cgen: properly support reference args in receivers and arithmetic op methods (#10873)
parent
05d0288e8d
commit
f457b94fe4
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@ -103,7 +103,7 @@ jobs:
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run: |
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./v tutorials/building_a_simple_web_blog_with_vweb/code/blog
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- name: Build cmd/tools/fast
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run: cd cmd/tools/fast && v fast.v #&& ./fast
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run: cd cmd/tools/fast && ../../../v fast.v && ./fast
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ubuntu-tcc-boehm-gc:
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runs-on: ubuntu-20.04
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@ -119,8 +119,8 @@ pub fn from_string(input string) Number {
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}
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// .int() converts (a small) big.Number `n` to an ordinary integer.
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pub fn (n Number) int() int {
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r := C.bignum_to_int(&n)
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pub fn (n &Number) int() int {
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r := C.bignum_to_int(n)
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return r
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}
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@ -129,7 +129,7 @@ const (
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)
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// .str returns a decimal representation of the big unsigned integer number n.
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pub fn (n Number) str() string {
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pub fn (n &Number) str() string {
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if n.is_zero() {
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return '0'
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}
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@ -145,13 +145,13 @@ pub fn (n Number) str() string {
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}
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// .hexstr returns a hexadecimal representation of the bignum `n`
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pub fn (n Number) hexstr() string {
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pub fn (n &Number) hexstr() string {
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mut buf := [8192]byte{}
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mut s := ''
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unsafe {
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bp := &buf[0]
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// NB: C.bignum_to_string(), returns the HEXADECIMAL representation of the bignum n
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C.bignum_to_string(&n, &char(bp), 8192)
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C.bignum_to_string(n, &char(bp), 8192)
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s = tos_clone(bp)
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}
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if s.len == 0 {
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@ -162,33 +162,33 @@ pub fn (n Number) hexstr() string {
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// //////////////////////////////////////////////////////////
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// overloaded ops for the numbers:
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pub fn (a Number) + (b Number) Number {
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pub fn (a &Number) + (b &Number) Number {
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c := Number{}
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C.bignum_add(&a, &b, &c)
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C.bignum_add(a, b, &c)
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return c
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}
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pub fn (a Number) - (b Number) Number {
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pub fn (a &Number) - (b &Number) Number {
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c := Number{}
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C.bignum_sub(&a, &b, &c)
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C.bignum_sub(a, b, &c)
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return c
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}
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pub fn (a Number) * (b Number) Number {
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pub fn (a &Number) * (b &Number) Number {
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c := Number{}
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C.bignum_mul(&a, &b, &c)
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C.bignum_mul(a, b, &c)
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return c
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}
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pub fn (a Number) / (b Number) Number {
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pub fn (a &Number) / (b &Number) Number {
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c := Number{}
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C.bignum_div(&a, &b, &c)
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C.bignum_div(a, b, &c)
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return c
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}
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pub fn (a Number) % (b Number) Number {
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pub fn (a &Number) % (b &Number) Number {
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c := Number{}
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C.bignum_mod(&a, &b, &c)
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C.bignum_mod(a, b, &c)
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return c
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}
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@ -199,73 +199,73 @@ pub fn divmod(a &Number, b &Number, c &Number) Number {
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}
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// //////////////////////////////////////////////////////////
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pub fn cmp(a Number, b Number) int {
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return C.bignum_cmp(&a, &b)
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pub fn cmp(a &Number, b &Number) int {
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return C.bignum_cmp(a, b)
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}
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pub fn (a Number) is_zero() bool {
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return C.bignum_is_zero(&a) != 0
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pub fn (a &Number) is_zero() bool {
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return C.bignum_is_zero(a) != 0
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}
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pub fn (mut a Number) inc() {
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C.bignum_inc(a)
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C.bignum_inc(&a)
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}
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pub fn (mut a Number) dec() {
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C.bignum_dec(a)
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C.bignum_dec(&a)
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}
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pub fn pow(a Number, b Number) Number {
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pub fn pow(a &Number, b &Number) Number {
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c := Number{}
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C.bignum_pow(&a, &b, &c)
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C.bignum_pow(a, b, &c)
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return c
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}
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pub fn (a Number) isqrt() Number {
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pub fn (a &Number) isqrt() Number {
