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[/] [openrisc/] [trunk/] [gnu-src/] [gcc-4.2.2/] [gcc/] [tree-browser.c] - Rev 634
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/* Tree browser. Copyright (C) 2002, 2003, 2004, 2007 Free Software Foundation, Inc. Contributed by Sebastian Pop <s.pop@laposte.net> 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 "tree-inline.h" #include "diagnostic.h" #include "hashtab.h" #define TB_OUT_FILE stdout #define TB_IN_FILE stdin #define TB_NIY fprintf (TB_OUT_FILE, "Sorry this command is not yet implemented.\n") #define TB_WF fprintf (TB_OUT_FILE, "Warning, this command failed.\n") /* Structures for handling Tree Browser's commands. */ #define DEFTBCODE(COMMAND, STRING, HELP) COMMAND, enum TB_Comm_code { #include "tree-browser.def" TB_UNUSED_COMMAND }; #undef DEFTBCODE typedef enum TB_Comm_code TB_CODE; struct tb_command { const char *help_msg; const char *comm_text; size_t comm_len; TB_CODE comm_code; }; #define DEFTBCODE(code, str, help) { help, str, sizeof(str) - 1, code }, static const struct tb_command tb_commands[] = { #include "tree-browser.def" }; #undef DEFTBCODE #define TB_COMMAND_LEN(N) (tb_commands[N].comm_len) #define TB_COMMAND_TEXT(N) (tb_commands[N].comm_text) #define TB_COMMAND_CODE(N) (tb_commands[N].comm_code) #define TB_COMMAND_HELP(N) (tb_commands[N].help_msg) /* Next structure is for parsing TREE_CODEs. */ struct tb_tree_code { enum tree_code code; const char *code_string; size_t code_string_len; }; #define DEFTREECODE(SYM, STRING, TYPE, NARGS) { SYM, STRING, sizeof (STRING) - 1 }, static const struct tb_tree_code tb_tree_codes[] = { #include "tree.def" }; #undef DEFTREECODE #define TB_TREE_CODE(N) (tb_tree_codes[N].code) #define TB_TREE_CODE_TEXT(N) (tb_tree_codes[N].code_string) #define TB_TREE_CODE_LEN(N) (tb_tree_codes[N].code_string_len) /* Function declarations. */ static long TB_getline (char **, long *, FILE *); static TB_CODE TB_get_command (char *); static enum tree_code TB_get_tree_code (char *); static tree find_node_with_code (tree *, int *, void *); static tree store_child_info (tree *, int *, void *); static void TB_update_up (tree); static tree TB_current_chain_node (tree); static tree TB_prev_expr (tree); static tree TB_next_expr (tree); static tree TB_up_expr (tree); static tree TB_first_in_bind (tree); static tree TB_last_in_bind (tree); static int TB_parent_eq (const void *, const void *); static tree TB_history_prev (void); /* FIXME: To be declared in a .h file. */ void browse_tree (tree); /* Static variables. */ static htab_t TB_up_ht; static tree TB_history_stack = NULL_TREE; static int TB_verbose = 1; /* Entry point in the Tree Browser. */ void browse_tree (tree begin) { tree head; TB_CODE tbc = TB_UNUSED_COMMAND; ssize_t rd; char *input = NULL; long input_size = 0; fprintf (TB_OUT_FILE, "\nTree Browser\n"); #define TB_SET_HEAD(N) do { \ TB_history_stack = tree_cons (NULL_TREE, (N), TB_history_stack); \ head = N; \ if (TB_verbose) \ if (head) \ { \ print_generic_expr (TB_OUT_FILE, head, 