/* glpmpl06.c */ /*********************************************************************** * This code is part of GLPK (GNU Linear Programming Kit). * * Copyright (C) 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007, 2008, * 2009, 2010, 2011 Andrew Makhorin, Department for Applied Informatics, * Moscow Aviation Institute, Moscow, Russia. All rights reserved. * E-mail: . * * GLPK 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 of the License, or * (at your option) any later version. * * GLPK 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 GLPK. If not, see . ***********************************************************************/ #define _GLPSTD_ERRNO #define _GLPSTD_STDIO #include "glpmpl.h" #include "glpsql.h" /**********************************************************************/ #define CSV_FIELD_MAX 50 /* maximal number of fields in record */ #define CSV_FDLEN_MAX 100 /* maximal field length */ struct csv { /* comma-separated values file */ int mode; /* 'R' = reading; 'W' = writing */ char *fname; /* name of csv file */ FILE *fp; /* stream assigned to csv file */ jmp_buf jump; /* address for non-local go to in case of error */ int count; /* record count */ /*--------------------------------------------------------------*/ /* used only for input csv file */ int c; /* current character or EOF */ int what; /* current marker: */ #define CSV_EOF 0 /* end-of-file */ #define CSV_EOR 1 /* end-of-record */ #define CSV_NUM 2 /* floating-point number */ #define CSV_STR 3 /* character string */ char field[CSV_FDLEN_MAX+1]; /* current field just read */ int nf; /* number of fields in the csv file */ int ref[1+CSV_FIELD_MAX]; /* ref[k] = k', if k-th field of the csv file corresponds to k'-th field in the table statement; if ref[k] = 0, k-th field of the csv file is ignored */ #if 1 /* 01/VI-2010 */ int nskip; /* number of comment records preceding the header record */ #endif }; #undef read_char static void read_char(struct csv *csv) { /* read character from csv data file */ int c; xassert(csv->c != EOF); if (csv->c == '\n') csv->count++; loop: c = fgetc(csv->fp); if (ferror(csv->fp)) { xprintf("%s:%d: read error - %s\n", csv->fname, csv->count, strerror(errno)); longjmp(csv->jump, 0); } if (feof(csv->fp)) { if (csv->c == '\n') { csv->count--; c = EOF; } else { xprintf("%s:%d: warning: missing final end-of-line\n", csv->fname, csv->count); c = '\n'; } } else if (c == '\r') goto loop; else if (c == '\n') ; else if (iscntrl(c)) { xprintf("%s:%d: invalid control character 0x%02X\n", csv->fname, csv->count, c); longjmp(csv->jump, 0); } csv->c = c; return; } static void read_field(struct csv *csv) { /* read field from csv data file */ /* check for end of file */ if (csv->c == EOF) { csv->what = CSV_EOF; strcpy(csv->field, "EOF"); goto done; } /* check for end of record */ if (csv->c == '\n') { csv->what = CSV_EOR; strcpy(csv->field, "EOR"); read_char(csv); if (csv->c == ',') err1: { xprintf("%s:%d: empty field not allowed\n", csv->fname, csv->count); longjmp(csv->jump, 0); } if (csv->c == '\n') { xprintf("%s:%d: empty record not allowed\n", csv->fname, csv->count); longjmp(csv->jump, 0); } #if 1 /* 01/VI-2010 */ /* skip comment records; may appear only before the very first record containing field names */ if (csv->c == '#' && csv->count == 1) { while (csv->c == '#') { while (csv->c != '\n') read_char(csv); read_char(csv); csv->nskip++; } } #endif goto done; } /* skip comma before next field */ if (csv->c == ',') read_char(csv); /* read field */ if (csv->c == '\'' || csv->c == '"') { /* read a field enclosed in quotes */ int quote = csv->c, len = 0; csv->what = CSV_STR; /* skip opening quote */ read_char(csv); /* read field characters within quotes */ for (;;) { /* check for closing quote and read it */ if (csv->c == quote) { read_char(csv); if (csv->c == quote) ; else if (csv->c == ',' || csv->c == '\n') break; else { xprintf("%s:%d: invalid field\n", csv->fname, csv->count); longjmp(csv->jump, 0); } } /* check the current field length */ if (len == CSV_FDLEN_MAX) err2: { xprintf("%s:%d: field too long\n", csv->fname, csv->count); longjmp(csv->jump, 0); } /* add the current character to the field */ csv->field[len++] = (char)csv->c; /* read the next character */ read_char(csv); } /* the field has been read */ if (len == 0) goto err1; csv->field[len] = '\0'; } else { /* read a field not enclosed in quotes */ int len = 0; double temp; csv->what = CSV_NUM; while (!(csv->c == ',' || csv->c == '\n')) { /* quotes within the field are not allowed */ if (csv->c == '\'' || csv->c == '"') { xprintf("%s:%d: invalid use of single or double quote wi" "thin field\n", csv->fname, csv->count); longjmp(csv->jump, 0); } /* check the current field length */ if (len == CSV_FDLEN_MAX) goto err2; /* add the current character to the field */ csv->field[len++] = (char)csv->c; /* read the next character */ read_char(csv); } /* the field has been read */ if (len == 0) goto err1; csv->field[len] = '\0'; /* check the field type */ if (str2num(csv->field, &temp)) csv->what = CSV_STR; } done: return; } static struct csv *csv_open_file(TABDCA *dca, int mode) { /* open csv data file */ struct csv *csv; /* create control structure */ csv = xmalloc(sizeof(struct csv)); csv->mode = mode; csv->fname = NULL; csv->fp = NULL; if (setjmp(csv->jump)) goto fail; csv->count = 0; csv->c = '\n'; csv->what = 0; csv->field[0] = '\0'; csv->nf = 0; /* try to open the csv data file */ if (mpl_tab_num_args(dca) < 2) { xprintf("csv_driver: file name not specified\n"); longjmp(csv->jump, 0); } csv->fname = xmalloc(strlen(mpl_tab_get_arg(dca, 2))+1); strcpy(csv->fname, mpl_tab_get_arg(dca, 2)); if (mode == 'R') { /* open the file for reading */ int k; csv->fp = fopen(csv->fname, "r"); if (csv->fp == NULL) { xprintf("csv_driver: unable to open %s - %s\n", csv->fname, strerror(errno)); longjmp(csv->jump, 0); } #if 1 /* 01/VI-2010 */ csv->nskip = 0; #endif /* skip fake new-line */ read_field(csv); xassert(csv->what == CSV_EOR); /* read field names */ xassert(csv->nf == 0); for (;;) { read_field(csv); if (csv->what == CSV_EOR) break; if (csv->what != CSV_STR) { xprintf("%s:%d: invalid field name\n", csv->fname, csv->count); longjmp(csv->jump, 0); } if (csv->nf == CSV_FIELD_MAX) { xprintf("%s:%d: too many fields\n", csv->fname, csv->count); longjmp(csv->jump, 0); } csv->nf++; /* find corresponding field in the table statement */ for (k = mpl_tab_num_flds(dca); k >= 1; k--) { if (strcmp(mpl_tab_get_name(dca, k), csv->field) == 0) break; } csv->ref[csv->nf] = k; } /* find dummy RECNO field in the table statement */ for (k = mpl_tab_num_flds(dca); k >= 1; k--) if (strcmp(mpl_tab_get_name(dca, k), "RECNO") == 0) break; csv->ref[0] = k; } else if (mode == 'W') { /* open the file for writing */ int k, nf; csv->fp = fopen(csv->fname, "w"); if (csv->fp == NULL) { xprintf("csv_driver: unable to create %s - %s\n", csv->fname, strerror(errno)); longjmp(csv->jump, 0); } /* write field names */ nf = mpl_tab_num_flds(dca); for (k = 1; k <= nf; k++) fprintf(csv->fp, "%s%c", mpl_tab_get_name(dca, k), k < nf ? ',' : '\n'); csv->count++; } else xassert(mode != mode); /* the file has been open */ return csv; fail: /* the file cannot be open */ if (csv->fname != NULL) xfree(csv->fname); if (csv->fp != NULL) fclose(csv->fp); xfree(csv); return NULL; } static int csv_read_record(TABDCA *dca, struct csv *csv) { /* read next record from csv data file */ int k, ret = 0; xassert(csv->mode == 'R'); if (setjmp(csv->jump)) { ret = 1; goto done; } /* read dummy RECNO field */ if (csv->ref[0] > 0) #if 0 /* 01/VI-2010 */ mpl_tab_set_num(dca, csv->ref[0], csv->count-1); #else mpl_tab_set_num(dca, csv->ref[0], csv->count-csv->nskip-1); #endif /* read fields */ for (k = 1; k <= csv->nf; k++) { read_field(csv); if (csv->what == CSV_EOF) { /* end-of-file reached */ xassert(k == 1); ret = -1; goto done; } else if (csv->what == CSV_EOR) { /* end-of-record reached */ int lack = csv->nf - k + 1; if (lack == 1) xprintf("%s:%d: one field missing\n", csv->fname, csv->count); else xprintf("%s:%d: %d fields missing\n", csv->fname, csv->count, lack); longjmp(csv->jump, 0); } else if (csv->what == CSV_NUM) { /* floating-point number */ if (csv->ref[k] > 0) { double num; xassert(str2num(csv->field, &num) == 0); mpl_tab_set_num(dca, csv->ref[k], num); } } else if (csv->what == CSV_STR) { /* character string */ if (csv->ref[k] > 0) mpl_tab_set_str(dca, csv->ref[k], csv->field); } else xassert(csv != csv); } /* now there must be NL */ read_field(csv); xassert(csv->what != CSV_EOF); if (csv->what != CSV_EOR) { xprintf("%s:%d: too many fields\n", csv->fname, csv->count); longjmp(csv->jump, 0); } done: return ret; } static int csv_write_record(TABDCA *dca, struct csv *csv) { /* write next record to csv data file */ int k, nf, ret = 0; const char *c; xassert(csv->mode == 'W'); nf = mpl_tab_num_flds(dca); for (k = 1; k <= nf; k++) { switch (mpl_tab_get_type(dca, k)) { case 'N': fprintf(csv->fp, "%.*g", DBL_DIG, mpl_tab_get_num(dca, k)); break; case 'S': fputc('"', csv->fp); for (c = mpl_tab_get_str(dca, k); *c != '\0'; c++) { if (*c == '"') fputc('"', csv->fp), fputc('"', csv->fp); else fputc(*c, csv->fp); } fputc('"', csv->fp); break; default: xassert(dca != dca); } fputc(k < nf ? ',' : '\n', csv->fp); } csv->count++; if (ferror(csv->fp)) { xprintf("%s:%d: write error - %s\n", csv->fname, csv->count, strerror(errno)); ret = 1; } return ret; } static int csv_close_file(TABDCA *dca, struct csv *csv) { /* close csv data file */ int ret = 0; xassert(dca == dca); if (csv->mode == 'W') { fflush(csv->fp); if (ferror(csv->fp)) { xprintf("%s:%d: write error - %s\n", csv->fname, csv->count, strerror(errno)); ret = 1; } } xfree(csv->fname); fclose(csv->fp); xfree(csv); return ret; } /**********************************************************************/ #define DBF_FIELD_MAX 50 /* maximal number of fields in record */ #define