runtime/vm/compiler_stats.cc - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/compiler_stats.h"

 #include "vm/flags.h"
 #include "vm/timer.h"


 namespace dart {

 DEFINE_FLAG(bool, compiler_stats, false, "Compiler stat counters.");

 // Bytes allocated for generated code.
 intptr_t CompilerStats::code_allocated = 0;

 // Total number of characters in source.
 intptr_t CompilerStats::src_length = 0;

 // Cumulative runtime of parser.
 Timer CompilerStats::parser_timer(true, "parser timer");

 // Cumulative runtime of scanner.
 Timer CompilerStats::scanner_timer(true, "scanner timer");

 // Cumulative runtime of code generator.
 Timer CompilerStats::codegen_timer(true, "codegen timer");

 // Cumulative timer of flow graph builder, included in codegen_timer.
 Timer CompilerStats::graphbuilder_timer(true, "flow graph builder timer");

 // Cumulative timer of flow graph SSA construction, included in codegen_timer.
 Timer CompilerStats::ssa_timer(true, "flow graph SSA timer");

 // Cumulative timer of flow graph inliner, included in codegen_timer.
 Timer CompilerStats::graphinliner_timer(true, "flow graph inliner timer");
 // Cumulative sub-timers of flow graph inliner.
 Timer CompilerStats::graphinliner_parse_timer(true, "inliner parsing timer");
 Timer CompilerStats::graphinliner_build_timer(true, "inliner building timer");
 Timer CompilerStats::graphinliner_ssa_timer(true, "inliner SSA timer");
 Timer CompilerStats::graphinliner_opt_timer(true, "inliner optimization timer");
 Timer CompilerStats::graphinliner_subst_timer(true,
                                               "inliner substitution timer");

 // Cumulative timer of flow graph optimizer, included in codegen_timer.
 Timer CompilerStats::graphoptimizer_timer(true, "flow graph optimizer timer");

 // Cumulative timer of flow graph compiler, included in codegen_timer.
 Timer CompilerStats::graphcompiler_timer(true, "flow graph compiler timer");

 // Cumulative timer of code finalization, included in codegen_timer.
 Timer CompilerStats::codefinalizer_timer(true, "code finalization timer");


 intptr_t CompilerStats::num_tokens_total = 0;
 intptr_t CompilerStats::num_literal_tokens_total = 0;
 intptr_t CompilerStats::num_ident_tokens_total = 0;
 intptr_t CompilerStats::num_tokens_consumed = 0;
 intptr_t CompilerStats::num_token_checks = 0;
 intptr_t CompilerStats::num_tokens_rewind = 0;
 intptr_t CompilerStats::num_tokens_lookahead = 0;

 void CompilerStats::Print() {
   if (!FLAG_compiler_stats) {
     return;
   }
   OS::Print("==== Compiler Stats ====\n");
   OS::Print("Number of tokens:   %" Pd "\n", num_tokens_total);
   OS::Print("  Literal tokens:   %" Pd "\n", num_literal_tokens_total);
   OS::Print("  Ident tokens:     %" Pd "\n", num_ident_tokens_total);
   OS::Print("Tokens consumed:    %" Pd " (%.2f times number of tokens)\n",
             num_tokens_consumed,
             (1.0 * num_tokens_consumed) / num_tokens_total);
   OS::Print("Tokens checked:     %" Pd "  (%.2f times tokens consumed)\n",
             num_token_checks, (1.0 * num_token_checks) / num_tokens_consumed);
   OS::Print("Token rewind:       %" Pd " (%" Pd "%% of tokens checked)\n",
             num_tokens_rewind, (100 * num_tokens_rewind) / num_token_checks);
   OS::Print("Token lookahead:    %" Pd " (%" Pd "%% of tokens checked)\n",
             num_tokens_lookahead,
             (100 * num_tokens_lookahead) / num_token_checks);
   OS::Print("Source length:      %" Pd " characters\n", src_length);
   int64_t scan_usecs = scanner_timer.TotalElapsedTime();
   OS::Print("Scanner time:       %" Pd64 " msecs\n",
             scan_usecs / 1000);
   int64_t parse_usecs = parser_timer.TotalElapsedTime();
   OS::Print("Parser time:        %" Pd64 " msecs\n",
             parse_usecs / 1000);
   int64_t codegen_usecs = codegen_timer.TotalElapsedTime();
   OS::Print("Code gen. time:     %" Pd64 " msecs\n",
             codegen_usecs / 1000);
   int64_t graphbuilder_usecs = graphbuilder_timer.TotalElapsedTime();
   OS::Print("  Graph builder:    %" Pd64 " msecs\n", graphbuilder_usecs / 1000);
   int64_t ssa_usecs = ssa_timer.TotalElapsedTime();
   OS::Print("  Graph SSA:        %" Pd64 " msecs\n", ssa_usecs / 1000);

