compiler-builtins-zynq/src/int/udiv.rs

use int::{Int, LargeInt};

macro_rules! udivmod_inner {
    ($n:expr, $d:expr, $rem:expr, $ty:ty) => {{
        let (n, d, rem) = ($n, $d, $rem);
        // NOTE X is unknown, K != 0
        if n.high() == 0 {
            if d.high() == 0 {
                // 0 X
                // ---
                // 0 X

                if let Some(rem) = rem {
                    *rem = <$ty>::from(n.low().aborting_rem(d.low()));
                }
                return <$ty>::from(n.low().aborting_div(d.low()))
            } else {
                // 0 X
                // ---
                // K X
                if let Some(rem) = rem {
                    *rem = n;
                }
                return 0;
            };
        }

        let mut sr;
        let mut q;
        let mut r;

        if d.low() == 0 {
            if d.high() == 0 {
                // K X
                // ---
                // 0 0
                // NOTE This should be unreachable in safe Rust because the program will panic before
                // this intrinsic is called
                ::abort();
            }

            if n.low() == 0 {
                // K 0
                // ---
                // K 0
                if let Some(rem) = rem {
                    *rem = <$ty>::from_parts(0, n.high().aborting_rem(d.high()));
                }
                return <$ty>::from(n.high().aborting_div(d.high()))
            }

            // K K
            // ---
            // K 0

            if d.high().is_power_of_two() {
                if let Some(rem) = rem {
                    *rem = <$ty>::from_parts(n.low(), n.high() & (d.high() - 1));
                }
                return <$ty>::from(n.high() >> d.high().trailing_zeros());
            }

            sr = d.high().leading_zeros().wrapping_sub(n.high().leading_zeros());

            // D > N
            if sr > <hty!($ty)>::BITS - 2 {
                if let Some(rem) = rem {
                    *rem = n;
                }
                return 0;
            }

            sr += 1;

            // 1 <= sr <= <hty!($ty)>::BITS - 1
            q = n << (<$ty>::BITS - sr);
            r = n >> sr;
        } else if d.high() == 0 {
            // K X
            // ---
            // 0 K
            if d.low().is_power_of_two() {
                if let Some(rem) = rem {
                    *rem = <$ty>::from(n.low() & (d.low() - 1));
                }

                if d.low() == 1 {
                    return n;
                } else {
                    let sr = d.low().trailing_zeros();
                    return n >> sr;
                };
            }

            sr = 1 + <hty!($ty)>::BITS + d.low().leading_zeros() - n.high().leading_zeros();

            // 2 <= sr <= u64::BITS - 1
            q = n << (<$ty>::BITS - sr);
            r = n >> sr;
        } else {
            // K X
            // ---
            // K K
            sr = d.high().leading_zeros().wrapping_sub(n.high().leading_zeros());

            // D > N
            if sr > <hty!($ty)>::BITS - 1 {
                if let Some(rem) = rem {
                    *rem = n;
                }
                return 0;
            }

            sr += 1;

            // 1 <= sr <= <hty!($ty)>::BITS
            q = n << (<$ty>::BITS - sr);
            r = n >> sr;
        }

        // Not a special case
        // q and r are initialized with
        // q = n << (u64::BITS - sr)
        // r = n >> sr
        // 1 <= sr <= u64::BITS - 1
        let mut carry = 0;

        // Don't use a range because they may generate references to memcpy in unoptimized code
        let mut i = 0;
        while i < sr {
            i += 1;

            // r:q = ((r:q) << 1) | carry
            r = (r << 1) | (q >> (<$ty>::BITS - 1));
            q = (q << 1) | carry as $ty;

