未验证 提交 b50c9ad7 编写于 作者: O openharmony_ci 提交者: Gitee

!6501 翻译完成:6198 image文档修改

Merge pull request !6501 from wusongqing/TR6198
......@@ -34,6 +34,7 @@ Creates a **PixelMap** object. This API uses a promise to return the result.
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts)
.then((pixelmap) => {
......@@ -60,6 +61,7 @@ Creates a **PixelMap** object. This API uses an asynchronous callback to return
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts, (pixelmap) => {
})
......@@ -100,10 +102,11 @@ Reads image pixel map data and writes the data to an **ArrayBuffer**. This API u
**Example**
```js
pixelmap.readPixelsToBuffer(ReadBuffer).then(() => {
console.log('readPixelsToBuffer succeeded.'); // Called if the condition is met.
const readBuffer = new ArrayBuffer(400);
pixelmap.readPixelsToBuffer(readBuffer).then(() => {
console.log('Succeeded in reading image pixel data.'); // Called if the condition is met.
}).catch(error => {
console.log('readPixelsToBuffer failed.'); // Called if no condition is met.
('Failed to read image pixel data.'); // Called if no condition is met.
})
```
......@@ -125,11 +128,12 @@ Reads image pixel map data and writes the data to an **ArrayBuffer**. This API u
**Example**
```js
pixelmap.readPixelsToBuffer(ReadBuffer, (err, res) => {
const readBuffer = new ArrayBuffer(400);
pixelmap.readPixelsToBuffer(readBuffer, (err, res) => {
if(err) {
console.log('readPixelsToBuffer failed.'); // Called if the condition is met.
console.log('Failed to read image pixel data.'); // Called if no condition is met.
} else {
console.log('readPixelsToBuffer succeeded.'); // Called if the condition is met.
console.log('Succeeded in reading image pixel data.'); // Called if the condition is met.
}
})
```
......@@ -157,10 +161,11 @@ Reads image pixel map data in an area. This API uses a promise to return the dat
**Example**
```js
pixelmap.readPixels(Area).then((data) => {
console.log('readPixels succeeded.'); // Called if the condition is met.
const area = new ArrayBuffer(400);
pixelmap.readPixels(area).then(() => {
console.log('Succeeded in reading the image data in the area.'); // Called if the condition is met.
}).catch(error => {
console.log('readPixels failed.'); // Called if no condition is met.
console.log('Failed to read the image data in the area.'); // Called if no condition is met.
})
```
......@@ -182,6 +187,8 @@ Reads image pixel map data in an area. This API uses an asynchronous callback to
**Example**
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts, (err, pixelmap) => {
if(pixelmap == undefined){
......@@ -222,6 +229,7 @@ Writes image pixel map data to an area. This API uses a promise to return the op
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts)
.then( pixelmap => {
......@@ -233,7 +241,7 @@ image.createPixelMap(color, opts)
stride: 8,
region: { size: { height: 1, width: 2 }, x: 0, y: 0 }
}
var bufferArr = new Uint8Array(area.pixels);
let bufferArr = new Uint8Array(area.pixels);
for (var i = 0; i < bufferArr.length; i++) {
bufferArr[i] = i + 1;
}
......@@ -269,13 +277,18 @@ Writes image pixel map data to an area. This API uses an asynchronous callback t
**Example**
```js
pixelmap.writePixels(Area, () => {
const area = new ArrayBuffer(400);
pixelmap.writePixels(area, (error) => {
if (error!=undefined) {
console.info('Failed to write pixelmap into the specified area.');
} else {
const readArea = {
pixels: new ArrayBuffer(20),
offset: 0,
stride: 8,
region: { size: { height: 1, width: 2 }, x: 0, y: 0 },
}
}
})
```
......@@ -302,7 +315,10 @@ Reads image data in an **ArrayBuffer** and writes the data to a **PixelMap** obj
**Example**
```js
PixelMap.writeBufferToPixels(color).then(() => {
const color = new ArrayBuffer(96);
const pixelMap = new ArrayBuffer(400);
let bufferArr = new Unit8Array(color);
pixelMap.writeBufferToPixels(color).then(() => {
console.log("Succeeded in writing data from a buffer to a PixelMap.");
}).catch((err) => {
console.error("Failed to write data from a buffer to a PixelMap.");
......@@ -327,7 +343,10 @@ Reads image data in an **ArrayBuffer** and writes the data to a **PixelMap** obj
**Example**
```js
PixelMap.writeBufferToPixels(color, function(err) {
const color = new ArrayBuffer(96);\
const pixelMap = new ArrayBuffer(400);
let bufferArr = new Unit8Array(color);
pixelMap.writeBufferToPixels(color, function(err) {
if (err) {
console.error("Failed to write data from a buffer to a PixelMap.");
return;
......@@ -354,7 +373,8 @@ Obtains pixel map information of this image. This API uses a promise to return t
**Example**
```js
PixelMap.getImageInfo().then(function(info) {
const pixelMap = new ArrayBuffer(400);
pixelMap.getImageInfo().then(function(info) {
console.log("Succeeded in obtaining the image pixel map information.");
}).catch((err) => {
console.error("Failed to obtain the image pixel map information.");
......@@ -379,9 +399,7 @@ Obtains pixel map information of this image. This API uses an asynchronous callb
```js
pixelmap.getImageInfo((imageInfo) => {
console.log("getImageInfo succeeded.");
}).catch((err) => {
console.error("getImageInfo failed.");
console.log("Succeeded in obtaining the image pixel map information..");
})
```
......@@ -402,7 +420,10 @@ Obtains the number of bytes per line of the image pixel map.