   int64_t graphinliner_usecs = graphinliner_timer.TotalElapsedTime();
   OS::Print("  Graph inliner:    %" Pd64 " msecs\n", graphinliner_usecs / 1000);
   int64_t graphinliner_parse_usecs =
       graphinliner_parse_timer.TotalElapsedTime();
   OS::Print("    Parsing:        %" Pd64 " msecs\n",
             graphinliner_parse_usecs / 1000);
   int64_t graphinliner_build_usecs =
       graphinliner_build_timer.TotalElapsedTime();
   OS::Print("    Building:       %" Pd64 " msecs\n",
             graphinliner_build_usecs / 1000);
   int64_t graphinliner_ssa_usecs = graphinliner_ssa_timer.TotalElapsedTime();
   OS::Print("    SSA:            %" Pd64 " msecs\n",
             graphinliner_ssa_usecs / 1000);
   int64_t graphinliner_opt_usecs = graphinliner_opt_timer.TotalElapsedTime();
   OS::Print("    Optimization:   %" Pd64 " msecs\n",
             graphinliner_opt_usecs / 1000);
   int64_t graphinliner_subst_usecs =
       graphinliner_subst_timer.TotalElapsedTime();
   OS::Print("    Substitution:   %" Pd64 " msecs\n",
             graphinliner_subst_usecs / 1000);

   int64_t graphoptimizer_usecs = graphoptimizer_timer.TotalElapsedTime();
   OS::Print("  Graph optimizer:  %" Pd64 " msecs\n",
             (graphoptimizer_usecs - graphinliner_usecs) / 1000);
   int64_t graphcompiler_usecs = graphcompiler_timer.TotalElapsedTime();
   OS::Print("  Graph compiler:   %" Pd64 " msecs\n",
             graphcompiler_usecs / 1000);
   int64_t codefinalizer_usecs = codefinalizer_timer.TotalElapsedTime();
   OS::Print("  Code finalizer:   %" Pd64 " msecs\n",
             codefinalizer_usecs / 1000);
   OS::Print("Compilation speed:  %" Pd64 " tokens per msec\n",
             1000 * num_tokens_total / (parse_usecs + codegen_usecs));
   OS::Print("Code size:          %" Pd " KB\n",
             code_allocated / 1024);
   OS::Print("Code density:       %" Pd " tokens per KB\n",
             num_tokens_total * 1024 / code_allocated);
 }

 }  // namespace dart
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/compiler_stats.h"

	#include "vm/flags.h"
	#include "vm/timer.h"


	namespace dart {

	DEFINE_FLAG(bool, compiler_stats, false, "Compiler stat counters.");

	// Bytes allocated for generated code.
	intptr_t CompilerStats::code_allocated = 0;

	// Total number of characters in source.
	intptr_t CompilerStats::src_length = 0;

	// Cumulative runtime of parser.
	Timer CompilerStats::parser_timer(true, "parser timer");

	// Cumulative runtime of scanner.
	Timer CompilerStats::scanner_timer(true, "scanner timer");

	// Cumulative runtime of code generator.
	Timer CompilerStats::codegen_timer(true, "codegen timer");

	// Cumulative timer of flow graph builder, included in codegen_timer.
	Timer CompilerStats::graphbuilder_timer(true, "flow graph builder timer");

	// Cumulative timer of flow graph SSA construction, included in codegen_timer.
	Timer CompilerStats::ssa_timer(true, "flow graph SSA timer");

	// Cumulative timer of flow graph inliner, included in codegen_timer.
	Timer CompilerStats::graphinliner_timer(true, "flow graph inliner timer");
	// Cumulative sub-timers of flow graph inliner.
	Timer CompilerStats::graphinliner_parse_timer(true, "inliner parsing timer");
	Timer CompilerStats::graphinliner_build_timer(true, "inliner building timer");
	Timer CompilerStats::graphinliner_ssa_timer(true, "inliner SSA timer");
	Timer CompilerStats::graphinliner_opt_timer(true, "inliner optimization timer");
	Timer CompilerStats::graphinliner_subst_timer(true,
	"inliner substitution timer");

	// Cumulative timer of flow graph optimizer, included in codegen_timer.
	Timer CompilerStats::graphoptimizer_timer(true, "flow graph optimizer timer");

	// Cumulative timer of flow graph compiler, included in codegen_timer.
	Timer CompilerStats::graphcompiler_timer(true, "flow graph compiler timer");

