Files
bux-lang/src_bux/cli.bux
T
dimgigov 0c1f230286 selfhost: C backend becomes primary backend; QBE path removed from CLI
Major changes:
- Cli_BuildProject now uses CBackend_Generate instead of QBE SSA generation
- Replaced QBE invocation (vendor/qbe/qbe) with direct cc compilation
- Cli_Build (single-file) now compiles C output with cc including runtime.c/io.c
- Added import-based stdlib merging: only imported Std::* modules are merged,
  eliminating unused generic code from Array/Map/Set/Channel in simple programs

C backend fixes:
- Fixed struct typedef redefinition: struct definitions now use 'struct Name {}'
  instead of 'typedef struct {} Name' to avoid conflicting with forward typedefs
- Added enum support: HirEnum struct, enum emission in C backend, variant
  constants emitted as #define Name_Value
- Added char8 typedef
- Skip generic structs/functions (T/K/V type parameters) in C emission

Sema fixes:
- Fixed Sema_IsNumeric: now correctly recognizes uint, float32, float64
- Fixed return type check: allow pointer compatibility (String <-> *T)

Tested: hello, fibonacci, factorial, enums examples build and run via buxc2
2026-06-05 14:42:18 +03:00

807 lines
25 KiB
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// cli.bux — CLI driver for the Bux self-hosting compiler
// Wires together: Lexer → Parser → Sema → HirLower → CBackend
module Cli {
extern func PrintLine(s: String);
extern func Print(s: String);
extern func bux_read_file(path: String) -> String;
extern func bux_write_file(path: String, content: String) -> bool;
extern func bux_file_exists(path: String) -> int;
extern func bux_dir_exists(path: String) -> int;
extern func bux_path_join(a: String, b: String) -> String;
extern func bux_mkdir_if_needed(path: String) -> int;
extern func bux_run_nim(nim_file: String, out_bin: String) -> int;
extern func bux_list_dir(dir: String, ext: String, out_count: *int) -> *String;
extern func bux_system(cmd: String) -> int;
func ReadFile(path: String) -> String {
return bux_read_file(path);
}
func WriteFile(path: String, content: String) -> bool {
return bux_write_file(path, content);
}
func FileExists(path: String) -> bool {
return bux_file_exists(path) != 0;
}
func DirExists(path: String) -> bool {
return bux_dir_exists(path) != 0;
}
// Import the compiler pipeline
// In self-hosting mode, these are compiled together from src_bux/
// ---------------------------------------------------------------------------
// Compile a single .bux source file
// ---------------------------------------------------------------------------
func Cli_Compile(source: String, sourceName: String) -> String {
// Phase 1: Lex
PrintLine(" Lexing...");
let lex: *Lexer = Lexer_Tokenize(source);
PrintLine(" Lex done");
if Lexer_DiagCount(lex) > 0 {
PrintLine("Lex errors:");
var i: int = 0;
while i < Lexer_DiagCount(lex) {
Print(" ");
PrintLine(lex.diags[i].message);
i = i + 1;
}
return "";
}
// Phase 2: Parse
PrintLine(" Parsing...");
let mod: *Module = Parser_Parse(lex.tokens, lex.tokenCount);
if mod == null as *Module {
PrintLine("Parse failed");
return "";
}
PrintLine(" Parse done");
// Flatten module wrappers: find module decl and hoist its children
var decl: *Decl = mod.firstItem;
while decl != null as *Decl {
if decl.kind == dkModule && decl.childDecl1 != null as *Decl {
mod.firstItem = decl.childDecl1;
break;
}
decl = decl.childDecl2;
}
// Phase 3: Semantic analysis
PrintLine(" Sema...");
let sema: *Sema = Sema_Analyze(mod);
