docs: update README, Stdlib, BuildAndTest, PLAN for new std modules

Added documentation for:
- Std::Fs (DirExists, Mkdir, ListDir)
- Std::Mem (Alloc, Free, MemEq, New)
- Std::Set<T> (Set_New, Set_Add, Set_Has)
- String_Find, String_Replace, String_Format

Updated PLAN.md blockers (all resolved) and self-host status.
Updated README.md project structure and feature table.
Updated BuildAndTest.md with new stdlib modules and path syntax.

Also includes:
- CLI path argument fix (build/check/run accept project path)
- Remove dummyFunc from parser
- Fix String_Replace to use String_Concat instead of buggy str_join2
This commit is contained in:
2026-06-02 18:46:03 +03:00
parent ec4e748584
commit 291de88506
13 changed files with 1742 additions and 36 deletions
+28 -17
View File
@@ -157,12 +157,15 @@ Bux is a fast, compiled, strongly-typed, multi-paradigm systems programming lang
| Module | Status | Requirements | | Module | Status | Requirements |
|--------|--------|-------------| |--------|--------|-------------|
| `Std::Io` | ✅ | `Print`, `PrintLine`, `PrintInt`, `ReadLine` (wrap C stdio) | | `Std::Io` | ✅ | `Print`, `PrintLine`, `PrintInt`, `ReadLine` (wrap C stdio) |
| `Std::Memory` | ✅ | `bux_alloc`, `bux_realloc`, `bux_free` (wrap `malloc`/`free`) | | `Std::Mem` | ✅ | `Alloc`, `Realloc`, `Free`, `MemEq`, `New<T>` — wrappers around C runtime |
| `Std::String` | ✅ | Full API: `String_Len`, `String_Eq`, `String_Concat`, `String_Copy`, `String_StartsWith`, `String_EndsWith`, `String_Contains`, `String_Slice`, `String_Trim`, `String_TrimLeft`, `String_TrimRight`, `String_FromInt`, `String_ToInt`, `StringBuilder`; C wrappers in `runtime.c` | | `Std::String` | ✅ | Full API: `String_Len`, `String_Eq`, `String_Concat`, `String_Copy`, `String_StartsWith`, `String_EndsWith`, `String_Contains`, `String_Slice`, `String_Trim`, `String_TrimLeft`, `String_TrimRight`, `String_FromInt`, `String_ToInt`, `StringBuilder`; plus `String_Find`, `String_Replace`, `String_Format1/2/3`; C wrappers in `runtime.c` |
| `Std::Array` | ✅ | Fully generic `Array<T>` with `Array_New<T>`, `Array_Push<T>`, `Array_Get<T>`, `Array_Len<T>`, `Array_Free<T>`; generic struct methods with auto-addressing | | `Std::Array` | ✅ | Fully generic `Array<T>` with `Array_New<T>`, `Array_Push<T>`, `Array_Get<T>`, `Array_Len<T>`, `Array_Free<T>`; generic struct methods with auto-addressing |
| `Std::Map` | ✅ | Generic `Map<K,V>` with `Map_New`, `Map_Set`, `Map_Get`, `Map_Has`, `Map_Len`, `Map_Free`; value-type keys with strcmp | | `Std::Map` | ✅ | Generic `Map<K,V>` with `Map_New`, `Map_Set`, `Map_Get`, `Map_Has`, `Map_Len`, `Map_Free`; value-type keys with strcmp |
| `Std::StringMap` | ✅ | Specialized `StringMap<V>` for String keys using `strcmp` |
| `Std::Set` | ✅ | Generic `Set<T>` with `Set_New`, `Set_Add`, `Set_Has`, `Set_Len`, `Set_Free` |
| `Std::Math` | ✅ | `Sqrt`, `Pow`, `Min`, `Max`, `Abs`, `MinF`, `MaxF`, `AbsF` (float64 + int64 variants, C runtime wrappers) | | `Std::Math` | ✅ | `Sqrt`, `Pow`, `Min`, `Max`, `Abs`, `MinF`, `MaxF`, `AbsF` (float64 + int64 variants, C runtime wrappers) |
| `Std::Path` | ✅ | File exists, basic path operations | | `Std::Path` | ✅ | `Path_Join`, `Path_Parent`, `Path_Ext` |
| `Std::Fs` | ✅ | `DirExists`, `Mkdir`, `ListDir` |
| `Std::Os` | ⏳ | `Args`, `Env`, `Exit`, `Cwd` | | `Std::Os` | ⏳ | `Args`, `Env`, `Exit`, `Cwd` |
| `Std::Process` | ⏳ | Spawn subprocess, read stdout/stderr | | `Std::Process` | ⏳ | Spawn subprocess, read stdout/stderr |
| **`Std::Result`** | ✅ | Algebraic enums `Result<T,E>` and `Option<T>` with `NewOk`/`NewErr`/`NewSome`/`NewNone`; `?` try operator desugared in HIR | | **`Std::Result`** | ✅ | Algebraic enums `Result<T,E>` and `Option<T>` with `NewOk`/`NewErr`/`NewSome`/`NewNone`; `?` try operator desugared in HIR |
@@ -173,9 +176,13 @@ Bux is a fast, compiled, strongly-typed, multi-paradigm systems programming lang
- ✅ Generic type inference: `Max(10, 20)` instead of `Max<int>(10, 20)` — compiler infers `T` from argument types - ✅ Generic type inference: `Max(10, 20)` instead of `Max<int>(10, 20)` — compiler infers `T` from argument types
-`extend Box<T>` syntax: parser support for generic impl blocks -`extend Box<T>` syntax: parser support for generic impl blocks
- ✅ String slicing, trimming, contains, StringBuilder (`strings2` example) - ✅ String slicing, trimming, contains, StringBuilder (`strings2` example)
- ✅ String find, replace, format (`String_Find`, `String_Replace`, `String_Format`)
- ✅ Generic `Map<K,V>` with value-type keys - ✅ Generic `Map<K,V>` with value-type keys
- ✅ Generic `Set<T>` for deduplication
- ✅ File system operations (`Std::Fs`)
- ✅ Memory management wrappers (`Std::Mem`)
**Deliverable:** Can write a non-trivial CLI tool entirely in Bux. ✅ 18 example programs working: `hello`, `fibonacci`, `factorial`, `structs`, `enums`, `methods`, `algebraic_enums`, `generics`, `generics_struct`, `generic_infer`, `generic_infer2`, `extend_generic`, `pattern_matching`, `strings`, `strings2`, `map`, `result_option`, `try_operator`. **Deliverable:** Can write a non-trivial CLI tool entirely in Bux. ✅ 20+ example programs working.
--- ---
@@ -205,25 +212,29 @@ Bux is a fast, compiled, strongly-typed, multi-paradigm systems programming lang
| Nim Pattern | Used In | Bux Status | | Nim Pattern | Used In | Bux Status |
|-------------|---------|------------| |-------------|---------|------------|
| `Table[string, T]` | sema, hir_lower, c_backend (23 uses) | ❌ **Blocker** — need `StringMap<V>` | | `Table[string, T]` | sema, hir_lower, c_backend (23 uses) | ❌ **Blocker** — need `StringMap<V>` |
| `HashSet[string]` | hir_lower (1 use) | ❌ Can use `StringMap<bool>` workaround | | `HashSet[string]` | hir_lower (1 use) | `Set<T>` available |
| `seq[T]` with push/len/iter | All files (200+ uses) | ⚠️ `Array<T>` exists, needs richer API | | `seq[T]` with push/len/iter | All files (200+ uses) | ⚠️ `Array<T>` exists, needs richer API |
| `&"..."` / `fmt"..."` | sema, c_backend (119 uses) | **Blocker** — need string formatting | | `&"..."` / `fmt"..."` | sema, c_backend (119 uses) | `String_Format1/2/3` available |
| `split()`, `join()` | lexer, parser, cli | **Blocker** — need String split/join | | `split()`, `join()` | lexer, parser, cli | `String_SplitCount`, `String_SplitPart`, `String_Join2` |
| `case obj.kind of...` | All files (90+ uses) | ✅ `match` with algebraic enums | | `case obj.kind of...` | All files (90+ uses) | ✅ `match` with algebraic enums |
| `for x in collection` | All files (200+ uses) | ✅ Supported | | `for x in collection` | All files (200+ uses) | ✅ Supported |
| `var` parameters | Multiple | ✅ Use pointers (`*T`) | | `var` parameters | Multiple | ✅ Use pointers (`*T`) |
| File read/write | cli | ❌ Need `readFile`, `writeFile` | | File read/write | cli | `ReadFile`, `WriteFile` in `Std::Io` |
| OS path operations | cli, manifest | ❌ Need path join, exists | | OS path operations | cli, manifest | `Path_Join`, `DirExists`, `Mkdir` in `Std::Path`/`Std::Fs` |
### Rewrite Order (Dependency-driven) ### Rewrite Order (Dependency-driven)
``` ```
Phase 7.0 — Stdlib blockers: Phase 7.0 — Stdlib blockers (all resolved ✅):
├── StringMap<V> (blocker #1 — needed by all modules) ├── StringMap<V>
├── String split/join (blocker #2 — needed by lexer, parser) ├── String split/join
├── String formatting (blocker #3 — needed by sema, c_backend) ├── String formatting
├── File I/O (readFile, writeFile, fileExists) ├── File I/O (readFile, writeFile, fileExists)
└── OS path (joinPath, parentDir) └── OS path (joinPath, parentDir)
Remaining gaps for self-host polish:
├── `Std::Os` — `Args`, `Env`, `Exit`, `Cwd`
└── `Std::Process` — spawn subprocess
Phase 7.1 — Foundation (no internal deps): Phase 7.1 — Foundation (no internal deps):
├── token.bux (enum + helpers) ├── token.bux (enum + helpers)
@@ -257,8 +268,8 @@ Phase 7.5 — Driver (depends on all):
| StringMap not working for String keys | **High** | Already have working `StringMap<V>` in stdlib using strcmp | | StringMap not working for String keys | **High** | Already have working `StringMap<V>` in stdlib using strcmp |
| `&key as *void` precedence bug | **Medium** | Workaround: use intermediate `*K` variable | | `&key as *void` precedence bug | **Medium** | Workaround: use intermediate `*K` variable |
