![](/media/cache/group/renesas_logomark_l.jpg.50x50_q85.jpg)
Sample program showing how to connect GR-PEACH into Watson IoT through mbed Connector and Watson's Connector Bridge
Dependencies: AsciiFont DisplayApp GR-PEACH_video LCD_shield_config LWIPBP3595Interface_STA_for_mbed-os USBDevice
Overview
This sample program shows how to connect GR-PEACH into Watson IoT through mbed Connector and Watson's Connector Bridge. Note that this program is derived from https://github.com/ARMmbed/mbed-ethernet-sample-techcon2016.
In this program, at first, the barcode data input from camera is decoded on GR-PEACH using ZXing which is an open-source, multi-format 1D/2D barcode image processing library. Then, the decoded string is sent to Watson IoT via mbed Device Connector and Watson's Connector Bridge. At last, the delivered string is confirmed via NodeRED flow.
Required hardware
- GR-PEACH ( https://developer.mbed.org/platforms/Renesas-GR-PEACH/ )
- Audio Camera Shield ( https://developer.mbed.org/teams/Renesas/wiki/Audio_Camera-shield )
- LCD Shield ( https://developer.mbed.org/teams/Renesas/wiki/LCD-shield )
- BP3595 ( https://developer.mbed.org/components/BP3595-for-GR-PEACH/ )
- Ethernet cable and connection to the internet
Application setup
- Select the connection type. For details, please refer to the following wiki:
https://developer.mbed.org/teams/Renesas/code/mbed-os_Watson-IoT_ZXing_sample/wiki/Connection-type. - Set the client credentials. For details, please refer to the following wiki:
https://developer.mbed.org/teams/Renesas/code/mbed-os_Watson-IoT_ZXing_sample/wiki/Client-credentials. - Change Ethernet settings. For details, please refer to the following wiki:
https://developer.mbed.org/teams/Renesas/code/mbed-os_Watson-IoT_ZXing_sample/wiki/Ethernet-settings. - Change Wifi settings. For details, please refer to the following wiki:
https://developer.mbed.org/teams/Renesas/code/mbed-os_Watson-IoT_ZXing_sample/wiki/Wifi-settings.
Building this sample program
- Import this sample program onto mbed Compiler.
- Configure this sample program in accordance with Application setup.
- Compile the example on mbed Compiler and download the resultant binary file.
- Plug the Ethernet cable into GR-PEACH if you are using Ethernet mode.
- Plug the micro-USB cable into the OpenSDA port with lies on the next to the RESET button.
- Copy the binary previously downloaded to your PC to GR-PEACH to flash this sample program. When the copy is successfully completed, the board is ready to work.
- Press the RESET button on the board to run this sample program.
- For verification, please refer to the following wiki:
https://developer.mbed.org/teams/Renesas/code/mbed-os_Watson-IoT_ZXing_sample/wiki/Monitoring-the-application.
Application resources
This sample program exposes two resources listed below:
- /311/0/5850 : Trigger to toggle LED on GR-PEACH (PUT). When "1" is sent to this resource by PUT method, LED should be turned off. Otherwise, LED should be turned on.
- /888/0/7700: Decode result of barcode data input from camera (GET)
Setup of Watson IoT
- You should create Watson IoT Instance by the following procedure:
- Login IBM Bluemix from https://console.ng.bluemix.net/ and login it.
- Select Services as follows:
- Select Internet of Things" as follows:
- Press Get Started as follows:
- Configure Watson IoT Instance
- Leave unbound
- Select the Free plan, then click Create
- Leave unbound
- You should create Watson IoT Application Credentials
Once you successfully create Watson IoT Instance, you should see the following Watson IoT dashboard:
- On dashboard, launch the Connect your devices dashboard
- Click APPS
- Click Generate API Key
- Record the API Key and Authenticatoin Token. Then click Generate after adding a comment
Note that these two values will be needed in the later step.
