質問内容
提示コードのコメント部内部のA,b
部ですがTypedoc Error
部のようなエラーが大量に発生します。
これはどうやってエラーを解消したらいいのでしょうか?実行自体はできるのですが。Typedoc
によるエラーが発生してしまいドキュメントが作成できません。
現状
1,実行可能
2,ドキュメント作成のためtypedocが提示のようなエラーになります。(一部抜粋)
3,tsconfig.jsonは生成してから触っていません
コード内容
WebGLを使って立方体を描画
調べたこと
TypeScript型: https://qiita.com/uhyo/items/e2fdef2d3236b9bfe74a
any型について: https://typescriptbook.jp/reference/values-types-variables/any
環境
OS: windows 10
言語: TypeScript
利用ライブラリ: WebGL2
その他: node.js
tsconfig.json
{
"compilerOptions": {
/* Visit https://aka.ms/tsconfig to read more about this file */
/* Projects */
// "incremental": true, /* Save .tsbuildinfo files to allow for incremental compilation of projects. */
// "composite": true, /* Enable constraints that allow a TypeScript project to be used with project references. */
// "tsBuildInfoFile": "./.tsbuildinfo", /* Specify the path to .tsbuildinfo incremental compilation file. */
// "disableSourceOfProjectReferenceRedirect": true, /* Disable preferring source files instead of declaration files when referencing composite projects. */
// "disableSolutionSearching": true, /* Opt a project out of multi-project reference checking when editing. */
// "disableReferencedProjectLoad": true, /* Reduce the number of projects loaded automatically by TypeScript. */
/* Language and Environment */
"target": "es2016", /* Set the JavaScript language version for emitted JavaScript and include compatible library declarations. */
// "lib": [], /* Specify a set of bundled library declaration files that describe the target runtime environment. */
// "jsx": "preserve", /* Specify what JSX code is generated. */
// "experimentalDecorators": true, /* Enable experimental support for legacy experimental decorators. */
// "emitDecoratorMetadata": true, /* Emit design-type metadata for decorated declarations in source files. */
// "jsxFactory": "", /* Specify the JSX factory function used when targeting React JSX emit, e.g. 'React.createElement' or 'h'. */
// "jsxFragmentFactory": "", /* Specify the JSX Fragment reference used for fragments when targeting React JSX emit e.g. 'React.Fragment' or 'Fragment'. */
// "jsxImportSource": "", /* Specify module specifier used to import the JSX factory functions when using 'jsx: react-jsx*'. */
// "reactNamespace": "", /* Specify the object invoked for 'createElement'. This only applies when targeting 'react' JSX emit. */
// "noLib": true, /* Disable including any library files, including the default lib.d.ts. */
// "useDefineForClassFields": true, /* Emit ECMAScript-standard-compliant class fields. */
// "moduleDetection": "auto", /* Control what method is used to detect module-format JS files. */
/* Modules */
"module": "commonjs", /* Specify what module code is generated. */
// "rootDir": "./", /* Specify the root folder within your source files. */
// "moduleResolution": "node10", /* Specify how TypeScript looks up a file from a given module specifier. */
// "baseUrl": "./", /* Specify the base directory to resolve non-relative module names. */
// "paths": {}, /* Specify a set of entries that re-map imports to additional lookup locations. */
// "rootDirs": [], /* Allow multiple folders to be treated as one when resolving modules. */
// "typeRoots": [], /* Specify multiple folders that act like './node_modules/@types'. */
// "types": [], /* Specify type package names to be included without being referenced in a source file. */
// "allowUmdGlobalAccess": true, /* Allow accessing UMD globals from modules. */
// "moduleSuffixes": [], /* List of file name suffixes to search when resolving a module. */
// "allowImportingTsExtensions": true, /* Allow imports to include TypeScript file extensions. Requires '--moduleResolution bundler' and either '--noEmit' or '--emitDeclarationOnly' to be set. */
// "resolvePackageJsonExports": true, /* Use the package.json 'exports' field when resolving package imports. */
// "resolvePackageJsonImports": true, /* Use the package.json 'imports' field when resolving imports. */
// "customConditions": [], /* Conditions to set in addition to the resolver-specific defaults when resolving imports. */
// "resolveJsonModule": true, /* Enable importing .json files. */
// "allowArbitraryExtensions": true, /* Enable importing files with any extension, provided a declaration file is present. */
// "noResolve": true, /* Disallow 'import's, 'require's or '<reference>'s from expanding the number of files TypeScript should add to a project. */
/* JavaScript Support */
// "allowJs": true, /* Allow JavaScript files to be a part of your program. Use the 'checkJS' option to get errors from these files. */
// "checkJs": true, /* Enable error reporting in type-checked JavaScript files. */
// "maxNodeModuleJsDepth": 1, /* Specify the maximum folder depth used for checking JavaScript files from 'node_modules'. Only applicable with 'allowJs'. */
/* Emit */
// "declaration": true, /* Generate .d.ts files from TypeScript and JavaScript files in your project. */
// "declarationMap": true, /* Create sourcemaps for d.ts files. */
// "emitDeclarationOnly": true, /* Only output d.ts files and not JavaScript files. */
// "sourceMap": true, /* Create source map files for emitted JavaScript files. */
