This commit is contained in:
2026-06-06 23:55:02 +02:00
parent 670596e1ff
commit a727a52ffb
8 changed files with 77 additions and 72 deletions

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@@ -46,4 +46,4 @@ func main[] : i64
i += 1 i += 1
mem.free(memory) memory->free()

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@@ -21,8 +21,7 @@ struct CHIP8
display: ptr display: ptr
keyboard_map: Array keyboard_map: Array
func chip8_create[] : CHIP8 func CHIP8.init[c: CHIP8] : void
c := new* CHIP8
c->memory = mem.alloc(4096) c->memory = mem.alloc(4096)
mem.zero(c->memory, 4096) mem.zero(c->memory, 4096)
c->display = mem.alloc(64*32) c->display = mem.alloc(64*32)
@@ -43,18 +42,16 @@ func chip8_create[] : CHIP8
// see KeyboardKey in raylib.h // see KeyboardKey in raylib.h
c->keyboard_map = [49, 50, 51, 52, 53, 265, 32, 263, 264, 262, 87, 69, 82, 84, 89, 85] c->keyboard_map = [49, 50, 51, 52, 53, 265, 32, 263, 264, 262, 87, 69, 82, 84, 89, 85]
return c func CHIP8.free[c: CHIP8] : void
c->memory->free()
func chip8_free[c: CHIP8] : void
mem.free(c->memory)
c->stack->free() c->stack->free()
mem.free(c->reg) c->reg->free()
c->keyboard->free() c->keyboard->free()
mem.free(c->display) c->display->free()
c->keyboard_map->free() c->keyboard_map->free()
mem.free(c) (c as ptr)->free()
func chip8_disassemble[c: CHIP8, ins_count: i64] : void func CHIP8.disassemble[c: CHIP8, ins_count: i64] : void
for i in 0..ins_count for i in 0..ins_count
io.printf("0x%x: ", c->pc) io.printf("0x%x: ", c->pc)
@@ -153,7 +150,7 @@ func chip8_disassemble[c: CHIP8, ins_count: i64] : void
else else
io.printf("??? (%x)\n", ins) io.printf("??? (%x)\n", ins)
func chip8_step[c: CHIP8] : void func CHIP8.step[c: CHIP8] : void
high := c->memory[c->pc] as i64 high := c->memory[c->pc] as i64
low := c->memory[c->pc + 1] as i64 low := c->memory[c->pc + 1] as i64
c->pc += 2 c->pc += 2
@@ -288,7 +285,8 @@ func main[argc: i64, argv: ptr] : i64
io.println("Usage: chip8 -d <path>") io.println("Usage: chip8 -d <path>")
return 1 return 1
c := chip8_create() c := new CHIP8
c->init()
~buffer, ok := io.read_binary_file(path) ~buffer, ok := io.read_binary_file(path)
if !ok if !ok
@@ -298,7 +296,7 @@ func main[argc: i64, argv: ptr] : i64
c->memory[0x200 + i] = buffer->data[i] c->memory[0x200 + i] = buffer->data[i]
if disassemble if disassemble
chip8_disassemble(c, buffer->size / 2) c->disassemble(buffer->size / 2)
return 0 return 0
InitWindow(640, 320, "CHIP-8") InitWindow(640, 320, "CHIP-8")
@@ -312,7 +310,7 @@ func main[argc: i64, argv: ptr] : i64
// TODO: buzzer // TODO: buzzer
for i in 0..25 for i in 0..25
chip8_step(c) c->step()
BeginDrawing() BeginDrawing()

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@@ -41,7 +41,7 @@ func main[argc: i64, argv: ptr] : i64
req->append(host) req->append(host)
req->append("\r\nConnection: close\r\n\r\n") req->append("\r\nConnection: close\r\n\r\n")
net.send(s, req->data, req->size) net.send(s, req->data, req->size)
mem.free(req->data) req->destroy()
header_buf := mem.alloc(8192) as str header_buf := mem.alloc(8192) as str
header_size := 0 header_size := 0
@@ -64,7 +64,7 @@ func main[argc: i64, argv: ptr] : i64
if end_index < header_size if end_index < header_size
io.print_sized(header_buf as ptr + end_index, header_size as i64 - end_index) io.print_sized(header_buf as ptr + end_index, header_size as i64 - end_index)
mem.free(header_buf) header_buf->free()
buffer := mem.alloc(4096) buffer := mem.alloc(4096)
while true while true
@@ -72,6 +72,6 @@ func main[argc: i64, argv: ptr] : i64
if n <= 0 if n <= 0
break break
io.print_sized(buffer, n) io.print_sized(buffer, n)
mem.free(buffer) buffer->free()
net.close(s) net.close(s)

