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Group player input tests

Specify describe block for each player tests.
feature/data-structs
TheoryOfNekomata il y a 2 ans
Parent
révision
bac32963ff
1 fichiers modifiés avec 239 ajouts et 235 suppressions
  1. +239
    -235
      src/packages/game/input/input.test.c

+ 239
- 235
src/packages/game/input/input.test.c Voir le fichier

@@ -22,237 +22,239 @@ spec("input") {

u8 p;
for (p = 0; p < PLAYERS; p += 1) {
describe("on axis motion events") {
before_each() {
e.type = SDL_JOYAXISMOTION;
state[p].config.axis_threshold = 8000u;
}

describe("on primary horizontal direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_HORIZONTAL1;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_RIGHT),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_LEFT),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}

describe("on secondary horizontal direction") {
describe("on player %u", p) {
describe("on axis motion events") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_HORIZONTAL2;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_RIGHT),
"Action not set."
);
e.type = SDL_JOYAXISMOTION;
state[p].config.axis_threshold = 8000u;
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_LEFT),
"Action not set."
);
describe("on primary horizontal direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_HORIZONTAL1;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_RIGHT),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_LEFT),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}

describe("on primary vertical direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_VERTICAL1;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_DOWN),
"Action not set."
);
describe("on secondary horizontal direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_HORIZONTAL2;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_RIGHT),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_LEFT),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_UP),
"Action not set."
);
describe("on primary vertical direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_VERTICAL1;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_DOWN),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_UP),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
describe("on secondary vertical direction") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_VERTICAL2;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_DOWN),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_UP),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
}
}
}

describe("on secondary vertical direction") {
describe("on hat motion events") {
before_each() {
e.jaxis.axis = IZ_JOY_AXIS_DIRECTION_VERTICAL2;
}

it("handles positive motion") {
e.jaxis.value = GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_DOWN),
"Action not set."
);
}

it("handles negative motion") {
e.jaxis.value = -GenerateAxisValueOutsideThreshold(state[p].config.axis_threshold);
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << IZ_ACTION_INDEX_UP),
"Action not set."
);
}

it("handles neutral motion") {
e.jaxis.value = GenerateAxisValueWithinThreshold(state[p].config.axis_threshold);;
action[p] = 0;

printf("(axis value: %d) ", e.jaxis.value);
IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == 0,
"Action not set."
);
e.type = SDL_JOYHATMOTION;
}
}
}

describe("on hat motion events") {
before_each() {
e.type = SDL_JOYHATMOTION;
}

for (u8 i = 0; i < 4; i += 1) {
it("handles motion for %s action", ACTION_NAMES[i]) {
e.jhat.value = (0x1u << i);
action[p] = 0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1u << i),
"Action not set."
);
}

it("handles motion for %s deactivation", ACTION_NAMES[i]) {
e.jhat.value = 0;
action[p] = ~0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
for (u8 i = 0; i < 4; i += 1) {
it("handles motion for %s action", ACTION_NAMES[i]) {
e.jhat.value = (0x1u << i);
action[p] = 0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1u << i),
"Action not set."
);
}

it("handles motion for %s deactivation", ACTION_NAMES[i]) {
e.jhat.value = 0;
action[p] = ~0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
}
}
}
}

describe("on button events") {
for (u8 i = 4; i < CONTROLS; i += 1) {
it("handles %s action activation", ACTION_NAMES[i]) {
e.type = SDL_JOYBUTTONDOWN;
e.jbutton.button = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
action[p] = 0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1u << i),
"Action not set."
);
}

it("handles %s action deactivation", ACTION_NAMES[i]) {
e.type = SDL_JOYBUTTONUP;
e.jbutton.button = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
action[p] = ~0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
describe("on button events") {
for (u8 i = 4; i < CONTROLS; i += 1) {
it("handles %s action activation", ACTION_NAMES[i]) {
e.type = SDL_JOYBUTTONDOWN;
e.jbutton.button = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
action[p] = 0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
action[p] == (0x1u << i),
"Action not set."
);
}

it("handles %s action deactivation", ACTION_NAMES[i]) {
e.type = SDL_JOYBUTTONUP;
e.jbutton.button = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_JOYSTICK_STATE[p].config.control_mapping[i];
action[p] = ~0;

IZ_JoystickHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
}
}
}
}
@@ -296,31 +298,33 @@ spec("input") {
static IZ_Action action[PLAYERS] = {};

for (u8 p = 0; p < PLAYERS; p += 1) {
for (u8 i = 0; i < CONTROLS; i += 1) {
it("handles %s action activation", ACTION_NAMES[i]) {
e.type = SDL_KEYDOWN;
e.key.keysym.sym = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
action[p] = 0;
describe("on player %u", p) {
for (u8 i = 0; i < CONTROLS; i += 1) {
it("handles %s action activation", ACTION_NAMES[i]) {
e.type = SDL_KEYDOWN;
e.key.keysym.sym = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
action[p] = 0;

IZ_KeyboardHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << i),
"Action not set."
);
}
IZ_KeyboardHandleEvents(e, &state, &action);
check(
action[p] == (0x1 << i),
"Action not set."
);
}

it("handles %s action deactivation", ACTION_NAMES[i]) {
e.type = SDL_KEYUP;
e.key.keysym.sym = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
action[p] = ~0;
it("handles %s action deactivation", ACTION_NAMES[i]) {
e.type = SDL_KEYUP;
e.key.keysym.sym = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
state[p].config.control_mapping[i] = IZ_DEFAULT_KEYBOARD_STATE[p].config.control_mapping[i];
action[p] = ~0;

IZ_KeyboardHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
IZ_KeyboardHandleEvents(e, &state, &action);
check(
!(action[p] & (0x1 << i)),
"Action not unset."
);
}
}
}
}


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