[FFmpeg-devel] [PATCH 6/6] truehd: add hand-scheduled ARM asm version of ff_mlp_pack_output.

Ben Avison bavison at riscosopen.org
Wed Mar 19 18:26:21 CET 2014


Profiling results for overall decode and the output_data function in
particular are as follows:

              Before          After
              Mean   StdDev   Mean   StdDev  Confidence  Change
6:2 total     339.6  15.1     329.3  16.0    95.8%       +3.1%  (insignificant)
6:2 function  24.6   6.0      9.9    3.1     100.0%      +148.5%
8:2 total     324.5  15.5     323.6  14.3    15.2%       +0.3%  (insignificant)
8:2 function  20.4   3.9      9.9    3.4     100.0%      +104.7%
6:6 total     572.8  20.6     539.9  24.2    100.0%      +6.1%
6:6 function  54.5   5.6      16.0   3.8     100.0%      +240.9%
8:8 total     741.5  21.2     702.5  18.5    100.0%      +5.6%
8:8 function  63.9   7.6      18.4   4.8     100.0%      +247.3%

The assembly version has also been tested with a fuzz tester to ensure that
any combinations of inputs not exercised by my available test streams still
generate mathematically identical results to the C version.
---
 libavcodec/arm/mlpdsp_arm.S      |  503 ++++++++++++++++++++++++++++++++++++++
 libavcodec/arm/mlpdsp_init_arm.c |   64 +++++
 2 files changed, 567 insertions(+), 0 deletions(-)

diff --git a/libavcodec/arm/mlpdsp_arm.S b/libavcodec/arm/mlpdsp_arm.S
index 8d84b00..85524b1 100644
--- a/libavcodec/arm/mlpdsp_arm.S
+++ b/libavcodec/arm/mlpdsp_arm.S
@@ -98,6 +98,26 @@ A .endif
  .endif
 .endm
 
+.macro loadregoffsh2  group, index, base, offgroup, offindex
+       .altmacro
+       loadregoffsh2_ \group, %(\index), \base, \offgroup, %(\offindex)
+       .noaltmacro
+.endm
+
+.macro loadregoffsh2_ group, index, base, offgroup, offindex
+        ldr     \group\index, [\base, \offgroup\offindex, lsl #2]
+.endm
+
+.macro eorlslreg  check, data, group, index
+        .altmacro
+        eorlslreg_ \check, \data, \group, %(\index)
+        .noaltmacro
+.endm
+
+.macro eorlslreg_ check, data, group, index
+        eor     \check, \check, \data, lsl \group\index
+.endm
+
 // A macro to update the load register number and load offsets
 
 .macro inc  howmany
@@ -659,3 +679,486 @@ endfunc
         .unreq  LSB
         .unreq  DCH
         .unreq  MASK
+
+/********************************************************************/
+
+.macro decr_modulo var, by, modulus
+ .set \var, \var - \by
+ .if \var == 0
+  .set \var, \modulus
+ .endif
+.endm
+
+ .macro load_group1  size, channels, r0, r1, r2, r3, pointer_dead=0
+  .if \size == 2
+        ldrd    \r0, \r1, [IN], #(\size + 8 - \channels) * 4
+  .else // size == 4
+   .if IDX1 > 4 || \channels==8
+        ldm     IN!, {\r0, \r1, \r2, \r3}
+   .else
+        ldm     IN, {\r0, \r1, \r2, \r3}
+    .if !\pointer_dead
+        add     IN, IN, #(4 + 8 - \channels) * 4
+     .endif
+   .endif
+  .endif
+        decr_modulo IDX1, \size, \channels
+ .endm
+
+ .macro load_group2  size, channels, r0, r1, r2, r3, pointer_dead=0
+  .if \size == 2
+   .if IDX1 > 2
+        ldm     IN!, {\r2, \r3}
+   .else
+//A   .ifc \r2, ip
+//A    .if \pointer_dead
+//A       ldm     IN, {\r2, \r3}
+//A    .else
+//A       ldr     \r2, [IN], #4
+//A       ldr     \r3, [IN], #(\size - 1 + 8 - \channels) * 4