- On dashboard, launch the Connect your devices dashboard
- Watson IoT NodeRED Application should be created in accordance with the following procedure:
- Go back to your Bluemix Dashboard: https://console.ng.bluemix.net
- Click Create Application
- Select Node-RED Starter
- Enter a unique App name and Click Create
- Application will Stage after a few minutes
- Application will report app is running when the staging has completed
- Watson NodeRED Application should be binded to Watson IoT instance
- You can now see the dashboard below:
- Click Connections. Then, press Connect Existing
- Click on Watson IoT Instance badge. Then, press Connect
- NodeRED application will restage. This will take a while. Please wait for Your app is running state
- You can now see the dashboard below:
- You should acquire mbed Device Connector DOMAIN value
- Go to the mbed Device Connector Dashboard: https://connector.mbed.com and log in
- Select Access Key in order to create a new token
- Click CREATE NEW ACCESS KEY and enter a unique name. Then, push ADD bution
- an API token is generated. Need to save the generated string for later steps
- Go to the mbed Device Connector Dashboard: https://connector.mbed.com and log in
- You should configure Watson IoT ARM mbed Connector Bridge
- Go back to the Watson IoT Dashboard and select Extensions
- Press Add Extension
- Add ARM mbed Connector
- Setup the bridge
- Enter your Connector API Token to Access Key and MBED_DOMAIN to Domain Id, respectively. Then, click Check Connection
- If the connection is successfully established, you can see Connection Established. Then, press Done
- Go back to the Watson IoT Dashboard and select Extensions
- NodeRED Flow Example should be imported
- Open NODEFLOW_GR-PEACH.txt
- Navigate to the URL that you recorded earlier for your Watson IoT NodeRED Application (i.e. http://<app name>.mybluemix.net) and Select Go to your NodeRED flow editor
- Select menu, Import and Clipboard
- Paste the entire contents of JSON code described in NODEFLOW_GR-PEACH.txt and click Import
- Watson IoT Application Node Flow should be configured
- Double-click input node and link them to your Watson IoT instance.
- Click on the edit button
- First enter arbitrary name. Then, Watson API Key and Watson Auth Token previously acquired. Finally, press Add to save
- Enter MBED_ENDPOINT_NAME in security.h as Device ID. Then, press Done to save
- Double-click output node
- Edit API Key and Device Id in the same manner as that for input node
- Click LED OFF and LED ON node and replace MBED_ENDPOINT_NAME_GOES_HERE with MBED_ENDPOINT_NAME as shown below:
- Click Deproy to deploy NodeRED application
- Double-click input node and link them to your Watson IoT instance.
- Invoke sample program
- Press the reset button on GR-PEACH
- The decode result of barcode data should be shown in debug window
- Also, you can toggle LED by clicking Turn LED OFF and Turn LED ON injection node
mbedConnectorInterface/mbed-connector-interface/Resource.h@0:ad834d403a8c, 2016-11-24 (annotated)
- Committer:
- Osamu Nakamura
- Date:
- Thu Nov 24 13:59:16 2016 +0900
- Revision:
- 0:ad834d403a8c
Initial Commit
Who changed what in which revision?
User | Revision | Line number | New contents of line |
---|---|---|---|
Osamu Nakamura |
