let str_q = strength!(diff_p1p0[0] + diff_p1p0[1] + diff_p1p0[2] + diff_p1p0[3], lim2);
if str_p + str_q > 2 {
let msum = ((mode1 + mode2 + str_q + str_p) >> 1) as i16;
- let (maxprod, weak) = if (str_q == 1) || (str_p == 1) { (512, true) } else { (384, false) };
+ let (maxprod, weak) = if (str_q == 1) || (str_p == 1) { (512, true) } else { (384, false) };
for y in 0..4 {
let diff_p0q0 = diff!(dst, offset, offset - step);
if (diff_p0q0 != 0) && (lim1 * diff_p0q0.abs() < maxprod) {
let inv_angle = RV60_IPRED_INV_ANGLE[angle - 10];
let add_size = (size * (ang_weight as usize) + 31) >> 5;
if size <= 16 {
- for i in 0..size+1 {
+ for i in 0..=size {
filtered1[32-1 + i] = self.l[i];
}
- for i in 0..size+1 {
+ for i in 0..=size {
filtered2[32-1 + i] = self.t[i];
}
} else {
let inv_angle = RV60_IPRED_INV_ANGLE[26 - angle];
let add_size = (size * (ang_weight as usize) + 31) >> 5;
if size <= 16 {
- for i in 0..size+1 {
+ for i in 0..=size {
filtered1[32-1 + i] = self.t[i];
}
- for i in 0..size+1 {
+ for i in 0..=size {
filtered2[32-1 + i] = self.l[i];
}
} else {