🎨 Simplifies spin skill

🎨 Use std for min and max
✨ Adds skilmanager and spin skill
2025-09-10 21:07:38 +02:00 · 2025-09-10 20:21:56 +02:00 · 2025-09-10 15:59:41 +02:00
8 changed files with 369 additions and 9 deletions
@@ -184,13 +184,13 @@ class Kinematics {
    }
    inline void legIK(float x, float y, float z, float out[3]) {
-        float F = sqrt(max(0.0f, x * x + y * y - coxa * coxa));
+        float F = sqrt(std::max(0.0f, x * x + y * y - coxa * coxa));
        float G = F - coxa_offset;
        float H = sqrt(G * G + z * z);
        float theta1 = -atan2f(y, x) - atan2f(F, -coxa);
        float D = (H * H - femur * femur - tibia * tibia) / (2 * femur * tibia);
-        float theta3 = acosf(max(-1.0f, min(1.0f, D)));
+        float theta3 = acosf(std::max(-1.0f, std::min(1.0f, D)));
        float theta2 = atan2f(z, G) - atan2f(tibia * sinf(theta3), femur + tibia * cosf(theta3));
        out[0] = RAD_TO_DEG_F(theta1);
        out[1] = RAD_TO_DEG_F(theta2);
@@ -11,6 +11,7 @@
 #include <motion_states/walk_state.h>
 #include <motion_states/stand_state.h>
 #include <motion_states/rest_state.h>
 #include <motion_skills/skill_manager.h>
 #include <message_types.h>
 #define DEFAULT_STATE false
@@ -39,6 +40,8 @@ class MotionService {
                           std::bind(&MotionService::syncAngles, this, std::placeholders::_1, std::placeholders::_2));
        body_state.updateFeet(KinConfig::default_feet_positions);
        skillManager.setWalkState(&walkState);
    }
    void anglesEvent(JsonVariant &root, int originId) {
@@ -109,23 +112,49 @@ class MotionService {
        const gesture_t ges = _peripherals->takeGesture();
        if (ges != gesture_t::eGestureNone) {
            ESP_LOGI("Motion", "Gesture: %d", ges);
            switch (ges) {
                case gesture_t::eGestureDown: setState(&restState); break;
                case gesture_t::eGestureUp: setState(&standState); break;
                case gesture_t::eGestureLeft:
                case gesture_t::eGestureRight: setState(&walkState); break;
-                default: break;
+            if (ges == gesture_t::eGestureUp) {
                skillManager.clearQueue();
                if (!state) {
                    _servoController->activate();
                    setState(&restState);
                } else if (state == &restState)
                    setState(&standState);
                else if (state == &standState)
                    setState(&walkState);
            } else if (ges == gesture_t::eGestureDown) {
                skillManager.clearQueue();
                if (state == &restState) {
                    _servoController->deactivate();
                    setState(nullptr);
                } else if (state == &standState)
                    setState(&restState);
                else if (state == &walkState)
                    setState(&standState);
            } else {
                skillManager.queueGestureSkill(ges);
            }
        }
    }
    bool updateMotion() {
        handleGestures();
-        if (!state) return false;
+
        unsigned long now = millis();
        float dt = (now - lastUpdate) / 1000.0f;
        lastUpdate = now;
        skillManager.update(body_state, state, _peripherals, dt);
        if (skillManager.hasActiveSkill()) {
            MotionState *requiredState = skillManager.getCurrentSkillRequiredState();
            if (requiredState && state != requiredState) {
                setState(requiredState);
            }
        }
        if (!state) return false;
        state->updateImuOffsets(_peripherals->angleY(), _peripherals->angleX());
        state->step(body_state, dt);
        kinematics.calculate_inverse_kinematics(body_state, new_angles);
@@ -162,6 +191,8 @@ class MotionService {
    StandState standState;
    WalkState walkState;
    SkillManager skillManager;
    body_state_t body_state;