            // carry = 0
            // if r >= d {
            //     r -= d;
            //     carry = 1;
            // }
            let s = (d.wrapping_sub(r).wrapping_sub(1)) as os_ty!($ty) >> (<$ty>::BITS - 1);
            carry = (s & 1) as hty!($ty);
            r -= d & s as $ty;
        }

        if let Some(rem) = rem {
            *rem = r;
        }
        (q << 1) | carry as $ty
    }}
}

intrinsics! {
    #[arm_aeabi_alias = __aeabi_uidiv]
    /// Returns `n / d`
    pub extern "C" fn __udivsi3(n: u32, d: u32) -> u32 {
        // Special cases
        if d == 0 {
            // NOTE This should be unreachable in safe Rust because the program will panic before
            // this intrinsic is called
            ::abort();
        }

        if n == 0 {
            return 0;
        }

        let mut sr = d.leading_zeros().wrapping_sub(n.leading_zeros());

        // d > n
        if sr > u32::BITS - 1 {
            return 0;
        }

        // d == 1
        if sr == u32::BITS - 1 {
            return n;
        }

        sr += 1;

        // 1 <= sr <= u32::BITS - 1
        let mut q = n << (u32::BITS - sr);
        let mut r = n >> sr;

        let mut carry = 0;

        // Don't use a range because they may generate references to memcpy in unoptimized code
        let mut i = 0;
        while i < sr {
            i += 1;

            // r:q = ((r:q) << 1) | carry
            r = (r << 1) | (q >> (u32::BITS - 1));
            q = (q << 1) | carry;

            // carry = 0;
            // if r > d {
            //     r -= d;
            //     carry = 1;
            // }

            let s = (d.wrapping_sub(r).wrapping_sub(1)) as i32 >> (u32::BITS - 1);
            carry = (s & 1) as u32;
            r -= d & s as u32;
        }

        (q << 1) | carry
    }

    #[use_c_shim_if(all(target_arch = "arm",
                        not(target_os = "ios"),
                        not(thumbv6m)))]
    /// Returns `n % d`
    pub extern "C" fn __umodsi3(n: u32, d: u32) -> u32 {
        let q = __udivsi3(n, d);
        n - q * d
    }

    #[use_c_shim_if(all(target_arch = "arm",
                        not(target_os = "ios"),
                        not(thumbv6m)))]
    /// Returns `n / d` and sets `*rem = n % d`
    pub extern "C" fn __udivmodsi4(n: u32, d: u32, rem: Option<&mut u32>) -> u32 {
        let q = __udivsi3(n, d);
        if let Some(rem) = rem {
            *rem = n - (q * d);
        }
        q
    }

    #[use_c_shim_if(all(target_arch = "x86", not(target_env = "msvc")))]
    /// Returns `n / d`
    pub extern "C" fn __udivdi3(n: u64, d: u64) -> u64 {
        __udivmoddi4(n, d, None)
    }

    #[use_c_shim_if(all(target_arch = "x86", not(target_env = "msvc")))]
    /// Returns `n % d`
    pub extern "C" fn __umoddi3(n: u64, d: u64) -> u64 {
        let mut rem = 0;
        __udivmoddi4(n, d, Some(&mut rem));
        rem
    }

    #[win64_128bit_abi_hack]
    /// Returns `n / d`
    pub extern "C" fn __udivti3(n: u128, d: u128) -> u128 {
        __udivmodti4(n, d, None)
    }

    #[win64_128bit_abi_hack]
    /// Returns `n % d`
    pub extern "C" fn __umodti3(n: u128, d: u128) -> u128 {
        let mut rem = 0;
        __udivmodti4(n, d, Some(&mut rem));
        rem
    }

    /// Returns `n / d` and sets `*rem = n % d`
    pub extern "C" fn __udivmoddi4(n: u64, d: u64, rem: Option<&mut u64>) -> u64 {
        udivmod_inner!(n, d, rem, u64)
    }

