X-Git-Url: https://git.nihav.org/?a=blobdiff_plain;f=nihav-qt%2Fsrc%2Fcodecs%2Fqdm2qmf.rs;h=d8cafa24910221c03e10c26da740e41403c3a83d;hb=e6aaad5c5273cd814b5748b7faf3751835a37217;hp=ece74c2bcc619b5bae9a3f1b4d7e26d29d19125c;hpb=4c1582cf2e275af7c0f4a2c1a397fed5b68d31d5;p=nihav.git diff --git a/nihav-qt/src/codecs/qdm2qmf.rs b/nihav-qt/src/codecs/qdm2qmf.rs index ece74c2..d8cafa2 100644 --- a/nihav-qt/src/codecs/qdm2qmf.rs +++ b/nihav-qt/src/codecs/qdm2qmf.rs @@ -359,7 +359,7 @@ unimplemented!(); } q = q.wrapping_sub(self.grid_3_quant[ch][band - 4]); } - self.tone_idx[ch][band][i] = q as i8; + self.tone_idx[ch][band][i] = q; if q > 0 || (self.is_intra && q == 0) { self.tone_scale[ch][band][i] = TONE_SCALES[0][(q & 0x3F) as usize]; } else { @@ -370,7 +370,7 @@ unimplemented!(); } } } - #[allow(clippy::cyclomatic_complexity)] + #[allow(clippy::cognitive_complexity)] fn read_noise_band(&mut self, br: &mut QdmBitReader, ch: usize, band: usize, samples: &mut [f32; 10], signs: &[bool; 16], jstereo: bool) -> DecoderResult<()> { let mut type34_first = true; let mut type34_pred = 0.0; @@ -394,7 +394,7 @@ unimplemented!(); let idx = br.read(8) as usize; validate!(idx < self.tables.mod3.len()); for i in 0..5 { - let k = self.tables.mod3[idx][i] as usize; + let k = self.tables.mod3[idx][i] as usize; samples[i * 2] = QUANT_1BIT[jstereo as usize][k]; } } @@ -432,7 +432,7 @@ unimplemented!(); let idx = br.read(8) as usize; validate!(idx < self.tables.mod3.len()); for i in 0..5 { - let k = self.tables.mod3[idx][i] as usize; + let k = self.tables.mod3[idx][i] as usize; samples[i] = QUANT_1BIT[jstereo as usize][k]; } } @@ -448,7 +448,7 @@ unimplemented!(); let idx = br.read(7) as usize; validate!(idx < self.tables.mod5.len()); for i in 0..3 { - let k = self.tables.mod5[idx][i] as usize; + let k = self.tables.mod5[idx][i] as usize; samples[i] = ((k as f32) - 2.0) * 0.5; } } else {