if Sema_HasError(sema) {
PrintLine("Sema errors:");
var i: int = 0;
while i < Sema_DiagCount(sema) {
Print(" ");
PrintLine(sema.diags[i].message);
i = i + 1;
}
return "";
}
PrintLine(" Sema done");
// Phase 4: HIR lowering
PrintLine(" HIR lowering...");
let hirMod: *HirModule = HirLower_LowerModule(mod, sema);
if hirMod == null as *HirModule {
PrintLine("HIR lowering failed");
return "";
}
Print("HIR funcCount=");
PrintInt(hirMod.funcCount);
// Phase 5: C code generation
let cCode: String = CBackend_Generate(hirMod);
// Cleanup
Lexer_Free(lex);
Sema_Free(sema);
return cCode;
}
// ---------------------------------------------------------------------------
// Build command
// ---------------------------------------------------------------------------
func Cli_Build(srcPath: String, outPath: String) -> int {
let source: String = ReadFile(srcPath);
if source == null as String || String_Eq(source, "") || !FileExists(srcPath) {
Print("Error: cannot read source file: ");
PrintLine(srcPath);
return 1;
}
Print("Compiling ");
PrintLine(srcPath);
let cCode: String = Cli_Compile(source, srcPath);
if String_Eq(cCode, "") {
PrintLine("Compilation failed");
return 1;
}
// Write C output
let cFile: String = String_Concat(outPath, ".c");
let ok: bool = WriteFile(cFile, cCode);
if !ok {
PrintLine("Error: cannot write output file");
return 1;
}
Print(" → C written to ");
PrintLine(cFile);
// Find runtime.c and io.c for linking
var rtPath: String = "stdlib/runtime.c";
var ioPath: String = "stdlib/io.c";
if !FileExists(rtPath) {
rtPath = "../stdlib/runtime.c";
}
if !FileExists(ioPath) {
ioPath = "../stdlib/io.c";
}
if !FileExists(rtPath) {
rtPath = "/home/ziko/z-git/bux/bux/stdlib/runtime.c";
}
if !FileExists(ioPath) {
ioPath = "/home/ziko/z-git/bux/bux/stdlib/io.c";
}
// Compile with cc
PrintLine("Compiling C...");
var cmdBuf: StringBuilder = StringBuilder_NewCap(512);
StringBuilder_Append(&cmdBuf, "cc -O2 -pthread -o ");
StringBuilder_Append(&cmdBuf, outPath);
StringBuilder_Append(&cmdBuf, " ");
StringBuilder_Append(&cmdBuf, cFile);
StringBuilder_Append(&cmdBuf, " ");
if FileExists(rtPath) {
StringBuilder_Append(&cmdBuf, rtPath);
StringBuilder_Append(&cmdBuf, " ");
}
if FileExists(ioPath) {
StringBuilder_Append(&cmdBuf, ioPath);
StringBuilder_Append(&cmdBuf, " ");
}
StringBuilder_Append(&cmdBuf, "-lm");
let ccRc: int = bux_system(StringBuilder_Build(&cmdBuf));
if ccRc != 0 {
PrintLine("Error: C compilation failed");
return 1;
}
Print(" → Binary: ");
PrintLine(outPath);
return 0;
}
// ---------------------------------------------------------------------------
// Check command (compile only, no output)
// ---------------------------------------------------------------------------
func Cli_Check(srcPath: String) -> int {
Print("Check: ");
PrintLine(srcPath);
let source: String = ReadFile(srcPath);
if source == null as String || String_Eq(source, "") {
PrintLine("Error: cannot read source file");
return 1;
}
PrintLine(" File read OK");
// Phase 1: Lex
PrintLine(" Lexing...");
let lex: *Lexer = Lexer_Tokenize(source);
PrintLine(" Lex done");
if Lexer_DiagCount(lex) > 0 {
PrintLine("Lex errors found");
return 1;
}
// Phase 2: Parse
let mod: *Module = Parser_Parse(lex.tokens, lex.tokenCount);
if mod == null as *Module {
PrintLine("Parse failed");
return 1;
}
PrintLine(" Parse done");
// Flatten module wrappers
var decl2: *Decl = mod.firstItem;
while decl2 != null as *Decl {
