[FFmpeg-cvslog] avfilter/af_surround: make channel spread from stereo image user configurable

Paul B Mahol git at videolan.org
Mon Apr 22 23:29:11 EEST 2019


ffmpeg | branch: master | Paul B Mahol <onemda at gmail.com> | Mon Apr 22 20:44:35 2019 +0200| [26fd40b568b808e1fbd57a89b64369adfaa8e124] | committer: Paul B Mahol

avfilter/af_surround: make channel spread from stereo image user configurable

> http://git.videolan.org/gitweb.cgi/ffmpeg.git/?a=commit;h=26fd40b568b808e1fbd57a89b64369adfaa8e124
---

 doc/filters.texi          |  12 +++
 libavfilter/af_surround.c | 184 ++++++++++++++++++++++++++++------------------
 2 files changed, 126 insertions(+), 70 deletions(-)

diff --git a/doc/filters.texi b/doc/filters.texi
index a2b6a04088..6ce2781c19 100644
--- a/doc/filters.texi
+++ b/doc/filters.texi
@@ -4889,6 +4889,18 @@ Set LFE input volume. By default, this is @var{1}.
 @item lfe_out
 Set LFE output volume. By default, this is @var{1}.
 
+ at item allx
+Set spread usage of stereo image across X axis for all channels.
+
+ at item ally
+Set spread usage of stereo image across Y axis for all channels.
+
+ at item fcx, flx, frx, blx, brx, slx, srx, bcx
+Set spread usage of stereo image across X axis for each channel.
+
+ at item fcy, fly, fry, bly, bry, sly, sry, bcy
+Set spread usage of stereo image across Y axis for each channel.
+
 @item win_func
 Set window function.
 
diff --git a/libavfilter/af_surround.c b/libavfilter/af_surround.c
index 6e6f5262d6..66d8e21471 100644
--- a/libavfilter/af_surround.c
+++ b/libavfilter/af_surround.c
@@ -43,6 +43,27 @@ typedef struct AudioSurroundContext {
     int   win_func;
     float overlap;
 
+    float all_x;
+    float all_y;
+
+    float fc_x;
+    float fl_x;
+    float fr_x;
+    float bl_x;
+    float br_x;
+    float sl_x;
+    float sr_x;
+    float bc_x;
+
+    float fc_y;
+    float fl_y;
+    float fr_y;
+    float bl_y;
+    float br_y;
+    float sl_y;
+    float sr_y;
+    float bc_y;
+
     float *input_levels;
     float *output_levels;
     int output_lfe;
@@ -263,7 +284,7 @@ static void upmix_1_0(AVFilterContext *ctx,
 
     dst = (float *)s->output->extended_data[0];
 
-    mag = sqrtf(1.f - fabsf(x)) * ((y + 1.f) * .5f) * mag_total;
+    mag = powf(1.f - fabsf(x), s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
 
     dst[2 * n    ] = mag * cosf(c_phase);
     dst[2 * n + 1] = mag * sinf(c_phase);
@@ -283,8 +304,8 @@ static void upmix_stereo(AVFilterContext *ctx,
     dstl = (float *)s->output->extended_data[0];
     dstr = (float *)s->output->extended_data[1];
 
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -310,8 +331,8 @@ static void upmix_2_1(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &mag_total, s->lfe_mode);
 
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -338,9 +359,9 @@ static void upmix_3_0(AVFilterContext *ctx,
     dstr = (float *)s->output->extended_data[1];
     dstc = (float *)s->output->extended_data[2];
 
-    c_mag = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    c_mag = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -370,9 +391,9 @@ static void upmix_3_1(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &mag_total, s->lfe_mode);
 
-    c_mag = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    c_mag = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -406,8 +427,8 @@ static void upmix_3_1_surround(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &c_mag, s->lfe_mode);
 
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -430,18 +451,18 @@ static void upmix_4_0(AVFilterContext *ctx,
                       float x, float y,
                       int n)
 {
-    float b_mag, l_mag, r_mag, c_mag, *dstc, *dstl, *dstr, *dstb;
     AudioSurroundContext *s = ctx->priv;
+    float b_mag, l_mag, r_mag, c_mag, *dstc, *dstl, *dstr, *dstb;
 
     dstl = (float *)s->output->extended_data[0];
     dstr = (float *)s->output->extended_data[1];
     dstc = (float *)s->output->extended_data[2];
     dstb = (float *)s->output->extended_data[3];
 
