{****************************************************************} { CODE GENERATOR TEST PROGRAM } { By Carl Eric Codere } {****************************************************************} { NODE TESTED : secondcallparan() } {****************************************************************} { PRE-REQUISITES: secondload() } { secondassign() } { secondtypeconv() } { secondtryexcept() } { secondcalln() } { secondadd() } {****************************************************************} { DEFINES: } { FPC = Target is FreePascal compiler } {****************************************************************} { REMARKS: This tests a subset of the secondcalln() node } { (function return values with inline calling cnvs) } { (also tests nested routines up to 2 level deep) } {****************************************************************} program tcalfun8; {$ifdef fpc} {$mode objfpc} {$INLINE ON} {$endif} {$R+} {$P-} {$ifdef VER70} {$define tp} {$endif} {$i cpudefs.inc} { REAL should map to single or double } { so it is not checked, since single } { double nodes are checked. } { assumes that enumdef is the same as orddef (same storage format) } const { should be defined depending on CPU target } {$ifdef fpc} {$ifdef cpusmall} BIG_INDEX = 8000; SMALL_INDEX = 13; {$else} BIG_INDEX = 33000; SMALL_INDEX = 13; { value should not be aligned! } {$endif} {$else} BIG_INDEX = 33000; SMALL_INDEX = 13; { value should not be aligned! } {$endif} RESULT_U8BIT = $55; RESULT_U16BIT = $500F; RESULT_S32BIT = $500F0000; RESULT_S64BIT = $500F0000; RESULT_S32REAL = 1777.12; RESULT_S64REAL = 3444.24; RESULT_BOOL8BIT = 1; RESULT_BOOL16BIT = 1; RESULT_BOOL32BIT = 1; RESULT_PCHAR = 'Hello world'; RESULT_BIGSTRING = 'Hello world'; RESULT_SMALLSTRING = 'H'; RESULT_CHAR = 'I'; RESULT_BOOLEAN = TRUE; type {$ifndef tp} tclass1 = class end; {$else} shortstring = string; {$endif} tprocedure = procedure; tsmallrecord = packed record b: byte; w: word; end; tlargerecord = packed record b: array[1..BIG_INDEX] of byte; end; tsmallarray = packed array[1..SMALL_INDEX] of byte; tsmallsetenum = (A_A,A_B,A_C,A_D); tsmallset = set of tsmallsetenum; tlargeset = set of char; tsmallstring = string[2]; var global_u8bit : byte; global_u16bit : word; global_s32bit : longint; global_s32real : single; global_s64real : double; global_ptr : pchar; global_proc : tprocedure; global_bigstring : shortstring; global_boolean : boolean; global_char : char; {$ifndef tp} global_class : tclass1; global_s64bit : int64; value_s64bit : int64; value_class : tclass1; {$endif} value_ansistring : ansistring; value_u8bit : byte; value_u16bit : word; value_s32bit : longint; value_s32real : single; value_s64real : double; value_proc : tprocedure; value_ptr : pchar; value_smallrec : tsmallrecord; value_largerec : tlargerecord; value_smallset : tsmallset; value_smallstring : tsmallstring; value_bigstring : shortstring; value_largeset : tlargeset; value_smallarray : tsmallarray; value_boolean : boolean; value_char : char; procedure fail; begin WriteLn('Failure.'); halt(1); end; procedure clear_globals; begin global_u8bit := 0; global_u16bit := 0; global_s32bit := 0; global_s32real := 0.0; global_s64real := 0.0; global_ptr := nil; global_proc := nil; global_bigstring := ''; global_boolean := false; global_char := #0; global_s64bit := 0; global_class := nil; end; procedure clear_values; begin value_u8bit := 0; value_u16bit := 0; value_s32bit := 0; value_s32real := 0.0; value_s64real := 0.0; value_proc := nil; value_ptr := nil; fillchar(value_smallrec, sizeof(value_smallrec), #0); fillchar(value_largerec, sizeof(value_largerec), #0); value_smallset := []; value_smallstring := ''; value_bigstring := ''; value_largeset := []; fillchar(value_smallarray, sizeof(value_smallarray), #0); value_boolean := false; value_char:=#0; value_ansistring := ''; {$ifndef tp} value_s64bit := 0; value_class := nil; {$endif} end; {********************************* FUNCTION RESULTS *************************} { LOC_MEM return values } function func_array: tsmallarray;inline; var smallarray: tsmallarray; begin fillchar(smallarray, sizeof(smallarray), #0); smallarray[1] := RESULT_U8BIT; smallarray[SMALL_INDEX] := RESULT_U8BIT; func_array := smallarray; end; function func_largerecord: tlargerecord;inline; var largerecord : tlargerecord; begin fillchar(largerecord, sizeof(largerecord), #0); largerecord.b[1] := RESULT_U8BIT; largerecord.b[BIG_INDEX] := RESULT_U8BIT; func_largerecord := largerecord; end; function func_shortstring: shortstring;inline; begin func_shortstring := RESULT_BIGSTRING; end; function func_largeset : tlargeset;inline; var largeset : tlargeset; begin largeset := ['I']; func_largeset := largeset; end; function func_u8bit : byte;inline; begin func_u8bit := RESULT_U8BIT; end; function func_u16bit : word;inline; begin func_u16bit := RESULT_U16BIT; end; function func_s32bit : longint;inline; begin func_s32bit := RESULT_S32BIT; end; function func_s64bit : int64;inline; begin func_s64bit := RESULT_S64BIT; end; function func_s32real : single;inline; begin func_s32real := RESULT_S32REAL; end; function func_s64real : double;inline; begin func_s64real := RESULT_S64REAl; end; function func_ansistring : ansistring;inline; begin func_ansistring := RESULT_BIGSTRING; end; function func_pchar : pchar;inline; begin func_pchar := RESULT_PCHAR; end; {************************** FUNCTION RESULT WITH PARAMS ******************} { LOC_MEM return values } function func_array_mixed(b: byte): tsmallarray;inline; var local_b: byte; smallarray: tsmallarray; begin fillchar(smallarray, sizeof(smallarray), #0); smallarray[1] := RESULT_U8BIT; smallarray[SMALL_INDEX] := RESULT_U8BIT; func_array_mixed := smallarray; local_b:=b; global_u8bit := b; end; function func_largerecord_mixed(b: byte): tlargerecord;inline; var local_b: byte; largerecord : tlargerecord; begin fillchar(largerecord, sizeof(largerecord), #0); largerecord.b[1] := RESULT_U8BIT; largerecord.b[BIG_INDEX] := RESULT_U8BIT; func_largerecord_mixed := largerecord; local_b:=b; global_u8bit := b; end; function func_shortstring_mixed(b: byte): shortstring;inline; var local_b: byte; begin func_shortstring_mixed := RESULT_BIGSTRING; local_b:=b; global_u8bit := b; end; function func_largeset_mixed(b: byte) : tlargeset;inline; var local_b: byte; largeset : tlargeset; begin largeset := ['I']; func_largeset_mixed := largeset; local_b:=b; global_u8bit := b; end; function func_u8bit_mixed(b: byte) : byte;inline; var local_b: byte; begin func_u8bit_mixed := RESULT_U8BIT; local_b:=b; global_u8bit := b; end; function func_u16bit_mixed(b: byte) : word;inline; var local_b: byte; begin func_u16bit_mixed := RESULT_U16BIT; local_b:=b; global_u8bit := b; end; function func_s32bit_mixed(b: byte) : longint;inline; var local_b: byte; begin func_s32bit_mixed := RESULT_S32BIT; local_b:=b; global_u8bit := b; end; function func_s64bit_mixed(b: byte) : int64;inline; var local_b: byte; begin func_s64bit_mixed := RESULT_S64BIT; local_b:=b; global_u8bit := b; end; function func_s32real_mixed(b: byte) : single;inline; var local_b: byte; begin func_s32real_mixed := RESULT_S32REAL; local_b:=b; global_u8bit := b; end; function func_s64real_mixed(b: byte) : double;inline; var local_b: byte; begin func_s64real_mixed := RESULT_S64REAl; local_b:=b; global_u8bit := b; end; function func_ansistring_mixed(b: byte) : ansistring;inline; var local_b: byte; begin func_ansistring_mixed := RESULT_BIGSTRING; local_b:=b; global_u8bit := b; end; function func_pchar_mixed(b: byte) : pchar;inline; var local_b: byte; begin func_pchar_mixed := RESULT_PCHAR; local_b:=b; global_u8bit := b; end; {********************* FUNCTION RESULT WITH PARAMS (NESTED) ******************} { LOC_MEM return values } function func_array_mixed_nested(b: byte): tsmallarray;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; smallarray: tsmallarray; begin fillchar(smallarray, sizeof(smallarray), #0); smallarray[1] := RESULT_U8BIT; smallarray[SMALL_INDEX] := RESULT_U8BIT; func_array_mixed_nested := smallarray; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); { nested_one_proc(RESULT_S32BIT);} end; function func_largerecord_mixed_nested(b: byte): tlargerecord;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; largerecord : tlargerecord; begin fillchar(largerecord, sizeof(largerecord), #0); largerecord.b[1] := RESULT_U8BIT; largerecord.b[BIG_INDEX] := RESULT_U8BIT; func_largerecord_mixed_nested := largerecord; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_shortstring_mixed_nested(b: byte): shortstring;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_shortstring_mixed_nested := RESULT_BIGSTRING; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_largeset_mixed_nested(b: byte) : tlargeset;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; largeset : tlargeset; begin largeset := ['I']; func_largeset_mixed_nested := largeset; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_u8bit_mixed_nested(b: byte) : byte;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_u8bit_mixed_nested := RESULT_U8BIT; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_u16bit_mixed_nested(b: byte) : word;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_u16bit_mixed_nested := RESULT_U16BIT; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_s32bit_mixed_nested(b: byte) : longint;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_s32bit_mixed_nested := RESULT_S32BIT; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_s64bit_mixed_nested(b: byte) : int64;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_s64bit_mixed_nested := RESULT_S64BIT; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_s32real_mixed_nested(b: byte) : single;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_s32real_mixed_nested := RESULT_S32REAL; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_s64real_mixed_nested(b: byte) : double;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_s64real_mixed_nested := RESULT_S64REAl; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_ansistring_mixed_nested(b: byte) : ansistring;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_ansistring_mixed_nested := RESULT_BIGSTRING; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; function func_pchar_mixed_nested(b: byte) : pchar;inline; procedure nested_one_proc(l: longint); begin global_u16bit := b; global_s32bit := l; end; procedure nested_two_proc(l : longint); begin global_s64bit := l; end; function nested_one_func(level1_b : byte; s: shortstring): byte; var s1 : shortstring; function nested_two_func(level2_b : byte; s :shortstring): byte; begin nested_two_func:=level2_b; global_bigstring := s; nested_one_proc(RESULT_S32BIT); end; begin s1:=s; nested_one_func := nested_two_func(level1_b,s1); nested_two_proc(level1_b); end; var local_b: byte; begin func_pchar_mixed_nested := RESULT_PCHAR; local_b:=b; global_u8bit := nested_one_func(local_b, RESULT_BIGSTRING); end; var failed: boolean; Begin {************************************* SIMPLE TESTS ***********************************} write('Testing function results (LOC_REFERENCE)...'); clear_globals; clear_values; failed := false; value_smallarray := func_array; if (value_smallarray[1] <> RESULT_U8BIT) or (value_smallarray[SMALL_INDEX] <> RESULT_U8BIT) then failed := true; clear_globals; clear_values; value_largerec := func_largerecord; if (value_largerec.b[1] <> RESULT_U8BIT) or (value_largerec.b[BIG_INDEX] <> RESULT_U8BIT) then failed:=true; clear_globals; clear_values; value_bigstring := func_shortstring; if value_bigstring <> RESULT_BIGSTRING then failed := true; clear_globals; clear_values; value_largeset := func_largeset; if not ('I' in value_largeset) then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing orddef/enumdef function results (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_u8bit := func_u8bit; if value_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_u16bit := func_u16bit; if value_u16bit <> RESULT_U16BIT then failed := true; clear_globals; clear_values; value_s32bit := func_s32bit; if value_s32bit <> RESULT_S32BIT then failed := true; clear_globals; clear_values; value_s64bit := func_s64bit; if value_s64bit <> RESULT_S64BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing floatdef function results...'); clear_globals; clear_values; failed := false; clear_globals; clear_values; value_s32real := func_s32real; if trunc(value_s32real) <> trunc(RESULT_S32REAL) then failed:=true; clear_globals; clear_values; value_s64real := func_s64real; if trunc(value_s64real) <> trunc(RESULT_S64REAL) then failed:=true; if failed then fail else WriteLn('Passed!'); write('Testing ansistring function result...'); clear_globals; clear_values; failed := false; value_ansistring := func_ansistring; if value_ansistring <> RESULT_BIGSTRING then failed:=true; if failed then fail else WriteLn('Passed!'); write('Testing pointer function result (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_ptr := func_pchar; if value_ptr <> RESULT_PCHAR then failed := true; if failed then fail else WriteLn('Passed!'); {*********************************** TESTS W/PARAMS ***********************************} write('Testing function results with parameter (LOC_REFERENCE)...'); clear_globals; clear_values; failed := false; value_smallarray := func_array_mixed(RESULT_U8BIT); if (value_smallarray[1] <> RESULT_U8BIT) or (value_smallarray[SMALL_INDEX] <> RESULT_U8BIT) then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_largerec := func_largerecord_mixed(RESULT_U8BIT); if (value_largerec.b[1] <> RESULT_U8BIT) or (value_largerec.b[BIG_INDEX] <> RESULT_U8BIT) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_bigstring := func_shortstring_mixed(RESULT_U8BIT); if value_bigstring <> RESULT_BIGSTRING then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_largeset := func_largeset_mixed(RESULT_U8BIT); if not ('I' in