这篇文章主要介绍“ahooks useRequest怎么使用”,在日常操作中,相信很多人在ahooks useRequest怎么使用问题上存在疑惑,小编查阅了各式资料,整理出简单好用的操作方法,希望对大家解答”ahooks useRequest怎么使用”的疑惑有所帮助!接下来,请跟着小编一起来学习吧!
先上代码:
useRequest.ts
interface UseRequestOptionsProps {
/*
* 请求参数
*/
initialData?: object;
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const { initialData, onSuccess } = options;
useEffect(() => {
setLoading(true);
setError(null);
setData(null);
request();
}, [requestFn]);
// useRequest业务逻辑
const request = async () => {
try {
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
return { data, loading, error };
};
export default useRequest;使用
const { data, loading, error } = useRequest(
queryCompensatoryOrderSituation,
{
initialData: {
compensatoryId,
}
onSuccess: (res) => {
console.log('success request!', res);
},
},
);useRequest 对于请求函数的写法并无过多要求,只要是一个异步function且返回一个promise对象,即可传入useRequest的第一个参数中,而第二个参数则是一系列的可选配置项,雏形版本我们暂时只支持onSuccess。
代码改造后:
useRequest.ts
interface UseRequestOptionsProps {
/*
* 手动开启
*/
manual?: boolean;
/*
* 请求参数
*/
initialData?: object;
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const { manual, initialData, onSuccess } = options;
useEffect(() => {
setLoading(true);
setError(null);
setData(null);
!manual && request();
}, [manual]);
// useRequest业务逻辑
const request = async () => {
try {
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
return { data, loading, error, request };
};
export default useRequest;使用
const { data, loading, error, request } = useRequest(
queryCompensatoryOrderSituation,
{
manual: true,
initialData: {
compensatoryId,
},
onSuccess: (res) => {
console.log('success request!', res);
},
},
);
request();手动执行的逻辑主要是根据manual参数砍掉useRequest mount阶段的渲染请求,把执行请求的能力暴露出去,在页面中去手动调用request()来触发。
代码改造后:
useRequest.ts
interface UseRequestOptionsProps {
/*
* 手动开启
*/
manual?: boolean;
/*
* 请求参数
*/
initialData?: object;
/*
* 轮询
*/
pollingInterval?: number | null;
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const status = useRef<boolean>(false);
const pollingIntervalTimer = useRef<NodeJS.Timer | null>(null);
const { manual, initialData, pollingInterval, onSuccess } = options;
useEffect(() => {
setLoading(true);
setError(null);
setData(null);
!manual && request();
}, [manual]);
// useRequest业务逻辑
const request = async () => {
try {
!status.current && (status.current = true);
if (pollingInterval && status.current) {
pollingIntervalTimer.current = setTimeout(() => {
status.current && request();
}, pollingInterval);
}
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
return { data, loading, error, request, cancel };
};
// 取消
const cancel = () => {
if (pollingIntervalTimer.current) {
clearTimeout(pollingIntervalTimer.current);
pollingIntervalTimer.current = null;
status.current && (status.current = false);
}
};
export default useRequest;使用
const { data, loading, error, request, cancel } = useRequest(
queryCompensatoryOrderSituation,
{
manual: true,
initialData: {
compensatoryId,
},
pollingInterval: 1000,
onSuccess: (res) => {
console.log('success request!', res);
},
},
);
request();
...
