Software /
code /
prosody
File
spec/util_fsm_spec.lua @ 13249:5884d58707fa
mod_http: Generate URL from configuration in prosodyctl
This removes the need to configure e.g. http_external_url or similar
settings in order to get correct URLs out of prosodyctl, as the API
depends on portmanager to know the actual ports that are used.
author | Kim Alvefur <zash@zash.se> |
---|---|
date | Wed, 26 Jul 2023 14:39:36 +0200 |
parent | 13019:8a2f75e38eb2 |
line wrap: on
line source
describe("util.fsm", function () local new_fsm = require "util.fsm".new; do local fsm = new_fsm({ transitions = { { name = "melt", from = "solid", to = "liquid" }; { name = "freeze", from = "liquid", to = "solid" }; }; }); it("works", function () local water = fsm:init("liquid"); water:freeze(); assert.equal("solid", water.state); water:melt(); assert.equal("liquid", water.state); end); it("does not allow invalid transitions", function () local water = fsm:init("liquid"); assert.has_errors(function () water:melt(); end, "Invalid state transition: liquid cannot melt"); water:freeze(); assert.equal("solid", water.state); water:melt(); assert.equal("liquid", water.state); assert.has_errors(function () water:melt(); end, "Invalid state transition: liquid cannot melt"); end); end it("notifies observers", function () local n = 0; local has_become_solid = spy.new(function (transition) assert.is_table(transition); assert.equal("solid", transition.to); assert.is_not_nil(transition.instance); n = n + 1; if n == 1 then assert.is_nil(transition.from); assert.is_nil(transition.from_attr); elseif n == 2 then assert.equal("liquid", transition.from); assert.is_nil(transition.from_attr); assert.equal("freeze", transition.name); end end); local is_melting = spy.new(function (transition) assert.is_table(transition); assert.equal("melt", transition.name); assert.is_not_nil(transition.instance); end); local fsm = new_fsm({ transitions = { { name = "melt", from = "solid", to = "liquid" }; { name = "freeze", from = "liquid", to = "solid" }; }; state_handlers = { solid = has_become_solid; }; transition_handlers = { melt = is_melting; }; }); local water = fsm:init("liquid"); assert.spy(has_become_solid).was_not_called(); local ice = fsm:init("solid"); --luacheck: ignore 211/ice assert.spy(has_become_solid).was_called(1); water:freeze(); assert.spy(is_melting).was_not_called(); water:melt(); assert.spy(is_melting).was_called(1); end); local function test_machine(fsm_spec, expected_transitions, test_func) fsm_spec.handlers = fsm_spec.handlers or {}; fsm_spec.handlers.transitioned = function (transition) local expected_transition = table.remove(expected_transitions, 1); assert.same(expected_transition, { name = transition.name; to = transition.to; to_attr = transition.to_attr; from = transition.from; from_attr = transition.from_attr; }); end; local fsm = new_fsm(fsm_spec); test_func(fsm); assert.equal(0, #expected_transitions); end it("handles transitions with the same name", function () local expected_transitions = { { name = nil , from = "none", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; }; test_machine({ default_state = "none"; transitions = { { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; }; }, expected_transitions, function (fsm) local i = fsm:init("A"); i:step(); -- B i:step(); -- C i:step(); -- D assert.has_errors(function () i:step(); end, "Invalid state transition: D cannot step"); end); end); it("handles supports wildcard transitions", function () local expected_transitions = { { name = nil , from = "none", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "reset", from = "C", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; }; test_machine({ default_state = "none"; transitions = { { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; { name = "reset", from = "*", to = "A" }; }; }, expected_transitions, function (fsm) local i = fsm:init("A"); i:step(); -- B i:step(); -- C i:reset(); -- A i:step(); -- B i:step(); -- C i:step(); -- D assert.has_errors(function () i:step(); end, "Invalid state transition: D cannot step"); end); end); it("supports specifying multiple from states", function () local expected_transitions = { { name = nil , from = "none", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "reset", from = "C", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; }; test_machine({ default_state = "none"; transitions = { { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "C" }; { name = "step", from = "C", to = "D" }; { name = "reset", from = {"B", "C", "D"}, to = "A" }; }; }, expected_transitions, function (fsm) local i = fsm:init("A"); i:step(); -- B i:step(); -- C i:reset(); -- A assert.has_errors(function () i:reset(); end, "Invalid state transition: A cannot reset"); i:step(); -- B i:step(); -- C i:step(); -- D assert.has_errors(function () i:step(); end, "Invalid state transition: D cannot step"); end); end); it("handles transitions with the same start/end state", function () local expected_transitions = { { name = nil , from = "none", to = "A" }; { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "B" }; { name = "step", from = "B", to = "B" }; }; test_machine({ default_state = "none"; transitions = { { name = "step", from = "A", to = "B" }; { name = "step", from = "B", to = "B" }; }; }, expected_transitions, function (fsm) local i = fsm:init("A"); i:step(); -- B i:step(); -- B i:step(); -- B end); end); it("can identify instances of a specific fsm", function () local fsm1 = new_fsm({ default_state = "a" }); local fsm2 = new_fsm({ default_state = "a" }); local i1 = fsm1:init(); local i2 = fsm2:init(); assert.truthy(fsm1:is_instance(i1)); assert.truthy(fsm2:is_instance(i2)); assert.falsy(fsm1:is_instance(i2)); assert.falsy(fsm2:is_instance(i1)); end); it("errors when an invalid initial state is passed", function () local fsm1 = new_fsm({ transitions = { { name = "", from = "A", to = "B" }; }; }); assert.has_no_errors(function () fsm1:init("A"); end); assert.has_errors(function () fsm1:init("C"); end); end); end);