+//A    .endif
+//A   .else
+        ldrd    \r2, \r3, [IN], #(\size + 8 - \channels) * 4
+//A   .endif
+   .endif
+  .endif
+        decr_modulo IDX1, \size, \channels
+ .endm
+
+.macro implement_pack  inorder, channels, shift
+.if \inorder
+.ifc \shift, mixed
+
+CHECK   .req    a1
+IN      .req    a2
+OUT     .req    a3
+COUNT   .req    a4
+DAT0    .req    v1
+DAT1    .req    v2
+DAT2    .req    v3
+DAT3    .req    v4
+SHIFT0  .req    v5
+SHIFT1  .req    v6
+SHIFT2  .req    sl
+SHIFT3  .req    fp
+SHIFT4  .req    ip
+SHIFT5  .req    lr
+
+ .macro output4words
+  .set SIZE_GROUP1, IDX1
+  .if SIZE_GROUP1 > 4
+   .set SIZE_GROUP1, 4
+  .endif
+  .set SIZE_GROUP2, 4 - SIZE_GROUP1
+        load_group1  SIZE_GROUP1, \channels, DAT0, DAT1, DAT2, DAT3
+        load_group2  SIZE_GROUP2, \channels, DAT0, DAT1, DAT2, DAT3
+   .if \channels == 2
+        lsl     DAT0, SHIFT0
+        lsl     DAT1, SHIFT1
+        lsl     DAT2, SHIFT0
+        lsl     DAT3, SHIFT1
+   .elseif \channels == 6
+    .if IDX2 == 6
+        lsl     DAT0, SHIFT0
+        lsl     DAT1, SHIFT1
+        lsl     DAT2, SHIFT2
+        lsl     DAT3, SHIFT3
+    .elseif IDX2 == 2
+        lsl     DAT0, SHIFT4
+        lsl     DAT1, SHIFT5
+        lsl     DAT2, SHIFT0
+        lsl     DAT3, SHIFT1
+    .else // IDX2 == 4
+        lsl     DAT0, SHIFT2
+        lsl     DAT1, SHIFT3
+        lsl     DAT2, SHIFT4
+        lsl     DAT3, SHIFT5
+    .endif
+   .elseif \channels == 8
+    .if IDX2 == 8
+        uxtb    SHIFT0, SHIFT4, ror #0
+        uxtb    SHIFT1, SHIFT4, ror #8
+        uxtb    SHIFT2, SHIFT4, ror #16
+        uxtb    SHIFT3, SHIFT4, ror #24
+    .else
+        uxtb    SHIFT0, SHIFT5, ror #0
+        uxtb    SHIFT1, SHIFT5, ror #8
+        uxtb    SHIFT2, SHIFT5, ror #16
+        uxtb    SHIFT3, SHIFT5, ror #24
+    .endif
+        lsl     DAT0, SHIFT0
+        lsl     DAT1, SHIFT1
+        lsl     DAT2, SHIFT2
+        lsl     DAT3, SHIFT3
+   .endif
+        eor     CHECK, CHECK, DAT0, lsr #8 - (\channels - IDX2)
+        eor     CHECK, CHECK, DAT1, lsr #7 - (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+        eor     CHECK, CHECK, DAT2, lsr #8 - (\channels - IDX2)
+        eor     CHECK, CHECK, DAT3, lsr #7 - (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+        stm     OUT!, {DAT0 - DAT3}
+ .endm
+
+ .set WORDS_PER_LOOP, \channels  // calculate LCM (channels, 4)
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .set WORDS_PER_LOOP, WORDS_PER_LOOP * 4
+ .set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
+
+function ff_mlp_pack_output_inorder_\channels\()ch_mixedshift_arm, export=1
+ .if SAMPLES_PER_LOOP > 1
+        tst     COUNT, #SAMPLES_PER_LOOP - 1  // always seems to be in practice
+        bne     X(ff_mlp_pack_output)         // but just in case, branch to C implementation if not
+ .endif
+        teq     COUNT, #0
+        bxeq    lr
+        push    {v1-v6,sl,fp,lr}
+        ldr     SHIFT0, [sp, #(9+3)*4]  // get output_shift from stack
+        ldr     SHIFT1, =0x08080808
+        ldr     SHIFT4, [SHIFT0]
+ .if \channels == 2
+        uadd8   SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8
+        uxtb    SHIFT0, SHIFT4, ror #0
+        uxtb    SHIFT1, SHIFT4, ror #8
+ .else
+        ldr     SHIFT5, [SHIFT0, #4]
