From: Robert Ellison Date: Fri, 21 Nov 2008 18:42:14 +0000 (-0700) Subject: CELL: use variant-length fragment ops programs X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=11fc390f6478526d4f0bdb4b7e628284da31b3b9;p=mesa.git CELL: use variant-length fragment ops programs This is a set of changes that optimizes the memory use of fragment operation programs (by using and transmitting only as much memory as is needed for the fragment ops programs, instead of maximal sizes), as well as eliminate the dependency on hard-coded maximal program sizes. State that is not dependent on fragment facing (i.e. that isn't using two-sided stenciling) will only save and transmit a single fragment operation program, instead of two identical programs. - Added the ability to emit a LNOP (No Operation (Load)) instruction. This is used to pad the generated fragment operations programs to a multiple of 8 bytes, which is necessary for proper operation of the dual instruction pipeline, and also required for proper SPU-side decoding. - Added the ability to allocate and manage a variant-length struct cell_command_fragment_ops. This structure now puts the generated function field at the end, where it can be as large as necessary. - On the PPU side, we now combine the generated front-facing and back-facing code into a single variant-length buffer (and only use one if the two sets of code are identical) for transmission to the SPU. - On the SPU side, we pull the correct sizes out of the buffer, allocate a new code buffer if the one we have isn't large enough, and save the code to that buffer. The buffer is deallocated when the SPU exits. - Commented out the emit_fetch() static function, which was not being used. --- diff --git a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c index 1bd9f1c8dd0..b9a75ae5591 100644 --- a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c +++ b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.c @@ -341,7 +341,11 @@ static void emit_RI18(struct spe_function *p, unsigned op, unsigned rT, } - +#define EMIT(_name, _op) \ +void _name (struct spe_function *p) \ +{ \ + emit_RR(p, _op, 0, 0, 0, __FUNCTION__); \ +} #define EMIT_(_name, _op) \ void _name (struct spe_function *p, unsigned rT) \ @@ -713,7 +717,6 @@ hbrr; #if 0 stop; EMIT_RR (spe_stopd, 0x140); -EMIT_ (spe_lnop, 0x001); EMIT_ (spe_nop, 0x201); sync; EMIT_ (spe_dsync, 0x003); diff --git a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h index 7c211ffc51b..f9ad2acacdd 100644 --- a/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h +++ b/src/gallium/auxiliary/rtasm/rtasm_ppc_spe.h @@ -99,7 +99,9 @@ extern void spe_comment(struct spe_function *p, int rel_indent, const char *s); #endif /* RTASM_PPC_SPE_H */ -#ifndef EMIT_ +#ifndef EMIT +#define EMIT(_name, _op) \ + extern void _name (struct spe_function *p); #define EMIT_(_name, _op) \ extern void _name (struct spe_function *p, unsigned rT); #define EMIT_R(_name, _op) \ @@ -129,7 +131,7 @@ extern void spe_comment(struct spe_function *p, int rel_indent, const char *s); #define EMIT_I16(_name, _op) \ extern void _name (struct spe_function *p, int imm); #define UNDEF_EMIT_MACROS -#endif /* EMIT_ */ +#endif /* EMIT */ /* Memory load / store instructions @@ -294,6 +296,10 @@ EMIT_RI16(spe_brz, 0x040) EMIT_RI16(spe_brhnz, 0x046) EMIT_RI16(spe_brhz, 0x044) +/* Control instructions + */ +EMIT (spe_lnop, 0x001) + extern void spe_lqd(struct spe_function *p, unsigned rT, unsigned rA, int offset); @@ -418,6 +424,7 @@ EMIT_R (spe_wrch, 0x10d) #ifdef UNDEF_EMIT_MACROS +#undef EMIT #undef EMIT_ #undef EMIT_R #undef EMIT_RR diff --git a/src/gallium/auxiliary/util/u_memory.h b/src/gallium/auxiliary/util/u_memory.h index 857102719dc..1a6b596421f 100644 --- a/src/gallium/auxiliary/util/u_memory.h +++ b/src/gallium/auxiliary/util/u_memory.h @@ -151,6 +151,8 @@ REALLOC( void *old_ptr, unsigned old_size, unsigned new_size ) #define CALLOC_STRUCT(T) (struct T *) CALLOC(1, sizeof(struct T)) +#define CALLOC_VARIANT_LENGTH_STRUCT(T,more_size) ((struct T *) CALLOC(1, sizeof(struct T) + more_size)) + /** * Return memory on given byte alignment diff --git a/src/gallium/drivers/cell/common.h b/src/gallium/drivers/cell/common.h index a670ed3c6ec..98554d7f521 100644 --- a/src/gallium/drivers/cell/common.h +++ b/src/gallium/drivers/cell/common.h @@ -121,11 +121,6 @@ #define CELL_DEBUG_CMD (1 << 5) #define CELL_DEBUG_CACHE (1 << 6) -/** Max instructions for doing per-fragment operations */ -#define SPU_MAX_FRAGMENT_OPS_INSTS 128 - - - #define CELL_FENCE_IDLE 0 #define CELL_FENCE_EMITTED 1 #define CELL_FENCE_SIGNALLED 2 @@ -153,18 +148,36 @@ struct cell_command_fence /** * Command to specify per-fragment operations state and generated code. - * Note that the dsa, blend, blend_color fields are really only needed + * Note that this is a variant-length structure, allocated with as + * much memory as needed to hold the generated code; the "code" + * field *must* be the last field in the structure. Also, the entire + * length of the structure (including the variant code field) must be + * a multiple of 8 bytes; we require that this structure itself be + * a multiple of 8 bytes, and that the generated code also be a multiple + * of 8 bytes. + * + * Also note that the dsa, blend, blend_color fields are really only needed * for the fallback/C per-pixel code. They're not used when we generate - * dynamic SPU fragment code (which is the normal case). + * dynamic SPU fragment code (which is the normal case), and will eventually + * be removed from this structure. */ struct cell_command_fragment_ops { uint64_t opcode; /**< CELL_CMD_STATE_FRAGMENT_OPS */ + + /* Fields for the fallback case */ struct pipe_depth_stencil_alpha_state dsa; struct pipe_blend_state blend; struct pipe_blend_color blend_color; - unsigned code_front[SPU_MAX_FRAGMENT_OPS_INSTS]; - unsigned code_back[SPU_MAX_FRAGMENT_OPS_INSTS]; + + /* Fields for the generated SPU code */ + unsigned total_code_size; + unsigned front_code_index; + unsigned back_code_index; + /* this field has variant length, and must be the last field in + * the structure + */ + unsigned code[0]; }; diff --git a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c index 82336d6635a..2c64eb1bccd 100644 --- a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c +++ b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c @@ -1776,7 +1776,10 @@ gen_stencil_depth_test(struct spe_function *f, * \param cell the rendering context (in) * \param facing whether the generated code is for front-facing or * back-facing fragments - * \param f the generated function (out) + * \param f the generated function (in/out); on input, the function + * must already have been initialized. On exit, whatever + * instructions within the generated function have had + * the fragment ops appended. */ void cell_gen_fragment_function(struct cell_context *cell, const uint facing, struct spe_function *f) @@ -1808,8 +1811,6 @@ cell_gen_fragment_function(struct cell_context *cell, const uint facing, struct int fbRGBA_reg; /**< framebuffer's RGBA colors for quad */ int fbZS_reg; /**< framebuffer's combined z/stencil values for quad */ - spe_init_func(f, SPU_MAX_FRAGMENT_OPS_INSTS * SPE_INST_SIZE); - if (cell->debug_flags & CELL_DEBUG_ASM) { spe_print_code(f, true); spe_indent(f, 8); diff --git a/src/gallium/drivers/cell/ppu/cell_state_emit.c b/src/gallium/drivers/cell/ppu/cell_state_emit.c index 031b27f11f6..0a0af81f53f 100644 --- a/src/gallium/drivers/cell/ppu/cell_state_emit.c +++ b/src/gallium/drivers/cell/ppu/cell_state_emit.c @@ -76,30 +76,86 @@ lookup_fragment_ops(struct cell_context *cell) */ if (!ops) { struct spe_function spe_code_front, spe_code_back; + unsigned int facing_dependent, total_code_size; if (0) debug_printf("**** Create New Fragment Ops\n"); - /* Prepare the buffer that will hold the generated code. */ - spe_init_func(&spe_code_front, SPU_MAX_FRAGMENT_OPS_INSTS * SPE_INST_SIZE); - spe_init_func(&spe_code_back, SPU_MAX_FRAGMENT_OPS_INSTS * SPE_INST_SIZE); + /* Prepare the buffer that will hold the generated code. The + * "0" passed in for the size means that the SPE code will + * use a default size. + */ + spe_init_func(&spe_code_front, 0); + spe_init_func(&spe_code_back, 0); - /* generate new code. Always generate new code for both front-facing + /* Generate new code. Always generate new code for both front-facing * and back-facing fragments, even if it's the same code in both * cases. */ cell_gen_fragment_function(cell, CELL_FACING_FRONT, &spe_code_front); cell_gen_fragment_function(cell, CELL_FACING_BACK, &spe_code_back); - /* alloc new fragment ops command */ - ops = CALLOC_STRUCT(cell_command_fragment_ops); + /* Make sure the code is a multiple of 8 bytes long; this is + * required to ensure that the dual pipe instruction alignment + * is correct. It's also important for the SPU unpacking, + * which assumes 8-byte boundaries. + */ + unsigned int front_code_size = spe_code_size(&spe_code_front); + while (front_code_size % 8 != 0) { + spe_lnop(&spe_code_front); + front_code_size = spe_code_size(&spe_code_front); + } + unsigned int back_code_size = spe_code_size(&spe_code_back); + while (back_code_size % 8 != 0) { + spe_lnop(&spe_code_back); + back_code_size = spe_code_size(&spe_code_back); + } + /* Determine whether the code we generated is facing-dependent, by + * determining whether the generated code is different for the front- + * and back-facing fragments. + */ + if (front_code_size == back_code_size && memcmp(spe_code_front.store, spe_code_back.store, front_code_size) == 0) { + /* Code is identical; only need one copy. */ + facing_dependent = 0; + total_code_size = front_code_size; + } + else { + /* Code is different for front-facing and back-facing fragments. + * Need to send both copies. + */ + facing_dependent = 1; + total_code_size = front_code_size + back_code_size; + } + + /* alloc new fragment ops command. Note that this structure + * has variant length based on the total code size required. + */ + ops = CALLOC_VARIANT_LENGTH_STRUCT(cell_command_fragment_ops, total_code_size); /* populate the new cell_command_fragment_ops object */ ops->opcode = CELL_CMD_STATE_FRAGMENT_OPS; - memcpy(ops->code_front, spe_code_front.store, spe_code_size(&spe_code_front)); - memcpy(ops->code_back, spe_code_back.store, spe_code_size(&spe_code_back)); + ops->total_code_size = total_code_size; + ops->front_code_index = 0; + memcpy(ops->code, spe_code_front.store, front_code_size); + if (facing_dependent) { + /* We have separate front- and back-facing code. Append the + * back-facing code to the buffer. Be careful because the code + * size is in bytes, but the buffer is of unsigned elements. + */ + ops->back_code_index = front_code_size / sizeof(spe_code_front.store[0]); + memcpy(ops->code + ops->back_code_index, spe_code_back.store, back_code_size); + } + else { + /* Use the same code for front- and back-facing fragments */ + ops->back_code_index = ops->front_code_index; + } + + /* Set the fields for the fallback case. Note that these fields + * (and the whole fallback case) will eventually go away. + */ ops->dsa = *cell->depth_stencil; ops->blend = *cell->blend; + ops->blend_color = cell->blend_color; /* insert cell_command_fragment_ops