if decl2.kind == dkModule && decl2.childDecl1 != null as *Decl {
mod.firstItem = decl2.childDecl1;
break;
}
decl2 = decl2.childDecl2;
}
// Phase 3: Sema
let sema: *Sema = Sema_Analyze(mod);
if Sema_HasError(sema) {
PrintLine("Sema errors found");
var i: int = 0;
while i < Sema_DiagCount(sema) {
Print(" line ");
PrintInt(sema.diags[i].line as int64);
Print(": ");
PrintLine(sema.diags[i].message);
i = i + 1;
}
return 1;
}
// Phase 4: HIR lowering
let hirMod: *HirModule = HirLower_LowerModule(mod, sema);
var dc: *Decl = mod.firstItem;
while dc != null as *Decl {
if dc.kind == dkFunc {
Print("check func ");
PrintLine(dc.strValue);
}
dc = dc.childDecl2;
}
PrintLine("Check passed");
return 0;
}
// ---------------------------------------------------------------------------
// Project build — compile all .bux files in src/ directory
// ---------------------------------------------------------------------------
func Cli_CompileSource(source: String, sourceName: String) -> *HirModule {
// Phase 1: Lex
PrintLine(" Lexing...");
let lex: *Lexer = Lexer_Tokenize(source);
PrintLine(" Lex done");
if Lexer_DiagCount(lex) > 0 {
Print("Lex errors in ");
PrintLine(sourceName);
return null as *HirModule;
}
// Phase 2: Parse
let mod: *Module = Parser_Parse(lex.tokens, lex.tokenCount);
if mod == null as *Module {
Print("Parse failed for ");
PrintLine(sourceName);
return null as *HirModule;
}
// Phase 3: Semantic analysis
let sema: *Sema = Sema_Analyze(mod);
if Sema_HasError(sema) {
Print("Sema errors in ");
PrintLine(sourceName);
return null as *HirModule;
}
// Phase 4: HIR lowering
let hirMod: *HirModule = HirLower_LowerModule(mod, sema);
return hirMod;
}
// ---------------------------------------------------------------------------
// Stdlib discovery and merging
// ---------------------------------------------------------------------------
func Cli_FindStdlibDir(projectDir: String) -> String {
var path: String = bux_path_join(projectDir, "stdlib");
if DirExists(path) { return path; }
path = bux_path_join(projectDir, "../stdlib");
if DirExists(path) { return path; }
path = "/home/ziko/z-git/bux/bux/stdlib";
if DirExists(path) { return path; }
return "";
}
func Cli_DeclName(decl: *Decl) -> String {
if decl == null as *Decl { return ""; }
return decl.strValue;
}
func Cli_NameInList(name: String, names: *String, count: int) -> bool {
if String_Eq(name, "") { return false; }
var i: int = 0;
while i < count {
if String_Eq(names[i], name) {
return true;
}
i = i + 1;
}
return false;
}
func Cli_CollectNames(mod: *Module, names: *String, maxCount: int) -> int {
if mod == null as *Module { return 0; }
var count: int = 0;
var decl: *Decl = mod.firstItem;
while decl != null as *Decl && count < maxCount {
let next: *Decl = decl.childDecl2;
if decl.kind == dkModule {
var inner: *Decl = decl.childDecl1;
while inner != null as *Decl && count < maxCount {
let iname: String = Cli_DeclName(inner);
if !String_Eq(iname, "") {
names[count] = iname;
count = count + 1;
}
inner = inner.childDecl2;
}
} else {
let dname: String = Cli_DeclName(decl);
if !String_Eq(dname, "") {
names[count] = dname;
count = count + 1;
}
}
decl = next;
}
return count;
}
// Helper: convert single char int to String
func String_FromChar(c: int) -> String {
var buf: *char8 = bux_alloc(2) as *char8;
buf[0] = c as char8;
buf[1] = 0 as char8;
return buf as String;
}
// Collect stdlib module paths imported by user code.
// Returns number of unique stdlib files to merge (paths written into outPaths).
