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getting laptime data to know how many lapinfo needs to be allocated

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htom
2026-01-03 20:44:21 +01:00
parent abe3a2dbb1
commit f52d081d04
1 changed files with 44 additions and 120 deletions
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164
src/main.c
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@@ -7,34 +7,43 @@
void get_data_from_db(const char *query, duckdb_connection *conn, TelemetryInfo *info) { void get_data_from_db(const char *query, duckdb_connection *conn, TelemetryInfo *info) {
duckdb_result result; duckdb_result result;
int32_t iterations = 0;
int32_t number_of_data_points = 0;
duckdb_query(*conn, query, &result); duckdb_query(*conn, query, &result);
while (true) { while (true) {
iterations++;
duckdb_data_chunk data_chunk = duckdb_fetch_chunk(result); duckdb_data_chunk data_chunk = duckdb_fetch_chunk(result);
if (!data_chunk) { if (!data_chunk) {
break; break;
} }
idx_t row_count = duckdb_data_chunk_get_size(data_chunk); // number of rows from the data chunk idx_t row_count = duckdb_data_chunk_get_size(data_chunk); // number of rows from the data chunk
number_of_data_points += row_count;
// set column // set column
duckdb_vector col1 = duckdb_data_chunk_get_vector(data_chunk, 0); duckdb_vector col1 = duckdb_data_chunk_get_vector(data_chunk, 0);
float *col1_data = (float *)duckdb_vector_get_data(col1); void *col1_data = duckdb_vector_get_data(col1);
uint64_t *col1_validity = duckdb_vector_get_validity(col1); uint64_t *col1_validity = duckdb_vector_get_validity(col1);
for (idx_t row = 0; row < row_count; row++) { for (idx_t row = 0; row < row_count; row++) {
if (duckdb_validity_row_is_valid(col1_validity, row)) { if (duckdb_validity_row_is_valid(col1_validity, row)) {
// put a switch here based on the info from the struct switch (info->type) {
((float *)info->data)[info->data_last_index] = col1_data[row]; case FLOAT:
info->data_last_index++; ((float *)info->data)[info->data_last_index] = ((float *)col1_data)[row];
// TODO: set info->data_size as capacity at struct creation info->data_last_index++;
printf("%f, ", col1_data[row]); break;
case BOOL:
((bool *)info->data)[info->data_last_index] = ((bool *)col1_data)[row];
info->data_last_index++;
break;
case DOUBLE:
((double *)info->data)[info->data_last_index] = ((double *)col1_data)[row];
info->data_last_index++;
break;
case INT:
((int32_t *)info->data)[info->data_last_index] = ((int32_t *)col1_data)[row];
info->data_last_index++;
break;
}
// printf("%f, ", ((float *)col1_data)[row]);
} else { } else {
printf("NULL"); printf("NULL");
} }
@@ -43,7 +52,6 @@ void get_data_from_db(const char *query, duckdb_connection *conn, TelemetryInfo
duckdb_destroy_data_chunk(&data_chunk); duckdb_destroy_data_chunk(&data_chunk);
} }
duckdb_destroy_result(&result); duckdb_destroy_result(&result);
printf("\nNumber of iterations: %d, number of data points: %d\n", iterations, number_of_data_points);
} }
int main(int argc, char **argv) { int main(int argc, char **argv) {
@@ -67,117 +75,32 @@ int main(int argc, char **argv) {
exit(3); exit(3);
} }
const char *channel_tables[] = {"Ambient Temperature", // get how many laps is in the session and allocate that many LapInfo-s
