From: Jeongmo Yang Date: Fri, 29 Jan 2016 06:44:48 +0000 (+0900) Subject: [Release version 0.2.43] Change display routine for Overlay type X-Git-Tag: submit/tizen/20160201.062702^0 X-Git-Url: http://review.tizen.org/git/?a=commitdiff_plain;h=refs%2Fchanges%2F05%2F58305%2F2;p=platform%2Fcore%2Fapi%2Fcamera.git [Release version 0.2.43] Change display routine for Overlay type Change-Id: I5fc71fddc685266d48097728e5160d4591273aaa Signed-off-by: Jeongmo Yang --- diff --git a/CMakeLists.txt b/CMakeLists.txt index ac57dd2..3f461ad 100644 --- a/CMakeLists.txt +++ b/CMakeLists.txt @@ -9,7 +9,7 @@ SET(service "media") SET(submodule "camera") # for package file -SET(dependents "libtbm dlog mm-common capi-base-common capi-media-tool mm-camcorder ecore elementary mmsvc-camera gstreamer-1.0") +SET(dependents "libtbm dlog mm-common capi-base-common capi-media-tool mm-camcorder ecore elementary mmsvc-camera gstreamer-1.0 tizen-extension-client") SET(pc_dependents "capi-base-common capi-media-tool libtbm evas ecore elementary") SET(fw_name "${project_prefix}-${service}-${submodule}") diff --git a/include/camera.h b/include/camera.h index a17cd22..b5a917b 100644 --- a/include/camera.h +++ b/include/camera.h @@ -586,7 +586,7 @@ typedef void (*camera_media_packet_preview_cb)(media_packet_h pkt, void *user_da * @see camera_start_continuous_capture() * @see camera_capture_completed_cb() */ -typedef void (*camera_capturing_cb)(camera_image_data_s* image, camera_image_data_s* postview, camera_image_data_s* thumbnail, void *user_data); +typedef void (*camera_capturing_cb)(camera_image_data_s *image, camera_image_data_s *postview, camera_image_data_s *thumbnail, void *user_data); /** * @brief Called when the camera capturing completes. @@ -1069,7 +1069,7 @@ int camera_get_recommended_preview_resolution(camera_h camera, int *width, int * * @see camera_face_detected_cb() * @see camera_is_supported_face_detection() */ -int camera_start_face_detection(camera_h camera, camera_face_detected_cb callback, void * user_data); +int camera_start_face_detection(camera_h camera, camera_face_detected_cb callback, void *user_data); /** * @brief Stops face detection. diff --git a/include/camera_private.h b/include/camera_private.h index c520298..a463e15 100644 --- a/include/camera_private.h +++ b/include/camera_private.h @@ -72,11 +72,12 @@ typedef struct _camera_idle_event_s { typedef struct _camera_cli_s { intptr_t remote_handle; MMHandleType client_handle; + int display_type; intptr_t display_handle; camera_cb_info_s *cb_info; #ifdef HAVE_WAYLAND - MMCamWaylandInfo *wl_info; -#endif /* #ifdef HAVE_WAYLAND */ + MMCamWaylandInfo wl_info; +#endif /* HAVE_WAYLAND */ } camera_cli_s; typedef struct _camera_media_packet_data { @@ -90,7 +91,7 @@ typedef struct _camera_media_packet_data { int _camera_get_tbm_surface_format(int in_format, uint32_t *out_format); int _camera_get_media_packet_mimetype(int in_format, media_format_mimetype_e *mimetype); int _camera_media_packet_finalize(media_packet_h pkt, int error_code, void *user_data); -int __convert_camera_error_code(const char* func, int code); +int __convert_camera_error_code(const char *func, int code); #ifdef __cplusplus } diff --git a/packaging/capi-media-camera.spec b/packaging/capi-media-camera.spec index e649294..1dc80ac 100644 --- a/packaging/capi-media-camera.spec +++ b/packaging/capi-media-camera.spec @@ -3,7 +3,7 @@ Name: capi-media-camera Summary: A Camera API -Version: 0.2.42 +Version: 0.2.43 Release: 0 Group: Multimedia/API License: Apache-2.0 @@ -26,6 +26,7 @@ BuildRequires: pkgconfig(gstreamer-1.0) BuildRequires: pkgconfig(ecore-wayland) %endif BuildRequires: pkgconfig(libtbm) +BuildRequires: pkgconfig(tizen-extension-client) Requires(post): /sbin/ldconfig Requires(postun): /sbin/ldconfig diff --git a/src/camera.c b/src/camera.c index dcff6cf..6d1c606 100644 --- a/src/camera.c +++ b/src/camera.c @@ -36,6 +36,8 @@ #include #ifdef HAVE_WAYLAND #include +#include +#include #else #include #endif @@ -155,40 +157,172 @@ int __convert_camera_error_code(const char *func, int code) } #ifdef HAVE_WAYLAND -static MMCamWaylandInfo *_get_wl_info(Evas_Object *obj) +static void __global(void *data, struct wl_registry *registry, + uint32_t name, const char *interface, uint32_t version) { - MMCamWaylandInfo *wl_info = NULL; + struct tizen_surface **tz_surface = NULL; - if (obj == NULL) { - LOGE("evas object is NULL"); - return NULL; + if (!data) { + LOGE("NULL data"); + return; } - wl_info = g_new0(MMCamWaylandInfo, 1); - if (wl_info == NULL) { - LOGE("wl_info alloc failed : %d", sizeof(MMCamWaylandInfo)); - return NULL; + tz_surface = (struct tizen_surface **)data; + + if (!interface) { + LOGW("NULL interface"); + return; } - wl_info->evas_obj = (void *)obj; - wl_info->window = (void *)elm_win_wl_window_get(obj); - wl_info->surface = (void *)ecore_wl_window_surface_get(wl_info->window); - wl_info->display = (void *)ecore_wl_display_get(); + LOGI("interface %s", interface); - if (wl_info->window == NULL || wl_info->surface == NULL || wl_info->display == NULL) { - LOGE("something is NULL %p, %p, %p", wl_info->window, wl_info->surface, wl_info->display); - g_free(wl_info); - return NULL; + if (strcmp(interface, "tizen_surface") == 0) { + LOGD("binding tizen surface for wayland"); + + *tz_surface = wl_registry_bind(registry, name, &tizen_surface_interface, version); + if (*tz_surface == NULL) { + LOGE("failed to bind"); + } + + LOGD("done"); + } + + return; +} + +static void __global_remove(void *data, struct wl_registry *wl_registry, uint32_t name) +{ + LOGD("enter"); + return; +} + +static const struct wl_registry_listener _camera_wl_registry_listener = +{ + __global, + __global_remove +}; + +void __parent_id_getter(void *data, struct tizen_resource *tizen_resource, uint32_t id) +{ + if (!data) { + LOGE("NULL data"); + return; } - evas_object_geometry_get(obj, &wl_info->window_x, &wl_info->window_y, - &wl_info->window_width, &wl_info->window_height); + *((unsigned int *)data) = id; - LOGD("wayland obj %p, window %p, surface %p, display %p, size %d,%d,%dx%d", - wl_info->evas_obj, wl_info->window, wl_info->surface, wl_info->display, - wl_info->window_x, wl_info->window_y, wl_info->window_width, wl_info->window_height); + LOGD("[CLIENT] got parent_id [%u] from server", id); - return wl_info; + return; +} + +static const struct tizen_resource_listener _camera_tz_resource_listener = +{ + __parent_id_getter +}; + +int _get_wl_info(Evas_Object *obj, MMCamWaylandInfo *wl_info) +{ + int ret = CAMERA_ERROR_NONE; + Ecore_Wl_Window *window = NULL; + struct wl_display *display = NULL; + struct wl_surface *surface = NULL; + struct wl_registry *registry = NULL; + struct tizen_surface *tz_surface = NULL; + struct tizen_resource *tz_resource = NULL; + + if (!obj || !wl_info) { + LOGE("NULL parameter %p %p", obj, wl_info); + return CAMERA_ERROR_INVALID_OPERATION; + } + + window = elm_win_wl_window_get(obj); + if (!window) { + LOGE("failed to get wayland window"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + surface = (struct wl_surface *)ecore_wl_window_surface_get(window); + if (!surface) { + LOGE("failed to get wayland surface"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + display = (struct wl_display *)ecore_wl_display_get(); + if (!display) { + LOGE("failed to get wayland display"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + registry = wl_display_get_registry(display); + if (!registry) { + LOGE("failed to get wayland registry"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + wl_registry_add_listener(registry, &_camera_wl_registry_listener, &tz_surface); + + wl_display_dispatch(display); + wl_display_roundtrip(display); + + if (!tz_surface) { + LOGE("failed to get tizen surface"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + /* Get parent_id which is unique in a entire systemw. */ + tz_resource = tizen_surface_get_tizen_resource(tz_surface, surface); + if (!tz_resource) { + LOGE("failed to get tizen resurce"); + ret = CAMERA_ERROR_INVALID_OPERATION; + goto _DONE; + } + + wl_info->parent_id = 0; + + tizen_resource_add_listener(tz_resource, &_camera_tz_resource_listener, &wl_info->parent_id); + + wl_display_roundtrip(display); + + if (wl_info->parent_id > 0) { + ret = CAMERA_ERROR_NONE; + + wl_info->evas_obj = obj; + + evas_object_geometry_get(obj, &wl_info->window_x, &wl_info->window_y, + &wl_info->window_width, &wl_info->window_height); + + LOGD("evas object : %p, parent id : %u, window : %d,%d,%dx%d", + wl_info->evas_obj, wl_info->parent_id, + wl_info->window_x, wl_info->window_y, + wl_info->window_width, wl_info->window_height); + } else { + ret = CAMERA_ERROR_INVALID_OPERATION; + LOGE("failed to get parent id"); + } + +_DONE: + if (tz_surface) { + tizen_surface_destroy(tz_surface); + tz_surface = NULL; + } + + if (tz_resource) { + tizen_resource_destroy(tz_resource); + tz_resource = NULL; + } + + if (registry) { + wl_registry_destroy(registry); + registry = NULL; + } + + return ret; } #endif /* HAVE_WAYLAND */ @@ -1761,7 +1895,7 @@ static void _client_callback_destroy(camera_cb_info_s *cb_info) return; } -int camera_create(camera_device_e device, camera_h* camera) +int camera_create(camera_device_e device, camera_h *camera) { int sock_fd = -1; char *sndMsg; @@ -1898,13 +2032,6 @@ int camera_destroy(camera_h camera) _client_callback_destroy(pc->cb_info); pc->cb_info = NULL; -#ifdef HAVE_WAYLAND - if (pc->wl_info) { - g_free(pc->wl_info); - pc->wl_info = NULL; - } -#endif /* HAVE_WAYLAND */ - g_free(pc); pc = NULL; } else { @@ -1952,15 +2079,17 @@ int camera_start_preview(camera_h camera) } if (pc->cb_info->prev_state == CAMERA_STATE_CREATED) { - if (pc->cb_info->caps == NULL) { - LOGE("caps string is NULL"); - goto _START_PREVIEW_ERROR; - } + if (pc->display_type != CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info->caps == NULL) { + LOGE("caps string is NULL"); + goto _START_PREVIEW_ERROR; + } - ret = mm_camcorder_client_realize(pc->client_handle, pc->cb_info->caps); - if (ret != MM_ERROR_NONE) { - LOGE("client realize failed 0x%x", ret); - goto _START_PREVIEW_ERROR; + ret = mm_camcorder_client_realize(pc->client_handle, pc->cb_info->caps); + if (ret != MM_ERROR_NONE) { + LOGE("client realize failed 0x%x", ret); + goto _START_PREVIEW_ERROR; + } } } @@ -1999,10 +2128,12 @@ int camera_stop_preview(camera_h camera) LOGD("Enter"); /* destroy client pipeline first */ - if (pc->client_handle != NULL) { - client_ret = mm_camcorder_client_unrealize(pc->client_handle); - } else { - LOGW("client handle is NULL"); + if (pc->display_type != CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->client_handle != NULL) { + client_ret = mm_camcorder_client_unrealize(pc->client_handle); + } else { + LOGW("client handle is NULL"); + } } /* send stop preview message */ @@ -2243,7 +2374,7 @@ int camera_get_device_count(camera_h camera, int *device_count) return ret; } -int camera_start_face_detection(camera_h camera, camera_face_detected_cb callback, void * user_data) +int camera_start_face_detection(camera_h camera, camera_face_detected_cb callback, void *user_data) { if (camera == NULL) { LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); @@ -2414,18 +2545,17 @@ int camera_set_display(camera_h camera, camera_display_type_e type, camera_displ if (object_type) { if (type == CAMERA_DISPLAY_TYPE_OVERLAY && !strcmp(object_type, "elm_win")) { #ifdef HAVE_WAYLAND - /* set wayland info */ - wl_info = _get_wl_info(obj); - if (wl_info == NULL) { - LOGE("failed to get wl_info"); + /* get wayland parent id */ + if (_get_wl_info(obj, &pc->wl_info) != CAMERA_ERROR_NONE) { + LOGE("failed to get wayland info"); return CAMERA_ERROR_INVALID_OPERATION; } - set_display_handle = (void *)wl_info; + set_display_handle = (void *)&pc->wl_info; #else /* HAVE_WAYLAND */ /* x window overlay surface */ set_display_handle = (void *)elm_win_xwindow_get(obj); -#endif +#endif /* HAVE_WAYLAND */ set_surface = MM_DISPLAY_SURFACE_OVERLAY; LOGD("display type OVERLAY : handle %p", set_display_handle); } else if (type == CAMERA_DISPLAY_TYPE_EVAS && !strcmp(object_type, "image")) { @@ -2443,14 +2573,24 @@ int camera_set_display(camera_h camera, camera_display_type_e type, camera_displ } } + pc->display_type = type; pc->display_handle = (intptr_t)set_display_handle; - muse_camera_msg_send(api, sock_fd, pc->cb_info, ret); +#ifdef HAVE_WAYLAND + if (type == CAMERA_DISPLAY_TYPE_OVERLAY) { + wl_info = &pc->wl_info; + muse_camera_msg_send_array_and_value(api, sock_fd, pc->cb_info, ret, + wl_info, 5, sizeof(int), INT, type); + + return __convert_camera_error_code(__func__, ret); + } else +#endif /* HAVE_WAYLAND */ + muse_camera_msg_send(api, sock_fd, pc->cb_info, ret); if (ret == CAMERA_ERROR_NONE) { if (muse_camera_msg_get_string(socket_path, pc->cb_info->recv_msg) == FALSE) { LOGE("failed to get socket path"); - goto _SET_DISPLAY_ERROR; + return CAMERA_ERROR_INVALID_OPERATION; } LOGD("socket path : %s", socket_path); @@ -2458,7 +2598,7 @@ int camera_set_display(camera_h camera, camera_display_type_e type, camera_displ ret = mm_camcorder_client_set_socket_path(pc->client_handle, socket_path); if (ret != MM_ERROR_NONE) { LOGE("failed to set socket path 0x%x", ret); - goto _SET_DISPLAY_ERROR; + return __convert_camera_error_code(__func__, ret); } ret = mm_camcorder_set_attributes(pc->client_handle, NULL, @@ -2466,7 +2606,7 @@ int camera_set_display(camera_h camera, camera_display_type_e type, camera_displ NULL); if (ret != MM_ERROR_NONE) { LOGE("set display surface failed 0x%x", ret); - goto _SET_DISPLAY_ERROR; + return __convert_camera_error_code(__func__, ret); } if (type != CAMERA_DISPLAY_TYPE_NONE) { @@ -2475,34 +2615,15 @@ int camera_set_display(camera_h camera, camera_display_type_e type, camera_displ NULL); if (ret != MM_ERROR_NONE) { LOGE("set display handle failed 0x%x", ret); - goto _SET_DISPLAY_ERROR; + return __convert_camera_error_code(__func__, ret); } } -#ifdef HAVE_WAYLAND - if (pc->wl_info) { - g_free(pc->wl_info); - pc->wl_info = NULL; - } - - pc->wl_info = wl_info; -#endif /* HAVE_WAYLAND */ - return CAMERA_ERROR_NONE;; } else { LOGE("set display error - 0x%x"); return ret; } - -_SET_DISPLAY_ERROR: -#ifdef HAVE_WAYLAND - if (wl_info) { - g_free(wl_info); - wl_info = NULL; - } -#endif /* HAVE_WAYLAND */ - - return __convert_camera_error_code(__func__, ret); } int camera_set_preview_resolution(camera_h camera, int width, int height) @@ -2640,6 +2761,7 @@ int camera_get_preview_resolution(camera_h camera, int *width, int *height) int camera_set_display_rotation(camera_h camera, camera_rotation_e rotation) { int ret = CAMERA_ERROR_NONE; + int set_rotation = (int)rotation; camera_cli_s *pc = NULL; if (camera == NULL) { @@ -2653,6 +2775,18 @@ int camera_set_display_rotation(camera_h camera, camera_rotation_e rotation) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send1(MUSE_CAMERA_API_SET_DISPLAY_ROTATION, + pc->cb_info->fd, pc->cb_info, ret, INT, set_rotation); + + return ret; + } + if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2668,6 +2802,7 @@ int camera_set_display_rotation(camera_h camera, camera_rotation_e rotation) int camera_get_display_rotation(camera_h camera, camera_rotation_e *rotation) { int ret = CAMERA_ERROR_NONE; + int get_rotation = CAMERA_ROTATION_NONE; camera_cli_s *pc = NULL; if (camera == NULL || rotation == NULL) { @@ -2677,6 +2812,23 @@ int camera_get_display_rotation(camera_h camera, camera_rotation_e *rotation) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send(MUSE_CAMERA_API_GET_DISPLAY_ROTATION, + pc->cb_info->fd, pc->cb_info, ret); + + if (ret == CAMERA_ERROR_NONE) { + muse_camera_msg_get(get_rotation, pc->cb_info->recv_msg); + *rotation = (camera_rotation_e)get_rotation; + } + + return ret; + } + if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2692,6 +2844,7 @@ int camera_get_display_rotation(camera_h camera, camera_rotation_e *rotation) int camera_set_display_flip(camera_h camera, camera_flip_e flip) { int ret = CAMERA_ERROR_NONE; + int set_flip = (int)flip; camera_cli_s *pc = NULL; if (camera == NULL) { @@ -2705,6 +2858,17 @@ int camera_set_display_flip(camera_h camera, camera_flip_e flip) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send1(MUSE_CAMERA_API_SET_DISPLAY_FLIP, + pc->cb_info->fd, pc->cb_info, ret, INT, set_flip); + + return ret; + } if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2720,6 +2884,7 @@ int camera_set_display_flip(camera_h camera, camera_flip_e flip) int camera_get_display_flip(camera_h camera, camera_flip_e *flip) { int ret = CAMERA_ERROR_NONE; + int get_flip = CAMERA_FLIP_NONE; camera_cli_s *pc = NULL; if (camera == NULL || flip == NULL) { @@ -2729,6 +2894,22 @@ int camera_get_display_flip(camera_h camera, camera_flip_e *flip) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send(MUSE_CAMERA_API_GET_DISPLAY_FLIP, + pc->cb_info->fd, pc->cb_info, ret); + + if (ret == CAMERA_ERROR_NONE) { + muse_camera_msg_get(get_flip, pc->cb_info->recv_msg); + *flip = (camera_flip_e)get_flip; + } + + return ret; + } if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2744,6 +2925,7 @@ int camera_get_display_flip(camera_h camera, camera_flip_e *flip) int camera_set_display_visible(camera_h camera, bool visible) { int ret = CAMERA_ERROR_NONE; + int set_visible = (int)visible; camera_cli_s *pc = NULL; if (camera == NULL) { @@ -2753,6 +2935,18 @@ int camera_set_display_visible(camera_h camera, bool visible) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send1(MUSE_CAMERA_API_SET_DISPLAY_VISIBLE, + pc->cb_info->fd, pc->cb_info, ret, INT, set_visible); + + return ret; + } + if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2765,39 +2959,52 @@ int camera_set_display_visible(camera_h camera, bool visible) return __convert_camera_error_code(__func__, ret); } -int camera_is_display_visible(camera_h camera, bool* visible) +int camera_is_display_visible(camera_h camera, bool *visible) { + int ret = CAMERA_ERROR_NONE; + int get_visible = true; + camera_cli_s *pc = NULL; + if (camera == NULL || visible == NULL) { LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); return CAMERA_ERROR_INVALID_PARAMETER; } - int ret = CAMERA_ERROR_NONE; + pc = (camera_cli_s *)camera; - camera_cli_s *pc = (camera_cli_s *)camera; - muse_camera_api_e api = MUSE_CAMERA_API_IS_DISPLAY_VISIBLE; - int sock_fd; - if (pc->cb_info == NULL) { - LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); - return CAMERA_ERROR_INVALID_PARAMETER; - } - sock_fd = pc->cb_info->fd; - int get_visible; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } - LOGD("Enter, remote_handle : %x", pc->remote_handle); - muse_camera_msg_send(api, sock_fd, pc->cb_info, ret); + muse_camera_msg_send(MUSE_CAMERA_API_IS_DISPLAY_VISIBLE, + pc->cb_info->fd, pc->cb_info, ret); - if (ret == CAMERA_ERROR_NONE) { - muse_camera_msg_get(get_visible, pc->cb_info->recv_msg); - *visible = (bool)get_visible; + if (ret == CAMERA_ERROR_NONE) { + muse_camera_msg_get(get_visible, pc->cb_info->recv_msg); + *visible = (bool)get_visible; + } + + return ret; } - LOGD("ret : 0x%x", ret); - return ret; + + if (pc->client_handle == NULL) { + LOGE("client handle is NULL"); + return CAMERA_ERROR_INVALID_OPERATION; + } + + ret = mm_camcorder_get_attributes(pc->client_handle, NULL, + MMCAM_DISPLAY_VISIBLE, visible, + NULL); + + return __convert_camera_error_code(__func__, ret); } int camera_set_display_mode(camera_h camera, camera_display_mode_e mode) { int ret = CAMERA_ERROR_NONE; + int set_mode = (int)mode; camera_cli_s *pc = NULL; if (camera == NULL) { @@ -2811,6 +3018,18 @@ int camera_set_display_mode(camera_h camera, camera_display_mode_e mode) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send1(MUSE_CAMERA_API_SET_DISPLAY_MODE, + pc->cb_info->fd, pc->cb_info, ret, INT, set_mode); + + return ret; + } + if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2823,9 +3042,10 @@ int camera_set_display_mode(camera_h camera, camera_display_mode_e mode) return __convert_camera_error_code(__func__, ret); } -int camera_get_display_mode(camera_h camera, camera_display_mode_e* mode) +int camera_get_display_mode(camera_h camera, camera_display_mode_e *mode) { int ret = CAMERA_ERROR_NONE; + int get_mode = CAMERA_DISPLAY_MODE_LETTER_BOX; camera_cli_s *pc = NULL; if (camera == NULL || mode == NULL) { @@ -2835,6 +3055,22 @@ int camera_get_display_mode(camera_h camera, camera_display_mode_e* mode) pc = (camera_cli_s *)camera; + if (pc->display_type == CAMERA_DISPLAY_TYPE_OVERLAY) { + if (pc->cb_info == NULL) { + LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); + return CAMERA_ERROR_INVALID_PARAMETER; + } + + muse_camera_msg_send(MUSE_CAMERA_API_GET_DISPLAY_MODE, + pc->cb_info->fd, pc->cb_info, ret); + + if (ret == CAMERA_ERROR_NONE) { + muse_camera_msg_get(get_mode, pc->cb_info->recv_msg); + *mode = (camera_display_mode_e)get_mode; + } + + return ret; + } if (pc->client_handle == NULL) { LOGE("client handle is NULL"); return CAMERA_ERROR_INVALID_OPERATION; @@ -2968,7 +3204,7 @@ int camera_get_facing_direction(camera_h camera, camera_facing_direction_e *faci return ret; } -int camera_set_preview_cb(camera_h camera, camera_preview_cb callback, void* user_data) +int camera_set_preview_cb(camera_h camera, camera_preview_cb callback, void *user_data) { if (camera == NULL || callback == NULL) { LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); @@ -3023,7 +3259,7 @@ int camera_unset_preview_cb(camera_h camera) return ret; } -int camera_set_media_packet_preview_cb(camera_h camera, camera_media_packet_preview_cb callback, void* user_data) +int camera_set_media_packet_preview_cb(camera_h camera, camera_media_packet_preview_cb callback, void *user_data) { if (camera == NULL) { LOGE("INVALID_PARAMETER(0x%08x) - handle", CAMERA_ERROR_INVALID_PARAMETER); @@ -3089,7 +3325,7 @@ int camera_unset_media_packet_preview_cb(camera_h camera) return ret; } -int camera_set_state_changed_cb(camera_h camera, camera_state_changed_cb callback, void* user_data) +int camera_set_state_changed_cb(camera_h camera, camera_state_changed_cb callback, void *user_data) { if (camera == NULL || callback == NULL) { LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); @@ -3196,7 +3432,7 @@ int camera_unset_interrupted_cb(camera_h camera) return ret; } -int camera_set_focus_changed_cb(camera_h camera, camera_focus_changed_cb callback, void* user_data) +int camera_set_focus_changed_cb(camera_h camera, camera_focus_changed_cb callback, void *user_data) { if (camera == NULL || callback == NULL) { LOGE("INVALID_PARAMETER(0x%08x)", CAMERA_ERROR_INVALID_PARAMETER); @@ -4230,6 +4466,7 @@ int camera_attr_set_flash_mode(camera_h camera, camera_attr_flash_mode_e mode) return ret; } + int camera_attr_get_zoom(camera_h camera, int *zoom) { if (camera == NULL || zoom == NULL) { @@ -5390,7 +5627,7 @@ bool camera_attr_is_supported_hdr_capture(camera_h camera) } -int camera_attr_set_hdr_capture_progress_cb(camera_h camera, camera_attr_hdr_progress_cb callback, void* user_data) +int camera_attr_set_hdr_capture_progress_cb(camera_h camera, camera_attr_hdr_progress_cb callback, void *user_data) { if (camera == NULL) { LOGE("INVALID_PARAMETER(0x%08x) - handle", CAMERA_ERROR_INVALID_PARAMETER); diff --git a/test/camera_test.c b/test/camera_test.c new file mode 100644 index 0000000..e04d1ee --- /dev/null +++ b/test/camera_test.c @@ -0,0 +1,1453 @@ +/* + * camera_test + * + * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved. + * + * Contact: Jeongmo Yang + * + * Licensed under the Apache License, Version 2.