dos_compilers/Borland Turbo C v1/README
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WELCOME TO TURBO C
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This README file contains information that will be useful and/or of
interest to you. Please read it in its entirety, referring to it
when you encounter problems not addressed in the Owner's Handbook.
TABLE OF CONTENTS
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1. How to get Help
2. Corrections/Additions to the Manual
3. Important tips
4. Files on the disk
5. Using Turbo C with DOS 3.2 and a Floating Point Coprocessor
6. How to compile MicroCalc
1. HOW TO GET HELP
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If you have any problems, please read this file and the Owner's
Handbook first. If you still have a question and need assistance,
help is available from the following sources:
1. Type GO BORLAND on the CompuServe bulletin board system
for instant access to the Borland forums with their
libraries of technical information and answers to
common questions.
If you are not a member of CompuServe, see the enclosed
special offer, and write for full details on how to
receive a free IntroPak containing a $15 credit toward
your first month's on-line charges.
2. Check with your local software dealer or users' group.
3. Write to us at the following address:
Borland International
Turbo C Technical Support
4585 Scotts Valley Dr
Scotts Valley, CA 95066
Please remember to include your serial number or we
will be unable to process your letter.
4. If you have an urgent problem that cannot wait and you have
sent in the license agreement from the front of your manual,
you may call the Borland Technical Support department. Please
have the following information ready before calling:
a. Product name and serial number on your original
distribution disk. Please have your serial number
ready or we will be unable to process your call.
b. Product version number. The version number for Turbo C is
displayed when you first load the program and before you
press any keys.
c. Computer brand, model, and the brands and model numbers of
any additional hardware.
d. Operating system and version number. (The version number
can be determined by typing VER at the DOS prompt.)
e. Contents of your AUTOEXEC.BAT file.
f. Contents of your CONFIG.SYS file.
2. CORRECTIONS/ADDITIONS TO THE MANUAL
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User's Guide (Volume I)
- Page 10 - The Distribution List is inaccurate. The correct
list of files included with Turbo C is given in this readme
in Section Four.
- Page 98 - The example has a statement:
while ((ch=getch()) != '\n') {
The correct statement is:
while ((ch=getch()) != '\r') {
Note the '\n' is changed to '\r'.
Reference Guide (Volume II)
- Page 29 - The description for assert says that to disable
the assert macro, the symbol NDEBUG must be defined before the
assert macro is used. In fact it must be placed before
assert.h is included:
#define NDEBUG
#include <assert.h>
- Page 46 - The correct usage for the bsearch function is:
void *bsearch(void *key, void *base, int nelem,
int width, int (*fcmp)());
That is, nelem is an int, not a pointer to an int, as
given in the documentation.
- Page 108 - The Portability paragraph for the getc function
says that the functions described in that section (getc,
getchar, fgetc, etc.) are all in Unix. In fact, all but getch,
getche, and ungetch are in Unix; these others are MSDOS
specific.
- Page 181 - The printf chart is incorrect. The correct chart is:
prefix 6d 6o 8x 10.2e 10.2f
%-+#0 |+555 |01053 |0x22b |+5.50e+000 |+5.50 |
%-+# |+555 |01053 |0x22b |+5.50e+000 |+5.50 |
%-+0 |+555 |1053 |22b |+5.50e+000 |+5.50 |
%-+ |+555 |1053 |22b |+5.50e+000 |+5.50 |
%-#0 |555 |01053 |0x22b |5.50e+000 |5.50 |
%-# |555 |01053 |0x22b |5.50e+000 |5.50 |
%-0 |555 |1053 |22b |5.50e+000 |5.50 |
%- |555 |1053 |22b |5.50e+000 |5.50 |
%+#0 |+00555 |001053 |0x00022b |+5.50e+000 |+000005.50 |
%+# | +555 | 01053 | 0x22b |+5.50e+000 | +5.50 |
%+0 |+00555 |001053 |0000022b |+5.50e+000 |+000005.50 |
%+ | +555 | 1053 | 22b |+5.50e+000 | +5.50 |
%#0 |000555 |001053 |0x00022b |05.50e+000 |0000005.50 |
%# | 555 | 01053 | 0x22b | 5.50e+000 | 5.50 |
%0 |000555 |001053 |0000022b |05.50e+000 |0000005.50 |
% | 555 | 1053 | 22b | 5.50e+000 | 5.50 |
- Page 197 - The description of the scanf conversion type
characters lists F to indicate a float conversion. This
is not correct. F is not a valid type character. It is
used instead to override the default size of the corresponding
address argument to be a far pointer. That is, the format %F
is not valid; it does not specify a float conversion.
