Mercurial > hg > CbC > CbC_gcc
view gcc/gimple-pretty-print.c @ 8:5066dc73ff8f
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| author | Shinji KONO <kono@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Thu, 20 Aug 2009 19:10:35 +0900 |
| parents | a06113de4d67 |
| children | 77e2b8dfacca |
line wrap: on
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/* Pretty formatting of GIMPLE statements and expressions. Copyright (C) 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, 2009 Free Software Foundation, Inc. Contributed by Aldy Hernandez <aldyh@redhat.com> and Diego Novillo <dnovillo@google.com> This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see <http://www.gnu.org/licenses/>. */ #include "config.h" #include "system.h" #include "coretypes.h" #include "tm.h" #include "tree.h" #include "diagnostic.h" #include "real.h" #include "hashtab.h" #include "tree-flow.h" #include "tree-pass.h" #include "gimple.h" #include "value-prof.h" #define INDENT(SPACE) \ do { int i; for (i = 0; i < SPACE; i++) pp_space (buffer); } while (0) static pretty_printer buffer; static bool initialized = false; #define GIMPLE_NIY do_niy (buffer,gs) /* Try to print on BUFFER a default message for the unrecognized gimple statement GS. */ static void do_niy (pretty_printer *buffer, gimple gs) { pp_printf (buffer, "<<< Unknown GIMPLE statement: %s >>>\n", gimple_code_name[(int) gimple_code (gs)]); } /* Initialize the pretty printer on FILE if needed. */ static void maybe_init_pretty_print (FILE *file) { if (!initialized) { pp_construct (&buffer, NULL, 0); pp_needs_newline (&buffer) = true; initialized = true; } buffer.buffer->stream = file; } /* Emit a newline and SPC indentantion spaces to BUFFER. */ static void newline_and_indent (pretty_printer *buffer, int spc) { pp_newline (buffer); INDENT (spc); } /* Print the GIMPLE statement GS on stderr. */ void debug_gimple_stmt (gimple gs) { print_gimple_stmt (stderr, gs, 0, TDF_VOPS|TDF_MEMSYMS); fprintf (stderr, "\n"); } /* Dump GIMPLE statement G to FILE using SPC indentantion spaces and FLAGS as in dump_gimple_stmt. */ void print_gimple_stmt (FILE *file, gimple g, int spc, int flags) { maybe_init_pretty_print (file); dump_gimple_stmt (&buffer, g, spc, flags); pp_flush (&buffer); } /* Dump GIMPLE statement G to FILE using SPC indentantion spaces and FLAGS as in dump_gimple_stmt. Print only the right-hand side of the statement. */ void print_gimple_expr (FILE *file, gimple g, int spc, int flags) { flags |= TDF_RHS_ONLY; maybe_init_pretty_print (file); dump_gimple_stmt (&buffer, g, spc, flags); } /* Print the GIMPLE sequence SEQ on BUFFER using SPC indentantion spaces and FLAGS as in dump_gimple_stmt. */ static void dump_gimple_seq (pretty_printer *buffer, gimple_seq seq, int spc, int flags) { gimple_stmt_iterator i; for (i = gsi_start (seq); !gsi_end_p (i); gsi_next (&i)) { gimple gs = gsi_stmt (i); INDENT (spc); dump_gimple_stmt (buffer, gs, spc, flags); if (!gsi_one_before_end_p (i)) pp_newline (buffer); } } /* Dump GIMPLE sequence SEQ to FILE using SPC indentantion spaces and FLAGS as in dump_gimple_stmt. */ void print_gimple_seq (FILE *file, gimple_seq seq, int spc, int flags) { maybe_init_pretty_print (file); dump_gimple_seq (&buffer, seq, spc, flags); pp_flush (&buffer); } /* Print the GIMPLE sequence SEQ on stderr. */ void debug_gimple_seq (gimple_seq seq) { print_gimple_seq (stderr, seq, 0, TDF_VOPS|TDF_MEMSYMS); } /* A simple helper to pretty-print some of the gimple tuples in the printf style. The format modifiers are preceeded by '%' and are: 'G' - outputs a string corresponding to the code of the given gimple, 'S' - outputs a gimple_seq with indent of spc + 2, 'T' - outputs the tree t, 'd' - outputs an int as a decimal, 's' - outputs a string, 'n' - outputs a newline, '+' - increases indent by 2 then outputs a newline, '-' - decreases indent by 2 then outputs a newline. */ static void dump_gimple_fmt (pretty_printer *buffer, int spc, int flags, const char *fmt, ...) { va_list args; const char *c; const char *tmp; va_start (args, fmt); for (c = fmt; *c; c++) { if (*c == '%') { gimple_seq seq; tree t; gimple g; switch (*++c) { case 'G': g = va_arg (args, gimple); tmp = gimple_code_name[gimple_code (g)]; pp_string (buffer, tmp); break; case 'S': seq = va_arg (args, gimple_seq); pp_newline (buffer); dump_gimple_seq (buffer, seq, spc + 2, flags); newline_and_indent (buffer, spc); break; case 'T': t = va_arg (args, tree); if (t == NULL_TREE) pp_string (buffer, "NULL"); else dump_generic_node (buffer, t, spc, flags, false); break; case 'd': pp_decimal_int (buffer, va_arg (args, int)); break; case 's': pp_string (buffer, va_arg (args, char *)); break; case 'n': newline_and_indent (buffer, spc); break; case '+': spc += 2; newline_and_indent (buffer, spc); break; case '-': spc -= 2; newline_and_indent (buffer, spc); break; default: gcc_unreachable (); } } else pp_character (buffer, *c); } va_end (args); } /* Helper for dump_gimple_assign. Print the unary RHS of the assignment GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_unary_rhs (pretty_printer *buffer, gimple gs, int spc, int flags) { enum tree_code rhs_code = gimple_assign_rhs_code (gs); tree lhs = gimple_assign_lhs (gs); tree rhs = gimple_assign_rhs1 (gs); switch (rhs_code) { case VIEW_CONVERT_EXPR: case ASSERT_EXPR: dump_generic_node (buffer, rhs, spc, flags, false); break; case FIXED_CONVERT_EXPR: case FIX_TRUNC_EXPR: case FLOAT_EXPR: CASE_CONVERT: pp_character (buffer, '('); dump_generic_node (buffer, TREE_TYPE (lhs), spc, flags, false); pp_string (buffer, ") "); if (op_prio (rhs) < op_code_prio (rhs_code)) { pp_character (buffer, '('); dump_generic_node (buffer, rhs, spc, flags, false); pp_character (buffer, ')'); } else dump_generic_node (buffer, rhs, spc, flags, false); break; case PAREN_EXPR: pp_string (buffer, "(("); dump_generic_node (buffer, rhs, spc, flags, false); pp_string (buffer, "))"); break; case ABS_EXPR: pp_string (buffer, "ABS_EXPR <"); dump_generic_node (buffer, rhs, spc, flags, false); pp_character (buffer, '>'); break; default: if (TREE_CODE_CLASS (rhs_code) == tcc_declaration || TREE_CODE_CLASS (rhs_code) == tcc_constant || TREE_CODE_CLASS (rhs_code) == tcc_reference || rhs_code == SSA_NAME || rhs_code == ADDR_EXPR || rhs_code == CONSTRUCTOR) { dump_generic_node (buffer, rhs, spc, flags, false); break; } else if (rhs_code == BIT_NOT_EXPR) pp_character (buffer, '~'); else if (rhs_code == TRUTH_NOT_EXPR) pp_character (buffer, '!'); else if (rhs_code == NEGATE_EXPR) pp_character (buffer, '-'); else { pp_character (buffer, '['); pp_string (buffer, tree_code_name [rhs_code]); pp_string (buffer, "] "); } if (op_prio (rhs) < op_code_prio (rhs_code)) { pp_character (buffer, '('); dump_generic_node (buffer, rhs, spc, flags, false); pp_character (buffer, ')'); } else dump_generic_node (buffer, rhs, spc, flags, false); break; } } /* Helper for dump_gimple_assign. Print the binary RHS of the assignment GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_binary_rhs (pretty_printer *buffer, gimple gs, int spc, int flags) { const char *p; enum tree_code code = gimple_assign_rhs_code (gs); switch (code) { case COMPLEX_EXPR: case MIN_EXPR: case MAX_EXPR: case VEC_WIDEN_MULT_HI_EXPR: case VEC_WIDEN_MULT_LO_EXPR: case VEC_PACK_TRUNC_EXPR: case VEC_PACK_SAT_EXPR: case VEC_PACK_FIX_TRUNC_EXPR: case VEC_EXTRACT_EVEN_EXPR: case VEC_EXTRACT_ODD_EXPR: case VEC_INTERLEAVE_HIGH_EXPR: case VEC_INTERLEAVE_LOW_EXPR: for (p = tree_code_name [(int) code]; *p; p++) pp_character (buffer, TOUPPER (*p)); pp_string (buffer, " <"); dump_generic_node (buffer, gimple_assign_rhs1 (gs), spc, flags, false); pp_string (buffer, ", "); dump_generic_node (buffer, gimple_assign_rhs2 (gs), spc, flags, false); pp_character (buffer, '>'); break; default: if (op_prio (gimple_assign_rhs1 (gs)) <= op_code_prio (code)) { pp_character (buffer, '('); dump_generic_node (buffer, gimple_assign_rhs1 (gs), spc, flags, false); pp_character (buffer, ')'); } else dump_generic_node (buffer, gimple_assign_rhs1 (gs), spc, flags, false); pp_space (buffer); pp_string (buffer, op_symbol_code (gimple_assign_rhs_code (gs))); pp_space (buffer); if (op_prio (gimple_assign_rhs2 (gs)) <= op_code_prio (code)) { pp_character (buffer, '('); dump_generic_node (buffer, gimple_assign_rhs2 (gs), spc, flags, false); pp_character (buffer, ')'); } else dump_generic_node (buffer, gimple_assign_rhs2 (gs), spc, flags, false); } } /* Dump the gimple assignment GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_assign (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { tree last; if (gimple_num_ops (gs) == 2) last = NULL_TREE; else if (gimple_num_ops (gs) == 3) last = gimple_assign_rhs2 (gs); else gcc_unreachable (); dump_gimple_fmt (buffer, spc, flags, "%G <%s, %T, %T, %T>", gs, tree_code_name[gimple_assign_rhs_code (gs)], gimple_assign_lhs (gs), gimple_assign_rhs1 (gs), last); } else { if (!(flags & TDF_RHS_ONLY)) { dump_generic_node (buffer, gimple_assign_lhs (gs), spc, flags, false); pp_space (buffer); pp_character (buffer, '='); if (gimple_assign_nontemporal_move_p (gs)) pp_string (buffer, "{nt}"); if (gimple_has_volatile_ops (gs)) pp_string (buffer, "{v}"); pp_space (buffer); } if (gimple_num_ops (gs) == 2) dump_unary_rhs (buffer, gs, spc, flags); else if (gimple_num_ops (gs) == 3) dump_binary_rhs (buffer, gs, spc, flags); else gcc_unreachable (); if (!