+        uadd8   SHIFT4, SHIFT4, SHIFT1 // increase all shifts by 8
+        uadd8   SHIFT5, SHIFT5, SHIFT1
+  .if \channels == 6
+        uxtb    SHIFT0, SHIFT4, ror #0
+        uxtb    SHIFT1, SHIFT4, ror #8
+        uxtb    SHIFT2, SHIFT4, ror #16
+        uxtb    SHIFT3, SHIFT4, ror #24
+        uxtb    SHIFT4, SHIFT5, ror #0
+        uxtb    SHIFT5, SHIFT5, ror #8
+  .endif
+ .endif
+ .set IDX1, \channels
+ .set IDX2, \channels
+0:
+ .rept WORDS_PER_LOOP / 4
+        output4words
+ .endr
+        subs    COUNT, COUNT, #SAMPLES_PER_LOOP
+        bne     0b
+        pop     {v1-v6,sl,fp,pc}
+        .ltorg
+endfunc
+ .purgem output4words
+
+        .unreq  CHECK
+        .unreq  IN
+        .unreq  OUT
+        .unreq  COUNT
+        .unreq  DAT0
+        .unreq  DAT1
+        .unreq  DAT2
+        .unreq  DAT3
+        .unreq  SHIFT0
+        .unreq  SHIFT1
+        .unreq  SHIFT2
+        .unreq  SHIFT3
+        .unreq  SHIFT4
+        .unreq  SHIFT5
+
+.else // not mixed
+
+CHECK   .req    a1
+IN      .req    a2
+OUT     .req    a3
+COUNT   .req    a4
+DAT0    .req    v1
+DAT1    .req    v2
+DAT2    .req    v3
+DAT3    .req    v4
+DAT4    .req    v5
+DAT5    .req    v6
+DAT6    .req    sl // use these rather than the otherwise unused
+DAT7    .req    fp // ip and lr so that we can load them usinf LDRD
+
+ .macro output4words  tail, head, r0, r1, r2, r3, r4, r5, r6, r7, pointer_dead=0
+  .if \head
+   .set SIZE_GROUP1, IDX1
+   .if SIZE_GROUP1 > 4
+    .set SIZE_GROUP1, 4
+   .endif
+   .set SIZE_GROUP2, 4 - SIZE_GROUP1
+        load_group1  SIZE_GROUP1, \channels, \r0, \r1, \r2, \r3, \pointer_dead
+  .endif
+  .if \tail
+        eor     CHECK, CHECK, \r4, lsr #8 - (\channels - IDX2)
+        eor     CHECK, CHECK, \r5, lsr #7 - (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+  .endif
+  .if \head
+        load_group2  SIZE_GROUP2, \channels, \r0, \r1, \r2, \r3, \pointer_dead
+  .endif
+  .if \tail
+        eor     CHECK, CHECK, \r6, lsr #8 - (\channels - IDX2)
+        eor     CHECK, CHECK, \r7, lsr #7 - (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+        stm     OUT!, {\r4, \r5, \r6, \r7}
+  .endif
+  .if \head
+        lsl     \r0, #8 + \shift
+        lsl     \r1, #8 + \shift
+        lsl     \r2, #8 + \shift
+        lsl     \r3, #8 + \shift
+  .endif
+ .endm
+
+ .set WORDS_PER_LOOP, \channels  // calculate LCM (channels, 8)
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .set WORDS_PER_LOOP, WORDS_PER_LOOP * 8
+ .set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
+
+function ff_mlp_pack_output_inorder_\channels\()ch_\shift\()shift_arm, export=1
+ .if SAMPLES_PER_LOOP > 1
+        tst     COUNT, #SAMPLES_PER_LOOP - 1  // always seems to be in practice
+        bne     X(ff_mlp_pack_output)         // but just in case, branch to C implementation if not
+ .endif
+        subs    COUNT, COUNT, #SAMPLES_PER_LOOP
+        bxlo    lr
+        push    {v1-v6,sl,fp,lr}
+ .set IDX1, \channels
+ .set IDX2, \channels
+        output4words  0, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
+0:      beq     1f
+ .rept WORDS_PER_LOOP / 8
+        output4words  1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3
+        output4words  1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
