LNXSDK/Kha/Sources/kha/Sound.hx

package kha;

import haxe.io.Bytes;
import haxe.io.BytesOutput;
import kha.audio2.ogg.vorbis.Reader;

/**
 * Contains compressed or uncompressed audio data.
 */
@:cppFileCode("\n#define STB_VORBIS_HEADER_ONLY\n#include <kinc/libs/stb_vorbis.c>")
class Sound implements Resource {
	public var compressedData: Bytes;
	public var uncompressedData: kha.arrays.Float32Array;
	public var length: Float = 0; // in seconds
	public var channels: Int = 0;
	public var sampleRate: Int = 0;

	public function new() {}

	#if kha_kore
	public function uncompress(done: Void->Void): Void {
		if (uncompressedData != null) {
			done();
			return;
		}

		var samples: Int = 0;
		var channels: Int = 0;
		var samplesPerSecond: Int = 0;

		untyped __cpp__("int16_t *data = nullptr");
		untyped __cpp__("samples = stb_vorbis_decode_memory((uint8_t*)compressedData->b->GetBase(), compressedData->length, &channels, &samplesPerSecond, &data)");

		if (channels == 1) {
			length = samples / samplesPerSecond;
			uncompressedData = new kha.arrays.Float32Array(samples * 2);
			for (i in 0...samples) {
				untyped __cpp__("*((float*)&this->uncompressedData->self.data[({0} * 2) * 4]) = data[{0}] / 32767.0f", i);
				untyped __cpp__("*((float*)&this->uncompressedData->self.data[({0} * 2 + 1) * 4]) = data[{0}] / 32767.0f", i);
			}
		}
		else {
			length = samples / samplesPerSecond;
			samples *= channels;
			uncompressedData = new kha.arrays.Float32Array(samples);
			for (i in 0...samples) {
				untyped __cpp__("*((float*)&this->uncompressedData->self.data[{0} * 4]) = data[{0}] / 32767.0f", i);
			}
		}
		this.channels = channels;
		this.sampleRate = samplesPerSecond;

		untyped __cpp__("delete[] data");

		compressedData = null;
		done();
	}
	#else
	public function uncompress(done: Void->Void): Void {
		#if (!kha_no_ogg)
		if (uncompressedData != null) {
			done();
			return;
		}

		var output = new BytesOutput();
		var header = Reader.readAll(compressedData, output, true);
		var soundBytes = output.getBytes();
		var count = Std.int(soundBytes.length / 4);
		if (header.channel == 1) {
			length = count / kha.audio2.Audio.samplesPerSecond; // header.sampleRate;
			uncompressedData = new kha.arrays.Float32Array(count * 2);
			for (i in 0...count) {
				uncompressedData[i * 2 + 0] = soundBytes.getFloat(i * 4);
				uncompressedData[i * 2 + 1] = soundBytes.getFloat(i * 4);
			}
		}
		else {
			length = count / 2 / kha.audio2.Audio.samplesPerSecond; // header.sampleRate;
			uncompressedData = new kha.arrays.Float32Array(count);
			for (i in 0...count) {
				uncompressedData[i] = soundBytes.getFloat(i * 4);
			}
		}
		channels = header.channel;
		sampleRate = header.sampleRate;
		compressedData = null;
		done();
		#end
	}
	#end

	public function unload() {
		compressedData = null;
		uncompressedData = null;
	}
}
Update Files 2025-01-22 16:18:30 +01:00			`package kha;`

			`import haxe.io.Bytes;`
			`import haxe.io.BytesOutput;`
			`import kha.audio2.ogg.vorbis.Reader;`

			`/**`
			`* Contains compressed or uncompressed audio data.`
			`*/`
			`@:cppFileCode("\n#define STB_VORBIS_HEADER_ONLY\n#include <kinc/libs/stb_vorbis.c>")`
			`class Sound implements Resource {`
			`public var compressedData: Bytes;`
			`public var uncompressedData: kha.arrays.Float32Array;`
			`public var length: Float = 0; // in seconds`
			`public var channels: Int = 0;`
			`public var sampleRate: Int = 0;`

			`public function new() {}`

			`#if kha_kore`
			`public function uncompress(done: Void->Void): Void {`
			`if (uncompressedData != null) {`
			`done();`
			`return;`
			`}`

			`var samples: Int = 0;`
			`var channels: Int = 0;`
			`var samplesPerSecond: Int = 0;`

			`untyped __cpp__("int16_t *data = nullptr");`
			`untyped __cpp__("samples = stb_vorbis_decode_memory((uint8_t*)compressedData->b->GetBase(), compressedData->length, &channels, &samplesPerSecond, &data)");`

			`if (channels == 1) {`
			`length = samples / samplesPerSecond;`
			`uncompressedData = new kha.arrays.Float32Array(samples * 2);`
			`for (i in 0...samples) {`
			`untyped __cpp__("((float)&this->uncompressedData->self.data[({0} * 2) * 4]) = data[{0}] / 32767.0f", i);`
			`untyped __cpp__("((float)&this->uncompressedData->self.data[({0} * 2 + 1) * 4]) = data[{0}] / 32767.0f", i);`
			`}`
			`}`
			`else {`
			`length = samples / samplesPerSecond;`
			`samples *= channels;`
			`uncompressedData = new kha.arrays.Float32Array(samples);`
			`for (i in 0...samples) {`
			`untyped __cpp__("((float)&this->uncompressedData->self.data[{0} * 4]) = data[{0}] / 32767.0f", i);`
			`}`
			`}`
			`this.channels = channels;`
			`this.sampleRate = samplesPerSecond;`

			`untyped __cpp__("delete[] data");`

			`compressedData = null;`
			`done();`
			`}`
			`#else`
			`public function uncompress(done: Void->Void): Void {`
			`#if (!kha_no_ogg)`
			`if (uncompressedData != null) {`
			`done();`
			`return;`
			`}`

			`var output = new BytesOutput();`
			`var header = Reader.readAll(compressedData, output, true);`
			`var soundBytes = output.getBytes();`
			`var count = Std.int(soundBytes.length / 4);`
			`if (header.channel == 1) {`
			`length = count / kha.audio2.Audio.samplesPerSecond; // header.sampleRate;`
			`uncompressedData = new kha.arrays.Float32Array(count * 2);`
			`for (i in 0...count) {`
			`uncompressedData[i * 2 + 0] = soundBytes.getFloat(i * 4);`
			`uncompressedData[i * 2 + 1] = soundBytes.getFloat(i * 4);`
			`}`
			`}`
			`else {`
			`length = count / 2 / kha.audio2.Audio.samplesPerSecond; // header.sampleRate;`
			`uncompressedData = new kha.arrays.Float32Array(count);`
			`for (i in 0...count) {`
			`uncompressedData[i] = soundBytes.getFloat(i * 4);`
			`}`
			`}`
			`channels = header.channel;`
			`sampleRate = header.sampleRate;`
			`compressedData = null;`
			`done();`
			`#end`
			`}`
			`#end`

			`public function unload() {`
			`compressedData = null;`
			`uncompressedData = null;`
			`}`
			`}`