object into keymap/cache */ util_keymap_insert(cell->fragment_ops_cache, &key, ops, NULL); @@ -200,9 +256,10 @@ cell_emit_state(struct cell_context *cell) CELL_NEW_DEPTH_STENCIL | CELL_NEW_BLEND)) { struct cell_command_fragment_ops *fops, *fops_cmd; - fops_cmd = cell_batch_alloc(cell, sizeof(*fops_cmd)); + /* Note that cell_command_fragment_ops is a variant-sized record */ fops = lookup_fragment_ops(cell); - memcpy(fops_cmd, fops, sizeof(*fops)); + fops_cmd = cell_batch_alloc(cell, sizeof(*fops_cmd) + fops->total_code_size); + memcpy(fops_cmd, fops, sizeof(*fops) + fops->total_code_size); } if (cell->dirty & CELL_NEW_SAMPLER) { diff --git a/src/gallium/drivers/cell/ppu/cell_vertex_fetch.c b/src/gallium/drivers/cell/ppu/cell_vertex_fetch.c index 18969005b02..9cba537d9eb 100644 --- a/src/gallium/drivers/cell/ppu/cell_vertex_fetch.c +++ b/src/gallium/drivers/cell/ppu/cell_vertex_fetch.c @@ -145,6 +145,8 @@ emit_matrix_transpose(struct spe_function *p, } +#if 0 +/* This appears to not be used currently */ static void emit_fetch(struct spe_function *p, unsigned in_ptr, unsigned *offset, @@ -256,6 +258,7 @@ emit_fetch(struct spe_function *p, spe_release_register(p, float_one); } } +#endif void cell_update_vertex_fetch(struct draw_context *draw) diff --git a/src/gallium/drivers/cell/spu/spu_command.c b/src/gallium/drivers/cell/spu/spu_command.c index d5faf4e3aaa..8500d19754e 100644 --- a/src/gallium/drivers/cell/spu/spu_command.c +++ b/src/gallium/drivers/cell/spu/spu_command.c @@ -210,45 +210,72 @@ cmd_release_verts(const struct cell_command_release_verts *release) static void cmd_state_fragment_ops(const struct cell_command_fragment_ops *fops) { - static int warned = 0; - D_PRINTF(CELL_DEBUG_CMD, "CMD_STATE_FRAGMENT_OPS\n"); - /* Copy SPU code from batch buffer to spu buffer */ - memcpy(spu.fragment_ops_code_front, fops->code_front, SPU_MAX_FRAGMENT_OPS_INSTS * 4); - memcpy(spu.fragment_ops_code_back, fops->code_back, SPU_MAX_FRAGMENT_OPS_INSTS * 4); - /* Copy state info (for fallback case only) */ + + /* Copy state info (for fallback case only - this will eventually + * go away when the fallback case goes away) + */ memcpy(&spu.depth_stencil_alpha, &fops->dsa, sizeof(fops->dsa)); memcpy(&spu.blend, &fops->blend, sizeof(fops->blend)); memcpy(&spu.blend_color, &fops->blend_color, sizeof(fops->blend_color)); - /* Parity twist! For now, always use the fallback code by default, - * only switching to codegen when specifically requested. This - * allows us to develop freely without risking taking down the - * branch. - * - * Later, the parity of this check will be reversed, so that - * codegen is *always* used, unless we specifically indicate that - * we don't want it. - * - * Eventually, the option will be removed completely, because in - * final code we'll always use codegen and won't even provide the - * raw state records that the fallback code requires. + /* Make sure the SPU knows which buffers it's expected to read when + * it's told to pull tiles. */ - if ((spu.init.debug_flags & CELL_DEBUG_FRAGMENT_OP_FALLBACK) == 0) { - spu.fragment_ops[CELL_FACING_FRONT] = (spu_fragment_ops_func) spu.fragment_ops_code_front; - spu.fragment_ops[CELL_FACING_BACK] = (spu_fragment_ops_func) spu.fragment_ops_code_back; - } - else { - /* otherwise, the default fallback code remains in place */ + spu.read_depth_stencil = (spu.depth_stencil_alpha.depth.enabled || spu.depth_stencil_alpha.stencil[0].enabled); + + /* If we're forcing the fallback code to be used (for debug purposes), + * install that. Otherwise install the incoming SPU code. + */ + if ((spu.init.debug_flags & CELL_DEBUG_FRAGMENT_OP_FALLBACK) != 0) { + static unsigned int warned = 0; if (!warned) { fprintf(stderr, "Cell Warning: using