Level 1 of the cross-language linking roadmap entry: produce an object file with a renamed entry point so a BASIC program can be linked into a larger C or Fortran build. - src/compiler_main.c: --emit-obj runs gcc -c (compile-only, produces prog.o) and skips the runtime link. --main-name NAME (or --main-name=NAME) is plumbed through codegen_opts_t. - src/codegen.c: emit `int <name>(int argc, char **argv)` instead of always emitting `main`. Default unchanged when --main-name isn't specified. - include/codegen.h: add main_name to codegen_opts_t. - docs/getting-started.md: new "Cross-Language Linking" section with C and Fortran (iso_c_binding) driver examples. - docs/roadmap.md: three levels of cross-language linking, with Level 1 marked done, Level 2 (BASIC-side EXTERN declarations) as the next concrete step, Level 3 (BASIC SUBs as C functions) deferred. Also added: FORTRAN-style WRITE / C-style PRINTF formatted I/O extensions, and a NumPy / DataFrame / Matplotlib- style standard library section as a separate sub-project track. Verified end-to-end: a BASIC program compiled with --emit-obj --main-name=run_basic_greet links cleanly with both a C driver (gcc) and a Fortran driver (gfortran with iso_c_binding), and prints the BASIC output before returning to the host. All 72 interpreter / 68 compat / 63 compiler tests still pass.
9.1 KiB
Getting Started
Dependencies
- C11 compiler (GCC or Clang)
- CMake 3.10+
- PulseAudio development library (
libpulse-simple) -- optional, forSOUND/BEEP/PLAY
On Debian/Ubuntu:
sudo apt-get install build-essential cmake libpulse-dev
On Fedora/RHEL:
sudo dnf install gcc cmake pulseaudio-libs-devel
Building
git clone https://github.com/evvaletov/gw-basic-2026.git
cd gw-basic-2026
mkdir -p build && cd build
cmake .. && make
The binary is build/gwbasic.
Usage
Interactive Mode
Running ./gwbasic with no arguments launches the full-screen editor:
$ ./gwbasic
GW-BASIC 2026 0.17.0
(C) Eremey Valetov 2026. MIT License.
Based on Microsoft GW-BASIC assembly source.
Ok
PRINT 2+2
4
Ok
FOR I=1 TO 5:PRINT I;:NEXT
1 2 3 4 5
Ok
Use arrow keys to move the cursor freely. Press Enter on any screen line to re-enter it. F1-F10 insert common commands (F2 runs the program).
Running a Program File
./gwbasic tests/programs/prime_sieve.bas
Piped Input
echo '10 FOR I=1 TO 10:PRINT I*I;:NEXT' | ./gwbasic
Direct Mode Expressions
Type expressions and statements at the Ok prompt:
PRINT SIN(3.14159/2)
1
A$="HELLO WORLD":MID$(A$,7,5)="BASIC":PRINT A$
HELLO BASIC
Command-Line Options
Usage: gwbasic [options] [file.bas]
Options:
-f, --full Use full terminal size (default: 25x80)
-h, --help Show this help
--lpt DEVICE|FILE Printer output destination (default: LPT1.TXT)
Use LPT1 or /dev/lp0 for real hardware
-v, --version Show version
Ahead-of-Time Compiler
gwbasic-compile translates .bas programs to C source, then optionally
invokes GCC to produce native executables linked against libgwrt.a.
Basic Usage
# Emit C source to stdout
build/gwbasic-compile program.bas
# Compile to native executable
build/gwbasic-compile -c --runtime . program.bas
Both numbered (10 PRINT "HI") and unnumbered (PRINT "HI") sources
compile. Unnumbered lines get auto-assigned numbers (10, 20, 30, ...) so
the analysis pass and codegen can produce labeled statements; explicit
line numbers are preserved. Direct-mode scratchpad scripts and classic
"just a list of statements" programs compile without manual renumbering.
Compiler Options
Usage: gwbasic-compile [options] input.bas
Options:
-o FILE Output C source file (default: stdout)
-c Compile to executable (invoke gcc)
-O LEVEL GCC optimization level (default: 2)
--keep-c Keep generated C file (with -c)
--runtime DIR Path to runtime headers/library
--warn Static analysis warnings
--safe Runtime safety checks (implies --warn)
--safe=sanitize Above + address/UB sanitizers (with -c)
--no-gc-check Skip per-line gwrt_check_line() (no GC, no Break)
--fast-math Skip division-by-zero checks
Performance Flags (--no-gc-check / --fast-math)
--no-gc-check skips the gwrt_check_line() call emitted at the start of
every non-REM line. That call drives the string-pool compacting GC and
the Ctrl+Break trap. Removing it gives a small per-line speedup for
programs that don't allocate strings or need responsive interruption.
String reassignment can still trigger compaction lazily, but the
guaranteed periodic check is gone.
--fast-math removes the explicit divide-by-zero check around the /
operator. The result of X = 10 / 0 becomes inf rather than raising
"Division by zero". Useful for compute-bound code that already validates
inputs.