**Example**
```js
image.createPixelMap(clolr, opts, (err,pixelmap) => {
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts, (err,pixelmap) => {
let rowCount = pixelmap.getBytesNumberPerRow();
})
```
......@@ -444,11 +465,14 @@ Releases this **PixelMap** object. This API uses a promise to return the result.
**Example**
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts, (pixelmap) => {
pixelmap.release().then(() => {
console.log('release succeeded.');
console.log('Succeeded in releasing pixelmap object.');
}).catch(error => {
console.log('release failed.');
console.log('Failed to release pixelmap object.');
})
})
```
......@@ -470,11 +494,14 @@ Releases this **PixelMap** object. This API uses an asynchronous callback to ret
**Example**
```js
const color = new ArrayBuffer(96);
let bufferArr = new Unit8Array(color);
let opts = { editable: true, pixelFormat: 3, size: { height: 4, width: 6 } }
image.createPixelMap(color, opts, (pixelmap) => {
pixelmap.release().then(() => {
console.log('release succeeded.');
console.log('Succeeded in releasing pixelmap object.');
}).catch(error => {
console.log('release failed.');
console.log('Failed to release pixelmap object.');
})
})
```
......@@ -589,9 +616,7 @@ Obtains information about this image. This API uses an asynchronous callback to
```js
imageSourceApi.getImageInfo(imageInfo => {
console.log('getImageInfo succeeded.');
}).catch(error => {
console.log('getImageInfo failed.');
console.log('Succeeded in obtaining the image information.');
})
```
......@@ -620,9 +645,9 @@ Obtains information about an image with the specified index. This API uses a pro
```js
imageSourceApi.getImageInfo(0)
.then(imageInfo => {
console.log('getImageInfo succeeded.');
console.log('Succeeded in obtaining the image information.');
}).catch(error => {
console.log('getImageInfo failed.');
console.log('Failed to obtain the image information.');
})
```
......@@ -652,9 +677,7 @@ Obtains the value of a property with the specified index in this image. This API
```js
imageSourceApi.getImageProperty("BitsPerSample")
.then(data => {
console.log('getImageProperty succeeded.');
}).catch(error => {
console.log('getImageProperty failed.');
console.log('Succeeded in getting the value of the specified attribute key of the image.');
})
```
......@@ -678,9 +701,9 @@ Obtains the value of a property with the specified index in this image. This API
```js
imageSourceApi.getImageProperty("BitsPerSample",(error,data) => {
if(error) {
console.log('getImageProperty failed.');
console.log('Failed to get the value of the specified attribute key of the image.');
} else {
console.log('getImageProperty succeeded.');
console.log('Succeeded in getting the value of the specified attribute key of the image.');
}
})
```
......@@ -704,11 +727,12 @@ Obtains the value of a property in this image. This API uses an asynchronous cal
**Example**
```js
imageSourceApi.getImageProperty("BitsPerSample",Property,(error,data) => {
const property = new ArrayBuffer(400);
imageSourceApi.getImageProperty("BitsPerSample",property,(error,data) => {
if(error) {
console.log('getImageProperty failed.');
console.log('Failed to get the value of the specified attribute key of the image.');
} else {
console.log('getImageProperty succeeded.');
console.log('Succeeded in getting the value of the specified attribute key of the image.');
}
})
```
......@@ -737,9 +761,9 @@ Creates a **PixelMap** object based on image decoding parameters. This API uses
```js
imageSourceApi.createPixelMap().then(pixelmap => {
console.log('createPixelMap succeeded.');
console.log('Succeeded in creating pixelmap object through image decoding parameters.');
}).catch(error => {
console.log('createPixelMap failed.');
console.log('Failed to create pixelmap object through image decoding parameters.');
})
```
......@@ -761,9 +785,9 @@ Creates a **PixelMap** object based on the default parameters. This API uses an
```js
imageSourceApi.createPixelMap(pixelmap => {
console.log('createPixelMap succeeded.');
console.log('Succeeded in creating pixelmap object.');
}).catch(error => {
console.log('createPixelMap failed.');
console.log('Failed to create pixelmap object.');
})
```
......@@ -785,10 +809,9 @@ Creates a **PixelMap** object based on image decoding parameters. This API uses
**Example**
```js
const decodingOptions = new ArrayBuffer(400);
imageSourceApi.createPixelMap(decodingOptions, pixelmap => {
console.log('createPixelMap succeeded.');
}).catch(error => {
console.log('createPixelMap failed.');
console.log('Succeeded in creating pixelmap object.');
})
```
......@@ -811,8 +834,6 @@ Releases this **ImageSource** instance. This API uses an asynchronous callback t
```js
imageSourceApi.release(() => {
console.log('release succeeded.');
}).catch(error => {
console.log('release failed.');
})
```
......@@ -834,9 +855,9 @@ Releases this **ImageSource** instance. This API uses a promise to return the re
```js
imageSourceApi.release().then(()=>{
console.log('release succeeded.');
console.log('Succeeded in releasing the image source instance.');
}).catch(error => {
console.log('release failed.');
console.log('Failed to release the image source instance.');
})
```
......@@ -891,8 +912,9 @@ Packs an image. This API uses an asynchronous callback to return the result.