| Cross-module generics not working | **Medium** | All compiler code will be in one package (merged via stdlib mechanism) | | Cross-module generics not working | **Medium** | All compiler code will be in one package (merged via stdlib mechanism) |
| `Map_Len` monomorphization bug | **Low** | Avoid calling `Map_Len` with explicit type args; inline the body | | `Map_Len` / `Set_Len` monomorphization bug | **Low** | C backend issue — use explicit type args or avoid; QBE backend unaffected |
| String formatting complexity | **Medium** | Use StringBuilder pattern instead of printf-style formatting | | String formatting | **Medium** | `String_Format1/2/3` available via `bux_str_format` |
| Array<T> API gaps | **Low** | Extend Array module as needed during porting | | Array<T> API gaps | **Low** | Extend Array module as needed during porting |
### Estimated Effort ### Estimated Effort
+6 -1
View File
@@ -147,7 +147,7 @@ func Main() -> int {
| **Methods** | `extend` blocks for struct methods | | **Methods** | `extend` blocks for struct methods |
| **Interfaces** | `interface` + `extend` for trait-like behavior | | **Interfaces** | `interface` + `extend` for trait-like behavior |
| **Error Handling** | `Result<T,E>`, `Option<T>`, and the `?` operator | | **Error Handling** | `Result<T,E>`, `Option<T>`, and the `?` operator |
| **Standard Library** | `Io`, `Array`, `String`, `Map` | | **Standard Library** | `Io`, `Array`, `String`, `Map`, `Fs`, `Mem`, `Set`, `Path`, `Math`, `Task`, `Channel` |
| **Backend** | QBE native codegen (self-hosting), C transpiler (bootstrap) | | **Backend** | QBE native codegen (self-hosting), C transpiler (bootstrap) |
| **Strings** | Raw multi-line backtick strings (`...`), C-string interop | | **Strings** | Raw multi-line backtick strings (`...`), C-string interop |
| **Gradual Ownership** | `@[Checked]` + `&T`/`&mut T` borrow checking | | **Gradual Ownership** | `@[Checked]` + `&T`/`&mut T` borrow checking |
@@ -168,6 +168,11 @@ bux/
├── src_bux/ # Self-hosting compiler source (Bux) ├── src_bux/ # Self-hosting compiler source (Bux)
├── _selfhost/ # Self-hosting build artifacts ├── _selfhost/ # Self-hosting build artifacts
├── stdlib/ # Standard library (.bux + .c runtime) ├── stdlib/ # Standard library (.bux + .c runtime)
│ └── Std/
│ ├── Io.bux, String.bux, Array.bux, Map.bux
│ ├── Fs.bux, Mem.bux, Set.bux
│ ├── Path.bux, Math.bux
│ └── Task.bux, Channel.bux
├── examples/ # Example programs ├── examples/ # Example programs
├── tests/ # Unit tests (Nim) ├── tests/ # Unit tests (Nim)
├── docs/ # Documentation ├── docs/ # Documentation
+585
View File
@@ -0,0 +1,585 @@
// c_backend.bux — C transpiler backend (ported from c_backend.nim)
// Generates C code from the HIR.
module CBackend {
// ---------------------------------------------------------------------------
// Type → C type name
// ---------------------------------------------------------------------------
func CBackend_TypeToC(kind: int) -> String {
if kind == tyVoid { return "void"; }
if kind == tyBool { return "bool"; }
if kind == tyBool8 { return "bool"; }
if kind == tyBool16 { return "bool"; }
if kind == tyBool32 { return "bool"; }
if kind == tyChar8 { return "char"; }
if kind == tyChar16 { return "uint16"; }
if kind == tyChar32 { return "uint32"; }
if kind == tyStr { return "String"; }
if kind == tyInt8 { return "int8"; }
if kind == tyInt16 { return "int16"; }
if kind == tyInt32 { return "int32"; }
if kind == tyInt64 { return "int64"; }
if kind == tyInt{ return "int"; }
if kind == tyUInt8 { return "uint8"; }
if kind == tyUInt16 { return "uint16"; }
if kind == tyUInt32 { return "uint32"; }
if kind == tyUInt64 { return "uint64"; }
if kind == tyUInt { return "uint"; }
if kind == tyFloat32 { return "float32"; }
if kind == tyFloat64 { return "float64"; }
if kind == tyPointer { return "void*"; }
if kind == tyNamed { return "int"; }
return "int";
}
func CBackend_OpToC(op: int) -> String {
if op == tkPlus { return "+"; }
if op == tkMinus { return "-"; }
if op == tkStar { return "*"; }
if op == tkSlash { return "/"; }
if op == tkPercent { return "%"; }
if op == tkEq { return "=="; }
if op == tkNe { return "!="; }
if op == tkLt { return "<"; }
if op == tkLe { return "<="; }
if op == tkGt { return ">"; }
if op == tkGe { return ">="; }
if op == tkAmpAmp { return "&&"; }
if op == tkPipePipe { return "||"; }
if op == tkBang { return "!"; }
if op == tkAmp { return "&"; }
if op == tkPipe { return "|"; }
if op == tkCaret { return "^"; }
if op == tkShl { return "<<"; }
if op == tkShr { return ">>"; }
if op == tkAssign { return "="; }
return "?";
}
// ---------------------------------------------------------------------------
// StringBuilder-based C emitter
// ---------------------------------------------------------------------------
struct CEmitter {
sb: StringBuilder,
indent: int,
}
func CBE_Init() -> CEmitter {
var sb: StringBuilder = StringBuilder_NewCap(4096);
return CEmitter { sb: sb, indent: 0 };
}
func CBE_Emit(cbe: *CEmitter, text: String) {
var i: int = 0;
while i < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
i = i + 1;
}
StringBuilder_Append(&cbe.sb, text);
}
func CBE_EmitLine(cbe: *CEmitter, text: String) {
CBE_Emit(cbe, text);
StringBuilder_Append(&cbe.sb, "\n");
}
func CBE_Build(cbe: *CEmitter) -> String {
return StringBuilder_Build(&cbe.sb);
}
// ---------------------------------------------------------------------------
// Emit HIR node
// ---------------------------------------------------------------------------
func CBE_EmitExpr(cbe: *CEmitter, node: *HirNode) {
if node == null as *HirNode { return; }
let kind: int = node.kind;
// Literal
if kind == hLit {
if node.intValue == tkNull {
StringBuilder_Append(&cbe.sb, "0");
} else {
StringBuilder_Append(&cbe.sb, node.strValue);
}
return;
}
// Variable
if kind == hVar {
StringBuilder_Append(&cbe.sb, node.strValue);
return;
}
// Binary
if kind == hBinary {
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, " ");
StringBuilder_Append(&cbe.sb, CBackend_OpToC(node.intValue));
StringBuilder_Append(&cbe.sb, " ");
CBE_EmitExpr(cbe, node.child2);
return;
}
// Unary
if kind == hUnary {
StringBuilder_Append(&cbe.sb, CBackend_OpToC(node.intValue));
CBE_EmitExpr(cbe, node.child1);
return;
}
// Call
if kind == hCall {
StringBuilder_Append(&cbe.sb, node.strValue);
StringBuilder_Append(&cbe.sb, "(");
if node.child1 != null as *HirNode {
CBE_EmitExpr(cbe, node.child1);
}
if node.child2 != null as *HirNode {
StringBuilder_Append(&cbe.sb, ", ");
CBE_EmitExpr(cbe, node.child2);
}
StringBuilder_Append(&cbe.sb, ")");
return;
}
// spawn Callee(args)
if kind == hSpawn {
StringBuilder_Append(&cbe.sb, "bux_async_spawn(");
StringBuilder_Append(&cbe.sb, node.strValue);
if node.child1 != null as *HirNode {
StringBuilder_Append(&cbe.sb, ", (void*)");
CBE_EmitExpr(cbe, node.child1);
}
StringBuilder_Append(&cbe.sb, ")");
return;
}
// await
if kind == hAwait {
StringBuilder_Append(&cbe.sb, "bux_async_await(");
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, ")");
return;
}
// Return
if kind == hReturn {
StringBuilder_Append(&cbe.sb, "return");
if node.child1 != null as *HirNode {
StringBuilder_Append(&cbe.sb, " ");
CBE_EmitExpr(cbe, node.child1);
}
return;
}
// Alloca
if kind == hAlloca {
if !String_Eq(node.typeName, "") {
StringBuilder_Append(&cbe.sb, node.typeName);
} else {
StringBuilder_Append(&cbe.sb, "int");
}
StringBuilder_Append(&cbe.sb, " ");
StringBuilder_Append(&cbe.sb, node.strValue);
return;
}
// Store: combine alloca + value into single declaration
if kind == hStore {
if node.child1 != null as *HirNode && node.child1.kind == hAlloca {
// Declaration with initializer: Type x = value;
if !String_Eq(node.child1.typeName, "") {
StringBuilder_Append(&cbe.sb, node.child1.typeName);
} else {
StringBuilder_Append(&cbe.sb, CBackend_TypeToC(node.child1.intValue));
}
StringBuilder_Append(&cbe.sb, " ");
StringBuilder_Append(&cbe.sb, node.child1.strValue);
StringBuilder_Append(&cbe.sb, " = ");
CBE_EmitExpr(cbe, node.child2);
return;
}
// Plain assignment
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, " = ");
CBE_EmitExpr(cbe, node.child2);
return;
}
// If
if kind == hIf {
StringBuilder_Append(&cbe.sb, "if (");
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, ") {\n");
