/* -*- mode: c++ -*- * Copyright (C) 2020 Keyboard.io, Inc. * * This program is free software: you can redistribute it and/or modify it under * the terms of the GNU General Public License as published by the Free Software * Foundation, version 3. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS * FOR A PARTICULAR PURPOSE. See the GNU General Public License for more * details. * * You should have received a copy of the GNU General Public License along with * this program. If not, see . */ #include "testing/setup-googletest.h" #include "../sketch.h" SETUP_GOOGLETEST(); namespace kaleidoscope { namespace testing { namespace { struct QukeyValues { Key primary{Key_NoKey}; Key alternate{Key_NoKey}; }; constexpr KeyAddr key_addr_A{2, 1}; constexpr KeyAddr key_addr_S{2, 2}; constexpr KeyAddr key_addr_D{2, 3}; constexpr KeyAddr key_addr_F{2, 4}; constexpr KeyAddr key_addr_X{3, 2}; using ::testing::IsEmpty; class QukeysBasic : public VirtualDeviceTest {}; TEST_F(QukeysBasic, TapQukeyAlone) { std::unique_ptr state{nullptr}; std::set expected_keycodes{}; // Press `A` sim_.Press(key_addr_A); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 0); // Release `A` sim_.Release(key_addr_A); expected_keycodes.insert(Key_A.getKeyCode()); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); expected_keycodes.erase(Key_A.getKeyCode()); sim_.RunCycles(2); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 0); } TEST_F(QukeysBasic, HoldQukeyAlone) { std::unique_ptr state{nullptr}; std::set expected_keycodes{}; // Press `A` sim_.Press(key_addr_A); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 0); uint32_t t0 = Kaleidoscope.millisAtCycleStart(); do { state = VirtualDeviceTest::RunCycle(); if (Kaleidoscope.millisAtCycleStart() > t0 + QUKEYS_HOLD_TIMEOUT) break; } while (state->HIDReports()->Keyboard().size() == 0); uint32_t t1 = Kaleidoscope.millisAtCycleStart(); EXPECT_THAT(t1 - t0, ::testing::Ge(QUKEYS_HOLD_TIMEOUT)); expected_keycodes.insert(Key_LeftGui.getKeyCode()); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); sim_.Release(key_addr_A); expected_keycodes.erase(Key_LeftGui.getKeyCode()); sim_.RunForMillis(100); state = VirtualDeviceTest::RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); } TEST_F(QukeysBasic, FullOverlap) { std::set expected_keycodes{}; sim_.Press(key_addr_F); sim_.RunForMillis(20); sim_.Press(key_addr_X); auto state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 0); sim_.RunForMillis(50); sim_.Release(key_addr_X); state = RunCycle(); expected_keycodes.insert(Key_LeftShift.getKeyCode()); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); sim_.RunCycles(3); state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 2); expected_keycodes.insert(Key_X.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); expected_keycodes.erase(Key_X.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(1).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); sim_.Release(key_addr_F); sim_.RunCycles(3); state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); expected_keycodes.erase(Key_LeftShift.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); } TEST_F(QukeysBasic, RolloverPrimary) { std::set expected_keycodes{}; sim_.Press(key_addr_F); sim_.RunForMillis(20); sim_.Press(key_addr_X); auto state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 0); sim_.RunForMillis(50); sim_.Release(key_addr_F); sim_.RunForMillis(50); state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 3); expected_keycodes.insert(Key_F.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); expected_keycodes.insert(Key_X.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(1).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); expected_keycodes.erase(Key_F.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(2).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); sim_.Release(key_addr_X); sim_.RunCycles(3); state = RunCycle(); ASSERT_EQ(state->HIDReports()->Keyboard().size(), 1); expected_keycodes.erase(Key_X.getKeyCode()); EXPECT_THAT(state->HIDReports()->Keyboard(0).ActiveKeycodes(), ::testing::ElementsAreArray(expected_keycodes)); } } // namespace } // namespace testing } // namespace kaleidoscope