diff options
author | Jason Ekstrand <[email protected]> | 2016-07-08 17:10:59 -0700 |
---|---|---|
committer | Jason Ekstrand <[email protected]> | 2016-07-13 11:47:37 -0700 |
commit | 4b62c19c323f79e7cc4feff5845996e8dde8daaf (patch) | |
tree | 217f84a3c40e545e081e62386c2e686b8fa22961 | |
parent | 7270bd0607090574d18d22840fc115ab0a082439 (diff) |
isl: Rework the way we define tile sizes.
This is based on a very long set of discussions between Chad and myself
about how we should properly represent HiZ and CCS buffers. The end result
of that discussion was that a tiling actually has two different sizes, a
logical size in elements, and a physical size in bytes and rows. This
commit reworks ISL's pitch and size calculations to work in terms of these
two sizes.
Reviewed-by: Chad Versace <[email protected]>
-rw-r--r-- | src/intel/isl/isl.c | 181 | ||||
-rw-r--r-- | src/intel/isl/isl.h | 37 |
2 files changed, 137 insertions, 81 deletions
diff --git a/src/intel/isl/isl.c b/src/intel/isl/isl.c index 022b06c1a62..c710bca6d29 100644 --- a/src/intel/isl/isl.c +++ b/src/intel/isl/isl.c @@ -111,30 +111,32 @@ isl_tiling_get_info(const struct isl_device *dev, struct isl_tile_info *tile_info) { const uint32_t bs = format_block_size; - uint32_t width, height; + struct isl_extent2d logical_el, phys_B; assert(bs > 0); + assert(tiling == ISL_TILING_LINEAR || isl_is_pow2(bs)); switch (tiling) { case ISL_TILING_LINEAR: - width = 1; - height = 1; + logical_el = isl_extent2d(1, 1); + phys_B = isl_extent2d(bs, 1); break; case ISL_TILING_X: - width = 1 << 9; - height = 1 << 3; + logical_el = isl_extent2d(512 / bs, 8); + phys_B = isl_extent2d(512, 8); break; case ISL_TILING_Y0: - width = 1 << 7; - height = 1 << 5; + logical_el = isl_extent2d(128 / bs, 32); + phys_B = isl_extent2d(128, 32); break; case ISL_TILING_W: /* XXX: Should W tile be same as Y? */ - width = 1 << 6; - height = 1 << 6; + assert(bs == 1); + logical_el = isl_extent2d(64, 64); + phys_B = isl_extent2d(64, 64); break; case ISL_TILING_Yf: @@ -147,8 +149,11 @@ isl_tiling_get_info(const struct isl_device *dev, bool is_Ys = tiling == ISL_TILING_Ys; - width = 1 << (6 + (ffs(bs) / 2) + (2 * is_Ys)); - height = 1 << (6 - (ffs(bs) / 2) + (2 * is_Ys)); + unsigned width = 1 << (6 + (ffs(bs) / 2) + (2 * is_Ys)); + unsigned height = 1 << (6 - (ffs(bs) / 2) + (2 * is_Ys)); + + logical_el = isl_extent2d(width / bs, height); + phys_B = isl_extent2d(width, height); break; } @@ -158,9 +163,8 @@ isl_tiling_get_info(const struct isl_device *dev, *tile_info = (struct isl_tile_info) { .tiling = tiling, - .width = width, - .height = height, - .size = width * height, + .logical_extent_el = logical_el, + .phys_extent_B = phys_B, }; return true; @@ -827,7 +831,7 @@ isl_calc_array_pitch_el_rows(const struct isl_device *dev, * Tile Mode != Linear: This field must be set to an integer multiple * of the tile height */ - pitch_el_rows = isl_align(pitch_el_rows, tile_info->height); + pitch_el_rows = isl_align(pitch_el_rows, tile_info->logical_extent_el.height); } return pitch_el_rows; @@ -837,11 +841,9 @@ isl_calc_array_pitch_el_rows(const struct isl_device *dev, * Calculate the pitch of each surface row, in bytes. */ static uint32_t -isl_calc_row_pitch(const struct isl_device *dev, - const struct isl_surf_init_info *restrict info, - const struct isl_tile_info *tile_info, - const struct isl_extent3d *image_align_sa, - const struct isl_extent2d *phys_slice0_sa) +isl_calc_linear_row_pitch(const struct isl_device *dev, + const struct isl_surf_init_info *restrict info, + const struct isl_extent2d *phys_slice0_sa) { const struct isl_format_layout *fmtl = isl_format_get_layout(info->format); @@ -894,39 +896,26 @@ isl_calc_row_pitch(const struct isl_device *dev, assert(phys_slice0_sa->w % fmtl->bw == 0); row_pitch = MAX(row_pitch, fmtl->bs * (phys_slice0_sa->w / fmtl->bw)); - switch (tile_info->tiling) { - case ISL_TILING_LINEAR: - /* From the Broadwel PRM >> Volume 2d: Command Reference: Structures >> - * RENDER_SURFACE_STATE Surface Pitch (p349): - * - * - For linear render target surfaces and surfaces accessed with the - * typed data port messages, the pitch must be a multiple of the - * element size for non-YUV surface formats. Pitch must be - * a multiple of 2 * element size for YUV surface formats. - * - * - [Requirements for SURFTYPE_BUFFER and SURFTYPE_STRBUF, which we - * ignore because isl doesn't do buffers.] - * - * - For other linear surfaces, the pitch can be any multiple of - * bytes. - */ - if (info->usage & ISL_SURF_USAGE_RENDER_TARGET_BIT) { - if (isl_format_is_yuv(info->format)) { - row_pitch = isl_align_npot(row_pitch, 2 * fmtl->bs); - } else { - row_pitch = isl_align_npot(row_pitch, fmtl->bs); - } + /* From the Broadwel PRM >> Volume 2d: Command Reference: Structures >> + * RENDER_SURFACE_STATE Surface Pitch (p349): + * + * - For linear render target surfaces and surfaces accessed with the + * typed data port messages, the pitch must be a multiple of the + * element size for non-YUV surface formats. Pitch must be + * a multiple of 2 * element size for YUV surface formats. + * + * - [Requirements for SURFTYPE_BUFFER and SURFTYPE_STRBUF, which we + * ignore because isl doesn't do buffers.] + * + * - For other linear surfaces, the pitch can be any multiple of + * bytes. + */ + if (info->usage & ISL_SURF_USAGE_RENDER_TARGET_BIT) { + if (isl_format_is_yuv(info->format)) { + row_pitch = isl_align_npot(row_pitch, 2 * fmtl->bs); + } else { + row_pitch = isl_align_npot(row_pitch, fmtl->bs); } - break; - default: - /* From the Broadwel PRM >> Volume 2d: Command Reference: Structures >> - * RENDER_SURFACE_STATE Surface Pitch (p349): - * - * - For tiled surfaces, the pitch must be a multiple of the tile - * width. - */ - row_pitch = isl_align(row_pitch, tile_info->width); - break; } return row_pitch; @@ -1094,10 +1083,6 @@ isl_surf_init_s(const struct isl_device *dev, assert(phys_slice0_sa.w % fmtl->bw == 0); assert(phys_slice0_sa.h % fmtl->bh == 0); - const uint32_t row_pitch = isl_calc_row_pitch(dev, info, &tile_info, - &image_align_sa, - &phys_slice0_sa); - const uint32_t array_pitch_el_rows = isl_calc_array_pitch_el_rows(dev, info, &tile_info, dim_layout, array_pitch_span, &image_align_sa, @@ -1108,16 +1093,50 @@ isl_surf_init_s(const struct isl_device *dev, uint32_t pad_bytes; isl_apply_surface_padding(dev, info, &tile_info, &total_h_el, &pad_bytes); - /* Be sloppy. Align any leftover padding to a row boundary. */ - total_h_el += isl_align_div_npot(pad_bytes, row_pitch); + uint32_t row_pitch, size, base_alignment; + if (tiling == ISL_TILING_LINEAR) { + row_pitch = isl_calc_linear_row_pitch(dev, info, &phys_slice0_sa); + size = row_pitch * total_h_el + pad_bytes; - const uint32_t size = - row_pitch * isl_align(total_h_el, tile_info.height); + /* From the Broadwell PRM Vol 2d, RENDER_SURFACE_STATE::SurfaceBaseAddress: + * + * "The Base Address for linear render target surfaces and surfaces + * accessed with the typed surface read/write data port messages must + * be element-size aligned, for non-YUV surface formats, or a + * multiple of 2 element-sizes for YUV surface formats. Other linear + * surfaces have no alignment requirements (byte alignment is + * sufficient.)" + */ + base_alignment = MAX(1, info->min_alignment); + if (info->usage & ISL_SURF_USAGE_RENDER_TARGET_BIT) { + if (isl_format_is_yuv(info->format)) { + base_alignment = MAX(base_alignment, 2 * fmtl->bs); + } else { + base_alignment = MAX(base_alignment, fmtl->bs); + } + } + } else { + assert(phys_slice0_sa.w % fmtl->bw == 0); + const uint32_t total_w_el = phys_slice0_sa.width / fmtl->bw; + const uint32_t total_w_tl = + isl_align_div(total_w_el, tile_info.logical_extent_el.width); + + row_pitch = total_w_tl * tile_info.phys_extent_B.width; + if (row_pitch < info->min_pitch) { + row_pitch = isl_align(info->min_pitch, tile_info.phys_extent_B.width); + } - /* Alignment of surface base address, in bytes */ - uint32_t base_alignment = MAX(1, info->min_alignment); - assert(isl_is_pow2(base_alignment) && isl_is_pow2(tile_info.size)); - base_alignment = MAX(base_alignment, tile_info.size); + total_h_el += isl_align_div_npot(pad_bytes, row_pitch); + const uint32_t total_h_tl = + isl_align_div(total_h_el, tile_info.logical_extent_el.height); + + size = total_h_tl * tile_info.phys_extent_B.height * row_pitch; + + const uint32_t tile_size = tile_info.phys_extent_B.width * + tile_info.phys_extent_B.height; + assert(isl_is_pow2(info->min_alignment) && isl_is_pow2(tile_size)); + base_alignment = MAX(info->min_alignment, tile_size); + } *surf = (struct isl_surf) { .dim = info->dim, @@ -1420,9 +1439,6 @@ isl_tiling_get_intratile_offset_el(const struct isl_device *dev, uint32_t *x_offset_el, uint32_t *y_offset_el) { - struct isl_tile_info tile_info; - isl_tiling_get_info(dev, tiling, bs, &tile_info); - /* This function only really works for power-of-two surfaces. In * theory, we could make it work for non-power-of-two surfaces by going * to the left until we find a block that is bs-aligned. The Vulkan @@ -1431,18 +1447,29 @@ isl_tiling_get_intratile_offset_el(const struct isl_device *dev, */ assert(tiling == ISL_TILING_LINEAR || isl_is_pow2(bs)); - uint32_t small_y_offset_el = total_y_offset_el % tile_info.height; - uint32_t big_y_offset_el = total_y_offset_el - small_y_offset_el; - uint32_t big_y_offset_B = big_y_offset_el * row_pitch; + if (tiling == ISL_TILING_LINEAR) { + *base_address_offset = total_y_offset_el * row_pitch + + total_x_offset_el * bs; + *x_offset_el = 0; + *y_offset_el = 0; + return; + } + + struct isl_tile_info tile_info; + isl_tiling_get_info(dev, tiling, bs, &tile_info); + + /* Compute the offset into the tile */ + *x_offset_el = total_x_offset_el % tile_info.logical_extent_el.w; + *y_offset_el = total_y_offset_el % tile_info.logical_extent_el.h; - uint32_t total_x_offset_B = total_x_offset_el * bs; - uint32_t small_x_offset_B = total_x_offset_B % tile_info.width; - uint32_t small_x_offset_el = small_x_offset_B / bs; - uint32_t big_x_offset_B = (total_x_offset_B / tile_info.width) * tile_info.size; + /* Compute the offset of the tile in units of whole tiles */ + uint32_t x_offset_tl = total_x_offset_el / tile_info.logical_extent_el.w; + uint32_t y_offset_tl = total_y_offset_el / tile_info.logical_extent_el.h; - *base_address_offset = big_y_offset_B + big_x_offset_B; - *x_offset_el = small_x_offset_el; - *y_offset_el = small_y_offset_el; + assert(row_pitch % tile_info.phys_extent_B.width == 0); + *base_address_offset = + y_offset_tl * tile_info.phys_extent_B.h * row_pitch + + x_offset_tl * tile_info.phys_extent_B.h * tile_info.phys_extent_B.w; } uint32_t diff --git a/src/intel/isl/isl.h b/src/intel/isl/isl.h index 985b605c181..f169fefd16e 100644 --- a/src/intel/isl/isl.h +++ b/src/intel/isl/isl.h @@ -660,9 +660,28 @@ struct isl_format_layout { struct isl_tile_info { enum isl_tiling tiling; - uint32_t width; /**< in bytes */ - uint32_t height; /**< in rows of memory */ - uint32_t size; /**< in bytes */ + + /** The logical size of the tile in units of surface elements + * + * This field determines how a given surface is cut up into tiles. It is + * used to compute the size of a surface in tiles and can be used to + * determine the location of the tile containing any given surface element. + * The exact value of this field depends heavily on the bits-per-block of + * the format being used. + */ + struct isl_extent2d logical_extent_el; + + /** The physical size of the tile in bytes and rows of bytes + * + * This field determines how the tiles of a surface are physically layed + * out in memory. The logical and physical tile extent are frequently the + * same but this is not always the case. For instance, a W-tile (which is + * always used with ISL_FORMAT_R8) has a logical size of 64el x 64el but + * its physical size is 128B x 32rows, the same as a Y-tile. + * + * @see isl_surf::row_pitch + */ + struct isl_extent2d phys_extent_B; }; /** @@ -743,7 +762,17 @@ struct isl_surf { uint32_t alignment; /** - * Pitch between vertically adjacent surface elements, in bytes. + * The interpretation of this field depends on the value of + * isl_tile_info::physical_extent_B. In particular, the width of the + * surface in tiles is row_pitch / isl_tile_info::physical_extent_B.width + * and the distance in bytes between vertically adjacent tiles in the image + * is given by row_pitch * isl_tile_info::physical_extent_B.height. + * + * For linear images where isl_tile_info::physical_extent_B.height == 1, + * this cleanly reduces to being the distance, in bytes, between vertically + * adjacent surface elements. + * + * @see isl_tile_info::phys_extent_B; */ uint32_t row_pitch; |