unified_retro_keyboard/firmware/asdf/test/test_asdf_virtual.c

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#include <stdint.h>
#include <stdarg.h>
#include "asdf_arch_test.h"
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#include "unity.h"
#include "asdf.h"
#include "asdf_ascii.h"
#include "asdf_modifiers.h"
#include "asdf_keymaps.h"
#include "asdf_config.h"
#include "test_asdf_lib.h"
#include "test_asdf_keymap_defs.h"
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void setUp(void)
{
asdf_arch_init();
asdf_keymaps_init();
asdf_keymaps_select(SINGLE_TESTS_KEYMAP);
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}
void tearDown(void) {}
// needed for keymap.
asdf_cols_t asdf_arch_read_row(uint8_t row)
{
return (asdf_cols_t) row;
}
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void test_single_virtual_output_is_initialized(void)
{
// initially on keymap 0. Test to see that OUT1 has been initialized to 0.
TEST_ASSERT_EQUAL_INT32(asdf_arch_check_output(PHYSICAL_OUT1), 0);
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// and verify that this is not just the default value
TEST_ASSERT_NOT_EQUAL(ASDF_VIRTUAL_OUT_DEFAULT_VALUE, asdf_arch_check_output(PHYSICAL_OUT1));
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}
void test_uninitialized_virtual_out_is_default(void)
{
TEST_ASSERT_EQUAL_INT32(ASDF_VIRTUAL_OUT_DEFAULT_VALUE, asdf_arch_check_output(PHYSICAL_LED2));
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}
void test_set_virtual_output(void)
{
asdf_virtual_action(VOUT1, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
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asdf_virtual_action(VOUT1, V_SET_HI);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
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}
void test_toggle_virtual_output(void)
{
// start by setting vout1 to 0
asdf_virtual_action(VOUT1, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
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// toggle high
asdf_virtual_action(VOUT1, V_TOGGLE);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
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// toggle back low.
asdf_virtual_action(VOUT1, V_TOGGLE);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
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}
void test_pulse_high_virtual_output(void)
{
asdf_virtual_action(VOUT1, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(PD_ST_STABLE_LOW, asdf_arch_check_pulse(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
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asdf_virtual_action(VOUT1, V_PULSE_SHORT);
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// output should be low
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
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// high pulse should be detected.
TEST_ASSERT_EQUAL_INT32(PD_ST_PULSE_HIGH_DETECTED, asdf_arch_check_pulse(PHYSICAL_OUT1));
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}
void test_pulse_low_virtual_output(void)
{
asdf_virtual_action(VOUT1, V_SET_HI);
asdf_virtual_action(VOUT1, V_SET_HI);
TEST_ASSERT_EQUAL_INT32(PD_ST_STABLE_HIGH, asdf_arch_check_pulse(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
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asdf_virtual_action(VOUT1, V_PULSE_SHORT);
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// output should be high
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
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// low pulse should be detected.
TEST_ASSERT_EQUAL_INT32(PD_ST_PULSE_LOW_DETECTED, asdf_arch_check_pulse(PHYSICAL_OUT1));
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}
// This test ties three real outputs to a virtual output and toggles the virtual
// output.
void test_toggle_triple_output(void)
{
asdf_keymaps_select(TRIPLE_TESTS_KEYMAP);
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// check that initial values have been set:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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asdf_virtual_activate(VOUT1); // funtion is set to toggle
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT3));
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asdf_virtual_action(VOUT1, V_TOGGLE);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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}
// This test ties three real outputs to a virtual output and sets the virtual
// output high and low
void test_set_triple_output(void)
{
asdf_keymaps_select(TRIPLE_TESTS_KEYMAP);
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// check that initial values have been set:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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asdf_virtual_action(VOUT1, V_SET_HI);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT3));
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asdf_virtual_action(VOUT1, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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}
// This test ties three real outputs to a virtual output and pulses the virtual
// output high and low
void test_pulse_triple_output(void)
{
asdf_keymaps_select(TRIPLE_TESTS_KEYMAP);
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// check that initial values have been set:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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// create stable (non-pulse) hi state by asserting high twice.