0:ad834d403a8c | 1 | /** |
Osamu Nakamura |
0:ad834d403a8c | 2 | * @file Resource.h |
Osamu Nakamura |
0:ad834d403a8c | 3 | * @brief mbed CoAP Endpoint Resource base class template |
Osamu Nakamura |
0:ad834d403a8c | 4 | * @author Doug Anson/Chris Paola |
Osamu Nakamura |
0:ad834d403a8c | 5 | * @version 1.0 |
Osamu Nakamura |
0:ad834d403a8c | 6 | * @see |
Osamu Nakamura |
0:ad834d403a8c | 7 | * |
Osamu Nakamura |
0:ad834d403a8c | 8 | * Copyright (c) 2014 |
Osamu Nakamura |
0:ad834d403a8c | 9 | * |
Osamu Nakamura |
0:ad834d403a8c | 10 | * Licensed under the Apache License, Version 2.0 (the "License"); |
Osamu Nakamura |
0:ad834d403a8c | 11 | * you may not use this file except in compliance with the License. |
Osamu Nakamura |
0:ad834d403a8c | 12 | * You may obtain a copy of the License at |
Osamu Nakamura |
0:ad834d403a8c | 13 | * |
Osamu Nakamura |
0:ad834d403a8c | 14 | * http://www.apache.org/licenses/LICENSE-2.0 |
Osamu Nakamura |
0:ad834d403a8c | 15 | * |
Osamu Nakamura |
0:ad834d403a8c | 16 | * Unless required by applicable law or agreed to in writing, software |
Osamu Nakamura |
0:ad834d403a8c | 17 | * distributed under the License is distributed on an "AS IS" BASIS, |
Osamu Nakamura |
0:ad834d403a8c | 18 | * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
Osamu Nakamura |
0:ad834d403a8c | 19 | * See the License for the specific language governing permissions and |
Osamu Nakamura |
0:ad834d403a8c | 20 | * limitations under the License. |
Osamu Nakamura |
0:ad834d403a8c | 21 | */ |
Osamu Nakamura |
0:ad834d403a8c | 22 | |
Osamu Nakamura |
0:ad834d403a8c | 23 | #ifndef __RESOURCE_H__ |
Osamu Nakamura |
0:ad834d403a8c | 24 | #define __RESOURCE_H__ |
Osamu Nakamura |
0:ad834d403a8c | 25 | |
Osamu Nakamura |
0:ad834d403a8c | 26 | // logging facility |
Osamu Nakamura |
0:ad834d403a8c | 27 | #include "mbed-connector-interface/Logger.h" |
Osamu Nakamura |
0:ad834d403a8c | 28 | |
Osamu Nakamura |
0:ad834d403a8c | 29 | // mbed-client support |
Osamu Nakamura |
0:ad834d403a8c | 30 | #include "mbed-client/m2minterfacefactory.h" |
Osamu Nakamura |
0:ad834d403a8c | 31 | #include "mbed-client/m2minterfaceobserver.h" |
Osamu Nakamura |
0:ad834d403a8c | 32 | #include "mbed-client/m2minterface.h" |
Osamu Nakamura |
0:ad834d403a8c | 33 | #include "mbed-client/m2mobjectinstance.h" |
Osamu Nakamura |
0:ad834d403a8c | 34 | #include "mbed-client/m2mresource.h" |
Osamu Nakamura |
0:ad834d403a8c | 35 | #include "mbed-client/m2mdevice.h" |
Osamu Nakamura |
0:ad834d403a8c | 36 | #include "mbed-client/m2mfirmware.h" |
Osamu Nakamura |
0:ad834d403a8c | 37 | |
Osamu Nakamura |
0:ad834d403a8c | 38 | // string support |
Osamu Nakamura |
0:ad834d403a8c | 39 | #include <string> |
Osamu Nakamura |
0:ad834d403a8c | 40 | |
Osamu Nakamura |
0:ad834d403a8c | 41 | /** Resource class |
Osamu Nakamura |
0:ad834d403a8c | 42 | */ |
Osamu Nakamura |
0:ad834d403a8c | 43 | template <typename InnerType> class Resource |
Osamu Nakamura |
0:ad834d403a8c | 44 | { |
Osamu Nakamura |
0:ad834d403a8c | 45 | public: |
Osamu Nakamura |
0:ad834d403a8c | 46 | // Available Resource Types |
Osamu Nakamura |
0:ad834d403a8c | 47 | typedef enum { |
Osamu Nakamura |
0:ad834d403a8c | 48 | STRING, |
Osamu Nakamura |
0:ad834d403a8c | 49 | INTEGER, |
Osamu Nakamura |
