/* * pg_result.c - PG::Result class extension * $Id$ * */ #include "pg.h" VALUE rb_cPGresult; static VALUE sym_symbol, sym_string, sym_static_symbol; static VALUE pgresult_type_map_set( VALUE, VALUE ); static t_pg_result *pgresult_get_this( VALUE ); static t_pg_result *pgresult_get_this_safe( VALUE ); #if defined(HAVE_PQRESULTMEMORYSIZE) static ssize_t pgresult_approx_size(const PGresult *result) { return PQresultMemorySize(result); } #else #define PGRESULT_DATA_BLOCKSIZE 2048 typedef struct pgresAttValue { int len; /* length in bytes of the value */ char *value; /* actual value, plus terminating zero byte */ } PGresAttValue; static int count_leading_zero_bits(unsigned int x) { #if defined(__GNUC__) || defined(__clang__) return __builtin_clz(x); #elif defined(_MSC_VER) DWORD r = 0; _BitScanForward(&r, x); return (int)r; #else unsigned int a; for(a=0; a < sizeof(unsigned int) * 8; a++){ if( x & (1 << (sizeof(unsigned int) * 8 - 1))) return a; x <<= 1; } return a; #endif } static ssize_t pgresult_approx_size(const PGresult *result) { int num_fields = PQnfields(result); ssize_t size = 0; if( num_fields > 0 ){ int num_tuples = PQntuples(result); if( num_tuples > 0 ){ int pos; /* This is a simple heuristic to determine the number of sample fields and subsequently to approximate the memory size taken by all field values of the result set. * Since scanning of all field values is would have a severe performance impact, only a small subset of fields is retrieved and the result is extrapolated to the whole result set. * The given algorithm has no real scientific background, but is made for speed and typical table layouts. */ int num_samples = (num_fields < 9 ? num_fields : 39 - count_leading_zero_bits(num_fields-8)) * (num_tuples < 8 ? 1 : 30 - count_leading_zero_bits(num_tuples)); /* start with scanning very last fields, since they are most probably in the cache */ for( pos = 0; pos < (num_samples+1)/2; pos++ ){ size += PQgetlength(result, num_tuples - 1 - (pos / num_fields), num_fields - 1 - (pos % num_fields)); } /* scan the very first fields */ for( pos = 0; pos < num_samples/2; pos++ ){ size += PQgetlength(result, pos / num_fields, pos % num_fields); } /* extrapolate sample size to whole result set */ size = size * num_tuples * num_fields / num_samples; } /* count metadata */ size += num_fields * ( sizeof(PGresAttDesc) + /* column description */ num_tuples * ( sizeof(PGresAttValue) + 1 /* ptr, len and zero termination of each value */ ) ); /* Account free space due to libpq's default block size */ size = (size + PGRESULT_DATA_BLOCKSIZE - 1) / PGRESULT_DATA_BLOCKSIZE * PGRESULT_DATA_BLOCKSIZE; /* count tuple pointers */ size += sizeof(void*) * ((num_tuples + 128 - 1) / 128 * 128); } size += 216; /* add PGresult size */ return size; } #endif /* * GC Mark function */ static void pgresult_gc_mark( void *_this ) { t_pg_result *this = (t_pg_result *)_this; int i; rb_gc_mark_movable( this->connection ); rb_gc_mark_movable( this->typemap ); rb_gc_mark_movable( this->tuple_hash ); rb_gc_mark_movable( this->field_map ); for( i=0; i < this->nfields; i++ ){ rb_gc_mark_movable( this->fnames[i] ); } } static void pgresult_gc_compact( void *_this ) { t_pg_result *this = (t_pg_result *)_this; int i; pg_gc_location( this->connection ); pg_gc_location( this->typemap ); pg_gc_location( this->tuple_hash ); pg_gc_location( this->field_map ); for( i=0; i < this->nfields; i++ ){ pg_gc_location( this->fnames[i] ); } } /* * GC Free function */ static void pgresult_clear( void *_this ) { t_pg_result *this = (t_pg_result *)_this; if( this->pgresult && !this->autoclear ){ PQclear(this->pgresult); #ifdef HAVE_RB_GC_ADJUST_MEMORY_USAGE rb_gc_adjust_memory_usage(-this->result_size); #endif } this->result_size = 0; this->nfields = -1; this->pgresult = NULL; } static void pgresult_gc_free( void *_this ) { t_pg_result *this = (t_pg_result *)_this; pgresult_clear( this ); xfree(this); } static size_t pgresult_memsize( const void *_this ) { const t_pg_result *this = (const t_pg_result *)_this; /* Ideally the memory 'this' is pointing to should be taken into account as well. * However we don't want to store two memory sizes in t_pg_result just for reporting by ObjectSpace.memsize_of. */ return this->result_size; } static const rb_data_type_t pgresult_type = { "PG::Result", { pgresult_gc_mark, pgresult_gc_free, pgresult_memsize, pg_compact_callback(pgresult_gc_compact), }, 0, 0, RUBY_TYPED_FREE_IMMEDIATELY, }; /* Needed by sequel_pg gem, do not delete */ int pg_get_result_enc_idx(VALUE self) { return pgresult_get_this(self)->enc_idx; } /* * Global functions */ /* * Result constructor */ static VALUE pg_new_result2(PGresult *result, VALUE rb_pgconn) { int nfields = result ? PQnfields(result) : 0; VALUE self; t_pg_result *this; this = (t_pg_result *)xmalloc(sizeof(*this) + sizeof(*this->fnames) * nfields); this->pgresult = result; this->connection = rb_pgconn; this->typemap = pg_typemap_all_strings; this->p_typemap = RTYPEDDATA_DATA( this->typemap ); this->nfields = -1; this->tuple_hash = Qnil; this->field_map = Qnil; this->flags = 0; self = TypedData_Wrap_Struct(rb_cPGresult, &pgresult_type, this); if( result ){ t_pg_connection *p_conn = pg_get_connection(rb_pgconn); VALUE typemap = p_conn->type_map_for_results; /* Type check is done when assigned to PG::Connection. */ t_typemap *p_typemap = RTYPEDDATA_DATA(typemap); this->enc_idx = p_conn->enc_idx; this->typemap = p_typemap->funcs.fit_to_result( typemap, self ); this->p_typemap = RTYPEDDATA_DATA( this->typemap ); this->flags = p_conn->flags; } else { this->enc_idx = rb_locale_encindex(); } return self; } VALUE pg_new_result(PGresult *result, VALUE rb_pgconn) { VALUE self = pg_new_result2(result, rb_pgconn); t_pg_result *this = pgresult_get_this(self); this->autoclear = 0; /* Estimate size of underlying pgresult memory storage and account to ruby GC. * There's no need to adjust the GC for xmalloc'ed memory, but libpq is using libc malloc() ruby doesn't know about. */ /* TODO: If someday most systems provide PQresultMemorySize(), it's questionable to store result_size in t_pg_result in addition to the value already stored in PGresult. * For now the memory savings don't justify the ifdefs necessary to support both cases. */ this->result_size = pgresult_approx_size(result); #ifdef HAVE_RB_GC_ADJUST_MEMORY_USAGE rb_gc_adjust_memory_usage(this->result_size); #endif return self; } static VALUE pg_copy_result(t_pg_result *this) { int nfields = this->nfields == -1 ? (this->pgresult ? PQnfields(this->pgresult) : 0) : this->nfields; size_t len = sizeof(*this) + sizeof(*this->fnames) * nfields; t_pg_result *copy; copy = (t_pg_result *)xmalloc(len); memcpy(copy, this, len); this->result_size = 0; return TypedData_Wrap_Struct(rb_cPGresult, &pgresult_type, copy); } VALUE pg_new_result_autoclear(PGresult *result, VALUE rb_pgconn) { VALUE self = pg_new_result2(result, rb_pgconn); t_pg_result *this = pgresult_get_this(self); /* Autocleared results are freed implicit instead of by PQclear(). * So it's not very useful to be accounted by ruby GC. */ this->result_size = 0; this->autoclear = 1; return self; } /* * call-seq: * res.check -> nil * * Raises appropriate exception if PG::Result is in a bad state, which is: * * +PGRES_BAD_RESPONSE+ * * +PGRES_FATAL_ERROR+ * * +PGRES_NONFATAL_ERROR+ * * +PGRES_PIPELINE_ABORTED+ */ VALUE pg_result_check( VALUE self ) { t_pg_result *this = pgresult_get_this(self); VALUE error, exception, klass; char * sqlstate; if(this->pgresult == NULL) { PGconn *conn = pg_get_pgconn(this->connection); error = rb_str_new2( PQerrorMessage(conn) ); } else { switch (PQresultStatus(this->pgresult)) { case PGRES_TUPLES_OK: case PGRES_COPY_OUT: case PGRES_COPY_IN: case PGRES_COPY_BOTH: case PGRES_SINGLE_TUPLE: case PGRES_EMPTY_QUERY: case PGRES_COMMAND_OK: #ifdef HAVE_PQENTERPIPELINEMODE case PGRES_PIPELINE_SYNC: #endif return self; case PGRES_BAD_RESPONSE: case PGRES_FATAL_ERROR: case PGRES_NONFATAL_ERROR: #ifdef HAVE_PQENTERPIPELINEMODE case PGRES_PIPELINE_ABORTED: #endif error = rb_str_new2( PQresultErrorMessage(this->pgresult) ); break; default: error = rb_str_new2( "internal error : unknown result status." ); } } PG_ENCODING_SET_NOCHECK( error, this->enc_idx ); sqlstate = PQresultErrorField( this->pgresult, PG_DIAG_SQLSTATE ); klass = lookup_error_class( sqlstate ); exception = rb_exc_new3( klass, error ); rb_iv_set( exception, "@connection", this->connection ); rb_iv_set( exception, "@result", this->pgresult ? self : Qnil ); rb_exc_raise( exception ); /* Not reached */ return self; } /* * :TODO: This shouldn't be a global function, but it needs to be as long as pg_new_result * doesn't handle blocks, check results, etc. Once connection and result are disentangled * a bit more, I can make this a static pgresult_clear() again. */ /* * call-seq: * res.clear() -> nil * * Clears the PG::Result object as the result of a query. * This frees all underlying memory consumed by the result object. * Afterwards access to result methods raises PG::Error "result has been cleared". * * Explicit calling #clear can lead to better memory performance, but is not generally necessary. * Special care must be taken when PG::Tuple objects are used. * In this case #clear must not be called unless all PG::Tuple objects of this result are fully materialized. * * If PG::Result#autoclear? is +true+ then the result is only marked as cleared but clearing the underlying C struct will happen when the callback returns. * */ VALUE pg_result_clear(VALUE self) { t_pg_result *this = pgresult_get_this(self); pgresult_clear( this ); return Qnil; } /* * call-seq: * res.cleared? -> boolean * * Returns +true+ if the backend result memory has been freed. */ VALUE pgresult_cleared_p( VALUE self ) { t_pg_result *this = pgresult_get_this(self); return this->pgresult ? Qfalse : Qtrue; } /* * call-seq: * res.autoclear? -> boolean * * Returns +true+ if the underlying C struct will be cleared at the end of a callback. * This applies only to Result objects received by the block to PG::Connection#set_notice_receiver . * * All other Result objects are automatically cleared by the GC when the object is no longer in use or manually by PG::Result#clear . * */ VALUE pgresult_autoclear_p( VALUE self ) { t_pg_result *this = pgresult_get_this(self); return this->autoclear ? Qtrue : Qfalse; } /* * DATA pointer functions */ /* * Fetch the PG::Result object data pointer and check it's * PGresult data pointer for sanity. */ static t_pg_result * pgresult_get_this_safe( VALUE self ) { t_pg_result *this = pgresult_get_this(self); if (this->pgresult == NULL) rb_raise(rb_ePGerror, "result has been cleared"); return this; } /* * Fetch the PGresult pointer for the result object and check validity * * Note: This function is used externally by the sequel_pg gem, * so do changes carefully. * */ PGresult* pgresult_get(VALUE self) { t_pg_result *this = pgresult_get_this(self); if (this->pgresult == NULL) rb_raise(rb_ePGerror, "result has been cleared"); return this->pgresult; } static VALUE pg_cstr_to_sym(char *cstr, unsigned int flags, int enc_idx) { VALUE fname; #ifdef TRUFFLERUBY if( flags & (PG_RESULT_FIELD_NAMES_SYMBOL | PG_RESULT_FIELD_NAMES_STATIC_SYMBOL) ){ #else if( flags & PG_RESULT_FIELD_NAMES_SYMBOL ){ rb_encoding *enc = rb_enc_from_index(enc_idx); fname = rb_check_symbol_cstr(cstr, strlen(cstr), enc); if( fname == Qnil ){ fname = rb_str_new2(cstr); PG_ENCODING_SET_NOCHECK(fname, enc_idx); fname = rb_str_intern(fname); } } else if( flags & PG_RESULT_FIELD_NAMES_STATIC_SYMBOL ){ #endif rb_encoding *enc = rb_enc_from_index(enc_idx); fname = ID2SYM(rb_intern3(cstr, strlen(cstr), enc)); } else { fname = rb_str_new2(cstr); PG_ENCODING_SET_NOCHECK(fname, enc_idx); fname = rb_obj_freeze(fname); } return fname; } static void pgresult_init_fnames(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); if( this->nfields == -1 ){ int i; int nfields = PQnfields(this->pgresult); for( i=0; ipgresult, i); this->fnames[i] = pg_cstr_to_sym(cfname, this->flags, this->enc_idx); this->nfields = i + 1; } this->nfields = nfields; } } /******************************************************************** * * Document-class: PG::Result * * The class to represent the query result tuples (rows). * An instance of this class is created as the result of every query. * All result rows and columns are stored in a memory block attached to the PG::Result object. * Whenever a value is accessed it is casted to a Ruby object by the assigned #type_map . * * Since pg-1.1 the amount of memory in use by a PG::Result object is estimated and passed to ruby's garbage collector. * You can invoke the #clear method to force deallocation of memory of the instance when finished with the result for better memory performance. * * Example: * require 'pg' * conn = PG.connect(:dbname => 'test') * res = conn.exec('SELECT 1 AS a, 2 AS b, NULL AS c') * res.getvalue(0,0) # '1' * res[0]['b'] # '2' * res[0]['c'] # nil * */ /************************************************************************** * PG::Result INSTANCE METHODS **************************************************************************/ /* * call-seq: * res.result_status() -> Integer * * Returns the status of the query. The status value is one of: * * +PGRES_EMPTY_QUERY+ * * +PGRES_COMMAND_OK+ * * +PGRES_TUPLES_OK+ * * +PGRES_COPY_OUT+ * * +PGRES_COPY_IN+ * * +PGRES_BAD_RESPONSE+ * * +PGRES_NONFATAL_ERROR+ * * +PGRES_FATAL_ERROR+ * * +PGRES_COPY_BOTH+ * * +PGRES_SINGLE_TUPLE+ * * +PGRES_PIPELINE_SYNC+ * * +PGRES_PIPELINE_ABORTED+ */ static VALUE pgresult_result_status(VALUE self) { return INT2FIX(PQresultStatus(pgresult_get(self))); } /* * call-seq: * res.res_status( status ) -> String * * Returns the string representation of +status+. * */ static VALUE pgresult_res_status(VALUE self, VALUE status) { t_pg_result *this = pgresult_get_this_safe(self); VALUE ret = rb_str_new2(PQresStatus(NUM2INT(status))); PG_ENCODING_SET_NOCHECK(ret, this->enc_idx); return ret; } /* * call-seq: * res.error_message() -> String * * Returns the error message of the command as a string. */ static VALUE pgresult_error_message(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); VALUE ret = rb_str_new2(PQresultErrorMessage(this->pgresult)); PG_ENCODING_SET_NOCHECK(ret, this->enc_idx); return ret; } #ifdef HAVE_PQRESULTVERBOSEERRORMESSAGE /* * call-seq: * res.verbose_error_message( verbosity, show_context ) -> String * * Returns a reformatted version of the error message associated with a PGresult object. * * Available since PostgreSQL-9.6 */ static VALUE pgresult_verbose_error_message(VALUE self, VALUE verbosity, VALUE show_context) { t_pg_result *this = pgresult_get_this_safe(self); VALUE ret; char *c_str; c_str = PQresultVerboseErrorMessage(this->pgresult, NUM2INT(verbosity), NUM2INT(show_context)); if(!c_str) rb_raise(rb_eNoMemError, "insufficient memory to format error message"); ret = rb_str_new2(c_str); PQfreemem(c_str); PG_ENCODING_SET_NOCHECK(ret, this->enc_idx); return ret; } #endif /* * call-seq: * res.error_field(fieldcode) -> String * * Returns the individual field of an error. * * +fieldcode+ is one of: * * +PG_DIAG_SEVERITY+ * * +PG_DIAG_SQLSTATE+ * * +PG_DIAG_MESSAGE_PRIMARY+ * * +PG_DIAG_MESSAGE_DETAIL+ * * +PG_DIAG_MESSAGE_HINT+ * * +PG_DIAG_STATEMENT_POSITION+ * * +PG_DIAG_INTERNAL_POSITION+ * * +PG_DIAG_INTERNAL_QUERY+ * * +PG_DIAG_CONTEXT+ * * +PG_DIAG_SOURCE_FILE+ * * +PG_DIAG_SOURCE_LINE+ * * +PG_DIAG_SOURCE_FUNCTION+ * * An example: * * begin * conn.exec( "SELECT * FROM nonexistant_table" ) * rescue PG::Error => err * p [ * err.result.error_field( PG::Result::PG_DIAG_SEVERITY ), * err.result.error_field( PG::Result::PG_DIAG_SQLSTATE ), * err.result.error_field( PG::Result::PG_DIAG_MESSAGE_PRIMARY ), * err.result.error_field( PG::Result::PG_DIAG_MESSAGE_DETAIL ), * err.result.error_field( PG::Result::PG_DIAG_MESSAGE_HINT ), * err.result.error_field( PG::Result::PG_DIAG_STATEMENT_POSITION ), * err.result.error_field( PG::Result::PG_DIAG_INTERNAL_POSITION ), * err.result.error_field( PG::Result::PG_DIAG_INTERNAL_QUERY ), * err.result.error_field( PG::Result::PG_DIAG_CONTEXT ), * err.result.error_field( PG::Result::PG_DIAG_SOURCE_FILE ), * err.result.error_field( PG::Result::PG_DIAG_SOURCE_LINE ), * err.result.error_field( PG::Result::PG_DIAG_SOURCE_FUNCTION ), * ] * end * * Outputs: * * ["ERROR", "42P01", "relation \"nonexistant_table\" does not exist", nil, nil, * "15", nil, nil, nil, "path/to/parse_relation.c", "857", "parserOpenTable"] */ static VALUE pgresult_error_field(VALUE self, VALUE field) { t_pg_result *this = pgresult_get_this_safe(self); int fieldcode = NUM2INT( field ); char * fieldstr = PQresultErrorField( this->pgresult, fieldcode ); VALUE ret = Qnil; if ( fieldstr ) { ret = rb_str_new2( fieldstr ); PG_ENCODING_SET_NOCHECK( ret, this->enc_idx ); } return ret; } /* * call-seq: * res.ntuples() -> Integer * * Returns the number of tuples in the query result. */ static VALUE pgresult_ntuples(VALUE self) { return INT2FIX(PQntuples(pgresult_get(self))); } static VALUE pgresult_ntuples_for_enum(VALUE self, VALUE args, VALUE eobj) { return pgresult_ntuples(self); } /* * call-seq: * res.nfields() -> Integer * * Returns the number of columns in the query result. */ static VALUE pgresult_nfields(VALUE self) { return INT2NUM(PQnfields(pgresult_get(self))); } /* * call-seq: * res.fname( index ) -> String or Symbol * * Returns the name of the column corresponding to _index_. * Depending on #field_name_type= it's a String or Symbol. * */ static VALUE pgresult_fname(VALUE self, VALUE index) { t_pg_result *this = pgresult_get_this_safe(self); int i = NUM2INT(index); char *cfname; if (i < 0 || i >= PQnfields(this->pgresult)) { rb_raise(rb_eArgError,"invalid field number %d", i); } cfname = PQfname(this->pgresult, i); return pg_cstr_to_sym(cfname, this->flags, this->enc_idx); } /* * call-seq: * res.fnumber( name ) -> Integer * * Returns the index of the field specified by the string +name+. * The given +name+ is treated like an identifier in an SQL command, that is, * it is downcased unless double-quoted. For example, given a query result * generated from the SQL command: * * result = conn.exec( %{SELECT 1 AS FOO, 2 AS "BAR"} ) * * we would have the results: * * result.fname( 0 ) # => "foo" * result.fname( 1 ) # => "BAR" * result.fnumber( "FOO" ) # => 0 * result.fnumber( "foo" ) # => 0 * result.fnumber( "BAR" ) # => ArgumentError * result.fnumber( %{"BAR"} ) # => 1 * * Raises an ArgumentError if the specified +name+ isn't one of the field names; * raises a TypeError if +name+ is not a String. */ static VALUE pgresult_fnumber(VALUE self, VALUE name) { int n; Check_Type(name, T_STRING); n = PQfnumber(pgresult_get(self), StringValueCStr(name)); if (n == -1) { rb_raise(rb_eArgError,"Unknown field: %s", StringValueCStr(name)); } return INT2FIX(n); } /* * call-seq: * res.ftable( column_number ) -> Integer * * Returns the Oid of the table from which the column _column_number_ * was fetched. * * Raises ArgumentError if _column_number_ is out of range or if * the Oid is undefined for that column. */ static VALUE pgresult_ftable(VALUE self, VALUE column_number) { Oid n ; int col_number = NUM2INT(column_number); PGresult *pgresult = pgresult_get(self); if( col_number < 0 || col_number >= PQnfields(pgresult)) rb_raise(rb_eArgError,"Invalid column index: %d", col_number); n = PQftable(pgresult, col_number); return UINT2NUM(n); } /* * call-seq: * res.ftablecol( column_number ) -> Integer * * Returns the column number (within its table) of the table from * which the column _column_number_ is made up. * * Raises ArgumentError if _column_number_ is out of range or if * the column number from its table is undefined for that column. */ static VALUE pgresult_ftablecol(VALUE self, VALUE column_number) { int col_number = NUM2INT(column_number); PGresult *pgresult = pgresult_get(self); int n; if( col_number < 0 || col_number >= PQnfields(pgresult)) rb_raise(rb_eArgError,"Invalid column index: %d", col_number); n = PQftablecol(pgresult, col_number); return INT2FIX(n); } /* * call-seq: * res.fformat( column_number ) -> Integer * * Returns the format (0 for text, 1 for binary) of column * _column_number_. * * Raises ArgumentError if _column_number_ is out of range. */ static VALUE pgresult_fformat(VALUE self, VALUE column_number) { PGresult *result = pgresult_get(self); int fnumber = NUM2INT(column_number); if (fnumber < 0 || fnumber >= PQnfields(result)) { rb_raise(rb_eArgError, "Column number is out of range: %d", fnumber); } return INT2FIX(PQfformat(result, fnumber)); } /* * call-seq: * res.ftype( column_number ) -> Integer * * Returns the data type associated with _column_number_. * * The integer returned is the internal +OID+ number (in PostgreSQL) * of the type. To get a human-readable value for the type, use the * returned OID and the field's #fmod value with the format_type() SQL * function: * * # Get the type of the second column of the result 'res' * typename = conn. * exec( "SELECT format_type($1,$2)", [res.ftype(1), res.fmod(1)] ). * getvalue( 0, 0 ) * * Raises an ArgumentError if _column_number_ is out of range. */ static VALUE pgresult_ftype(VALUE self, VALUE index) { PGresult* result = pgresult_get(self); int i = NUM2INT(index); if (i < 0 || i >= PQnfields(result)) { rb_raise(rb_eArgError, "invalid field number %d", i); } return UINT2NUM(PQftype(result, i)); } /* * call-seq: * res.fmod( column_number ) * * Returns the type modifier associated with column _column_number_. See * the #ftype method for an example of how to use this. * * Raises an ArgumentError if _column_number_ is out of range. */ static VALUE