if node.child2 != null as *HirNode {
cbe.indent = cbe.indent + 1;
CBE_EmitExpr(cbe, node.child2);
cbe.indent = cbe.indent - 1;
}
var sp: int = 0;
while sp < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
sp = sp + 1;
}
StringBuilder_Append(&cbe.sb, "}");
let elseBlock: *HirNode = node.extraData as *HirNode;
if elseBlock != null as *HirNode {
StringBuilder_Append(&cbe.sb, " else {\n");
cbe.indent = cbe.indent + 1;
CBE_EmitExpr(cbe, elseBlock);
cbe.indent = cbe.indent - 1;
sp = 0;
while sp < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
sp = sp + 1;
}
StringBuilder_Append(&cbe.sb, "}\n");
} else {
StringBuilder_Append(&cbe.sb, "\n");
}
return;
}
// While
if kind == hWhile {
StringBuilder_Append(&cbe.sb, "while (");
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, ") {\n");
if node.child2 != null as *HirNode {
cbe.indent = cbe.indent + 1;
CBE_EmitExpr(cbe, node.child2);
cbe.indent = cbe.indent - 1;
}
var sp: int = 0;
while sp < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
sp = sp + 1;
}
StringBuilder_Append(&cbe.sb, "}");
return;
}
// Loop (infinite)
if kind == hLoop {
StringBuilder_Append(&cbe.sb, "while (1) {\n");
if node.child1 != null as *HirNode {
cbe.indent = cbe.indent + 1;
CBE_EmitExpr(cbe, node.child1);
cbe.indent = cbe.indent - 1;
}
var sp: int = 0;
while sp < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
sp = sp + 1;
}
StringBuilder_Append(&cbe.sb, "}");
return;
}
// Field access: obj.field — emit as obj->field (since most are pointers)
if kind == hFieldPtr {
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, "->");
StringBuilder_Append(&cbe.sb, node.strValue);
return;
}
// Sizeof: sizeof(Type) — emit as sizeof(Type)
if kind == hSizeOf {
StringBuilder_Append(&cbe.sb, "sizeof(");
if !String_Eq(node.typeName, "") {
StringBuilder_Append(&cbe.sb, node.typeName);
} else {
StringBuilder_Append(&cbe.sb, "int");
}
StringBuilder_Append(&cbe.sb, ")");
return;
}
// Index: arr[idx] — emit as arr[idx]
if kind == hIndexPtr {
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, "[");
CBE_EmitExpr(cbe, node.child2);
StringBuilder_Append(&cbe.sb, "]");
return;
}
// Load: *ptr — emit as *ptr (dereference)
if kind == hLoad {
StringBuilder_Append(&cbe.sb, "(*");
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, ")");
return;
}
// Assign: target = value
if kind == hAssign {
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, " = ");
CBE_EmitExpr(cbe, node.child2);
return;
}
// Cast
if kind == hCast {
StringBuilder_Append(&cbe.sb, "((");
if !String_Eq(node.typeName, "") {
StringBuilder_Append(&cbe.sb, node.typeName);
} else {
StringBuilder_Append(&cbe.sb, CBackend_TypeToC(node.typeKind));
}
StringBuilder_Append(&cbe.sb, ")");
CBE_EmitExpr(cbe, node.child1);
StringBuilder_Append(&cbe.sb, ")");
return;
}
// Struct init: ((TypeName){.field = value, ...})
if kind == hStructInit {
StringBuilder_Append(&cbe.sb, "((");
StringBuilder_Append(&cbe.sb, node.strValue);
StringBuilder_Append(&cbe.sb, "){");
// Emit fields (chained via child3)
var field: *HirNode = node.child1;
var first: bool = true;
while field != null as *HirNode {
if !first {
StringBuilder_Append(&cbe.sb, ", ");
}
StringBuilder_Append(&cbe.sb, ".");
StringBuilder_Append(&cbe.sb, field.strValue);
StringBuilder_Append(&cbe.sb, " = ");
CBE_EmitExpr(cbe, field.child1);
first = false;
field = field.child3;
}
StringBuilder_Append(&cbe.sb, "})");
return;
}
// Block — emit each statement via child3 linked list
if kind == hBlock {
var child: *HirNode = node.child1;
while child != null as *HirNode {
// Indent
var sp: int = 0;
while sp < cbe.indent {
StringBuilder_Append(&cbe.sb, " ");
sp = sp + 1;
}
CBE_EmitExpr(cbe, child);
// Add semicolon for statements that need it
if child.kind != hBlock && child.kind != hIf && child.kind != hWhile && child.kind != hLoop {
StringBuilder_Append(&cbe.sb, ";");
}
StringBuilder_Append(&cbe.sb, "\n");
child = child.child3;
}
return;
}
}
// ---------------------------------------------------------------------------
// Emit function declaration
// ---------------------------------------------------------------------------
func CBE_EmitFuncDecl(cbe: *CEmitter, f: *HirFunc) {
// Return type
if String_Eq(f.retTypeName, "") || String_Eq(f.retTypeName, "void") {
StringBuilder_Append(&cbe.sb, "void ");
} else {
StringBuilder_Append(&cbe.sb, f.retTypeName);
StringBuilder_Append(&cbe.sb, " ");
}
StringBuilder_Append(&cbe.sb, f.name);
StringBuilder_Append(&cbe.sb, "(");
// Parameters
var i: int = 0;
while i < f.paramCount {
if i > 0 {
StringBuilder_Append(&cbe.sb, ", ");
}
// Use param type info
var pname: String = "";
var ptype: String = "";
if i == 0 { pname = f.param0.name; ptype = f.param0.typeName; }
if i == 1 { pname = f.param1.name; ptype = f.param1.typeName; }
if i == 2 { pname = f.param2.name; ptype = f.param2.typeName; }
if i == 3 { pname = f.param3.name; ptype = f.param3.typeName; }
if i == 4 { pname = f.param4.name; ptype = f.param4.typeName; }
if i == 5 { pname = f.param5.name; ptype = f.param5.typeName; }
// Emit type
if String_Eq(ptype, "String") || String_Eq(ptype, "str") {
StringBuilder_Append(&cbe.sb, "String ");
} else if String_Eq(ptype, "bool") {
StringBuilder_Append(&cbe.sb, "bool ");
} else if String_Eq(ptype, "int") {
StringBuilder_Append(&cbe.sb, "int ");
} else if String_Eq(ptype, "int64") {
StringBuilder_Append(&cbe.sb, "int64 ");
} else if String_Eq(ptype, "uint") {
StringBuilder_Append(&cbe.sb, "uint ");
} else if String_Eq(ptype, "float64") {
StringBuilder_Append(&cbe.sb, "float64 ");
} else if !String_Eq(ptype, "") {
StringBuilder_Append(&cbe.sb, ptype);
StringBuilder_Append(&cbe.sb, " ");
} else {
StringBuilder_Append(&cbe.sb, "int "); // fallback
}
StringBuilder_Append(&cbe.sb, pname);
i = i + 1;
}
StringBuilder_Append(&cbe.sb, ")");
}
// ---------------------------------------------------------------------------
// Generate complete C module
// ---------------------------------------------------------------------------
func CBackend_Generate(mod: *HirModule) -> String {
let cbe: *CEmitter = bux_alloc(sizeof(CEmitter)) as *CEmitter;
cbe.sb = StringBuilder_NewCap(8192);
cbe.indent = 0;
// Header
StringBuilder_Append(&cbe.sb, "// Generated by Bux C Backend\n");
StringBuilder_Append(&cbe.sb, "#include <stdint.h>\n");
StringBuilder_Append(&cbe.sb, "#include <stdbool.h>\n");
StringBuilder_Append(&cbe.sb, "#include <string.h>\n");
StringBuilder_Append(&cbe.sb, "#include <stdio.h>\n");
StringBuilder_Append(&cbe.sb, "#include <stdlib.h>\n\n");
// Type aliases
StringBuilder_Append(&cbe.sb, "typedef const char* String;\n");
StringBuilder_Append(&cbe.sb, "typedef unsigned char uint8;\n");
StringBuilder_Append(&cbe.sb, "typedef unsigned short uint16;\n");
StringBuilder_Append(&cbe.sb, "typedef unsigned int uint32;\n");
StringBuilder_Append(&cbe.sb, "typedef unsigned long long uint64;\n");
StringBuilder_Append(&cbe.sb, "typedef signed char int8;\n");
StringBuilder_Append(&cbe.sb, "typedef short int16;\n");
StringBuilder_Append(&cbe.sb, "typedef long long int64;\n");
StringBuilder_Append(&cbe.sb, "typedef float float32;\n");
StringBuilder_Append(&cbe.sb, "typedef double float64;\n\n");
// Runtime declarations
StringBuilder_Append(&cbe.sb, "void* bux_alloc(unsigned int size);\n");
StringBuilder_Append(&cbe.sb, "void bux_free(void* ptr);\n\n");
// Forward declare all struct types
var si: int = 0;
while si < mod.structCount {
StringBuilder_Append(&cbe.sb, "typedef struct ");
StringBuilder_Append(&cbe.sb, mod.structs[si].name);
StringBuilder_Append(&cbe.sb, " ");
StringBuilder_Append(&cbe.sb, mod.structs[si].name);
StringBuilder_Append(&cbe.sb, ";\n");
si = si + 1;
}
StringBuilder_Append(&cbe.sb, "\n");
// Struct definitions
si = 0;
while si < mod.structCount {
StringBuilder_Append(&cbe.sb, "typedef struct {\n");
var fi: int = 0;
while fi < mod.structs[si].fieldCount {
StringBuilder_Append(&cbe.sb, " ");
var ft: String = mod.structs[si].fields[fi].typeName;
if String_Eq(ft, "int") || String_Eq(ft, "") {
StringBuilder_Append(&cbe.sb, "int");
} else if String_Eq(ft, "String") {
StringBuilder_Append(&cbe.sb, "String");
} else if String_Eq(ft, "bool") {
StringBuilder_Append(&cbe.sb, "bool");
} else if String_Eq(ft, "uint32") {
StringBuilder_Append(&cbe.sb, "uint32");
} else {
// Use the type name directly (handles "Foo*", "Bar", etc.)