+ .endr
+        subs    COUNT, COUNT, #SAMPLES_PER_LOOP
+        bne     0b
+1:
+ .rept WORDS_PER_LOOP / 8 - 1
+        output4words  1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3
+        output4words  1, 1, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
+ .endr
+        output4words  1, 1, DAT4, DAT5, DAT6, DAT7, DAT0, DAT1, DAT2, DAT3, pointer_dead=1
+        output4words  1, 0, DAT0, DAT1, DAT2, DAT3, DAT4, DAT5, DAT6, DAT7
+        pop     {v1-v6,sl,fp,pc}
+endfunc
+ .purgem output4words
+
+        .unreq  CHECK
+        .unreq  IN
+        .unreq  OUT
+        .unreq  COUNT
+        .unreq  DAT0
+        .unreq  DAT1
+        .unreq  DAT2
+        .unreq  DAT3
+        .unreq  DAT4
+        .unreq  DAT5
+        .unreq  DAT6
+        .unreq  DAT7
+
+.endif // mixed
+.else // not inorder
+.ifc \shift, mixed
+
+// This case not currently handled
+
+.else // not mixed
+
+CHECK   .req    a1
+IN      .req    a2
+OUT     .req    a3
+COUNT   .req    a4
+DAT0    .req    v1
+DAT1    .req    v2
+DAT2    .req    v3
+DAT3    .req    v4
+CHAN0   .req    v5
+CHAN1   .req    v6
+CHAN2   .req    sl
+CHAN3   .req    fp
+CHAN4   .req    ip
+CHAN5   .req    lr
+
+ .macro output4words
+  .if \channels == 8
+   .if IDX1 == 8
+        uxtb    CHAN0, CHAN4, ror #0
+        uxtb    CHAN1, CHAN4, ror #8
+        uxtb    CHAN2, CHAN4, ror #16
+        uxtb    CHAN3, CHAN4, ror #24
+   .else
+        uxtb    CHAN0, CHAN5, ror #0
+        uxtb    CHAN1, CHAN5, ror #8
+        uxtb    CHAN2, CHAN5, ror #16
+        uxtb    CHAN3, CHAN5, ror #24
+   .endif
+        ldr     DAT0, [IN, CHAN0, lsl #2]
+        ldr     DAT1, [IN, CHAN1, lsl #2]
+        ldr     DAT2, [IN, CHAN2, lsl #2]
+        ldr     DAT3, [IN, CHAN3, lsl #2]
+   .if IDX1 == 4
+        add     IN, IN, #8*4
+   .endif
+        decr_modulo IDX1, 4, \channels
+  .else
+   .set SIZE_GROUP1, IDX1
+   .if SIZE_GROUP1 > 4
+    .set SIZE_GROUP1, 4
+   .endif
+   .set SIZE_GROUP2, 4 - SIZE_GROUP1
+   .if SIZE_GROUP1 == 2
+        loadregoffsh2  DAT, 0, IN, CHAN, 0 + (\channels - IDX1)
+        loadregoffsh2  DAT, 1, IN, CHAN, 1 + (\channels - IDX1)
+        add     IN, IN, #8*4
+   .else // SIZE_GROUP1 == 4
+        loadregoffsh2  DAT, 0, IN, CHAN, 0 + (\channels - IDX1)
+        loadregoffsh2  DAT, 1, IN, CHAN, 1 + (\channels - IDX1)
+        loadregoffsh2  DAT, 2, IN, CHAN, 2 + (\channels - IDX1)
+        loadregoffsh2  DAT, 3, IN, CHAN, 3 + (\channels - IDX1)
+    .if IDX1 == 4
+        add     IN, IN, #8*4
+    .endif
+   .endif
+        decr_modulo IDX1, SIZE_GROUP1, \channels
+   .if SIZE_GROUP2 == 2
+        loadregoffsh2  DAT, 2, IN, CHAN, 0 + (\channels - IDX1)
+        loadregoffsh2  DAT, 3, IN, CHAN, 1 + (\channels - IDX1)
+    .if IDX1 == 2
+        add     IN, IN, #8*4
+    .endif
+   .endif
+        decr_modulo IDX1, SIZE_GROUP2, \channels
+  .endif
+  .if \channels == 8 // in this case we can corrupt CHAN0-3
+        rsb     CHAN0, CHAN0, #8
+        rsb     CHAN1, CHAN1, #8
+        rsb     CHAN2, CHAN2, #8
+        rsb     CHAN3, CHAN3, #8
+        lsl     DAT0, #8 + \shift
+        lsl     DAT1, #8 + \shift
+        lsl     DAT2, #8 + \shift
+        lsl     DAT3, #8 + \shift
+        eor     CHECK, CHECK, DAT0, lsr CHAN0
