Lawnmower_STM32H7.git

			@@ -67,6 +67,14 @@
			/* 读取路径点，索引越界时截到末尾 */
			static void mc_get_point(const MC_State *state, HIDO_UINT32 idx, float outPt[2])
			{
			/* 防御性检查：如果路径数据未初始化，返回原点 */
			if (state->path_xy == HIDO_NULL \|\| state->path_count == 0U)
			{
			outPt[0] = 0.0f;
			outPt[1] = 0.0f;
			return;
			}

			if (idx >= state->path_count)
			{
			idx = state->path_count - 1U;
			@@ -172,7 +180,7 @@
			HIDO_UINT32 next_idx = start_idx + 1U;

			/* 简化逻辑：直接返回下一个点，确保按顺序访问每个航点 */
			return next_idx;
			return start_idx;
			}

			/* 计算带符号横向误差（左正右负） */
			@@ -183,8 +191,17 @@
			return 0.0f;
			}

			HIDO_UINT32 idx0 = (nearest_idx == 0U) ? 0U : nearest_idx - 1U;
			HIDO_UINT32 idx1 = (nearest_idx + 1U < state->path_count) ? nearest_idx + 1U : nearest_idx;
			HIDO_UINT32 idx0, idx1;
			if (nearest_idx == 0U)
			{
			idx0 = 0U;
			idx1 = (state->path_count > 1U) ? 1U : 0U;
			}
			else
			{
			idx0 = nearest_idx - 1U;
			idx1 = nearest_idx;
			}

			float p0[2];
			float p1[2];
			@@ -231,6 +248,10 @@
			{
			float start_point[2];
			mc_get_point(state, 0U, start_point);

			/* 检测目标点变化并记录 - 已移除LOG */
			static HIDO_UINT32 s_goto_log_idx = 0U;

			state->current_target_xy[0] = start_point[0];
			state->current_target_xy[1] = start_point[1];
			out->target_valid = HIDO_TRUE;
			@@ -260,7 +281,9 @@
			}
			else if (fabsf(heading_err) < state->config.start_heading_tolerance_rad)
			{
			/* 到达起点且航向对准，切换到路径跟踪模式 */
			state->stage = MC_STAGE_FOLLOW_PATH;
			state->nearest_index = 0U; /* 重置为路径第一个点 */
			}

			out->forward_mps = forward;
			@@ -306,53 +329,26 @@

			/* 调试：每20帧输出一次路径跟踪状态 */
			static HIDO_UINT32 s_path_log_idx = 0U;
			static HIDO_UINT32 s_last_nearest = 0U;
			static HIDO_UINT32 s_last_lookahead = 0U;
			static HIDO_UINT32 s_last_nearest = 0xFFFFFFFF;
			static HIDO_UINT32 s_last_lookahead = 0xFFFFFFFF;

			/* 如果索引发生变化，立即输出LOG */
			/* 路径点调试LOG - 已移除 */
			// static HIDO_UINT32 s_last_nearest = 0xFFFFFFFF;
			// static HIDO_UINT32 s_last_lookahead = 0xFFFFFFFF;
			HIDO_BOOL index_changed = (nearest_idx != s_last_nearest) \|\| (lookahead_idx != s_last_lookahead);

			if ((s_path_log_idx++ % 20U) == 0U \|\| index_changed == HIDO_TRUE)
			if (index_changed)
			{
			float nearest_pt[2];
			mc_get_point(state, nearest_idx, nearest_pt);
			float dist_to_nearest = mc_distance(nearest_pt, state->pos);
			HIDO_BOOL reached = mc_is_point_reached(state, nearest_idx);

			/* 使用整数表示法打印浮点数 */
			int pos_x_int = (int)state->pos[0];
			int pos_x_frac = (int)(fabsf(state->pos[0] - pos_x_int) * 100);
			int pos_y_int = (int)state->pos[1];
			int pos_y_frac = (int)(fabsf(state->pos[1] - pos_y_int) * 100);
			int near_x_int = (int)nearest_pt[0];
			int near_x_frac = (int)(fabsf(nearest_pt[0] - near_x_int) * 100);
			int near_y_int = (int)nearest_pt[1];
			int near_y_frac = (int)(fabsf(nearest_pt[1] - near_y_int) * 100);
			int dn_int = (int)dist_to_nearest;
			int dn_frac = (int)((dist_to_nearest - dn_int) * 100);

			if (index_changed == HIDO_TRUE)
			{
			HIDO_Debug2("[MC_PATH]CHG pos=(%d.%02d,%d.%02d) near=%u->%u look=%u->%u dn=%d.%02d reach=%d\r\n",
			pos_x_int, pos_x_frac, pos_y_int, pos_y_frac,
			s_last_nearest, nearest_idx,
			s_last_lookahead, lookahead_idx,
			dn_int, dn_frac, reached);
			}
			else
			{
			HIDO_Debug2("[MC_PATH] near=%u(%d.%02d,%d.%02d) look=%u dn=%d.%02d reach=%d\r\n",
			nearest_idx, near_x_int, near_x_frac, near_y_int, near_y_frac,
			lookahead_idx,
			dn_int, dn_frac, reached);
			}

			s_last_nearest = nearest_idx;
			s_last_lookahead = lookahead_idx;
			}

			float target[2];
			mc_get_point(state, lookahead_idx, target);

