Mercurial > vim
view src/debugger.c @ 34021:46ebf4ffad49 v9.0.2186
patch 9.0.2186: LTCG compile error ARM64 for write_chars
Commit: https://github.com/vim/vim/commit/38bea30f53da8e4a8847407404597b255b20334e
Author: Saleem Abdulrasool <compnerd@compnerd.org>
Date: Wed Dec 27 18:57:12 2023 +0100
patch 9.0.2186: LTCG compile error ARM64 for write_chars
Problem: LTCG compile error on Win/ARM64 for `write_chars()`
Solution: Explicitly initialise the storage to use data rather than BSS
(Saleem Abdulrasool)
win32: add a workaround for a LTCG issue on Windows ARM64
It appears that the implicit initialisation which would push `g_coords`
into BSS causes an aliasing issue with LTCG on ARM64. By explicitly
initialising the value, we use usual data storage but prevent the
aliasing. This allows the console version of VIM to run on Windows
ARM64 again.
fixes: #13453
closes: #13775
Signed-off-by: Saleem Abdulrasool <compnerd@compnerd.org>
Signed-off-by: Christian Brabandt <cb@256bit.org>
| author | Christian Brabandt <cb@256bit.org> |
|---|---|
| date | Wed, 27 Dec 2023 19:15:03 +0100 |
| parents | 3af53f2895dc |
| children |
line wrap: on
line source
/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * debugger.c: Vim script debugger functions */ #include "vim.h" #if defined(FEAT_EVAL) || defined(PROTO) static int debug_greedy = FALSE; // batch mode debugging: don't save // and restore typeahead. static void do_setdebugtracelevel(char_u *arg); static void do_checkbacktracelevel(void); static void do_showbacktrace(char_u *cmd); static char_u *debug_oldval = NULL; // old and newval for debug expressions static char_u *debug_newval = NULL; static int debug_expr = 0; // use debug_expr int has_watchexpr(void) { return debug_expr; } /* * do_debug(): Debug mode. * Repeatedly get Ex commands, until told to continue normal execution. */ void do_debug(char_u *cmd) { int save_msg_scroll = msg_scroll; int save_State = State; int save_did_emsg = did_emsg; int save_cmd_silent = cmd_silent; int save_msg_silent = msg_silent; int save_emsg_silent = emsg_silent; int save_redir_off = redir_off; tasave_T typeaheadbuf; int typeahead_saved = FALSE; int save_ignore_script = 0; int save_ex_normal_busy; int n; char_u *cmdline = NULL; char_u *p; char_u *sname; char *tail = NULL; static int last_cmd = 0; #define CMD_CONT 1 #define CMD_NEXT 2 #define CMD_STEP 3 #define CMD_FINISH 4 #define CMD_QUIT 5 #define CMD_INTERRUPT 6 #define CMD_BACKTRACE 7 #define CMD_FRAME 8 #define CMD_UP 9 #define CMD_DOWN 10 #ifdef ALWAYS_USE_GUI // Can't do this when there is no terminal for input/output. if (!gui.in_use) { // Break as soon as possible. debug_break_level = 9999; return; } #endif // Make sure we are in raw mode and start termcap mode. Might have side // effects... settmode(TMODE_RAW); starttermcap(); ++RedrawingDisabled; // don't redisplay the window ++no_wait_return; // don't wait for return did_emsg = FALSE; // don't use error from debugged stuff cmd_silent = FALSE; // display commands msg_silent = FALSE; // display messages emsg_silent = FALSE; // display error messages redir_off = TRUE; // don't redirect debug commands save_timeout_for_debugging(); // disable regexp timeout