{ Copyright (c) 1985, 87 by Borland International, Inc. } program CPASDEMO; (* This program demonstrates how to interface Turbo Pascal and Turbo C. Turbo C is used to generate an .OBJ file (CPASDEMO.OBJ). Then this .OBJ is linked into this Turbo Pascal program using the {$L} compiler directive. NOTES: 1. Data declared in the Turbo C module cannot be accessed from the Turbo Pascal program. Shared data must be declared in Pascal. 2. If the C functions are only used in the implementation section of a unit, declare them NEAR. If they are declared in the interface section of a unit, declare them FAR. Always compile the Turbo C modules using the small memory model. 3. Turbo C runtime library routines cannot be used because their modules do not have the correct segment names. However, if you have the Turbo C runtime library source (available from Borland), you can use individual library modules by recompiling them using CTOPAS.BAT. If you do recompile them, make sure that you include prototypes in your C module for all C library functions that you use. 4. Some of the code that Turbo C generates are calls to internal routines. These cannot be used without recompiling the relevant parts of the Turbo C runtime library source code. In order to run this demonstration program you will need the following files: TCC.EXE and TURBO.CFG or TC.EXE and CTOPAS.TC To run the demonstration program CPASDEMO.EXE do the following: 1. First create a CPASDEMO.OBJ file compatible with Turbo Pascal 4.0 using Turbo C. a) If you are using the Turbo C integrated environment (TC.EXE) then at the DOS prompt execute: TC /CCTOPAS.TC CPASDEMO.C then create the .OBJ file by pressing ALT-F9. b) If you are using the Turbo C command line version (TCC.EXE) then at the DOS prompt execute: TCC CPASDEMO.C Note: Use the same configuration file (TURBO.CFG or CTOPAS.TC) when you create your own Turbo C modules for use with Turbo Pascal 4.0 2. Compile and execute the Turbo Pascal program CPASDEMO.PAS This simple program calls each of the functions defined in the Turbo C module. Each of the Turbo C functions changes the current display color by calling the Turbo Pascal procedure SetColor. } *) uses Crt; var Factor : Word; {$L CPASDEMO.OBJ} { link in the Turbo C-generated .OBJ module } function Sqr(I : Integer) : Word; external; { Change the text color and return the square of I } function HiBits(W : Word) : Word; external; { Change the text color and return the high byte of W } function Suc(B : Byte) : Byte; external; { Change the text color and return B + 1 } function Upr(C : Char) : Char; external; { Change the text color and return the upper case of C } function Prd(S : ShortInt) : ShortInt; external; { Change the text color and return S - 1 } function LoBits(L : LongInt) : LongInt; external; { Change the text color and return the low word of L } procedure StrUpr(var S : string); external; { Change the text color and return the upper case of S - Note that the Turbo } { C routine must skip the length byte of the string. } function BoolNot(B : Boolean) : Boolean; external; { Change the text color and return NOT B } function MultByFactor(W : Word) : Word; external; { Change the text color and return W * Factor - note Turbo C's access of } { Turbo Pascal's global variable. } procedure SetColor(NewColor : Byte); { A procedure that changes the current } begin { display color by changing the CRT } TextAttr := NewColor; { variable TextAttr } end; { SetColor } var S : string; begin Writeln(Sqr(10)); { Call each of the functions defined } Writeln(HiBits(30000)); { passing it the appropriate info. } Writeln(Suc(200)); Writeln(Upr('x')); Writeln(Prd(-100)); Writeln(LoBits(100000)); S := 'abcdefg'; StrUpr(S); Writeln(S); Writeln(BoolNot(False)); Factor := 100; Writeln(MultbyFactor(10)); SetColor(LightGray); end.