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@@ -8,6 +8,6 @@ func main[] : i64
s_rev := s->reverse() s_rev := s->reverse()
if s->equal(s_rev) if s->equal(s_rev)
out = a * b out = a * b
mem.free(s) s->free()
mem.free(s_rev) s_rev->free()
io.println_i64(out) io.println_i64(out)

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@@ -583,6 +583,10 @@ impl Parser {
let mut expr = self.primary()?; let mut expr = self.primary()?;
loop { loop {
if self.peek().loc.line != self.previous().loc.line {
break;
}
if self.match_token(&[TokenType::LeftParen]) { if self.match_token(&[TokenType::LeftParen]) {
let mut args = vec![]; let mut args = vec![];
if !self.check(&TokenType::RightParen) { if !self.check(&TokenType::RightParen) {

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@@ -78,12 +78,27 @@ struct net.UDPSocket
fd: i64 fd: i64
addr: ptr addr: ptr
func net.UDPSocket.receive[s: net.UDPSocket, size: i64] : net.UDPPacket
pkt := new* net.UDPPacket
pkt->data = mem.alloc(size)
pkt->source_addr = mem.alloc(16)
mem.zero(pkt->source_addr, 16)
addrlen := 16
pkt->size = _builtin_syscall(SYS_recvfrom, s->fd, pkt->data, size, 0, pkt->source_addr, ^addrlen)
return pkt
func net.UDPSocket.close_and_free[s: net.UDPSocket] : void
_builtin_syscall(SYS_close, s->fd)
s->addr->free()
(s as ptr)->free()
func net.create_udp_client[packed_host: i64, port: i64] : net.UDPSocket, bool func net.create_udp_client[packed_host: i64, port: i64] : net.UDPSocket, bool
s := new* net.UDPSocket s := new* net.UDPSocket
s->fd = _builtin_syscall(SYS_socket, AF_INET, SOCK_DGRAM, 0) s->fd = _builtin_syscall(SYS_socket, AF_INET, SOCK_DGRAM, 0)
if s->fd < 0 if s->fd < 0
mem.free(s) s->close_and_free()
return 0 as net.UDPSocket, false return 0 as net.UDPSocket, false
s->addr = mem.alloc(16) s->addr = mem.alloc(16)
@@ -110,24 +125,9 @@ struct net.UDPPacket
size: i64 size: i64
func net.UDPPacket.free[pkt: net.UDPPacket] : void func net.UDPPacket.free[pkt: net.UDPPacket] : void
mem.free(pkt->data) pkt->data->free()
mem.free(pkt->source_addr) pkt->source_addr->free()
mem.free(pkt) (pkt as ptr)->free()
func net.UDPSocket.receive[s: net.UDPSocket, size: i64] : net.UDPPacket
pkt := new* net.UDPPacket
pkt->data = mem.alloc(size)
pkt->source_addr = mem.alloc(16)
mem.zero(pkt->source_addr, 16)
addrlen := 16
pkt->size = _builtin_syscall(SYS_recvfrom, s->fd, pkt->data, size, 0, pkt->source_addr, ^addrlen)
return pkt
func net.UDPSocket.close_and_free[s: net.UDPSocket] : void
_builtin_syscall(SYS_close, s->fd)
mem.free(s->addr)
mem.free(s)
func net.encode_dns_name[domain: str] : Blob func net.encode_dns_name[domain: str] : Blob
domain_len := domain->len() domain_len := domain->len()