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.apache.org/licenses/LICENSE-2.0 + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License f(r the specific language governing permissions and + * limitations under the License. + * + */ + +/*======================================================================================= +| INCLUDE FILES | +=======================================================================================*/ +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/*----------------------------------------------------------------------- +| GLOBAL VARIABLE DEFINITIONS: | +-----------------------------------------------------------------------*/ +#define EXPORT_API __attribute__((__visibility__("default"))) + + +Evas_Object *eo; +Evas_Object *bg; +Evas_Object *rect; +GMainLoop *g_loop; +GIOChannel *stdin_channel; +camera_device_e cam_info; +GstCaps *filtercaps; +int resolution_set; +int g_current_state; +int src_w, src_h; +int isMultishot; +int camera_state; +int camera_print_state; +int multishot_num; +static GTimer *timer = NULL; + +GTimeVal previous_time; +GTimeVal current_time; +GTimeVal res; + +/*----------------------------------------------------------------------- +| GLOBAL CONSTANT DEFINITIONS: | +-----------------------------------------------------------------------*/ + + +/*----------------------------------------------------------------------- +| IMPORTED VARIABLE DECLARATIONS: | +-----------------------------------------------------------------------*/ + + +/*----------------------------------------------------------------------- +| IMPORTED FUNCTION DECLARATIONS: | +-----------------------------------------------------------------------*/ + + +/*----------------------------------------------------------------------- +| LOCAL #defines: | +-----------------------------------------------------------------------*/ +#define test_ffmux_mp4 + + +#define DISPLAY_X_0 0 /* for direct FB */ +#define DISPLAY_Y_0 0 /* for direct FB */ + +#define DISPLAY_W_320 320 /* for direct FB */ +#define DISPLAY_H_240 240 /* for direct FB */ + + +#define IMAGE_ENC_QUALITY 85 /* quality of jpeg */ +#define IMAGE_CAPTURE_COUNT_STILL 1 /* the number of still-shot */ +#define IMAGE_CAPTURE_COUNT_MULTI 3 /* default the number of multi-shot */ +#define IMAGE_CAPTURE_COUNT_INTERVAL 100 /* mili seconds */ + +#define MAX_FILE_SIZE_FOR_MMS (250 * 1024) + +#define EXT_JPEG "jpg" +#define EXT_MP4 "mp4" +#define EXT_3GP "3gp" +#define EXT_AMR "amr" +#define EXT_MKV "mkv" + +#define TARGET_FILENAME_PATH "/opt/usr/media/" +#define STILL_CAPTURE_FILE_PATH_NAME TARGET_FILENAME_PATH"StillshotCapture" +#define MULTI_CAPTURE_FILE_PATH_NAME TARGET_FILENAME_PATH"MultishotCapture" +#define IMAGE_CAPTURE_THUMBNAIL_PATH TARGET_FILENAME_PATH"thumbnail.jpg" +#define IMAGE_CAPTURE_SCREENNAIL_PATH TARGET_FILENAME_PATH"screennail.yuv" +#define IMAGE_CAPTURE_EXIF_PATH TARGET_FILENAME_PATH"exif.raw" +#define CAPTURE_FILENAME_LEN 256 +#define MAX_STILLSHOT_CAPTURE_RESOLUTION_SUPPORTED 2 + +#define DEFAULT_CAM_DEVICE MM_VIDEO_DEVICE_CAMERA1 + + +#define CHECK_MM_ERROR(expr) \ + do {\ + int ret = 0; \ + ret = expr; \ + if (ret != 0) {\ + printf("[%s:%d] error code : %x \n", __func__, __LINE__, ret); \ + return; \ + } \ + } while (0) + + +#ifndef SAFE_FREE +#define SAFE_FREE(x) \ + if (x) {\ + g_free(x);\ + x = NULL;\ + } +#endif + +#define SENSOR_WHITEBALANCE_NUM 10 +#define SENSOR_COLOR_TONE_NUM 31 +#define SENSOR_FLIP_NUM 3 +#define SENSOR_PROGRAM_MODE_NUM 15 +#define SENSOR_FOCUS_NUM 6 +#define SENSOR_INPUT_ROTATION 4 +#define SENSOR_AF_SCAN_NUM 4 +#define SENSOR_ISO_NUM 8 +#define SENSOR_EXPOSURE_NUM 9 +#define SENSOR_IMAGE_FORMAT 9 + + +/*----------------------------------------------------------------------- + | LOCAL CONSTANT DEFINITIONS: | + -----------------------------------------------------------------------*/ +enum { + MODE_VIDEO_CAPTURE, /* recording and image capture mode */ + MODE_AUDIO, /* audio recording*/ + MODE_NUM, +}; + +enum { + MENU_STATE_MAIN, + MENU_STATE_SETTING, + MENU_STATE_NUM, +}; + +/*----------------------------------------------------------------------- + | LOCAL DATA TYPE DEFINITIONS: | + -----------------------------------------------------------------------*/ +typedef struct _cam_handle { + camera_h camera; + int mode; /* image(capture)/video(recording) mode */ + int isMultishot; /* flag for multishot mode */ + int stillshot_count; /* total stillshot count */ + int multishot_count; /* total multishot count */ + const char *stillshot_filename; /* stored filename of stillshot */ + const char *multishot_filename; /* stored filename of multishot */ + int menu_state; + int isMute; + unsigned long long elapsed_time; +} cam_handle_t; + +typedef struct { + int expected_width; + int expected_height; + int ispass; +} preview_test_data; + +typedef struct { + int width[100]; + int height[100]; + int count; +} resolution_stack; + +typedef struct { + camera_attr_af_mode_e mode; + int count; +} af_stack; + +typedef struct { + int expected_mode; + int ispass; +} af_test_data; + +typedef struct { + camera_attr_exposure_mode_e mode; + int count; +} exposure_stack; + +typedef struct { + camera_attr_iso_e mode; + int count; +} iso_stack; + +typedef struct { + camera_rotation_e mode; + int count; +} camera_rotation_stack; + + +/*--------------------------------------------------------------------------- + | LOCAL VARIABLE DEFINITIONS: | + ---------------------------------------------------------------------------*/ +static cam_handle_t *hcamcorder; + +const char *wb[SENSOR_WHITEBALANCE_NUM] = { + "None", + "Auto", + "Daylight", + "Cloudy", + "Fluoroscent", + "Incandescent", + "Shade", + "Horizon", + "Flash", + "Custom", +}; + +const char *ct[SENSOR_COLOR_TONE_NUM] = { + "NONE", + "MONO", + "SEPIA", + "NEGATIVE", + "BLUE", + "GREEN", + "AQUA", + "VIOLET", + "ORANGE", + "GRAY", + "RED", + "ANTIQUE", + "WARM", + "PINK", + "YELLOW", + "PURPLE", + "EMBOSS", + "OUTLINE", + "SOLARIZATION", + "SKETCH", + "WASHED", + "VINTAGE_WARM", + "VINTAGE_COLD", + "POSTERIZATION", + "CARTOON", + "SELECTVE_COLOR_RED", + "SELECTVE_COLOR_GREEN", + "SELECTVE_COLOR_BLUE", + "SELECTVE_COLOR_YELLOW", + "SELECTVE_COLOR_RED_YELLOW", + "GRAPHICS" +}; + +const char *flip[SENSOR_FLIP_NUM] = { + "Horizontal", + "Vertical", + "Not flipped", +}; + +const char *program_mode[SENSOR_PROGRAM_MODE_NUM] = { + "NORMAL", + "PORTRAIT", + "LANDSCAPE", + "SPORTS", + "PARTY_N_INDOOR", + "BEACH_N_INDOOR", + "SUNSET", + "DUSK_N_DAWN", + "FALL_COLOR", + "NIGHT_SCENE", + "FIREWORK", + "TEXT", + "SHOW_WINDOW", + "CANDLE_LIGHT", + "BACKLIGHT", +}; + +const char *focus_mode[SENSOR_FOCUS_NUM] = { + "None", + "Pan", + "Auto", + "Manual", + "Touch Auto", + "Continuous Auto", +}; + +const char *camera_rotation[SENSOR_INPUT_ROTATION] = { + "None", + "90", + "180", + "270", +}; + +const char *iso_mode[SENSOR_ISO_NUM] = { + "ISO Auto", + "ISO 50", + "ISO 100", + "ISO 200", + "ISO 400", + "ISO 800", + "ISO 1600", + "ISO 3200", +}; + +const char *exposure_mode[SENSOR_EXPOSURE_NUM] = { + "AE off", + "AE all mode", + "AE center mode", + "AE spot 1 mode", + "AE custom mode", +}; + +const char *image_fmt[SENSOR_IMAGE_FORMAT] = { + "NV12", + "NV12T", + "NV16", + "NV21", + "YUYV", + "UYVY", + "422P", + "I420", + "YV12", +}; + +const char *face_zoom_mode[] = { + "Face Zoom OFF", + "Face Zoom ON", +}; + +const char *display_mode[] = { + "Letter Box mode", + "Original Size mode", + "Full Screen mode", + "Cropped Full Screen mode", + "ROI mode", +}; + +const char *capture_sound[] = { + "Default", + "Extra 01", + "Extra 02", +}; + +const char *rotate_mode[] = { + "0", + "90", + "180", + "270", +}; + +const char* strobe_mode[] = { + "Strobe OFF", + "Strobe ON", + "Strobe Auto", + "Strobe RedEyeReduction", + "Strobe SlowSync", + "Strobe FrontCurtain", + "Strobe RearCurtain", + "Strobe Permanent", +}; + +const char *detection_mode[2] = { + "Face Detection OFF", + "Face Detection ON", +}; + +const char *wdr_mode[] = { + "WDR OFF", + "WDR ON", + "WDR AUTO", +}; + +const char *af_scan[SENSOR_AF_SCAN_NUM] = { + "None", + "Normal", + "Macro mode", + "Full mode", +}; + +const char *hdr_mode[] = { + "HDR OFF", + "HDR ON", + "HDR ON and Original", +}; + +const char *ahs_mode[] = { + "Anti-handshake OFF", + "Anti-handshake ON", + "Anti-handshake AUTO", + "Anti-handshake MOVIE", +}; + +const char *vs_mode[] = { + "Video-stabilization OFF", + "Video-stabilization ON", +}; + +const char *visible_mode[] = { + "Display OFF", + "Display ON", +}; + +const char *facing_direction[] = { + "REAR", + "FRONT", +}; + + +/*--------------------------------------------------------------------------- + | LOCAL FUNCTION PROTOTYPES: | + ---------------------------------------------------------------------------*/ +static void print_menu(); +static gboolean cmd_input(GIOChannel *channel); +static gboolean mode_change(); +int camcordertest_set_attr_int(const char* attr_subcategory, int value); +bool preview_resolution_cb(int width, int height, void *user_data); + + +static inline void flush_stdin() +{ + int ch; + while ((ch = getchar()) != EOF && ch != '\n'); +} + +void _camera_state_changed_cb(camera_state_e previous, camera_state_e current, bool by_policy, void *user_data) +{ + printf("camera state changed %d -> %d\n", previous, current); +} + +void _camera_interrupted_cb(camera_policy_e policy, camera_state_e previous, camera_state_e current, void *user_data) +{ + printf("camera interrupted callback called %d\n", policy); +} + +bool preview_resolution_cb(int width, int height, void *user_data) +{ + resolution_stack *data = (resolution_stack *)user_data; + + if (data == NULL) { + printf("NULL data\n"); + return false; + } + + data->width[data->count] = width; + data->height[data->count] = height; + + printf("%d. %dx%d\n", data->count, width, height); + + data->count++; + + return true; +} + +bool capture_resolution_test_cb(int width, int height, void *user_data) +{ + resolution_stack *data = (resolution_stack *)user_data; + + if (data == NULL) { + printf("NULL data\n"); + return false; + } + + data->width[data->count] = width; + data->height[data->count] = height; + + printf("%d. %dx%d\n", data->count, width, height); + + data->count++; + + return true; +} + +bool af_mode_foreach_cb(camera_attr_iso_e mode, void *user_data) +{ + printf("%d.%s\n", mode, af_scan[mode]); + return true; +} + +bool exposure_mode_cb(camera_attr_af_mode_e mode, void *user_data) +{ + exposure_stack *data = (exposure_stack *)user_data; + + if (data == NULL) { + printf("NULL data\n"); + return false; + } + + data->mode = mode; + data->count++; + + printf("%d.%s\n", mode, exposure_mode[mode]); + return true; +} + +bool iso_mode_cb(camera_attr_iso_e mode, void *user_data) +{ + printf("%d.%s\n", mode, iso_mode[mode]); + return true; +} + +bool camera_rotation_cb(camera_rotation_e mode, void *user_data) +{ + camera_rotation_stack *data = (camera_rotation_stack *)user_data; + + if (data == NULL) { + printf("NULL data\n"); + return false; + } + + data->mode = mode; + data->count++; + + printf("%d.%s\n", mode, camera_rotation[mode]); + + return true; +} + +bool preview_format_cb(camera_pixel_format_e mode, void *user_data) +{ + printf("%d.%s\n", mode, image_fmt[mode]); + return true; +} + +bool white_balance_cb(camera_attr_whitebalance_e mode, void *user_data) +{ + printf("%d.%s\n", mode, wb[mode]); + return true; +} + +bool colortone_cb(camera_attr_effect_mode_e mode, void *user_data) +{ + printf("%d.%s\n", mode, ct[mode]); + return true; +} + +bool program_mode_cb(camera_attr_scene_mode_e mode, void *user_data) +{ + printf("%d.%s\n", mode, program_mode[mode]); + return true; +} + +bool strobe_mode_cb(camera_attr_flash_mode_e mode, void *user_data) +{ + printf("%d.%s\n", mode, strobe_mode[mode]); + return true; +} + +void _face_detected(camera_detected_face_s *faces, int count, void *user_data) +{ + printf("face detected!!\n"); + int i; + + for (i = 0 ; i < count ; i++) + printf("%d) - %dx%d\n", faces[i].id, faces[i].x, faces[i].y); + + return; +} + + +void cam_utils_convert_YUYV_to_UYVY(unsigned char *dst, unsigned char *src, gint length) +{ + int i = 0; + + /* memset dst */ + memset(dst, 0x00, length); + memcpy(dst, src+1, length-1); + + for (i = 0 ; i < length ; i++) { + if (!(i % 2)) + dst[i+1] = src[i]; + } + + return; +} + + +static void _file_write(char *path, void *data, int size) +{ + FILE *fp = NULL; + + if (!path || !data || size <= 0) { + printf("ERROR %p %p %d\n", path, data, size); + return; + } + + fp = fopen(path, "w"); + if (fp == NULL) { + printf("open error! [%s], errno %d\n", path, errno); + return; + } else { + printf("open success [%s]\n", path); + if (fwrite(data, size, 1, fp) != 1) + printf("write error! errno %d\n", errno); + else + printf("write success [%s]\n", path); + + fclose(fp); + fp = NULL; + } +} + +void capturing_cb(camera_image_data_s* image, camera_image_data_s* postview, camera_image_data_s* thumbnail, void *user_data) +{ + char m_filename[CAPTURE_FILENAME_LEN]; + + if (hcamcorder->isMultishot) + snprintf(m_filename, CAPTURE_FILENAME_LEN, "/opt/usr/media/Stillshot%03d.jpg", hcamcorder->multishot_count++); + else + snprintf(m_filename, CAPTURE_FILENAME_LEN, "/opt/usr/media/Multishot%03d.jpg", hcamcorder->stillshot_count++); + + /* main image */ + if (image) + _file_write(m_filename, image->data, image->size); + + return; +} + +void capture_completed_cb(void *user_data) +{ + camera_start_preview(hcamcorder->camera); + + print_menu(); + + return; +} + +static void print_menu() +{ + switch (hcamcorder->menu_state) { + case MENU_STATE_MAIN: + if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { + g_print("\n\t=======================================\n"); + if (cam_info == CAMERA_DEVICE_CAMERA1) + g_print("\t Video Capture (Front camera)\n"); + else if (cam_info == CAMERA_DEVICE_CAMERA0) + g_print("\t Video Capture (Rear camera)\n"); + g_print("\t=======================================\n"); + + g_print("\t '1' Stillshot test\n"); + g_print("\t '2' Multishot test\n"); + g_print("\t '3' Setting\n"); + g_print("\t 'b' back\n"); + g_print("\t=======================================\n"); + } + break; + case MENU_STATE_SETTING: + g_print("\n\t=======================================\n"); + g_print("\t Video Capture > Setting\n"); + g_print("\t=======================================\n"); + g_print("\t >>>>>>>>>>>>>>>>>>>>>>>>>>>> [Camera] \n"); + g_print("\t '0' Preview resolution \n"); + g_print("\t '1' Capture resolution \n"); + g_print("\t '2' Digital zoom level \n"); + g_print("\t '3' AF mode \n"); + g_print("\t '4' AF scan range \n"); + g_print("\t '5' Exposure mode \n"); + g_print("\t '6' Exposure value \n"); + g_print("\t '7' F number \n"); + g_print("\t 'i' ISO \n"); + g_print("\t 'r' Rotate camera input \n"); + g_print("\t 'f' Flip camera input \n"); + g_print("\t 'j' Jpeg quality \n"); + g_print("\t 'p' Picture format \n"); + g_print("\t 'E' EXIF orientation \n"); + g_print("\t 'F' Get facing direction of camera module\n"); + g_print("\t >>>>>>>>>>>>>>>>>>>> [Display/Filter]\n"); + g_print("\t 'v' Visible \n"); + g_print("\t 'o' Output mode \n"); + g_print("\t 'y' Rotate display \n"); + g_print("\t 'Y' Flip display \n"); + g_print("\t 'g' Brightness \n"); + g_print("\t 'c' Contrast \n"); + g_print("\t 'w' White balance \n"); + g_print("\t 't' Color tone \n"); + g_print("\t 'd' WDR \n"); + g_print("\t 'e' EV program mode \n"); + g_print("\t >>>>>>>>>>>>>>>>>>>>>>>>>>>>>> [etc.]