flag State = MODE_NORMAL; debug_mode = TRUE; if (!debug_did_msg) msg(_("Entering Debug mode. Type \"cont\" to continue.")); if (debug_oldval != NULL) { smsg(_("Oldval = \"%s\""), debug_oldval); VIM_CLEAR(debug_oldval); } if (debug_newval != NULL) { smsg(_("Newval = \"%s\""), debug_newval); VIM_CLEAR(debug_newval); } sname = estack_sfile(ESTACK_NONE); if (sname != NULL) msg((char *)sname); vim_free(sname); if (SOURCING_LNUM != 0) smsg(_("line %ld: %s"), SOURCING_LNUM, cmd); else smsg(_("cmd: %s"), cmd); // Repeat getting a command and executing it. for (;;) { msg_scroll = TRUE; need_wait_return = FALSE; // Save the current typeahead buffer and replace it with an empty one. // This makes sure we get input from the user here and don't interfere // with the commands being executed. Reset "ex_normal_busy" to avoid // the side effects of using ":normal". Save the stuff buffer and make // it empty. Set ignore_script to avoid reading from script input. save_ex_normal_busy = ex_normal_busy; ex_normal_busy = 0; if (!debug_greedy) { save_typeahead(&typeaheadbuf); typeahead_saved = TRUE; save_ignore_script = ignore_script; ignore_script = TRUE; } // don't debug any function call, e.g. from an expression mapping n = debug_break_level; debug_break_level = -1; vim_free(cmdline); cmdline = getcmdline_prompt('>', NULL, 0, EXPAND_NOTHING, NULL); debug_break_level = n; if (typeahead_saved) { restore_typeahead(&typeaheadbuf, TRUE); ignore_script = save_ignore_script; } ex_normal_busy = save_ex_normal_busy; cmdline_row = msg_row; msg_starthere(); if (cmdline != NULL) { // If this is a debug command, set "last_cmd". // If not, reset "last_cmd". // For a blank line use previous command. p = skipwhite(cmdline); if (*p != NUL) { switch (*p) { case 'c': last_cmd = CMD_CONT; tail = "ont"; break; case 'n': last_cmd = CMD_NEXT; tail = "ext"; break; case 's': last_cmd = CMD_STEP; tail = "tep"; break; case 'f': last_cmd = 0; if (p[1] == 'r') { last_cmd = CMD_FRAME; tail = "rame"; } else { last_cmd = CMD_FINISH; tail = "inish"; } break; case 'q': last_cmd = CMD_QUIT; tail = "uit"; break; case 'i': last_cmd = CMD_INTERRUPT; tail = "nterrupt"; break; case 'b': last_cmd = CMD_BACKTRACE; if (p[1] == 't') tail = "t"; else tail = "acktrace"; break; case 'w': last_cmd = CMD_BACKTRACE; tail = "here"; break; case 'u': last_cmd = CMD_UP; tail = "p"; break; case 'd': last_cmd = CMD_DOWN; tail = "own"; break; default: last_cmd = 0; } if (last_cmd != 0) { // Check that the tail matches. ++p; while (*p != NUL && *p == *tail) { ++p; ++tail; } if (ASCII_ISALPHA(*p) && last_cmd != CMD_FRAME) last_cmd = 0; } } if (last_cmd != 0) { // Execute debug command: decide where to break next and // return. switch (last_cmd) { case CMD_CONT: debug_break_level = -1; break; case CMD_NEXT: debug_break_level = ex_nesting_level; break; case CMD_STEP: debug_break_level = 9999; break; case CMD_FINISH: debug_break_level = ex_nesting_level - 1; break; case CMD_QUIT: got_int = TRUE; debug_break_level = -1; break; case CMD_INTERRUPT: got_int = TRUE; debug_break_level = 9999; // Do not repeat ">interrupt" cmd, continue stepping. last_cmd = CMD_STEP; break; case CMD_BACKTRACE: do_showbacktrace(cmd); continue; case