// 轮询到理想数据后
cancel();轮询的支持在hook中主要用到了timer setTimeout的递归思路,同时给出一个status状态值判断是否在轮询中,当调用端执行cancel(),status则为false;当轮询开始,则status为true。
而cancel()的能力 主要也是取消了timer的递归请求逻辑,并且轮询的业务场景和manual: true配合很多。
代码改造后:
useRequest.ts
interface UseRequestOptionsProps {
/*
* 手动开启
*/
manual?: boolean;
/*
* 请求参数
*/
initialData?: object;
/*
* 轮询
*/
pollingInterval?: number | null;
/*
* 准备,用于依赖请求
*/
ready?: boolean;
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const status = useRef<boolean>(false);
const pollingIntervalTimer = useRef<NodeJS.Timer | null>(null);
const {
manual,
initialData,
pollingInterval,
ready = true,
onSuccess,
} = options;
useEffect(() => {
setLoading(true);
setError(null);
setData(null);
!manual && ready && request();
}, [manual, ready]);
// useRequest业务逻辑
const request = async () => {
try {
!status.current && (status.current = true);
if (pollingInterval && status.current) {
pollingIntervalTimer.current = setTimeout(() => {
status.current && request();
}, pollingInterval);
}
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
return { data, loading, error, request, cancel };
};
// 取消
const cancel = () => {
if (pollingIntervalTimer.current) {
clearTimeout(pollingIntervalTimer.current);
pollingIntervalTimer.current = null;
status.current && (status.current = false);
}
};
export default useRequest;使用
const [mountLoading, setMountLoading] = useState<boolean>(false);
useEffect(() => {
setMountLoading(true);
}, [2000])
const { data, loading, error, request, cancel } = useRequest(
queryCompensatoryOrderSituation,
{
initialData: {
compensatoryId,
},
pollingInterval: 1000,
ready: mountLoading,
onSuccess: (res) => {
console.log('success request!', res);
},
},
);依赖请求的思路就是在hook中加入一个ready字段,也是在基于manual一层的限制后又加了一层,来判断是否在hook加载时是否做默认请求,而当option中的ready更新(为true)时,hook自动更新从而发起请求。
常用于页面中A请求完成后执行B请求,B请求的ready字段依赖于A请求的data/loading字段。
防抖和节流的实现比较简单,依赖于lodash库,包装了一下request函数的请求内容。
代码如下:
useRequest.ts
interface UseRequestOptionsProps {
/*
* 手动开启
*/
manual?: boolean;
/*
* 请求参数
*/
initialData?: object;
/*
* 轮询
*/
pollingInterval?: number | null;
/*
* 准备,用于依赖请求
*/
ready?: boolean;
/*
* 防抖
*/
debounceInterval?: number;
/*
* 节流
*/
throttleInterval?: number;
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const status = useRef<boolean>(false);
const pollingIntervalTimer = useRef<NodeJS.Timer | null>(null);
const {
manual,
initialData,
pollingInterval,
ready = true,
debounceInterval,
throttleInterval
onSuccess,
} = options;
useEffect(() => {
setLoading(true);
setError(null);
setData(null);
!manual && ready && request();
}, [manual, ready]);
// 请求
const request = () => {
if (debounceInterval) {
lodash.debounce(requestDoing, debounceInterval)();
} else if (throttleInterval) {
lodash.throttle(requestDoing, throttleInterval)();
} else {
requestDoing();
}
};
// useRequest业务逻辑
const requestDoing = async () => {
try {
!status.current && (status.current = true);
if (pollingInterval && status.current) {
pollingIntervalTimer.current = setTimeout(() => {
status.current && request();
}, pollingInterval);
}
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
// 取消
const cancel = () => {
if (pollingIntervalTimer.current) {
clearTimeout(pollingIntervalTimer.current);
pollingIntervalTimer.current = null;
status.current && (status.current = false);
}
};
export default useRequest;使用
const { data, loading, error, request, cancel } = useRequest(
queryCompensatoryOrderSituation,
{
manual: true,
initialData: {