**Example**
```js
let packOpts = { format:["image/jpeg"], quality:98 };
imagePackerApi.packing(ImageSourceApi, packOpts, data => {})
let packOpts = { format:"image/jpeg", quality:98 };
const imageSourceApi = new ArrayBuffer(400);
imagePackerApi.packing(imageSourceApi, packOpts, data => {})
```
### packing
......@@ -919,8 +941,9 @@ Packs an image. This API uses a promise to return the result.
**Example**
```js
let packOpts = { format:["image/jpeg"], quality:98 }
imagePackerApi.packing(ImageSourceApi, packOpts)
let packOpts = { format:"image/jpeg", quality:98 }
const imageSourceApi = new ArrayBuffer(400);
imagePackerApi.packing(imageSourceApi, packOpts)
.then( data => {
console.log('packing succeeded.');
}).catch(error => {
......@@ -947,11 +970,12 @@ Packs an image. This API uses an asynchronous callback to return the result.
**Example**
```js
let packOpts = { format:["image/jpeg"], quality:98 }
imagePackerApi.packing(PixelMapApi, packOpts, data => {
console.log('packing succeeded.');
let packOpts = { format:"image/jpeg", quality:98 }
const pixelMapApi = new ArrayBuffer(400);
imagePackerApi.packing(pixelMapApi, packOpts, data => {
console.log('Succeeded in packing the image.');
}).catch(error => {
console.log('packing failed.');
console.log('Failed to pack the image.');
})
```
......@@ -979,12 +1003,13 @@ Packs an image. This API uses a promise to return the result.
**Example**
```js
let packOpts = { format:["image/jpeg"], quality:98 }
imagePackerApi.packing(PixelMapApi, packOpts)
let packOpts = { format:"image/jpeg", quality:98 }
const pixelMapApi = new ArrayBuffer(400);
imagePackerApi.packing(pixelMapApi, packOpts)
.then( data => {
console.log('packing succeeded.');
console.log('Succeeded in packing the image.');
}).catch(error => {
console.log('packing failed.');
console.log('Failed to pack the image..');
})
```
......@@ -1006,9 +1031,7 @@ Releases this **ImagePacker** instance. This API uses an asynchronous callback t
```js
imagePackerApi.release(()=>{
console.log('release succeeded.');
}).catch(error => {
console.log('release failed.');
console.log('Succeeded in releasing image packaging.');
})
```
......@@ -1030,9 +1053,9 @@ Releases this **ImagePacker** instance. This API uses a promise to return the re
```js
imagePackerApi.release().then(()=>{
console.log('release succeeded.');
console.log('Succeeded in releasing image packaging.');
}).catch((error)=>{
console.log('release failed.');
console.log('Failed to release image packaging.');
})
```
......@@ -1098,7 +1121,7 @@ Obtains a surface ID for the camera or other components. This API uses an asynch
**Example**
```js
receiver.getReceivingSurfaceId((err, id) => {
receiver.getReceivingSurfaceId((err, id) => {
if(err) {
console.log('getReceivingSurfaceId failed.');
} else {
......@@ -1536,7 +1559,7 @@ Defines the option for image packing.
| Name | Type | Readable| Writable| Description |
| ------- | ------ | ---- | ---- | -------------- |
| format | string | Yes | Yes | Format of the packed image. |
| quality | number | Yes | Yes | Quality of the packed image.|
| quality | number | Yes | Yes | Quality of the output image during JPEG encoding. The value ranges from 1 to 100.|
## GetImagePropertyOptions<sup>7+</sup>
......
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