local function bad_spec(expected, varname, basename, bad_value)
qerror(('expected %s for %s in "%s" test spec; got "%s"'):
format(expected, varname, basename, bad_value))
end
local function get_positive_int(numstr, varname, basename)
local num = tonumber(numstr)
if not num or num <= 0 or num ~= math.floor(num) then
bad_spec('positive integer', varname, basename, numstr)
end
return num
end
local function os_exists(path)
return os.rename(path, path) and true or false
end
local function get_blueprint_sets()
-- find test blueprints with `quickfort list`
local mock_print = mock.func()
mock.patch(quickfort_list, 'print', mock_print,
function()
dfhack.run_script('quickfort', 'list', '-l', input_dir)
end)
-- group blueprint sets
local sets = {}
for _,args in ipairs(mock_print.call_args) do
local line = args[1]
-- phase is the label or, if the label doesn't exist, the mode
local _,_,listnum,fname,phase = line:find('(%d+)%) (%S+).-[/(]([^ )]+)')
if listnum then
local _,_,file_part = fname:find('/([^/]+)$')
local _,_,basename = file_part:find('^([^-.]+)')
if not sets[basename] then sets[basename] = {spec={}, phases={}} end
local golden_path = blueprints_dir..golden_dir..file_part
if not os_exists(golden_path) then
golden_path = blueprints_dir..fname
end
sets[basename].phases[phase] = {
listnum=listnum,
golden_filepath=golden_path,
output_filepath=blueprints_dir..output_dir..file_part}
end
end
-- load test specs
for basename,set in pairs(sets) do
local spec, notes = set.spec, set.phases.notes
-- set defaults
spec.depth = '1'
-- read spec
mock.patch(quickfort_command, 'print',
function(text)
for line in text:gmatch('[^\n]*') do
local _,_,var,val = line:find('%*?%s*([^=]+)=(.*)')
if var then spec[var] = val end
end
end,
function()
dfhack.run_script('quickfort', 'run', '-q', notes.listnum)
end)
-- validate spec and convert number strings to numeric vars
if not spec.description or spec.description == '' then
qerror(('missing description in test spec for "%s"'):
format(basename))
end
spec.width = get_positive_int(spec.width, 'width', basename)
spec.height = get_positive_int(spec.height, 'height', basename)
spec.depth = get_positive_int(spec.depth, 'depth', basename)
if spec.start then
local start_spec = argparse.numberList(spec.start, basename, 2)
spec.start = {x=get_positive_int(start_spec[1], 'startx', basename),
y=get_positive_int(start_spec[2], 'starty', basename)}
end
end
return sets
end
local function is_usable_test_tile(pos)
local tiletype = dfhack.maps.getTileType(pos)
local tileattrs = df.tiletype.attrs[tiletype]
local good_material = tileattrs.material == df.tiletype_material.STONE or
tileattrs.material == df.tiletype_material.FEATURE or
tileattrs.material == df.tiletype_material.MINERAL
local good_shape = tileattrs.shape == df.tiletype_shape.WALL
return good_material and good_shape
end
local function get_test_area(area, spec)
-- return with success if our current area meets or exceeds requirements
if area.width >= spec.width and area.height >= spec.height and
area.depth >= spec.depth then
return true
end
-- return with failure if the test requirements cannot ever be satisfied by
-- the current map
if spec.width > df.global.world.map.x_count - 2 or
spec.height > df.global.world.map.y_count - 2 or
spec.depth > df.global.world.map.z_count then
print('map too small to accomodate test')
return false
end
-- keep this simple for now. just go down the layers and check the region
-- starting at the upper left corner of each level.
