Module: Mesa
Branch: master
Commit: ecaad89525338ae637bd03004da78b9d937fb05b
URL:    
http://cgit.freedesktop.org/mesa/mesa/commit/?id=ecaad89525338ae637bd03004da78b9d937fb05b

Author: Scott D Phillips <scott.d.phill...@intel.com>
Date:   Fri Jan 26 16:07:15 2018 -0800

i965/tiled_memcpy: linear_to_ytiled a cache line at a time

TileY's low 6 address bits are: v1 v0 u3 u2 u1 u0
Thus a cache line in the tiled surface is composed of a 2d area of
16x4 bytes of the linear surface.

Add a special case where the area being copied is 4-line aligned
and a multiple of 4-lines so that entire cache lines will be
written at a time.

On Apollolake, this increases tiling throughput to wc maps by
84.0103% +/- 0.862818%

v2: Split [y0, y1) and [y2, y3) loops apart for clarity (Jason Ekstrand)
v3: Don't reset src var (Jason), Ensure y0 <= y1 <= y2 <= y3

Reviewed-by: Jason Ekstrand <ja...@jlekstrand.net>

---

 src/mesa/drivers/dri/i965/intel_tiled_memcpy.c | 72 +++++++++++++++++++++++---
 1 file changed, 66 insertions(+), 6 deletions(-)

diff --git a/src/mesa/drivers/dri/i965/intel_tiled_memcpy.c 
b/src/mesa/drivers/dri/i965/intel_tiled_memcpy.c
index 53a5679691..a362891d7e 100644
--- a/src/mesa/drivers/dri/i965/intel_tiled_memcpy.c
+++ b/src/mesa/drivers/dri/i965/intel_tiled_memcpy.c
@@ -287,7 +287,7 @@ linear_to_xtiled(uint32_t x0, uint32_t x1, uint32_t x2, 
uint32_t x3,
  */
 static inline void
 linear_to_ytiled(uint32_t x0, uint32_t x1, uint32_t x2, uint32_t x3,
-                 uint32_t y0, uint32_t y1,
+                 uint32_t y0, uint32_t y3,
                  char *dst, const char *src,
                  int32_t src_pitch,
                  uint32_t swizzle_bit,
@@ -306,6 +306,9 @@ linear_to_ytiled(uint32_t x0, uint32_t x1, uint32_t x2, 
uint32_t x3,
    const uint32_t column_width = ytile_span;
    const uint32_t bytes_per_column = column_width * ytile_height;
 
+   uint32_t y1 = MIN2(y3, ALIGN_UP(y0, 4));
+   uint32_t y2 = MAX2(y1, ALIGN_DOWN(y3, 4));
+
    uint32_t xo0 = (x0 % ytile_span) + (x0 / ytile_span) * bytes_per_column;
    uint32_t xo1 = (x1 % ytile_span) + (x1 / ytile_span) * bytes_per_column;
 
@@ -321,24 +324,81 @@ linear_to_ytiled(uint32_t x0, uint32_t x1, uint32_t x2, 
uint32_t x3,
 
    src += (ptrdiff_t)y0 * src_pitch;
 
-   for (yo = y0 * column_width; yo < y1 * column_width; yo += column_width) {
+   if (y0 != y1) {
+      for (yo = y0 * column_width; yo < y1 * column_width; yo += column_width) 
{
+         uint32_t xo = xo1;
+         uint32_t swizzle = swizzle1;
+
+         mem_copy(dst + ((xo0 + yo) ^ swizzle0), src + x0, x1 - x0);
+
+         /* Step by spans/columns.  As it happens, the swizzle bit flips
+          * at each step so we don't need to calculate it explicitly.
+          */
+         for (x = x1; x < x2; x += ytile_span) {
+            mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x, ytile_span);
+            xo += bytes_per_column;
+            swizzle ^= swizzle_bit;
+         }
+
+         mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x2, x3 - x2);
+
+         src += src_pitch;
+      }
+   }
+
+   for (yo = y1 * column_width; yo < y2 * column_width; yo += 4 * 
column_width) {
       uint32_t xo = xo1;
       uint32_t swizzle = swizzle1;
 
-      mem_copy(dst + ((xo0 + yo) ^ swizzle0), src + x0, x1 - x0);
+      if (x0 != x1) {
+         mem_copy(dst + ((xo0 + yo + 0 * column_width) ^ swizzle0), src + x0 + 
0 * src_pitch, x1 - x0);
+         mem_copy(dst + ((xo0 + yo + 1 * column_width) ^ swizzle0), src + x0 + 
1 * src_pitch, x1 - x0);
+         mem_copy(dst + ((xo0 + yo + 2 * column_width) ^ swizzle0), src + x0 + 
2 * src_pitch, x1 - x0);
+         mem_copy(dst + ((xo0 + yo + 3 * column_width) ^ swizzle0), src + x0 + 
3 * src_pitch, x1 - x0);
+      }
 
       /* Step by spans/columns.  As it happens, the swizzle bit flips
        * at each step so we don't need to calculate it explicitly.
        */
       for (x = x1; x < x2; x += ytile_span) {
-         mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x, ytile_span);
+         mem_copy_align16(dst + ((xo + yo + 0 * column_width) ^ swizzle), src 
+ x + 0 * src_pitch, ytile_span);
+         mem_copy_align16(dst + ((xo + yo + 1 * column_width) ^ swizzle), src 
+ x + 1 * src_pitch, ytile_span);
+         mem_copy_align16(dst + ((xo + yo + 2 * column_width) ^ swizzle), src 
+ x + 2 * src_pitch, ytile_span);
+         mem_copy_align16(dst + ((xo + yo + 3 * column_width) ^ swizzle), src 
+ x + 3 * src_pitch, ytile_span);
          xo += bytes_per_column;
          swizzle ^= swizzle_bit;
       }
 
-      mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x2, x3 - x2);
+      if (x2 != x3) {
+         mem_copy_align16(dst + ((xo + yo + 0 * column_width) ^ swizzle), src 
+ x2 + 0 * src_pitch, x3 - x2);
+         mem_copy_align16(dst + ((xo + yo + 1 * column_width) ^ swizzle), src 
+ x2 + 1 * src_pitch, x3 - x2);
+         mem_copy_align16(dst + ((xo + yo + 2 * column_width) ^ swizzle), src 
+ x2 + 2 * src_pitch, x3 - x2);
+         mem_copy_align16(dst + ((xo + yo + 3 * column_width) ^ swizzle), src 
+ x2 + 3 * src_pitch, x3 - x2);
+      }
 
-      src += src_pitch;
+      src += 4 * src_pitch;
+   }
+
+   if (y2 != y3) {
+      for (yo = y2 * column_width; yo < y3 * column_width; yo += column_width) 
{
+         uint32_t xo = xo1;
+         uint32_t swizzle = swizzle1;
+
+         mem_copy(dst + ((xo0 + yo) ^ swizzle0), src + x0, x1 - x0);
+
+         /* Step by spans/columns.  As it happens, the swizzle bit flips
+          * at each step so we don't need to calculate it explicitly.
+          */
+         for (x = x1; x < x2; x += ytile_span) {
+            mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x, ytile_span);
+            xo += bytes_per_column;
+            swizzle ^= swizzle_bit;
+         }
+
+         mem_copy_align16(dst + ((xo + yo) ^ swizzle), src + x2, x3 - x2);
+
+         src += src_pitch;
+      }
    }
 }
 

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