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b := Number{}
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C.bignum_isqrt(&a, &b)
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C.bignum_isqrt(a, &b)
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return b
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}
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// //////////////////////////////////////////////////////////
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pub fn b_and(a Number, b Number) Number {
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pub fn b_and(a &Number, b &Number) Number {
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c := Number{}
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C.bignum_and(&a, &b, &c)
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C.bignum_and(a, b, &c)
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return c
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}
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pub fn b_or(a Number, b Number) Number {
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pub fn b_or(a &Number, b &Number) Number {
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c := Number{}
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C.bignum_or(&a, &b, &c)
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C.bignum_or(a, b, &c)
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return c
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}
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pub fn b_xor(a Number, b Number) Number {
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pub fn b_xor(a &Number, b &Number) Number {
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c := Number{}
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C.bignum_xor(&a, &b, &c)
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C.bignum_xor(a, b, &c)
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return c
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}
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pub fn (a Number) lshift(nbits int) Number {
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pub fn (a &Number) lshift(nbits int) Number {
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b := Number{}
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C.bignum_lshift(&a, &b, nbits)
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C.bignum_lshift(a, &b, nbits)
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return b
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}
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pub fn (a Number) rshift(nbits int) Number {
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pub fn (a &Number) rshift(nbits int) Number {
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b := Number{}
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C.bignum_rshift(&a, &b, nbits)
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C.bignum_rshift(a, &b, nbits)
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return b
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}
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pub fn (a Number) clone() Number {
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pub fn (a &Number) clone() Number {
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b := Number{}
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C.bignum_assign(&b, &a)
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C.bignum_assign(&b, a)
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return b
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}
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// //////////////////////////////////////////////////////////
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pub fn factorial(nn Number) Number {
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pub fn factorial(nn &Number) Number {
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mut n := nn.clone()
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mut a := nn.clone()
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n.dec()
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@ -291,9 +291,9 @@ pub fn fact(n int) Number {
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// Example: assert big.from_int(1).bytes()[0] == byte(0x01)
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// Example: assert big.from_int(1024).bytes()[1] == byte(0x04)
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// Example: assert big.from_int(1048576).bytes()[2] == byte(0x10)
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pub fn (n Number) bytes() []byte {
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pub fn (n &Number) bytes() []byte {
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mut res := []byte{len: 128, init: 0}
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unsafe { C.memcpy(res.data, &n, 128) }
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unsafe { C.memcpy(res.data, n, 128) }
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return res
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}
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@ -304,9 +304,9 @@ pub fn (n Number) bytes() []byte {
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// Example: assert big.from_int(1).bytes_trimmed() == [byte(0x01)]
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// Example: assert big.from_int(1024).bytes_trimmed() == [byte(0x00), 0x04]
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// Example: assert big.from_int(1048576).bytes_trimmed() == [byte(0x00), 0x00, 0x10]
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pub fn (n Number) bytes_trimmed() []byte {
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pub fn (n &Number) bytes_trimmed() []byte {
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mut res := []byte{len: 128, init: 0}
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unsafe { C.memcpy(res.data, &n, 128) }
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unsafe { C.memcpy(res.data, n, 128) }
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mut non_zero_idx := 127
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for ; non_zero_idx >= 0; non_zero_idx-- {
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if res[non_zero_idx] != 0 {
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@ -31,6 +31,11 @@ fn test_plus() {
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assert (big.from_u64(1024) + big.from_u64(1024)).hexstr() == '800'
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a += b
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assert a.hexstr() == '5'
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a.inc()
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assert a.hexstr() == '6'
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a.dec()
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a.dec()
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assert a.hexstr() == '4'
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}
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fn test_minus() {
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@ -2606,6 +2606,8 @@ fn (mut g Gen) gen_assign_stmt(assign_stmt ast.AssignStmt) {
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}
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mut str_add := false
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mut op_overloaded := false
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mut op_expected_left := ast.Type(0)
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mut op_expected_right := ast.Type(0)
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if var_type == ast.string_type_idx && assign_stmt.op == .plus_assign {
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if left is ast.IndexExpr {
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// a[0] += str => `array_set(&a, 0, &(string[]) {string__plus(...))})`
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@ -2633,6 +2635,14 @@ fn (mut g Gen) gen_assign_stmt(assign_stmt ast.AssignStmt) {
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}
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g.expr(left)
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g.write(' = ${styp}_${util.replace_op(extracted_op)}(')
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method := g.table.type_find_method(left_sym, extracted_op) or {
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// the checker will most likely have found this, already...