    float new_angles[12] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
@@ -0,0 +1,27 @@
 #pragma once
 #include <kinematics.h>
 #include <message_types.h>
 #include <peripherals/peripherals.h>
 #include <motion_states/state.h>
 class Skill {
  public:
    virtual ~Skill() = default;
    virtual const char* getName() const = 0;
    virtual void begin(body_state_t& body_state, Peripherals* peripherals) {}
    virtual void execute(body_state_t& body_state, MotionState* currentState, Peripherals* peripherals, float dt) = 0;
    virtual bool isComplete() const = 0;
    virtual void reset() = 0;
    virtual MotionState* getRequiredState() = 0;
  protected:
    bool _isActive = false;
    bool _isComplete = false;
 };
@@ -0,0 +1,123 @@
 #pragma once
 #include <motion_skills/skill.h>
 #include <motion_skills/spin_skill.h>
 #include <motion_skills/walk_skill.h>
 #include <motion_states/walk_state.h>
 #include <peripherals/gesture.h>
 #include <esp_log.h>
 #include <queue>
 #include <memory>
 class SkillManager {
  private:
    std::queue<std::unique_ptr<Skill>> _skillQueue;
    std::unique_ptr<Skill> _currentSkill;
    WalkState* _walkState = nullptr;
  public:
    SkillManager() = default;
    void setWalkState(WalkState* walkState) { _walkState = walkState; }
    void queueSkill(std::unique_ptr<Skill> skill) {
        _skillQueue.push(std::move(skill));
        ESP_LOGI("SkillManager", "Queued skill. Queue size: %d", _skillQueue.size());
    }
    void queueGestureSkill(gesture_t gesture) {
        std::unique_ptr<Skill> skill = nullptr;
        switch (gesture) {
            case gesture_t::eGestureLeft:
                // Walk 1m left (90 degrees heading)
                skill = std::make_unique<WalkSkill>(1.0f, 90.0f, 0.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            case gesture_t::eGestureRight:
                // Walk 1m right (-90 degrees heading)
                skill = std::make_unique<WalkSkill>(1.0f, -90.0f, 0.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            case gesture_t::eGestureUp:
                // Walk 1m forward (0 degrees heading)
                skill = std::make_unique<WalkSkill>(1.0f, 0.0f, 0.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            case gesture_t::eGestureDown:
                // Walk 1m backward (180 degrees heading)
                skill = std::make_unique<WalkSkill>(-1.0f, 0.0f, 0.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            case gesture_t::eGestureClockwise:
                // Rotate 90 degrees clockwise
                skill = std::make_unique<WalkSkill>(0.0f, 0.0f, 90.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            case gesture_t::eGestureAntiClockwise:
                // Rotate 90 degrees counter-clockwise
                skill = std::make_unique<WalkSkill>(0.0f, 0.0f, -90.0f);
                static_cast<WalkSkill*>(skill.get())->setWalkState(_walkState);
                break;
            default: return; // No skill mapped to this gesture
        }
        if (skill) {
            ESP_LOGI("SkillManager", "Mapping gesture %d to skill: %s", gesture, skill->getName());
            queueSkill(std::move(skill));
        }
    }
    void update(body_state_t& body_state, MotionState* currentState, Peripherals* peripherals, float dt) {
        // Check if current skill is complete
        if (_currentSkill && _currentSkill->isComplete()) {
            ESP_LOGI("SkillManager", "Skill '%s' completed", _currentSkill->getName());
            _currentSkill.reset();
        }
        // Start next skill if no current skill and queue has skills
        if (!_currentSkill && !_skillQueue.empty()) {
            _currentSkill = std::move(_skillQueue.front());
            _skillQueue.pop();
            _currentSkill->begin(body_state, peripherals);
            ESP_LOGI("SkillManager", "Started skill: %s", _currentSkill->getName());
