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(C++) Amazon Rekognition - Detect Text in an ImageSee more Amazon Rekognition ExamplesDetects text in the input image and converts it into machine-readable text. This example passes theimage as base64-encoded image bytes. For more information, see https://docs.aws.amazon.com/rekognition/latest/dg/API_DetectText.html
#include <CkRest.h> #include <CkAuthAws.h> #include <CkBinData.h> #include <CkStringBuilder.h> #include <CkJsonObject.h> void ChilkatSample(void) { CkRest rest; bool success; CkAuthAws authAws; authAws.put_AccessKey("AWS_ACCESS_KEY"); authAws.put_SecretKey("AWS_SECRET_KEY"); // Don't forget to change the region to your particular region. (Also make the same change in the call to Connect below.) authAws.put_Region("us-west-2"); authAws.put_ServiceName("rekognition"); // SetAuthAws causes Chilkat to automatically add the following headers: Authorization, X-Amz-Date rest.SetAuthAws(authAws); // URL: https://rekognition.us-west-2.amazonaws.com/ bool bTls = true; int port = 443; bool bAutoReconnect = true; // Don't forget to change the region domain (us-west-2.amazonaws.com) to your particular region. success = rest.Connect("rekognition.us-west-2.amazonaws.com",port,bTls,bAutoReconnect); if (success != true) { std::cout << "ConnectFailReason: " << rest.get_ConnectFailReason() << "\r\n"; std::cout << rest.lastErrorText() << "\r\n"; return; } // Note: The above code does not need to be repeatedly called for each REST request. // The rest object can be setup once, and then many requests can be sent. Chilkat will automatically // reconnect within a FullRequest* method as needed. It is only the very first connection that is explicitly // made via the Connect method. // Load the JPG to be passed as base64 in the JSON. CkBinData bdJpg; success = bdJpg.LoadFile("qa_data/jpg/monday_keep_smiling.jpg"); if (success != true) { std::cout << "Failed to load the input JPG file." << "\r\n"; return; } // We wish to send the following JSON in the body of our HTTP request: // { // "Image": { // "Bytes": "base64_image_bytes" // } // } // Here is the image we used for testing: // Convert binary image bytes to base64. // Note: We are explicitly keeping the data inside Chilkat to avoid having to pass large strings // as arguments to function calls. This is important for some programming languages. CkStringBuilder sbJpg; bdJpg.GetEncodedSb("base64",sbJpg); CkJsonObject json; json.UpdateSb("Image.Bytes",sbJpg); rest.AddHeader("Content-Type","application/x-amz-json-1.1"); rest.AddHeader("X-Amz-Target","RekognitionService.DetectText"); CkStringBuilder sbRequestBody; json.EmitSb(sbRequestBody); CkStringBuilder sbResponseBody; success = rest.FullRequestSb("POST","/",sbRequestBody,sbResponseBody); if (success != true) { std::cout << rest.lastErrorText() << "\r\n"; return; } int respStatusCode = rest.get_ResponseStatusCode(); std::cout << "response status code = " << respStatusCode << "\r\n"; if (respStatusCode >= 400) { std::cout << "Response Status Code = " << respStatusCode << "\r\n"; std::cout << "Response Header:" << "\r\n"; std::cout << rest.responseHeader() << "\r\n"; std::cout << "Response Body:" << "\r\n"; std::cout << sbResponseBody.getAsString() << "\r\n"; return; } CkJsonObject jResp; jResp.LoadSb(sbResponseBody); jResp.put_EmitCompact(false); std::cout << jResp.emit() << "\r\n"; // Sample JSON response: // (Sample code for parsing the JSON response is shown below) // { // "TextDetections": [ // { // "Confidence": 