pgresult_fmod(VALUE self, VALUE column_number) { PGresult *result = pgresult_get(self); int fnumber = NUM2INT(column_number); int modifier; if (fnumber < 0 || fnumber >= PQnfields(result)) { rb_raise(rb_eArgError, "Column number is out of range: %d", fnumber); } modifier = PQfmod(result,fnumber); return INT2NUM(modifier); } /* * call-seq: * res.fsize( index ) * * Returns the size of the field type in bytes. Returns -1 if the field is variable sized. * * res = conn.exec("SELECT myInt, myVarChar50 FROM foo") * res.size(0) => 4 * res.size(1) => -1 */ static VALUE pgresult_fsize(VALUE self, VALUE index) { PGresult *result; int i = NUM2INT(index); result = pgresult_get(self); if (i < 0 || i >= PQnfields(result)) { rb_raise(rb_eArgError,"invalid field number %d", i); } return INT2NUM(PQfsize(result, i)); } /* * call-seq: * res.getvalue( tup_num, field_num ) * * Returns the value in tuple number _tup_num_, field _field_num_, * or +nil+ if the field is +NULL+. */ static VALUE pgresult_getvalue(VALUE self, VALUE tup_num, VALUE field_num) { t_pg_result *this = pgresult_get_this_safe(self); int i = NUM2INT(tup_num); int j = NUM2INT(field_num); if(i < 0 || i >= PQntuples(this->pgresult)) { rb_raise(rb_eArgError,"invalid tuple number %d", i); } if(j < 0 || j >= PQnfields(this->pgresult)) { rb_raise(rb_eArgError,"invalid field number %d", j); } return this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, i, j); } /* * call-seq: * res.getisnull(tuple_position, field_position) -> boolean * * Returns +true+ if the specified value is +nil+; +false+ otherwise. */ static VALUE pgresult_getisnull(VALUE self, VALUE tup_num, VALUE field_num) { PGresult *result; int i = NUM2INT(tup_num); int j = NUM2INT(field_num); result = pgresult_get(self); if (i < 0 || i >= PQntuples(result)) { rb_raise(rb_eArgError,"invalid tuple number %d", i); } if (j < 0 || j >= PQnfields(result)) { rb_raise(rb_eArgError,"invalid field number %d", j); } return PQgetisnull(result, i, j) ? Qtrue : Qfalse; } /* * call-seq: * res.getlength( tup_num, field_num ) -> Integer * * Returns the (String) length of the field in bytes. * * Equivalent to res.value(tup_num,field_num).length. */ static VALUE pgresult_getlength(VALUE self, VALUE tup_num, VALUE field_num) { PGresult *result; int i = NUM2INT(tup_num); int j = NUM2INT(field_num); result = pgresult_get(self); if (i < 0 || i >= PQntuples(result)) { rb_raise(rb_eArgError,"invalid tuple number %d", i); } if (j < 0 || j >= PQnfields(result)) { rb_raise(rb_eArgError,"invalid field number %d", j); } return INT2FIX(PQgetlength(result, i, j)); } /* * call-seq: * res.nparams() -> Integer * * Returns the number of parameters of a prepared statement. * Only useful for the result returned by conn.describePrepared */ static VALUE pgresult_nparams(VALUE self) { PGresult *result; result = pgresult_get(self); return INT2FIX(PQnparams(result)); } /* * call-seq: * res.paramtype( param_number ) -> Oid * * Returns the Oid of the data type of parameter _param_number_. * Only useful for the result returned by conn.describePrepared */ static VALUE pgresult_paramtype(VALUE self, VALUE param_number) { PGresult *result; result = pgresult_get(self); return UINT2NUM(PQparamtype(result,NUM2INT(param_number))); } /* * call-seq: * res.cmd_status() -> String * * Returns the status string of the last query command. */ static VALUE pgresult_cmd_status(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); VALUE ret = rb_str_new2(PQcmdStatus(this->pgresult)); PG_ENCODING_SET_NOCHECK(ret, this->enc_idx); return ret; } /* * call-seq: * res.cmd_tuples() -> Integer * * Returns the number of tuples (rows) affected by the SQL command. * * If the SQL command that generated the PG::Result was not one of: * * * SELECT * * CREATE TABLE AS * * INSERT * * UPDATE * * DELETE * * MOVE * * FETCH * * COPY * * an +EXECUTE+ of a prepared query that contains an +INSERT+, +UPDATE+, or +DELETE+ statement * * or if no tuples were affected, 0 is returned. */ static VALUE pgresult_cmd_tuples(VALUE self) { long n; n = strtol(PQcmdTuples(pgresult_get(self)),NULL, 10); return LONG2NUM(n); } /* * call-seq: * res.oid_value() -> Integer * * Returns the +oid+ of the inserted row if applicable, * otherwise +nil+. */ static VALUE pgresult_oid_value(VALUE self) { Oid n = PQoidValue(pgresult_get(self)); if (n == InvalidOid) return Qnil; else return UINT2NUM(n); } /* Utility methods not in libpq */ /* * call-seq: * res[ n ] -> Hash * * Returns tuple _n_ as a hash. */ static VALUE pgresult_aref(VALUE self, VALUE index) { t_pg_result *this = pgresult_get_this_safe(self); int tuple_num = NUM2INT(index); int field_num; int num_tuples = PQntuples(this->pgresult); VALUE tuple; if( this->nfields == -1 ) pgresult_init_fnames( self ); if ( tuple_num < 0 || tuple_num >= num_tuples ) rb_raise( rb_eIndexError, "Index %d is out of range", tuple_num ); /* We reuse the Hash of the previous output for larger row counts. * This is somewhat faster than populating an empty Hash object. */ tuple = NIL_P(this->tuple_hash) ? rb_hash_new() : this->tuple_hash; for ( field_num = 0; field_num < this->nfields; field_num++ ) { VALUE val = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, tuple_num, field_num); rb_hash_aset( tuple, this->fnames[field_num], val ); } /* Store a copy of the filled hash for use at the next row. */ if( num_tuples > 10 ) this->tuple_hash = rb_hash_dup(tuple); return tuple; } /* * call-seq: * res.each_row { |row| ... } * * Yields each row of the result. The row is a list of column values. */ static VALUE pgresult_each_row(VALUE self) { t_pg_result *this; int row; int field; int num_rows; int num_fields; RETURN_SIZED_ENUMERATOR(self, 0, NULL, pgresult_ntuples_for_enum); this = pgresult_get_this_safe(self); num_rows = PQntuples(this->pgresult); num_fields = PQnfields(this->pgresult); for ( row = 0; row < num_rows; row++ ) { PG_VARIABLE_LENGTH_ARRAY(VALUE, row_values, num_fields, PG_MAX_COLUMNS) /* populate the row */ for ( field = 0; field < num_fields; field++ ) { row_values[field] = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, row, field); } rb_yield( rb_ary_new4( num_fields, row_values )); } return Qnil; } /* * call-seq: * res.values -> Array * * Returns all tuples as an array of arrays. */ static VALUE pgresult_values(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); int row; int field; int num_rows = PQntuples(this->pgresult); int num_fields = PQnfields(this->pgresult); VALUE results = rb_ary_new2( num_rows ); for ( row = 0; row < num_rows; row++ ) { PG_VARIABLE_LENGTH_ARRAY(VALUE, row_values, num_fields, PG_MAX_COLUMNS) /* populate the row */ for ( field = 0; field < num_fields; field++ ) { row_values[field] = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, row, field); } rb_ary_store( results, row, rb_ary_new4( num_fields, row_values ) ); } return results; } /* * Make a Ruby array out of the encoded values from the specified * column in the given result. */ static VALUE make_column_result_array( VALUE self, int col ) { t_pg_result *this = pgresult_get_this_safe(self); int rows = PQntuples( this->pgresult ); int i; VALUE results = rb_ary_new2( rows ); if ( col >= PQnfields(this->pgresult) ) rb_raise( rb_eIndexError, "no column %d in result", col ); for ( i=0; i < rows; i++ ) { VALUE val = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, i, col); rb_ary_store( results, i, val ); } return results; } /* * call-seq: * res.column_values( n ) -> array * * Returns an Array of the values from the nth column of each * tuple in the result. * */ static VALUE pgresult_column_values(VALUE self, VALUE index) { int col = NUM2INT( index ); return make_column_result_array( self, col ); } /* * call-seq: * res.field_values( field ) -> array * * Returns an Array of the values from the given _field_ of each tuple in the result. * */ static VALUE pgresult_field_values( VALUE self, VALUE field ) { PGresult *result = pgresult_get( self ); const char *fieldname; int fnum; if( RB_TYPE_P(field, T_SYMBOL) ) field = rb_sym_to_s( field ); fieldname = StringValueCStr( field ); fnum = PQfnumber( result, fieldname ); if ( fnum < 0 ) rb_raise( rb_eIndexError, "no such field '%s' in result", fieldname ); return make_column_result_array( self, fnum ); } /* * call-seq: * res.tuple_values( n ) -> array * * Returns an Array of the field values from the nth row of the result. * */ static VALUE pgresult_tuple_values(VALUE self, VALUE index) { int tuple_num = NUM2INT( index ); t_pg_result *this; int field; int num_tuples; int num_fields; this = pgresult_get_this_safe(self); num_tuples = PQntuples(this->pgresult); num_fields = PQnfields(this->pgresult); if ( tuple_num < 0 || tuple_num >= num_tuples ) rb_raise( rb_eIndexError, "Index %d is out of range", tuple_num ); { PG_VARIABLE_LENGTH_ARRAY(VALUE, row_values, num_fields, PG_MAX_COLUMNS) /* populate the row */ for ( field = 0; field < num_fields; field++ ) { row_values[field] = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, tuple_num, field); } return rb_ary_new4( num_fields, row_values ); } } static void ensure_init_for_tuple(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); if( this->field_map == Qnil ){ int i; VALUE field_map = rb_hash_new(); if( this->nfields == -1 ) pgresult_init_fnames( self ); for( i = 0; i < this->nfields; i++ ){ rb_hash_aset(field_map, this->fnames[i], INT2FIX(i)); } rb_obj_freeze(field_map); this->field_map = field_map; } } /* * call-seq: * res.tuple( n ) -> PG::Tuple * * Returns a PG::Tuple from the nth row of the result. * */ static VALUE pgresult_tuple(VALUE self, VALUE index) { int tuple_num = NUM2INT( index ); t_pg_result *this; int num_tuples; this = pgresult_get_this_safe(self); num_tuples = PQntuples(this->pgresult); if ( tuple_num < 0 || tuple_num >= num_tuples ) rb_raise( rb_eIndexError, "Index %d is out of range", tuple_num ); ensure_init_for_tuple(self); return pg_tuple_new(self, tuple_num); } /* * call-seq: * res.each{ |tuple| ... } * * Invokes block for each tuple in the result set. */ static VALUE pgresult_each(VALUE self) { PGresult *result; int tuple_num; RETURN_SIZED_ENUMERATOR(self, 0, NULL, pgresult_ntuples_for_enum); result = pgresult_get(self); for(tuple_num = 0; tuple_num < PQntuples(result); tuple_num++) { rb_yield(pgresult_aref(self, INT2NUM(tuple_num))); } return self; } /* * call-seq: * res.fields() -> Array * * Depending on #field_name_type= returns an array of strings or symbols representing the names of the fields in the result. */ static VALUE pgresult_fields(VALUE self) { t_pg_result *this = pgresult_get_this_safe(self); if( this->nfields == -1 ) pgresult_init_fnames( self ); return rb_ary_new4( this->nfields, this->fnames ); } /* * call-seq: * res.type_map = typemap * * Set the TypeMap that is used for type casts of result values to ruby objects. * * All value retrieval methods will respect the