0:ad834d403a8c | 50 | FLOAT, |
Osamu Nakamura |
0:ad834d403a8c | 51 | BOOLEAN, |
Osamu Nakamura |
0:ad834d403a8c | 52 | OPAQUE, |
Osamu Nakamura |
0:ad834d403a8c | 53 | TIME, |
Osamu Nakamura |
0:ad834d403a8c | 54 | OBJLINK |
Osamu Nakamura |
0:ad834d403a8c | 55 | }ResourceType; |
Osamu Nakamura |
0:ad834d403a8c | 56 | |
Osamu Nakamura |
0:ad834d403a8c | 57 | /** |
Osamu Nakamura |
0:ad834d403a8c | 58 | Default constructor |
Osamu Nakamura |
0:ad834d403a8c | 59 | @param logger input the Logger instance this Resource is a part of |
Osamu Nakamura |
0:ad834d403a8c | 60 | @param obj_name input the Object Name |
Osamu Nakamura |
0:ad834d403a8c | 61 | @param res_name input the Resource URI/Name |
Osamu Nakamura |
0:ad834d403a8c | 62 | @param value input the Resource value |
Osamu Nakamura |
0:ad834d403a8c | 63 | */ |
Osamu Nakamura |
0:ad834d403a8c | 64 | Resource(const Logger *logger,const string obj_name,const string res_name,InnerType value) { |
Osamu Nakamura |
0:ad834d403a8c | 65 | this->init(logger); |
Osamu Nakamura |
0:ad834d403a8c | 66 | this->m_obj_name = obj_name; |
Osamu Nakamura |
0:ad834d403a8c | 67 | this->m_res_name = res_name; |
Osamu Nakamura |
0:ad834d403a8c | 68 | this->m_value = value; |
Osamu Nakamura |
0:ad834d403a8c | 69 | this->m_implements_observation = false; |
Osamu Nakamura |
0:ad834d403a8c | 70 | this->m_instance_number = 0; |
Osamu Nakamura |
0:ad834d403a8c | 71 | } |
Osamu Nakamura |
0:ad834d403a8c | 72 | |
Osamu Nakamura |
0:ad834d403a8c | 73 | /** |
Osamu Nakamura |
0:ad834d403a8c | 74 | Copy constructor |
Osamu Nakamura |
0:ad834d403a8c | 75 | @param resource input the Resource that is to be deep copied |
Osamu Nakamura |
0:ad834d403a8c | 76 | */ |
Osamu Nakamura |
0:ad834d403a8c | 77 | Resource(const Resource<InnerType> &resource) { |
Osamu Nakamura |
0:ad834d403a8c | 78 | this->init(resource.m_logger); |
Osamu Nakamura |
0:ad834d403a8c | 79 | this->m_endpoint = resource.m_endpoint; |
Osamu Nakamura |
0:ad834d403a8c | 80 | this->m_obj_name = resource.m_obj_name; |
Osamu Nakamura |
0:ad834d403a8c | 81 | this->m_res_name = resource.m_res_name; |
Osamu Nakamura |
0:ad834d403a8c | 82 | this->m_value = resource.m_value; |
Osamu Nakamura |
0:ad834d403a8c | 83 | this->m_implements_observation = resource.m_implements_observation; |
Osamu Nakamura |
0:ad834d403a8c | 84 | this->m_instance_number = resource.m_instance_number; |
Osamu Nakamura |
0:ad834d403a8c | 85 | } |
Osamu Nakamura |
0:ad834d403a8c | 86 | |
Osamu Nakamura |
0:ad834d403a8c | 87 | /** |
Osamu Nakamura |
0:ad834d403a8c | 88 | Destructor |
Osamu Nakamura |
0:ad834d403a8c | 89 | */ |
Osamu Nakamura |
0:ad834d403a8c | 90 | virtual ~Resource() { |
Osamu Nakamura |
0:ad834d403a8c | 91 | } |
Osamu Nakamura |
0:ad834d403a8c | 92 | |
Osamu Nakamura |
0:ad834d403a8c | 93 | /** |
Osamu Nakamura |
0:ad834d403a8c | 94 | Get the Object name |
Osamu Nakamura |
0:ad834d403a8c | 95 | @return the name of the object |
Osamu Nakamura |
0:ad834d403a8c | 96 | */ |
Osamu Nakamura |
0:ad834d403a8c | 97 | string getObjName() { |
Osamu Nakamura |
0:ad834d403a8c | 98 | return this->m_obj_name; |
Osamu Nakamura |
0:ad834d403a8c | 99 | } |
Osamu Nakamura |
0:ad834d403a8c | 100 | |
Osamu Nakamura |
0:ad834d403a8c | 101 | /** |
Osamu Nakamura |
0:ad834d403a8c | 102 | Get the Resource name |
