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// Copyright 2011 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package vp8
// This file implements the inverse Discrete Cosine Transform and the inverse
// Walsh Hadamard Transform (WHT), as specified in sections 14.3 and 14.4.
func clip8(i int32) uint8 {
if i < 0 {
return 0
}
if i > 255 {
return 255
}
return uint8(i)
}
func (z *Decoder) inverseDCT4(y, x, coeffBase int) {
const (
c1 = 85627 // 65536 * cos(pi/8) * sqrt(2).
c2 = 35468 // 65536 * sin(pi/8) * sqrt(2).
)
var m [4][4]int32
for i := 0; i < 4; i++ {
a := int32(z.coeff[coeffBase+0]) + int32(z.coeff[coeffBase+8])
b := int32(z.coeff[coeffBase+0]) - int32(z.coeff[coeffBase+8])
c := (int32(z.coeff[coeffBase+4])*c2)>>16 - (int32(z.coeff[coeffBase+12])*c1)>>16
d := (int32(z.coeff[coeffBase+4])*c1)>>16 + (int32(z.coeff[coeffBase+12])*c2)>>16
m[i][0] = a + d
m[i][1] = b + c
m[i][2] = b - c
m[i][3] = a - d
coeffBase++
}
for j := 0; j < 4; j++ {
dc := m[0][j] + 4
a := dc + m[2][j]
b := dc - m[2][j]
c := (m[1][j]*c2)>>16 - (m[3][j]*c1)>>16
d := (m[1][j]*c1)>>16 + (m[3][j]*c2)>>16
z.ybr[y+j][x+0] = clip8(int32(z.ybr[y+j][x+0]) + (a+d)>>3)
z.ybr[y+j][x+1] = clip8(int32(z.ybr[y+j][x+1]) + (b+c)>>3)
z.ybr[y+j][x+2] = clip8(int32(z.ybr[y+j][x+2]) + (b-c)>>3)
z.ybr[y+j][x+3] = clip8(int32(z.ybr[y+j][x+3]) + (a-d)>>3)
}
}
func (z *Decoder) inverseDCT4DCOnly(y, x, coeffBase int) {
dc := (int32(z.coeff[coeffBase+0]) + 4) >> 3
for j := 0; j < 4; j++ {
for i := 0; i < 4; i++ {
z.ybr[y+j][x+i] = clip8(int32(z.ybr[y+j][x+i]) + dc)
}
}
}
func (z *Decoder) inverseDCT8(y, x, coeffBase int) {
z.inverseDCT4(y+0, x+0, coeffBase+0*16)
z.inverseDCT4(y+0, x+4, coeffBase+1*16)
z.inverseDCT4(y+4, x+0, coeffBase+2*16)
z.inverseDCT4(y+4, x+4, coeffBase+3*16)
}
func (z *Decoder) inverseDCT8DCOnly(y, x, coeffBase int) {
z.inverseDCT4DCOnly(y+0, x+0, coeffBase+0*16)
z.inverseDCT4DCOnly(y+0, x+4, coeffBase+1*16)
z.inverseDCT4DCOnly(y+4, x+0, coeffBase+2*16)
z.inverseDCT4DCOnly(y+4, x+4, coeffBase+3*16)
}
func (d *Decoder) inverseWHT16() {
var m [16]int32
for i := 0; i < 4; i++ {
a0 := int32(d.coeff[384+0+i]) + int32(d.coeff[384+12+i])
a1 := int32(d.coeff[384+4+i]) + int32(d.coeff[384+8+i])
a2 := int32(d.coeff[384+4+i]) - int32(d.coeff[384+8+i])
a3 := int32(d.coeff[384+0+i]) - int32(d.coeff[384+12+i])
m[0+i] = a0 + a1
m[8+i] = a0 - a1
m[4+i] = a3 + a2
m[12+i] = a3 - a2
}
out := 0
for i := 0; i < 4; i++ {
dc := m[0+i*4] + 3
a0 := dc + m[3+i*4]
a1 := m[1+i*4] + m[2+i*4]
a2 := m[1+i*4] - m[2+i*4]
a3 := dc - m[3+i*4]
d.coeff[out+0] = int16((a0 + a1) >> 3)
d.coeff[out+16] = int16((a3 + a2) >> 3)
d.coeff[out+32] = int16((a0 - a1) >> 3)
d.coeff[out+48] = int16((a3 - a2) >> 3)
out += 64
}
}