95.99308776855469, // "DetectedText": "( MONDAY IT'S", // "Geometry": { // "BoundingBox": { // "Height": 0.6399821043014526, // "Left": 0.219133198261261, // "Top": 0.08677978068590164, // "Width": 0.7433173656463623 // }, // "Polygon": [ // { // "X": 0.219133198261261, // "Y": 0.3588336706161499 // }, // { // "X": 0.8984103798866272, // "Y": 0.08677978068590164 // }, // { // "X": 0.9624505639076233, // "Y": 0.4547080099582672 // }, // { // "X": 0.2831733524799347, // "Y": 0.7267619371414185 // } // ] // }, // "Id": 0, // "Type": "LINE" // }, // { // "Confidence": 99.70352172851562, // "DetectedText": "but keep", // "Geometry": { // "BoundingBox": { // "Height": 0.09703556448221207, // "Left": 0.6335319876670837, // "Top": 0.5153074264526367, // "Width": 0.21070890128612518 // }, // "Polygon": [ // { // "X": 0.6355597376823425, // "Y": 0.5153074264526367 // }, // { // "X": 0.8442409038543701, // "Y": 0.5266726613044739 // }, // { // "X": 0.8422132134437561, // "Y": 0.6123430132865906 // }, // { // "X": 0.6335319876670837, // "Y": 0.6009777784347534 // } // ] // }, // "Id": 1, // "Type": "LINE" // }, // { // "Confidence": 99.92333984375, // "DetectedText": "Smiling", // "Geometry": { // "BoundingBox": { // "Height": 0.31578224897384644, // "Left": 0.5070608258247375, // "Top": 0.6086956262588501, // "Width": 0.4795433282852173 // }, // "Polygon": [ // { // "X": 0.5070608258247375, // "Y": 0.6298336386680603 // }, // { // "X": 0.9808917045593262, // "Y": 0.6086956262588501 // }, // { // "X": 0.9866041541099548, // "Y": 0.9033399224281311 // }, // { // "X": 0.5127732157707214, // "Y": 0.9244779348373413 // } // ] // }, // "Id": 2, // "Type": "LINE" // }, // { // "Confidence": 99.77294158935547, // "DetectedText": "IT'S", // "Geometry": { // "BoundingBox": { // "Height": 0.09903381764888763, // "Left": 0.668789803981781, // "Top": 0.17874395847320557, // "Width": 0.1449044644832611 // }, // "Polygon": [ // { // "X": 0.668789803981781, // "Y": 0.17874395847320557 // }, // { // "X": 0.8136942386627197, // "Y": 0.17874395847320557 // }, // { // "X": 0.8136942386627197, // "Y": 0.2777777910232544 // }, // { // "X": 0.668789803981781, // "Y": 0.2777777910232544 // } // ] // }, // "Id": 5, // "ParentId": 0, // "Type": "WORD" // }, // { // "Confidence": 98.44307708740234, // "DetectedText": "MONDAY", // "Geometry": { // "BoundingBox": { // "Height": 0.11112251877784729, // "Left": 0.5541401505470276, // "Top": 0.3526569902896881, // "Width": 0.39013487100601196 // }, // "Polygon": [ // { // "X": 0.5541401505470276, // "Y": 0.3526569902896881 // }, // { // "X": 0.9442675113677979, // "Y": 0.3502415418624878 // }, // { // "X": 0.9458598494529724, // "Y": 0.4613526463508606 // }, // { // "X": 0.5541401505470276, // "Y": 0.4637681245803833 // } // ] // }, // "Id": 4, // "ParentId": 0, // "Type": "WORD" // }, // { // "Confidence": 99.61898803710938, // "DetectedText": "but", // "Geometry": { // "BoundingBox": { // "Height": 0.06521739065647125, // "Left": 0.6353503465652466, // "Top": 0.5241546034812927, // "Width": 0.0843949019908905 // }, // "Polygon": [ // { // "X": 0.6353503465652466, // "Y": 0.5241546034812927 // }, // { // "X": 0.7197452187538147, // "Y": 0.5241546034812927 // }, // { // "X": 0.7197452187538147, // "Y": 0.5893719792366028 // }, // { // "X": 0.6353503465652466, // "Y": 0.5893719792366028 // } // ] // }, // "Id": 6, // "ParentId": 1, // "Type": "WORD" // }, // { // "Confidence": 99.78804779052734, // "DetectedText": "keep", // "Geometry": { // "BoundingBox": { // "Height": 