StringBuilder_Append(&cbe.sb, ft);
}
StringBuilder_Append(&cbe.sb, " ");
StringBuilder_Append(&cbe.sb, mod.structs[si].fields[fi].name);
StringBuilder_Append(&cbe.sb, ";\n");
fi = fi + 1;
}
StringBuilder_Append(&cbe.sb, "} ");
StringBuilder_Append(&cbe.sb, mod.structs[si].name);
StringBuilder_Append(&cbe.sb, ";\n\n");
si = si + 1;
}
// Forward declarations for all functions
var i: int = 0;
while i < mod.funcCount {
CBE_EmitFuncDecl(cbe, &mod.funcs[i]);
StringBuilder_Append(&cbe.sb, ";\n");
i = i + 1;
}
StringBuilder_Append(&cbe.sb, "\n");
// Extern declarations
i = 0;
while i < mod.externCount {
CBE_EmitFuncDecl(cbe, &mod.externFuncs[i]);
StringBuilder_Append(&cbe.sb, ";\n");
i = i + 1;
}
StringBuilder_Append(&cbe.sb, "\n");
// Function definitions
var hasMain: bool = false;
i = 0;
while i < mod.funcCount {
if String_Eq(mod.funcs[i].name, "Main") { hasMain = true; }
// Skip forward declarations (functions without body)
let body: *HirNode = mod.funcs[i].body;
if body == null as *HirNode {
i = i + 1;
continue;
}
CBE_EmitFuncDecl(cbe, &mod.funcs[i]);
StringBuilder_Append(&cbe.sb, " {\n");
// Body
var hasReturn: bool = false;
cbe.indent = 1;
CBE_EmitExpr(cbe, body);
cbe.indent = 0;
// Check if body has a return statement
var stmt: *HirNode = body.child1;
while stmt != null as *HirNode {
if stmt.kind == hReturn { hasReturn = true; }
stmt = stmt.child3;
}
// Add default return 0 only if function returns int and has no explicit return
if String_Eq(mod.funcs[i].retTypeName, "int") && !hasReturn {
StringBuilder_Append(&cbe.sb, " return 0;\n");
}
StringBuilder_Append(&cbe.sb, "}\n\n");
i = i + 1;
}
// Generate C main wrapper if Main function exists
if hasMain {
StringBuilder_Append(&cbe.sb, "extern int g_argc;\n");
StringBuilder_Append(&cbe.sb, "extern char** g_argv;\n");
StringBuilder_Append(&cbe.sb, "int main(int argc, char** argv) {\n");
StringBuilder_Append(&cbe.sb, " g_argc = argc;\n");
StringBuilder_Append(&cbe.sb, " g_argv = argv;\n");
StringBuilder_Append(&cbe.sb, " return Main();\n");
StringBuilder_Append(&cbe.sb, "}\n");
}
return StringBuilder_Build(&cbe.sb);
}
func CBackend_Free(cbe: *CEmitter) {
StringBuilder_Free(&cbe.sb);
bux_free(cbe as *void);
}
}
+812
View File
@@ -0,0 +1,812 @@
// nim_backend.bux — Nim transpiler backend
// Generates Nim code from the HIR. Much simpler than C backend.
import Std::String;
import Std::Io::{Print, PrintLine};
module NimBackend {
// ---------------------------------------------------------------------------
// Type → Nim type name
// ---------------------------------------------------------------------------
func NimBackend_TypeToNim(kind: int) -> String {
if kind == tyVoid { return "void"; }
if kind == tyBool || kind == tyBool8 || kind == tyBool16 || kind == tyBool32 { return "bool"; }
if kind == tyChar8 { return "char"; }
if kind == tyChar16 { return "uint16"; }
if kind == tyChar32 { return "uint32"; }
if kind == tyStr { return "string"; }
if kind == tyInt8 { return "int8"; }
if kind == tyInt16 { return "int16"; }
if kind == tyInt32 { return "int32"; }
if kind == tyInt64 { return "int64"; }
if kind == tyInt { return "int"; }
if kind == tyUInt8 { return "uint8"; }
if kind == tyUInt16 { return "uint16"; }
if kind == tyUInt32 { return "uint32"; }
if kind == tyUInt64 { return "uint64"; }
if kind == tyUInt { return "uint"; }
if kind == tyFloat32 { return "float32"; }
if kind == tyFloat64 { return "float64"; }
if kind == tyPointer { return "pointer"; }
return "int";
}
// ---------------------------------------------------------------------------
// Operator → Nim
// ---------------------------------------------------------------------------
func NimBackend_OpToNim(op: int) -> String {
if op == tkPlus { return "+"; }
if op == tkMinus { return "-"; }
if op == tkStar { return "*"; }
if op == tkSlash { return "/"; }
if op == tkPercent { return "%"; }
if op == tkEq { return "=="; }
if op == tkNe { return "!="; }
if op == tkLt { return "<"; }
if op == tkLe { return "<="; }
if op == tkGt { return ">"; }
if op == tkGe { return ">="; }
if op == tkAmpAmp { return "and"; }
if op == tkPipePipe { return "or"; }
if op == tkBang { return "not"; }
if op == tkAmp { return "and"; }
if op == tkPipe { return "or"; }
if op == tkCaret { return "xor"; }
if op == tkShl { return "shl"; }
if op == tkShr { return "shr"; }
if op == tkAssign { return "="; }
return "?";
}
// ---------------------------------------------------------------------------
// Emitter
// ---------------------------------------------------------------------------
struct NBEmitter {
sb: StringBuilder;
indent: int;
}
func NBE_Init() -> NBEmitter {
var sb: StringBuilder = StringBuilder_NewCap(4096);
return NBEmitter { sb: sb, indent: 0 };
}
func NBE_EmitIndent(nbe: *NBEmitter) {
var i: int = 0;
while i < nbe.indent {
StringBuilder_Append(&nbe.sb, " ");
i = i + 1;
}
}
func NBE_Emit(nbe: *NBEmitter, text: String) {
NBE_EmitIndent(nbe);
StringBuilder_Append(&nbe.sb, text);
}
func NBE_EmitLine(nbe: *NBEmitter, text: String) {
NBE_Emit(nbe, text);
StringBuilder_Append(&nbe.sb, "\n");
}
func NBE_Build(nbe: *NBEmitter) -> String {
return StringBuilder_Build(&nbe.sb);
}
func NBE_Append(nbe: *NBEmitter, text: String) {
StringBuilder_Append(&nbe.sb, text);
}
func NBE_AppendLine(nbe: *NBEmitter, text: String) {
StringBuilder_Append(&nbe.sb, text);
StringBuilder_Append(&nbe.sb, "\n");
}
func NBE_AppendChar(nbe: *NBEmitter, c: char8) {
var tmp: *char8 = bux_alloc(2) as *char8;
tmp[0] = c;
tmp[1] = 0 as char8;
StringBuilder_Append(&nbe.sb, tmp);
}
// ---------------------------------------------------------------------------
// Expression emission
// ---------------------------------------------------------------------------
func NBE_EmitExpr(nbe: *NBEmitter, node: *HirNode) {
if node == null as *HirNode { return; }
let kind: int = node.kind;
// Literal
if kind == hLit {
if node.intValue == tkNull {
NBE_Append(nbe, "nil");
} else if node.intValue == tkStringLiteral {
// Nim string: emit quoted with escapes
NBE_Append(nbe, "\"");
var s: String = node.strValue;
if s != null as String {
var slen: int = bux_strlen(s) as int;
var start: int = 0;
var end: int = slen;
// Strip outer quotes if present
if slen >= 2 {
var fc: char8 = s[0];
var lc: char8 = s[slen - 1];
if fc == 34 as char8 && lc == 34 as char8 {
start = 1;
end = slen - 1;
}
}
var i: int = start;
while i < end {
var c: char8 = s[i];
if c == 10 as char8 { NBE_Append(nbe, "\\n"); } // \n
else if c == 13 as char8 { NBE_Append(nbe, "\\r"); } // \r
else if c == 9 as char8 { NBE_Append(nbe, "\\t"); } // \t
else if c == 34 as char8 { NBE_Append(nbe, "\\\""); } // \"
else if c == 92 as char8 { NBE_Append(nbe, "\\\\"); } // \\
else { NBE_AppendChar(nbe, c); }
i = i + 1;
}
}
NBE_Append(nbe, "\"");
} else if node.intValue == tkBoolLiteral {
NBE_Append(nbe, node.strValue);
} else {
NBE_Append(nbe, node.strValue);
}
return;
}
// Variable
if kind == hVar {
NBE_Append(nbe, NimBackend_EscapeIdent(node.strValue));
return;
}
// Binary
if kind == hBinary {
// Special case: String == null → check for empty string
if node.intValue == tkEq || node.intValue == tkNe {
var isNullCmp: bool = false;
var other: *HirNode = null as *HirNode;
if node.child1 != null as *HirNode && node.child1.kind == hLit && node.child1.intValue == tkNull {
isNullCmp = true;
other = node.child2;
}
if !isNullCmp && node.child2 != null as *HirNode && node.child2.kind == hLit && node.child2.intValue == tkNull {
isNullCmp = true;
other = node.child1;
}
if isNullCmp && other != null as *HirNode && other.typeKind == tyStr {
if node.intValue == tkEq {
NBE_EmitExpr(nbe, other);
NBE_Append(nbe, " == \"\"");
} else {
NBE_EmitExpr(nbe, other);
