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authorJames Ross-Gowan <rossymiles@gmail.com>2014-10-26 10:43:15 +1100
committerwm4 <wm4@nowhere>2014-10-26 02:34:15 +0200
commit52b52800ce083364a9c0baa1d6e0564eaae3b4d7 (patch)
tree054144f65bb52ac61450e3b47db93afbff64a186 /video
parentf2d51171f7975184bf97ab0b85660703dd2d85cb (diff)
downloadmpv-52b52800ce083364a9c0baa1d6e0564eaae3b4d7.tar.bz2
mpv-52b52800ce083364a9c0baa1d6e0564eaae3b4d7.tar.xz
dxva2: use optimized memcpy
At least on my machine, reading back the frame with system memcpy is slower than just using software rendering. Use the optimized gpu_memcpy from LAV to speed things up.
Diffstat (limited to 'video')
-rw-r--r--video/decode/dxva2.c46
-rw-r--r--video/decode/gpu_memcpy_sse4.h129
2 files changed, 164 insertions, 11 deletions
diff --git a/video/decode/dxva2.c b/video/decode/dxva2.c
index 21f9fcd633..e03014438a 100644
--- a/video/decode/dxva2.c
+++ b/video/decode/dxva2.c
@@ -41,6 +41,7 @@
#include "video/fmt-conversion.h"
#include "video/mp_image_pool.h"
#include "video/hwdec.h"
+#include "gpu_memcpy_sse4.h"
// A minor evil.
#ifndef FF_DXVA2_WORKAROUND_INTEL_CLEARVIDEO
@@ -98,6 +99,9 @@ typedef struct surface_info {
typedef struct DXVA2Context {
struct mp_log *log;
+ void (*copy_nv12)(struct mp_image *dest, uint8_t *src_bits,
+ unsigned src_pitch, unsigned surf_height);
+
HMODULE d3dlib;
HMODULE dxva2lib;
@@ -241,6 +245,26 @@ static struct mp_image *dxva2_allocate_image(struct lavc_ctx *s, int fmt,
return mp_image_new_custom_ref(&mpi, w, dxva2_release_img);
}
+static void copy_nv12_fallback(struct mp_image *dest, uint8_t *src_bits,
+ unsigned src_pitch, unsigned surf_height)
+{
+ unsigned height = dest->h * src_pitch;
+ memcpy(dest->planes[0], src_bits, height);
+ dest->stride[0] = src_pitch;
+ memcpy(dest->planes[1], src_bits + src_pitch * surf_height, height / 2);
+ dest->stride[1] = src_pitch;
+}
+
+static void copy_nv12_gpu_sse4(struct mp_image *dest, uint8_t *src_bits,
+ unsigned src_pitch, unsigned surf_height)
+{
+ unsigned height = dest->h * src_pitch;
+ gpu_memcpy(dest->planes[0], src_bits, height);
+ dest->stride[0] = src_pitch;
+ gpu_memcpy(dest->planes[1], src_bits + src_pitch * surf_height, height / 2);
+ dest->stride[1] = src_pitch;
+}
+
static struct mp_image *dxva2_retrieve_image(struct lavc_ctx *s,
struct mp_image *img)
{
@@ -265,17 +289,7 @@ static struct mp_image *dxva2_retrieve_image(struct lavc_ctx *s,
return img;
}
- struct mp_image buf = {0};
- mp_image_setfmt(&buf, IMGFMT_NV12);
- mp_image_set_size(&buf, img->w, img->h);
-
- buf.planes[0] = LockedRect.pBits;
- buf.stride[0] = LockedRect.Pitch;
- buf.planes[1] = (char *)LockedRect.pBits + LockedRect.Pitch * surfaceDesc.Height;
- buf.stride[1] = LockedRect.Pitch;
-
- // This should probably use some sort of "special" memcpy-like function.
- mp_image_copy(sw_img, &buf);
+ ctx->copy_nv12(sw_img, LockedRect.pBits, LockedRect.Pitch, surfaceDesc.Height);
IDirect3DSurface9_UnlockRect(surface);
@@ -302,6 +316,16 @@ static int dxva2_init(struct lavc_ctx *s)
ctx->log = mp_log_new(s, s->log, "dxva2");
ctx->sw_pool = talloc_steal(ctx, mp_image_pool_new(17));
+ if (av_get_cpu_flags() & AV_CPU_FLAG_SSE4) {
+ // Use a memcpy implementation optimised for copying from GPU memory
+ MP_DBG(ctx, "Using SSE4 memcpy\n");
+ ctx->copy_nv12 = copy_nv12_gpu_sse4;
+ } else {
+ // Use the CRT memcpy. This can be slower than software decoding.
+ MP_WARN(ctx, "Using fallback memcpy (slow)\n");
+ ctx->copy_nv12 = copy_nv12_fallback;
+ }
+
ctx->deviceHandle = INVALID_HANDLE_VALUE;
ctx->d3dlib = LoadLibrary("d3d9.dll");
diff --git a/video/decode/gpu_memcpy_sse4.h b/video/decode/gpu_memcpy_sse4.h
new file mode 100644
index 0000000000..c441ff38fe
--- /dev/null
+++ b/video/decode/gpu_memcpy_sse4.h
@@ -0,0 +1,129 @@
+/*
+ * Copyright (C) 2011-2014 Hendrik Leppkes
+ * http://www.1f0.de
+ *
+ * This program is free software; you can redistribute it and/or modify
+ * it under the terms of the GNU General Public License as published by
+ * the Free Software Foundation; either version 2 of the License, or
+ * (at your option) any later version.