DBF_FDLEN_MAX 100 /* maximal field length */ struct dbf { /* xBASE data file */ int mode; /* 'R' = reading; 'W' = writing */ char *fname; /* name of xBASE file */ FILE *fp; /* stream assigned to xBASE file */ jmp_buf jump; /* address for non-local go to in case of error */ int offset; /* offset of a byte to be read next */ int count; /* record count */ int nf; /* number of fields */ int ref[1+DBF_FIELD_MAX]; /* ref[k] = k', if k-th field of the csv file corresponds to k'-th field in the table statement; if ref[k] = 0, k-th field of the csv file is ignored */ int type[1+DBF_FIELD_MAX]; /* type[k] is type of k-th field */ int len[1+DBF_FIELD_MAX]; /* len[k] is length of k-th field */ int prec[1+DBF_FIELD_MAX]; /* prec[k] is precision of k-th field */ }; static int read_byte(struct dbf *dbf) { /* read byte from xBASE data file */ int b; b = fgetc(dbf->fp); if (ferror(dbf->fp)) { xprintf("%s:0x%X: read error - %s\n", dbf->fname, dbf->offset, strerror(errno)); longjmp(dbf->jump, 0); } if (feof(dbf->fp)) { xprintf("%s:0x%X: unexpected end of file\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } xassert(0x00 <= b && b <= 0xFF); dbf->offset++; return b; } static void read_header(TABDCA *dca, struct dbf *dbf) { /* read xBASE data file header */ int b, j, k, recl; char name[10+1]; /* (ignored) */ for (j = 1; j <= 10; j++) read_byte(dbf); /* length of each record, in bytes */ recl = read_byte(dbf); recl += read_byte(dbf) << 8; /* (ignored) */ for (j = 1; j <= 20; j++) read_byte(dbf); /* field descriptor array */ xassert(dbf->nf == 0); for (;;) { /* check for end of array */ b = read_byte(dbf); if (b == 0x0D) break; if (dbf->nf == DBF_FIELD_MAX) { xprintf("%s:0x%X: too many fields\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } dbf->nf++; /* field name */ name[0] = (char)b; for (j = 1; j < 10; j++) { b = read_byte(dbf); name[j] = (char)b; } name[10] = '\0'; b = read_byte(dbf); if (b != 0x00) { xprintf("%s:0x%X: invalid field name\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } /* find corresponding field in the table statement */ for (k = mpl_tab_num_flds(dca); k >= 1; k--) if (strcmp(mpl_tab_get_name(dca, k), name) == 0) break; dbf->ref[dbf->nf] = k; /* field type */ b = read_byte(dbf); if (!(b == 'C' || b == 'N')) { xprintf("%s:0x%X: invalid field type\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } dbf->type[dbf->nf] = b; /* (ignored) */ for (j = 1; j <= 4; j++) read_byte(dbf); /* field length */ b = read_byte(dbf); if (b == 0) { xprintf("%s:0x%X: invalid field length\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } if (b > DBF_FDLEN_MAX) { xprintf("%s:0x%X: field too long\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } dbf->len[dbf->nf] = b; recl -= b; /* (ignored) */ for (j = 1; j <= 15; j++) read_byte(dbf); } if (recl != 1) { xprintf("%s:0x%X: invalid file header\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } /* find dummy RECNO field in the table statement */ for (k = mpl_tab_num_flds(dca); k >= 1; k--) if (strcmp(mpl_tab_get_name(dca, k), "RECNO") == 0) break; dbf->ref[0] = k; return; } static void parse_third_arg(TABDCA *dca, struct dbf *dbf) { /* parse xBASE file format (third argument) */ int j, k, temp; const char *arg; dbf->nf = mpl_tab_num_flds(dca); arg = mpl_tab_get_arg(dca, 3), j = 0; for (k = 1; k <= dbf->nf; k++) { /* parse specification of k-th field */ if (arg[j] == '\0') { xprintf("xBASE driver: field %s: specification missing\n", mpl_tab_get_name(dca, k)); longjmp(dbf->jump, 0); } /* parse field type */ if (arg[j] == 'C' || arg[j] == 'N') dbf->type[k] = arg[j], j++; else { xprintf("xBASE driver: field %s: invalid field type\n", mpl_tab_get_name(dca, k)); longjmp(dbf->jump, 0); } /* check for left parenthesis */ if (arg[j] == '(') j++; else err: { xprintf("xBASE driver: field %s: invalid field format\n", mpl_tab_get_name(dca, k)); longjmp(dbf->jump, 0); } /* parse field length */ temp = 0; while (isdigit(arg[j])) { if (temp > DBF_FDLEN_MAX) break; temp = 10 * temp + (arg[j] - '0'), j++; } if (!(1 <= temp && temp <= DBF_FDLEN_MAX)) { xprintf("xBASE driver: field %s: invalid field length\n", mpl_tab_get_name(dca, k)); longjmp(dbf->jump, 0); } dbf->len[k] = temp; /* parse optional field precision */ if (dbf->type[k] == 'N' && arg[j] == ',') { j++; temp = 0; while (isdigit(arg[j])) { if (temp > dbf->len[k]) break; temp = 10 * temp + (arg[j] - '0'), j++; } if (temp > dbf->len[k]) { xprintf("xBASE driver: field %s: invalid field precision" "\n", mpl_tab_get_name(dca, k)); longjmp(dbf->jump, 0); } dbf->prec[k] = temp; } else dbf->prec[k] = 0; /* check for right parenthesis */ if (arg[j] == ')') j++; else goto err; } /* ignore other specifications */ return; } static void write_byte(struct dbf *dbf, int b) { /* write byte to xBASE data file */ fputc(b, dbf->fp); dbf->offset++; return; } static void write_header(TABDCA *dca, struct dbf *dbf) { /* write xBASE data file header */ int j, k, temp; const char *name; /* version number */ write_byte(dbf, 0x03 /* file without DBT */); /* date of last update (YYMMDD) */ write_byte(dbf, 70 /* 1970 */); write_byte(dbf, 1 /* January */); write_byte(dbf, 1 /* 1st */); /* number of records (unknown so far) */ for (j = 1; j <= 4; j++) write_byte(dbf, 0xFF); /* length of the header, in bytes */ temp = 32 + dbf->nf * 32 + 1; write_byte(dbf, temp); write_byte(dbf, temp >> 8); /* length of each record, in bytes */ temp = 1; for (k = 1; k <= dbf->nf; k++) temp += dbf->len[k]; write_byte(dbf, temp); write_byte(dbf, temp >> 8); /* (reserved) */ for (j = 1; j <= 20; j++) write_byte(dbf, 0x00); /* field descriptor array */ for (k = 1; k <= dbf->nf; k++) { /* field name (terminated by 0x00) */ name = mpl_tab_get_name(dca, k); for (j = 0; j < 10 && name[j] != '\0'; j++) write_byte(dbf, name[j]); for (j = j; j < 11; j++) write_byte(dbf, 0x00); /* field type */ write_byte(dbf, dbf->type[k]); /* (reserved) */ for (j = 1; j <= 4; j++) write_byte(dbf, 0x00); /* field length */ write_byte(dbf, dbf->len[k]); /* field precision */ write_byte(dbf, dbf->prec[k]); /* (reserved) */ for (j = 1; j <= 14; j++) write_byte(dbf, 0x00); } /* end of header */ write_byte(dbf, 0x0D); return; } static struct dbf *dbf_open_file(TABDCA *dca, int mode) { /* open xBASE data file */ struct dbf *dbf; /* create control structure */ dbf = xmalloc(sizeof(struct dbf)); dbf->mode = mode; dbf->fname = NULL; dbf->fp = NULL; if (setjmp(dbf->jump)) goto fail; dbf->offset = 0; dbf->count = 0; dbf->nf = 0; /* try to open the xBASE data file */ if (mpl_tab_num_args(dca) < 2) { xprintf("xBASE driver: file name not specified\n"); longjmp(dbf->jump, 