NBE_Append(nbe, " != \"\"");
}
return;
}
}
if node.child1 != null as *HirNode {
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " ");
}
// Emit operator only if we have a left operand
if node.child1 != null as *HirNode {
NBE_Append(nbe, NimBackend_OpToNim(node.intValue));
NBE_Append(nbe, " ");
}
NBE_EmitExpr(nbe, node.child2);
return;
}
// Unary
if kind == hUnary {
// Skip address-of operator (&) — Nim uses automatic dereference
if node.intValue == tkAmp {
NBE_EmitExpr(nbe, node.child1);
return;
}
NBE_Append(nbe, NimBackend_OpToNim(node.intValue));
NBE_Append(nbe, "(");
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, ")");
return;
}
// Call
if kind == hCall {
var fname: String = node.strValue;
// Translate StringBuilder calls to Nim native operations
if String_Eq(fname, "StringBuilder_Append") {
// sb = sb & text (string concatenation)
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " = ");
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " & ");
NBE_EmitExpr(nbe, node.child2);
return;
}
if String_Eq(fname, "StringBuilder_NewCap") {
// Just empty string
NBE_Append(nbe, "\"\"");
return;
}
if String_Eq(fname, "StringBuilder_Build") {
// Just return the string field
NBE_EmitExpr(nbe, node.child1);
return;
}
NBE_Append(nbe, NimBackend_EscapeIdent(fname));
NBE_Append(nbe, "(");
if node.child1 != null as *HirNode {
NBE_EmitExpr(nbe, node.child1);
}
if node.child2 != null as *HirNode {
NBE_Append(nbe, ", ");
NBE_EmitExpr(nbe, node.child2);
}
NBE_Append(nbe, ")");
return;
}
// Field access: obj.field → obj.field (Nim auto-dereferences)
if kind == hFieldPtr || kind == hArrowField {
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, ".");
NBE_Append(nbe, node.strValue);
return;
}
// Index: arr[idx]
if kind == hIndexPtr {
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, "[");
NBE_EmitExpr(nbe, node.child2);
NBE_Append(nbe, "]");
return;
}
// Cast: expr as Type
if kind == hCast {
// Special case: null as Type → appropriate default
if node.child1 != null as *HirNode && node.child1.kind == hLit && node.child1.intValue == tkNull {
var typeName: String = node.typeName;
if !String_Eq(typeName, "") {
var converted: String = NimBackend_ConvertTypeName(typeName);
if String_Eq(converted, "string") {
NBE_Append(nbe, "\"\"");
return;
}
if String_Eq(converted, "pointer") {
NBE_Append(nbe, "nil");
return;
}
}
// For pointer types (ending in * or "ptr "), emit nil
var tlen: int = bux_strlen(typeName) as int;
if tlen > 1 {
var lastCh: char8 = typeName[tlen - 1];
if lastCh == 42 as char8 { // '*'
NBE_Append(nbe, "nil");
return;
}
}
}
NBE_Append(nbe, "cast[");
if !String_Eq(node.typeName, "") {
NBE_Append(nbe, NimBackend_ConvertTypeName(node.typeName));
} else {
NBE_Append(nbe, NimBackend_TypeToNim(node.typeKind));
}
NBE_Append(nbe, "](");
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, ")");
return;
}
// Is
if kind == hIs {
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " is ");
if !String_Eq(node.typeName, "") {
NBE_Append(nbe, node.typeName);
}
return;
}
// SizeOf
if kind == hSizeOf {
NBE_Append(nbe, "sizeof(");
if !String_Eq(node.typeName, "") {
NBE_Append(nbe, node.typeName);
} else {
NBE_Append(nbe, "int");
}
NBE_Append(nbe, ")");
return;
}
// Alloca: variable declaration (used within Store for full decl)
if kind == hAlloca {
if !String_Eq(node.typeName, "") {
NBE_Append(nbe, NimBackend_ConvertTypeNameParam(node.typeName));
} else {
NBE_Append(nbe, NimBackend_TypeToNim(node.typeKind));
}
NBE_Append(nbe, " ");
NBE_Append(nbe, NimBackend_EscapeIdent(node.strValue));
return;
}
// Assign: target = value
if kind == hAssign {
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " = ");
NBE_EmitExpr(nbe, node.child2);
return;
}
// Store: assignment or declaration with init
if kind == hStore {
if node.child1 != null as *HirNode && node.child1.kind == hAlloca {
// Declaration: var x: Type = value
NBE_Append(nbe, "var ");
NBE_Append(nbe, NimBackend_EscapeIdent(node.child1.strValue));
if !String_Eq(node.child1.typeName, "") {
NBE_Append(nbe, ": ");
NBE_Append(nbe, NimBackend_ConvertTypeNameParam(node.child1.typeName));
}
if node.child2 != null as *HirNode {
NBE_Append(nbe, " = ");
NBE_EmitExpr(nbe, node.child2);
}
return;
}
// Plain assignment
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, " = ");
NBE_EmitExpr(nbe, node.child2);
return;
}
// If
if kind == hIf {
NBE_Append(nbe, "if ");
NBE_EmitExpr(nbe, node.child1);
NBE_AppendLine(nbe, ":");
if node.child2 != null as *HirNode {
nbe.indent = nbe.indent + 1;
if node.child2.kind != hBlock { NBE_EmitIndent(nbe); }
NBE_EmitExpr(nbe, node.child2);
nbe.indent = nbe.indent - 1;
} else {
nbe.indent = nbe.indent + 1;
NBE_EmitLine(nbe, "discard");
nbe.indent = nbe.indent - 1;
}
if node.child3 != null as *HirNode {
NBE_EmitIndent(nbe); // indent else at same level as if
NBE_AppendLine(nbe, "else:");
nbe.indent = nbe.indent + 1;
if node.child3.kind != hBlock { NBE_EmitIndent(nbe); }
NBE_EmitExpr(nbe, node.child3);
nbe.indent = nbe.indent - 1;
}
return;
}
// While
if kind == hWhile {
NBE_Append(nbe, "while ");
NBE_EmitExpr(nbe, node.child1);
NBE_AppendLine(nbe, ":");
if node.child2 != null as *HirNode {
nbe.indent = nbe.indent + 1;
if node.child2.kind != hBlock { NBE_EmitIndent(nbe); }
NBE_EmitExpr(nbe, node.child2);
nbe.indent = nbe.indent - 1;
}
return;
}
// Loop (infinite)
if kind == hLoop {
NBE_AppendLine(nbe, "while true:");
if node.child1 != null as *HirNode {
nbe.indent = nbe.indent + 1;
if node.child1.kind != hBlock { NBE_EmitIndent(nbe); }
NBE_EmitExpr(nbe, node.child1);
nbe.indent = nbe.indent - 1;
}
return;
}
// Break / Continue
if kind == hBreak {
NBE_AppendLine(nbe, "break");
return;
}
if kind == hContinue {
NBE_AppendLine(nbe, "continue");
return;
}
// Return
if kind == hReturn {
NBE_Append(nbe, "return ");
if node.child1 != null as *HirNode {
if node.child1.kind == hBinary {
NBE_Append(nbe, "(");
NBE_EmitExpr(nbe, node.child1);
NBE_Append(nbe, ")");
} else {
NBE_EmitExpr(nbe, node.child1);
}
}
return;
}
// Struct init: TypeName { field: value, ... }
if kind == hStructInit {
NBE_Append(nbe, node.strValue);
NBE_Append(nbe, "(");
// Emit fields (chained via child3)
var field: *HirNode = node.child3;
var first: bool = true;
while field != null as *HirNode {
if !first { NBE_Append(nbe, ", "); }
NBE_Append(nbe, field.strValue);
NBE_Append(nbe, ": ");
NBE_EmitExpr(nbe, field.child1);
first = false;
field = field.child3;
}
NBE_Append(nbe, ")");
return;
}
// Load: dereference — in Nim just emit the pointer expression
if kind == hLoad {
NBE_EmitExpr(nbe, node.child1);
return;
}
// Block — sequence of statements
if kind == hBlock {
var child: *HirNode = node.child1;
if child == null as *HirNode {
NBE_EmitIndent(nbe);
NBE_AppendLine(nbe, "discard");
return;
}
// First pass: emit statements, merging continuation lines
while child != null as *HirNode {
NBE_EmitIndent(nbe);
// Check if this is a return/binary that has continuation siblings
if child.kind == hReturn && child.child1 != null as *HirNode {
// Emit return and open paren before expression
NBE_Append(nbe, "return (");
NBE_EmitExpr(nbe, child.child1);
child = child.child3;
// Merge all continuation siblings
while child != null as *HirNode && child.kind == hBinary && child.child1 == null as *HirNode {
NBE_Append(nbe, " ");
NBE_EmitExpr(nbe, child);
child = child.child3;
}
NBE_AppendLine(nbe, ")");
} else {
// Wrap with discard for non-control-flow statements
if child.kind == hCall || child.kind == hAssign || child.kind == hStore {
NBE_Append(nbe, "discard (");
NBE_EmitExpr(nbe, child);
NBE_Append(nbe, ")");
} else {
NBE_EmitExpr(nbe, child);
}
child = child.child3;
// Merge continuation siblings for other statement types