// "inlineSourceMap": true, /* Include sourcemap files inside the emitted JavaScript. */
// "outFile": "./", /* Specify a file that bundles all outputs into one JavaScript file. If 'declaration' is true, also designates a file that bundles all .d.ts output. */
// "outDir": "./", /* Specify an output folder for all emitted files. */
// "removeComments": true, /* Disable emitting comments. */
// "noEmit": true, /* Disable emitting files from a compilation. */
// "importHelpers": true, /* Allow importing helper functions from tslib once per project, instead of including them per-file. */
// "importsNotUsedAsValues": "remove", /* Specify emit/checking behavior for imports that are only used for types. */
// "downlevelIteration": true, /* Emit more compliant, but verbose and less performant JavaScript for iteration. */
// "sourceRoot": "", /* Specify the root path for debuggers to find the reference source code. */
// "mapRoot": "", /* Specify the location where debugger should locate map files instead of generated locations. */
// "inlineSources": true, /* Include source code in the sourcemaps inside the emitted JavaScript. */
// "emitBOM": true, /* Emit a UTF-8 Byte Order Mark (BOM) in the beginning of output files. */
// "newLine": "crlf", /* Set the newline character for emitting files. */
// "stripInternal": true, /* Disable emitting declarations that have '@internal' in their JSDoc comments. */
// "noEmitHelpers": true, /* Disable generating custom helper functions like '__extends' in compiled output. */
// "noEmitOnError": true, /* Disable emitting files if any type checking errors are reported. */
// "preserveConstEnums": true, /* Disable erasing 'const enum' declarations in generated code. */
// "declarationDir": "./", /* Specify the output directory for generated declaration files. */
// "preserveValueImports": true, /* Preserve unused imported values in the JavaScript output that would otherwise be removed. */
/* Interop Constraints */
// "isolatedModules": true, /* Ensure that each file can be safely transpiled without relying on other imports. */
// "verbatimModuleSyntax": true, /* Do not transform or elide any imports or exports not marked as type-only, ensuring they are written in the output file's format based on the 'module' setting. */
// "allowSyntheticDefaultImports": true, /* Allow 'import x from y' when a module doesn't have a default export. */
"esModuleInterop": true, /* Emit additional JavaScript to ease support for importing CommonJS modules. This enables 'allowSyntheticDefaultImports' for type compatibility. */
// "preserveSymlinks": true, /* Disable resolving symlinks to their realpath. This correlates to the same flag in node. */
"forceConsistentCasingInFileNames": true, /* Ensure that casing is correct in imports. */
/* Type Checking */
"strict": true, /* Enable all strict type-checking options. */
// "noImplicitAny": true, /* Enable error reporting for expressions and declarations with an implied 'any' type. */
// "strictNullChecks": true, /* When type checking, take into account 'null' and 'undefined'. */
// "strictFunctionTypes": true, /* When assigning functions, check to ensure parameters and the return values are subtype-compatible. */
// "strictBindCallApply": true, /* Check that the arguments for 'bind', 'call', and 'apply' methods match the original function. */
// "strictPropertyInitialization": true, /* Check for class properties that are declared but not set in the constructor. */
// "noImplicitThis": true, /* Enable error reporting when 'this' is given the type 'any'. */
// "useUnknownInCatchVariables": true, /* Default catch clause variables as 'unknown' instead of 'any'. */
// "alwaysStrict": true, /* Ensure 'use strict' is always emitted. */
// "noUnusedLocals": true, /* Enable error reporting when local variables aren't read. */
// "noUnusedParameters": true, /* Raise an error when a function parameter isn't read. */
// "exactOptionalPropertyTypes": true, /* Interpret optional property types as written, rather than adding 'undefined'. */
// "noImplicitReturns": true, /* Enable error reporting for codepaths that do not explicitly return in a function. */
// "noFallthroughCasesInSwitch": true, /* Enable error reporting for fallthrough cases in switch statements. */
// "noUncheckedIndexedAccess": true, /* Add 'undefined' to a type when accessed using an index. */
// "noImplicitOverride": true, /* Ensure overriding members in derived classes are marked with an override modifier. */
// "noPropertyAccessFromIndexSignature": true, /* Enforces using indexed accessors for keys declared using an indexed type. */
// "allowUnusedLabels": true, /* Disable error reporting for unused labels. */
// "allowUnreachableCode": true, /* Disable error reporting for unreachable code. */
/* Completeness */
// "skipDefaultLibCheck": true, /* Skip type checking .d.ts files that are included with TypeScript. */
"skipLibCheck": true /* Skip type checking all .d.ts files. */
}
}
Vscodeによるエラー画面
Typedoc Error
>npx typedoc script/Main.ts
script/FrameWork.ts:31:5 - error TS7034: Variable 'context' implicitly has type 'any' in some locations where its type cannot be determined.