CMD_FRAME: if (*p == NUL) { do_showbacktrace(cmd); } else { p = skipwhite(p); do_setdebugtracelevel(p); } continue; case CMD_UP: debug_backtrace_level++; do_checkbacktracelevel(); continue; case CMD_DOWN: debug_backtrace_level--; do_checkbacktracelevel(); continue; } // Going out reset backtrace_level debug_backtrace_level = 0; break; } // don't debug this command n = debug_break_level; debug_break_level = -1; (void)do_cmdline(cmdline, getexline, NULL, DOCMD_VERBOSE|DOCMD_EXCRESET); debug_break_level = n; } lines_left = Rows - 1; } vim_free(cmdline); if (RedrawingDisabled > 0) --RedrawingDisabled; --no_wait_return; redraw_all_later(UPD_NOT_VALID); need_wait_return = FALSE; msg_scroll = save_msg_scroll; restore_timeout_for_debugging(); lines_left = Rows - 1; State = save_State; debug_mode = FALSE; did_emsg = save_did_emsg; cmd_silent = save_cmd_silent; msg_silent = save_msg_silent; emsg_silent = save_emsg_silent; redir_off = save_redir_off; // Only print the message again when typing a command before coming back // here. debug_did_msg = TRUE; } static int get_maxbacktrace_level(char_u *sname) { char *p, *q; int maxbacktrace = 0; if (sname == NULL) return 0; p = (char *)sname; while ((q = strstr(p, "..")) != NULL) { p = q + 2; maxbacktrace++; } return maxbacktrace; } static void do_setdebugtracelevel(char_u *arg) { int level; level = atoi((char *)arg); if (*arg == '+' || level < 0) debug_backtrace_level += level; else debug_backtrace_level = level; do_checkbacktracelevel(); } static void do_checkbacktracelevel(void) { if (debug_backtrace_level < 0) { debug_backtrace_level = 0; msg(_("frame is zero")); } else { char_u *sname = estack_sfile(ESTACK_NONE); int max = get_maxbacktrace_level(sname); if (debug_backtrace_level > max) { debug_backtrace_level = max; smsg(_("frame at highest level: %d"), max); } vim_free(sname); } } static void do_showbacktrace(char_u *cmd) { char_u *sname; char *cur; char *next; int i = 0; int max; sname = estack_sfile(ESTACK_NONE); max = get_maxbacktrace_level(sname); if (sname != NULL) { cur = (char *)sname; while (!got_int) { next = strstr(cur, ".."); if (next != NULL) *next = NUL; if (i == max - debug_backtrace_level) smsg("->%d %s", max - i, cur); else smsg(" %d %s", max - i, cur); ++i; if (next == NULL) break; *next = '.'; cur = next + 2; } vim_free(sname); } if (SOURCING_LNUM != 0) smsg(_("line %ld: %s"), (long)SOURCING_LNUM, cmd); else smsg(_("cmd: %s"), cmd); } /* * ":debug". */ void ex_debug(exarg_T *eap) { int debug_break_level_save = debug_break_level; debug_break_level = 9999; do_cmdline_cmd(eap->arg); debug_break_level = debug_break_level_save; } static char_u *debug_breakpoint_name = NULL; static linenr_T debug_breakpoint_lnum; /* * When debugging or a breakpoint is set on a skipped command, no debug prompt * is shown by do_one_cmd(). This situation is indicated by debug_skipped, and * debug_skipped_name is then set to the source name in the breakpoint case. If * a skipped command decides itself that a debug prompt should be displayed, it * can do so by calling dbg_check_skipped(). */ static int debug_skipped; static char_u *debug_skipped_name; /* * Go to debug mode when a