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224 lines
7.5 KiB
224 lines
7.5 KiB
/* -*- mode: c++ -*-
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* Copyright (C) 2020 Keyboard.io, Inc.
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*
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* This program is free software: you can redistribute it and/or modify it under
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* the terms of the GNU General Public License as published by the Free Software
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* Foundation, version 3.
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*
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* This program is distributed in the hope that it will be useful, but WITHOUT
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* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
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* FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
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* details.
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*
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* You should have received a copy of the GNU General Public License along with
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* this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#include "testing/setup-googletest.h"
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#include "../common.h"
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SETUP_GOOGLETEST();
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namespace kaleidoscope {
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namespace testing {
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namespace {
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constexpr KeyAddr key_addr_A{2, 1};
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constexpr KeyAddr key_addr_S{2, 2};
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constexpr KeyAddr key_addr_D{2, 3};
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constexpr KeyAddr key_addr_F{2, 4};
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constexpr KeyAddr key_addr_X{3, 2};
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using ::testing::IsEmpty;
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class QukeysBasic : public VirtualDeviceTest {
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protected:
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std::set<uint8_t> expected_keycodes_ = {};
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std::unique_ptr<State> state_ = nullptr;
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};
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TEST_F(QukeysBasic, TapQukeyAlone) {
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// XXX Temporary workaround
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sim_.RunForMillis(1000);
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// Press `A`
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sim_.Press(key_addr_A);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0)
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<< "There should be no HID report after the qukey is pressed";
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sim_.RunForMillis(20);
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// Release `A`
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sim_.Release(key_addr_A);
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sim_.RunCycles(2);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 2)
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<< "There should be two HID reports after the release of a tapped qukey";
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expected_keycodes_.insert(Key_A.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The first report should include only `A`";
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expected_keycodes_.erase(Key_A.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(1).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The second report should be empty";
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0);
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}
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TEST_F(QukeysBasic, HoldQukeyAlone) {
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// XXX Temporary workaround
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sim_.RunForMillis(1000);
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// Press `A`
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sim_.Press(key_addr_A);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0);
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uint32_t t0 = Kaleidoscope.millisAtCycleStart();
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// To test the hold timeout, we check after every cycle to see if there's new
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// HID report. We can't just call `RunForMillis()` because we care about when
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// that report was sent.
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do {
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state_ = RunCycle();
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} while (state_->HIDReports()->Keyboard().size() == 0 &&
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(Kaleidoscope.millisAtCycleStart() - t0 < QUKEYS_HOLD_TIMEOUT + 1));
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uint32_t t1 = Kaleidoscope.millisAtCycleStart();
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EXPECT_THAT(t1 - t0, ::testing::Ge(QUKEYS_HOLD_TIMEOUT))
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<< "The HID report should be sent after the hold timeout has elapsed";
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expected_keycodes_.insert(Key_LeftGui.getKeyCode());
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 1)
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<< "There should be only one HID report";
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The HID report should contain just `Key_LeftGui`";
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sim_.RunForMillis(100);
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sim_.Release(key_addr_A);
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sim_.RunCycles(2);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 1)
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<< "There should be a HID report immediately after the key is released";
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expected_keycodes_.erase(Key_LeftGui.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The HID report should be empty at this point";
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0);
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}
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TEST_F(QukeysBasic, FullOverlap) {
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// XXX Temporary workaround
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sim_.RunForMillis(1000);
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sim_.Press(key_addr_F);
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sim_.RunForMillis(20);
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sim_.Press(key_addr_X);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0)
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<< "After both keys are pressed, there should still be no reports";
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sim_.RunForMillis(50);
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sim_.Release(key_addr_X);
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sim_.RunCycles(3);
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state_ = RunCycle();
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expected_keycodes_.insert(Key_LeftShift.getKeyCode());
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 3)
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<< "After the subsequent key is released, we should get 3 reports";
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The first report should contain the qukey's altername keycode";
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expected_keycodes_.insert(Key_X.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(1).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The second report should add the subsequent key";
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expected_keycodes_.erase(Key_X.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(2).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The third report should be the release of the subsequent key";
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sim_.Release(key_addr_F);
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sim_.RunCycles(3);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 1)
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<< "After the qukey is release, we should get one report";
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expected_keycodes_.erase(Key_LeftShift.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The HID report should now be empty";
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0);
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}
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TEST_F(QukeysBasic, RolloverPrimary) {
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// XXX Temporary workaround
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sim_.RunForMillis(1000);
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sim_.Press(key_addr_F);
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sim_.RunForMillis(20);
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sim_.Press(key_addr_X);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0)
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<< "After both keys are pressed, there should still be no reports";
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sim_.RunForMillis(50);
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sim_.Release(key_addr_F);
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sim_.RunForMillis(50);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 3)
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<< "After the qukey is released, and the overlap threshold is exceeded, there should be 3 reports";
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expected_keycodes_.insert(Key_F.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The first report should contain the qukey's primary value";
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expected_keycodes_.insert(Key_X.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(1).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The second report should contain the subsequent (normal) key";
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expected_keycodes_.erase(Key_F.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(2).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The third report should contain the release of the qukey";
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sim_.Release(key_addr_X);
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sim_.RunCycles(3);
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 1)
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<< "After the normal key is released, we should get one report";
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expected_keycodes_.erase(Key_X.getKeyCode());
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EXPECT_THAT(state_->HIDReports()->Keyboard(0).ActiveKeycodes(),
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::testing::ElementsAreArray(expected_keycodes_))
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<< "The HID report should now be empty";
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state_ = RunCycle();
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ASSERT_EQ(state_->HIDReports()->Keyboard().size(), 0);
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}
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} // namespace
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} // namespace testing
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} // namespace kaleidoscope
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