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import defined from "../Core/defined.js";
import DeveloperError from "../Core/DeveloperError.js";
import Appearance from "./Appearance.js";
/**
* Visualizes a vertex attribute by displaying it as a color for debugging.
* <p>
* Components for well-known unit-length vectors, i.e., <code>normal</code>,
* <code>tangent</code>, and <code>bitangent</code>, are scaled and biased
* from [-1.0, 1.0] to (-1.0, 1.0).
* </p>
*
* @alias DebugAppearance
* @constructor
*
* @param {object} options Object with the following properties:
* @param {string} options.attributeName The name of the attribute to visualize.
* @param {boolean} [options.perInstanceAttribute=false] Boolean that determines whether this attribute is a per-instance geometry attribute.
* @param {string} [options.glslDatatype='vec3'] The GLSL datatype of the attribute. Supported datatypes are <code>float</code>, <code>vec2</code>, <code>vec3</code>, and <code>vec4</code>.
* @param {string} [options.vertexShaderSource] Optional GLSL vertex shader source to override the default vertex shader.
* @param {string} [options.fragmentShaderSource] Optional GLSL fragment shader source to override the default fragment shader.
* @param {object} [options.renderState] Optional render state to override the default render state.
*
* @exception {DeveloperError} options.glslDatatype must be float, vec2, vec3, or vec4.
*
* @example
* const primitive = new Cesium.Primitive({
* geometryInstances : // ...
* appearance : new Cesium.DebugAppearance({
* attributeName : 'normal'
* })
* });
*/
function DebugAppearance(options) {
options = options ?? Frozen.EMPTY_OBJECT;
const attributeName = options.attributeName;
let perInstanceAttribute = options.perInstanceAttribute;
//>>includeStart('debug', pragmas.debug);
if (!defined(attributeName)) {
throw new DeveloperError("options.attributeName is required.");
}
//>>includeEnd('debug');
Iif (!defined(perInstanceAttribute)) {
perInstanceAttribute = false;
}
let glslDatatype = options.glslDatatype ?? "vec3";
const varyingName = `v_${attributeName}`;
let getColor;
// Well-known normalized vector attributes in VertexFormat
if (
attributeName === "normal" ||
attributeName === "tangent" ||
attributeName === "bitangent"
) {
getColor = `vec4 getColor() { return vec4((${varyingName} + vec3(1.0)) * 0.5, 1.0); }\n`;
} else {
// All other attributes, both well-known and custom
if (attributeName === "st") {
glslDatatype = "vec2";
}
switch (glslDatatype) {
case "float":
getColor = `vec4 getColor() { return vec4(vec3(${varyingName}), 1.0); }\n`;
break;
case "vec2":
getColor = `vec4 getColor() { return vec4(${varyingName}, 0.0, 1.0); }\n`;
break;
case "vec3":
getColor = `vec4 getColor() { return vec4(${varyingName}, 1.0); }\n`;
break;
case "vec4":
getColor = `vec4 getColor() { return ${varyingName}; }\n`;
break;
//>>includeStart('debug', pragmas.debug);
default:
throw new DeveloperError(
"options.glslDatatype must be float, vec2, vec3, or vec4.",
);
//>>includeEnd('debug');
}
}
const vs =
`${
"in vec3 position3DHigh;\n" +
"in vec3 position3DLow;\n" +
"in float batchId;\n"
}${
perInstanceAttribute ? "" : `in ${glslDatatype} ${attributeName};\n`
}out ${glslDatatype} ${varyingName};\n` +
`void main()\n` +
`{\n` +
`vec4 p = czm_translateRelativeToEye(position3DHigh, position3DLow);\n${
perInstanceAttribute
? `${varyingName} = czm_batchTable_${attributeName}(batchId);\n`
: `${varyingName} = ${attributeName};\n`
}gl_Position = czm_modelViewProjectionRelativeToEye * p;\n` +
`}`;
const fs =
`in ${glslDatatype} ${varyingName};\n${getColor}\n` +
`void main()\n` +
`{\n` +
`out_FragColor = getColor();\n` +
`}`;
/**
* This property is part of the {@link Appearance} interface, but is not
* used by {@link DebugAppearance} since a fully custom fragment shader is used.
*
* @type Material
*
* @default undefined
*/
this.material = undefined;
/**
* When <code>true</code>, the geometry is expected to appear translucent.
*
* @type {boolean}
*
* @default false
*/
this.translucent = options.translucent ?? false;
this._vertexShaderSource = options.vertexShaderSource ?? vs;
this._fragmentShaderSource = options.fragmentShaderSource ?? fs;
this._renderState = Appearance.getDefaultRenderState(
false,
false,
options.renderState,
);
this._closed = options.closed ?? false;
// Non-derived members
this._attributeName = attributeName;
this._glslDatatype = glslDatatype;
}
Object.defineProperties(DebugAppearance.prototype, {
/**
* The GLSL source code for the vertex shader.
*
* @memberof DebugAppearance.prototype
*
* @type {string}
* @readonly
*/
vertexShaderSource: {
get: function () {
return this._vertexShaderSource;
},
},
/**
* The GLSL source code for the fragment shader. The full fragment shader
* source is built procedurally taking into account the {@link DebugAppearance#material}.
* Use {@link DebugAppearance#getFragmentShaderSource} to get the full source.
*
* @memberof DebugAppearance.prototype
*
* @type {string}
* @readonly
*/
fragmentShaderSource: {
get: function () {
return this._fragmentShaderSource;
},
},
/**
* The WebGL fixed-function state to use when rendering the geometry.
*
* @memberof DebugAppearance.prototype
*
* @type {object}
* @readonly
*/
renderState: {
get: function () {
return this._renderState;
},
},
/**
* When <code>true</code>, the geometry is expected to be closed.
*
* @memberof DebugAppearance.prototype
*
* @type {boolean}
* @readonly
*
* @default false
*/
closed: {
get: function () {
return this._closed;
},
},
/**
* The name of the attribute being visualized.
*
* @memberof DebugAppearance.prototype
*
* @type {string}
* @readonly
*/
attributeName: {
get: function () {
return this._attributeName;
},
},
/**
* The GLSL datatype of the attribute being visualized.
*
* @memberof DebugAppearance.prototype
*
* @type {string}
* @readonly
*/
glslDatatype: {
get: function () {
return this._glslDatatype;
},
},
});
/**
* Returns the full GLSL fragment shader source, which for {@link DebugAppearance} is just
* {@link DebugAppearance#fragmentShaderSource}.
*
* @function
*
* @returns {string} The full GLSL fragment shader source.
*/
DebugAppearance.prototype.getFragmentShaderSource =
Appearance.prototype.getFragmentShaderSource;
/**
* Determines if the geometry is translucent based on {@link DebugAppearance#translucent}.
*
* @function
*
* @returns {boolean} <code>true</code> if the appearance is translucent.
*/
DebugAppearance.prototype.isTranslucent = Appearance.prototype.isTranslucent;
/**
* Creates a render state. This is not the final render state instance; instead,
* it can contain a subset of render state properties identical to the render state
* created in the context.
*
* @function
*
* @returns {object} The render state.
*/
DebugAppearance.prototype.getRenderState = Appearance.prototype.getRenderState;
export default DebugAppearance;
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