0); \ fprintf (TB_OUT_FILE, "\n"); \ } \ } while (0) TB_SET_HEAD (begin); /* Store in a hashtable information about previous and upper statements. */ { TB_up_ht = htab_create (1023, htab_hash_pointer, &TB_parent_eq, NULL); TB_update_up (head); } while (24) { fprintf (TB_OUT_FILE, "TB> "); rd = TB_getline (&input, &input_size, TB_IN_FILE); if (rd == -1) /* EOF. */ goto ret; if (rd != 1) /* Get a new command. Otherwise the user just pressed enter, and thus she expects the last command to be reexecuted. */ tbc = TB_get_command (input); switch (tbc) { case TB_UPDATE_UP: TB_update_up (head); break; case TB_MAX: if (head && (INTEGRAL_TYPE_P (head) || TREE_CODE (head) == REAL_TYPE)) TB_SET_HEAD (TYPE_MAX_VALUE (head)); else TB_WF; break; case TB_MIN: if (head && (INTEGRAL_TYPE_P (head) || TREE_CODE (head) == REAL_TYPE)) TB_SET_HEAD (TYPE_MIN_VALUE (head)); else TB_WF; break; case TB_ELT: if (head && TREE_CODE (head) == TREE_VEC) { /* This command takes another argument: the element number: for example "elt 1". */ TB_NIY; } else if (head && TREE_CODE (head) == VECTOR_CST) { /* This command takes another argument: the element number: for example "elt 1". */ TB_NIY; } else TB_WF; break; case TB_VALUE: if (head && TREE_CODE (head) == TREE_LIST) TB_SET_HEAD (TREE_VALUE (head)); else TB_WF; break; case TB_PURPOSE: if (head && TREE_CODE (head) == TREE_LIST) TB_SET_HEAD (TREE_PURPOSE (head)); else TB_WF; break; case TB_IMAG: if (head && TREE_CODE (head) == COMPLEX_CST) TB_SET_HEAD (TREE_IMAGPART (head)); else TB_WF; break; case TB_REAL: if (head && TREE_CODE (head) == COMPLEX_CST) TB_SET_HEAD (TREE_REALPART (head)); else TB_WF; break; case TB_BLOCK: if (head && TREE_CODE (head) == BIND_EXPR) TB_SET_HEAD (TREE_OPERAND (head, 2)); else TB_WF; break; case TB_SUBBLOCKS: if (head && TREE_CODE (head) == BLOCK) TB_SET_HEAD (BLOCK_SUBBLOCKS (head)); else TB_WF; break; case TB_SUPERCONTEXT: if (head && TREE_CODE (head) == BLOCK) TB_SET_HEAD (BLOCK_SUPERCONTEXT (head)); else TB_WF; break; case TB_VARS: if (head && TREE_CODE (head) == BLOCK) TB_SET_HEAD (BLOCK_VARS (head)); else if (head && TREE_CODE (head) == BIND_EXPR) TB_SET_HEAD (TREE_OPERAND (head, 0)); else TB_WF; break; case TB_REFERENCE_TO_THIS: if (head && TYPE_P (head)) TB_SET_HEAD (TYPE_REFERENCE_TO (head)); else TB_WF; break; case TB_POINTER_TO_THIS: if (head && TYPE_P (head)) TB_SET_HEAD (TYPE_POINTER_TO (head)); else TB_WF; break; case TB_BASETYPE: if (head && TREE_CODE (head) == OFFSET_TYPE) TB_SET_HEAD (TYPE_OFFSET_BASETYPE (head)); else TB_WF; break; case TB_ARG_TYPES: if (head && (TREE_CODE (head) == FUNCTION_TYPE || TREE_CODE (head) == METHOD_TYPE)) TB_SET_HEAD (TYPE_ARG_TYPES (head)); else TB_WF; break; case TB_METHOD_BASE_TYPE: if (head && (TREE_CODE (head) == FUNCTION_TYPE || TREE_CODE (head) == METHOD_TYPE) && TYPE_METHOD_BASETYPE (head)) TB_SET_HEAD (TYPE_METHOD_BASETYPE (head)); else TB_WF; break; case TB_FIELDS: if (head && (TREE_CODE (head) == RECORD_TYPE || TREE_CODE (head) == UNION_TYPE || TREE_CODE (head) == QUAL_UNION_TYPE)) TB_SET_HEAD (TYPE_FIELDS (head)); else TB_WF; break; case TB_DOMAIN: if (head && TREE_CODE (head) == ARRAY_TYPE) TB_SET_HEAD (TYPE_DOMAIN (head)); else TB_WF; break; case TB_VALUES: if (head && TREE_CODE (head) == ENUMERAL_TYPE) TB_SET_HEAD (TYPE_VALUES (head)); else TB_WF; break; case TB_ARG_TYPE: if (head && TREE_CODE (head) == PARM_DECL) TB_SET_HEAD (DECL_ARG_TYPE (head)); else TB_WF; break; case TB_INITIAL: if (head && DECL_P (head)) TB_SET_HEAD (DECL_INITIAL (head)); else TB_WF; break; case TB_RESULT: if (head && DECL_P (head)) TB_SET_HEAD (DECL_RESULT_FLD (head)); else TB_WF; break; case TB_ARGUMENTS: if (head && DECL_P (head)) TB_SET_HEAD (DECL_ARGUMENTS (head)); else TB_WF; break; case TB_ABSTRACT_ORIGIN: if (head && DECL_P (head)) TB_SET_HEAD (DECL_ABSTRACT_ORIGIN (head)); else if (head && TREE_CODE (head) == BLOCK) TB_SET_HEAD (BLOCK_ABSTRACT_ORIGIN (head)); else TB_WF; break; case TB_ATTRIBUTES: if (head && DECL_P (head)) TB_SET_HEAD (DECL_ATTRIBUTES (head)); else if (head && TYPE_P (head)) TB_SET_HEAD (TYPE_ATTRIBUTES (head)); else TB_WF; break; case TB_CONTEXT: if (head && DECL_P (head)) TB_SET_HEAD (DECL_CONTEXT (head)); else if (head && TYPE_P (head) && TYPE_CONTEXT (head)) TB_SET_HEAD (TYPE_CONTEXT (head)); else TB_WF; break; case TB_OFFSET: if (head && TREE_CODE (head) == FIELD_DECL) TB_SET_HEAD (DECL_FIELD_OFFSET (head)); else TB_WF; break; case TB_BIT_OFFSET: if (head && TREE_CODE (head) == FIELD_DECL) TB_SET_HEAD (DECL_FIELD_BIT_OFFSET (head)); else TB_WF; break; case TB_UNIT_SIZE: if (head && DECL_P (head)) TB_SET_HEAD (DECL_SIZE_UNIT (head)); else if (head && TYPE_P (head)) TB_SET_HEAD (TYPE_SIZE_UNIT (head)); else TB_WF; break; case TB_SIZE: if (head && DECL_P (head)) TB_SET_HEAD (DECL_SIZE (head)); else if (head && TYPE_P (head)) TB_SET_HEAD (TYPE_SIZE (head)); else TB_WF; break; case TB_TYPE: if (head && TREE_TYPE (head)) TB_SET_HEAD (TREE_TYPE (head)); else TB_WF; break; case TB_DECL_SAVED_TREE: if (head && TREE_CODE (head) == FUNCTION_DECL && DECL_SAVED_TREE (head)) TB_SET_HEAD (DECL_SAVED_TREE (head)); else TB_WF; break; case TB_BODY: if (head && TREE_CODE (head) == BIND_EXPR) TB_SET_HEAD (TREE_OPERAND (head, 1)); else TB_WF; break; case TB_CHILD_0: if (head && EXPR_P (head) && TREE_OPERAND (head, 0)) TB_SET_HEAD (TREE_OPERAND (head, 0)); else TB_WF; break; case TB_CHILD_1: if (head && EXPR_P (head) && TREE_OPERAND (head, 1)) TB_SET_HEAD (TREE_OPERAND (head, 1)); else TB_WF; break; case TB_CHILD_2: if (head && EXPR_P (head) && TREE_OPERAND (head, 2)) TB_SET_HEAD (TREE_OPERAND (head, 2)); else TB_WF; break; case TB_CHILD_3: if (head && EXPR_P (head) && TREE_OPERAND (head, 3)) TB_SET_HEAD (TREE_OPERAND (head, 3)); else TB_WF; break; case TB_PRINT: if (head) debug_tree (head); else TB_WF; break; case TB_PRETTY_PRINT: if (head) { print_generic_stmt (TB_OUT_FILE, head, 0); fprintf (TB_OUT_FILE, "\n"); } else TB_WF; break; case TB_SEARCH_NAME: break; case TB_SEARCH_CODE: { enum tree_code code; char *arg_text; arg_text = strchr (input, ' '); if (arg_text == NULL) { fprintf (TB_OUT_FILE, "First argument is missing. This isn't a valid search command. \n"); break; } code = TB_get_tree_code (arg_text + 1); /* Search in the subtree a node with the given code. */ { tree res; res = walk_tree (&head, find_node_with_code, &code, NULL); if (res == NULL_TREE) { fprintf (TB_OUT_FILE, "There's no node with this code (reachable via the walk_tree function from this node).