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@@ -76,11 +76,11 @@ func mem.alloc[size: i64] : ptr
return blk as ptr + MEM_BLOCK_SIZE return blk as ptr + MEM_BLOCK_SIZE
func mem.free[x: any] : void func ptr.free[x: ptr] : void
if x == 0 if x == 0
return 0 return 0
blk := (x as ptr - MEM_BLOCK_SIZE) as mem.Block blk := (x - MEM_BLOCK_SIZE) as mem.Block
if blk->free if blk->free
return 0 return 0
@@ -129,7 +129,7 @@ func ptr.realloc[x: ptr, new_size: i64] : ptr
panic("mem.realloc: called with negative new_size") panic("mem.realloc: called with negative new_size")
if new_size == 0 if new_size == 0
mem.free(x) x->free()
return 0 as ptr return 0 as ptr
new_size = mem.align(new_size) new_size = mem.align(new_size)
@@ -157,12 +157,12 @@ func ptr.realloc[x: ptr, new_size: i64] : ptr
new_ptr := mem.alloc(new_size) new_ptr := mem.alloc(new_size)
mem.copy(x, new_ptr, math.min(blk->size, new_size)) mem.copy(x, new_ptr, math.min(blk->size, new_size))
mem.free(x) x->free()
return new_ptr return new_ptr
func mem.zero_and_free[x: ptr, size: i64] : void func ptr.zero_and_free[x: ptr, size: i64] : void
mem.zero(x, size) mem.zero(x, size)
mem.free(x) x->free()
func mem.zero[x: ptr, size: i64] : void func mem.zero[x: ptr, size: i64] : void
i := 0 i := 0
@@ -303,7 +303,7 @@ func io.read_line[] : str
break break
b->append_char(c) b->append_char(c)
s := b->build() s := b->build()
mem.free(b->data) b->destroy()
return s return s
func io.file_exists[path: str] : bool func io.file_exists[path: str] : bool
@@ -331,7 +331,7 @@ func io.read_text_file[path: str] : str, bool
_builtin_syscall(SYS_close, fd) _builtin_syscall(SYS_close, fd)
if n != size if n != size
mem.free(buffer) buffer->free()
return 0 as str, false return 0 as str, false
buffer[n] = 0 buffer[n] = 0
@@ -371,6 +371,9 @@ func io.write_binary_file[path: str, content: ptr, size: i64] : bool
return false return false
return true return true
func str.free[s: str] : void
(s as ptr)->free()
func str.len[s: str] : i64 func str.len[s: str] : i64
i := 0 i := 0
while s[i] while s[i]
@@ -643,6 +646,12 @@ func str.Builder.build[b: str.Builder] : str
s[b->size] = 0 s[b->size] = 0
return s return s
func str.Builder.destroy[b: str.Builder] : void
if b->data != 0
b->data->free()
b->size = 0
b->capacity = 0
func u8.is_whitespace[x: u8] : bool func u8.is_whitespace[x: u8] : bool
return x == ' ' || x == '\n' || x == '\t' || x == '\r' return x == ' ' || x == '\n' || x == '\t' || x == '\r'
@@ -821,8 +830,8 @@ func Blob.alloc[size: i64] : Blob
return buffer return buffer
func Blob.free[buf: Blob] : void func Blob.free[buf: Blob] : void
mem.free(buf->data) buf->data->free()
mem.free(buf) (buf as ptr)->free()
struct Array struct Array
data: ptr data: ptr
@@ -861,15 +870,15 @@ func Array.push[xs: Array, x: any] : void
func Array.free[xs: Array] : void func Array.free[xs: Array] : void
if xs->data != 0 if xs->data != 0
mem.free(xs->data) xs->data->free()
mem.free(xs) (xs as ptr)->free()
func Array.free_with_items[xs: Array] : void func Array.free_with_items[xs: Array] : void
if xs->data != 0 if xs->data != 0
for i in 0..xs->size for i in 0..xs->size
mem.free(xs->nth(i)) (xs->nth(i) as ptr)->free()
mem.free(xs->data) xs->data->free()
mem.free(xs) (xs as ptr)->free()
func Array.pop[xs: Array] : any func Array.pop[xs: Array] : any
if xs->size == 0 if xs->size == 0
@@ -922,20 +931,20 @@ func Array.count[arr: Array, item: any] : i64
count += 1 count += 1
return count return count
func Array.map[arr: Array, fn: fnptr] : Array func Array.map[arr: Array, fn: ptr] : Array
out := Array.new_preallocated_and_zeroed(arr->size) out := Array.new_preallocated_and_zeroed(arr->size)
for i in 0..arr->size for i in 0..arr->size
out->set(i, fn(arr->nth(i))) out->set(i, fn(arr->nth(i)))
return out return out
func Array.filter[arr: Array, fn: fnptr] : Array func Array.filter[arr: Array, fn: ptr] : Array
out := [] out := []
for i in 0..arr->size for i in 0..arr->size
if fn(arr->nth(i)) if fn(arr->nth(i))
out->push(arr->nth(i)) out->push(arr->nth(i))
return out return out
func Array.reduce[arr: Array, fn: fnptr, acc: any] : any func Array.reduce[arr: Array, fn: ptr, acc: any] : any
for i in 0..arr->size for i in 0..arr->size
acc = fn(acc, arr->nth(i)) acc = fn(acc, arr->nth(i))
return acc return acc
@@ -994,8 +1003,8 @@ func HashMap.delete[map: HashMap, key: str] : void
else else
map->table->set(index, current->next) map->table->set(index, current->next)
mem.free(current->key) current->key->free()
mem.free(current) (current as ptr)->free()
return 0 return 0
prev = current prev = current
@@ -1014,11 +1023,11 @@ func HashMap.free[map: HashMap] : void
while current as ptr while current as ptr
tmp := current tmp := current
current = current->next current = current->next
mem.free(tmp->key) tmp->key->free()
mem.free(tmp) (tmp as ptr)->free()
map->table->free() map->table->free()
mem.free(map) (map as ptr)->free()
func os.exit[code: i64] : void func os.exit[code: i64] : void
_builtin_syscall(SYS_exit, code) _builtin_syscall(SYS_exit, code)