+        eor     CHECK, CHECK, DAT1, lsr CHAN1
+        eor     CHECK, CHECK, DAT2, lsr CHAN2
+        eor     CHECK, CHECK, DAT3, lsr CHAN3
+  .else
+   .if \shift != 0
+        lsl     DAT0, #\shift
+        lsl     DAT1, #\shift
+        lsl     DAT2, #\shift
+        lsl     DAT3, #\shift
+   .endif
+        bic     DAT0, DAT0, #0xff000000
+        bic     DAT1, DAT1, #0xff000000
+        bic     DAT2, DAT2, #0xff000000
+        bic     DAT3, DAT3, #0xff000000
+        eorlslreg CHECK, DAT0, CHAN, 0 + (\channels - IDX2)
+        eorlslreg CHECK, DAT1, CHAN, 1 + (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+        eorlslreg CHECK, DAT2, CHAN, 0 + (\channels - IDX2)
+        eorlslreg CHECK, DAT3, CHAN, 1 + (\channels - IDX2)
+   decr_modulo IDX2, 2, \channels
+        lsl     DAT0, #8
+        lsl     DAT1, #8
+        lsl     DAT2, #8
+        lsl     DAT3, #8
+  .endif
+        stm     OUT!, {DAT0 - DAT3}
+ .endm
+
+ .set WORDS_PER_LOOP, \channels  // calculate LCM (channels, 4)
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .if (WORDS_PER_LOOP % 2) == 0
+  .set WORDS_PER_LOOP, WORDS_PER_LOOP / 2
+ .endif
+ .set WORDS_PER_LOOP, WORDS_PER_LOOP * 4
+ .set SAMPLES_PER_LOOP, WORDS_PER_LOOP / \channels
+
+function ff_mlp_pack_output_outoforder_\channels\()ch_\shift\()shift_arm, export=1
+ .if SAMPLES_PER_LOOP > 1
+        tst     COUNT, #SAMPLES_PER_LOOP - 1  // always seems to be in practice
+        bne     X(ff_mlp_pack_output)         // but just in case, branch to C implementation if not
+ .endif
+        teq     COUNT, #0
+        bxeq    lr
+        push    {v1-v6,sl,fp,lr}
+        ldr     CHAN0, [sp, #(9+2)*4]  // get ch_assign from stack
+        ldr     CHAN4, [CHAN0]
+ .if \channels == 2
+        uxtb    CHAN0, CHAN4, ror #0
+        uxtb    CHAN1, CHAN4, ror #8
+ .else
+        ldr     CHAN5, [CHAN0, #4]
+  .if \channels == 6
+        uxtb    CHAN0, CHAN4, ror #0
+        uxtb    CHAN1, CHAN4, ror #8
+        uxtb    CHAN2, CHAN4, ror #16
+        uxtb    CHAN3, CHAN4, ror #24
+        uxtb    CHAN4, CHAN5, ror #0
+        uxtb    CHAN5, CHAN5, ror #8
+  .endif
+ .endif
+ .set IDX1, \channels
+ .set IDX2, \channels
+0:
+ .rept WORDS_PER_LOOP / 4
+        output4words
+ .endr
+        subs    COUNT, COUNT, #SAMPLES_PER_LOOP
+        bne     0b
+        pop     {v1-v6,sl,fp,pc}
+        .ltorg
+endfunc
+ .purgem output4words
+
+        .unreq  CHECK
+        .unreq  IN
+        .unreq  OUT
+        .unreq  COUNT
+        .unreq  DAT0
+        .unreq  DAT1
+        .unreq  DAT2
+        .unreq  DAT3
+        .unreq  CHAN0
+        .unreq  CHAN1
+        .unreq  CHAN2
+        .unreq  CHAN3
+        .unreq  CHAN4
+        .unreq  CHAN5
+
+.endif // mixed
+.endif // inorder
+.endm // implement_pack
+
+.macro pack_channels  inorder, channels
+        implement_pack  \inorder, \channels, 0
+        implement_pack  \inorder, \channels, 1
+        implement_pack  \inorder, \channels, 2
+        implement_pack  \inorder, \channels, 3
+        implement_pack  \inorder, \channels, 4
+        implement_pack  \inorder, \channels, 5
+        implement_pack  \inorder, \channels, mixed
+.endm
+
+.macro pack_order  inorder
+        pack_channels  \inorder, 2
+        pack_channels  \inorder, 6