The format %Ff specifies a float conversion into an argument
that is given with a far pointer.
- Page 231 - The proper description for the strstr function
is: strstr scans str1 for the first occurrence of the substring
str2.
- The Merge string option (O/C/Code generation/Merge duplicate
strings or -d) is actually default OFF, not default ON.
- The discussion of text mode I/O in the functions close (p. 54)
and read (p. 188) states that Ctrl-Z is written to the end of a
text mode file when that file is closed, if that file was opened
for write. That is incorrect. No Ctrl-Z is written for you.
If you want your text file to be terminated with a Ctrl-Z,
you need to explicitly output one yourself. Some older programs on
DOS require a Ctrl-Z at the end of text files. This is an outmoded
practice inherited from CP/M.
- The description of the intdos, intdosx, int86 and int86x
functions is incomplete. The union REGS structure used by all
four functions has the additional field x.flags. This field is
set to the 8086 flags register after the system call is made.
This is in contrast to the x.cflag field, which simply contains
the state of the carry flag.
Further, for int86x and intdosx, the segregs->es and
segregs->ds fields are set to the values of the corresponding
segment registers after the system call.
- The variable int _doserrno is declared in dos.h and errno.h.
_stklen
Name _stklen
Usage extern unsigned _stklen;
Description
_stklen is used to specify the size of the stack.
In large data models (compact, large and huge), _stklen is
the exact stack size in bytes. In small data models
(tiny, small and medium), _stklen is used by the startup code
to compute the minimum size of the DATA segment:
min DATA segment size = size of _DATA segment +
size of _BSS segment +
_stklen + MINSTACK (128 words).
If the memory available is less than this, the startup
aborts the program.
_8087
Name _8087
Usage extern int _8087;
Description
The _8087 variable is set to 1 if an 8087 or 80287 is detected
or if the 87 environment variable is set to Y (set 87=Y). It is
set to 0 otherwise. You must have floating point code in your
program for _8087 to be set to 1.
3. IMPORTANT TIPS
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- When copying the *.H files from the Libraries and Header Files
disk be sure to copy the SYS sub-directory and its contents.
- The C startup routine (c0?.obj) parses the command line
to set up the argc, argv arguments to main. Double quotes on
the command line can be used to bracket a single argument that
has embedded blanks. For example, in the following, the
program MYPROG.EXE is invoked with three arguments:
myprog arg1 "arg2 with embedded blanks" arg3
The second argument contains embedded blanks.
- Here is further explanation of the switch to disable
register variables (-r- or O/C/Optimization/Use register
variables..Off). Not only will the compiler not use register
variables, but it also will not respect and preserve register
variables (si,di) from any caller. For that reason, you should
not have code that uses register variables call code which has
been compiled -r-.
4. FILES ON THE DISK
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Disk 1
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README COM -- Reads this README
TC EXE -- Turbo C Compiler
TCINST COM -- Installation program for TC.EXE
TCHELP TCH -- Help file for Turbo C
HELLO C -- Example Turbo C program
README -- This file!