			/* 检测目标点变化并记录 - 已移除LOG */

			state->current_target_xy[0] = target[0];
			state->current_target_xy[1] = target[1];
			out->target_valid = HIDO_TRUE;
			@@ -369,11 +365,15 @@
			state->last_heading_err = heading_err;

			float cross_track = mc_cross_track_error(state, nearest_idx);
			float yaw_rate_cmd = state->config.heading_kp * heading_err
			+ state->config.heading_kd * heading_err_rate
			+ state->config.xtrack_kp * cross_track;
			float p_term = state->config.heading_kp * heading_err;
			float d_term = state->config.heading_kd * heading_err_rate;
			float x_term = state->config.xtrack_kp * cross_track;

			float yaw_rate_cmd = p_term + d_term + x_term;
			yaw_rate_cmd = MC_CLAMP(yaw_rate_cmd, -state->config.max_turn_rate, state->config.max_turn_rate);

			/* 调试LOG：每10帧打印一次PID控制详情，帮助分析死区/不转向问题 - 已移除 */

			float forward = state->config.base_speed_mps
			- state->config.heading_speed_scale * fabsf(heading_err)
			- state->config.xtrack_speed_scale * fabsf(cross_track);
			@@ -422,7 +422,7 @@
			_cfg->xtrack_speed_scale = MC_CFG_XTRACK_SPEED_SCALE;
			}

			/* 初始化控制器，绑定路径与配置 */
			/* MC_Init */
			HIDO_VOID MC_Init(MC_State _state, const MC_Config _cfg, const float *_path_xy, HIDO_UINT32 _point_count)
			{
			if (_state == HIDO_NULL \|\| _cfg == HIDO_NULL \|\| _path_xy == HIDO_NULL \|\| _point_count < 2U)
			@@ -500,15 +500,29 @@
			_out->target_xy[0] = 0.0f;
			_out->target_xy[1] = 0.0f;

			/* 记录target_valid变为FALSE的原因 */
			static HIDO_BOOL s_last_path_valid = HIDO_TRUE;
			static HIDO_BOOL s_last_pose_valid = HIDO_TRUE;

			if (_state->path_xy == HIDO_NULL \|\| _state->path_count < 2U)
			{
			if (s_last_path_valid)
			{
			s_last_path_valid = HIDO_FALSE;
			}
			return;
			}
			s_last_path_valid = HIDO_TRUE;

			if (_state->pose_valid == HIDO_FALSE)
			{
			if (s_last_pose_valid)
			{
			s_last_pose_valid = HIDO_FALSE;
			}
			return;
			}
			s_last_pose_valid = HIDO_TRUE;

			if (_state->imu_valid == HIDO_TRUE && _dt_s > 0.0f)
			{
			@@ -545,7 +559,9 @@
			break;
			}

			_out->turn_rate = -_out->turn_rate;
			/* 不再取反：yaw_rate_cmd（数学坐标系，正=CCW）直接作为turn_rate输出
			* motion_control_task.c中，正值=左转(逆时针)，负值=右转(顺时针)，与数学坐标系一致 */
			// _out->turn_rate = -_out->turn_rate; // 已注释：此取反导致方向错误
			_out->stage = _state->stage;
			_out->pos_enu[0] = _state->pos[0];
			_out->pos_enu[1] = _state->pos[1];
			@@ -553,17 +569,31 @@
			_out->heading_deg = _state->heading_deg;
			_out->pitch_deg = _state->pitch_deg;
			_out->roll_deg = _state->roll_deg;
			static HIDO_BOOL s_last_target_valid = HIDO_FALSE;
			static E_MCStage s_last_stage_for_target = MC_STAGE_IDLE;

			if (_state->stage == MC_STAGE_FOLLOW_PATH \|\| _state->stage == MC_STAGE_GOTO_START)
			{
			_out->target_valid = HIDO_TRUE;
			_out->target_xy[0] = _state->current_target_xy[0];
			_out->target_xy[1] = _state->current_target_xy[1];

			if (!s_last_target_valid)
			{
			}
			}
			else
			{
			_out->target_valid = HIDO_FALSE;
			_out->target_xy[0] = 0.0f;
			_out->target_xy[1] = 0.0f;

			if (s_last_target_valid \|\| _state->stage != s_last_stage_for_target)
			{
			}
			}

			s_last_target_valid = _out->target_valid;
			s_last_stage_for_target = _state->stage;
			}