/*------------------------------------------------------------------------- * * fe-print.c * functions for pretty-printing query results * * Portions Copyright (c) 1996-2016, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * These functions were formerly part of fe-exec.c, but they * didn't really belong there. * * IDENTIFICATION * src/interfaces/libpq/fe-print.c * *------------------------------------------------------------------------- */ #include "postgres_fe.h" #include #ifdef WIN32 #include "win32.h" #else #include #include #endif #ifdef HAVE_TERMIOS_H #include #else #ifndef WIN32 #include #endif #endif #include "libpq-fe.h" #include "libpq-int.h" static void do_field(const PQprintOpt *po, const PGresult *res, const int i, const int j, const int fs_len, char **fields, const int nFields, const char **fieldNames, unsigned char *fieldNotNum, int *fieldMax, const int fieldMaxLen, FILE *fout); static char *do_header(FILE *fout, const PQprintOpt *po, const int nFields, int *fieldMax, const char **fieldNames, unsigned char *fieldNotNum, const int fs_len, const PGresult *res); static void output_row(FILE *fout, const PQprintOpt *po, const int nFields, char **fields, unsigned char *fieldNotNum, int *fieldMax, char *border, const int row_index); static void fill(int length, int max, char filler, FILE *fp); /* * PQprint() * * Format results of a query for printing. * * PQprintOpt is a typedef (structure) that contains * various flags and options. consult libpq-fe.h for * details * * This function should probably be removed sometime since psql * doesn't use it anymore. It is unclear to what extent this is used * by external clients, however. */ void PQprint(FILE *fout, const PGresult *res, const PQprintOpt *po) { int nFields; nFields = PQnfields(res); if (nFields > 0) { /* only print rows with at least 1 field. */ int i, j; int nTups; int *fieldMax = NULL; /* in case we don't use them */ unsigned char *fieldNotNum = NULL; char *border = NULL; char **fields = NULL; const char **fieldNames; int fieldMaxLen = 0; int numFieldName; int fs_len = strlen(po->fieldSep); int total_line_length = 0; int usePipe = 0; char *pagerenv; #if defined(ENABLE_THREAD_SAFETY) && !defined(WIN32) sigset_t osigset; bool sigpipe_masked = false; bool sigpipe_pending; #endif #if !defined(ENABLE_THREAD_SAFETY) && !defined(WIN32) pqsigfunc oldsigpipehandler = NULL; #endif #ifdef TIOCGWINSZ struct winsize screen_size; #else struct winsize { int ws_row; int ws_col; } screen_size; #endif nTups = PQntuples(res); if (!(fieldNames = (const char **) calloc(nFields, sizeof(char *)))) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } if (!(fieldNotNum = (unsigned char *) calloc(nFields, 1))) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } if (!(fieldMax = (int *) calloc(nFields, sizeof(int)))) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } for (numFieldName = 0; po->fieldName && po->fieldName[numFieldName]; numFieldName++) ; for (j = 0; j < nFields; j++) { int len; const char *s = (j < numFieldName && po->fieldName[j][0]) ? po->fieldName[j] : PQfname(res, j); fieldNames[j] = s; len = s ? strlen(s) : 0; fieldMax[j] = len; len += fs_len; if (len > fieldMaxLen) fieldMaxLen = len; total_line_length += len; } total_line_length += nFields * strlen(po->fieldSep) + 1; if (fout == NULL) fout = stdout; if (po->pager && fout == stdout && isatty(fileno(stdin)) && isatty(fileno(stdout))) { /* * If we think there'll be more than one screen of output, try to * pipe to the pager program. */ #ifdef TIOCGWINSZ if (ioctl(fileno(stdout), TIOCGWINSZ, &screen_size) == -1 || screen_size.ws_col == 0 || screen_size.ws_row == 0) { screen_size.ws_row = 24; screen_size.ws_col = 80; } #else screen_size.ws_row = 24; screen_size.ws_col = 80; #endif pagerenv = getenv("PAGER"); /* if PAGER is unset, empty or all-white-space, don't use pager */ if (pagerenv != NULL && strspn(pagerenv, " \t\r\n") != strlen(pagerenv) && !po->html3 && ((po->expanded && nTups * (nFields + 1) >= screen_size.ws_row) || (!po->expanded && nTups * (total_line_length / screen_size.ws_col + 1) * (1 + (po->standard != 0)) >= screen_size.ws_row - (po->header != 0) * (total_line_length / screen_size.ws_col + 1) * 2 - (po->header != 0) * 2 /* row count and newline */ ))) { fout = popen(pagerenv, "w"); if (fout) { usePipe = 1; #ifndef WIN32 #ifdef ENABLE_THREAD_SAFETY if (pq_block_sigpipe(&osigset, &sigpipe_pending) == 0) sigpipe_masked = true; #else oldsigpipehandler = pqsignal(SIGPIPE, SIG_IGN); #endif /* ENABLE_THREAD_SAFETY */ #endif /* WIN32 */ } else fout = stdout; } } if (!po->expanded && (po->align || po->html3)) { if (!(fields = (char **) calloc(nFields * (nTups + 1), sizeof(char *)))) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } } else if (po->header && !po->html3) { if (po->expanded) { if (po->align) fprintf(fout, libpq_gettext("%-*s%s Value\n"), fieldMaxLen - fs_len, libpq_gettext("Field"), po->fieldSep); else fprintf(fout, libpq_gettext("%s%sValue\n"), libpq_gettext("Field"), po->fieldSep); } else { int len = 0; for (j = 0; j < nFields; j++) { const char *s = fieldNames[j]; fputs(s, fout); len += strlen(s) + fs_len; if ((j + 1) < nFields) fputs(po->fieldSep, fout); } fputc('\n', fout); for (len -= fs_len; len--; fputc('-', fout)); fputc('\n', fout); } } if (po->expanded && po->html3) { if (po->caption) fprintf(fout, "

%s

\n", po->caption); else fprintf(fout, "

" "Query retrieved %d rows * %d fields" "

\n", nTups, nFields); } for (i = 0; i < nTups; i++) { if (po->expanded) { if (po->html3) fprintf(fout, "\n", po->tableOpt ? po->tableOpt : "", i); else fprintf(fout, libpq_gettext("-- RECORD %d --\n"), i); } for (j = 0; j < nFields; j++) do_field(po, res, i, j, fs_len, fields, nFields, fieldNames, fieldNotNum, fieldMax, fieldMaxLen, fout); if (po->html3 && po->expanded) fputs("
%d
\n", fout); } if (!po->expanded && (po->align || po->html3)) { if (po->html3) { if (po->header) { if (po->caption) fprintf(fout, "\n", po->tableOpt ? po->tableOpt : "", po->caption); else fprintf(fout, "
%s
\n", po->tableOpt ? po->tableOpt : "", nTups, nFields); } else fprintf(fout, "
" "Retrieved %d rows * %d fields" "
", po->tableOpt ? po->tableOpt : ""); } if (po->header) border = do_header(fout, po, nFields, fieldMax, fieldNames, fieldNotNum, fs_len, res); for (i = 0; i < nTups; i++) output_row(fout, po, nFields, fields, fieldNotNum, fieldMax, border, i); free(fields); if (border) free(border); } if (po->header && !po->html3) fprintf(fout, "(%d row%s)\n\n", PQntuples(res), (PQntuples(res) == 1) ? "" : "s"); free(fieldMax); free(fieldNotNum); free((void *) fieldNames); if (usePipe) { #ifdef WIN32 _pclose(fout); #else pclose(fout); #ifdef ENABLE_THREAD_SAFETY /* we can't easily verify if EPIPE occurred, so say it did */ if (sigpipe_masked) pq_reset_sigpipe(&osigset, sigpipe_pending, true); #else pqsignal(SIGPIPE, oldsigpipehandler); #endif /* ENABLE_THREAD_SAFETY */ #endif /* WIN32 */ } if (po->html3 && !po->expanded) fputs("