        }
        // Execute current skill
        if (_currentSkill && !_currentSkill->isComplete()) {
            _currentSkill->execute(body_state, currentState, peripherals, dt);
        }
    }
    bool hasActiveSkill() const { return _currentSkill && !_currentSkill->isComplete(); }
    bool hasQueuedSkills() const { return !_skillQueue.empty(); }
    void clearQueue() {
        while (!_skillQueue.empty()) {
            _skillQueue.pop();
        }
        if (_currentSkill) {
            _currentSkill->reset();
            _currentSkill.reset();
        }
        ESP_LOGI("SkillManager", "Cleared all skills");
    }
    const char* getCurrentSkillName() const { return _currentSkill ? _currentSkill->getName() : "None"; }
    MotionState* getCurrentSkillRequiredState() const {
        return _currentSkill ? _currentSkill->getRequiredState() : nullptr;
    }
    void logStatus() const {
        ESP_LOGI("SkillManager", "Status: active=%s, queued=%d, current=%s", hasActiveSkill() ? "yes" : "no",
                 _skillQueue.size(), getCurrentSkillName());
    }
 };
@@ -0,0 +1,13 @@
 #pragma once
 #include <motion_skills/walk_skill.h>
 class SpinAroundSkill : public WalkSkill {
  private:
    bool _clockwise = true;
  public:
    SpinAroundSkill(bool clockwise = true) : WalkSkill(0.0f, 0.0f, clockwise ? 90.0f : -90.0f), _clockwise(clockwise) {}
    const char* getName() const override { return _clockwise ? "Spin Clockwise" : "Spin Counter-Clockwise"; }
 };
@@ -0,0 +1,155 @@
 #pragma once
 #include <motion_skills/skill.h>
 #include <utils/math_utils.h>
 #include <esp_log.h>
 class WalkState;
 class WalkSkill : public Skill {
  private:
    float _targetDistance = 0.0f;
    float _targetHeading = 0.0f;
    float _targetRotation = 0.0f;
    float _startHeading = 0.0f;
    float _currentDistance = 0.0f;
    float _currentRotation = 0.0f;
    float _lastPhaseTime = 0.0f;
    int _stepCount = 0;
    float _estimatedStepLength = 0.0f;
    unsigned long _startTime = 0;
    WalkState* _walkState = nullptr;
    static constexpr float DISTANCE_TOLERANCE = 0.05f;
    static constexpr float HEADING_TOLERANCE = 10.0f;
    static constexpr float ROTATION_TOLERANCE = 10.0f;
    static constexpr float WALK_SPEED = 0.8f;
    static constexpr unsigned long TIMEOUT_MS = 10000;
  public:
    WalkSkill(float distance = 0.0f, float heading = 0.0f, float rotation = 0.0f)
        : _targetDistance(distance), _targetHeading(heading), _targetRotation(rotation) {}
    const char* getName() const override { return "Walk"; }
    void begin(body_state_t& body_state, Peripherals* peripherals) override {
        _isActive = true;
        _isComplete = false;
        _startHeading = peripherals->getHeading();
        _currentDistance = 0.0f;
        _currentRotation = 0.0f;
        _lastPhaseTime = 0.0f;
        _stepCount = 0;
        _estimatedStepLength = 0.0f;
        _startTime = millis();
        ESP_LOGI("WalkSkill", "Starting walk: %.2fm forward, %.1f° heading, %.1f° rotation", _targetDistance,
                 _targetHeading, _targetRotation);
    }
    void execute(body_state_t& body_state, MotionState* currentState, Peripherals* peripherals, float dt) override {
        if (!_isActive || _isComplete) return;
        if (millis() - _startTime > TIMEOUT_MS) {
            _isComplete = true;
            ESP_LOGW("WalkSkill", "Timeout - walk incomplete");
            return;
        }
        float currentPhaseTime = fmod((millis() - _startTime) * 0.001f * WALK_SPEED * 2.0f, 1.0f);
        if (currentPhaseTime < _lastPhaseTime) {
            _stepCount++;
            _estimatedStepLength = WALK_SPEED * 0.08f;
            _currentDistance = _stepCount * _estimatedStepLength;
            ESP_LOGI("WalkSkill", "Step %d completed, estimated length: %.3fm, total distance: %.3fm", _stepCount,
                     _estimatedStepLength, _currentDistance);