"Brake Pos", duckdb_result lap_count_res;
"Brake Pos Unfiltered", int32_t lap_count = 0;
"Brake Thickness", duckdb_query(conn, "Select count(value) from Lap\n", &lap_count_res);
"Brakes Air Temp",
"Brakes Force",
"Brakes Temp",
"Clutch Pos",
"Clutch Pos Unfiltered",
"Clutch RPM",
"Drag",
"Engine Oil Temp",
"Engine RPM",
"Engine Water Temp",
"FFB Output",
"Front3rdDeflection",
"FrontDownForce",
"FrontRideHeight",
"FrontWingHeight",
"Fuel Level",
"G Force Lat",
"G Force Long",
"G Force Vert",
"GPS Latitude",
"GPS Longitude",
"GPS Speed",
"GPS Time",
"Ground Speed",
"Lap Dist",
"Lateral Acceleration",
"Longitudinal Acceleration",
"OverheatingState",
"Path Lateral",
"ReadDownForce",
"Rear3rdDeflection",
"RearRideHeight",
"Regen Rate",
"RideHeights",
"SoC",
"Steered Angle",
"Steering Pos",
"Steering Pos Unfiltered",
"Steering Shaft Torque",
"Susp Pos",
"Throttle Pos",
"Throttle Pos Unfiltered",
"Time Behind Next",
"Total Dist",
"Track Edge",
"Track Temperature",
"Turbo Boost Pressure",
"Tyres Wear",
"TyresCarcassTemp",
"TyresPressure",
"TyresRimTemp",
"TyresRubberTemp",
"TyresTempCentre",
"TyresTempLeft",
"TyresTempRight",
"Virtual Energy",
"Wheel Speed",
"Wind Heading",
"Wind Speed",
"Yaw Rate"};
const int channel_table_count = sizeof(channel_tables) / sizeof(channel_tables[0]); duckdb_data_chunk data_chunk = duckdb_fetch_chunk(lap_count_res);
if (!data_chunk) {
printf("Error in retrieving laps");
exit(4);
}
const char *event_tables[] = {"ABS", // set column
"ABSLevel", duckdb_vector col1 = duckdb_data_chunk_get_vector(data_chunk, 0);
"AntiStall Activated", int32_t *col1_data = (int32_t *)duckdb_vector_get_data(col1);
"Best LapTime", uint64_t *col1_validity = duckdb_vector_get_validity(col1);
"Best Sector1",
"Best Sector2",
"Brake Bias Rear",
"Brake Migration",
"CloudDarkness",
"Current LapTime",
"Current Sector",
"Current Sector1",
"Current Sector2",
"Engine Max RPM",
"Finish Status",
"FrontFlapActivated",
"FuelMixtureMap",
"Gear",
"Headlights State",
"In Pits",
"Lap",
"Lap Time",
"Last Sector1",
"Last Sector2",
"LastImpactMagnitude",
"LaunchControlActive",
"Minimum Path Wetness",
"OffpathWetness",
"RearFlapActivated",
"RearFlapLegalStatus",
"Sector1 Flag",
"Sector2 Flag",
"Sector3 Flag",
"Speed Limiter",
"SurfaceTypes",
"TC",
"TCCut",
"TCLevel",
"TCSlipAngle",
"TyresCompound",
"WheelsDetached",
"Yellow Flag State"};
const int event_table_count = sizeof(event_tables) / sizeof(event_tables[0]); if (duckdb_validity_row_is_valid(col1_validity, 0)) {
lap_count = col1_data[0];
}
duckdb_destroy_data_chunk(&data_chunk);
duckdb_destroy_result(&lap_count_res);
printf("Lap count: %d\n", lap_count);
LapInfo *session_data;
LapInfo info = {.lap_number = 0, LapInfo info = {.lap_number = 0,
.start_time = 0, .start_time = 0,
@@ -207,6 +130,7 @@ int main(int argc, char **argv) {
.data = malloc(sizeof(float) * 75000)}}; .data = malloc(sizeof(float) * 75000)}};
get_data_from_db("Select * from \"Throttle Pos\"\n", &conn, &info.throttle_pos); get_data_from_db("Select * from \"Throttle Pos\"\n", &conn, &info.throttle_pos);
destroyLapinfo(&info); destroyLapinfo(&info);
printf("Shutting down HardCompound!\n"); printf("Shutting down HardCompound!\n");