#pragma once #include #include "VehicleType.h" #include #define LOGREADER_MAX_FIELDS 30 #define streq(x, y) (!strcmp(x, y)) class MsgHandler { public: // constructor - create a parser for a MavLink message format MsgHandler(const struct log_Format &f); // retrieve a comma-separated list of all labels void string_for_labels(char *buffer, uint bufferlen); // field_value - retrieve the value of a field from the supplied message // these return false if the field was not found template bool field_value(uint8_t *msg, const char *label, R &ret); bool field_value(uint8_t *msg, const char *label, Vector3f &ret); bool field_value(uint8_t *msg, const char *label, char *buffer, uint8_t bufferlen); template void require_field(uint8_t *msg, const char *label, R &ret) { if (! field_value(msg, label, ret)) { field_not_found(msg, label); } } void require_field(uint8_t *msg, const char *label, char *buffer, uint8_t bufferlen); float require_field_float(uint8_t *msg, const char *label); uint8_t require_field_uint8_t(uint8_t *msg, const char *label); int32_t require_field_int32_t(uint8_t *msg, const char *label); uint16_t require_field_uint16_t(uint8_t *msg, const char *label); int16_t require_field_int16_t(uint8_t *msg, const char *label); private: void add_field(const char *_label, uint8_t _type, uint8_t _offset, uint8_t length); template void field_value_for_type_at_offset(uint8_t *msg, uint8_t type, uint8_t offset, R &ret); struct format_field_info { // parsed field information char *label; uint8_t type; uint8_t offset; uint8_t length; }; struct format_field_info field_info[LOGREADER_MAX_FIELDS]; uint8_t next_field; size_t size_for_type_table[52]; // maps field type (e.g. 'f') to e.g 4 bytes struct format_field_info *find_field_info(const char *label); void parse_format_fields(); void init_field_types(); void add_field_type(char type, size_t size); uint8_t size_for_type(char type); protected: struct log_Format f; // the format we are a parser for ~MsgHandler(); void location_from_msg(uint8_t *msg, Location &loc, const char *label_lat, const char *label_long, const char *label_alt); void ground_vel_from_msg(uint8_t *msg, Vector3f &vel, const char *label_speed, const char *label_course, const char *label_vz); void attitude_from_msg(uint8_t *msg, Vector3f &att, const char *label_roll, const char *label_pitch, const char *label_yaw); void field_not_found(uint8_t *msg, const char *label); }; template bool MsgHandler::field_value(uint8_t *msg, const char *label, R &ret) { struct format_field_info *info = find_field_info(label); if (info == NULL) { return false; } uint8_t offset = info->offset; if (offset == 0) { return false; } field_value_for_type_at_offset(msg, info->type, offset, ret); return true; } template inline void MsgHandler::field_value_for_type_at_offset(uint8_t *msg, uint8_t type, uint8_t offset, R &ret) { /* we register the types - add_field_type - so can we do without * this switch statement somehow? */ switch (type) { case 'B': ret = (R)(((uint8_t*)&msg[offset])[0]); break; case 'c': case 'h': ret = (R)(((int16_t*)&msg[offset])[0]); break; case 'H': ret = (R)(((uint16_t*)&msg[offset])[0]); break; case 'C': ret = (R)(((uint16_t*)&msg[offset])[0]); break; case 'f': ret = (R)(((float*)&msg[offset])[0]); break; case 'I': case 'E': ret = (R)(((uint32_t*)&msg[offset])[0]); break; case 'L': case 'e': ret = (R)(((int32_t*)&msg[offset])[0]); break; case 'q': ret = (R)(((int64_t*)&msg[offset])[0]); break; case 'Q': ret = (R)(((uint64_t*)&msg[offset])[0]); break; default: ::printf("Unhandled format type (%c)\n", type); exit(1); } }