v/vlib/builtin/builtin.v

// Copyright (c) 2019-2020 Alexander Medvednikov. All rights reserved.
// Use of this source code is governed by an MIT license
// that can be found in the LICENSE file.
module builtin

__global (
	g_m2_buf byteptr
	g_m2_ptr byteptr
)

type FnExitCb = fn()
fn C.atexit(f FnExitCb) int

pub fn exit(code int) {
	C.exit(code)
}

// isnil returns true if an object is nil (only for C objects).
pub fn isnil(v voidptr) bool {
	return v == 0
}

/*
fn on_panic(f fn(int)int) {
	// TODO
}
*/

pub fn print_backtrace() {
	// at the time of backtrace_symbols_fd call, the C stack would look something like this:
	// 1 frame for print_backtrace_skipping_top_frames
	// 1 frame for print_backtrace itself
	// ... print the rest of the backtrace frames ...
	// => top 2 frames should be skipped, since they will not be informative to the developer
	print_backtrace_skipping_top_frames(2)
}

// replaces panic when -debug arg is passed
fn panic_debug(line_no int, file, mod, fn_name, s string) {
	// NB: the order here is important for a stabler test output
	// module is less likely to change than function, etc...
	// During edits, the line number will change most frequently,
	// so it is last
	eprintln('================ V panic ================')
	eprintln('   module: $mod')
	eprintln(' function: ${fn_name}()')
	eprintln('  message: $s')
	eprintln('     file: $file')
	eprintln('     line: ' + line_no.str())
	eprintln('=========================================')
	// recent versions of tcc print better backtraces automatically
	$if !tinyc {
		print_backtrace_skipping_top_frames(1)
	}
	break_if_debugger_attached()
	C.exit(1)
}

pub fn panic(s string) {
	eprintln('V panic: $s')
	// recent versions of tcc print better backtraces automatically
	$if !tinyc {
		print_backtrace()
	}
	break_if_debugger_attached()
	C.exit(1)
}

pub fn eprintln(s string) {
	// eprintln is used in panics, so it should not fail at all
	if s.str == 0 {
		eprintln('eprintln(NIL)')
	}
	C.fflush(C.stdout)
	C.fflush(C.stderr)
	C.write(2, s.str, s.len)
	C.write(2, c'\n', 1)
	C.fflush(C.stderr)
}

pub fn eprint(s string) {
	if s.str == 0 {
		eprintln('eprint(NIL)')
	}
	C.fflush(C.stdout)
	C.fflush(C.stderr)
	C.write(2, s.str, s.len)
	C.fflush(C.stderr)
}

pub fn print(s string) {
	C.write(1, s.str, s.len)
}

const (
	new_line_character = '\n'
)

//#include "@VROOT/vlib/darwin/darwin.m"
//fn C.nsstring2(s string) voidptr
//fn C.NSLog(x voidptr)
//#include <asl.h>

fn C.asl_log(voidptr, voidptr, int, charptr)

pub fn println(s string) {
	$if windows {
		print(s)
		print(new_line_character)
	} $else {
		// For debugging .app applications (no way to read stdout) so that it's printed to macOS Console
		/*
		$if macos {
			C.asl_log(0, 0, C.ASL_LEVEL_ERR, s.str)
		}
		*/
		//  TODO: a syscall sys_write on linux works, except for the v repl.
		//  Probably it is a stdio buffering issue. Needs more testing...
		//	$if linux {
		//		$if !android {
		//			snl := s + '\n'
		//			C.syscall(/* sys_write */ 1, /* stdout_value */ 1, snl.str, s.len+1)
		//			return
		//		}
		//	}
		C.printf('%.*s\n', s.len, s.str)
	}
}