Osamu Nakamura |
0:ad834d403a8c | 103 | @return the name of the resource |
Osamu Nakamura |
0:ad834d403a8c | 104 | */ |
Osamu Nakamura |
0:ad834d403a8c | 105 | string getResName() { |
Osamu Nakamura |
0:ad834d403a8c | 106 | return this->m_res_name; |
Osamu Nakamura |
0:ad834d403a8c | 107 | } |
Osamu Nakamura |
0:ad834d403a8c | 108 | |
Osamu Nakamura |
0:ad834d403a8c | 109 | /** |
Osamu Nakamura |
0:ad834d403a8c | 110 | Get the Full name |
Osamu Nakamura |
0:ad834d403a8c | 111 | @return the name of the object |
Osamu Nakamura |
0:ad834d403a8c | 112 | */ |
Osamu Nakamura |
0:ad834d403a8c | 113 | string getFullName() { |
Osamu Nakamura |
0:ad834d403a8c | 114 | char buf[5]; |
Osamu Nakamura |
0:ad834d403a8c | 115 | memset(buf,0,5); |
Osamu Nakamura |
0:ad834d403a8c | 116 | sprintf(buf,"/%d/",this->m_instance_number); |
Osamu Nakamura |
0:ad834d403a8c | 117 | return this->m_obj_name + buf + this->m_res_name; |
Osamu Nakamura |
0:ad834d403a8c | 118 | } |
Osamu Nakamura |
0:ad834d403a8c | 119 | |
Osamu Nakamura |
0:ad834d403a8c | 120 | /** |
Osamu Nakamura |
0:ad834d403a8c | 121 | Get the resource value |
Osamu Nakamura |
0:ad834d403a8c | 122 | @return the value of the resource |
Osamu Nakamura |
0:ad834d403a8c | 123 | */ |
Osamu Nakamura |
0:ad834d403a8c | 124 | InnerType getValue() { |
Osamu Nakamura |
0:ad834d403a8c | 125 | return this->m_value; |
Osamu Nakamura |
0:ad834d403a8c | 126 | } |
Osamu Nakamura |
0:ad834d403a8c | 127 | |
Osamu Nakamura |
0:ad834d403a8c | 128 | /** |
Osamu Nakamura |
0:ad834d403a8c | 129 | Set the resource name |
Osamu Nakamura |
0:ad834d403a8c | 130 | @param name input the resource name |
Osamu Nakamura |
0:ad834d403a8c | 131 | */ |
Osamu Nakamura |
0:ad834d403a8c | 132 | void setName(const string name) { |
Osamu Nakamura |
0:ad834d403a8c | 133 | this->m_name = name; |
Osamu Nakamura |
0:ad834d403a8c | 134 | } |
Osamu Nakamura |
0:ad834d403a8c | 135 | |
Osamu Nakamura |
0:ad834d403a8c | 136 | /** |
Osamu Nakamura |
0:ad834d403a8c | 137 | Set the resource value |
Osamu Nakamura |
0:ad834d403a8c | 138 | @param value input the resource value |
Osamu Nakamura |
0:ad834d403a8c | 139 | */ |
Osamu Nakamura |
0:ad834d403a8c | 140 | void setValue(const InnerType value) { |
Osamu Nakamura |
0:ad834d403a8c | 141 | this->m_value = value; |
Osamu Nakamura |
0:ad834d403a8c | 142 | } |
Osamu Nakamura |
0:ad834d403a8c | 143 | |
Osamu Nakamura |
0:ad834d403a8c | 144 | /** |
Osamu Nakamura |
0:ad834d403a8c | 145 | Bind resource to endpoint |
Osamu Nakamura |
0:ad834d403a8c | 146 | @param ep input pointer to the Endpoint instance |
Osamu Nakamura |
0:ad834d403a8c | 147 | */ |
Osamu Nakamura |
0:ad834d403a8c | 148 | virtual void bind(void *ep) = 0; |
Osamu Nakamura |
0:ad834d403a8c | 149 | |
Osamu Nakamura |
0:ad834d403a8c | 150 | // access the logger() |
Osamu Nakamura |
0:ad834d403a8c | 151 | Logger *logger() { |
Osamu Nakamura |
0:ad834d403a8c | 152 | return this->m_logger; |
Osamu Nakamura |
0:ad834d403a8c | 153 | } |
Osamu Nakamura |
0:ad834d403a8c | 154 | |
Osamu Nakamura |
0:ad834d403a8c | 155 | /** |
Osamu Nakamura |
0:ad834d403a8c | 156 | set the options |
Osamu Nakamura |
0:ad834d403a8c | 157 | */ |
Osamu Nakamura |
0:ad834d403a8c | 158 | void setOptions(const void *options) { |
