js: math.big support, f{32,64}_bits,from_bits support, typeof(expr).name support (#11260)

vlib/math/big/big.js.v

@@ -0,0 +1,198 @@
+module big
+
+struct JS.BigInt {}
+
+#const jsNumber = Number;
+
+pub struct Number {
+}
+
+pub fn new() Number {
+	return Number{}
+}
+
+pub fn from_int(i int) Number {
+	n := Number{}
+	#n.value = BigInt(+i)
+
+	return n
+}
+
+pub fn from_u64(u u64) Number {
+	n := Number{}
+	#n.value = BigInt(u.val)
+
+	return n
+}
+
+pub fn from_hex_string(input string) Number {
+	n := Number{}
+	#n.value = BigInt(input.val)
+
+	return n
+}
+
+pub fn from_string(input string) Number {
+	n := Number{}
+	#n.value = BigInt(input.val)
+
+	return n
+}
+
+pub fn (n &Number) int() int {
+	r := 0
+	#r.val = jsNumber(n.val.value)
+
+	return r
+}
+
+pub fn (n &Number) str() string {
+	s := ''
+	#s.str = n.val.value + ""
+
+	return s
+}
+
+pub fn (a &Number) + (b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value + b.val.value
+
+	return c
+}
+
+pub fn (a &Number) - (b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value - b.val.value
+
+	return c
+}
+
+pub fn (a &Number) / (b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value / b.val.value
+
+	return c
+}
+
+pub fn (a &Number) * (b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value * b.val.value
+
+	return c
+}
+
+/*
+pub fn (a &Number) % (b &Number) Number {
+	c := Number{}
+	# c.value = a.val.value % b.val.value
+	return c
+}*/
+
+pub fn divmod(a &Number, b &Number) (Number, Number) {
+	c := Number{}
+	d := Number{}
+	#c.value = a.val.value / b.val.value
+	#d.value = a.val.value % b.val.value
+
+	return c, d
+}
+
+pub fn cmp(a &Number, b &Number) int {
+	res := 0
+
+	#if (a.val.value < b.val.value) res.val = -1
+	#else if (a.val.value > b.val.value) res.val = 1
+	#else res.val = 0
+
+	return res
+}
+
+pub fn (a &Number) is_zero() bool {
+	res := false
+	#res.val = a.val.value == BigInt(0)
+
+	return res
+}
+
+pub fn (mut a Number) inc() {
+	#a.val.value = a.val.value + BigInt(1)
+}
+
+pub fn (mut a Number) dec() {
+	#a.val.value = a.val.value - BigInt(1)
+}
+
+pub fn (a &Number) isqrt() Number {
+	b := Number{}
+	#let x0 = a.val.value >> 1n
+	#if (x0) {
+	#let x1 = (x0 + a.val.value / x0) >> 1n
+	#while (x1 < x0) {
+	#x0 = x1
+	#x1 = (x0 + a.val.value / x0) >> 1n
+	#}
+	#b.value = x0
+	#} else { b.value = a.val.value; }
+
+	return b
+}
+
+pub fn b_and(a &Number, b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value & b.val.value
+
+	return c
+}
+
+pub fn b_or(a &Number, b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value | b.val.value
+
+	return c
+}
+
+pub fn b_xor(a &Number, b &Number) Number {
+	c := Number{}
+	#c.value = a.val.value ^ b.val.value
+
+	return c
+}
+
+pub fn (a &Number) lshift(nbits int) Number {
+	c := Number{}
+	#c.value = a.val.value << BigInt(+nbits)
+
+	return c
+}
+
+pub fn (a &Number) rshift(nbits int) Number {
+	c := Number{}
+	#c.value = a.val.value << BigInt(+nbits)
+
+	return c
+}
+
+pub fn (a &Number) clone() Number {
+	b := Number{}
+	#b.value = a.val.value
+
+	return b
+}
+
+pub fn factorial(nn &Number) Number {
+	mut n := nn.clone()
+	mut a := nn.clone()
+	n.dec()
+	mut i := 1
+	for !n.is_zero() {
+		res := a * n
+		n.dec()
+		a = res
+		i++
+	}
+	return a
+}
+
+pub fn fact(n int) Number {
+	return factorial(from_int(n))
+}