fallback per-fragment code\n"); warned = 1; } + /* The following two lines aren't really necessary if you + * know the debug flags won't change during a run, and if you + * know that the function pointers are initialized correctly. + * We set them here to allow a person to change the debug + * flags during a run (from inside a debugger). + */ + spu.fragment_ops[CELL_FACING_FRONT] = spu_fallback_fragment_ops; + spu.fragment_ops[CELL_FACING_BACK] = spu_fallback_fragment_ops; + return; } - spu.read_depth_stencil = (spu.depth_stencil_alpha.depth.enabled || spu.depth_stencil_alpha.stencil[0].enabled); -} + /* Make sure the SPU code buffer is large enough to hold the incoming code. + * Note that we *don't* use align_malloc() and align_free(), because + * those utility functions are *not* available in SPU code. + * */ + if (spu.fragment_ops_code_size < fops->total_code_size) { + if (spu.fragment_ops_code != NULL) { + free(spu.fragment_ops_code); + } + spu.fragment_ops_code_size = fops->total_code_size; + spu.fragment_ops_code = malloc(fops->total_code_size); + if (spu.fragment_ops_code == NULL) { + /* Whoops. */ + fprintf(stderr, "CELL Warning: failed to allocate fragment ops code (%d bytes) - using fallback\n", fops->total_code_size); + spu.fragment_ops_code = NULL; + spu.fragment_ops_code_size = 0; + spu.fragment_ops[CELL_FACING_FRONT] = spu_fallback_fragment_ops; + spu.fragment_ops[CELL_FACING_BACK] = spu_fallback_fragment_ops; + return; + } + } + /* Copy the SPU code from the command buffer to the spu buffer */ + memcpy(spu.fragment_ops_code, fops->code, fops->total_code_size); + + /* Set the pointers for the front-facing and back-facing fragments + * to the specified offsets within the code. Note that if the + * front-facing and back-facing code are the same, they'll have + * the same offset. + */ + spu.fragment_ops[CELL_FACING_FRONT] = (spu_fragment_ops_func) &spu.fragment_ops_code[fops->front_code_index]; + spu.fragment_ops[CELL_FACING_BACK] = (spu_fragment_ops_func) &spu.fragment_ops_code[fops->back_code_index]; +} static void cmd_state_fragment_program(const struct cell_command_fragment_program *fp) @@ -588,7 +615,8 @@ cmd_batch(uint opcode) struct cell_command_fragment_ops *fops = (struct cell_command_fragment_ops *) &buffer[pos]; cmd_state_fragment_ops(fops); - pos += sizeof(*fops) / 8; + /* This is a variant-sized command */ + pos += (sizeof(*fops) + fops->total_code_size)/ 8; } break; case CELL_CMD_STATE_FRAGMENT_PROGRAM: @@ -756,3 +784,32 @@ command_loop(void) if (spu.init.debug_flags & CELL_DEBUG_CACHE) spu_dcache_report(); } + +/* Initialize this module; we manage the fragment ops buffer here. */ +void +spu_command_init(void) +{ + /* Install default/fallback fragment processing function. + * This will normally be overriden by a code-gen'd function + * unless CELL_FORCE_FRAGMENT_OPS_FALLBACK is set. + */ + spu.fragment_ops[CELL_FACING_FRONT] = spu_fallback_fragment_ops; + spu.fragment_ops[CELL_FACING_BACK] = spu_fallback_fragment_ops; + + /* Set up the basic empty buffer for code-gen'ed fragment ops */ + spu.fragment_ops_code = NULL; + spu.fragment_ops_code_size = 0; +} + +void +spu_command_close(void) +{ + /* Deallocate the code-gen buffer for fragment ops, and reset the + * fragment ops functions to their initial setting (just to leave + * things in a good state). + */ + if (spu.fragment_ops_code != NULL) { + free(spu.fragment_ops_code); + } + spu_command_init(); +} diff --git a/src/gallium/drivers/cell/spu/spu_command.h b/src/gallium/drivers/cell/spu/spu_command.h index 853e9aa5498..83dcdade288 100644 --- a/src/gallium/drivers/cell/spu/spu_command.h +++ b/src/gallium/drivers/cell/spu/spu_command.h @@ -1,7 +1,35 @@ - - +/************************************************************************** + * + * Copyright 