import java.util.Random; import net.runelite.mapping.Export; import net.runelite.mapping.Implements; import net.runelite.mapping.ObfuscatedName; import net.runelite.mapping.ObfuscatedSignature; @ObfuscatedName("db") @Implements("Instrument") public class Instrument { @ObfuscatedName("s") @Export("Instrument_samples") static int[] Instrument_samples; @ObfuscatedName("t") @Export("Instrument_noise") static int[] Instrument_noise; @ObfuscatedName("y") @Export("Instrument_sine") static int[] Instrument_sine; @ObfuscatedName("b") @Export("Instrument_phases") static int[] Instrument_phases; @ObfuscatedName("c") @Export("Instrument_delays") static int[] Instrument_delays; @ObfuscatedName("r") @Export("Instrument_volumeSteps") static int[] Instrument_volumeSteps; @ObfuscatedName("p") @Export("Instrument_pitchSteps") static int[] Instrument_pitchSteps; @ObfuscatedName("v") @Export("Instrument_pitchBaseSteps") static int[] Instrument_pitchBaseSteps; @ObfuscatedName("m") @ObfuscatedSignature( signature = "Lde;" ) @Export("__m") SoundEnvelope __m; @ObfuscatedName("f") @ObfuscatedSignature( signature = "Lde;" ) @Export("__f") SoundEnvelope __f; @ObfuscatedName("q") @ObfuscatedSignature( signature = "Lde;" ) @Export("__q") SoundEnvelope __q; @ObfuscatedName("w") @ObfuscatedSignature( signature = "Lde;" ) @Export("__w") SoundEnvelope __w; @ObfuscatedName("o") @ObfuscatedSignature( signature = "Lde;" ) @Export("__o") SoundEnvelope __o; @ObfuscatedName("u") @ObfuscatedSignature( signature = "Lde;" ) @Export("__u") SoundEnvelope __u; @ObfuscatedName("g") @ObfuscatedSignature( signature = "Lde;" ) @Export("__g") SoundEnvelope __g; @ObfuscatedName("l") @ObfuscatedSignature( signature = "Lde;" ) @Export("__l") SoundEnvelope __l; @ObfuscatedName("e") @Export("oscillatorVolume") int[] oscillatorVolume; @ObfuscatedName("x") @Export("oscillatorPitch") int[] oscillatorPitch; @ObfuscatedName("d") @Export("oscillatorDelays") int[] oscillatorDelays; @ObfuscatedName("k") @Export("delayTime") int delayTime; @ObfuscatedName("n") @Export("delayDecay") int delayDecay; @ObfuscatedName("i") @ObfuscatedSignature( signature = "Ldi;" ) @Export("filter") AudioFilter filter; @ObfuscatedName("a") @ObfuscatedSignature( signature = "Lde;" ) @Export("__a") SoundEnvelope __a; @ObfuscatedName("z") @Export("duration") int duration; @ObfuscatedName("j") @Export("offset") int offset; static { Instrument_noise = new int['耀']; Random var0 = new Random(0L); int var1; for(var1 = 0; var1 < 32768; ++var1) { Instrument_noise[var1] = (var0.nextInt() & 2) - 1; } Instrument_sine = new int['耀']; for(var1 = 0; var1 < 32768; ++var1) { Instrument_sine[var1] = (int)(Math.sin((double)var1 / 5215.1903D) * 16384.0D); } Instrument_samples = new int[220500]; Instrument_phases = new int[5]; Instrument_delays = new int[5]; Instrument_volumeSteps = new int[5]; Instrument_pitchSteps = new int[5]; Instrument_pitchBaseSteps = new int[5]; } Instrument() { this.oscillatorVolume = new int[]{0, 0, 0, 0, 0}; this.oscillatorPitch = new int[]{0, 0, 0, 0, 0}; this.oscillatorDelays = new int[]{0, 0, 0, 0, 0}; this.delayTime = 0; this.delayDecay = 100; this.duration = 500; this.offset = 0; } @ObfuscatedName("m") @Export("synthesize") final int[] synthesize(int var1, int var2) { class212.clearIntArray(Instrument_samples, 0, var1); if(var2 < 10) { return Instrument_samples; } else { double var3 = (double)var1 / ((double)var2 + 0.0D); this.