func Cli_CollectStdlibImports(mod: *Module, outPaths: *String, maxCount: int, stdlibDir: String) -> int {
if mod == null as *Module { return 0; }
var count: int = 0;
var decl: *Decl = mod.firstItem;
while decl != null as *Decl && count < maxCount {
if decl.kind == dkUse {
let path: String = decl.usePath;
// Only handle Std::* imports
if String_StartsWith(path, "Std::") {
// Extract module name after Std:: (e.g., "Std::Io" -> "Io")
var j: int = 5; // skip "Std::"
var modName: String = "";
while j < 100 {
let c: int = path[j] as int;
if c == 0 || c == 58 { break; } // null or ':'
modName = String_Concat(modName, String_FromChar(c));
j = j + 1;
}
if !String_Eq(modName, "") {
let filePath: String = bux_path_join(bux_path_join(stdlibDir, "Std"), String_Concat(modName, ".bux"));
// Check for duplicates
var dup: bool = false;
var di: int = 0;
while di < count {
if String_Eq(outPaths[di], filePath) { dup = true; }
di = di + 1;
}
if !dup {
outPaths[count] = filePath;
count = count + 1;
}
}
}
}
decl = decl.childDecl2;
}
return count;
}
func Cli_MergeFileInto(target: *Module, path: String, skipNames: *String, skipCount: int) -> int {
Print("DEBUG: MergeFileInto ");
PrintLine(path);
let source: String = ReadFile(path);
if String_Eq(source, "") { return 0; }
let lex: *Lexer = Lexer_Tokenize(source);
if Lexer_DiagCount(lex) > 0 { return 0; }
let mod: *Module = Parser_Parse(lex.tokens, lex.tokenCount);
if mod == null as *Module { return 0; }
var added: int = 0;
var decl: *Decl = mod.firstItem;
while decl != null as *Decl {
let next: *Decl = decl.childDecl2;
decl.childDecl2 = null as *Decl;
if decl.kind == dkModule {
var inner: *Decl = decl.childDecl1;
while inner != null as *Decl {
let innerNext: *Decl = inner.childDecl2;
let iname: String = Cli_DeclName(inner);
if !String_Eq(iname, "") && Cli_NameInList(iname, skipNames, skipCount) {
// Skip shadowed stdlib decl
} else {
inner.childDecl2 = target.firstItem;
target.firstItem = inner;
target.itemCount = target.itemCount + 1;
added = added + 1;
}
inner = innerNext;
}
} else {
let dname: String = Cli_DeclName(decl);
if !String_Eq(dname, "") && Cli_NameInList(dname, skipNames, skipCount) {
// Skip shadowed stdlib decl
} else {
decl.childDecl2 = target.firstItem;
target.firstItem = decl;
target.itemCount = target.itemCount + 1;
added = added + 1;
}
}
decl = next;
}
Print("DEBUG: MergeFileInto done, added=");
PrintInt(added);
return added;
}
func Cli_CopyModuleDecls(target: *Module, source: *Module) {
if source == null as *Module || source.firstItem == null as *Decl { return; }
var decl: *Decl = source.firstItem;
var limit: int = 0;
while decl != null as *Decl && limit < 10000 {
let next: *Decl = decl.childDecl2;
decl.childDecl2 = target.firstItem;
target.firstItem = decl;
target.itemCount = target.itemCount + 1;
decl = next;
limit = limit + 1;
}
source.firstItem = null as *Decl;
source.itemCount = 0;
}
func Cli_BuildProject(projectDir: String) -> int {
PrintLine("DEBUG: Cli_BuildProject start");
let man: Manifest = Manifest_Load(bux_path_join(projectDir, "bux.toml"));
PrintLine("DEBUG: manifest loaded");
var outName: String = man.name;
if String_Eq(outName, "") {
outName = "bux_out";
}
let srcDir: String = bux_path_join(projectDir, "src");
PrintLine("DEBUG: srcDir built");
if !DirExists(srcDir) {
Print("Error: no src/ directory in ");
PrintLine(projectDir);
return 1;
}
Print("Scanning ");
PrintLine(srcDir);
// List all .bux files in src/
var fileCount: int = 0;
let files: *String = bux_list_dir(srcDir, ".bux", &fileCount);
if fileCount == 0 {
PrintLine("Error: no .bux files found in src/");
return 1;
}
Print("Found ");
PrintInt(fileCount);
PrintLine(" source files");
// Create user merged module (collect user decls first)
let userMerged: *Module = bux_alloc(sizeof(Module)) as *Module;
userMerged.name = "main";
userMerged.path = "";
userMerged.itemCount = 0;
userMerged.firstItem = null as *Decl;
// Parse each file and merge declarations into userMerged module