while child != null as *HirNode && child.kind == hBinary && child.child1 == null as *HirNode {
NBE_Append(nbe, " ");
NBE_EmitExpr(nbe, child);
child = child.child3;
}
NBE_AppendLine(nbe, "");
}
}
return;
}
// Match — simplified
if kind == hMatch {
NBE_EmitLine(nbe, "# match (simplified)");
return;
}
// Spawn
if kind == hSpawn {
NBE_Append(nbe, "spawn ");
NBE_Append(nbe, node.strValue);
NBE_Append(nbe, "(");
if node.child1 != null as *HirNode {
NBE_EmitExpr(nbe, node.child1);
}
NBE_Append(nbe, ")");
return;
}
// Await
if kind == hAwait {
NBE_Append(nbe, "await ");
NBE_EmitExpr(nbe, node.child1);
return;
}
// Fallback
NBE_Append(nbe, "nil");
}
// ---------------------------------------------------------------------------
// Function declaration emission
// ---------------------------------------------------------------------------
func NBE_EmitFuncDecl(nbe: *NBEmitter, f: *HirFunc) {
// Return type
var retType: String = f.retTypeName;
if String_Eq(retType, "") || String_Eq(retType, "void") {
// No return type annotation needed
} else if String_Eq(retType, "int") {
NBE_Append(nbe, "int");
} else if String_Eq(retType, "bool") {
NBE_Append(nbe, "bool");
} else if String_Eq(retType, "string") || String_Eq(retType, "String") {
NBE_Append(nbe, "string");
} else {
NBE_Append(nbe, retType);
}
}
// ---------------------------------------------------------------------------
// Convert type name from Bux to Nim
// ---------------------------------------------------------------------------
func NimBackend_EscapeIdent(name: String) -> String {
if name == null as String || String_Eq(name, "") { return "x"; }
// Nim keywords that need escaping
if String_Eq(name, "block") { return "`block`"; }
if String_Eq(name, "type") { return "`type`"; }
if String_Eq(name, "object") { return "`object`"; }
if String_Eq(name, "proc") { return "`proc`"; }
if String_Eq(name, "var") { return "`var`"; }
if String_Eq(name, "let") { return "`let`"; }
if String_Eq(name, "const") { return "`const`"; }
if String_Eq(name, "from") { return "`from`"; }
if String_Eq(name, "import") { return "`import`"; }
if String_Eq(name, "export") { return "`export`"; }
if String_Eq(name, "include") { return "`include`"; }
if String_Eq(name, "iterator") { return "`iterator`"; }
if String_Eq(name, "method") { return "`method`"; }
if String_Eq(name, "func") { return "`func`"; }
if String_Eq(name, "string") { return "`string`"; }
if String_Eq(name, "int") { return "`int`"; }
if String_Eq(name, "bool") { return "`bool`"; }
if String_Eq(name, "float") { return "`float`"; }
if String_Eq(name, "char") { return "`char`"; }
if String_Eq(name, "ptr") { return "`ptr`"; }
if String_Eq(name, "ref") { return "`ref`"; }
if String_Eq(name, "nil") { return "`nil`"; }
if String_Eq(name, "true") { return "`true`"; }
if String_Eq(name, "false") { return "`false`"; }
if String_Eq(name, "and") { return "`and`"; }
if String_Eq(name, "or") { return "`or`"; }
if String_Eq(name, "not") { return "`not`"; }
if String_Eq(name, "xor") { return "`xor`"; }
if String_Eq(name, "shl") { return "`shl`"; }
if String_Eq(name, "shr") { return "`shr`"; }
if String_Eq(name, "div") { return "`div`"; }
if String_Eq(name, "mod") { return "`mod`"; }
if String_Eq(name, "is") { return "`is`"; }
if String_Eq(name, "of") { return "`of`"; }
if String_Eq(name, "in") { return "`in`"; }
if String_Eq(name, "out") { return "`out`"; }
if String_Eq(name, "static") { return "`static`"; }
if String_Eq(name, "enum") { return "`enum`"; }
if String_Eq(name, "tuple") { return "`tuple`"; }
if String_Eq(name, "concept") { return "`concept`"; }
if String_Eq(name, "distinct") { return "`distinct`"; }
if String_Eq(name, "Result") { return "`Result`"; }
return name;
}
func NimBackend_ConvertTypeNameParam(tn: String) -> String {
// For function parameters: strip pointer indirection, Nim passes by ref
if tn == null as String || String_Eq(tn, "") { return "int"; }
if String_Eq(tn, "String") { return "string"; }
if String_Eq(tn, "bool") { return "bool"; }
if String_Eq(tn, "int") { return "int"; }
if String_Eq(tn, "int64") { return "int64"; }
if String_Eq(tn, "uint32") { return "uint32"; }
if String_Eq(tn, "uint") { return "uint"; }
if String_Eq(tn, "float64") { return "float64"; }
// Pointer types → ptr types in Nim
if !String_Eq(tn, "") {
var tlen: int = bux_strlen(tn) as int;
if tlen > 1 {
var lastCh: char8 = tn[tlen - 1];
if lastCh == 42 as char8 {
var base: String = String_Slice(tn, 0 as uint, (tlen - 1) as uint);
if String_Eq(base, "void") { return "pointer"; }
return String_Concat("ptr ", base);
}
}
}
return tn;
}
func NimBackend_ConvertTypeName(tn: String) -> String {
if tn == null as String || String_Eq(tn, "") { return "int"; }
if String_Eq(tn, "String") { return "string"; }
if String_Eq(tn, "bool") { return "bool"; }
if String_Eq(tn, "int") { return "int"; }
if String_Eq(tn, "int64") { return "int64"; }
if String_Eq(tn, "uint32") { return "uint32"; }
if String_Eq(tn, "uint") { return "uint"; }
if String_Eq(tn, "float64") { return "float64"; }
// Convert pointer types: "Foo*" → "ptr Foo"
if !String_Eq(tn, "") {
var tlen: int = bux_strlen(tn) as int;
if tlen > 1 {
var lastCh: char8 = tn[tlen - 1];
if lastCh == 42 as char8 { // '*'
// Extract base name (without *)
var base: String = String_Slice(tn, 0 as uint, (tlen - 1) as uint);
if String_Eq(base, "void") { return "pointer"; }
return String_Concat("ptr ", base);
}
}
}
return tn;
}
// ---------------------------------------------------------------------------
// Generate complete Nim module
// ---------------------------------------------------------------------------
func NimBackend_Generate(mod: *HirModule) -> String {
let nbe: *NBEmitter = bux_alloc(sizeof(NBEmitter)) as *NBEmitter;
nbe.sb = StringBuilder_NewCap(8192);
nbe.indent = 0;
// Header
NBE_AppendLine(nbe, "# Generated by Bux Nim Backend");
NBE_AppendLine(nbe, "");
NBE_AppendLine(nbe, "import std/strutils");
NBE_AppendLine(nbe, "import std/tables");
NBE_AppendLine(nbe, "import std/sequtils");
NBE_AppendLine(nbe, "import std/os");
NBE_AppendLine(nbe, "");
// Type definitions — skip builtins that Nim already has
NBE_AppendLine(nbe, "# Type aliases");
NBE_AppendLine(nbe, "type");
nbe.indent = nbe.indent + 1;
NBE_EmitLine(nbe, "String* = string");
NBE_EmitLine(nbe, "char8* = char");
// StringBuild is just a string in Nim
NBE_EmitLine(nbe, "StringBuilder* = string");
// Close type block
nbe.indent = nbe.indent - 1;
NBE_AppendLine(nbe, "");
NBE_AppendLine(nbe, "");
// Struct definitions
if mod.structCount > 0 {
NBE_AppendLine(nbe, "# Struct types");
NBE_AppendLine(nbe, "type");
var si: int = 0;
while si < mod.structCount {
NBE_Append(nbe, " ");
NBE_Append(nbe, NimBackend_EscapeIdent(mod.structs[si].name));
NBE_AppendLine(nbe, " = object");
var fi: int = 0;
while fi < mod.structs[si].fieldCount {
var fname: String = mod.structs[si].fields[fi].name;
if !String_Eq(fname, "") {
NBE_Append(nbe, " ");
NBE_Append(nbe, NimBackend_EscapeIdent(fname));
NBE_Append(nbe, ": ");
var ft: String = mod.structs[si].fields[fi].typeName;
NBE_Append(nbe, NimBackend_ConvertTypeName(ft));
NBE_AppendLine(nbe, "");
}
fi = fi + 1;
}
si = si + 1;
}
NBE_AppendLine(nbe, "");
}
// Const definitions
if mod.constCount > 0 {
NBE_AppendLine(nbe, "# Constants");
var ci: int = 0;
while ci < mod.constCount {
NBE_Emit(nbe, "const ");
NBE_Append(nbe, mod.consts[ci].name);
NBE_Append(nbe, " = ");
NBE_Append(nbe, String_FromInt(mod.consts[ci].value as int64));
NBE_AppendLine(nbe, "");
ci = ci + 1;
}
NBE_AppendLine(nbe, "");
}
// Extern declarations — skip (Nim doesn't need them)
// Bux extern functions are C runtime functions that Nim can't directly call.