\n"); } else { fprintf (TB_OUT_FILE, "Achoo! I got this node in the tree.\n"); TB_SET_HEAD (res); } } break; } #define TB_MOVE_HEAD(FCT) do { \ if (head) \ { \ tree t; \ t = FCT (head); \ if (t) \ TB_SET_HEAD (t); \ else \ TB_WF; \ } \ else \ TB_WF; \ } while (0) case TB_FIRST: TB_MOVE_HEAD (TB_first_in_bind); break; case TB_LAST: TB_MOVE_HEAD (TB_last_in_bind); break; case TB_UP: TB_MOVE_HEAD (TB_up_expr); break; case TB_PREV: TB_MOVE_HEAD (TB_prev_expr); break; case TB_NEXT: TB_MOVE_HEAD (TB_next_expr); break; case TB_HPREV: /* This command is a little bit special, since it deals with history stack. For this reason it should keep the "head = ..." statement and not use TB_MOVE_HEAD. */ if (head) { tree t; t = TB_history_prev (); if (t) { head = t; if (TB_verbose) { print_generic_expr (TB_OUT_FILE, head, 0); fprintf (TB_OUT_FILE, "\n"); } } else TB_WF; } else TB_WF; break; case TB_CHAIN: /* Don't go further if it's the last node in this chain. */ if (head && TREE_CODE (head) == BLOCK) TB_SET_HEAD (BLOCK_CHAIN (head)); else if (head && TREE_CHAIN (head)) TB_SET_HEAD (TREE_CHAIN (head)); else TB_WF; break; case TB_FUN: /* Go up to the current function declaration. */ TB_SET_HEAD (current_function_decl); fprintf (TB_OUT_FILE, "Current function declaration.\n"); break; case TB_HELP: /* Display a help message. */ { int i; fprintf (TB_OUT_FILE, "Possible commands are:\n\n"); for (i = 0; i < TB_UNUSED_COMMAND; i++) { fprintf (TB_OUT_FILE, "%20s - %s\n", TB_COMMAND_TEXT (i), TB_COMMAND_HELP (i)); } } break; case TB_VERBOSE: if (TB_verbose == 0) { TB_verbose = 1; fprintf (TB_OUT_FILE, "Verbose on.\n"); } else { TB_verbose = 0; fprintf (TB_OUT_FILE, "Verbose off.\n"); } break; case TB_EXIT: case TB_QUIT: /* Just exit from this function. */ goto ret; default: TB_NIY; } } ret:; htab_delete (TB_up_ht); return; } /* Search the first node in this BIND_EXPR. */ static tree TB_first_in_bind (tree node) { tree t; if (node == NULL_TREE) return NULL_TREE; while ((t = TB_prev_expr (node))) node = t; return node; } /* Search the last node in this BIND_EXPR. */ static tree TB_last_in_bind (tree node) { tree t; if (node == NULL_TREE) return NULL_TREE; while ((t = TB_next_expr (node))) node = t; return node; } /* Search the parent expression for this node. */ static tree TB_up_expr (tree node) { tree res; if (node == NULL_TREE) return NULL_TREE; res = (tree) htab_find (TB_up_ht, node); return res; } /* Search the previous expression in this BIND_EXPR. */ static tree TB_prev_expr (tree node) { node = TB_current_chain_node (node); if (node == NULL_TREE) return NULL_TREE; node = TB_up_expr (node); if (node && TREE_CODE (node) == COMPOUND_EXPR) return