-    c_mag = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    b_mag = sqrtf(1.f - fabsf(x))   * ((1.f - y) * .5f) * mag_total;
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    c_mag = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    b_mag = powf(1.f - fabsf(x),   s->bc_x) * powf((1.f - y) * .5f, s->bc_y) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -464,8 +485,8 @@ static void upmix_4_1(AVFilterContext *ctx,
                       float x, float y,
                       int n)
 {
-    float lfe_mag, b_mag, l_mag, r_mag, c_mag, *dstc, *dstl, *dstr, *dstb, *dstlfe;
     AudioSurroundContext *s = ctx->priv;
+    float lfe_mag, b_mag, l_mag, r_mag, c_mag, *dstc, *dstl, *dstr, *dstb, *dstlfe;
 
     dstl = (float *)s->output->extended_data[0];
     dstr = (float *)s->output->extended_data[1];
@@ -478,10 +499,10 @@ static void upmix_4_1(AVFilterContext *ctx,
     dstlfe[2 * n    ] = lfe_mag * cosf(c_phase);
     dstlfe[2 * n + 1] = lfe_mag * sinf(c_phase);
 
-    c_mag = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    b_mag = sqrtf(1.f - fabsf(x))   * ((1.f - y) * .5f) * mag_total;
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
+    c_mag = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    b_mag = powf(1.f - fabsf(x),   s->bc_x) * powf((1.f - y) * .5f, s->bc_y) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -504,8 +525,8 @@ static void upmix_5_0_back(AVFilterContext *ctx,
                            float x, float y,
                            int n)
 {
-    float l_mag, r_mag, ls_mag, rs_mag, c_mag, *dstc, *dstl, *dstr, *dstls, *dstrs;
     AudioSurroundContext *s = ctx->priv;
+    float l_mag, r_mag, ls_mag, rs_mag, c_mag, *dstc, *dstl, *dstr, *dstls, *dstrs;
 
     dstl  = (float *)s->output->extended_data[0];
     dstr  = (float *)s->output->extended_data[1];
@@ -513,11 +534,11 @@ static void upmix_5_0_back(AVFilterContext *ctx,
     dstls = (float *)s->output->extended_data[3];
     dstrs = (float *)s->output->extended_data[4];
 
-    c_mag  = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag  = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag  = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
+    c_mag  = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag  = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag  = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -543,8 +564,8 @@ static void upmix_5_1_back(AVFilterContext *ctx,
                            float x, float y,
                            int n)
 {
-    float lfe_mag, l_mag, r_mag, ls_mag, rs_mag, c_mag, *dstc, *dstl, *dstr, *dstls, *dstrs, *dstlfe;
     AudioSurroundContext *s = ctx->priv;
+    float lfe_mag, l_mag, r_mag, ls_mag, rs_mag, c_mag, *dstc, *dstl, *dstr, *dstls, *dstrs, *dstlfe;
 
     dstl  = (float *)s->output->extended_data[0];
     dstr  = (float *)s->output->extended_data[1];
@@ -555,11 +576,11 @@ static void upmix_5_1_back(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &mag_total, s->lfe_mode);
 
-    c_mag  = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag  = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag  = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
+    c_mag  = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag  = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag  = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -602,10 +623,10 @@ static void upmix_5_1_back_surround(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &c_mag, s->lfe_mode);
 
-    l_mag = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
+    l_mag = powf(.5f * ( x + 1.f),  s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag = powf(.5f * (-x + 1.f),  s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -647,11 +668,11 @@ static void upmix_5_1_back_2_1(AVFilterContext *ctx,
     dstls = (float *)s->output->extended_data[4];
     dstrs = (float *)s->output->extended_data[5];
 
-    c_mag  = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag  = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag  = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
+    c_mag  = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag  = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag  = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -692,13 +713,13 @@ static void upmix_7_0(AVFilterContext *ctx,
     dstls = (float *)s->output->extended_data[5];
     dstrs = (float *)s->output->extended_data[6];
 
-    c_mag  = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag  = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag  = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    lb_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rb_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - fabsf(y)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - fabsf(y)) * mag_total;
+    c_mag  = powf(1.f - fabsf(x),   s->fc_x) * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag  = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag  = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    lb_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rb_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->sl_x) * powf(1.f - fabsf(y), s->sl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->sr_x) * powf(1.f - fabsf(y), s->sr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -745,13 +766,13 @@ static void upmix_7_1(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &mag_total, s->lfe_mode);
 