+ *
+ * This program is distributed in the hope that it will be useful,
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
+ * GNU General Public License for more details.
+ *
+ * You should have received a copy of the GNU General Public License along
+ * with this program; if not, write to the Free Software Foundation, Inc.,
+ * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
+ *
+ * Taken from the QuickSync decoder by Eric Gur
+ */
+
+#include <emmintrin.h>
+
+// gpu_memcpy is a memcpy style function that copied data very fast from a
+// GPU tiled memory (write back)
+// Performance tip: page offset (12 lsb) of both addresses should be different
+// optimally use a 2K offset between them.
+__attribute__((target("sse4"))) static inline void
+*gpu_memcpy(void *restrict d, const void *restrict s, size_t size)
+{
+ static const size_t regsInLoop = sizeof(size_t) * 2; // 8 or 16
+
+ if (d == NULL || s == NULL) return NULL;
+
+ // If memory is not aligned, use memcpy
+ bool isAligned = (((size_t)(s) | (size_t)(d)) & 0xF) == 0;
+ if (!isAligned)
+ {
+ return memcpy(d, s, size);
+ }
+
+ __m128i xmm0, xmm1, xmm2, xmm3, xmm4, xmm5, xmm6, xmm7;
+#ifdef __x86_64__
+ __m128i xmm8, xmm9, xmm10, xmm11, xmm12, xmm13, xmm14, xmm15;
+#endif
+
+ size_t reminder = size & (regsInLoop * sizeof(xmm0) - 1); // Copy 128 or 256 bytes every loop
+ size_t end = 0;
+
+ __m128i* pTrg = (__m128i*)d;
+ __m128i* pTrgEnd = pTrg + ((size - reminder) >> 4);
+ __m128i* pSrc = (__m128i*)s;
+
+ // Make sure source is synced - doesn't hurt if not needed.
+ _mm_sfence();
+
+ while (pTrg < pTrgEnd)
+ {
+ // _mm_stream_load_si128 emits the Streaming SIMD Extensions 4 (SSE4.1) instruction MOVNTDQA
+ // Fastest method for copying GPU RAM. Available since Penryn (45nm Core 2 Duo/Quad)
+ xmm0 = _mm_stream_load_si128(pSrc);
+ xmm1 = _mm_stream_load_si128(pSrc + 1);
+ xmm2 = _mm_stream_load_si128(pSrc + 2);
+ xmm3 = _mm_stream_load_si128(pSrc + 3);
+ xmm4 = _mm_stream_load_si128(pSrc + 4);
+ xmm5 = _mm_stream_load_si128(pSrc + 5);
+ xmm6 = _mm_stream_load_si128(pSrc + 6);
+ xmm7 = _mm_stream_load_si128(pSrc + 7);
+#ifdef __x86_64__ // Use all 16 xmm registers
+ xmm8 = _mm_stream_load_si128(pSrc + 8);
+ xmm9 = _mm_stream_load_si128(pSrc + 9);
+ xmm10 = _mm_stream_load_si128(pSrc + 10);
+ xmm11 = _mm_stream_load_si128(pSrc + 11);
+ xmm12 = _mm_stream_load_si128(pSrc + 12);
+ xmm13 = _mm_stream_load_si128(pSrc + 13);
+ xmm14 = _mm_stream_load_si128(pSrc + 14);
+ xmm15 = _mm_stream_load_si128(pSrc + 15);
+#endif
+ pSrc += regsInLoop;
+ // _mm_store_si128 emit the SSE2 intruction MOVDQA (aligned store)
+ _mm_store_si128(pTrg , xmm0);
+ _mm_store_si128(pTrg + 1, xmm1);
+ _mm_store_si128(pTrg + 2, xmm2);
+ _mm_store_si128(pTrg + 3, xmm3);
+ _mm_store_si128(pTrg + 4, xmm4);
+ _mm_store_si128(pTrg + 5, xmm5);
+ _mm_store_si128(pTrg + 6, xmm6);
+ _mm_store_si128(pTrg + 7, xmm7);
+#ifdef __x86_64__ // Use all 16 xmm registers
+ _mm_store_si128(pTrg + 8, xmm8);
+ _mm_store_si128(pTrg + 9, xmm9);
+ _mm_store_si128(pTrg + 10, xmm10);
+ _mm_store_si128(pTrg + 11, xmm11);
+ _mm_store_si128(pTrg + 12, xmm12);
+ _mm_store_si128(pTrg + 13, xmm13);
+ _mm_store_si128(pTrg + 14, xmm14);
+ _mm_store_si128(pTrg + 15, xmm15);
+#endif
+ pTrg += regsInLoop;
+ }
+
+ // Copy in 16 byte steps
+ if (reminder >= 16)
+ {
+ size = reminder;
+ reminder = size & 15;
+ end = size >> 4;
+ for (size_t i = 0; i < end; ++i)
+ {
+ pTrg[i] = _mm_stream_load_si128(pSrc + i);
+ }
+ }
+
+ // Copy last bytes - shouldn't happen as strides are modulu 16
+ if (reminder)
+ {
+ __m128i temp = _mm_stream_load_si128(pSrc + end);
+
+ char* ps = (char*)(&temp);
+ char* pt = (char*)(pTrg + end);
+
+ for (size_t i = 0; i < reminder; ++i)
+ {
+ pt[i] = ps[i];
+ }
+ }
+
+ return d;
+}