	// Cumulative timer of code finalization, included in codegen_timer.
	Timer CompilerStats::codefinalizer_timer(true, "code finalization timer");


	intptr_t CompilerStats::num_tokens_total = 0;
	intptr_t CompilerStats::num_literal_tokens_total = 0;
	intptr_t CompilerStats::num_ident_tokens_total = 0;
	intptr_t CompilerStats::num_tokens_consumed = 0;
	intptr_t CompilerStats::num_token_checks = 0;
	intptr_t CompilerStats::num_tokens_rewind = 0;
	intptr_t CompilerStats::num_tokens_lookahead = 0;

	void CompilerStats::Print() {
	if (!FLAG_compiler_stats) {
	return;
	}
	OS::Print("==== Compiler Stats ====\n");
	OS::Print("Number of tokens: %" Pd "\n", num_tokens_total);
	OS::Print(" Literal tokens: %" Pd "\n", num_literal_tokens_total);
	OS::Print(" Ident tokens: %" Pd "\n", num_ident_tokens_total);
	OS::Print("Tokens consumed: %" Pd " (%.2f times number of tokens)\n",
	num_tokens_consumed,
	(1.0 * num_tokens_consumed) / num_tokens_total);
	OS::Print("Tokens checked: %" Pd " (%.2f times tokens consumed)\n",
	num_token_checks, (1.0 * num_token_checks) / num_tokens_consumed);
	OS::Print("Token rewind: %" Pd " (%" Pd "%% of tokens checked)\n",
	num_tokens_rewind, (100 * num_tokens_rewind) / num_token_checks);
	OS::Print("Token lookahead: %" Pd " (%" Pd "%% of tokens checked)\n",
	num_tokens_lookahead,
	(100 * num_tokens_lookahead) / num_token_checks);
	OS::Print("Source length: %" Pd " characters\n", src_length);
	int64_t scan_usecs = scanner_timer.TotalElapsedTime();
	OS::Print("Scanner time: %" Pd64 " msecs\n",
	scan_usecs / 1000);
	int64_t parse_usecs = parser_timer.TotalElapsedTime();
	OS::Print("Parser time: %" Pd64 " msecs\n",
	parse_usecs / 1000);
	int64_t codegen_usecs = codegen_timer.TotalElapsedTime();
	OS::Print("Code gen. time: %" Pd64 " msecs\n",
	codegen_usecs / 1000);
	int64_t graphbuilder_usecs = graphbuilder_timer.TotalElapsedTime();
	OS::Print(" Graph builder: %" Pd64 " msecs\n", graphbuilder_usecs / 1000);
	int64_t ssa_usecs = ssa_timer.TotalElapsedTime();
	OS::Print(" Graph SSA: %" Pd64 " msecs\n", ssa_usecs / 1000);

	int64_t graphinliner_usecs = graphinliner_timer.TotalElapsedTime();
	OS::Print(" Graph inliner: %" Pd64 " msecs\n", graphinliner_usecs / 1000);
	int64_t graphinliner_parse_usecs =
	graphinliner_parse_timer.TotalElapsedTime();
	OS::Print(" Parsing: %" Pd64 " msecs\n",
	graphinliner_parse_usecs / 1000);
	int64_t graphinliner_build_usecs =
	graphinliner_build_timer.TotalElapsedTime();
	OS::Print(" Building: %" Pd64 " msecs\n",
	graphinliner_build_usecs / 1000);
	int64_t graphinliner_ssa_usecs = graphinliner_ssa_timer.TotalElapsedTime();
	OS::Print(" SSA: %" Pd64 " msecs\n",
	graphinliner_ssa_usecs / 1000);
	int64_t graphinliner_opt_usecs = graphinliner_opt_timer.TotalElapsedTime();
	OS::Print(" Optimization: %" Pd64 " msecs\n",
	graphinliner_opt_usecs / 1000);
	int64_t graphinliner_subst_usecs =
	graphinliner_subst_timer.TotalElapsedTime();
	OS::Print(" Substitution: %" Pd64 " msecs\n",
	graphinliner_subst_usecs / 1000);

	int64_t graphoptimizer_usecs = graphoptimizer_timer.TotalElapsedTime();
	OS::Print(" Graph optimizer: %" Pd64 " msecs\n",
	(graphoptimizer_usecs - graphinliner_usecs) / 1000);
	int64_t graphcompiler_usecs = graphcompiler_timer.TotalElapsedTime();
	OS::Print(" Graph compiler: %" Pd64 " msecs\n",
	graphcompiler_usecs / 1000);
	int64_t codefinalizer_usecs = codefinalizer_timer.TotalElapsedTime();
	OS::Print(" Code finalizer: %" Pd64 " msecs\n",
	codefinalizer_usecs / 1000);
	OS::Print("Compilation speed: %" Pd64 " tokens per msec\n",
	1000 * num_tokens_total / (parse_usecs + codegen_usecs));
	OS::Print("Code size: %" Pd " KB\n",
	code_allocated / 1024);
	OS::Print("Code density: %" Pd " tokens per KB\n",
	num_tokens_total * 1024 / code_allocated);
	}

	} // namespace dart