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/**************************************************************************
*
* Copyright 2009 VMware, Inc.
* 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 VMWARE 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.
*
**************************************************************************/
#include "util/u_debug.h"
#include "lp_debug.h"
#include "lp_perf.h"
struct lp_counters lp_count;
void
lp_reset_counters(void)
{
memset(&lp_count, 0, sizeof(lp_count));
}
void
lp_print_counters(void)
{
if (LP_DEBUG & DEBUG_COUNTERS) {
unsigned total_64, total_16, total_4;
float p1, p2, p3, p4, p5, p6;
debug_printf("llvmpipe: nr_triangles: %9u\n", lp_count.nr_tris);
debug_printf("llvmpipe: nr_culled_triangles: %9u\n", lp_count.nr_culled_tris);
total_64 = (lp_count.nr_empty_64 +
lp_count.nr_fully_covered_64 +
lp_count.nr_partially_covered_64);
p1 = 100.0 * (float) lp_count.nr_empty_64 / (float) total_64;
p2 = 100.0 * (float) lp_count.nr_fully_covered_64 / (float) total_64;
p3 = 100.0 * (float) lp_count.nr_partially_covered_64 / (float) total_64;
p5 = 100.0 * (float) lp_count.nr_shade_opaque_64 / (float) total_64;
p6 = 100.0 * (float) lp_count.nr_shade_64 / (float) total_64;
debug_printf("llvmpipe: nr_64x64: %9u\n", total_64);
debug_printf("llvmpipe: nr_fully_covered_64x64: %9u (%3.0f%% of %u)\n", lp_count.nr_fully_covered_64, p2, total_64);
debug_printf("llvmpipe: nr_shade_opaque_64x64: %9u (%3.0f%% of %u)\n", lp_count.nr_shade_opaque_64, p5, total_64);
debug_printf("llvmpipe: nr_pure_shade_opaque: %9u (%3.0f%% of %u)\n", lp_count.nr_pure_shade_opaque_64, 0.0, lp_count.nr_shade_opaque_64);
debug_printf("llvmpipe: nr_shade_64x64: %9u (%3.0f%% of %u)\n", lp_count.nr_shade_64, p6, total_64);
debug_printf("llvmpipe: nr_pure_shade: %9u (%3.0f%% of %u)\n", lp_count.nr_pure_shade_64, 0.0, lp_count.nr_shade_64);
debug_printf("llvmpipe: nr_partially_covered_64x64: %9u (%3.0f%% of %u)\n", lp_count.nr_partially_covered_64, p3, total_64);
debug_printf("llvmpipe: nr_empty_64x64: %9u (%3.0f%% of %u)\n", lp_count.nr_empty_64, p1, total_64);
total_16 = (lp_count.nr_empty_16 +
lp_count.nr_fully_covered_16 +
lp_count.nr_partially_covered_16);
p1 = 100.0 * (float) lp_count.nr_empty_16 / (float) total_16;
p2 = 100.0 * (float) lp_count.nr_fully_covered_16 / (float) total_16;
p3 = 100.0 * (float) lp_count.nr_partially_covered_16 / (float) total_16;
debug_printf("llvmpipe: nr_16x16: %9u\n", total_16);
debug_printf("llvmpipe: nr_fully_covered_16x16: %9u (%3.0f%% of %u)\n", lp_count.nr_fully_covered_16, p2, total_16);
debug_printf("llvmpipe: nr_partially_covered_16x16: %9u (%3.0f%% of %u)\n", lp_count.nr_partially_covered_16, p3, total_16);
debug_printf("llvmpipe: nr_empty_16x16: %9u (%3.0f%% of %u)\n", lp_count.nr_empty_16, p1, total_16);
total_4 = (lp_count.nr_empty_4 +
lp_count.nr_fully_covered_4 +
lp_count.nr_partially_covered_4);
p1 = 100.0 * (float) lp_count.nr_empty_4 / (float) total_4;
p2 = 100.0 * (float) lp_count.nr_fully_covered_4 / (float) total_4;
p3 = 100.0 * (float) lp_count.nr_partially_covered_4 / (float) total_4;
p4 = 100.0 * (float) lp_count.nr_non_empty_4 / (float) total_4;
debug_printf("llvmpipe: nr_tri_4x4: %9u\n", total_4);
debug_printf("llvmpipe: nr_fully_covered_4x4: %9u (%3.0f%% of %u)\n", lp_count.nr_fully_covered_4, p2, total_4);
debug_printf("llvmpipe: nr_partially_covered_4x4: %9u (%3.0f%% of %u)\n", lp_count.nr_partially_covered_4, p3, total_4);
debug_printf("llvmpipe: nr_empty_4x4: %9u (%3.0f%% of %u)\n", lp_count.nr_empty_4, p1, total_4);
debug_printf("llvmpipe: nr_non_empty_4x4: %9u (%3.0f%% of %u)\n", lp_count.nr_non_empty_4, p4, total_4);
debug_printf("llvmpipe: nr_color_tile_clear: %9u\n", lp_count.nr_color_tile_clear);
debug_printf("llvmpipe: nr_color_tile_load: %9u\n", lp_count.nr_color_tile_load);
debug_printf("llvmpipe: nr_color_tile_store: %9u\n", lp_count.nr_color_tile_store);
debug_printf("llvmpipe: nr_llvm_compiles: %u\n", lp_count.nr_llvm_compiles);
debug_printf("llvmpipe: total LLVM compile time: %.2f sec\n", lp_count.llvm_compile_time / 1000000.0);
debug_printf("llvmpipe: average LLVM compile time: %.2f sec\n", lp_count.llvm_compile_time / 1000000.0 / lp_count.nr_llvm_compiles);
}
}
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