Memory Safety (--warn / --safe)
The --warn flag enables compile-time static analysis warnings:
- Uninitialized variables -- variables used before their first assignment (via LET, FOR, READ, INPUT)
- GOTO/GOSUB to nonexistent line -- jump targets that don't exist in the program
- Unreachable code -- lines after unconditional GOTO/END/STOP that are not jump targets
The --safe flag (implies --warn) adds runtime safety checks to the
generated C:
- Integer overflow detection -- arithmetic on integer (%) variables uses
checked functions (
gw_int_add,gw_int_sub,gw_int_mul) that raise "Overflow" instead of silently wrapping, matching real GW-BASIC behavior - Enhanced array diagnostics -- subscript errors report the array name, subscript value, line number, and which dimension exceeded its bound
- GOSUB stack diagnostics -- stack overflow reports the source line and current depth
The --safe=sanitize flag (with -c) additionally passes
-fsanitize=address,undefined to GCC for full memory error detection.
# Warnings only (zero runtime cost)
build/gwbasic-compile --warn program.bas
# Runtime safety checks
build/gwbasic-compile --safe -c --runtime . program.bas
# Full sanitizer build (debugging)
build/gwbasic-compile --safe=sanitize -c --runtime . program.bas
Cross-Language Linking (--emit-obj / --main-name)
--emit-obj produces a .o object file instead of a final executable;
--main-name NAME renames the entry point so it doesn't collide with
the host project's main(). Together they let you link BASIC into a
larger C or Fortran build.
# BASIC source compiled to greet.o with renamed entry point
build/gwbasic-compile --emit-obj --main-name=run_basic_greet \
--runtime . greet.bas
C driver:
extern int run_basic_greet(int argc, char **argv);
int main(void) {
run_basic_greet(0, NULL); /* runs the BASIC program */
return 0;
}
Link both together:
gcc driver.c greet.o -L./build -lgwrt -lm -lpthread -lpulse-simple
Fortran driver (modern, with iso_c_binding):
program main
use iso_c_binding
interface
function run_basic_greet(argc, argv) bind(c, name="run_basic_greet")
use iso_c_binding
integer(c_int), value :: argc
type(c_ptr), value :: argv
integer(c_int) :: run_basic_greet
end function
end interface
integer(c_int) :: rc
rc = run_basic_greet(0, c_null_ptr)
end program
gfortran driver.f90 greet.o -L./build -lgwrt -lm -lpthread -lpulse-simple
The BASIC code shares the gw interpreter state with libgwrt, so a
single binary runs at most one BASIC program at a time. Calling BASIC
from C / Fortran is always safe; calling C / Fortran from BASIC needs
the foreign-function-declaration extension on the roadmap (Level 2).
Building for DOS / FreeDOS
GW-BASIC 2026 cross-compiles to DOS using OpenWatcom V2 (wcc / wcc386).
Two targets are available:
16-bit real-mode (recommended for FreeDOS)
Produces a standalone 128KB MZ executable -- no DOS extender required.
wmake -f Makefile.dos16
Requires OpenWatcom V2 with 16-bit DOS target. Uses MEDIUM memory model
(-mm): code can exceed 64KB, data must fit in 64KB.
32-bit DOS/4GW
Produces a 175KB LE executable requiring DOS4GW.EXE (265KB) at runtime.
Also builds the compiler (GWBASCOM.EXE) and runtime library (GWRT.LIB).
wmake -f Makefile.dos
Running on FreeDOS
Copy GWBASIC.EXE (and DOS4GW.EXE for the 32-bit build) to your FreeDOS
system. Run programs from the command line:
C:\> GWBASIC PROGRAM.BAS
Running without arguments launches the interactive editor. The TUI renders
through BIOS INT 10h with the screen buffer in far memory, so the full-screen
editor, F-key bar, cursor positioning, and scrolling all work on bare FreeDOS
without ANSI.SYS.
Verifying the DOS Build
Two automated checks run from a Linux host:
./build_dos.sh 16 # produces gwbasic16.exe (~128KB)
./build_dos.sh 32 # produces gwbasic.exe (~175KB)
bash tests/run_dos_smoke.sh # runs gwbasic16.exe under DOSBox-X, diffs golden
The smoke harness validates non-interactive features (arithmetic, strings, control flow, GOSUB, FOR/NEXT, DATA/READ, DEF FN, file I/O via OPEN/PRINT#). The interactive TUI features below need a manual session under DOSBox-X or real FreeDOS:
| Check | What to do | Expected |
|---|---|---|
| TUI startup | Launch GWBASIC.EXE with no arguments |
Ok prompt, F-key bar at row 25 (1LIST 2RUN ... in inverse video) |
| Cursor keys | Press up/down/left/right | Cursor moves freely without printing characters |
| Re-enter line | Type 10 PRINT "HI", Enter; arrow up to that line, Enter |
Line re-tokenized; subsequent LIST shows it stored |
| F1 (LIST) | Press F1 then Enter | Inserts LIST , runs LIST |
| F2 (RUN) | Type a program, press F2 | Runs it (RUN\r is appended) |
| Insert toggle | Press Ins; type characters mid-line | Cursor switches between block (insert) and underline (overwrite) shapes; characters insert vs overstrike accordingly |
| Home / End | Press Home, End | Cursor jumps to column 0 / past last printable char on the row |
| Scroll | Fill the screen with output | Bottom row pinned to the F-key bar; new lines push old ones up |
| Ctrl-C | Run 10 GOTO 10 and press Ctrl-C |
Program stops with Break in 10 |
| KEY OFF / KEY ON | KEY OFF then KEY ON |
F-key bar disappears / reappears |
| CLS | CLS |
Screen clears, cursor at top-left |
| Exit | SYSTEM |
Returns to DOS prompt cleanly (no leftover escape codes) |