    #[win64_128bit_abi_hack]
    /// Returns `n / d` and sets `*rem = n % d`
    pub extern "C" fn __udivmodti4(n: u128,
                                   d: u128,
                                   rem: Option<&mut u128>) -> u128 {
        udivmod_inner!(n, d, rem, u128)
    }
}

u128_lang_items! {
    #[lang = "u128_div"]
    pub fn rust_u128_div(a: u128, b: u128) -> u128 {
        __udivti3(a, b)
    }
    #[lang = "u128_rem"]
    pub fn rust_u128_rem(a: u128, b: u128) -> u128 {
        __umodti3(a, b)
    }
}
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`use int::{Int, LargeInt};`
Various changes 2016-08-13 16:51:54 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`macro_rules! udivmod_inner {`
			`($n:expr, $d:expr, $rem:expr, $ty:ty) => {{`
			`let (n, d, rem) = ($n, $d, $rem);`
			`// NOTE X is unknown, K != 0`
			`if n.high() == 0 {`
			`if d.high() == 0 {`
			`// 0 X`
			`// ---`
			`// 0 X`

			`if let Some(rem) = rem {`
Remove usage of unwrap_or_else 2017-06-24 12:31:54 +08:00			`*rem = <$ty>::from(n.low().aborting_rem(d.low()));`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`}`
Remove usage of unwrap_or_else 2017-06-24 12:31:54 +08:00			`return <$ty>::from(n.low().aborting_div(d.low()))`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`} else {`
			`// 0 X`
			`// ---`
			`// K X`
			`if let Some(rem) = rem {`
			`*rem = n;`
			`}`
			`return 0;`
			`};`
			`}`
insert more `abort()` calls where division by zero may occur 2016-10-06 09:45:40 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`let mut sr;`
			`let mut q;`
			`let mut r;`

			`if d.low() == 0 {`
			`if d.high() == 0 {`
			`// K X`
			`// ---`
			`// 0 0`
			`// NOTE This should be unreachable in safe Rust because the program will panic before`
			`// this intrinsic is called`
Convert float intrinsics to the `intrinsics!` macro 2017-06-24 02:05:25 +08:00			`::abort();`
Various changes 2016-08-13 16:51:54 +08:00			`}`

Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`if n.low() == 0 {`
			`// K 0`
			`// ---`
			`// K 0`
			`if let Some(rem) = rem {`
Remove usage of unwrap_or_else 2017-06-24 12:31:54 +08:00			`*rem = <$ty>::from_parts(0, n.high().aborting_rem(d.high()));`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`}`
Remove usage of unwrap_or_else 2017-06-24 12:31:54 +08:00			`return <$ty>::from(n.high().aborting_div(d.high()))`
panic! -> abort closes #79 2016-10-01 06:30:05 +08:00			`}`
Various changes 2016-08-13 16:51:54 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`// K K`
Various changes 2016-08-13 16:51:54 +08:00			`// ---`
			`// K 0`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00
			`if d.high().is_power_of_two() {`
			`if let Some(rem) = rem {`
			`*rem = <$ty>::from_parts(n.low(), n.high() & (d.high() - 1));`
			`}`
			`return <$ty>::from(n.high() >> d.high().trailing_zeros());`
Various changes 2016-08-13 16:51:54 +08:00			`}`

Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`sr = d.high().leading_zeros().wrapping_sub(n.high().leading_zeros());`
Various changes 2016-08-13 16:51:54 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`// D > N`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`if sr > <hty!($ty)>::BITS - 2 {`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`if let Some(rem) = rem {`
			`*rem = n;`
			`}`
			`return 0;`
Various changes 2016-08-13 16:51:54 +08:00			`}`

Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`sr += 1;`
Various changes 2016-08-13 16:51:54 +08:00
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// 1 <= sr <= <hty!($ty)>::BITS - 1`
			`q = n << (<$ty>::BITS - sr);`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`r = n >> sr;`
			`} else if d.high() == 0 {`
			`// K X`
			`// ---`
			`// 0 K`
			`if d.low().is_power_of_two() {`
			`if let Some(rem) = rem {`
			`*rem = <$ty>::from(n.low() & (d.low() - 1));`
			`}`