breakpoint was encountered or "ex_nesting_level" is * at or below the break level. But only when the line is actually * executed. Return TRUE and set breakpoint_name for skipped commands that * decide to execute something themselves. * Called from do_one_cmd() before executing a command. */ void dbg_check_breakpoint(exarg_T *eap) { char_u *p; debug_skipped = FALSE; if (debug_breakpoint_name != NULL) { if (!eap->skip) { // replace K_SNR with "<SNR>" if (debug_breakpoint_name[0] == K_SPECIAL && debug_breakpoint_name[1] == KS_EXTRA && debug_breakpoint_name[2] == KE_SNR) p = (char_u *)"<SNR>"; else p = (char_u *)""; smsg(_("Breakpoint in \"%s%s\" line %ld"), p, debug_breakpoint_name + (*p == NUL ? 0 : 3), (long)debug_breakpoint_lnum); debug_breakpoint_name = NULL; do_debug(eap->cmd); } else { debug_skipped = TRUE; debug_skipped_name = debug_breakpoint_name; debug_breakpoint_name = NULL; } } else if (ex_nesting_level <= debug_break_level) { if (!eap->skip) do_debug(eap->cmd); else { debug_skipped = TRUE; debug_skipped_name = NULL; } } } /* * Go to debug mode if skipped by dbg_check_breakpoint() because eap->skip was * set. Return TRUE when the debug mode is entered this time. */ int dbg_check_skipped(exarg_T *eap) { int prev_got_int; if (!debug_skipped) return FALSE; // Save the value of got_int and reset it. We don't want a previous // interruption cause flushing the input buffer. prev_got_int = got_int; got_int = FALSE; debug_breakpoint_name = debug_skipped_name; // eap->skip is TRUE eap->skip = FALSE; (void)dbg_check_breakpoint(eap); eap->skip = TRUE; got_int |= prev_got_int; return TRUE; } /* * The list of breakpoints: dbg_breakp. * This is a grow-array of structs. */ struct debuggy { int dbg_nr; // breakpoint number int dbg_type; // DBG_FUNC, DBG_FILE or DBG_EXPR char_u *dbg_name; // function, expression or file name regprog_T *dbg_prog; // regexp program linenr_T dbg_lnum; // line number in function or file int dbg_forceit; // ! used #ifdef FEAT_EVAL typval_T *dbg_val; // last result of watchexpression #endif int dbg_level; // stored nested level for expr }; static garray_T dbg_breakp = {0, 0, sizeof(struct debuggy), 4, NULL}; #define BREAKP(idx) (((struct debuggy *)dbg_breakp.ga_data)[idx]) #define DEBUGGY(gap, idx) (((struct debuggy *)gap->ga_data)[idx]) static int last_breakp = 0; // nr of last defined breakpoint static int has_expr_breakpoint = FALSE; #ifdef FEAT_PROFILE // Profiling uses file and func names similar to breakpoints. static garray_T prof_ga = {0, 0, sizeof(struct debuggy), 4, NULL}; // Profiling caches results of regexp lookups for function/script name. #define N_PROF_HTAB 2 static hashtab_T prof_cache[N_PROF_HTAB]; #define PROF_HTAB_FUNCS 0 #define PROF_HTAB_FILES 1 static int prof_cache_initialized; typedef struct profentry_S { char pen_flags; // cache data booleans: profiling, forceit char_u pen_name[1]; // actually longer } profentry_T; #define PEN_FLAG_PROFILING 1 #define PEN_FLAG_FORCEIT 2 #define PEN_SET_PROFILING(pe) ((pe)->pen_flags |= PEN_FLAG_PROFILING) #define PEN_SET_FORCEIT(pe) ((pe)->pen_flags |= PEN_FLAG_FORCEIT) #define PEN_IS_PROFILING(pe) (((pe)->pen_flags & PEN_FLAG_PROFILING) != 0) #define