(flags & TDF_RHS_ONLY)) pp_semicolon(buffer); } } /* Dump the return statement GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_return (pretty_printer *buffer, gimple gs, int spc, int flags) { tree t; t = gimple_return_retval (gs); if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T>", gs, t); else { pp_string (buffer, "return"); if (t) { pp_space (buffer); dump_generic_node (buffer, t, spc, flags, false); } pp_semicolon (buffer); } } /* Dump the call arguments for a gimple call. BUFFER, FLAGS are as in dump_gimple_call. */ static void dump_gimple_call_args (pretty_printer *buffer, gimple gs, int flags) { size_t i; for (i = 0; i < gimple_call_num_args (gs); i++) { dump_generic_node (buffer, gimple_call_arg (gs, i), 0, flags, false); if (i < gimple_call_num_args (gs) - 1) pp_string (buffer, ", "); } if (gimple_call_va_arg_pack_p (gs)) { if (gimple_call_num_args (gs) > 0) { pp_character (buffer, ','); pp_space (buffer); } pp_string (buffer, "__builtin_va_arg_pack ()"); } } /* Dump the call statement GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_call (pretty_printer *buffer, gimple gs, int spc, int flags) { tree lhs = gimple_call_lhs (gs); if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%T, %T", gs, gimple_call_fn (gs), lhs); if (gimple_call_num_args (gs) > 0) { pp_string (buffer, ", "); dump_gimple_call_args (buffer, gs, flags); } pp_character (buffer, '>'); } else { if (lhs && !(flags & TDF_RHS_ONLY)) { dump_generic_node (buffer, lhs, spc, flags, false); pp_string (buffer, " ="); if (gimple_has_volatile_ops (gs)) pp_string (buffer, "{v}"); pp_space (buffer); } dump_generic_node (buffer, gimple_call_fn (gs), spc, flags, false); pp_string (buffer, " ("); dump_gimple_call_args (buffer, gs, flags); pp_character (buffer, ')'); if (!(flags & TDF_RHS_ONLY)) pp_semicolon (buffer); } if (gimple_call_chain (gs)) { pp_string (buffer, " [static-chain: "); dump_generic_node (buffer, gimple_call_chain (gs), spc, flags, false); pp_character (buffer, ']'); } if (gimple_call_return_slot_opt_p (gs)) pp_string (buffer, " [return slot optimization]"); if (gimple_call_tail_p (gs)) pp_string (buffer, " [tail call]"); } /* Dump the switch statement GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_switch (pretty_printer *buffer, gimple gs, int spc, int flags) { unsigned int i; GIMPLE_CHECK (gs, GIMPLE_SWITCH); if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T, ", gs, gimple_switch_index (gs)); else { pp_string (buffer, "switch ("); dump_generic_node (buffer, gimple_switch_index (gs), spc, flags, true); pp_string (buffer, ") <"); } for (i = 0; i < gimple_switch_num_labels (gs); i++) { tree case_label = gimple_switch_label (gs, i); if (case_label == NULL_TREE) continue; dump_generic_node (buffer, case_label, spc, flags, false); pp_character (buffer, ' '); dump_generic_node (buffer, CASE_LABEL (case_label), spc, flags, false); if (i < gimple_switch_num_labels (gs) - 1) pp_string (buffer, ", "); } pp_character (buffer, '>'); } /* Dump the gimple conditional GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_cond (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%s, %T, %T, %T, %T>", gs, tree_code_name [gimple_cond_code (gs)], gimple_cond_lhs (gs), gimple_cond_rhs (gs), gimple_cond_true_label (gs), gimple_cond_false_label (gs)); else { if (!(flags & TDF_RHS_ONLY)) pp_string (buffer, "if ("); dump_generic_node (buffer, gimple_cond_lhs (gs), spc, flags, false); pp_space (buffer); pp_string (buffer, op_symbol_code (gimple_cond_code (gs))); pp_space (buffer); dump_generic_node (buffer, gimple_cond_rhs (gs), spc, flags, false); if (!(flags & TDF_RHS_ONLY)) { pp_character (buffer, ')'); if (gimple_cond_true_label (gs)) { pp_string (buffer, " goto "); dump_generic_node (buffer, gimple_cond_true_label (gs), spc, flags, false); pp_semicolon (buffer); } if (gimple_cond_false_label (gs)) { pp_string (buffer, " else goto "); dump_generic_node (buffer, gimple_cond_false_label (gs), spc, flags, false); pp_semicolon (buffer); } } } } /* Dump a GIMPLE_LABEL tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_label (pretty_printer *buffer, gimple gs, int spc, int flags) { tree label = gimple_label_label (gs); if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T>", gs, label); else { dump_generic_node (buffer, label, spc, flags, false); pp_character (buffer, ':'); } if (DECL_NONLOCAL (label)) pp_string (buffer, " [non-local]"); } /* Dump a GIMPLE_GOTO tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_goto (pretty_printer *buffer, gimple gs, int spc, int flags) { tree label = gimple_goto_dest (gs); if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T>", gs, label); else dump_gimple_fmt (buffer, spc, flags, "goto %T;", label); } /* Dump a GIMPLE_BIND tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_bind (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <", gs); else pp_character (buffer, '{'); if (!(flags & TDF_SLIM)) { tree var; for (var = gimple_bind_vars (gs); var; var = TREE_CHAIN (var)) { newline_and_indent (buffer, 2); print_declaration (buffer, var, spc, flags); } if (gimple_bind_vars (gs)) pp_newline (buffer); } pp_newline (buffer); dump_gimple_seq (buffer, gimple_bind_body (gs), spc + 2, flags); newline_and_indent (buffer, spc); if (flags & TDF_RAW) pp_character (buffer, '>'); else pp_character (buffer, '}'); } /* Dump a GIMPLE_TRY tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_try (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { const char *type; if (gimple_try_kind (gs) == GIMPLE_TRY_CATCH) type = "GIMPLE_TRY_CATCH"; else if (gimple_try_kind (gs) == GIMPLE_TRY_FINALLY) type = "GIMPLE_TRY_FINALLY"; else type = "UNKNOWN GIMPLE_TRY"; dump_gimple_fmt (buffer, spc, flags, "%G <%s,%+EVAL <%S>%nCLEANUP <%S>%->", gs, type, gimple_try_eval (gs), gimple_try_cleanup (gs)); } else { pp_string (buffer, "try"); newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_try_eval (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); if (gimple_try_kind (gs) == GIMPLE_TRY_CATCH) { newline_and_indent (buffer, spc); pp_string (buffer, "catch"); newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); } else if (gimple_try_kind (gs) == GIMPLE_TRY_FINALLY) { newline_and_indent (buffer, spc); pp_string (buffer, "finally"); newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); } else pp_string (buffer, " <UNKNOWN GIMPLE_TRY> {"); pp_newline (buffer); dump_gimple_seq (buffer, gimple_try_cleanup (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } /* Dump a GIMPLE_CATCH tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_catch (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T, %+CATCH <%S>%->", gs, gimple_catch_types (gs), gimple_catch_handler (gs)); else dump_gimple_fmt (buffer, spc, flags, "catch (%T)%+{%S}", gimple_catch_types (gs), gimple_catch_handler (gs)); } /* Dump a GIMPLE_EH_FILTER tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_eh_filter (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T, %+FAILURE <%S>%->", gs, gimple_eh_filter_types (gs), gimple_eh_filter_failure (gs)); else dump_gimple_fmt (buffer, spc, flags, "<<<eh_filter (%T)>>>%+{%+%S%-}", gimple_eh_filter_types (gs), gimple_eh_filter_failure (gs)); } /* Dump a GIMPLE_RESX tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_resx (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%d>", gs, gimple_resx_region (gs)); else dump_gimple_fmt (buffer, spc, flags, "resx %d", gimple_resx_region (gs)); } /* Dump a GIMPLE_OMP_FOR tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_for (pretty_printer *buffer, gimple gs, int spc, int flags) { size_t i; if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S>%nCLAUSES <", gs, gimple_omp_body (gs)); dump_omp_clauses (buffer, gimple_omp_for_clauses (gs), spc, flags); dump_gimple_fmt (buffer, spc, flags, " >,"); for (i = 0; i < gimple_omp_for_collapse (gs); i++) dump_gimple_fmt (buffer, spc, flags, "%+%T, %T, %T, %s, %T,%n", gimple_omp_for_index (gs, i), gimple_omp_for_initial (gs, i), gimple_omp_for_final (gs, i), tree_code_name[gimple_omp_for_cond (gs, i)], gimple_omp_for_incr (gs, i)); dump_gimple_fmt (buffer, spc, flags, "PRE_BODY <%S>%->", gimple_omp_for_pre_body (gs)); } else { pp_string (buffer, "#pragma omp for"); dump_omp_clauses (buffer, gimple_omp_for_clauses (gs), spc, flags); for (i = 0; i < gimple_omp_for_collapse (gs); i++) { if (i) spc += 2; newline_and_indent (buffer, spc); pp_string (buffer, "for ("); dump_generic_node (buffer, gimple_omp_for_index (gs, i), spc, flags, false); pp_string (buffer, " = "); dump_generic_node (buffer, gimple_omp_for_initial (gs, i), spc, flags, false); pp_string (buffer, "; "); dump_generic_node (buffer, gimple_omp_for_index (gs, i), spc, flags, false); pp_space (buffer); switch (gimple_omp_for_cond (gs, i)) { case LT_EXPR: pp_character (buffer, '<'); break; case GT_EXPR: pp_character (buffer, '>'); break; case LE_EXPR: pp_string (buffer, "<="); break; case GE_EXPR: pp_string (buffer, ">="); break; default: gcc_unreachable (); } pp_space (buffer); dump_generic_node (buffer, gimple_omp_for_final (gs, i), spc, flags, false); pp_string (buffer, "; "); dump_generic_node (buffer, gimple_omp_for_index (gs, i), spc, flags, false); pp_string (buffer, " = "); dump_generic_node (buffer, gimple_omp_for_incr (gs, i), spc, flags, false); pp_character (buffer, ')'); } if (!gimple_seq_empty_p (gimple_omp_body (gs))) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_omp_body (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } } /* Dump a GIMPLE_OMP_CONTINUE tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_continue (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%T, %T>", gs, gimple_omp_continue_control_def (gs), gimple_omp_continue_control_use (gs)); } else { pp_string (buffer, "#pragma omp continue ("); dump_generic_node (buffer, gimple_omp_continue_control_def (gs), spc, flags, false); pp_character (buffer, ','); pp_space (buffer); dump_generic_node (buffer, gimple_omp_continue_control_use (gs), spc, flags, false); pp_character (buffer, ')'); } } /* Dump a GIMPLE_OMP_SINGLE tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_single (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S>%nCLAUSES <", gs, gimple_omp_body (gs)); dump_omp_clauses (buffer, gimple_omp_single_clauses (gs), spc, flags); dump_gimple_fmt (buffer, spc, flags, " >"); } else { pp_string (buffer, "#pragma omp single"); dump_omp_clauses (buffer, gimple_omp_single_clauses (gs), spc, flags); if (!gimple_seq_empty_p (gimple_omp_body (gs))) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_omp_body (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } } /* Dump a GIMPLE_OMP_SECTIONS tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_sections (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S>%nCLAUSES <", gs, gimple_omp_body (gs)); dump_omp_clauses (buffer, gimple_omp_sections_clauses (gs), spc, flags); dump_gimple_fmt (buffer, spc, flags, " >"); } else { pp_string (buffer, "#pragma omp sections"); if (gimple_omp_sections_control (gs)) { pp_string (buffer, " <"); dump_generic_node (buffer, gimple_omp_sections_control (gs), spc, flags, false); pp_character (buffer, '>'); } dump_omp_clauses (buffer, gimple_omp_sections_clauses (gs), spc, flags); if (!gimple_seq_empty_p (gimple_omp_body (gs))) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_omp_body (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } } /* Dump a GIMPLE_OMP_{MASTER,ORDERED,SECTION} tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_block (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S> >", gs, gimple_omp_body (gs)); else { switch (gimple_code (gs)) { case GIMPLE_OMP_MASTER: pp_string (buffer, "#pragma omp master"); break; case GIMPLE_OMP_ORDERED: pp_string (buffer, "#pragma omp ordered"); break; case GIMPLE_OMP_SECTION: pp_string (buffer, "#pragma omp section"); break; default: gcc_unreachable (); } if (!gimple_seq_empty_p (gimple_omp_body (gs))) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_omp_body (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } } /* Dump a GIMPLE_OMP_CRITICAL tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_critical (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S> >", gs, gimple_omp_body (gs)); else { pp_string (buffer, "#pragma omp critical"); if (gimple_omp_critical_name (gs)) { pp_string (buffer, " ("); dump_generic_node (buffer, gimple_omp_critical_name (gs), spc, flags, false); pp_character (buffer, ')'); } if (!gimple_seq_empty_p (gimple_omp_body (gs))) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, gimple_omp_body (gs), spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } } } /* Dump a GIMPLE_OMP_RETURN tuple on the pretty_printer BUFFER. */ static void dump_gimple_omp_return (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <nowait=%d>", gs, (int) gimple_omp_return_nowait_p (gs)); } else { pp_string (buffer, "#pragma omp return"); if (gimple_omp_return_nowait_p (gs)) pp_string (buffer, "(nowait)"); } } /* Dump a GIMPLE_ASM tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_asm (pretty_printer *buffer, gimple gs, int spc, int flags) { unsigned int i; if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%+STRING <%n%s%n>", gs, gimple_asm_string (gs)); else { pp_string (buffer, "__asm__"); if (gimple_asm_volatile_p (gs)) pp_string (buffer, " __volatile__"); pp_string (buffer, "(\""); pp_string (buffer, gimple_asm_string (gs)); pp_string (buffer, "\""); } if (gimple_asm_ninputs (gs) || gimple_asm_noutputs (gs) || gimple_asm_nclobbers (gs)) { if (gimple_asm_noutputs (gs)) { if (flags & TDF_RAW) { newline_and_indent (buffer, spc + 2); pp_string (buffer, "OUTPUT: "); } else pp_string (buffer, " : "); } for (i = 0; i < gimple_asm_noutputs (gs); i++) { dump_generic_node (buffer, gimple_asm_output_op (gs, i), spc, flags, false); if ( i < gimple_asm_noutputs (gs) -1) pp_string (buffer, ", "); } if (gimple_asm_ninputs (gs)) { if (flags & TDF_RAW) { newline_and_indent (buffer, spc + 2); pp_string (buffer, "INPUT: "); } else pp_string (buffer, " : "); } for (i = 0; i < gimple_asm_ninputs (gs); i++) { dump_generic_node (buffer, gimple_asm_input_op (gs, i), spc, flags, false); if (i < gimple_asm_ninputs (gs) -1) pp_string (buffer, " : "); } if (gimple_asm_nclobbers (gs)) { if (flags & TDF_RAW) { newline_and_indent (buffer, spc + 2); pp_string (buffer, "CLOBBER: "); } else pp_string (buffer, " : "); } for (i = 0; i < gimple_asm_nclobbers (gs); i++) { dump_generic_node (buffer, gimple_asm_clobber_op (gs, i), spc, flags, false); if ( i < gimple_asm_nclobbers (gs) -1) pp_string (buffer, ", "); } } if (flags & TDF_RAW) { newline_and_indent (buffer, spc); pp_character (buffer, '>'); } else pp_string (buffer, ");"); } /* Dump the set of decls SYMS. BUFFER, SPC and FLAGS are as in dump_generic_node. */ static void dump_symbols (pretty_printer *buffer, bitmap syms, int flags) { unsigned i; bitmap_iterator bi; if (syms == NULL) pp_string (buffer, "NIL"); else { pp_string (buffer, " { "); EXECUTE_IF_SET_IN_BITMAP (syms, 0, i, bi) { tree sym = referenced_var_lookup (i); dump_generic_node (buffer, sym, 0, flags, false); pp_character (buffer, ' '); } pp_character (buffer, '}'); } } /* Dump a PHI node PHI. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_phi (pretty_printer *buffer, gimple phi, int spc, int flags) { size_t i; if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T, ", phi, gimple_phi_result (phi)); else { dump_generic_node (buffer, gimple_phi_result (phi), spc, flags, false); pp_string (buffer, " = PHI <"); } for (i = 0; i < gimple_phi_num_args (phi); i++) { dump_generic_node (buffer, gimple_phi_arg_def (phi, i), spc, flags, false); pp_character (buffer, '('); pp_decimal_int (buffer, gimple_phi_arg_edge (phi, i)->src->index); pp_character (buffer, ')'); if (i < gimple_phi_num_args (phi) - 1) pp_string (buffer, ", "); } pp_character (buffer, '>'); } /* Dump a GIMPLE_OMP_PARALLEL tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_omp_parallel (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S>%nCLAUSES <", gs, gimple_omp_body (gs)); dump_omp_clauses (buffer, gimple_omp_parallel_clauses (gs), spc, flags); dump_gimple_fmt (buffer, spc, flags, " >, %T, %T%n>", gimple_omp_parallel_child_fn (gs), gimple_omp_parallel_data_arg (gs)); } else { gimple_seq body; pp_string (buffer, "#pragma omp parallel"); dump_omp_clauses (buffer, gimple_omp_parallel_clauses (gs), spc, flags); if (gimple_omp_parallel_child_fn (gs)) { pp_string (buffer, " [child fn: "); dump_generic_node (buffer, gimple_omp_parallel_child_fn (gs), spc, flags, false); pp_string (buffer, " ("); if (gimple_omp_parallel_data_arg (gs)) dump_generic_node (buffer, gimple_omp_parallel_data_arg (gs), spc, flags, false); else pp_string (buffer, "???"); pp_string (buffer, ")]"); } body = gimple_omp_body (gs); if (body && gimple_code (gimple_seq_first_stmt (body)) != GIMPLE_BIND) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, body, spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } else if (body) { pp_newline (buffer); dump_gimple_seq (buffer, body, spc + 2, flags); } } } /* Dump a GIMPLE_OMP_TASK tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_omp_task (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%+BODY <%S>%nCLAUSES <", gs, gimple_omp_body (gs)); dump_omp_clauses (buffer, gimple_omp_task_clauses (gs), spc, flags); dump_gimple_fmt (buffer, spc, flags, " >, %T, %T, %T, %T, %T%n>", gimple_omp_task_child_fn (gs), gimple_omp_task_data_arg (gs), gimple_omp_task_copy_fn (gs), gimple_omp_task_arg_size (gs), gimple_omp_task_arg_size (gs)); } else { gimple_seq body; pp_string (buffer, "#pragma omp task"); dump_omp_clauses (buffer, gimple_omp_task_clauses (gs), spc, flags); if (gimple_omp_task_child_fn (gs)) { pp_string (buffer, " [child fn: "); dump_generic_node (buffer, gimple_omp_task_child_fn (gs), spc, flags, false); pp_string (buffer, " ("); if (gimple_omp_task_data_arg (gs)) dump_generic_node (buffer, gimple_omp_task_data_arg (gs), spc, flags, false); else pp_string (buffer, "???"); pp_string (buffer, ")]"); } body = gimple_omp_body (gs); if (body && gimple_code (gimple_seq_first_stmt (body)) != GIMPLE_BIND) { newline_and_indent (buffer, spc + 2); pp_character (buffer, '{'); pp_newline (buffer); dump_gimple_seq (buffer, body, spc + 4, flags); newline_and_indent (buffer, spc + 2); pp_character (buffer, '}'); } else if (body) { pp_newline (buffer); dump_gimple_seq (buffer, body, spc + 2, flags); } } } /* Dump a GIMPLE_OMP_ATOMIC_LOAD tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_omp_atomic_load (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%T, %T>", gs, gimple_omp_atomic_load_lhs (gs), gimple_omp_atomic_load_rhs (gs)); } else { pp_string (buffer, "#pragma omp atomic_load"); newline_and_indent (buffer, spc + 2); dump_generic_node (buffer, gimple_omp_atomic_load_lhs (gs), spc, flags, false); pp_space (buffer); pp_character (buffer, '='); pp_space (buffer); pp_character (buffer, '*'); dump_generic_node (buffer, gimple_omp_atomic_load_rhs (gs), spc, flags, false); } } /* Dump a GIMPLE_OMP_ATOMIC_STORE tuple on the pretty_printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ static void dump_gimple_omp_atomic_store (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) { dump_gimple_fmt (buffer, spc, flags, "%G <%T>", gs, gimple_omp_atomic_store_val (gs)); } else { pp_string (buffer, "#pragma omp atomic_store ("); dump_generic_node (buffer, gimple_omp_atomic_store_val (gs), spc, flags, false); pp_character (buffer, ')'); } } /* Dump a GIMPLE_CHANGE_DYNAMIC_TYPE statement GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_cdt (pretty_printer *buffer, gimple gs, int spc, int flags) { if (flags & TDF_RAW) dump_gimple_fmt (buffer, spc, flags, "%G <%T, %T>", gs, gimple_cdt_new_type (gs), gimple_cdt_location (gs)); else { pp_string (buffer, "<<<change_dynamic_type ("); dump_generic_node (buffer, gimple_cdt_new_type (gs), spc + 2, flags, false); pp_string (buffer, ") "); dump_generic_node (buffer, gimple_cdt_location (gs), spc + 2, flags, false); pp_string (buffer, ")>>>"); } } /* Dump all the memory operands for statement GS. BUFFER, SPC and FLAGS are as in dump_gimple_stmt. */ static void dump_gimple_mem_ops (pretty_printer *buffer, gimple gs, int spc, int flags) { struct voptype_d *vdefs; struct voptype_d *vuses; int i, n; if (!ssa_operands_active () || !gimple_references_memory_p (gs)) return; /* Even if the statement doesn't have virtual operators yet, it may contain symbol information (this happens before aliases have been computed). */ if ((flags & TDF_MEMSYMS) && gimple_vuse_ops (gs) == NULL && gimple_vdef_ops (gs) == NULL) { if (gimple_loaded_syms (gs)) { pp_string (buffer, "# LOADS: "); dump_symbols (buffer, gimple_loaded_syms (gs), flags); newline_and_indent (buffer, spc); } if (gimple_stored_syms (gs)) { pp_string (buffer, "# STORES: "); dump_symbols (buffer, gimple_stored_syms (gs), flags); newline_and_indent (buffer, spc); } return; } vuses = gimple_vuse_ops (gs); while (vuses) { pp_string (buffer, "# VUSE <"); n = VUSE_NUM (vuses); for (i = 0; i < n; i++) { dump_generic_node (buffer, VUSE_OP (vuses, i), spc + 2, flags, false); if (i < n - 1) pp_string (buffer, ", "); } pp_character (buffer, '>'); if (flags & TDF_MEMSYMS) dump_symbols (buffer, gimple_loaded_syms (gs), flags); newline_and_indent (buffer, spc); vuses = vuses->next; } vdefs = gimple_vdef_ops (gs); while (vdefs) { pp_string (buffer, "# "); dump_generic_node (buffer, VDEF_RESULT (vdefs), spc + 2, flags, false); pp_string (buffer, " = VDEF <"); n = VDEF_NUM (vdefs); for (i = 0; i < n; i++) { dump_generic_node (buffer, VDEF_OP (vdefs, i), spc + 2, flags, 0); if (i < n - 1) pp_string (buffer, ", "); } pp_character (buffer, '>'); if ((flags & TDF_MEMSYMS) && vdefs->next == NULL) dump_symbols (buffer, gimple_stored_syms (gs), flags); newline_and_indent (buffer, spc); vdefs = vdefs->next; } } /* Dump the gimple statement GS on the pretty printer BUFFER, SPC spaces of indent. FLAGS specifies details to show in the dump (see TDF_* in tree-pass.h). */ void dump_gimple_stmt (pretty_printer *buffer, gimple gs, int spc, int flags) { if (!gs) return; if (flags & TDF_STMTADDR) pp_printf (buffer, "<&%p> ", (void *) gs); if ((flags & TDF_LINENO) && gimple_has_location (gs)) { expanded_location xloc = expand_location (gimple_location (gs)); pp_character (buffer, '['); if (xloc.file) { pp_string (buffer, xloc.file); pp_string (buffer, " : "); } pp_decimal_int (buffer, xloc.line); pp_string (buffer, "] "); } if ((flags & (TDF_VOPS|TDF_MEMSYMS)) && gimple_has_mem_ops (gs)) dump_gimple_mem_ops (buffer, gs, spc, flags); switch (gimple_code (gs)) { case GIMPLE_ASM: dump_gimple_asm (buffer, gs, spc, flags); break; case GIMPLE_ASSIGN: dump_gimple_assign (buffer, gs, spc, flags); break; case GIMPLE_BIND: dump_gimple_bind (buffer, gs, spc, flags); break; case GIMPLE_CALL: dump_gimple_call (buffer, gs, spc, flags); break; case GIMPLE_COND: dump_gimple_cond (buffer, gs, spc, flags); break; case GIMPLE_LABEL: dump_gimple_label (buffer, gs, spc, flags); break; case GIMPLE_GOTO: dump_gimple_goto (buffer, gs, spc, flags); break; case GIMPLE_NOP: pp_string (buffer, "GIMPLE_NOP"); break; case GIMPLE_RETURN: dump_gimple_return (buffer, gs, spc, flags); break; case GIMPLE_SWITCH: dump_gimple_switch (buffer, gs, spc, flags); break; case GIMPLE_TRY: dump_gimple_try (buffer, gs, spc, flags); break; case GIMPLE_PHI: dump_gimple_phi (buffer, gs, spc, flags); break; case GIMPLE_OMP_PARALLEL: dump_gimple_omp_parallel (buffer, gs, spc, flags); break; case GIMPLE_OMP_TASK: dump_gimple_omp_task (buffer, gs, spc, flags); break; case GIMPLE_OMP_ATOMIC_LOAD: dump_gimple_omp_atomic_load (buffer, gs, spc, flags); break; case GIMPLE_OMP_ATOMIC_STORE: dump_gimple_omp_atomic_store (buffer, gs, spc, flags); break; case GIMPLE_OMP_FOR: dump_gimple_omp_for (buffer, gs, spc, flags); break; case GIMPLE_OMP_CONTINUE: dump_gimple_omp_continue (buffer, gs, spc, flags); break; case GIMPLE_OMP_SINGLE: dump_gimple_omp_single (buffer, gs, spc, flags); break; case GIMPLE_OMP_RETURN: dump_gimple_omp_return (buffer, gs, spc, flags); break; case GIMPLE_OMP_SECTIONS: dump_gimple_omp_sections (buffer, gs, spc, flags); break; case GIMPLE_OMP_SECTIONS_SWITCH: pp_string (buffer, "GIMPLE_SECTIONS_SWITCH"); break; case GIMPLE_OMP_MASTER: case GIMPLE_OMP_ORDERED: case GIMPLE_OMP_SECTION: dump_gimple_omp_block (buffer, gs, spc, flags); break; case GIMPLE_OMP_CRITICAL: dump_gimple_omp_critical (buffer, gs, spc, flags); break; case GIMPLE_CHANGE_DYNAMIC_TYPE: dump_gimple_cdt (buffer, gs, spc, flags); break; case GIMPLE_CATCH: dump_gimple_catch (buffer, gs, spc, flags); break; case GIMPLE_EH_FILTER: dump_gimple_eh_filter (buffer, gs, spc, flags); break; case GIMPLE_RESX: dump_gimple_resx (buffer, gs, spc, flags); break; case GIMPLE_PREDICT: pp_string (buffer, "// predicted "); if (gimple_predict_outcome (gs)) pp_string (buffer, "likely by "); else pp_string (buffer, "unlikely by "); pp_string (buffer, predictor_name (gimple_predict_predictor (gs))); pp_string (buffer, " predictor."); break; default: GIMPLE_NIY; } /* If we're building a diagnostic, the formatted text will be written into BUFFER's stream by the caller; otherwise, write it now. */ if (!