+        pack_channels  \inorder, 8
+.endm
+
+        pack_order  0
+        pack_order  1
diff --git a/libavcodec/arm/mlpdsp_init_arm.c b/libavcodec/arm/mlpdsp_init_arm.c
index 1bb2276..292d020 100644
--- a/libavcodec/arm/mlpdsp_init_arm.c
+++ b/libavcodec/arm/mlpdsp_init_arm.c
@@ -41,8 +41,72 @@ void ff_mlp_rematrix_channel_arm(int32_t *samples,
                                  int access_unit_size_pow2,
                                  int32_t mask);
 
+#define DECLARE_PACK(order,channels,shift) \
+    int32_t ff_mlp_pack_output_##order##order_##channels##ch_##shift##shift_arm(int32_t, int32_t (*)[], void *, uint16_t, uint8_t, int, uint8_t*, int8_t *);
+#define ENUMERATE_PACK(order,channels,shift) \
+    ff_mlp_pack_output_##order##order_##channels##ch_##shift##shift_arm,
+#define PACK_CHANNELS(macro,order,channels) \
+        macro(order,channels,0) \
+        macro(order,channels,1) \
+        macro(order,channels,2) \
+        macro(order,channels,3) \
+        macro(order,channels,4) \
+        macro(order,channels,5) \
+        macro(order,channels,mixed)
+#define PACK_ORDER(macro,order) \
+        PACK_CHANNELS(macro,order,2) \
+        PACK_CHANNELS(macro,order,6) \
+        PACK_CHANNELS(macro,order,8)
+#define PACK_ALL(macro) \
+        PACK_ORDER(macro,outof) \
+        PACK_ORDER(macro,in)
+PACK_ALL(DECLARE_PACK)
+
+#define ff_mlp_pack_output_outoforder_2ch_mixedshift_arm 0
+#define ff_mlp_pack_output_outoforder_6ch_mixedshift_arm 0
+#define ff_mlp_pack_output_outoforder_8ch_mixedshift_arm 0
+
+static int32_t (*mlp_select_pack_output_arm(uint8_t max_matrix_channel,
+                                            int is32,
+                                            uint8_t *ch_assign,
+                                            int8_t *output_shift))(int32_t, int32_t (*)[], void *, uint16_t, uint8_t, int, uint8_t*, int8_t *)
+{
+    int ch_index;
+    int shift = output_shift[0] < 0 || output_shift[0] > 5 ? 6 : output_shift[0];
+    int inorder = 1;
+    static int32_t (*const routine[2*3*7])(int32_t, int32_t (*)[], void *, uint16_t, uint8_t, int, uint8_t*, int8_t *) = {
+            PACK_ALL(ENUMERATE_PACK)
+    };
+    int i;
+
+    if (!is32) // don't support 16-bit output (it's not used by TrueHD)
+        return ff_mlp_pack_output;
+
+    switch (max_matrix_channel) {
+    case 1: ch_index = 0; break;
+    case 5: ch_index = 1; break;
+    case 7: ch_index = 2; break;
+    default: return ff_mlp_pack_output;
+    }
+
+    for (i = 0; i <= max_matrix_channel; i++) {
+        if (shift != 6 && output_shift[i] != shift)
+            shift = 6; // indicate mixed shifts
+        if (ch_assign[i] != i)
+            inorder = 0;
+    }
+    if (shift == 6 && !inorder)
+        return ff_mlp_pack_output; // can't currently handle both an order array and a shift array
+
+    return routine[(inorder*3+ch_index)*7+shift];
+}
+
 av_cold void ff_mlpdsp_init_arm(MLPDSPContext *c)
 {
+    int cpu_flags = av_get_cpu_flags();
+
     c->mlp_filter_channel = ff_mlp_filter_channel_arm;
     c->mlp_rematrix_channel = ff_mlp_rematrix_channel_arm;
+    if (cpu_flags & AV_CPU_FLAG_ARMV6)
+        c->mlp_select_pack_output = mlp_select_pack_output_arm;
 }
-- 
1.7.5.4



More information about the ffmpeg-devel mailing list