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g.error('assignemnt operator `$extracted_op=` used but no `$extracted_op` method defined',
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assign_stmt.pos)
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ast.Fn{}
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}
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op_expected_left = method.params[0].typ
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op_expected_right = method.params[1].typ
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op_overloaded = true
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}
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if right_sym.kind == .function && is_decl {
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@ -2681,12 +2691,16 @@ fn (mut g Gen) gen_assign_stmt(assign_stmt ast.AssignStmt) {
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g.prevent_sum_type_unwrapping_once = true
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}
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if !is_fixed_array_var || is_decl {
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if op_overloaded {
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g.op_arg(left, op_expected_left, var_type)
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} else {
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if !is_decl && left.is_auto_deref_var() {
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g.write('*')
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}
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g.expr(left)
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}
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}
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}
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if is_inside_ternary && is_decl {
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g.write(';\n$cur_line')
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g.out.write_string(util.tabs(g.indent))
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@ -2769,11 +2783,15 @@ fn (mut g Gen) gen_assign_stmt(assign_stmt ast.AssignStmt) {
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} else {
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if assign_stmt.has_cross_var {
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g.gen_cross_tmp_variable(assign_stmt.left, val)
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} else {
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if op_overloaded {
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g.op_arg(val, op_expected_right, val_type)
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} else {
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g.expr_with_cast(val, val_type, var_type)
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}
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}
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}
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}
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if str_add || op_overloaded {
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g.write(')')
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}
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@ -1272,6 +1272,7 @@ fn (mut g Gen) ref_or_deref_arg(arg ast.CallArg, expected_type ast.Type, lang as
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g.checker_bug('ref_or_deref_arg expected_type is 0', arg.pos)
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}
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exp_sym := g.table.get_type_symbol(expected_type)
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mut needs_closing := false
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if arg.is_mut && !arg_is_ptr {
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g.write('&/*mut*/')
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} else if arg_is_ptr && !expr_is_ptr {
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@ -1303,7 +1304,12 @@ fn (mut g Gen) ref_or_deref_arg(arg ast.CallArg, expected_type ast.Type, lang as
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deref_sym := g.table.get_type_symbol(expected_deref_type)
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if !((arg_typ_sym.kind == .function)
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|| deref_sym.kind in [.sum_type, .interface_]) && lang != .c {
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if arg.expr.is_lvalue() {
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g.write('(voidptr)&/*qq*/')
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} else {
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needs_closing = true
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g.write('ADDR(${g.typ(expected_deref_type)}/*qq*/, ')
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}
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}
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}
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} else if arg.typ.has_flag(.shared_f) && !expected_type.has_flag(.shared_f) {
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@ -1315,6 +1321,9 @@ fn (mut g Gen) ref_or_deref_arg(arg ast.CallArg, expected_type ast.Type, lang as
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return
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}
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g.expr_with_cast(arg.expr, arg.typ, expected_type)
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if needs_closing {
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g.write(')')
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}
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}
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fn (mut g Gen) is_gui_app() bool {
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@ -425,21 +425,19 @@ fn (mut g Gen) infix_expr_is_op(node ast.InfixExpr) {
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fn (mut g Gen) infix_expr_arithmetic_op(node ast.InfixExpr) {
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left := g.unwrap(node.left_type)
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right := g.unwrap(node.right_type)
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has_operator_overloading := g.table.type_has_method(left.sym, node.op.str())
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if left.sym.kind == right.sym.kind && has_operator_overloading {
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g.write(g.typ(left.typ.set_nr_muls(0)))
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method := g.table.type_find_method(left.sym, node.op.str()) or {
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g.gen_plain_infix_expr(node)
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return
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}
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left_styp := g.typ(left.typ.set_nr_muls(0))
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g.write(left_styp)
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g.write('_')
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g.write(util.replace_op(node.op.str()))
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g.write('(')
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g.write('*'.repeat(left.typ.nr_muls()))
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g.expr(node.left)
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g.op_arg(node.left, method.params[0].typ, left.typ)
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g.write(', ')
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g.write('*'.repeat(right.typ.nr_muls()))
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g.expr(node.right)
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g.op_arg(node.right, method.params[1].typ, right.typ)
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g.write(')')
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} else {
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g.gen_plain_infix_expr(node)
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}
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}
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// infix_expr_left_shift_op generates code for the `<<` operator
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@ -515,6 +513,29 @@ fn (mut g Gen) gen_plain_infix_expr(node ast.InfixExpr) {
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g.expr_with_cast(node.right, node.right_type, node.left_type)
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}
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fn (mut g Gen) op_arg(expr ast.Expr, expected ast.Type, got ast.Type) {
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mut needs_closing := false
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mut nr_muls := got.nr_muls()
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if expected.is_ptr() {
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if nr_muls > 0 {
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nr_muls--
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} else {
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if expr.is_lvalue() {
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g.write('&')
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} else {
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styp := g.typ(got.set_nr_muls(0))
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g.write('ADDR($styp, ')
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needs_closing = true
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}
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}
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}
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g.write('*'.repeat(nr_muls))
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g.expr(expr)
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if needs_closing {
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g.write(')')
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}
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}
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struct GenSafeIntegerCfg {
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op token.Kind
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reverse bool
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