			`if d.low() == 1 {`
			`return n;`
			`} else {`
			`let sr = d.low().trailing_zeros();`
			`return n >> sr;`
			`};`
Various changes 2016-08-13 16:51:54 +08:00			`}`

Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`sr = 1 + <hty!($ty)>::BITS + d.low().leading_zeros() - n.high().leading_zeros();`
Various changes 2016-08-13 16:51:54 +08:00
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// 2 <= sr <= u64::BITS - 1`
			`q = n << (<$ty>::BITS - sr);`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`r = n >> sr;`
			`} else {`
			`// K X`
			`// ---`
			`// K K`
			`sr = d.high().leading_zeros().wrapping_sub(n.high().leading_zeros());`

			`// D > N`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`if sr > <hty!($ty)>::BITS - 1 {`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`if let Some(rem) = rem {`
			`*rem = n;`
			`}`
			`return 0;`
Fix a few clippy warnings 2016-10-16 19:53:31 +08:00			`}`

Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`sr += 1;`
Fix a few clippy warnings 2016-10-16 19:53:31 +08:00
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// 1 <= sr <= <hty!($ty)>::BITS`
			`q = n << (<$ty>::BITS - sr);`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`r = n >> sr;`
			`}`
Various changes 2016-08-13 16:51:54 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`// Not a special case`
			`// q and r are initialized with`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// q = n << (u64::BITS - sr)`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`// r = n >> sr`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// 1 <= sr <= u64::BITS - 1`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`let mut carry = 0;`

Avoid memcpy references in unoptimized code 2017-07-23 05:10:30 +08:00			`// Don't use a range because they may generate references to memcpy in unoptimized code`
			`let mut i = 0;`
			`while i < sr {`
			`i += 1;`

Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`// r:q = ((r:q) << 1) \| carry`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`r = (r << 1) \| (q >> (<$ty>::BITS - 1));`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`q = (q << 1) \| carry as $ty;`

			`// carry = 0`
			`// if r >= d {`
			`// r -= d;`
			`// carry = 1;`
			`// }`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`let s = (d.wrapping_sub(r).wrapping_sub(1)) as os_ty!($ty) >> (<$ty>::BITS - 1);`
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`carry = (s & 1) as hty!($ty);`
			`r -= d & s as $ty;`
			`}`
Various changes 2016-08-13 16:51:54 +08:00
Macro-ify udivmod 2017-01-05 09:22:44 +08:00			`if let Some(rem) = rem {`
			`*rem = r;`
			`}`
			`(q << 1) \| carry as $ty`
			`}}`
			`}`
Various changes 2016-08-13 16:51:54 +08:00
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`intrinsics! {`
Handle aeabi aliasing Objects in compiler-rt may have two symbols, so this makes sure that we don't bring in those objects by accident by defining the aliases ourselves. 2017-06-24 06:16:07 +08:00			`#[arm_aeabi_alias = __aeabi_uidiv]`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			/// Returns `n / d`
			`pub extern "C" fn __udivsi3(n: u32, d: u32) -> u32 {`
			`// Special cases`
			`if d == 0 {`
			`// NOTE This should be unreachable in safe Rust because the program will panic before`
			`// this intrinsic is called`
Convert float intrinsics to the `intrinsics!` macro 2017-06-24 02:05:25 +08:00			`::abort();`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`}`

			`if n == 0 {`
			`return 0;`
			`}`

			`let mut sr = d.leading_zeros().wrapping_sub(n.leading_zeros());`

			`// d > n`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`if sr > u32::BITS - 1 {`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`return 0;`
			`}`

			`// d == 1`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`if sr == u32::BITS - 1 {`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`return n;`
			`}`