__m.reset(); this.__f.reset(); int var5 = 0; int var6 = 0; int var7 = 0; if(this.__q != null) { this.__q.reset(); this.__w.reset(); var5 = (int)((double)(this.__q.end - this.__q.start) * 32.768D / var3); var6 = (int)((double)this.__q.start * 32.768D / var3); } int var8 = 0; int var9 = 0; int var10 = 0; if(this.__o != null) { this.__o.reset(); this.__u.reset(); var8 = (int)((double)(this.__o.end - this.__o.start) * 32.768D / var3); var9 = (int)((double)this.__o.start * 32.768D / var3); } int var11; for(var11 = 0; var11 < 5; ++var11) { if(this.oscillatorVolume[var11] != 0) { Instrument_phases[var11] = 0; Instrument_delays[var11] = (int)((double)this.oscillatorDelays[var11] * var3); Instrument_volumeSteps[var11] = (this.oscillatorVolume[var11] << 14) / 100; Instrument_pitchSteps[var11] = (int)((double)(this.__m.end - this.__m.start) * 32.768D * Math.pow(1.0057929410678534D, (double)this.oscillatorPitch[var11]) / var3); Instrument_pitchBaseSteps[var11] = (int)((double)this.__m.start * 32.768D / var3); } } int var12; int var13; int var14; int var15; for(var11 = 0; var11 < var1; ++var11) { var12 = this.__m.doStep(var1); var13 = this.__f.doStep(var1); if(this.__q != null) { var14 = this.__q.doStep(var1); var15 = this.__w.doStep(var1); var12 += this.evaluateWave(var7, var15, this.__q.form) >> 1; var7 = var7 + var6 + (var14 * var5 >> 16); } if(this.__o != null) { var14 = this.__o.doStep(var1); var15 = this.__u.doStep(var1); var13 = var13 * ((this.evaluateWave(var10, var15, this.__o.form) >> 1) + 32768) >> 15; var10 = var10 + var9 + (var14 * var8 >> 16); } for(var14 = 0; var14 < 5; ++var14) { if(this.oscillatorVolume[var14] != 0) { var15 = Instrument_delays[var14] + var11; if(var15 < var1) { Instrument_samples[var15] += this.evaluateWave(Instrument_phases[var14], var13 * Instrument_volumeSteps[var14] >> 15, this.__m.form); Instrument_phases[var14] += (var12 * Instrument_pitchSteps[var14] >> 16) + Instrument_pitchBaseSteps[var14]; } } } } int var16; if(this.__g != null) { this.__g.reset(); this.__l.reset(); var11 = 0; boolean var19 = false; boolean var20 = true; for(var14 = 0; var14 < var1; ++var14) { var15 = this.__g.doStep(var1); var16 = this.__l.doStep(var1); if(var20) { var12 = (var15 * (this.__g.end - this.__g.start) >> 8) + this.__g.start; } else { var12 = (var16 * (this.__g.end - this.__g.start) >> 8) + this.__g.start; } var11 += 256; if(var11 >= var12) { var11 = 0; var20 = !var20; } if(var20) { Instrument_samples[var14] = 0; } } } if(this.delayTime > 0 && this.delayDecay > 0) { var11 = (int)((double)this.delayTime * var3); for(var12 = var11; var12 < var1; ++var12) { Instrument_samples[var12] += Instrument_samples[var12 - var11] * this.delayDecay / 100; } } if(this.filter.__m[0] > 0 || this.filter.__m[1] > 0) { this.__a.reset(); var11 = this.__a.doStep(var1 + 1); var12 = this.filter.__w_207(0, (float)var11 / 65536.0F); var13 = this.filter.__w_207(1, (float)var11 / 65536.0F); if(var1 >= var12 + var13) { var14 = 0; var15 = var13; if(var13 > var1 - var12) { var15 = var1 - var12; } int var17; while(var14 < var15) { var16 = (int)((long)Instrument_samples[var14 + var12] * (long)AudioFilter.