// Instead, we use Nim native equivalents (e.g., len() instead of bux_strlen).
// Function definitions (reverse order: dependencies first)
var i: int = mod.funcCount;
while i > 0 {
i = i - 1;
let f: *HirFunc = &mod.funcs[i];
if f.body == null as *HirNode { continue; }
NBE_Emit(nbe, "proc ");
NBE_Append(nbe, NimBackend_EscapeIdent(f.name));
NBE_Append(nbe, "(");
// Parameters
var pi: int = 0;
var pnames: *HirParam = &f.param0;
while pi < f.paramCount {
if pi > 0 { NBE_Append(nbe, ", "); }
NBE_Append(nbe, NimBackend_EscapeIdent(pnames[pi].name));
NBE_Append(nbe, ": ");
var pt: String = pnames[pi].typeName;
NBE_Append(nbe, NimBackend_ConvertTypeNameParam(pt));
pi = pi + 1;
}
NBE_Append(nbe, "): ");
// Return type
var rtn: String = NimBackend_ConvertTypeNameParam(f.retTypeName);
if String_Eq(rtn, "") || String_Eq(rtn, "void") {
NBE_AppendLine(nbe, "void =");
} else {
NBE_Append(nbe, rtn);
NBE_AppendLine(nbe, " =");
}
// Body
nbe.indent = nbe.indent + 1;
if f.body != null as *HirNode && f.body.kind != hBlock {
NBE_EmitIndent(nbe);
}
NBE_EmitExpr(nbe, f.body);
nbe.indent = nbe.indent - 1;
NBE_AppendLine(nbe, "");
NBE_AppendLine(nbe, "");
}
// Main entry point
NBE_AppendLine(nbe, "# Entry point");
NBE_AppendLine(nbe, "when isMainModule:");
NBE_EmitLine(nbe, " var args: seq[string] = @[]");
NBE_EmitLine(nbe, " var argCount = paramCount()");
NBE_EmitLine(nbe, " discard Main()");
NBE_EmitLine(nbe, "");
let result: String = NBE_Build(nbe);
return result;
}
} // module NimBackend
-4
View File
@@ -298,10 +298,6 @@ func parserParsePrimary(p: *Parser) -> *Expr {
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
func dummyFunc() -> int {
return 0;
}
// Postfix: call, index, field access, as, is, ? // Postfix: call, index, field access, as, is, ?
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
+11 -1
View File
@@ -71,12 +71,15 @@ Output = "Bin"
```bash ```bash
# Type-check without building # Type-check without building
./buxc check ./buxc check
./buxc check ./myproject
# Build # Build
./buxc build ./buxc build
./buxc build ./myproject
# Build and run # Build and run
./buxc run ./buxc run
./buxc run ./myproject
# Clean build artifacts # Clean build artifacts
./buxc clean ./buxc clean
@@ -136,7 +139,14 @@ bux/
│ │ ├── Io.bux │ │ ├── Io.bux
│ │ ├── Array.bux │ │ ├── Array.bux
│ │ ├── String.bux │ │ ├── String.bux
│ │ ── Map.bux │ │ ── Map.bux
│ │ ├── Fs.bux
│ │ ├── Mem.bux
│ │ ├── Set.bux
│ │ ├── Path.bux
│ │ ├── Math.bux
│ │ ├── Task.bux
│ │ └── Channel.bux
│ ├── runtime.c # C runtime shim │ ├── runtime.c # C runtime shim
│ └── io.c # C I/O functions │ └── io.c # C I/O functions
├── examples/ # Example programs ├── examples/ # Example programs
+142 -5
View File
@@ -22,6 +22,33 @@ Basic I/O and file operations wrapping C stdio.
| `WriteFile` | `func WriteFile(path: String, content: String) -> bool` | Write string to file | | `WriteFile` | `func WriteFile(path: String, content: String) -> bool` | Write string to file |
| `FileExists` | `func FileExists(path: String) -> bool` | Check if file exists | | `FileExists` | `func FileExists(path: String) -> bool` | Check if file exists |
---
## Std::Fs
File system operations beyond basic I/O.
| Function | Signature | Description |
|----------|-----------|-------------|
| `DirExists` | `func DirExists(path: String) -> bool` | Check if directory exists |
| `Mkdir` | `func Mkdir(path: String) -> bool` | Create directory (and parents if needed) |
| `ListDir` | `func ListDir(dir: String, ext: String, count: *int) -> *String` | List files matching extension |
### Example
```bux
import Std::Fs::{DirExists, Mkdir, ListDir};
func Main() -> int {
if DirExists("/tmp") {
PrintLine("/tmp exists");
}
Mkdir("build/output");
var count: int = 0;
let files: *String = ListDir("src", ".bux", &count);
return 0;
}
```
### Example ### Example
```bux ```bux
import Std::Io::{PrintLine, ReadFile, WriteFile}; import Std::Io::{PrintLine, ReadFile, WriteFile};
@@ -114,6 +141,35 @@ String manipulation utilities.
| `String_FromInt` | `func String_FromInt(n: int64) -> String` | Int to string | | `String_FromInt` | `func String_FromInt(n: int64) -> String` | Int to string |
| `String_ToInt` | `func String_ToInt(s: String) -> int64` | String to int | | `String_ToInt` | `func String_ToInt(s: String) -> int64` | String to int |
### Find, Replace & Format
| Function | Signature | Description |
|----------|-----------|-------------|
| `String_Find` | `func String_Find(haystack: String, needle: String) -> String` | Find substring (returns pointer; 0 = not found) |
| `String_Replace` | `func String_Replace(s: String, old: String, new: String) -> String` | Replace first occurrence |
| `String_Format1` | `func String_Format1(pattern: String, a0: String) -> String` | Format with 1 arg (`{0}`) |
| `String_Format2` | `func String_Format2(pattern: String, a0: String, a1: String) -> String` | Format with 2 args |
| `String_Format3` | `func String_Format3(pattern: String, a0: String, a1: String, a2: String) -> String` | Format with 3 args |
### Example
```bux
import Std::String;
func Main() -> int {
let s: String = String_Replace("hello world", "world", "Bux");
PrintLine(s); // "hello Bux"
let fmt: String = String_Format2("{0} + {1} = magic", "Bux", "QBE");
PrintLine(fmt); // "Bux + QBE = magic"
let found: String = String_Find("hello world", "world");
if found as uint != 0 {
PrintLine("found!");
}
return 0;
}
```
--- ---
## Std::StringBuilder ## Std::StringBuilder
@@ -157,6 +213,82 @@ func Main() -> int {
--- ---
## Std::Mem
Memory management wrappers around C runtime functions.
| Function | Signature | Description |
|----------|-----------|-------------|
| `Alloc` | `func Alloc(size: uint) -> *void` | Allocate memory |
| `Realloc` | `func Realloc(ptr: *void, size: uint) -> *void` | Reallocate memory |
| `Free` | `func Free(ptr: *void)` | Free memory |
| `MemEq` | `func MemEq(a: *void, b: *void, size: uint) -> bool` | Byte-wise memory comparison |
| `New` | `func New<T>() -> *T` | Typed allocation (`sizeof(T)` bytes) |
### Example
```bux
import Std::Mem;
func Main() -> int {
let p: *void = Alloc(64);
Free(p);
let n: *int = New<int>();
// use n...
Free(n as *void);
return 0;
}
```
---
## Std::Set
Generic hash set for deduplication and membership testing.
### Types
```bux
struct SetEntry<T> {
value: T,
occupied: bool,
}
struct Set<T> {
entries: *SetEntry<T>,
cap: uint,
len: uint,
}
```
### Functions
| Function | Signature | Description |
|----------|-----------|-------------|
| `Set_New<T>` | `func Set_New<T>(cap: uint) -> Set<T>` | Create set |
| `Set_Add<T>` | `func Set_Add<T>(s: *Set<T>, value: T)` | Insert element (ignores duplicates) |
| `Set_Has<T>` | `func Set_Has<T>(s: *Set<T>, value: T) -> bool` | Check membership |
| `Set_Len<T>` | `func Set_Len<T>(s: *Set<T>) -> uint` | Element count |
| `Set_Free<T>` | `func Set_Free<T>(s: *Set<T>)` | Free memory |
### Example
```bux
import Std::Set;
func Main() -> int {
var s: Set<int> = Set_New<int>(16);
Set_Add(&s, 10);
Set_Add(&s, 20);
Set_Add(&s, 10); // duplicate, ignored
if Set_Has(&s, 10) {
PrintLine("has 10");
}
Set_Free(&s);
return 0;
}
```
---
## Std::Map ## Std::Map
Generic hash map `Map<K, V>` for value-type keys (int, float, etc.). Generic hash map `Map<K, V>` for value-type keys (int, float, etc.).