__global (
	total_m    = i64(0)
	nr_mallocs = int(0)
)

[unsafe]
pub fn malloc(n int) byteptr {
	if n <= 0 {
		panic('malloc(<=0)')
	}
	$if prealloc {
		//println('p')
		res := g_m2_ptr
		unsafe {
			g_m2_ptr += n
		}
		nr_mallocs++
		return res
	} $else {
		ptr := unsafe {C.malloc(n)}
		if ptr == 0 {
			panic('malloc($n) failed')
		}
		return ptr
	}
	/*
TODO
#ifdef VPLAY
	if n > 10000 {
		panic('allocating more than 10 KB is not allowed in the playground')
	}
#endif
#ifdef DEBUG_ALLOC
	total_m += n
	println('\n\n\nmalloc($n) total=$total_m')
	print_backtrace()
#endif
*/
}

//#include <malloc/malloc.h>
//fn malloc_size(b byteptr) int

[unsafe]
pub fn v_realloc(b byteptr, n u32) byteptr {
	$if prealloc {
		unsafe {
			new_ptr := malloc(int(n))
			size := 0 //malloc_size(b)
			C.memcpy(new_ptr, b, size)
			return new_ptr
		}
	} $else {
		ptr := unsafe {C.realloc(b, n)}
		if ptr == 0 {
			panic('realloc($n) failed')
		}
		return ptr
	}
}

[unsafe]
pub fn v_calloc(n int) byteptr {
	return C.calloc(1, n)
}

[unsafe]
pub fn vcalloc(n int) byteptr {
	if n < 0 {
		panic('calloc(<=0)')
	} else if n == 0 {
		return byteptr(0)
	}
	return C.calloc(1, n)
}

[unsafe]
pub fn free(ptr voidptr) {
	$if prealloc {
		return
	}
	C.free(ptr)
}

pub fn memdup(src voidptr, sz int) voidptr {
	if sz == 0 {
		return vcalloc(1)
	}
	unsafe {
		mem := malloc(sz)
		return C.memcpy(mem, src, sz)
	}
}

fn v_ptr_free(ptr voidptr) {
	$if prealloc {
		return
	}
	C.free(ptr)
}

pub fn is_atty(fd int) int {
	$if windows {
		mut mode := u32(0)
		osfh := voidptr(C._get_osfhandle(fd))
		C.GetConsoleMode(osfh, voidptr(&mode))
		return int(mode)
	} $else {
		return C.isatty(fd)
	}
}

fn __as_cast(obj voidptr, obj_type, expected_type int) voidptr {
	if obj_type != expected_type {
		panic('as cast: cannot cast $obj_type to $expected_type')
	}
	return obj
}

// VAssertMetaInfo is used during assertions. An instance of it
// is filled in by compile time generated code, when an assertion fails.
pub struct VAssertMetaInfo {
pub:
	fpath   string // the source file path of the assertion
	line_nr int    // the line number of the assertion
	fn_name string // the function name in which the assertion is
	src     string // the actual source line of the assertion
	op      string // the operation of the assertion, i.e. '==', '<', 'call', etc ...
	llabel  string // the left side of the infix expressions as source
	rlabel  string // the right side of the infix expressions as source
	lvalue  string // the stringified *actual value* of the left side of a failed assertion
	rvalue  string // the stringified *actual value* of the right side of a failed assertion
}
fn __print_assert_failure(i &VAssertMetaInfo) {
	eprintln('${i.fpath}:${i.line_nr+1}: FAIL: fn ${i.fn_name}: assert ${i.src}')
	if i.op.len > 0 && i.op != 'call' {
		eprintln('   left value: ${i.llabel} = ${i.lvalue}')
		if i.rlabel == i.rvalue {
			eprintln('  right value: $i.rlabel')
		}
		else {
			eprintln('  right value: ${i.rlabel} = ${i.rvalue}')
		}
	}
}

pub struct MethodArgs {
pub:
	typ int
}

pub struct FunctionData {
pub:
	name        string
	attrs       []string
	args        []MethodArgs
	return_type int
	typ         int
}

pub struct FieldData {
pub:
	name   string
	attrs  []string
	is_pub bool
	is_mut bool
	typ    int
}