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local startz = area.pos and area.pos.z or df.global.world.map.z_count-1
for z_start = startz,0,-1 do
local z_end = z_start - spec.depth + 1
if z_end < 1 then return false end
for z = z_start,z_end,-1 do
for y = 1,spec.height do
for x = 1,spec.width do
if not is_usable_test_tile(xyz2pos(x, y, z)) then
-- next check should start on the z-level below this one
z_start = z
goto continue
end
end
end
end
do
area.width, area.height, area.depth =
spec.width, spec.height, spec.depth
area.pos = {x=1, y=1, z=z_start}
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area.endpos = {x=area.width, y=area.height, z=z_start-area.depth+1}
return true
end
::continue::
end
end
local function get_cursor_arg(pos, start)
start = start or {x=1, y=1}
return ('--cursor=%d,%d,%d'):format(pos.x+start.x-1, pos.y+start.y-1, pos.z)
end
local function quickfort_cmd(cmd, listnum, pos, start)
dfhack.run_script('quickfort', cmd, '-q', listnum,
get_cursor_arg(pos, start))
end
local function quickfort_run(listnum, pos, start)
quickfort_cmd('run', listnum, pos, start)
end
local function quickfort_undo(listnum, pos, start)
quickfort_cmd('undo', listnum, pos, start)
end
local function designate_area(pos, spec)
local endx, endy, endz = pos.x + spec.width - 1, pos.y + spec.height - 1,
pos.z - spec.depth + 1
for z = pos.z,endz,-1 do for y = pos.y,endy do for x = pos.x,endx do
dfhack.maps.getTileFlags(xyz2pos(x, y, z)).dig =
df.tile_dig_designation.Default
end end end
end
local function format_pos(pos)
return ('%s,%s,%s'):format(pos.x, pos.y, pos.z)
end
local function run_dig_now(area)
dfhack.run_command('dig-now', format_pos(area.pos),
format_pos(area.endpos), '--clean')
end
local function run_blueprint(basename, set, pos)
blueprint.run(tostring(set.spec.width), tostring(set.spec.height),
tostring(-set.spec.depth), output_dir..basename,
get_cursor_arg(pos), '-tphase')
end
local function reset_area(area, spec)
-- include the area border tiles that can get unhidden
local width, height, depth = spec.width+2, spec.height+2, spec.depth
local commands = {
'f', 'any', ';',
'p', 'any', ';',
'p', 's', 'wall', ';',
'p', 'sp', 'normal', ';',
'p', 'h', '1', ';',
'r', tostring(width), tostring(height), tostring(depth)}
dfhack.run_command('tiletypes-command', table.unpack(commands))
local pos = copyall(area.pos)
-- include the border tiles
pos.x = pos.x - 1
pos.y = pos.y - 1
-- tiletypes goes up z's, so adjust starting zlevel accordingly
pos.z = pos.z - spec.depth + 1
dfhack.run_command('tiletypes-here', '--quiet', get_cursor_arg(pos))
-- patch up tiles where the material couldn't be automatically determined
-- we don't just set all tiles to 'stone' so we don't obliterate veins
commands = {
'f', 's', 'empty', ';',
'p', 'm', 'stone'}
dfhack.run_command('tiletypes-command', table.unpack(commands))
dfhack.run_command('tiletypes-here', '--quiet', get_cursor_arg(pos))
commands = {'f', 's', 'ramp_top'}
dfhack.run_command('tiletypes-command', table.unpack(commands))
dfhack.run_command('tiletypes-here', '--quiet', get_cursor_arg(pos))
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end
local function do_phase(phase_data, area, spec)
quickfort_run(phase_data.listnum, area.pos, spec.start)
end
-- run a #dig blueprint (or just designate the whole block if there is no data)
-- and then run dig-now to materialize the designations
local function do_dig_phase(phase_data, area, spec)
if phase_data then
do_phase(phase_data, area, spec)
else
designate_area(area.pos, spec)
end
-- run dig-now to dig out designated tiles
run_dig_now(area)
end
function test.end_to_end()
-- read in test plan
local sets = get_blueprint_sets()
local area = {width=0, height=0, depth=0}
for basename,set in pairs(sets) do
local spec = set.spec
print(('running quickfort ecosystem test: "%s": %s'):
format(basename, spec.description))
-- find an unused area of the map that meets requirements, else skip
if not get_test_area(area, spec) then
print(('cannot find unused map area to test set "%s"; skipping'):
format(basename))
goto continue
end
local phases = set.phases
do_dig_phase(phases.dig, area, spec)
if phases.smooth then do_dig_phase(phases.smooth, area, spec) end
if phases.carve then do_dig_phase(phases.carve, area, spec) end
if phases.build then do_phase(phases.build, area, spec) end
if phases.place then do_phase(phases.place, area, spec) end
if phases.zone then do_phase(phases.zone, area, spec) end
if phases.query then do_phase(phases.query, area, spec) end
-- run blueprint to generate files in output dir
run_blueprint(basename, set, area.pos)
-- quickfort undo blueprints
for _,phase_name in ipairs(phase_names) do
if phases[phase_name] then
quickfort_undo(phases[phase_name].listnum, area.pos, spec.start)
end
end
-- run tiletypes to reset tiles in area to hidden walls
reset_area(area, set.spec)
-- compare md5sum of input and output files
local md5File = dfhack.internal.md5File
for phase,phase_data in pairs(phases) do
if phase == 'notes' then goto continue end
print((' verifying phase: %s'):format(phase))
local golden_filepath = phase_data.golden_filepath
local output_filepath = phase_data.output_filepath
local input_hash, input_size = md5File(golden_filepath)
local output_hash, output_size = md5File(output_filepath)
expect.eq(input_hash, output_hash,
'compare blueprint contents to input: '..output_filepath)
expect.eq(input_size, output_size,
'compare blueprint length to input: '..output_filepath)
if not output_hash then goto continue end
if input_hash ~= output_hash or input_size ~= output_size then
-- show diff
local input, output =
io.open(golden_filepath, 'r'), io.open(output_filepath, 'r')
local input_lines, output_lines = {}, {}
for l in input:lines() do table.insert(input_lines, l) end
for l in output:lines() do table.insert(output_lines, l) end
input:close()
output:close()
expect.table_eq(input_lines, output_lines)
end
::continue::
end
::continue::
end
end