vlib/math/unsafe.js.v

@@ -0,0 +1,59 @@
+module math
+
+// f32_bits returns the IEEE 754 binary representation of f,
+// with the sign bit of f and the result in the same bit position.
+// f32_bits(f32_from_bits(x)) == x.
+pub fn f32_bits(f f32) u32 {
+	p := u32(0)
+	#let buffer = new ArrayBuffer(4)
+	#let floatArr = new Float32Array(buffer)
+	#floatArr[0] = f.val
+	#let uintArr = new Uint32Array(buffer)
+	#p.val = uintArr[0]
+
+	return p
+}
+
+// f32_from_bits returns the floating-point number corresponding
+// to the IEEE 754 binary representation b, with the sign bit of b
+// and the result in the same bit position.
+// f32_from_bits(f32_bits(x)) == x.
+pub fn f32_from_bits(b u32) f32 {
+	p := f32(0.0)
+	#let buffer = new ArrayBuffer(4)
+	#let floatArr = new Float32Array(buffer)
+	#let uintArr = new Uint32Array(buffer)
+	#uintArr[0] = Number(b.val)
+	#p.val = floatArr[0]
+
+	return p
+}
+
+// f64_bits returns the IEEE 754 binary representation of f,
+// with the sign bit of f and the result in the same bit position,
+// and f64_bits(f64_from_bits(x)) == x.
+pub fn f64_bits(f f64) u64 {
+	p := u64(0)
+	#let buffer = new ArrayBuffer(8)
+	#let floatArr = new Float64Array(buffer)
+	#floatArr[0] = f.val
+	#let uintArr = new BigUint64Array(buffer)
+	#p.val = uintArr[0]
+
+	return p
+}
+
+// f64_from_bits returns the floating-point number corresponding
+// to the IEEE 754 binary representation b, with the sign bit of b
+// and the result in the same bit position.
+// f64_from_bits(f64_bits(x)) == x.
+pub fn f64_from_bits(b u64) f64 {
+	p := 0.0
+	#let buffer = new ArrayBuffer(8)
+	#let floatArr = new Float64Array(buffer)
+	#let uintArr = new BigUint64Array(buffer)
+	#uintArr[0] = Number(b.val)
+	#p.val = floatArr[0]
+
+	return p
+}

vlib/v/gen/js/js.v

@@ -1149,7 +1149,7 @@ fn (mut g JsGen) gen_method_decl(it ast.FnDecl) {
 		if args.len > 0 {
 			g.write(', ')
 		}
-		if it.params[0].is_mut {
+		if it.params[0].is_mut || it.params[0].typ.is_ptr() {
 			g.write('${it.params[0].name} = new \$ref(this)')
 		} else {
 			g.write('${it.params[0].name} = this')
@@ -2174,7 +2174,53 @@ fn (mut g JsGen) gen_map_init_expr(it ast.MapInit) {
 	g.write(')')
 }
 
+fn (mut g JsGen) type_name(raw_type ast.Type) {
+	typ := raw_type
+	sym := g.table.get_type_symbol(typ)
+	mut s := ''
+	if sym.kind == .function {
+		// todo: properly print function signatures
+		if typ.is_ptr() {
+			s = '&function'
+		} else {
+			s = 'function'
+		}
+	} else {
+		s = g.table.type_to_str(g.unwrap_generic(typ))
+	}
+	g.write('new builtin.string("$s")')
+}
+
 fn (mut g JsGen) gen_selector_expr(it ast.SelectorExpr) {
+	if it.name_type > 0 {
+		node := it
+		match node.gkind_field {
+			.name {
+				g.type_name(it.name_type)
+				return
+			}
+			.typ {
+				g.write('new builtin.int(')
+
+				g.write('${int(g.unwrap_generic(it.name_type))}')
+				g.write(')')
+				g.write(')')
+				return
+			}
+			.unknown {
+				if node.field_name == 'name' {
+					g.type_name(it.name_type)
+					return
+				} else if node.field_name == 'idx' {
+					g.write('new builtin.int(')
+					g.write('${int(g.unwrap_generic(it.name_type))}')
+					g.write(')')
+					return
+				}
+				panic('unknown generic field $it.pos')
+			}
+		}
+	}
 	g.expr(it.expr)
 	mut ltyp := it.expr_type
 	for ltyp.is_ptr() {