\n"); + g_print("\t 'z' Strobe (Flash) \n"); + g_print("\t 'S' Strobe (Flash) state\n"); + g_print("\t 'x' Capture mode (Still/Multishot/HDR)\n"); + g_print("\t 'l' Face detection \n"); + g_print("\t 'k' Anti-handshake \n"); + g_print("\t 'K' Video-stabilization \n"); + g_print("\t 'u' Touch AF area \n"); + g_print("\t 'b' back\n"); + g_print("\t=======================================\n"); + break; + default: + LOGE("unknow menu state !!\n"); + break; + } + + return; +} + + +static void main_menu(gchar buf) +{ + int err = 0; + camera_state_e capi_state; + if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { + switch (buf) { + case '1': /* Capture */ + camera_get_state(hcamcorder->camera, &capi_state); + camera_attr_set_image_quality(hcamcorder->camera, 100); + camera_set_capture_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_JPEG); + camera_start_capture(hcamcorder->camera, capturing_cb, capture_completed_cb, hcamcorder); + break; + case '2': /* multishot Capture */ + g_print("multishot capture"); + hcamcorder->isMultishot = TRUE; + int interval = 0, count = 0; + flush_stdin(); + printf("\ninput interval(ms)\n"); + err = scanf("%d", &interval); + flush_stdin(); + printf("\ninput count(ms) \n"); + err = scanf("%d", &count); + camera_attr_set_image_quality(hcamcorder->camera, 100); + camera_set_capture_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_JPEG); + camera_start_continuous_capture(hcamcorder->camera, count, interval, capturing_cb, NULL, NULL); + sleep(3); + camera_start_preview(hcamcorder->camera); + break; + case '3': /* Setting */ + hcamcorder->menu_state = MENU_STATE_SETTING; + break; + case 'b': /* back */ + camera_stop_preview(hcamcorder->camera); + camera_destroy(hcamcorder->camera); + hcamcorder->camera = NULL; + hcamcorder->menu_state = MENU_STATE_MAIN; + mode_change(); + break; + default: + g_print("\t Invalid input \n"); + break; + } + } else { + g_print("\t Invalid mode, back to upper menu \n"); + hcamcorder->menu_state = MENU_STATE_MAIN; + mode_change(); + } + + return; +} + + +static void setting_menu(gchar buf) +{ + gboolean bret = FALSE; + int idx = 0; + int min = 0; + int max = 0; + int i = 0; + int value = 0; + int err = 0; + int x = 0, y = 0, width = 0, height = 0; + + if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { + switch (buf) { + /* Camera setting */ + case '0': /* Setting > Preview Resolution setting */ + g_print("*Select the preview resolution!\n"); + resolution_stack resolution_list; + resolution_list.count = 0; + camera_foreach_supported_preview_resolution(hcamcorder->camera, preview_resolution_cb, &resolution_list); + flush_stdin(); + err = scanf("%d", &idx); + int result = 0; + preview_test_data data; + data.ispass = false; + if (resolution_list.count > idx && idx >= 0) { + data.expected_width = resolution_list.width[idx]; + data.expected_height = resolution_list.height[idx]; + printf("-----------------PREVIEW RESOLUTION (%dx%d)---------------------\n", data.expected_width, data.expected_height); + result = camera_set_preview_resolution(hcamcorder->camera, data.expected_width, data.expected_height); + } else { + printf("invalid input %d\n", idx); + result = -1; + } + resolution_list.count = 0; + if (result != 0) + printf("FAIL\n"); + else + printf("PASS\n"); + break; + case '1': /* Setting > Capture Resolution setting */ + g_print("*Select the preview resolution!\n"); + printf("-----------------CAPTURE RESOLUTION TEST: ---------------------\n"); + resolution_list.count = 0; + camera_foreach_supported_capture_resolution(hcamcorder->camera, capture_resolution_test_cb, &resolution_list); + flush_stdin(); + err = scanf("%d", &idx); + data.ispass = false; + if (resolution_list.count > idx && idx >= 0) { + data.expected_width = resolution_list.width[idx]; + data.expected_height = resolution_list.height[idx]; + + result = camera_set_capture_resolution(hcamcorder->camera, data.expected_width, data.expected_height); + printf("camera_set_capture_resolution with width =%d, height=%d ret=0x%x\n", data.expected_width, data.expected_height, result); + } else { + printf("invalid input %d\n", idx); + result = -1; + } + resolution_list.count = 0; + if (result != 0) + printf("FAIL\n"); + else + printf("PASS\n"); + + break; + case '2': /* Setting > Digital zoom level */ + g_print("*Digital zoom level !\n"); + camera_attr_get_zoom_range(hcamcorder->camera, &min, &max); + if (min >= max) + g_print("Not supported !! \n"); + else { + flush_stdin(); + g_print("\n Select Digital zoom level min %d - max %d\n", min, max); + err = scanf("%d", &idx); + bret = camera_attr_set_zoom(hcamcorder->camera, idx); + } + break; + case '3': /* Setting > AF mode */ + g_print("*AF mode !\n"); + g_print("\t1. AF Start !\n"); + g_print("\t2. AF Stop !\n\n"); + flush_stdin(); + err = scanf("%d", &idx); + switch (idx) { + case 1: + camera_start_focusing(hcamcorder->camera, 0); + break; + case 2: + camera_cancel_focusing(hcamcorder->camera); + break; + default: + g_print("Wrong Input[%d] !! \n", idx); + break; + } + break; + case '4': /* Setting > AF scan range */ + g_print("*AF scan range !\n"); + af_stack af_mode_list; + af_mode_list.count = 0; + camera_attr_foreach_supported_af_mode(hcamcorder->camera, (camera_attr_supported_af_mode_cb)af_mode_foreach_cb, NULL); + af_test_data data1; + data1.ispass = false; + data1.expected_mode = af_mode_list.mode; + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_attr_set_af_mode(hcamcorder->camera, idx); + break; + case '5': /* Setting > Exposure mode */ + g_print("* Exposure mode!\n"); + camera_attr_foreach_supported_exposure_mode(hcamcorder->camera, (camera_attr_supported_exposure_mode_cb)exposure_mode_cb, NULL); + flush_stdin(); + g_print("\n Select Exposure mode \n"); + err = scanf("%d", &idx); + bret = camera_attr_set_exposure_mode(hcamcorder->camera, idx); + break; + + case '6': /* Setting > Exposure value */ + camera_attr_get_exposure_range(hcamcorder->camera, &min, &max); + if (min >= max) + g_print("Not supported !! \n"); + else { + flush_stdin(); + g_print("\n Select Exposure mode min%d -max %d\n", min, max); + err = scanf("%d", &idx); + bret = camera_attr_set_exposure(hcamcorder->camera, idx); + } + break; + case '7': /* Setting > F number */ + g_print("Not supported !! \n"); + break; + case 'i': /* Setting > ISO */ + g_print("*ISO !\n"); + camera_attr_foreach_supported_iso(hcamcorder->camera, iso_mode_cb, NULL); + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_attr_set_iso(hcamcorder->camera, idx); + break; + case 'r': /* Setting > Rotate camera input when recording */ + g_print("*Rotate camera input\n"); + camera_attr_foreach_supported_stream_rotation(hcamcorder->camera, camera_rotation_cb, NULL); + flush_stdin(); + err = scanf("%d", &idx); + CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); + bret = camera_attr_set_stream_rotation(hcamcorder->camera, idx); + CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); + break; + case 'f': /* Setting > Flip camera input */ + flush_stdin(); + g_print("*Flip camera input\n"); + g_print(" 0. Flip NONE\n"); + g_print(" 1. Flip HORIZONTAL\n"); + g_print(" 2. Flip VERTICAL\n"); + g_print(" 3. Flip BOTH\n"); + err = scanf("%d", &idx); + CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); + camera_attr_set_stream_flip(hcamcorder->camera, idx); + CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); + break; + case 'j': /* Setting > Jpeg quality */ + g_print("*Jpeg quality !\n"); + flush_stdin(); + g_print("\n Select Jpeg quality \n"); + err = scanf("%d", &idx); + bret = camera_attr_set_image_quality(hcamcorder->camera, idx); + break; + case 'p': /* Setting > Picture format */ + g_print("* Picture format!\n"); + camera_foreach_supported_preview_format(hcamcorder->camera, preview_format_cb, NULL); + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_set_preview_format(hcamcorder->camera, idx); + CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); + CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); + break; + case 'E': /* Setting > EXIF orientation */ + g_print("* EXIF Orientation\n"); + g_print("\t 1. TOP_LEFT\n"); + g_print("\t 2. TOP_RIGHT(flipped)\n"); + g_print("\t 3. BOTTOM_RIGHT\n"); + g_print("\t 4. BOTTOM_LEFT(flipped)\n"); + g_print("\t 5. LEFT_TOP(flipped)\n"); + g_print("\t 6. RIGHT_TOP\n"); + g_print("\t 7. RIGHT_BOTTOM(flipped)\n"); + g_print("\t 8. LEFT_BOTTOM\n"); + flush_stdin(); + err = scanf("%d", &idx); + if (idx < 1 || idx > 8) + g_print("Wrong INPUT[%d]!! \n", idx); + else + camera_attr_set_tag_orientation(hcamcorder->camera, idx); + break; + case 'F': /* Getting > Get Facing direction */ + g_print("* Get facing direction of camera module\n"); + err = camera_get_facing_direction(hcamcorder->camera, (camera_facing_direction_e *)&idx); + if (CAMERA_ERROR_NONE == err) + g_print("* Facing direction : %s(%d)\n", facing_direction[idx], idx); + else + g_print("* Error : %d\n", err); + break; + /* Display / Filter setting */ + case 'v': /* Display visible */ + g_print("* Display visible setting !\n"); + g_print("\n Select Display visible \n"); + flush_stdin(); + for (i = 0 ; i < 2 ; i++) + g_print("\t %d. %s\n", i+1, visible_mode[i]); + err = scanf("%d", &value); + bret = camera_set_display_visible(hcamcorder->camera, idx-1); + break; + case 'o': /* Setting > Display Mode */ + g_print("* Display mode!\n"); + flush_stdin(); + for (i = 0 ; i < 5 ; i++) + g_print("%d. %s\n", i, display_mode[i]); + err = scanf("%d", &idx); + bret = camera_set_display_mode(hcamcorder->camera, idx); + break; + case 'y': /* Setting > Rotate Display */ + flush_stdin(); + g_print("\n Select Rotate mode\n"); + g_print("\t0. 0\n\t1. 90\n\t2. 180\n\t3. 270\n\n"); + err = scanf("%d", &idx); + CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); + bret = camera_set_display_rotation(hcamcorder->camera, idx); + CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); + break; + case 'Y': /* Setting > Flip Display */ + flush_stdin(); + g_print("\n Select Rotate mode\n"); + g_print("\t0. NONE\n\t1. HORIZONTAL\n\t2. VERTICAL\n\t3. BOTH\n\n"); + err = scanf("%d", &idx); + bret = camera_set_display_flip(hcamcorder->camera, idx); + break; + case 'g': /* Setting > Brightness */ + g_print("*Brightness !\n"); + camera_attr_get_brightness_range(hcamcorder->camera, &min, &max); + flush_stdin(); + g_print("\n Select brightness min (%d) -max(%d)", min, max); + err = scanf("%d", &idx); + bret = camera_attr_set_brightness(hcamcorder->camera, idx); + break; + case 'c': /* Setting > Contrast */ + g_print("*Contrast !\n"); + camera_attr_get_contrast_range(hcamcorder->camera, &min, &max); + flush_stdin(); + g_print("\n Select Contrast min(%d)-max(%d)", min, max); + err = scanf("%d", &idx); + bret = camera_attr_set_contrast(hcamcorder->camera, idx); + break; + case 'w': /* Setting > White balance */ + g_print("*White balance !\n"); + flush_stdin(); + g_print("\n Select White balance \n"); + camera_attr_foreach_supported_whitebalance(hcamcorder->camera, white_balance_cb, NULL); + err = scanf("%d", &idx); + bret = camera_attr_set_whitebalance(hcamcorder->camera, idx); + break; + case 't': /* Setting > Color tone */ + g_print("*Color tone !\n"); + camera_attr_foreach_supported_effect(hcamcorder->camera, colortone_cb, NULL); + g_print("\n Select Color tone \n"); + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_attr_set_effect(hcamcorder->camera, idx); + break; + case 'd': /* Setting > WDR */ + g_print("*WDR !