(flags & TDF_DIAGNOSTIC)) pp_write_text_to_stream (buffer); } /* Dumps header of basic block BB to buffer BUFFER indented by INDENT spaces and details described by flags. */ static void dump_bb_header (pretty_printer *buffer, basic_block bb, int indent, int flags) { edge e; gimple stmt; edge_iterator ei; if (flags & TDF_BLOCKS) { INDENT (indent); pp_string (buffer, "# BLOCK "); pp_decimal_int (buffer, bb->index); if (bb->frequency) { pp_string (buffer, " freq:"); pp_decimal_int (buffer, bb->frequency); } if (bb->count) { pp_string (buffer, " count:"); pp_widest_integer (buffer, bb->count); } if (flags & TDF_LINENO) { gimple_stmt_iterator gsi; for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi)) if (get_lineno (gsi_stmt (gsi)) != -1) { pp_string (buffer, ", starting at line "); pp_decimal_int (buffer, get_lineno (gsi_stmt (gsi))); break; } } newline_and_indent (buffer, indent); pp_string (buffer, "# PRED:"); pp_write_text_to_stream (buffer); FOR_EACH_EDGE (e, ei, bb->preds) if (flags & TDF_SLIM) { pp_character (buffer, ' '); if (e->src == ENTRY_BLOCK_PTR) pp_string (buffer, "ENTRY"); else pp_decimal_int (buffer, e->src->index); } else dump_edge_info (buffer->buffer->stream, e, 0); pp_newline (buffer); } else { stmt = first_stmt (bb); if (!stmt || gimple_code (stmt) != GIMPLE_LABEL) { INDENT (indent - 2); pp_string (buffer, "<bb "); pp_decimal_int (buffer, bb->index); pp_string (buffer, ">:"); pp_newline (buffer); } } pp_write_text_to_stream (buffer); check_bb_profile (bb, buffer->buffer->stream); } /* Dumps end of basic block BB to buffer BUFFER indented by INDENT spaces. */ static void dump_bb_end (pretty_printer *buffer, basic_block bb, int indent, int flags) { edge e; edge_iterator ei; INDENT (indent); pp_string (buffer, "# SUCC:"); pp_write_text_to_stream (buffer); FOR_EACH_EDGE (e, ei, bb->succs) if (flags & TDF_SLIM) { pp_character (buffer, ' '); if (e->dest == EXIT_BLOCK_PTR) pp_string (buffer, "EXIT"); else pp_decimal_int (buffer, e->dest->index); } else dump_edge_info (buffer->buffer->stream, e, 1); pp_newline (buffer); } /* Dump PHI nodes of basic block BB to BUFFER with details described by FLAGS and indented by INDENT spaces. */ static void dump_phi_nodes (pretty_printer *buffer, basic_block bb, int indent, int flags) { gimple_stmt_iterator i; for (i = gsi_start_phis (bb); !gsi_end_p (i); gsi_next (&i)) { gimple phi = gsi_stmt (i); if (is_gimple_reg (gimple_phi_result (phi)) || (flags & TDF_VOPS)) { INDENT (indent); pp_string (buffer, "# "); dump_gimple_phi (buffer, phi, indent, flags); pp_newline (buffer); } } } /* Dump jump to basic block BB that is represented implicitly in the cfg to BUFFER. */ static void pp_cfg_jump (pretty_printer *buffer, basic_block bb) { gimple stmt; stmt = first_stmt (bb); pp_string (buffer, "goto <bb "); pp_decimal_int (buffer, bb->index); pp_character (buffer, '>'); if (stmt && gimple_code (stmt) == GIMPLE_LABEL) { pp_string (buffer, " ("); dump_generic_node (buffer, gimple_label_label (stmt), 0, 0, false); pp_character (buffer, ')'); pp_semicolon (buffer); } else pp_semicolon (buffer); } /* Dump edges represented implicitly in basic block BB to BUFFER, indented by INDENT spaces, with details given by FLAGS. */ static void dump_implicit_edges (pretty_printer *buffer, basic_block bb, int indent, int flags) { edge e; edge_iterator ei; gimple stmt; stmt = last_stmt (bb); if (stmt && gimple_code (stmt) == GIMPLE_COND) { edge true_edge, false_edge; /* When we are emitting the code or changing CFG, it is possible that the edges are not yet created. When we are using debug_bb in such a situation, we do not want it to crash. */ if (EDGE_COUNT (bb->succs) != 2) return; extract_true_false_edges_from_block (bb, &true_edge, &false_edge); INDENT (indent + 2); pp_cfg_jump (buffer, true_edge->dest); newline_and_indent (buffer, indent); pp_string (buffer, "else"); newline_and_indent (buffer, indent + 2); pp_cfg_jump (buffer, false_edge->dest); pp_newline (buffer); return; } /* If there is a fallthru edge, we may need to add an artificial goto to the dump. */ FOR_EACH_EDGE (e, ei, bb->succs) if (e->flags & EDGE_FALLTHRU) break; if (e && e->dest != bb->next_bb) { INDENT (indent); if ((flags & TDF_LINENO) && e->goto_locus != UNKNOWN_LOCATION ) { expanded_location goto_xloc; goto_xloc = expand_location (e->goto_locus); pp_character (buffer, '['); if (goto_xloc.file) { pp_string (buffer, goto_xloc.file); pp_string (buffer, " : "); } pp_decimal_int (buffer, goto_xloc.line); pp_string (buffer, "] "); } pp_cfg_jump (buffer, e->dest); pp_newline (buffer); } } /* Dumps basic block BB to buffer BUFFER with details described by FLAGS and indented by INDENT spaces. */ static void gimple_dump_bb_buff (pretty_printer *buffer, basic_block bb, int indent, int flags) { gimple_stmt_iterator gsi; gimple stmt; int label_indent = indent - 2; if (label_indent < 0) label_indent = 0; dump_bb_header (buffer, bb, indent, flags); dump_phi_nodes (buffer, bb, indent, flags); for (gsi = gsi_start_bb (bb); !gsi_end_p (gsi); gsi_next (&gsi)) { int curr_indent; stmt = gsi_stmt (gsi); curr_indent = gimple_code (stmt) == GIMPLE_LABEL ? label_indent : indent; INDENT (curr_indent); dump_gimple_stmt (buffer, stmt, curr_indent, flags); pp_newline (buffer); dump_histograms_for_stmt (cfun, buffer->buffer->stream, stmt); } dump_implicit_edges (buffer, bb, indent, flags); if (flags & TDF_BLOCKS) dump_bb_end (buffer, bb, indent, flags); } /* Dumps basic block BB to FILE with details described by FLAGS and indented by INDENT spaces. */ void gimple_dump_bb (basic_block bb, FILE *file, int indent, int flags) { maybe_init_pretty_print (file); gimple_dump_bb_buff (&buffer, bb, indent, flags); pp_flush (&buffer); }