0); } dbf->fname = xmalloc(strlen(mpl_tab_get_arg(dca, 2))+1); strcpy(dbf->fname, mpl_tab_get_arg(dca, 2)); if (mode == 'R') { /* open the file for reading */ dbf->fp = fopen(dbf->fname, "rb"); if (dbf->fp == NULL) { xprintf("xBASE driver: unable to open %s - %s\n", dbf->fname, strerror(errno)); longjmp(dbf->jump, 0); } read_header(dca, dbf); } else if (mode == 'W') { /* open the file for writing */ if (mpl_tab_num_args(dca) < 3) { xprintf("xBASE driver: file format not specified\n"); longjmp(dbf->jump, 0); } parse_third_arg(dca, dbf); dbf->fp = fopen(dbf->fname, "wb"); if (dbf->fp == NULL) { xprintf("xBASE driver: unable to create %s - %s\n", dbf->fname, strerror(errno)); longjmp(dbf->jump, 0); } write_header(dca, dbf); } else xassert(mode != mode); /* the file has been open */ return dbf; fail: /* the file cannot be open */ if (dbf->fname != NULL) xfree(dbf->fname); if (dbf->fp != NULL) fclose(dbf->fp); xfree(dbf); return NULL; } static int dbf_read_record(TABDCA *dca, struct dbf *dbf) { /* read next record from xBASE data file */ int b, j, k, ret = 0; char buf[DBF_FDLEN_MAX+1]; xassert(dbf->mode == 'R'); if (setjmp(dbf->jump)) { ret = 1; goto done; } /* check record flag */ b = read_byte(dbf); if (b == 0x1A) { /* end of data */ ret = -1; goto done; } if (b != 0x20) { xprintf("%s:0x%X: invalid record flag\n", dbf->fname, dbf->offset); longjmp(dbf->jump, 0); } /* read dummy RECNO field */ if (dbf->ref[0] > 0) mpl_tab_set_num(dca, dbf->ref[0], dbf->count+1); /* read fields */ for (k = 1; k <= dbf->nf; k++) { /* read k-th field */ for (j = 0; j < dbf->len[k]; j++) buf[j] = (char)read_byte(dbf); buf[dbf->len[k]] = '\0'; /* set field value */ if (dbf->type[k] == 'C') { /* character field */ if (dbf->ref[k] > 0) mpl_tab_set_str(dca, dbf->ref[k], strtrim(buf)); } else if (dbf->type[k] == 'N') { /* numeric field */ if (dbf->ref[k] > 0) { double num; strspx(buf); xassert(str2num(buf, &num) == 0); mpl_tab_set_num(dca, dbf->ref[k], num); } } else xassert(dbf != dbf); } /* increase record count */ dbf->count++; done: return ret; } static int dbf_write_record(TABDCA *dca, struct dbf *dbf) { /* write next record to xBASE data file */ int j, k, ret = 0; char buf[255+1]; xassert(dbf->mode == 'W'); if (setjmp(dbf->jump)) { ret = 1; goto done; } /* record flag */ write_byte(dbf, 0x20); xassert(dbf->nf == mpl_tab_num_flds(dca)); for (k = 1; k <= dbf->nf; k++) { if (dbf->type[k] == 'C') { /* character field */ const char *str; if (mpl_tab_get_type(dca, k) == 'N') { sprintf(buf, "%.*g", DBL_DIG, mpl_tab_get_num(dca, k)); str = buf; } else if (mpl_tab_get_type(dca, k) == 'S') str = mpl_tab_get_str(dca, k); else xassert(dca != dca); if ((int)strlen(str) > dbf->len[k]) { xprintf("xBASE driver: field %s: cannot convert %.15s..." " to field format\n", mpl_tab_get_name(dca, k), str); longjmp(dbf->jump, 0); } for (j = 0; j < dbf->len[k] && str[j] != '\0'; j++) write_byte(dbf, str[j]); for (j = j; j < dbf->len[k]; j++) write_byte(dbf, ' '); } else if (dbf->type[k] == 'N') { /* numeric field */ double num = mpl_tab_get_num(dca, k); if (fabs(num) > 1e20) err: { xprintf("xBASE driver: field %s: cannot convert %g to fi" "eld format\n", mpl_tab_get_name(dca, k), num); longjmp(dbf->jump, 0); } sprintf(buf, "%*.