\n"); + g_print("\n Select WDR Mode \n"); + flush_stdin(); + for (i = 0 ; i < 2 ; i++) + g_print("\t %d. %s\n", i+1, wdr_mode[i]); + err = scanf("%d", &idx); + if (idx == 1) + bret = camera_attr_enable_auto_contrast(hcamcorder->camera, 0); + else if (idx == 2) + bret = camera_attr_enable_auto_contrast(hcamcorder->camera, 1); + break; + case 'e': /* Setting > EV program mode */ + g_print("* EV program mode!\n"); + camera_attr_foreach_supported_scene_mode(hcamcorder->camera, program_mode_cb, NULL); + g_print("\n Select EV program mode \n"); + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_attr_set_scene_mode(hcamcorder->camera, idx); + break; + + /* ext. setting */ + case 'z': /* Setting > Strobe setting */ + g_print("*Strobe Mode\n"); + camera_attr_foreach_supported_flash_mode(hcamcorder->camera, strobe_mode_cb, NULL); + g_print("\n Select Strobe Mode \n"); + flush_stdin(); + err = scanf("%d", &idx); + bret = camera_attr_set_flash_mode(hcamcorder->camera, idx); + break; + case 'S' : // Setting > flash state + g_print("*flash state\n"); + err = camera_get_flash_state(cam_info, &idx); + if (CAMERA_ERROR_NONE == err) + g_print("Current flash state = %s\n", idx?"ON":"OFF"); + else + g_print("* Error : %d\n", err); + break; + case 'x': /* Setting > Capture mode ,Muitishot? */ + g_print("*Select Capture mode!\n"); + flush_stdin(); + g_print(" \n\t1. Stillshot mode\n\t2. Multishot mode\n\t3. HDR capture\n"); + err = scanf("%d", &idx); + + switch (idx) { + case 1: + g_print("stillshot mode selected and capture callback is set!!!!\n"); + hcamcorder->isMultishot = FALSE; + camera_attr_set_hdr_mode(hcamcorder->camera, 0); + break; + case 2: + g_print("HDR Capture mode selected\n"); + hcamcorder->isMultishot = FALSE; + g_print("\nSelect HDR capture mode\n"); + flush_stdin(); + for (i = 0 ; i < 3 ; i++) + g_print("\t %d. %s\n", i+1, hdr_mode[i]); + err = scanf("%d", &idx); + bret = camera_attr_set_hdr_mode(hcamcorder->camera, idx-1); + break; + default: + g_print("Wrong input, select again!!\n"); + break; + } + break; + case 'l': /* Setting > Face detection setting */ + g_print("* Face detect mode !\n"); + flush_stdin(); + for (i = 0 ; i < 2 ; i++) + g_print("\t %d. %s \n", i+1, detection_mode[i]); + err = scanf("%d", &idx); + if (camera_is_supported_face_detection(hcamcorder->camera)) { + if (idx >= 0 && idx < 2) + bret = camera_start_face_detection(hcamcorder->camera, _face_detected, NULL); + } else + g_print("face detection_not supported"); + break; + case 'k': /* Setting > Anti-handshake */ + g_print("*Anti-handshake !\n"); + g_print("\n Select Anti-handshake mode \n"); + flush_stdin(); + for (i = 0; i < 2; i++) + g_print("\t %d. %s\n", i+1, ahs_mode[i]); + err = scanf("%d", &idx); + bret = camera_attr_enable_anti_shake(hcamcorder->camera, idx-1); + break; + case 'K': /* Setting > Video-stabilization */ + g_print("*Video-stabilization !\n"); + g_print("\n Select Video-stabilization mode \n"); + flush_stdin(); + for (i = 0 ; i < 2 ; i++) + g_print("\t %d. %s\n", i+1, vs_mode[i]); + err = scanf("%d", &idx); + if (idx == 1) { + g_print("\n Restart preview with NV12 and 720p resolution\n"); + err = camera_stop_preview(hcamcorder->camera); + camera_set_preview_resolution(hcamcorder->camera, 1280, 720); + camera_set_preview_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_NV12); + camera_attr_enable_video_stabilization(hcamcorder->camera, idx-1); + if (err == 0) { + err = camera_start_preview(hcamcorder->camera); + if (err != 0) + g_print("\n Restart FAILED! %x\n", err); + } + } + break; + case 'u': /* Touch AF area */ + g_print("* Touch AF area !\n"); + flush_stdin(); + g_print("\n Input x,y,width,height \n"); + err = scanf("%d,%d,%d,%d", &x, &y, &width, &height); + err = camera_attr_set_af_area(hcamcorder->camera, width, height); + if (err != 0) + g_print("Failed to set touch AF area.(%x)\n", err); + else + g_print("Succeed to set touch AF area.\n"); + break; + case 'b': /* back */ + hcamcorder->menu_state = MENU_STATE_MAIN; + break; + default: + g_print("\t Invalid input \n"); + break; + } + } else { + g_print("\t Invalid mode, back to upper menu \n"); + hcamcorder->menu_state = MENU_STATE_MAIN; + } + + g_print("\t bret : 0x%x \n", bret); + + return; +} + + +/** + * This function is to execute command. + * + * @param channel [in] 1st parameter + * + * @return This function returns TRUE/FALSE + * @remark + * @see + */ +static gboolean cmd_input(GIOChannel *channel) +{ + gchar *buf = NULL; + gsize read_size; + GError *g_error = NULL; + + LOGD("ENTER"); + + g_io_channel_read_line(channel, &buf, &read_size, NULL, &g_error); + if (g_error) { + LOGD("g_io_channel_read_chars error"); + g_error_free(g_error); + g_error = NULL; + } + + if (buf) { + g_strstrip(buf); + + LOGD("Menu Status : %d", hcamcorder->menu_state); + switch (hcamcorder->menu_state) { + case MENU_STATE_MAIN: + main_menu(buf[0]); + break; + case MENU_STATE_SETTING: + setting_menu(buf[0]); + break; + default: + break; + } + + g_free(buf); + buf = NULL; + + print_menu(); + } else { + LOGD("No read input"); + } + + return TRUE; +} + +static gboolean init_handle() +{ + hcamcorder->mode = MODE_VIDEO_CAPTURE; /* image(capture)/video(recording) mode */ + hcamcorder->isMultishot = FALSE; + hcamcorder->stillshot_count = 0; /* total stillshot count */ + hcamcorder->multishot_count = 0; /* total multishot count */ + hcamcorder->stillshot_filename = STILL_CAPTURE_FILE_PATH_NAME; /* stored filename of stillshot */ + hcamcorder->multishot_filename = MULTI_CAPTURE_FILE_PATH_NAME; /* stored filename of multishot */ + hcamcorder->menu_state = MENU_STATE_MAIN; + hcamcorder->isMute = FALSE; + hcamcorder->elapsed_time = 0; + multishot_num = IMAGE_CAPTURE_COUNT_MULTI; + + return TRUE; +} + +void _preview_cb(camera_preview_data_s *frame, void *user_data) +{ +#if 0 + FILE *fp = fopen("/opt/usr/media/test.yuv", "a"); + if (fp == NULL) { + g_print("\n============ file open failed ===========================\n"); + return; + } + + switch (frame->num_of_planes) { + case 1: + fwrite(frame->data.single_plane.yuv, 1, frame->data.single_plane.size, fp); + case 2: + fwrite(frame->data.double_plane.y, 1, frame->data.double_plane.y_size, fp); + fwrite(frame->data.double_plane.uv, 1, frame->data.double_plane.uv_size, fp); + case 3: + fwrite(frame->data.triple_plane.y, 1, frame->data.triple_plane.y_size, fp); + fwrite(frame->data.triple_plane.u, 1, frame->data.triple_plane.u_size, fp); + fwrite(frame->data.triple_plane.v, 1, frame->data.triple_plane.v_size, fp); + default: + break; + } + + g_print("file write done ---\n"); + + fclose(fp); + fp = NULL; +#else + g_print("----- preview callback - format %d, %dx%d, num plane %d\n", + frame->format, frame->width, frame->height, frame->num_of_planes); +#endif + + return; +} + +/** + * This function is to change camcorder mode. + * + * @param type [in] image(capture)/video(recording) mode + * + * @return This function returns TRUE/FALSE + * @remark + * @see other functions + */ +static gboolean mode_change() +{ + int err = 0; + char media_type = '\0'; + bool check = FALSE; + + init_handle(); + while (!check) { + g_print("\n\t=======================================\n"); + g_print("\t CAMERA_TESTSUITE\n"); + g_print("\t=======================================\n"); + g_print("\t '1' Video Capture - Front Camera\n"); + g_print("\t '2' Video Capture - Rear Camera\n"); + g_print("\t 'q' Exit\n"); + g_print("\t=======================================\n"); + + g_print("\t Enter the media type:\n\t"); + + err = scanf("%c", &media_type); + if (err == EOF) { + g_print("\t!!!read input error!!!\n"); + continue; + } + + switch (media_type) { + case '1': + hcamcorder->mode = MODE_VIDEO_CAPTURE; + cam_info = CAMERA_DEVICE_CAMERA1; + check = TRUE; + break; + case '2': + hcamcorder->mode = MODE_VIDEO_CAPTURE; + cam_info = CAMERA_DEVICE_CAMERA0; + check = TRUE; + break; + case 'q': + g_print("\t Quit Camcorder Testsuite!!\n"); + hcamcorder->mode = -1; + if (g_main_loop_is_running(g_loop)) + g_main_loop_quit(g_loop); + + return FALSE; + default: + g_print("\t Invalid media type(%d)\n", media_type); + continue; + } + } + + LOGD("camcorder_create"); + g_get_current_time(&previous_time); + g_timer_reset(timer); + + err = camera_create(cam_info, &hcamcorder->camera); + LOGD("camera_create() : %12.6lfs", g_timer_elapsed(timer, NULL)); + + if (err != 0) { + LOGE("mmcamcorder_create = %x", err); + return -1; + } else { + camera_state = CAMERA_STATE_NONE; + } + camera_print_state = CAMERA_STATE_CREATED; + + camera_set_state_changed_cb(hcamcorder->camera, _camera_state_changed_cb, NULL); + camera_set_interrupted_cb(hcamcorder->camera, _camera_interrupted_cb, NULL); + camera_set_display(hcamcorder->camera, CAMERA_DISPLAY_TYPE_OVERLAY, GET_DISPLAY(eo)); + camera_set_display_mode(hcamcorder->camera, CAMERA_DISPLAY_MODE_LETTER_BOX); + /*camera_set_display_rotation(hcamcorder->camera, CAMERA_ROTATION_90);*/ + /*camera_set_display_flip(hcamcorder->camera, CAMERA_FLIP_VERTICAL);*/ + + /*camera_set_preview_cb(hcamcorder->camera, _preview_cb, hcamcorder->camera);*/ + + camera_start_preview(hcamcorder->camera); + g_get_current_time(¤t_time); + timersub(¤t_time, &previous_time, &res); + LOGD("Camera Starting Time : %ld.%lds", res.tv_sec, res.tv_usec); + camera_print_state = CAMERA_STATE_PREVIEW; + + return TRUE; +} + + +/** + * This function is the example main function for mmcamcorder API. + * + * @param + * + * @return This function returns 0. + * @remark + * @see other functions + */ +int main(int argc, char **argv) +{ + + int bret; + int w, h; + elm_init(argc, argv); + + eo = elm_win_add(NULL, "VIDEO OVERLAY", ELM_WIN_BASIC); + if (eo) { + elm_win_title_set(eo, "TITLE"); + elm_win_borderless_set(eo, EINA_TRUE); + elm_win_screen_size_get(eo, NULL, NULL, &w, &h); + evas_object_resize(eo, w, h); + elm_win_autodel_set(eo, EINA_TRUE); +#ifdef HAVE_WAYLAND + elm_win_alpha_set(eo, EINA_TRUE); +#endif /* HAVE_WAYLAND */ + } else { + g_print("\n\tfailed to get window\n\n"); + return 1; + } + + bg = elm_bg_add(eo); + if (bg) { + elm_win_resize_object_add(eo, bg); + evas_object_size_hint_weight_set(bg, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); + evas_object_show(bg); + } else { + g_print("\n\tfailed to get elm bg\n\n"); + return 1; + } + + rect = evas_object_rectangle_add(evas_object_evas_get(eo)); + if (rect) { + evas_object_color_set(rect, 0, 0, 0, 0); + evas_object_render_op_set(rect, EVAS_RENDER_COPY); + } else { + g_print("\n\tfailed to get rectangle\n\n"); + return 1; + } + + elm_win_resize_object_add(eo, rect); + evas_object_size_hint_weight_set(rect, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); + evas_object_show(rect); + elm_win_activate(eo); + evas_object_show(eo); + +#if !GLIB_CHECK_VERSION(2, 35, 0) + if (!g_thread_supported()) + g_thread_init(NULL); +#endif + + timer = g_timer_new(); + + gst_init(&argc, &argv); + + LOGD("gst_init() : %12.6lfs", g_timer_elapsed(timer, NULL)); + + hcamcorder = (cam_handle_t *) g_malloc0(sizeof(cam_handle_t)); + camera_state = CAMERA_STATE_NONE; + + g_timer_reset(timer); + + bret = mode_change(); + if (!bret) + return bret; + + print_menu(); + + g_loop = g_main_loop_new(NULL, FALSE); + + stdin_channel = g_io_channel_unix_new(fileno(stdin));/* read from stdin */ + g_io_add_watch(stdin_channel, G_IO_IN, (GIOFunc)cmd_input, NULL); + + LOGD("RUN main loop"); + + g_main_loop_run(g_loop); + + LOGD("STOP main loop"); + + if (timer) { + g_timer_stop(timer); + g_timer_destroy(timer); + timer = NULL; + } + g_free(hcamcorder); + g_main_loop_unref(g_loop); + g_io_channel_unref(stdin_channel); + + return bret; +} + +/*EOF*/ diff --git a/test/multimedia_camera_test.c b/test/multimedia_camera_test.c deleted file mode 100644 index b14a1b1..0000000 --- a/test/multimedia_camera_test.c +++ /dev/null @@ -1,1452 +0,0 @@ -/* - * camera_testsuite - * - * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd. All rights reserved. - * - * Contact: Jeongmo Yang - * - * Licensed under the Apache License, Version 2.0 (the "License"); - * you may not use this file except in compliance with the License. - * You may obtain a copy of the License at - * - * http://www.apache.org/licenses/LICENSE-2.0 - * - * Unless required by applicable law or agreed to in writing, software - * distributed under the License is distributed on an "AS IS" BASIS, - * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. - * See the License f(r the specific language governing permissions and - * limitations under the License. - * - */ - -/*======================================================================================= -| INCLUDE FILES | -=======================================================================================*/ -#include -#include -#include -#include -#include -#include -#include -#include -#include - -/*----------------------------------------------------------------------- -| GLOBAL VARIABLE DEFINITIONS: | ------------------------------------------------------------------------*/ -#define EXPORT_API __attribute__((__visibility__("default"))) - -#define PACKAGE "camera_testsuite" - -Evas_Object *eo; -Evas_Object *bg; -Evas_Object *rect; -GMainLoop *g_loop; -GIOChannel *stdin_channel; -camera_device_e cam_info; -GstCaps *filtercaps; -int resolution_set; -int g_current_state; -int src_w, src_h; -int isMultishot; -int camera_state; -int camera_print_state; -int multishot_num; -static GTimer *timer = NULL; - -GTimeVal previous_time; -GTimeVal current_time; -GTimeVal res; - -/*----------------------------------------------------------------------- -| GLOBAL CONSTANT DEFINITIONS: | ------------------------------------------------------------------------*/ - - -/*----------------------------------------------------------------------- -| IMPORTED VARIABLE DECLARATIONS: | ------------------------------------------------------------------------*/ - - -/*----------------------------------------------------------------------- -| IMPORTED FUNCTION DECLARATIONS: | ------------------------------------------------------------------------*/ - - -/*----------------------------------------------------------------------- -| LOCAL #defines: | ------------------------------------------------------------------------*/ -#define test_ffmux_mp4 - - -#define DISPLAY_X_0 0 /* for direct FB */ -#define DISPLAY_Y_0 0 /* for direct FB */ - -#define DISPLAY_W_320 320 /* for direct FB */ -#define DISPLAY_H_240 240 /* for direct FB */ - - -#define IMAGE_ENC_QUALITY 85 /* quality of jpeg */ -#define IMAGE_CAPTURE_COUNT_STILL 1 /* the number of still-shot */ -#define IMAGE_CAPTURE_COUNT_MULTI 3 /* default the number of multi-shot */ -#define IMAGE_CAPTURE_COUNT_INTERVAL 100 /* mili seconds */ - -#define MAX_FILE_SIZE_FOR_MMS (250 * 1024) - -#define EXT_JPEG "jpg" -#define EXT_MP4 "mp4" -#define EXT_3GP "3gp" -#define EXT_AMR "amr" -#define EXT_MKV "mkv" - -#define TARGET_FILENAME_PATH "/opt/usr/media/" -#define STILL_CAPTURE_FILE_PATH_NAME TARGET_FILENAME_PATH"StillshotCapture" -#define MULTI_CAPTURE_FILE_PATH_NAME TARGET_FILENAME_PATH"MultishotCapture" -#define IMAGE_CAPTURE_THUMBNAIL_PATH TARGET_FILENAME_PATH"thumbnail.jpg" -#define IMAGE_CAPTURE_SCREENNAIL_PATH TARGET_FILENAME_PATH"screennail.yuv" -#define IMAGE_CAPTURE_EXIF_PATH TARGET_FILENAME_PATH"exif.raw" -#define CAPTURE_FILENAME_LEN 256 -#define MAX_STILLSHOT_CAPTURE_RESOLUTION_SUPPORTED 2 - -#define DEFAULT_CAM_DEVICE MM_VIDEO_DEVICE_CAMERA1 - - -#define CHECK_MM_ERROR(expr) \ - do {\ - int ret = 0; \ - ret = expr; \ - if (ret != 0) {\ - printf("[%s:%d] error code : %x \n", __func__, __LINE__, ret); \ - return; \ - } \ - } while (0) - - -#ifndef SAFE_FREE -#define SAFE_FREE(x) \ - if (x) {\ - g_free(x);\ - x = NULL;\ - } -#endif - -#define SENSOR_WHITEBALANCE_NUM 10 -#define SENSOR_COLOR_TONE_NUM 31 -#define SENSOR_FLIP_NUM 3 -#define SENSOR_PROGRAM_MODE_NUM 15 -#define SENSOR_FOCUS_NUM 6 -#define SENSOR_INPUT_ROTATION 4 -#define SENSOR_AF_SCAN_NUM 4 -#define SENSOR_ISO_NUM 8 -#define SENSOR_EXPOSURE_NUM 9 -#define SENSOR_IMAGE_FORMAT 9 - - -/*----------------------------------------------------------------------- - | LOCAL CONSTANT DEFINITIONS: | - -----------------------------------------------------------------------*/ -enum { - MODE_VIDEO_CAPTURE, /* recording and image capture mode */ - MODE_AUDIO, /* audio recording*/ - MODE_NUM, -}; - -enum { - MENU_STATE_MAIN, - MENU_STATE_SETTING, - MENU_STATE_NUM, -}; - -/*----------------------------------------------------------------------- - | LOCAL DATA TYPE DEFINITIONS: | - -----------------------------------------------------------------------*/ -typedef struct _cam_handle { - camera_h camera; - int mode; /* image(capture)/video(recording) mode */ - int isMultishot; /* flag for multishot mode */ - int stillshot_count; /* total stillshot count */ - int multishot_count; /* total multishot count */ - const char *stillshot_filename; /* stored filename of stillshot */ - const char *multishot_filename; /* stored filename of multishot */ - int menu_state; - int isMute; - unsigned long long elapsed_time; -} cam_handle_t; - -typedef struct { - int expected_width; - int expected_height; - int ispass; -} preview_test_data; - -typedef struct { - int width[100]; - int height[100]; - int count; -} resolution_stack; - -typedef struct { - camera_attr_af_mode_e mode; - int count; -} af_stack; - -typedef struct { - int expected_mode; - int ispass; -} af_test_data; - -typedef struct { - camera_attr_exposure_mode_e mode; - int count; -} exposure_stack; - -typedef struct { - camera_attr_iso_e mode; - int count; -} iso_stack; - -typedef struct { - camera_rotation_e mode; - int count; -} camera_rotation_stack; - - -/*--------------------------------------------------------------------------- - | LOCAL VARIABLE DEFINITIONS: | - ---------------------------------------------------------------------------*/ -static cam_handle_t *hcamcorder; - -const char *wb[SENSOR_WHITEBALANCE_NUM] = { - "None", - "Auto", - "Daylight", - "Cloudy", - "Fluoroscent", - "Incandescent", - "Shade", - "Horizon", - "Flash", - "Custom", -}; - -const char *ct[SENSOR_COLOR_TONE_NUM] = { - "NONE", - "MONO", - "SEPIA", - "NEGATIVE", - "BLUE", - "GREEN", - "AQUA", - "VIOLET", - "ORANGE", - "GRAY", - "RED", - "ANTIQUE", - "WARM", - "PINK", - "YELLOW", - "PURPLE", - "EMBOSS", - "OUTLINE", - "SOLARIZATION", - "SKETCH", - "WASHED", - "VINTAGE_WARM", - "VINTAGE_COLD", - "POSTERIZATION", - "CARTOON", - "SELECTVE_COLOR_RED", - "SELECTVE_COLOR_GREEN", - "SELECTVE_COLOR_BLUE", - "SELECTVE_COLOR_YELLOW", - "SELECTVE_COLOR_RED_YELLOW", - "GRAPHICS" -}; - -const char *flip[SENSOR_FLIP_NUM] = { - "Horizontal", - "Vertical", - "Not flipped", -}; - -const char *program_mode[SENSOR_PROGRAM_MODE_NUM] = { - "NORMAL", - "PORTRAIT", - "LANDSCAPE", - "SPORTS", - "PARTY_N_INDOOR", - "BEACH_N_INDOOR", - "SUNSET", - "DUSK_N_DAWN", - "FALL_COLOR", - "NIGHT_SCENE", - "FIREWORK", - "TEXT", - "SHOW_WINDOW", - "CANDLE_LIGHT", - "BACKLIGHT", -}; - -const char *focus_mode[SENSOR_FOCUS_NUM] = { - "None", - "Pan", - "Auto", - "Manual", - "Touch Auto", - "Continuous Auto", -}; - -const char *camera_rotation[SENSOR_INPUT_ROTATION] = { - "None", - "90", - "180", - "270", -}; - -const char *iso_mode[SENSOR_ISO_NUM] = { - "ISO Auto", - "ISO 50", - "ISO 100", - "ISO 200", - "ISO 400", - "ISO 800", - "ISO 1600", - "ISO 3200", -}; - -const char *exposure_mode[SENSOR_EXPOSURE_NUM] = { - "AE off", - "AE all mode", - "AE center mode", - "AE spot 1 mode", - "AE custom mode", -}; - -const char *image_fmt[SENSOR_IMAGE_FORMAT] = { - "NV12", - "NV12T", - "NV16", - "NV21", - "YUYV", - "UYVY", - "422P", - "I420", - "YV12", -}; - -const char *face_zoom_mode[] = { - "Face Zoom OFF", - "Face Zoom ON", -}; - -const char *display_mode[] = { - "Letter Box mode", - "Original Size mode", - "Full Screen mode", - "Cropped Full Screen mode", - "ROI mode", -}; - -const char *capture_sound[] = { - "Default", - "Extra 01", - "Extra 02", -}; - -const char *rotate_mode[] = { - "0", - "90", - "180", - "270", -}; - -const char* strobe_mode[] = { - "Strobe OFF", - "Strobe ON", - "Strobe Auto", - "Strobe RedEyeReduction", - "Strobe SlowSync", - "Strobe FrontCurtain", - "Strobe RearCurtain", - "Strobe Permanent", -}; - -const char *detection_mode[2] = { - "Face Detection OFF", - "Face Detection ON", -}; - -const char *wdr_mode[] = { - "WDR OFF", - "WDR ON", - "WDR AUTO", -}; - -const char *af_scan[SENSOR_AF_SCAN_NUM] = { - "None", - "Normal", - "Macro mode", - "Full mode", -}; - -const char *hdr_mode[] = { - "HDR OFF", - "HDR ON", - "HDR ON and Original", -}; - -const char *ahs_mode[] = { - "Anti-handshake OFF", - "Anti-handshake ON", - "Anti-handshake AUTO", - "Anti-handshake MOVIE", -}; - -const char *vs_mode[] = { - "Video-stabilization OFF", - "Video-stabilization ON", -}; - -const char *visible_mode[] = { - "Display OFF", - "Display ON", -}; - -const char *facing_direction[] = { - "REAR", - "FRONT", -}; - - -/*--------------------------------------------------------------------------- - | LOCAL FUNCTION PROTOTYPES: | - ---------------------------------------------------------------------------*/ -static void print_menu(); -static gboolean cmd_input(GIOChannel *channel); -static gboolean mode_change(); -int camcordertest_set_attr_int(const char* attr_subcategory, int value); -bool preview_resolution_cb(int width, int height, void *user_data); - - -static inline void flush_stdin() -{ - int ch; - while ((ch = getchar()) != EOF && ch != '\n'); -} - -void _camera_state_changed_cb(camera_state_e previous, camera_state_e current, bool by_policy, void *user_data) -{ - printf("camera state changed %d -> %d\n", previous, current); -} - -void _camera_interrupted_cb(camera_policy_e policy, camera_state_e previous, camera_state_e current, void *user_data) -{ - printf("camera interrupted callback called %d\n", policy); -} - -bool preview_resolution_cb(int width, int height, void *user_data) -{ - resolution_stack *data = (resolution_stack *)user_data; - - if (data == NULL) { - printf("NULL data\n"); - return false; - } - - data->width[data->count] = width; - data->height[data->count] = height; - - printf("%d. %dx%d\n", data->count, width, height); - - data->count++; - - return true; -} - -bool capture_resolution_test_cb(int width, int height, void *user_data) -{ - resolution_stack *data = (resolution_stack *)user_data; - - if (data == NULL) { - printf("NULL data\n"); - return false; - } - - data->width[data->count] = width; - data->height[data->count] = height; - - printf("%d. %dx%d\n", data->count, width, height); - - data->count++; - - return true; -} - -bool af_mode_foreach_cb(camera_attr_iso_e mode, void *user_data) -{ - printf("%d.%s\n", mode, af_scan[mode]); - return true; -} - -bool exposure_mode_cb(camera_attr_af_mode_e mode, void *user_data) -{ - exposure_stack *data = (exposure_stack *)user_data; - - if (data == NULL) { - printf("NULL data\n"); - return false; - } - - data->mode = mode; - data->count++; - - printf("%d.%s\n", mode, exposure_mode[mode]); - return true; -} - -bool iso_mode_cb(camera_attr_iso_e mode, void *user_data) -{ - printf("%d.%s\n", mode, iso_mode[mode]); - return true; -} - -bool camera_rotation_cb(camera_rotation_e mode, void *user_data) -{ - camera_rotation_stack *data = (camera_rotation_stack *)user_data; - - if (data == NULL) { - printf("NULL data\n"); - return false; - } - - data->mode = mode; - data->count++; - - printf("%d.%s\n", mode, camera_rotation[mode]); - - return true; -} - -bool preview_format_cb(camera_pixel_format_e mode, void *user_data) -{ - printf("%d.%s\n", mode, image_fmt[mode]); - return true; -} - -bool white_balance_cb(camera_attr_whitebalance_e mode, void *user_data) -{ - printf("%d.%s\n", mode, wb[mode]); - return true; -} - -bool colortone_cb(camera_attr_effect_mode_e mode, void *user_data) -{ - printf("%d.%s\n", mode, ct[mode]); - return true; -} - -bool program_mode_cb(camera_attr_scene_mode_e mode, void *user_data) -{ - printf("%d.%s\n", mode, program_mode[mode]); - return true; -} - -bool strobe_mode_cb(camera_attr_flash_mode_e mode, void *user_data) -{ - printf("%d.%s\n", mode, strobe_mode[mode]); - return true; -} - -void _face_detected(camera_detected_face_s *faces, int count, void *user_data) -{ - printf("face detected!!\n"); - int i; - - for (i = 0 ; i < count ; i++) - printf("%d) - %dx%d\n", faces[i].id, faces[i].x, faces[i].y); - - return; -} - - -void cam_utils_convert_YUYV_to_UYVY(unsigned char *dst, unsigned char *src, gint length) -{ - int i = 0; - - /* memset dst */ - memset(dst, 0x00, length); - memcpy(dst, src+1, length-1); - - for (i = 0 ; i < length ; i++) { - if (!