\n", fout); } } static void do_field(const PQprintOpt *po, const PGresult *res, const int i, const int j, const int fs_len, char **fields, const int nFields, char const ** fieldNames, unsigned char *fieldNotNum, int *fieldMax, const int fieldMaxLen, FILE *fout) { const char *pval, *p; int plen; bool skipit; plen = PQgetlength(res, i, j); pval = PQgetvalue(res, i, j); if (plen < 1 || !pval || !*pval) { if (po->align || po->expanded) skipit = true; else { skipit = false; goto efield; } } else skipit = false; if (!skipit) { if (po->align && !fieldNotNum[j]) { /* Detect whether field contains non-numeric data */ char ch = '0'; for (p = pval; *p; p += PQmblen(p, res->client_encoding)) { ch = *p; if (!((ch >= '0' && ch <= '9') || ch == '.' || ch == 'E' || ch == 'e' || ch == ' ' || ch == '-')) { fieldNotNum[j] = 1; break; } } /* * Above loop will believe E in first column is numeric; also, we * insist on a digit in the last column for a numeric. This test * is still not bulletproof but it handles most cases. */ if (*pval == 'E' || *pval == 'e' || !(ch >= '0' && ch <= '9')) fieldNotNum[j] = 1; } if (!po->expanded && (po->align || po->html3)) { if (plen > fieldMax[j]) fieldMax[j] = plen; if (!(fields[i * nFields + j] = (char *) malloc(plen + 1))) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } strcpy(fields[i * nFields + j], pval); } else { if (po->expanded) { if (po->html3) fprintf(fout, "%s" "%s\n", fieldNames[j], fieldNotNum[j] ? "left" : "right", pval); else { if (po->align) fprintf(fout, "%-*s%s %s\n", fieldMaxLen - fs_len, fieldNames[j], po->fieldSep, pval); else fprintf(fout, "%s%s%s\n", fieldNames[j], po->fieldSep, pval); } } else { if (!po->html3) { fputs(pval, fout); efield: if ((j + 1) < nFields) fputs(po->fieldSep, fout); else fputc('\n', fout); } } } } } static char * do_header(FILE *fout, const PQprintOpt *po, const int nFields, int *fieldMax, const char **fieldNames, unsigned char *fieldNotNum, const int fs_len, const PGresult *res) { int j; /* for loop index */ char *border = NULL; if (po->html3) fputs("", fout); else { int tot = 0; int n = 0; char *p = NULL; for (; n < nFields; n++) tot += fieldMax[n] + fs_len + (po->standard ? 2 : 0); if (po->standard) tot += fs_len * 2 + 2; border = malloc(tot + 1); if (!border) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } p = border; if (po->standard) { char *fs = po->fieldSep; while (*fs++) *p++ = '+'; } for (j = 0; j < nFields; j++) { int len; for (len = fieldMax[j] + (po->standard ? 2 : 0); len--; *p++ = '-'); if (po->standard || (j + 1) < nFields) { char *fs = po->fieldSep; while (*fs++) *p++ = '+'; } } *p = '\0'; if (po->standard) fprintf(fout, "%s\n", border); } if (po->standard) fputs(po->fieldSep, fout); for (j = 0; j < nFields; j++) { const char *s = PQfname(res, j); if (po->html3) { fprintf(fout, "%s", fieldNotNum[j] ? "left" : "right", fieldNames[j]); } else { int n = strlen(s); if (n > fieldMax[j]) fieldMax[j] = n; if (po->standard) fprintf(fout, fieldNotNum[j] ? " %-*s " : " %*s ", fieldMax[j], s); else fprintf(fout, fieldNotNum[j] ? "%-*s" : "%*s", fieldMax[j], s); if (po->standard || (j + 1) < nFields) fputs(po->fieldSep, fout); } } if (po->html3) fputs("\n", fout); else fprintf(fout, "\n%s\n", border); return border; } static void output_row(FILE *fout, const PQprintOpt *po, const int nFields, char **fields, unsigned char *fieldNotNum, int *fieldMax, char *border, const int row_index) { int field_index; /* for loop index */ if (po->html3) fputs("", fout); else if (po->standard) fputs(po->fieldSep, fout); for (field_index = 0; field_index < nFields; field_index++) { char *p = fields[row_index * nFields + field_index]; if (po->html3) fprintf(fout, "%s", fieldNotNum[field_index] ? "left" : "right", p ? p : ""); else { fprintf(fout, fieldNotNum[field_index] ? (po->standard ? " %-*s " : "%-*s") : (po->standard ? " %*s " : "%*s"), fieldMax[field_index], p ? p : ""); if (po->standard || field_index + 1 < nFields) fputs(po->fieldSep, fout); } if (p) free(p); } if (po->html3) fputs("", fout); else if (po->standard) fprintf(fout, "\n%s", border); fputc('\n', fout); } /* * really old printing routines */ void PQdisplayTuples(const PGresult *res, FILE *fp, /* where to send the output */ int fillAlign, /* pad the fields with spaces */ const char *fieldSep, /* field separator */ int printHeader, /* display headers? */ int quiet ) { #define DEFAULT_FIELD_SEP " " int i, j; int nFields; int nTuples; int *fLength = NULL; if (fieldSep == NULL) fieldSep = DEFAULT_FIELD_SEP; /* Get some useful info about the results */ nFields = PQnfields(res); nTuples = PQntuples(res); if (fp == NULL) fp = stdout; /* Figure the field lengths to align to */ /* will be somewhat time consuming for very large results */ if (fillAlign) { fLength = (int *) malloc(nFields * sizeof(int)); if (!fLength) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } for (j = 0; j < nFields; j++) { fLength[j] = strlen(PQfname(res, j)); for (i = 0; i < nTuples; i++) { int flen = PQgetlength(res, i, j); if (flen > fLength[j]) fLength[j] = flen; } } } if (printHeader) { /* first, print out the attribute names */ for (i = 0; i < nFields; i++) { fputs(PQfname(res, i), fp); if (fillAlign) fill(strlen(PQfname(res, i)), fLength[i], ' ', fp); fputs(fieldSep, fp); } fprintf(fp, "\n"); /* Underline the attribute names */ for (i = 0; i < nFields; i++) { if (fillAlign) fill(0, fLength[i], '-', fp); fputs(fieldSep, fp); } fprintf(fp, "\n"); } /* next, print out the instances */ for (i = 0; i < nTuples; i++) { for (j = 0; j < nFields; j++) { fprintf(fp, "%s", PQgetvalue(res, i, j)); if (fillAlign) fill(strlen(PQgetvalue(res, i, j)), fLength[j], ' ', fp); fputs(fieldSep, fp); } fprintf(fp, "\n"); } if (!quiet) fprintf(fp, "\nQuery returned %d row%s.\n", PQntuples(res), (PQntuples(res) == 1) ? "" : "s"); fflush(fp); if (fLength) free(fLength); } void PQprintTuples(const PGresult *res, FILE *fout, /* output stream */ int PrintAttNames, /* print attribute names or not */ int TerseOutput, /* delimiter bars or not? */ int colWidth /* width of column, if 0, use variable width */ ) { int nFields; int nTups; int i, j; char formatString[80]; char *tborder = NULL; nFields = PQnfields(res); nTups = PQntuples(res); if (colWidth > 0) sprintf(formatString, "%%s %%-%ds", colWidth); else sprintf(formatString, "%%s %%s"); if (nFields > 0) { /* only print rows with at least 1 field. */ if (!TerseOutput) { int width; width = nFields * 14; tborder = (char *) malloc(width + 1); if (!tborder) { fprintf(stderr, libpq_gettext("out of memory\n")); abort(); } for (i = 0; i < width; i++) tborder[i] = '-'; tborder[width] = '\0'; fprintf(fout, "%s\n", tborder); } for (i = 0; i < nFields; i++) { if (PrintAttNames) { fprintf(fout, formatString, TerseOutput ? "" : "|", PQfname(res, i)); } } if (PrintAttNames) { if (TerseOutput) fprintf(fout, "\n"); else fprintf(fout, "|\n%s\n", tborder); } for (i = 0; i < nTups; i++) { for (j = 0; j < nFields; j++) { const char *pval = PQgetvalue(res, i, j); fprintf(fout, formatString, TerseOutput ? "" : "|", pval ? pval : ""); } if (TerseOutput) fprintf(fout, "\n"); else fprintf(fout, "|\n%s\n", tborder); } } if (tborder) free(tborder); } /* simply send out max-length number of filler characters to fp */ static void fill(int length, int max, char filler, FILE *fp) { int count; count = max - length; while (count-- >= 0) putc(filler, fp); }