31 let context = null; //コンテキスト
~~~~~~~
script/FrameWork.ts:32:5 - error TS7034: Variable 'buffer' implicitly has type 'any' in some locations where its type cannot be determined.
32 let buffer = null; //バッファー
~~~~~~
script/FrameWork.ts:45:15 - error TS18047: 'canvas' is possibly 'null'.
45 context = canvas.getContext('webgl'); //webcontextコンテキストを作成
~~~~~~
script/FrameWork.ts:45:22 - error TS2339: Property 'getContext' does not exist on type 'Element'.
45 context = canvas.getContext('webgl'); //webcontextコンテキストを作成
~~~~~~~~~~
script/FrameWork.ts:191:17 - error TS7005: Variable 'context' implicitly has an 'any' type.
191 const buf = context.createBuffer();
~~~~~~~
script.ts
import * as glm from "gl-matrix";
"use strict";
//モデルの情報
let model =
{
Translate:
{
x: 0,
y: 0,
z: -4,
},
Rotate:
{
x: 0,
y: 0,
z: 0,
},
Scale:
{
x: 1,
y: 1,
z: 1,
},
};
//A
////////////////////////////////////////////////////////////
let canvas; //キャンバス
let context; //コンテキスト
let buffer; //バッファー
/////////////////////////////////////////////////////////////
let programInfo = { attribLocations: {vertexPosition:null},uniformLocations: {projectionMatrix: null,position:null,scale:null,rotate:null},shaderProgram: null }; //プログラム
//
// エントリーポイント
//
export function main()
{
canvas = document.querySelector('#glCanvas'); //キャンバスを取得
//B
/////////////////////////////////////////////////////////////////////////////////////
context = canvas.getContext('webgl2'); //webcontextコンテキストを作成
/////////////////////////////////////////////////////////////////////////////////////
//webcontextコンテキストの作成に失敗した時
if (!context)
{
alert("webcontextコンテキストの作成失敗");
}
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
// 頂点シェーダーコード
const vsSource = `
attribute vec4 aVertexPosition; //
uniform mat4 uProjectionMatrix; //
uniform mat4 uPosition; //
uniform mat4 uScale; //
uniform mat4 uRotate; //
void main() {
mat4 model = uPosition * uRotate * uScale; //
gl_Position = (uProjectionMatrix * model) * aVertexPosition;
}
`;
// フラグメントシェーダー
const fsSource = `
void main() {
gl_FragColor = vec4(0.0, 0.0, 1.0, 1.0);
}
`;
////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
//シェーダープログラムオブジェクトを作成
const shaderProgram = CreateShaderProgram(vsSource,fsSource);//シェーダープログラムを作成
programInfo.shaderProgram = shaderProgram;
programInfo.attribLocations.vertexPosition = context.getAttribLocation(shaderProgram,'aVertexPosition');
programInfo.uniformLocations.projectionMatrix = context.getUniformLocation(shaderProgram,'uProjectionMatrix');
programInfo.uniformLocations.position = context.getUniformLocation(shaderProgram,'uPosition');
programInfo.uniformLocations.scale = context.getUniformLocation(shaderProgram,'uScale');
programInfo.uniformLocations.rotate = context.getUniformLocation(shaderProgram,'uRotate');
buffer = GetBuffer(); //バッファーを作成
document.body.addEventListener("keydown",event =>
{
//スペースキー
if(event.key == " ")
{
//alert("キーが押されました。");
console.log("Space");
}
else if(event.key == "ArrowLeft")
{
//alert("キーが押されました。");
console.log("Left");
// model.Translate.x += 10;
model.Translate.x += -1.0 / 640.0;
console.log(model.Translate.x);
}
else if(event.key == "ArrowRight")
{
//alert("キーが押されました。");
console.log("Right");
model.Translate.x += 1 / 640;
}
else if(event.key == "ArrowUp")
{
//alert("キーが押されました。");
console.log("Up");
}
else if(event.key == "ArrowDown")
{
//alert("キーが押されました。");
console.log("Down");
}
});
// ######### 毎フレーム #########
//window.requestAnimationFrame(() =>{ Draw(); Update(); });