Disk 2
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TCC EXE -- Command line version of Turbo C Compiler
CPP EXE -- Turbo C preprocessor
MAKE EXE -- Program for managing projects
TLINK EXE -- Borland Turbo Linker
TOUCH COM -- Program that updates a file's date and time
CNVTCFG EXE -- Program to convert configuration files
BUILD-C0 BAT -- Batch file for building the startup code modules
C0 ASM -- Assembler source for startup code
RULES ASI -- Assembler include file for interfacing with Turbo C
SETENVP ASM -- Assembler source code for preparing the environment
SETARGV ASM -- Assembler source code for parsing the command line
MAIN C -- Alternative, stripped-down C main file
Disk 3
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???????? H -- Turbo C header files
C0T OBJ -- Tiny model startup code
C0S OBJ -- Small model startup code
MATHS LIB -- Small model math library
CS LIB -- Small model run-time library
C0L OBJ -- Large model startup code
MATHL LIB -- Large model math library
CL LIB -- Large model run-time library
EMU LIB -- 8087 emulator library
FP87 LIB -- 8087 library
MCALC C -- MicroCalc main program source code
MCALC H -- The header file for MicroCalc
MCALC PRJ -- The MicroCalc project file
MCALC DOC -- Documentation for MicroCalc
MCOMMAND C -- MicroCalc commands source code
MCDISPLY C -- MicroCalc screen display source code
MCINPUT C -- MicroCalc input routines source code
MCPARSER C -- MicroCalc input parser source code
MCUTIL C -- MicroCalc utilities source code
MCMVSMEM C -- MicroCalc direct screen memory write source code
MCMVSMEM OBJ -- Compiled version of MCMVSMEM.C - will link with any
memory model
SYS DIRECTORY
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STAT H -- Turbo C header file with file status/directory
functions
Disk 4
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C0C OBJ -- Compact model startup code
MATHC LIB -- Compact model math library
CC LIB -- Compact model run-time library
C0M OBJ -- Medium model startup code
MATHM LIB -- Medium model math library
CM LIB -- Medium model run-time library
C0H OBJ -- Huge model startup code
MATHH LIB -- Huge model math library
CH LIB -- Huge model run-time library
MATHERR C -- Source code for handling math library exceptions
FILECOMP C -- Example Turbo C program to compare files
GETOPT C -- Parses options in commmand line
CPINIT OBJ -- Initialization code to be used when linking
Turbo C and Turbo Prolog.
BAR C -- Example function to be used with PBAR.PRO
PBAR PRO -- Example Turbo Prolog program to be used with BAR.C
5. USING TURBO C WITH DOS 3.2 AND A FLOATING POINT COPROCESSOR
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DOS 3.2 has a bug in its handling of floating exceptions. When
an exception occurs, the system allocates a local stack for the
exception handler. Unfortunately, when a system stack gets
allocated, it never gets deallocated. The default number of
stacks is 8. After 9 floating point exceptions occur, the system
hangs and a cold reboot is required. Typical exceptions are
overflow and divide by zero. The stacks are not reclaimed when
a program terminates, so a program which divides by zero once
will crash the machine if run 9 times. To avoid this problem,
you can either:
1. Not use DOS 3.2.
2. Obtain a patch from IBM or Microsoft which fixes the
bug, and install it on your copy of DOS.
3. Not use a floating point coprocessor.
4. Disable the exception trapping in your Turbo C program.
You can do this easily by calling the _clear87() library
function. For example,
#include <float.h>
unsigned int fpstatus;
/* stdlib.h included for exit, stdio.h for puts */
#include <stdlib.h>
#include <stdio.h>
main()
{
_clear87();
/* do floating point work here */
/* ... */
/* now, check for masked exceptions before exiting */
fpstatus = _status87();
if (fpstatus & SW_INVALID)
puts("Floating point error: invalid operation.");
if (fpstatus & SW_ZERODIVIDE)
puts("Floating point error: zero divide.");
if (fpstatus & SW_OVERFLOW)
puts("Floating point error: overflow.");
exit(fpstatus & (SW_INVALID | SW_ZERODIVIDE | SW_OVERFLOW));
}
6. HOW TO COMPILE MICROCALC
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In order to compile MicroCalc do the following:
With TC.EXE:
1. Run TC.EXE
2. In the Project pulldown menu specify the project name
"MCALC.PRJ"
3. From the main menu select the Run option
With TCC.EXE:
Compile from DOS with the following command line:
TCC mcalc mcparser mcdisply mcinput mcommand mcutil mcmvsmem.obj
In both cases, compiling under a large data model (COMPACT, LARGE,
or HUGE) will give you much more memory for your spreadsheets.
END
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