(i % 2)) - dst[i+1] = src[i]; - } - - return; -} - - -static void _file_write(char *path, void *data, int size) -{ - FILE *fp = NULL; - - if (!path || !data || size <= 0) { - printf("ERROR %p %p %d\n", path, data, size); - return; - } - - fp = fopen(path, "w"); - if (fp == NULL) { - printf("open error! [%s], errno %d\n", path, errno); - return; - } else { - printf("open success [%s]\n", path); - if (fwrite(data, size, 1, fp) != 1) - printf("write error! errno %d\n", errno); - else - printf("write success [%s]\n", path); - - fclose(fp); - fp = NULL; - } -} - -void capturing_cb(camera_image_data_s* image, camera_image_data_s* postview, camera_image_data_s* thumbnail, void *user_data) -{ - char m_filename[CAPTURE_FILENAME_LEN]; - - if (hcamcorder->isMultishot) - snprintf(m_filename, CAPTURE_FILENAME_LEN, "/opt/usr/media/Stillshot%03d.jpg", hcamcorder->multishot_count++); - else - snprintf(m_filename, CAPTURE_FILENAME_LEN, "/opt/usr/media/Multishot%03d.jpg", hcamcorder->stillshot_count++); - - /* main image */ - if (image) - _file_write(m_filename, image->data, image->size); - - return; -} - -void capture_completed_cb(void *user_data) -{ - camera_start_preview(hcamcorder->camera); - - print_menu(); - - return; -} - -static void print_menu() -{ - switch (hcamcorder->menu_state) { - case MENU_STATE_MAIN: - if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { - g_print("\n\t=======================================\n"); - if (cam_info == CAMERA_DEVICE_CAMERA1) - g_print("\t Video Capture (Front camera)\n"); - else if (cam_info == CAMERA_DEVICE_CAMERA0) - g_print("\t Video Capture (Rear camera)\n"); - g_print("\t=======================================\n"); - - g_print("\t '1' Stillshot test\n"); - g_print("\t '2' Multishot test\n"); - g_print("\t '3' Setting\n"); - g_print("\t 'b' back\n"); - g_print("\t=======================================\n"); - } - break; - case MENU_STATE_SETTING: - g_print("\n\t=======================================\n"); - g_print("\t Video Capture > Setting\n"); - g_print("\t=======================================\n"); - g_print("\t >>>>>>>>>>>>>>>>>>>>>>>>>>>> [Camera] \n"); - g_print("\t '0' Preview resolution \n"); - g_print("\t '1' Capture resolution \n"); - g_print("\t '2' Digital zoom level \n"); - g_print("\t '3' AF mode \n"); - g_print("\t '4' AF scan range \n"); - g_print("\t '5' Exposure mode \n"); - g_print("\t '6' Exposure value \n"); - g_print("\t '7' F number \n"); - g_print("\t 'i' ISO \n"); - g_print("\t 'r' Rotate camera input \n"); - g_print("\t 'f' Flip camera input \n"); - g_print("\t 'j' Jpeg quality \n"); - g_print("\t 'p' Picture format \n"); - g_print("\t 'E' EXIF orientation \n"); - g_print("\t 'F' Get facing direction of camera module\n"); - g_print("\t >>>>>>>>>>>>>>>>>>>> [Display/Filter]\n"); - g_print("\t 'v' Visible \n"); - g_print("\t 'o' Output mode \n"); - g_print("\t 'y' Rotate display \n"); - g_print("\t 'Y' Flip display \n"); - g_print("\t 'g' Brightness \n"); - g_print("\t 'c' Contrast \n"); - g_print("\t 'w' White balance \n"); - g_print("\t 't' Color tone \n"); - g_print("\t 'd' WDR \n"); - g_print("\t 'e' EV program mode \n"); - g_print("\t >>>>>>>>>>>>>>>>>>>>>>>>>>>>>> [etc.]\n"); - g_print("\t 'z' Strobe (Flash) \n"); - g_print("\t 'S' Strobe (Flash) state\n"); - g_print("\t 'x' Capture mode (Still/Multishot/HDR)\n"); - g_print("\t 'l' Face detection \n"); - g_print("\t 'k' Anti-handshake \n"); - g_print("\t 'K' Video-stabilization \n"); - g_print("\t 'u' Touch AF area \n"); - g_print("\t 'b' back\n"); - g_print("\t=======================================\n"); - break; - default: - LOGE("unknow menu state !!\n"); - break; - } - - return; -} - - -static void main_menu(gchar buf) -{ - int err = 0; - camera_state_e capi_state; - if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { - switch (buf) { - case '1': /* Capture */ - camera_get_state(hcamcorder->camera, &capi_state); - camera_attr_set_image_quality(hcamcorder->camera, 100); - camera_set_capture_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_JPEG); - camera_start_capture(hcamcorder->camera, capturing_cb, capture_completed_cb, hcamcorder); - break; - case '2': /* multishot Capture */ - g_print("multishot capture"); - hcamcorder->isMultishot = TRUE; - int interval = 0, count = 0; - flush_stdin(); - printf("\ninput interval(ms)\n"); - err = scanf("%d", &interval); - flush_stdin(); - printf("\ninput count(ms) \n"); - err = scanf("%d", &count); - camera_attr_set_image_quality(hcamcorder->camera, 100); - camera_set_capture_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_JPEG); - camera_start_continuous_capture(hcamcorder->camera, count, interval, capturing_cb, NULL, NULL); - sleep(3); - camera_start_preview(hcamcorder->camera); - break; - case '3': /* Setting */ - hcamcorder->menu_state = MENU_STATE_SETTING; - break; - case 'b': /* back */ - camera_stop_preview(hcamcorder->camera); - camera_destroy(hcamcorder->camera); - hcamcorder->camera = NULL; - hcamcorder->menu_state = MENU_STATE_MAIN; - mode_change(); - break; - default: - g_print("\t Invalid input \n"); - break; - } - } else { - g_print("\t Invalid mode, back to upper menu \n"); - hcamcorder->menu_state = MENU_STATE_MAIN; - mode_change(); - } - - return; -} - - -static void setting_menu(gchar buf) -{ - gboolean bret = FALSE; - int idx = 0; - int min = 0; - int max = 0; - int i = 0; - int value = 0; - int err = 0; - int x = 0, y = 0, width = 0, height = 0; - - if (hcamcorder->mode == MODE_VIDEO_CAPTURE) { - switch (buf) { - /* Camera setting */ - case '0': /* Setting > Preview Resolution setting */ - g_print("*Select the preview resolution!\n"); - resolution_stack resolution_list; - resolution_list.count = 0; - camera_foreach_supported_preview_resolution(hcamcorder->camera, preview_resolution_cb, &resolution_list); - flush_stdin(); - err = scanf("%d", &idx); - int result = 0; - preview_test_data data; - data.ispass = false; - if (resolution_list.count > idx && idx >= 0) { - data.expected_width = resolution_list.width[idx]; - data.expected_height = resolution_list.height[idx]; - printf("-----------------PREVIEW RESOLUTION (%dx%d)---------------------\n", data.expected_width, data.expected_height); - result = camera_set_preview_resolution(hcamcorder->camera, data.expected_width, data.expected_height); - } else { - printf("invalid input %d\n", idx); - result = -1; - } - resolution_list.count = 0; - if (result != 0) - printf("FAIL\n"); - else - printf("PASS\n"); - break; - case '1': /* Setting > Capture Resolution setting */ - g_print("*Select the preview resolution!\n"); - printf("-----------------CAPTURE RESOLUTION TEST: ---------------------\n"); - resolution_list.count = 0; - camera_foreach_supported_capture_resolution(hcamcorder->camera, capture_resolution_test_cb, &resolution_list); - flush_stdin(); - err = scanf("%d", &idx); - data.ispass = false; - if (resolution_list.count > idx && idx >= 0) { - data.expected_width = resolution_list.width[idx]; - data.expected_height = resolution_list.height[idx]; - - result = camera_set_capture_resolution(hcamcorder->camera, data.expected_width, data.expected_height); - printf("camera_set_capture_resolution with width =%d, height=%d ret=0x%x\n", data.expected_width, data.expected_height, result); - } else { - printf("invalid input %d\n", idx); - result = -1; - } - resolution_list.count = 0; - if (result != 0) - printf("FAIL\n"); - else - printf("PASS\n"); - - break; - case '2': /* Setting > Digital zoom level */ - g_print("*Digital zoom level !\n"); - camera_attr_get_zoom_range(hcamcorder->camera, &min, &max); - if (min >= max) - g_print("Not supported !! \n"); - else { - flush_stdin(); - g_print("\n Select Digital zoom level min %d - max %d\n", min, max); - err = scanf("%d", &idx); - bret = camera_attr_set_zoom(hcamcorder->camera, idx); - } - break; - case '3': /* Setting > AF mode */ - g_print("*AF mode !\n"); - g_print("\t1. AF Start !\n"); - g_print("\t2. AF Stop !\n\n"); - flush_stdin(); - err = scanf("%d", &idx); - switch (idx) { - case 1: - camera_start_focusing(hcamcorder->camera, 0); - break; - case 2: - camera_cancel_focusing(hcamcorder->camera); - break; - default: - g_print("Wrong Input[%d] !! \n", idx); - break; - } - break; - case '4': /* Setting > AF scan range */ - g_print("*AF scan range !\n"); - af_stack af_mode_list; - af_mode_list.count = 0; - camera_attr_foreach_supported_af_mode(hcamcorder->camera, (camera_attr_supported_af_mode_cb)af_mode_foreach_cb, NULL); - af_test_data data1; - data1.ispass = false; - data1.expected_mode = af_mode_list.mode; - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_attr_set_af_mode(hcamcorder->camera, idx); - break; - case '5': /* Setting > Exposure mode */ - g_print("* Exposure mode!\n"); - camera_attr_foreach_supported_exposure_mode(hcamcorder->camera, (camera_attr_supported_exposure_mode_cb)exposure_mode_cb, NULL); - flush_stdin(); - g_print("\n Select Exposure mode \n"); - err = scanf("%d", &idx); - bret = camera_attr_set_exposure_mode(hcamcorder->camera, idx); - break; - - case '6': /* Setting > Exposure value */ - camera_attr_get_exposure_range(hcamcorder->camera, &min, &max); - if (min >= max) - g_print("Not supported !! \n"); - else { - flush_stdin(); - g_print("\n Select Exposure mode min%d -max %d\n", min, max); - err = scanf("%d", &idx); - bret = camera_attr_set_exposure(hcamcorder->camera, idx); - } - break; - case '7': /* Setting > F number */ - g_print("Not supported !! \n"); - break; - case 'i': /* Setting > ISO */ - g_print("*ISO !\n"); - camera_attr_foreach_supported_iso(hcamcorder->camera, iso_mode_cb, NULL); - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_attr_set_iso(hcamcorder->camera, idx); - break; - case 'r': /* Setting > Rotate camera input when recording */ - g_print("*Rotate camera input\n"); - camera_attr_foreach_supported_stream_rotation(hcamcorder->camera, camera_rotation_cb, NULL); - flush_stdin(); - err = scanf("%d", &idx); - CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); - bret = camera_attr_set_stream_rotation(hcamcorder->camera, idx); - CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); - break; - case 'f': /* Setting > Flip camera input */ - flush_stdin(); - g_print("*Flip camera input\n"); - g_print(" 0. Flip NONE\n"); - g_print(" 1. Flip HORIZONTAL\n"); - g_print(" 2. Flip VERTICAL\n"); - g_print(" 3. Flip BOTH\n"); - err = scanf("%d", &idx); - CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); - camera_attr_set_stream_flip(hcamcorder->camera, idx); - CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); - break; - case 'j': /* Setting > Jpeg quality */ - g_print("*Jpeg quality !\n"); - flush_stdin(); - g_print("\n Select Jpeg quality \n"); - err = scanf("%d", &idx); - bret = camera_attr_set_image_quality(hcamcorder->camera, idx); - break; - case 'p': /* Setting > Picture format */ - g_print("* Picture format!\n"); - camera_foreach_supported_preview_format(hcamcorder->camera, preview_format_cb, NULL); - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_set_preview_format(hcamcorder->camera, idx); - CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); - CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); - break; - case 'E': /* Setting > EXIF orientation */ - g_print("* EXIF Orientation\n"); - g_print("\t 1. TOP_LEFT\n"); - g_print("\t 2. TOP_RIGHT(flipped)\n"); - g_print("\t 3. BOTTOM_RIGHT\n"); - g_print("\t 4. BOTTOM_LEFT(flipped)\n"); - g_print("\t 5. LEFT_TOP(flipped)\n"); - g_print("\t 6. RIGHT_TOP\n"); - g_print("\t 7. RIGHT_BOTTOM(flipped)\n"); - g_print("\t 8. LEFT_BOTTOM\n"); - flush_stdin(); - err = scanf("%d", &idx); - if (idx < 1 || idx > 8) - g_print("Wrong INPUT[%d]!! \n", idx); - else - camera_attr_set_tag_orientation(hcamcorder->camera, idx); - break; - case 'F': /* Getting > Get Facing direction */ - g_print("* Get facing direction of camera module\n"); - err = camera_get_facing_direction(hcamcorder->camera, (camera_facing_direction_e *)&idx); - if (CAMERA_ERROR_NONE == err) - g_print("* Facing direction : %s(%d)\n", facing_direction[idx], idx); - else - g_print("* Error : %d\n", err); - break; - /* Display / Filter setting */ - case 'v': /* Display visible */ - g_print("* Display visible setting !\n"); - g_print("\n Select Display visible \n"); - flush_stdin(); - for (i = 0 ; i < 2 ; i++) - g_print("\t %d. %s\n", i+1, visible_mode[i]); - err = scanf("%d", &value); - bret = camera_set_display_visible(hcamcorder->camera, idx-1); - break; - case 'o': /* Setting > Display Mode */ - g_print("* Display mode!\n"); - flush_stdin(); - for (i = 0 ; i < 5 ; i++) - g_print("%d. %s\n", i, display_mode[i]); - err = scanf("%d", &idx); - bret = camera_set_display_mode(hcamcorder->camera, idx); - break; - case 'y': /* Setting > Rotate Display */ - flush_stdin(); - g_print("\n Select Rotate mode\n"); - g_print("\t0. 0\n\t1. 90\n\t2. 180\n\t3. 270\n\n"); - err = scanf("%d", &idx); - CHECK_MM_ERROR(camera_stop_preview(hcamcorder->camera)); - bret = camera_set_display_rotation(hcamcorder->camera, idx); - CHECK_MM_ERROR(camera_start_preview(hcamcorder->camera)); - break; - case 'Y': /* Setting > Flip Display */ - flush_stdin(); - g_print("\n Select Rotate mode\n"); - g_print("\t0. NONE\n\t1. HORIZONTAL\n\t2. VERTICAL\n\t3. BOTH\n\n"); - err = scanf("%d", &idx); - bret = camera_set_display_flip(hcamcorder->camera, idx); - break; - case 'g': /* Setting > Brightness */ - g_print("*Brightness !