@@ -317,8 +449,13 @@ func Main() -> int {
- `Std::Result` — Shipped via algebraic enums ✅ - `Std::Result` — Shipped via algebraic enums ✅
- `Std::Option` — Shipped via algebraic enums ✅ - `Std::Option` — Shipped via algebraic enums ✅
- `Std::Math``Sqrt`, `Pow`, `Min`, `Max`, `Abs` - `Std::Math``Sqrt`, `Pow`, `Min`, `Max`, `Abs`
- `Std::Os``Args`, `Env`, `Exit`, `Cwd` - `Std::Fs`Directory operations ✅
- `Std::Fmt`String formatting with interpolation - `Std::Mem`Memory wrappers ✅
- `Std::Iter`Iterator trait and combinators - `Std::Set`Hash set ✅
- `Std::Task` / `Std::Channel` — Lightweight concurrency (pthread-based threads) - `Std::Path` — Path manipulation ✅
- `Std::Os``Args`, `Env`, `Exit`, `Cwd`
- `Std::Process` — Spawn subprocess ⏳
- `Std::Fmt` — String formatting with interpolation ⏳
- `Std::Iter` — Iterator trait and combinators ⏳
- `Std::Task` / `Std::Channel` — Lightweight concurrency (pthread-based threads) ✅
+3 -3
View File
@@ -258,7 +258,7 @@ proc collectDepDecls(lock: Lockfile, root: string, opts: GlobalOptions): seq[Dec
proc cmdCheck*(args: seq[string], opts: GlobalOptions): int = proc cmdCheck*(args: seq[string], opts: GlobalOptions): int =
let useColor = shouldUseColor(opts) let useColor = shouldUseColor(opts)
let root = getCurrentDir() let root = if args.len > 0: absolutePath(args[0]) else: getCurrentDir()
let manifestPath = root / "bux.toml" let manifestPath = root / "bux.toml"
if not fileExists(manifestPath): if not fileExists(manifestPath):
printError("no bux.toml found", useColor) printError("no bux.toml found", useColor)
@@ -415,7 +415,7 @@ proc mergeDecls(stdlibDecls: seq[Decl], userDecls: seq[Decl]): seq[Decl] =
proc cmdBuild*(args: seq[string], opts: GlobalOptions): int = proc cmdBuild*(args: seq[string], opts: GlobalOptions): int =
let useColor = shouldUseColor(opts) let useColor = shouldUseColor(opts)
let root = getCurrentDir() let root = if args.len > 0: absolutePath(args[0]) else: getCurrentDir()
let manifestPath = root / "bux.toml" let manifestPath = root / "bux.toml"
if not fileExists(manifestPath): if not fileExists(manifestPath):
printError("no bux.toml found", useColor) printError("no bux.toml found", useColor)
@@ -554,7 +554,7 @@ proc cmdRun*(args: seq[string], opts: GlobalOptions): int =
let buildRes = cmdBuild(args, opts) let buildRes = cmdBuild(args, opts)
if buildRes != 0: if buildRes != 0:
return buildRes return buildRes
let root = getCurrentDir() let root = if args.len > 0: absolutePath(args[0]) else: getCurrentDir()
let man = loadManifest(root / "bux.toml") let man = loadManifest(root / "bux.toml")
let outputName = if man.name != "": man.name else: "bux_out" let outputName = if man.name != "": man.name else: "bux_out"
let outputFile = root / "build" / outputName let outputFile = root / "build" / outputName
-4
View File
@@ -298,10 +298,6 @@ func parserParsePrimary(p: *Parser) -> *Expr {
} }
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
func dummyFunc() -> int {
return 0;
}
// Postfix: call, index, field access, as, is, ? // Postfix: call, index, field access, as, is, ?
// --------------------------------------------------------------------------- // ---------------------------------------------------------------------------
+19
View File
@@ -0,0 +1,19 @@
module Std::Fs {
extern func bux_dir_exists(path: String) -> int;
extern func bux_mkdir_if_needed(path: String) -> int;
extern func bux_list_dir(dir: String, ext: String, out_count: *int) -> *String;
func DirExists(path: String) -> bool {
return bux_dir_exists(path) != 0;
}
func Mkdir(path: String) -> bool {
return bux_mkdir_if_needed(path) != 0;
}
func ListDir(dir: String, ext: String, count: *int) -> *String {
return bux_list_dir(dir, ext, count);
}
}
+29
View File
@@ -0,0 +1,29 @@
module Std::Mem {
extern func bux_alloc(size: uint) -> *void;
extern func bux_realloc(ptr: *void, size: uint) -> *void;
extern func bux_free(ptr: *void);
extern func bux_mem_eq(a: *void, b: *void, size: uint) -> int;
func Alloc(size: uint) -> *void {
return bux_alloc(size);
}
func Realloc(ptr: *void, size: uint) -> *void {
return bux_realloc(ptr, size);
}
func Free(ptr: *void) {
bux_free(ptr);
}
func MemEq(a: *void, b: *void, size: uint) -> bool {
return bux_mem_eq(a, b, size) != 0;
}
func New<T>() -> *T {
let sz: uint = sizeof(T);
return bux_alloc(sz) as *T;
}
}
+71
View File
@@ -0,0 +1,71 @@
module Std::Set {
extern func bux_hash_bytes(ptr: *void, size: uint) -> uint;
extern func bux_mem_eq(a: *void, b: *void, size: uint) -> int;
extern func bux_alloc(size: uint) -> *void;
extern func bux_free(ptr: *void);
struct SetEntry<T> {
value: T,
occupied: bool,
}
struct Set<T> {
entries: *SetEntry<T>,
cap: uint,
len: uint,
}
func Set_New<T>(cap: uint) -> Set<T> {
let total: uint = cap * sizeof(SetEntry<T>);
let data: *SetEntry<T> = bux_alloc(total) as *SetEntry<T>;
var i: uint = 0;
while i < cap {
data[i].occupied = false;
i = i + 1;
}
return Set<T> { entries: data, cap: cap, len: 0 };
}
func Set_Add<T>(s: *Set<T>, value: T) {
var valuePtr: *T = &value;
let hash: uint = bux_hash_bytes(valuePtr as *void, sizeof(T));
var idx: uint = hash % s.cap;
while s.entries[idx].occupied {
var entryPtr: *T = &s.entries[idx].value;
if bux_mem_eq(entryPtr as *void, valuePtr as *void, sizeof(T)) != 0 {
return;
}
idx = (idx + 1) % s.cap;
}
s.entries[idx].value = value;
s.entries[idx].occupied = true;
s.len = s.len + 1;
}
func Set_Has<T>(s: *Set<T>, value: T) -> bool {
var valuePtr: *T = &value;
let hash: uint = bux_hash_bytes(valuePtr as *void, sizeof(T));
var idx: uint = hash % s.cap;
while s.entries[idx].occupied {
var entryPtr: *T = &s.entries[idx].value;
if bux_mem_eq(entryPtr as *void, valuePtr as *void, sizeof(T)) != 0 {
return true;
}
idx = (idx + 1) % s.cap;
}
return false;
}
func Set_Len<T>(s: *Set<T>) -> uint {
return s.len;
}
func Set_Free<T>(s: *Set<T>) {
bux_free(s.entries as *void);
s.entries = null as *SetEntry<T>;
s.cap = 0;
s.len = 0;
}
}
+35
View File
@@ -24,6 +24,7 @@ extern func bux_sb_free(sb: *void);
extern func bux_str_split_count(s: String, delim: String) -> uint; extern func bux_str_split_count(s: String, delim: String) -> uint;
extern func bux_str_split_part(s: String, delim: String, index: uint) -> String; extern func bux_str_split_part(s: String, delim: String, index: uint) -> String;
extern func bux_str_join2(a: String, b: String, sep: String) -> String; extern func bux_str_join2(a: String, b: String, sep: String) -> String;
extern func bux_str_format(pattern: String, a0: String, a1: String, a2: String, a3: String, a4: String, a5: String, a6: String, a7: String) -> String;
func String_Len(s: String) -> uint { func String_Len(s: String) -> uint {
@@ -155,4 +156,38 @@ func String_Join2(a: String, b: String, sep: String) -> String {
return bux_str_join2(a, b, sep); return bux_str_join2(a, b, sep);
} }
// ---------------------------------------------------------------------------
// String find/replace/format
// ---------------------------------------------------------------------------
func String_Find(haystack: String, needle: String) -> String {
return bux_strstr(haystack, needle);
}
func String_Replace(s: String, old: String, new: String) -> String {
let pos: String = bux_strstr(s, old);
if pos as uint == 0 {
return s;
}
let oldLen: uint = bux_strlen(old);
let prefixLen: uint = pos as uint - s as uint;
let prefix: String = bux_str_slice(s, 0, prefixLen);
let suffix: String = bux_str_slice(s, prefixLen + oldLen, bux_strlen(s) - prefixLen - oldLen);
let temp: String = String_Concat(prefix, new);
let result: String = String_Concat(temp, suffix);
return result;
}
func String_Format1(pattern: String, a0: String) -> String {
return bux_str_format(pattern, a0, "", "", "", "", "", "", "");
}
func String_Format2(pattern: String, a0: String, a1: String) -> String {
return bux_str_format(pattern, a0, a1, "", "", "", "", "", "");
}
func String_Format3(pattern: String, a0: String, a1: String, a2: String) -> String {
return bux_str_format(pattern, a0, a1, a2, "", "", "", "", "");
}
} }