var i: int = 0;
while i < fileCount {
let path: String = files[i];
Print(" Parsing ");
PrintLine(path);
let source: String = ReadFile(path);
if String_Eq(source, "") {
Print(" Error: cannot read ");
PrintLine(path);
return 1;
}
let lex: *Lexer = Lexer_Tokenize(source);
if Lexer_DiagCount(lex) > 0 {
Print(" Lex errors in ");
PrintLine(path);
return 1;
}
let mod: *Module = Parser_Parse(lex.tokens, lex.tokenCount);
if mod == null as *Module {
Print(" Parse failed for ");
PrintLine(path);
return 1;
}
// Merge declarations from this module into userMerged
var decl: *Decl = mod.firstItem;
while decl != null as *Decl {
let next: *Decl = decl.childDecl2;
decl.childDecl2 = null as *Decl;
// Flatten module declarations
if decl.kind == dkModule {
var inner: *Decl = decl.childDecl1;
while inner != null as *Decl {
let innerNext: *Decl = inner.childDecl2;
inner.childDecl2 = userMerged.firstItem;
userMerged.firstItem = inner;
userMerged.itemCount = userMerged.itemCount + 1;
inner = innerNext;
}
} else {
decl.childDecl2 = userMerged.firstItem;
userMerged.firstItem = decl;
userMerged.itemCount = userMerged.itemCount + 1;
}
decl = next;
}
i = i + 1;
}
Print("DEBUG: userMerged.itemCount=");
PrintInt(userMerged.itemCount);
// Collect user declaration names for shadow detection
let maxNames: int = 2048;
let userNames: *String = bux_alloc(maxNames * 8) as *String;
let userNameCount: int = Cli_CollectNames(userMerged, userNames, maxNames);
// Create final merged module
let merged: *Module = bux_alloc(sizeof(Module)) as *Module;
merged.name = "main";
merged.path = "";
merged.itemCount = 0;
merged.firstItem = null as *Decl;
// Find and merge stdlib declarations (only imported modules)
let stdlibDir: String = Cli_FindStdlibDir(projectDir);
if !String_Eq(stdlibDir, "") {
Print("Stdlib found: ");
PrintLine(stdlibDir);
// Collect imported stdlib modules from user code
let maxImports: int = 64;
let importPaths: *String = bux_alloc(maxImports * 8) as *String;
let importCount: int = Cli_CollectStdlibImports(userMerged, importPaths, maxImports, stdlibDir);
Print("Imported stdlib modules: ");
PrintInt(importCount);
PrintLine("");
if importCount > 0 {
var si: int = 0;
var stdAdded: int = 0;
while si < importCount {
Print(" Merging ");
PrintLine(importPaths[si]);
let added: int = Cli_MergeFileInto(merged, importPaths[si], userNames, userNameCount);
stdAdded = stdAdded + added;
si = si + 1;
}
Print("Stdlib declarations added: ");
PrintInt(stdAdded);
}
}
// Copy user declarations into merged (user shadows stdlib)
PrintLine("DEBUG: before copy");
var countTest: int = 0;
var dtest: *Decl = userMerged.firstItem;
while dtest != null as *Decl && countTest < 10000 {
dtest = dtest.childDecl2;
countTest = countTest + 1;
}
Print("userMerged actual count=");
PrintInt(countTest);
Print("userMerged.itemCount=");
PrintInt(userMerged.itemCount);
var du: *Decl = userMerged.firstItem;
while du != null as *Decl {
if du.kind == dkFunc {
Print("user func ");
PrintLine(du.strValue);
}
if du.kind == dkStruct {
Print("user struct ");
Print(du.strValue);
PrintInt(du.fieldCount);
}
if du.kind == dkImpl {
Print("user impl ");
PrintLine(du.strValue);
}
du = du.childDecl2;
}
Cli_CopyModuleDecls(merged, userMerged);
PrintLine("DEBUG: copy done");
Print("merged.itemCount=");
PrintInt(merged.itemCount);
PrintLine("DEBUG: copy done");
Print("Merged ");
PrintInt(merged.itemCount);
PrintLine(" declarations");
// Semantic analysis
PrintLine("DEBUG: about to run sema");
PrintLine("Running sema...");
let sema: *Sema = Sema_Analyze(merged);
if Sema_HasError(sema) {
PrintLine("Sema errors found");
var i: int = 0;
while i < Sema_DiagCount(sema) {
Print(" line ");
PrintInt(sema.diags[i].line as int64);
Print(": ");
PrintLine(sema.diags[i].message);
i = i + 1;
}
return 1;
}
// HIR lowering
PrintLine("Lowering to HIR...");
var di: *Decl = merged.firstItem;
while di != null as *Decl {
if di.kind == dkFunc {
Print("decl func ");
PrintLine(di.strValue);
}
di = di.childDecl2;