compensatoryId,
},
debounceInterval: 1000, // 防抖
throttleInterval: 1000, // 节流
onSuccess: (res) => {
console.log('success request!', res);
},
},
);
for(let i = 0; i < 10000; i++) {
request();
}在hook中,通过lodash.debounce/lodash.throttle来包装request函数主体,通过option中的判断来执行对应的包装体函数。
改造后的代码(最终代码)如下:
useRequest.ts
import {
useState,
useEffect,
useRef,
SetStateAction,
useCallback,
} from 'react';
import lodash from 'lodash';
interface UseRequestOptionsProps {
/*
* 手动开启
*/
manual?: boolean;
/*
* 请求参数
*/
initialData?: object;
/*
* 轮询
*/
pollingInterval?: number | null;
/*
* 准备,用于依赖请求
*/
ready?: boolean;
/*
* 防抖
*/
debounceInterval?: number;
/*
* 节流
*/
throttleInterval?: number;
/*
* 延迟loading为true的时间
*/
loadingDelay?: number;
/*
* 依赖
*/
refreshDeps?: any[];
/*
* 请求成功回调
*/
onSuccess?: (res: any) => void;
}
const useRequest = (
requestFn: (
initialData?: object | string | [],
) => Promise<SetStateAction<any>>,
options: UseRequestOptionsProps,
) => {
const [data, setData] = useState<SetStateAction<any>>(null);
const [loading, setLoading] = useState<boolean>(false);
const [error, setError] = useState<string | null>(null);
const status = useRef<boolean>(false);
const pollingIntervalTimer = useRef<NodeJS.Timer | null>(null);
const {
manual,
initialData,
pollingInterval,
ready = true,
debounceInterval,
throttleInterval,
loadingDelay,
refreshDeps,
onSuccess,
} = options;
useEffect(() => {
if (loadingDelay) {
setTimeout(() => {
status && setLoading(true);
}, loadingDelay);
}
setError(null);
setData(null);
// 手动触发request
!manual && ready && request();
}, [manual, ready, ...(Array.isArray(refreshDeps) ? refreshDeps : [])]);
// 请求
const request = () => {
if (debounceInterval) {
lodash.debounce(requestDoing, debounceInterval)();
} else if (throttleInterval) {
lodash.throttle(requestDoing, throttleInterval)();
} else {
requestDoing();
}
};
// useRequest业务逻辑
const requestDoing = async () => {
try {
!status.current && (status.current = true);
if (pollingInterval && status.current) {
pollingIntervalTimer.current = setTimeout(() => {
status.current && request();
}, pollingInterval);
}
const res = await requestFn(initialData);
setData(res);
// 请求成功响应回调
onSuccess && onSuccess(res);
} catch (err) {
err && setError(JSON.stringify(err));
} finally {
setLoading(false);
}
};
// 取消
const cancel = () => {
if (pollingIntervalTimer.current) {
clearTimeout(pollingIntervalTimer.current);
pollingIntervalTimer.current = null;
status.current && (status.current = false);
}
};
// 缓存
const cachedFetchData = useCallback(() => data, [data]);
return { data, loading, error, request, cancel, cachedFetchData };
};
export default useRequest;使用
const [mountLoading, setMountLoading] = useState<boolean>(false);
const [updateLoading, setUpdateLoading] = useState<boolean>(false);
setTimeout(() => {
setMountLoading(true);
}, 1000);
setTimeout(() => {
setUpdateLoading(true);
}, 2000);
const { data, loading, error, request, cancel, cachedFetchData } = useRequest(
queryCompensatoryOrderSituation,
{
manual: true,
initialData: {
compensatoryId,
},
debounceInterval: 1000, // 防抖
throttleInterval: 1000, // 节流
refreshDeps: [mountLoading, updateLoading],
onSuccess: (res) => {
console.log('success request!', res);
},
},
);缓存的主体思路是在useRequest中拿到第一次数据后通过useCallback来透出data依赖来保存,同时向外暴露一个cachedFetchData来过渡data从null到请求到接口数据的过程。
依赖更新的思路则是在页面中给useRequest一系列依赖状态一并加入在hook的请求副作用中,监听到页面中依赖改变,则重新请求,具体实现则是refreshDeps参数。
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