\n"); - camera_attr_get_brightness_range(hcamcorder->camera, &min, &max); - flush_stdin(); - g_print("\n Select brightness min (%d) -max(%d)", min, max); - err = scanf("%d", &idx); - bret = camera_attr_set_brightness(hcamcorder->camera, idx); - break; - case 'c': /* Setting > Contrast */ - g_print("*Contrast !\n"); - camera_attr_get_contrast_range(hcamcorder->camera, &min, &max); - flush_stdin(); - g_print("\n Select Contrast min(%d)-max(%d)", min, max); - err = scanf("%d", &idx); - bret = camera_attr_set_contrast(hcamcorder->camera, idx); - break; - case 'w': /* Setting > White balance */ - g_print("*White balance !\n"); - flush_stdin(); - g_print("\n Select White balance \n"); - camera_attr_foreach_supported_whitebalance(hcamcorder->camera, white_balance_cb, NULL); - err = scanf("%d", &idx); - bret = camera_attr_set_whitebalance(hcamcorder->camera, idx); - break; - case 't': /* Setting > Color tone */ - g_print("*Color tone !\n"); - camera_attr_foreach_supported_effect(hcamcorder->camera, colortone_cb, NULL); - g_print("\n Select Color tone \n"); - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_attr_set_effect(hcamcorder->camera, idx); - break; - case 'd': /* Setting > WDR */ - g_print("*WDR !\n"); - g_print("\n Select WDR Mode \n"); - flush_stdin(); - for (i = 0 ; i < 2 ; i++) - g_print("\t %d. %s\n", i+1, wdr_mode[i]); - err = scanf("%d", &idx); - if (idx == 1) - bret = camera_attr_enable_auto_contrast(hcamcorder->camera, 0); - else if (idx == 2) - bret = camera_attr_enable_auto_contrast(hcamcorder->camera, 1); - break; - case 'e': /* Setting > EV program mode */ - g_print("* EV program mode!\n"); - camera_attr_foreach_supported_scene_mode(hcamcorder->camera, program_mode_cb, NULL); - g_print("\n Select EV program mode \n"); - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_attr_set_scene_mode(hcamcorder->camera, idx); - break; - - /* ext. setting */ - case 'z': /* Setting > Strobe setting */ - g_print("*Strobe Mode\n"); - camera_attr_foreach_supported_flash_mode(hcamcorder->camera, strobe_mode_cb, NULL); - g_print("\n Select Strobe Mode \n"); - flush_stdin(); - err = scanf("%d", &idx); - bret = camera_attr_set_flash_mode(hcamcorder->camera, idx); - break; - case 'S' : // Setting > flash state - g_print("*flash state\n"); - err = camera_get_flash_state(cam_info, &idx); - if (CAMERA_ERROR_NONE == err) - g_print("Current flash state = %s\n", idx?"ON":"OFF"); - else - g_print("* Error : %d\n", err); - break; - case 'x': /* Setting > Capture mode ,Muitishot? */ - g_print("*Select Capture mode!\n"); - flush_stdin(); - g_print(" \n\t1. Stillshot mode\n\t2. Multishot mode\n\t3. HDR capture\n"); - err = scanf("%d", &idx); - - switch (idx) { - case 1: - g_print("stillshot mode selected and capture callback is set!!!!\n"); - hcamcorder->isMultishot = FALSE; - camera_attr_set_hdr_mode(hcamcorder->camera, 0); - break; - case 2: - g_print("HDR Capture mode selected\n"); - hcamcorder->isMultishot = FALSE; - g_print("\nSelect HDR capture mode\n"); - flush_stdin(); - for (i = 0 ; i < 3 ; i++) - g_print("\t %d. %s\n", i+1, hdr_mode[i]); - err = scanf("%d", &idx); - bret = camera_attr_set_hdr_mode(hcamcorder->camera, idx-1); - break; - default: - g_print("Wrong input, select again!!\n"); - break; - } - break; - case 'l': /* Setting > Face detection setting */ - g_print("* Face detect mode !\n"); - flush_stdin(); - for (i = 0 ; i < 2 ; i++) - g_print("\t %d. %s \n", i+1, detection_mode[i]); - err = scanf("%d", &idx); - if (camera_is_supported_face_detection(hcamcorder->camera)) { - if (idx >= 0 && idx < 2) - bret = camera_start_face_detection(hcamcorder->camera, _face_detected, NULL); - } else - g_print("face detection_not supported"); - break; - case 'k': /* Setting > Anti-handshake */ - g_print("*Anti-handshake !\n"); - g_print("\n Select Anti-handshake mode \n"); - flush_stdin(); - for (i = 0; i < 2; i++) - g_print("\t %d. %s\n", i+1, ahs_mode[i]); - err = scanf("%d", &idx); - bret = camera_attr_enable_anti_shake(hcamcorder->camera, idx-1); - break; - case 'K': /* Setting > Video-stabilization */ - g_print("*Video-stabilization !\n"); - g_print("\n Select Video-stabilization mode \n"); - flush_stdin(); - for (i = 0 ; i < 2 ; i++) - g_print("\t %d. %s\n", i+1, vs_mode[i]); - err = scanf("%d", &idx); - if (idx == 1) { - g_print("\n Restart preview with NV12 and 720p resolution\n"); - err = camera_stop_preview(hcamcorder->camera); - camera_set_preview_resolution(hcamcorder->camera, 1280, 720); - camera_set_preview_format(hcamcorder->camera, CAMERA_PIXEL_FORMAT_NV12); - camera_attr_enable_video_stabilization(hcamcorder->camera, idx-1); - if (err == 0) { - err = camera_start_preview(hcamcorder->camera); - if (err != 0) - g_print("\n Restart FAILED! %x\n", err); - } - } - break; - case 'u': /* Touch AF area */ - g_print("* Touch AF area !\n"); - flush_stdin(); - g_print("\n Input x,y,width,height \n"); - err = scanf("%d,%d,%d,%d", &x, &y, &width, &height); - err = camera_attr_set_af_area(hcamcorder->camera, width, height); - if (err != 0) - g_print("Failed to set touch AF area.(%x)\n", err); - else - g_print("Succeed to set touch AF area.\n"); - break; - case 'b': /* back */ - hcamcorder->menu_state = MENU_STATE_MAIN; - break; - default: - g_print("\t Invalid input \n"); - break; - } - } else { - g_print("\t Invalid mode, back to upper menu \n"); - hcamcorder->menu_state = MENU_STATE_MAIN; - } - - g_print("\t bret : 0x%x \n", bret); - - return; -} - - -/** - * This function is to execute command. - * - * @param channel [in] 1st parameter - * - * @return This function returns TRUE/FALSE - * @remark - * @see - */ -static gboolean cmd_input(GIOChannel *channel) -{ - gchar *buf = NULL; - gsize read_size; - GError *g_error = NULL; - - LOGD("ENTER"); - - g_io_channel_read_line(channel, &buf, &read_size, NULL, &g_error); - if (g_error) { - LOGD("g_io_channel_read_chars error"); - g_error_free(g_error); - g_error = NULL; - } - - if (buf) { - g_strstrip(buf); - - LOGD("Menu Status : %d", hcamcorder->menu_state); - switch (hcamcorder->menu_state) { - case MENU_STATE_MAIN: - main_menu(buf[0]); - break; - case MENU_STATE_SETTING: - setting_menu(buf[0]); - break; - default: - break; - } - - g_free(buf); - buf = NULL; - - print_menu(); - } else { - LOGD("No read input"); - } - - return TRUE; -} - -static gboolean init_handle() -{ - hcamcorder->mode = MODE_VIDEO_CAPTURE; /* image(capture)/video(recording) mode */ - hcamcorder->isMultishot = FALSE; - hcamcorder->stillshot_count = 0; /* total stillshot count */ - hcamcorder->multishot_count = 0; /* total multishot count */ - hcamcorder->stillshot_filename = STILL_CAPTURE_FILE_PATH_NAME; /* stored filename of stillshot */ - hcamcorder->multishot_filename = MULTI_CAPTURE_FILE_PATH_NAME; /* stored filename of multishot */ - hcamcorder->menu_state = MENU_STATE_MAIN; - hcamcorder->isMute = FALSE; - hcamcorder->elapsed_time = 0; - multishot_num = IMAGE_CAPTURE_COUNT_MULTI; - - return TRUE; -} - -void _preview_cb(camera_preview_data_s *frame, void *user_data) -{ -#if 0 - FILE *fp = fopen("/opt/usr/media/test.yuv", "a"); - if (fp == NULL) { - g_print("\n============ file open failed ===========================\n"); - return; - } - - switch (frame->num_of_planes) { - case 1: - fwrite(frame->data.single_plane.yuv, 1, frame->data.single_plane.size, fp); - case 2: - fwrite(frame->data.double_plane.y, 1, frame->data.double_plane.y_size, fp); - fwrite(frame->data.double_plane.uv, 1, frame->data.double_plane.uv_size, fp); - case 3: - fwrite(frame->data.triple_plane.y, 1, frame->data.triple_plane.y_size, fp); - fwrite(frame->data.triple_plane.u, 1, frame->data.triple_plane.u_size, fp); - fwrite(frame->data.triple_plane.v, 1, frame->data.triple_plane.v_size, fp); - default: - break; - } - - g_print("file write done ---\n"); - - fclose(fp); - fp = NULL; -#else - g_print("----- preview callback - format %d, %dx%d, num plane %d\n", - frame->format, frame->width, frame->height, frame->num_of_planes); -#endif - - return; -} - -/** - * This function is to change camcorder mode. - * - * @param type [in] image(capture)/video(recording) mode - * - * @return This function returns TRUE/FALSE - * @remark - * @see other functions - */ -static gboolean mode_change() -{ - int err = 0; - char media_type = '\0'; - bool check = FALSE; - - init_handle(); - while (!check) { - g_print("\n\t=======================================\n"); - g_print("\t CAMERA_TESTSUITE\n"); - g_print("\t=======================================\n"); - g_print("\t '1' Video Capture - Front Camera\n"); - g_print("\t '2' Video Capture - Rear Camera\n"); - g_print("\t 'q' Exit\n"); - g_print("\t=======================================\n"); - - g_print("\t Enter the media type:\n\t"); - - err = scanf("%c", &media_type); - if (err == EOF) { - g_print("\t!!!read input error!!!\n"); - continue; - } - - switch (media_type) { - case '1': - hcamcorder->mode = MODE_VIDEO_CAPTURE; - cam_info = CAMERA_DEVICE_CAMERA1; - check = TRUE; - break; - case '2': - hcamcorder->mode = MODE_VIDEO_CAPTURE; - cam_info = CAMERA_DEVICE_CAMERA0; - check = TRUE; - break; - case 'q': - g_print("\t Quit Camcorder Testsuite!!\n"); - hcamcorder->mode = -1; - if (g_main_loop_is_running(g_loop)) - g_main_loop_quit(g_loop); - - return FALSE; - default: - g_print("\t Invalid media type(%d)\n", media_type); - continue; - } - } - - LOGD("camcorder_create"); - g_get_current_time(&previous_time); - g_timer_reset(timer); - - err = camera_create(cam_info, &hcamcorder->camera); - LOGD("camera_create() : %12.6lfs", g_timer_elapsed(timer, NULL)); - - if (err != 0) { - LOGE("mmcamcorder_create = %x", err); - return -1; - } else { - camera_state = CAMERA_STATE_NONE; - } - camera_print_state = CAMERA_STATE_CREATED; - - camera_set_state_changed_cb(hcamcorder->camera, _camera_state_changed_cb, NULL); - camera_set_interrupted_cb(hcamcorder->camera, _camera_interrupted_cb, NULL); - camera_set_display_mode(hcamcorder->camera, 0); /* MM_DISPLAY_METHOD_LETTER_BOX */ - camera_set_display(hcamcorder->camera, CAMERA_DISPLAY_TYPE_OVERLAY, GET_DISPLAY(eo)); - - /*camera_set_preview_cb(hcamcorder->camera, _preview_cb, hcamcorder->camera);*/ - - camera_start_preview(hcamcorder->camera); - g_get_current_time(¤t_time); - timersub(¤t_time, &previous_time, &res); - LOGD("Camera Starting Time : %ld.%lds", res.tv_sec, res.tv_usec); - camera_print_state = CAMERA_STATE_PREVIEW; - - return TRUE; -} - - -/** - * This function is the example main function for mmcamcorder API. - * - * @param - * - * @return This function returns 0. - * @remark - * @see other functions - */ -int main(int argc, char **argv) -{ - - int bret; - int w, h; - elm_init(argc, argv); - - eo = elm_win_add(NULL, "VIDEO OVERLAY", ELM_WIN_BASIC); - if (eo) { - elm_win_title_set(eo, "TITLE"); - elm_win_borderless_set(eo, EINA_TRUE); - elm_win_screen_size_get(eo, NULL, NULL, &w, &h); - evas_object_resize(eo, w, h); - elm_win_autodel_set(eo, EINA_TRUE); -#ifdef HAVE_WAYLAND - elm_win_alpha_set(eo, EINA_TRUE); -#endif /* HAVE_WAYLAND */ - } else { - g_print("\n\tfailed to get window\n\n"); - return 1; - } - - bg = elm_bg_add(eo); - if (bg) { - elm_win_resize_object_add(eo, bg); - evas_object_size_hint_weight_set(bg, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); - evas_object_show(bg); - } else { - g_print("\n\tfailed to get elm bg\n\n"); - return 1; - } - - rect = evas_object_rectangle_add(evas_object_evas_get(eo)); - if (rect) { - evas_object_color_set(rect, 0, 0, 0, 0); - evas_object_render_op_set(rect, EVAS_RENDER_COPY); - } else { - g_print("\n\tfailed to get rectangle\n\n"); - return 1; - } - - elm_win_resize_object_add(eo, rect); - evas_object_size_hint_weight_set(rect, EVAS_HINT_EXPAND, EVAS_HINT_EXPAND); - evas_object_show(rect); - elm_win_activate(eo); - evas_object_show(eo); - -#if !GLIB_CHECK_VERSION(2, 35, 0) - if (!g_thread_supported()) - g_thread_init(NULL); -#endif - - timer = g_timer_new(); - - gst_init(&argc, &argv); - - LOGD("gst_init() : %12.6lfs", g_timer_elapsed(timer, NULL)); - - hcamcorder = (cam_handle_t *) g_malloc0(sizeof(cam_handle_t)); - camera_state = CAMERA_STATE_NONE; - - g_timer_reset(timer); - - bret = mode_change(); - if (!bret) - return bret; - - print_menu(); - - g_loop = g_main_loop_new(NULL, FALSE); - - stdin_channel = g_io_channel_unix_new(fileno(stdin));/* read from stdin */ - g_io_add_watch(stdin_channel, G_IO_IN, (GIOFunc)cmd_input, NULL); - - LOGD("RUN main loop"); - - g_main_loop_run(g_loop); - - LOGD("STOP main loop"); - - if (timer) { - g_timer_stop(timer); - g_timer_destroy(timer); - timer = NULL; - } - g_free(hcamcorder); - g_main_loop_unref(g_loop); - g_io_channel_unref(stdin_channel); - - return bret; -} - -/*EOF*/