type map and will do the * type casts from PostgreSQL's wire format to Ruby objects on the fly, * according to the rules and decoders defined in the given typemap. * * +typemap+ must be a kind of PG::TypeMap . * */ static VALUE pgresult_type_map_set(VALUE self, VALUE typemap) { t_pg_result *this = pgresult_get_this(self); t_typemap *p_typemap; /* Check type of method param */ TypedData_Get_Struct(typemap, t_typemap, &pg_typemap_type, p_typemap); this->typemap = p_typemap->funcs.fit_to_result( typemap, self ); this->p_typemap = RTYPEDDATA_DATA( this->typemap ); return typemap; } /* * call-seq: * res.type_map -> value * * Returns the TypeMap that is currently set for type casts of result values to ruby objects. * */ static VALUE pgresult_type_map_get(VALUE self) { t_pg_result *this = pgresult_get_this(self); return this->typemap; } static void yield_hash(VALUE self, int ntuples, int nfields) { int tuple_num; t_pg_result *this = pgresult_get_this(self); UNUSED(nfields); for(tuple_num = 0; tuple_num < ntuples; tuple_num++) { rb_yield(pgresult_aref(self, INT2NUM(tuple_num))); } pgresult_clear( this ); } static void yield_array(VALUE self, int ntuples, int nfields) { int row; t_pg_result *this = pgresult_get_this(self); for ( row = 0; row < ntuples; row++ ) { PG_VARIABLE_LENGTH_ARRAY(VALUE, row_values, nfields, PG_MAX_COLUMNS) int field; /* populate the row */ for ( field = 0; field < nfields; field++ ) { row_values[field] = this->p_typemap->funcs.typecast_result_value(this->p_typemap, self, row, field); } rb_yield( rb_ary_new4( nfields, row_values )); } pgresult_clear( this ); } static void yield_tuple(VALUE self, int ntuples, int nfields) { int tuple_num; t_pg_result *this = pgresult_get_this(self); VALUE copy; UNUSED(nfields); /* make a copy of the base result, that is bound to the PG::Tuple */ copy = pg_copy_result(this); /* The copy is now owner of the PGresult and is responsible to PQclear it. * We clear the pgresult here, so that it's not double freed on error within yield. */ this->pgresult = NULL; for(tuple_num = 0; tuple_num < ntuples; tuple_num++) { VALUE tuple = pgresult_tuple(copy, INT2FIX(tuple_num)); rb_yield( tuple ); } } static VALUE pgresult_stream_any(VALUE self, void (*yielder)(VALUE, int, int)) { t_pg_result *this; int nfields; PGconn *pgconn; PGresult *pgresult; RETURN_ENUMERATOR(self, 0, NULL); this = pgresult_get_this_safe(self); pgconn = pg_get_pgconn(this->connection); pgresult = this->pgresult; nfields = PQnfields(pgresult); for(;;){ int ntuples = PQntuples(pgresult); switch( PQresultStatus(pgresult) ){ case PGRES_TUPLES_OK: if( ntuples == 0 ) return self; rb_raise( rb_eInvalidResultStatus, "PG::Result is not in single row mode"); case PGRES_SINGLE_TUPLE: break; default: pg_result_check( self ); } yielder( self, ntuples, nfields ); pgresult = gvl_PQgetResult(pgconn); if( pgresult == NULL ) rb_raise( rb_eNoResultError, "no result received - possibly an intersection with another result retrieval"); if( nfields != PQnfields(pgresult) ) rb_raise( rb_eInvalidChangeOfResultFields, "number of fields must not change in single row mode"); this->pgresult = pgresult; } /* never reached */ return self; } /* * call-seq: * res.stream_each{ |tuple| ... } * * Invokes block for each tuple in the result set in single row mode. * * This is a convenience method for retrieving all result tuples * as they are transferred. It is an alternative to repeated calls of * PG::Connection#get_result , but given that it avoids the overhead of * wrapping each row into a dedicated result object, it delivers data in nearly * the same speed as with ordinary results. * * The base result must be in status PGRES_SINGLE_TUPLE. * It iterates over all tuples until the status changes to PGRES_TUPLES_OK. * A PG::Error is raised for any errors from the server. * * Row description data does not change while the iteration. All value retrieval * methods refer to only the current row. Result#ntuples returns +1+ while * the iteration and +0+ after all tuples were yielded. * * Example: * conn.send_query( "first SQL query; second SQL query" ) * conn.set_single_row_mode * conn.get_result.stream_each do |row| * # do something with each received row of the first query * end * conn.get_result.stream_each do |row| * # do something with each received row of the second query * end * conn.get_result # => nil (no more results) */ static VALUE pgresult_stream_each(VALUE self) { return pgresult_stream_any(self, yield_hash); } /* * call-seq: * res.stream_each_row { |row| ... } * * Yields each row of the result set in single row mode. * The row is a list of column values. * * This method works equally to #stream_each , but yields an Array of * values. */ static VALUE pgresult_stream_each_row(VALUE self) { return pgresult_stream_any(self, yield_array); } /* * call-seq: * res.stream_each_tuple { |tuple| ... } * * Yields each row of the result set in single row mode. * * This method works equally to #stream_each , but yields a PG::Tuple object. */ static VALUE pgresult_stream_each_tuple(VALUE self) { /* allocate VALUEs that are shared between all streamed tuples */ ensure_init_for_tuple(self); return pgresult_stream_any(self, yield_tuple); } /* * call-seq: * res.field_name_type = Symbol * * Set type of field names specific to this result. * It can be set to one of: * * +:string+ to use String based field names * * +:symbol+ to use Symbol based field names * * +:static_symbol+ to use pinned Symbol (can not be garbage collected) - Don't use this, it will probably be removed in future. * * The default is retrieved from PG::Connection#field_name_type , which defaults to +:string+ . * * This setting affects several result methods: * * keys of Hash returned by #[] , #each and #stream_each * * #fields * * #fname * * field names used by #tuple and #stream_each_tuple * * The type of field names can only be changed before any of the affected methods have been called. * */ static VALUE pgresult_field_name_type_set(VALUE self, VALUE sym) { t_pg_result *this = pgresult_get_this(self); if( this->nfields != -1 ) rb_raise(rb_eArgError, "field names are already materialized"); this->flags &= ~PG_RESULT_FIELD_NAMES_MASK; if( sym == sym_symbol ) this->flags |= PG_RESULT_FIELD_NAMES_SYMBOL; else if ( sym == sym_static_symbol ) this->flags |= PG_RESULT_FIELD_NAMES_STATIC_SYMBOL; else if ( sym == sym_string ); else rb_raise(rb_eArgError, "invalid argument %+"PRIsVALUE, sym); return sym; } /* * call-seq: * res.field_name_type -> Symbol * * Get type of field names. * * See description at #field_name_type= */ static VALUE pgresult_field_name_type_get(VALUE self) { t_pg_result *this = pgresult_get_this(self); if( this->flags & PG_RESULT_FIELD_NAMES_SYMBOL ){ return sym_symbol; } else if( this->flags & PG_RESULT_FIELD_NAMES_STATIC_SYMBOL ){ return sym_static_symbol; } else { return sym_string; } } void init_pg_result() { sym_string = ID2SYM(rb_intern("string")); sym_symbol = ID2SYM(rb_intern("symbol")); sym_static_symbol = ID2SYM(rb_intern("static_symbol")); rb_cPGresult = rb_define_class_under( rb_mPG, "Result", rb_cObject ); rb_undef_alloc_func(rb_cPGresult); rb_include_module(rb_cPGresult, rb_mEnumerable); rb_include_module(rb_cPGresult, rb_mPGconstants); /****** PG::Result INSTANCE METHODS: libpq ******/ rb_define_method(rb_cPGresult, "result_status", pgresult_result_status, 0); rb_define_method(rb_cPGresult, "res_status", pgresult_res_status, 1); rb_define_method(rb_cPGresult, "error_message", pgresult_error_message, 0); rb_define_alias( rb_cPGresult, "result_error_message", "error_message"); #ifdef HAVE_PQRESULTVERBOSEERRORMESSAGE rb_define_method(rb_cPGresult, "verbose_error_message", pgresult_verbose_error_message, 2); rb_define_alias( rb_cPGresult, "result_verbose_error_message", "verbose_error_message"); #endif rb_define_method(rb_cPGresult, "error_field", pgresult_error_field, 1); rb_define_alias( rb_cPGresult, "result_error_field", "error_field" ); rb_define_method(rb_cPGresult, "clear", pg_result_clear, 0); rb_define_method(rb_cPGresult, "check", pg_result_check, 0); rb_define_alias (rb_cPGresult, "check_result", "check"); rb_define_method(rb_cPGresult, "ntuples", pgresult_ntuples, 0); rb_define_alias(rb_cPGresult, "num_tuples", "ntuples"); rb_define_method(rb_cPGresult, "nfields", pgresult_nfields, 0); rb_define_alias(rb_cPGresult, "num_fields", "nfields"); rb_define_method(rb_cPGresult, "fname", pgresult_fname, 1); rb_define_method(rb_cPGresult, "fnumber", pgresult_fnumber, 1); rb_define_method(rb_cPGresult, "ftable", pgresult_ftable, 1); rb_define_method(rb_cPGresult, "ftablecol", pgresult_ftablecol, 1); rb_define_method(rb_cPGresult, "fformat", pgresult_fformat, 1); rb_define_method(rb_cPGresult, "ftype", pgresult_ftype, 1); rb_define_method(rb_cPGresult, "fmod", pgresult_fmod, 1); rb_define_method(rb_cPGresult, "fsize", pgresult_fsize, 1); rb_define_method(rb_cPGresult, "getvalue", pgresult_getvalue, 2); rb_define_method(rb_cPGresult, "getisnull", pgresult_getisnull, 2); rb_define_method(rb_cPGresult, "getlength", pgresult_getlength, 2); rb_define_method(rb_cPGresult, "nparams", pgresult_nparams, 0); rb_define_method(rb_cPGresult, "paramtype", pgresult_paramtype, 1); rb_define_method(rb_cPGresult, "cmd_status", pgresult_cmd_status, 0); rb_define_method(rb_cPGresult, "cmd_tuples", pgresult_cmd_tuples, 0); rb_define_alias(rb_cPGresult, "cmdtuples", "cmd_tuples"); rb_define_method(rb_cPGresult, "oid_value", pgresult_oid_value, 0); /****** PG::Result INSTANCE METHODS: other ******/ rb_define_method(rb_cPGresult, "[]", pgresult_aref, 1); rb_define_method(rb_cPGresult, "each", pgresult_each, 0); rb_define_method(rb_cPGresult, "fields", pgresult_fields, 0); rb_define_method(rb_cPGresult, "each_row", pgresult_each_row, 0); rb_define_method(rb_cPGresult, "values", pgresult_values, 0); rb_define_method(rb_cPGresult, "column_values", pgresult_column_values, 1); rb_define_method(rb_cPGresult, "field_values", pgresult_field_values, 1); rb_define_method(rb_cPGresult, "tuple_values", pgresult_tuple_values, 1); rb_define_method(rb_cPGresult, "tuple", pgresult_tuple, 1); rb_define_method(rb_cPGresult, "cleared?", pgresult_cleared_p, 0); rb_define_method(rb_cPGresult, "autoclear?", pgresult_autoclear_p, 0); rb_define_method(rb_cPGresult, "type_map=", pgresult_type_map_set, 1); rb_define_method(rb_cPGresult, "type_map", pgresult_type_map_get, 0); /****** PG::Result INSTANCE METHODS: streaming ******/ rb_define_method(rb_cPGresult, "stream_each", pgresult_stream_each, 0); rb_define_method(rb_cPGresult, "stream_each_row", pgresult_stream_each_row, 0); rb_define_method(rb_cPGresult, "stream_each_tuple", pgresult_stream_each_tuple, 0); rb_define_method(rb_cPGresult, "field_name_type=", pgresult_field_name_type_set, 1 ); rb_define_method(rb_cPGresult, "field_name_type", pgresult_field_name_type_get, 0 ); }