node; else return NULL_TREE; } /* Search the next expression in this BIND_EXPR. */ static tree TB_next_expr (tree node) { node = TB_current_chain_node (node); if (node == NULL_TREE) return NULL_TREE; node = TREE_OPERAND (node, 1); return node; } static tree TB_current_chain_node (tree node) { if (node == NULL_TREE) return NULL_TREE; if (TREE_CODE (node) == COMPOUND_EXPR) return node; node = TB_up_expr (node); if (node) { if (TREE_CODE (node) == COMPOUND_EXPR) return node; node = TB_up_expr (node); if (TREE_CODE (node) == COMPOUND_EXPR) return node; } return NULL_TREE; } /* For each node store in its children nodes that the current node is their parent. This function is used by walk_tree. */ static tree store_child_info (tree *tp, int *walk_subtrees ATTRIBUTE_UNUSED, void *data ATTRIBUTE_UNUSED) { tree node; void **slot; node = *tp; /* 'node' is the parent of 'TREE_OPERAND (node, *)'. */ if (EXPRESSION_CLASS_P (node)) { #define STORE_CHILD(N) do { \ tree op = TREE_OPERAND (node, N); \ slot = htab_find_slot (TB_up_ht, op, INSERT); \ *slot = (void *) node; \ } while (0) switch (TREE_CODE_LENGTH (TREE_CODE (node))) { case 4: STORE_CHILD (0); STORE_CHILD (1); STORE_CHILD (2); STORE_CHILD (3); break; case 3: STORE_CHILD (0); STORE_CHILD (1); STORE_CHILD (2); break; case 2: STORE_CHILD (0); STORE_CHILD (1); break; case 1: STORE_CHILD (0); break; case 0: default: /* No children: nothing to do. */ break; } #undef STORE_CHILD } /* Never stop walk_tree. */ return NULL_TREE; } /* Function used in TB_up_ht. */ static int TB_parent_eq (const void *p1, const void *p2) { tree node, parent; node = (tree) p2; parent = (tree) p1; if (p1 == NULL || p2 == NULL) return 0; if (EXPRESSION_CLASS_P (parent)) { #define TEST_CHILD(N) do { \ if (node == TREE_OPERAND (parent, N)) \ return 1; \ } while (0) switch (TREE_CODE_LENGTH (TREE_CODE (parent))) { case 4: TEST_CHILD (0); TEST_CHILD (1); TEST_CHILD (2); TEST_CHILD (3); break; case 3: TEST_CHILD (0); TEST_CHILD (1); TEST_CHILD (2); break; case 2: TEST_CHILD (0); TEST_CHILD (1); break; case 1: TEST_CHILD (0); break; case 0: default: /* No children: nothing to do. */ break; } #undef TEST_CHILD } return 0; } /* Update information about upper expressions in the hash table. */ static void TB_update_up (tree node) { while (node) { walk_tree (&node, store_child_info, NULL, NULL); /* Walk function's body. */ if (TREE_CODE (node) == FUNCTION_DECL) if (DECL_SAVED_TREE (node)) walk_tree (&DECL_SAVED_TREE (node), store_child_info, NULL, NULL); /* Walk rest of the chain. */ node = TREE_CHAIN (node); } fprintf (TB_OUT_FILE, "Up/prev expressions updated.