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asdf_virtual_action(VOUT1, V_SET_HI);
asdf_virtual_action(VOUT1, V_SET_HI);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT3));
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TEST_ASSERT_EQUAL_INT32(PD_ST_STABLE_HIGH, asdf_arch_check_pulse(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(PD_ST_STABLE_HIGH, asdf_arch_check_pulse(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(PD_ST_STABLE_HIGH, asdf_arch_check_pulse(PHYSICAL_OUT3));
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asdf_virtual_action(VOUT1, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
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TEST_ASSERT_EQUAL_INT32(PD_ST_TRANSITION_LOW, asdf_arch_check_pulse(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(PD_ST_TRANSITION_LOW, asdf_arch_check_pulse(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(PD_ST_TRANSITION_LOW, asdf_arch_check_pulse(PHYSICAL_OUT3));
}
// This test ties three real outputs to a virtual output and pulses the virtual
// output high and low
void test_activate_triple_output(void)
{
asdf_keymaps_select(TRIPLE_TESTS_KEYMAP);
// check that initial values have been set:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
asdf_virtual_activate(VOUT1);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT3));
asdf_virtual_activate(VOUT1);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT1));
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_OUT2));
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_OUT3));
}
uint8_t *output_array(void)
{
static uint8_t outputs[ASDF_PHYSICAL_NUM_RESOURCES] = {};
for (uint8_t i = 0; i < ASDF_PHYSICAL_NUM_RESOURCES; i++) {
outputs[i] = asdf_arch_check_output(i);
printf("output %d: %d\n", i, outputs[i]);
}
return outputs;
}
uint8_t *all_set_array(void)
{
static uint8_t outputs[ASDF_PHYSICAL_NUM_RESOURCES] = {};
for (uint8_t i = 0; i < ASDF_PHYSICAL_NUM_RESOURCES; i++) {
outputs[i] = 1;
}
return outputs;
}
uint8_t *all_zero_array(void)
{
static uint8_t outputs[ASDF_PHYSICAL_NUM_RESOURCES] = {};
for (uint8_t i = 0; i < ASDF_PHYSICAL_NUM_RESOURCES; i++) {
outputs[i] = 0;
}
return outputs;
}
uint8_t *single_zero_array(asdf_physical_dev_t set_element)
{
static uint8_t outputs[ASDF_PHYSICAL_NUM_RESOURCES] = {};
for (uint8_t i = 0; i < ASDF_PHYSICAL_NUM_RESOURCES; i++) {
outputs[i] = 1;
}
outputs[set_element] = 0;
return outputs;
}
void test_virtual_capslock_indicator(void)
{
asdf_keymaps_select(VCAPS_TEST_KEYMAP);
// CAPS LED output should be initialized to zero:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED1));
// emulate capslock press and release. Should set LED1
asdf_modifier_capslock_activate();
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_LED1));
// emulate capslock press and release. clear LED1
asdf_modifier_capslock_activate();
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED1));
}
void test_virtual_shiftlock_indicator(void)
{
asdf_keymaps_select(VSHIFT_TEST_KEYMAP);
// CAPS LED output should be initialized to zero:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED2));
// emulate shiftlock press and release. Should set LED2
asdf_modifier_shiftlock_on_activate();
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_LED2));
// emulate shift press and release. clear LED2
asdf_modifier_shift_activate();
asdf_modifier_shift_deactivate();
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED2));
}
void test_cant_assign_real_output_twice(void)
{
asdf_keymaps_select(DOUBLE_ASSIGN_TEST_KEYMAP);
// initial value should be set to 0:
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED1));
// set LED1 high from valid VOUT4
asdf_virtual_action(VOUT4, V_SET_HI);
TEST_ASSERT_EQUAL_INT32(1, asdf_arch_check_output(PHYSICAL_LED1));
// set LED1 low from valid VOUT4
asdf_virtual_action(VOUT4, V_SET_LO);
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED1));
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// set LED1 high from invalid VOUT5
asdf_virtual_action(VOUT5, V_SET_HI);
// Should not have changed.
TEST_ASSERT_EQUAL_INT32(0, asdf_arch_check_output(PHYSICAL_LED1));
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}
int main(void)
{
UNITY_BEGIN();
RUN_TEST(test_single_virtual_output_is_initialized);
RUN_TEST(test_uninitialized_virtual_out_is_default);
RUN_TEST(test_set_virtual_output);
RUN_TEST(test_toggle_virtual_output);
RUN_TEST(test_pulse_high_virtual_output);
RUN_TEST(test_pulse_low_virtual_output);
RUN_TEST(test_toggle_triple_output);
RUN_TEST(test_set_triple_output);
RUN_TEST(test_activate_triple_output);
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RUN_TEST(test_pulse_triple_output);
RUN_TEST(test_virtual_capslock_indicator);
RUN_TEST(test_virtual_shiftlock_indicator);
RUN_TEST(test_cant_assign_real_output_twice);
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return UNITY_END();
}