Osamu Nakamura |
0:ad834d403a8c | 159 | this->m_options = (void *)options; |
Osamu Nakamura |
0:ad834d403a8c | 160 | } |
Osamu Nakamura |
0:ad834d403a8c | 161 | |
Osamu Nakamura |
0:ad834d403a8c | 162 | /** |
Osamu Nakamura |
0:ad834d403a8c | 163 | set the endpoint |
Osamu Nakamura |
0:ad834d403a8c | 164 | */ |
Osamu Nakamura |
0:ad834d403a8c | 165 | void setEndpoint(const void *endpoint) { |
Osamu Nakamura |
0:ad834d403a8c | 166 | this->m_endpoint = (void *)endpoint; |
Osamu Nakamura |
0:ad834d403a8c | 167 | } |
Osamu Nakamura |
0:ad834d403a8c | 168 | |
Osamu Nakamura |
0:ad834d403a8c | 169 | // this resource implements its own observation handler |
Osamu Nakamura |
0:ad834d403a8c | 170 | bool implementsObservation() { return this->m_implements_observation; } |
Osamu Nakamura |
0:ad834d403a8c | 171 | |
Osamu Nakamura |
0:ad834d403a8c | 172 | /** |
Osamu Nakamura |
0:ad834d403a8c | 173 | Get our Instance Number |
Osamu Nakamura |
0:ad834d403a8c | 174 | @return our instance number |
Osamu Nakamura |
0:ad834d403a8c | 175 | */ |
Osamu Nakamura |
0:ad834d403a8c | 176 | int getInstanceNumber() { return this->m_instance_number; } |
Osamu Nakamura |
0:ad834d403a8c | 177 | |
Osamu Nakamura |
0:ad834d403a8c | 178 | /** |
Osamu Nakamura |
0:ad834d403a8c | 179 | Set our Instance Number |
Osamu Nakamura |
0:ad834d403a8c | 180 | @param instance_number input our designated instance number |
Osamu Nakamura |
0:ad834d403a8c | 181 | */ |
Osamu Nakamura |
0:ad834d403a8c | 182 | void setInstanceNumber(int instance_number) { this->m_instance_number = instance_number; } |
Osamu Nakamura |
0:ad834d403a8c | 183 | |
Osamu Nakamura |
0:ad834d403a8c | 184 | protected: |
Osamu Nakamura |
0:ad834d403a8c | 185 | // initialize internals to Resource |
Osamu Nakamura |
0:ad834d403a8c | 186 | void init(const Logger *logger) { |
Osamu Nakamura |
0:ad834d403a8c | 187 | this->m_logger = (Logger *)logger; |
Osamu Nakamura |
0:ad834d403a8c | 188 | this->m_endpoint = NULL; |
Osamu Nakamura |
0:ad834d403a8c | 189 | this->m_obj_name = ""; |
Osamu Nakamura |
0:ad834d403a8c | 190 | this->m_res_name = ""; |
Osamu Nakamura |
0:ad834d403a8c | 191 | this->m_value = ""; |
Osamu Nakamura |
0:ad834d403a8c | 192 | this->m_instance_number = 0; |
Osamu Nakamura |
0:ad834d403a8c | 193 | } |
Osamu Nakamura |
0:ad834d403a8c | 194 | |
Osamu Nakamura |
0:ad834d403a8c | 195 | // get our options |
Osamu Nakamura |
0:ad834d403a8c | 196 | void *getOptions() { |
Osamu Nakamura |
0:ad834d403a8c | 197 | return this->m_options; |
Osamu Nakamura |
0:ad834d403a8c | 198 | } |
Osamu Nakamura |
0:ad834d403a8c | 199 | |
Osamu Nakamura |
0:ad834d403a8c | 200 | Logger *m_logger; |
Osamu Nakamura |
0:ad834d403a8c | 201 | void *m_endpoint; |
Osamu Nakamura |
0:ad834d403a8c | 202 | string m_obj_name; |
Osamu Nakamura |
0:ad834d403a8c | 203 | string m_res_name; |
Osamu Nakamura |
0:ad834d403a8c | 204 | InnerType m_value; |
Osamu Nakamura |
0:ad834d403a8c | 205 | bool m_implements_observation; |
Osamu Nakamura |
0:ad834d403a8c | 206 | void *m_options; |
Osamu Nakamura |
0:ad834d403a8c | 207 | int m_instance_number; |
Osamu Nakamura |
0:ad834d403a8c | 208 | }; |
Osamu Nakamura |
0:ad834d403a8c | 209 | |
Osamu Nakamura |
0:ad834d403a8c | 210 | #endif // __RESOURCE_H__ |
Osamu Nakamura |
0:ad834d403a8c | 211 |