2008 Tungsten Graphics, Inc., Cedar Park, Texas. + * All Rights Reserved. + * + * Permission is hereby granted, free of charge, to any person obtaining a + * copy of this software and associated documentation files (the + * "Software"), to deal in the Software without restriction, including + * without limitation the rights to use, copy, modify, merge, publish, + * distribute, sub license, and/or sell copies of the Software, and to + * permit persons to whom the Software is furnished to do so, subject to + * the following conditions: + * + * The above copyright notice and this permission notice (including the + * next paragraph) shall be included in all copies or substantial portions + * of the Software. + * + * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS + * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF + * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. + * IN NO EVENT SHALL TUNGSTEN GRAPHICS AND/OR ITS SUPPLIERS BE LIABLE FOR + * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, + * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE + * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. + * + **************************************************************************/ extern void command_loop(void); +extern void +spu_command_init(void); +extern void +spu_command_close(void); diff --git a/src/gallium/drivers/cell/spu/spu_main.c b/src/gallium/drivers/cell/spu/spu_main.c index 7033f6037df..97c86d194da 100644 --- a/src/gallium/drivers/cell/spu/spu_main.c +++ b/src/gallium/drivers/cell/spu/spu_main.c @@ -58,17 +58,8 @@ one_time_init(void) memset(spu.ctile_status, TILE_STATUS_DEFINED, sizeof(spu.ctile_status)); memset(spu.ztile_status, TILE_STATUS_DEFINED, sizeof(spu.ztile_status)); invalidate_tex_cache(); - - /* Install default/fallback fragment processing function. - * This will normally be overriden by a code-gen'd function - * unless CELL_FORCE_FRAGMENT_OPS_FALLBACK is set. - */ - spu.fragment_ops[CELL_FACING_FRONT] = spu_fallback_fragment_ops; - spu.fragment_ops[CELL_FACING_BACK] = spu_fallback_fragment_ops; } - - /* In some versions of the SDK the SPE main takes 'unsigned long' as a * parameter. In others it takes 'unsigned long long'. Use a define to * select between the two. @@ -91,11 +82,11 @@ main(main_param_t speid, main_param_t argp) ASSERT(sizeof(tile_t) == TILE_SIZE * TILE_SIZE * 4); ASSERT(sizeof(struct cell_command_render) % 8 == 0); - ASSERT(((unsigned long) &spu.fragment_ops_code_front) % 8 == 0); - ASSERT(((unsigned long) &spu.fragment_ops_code_back) % 8 == 0); + ASSERT(sizeof(struct cell_command_fragment_ops) % 8 == 0); ASSERT(((unsigned long) &spu.fragment_program_code) % 8 == 0); one_time_init(); + spu_command_init(); D_PRINTF(CELL_DEBUG_CMD, "main() speid=%lu\n", (unsigned long) speid); D_PRINTF(CELL_DEBUG_FRAGMENT_OP_FALLBACK, "using fragment op fallback\n"); @@ -120,5 +111,7 @@ main(main_param_t speid, main_param_t argp) command_loop(); + spu_command_close(); + return 0; } diff --git a/src/gallium/drivers/cell/spu/spu_main.h b/src/gallium/drivers/cell/spu/spu_main.h index 24cf7d77ce1..33767e7c51d 100644 --- a/src/gallium/drivers/cell/spu/spu_main.h +++ b/src/gallium/drivers/cell/spu/spu_main.h @@ -169,8 +169,8 @@ struct spu_global ubyte ztile_status[CELL_MAX_HEIGHT/TILE_SIZE][CELL_MAX_WIDTH/TILE_SIZE] ALIGN16_ATTRIB; /** Current fragment ops machine code, at 8-byte boundary */ - uint fragment_ops_code_front[SPU_MAX_FRAGMENT_OPS_INSTS] ALIGN8_ATTRIB; - uint fragment_ops_code_back[SPU_MAX_FRAGMENT_OPS_INSTS] ALIGN8_ATTRIB; + uint *fragment_ops_code; + uint fragment_ops_code_size; /** Current fragment ops functions, 0 = frontfacing, 1 = backfacing */ spu_fragment_ops_func fragment_ops[2];