/* dynamic SQL support routines * * $Header: /cvsroot/pgsql/src/interfaces/ecpg/lib/Attic/descriptor.c,v 1.19 2001/11/14 11:11:49 meskes Exp $ */ #include "postgres_fe.h" #include "pg_type.h" #include "ecpgtype.h" #include "ecpglib.h" #include "ecpgerrno.h" #include "extern.h" #include "sql3types.h" struct descriptor *all_descriptors = NULL; /* old internal convenience function that might go away later */ static PGresult * ECPGresultByDescriptor(int line, const char *name) { PGresult **resultpp = ECPGdescriptor_lvalue(line, name); if (resultpp) return *resultpp; return NULL; } static unsigned int ECPGDynamicType_DDT(Oid type) { switch (type) { case DATEOID: return SQL3_DDT_DATE; case TIMEOID: return SQL3_DDT_TIME; case TIMESTAMPOID: return SQL3_DDT_TIMESTAMP; case TIMESTAMPTZOID: return SQL3_DDT_TIMESTAMP_WITH_TIME_ZONE; case TIMETZOID: return SQL3_DDT_TIME_WITH_TIME_ZONE; default: return SQL3_DDT_ILLEGAL; } } bool ECPGget_desc_header(int lineno, char *desc_name, int *count) { PGresult *ECPGresult = ECPGresultByDescriptor(lineno, desc_name); if (!ECPGresult) return false; *count = PQnfields(ECPGresult); ECPGlog("ECPGget_desc_header: found %d attributes.\n", *count); return true; } static bool get_int_item(int lineno, void *var, enum ECPGttype vartype, int value) { switch (vartype) { case ECPGt_short: *(short *) var = (short) value; break; case ECPGt_int: *(int *) var = (int) value; break; case ECPGt_long: *(long *) var = (long) value; break; case ECPGt_unsigned_short: *(unsigned short *) var = (unsigned short) value; break; case ECPGt_unsigned_int: *(unsigned int *) var = (unsigned int) value; break; case ECPGt_unsigned_long: *(unsigned long *) var = (unsigned long) value; break; #ifdef HAVE_LONG_LONG_INT_64 case ECPGt_long_long: *(long long int *) var = (long long int) value; break; case ECPGt_unsigned_long_long: *(unsigned long long int *) var = (unsigned long long int) value; break; #endif /* HAVE_LONG_LONG_INT_64 */ case ECPGt_float: *(float *) var = (float) value; break; case ECPGt_double: *(double *) var = (double) value; break; default: ECPGraise(lineno, ECPG_VAR_NOT_NUMERIC, NULL); return (false); } return (true); } static bool get_char_item(int lineno, void *var, enum ECPGttype vartype, char *value, int varcharsize) { switch (vartype) { case ECPGt_char: case ECPGt_unsigned_char: strncpy((char *) var, value, varcharsize); break; case ECPGt_varchar: { struct ECPGgeneric_varchar *variable = (struct ECPGgeneric_varchar *) var; if (varcharsize == 0) strncpy(variable->arr, value, strlen(value)); else strncpy(variable->arr, value, varcharsize); variable->len = strlen(value); if (varcharsize > 0 && variable->len > varcharsize) variable->len = varcharsize; } break; default: ECPGraise(lineno, ECPG_VAR_NOT_CHAR, NULL); return (false); } return (true); } bool ECPGget_desc(int lineno, char *desc_name, int index,...) { va_list args; PGresult *ECPGresult = ECPGresultByDescriptor(lineno, desc_name); enum ECPGdtype type; int ntuples, act_tuple; struct variable data_var; va_start(args, index); if (!ECPGresult) return (false); ntuples = PQntuples(ECPGresult); if (ntuples < 1) { ECPGraise(lineno, ECPG_NOT_FOUND, NULL); return (false); } if (index < 1 || index > PQnfields(ECPGresult)) { ECPGraise(lineno, ECPG_INVALID_DESCRIPTOR_INDEX, NULL); return (false); } ECPGlog("ECPGget_desc: reading items for tuple %d\n", index); --index; type = va_arg(args, enum ECPGdtype); memset (&data_var, 0, sizeof data_var); data_var.type=ECPGt_EORT; data_var.ind_type=ECPGt_NO_INDICATOR; while (type != ECPGd_EODT) { char type_str[20]; long varcharsize; long offset; long arrsize; enum ECPGttype vartype; void *var; vartype = va_arg(args, enum ECPGttype); var = va_arg(args, void *); varcharsize = va_arg(args, long); arrsize = va_arg(args, long); offset = va_arg(args, long); switch (type) { case (ECPGd_indicator): data_var.ind_type=vartype; data_var.ind_pointer=var; data_var.ind_varcharsize=varcharsize; data_var.ind_arrsize=arrsize; data_var.ind_offset=offset; if (data_var.ind_arrsize == 0 || data_var.ind_varcharsize == 0) data_var.ind_value = *((void **) (data_var.ind_pointer)); else data_var.ind_value = data_var.ind_pointer; break; case ECPGd_data: data_var.type=vartype; data_var.pointer=var; data_var.varcharsize=varcharsize; data_var.arrsize=arrsize; data_var.offset=offset; if (data_var.arrsize == 0 || data_var.varcharsize == 0) data_var.value = *((void **) (data_var.pointer)); else data_var.value = data_var.pointer; break; case ECPGd_name: if (!get_char_item(lineno, var, vartype, PQfname(ECPGresult, index), varcharsize)) return (false); ECPGlog("ECPGget_desc: NAME = %s\n", PQfname(ECPGresult, index)); break; case ECPGd_nullable: if (!get_int_item(lineno, var, vartype, 1)) return (false); break; case ECPGd_key_member: if (!get_int_item(lineno, var, vartype, 0)) return (false); break; case ECPGd_scale: if (!get_int_item(lineno, var, vartype, (PQfmod(ECPGresult, index) - VARHDRSZ) & 0xffff)) return (false); ECPGlog("ECPGget_desc: SCALE = %d\n", (PQfmod(ECPGresult, index) - VARHDRSZ) & 0xffff); break; case ECPGd_precision: if (!get_int_item(lineno, var, vartype, PQfmod(ECPGresult, index) >> 16)) return (false); ECPGlog("ECPGget_desc: PRECISION = %d\n", PQfmod(ECPGresult, index) >> 16); break; case ECPGd_octet: if (!get_int_item(lineno, var, vartype, PQfsize(ECPGresult, index))) return (false); ECPGlog("ECPGget_desc: OCTET_LENGTH = %d\n", PQfsize(ECPGresult, index)); break; case ECPGd_length: if (!get_int_item(lineno, var, vartype, PQfmod(ECPGresult, index) - VARHDRSZ)) return (false); ECPGlog("ECPGget_desc: LENGTH = %d\n", PQfmod(ECPGresult, index) - VARHDRSZ); break; case ECPGd_type: if (!get_int_item(lineno, var, vartype, ECPGDynamicType(PQftype(ECPGresult, index)))) return (false); ECPGlog("ECPGget_desc: TYPE = %d\n", ECPGDynamicType(PQftype(ECPGresult, index))); break; case ECPGd_di_code: if (!get_int_item(lineno, var, vartype, ECPGDynamicType_DDT(PQftype(ECPGresult, index)))) return (false); ECPGlog("ECPGget_desc: TYPE = %d\n", ECPGDynamicType_DDT(PQftype(ECPGresult, index))); break; case ECPGd_cardinality: if (!get_int_item(lineno, var, vartype, PQntuples(ECPGresult))) return (false); ECPGlog("ECPGget_desc: CARDINALITY = %d\n", PQntuples(ECPGresult)); break; case ECPGd_ret_length: case ECPGd_ret_octet: /* * this is like ECPGstore_result */ if (arrsize > 0 && ntuples > arrsize) { ECPGlog("ECPGget_desc line %d: Incorrect number of matches: %d don't fit into array of %d\n", lineno, ntuples, arrsize); ECPGraise(lineno, ECPG_TOO_MANY_MATCHES, NULL); return false; } /* allocate storage if needed */ if (arrsize == 0 && var != NULL && *(void**)var == NULL) { void *mem = (void *) ECPGalloc(offset * ntuples, lineno); *(void **)var = mem; ECPGadd_mem(mem, lineno); var = mem; } for (act_tuple = 0; act_tuple < ntuples; act_tuple++) { if (!get_int_item(lineno, var, vartype, PQgetlength(ECPGresult, act_tuple, index))) return (false); var = (char *) var + offset; ECPGlog("ECPGget_desc: RETURNED[%d] = %d\n", act_tuple, PQgetlength(ECPGresult, act_tuple, index)); } break; default: snprintf(type_str, sizeof(type_str), "%d", type); ECPGraise(lineno, ECPG_UNKNOWN_DESCRIPTOR_ITEM, type_str); return (false); } type = va_arg(args, enum ECPGdtype); } if (data_var.type!=ECPGt_EORT) { struct statement stmt; memset (&stmt, 0, sizeof stmt); stmt.lineno=lineno; /* desparate try to guess something sensible */ stmt.connection=ECPGget_connection(NULL); ECPGstore_result(ECPGresult, index, &stmt, &data_var); } else if (data_var.ind_type!=ECPGt_NO_INDICATOR) { /* * this is like ECPGstore_result * but since we don't have a data variable at hand, we can't call it */ if (data_var.ind_arrsize > 0 && ntuples > data_var.ind_arrsize) { ECPGlog("ECPGget_desc line %d: Incorrect number of matches (indicator): %d don't fit into array of %d\n", lineno, ntuples, data_var.ind_arrsize); ECPGraise(lineno, ECPG_TOO_MANY_MATCHES, NULL); return false; } /* allocate storage if needed */ if (data_var.ind_arrsize == 0 && data_var.ind_pointer != NULL && data_var.ind_value == NULL) { void *mem = (void *) ECPGalloc(data_var.ind_offset * ntuples, lineno); *(void **)data_var.ind_pointer = mem; ECPGadd_mem(mem, lineno); data_var.ind_value = mem; } for (act_tuple = 0; act_tuple < ntuples; act_tuple++) { if (!get_int_item(lineno, data_var.ind_value, data_var.ind_type, -PQgetisnull(ECPGresult, act_tuple, index))) return (false); data_var.ind_value = (char *) data_var.ind_value + data_var.ind_offset; ECPGlog("ECPGget_desc: INDICATOR[%d] = %d\n", act_tuple, -PQgetisnull(ECPGresult, act_tuple, index)); } } return (true); } bool ECPGdeallocate_desc(int line, const char *name) { struct descriptor *i; struct descriptor **lastptr = &all_descriptors; for (i = all_descriptors; i; lastptr = &i->next, i = i->next) { if (!strcmp(name, i->name)) { *lastptr = i->next; free(i->name); PQclear(i->result); free(i); return true; } } ECPGraise(line, ECPG_UNKNOWN_DESCRIPTOR, name); return false; } bool ECPGallocate_desc(int line, const char *name) { struct descriptor *new = (struct descriptor *) ECPGalloc(sizeof(struct descriptor), line); new->next = all_descriptors; new->name = ECPGalloc(strlen(name) + 1, line); new->result = PQmakeEmptyPGresult(NULL, 0); strcpy(new->name, name); all_descriptors = new; return true; } PGresult ** ECPGdescriptor_lvalue(int line, const char *descriptor) { struct descriptor *i; for (i = all_descriptors; i != NULL; i = i->next) { if (!strcmp(descriptor, i->name)) return &i->result; } ECPGraise(line, ECPG_UNKNOWN_DESCRIPTOR, (char *) descriptor); return NULL; }