static void nativeVideoGetCparamCallback(const ARParam *cparam_p, void *userdata) { // Load the camera parameters, resize for the window and init. ARParam cparam; if (cparam_p) cparam = *cparam_p; else { LOGE("Unable to automatically determine camera parameters. Using default.\n"); if (arParamLoad(cparaName, 1, &cparam) < 0) { LOGE("Error: Unable to load parameter file %s for camera.\n", cparaName); return; } } if (cparam.xsize != videoWidth || cparam.ysize != videoHeight) { #ifdef DEBUG LOGI("*** Camera Parameter resized from %d, %d. ***\n", cparam.xsize, cparam.ysize); #endif arParamChangeSize(&cparam, videoWidth, videoHeight, &cparam); } #ifdef DEBUG LOGI("*** Camera Parameter ***\n"); arParamDisp(&cparam); #endif if ((gCparamLT = arParamLTCreate(&cparam, AR_PARAM_LT_DEFAULT_OFFSET)) == NULL) { LOGE("Error: arParamLTCreate.\n"); return; } videoInited = true; // // AR init. // // Create the OpenGL projection from the calibrated camera parameters. arglCameraFrustumRHf(&gCparamLT->param, NEAR_PLANE, FAR_PLANE, cameraLens); cameraPoseValid = FALSE; if (!initNFT(gCparamLT, gPixFormat)) { LOGE("Error initialising NFT.\n"); arParamLTFree(&gCparamLT); return; } // Marker data has already been loaded, so now load NFT data on a second thread. nftDataLoadingThreadHandle = threadInit(0, NULL, loadNFTDataAsync); if (!nftDataLoadingThreadHandle) { LOGE("Error starting NFT loading thread.\n"); arParamLTFree(&gCparamLT); return; } threadStartSignal(nftDataLoadingThreadHandle); }
static void nativeVideoGetCparamCallback(const ARParam *cparam_p, void *userdata) { // Load the camera parameters, resize for the window and init. ARParam cparam; if (cparam_p) cparam = *cparam_p; else { LOGE("Unable to automatically determine camera parameters. Using default.\n"); if (arParamLoad(cparaName, 1, &cparam) < 0) { LOGE("Error: Unable to load parameter file %s for camera.\n", cparaName); return; } } if (cparam.xsize != videoWidth || cparam.ysize != videoHeight) { #ifdef DEBUG LOGI("*** Camera Parameter resized from %d, %d. ***\n", cparam.xsize, cparam.ysize); #endif arParamChangeSize(&cparam, videoWidth, videoHeight, &cparam); } #ifdef DEBUG LOGI("*** Camera Parameter ***\n"); arParamDisp(&cparam); #endif if ((gCparamLT = arParamLTCreate(&cparam, AR_PARAM_LT_DEFAULT_OFFSET)) == NULL) { LOGE("Error: arParamLTCreate.\n"); return; } videoInited = true; // // AR init. // // Create the OpenGL projection from the calibrated camera parameters. arglCameraFrustumRHf(&gCparamLT->param, NEAR_PLANE, FAR_PLANE, cameraLens); cameraPoseValid = FALSE; // Init AR. arHandle = arCreateHandle(gCparamLT); if (arHandle == NULL) { LOGE("Error creating AR handle"); return; } arPattAttach(arHandle, arPattHandle); if (arSetPixelFormat(arHandle, gPixFormat) < 0) { LOGE("Error setting pixel format"); return; } ar3DHandle = ar3DCreateHandle(&gCparamLT->param); if (ar3DHandle == NULL) { LOGE("Error creating 3D handle"); return; } // Other ARToolKit setup. arSetMarkerExtractionMode(arHandle, AR_USE_TRACKING_HISTORY_V2); //arSetMarkerExtractionMode(arHandle, AR_NOUSE_TRACKING_HISTORY); //arSetLabelingThreshMode(arHandle, AR_LABELING_THRESH_MODE_MANUAL); // Uncomment to use manual thresholding. // Set the pattern detection mode (template (pictorial) vs. matrix (barcode) based on // the marker types as defined in the marker config. file. arSetPatternDetectionMode(arHandle, arPattDetectionMode); // Default = AR_TEMPLATE_MATCHING_COLOR // Other application-wide marker options. Once set, these apply to all markers in use in the application. // If you are using standard ARToolKit picture (template) markers, leave commented to use the defaults. // If you are usign a different marker design (see http://www.artoolworks.com/support/app/marker.php ) // then uncomment and edit as instructed by the marker design application. //arSetLabelingMode(arHandle, AR_LABELING_BLACK_REGION); // Default = AR_LABELING_BLACK_REGION //arSetBorderSize(arHandle, 0.25f); // Default = 0.25f //arSetMatrixCodeType(arHandle, AR_MATRIX_CODE_3x3); // Default = AR_MATRIX_CODE_3x3 }