PEN_IS_FORCEIT(pe) (((pe)->pen_flags & PEN_FLAG_FORCEIT) != 0) #define PE2HIKEY(pe) ((pe)->pen_name) #define HIKEY2PE(p) ((profentry_T *)((p) - (offsetof(profentry_T, pen_name)))) #define HI2PE(hi) HIKEY2PE((hi)->hi_key) static void prof_clear_cache(void); #define PROF_CLEAR_CACHE(gap) do {if ((gap) == &prof_ga) prof_clear_cache();} while (0) // Can enable to get some info about profile caching // #define PROF_CACHE_LOG #else #define PROF_CLEAR_CACHE(gap) do {} while (0) #endif #define DBG_FUNC 1 #define DBG_FILE 2 #define DBG_EXPR 3 static linenr_T debuggy_find(int file,char_u *fname, linenr_T after, garray_T *gap, int *fp); /* * Evaluate the "bp->dbg_name" expression and return the result. * Disables error messages. */ static typval_T * eval_expr_no_emsg(struct debuggy *bp) { typval_T *tv; // Disable error messages, a bad expression would make Vim unusable. ++emsg_off; tv = eval_expr(bp->dbg_name, NULL); --emsg_off; return tv; } /* * Parse the arguments of ":profile", ":breakadd" or ":breakdel" and put them * in the entry just after the last one in dbg_breakp. Note that "dbg_name" * is allocated. * Returns FAIL for failure. */ static int dbg_parsearg( char_u *arg, garray_T *gap) // either &dbg_breakp or &prof_ga { char_u *p = arg; char_u *q; struct debuggy *bp; int here = FALSE; if (ga_grow(gap, 1) == FAIL) return FAIL; bp = &DEBUGGY(gap, gap->ga_len); // Find "func" or "file". if (STRNCMP(p, "func", 4) == 0) bp->dbg_type = DBG_FUNC; else if (STRNCMP(p, "file", 4) == 0) bp->dbg_type = DBG_FILE; else if ( #ifdef FEAT_PROFILE gap != &prof_ga && #endif STRNCMP(p, "here", 4) == 0) { if (curbuf->b_ffname == NULL) { emsg(_(e_no_file_name)); return FAIL; } bp->dbg_type = DBG_FILE; here = TRUE; } else if ( #ifdef FEAT_PROFILE gap != &prof_ga && #endif STRNCMP(p, "expr", 4) == 0) bp->dbg_type = DBG_EXPR; else { semsg(_(e_invalid_argument_str), p); return FAIL; } p = skipwhite(p + 4); // Find optional line number. if (here) bp->dbg_lnum = curwin->w_cursor.lnum; else if ( #ifdef FEAT_PROFILE gap != &prof_ga && #endif VIM_ISDIGIT(*p)) { bp->dbg_lnum = getdigits(&p); p = skipwhite(p); } else bp->dbg_lnum = 0; // Find the function or file name. Don't accept a function name with (). if ((!here && *p == NUL) || (here && *p != NUL) || (bp->dbg_type == DBG_FUNC && strstr((char *)p, "()") != NULL)) { semsg(_(e_invalid_argument_str), arg); return FAIL; } if (bp->dbg_type == DBG_FUNC) bp->dbg_name = vim_strsave(STRNCMP(p, "g:", 2) == 0 ? p + 2 : p); else if (here) bp->dbg_name = vim_strsave(curbuf->b_ffname); else if (bp->dbg_type == DBG_EXPR) { bp->dbg_name = vim_strsave(p); if (bp->dbg_name != NULL) bp->dbg_val = eval_expr_no_emsg(bp); } else { // Expand the file name in the same way as do_source(). This means // doing it twice, so that $DIR/file gets expanded when $DIR is // "~/dir". q = expand_env_save(p); if (q == NULL) return FAIL; p = expand_env_save(q); vim_free(q); if (p == NULL) return FAIL; if (*p != '*') { bp->dbg_name = fix_fname(p); vim_free(p); } else bp->dbg_name = p; } if (bp->dbg_name == NULL) return FAIL; return OK; } /* * ":breakadd". Also used for ":profile". */ void ex_breakadd(exarg_T *eap) { struct debuggy *bp; char_u *pat; garray_T *gap; gap = &dbg_breakp; #ifdef FEAT_PROFILE if (eap->cmdidx == CMD_profile) gap = &prof_ga; #endif if (dbg_parsearg(eap->arg, gap) != OK) return; bp = &DEBUGGY(gap, gap->ga_len); bp->dbg_forceit = eap->forceit; if (bp->dbg_type != DBG_EXPR) { pat = file_pat_to_reg_pat(bp->dbg_name, NULL, NULL, FALSE); if (pat != NULL) { bp->dbg_prog = vim_regcomp(pat, RE_MAGIC + RE_STRING); vim_free(pat); } if (pat == NULL || bp->dbg_prog == NULL) vim_free(bp->dbg_name); else { if (bp->dbg_lnum == 0) // default line number is 1 bp->dbg_lnum = 1; #ifdef FEAT_PROFILE if (eap->cmdidx != CMD_profile) #endif { DEBUGGY(gap, gap->ga_len).dbg_nr = ++last_breakp; ++debug_tick; } ++gap->ga_len; PROF_CLEAR_CACHE(gap); } } else { // DBG_EXPR DEBUGGY(gap, gap->ga_len++).dbg_nr = ++last_breakp; ++debug_tick; if (gap == &dbg_breakp) has_expr_breakpoint = TRUE; } } /* * ":debuggreedy". */ void ex_debuggreedy(exarg_T *eap) { if (eap->addr_count == 0 || eap->line2 != 0) debug_greedy = TRUE; else debug_greedy = FALSE; } static void update_has_expr_breakpoint(void) { int i; has_expr_breakpoint = FALSE; for (i = 0; i < dbg_breakp.ga_len; ++i) if (BREAKP(i).dbg_type == DBG_EXPR) { has_expr_breakpoint = TRUE; break; } } /* * Return TRUE if there is any expression breakpoint. */ int debug_has_expr_breakpoint(void) { return has_expr_breakpoint; } /* * ":breakdel" and ":profdel". */ void ex_breakdel(exarg_T *eap) { struct debuggy *bp, *bpi; int nr; int todel = -1; int del_all = FALSE; int i; linenr_T best_lnum = 0; garray_T *gap; gap = &dbg_breakp; if (eap->cmdidx == CMD_profdel) { #ifdef FEAT_PROFILE gap = &prof_ga; #else ex_ni(eap); return; #endif } if (vim_isdigit(*eap->arg)) { // ":breakdel {nr}" nr = atol((char *)eap->arg); for (i = 0; i < gap->ga_len; ++i) if (DEBUGGY(gap, i).dbg_nr == nr) { todel = i; break; } } else if (*eap->arg == '*') { todel = 0; del_all = TRUE; } else { // ":breakdel {func|file|expr} [lnum] {name}" if (dbg_parsearg(eap->arg, gap) == FAIL) return; bp = &DEBUGGY(gap, gap->ga_len); for (i = 0; i < gap->ga_len; ++i) { bpi = &DEBUGGY(gap, i); if (bp->dbg_type == bpi->dbg_type && STRCMP(bp->dbg_name, bpi->dbg_name) == 0 && (bp->dbg_lnum == bpi->dbg_lnum || (bp->dbg_lnum == 0 && (best_lnum == 0 || bpi->dbg_lnum < best_lnum)))) { todel = i; best_lnum = bpi->dbg_lnum; } } vim_free(bp->dbg_name); } if (todel < 0) { semsg(_(e_breakpoint_not_found_str), eap->arg); return; } while (gap->ga_len > 0) { vim_free(DEBUGGY(gap, todel).dbg_name); #ifdef FEAT_EVAL if (DEBUGGY(gap, todel).dbg_type == DBG_EXPR && DEBUGGY(gap, todel).dbg_val != NULL) free_tv(DEBUGGY(gap, todel).dbg_val); #endif vim_regfree(DEBUGGY(gap, todel).dbg_prog); --gap->ga_len; if (todel < gap->ga_len) mch_memmove(&DEBUGGY(gap, todel), &DEBUGGY(gap, todel + 1), (gap->ga_len - todel) * sizeof(struct debuggy)); #ifdef FEAT_PROFILE if (eap->cmdidx == CMD_breakdel) #endif ++debug_tick; if (!del_all) break; } PROF_CLEAR_CACHE(gap); // If all breakpoints were removed clear the array. if (gap->ga_len == 0) ga_clear(gap); if (gap == &dbg_breakp) update_has_expr_breakpoint(); } /* * ":breaklist". */ void ex_breaklist(exarg_T *eap UNUSED) { struct debuggy *bp; int i; if (dbg_breakp.ga_len == 0) { msg(_("No