__di_e >> 16); for(var17 = 0; var17 < var12; ++var17) { var16 += (int)((long)Instrument_samples[var14 + var12 - 1 - var17] * (long)AudioFilter.__di_g[0][var17] >> 16); } for(var17 = 0; var17 < var14; ++var17) { var16 -= (int)((long)Instrument_samples[var14 - 1 - var17] * (long)AudioFilter.__di_g[1][var17] >> 16); } Instrument_samples[var14] = var16; var11 = this.__a.doStep(var1 + 1); ++var14; } var15 = 128; while(true) { if(var15 > var1 - var12) { var15 = var1 - var12; } int var18; while(var14 < var15) { var17 = (int)((long)Instrument_samples[var14 + var12] * (long)AudioFilter.__di_e >> 16); for(var18 = 0; var18 < var12; ++var18) { var17 += (int)((long)Instrument_samples[var14 + var12 - 1 - var18] * (long)AudioFilter.__di_g[0][var18] >> 16); } for(var18 = 0; var18 < var13; ++var18) { var17 -= (int)((long)Instrument_samples[var14 - 1 - var18] * (long)AudioFilter.__di_g[1][var18] >> 16); } Instrument_samples[var14] = var17; var11 = this.__a.doStep(var1 + 1); ++var14; } if(var14 >= var1 - var12) { while(var14 < var1) { var17 = 0; for(var18 = var14 + var12 - var1; var18 < var12; ++var18) { var17 += (int)((long)Instrument_samples[var14 + var12 - 1 - var18] * (long)AudioFilter.__di_g[0][var18] >> 16); } for(var18 = 0; var18 < var13; ++var18) { var17 -= (int)((long)Instrument_samples[var14 - 1 - var18] * (long)AudioFilter.__di_g[1][var18] >> 16); } Instrument_samples[var14] = var17; this.__a.doStep(var1 + 1); ++var14; } break; } var12 = this.filter.__w_207(0, (float)var11 / 65536.0F); var13 = this.filter.__w_207(1, (float)var11 / 65536.0F); var15 += 128; } } } for(var11 = 0; var11 < var1; ++var11) { if(Instrument_samples[var11] < -32768) { Instrument_samples[var11] = -32768; } if(Instrument_samples[var11] > 32767) { Instrument_samples[var11] = 32767; } } return Instrument_samples; } } @ObfuscatedName("f") @Export("evaluateWave") final int evaluateWave(int var1, int var2, int var3) { return var3 == 1?((var1 & 32767) < 16384?var2:-var2):(var3 == 2?Instrument_sine[var1 & 32767] * var2 >> 14:(var3 == 3?(var2 * (var1 & 32767) >> 14) - var2:(var3 == 4?var2 * Instrument_noise[var1 / 2607 & 32767]:0))); } @ObfuscatedName("q") @ObfuscatedSignature( signature = "(Lgr;)V" ) @Export("decode") final void decode(Buffer var1) { this.__m = new SoundEnvelope(); this.__m.decode(var1); this.__f = new SoundEnvelope(); this.__f.decode(var1); int var2 = var1.readUnsignedByte(); if(var2 != 0) { --var1.index; this.__q = new SoundEnvelope(); this.__q.decode(var1); this.__w = new SoundEnvelope(); this.__w.decode(var1); } var2 = var1.readUnsignedByte(); if(var2 != 0) { --var1.index; this.__o = new SoundEnvelope(); this.__o.decode(var1); this.__u = new SoundEnvelope(); this.__u.decode(var1); } var2 = var1.readUnsignedByte(); if(var2 != 0) { --var1.index; this.__g = new SoundEnvelope(); this.__g.decode(var1); this.__l = new SoundEnvelope(); this.__l.decode(var1); } for(int var3 = 0; var3 < 10; ++var3) { int var4 = var1.__ae_307(); if(var4 == 0) { break; } this.oscillatorVolume[var3] = var4; this.oscillatorPitch[var3] = var1.__ab_306(); this.oscillatorDelays[var3] = var1.__ae_307(); } this.delayTime = var1.__ae_307(); this.delayDecay = var1.__ae_307(); this.duration = var1.__ag_302(); this.offset = var1.__ag_302(); this.filter = new AudioFilter(); this.__a = new SoundEnvelope(); this.filter.__o_208(var1, this.__a); } }