0.07971014827489853, // "Left": 0.7308917045593262, // "Top": 0.5265700221061707, // "Width": 0.1114649698138237 // }, // "Polygon": [ // { // "X": 0.7308917045593262, // "Y": 0.5265700221061707 // }, // { // "X": 0.8423566818237305, // "Y": 0.5265700221061707 // }, // { // "X": 0.8423566818237305, // "Y": 0.6062802076339722 // }, // { // "X": 0.7308917045593262, // "Y": 0.6062802076339722 // } // ] // }, // "Id": 7, // "ParentId": 1, // "Type": "WORD" // }, // { // "Confidence": 89.76324462890625, // "DetectedText": "(", // "Geometry": { // "BoundingBox": { // "Height": 0.16401274502277374, // "Left": 0.27229300141334534, // "Top": 0.6642512083053589, // "Width": 0.2850286066532135 // }, // "Polygon": [ // { // "X": 0.27229300141334534, // "Y": 0.6642512083053589 // }, // { // "X": 0.2707006335258484, // "Y": 0.37922704219818115 // }, // { // "X": 0.43471336364746094, // "Y": 0.37922704219818115 // }, // { // "X": 0.4363057315349579, // "Y": 0.6642512083053589 // } // ] // }, // "Id": 3, // "ParentId": 0, // "Type": "WORD" // }, // { // "Confidence": 99.92333984375, // "DetectedText": "Smiling", // "Geometry": { // "BoundingBox": { // "Height": 0.294724702835083, // "Left": 0.5079618096351624, // "Top": 0.6304348111152649, // "Width": 0.4734293222427368 // }, // "Polygon": [ // { // "X": 0.5079618096351624, // "Y": 0.6304348111152649 // }, // { // "X": 0.9808917045593262, // "Y": 0.6086956262588501 // }, // { // "X": 0.9856687784194946, // "Y": 0.9033816456794739 // }, // { // "X": 0.512738823890686, // "Y": 0.9227052927017212 // } // ] // }, // "Id": 8, // "ParentId": 2, // "Type": "WORD" // } // ], // "TextModelVersion": "3.0" // } // // // Sample code for parsing the JSON response... // Use the following online tool to generate parsing code from sample JSON: // Generate Parsing Code from JSON // Chilkat functions returning "const char *" return a pointer to temporary internal memory owned and managed by Chilkat. // See this example explaining how this memory should be used: const char * functions. const char *Confidence = 0; const char *DetectedText = 0; const char *GeometryBoundingBoxHeight = 0; const char *GeometryBoundingBoxLeft = 0; const char *GeometryBoundingBoxTop = 0; const char *GeometryBoundingBoxWidth = 0; int Id; const char *v_Type = 0; int ParentId; int j; int count_j; const char *X = 0; const char *Y = 0; const char *TextModelVersion = jResp.stringOf("TextModelVersion"); int i = 0; int count_i = jResp.SizeOfArray("TextDetections"); while (i < count_i) { jResp.put_I(i); Confidence = jResp.stringOf("TextDetections[i].Confidence"); DetectedText = jResp.stringOf("TextDetections[i].DetectedText"); GeometryBoundingBoxHeight = jResp.stringOf("TextDetections[i].Geometry.BoundingBox.Height"); GeometryBoundingBoxLeft = jResp.stringOf("TextDetections[i].Geometry.BoundingBox.Left"); GeometryBoundingBoxTop = jResp.stringOf("TextDetections[i].Geometry.BoundingBox.Top"); GeometryBoundingBoxWidth = jResp.stringOf("TextDetections[i].Geometry.BoundingBox.Width"); Id = jResp.IntOf("TextDetections[i].Id"); v_Type = jResp.stringOf("TextDetections[i].Type"); ParentId = jResp.IntOf("TextDetections[i].ParentId"); j = 0; count_j = jResp.SizeOfArray("TextDetections[i].Geometry.Polygon"); while (j < count_j) { jResp.put_J(j); X = jResp.stringOf("TextDetections[i].Geometry.Polygon[j].X"); Y = jResp.stringOf("TextDetections[i].Geometry.Polygon[j].Y"); j = j + 1; } i = i + 1; } } |
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