breakpoints defined")); return; } for (i = 0; i < dbg_breakp.ga_len; ++i) { bp = &BREAKP(i); if (bp->dbg_type == DBG_FILE) home_replace(NULL, bp->dbg_name, NameBuff, MAXPATHL, TRUE); if (bp->dbg_type != DBG_EXPR) smsg(_("%3d %s %s line %ld"), bp->dbg_nr, bp->dbg_type == DBG_FUNC ? "func" : "file", bp->dbg_type == DBG_FUNC ? bp->dbg_name : NameBuff, (long)bp->dbg_lnum); else smsg(_("%3d expr %s"), bp->dbg_nr, bp->dbg_name); } } /* * Find a breakpoint for a function or sourced file. * Returns line number at which to break; zero when no matching breakpoint. */ linenr_T dbg_find_breakpoint( int file, // TRUE for a file, FALSE for a function char_u *fname, // file or function name linenr_T after) // after this line number { return debuggy_find(file, fname, after, &dbg_breakp, NULL); } #if defined(FEAT_PROFILE) || defined(PROTO) #if defined(PROF_CACHE_LOG) static int count_lookups[2]; #endif /* * Return TRUE if profiling is on for a function or sourced file. * Cache the results of debuggy_find(). * Cache is cleared whenever prof_ga.ga_len is changed. */ int has_profiling( int file, // TRUE for a file, FALSE for a function char_u *fname, // file or function name int *fp, // return: forceit hash_T *hashp) // use/return fname hash, may be NULL { if (prof_ga.ga_len == 0 || !prof_cache_initialized) return debuggy_find(file, fname, (linenr_T)0, &prof_ga, fp) != (linenr_T)0; hash_T hash; if (hashp != NULL) { hash = *hashp; if (hash == 0) { hash = hash_hash(fname); *hashp = hash; } } else hash = hash_hash(fname); hashtab_T *ht = &prof_cache[file ? PROF_HTAB_FILES : PROF_HTAB_FUNCS]; hashitem_T *hi = hash_lookup(ht, fname, hash); profentry_T *pe; if (HASHITEM_EMPTY(hi)) { pe = alloc(offsetof(profentry_T, pen_name) + STRLEN(fname) + 1); if (pe == NULL) return FALSE; STRCPY(pe->pen_name, fname); pe->pen_flags = 0; // run debuggy_find and capture return and forceit int f; int lnum = debuggy_find(file, fname, (linenr_T)0, &prof_ga, &f); if (lnum) { PEN_SET_PROFILING(pe); if (f) PEN_SET_FORCEIT(pe); } hash_add_item(ht, hi, pe->pen_name, hash); #if defined(PROF_CACHE_LOG) ch_log(NULL, "has_profiling: %s %s forceit %s, profile %s", file ? "file" : "func", fname, PEN_IS_FORCEIT(pe) ? "true" : "false", PEN_IS_PROFILING(pe) ? "true" : "false"); #endif } else pe = HI2PE(hi); if (fp) *fp = PEN_IS_FORCEIT(pe); #if defined(PROF_CACHE_LOG) count_lookups[file ? PROF_HTAB_FILES : PROF_HTAB_FUNCS]++; #endif return PEN_IS_PROFILING(pe); } static void prof_clear_cache(void) { if (!prof_cache_initialized) { hash_init(&prof_cache[PROF_HTAB_FUNCS]); hash_init(&prof_cache[PROF_HTAB_FILES]); prof_cache_initialized = TRUE; } hashtab_T *ht; for (ht = &prof_cache[0]; ht < &prof_cache[N_PROF_HTAB]; ht++) { if (ht->ht_used > 0) { #if defined(PROF_CACHE_LOG) int idx = ht == &prof_cache[PROF_HTAB_FUNCS] ? PROF_HTAB_FUNCS : PROF_HTAB_FILES; ch_log(NULL, "prof_clear_cache: %s, used: %ld, lookups: %d", idx == PROF_HTAB_FUNCS ? "function" : "script", ht->ht_used, count_lookups[idx]); count_lookups[idx] = 0; #endif hash_clear_all(ht, offsetof(profentry_T, pen_name)); hash_init(ht); } } } #endif /* * Common code for dbg_find_breakpoint() and has_profiling(). */ static linenr_T