-    c_mag  = sqrtf(1.f - fabsf(x))   * ((y + 1.f) * .5f) * mag_total;
-    l_mag  = sqrtf(.5f * ( x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    r_mag  = sqrtf(.5f * (-x + 1.f)) * ((y + 1.f) * .5f) * mag_total;
-    lb_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    rb_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - ((y + 1.f) * .5f)) * mag_total;
-    ls_mag = sqrtf(.5f * ( x + 1.f)) * (1.f - fabsf(y)) * mag_total;
-    rs_mag = sqrtf(.5f * (-x + 1.f)) * (1.f - fabsf(y)) * mag_total;
+    c_mag  = powf(1.f - fabsf(x), s->fc_x)   * powf((y + 1.f) * .5f, s->fc_y) * mag_total;
+    l_mag  = powf(.5f * ( x + 1.f), s->fl_x) * powf((y + 1.f) * .5f, s->fl_y) * mag_total;
+    r_mag  = powf(.5f * (-x + 1.f), s->fr_x) * powf((y + 1.f) * .5f, s->fr_y) * mag_total;
+    lb_mag = powf(.5f * ( x + 1.f), s->bl_x) * powf(1.f - ((y + 1.f) * .5f), s->bl_y) * mag_total;
+    rb_mag = powf(.5f * (-x + 1.f), s->br_x) * powf(1.f - ((y + 1.f) * .5f), s->br_y) * mag_total;
+    ls_mag = powf(.5f * ( x + 1.f), s->sl_x) * powf(1.f - fabsf(y), s->sl_y) * mag_total;
+    rs_mag = powf(.5f * (-x + 1.f), s->sr_x) * powf(1.f - fabsf(y), s->sr_y) * mag_total;
 
     dstl[2 * n    ] = l_mag * cosf(l_phase);
     dstl[2 * n + 1] = l_mag * sinf(l_phase);
@@ -806,12 +827,12 @@ static void upmix_7_1_5_0_side(AVFilterContext *ctx,
 
     get_lfe(s->output_lfe, n, s->lowcut, s->highcut, &lfe_mag, &mag_total, s->lfe_mode);
 
-    fl_mag = sqrtf(.5f * (xl + 1.f)) * ((yl + 1.f) * .5f) * mag_totall;
-    fr_mag = sqrtf(.5f * (xr + 1.f)) * ((yr + 1.f) * .5f) * mag_totalr;
-    lb_mag = sqrtf(.5f * (-xl + 1.f)) * ((yl + 1.f) * .5f) * mag_totall;
-    rb_mag = sqrtf(.5f * (-xr + 1.f)) * ((yr + 1.f) * .5f) * mag_totalr;
-    ls_mag = sqrtf(1.f - fabsf(xl)) * ((yl + 1.f) * .5f) * mag_totall;
-    rs_mag = sqrtf(1.f - fabsf(xr)) * ((yr + 1.f) * .5f) * mag_totalr;
+    fl_mag = powf(.5f * (xl + 1.f), s->fl_x) * powf((yl + 1.f) * .5f, s->fl_y) * mag_totall;
+    fr_mag = powf(.5f * (xr + 1.f), s->fr_x) * powf((yr + 1.f) * .5f, s->fr_y) * mag_totalr;
+    lb_mag = powf(.5f * (-xl + 1.f), s->bl_x) * powf((yl + 1.f) * .5f, s->bl_y) * mag_totall;
+    rb_mag = powf(.5f * (-xr + 1.f), s->br_x) * powf((yr + 1.f) * .5f, s->br_y) * mag_totalr;
+    ls_mag = powf(1.f - fabsf(xl), s->sl_x) * powf((yl + 1.f) * .5f, s->sl_y) * mag_totall;
+    rs_mag = powf(1.f - fabsf(xr), s->sr_x) * powf((yr + 1.f) * .5f, s->sr_y) * mag_totalr;
 
     dstl[2 * n    ] = fl_mag * cosf(fl_phase);
     dstl[2 * n + 1] = fl_mag * sinf(fl_phase);
@@ -862,12 +883,12 @@ static void upmix_7_1_5_1(AVFilterContext *ctx,
     dstls = (float *)s->output->extended_data[6];
     dstrs = (float *)s->output->extended_data[7];
 