\n"); } /* Parse the input string for determining the command the user asked for. */ static TB_CODE TB_get_command (char *input) { unsigned int mn, size_tok; int comp; char *space; space = strchr (input, ' '); if (space != NULL) size_tok = strlen (input) - strlen (space); else size_tok = strlen (input) - 1; for (mn = 0; mn < TB_UNUSED_COMMAND; mn++) { if (size_tok != TB_COMMAND_LEN (mn)) continue; comp = memcmp (input, TB_COMMAND_TEXT (mn), TB_COMMAND_LEN (mn)); if (comp == 0) /* Here we just determined the command. If this command takes an argument, then the argument is determined later. */ return TB_COMMAND_CODE (mn); } /* Not a valid command. */ return TB_UNUSED_COMMAND; } /* Parse the input string for determining the tree code. */ static enum tree_code TB_get_tree_code (char *input) { unsigned int mn, size_tok; int comp; char *space; space = strchr (input, ' '); if (space != NULL) size_tok = strlen (input) - strlen (space); else size_tok = strlen (input) - 1; for (mn = 0; mn < LAST_AND_UNUSED_TREE_CODE; mn++) { if (size_tok != TB_TREE_CODE_LEN (mn)) continue; comp = memcmp (input, TB_TREE_CODE_TEXT (mn), TB_TREE_CODE_LEN (mn)); if (comp == 0) { fprintf (TB_OUT_FILE, "%s\n", TB_TREE_CODE_TEXT (mn)); return TB_TREE_CODE (mn); } } /* This isn't a valid code. */ return LAST_AND_UNUSED_TREE_CODE; } /* Find a node with a given code. This function is used as an argument to walk_tree. */ static tree find_node_with_code (tree *tp, int *walk_subtrees ATTRIBUTE_UNUSED, void *data) { enum tree_code *code; code = (enum tree_code *) data; if (*code == TREE_CODE (*tp)) return *tp; return NULL_TREE; } /* Returns a pointer to the last visited node. */ static tree TB_history_prev (void) { if (TB_history_stack) { TB_history_stack = TREE_CHAIN (TB_history_stack); if (TB_history_stack) return TREE_VALUE (TB_history_stack); } return NULL_TREE; } /* Read up to (and including) a '\n' from STREAM into *LINEPTR (and null-terminate it). *LINEPTR is a pointer returned from malloc (or NULL), pointing to *N characters of space. It is realloc'd as necessary. Returns the number of characters read (not including the null terminator), or -1 on error or EOF. This function comes from sed (and is supposed to be a portable version of getline). */ static long TB_getline (char **lineptr, long *n, FILE *stream) { char *line, *p; long size, copy; if (lineptr == NULL || n == NULL) { errno = EINVAL; return -1; } if (ferror (stream)) return -1; /* Make sure we have a line buffer to start with. */ if (*lineptr == NULL || *n < 2) /* !seen and no buf yet need 2 chars. */ { #ifndef MAX_CANON #define MAX_CANON 256 #endif line = (char *) xrealloc (*lineptr, MAX_CANON); if (line == NULL) return -1; *lineptr = line; *n = MAX_CANON; } line = *lineptr; size = *n; copy = size; p = line; while (1) { long len; while (--copy > 0) { register int c = getc (stream); if (c == EOF) goto lose; else if ((*p++ = c) == '\n') goto win; } /* Need to enlarge the line buffer. */ len = p - line; size *= 2; line = (char *) xrealloc (line, size); if (line == NULL) goto lose; *lineptr = line; *n = size; p = line + len; copy = size - len; } lose: if (p == *lineptr) return -1; /* Return a partial line since we got an error in the middle. */ win: #if defined(WIN32) || defined(_WIN32) || defined(__CYGWIN__) || defined(MSDOS) if (p - 2 >= *lineptr && p[-2] == '\r') p[-2] = p[-1], --p; #endif *p = '\0'; return p - *lineptr; }
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