function callback()
{
Draw();
Update();
// ここに繰り返したい処理を書く。
window.requestAnimationFrame(callback); // 毎回呼び出す必要あり。
}
window.requestAnimationFrame(callback); // 実行を開始。
}
//Update()
function Update()
{
InputKey();
}
//Draw
function Draw()
{
Render();
//window.requestAnimationFrame(Draw);
}
//キー入力
function InputKey()
{
}
//バッファを初期化
function GetBuffer()
{
// 正方形の位置用のバッファを作成します。
const buf = context.createBuffer();
//バッファを適用
context.bindBuffer(context.ARRAY_BUFFER,buf);
//正方形の頂点の配列
const positions =
[
1.0,1.0,0.0,
-1.0,1.0,0.0,
1.0,-1.0,0.0,
-1.0,-1.0,0.0
];
//バッファーオブジェクトのデータストアを初期化
context.bufferData(context.ARRAY_BUFFER,new Float32Array(positions),context.STATIC_DRAW);
return buf;
}
//シーンを描画
function Render()
{
context.clearColor(0.0, 0.0, 0.0, 1.0); // カラーバッファを初期化
context.clearDepth(1.0); // 深度バッファを初期化
context.enable(context.DEPTH_TEST); // 深度テスト
context.depthFunc(context.LEQUAL); // 深度比較する値を設定
//キャンバスに描画を開始する前に、キャンバスをクリア
context.clear(context.COLOR_BUFFER_BIT | context.DEPTH_BUFFER_BIT);
//パースペクティブマトリックスを作成します
const fieldOfView = 45 * Math.PI / 180; // in radians
const aspect = context.canvas.clientWidth / context.canvas.clientHeight;
const zNear = 0.1;
const zFar = 100.0;
//射形行列
const projectionMatrix = glm.mat4.create();
glm.mat4.perspective(projectionMatrix,fieldOfView,aspect,zNear,zFar);
//平行移動
let translate = glm.mat4.create();
glm.mat4.translate(translate,translate,[model.Translate.x,model.Translate.y,model.Translate.z]);
//回転
let rotation = glm.mat4.create();
glm.mat4.rotate(rotation,rotation,0,[model.Rotate.x,model.Rotate.y,model.Rotate.z]);
//拡大縮小
let scale = glm.mat4.create();
glm.mat4.scale(scale,scale,[model.Scale.x,model.Scale.y,model.Scale.z]);
context.bindBuffer(context.ARRAY_BUFFER, buffer); //バッファーを適用
context.vertexAttribPointer(programInfo.attribLocations.vertexPosition,3,context.FLOAT,false,0,0); //バッファーの頂点属性を統合
context.enableVertexAttribArray(programInfo.attribLocations.vertexPosition); //バッファーの頂点属性を有効化
//シェーダーを使う
context.useProgram(programInfo.shaderProgram);
// uniform 変数を設定
context.uniformMatrix4fv(programInfo.uniformLocations.projectionMatrix,false,projectionMatrix);
context.uniformMatrix4fv(programInfo.uniformLocations.position,false,translate);
context.uniformMatrix4fv(programInfo.uniformLocations.scale,false,scale);
context.uniformMatrix4fv(programInfo.uniformLocations.rotate,false,rotation);
context.drawArrays(context.TRIANGLE_STRIP, 0, 4); //描画
}
//シェーダーを作成
function CreateShaderProgram(vsSource,fsSource)
{
const vertexShader = LoadShader(context.VERTEX_SHADER, vsSource);
const fragmentShader = LoadShader(context.FRAGMENT_SHADER, fsSource);
//シェーダープログラムを作成
const shaderProgram = context.createProgram();
//アタッチ
context.attachShader(shaderProgram, vertexShader);
context.attachShader(shaderProgram, fragmentShader);
context.linkProgram(shaderProgram);
// もしシェーダープログラムの作成に失敗したら
if (!context.getProgramParameter(shaderProgram, context.LINK_STATUS))
{
alert('シェーダープログラム作成に失敗: ' + context.getProgramInfoLog(shaderProgram));
return null;
}
return shaderProgram;
}
//シェーダーをロード
function LoadShader(type, source)
{
const shader = context.createShader(type);
// ソースをシェーダーオブジェクトに送信します
context.shaderSource(shader, source);
// コンパイルシェーダー
context.compileShader(shader);
// コンパイルが成功したかどうか?
if (!context.getShaderParameter(shader, context.COMPILE_STATUS))
{
alert('An error occurred compiling the shaders: ' + context.getShaderInfoLog(shader));
context.deleteShader(shader);
return null;
}
return shader;
}
window.onload = main; //実行