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@@ -33,7 +33,7 @@ macro_rules! expect_types {
}; };
} }
static BUILTIN_TYPES: [&str; 8] = ["void", "u8", "i64", "str", "bool", "ptr", "fnptr", "any"]; static BUILTIN_TYPES: [&str; 7] = ["void", "u8", "i64", "str", "bool", "ptr", "any"];
pub struct Env { pub struct Env {
scopes: Vec<HashMap<String, Type>>, scopes: Vec<HashMap<String, Type>>,
@@ -481,7 +481,7 @@ impl<'a> TypeChecker<'a> {
Ok(fn_type.return_type.clone()) Ok(fn_type.return_type.clone())
} else { } else {
// its a variable containing function address // its a variable containing function address
expect_type!(self.typecheck_expr(env, callee)?, "fnptr", paren.loc); expect_type!(self.typecheck_expr(env, callee)?, "ptr", paren.loc);
for arg in args { for arg in args {
self.typecheck_expr(env, arg)?; self.typecheck_expr(env, arg)?;
@@ -490,7 +490,7 @@ impl<'a> TypeChecker<'a> {
} }
} else { } else {
// its an expression that evalutes to function address // its an expression that evalutes to function address
expect_type!(self.typecheck_expr(env, callee)?, "fnptr", paren.loc); expect_type!(self.typecheck_expr(env, callee)?, "ptr", paren.loc);
for arg in args { for arg in args {
self.typecheck_expr(env, arg)?; self.typecheck_expr(env, arg)?;
@@ -514,13 +514,7 @@ impl<'a> TypeChecker<'a> {
Ok("u8".into()) Ok("u8".into())
} }
ExprKind::AddrOf { op, expr } => match &expr.kind { ExprKind::AddrOf { op, expr } => match &expr.kind {
ExprKind::Variable(name) => { ExprKind::Variable(_) => Ok("ptr".into()),
if self.symbol_table.functions.contains_key(&name.lexeme) {
Ok("fnptr".into())
} else {
Ok("ptr".into())
}
}
_ => { _ => {
error!(&op.loc, "can only take address of variables and functions") error!(&op.loc, "can only take address of variables and functions")
} }