debuggy_find( int is_file, // TRUE for a file, FALSE for a function char_u *fname, // file or function name linenr_T after, // after this line number garray_T *gap, // either &dbg_breakp or &prof_ga int *fp) // if not NULL: return forceit { struct debuggy *bp; int i; linenr_T lnum = 0; char_u *name = NULL; char_u *short_name = fname; int prev_got_int; // Return quickly when there are no breakpoints. if (gap->ga_len == 0) return (linenr_T)0; // For a script-local function remove the prefix, so that // "profile func Func" matches "Func" in any script. Otherwise it's very // difficult to profile/debug a script-local function. It may match a // function in the wrong script, but that is much better than not being // able to profile/debug a function in a script with unknown ID. // Also match a script-specific name. if (!is_file && fname[0] == K_SPECIAL) { short_name = vim_strchr(fname, '_') + 1; name = alloc(STRLEN(fname) + 3); if (name != NULL) { STRCPY(name, "<SNR>"); STRCPY(name + 5, fname + 3); } } for (i = 0; i < gap->ga_len; ++i) { // Skip entries that are not useful or are for a line that is beyond // an already found breakpoint. bp = &DEBUGGY(gap, i); if (((bp->dbg_type == DBG_FILE) == is_file && bp->dbg_type != DBG_EXPR && ( #ifdef FEAT_PROFILE gap == &prof_ga || #endif (bp->dbg_lnum > after && (lnum == 0 || bp->dbg_lnum < lnum))))) { // Save the value of got_int and reset it. We don't want a // previous interruption cancel matching, only hitting CTRL-C // while matching should abort it. prev_got_int = got_int; got_int = FALSE; if ((name != NULL && vim_regexec_prog(&bp->dbg_prog, FALSE, name, (colnr_T)0)) || vim_regexec_prog(&bp->dbg_prog, FALSE, short_name, (colnr_T)0)) { lnum = bp->dbg_lnum; if (fp != NULL) *fp = bp->dbg_forceit; } got_int |= prev_got_int; #ifdef FEAT_PROFILE if (lnum && gap == &prof_ga) break; #endif } #ifdef FEAT_EVAL else if (bp->dbg_type == DBG_EXPR) { typval_T *tv; int line = FALSE; tv = eval_expr_no_emsg(bp); if (tv != NULL) { if (bp->dbg_val == NULL) { debug_oldval = typval_tostring(NULL, TRUE); bp->dbg_val = tv; debug_newval = typval_tostring(bp->dbg_val, TRUE); line = TRUE; } else { // Use "==" instead of "is" for strings, that is what we // always have done. exprtype_T type = tv->v_type == VAR_STRING ? EXPR_EQUAL : EXPR_IS; if (typval_compare(tv, bp->dbg_val, type, FALSE) == OK && tv->vval.v_number == FALSE) { typval_T *v; line = TRUE; debug_oldval = typval_tostring(bp->dbg_val, TRUE); // Need to evaluate again, typval_compare() overwrites // "tv". v = eval_expr_no_emsg(bp); debug_newval = typval_tostring(v, TRUE); free_tv(bp->dbg_val); bp->dbg_val = v; } free_tv(tv); } } else if (bp->dbg_val != NULL) { debug_oldval = typval_tostring(bp->dbg_val, TRUE); debug_newval = typval_tostring(NULL, TRUE); free_tv(bp->dbg_val); bp->dbg_val = NULL; line = TRUE; } if (line) { lnum = after > 0 ? after : 1; break; } } #endif } if (name != fname) vim_free(name); return lnum; } /* * Called when a breakpoint was encountered. */ void dbg_breakpoint(char_u *name, linenr_T lnum) { // We need to check if this line is actually executed in do_one_cmd() debug_breakpoint_name = name; debug_breakpoint_lnum = lnum; } #endif