        }
        _lastPhaseTime = currentPhaseTime;
        float currentHeading = peripherals->getHeading();
        if (currentHeading >= 0.0f && _startHeading >= 0.0f) {
            float headingDelta = currentHeading - _startHeading;
            if (headingDelta > 180.0f)
                headingDelta -= 360.0f;
            else if (headingDelta < -180.0f)
                headingDelta += 360.0f;
            _currentRotation = headingDelta;
        }
        bool distanceReached = _targetDistance == 0.0f || _currentDistance >= (_targetDistance - DISTANCE_TOLERANCE);
        bool headingReached = _targetHeading == 0.0f || abs(_currentRotation - _targetHeading) <= HEADING_TOLERANCE;
        bool rotationReached = _targetRotation == 0.0f || abs(_currentRotation - _targetRotation) <= ROTATION_TOLERANCE;
        if (distanceReached && headingReached && rotationReached) {
            _isComplete = true;
            if (currentState) {
                CommandMsg stopCommand = {0};
                stopCommand.h = KinConfig::default_body_height;
                stopCommand.s = WALK_SPEED;
                currentState->handleCommand(stopCommand);
            }
            ESP_LOGI("WalkSkill", "Walk completed: %.2fm/%.2fm, %.1f°/%.1f° rotation", _currentDistance,
                     _targetDistance, _currentRotation, _targetRotation);
            return;
        }
        CommandMsg walkCommand = {0};
        walkCommand.h = WALK_SPEED;
        walkCommand.s1 = WALK_SPEED;
        walkCommand.s = WALK_SPEED;
        if (_targetDistance > 0.0f && !distanceReached) {
            walkCommand.lx = WALK_SPEED;
        } else if (_targetDistance < 0.0f && !distanceReached) {
            walkCommand.lx = -WALK_SPEED;
        }
        if (_targetHeading != 0.0f && !headingReached) {
            if (_currentRotation < _targetHeading) {
                walkCommand.ly = WALK_SPEED;
            } else {
                walkCommand.ly = -WALK_SPEED;
            }
        }
        if (_targetRotation != 0.0f && !rotationReached) {
            if (_targetRotation > 0.0f) {
                walkCommand.rx = WALK_SPEED;
            } else {
                walkCommand.rx = -WALK_SPEED;
            }
        }
        if (currentState) {
            currentState->handleCommand(walkCommand);
        }
    }
    bool isComplete() const override { return _isComplete; }
    void reset() override {
        _isActive = false;
        _isComplete = false;
        _currentDistance = 0.0f;
        _currentRotation = 0.0f;
        _lastPhaseTime = 0.0f;
        _stepCount = 0;
        _estimatedStepLength = 0.0f;
        _startTime = 0;
    }
    MotionState* getRequiredState() override { return reinterpret_cast<MotionState*>(_walkState); }
    void setWalkState(WalkState* walkState) { _walkState = walkState; }
 };
@@ -71,6 +71,9 @@ class WalkState : public MotionState {
    WalkState() = default;
    const char *name() const override { return "Bezier"; }
    float getPhaseTime() const { return phase_time; }
    float getStepLength() const { return step_length; }
    void set_mode_crawl(float duty = 0.85f, std::array<int, 4> order = {3, 0, 2, 1}) {
        mode = WALK_GAIT::CRAWL;
        speed_factor = 0.5;
@@ -209,6 +209,14 @@ class Peripherals : public StatefulService<PeripheralsConfiguration> {
    float leftDistance() { return _left_distance; }
    float rightDistance() { return _right_distance; }
    float getHeading() {
 #if FT_ENABLED(USE_HMC5883)
        return _mag.getHeading();
 #else
        return 0.0f;
 #endif
    }
    StatefulHttpEndpoint<PeripheralsConfiguration> endpoint;
    void emitIMU() {
Author	SHA1	Message	Date
Rune Harlyk	2b1aed91d9	🎨 Simplifies spin skill	2025-09-10 21:07:38 +02:00
Rune Harlyk	923ea17702	🎨 Use std for min and max	2025-09-10 20:21:56 +02:00
Rune Harlyk	3a401abfab	✨ Adds skilmanager and spin skill	2025-09-10 15:59:41 +02:00