*f", dbf->len[k], dbf->prec[k], num); xassert(strlen(buf) < sizeof(buf)); if ((int)strlen(buf) != dbf->len[k]) goto err; for (j = 0; j < dbf->len[k]; j++) write_byte(dbf, buf[j]); } else xassert(dbf != dbf); } /* increase record count */ dbf->count++; done: return ret; } static int dbf_close_file(TABDCA *dca, struct dbf *dbf) { /* close xBASE data file */ int ret = 0; xassert(dca == dca); if (dbf->mode == 'W') { if (setjmp(dbf->jump)) { ret = 1; goto skip; } /* end-of-file flag */ write_byte(dbf, 0x1A); /* number of records */ dbf->offset = 4; if (fseek(dbf->fp, dbf->offset, SEEK_SET)) { xprintf("%s:0x%X: seek error - %s\n", dbf->fname, dbf->offset, strerror(errno)); longjmp(dbf->jump, 0); } write_byte(dbf, dbf->count); write_byte(dbf, dbf->count >> 8); write_byte(dbf, dbf->count >> 16); write_byte(dbf, dbf->count >> 24); fflush(dbf->fp); if (ferror(dbf->fp)) { xprintf("%s:0x%X: write error - %s\n", dbf->fname, dbf->offset, strerror(errno)); longjmp(dbf->jump, 0); } skip: ; } xfree(dbf->fname); fclose(dbf->fp); xfree(dbf); return ret; } /**********************************************************************/ #define TAB_CSV 1 #define TAB_XBASE 2 #define TAB_ODBC 3 #define TAB_MYSQL 4 void mpl_tab_drv_open(MPL *mpl, int mode) { TABDCA *dca = mpl->dca; xassert(dca->id == 0); xassert(dca->link == NULL); xassert(dca->na >= 1); if (strcmp(dca->arg[1], "CSV") == 0) { dca->id = TAB_CSV; dca->link = csv_open_file(dca, mode); } else if (strcmp(dca->arg[1], "xBASE") == 0) { dca->id = TAB_XBASE; dca->link = dbf_open_file(dca, mode); } else if (strcmp(dca->arg[1], "ODBC") == 0 || strcmp(dca->arg[1], "iODBC") == 0) { dca->id = TAB_ODBC; dca->link = db_iodbc_open(dca, mode); } else if (strcmp(dca->arg[1], "MySQL") == 0) { dca->id = TAB_MYSQL; dca->link = db_mysql_open(dca, mode); } else xprintf("Invalid table driver `%s'\n", dca->arg[1]); if (dca->link == NULL) error(mpl, "error on opening table %s", mpl->stmt->u.tab->name); return; } int mpl_tab_drv_read(MPL *mpl) { TABDCA *dca = mpl->dca; int ret; switch (dca->id) { case TAB_CSV: ret = csv_read_record(dca, dca->link); break; case TAB_XBASE: ret = dbf_read_record(dca, dca->link); break; case TAB_ODBC: ret = db_iodbc_read(dca, dca->link); break; case TAB_MYSQL: ret = db_mysql_read(dca, dca->link); break; default: xassert(dca != dca); } if (ret > 0) error(mpl, "error on reading data from table %s", mpl->stmt->u.tab->name); return ret; } void mpl_tab_drv_write(MPL *mpl) { TABDCA *dca = mpl->dca; int ret; switch (dca->id) { case TAB_CSV: ret = csv_write_record(dca, dca->link); break; case TAB_XBASE: ret = dbf_write_record(dca, dca->link); break; case TAB_ODBC: ret = db_iodbc_write(dca, dca->link); break; case TAB_MYSQL: ret = db_mysql_write(dca, dca->link); break; default: xassert(dca != dca); } if (ret) error(mpl, "error on writing data to table %s", mpl->stmt->u.tab->name); return; } void mpl_tab_drv_close(MPL *mpl) { TABDCA *dca = mpl->dca; int ret; switch (dca->id) { case TAB_CSV: ret = csv_close_file(dca, dca->link); break; case TAB_XBASE: ret = dbf_close_file(dca, dca->link); break; case TAB_ODBC: ret = db_iodbc_close(dca, dca->link); break; case TAB_MYSQL: ret = db_mysql_close(dca, dca->link); break; default: xassert(dca != dca); } dca->id = 0; dca->link = NULL; if (ret) error(mpl, "error on closing table %s", mpl->stmt->u.tab->name); return; } /* eof */