value_largeset) then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing orddef/enumdef function results with parameter (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_u8bit := func_u8bit_mixed(RESULT_U8BIT); if value_u8bit <> RESULT_U8BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_u16bit := func_u16bit_mixed(RESULT_U8BIT); if value_u16bit <> RESULT_U16BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_s32bit := func_s32bit_mixed(RESULT_U8BIT); if value_s32bit <> RESULT_S32BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_s64bit := func_s64bit_mixed(RESULT_U8BIT); if value_s64bit <> RESULT_S64BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing floatdef function results with parameter...'); clear_globals; clear_values; failed := false; value_s32real := func_s32real_mixed(RESULT_U8BIT); if trunc(value_s32real) <> trunc(RESULT_S32REAL) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_s64real := func_s64real_mixed(RESULT_U8BIT); if trunc(value_s64real) <> trunc(RESULT_S64REAL) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing ansistring function result with parameter...'); clear_globals; clear_values; failed := false; value_ansistring := func_ansistring_mixed(RESULT_U8BIT); if value_ansistring <> RESULT_BIGSTRING then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing pointer function result with parameter (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_ptr := func_pchar_mixed(RESULT_U8BIT); if value_ptr <> RESULT_PCHAR then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); {******************************NESTED TESTS W/PARAMS **********************************} write('Testing function (w/nesting) results with parameter (LOC_REFERENCE)...'); clear_globals; clear_values; failed := false; value_smallarray := func_array_mixed_nested(RESULT_U8BIT); if (value_smallarray[1] <> RESULT_U8BIT) or (value_smallarray[SMALL_INDEX] <> RESULT_U8BIT) then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_largerec := func_largerecord_mixed_nested(RESULT_U8BIT); if (value_largerec.b[1] <> RESULT_U8BIT) or (value_largerec.b[BIG_INDEX] <> RESULT_U8BIT) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; clear_globals; clear_values; value_bigstring := func_shortstring_mixed_nested(RESULT_U8BIT); if value_bigstring <> RESULT_BIGSTRING then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_largeset := func_largeset_mixed_nested(RESULT_U8BIT); if not ('I' in value_largeset) then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing orddef/enumdef function (w/nesting) results with parameter (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_u8bit := func_u8bit_mixed_nested(RESULT_U8BIT); if value_u8bit <> RESULT_U8BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; clear_globals; clear_values; value_u16bit := func_u16bit_mixed_nested(RESULT_U8BIT); if value_u16bit <> RESULT_U16BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; clear_globals; clear_values; value_s32bit := func_s32bit_mixed_nested(RESULT_U8BIT); if value_s32bit <> RESULT_S32BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; clear_globals; clear_values; value_s64bit := func_s64bit_mixed_nested(RESULT_U8BIT); if value_s64bit <> RESULT_S64BIT then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing floatdef function (w/nesting) results with parameter...'); clear_globals; clear_values; failed := false; value_s32real := func_s32real_mixed_nested(RESULT_U8BIT); if trunc(value_s32real) <> trunc(RESULT_S32REAL) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; clear_globals; clear_values; value_s64real := func_s64real_mixed_nested(RESULT_U8BIT); if trunc(value_s64real) <> trunc(RESULT_S64REAL) then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing ansistring function (w/nesting) result with parameter...'); clear_globals; clear_values; failed := false; value_ansistring := func_ansistring_mixed_nested(RESULT_U8BIT); if value_ansistring <> RESULT_BIGSTRING then failed:=true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if failed then fail else WriteLn('Passed!'); write('Testing pointer function (w/nesting) result with parameter (LOC_REGISTER)...'); clear_globals; clear_values; failed := false; value_ptr := func_pchar_mixed_nested(RESULT_U8BIT); if value_ptr <> RESULT_PCHAR then failed := true; if global_u8bit <> RESULT_U8BIT then failed := true; if global_bigstring <> RESULT_BIGSTRING then failed := true; if global_u16bit <> RESULT_U8BIT then failed := true; if global_s64bit <> RESULT_U8BIT then failed := true; if global_s32bit <> RESULT_S32BIT then failed := true; if failed then fail else WriteLn('Passed!'); end.