}
let hirMod: *HirModule = HirLower_LowerModule(merged, sema);
// C code generation
PrintLine("Generating C code...");
let cCode: String = CBackend_Generate(hirMod);
// Create build directory
let buildDir: String = bux_path_join(projectDir, "build");
discard bux_mkdir_if_needed(buildDir);
// Write C output
let cFile: String = bux_path_join(buildDir, "main.c");
if !WriteFile(cFile, cCode) {
PrintLine("Error: cannot write main.c");
return 1;
}
Print("C code written to ");
PrintLine(cFile);
// Find runtime.c and io.c (use stdlibDir if available)
var rtPath: String = bux_path_join(stdlibDir, "runtime.c");
var ioPath: String = bux_path_join(stdlibDir, "io.c");
if !FileExists(rtPath) {
rtPath = bux_path_join(projectDir, "stdlib/runtime.c");
}
if !FileExists(ioPath) {
ioPath = bux_path_join(projectDir, "stdlib/io.c");
}
if !FileExists(rtPath) {
rtPath = bux_path_join(projectDir, "../stdlib/runtime.c");
}
if !FileExists(ioPath) {
ioPath = bux_path_join(projectDir, "../stdlib/io.c");
}
// Compile with cc
PrintLine("Compiling C...");
let outBin: String = bux_path_join(buildDir, outName);
var ccBuf: StringBuilder = StringBuilder_NewCap(512);
StringBuilder_Append(&ccBuf, "cc -O2 -pthread -o ");
StringBuilder_Append(&ccBuf, outBin);
StringBuilder_Append(&ccBuf, " ");
StringBuilder_Append(&ccBuf, cFile);
StringBuilder_Append(&ccBuf, " ");
if FileExists(rtPath) {
StringBuilder_Append(&ccBuf, rtPath);
StringBuilder_Append(&ccBuf, " ");
}
if FileExists(ioPath) {
StringBuilder_Append(&ccBuf, ioPath);
StringBuilder_Append(&ccBuf, " ");
}
StringBuilder_Append(&ccBuf, "-lm");
let ccRc: int = bux_system(StringBuilder_Build(&ccBuf));
if ccRc != 0 {
PrintLine("Error: C compilation failed");
return 1;
}
Print("Build successful: ");
PrintLine(outBin);
return 0;
}
// ---------------------------------------------------------------------------
// Run command — build project and execute
// ---------------------------------------------------------------------------
func Cli_RunProject(projectDir: String) -> int {
PrintLine("DEBUG: Cli_RunProject start");
let rc: int = Cli_BuildProject(projectDir);
if rc != 0 {
return rc;
}
let man: Manifest = Manifest_Load(bux_path_join(projectDir, "bux.toml"));
var outName: String = man.name;
if String_Eq(outName, "") {
outName = "bux_out";
}
let outBin: String = bux_path_join(bux_path_join(projectDir, "build"), outName);
Print("Running: ");
PrintLine(outBin);
return bux_system(outBin);
}
// ---------------------------------------------------------------------------
// Main entry — dispatch based on args
// ---------------------------------------------------------------------------
func Cli_Run(args: *String, argCount: int) -> int {
Print("Cli_Run argCount=");
PrintInt(argCount);
if argCount < 2 {
PrintLine("Bux Self-Hosting Compiler v0.2.0");
PrintLine("Usage: buxc <command> [args]");
PrintLine("Commands: build, check, run, version");
PrintLine("Pipeline modules:");
PrintLine(" Lexer ✅ 695 lines");
PrintLine(" Parser ✅ 1004 lines");
PrintLine(" Sema ✅ 393 lines");
PrintLine(" HirLower ✅ 307 lines");
PrintLine(" CBackend ✅ 585 lines");
PrintLine(" Total: 3830 lines of Bux");
return 0;
}
let cmd: String = args[1];
Print("cmd=");
PrintLine(cmd);
if String_Eq(cmd, "version") {
PrintLine("Bux 0.2.0 (self-hosting bootstrap)");
return 0;
}
if String_Eq(cmd, "check") {
if argCount < 3 {
PrintLine("Usage: buxc check <file.bux>");
return 1;
}
return Cli_Check(args[2]);
}
if String_Eq(cmd, "build") {
let src: String = "src/Main.bux";
let out: String = "build/main";
if argCount >= 3 { src = args[2]; }
if argCount >= 4 { out = args[3]; }
return Cli_Build(src, out);
}
if String_Eq(cmd, "project") {
let dir: String = ".";
if argCount >= 3 { dir = args[2]; }
return Cli_BuildProject(dir);
}
if String_Eq(cmd, "run") {
PrintLine("DEBUG: run command");
let dir: String = ".";
if argCount >= 3 { dir = args[2]; }
return Cli_RunProject(dir);
}
Print("Unknown command: ");
PrintLine(cmd);
return 1;
}
}