-    fl_mag = sqrtf(.5f * (xl + 1.f)) * ((yl + 1.f) * .5f) * mag_totall;
-    fr_mag = sqrtf(.5f * (xr + 1.f)) * ((yr + 1.f) * .5f) * mag_totalr;
-    lb_mag = sqrtf(.5f * (-xl + 1.f)) * ((yl + 1.f) * .5f) * mag_totall;
-    rb_mag = sqrtf(.5f * (-xr + 1.f)) * ((yr + 1.f) * .5f) * mag_totalr;
-    ls_mag = sqrtf(1.f - fabsf(xl)) * ((yl + 1.f) * .5f) * mag_totall;
-    rs_mag = sqrtf(1.f - fabsf(xr)) * ((yr + 1.f) * .5f) * mag_totalr;
+    fl_mag = powf(.5f * (xl + 1.f), s->fl_x) * powf((yl + 1.f) * .5f, s->fl_y) * mag_totall;
+    fr_mag = powf(.5f * (xr + 1.f), s->fr_x) * powf((yr + 1.f) * .5f, s->fr_y) * mag_totalr;
+    lb_mag = powf(.5f * (-xl + 1.f), s->bl_x) * powf((yl + 1.f) * .5f, s->bl_y) * mag_totall;
+    rb_mag = powf(.5f * (-xr + 1.f), s->br_x) * powf((yr + 1.f) * .5f, s->br_y) * mag_totalr;
+    ls_mag = powf(1.f - fabsf(xl), s->sl_x) * powf((yl + 1.f) * .5f, s->sl_y) * mag_totall;
+    rs_mag = powf(1.f - fabsf(xr), s->sl_x) * powf((yr + 1.f) * .5f, s->sr_y) * mag_totalr;
 
     dstl[2 * n    ] = fl_mag * cosf(fl_phase);
     dstl[2 * n + 1] = fl_mag * sinf(fl_phase);
@@ -1312,6 +1333,11 @@ fail:
     if (s->hop_size <= 0)
         return AVERROR(EINVAL);
 
+    if (s->all_x >= 0.f)
+        s->fc_x = s->fl_x = s->fr_x = s->bc_x = s->sl_x = s->sr_x = s->bl_x = s->br_x = s->all_x;
+    if (s->all_y >= 0.f)
+        s->fc_y = s->fl_y = s->fr_y = s->bc_y = s->sl_y = s->sr_y = s->bl_y = s->br_y = s->all_y;
+
     return 0;
 }
 
@@ -1471,6 +1497,24 @@ static const AVOption surround_options[] = {
     { "fc_out",    "set front center channel output level", OFFSET(fc_out),     AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  10, FLAGS },
     { "lfe_in",    "set lfe channel input level",  OFFSET(lfe_in),              AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  10, FLAGS },
     { "lfe_out",   "set lfe channel output level", OFFSET(lfe_out),             AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  10, FLAGS },
+    { "allx",      "set all channel's x spread",         OFFSET(all_x),         AV_OPT_TYPE_FLOAT,  {.dbl=-1},   -1,  15, FLAGS },
+    { "ally",      "set all channel's y spread",         OFFSET(all_y),         AV_OPT_TYPE_FLOAT,  {.dbl=-1},   -1,  15, FLAGS },
+    { "fcx",       "set front center channel x spread",  OFFSET(fc_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "flx",       "set front left channel x spread",    OFFSET(fl_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "frx",       "set front right channel x spread",   OFFSET(fr_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "blx",       "set back left channel x spread",     OFFSET(bl_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "brx",       "set back right channel x spread",    OFFSET(br_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "slx",       "set side left channel x spread",     OFFSET(sl_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "srx",       "set side right channel x spread",    OFFSET(sr_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "bcx",       "set back center channel x spread",   OFFSET(bc_x),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "fcy",       "set front center channel y spread",  OFFSET(fc_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "fly",       "set front left channel y spread",    OFFSET(fl_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "fry",       "set front right channel y spread",   OFFSET(fr_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "bly",       "set back left channel y spread",     OFFSET(bl_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "bry",       "set back right channel y spread",    OFFSET(br_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "sly",       "set side left channel y spread",     OFFSET(sl_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "sry",       "set side right channel y spread",    OFFSET(sr_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
+    { "bcy",       "set back center channel y spread",   OFFSET(bc_y),          AV_OPT_TYPE_FLOAT,  {.dbl=1},     0,  15, FLAGS },
     { "win_func", "set window function", OFFSET(win_func), AV_OPT_TYPE_INT, {.i64 = WFUNC_HANNING}, 0, NB_WFUNC-1, FLAGS, "win_func" },
         { "rect",     "Rectangular",      0, AV_OPT_TYPE_CONST, {.i64=WFUNC_RECT},     0, 0, FLAGS, "win_func" },
         { "bartlett", "Bartlett",         0, AV_OPT_TYPE_CONST, {.i64=WFUNC_BARTLETT}, 0, 0, FLAGS, "win_func" },



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