			`sr += 1;`

Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`// 1 <= sr <= u32::BITS - 1`
			`let mut q = n << (u32::BITS - sr);`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`let mut r = n >> sr;`

			`let mut carry = 0;`
Avoid memcpy references in unoptimized code 2017-07-23 05:10:30 +08:00
			`// Don't use a range because they may generate references to memcpy in unoptimized code`
			`let mut i = 0;`
			`while i < sr {`
			`i += 1;`

Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`// r:q = ((r:q) << 1) \| carry`
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`r = (r << 1) \| (q >> (u32::BITS - 1));`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`q = (q << 1) \| carry;`

			`// carry = 0;`
			`// if r > d {`
			`// r -= d;`
			`// carry = 1;`
			`// }`
Various changes 2016-08-13 16:51:54 +08:00
Refactor int builtins to use associated consts 2017-09-14 03:01:40 +08:00			`let s = (d.wrapping_sub(r).wrapping_sub(1)) as i32 >> (u32::BITS - 1);`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			`carry = (s & 1) as u32;`
			`r -= d & s as u32;`
u128 udiv intrinsics 2017-01-05 22:08:56 +08:00			`}`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00
			`(q << 1) \| carry`
u128 udiv intrinsics 2017-01-05 22:08:56 +08:00			`}`

Fix thumbv6m build (feature=c) 1. Avoid undefined references as: undefined reference to `__modsi3' undefined reference to `__umodsi3' 2. We can't remove assembly implementations that are not in the list 2018-02-17 00:31:25 +08:00			`#[use_c_shim_if(all(target_arch = "arm",`
			`not(target_os = "ios"),`
			`not(thumbv6m)))]`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			/// Returns `n % d`
			`pub extern "C" fn __umodsi3(n: u32, d: u32) -> u32 {`
			`let q = __udivsi3(n, d);`
			`n - q * d`
			`}`

			`#[use_c_shim_if(all(target_arch = "arm",`
			`not(target_os = "ios"),`
			`not(thumbv6m)))]`
			/// Returns `n / d` and sets `*rem = n % d`
			`pub extern "C" fn __udivmodsi4(n: u32, d: u32, rem: Option<&mut u32>) -> u32 {`
			`let q = __udivsi3(n, d);`
			`if let Some(rem) = rem {`
			`rem = n - (q d);`
			`}`
			`q`
			`}`
u128 udiv intrinsics 2017-01-05 22:08:56 +08:00
Use more intrinsics on msvc 2017-06-23 22:52:38 +08:00			`#[use_c_shim_if(all(target_arch = "x86", not(target_env = "msvc")))]`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			/// Returns `n / d`
			`pub extern "C" fn __udivdi3(n: u64, d: u64) -> u64 {`
			`__udivmoddi4(n, d, None)`
			`}`
u128 udiv intrinsics 2017-01-05 22:08:56 +08:00
Use more intrinsics on msvc 2017-06-23 22:52:38 +08:00			`#[use_c_shim_if(all(target_arch = "x86", not(target_env = "msvc")))]`
Port udiv to the `intrinsics!` macro 2017-06-23 14:23:36 +08:00			/// Returns `n % d`
			`pub extern "C" fn __umoddi3(n: u64, d: u64) -> u64 {`
			`let mut rem = 0;`
			`__udivmoddi4(n, d, Some(&mut rem));`
			`rem`
			`}`

			`#[win64_128bit_abi_hack]`
			/// Returns `n / d`
			`pub extern "C" fn __udivti3(n: u128, d: u128) -> u128 {`
			`__udivmodti4(n, d, None)`
			`}`

			`#[win64_128bit_abi_hack]`
			/// Returns `n % d`
			`pub extern "C" fn __umodti3(n: u128, d: u128) -> u128 {`
			`let mut rem = 0;`
			`__udivmodti4(n, d, Some(&mut rem));`
			`rem`
			`}`

			/// Returns `n / d` and sets `*rem = n % d`
			`pub extern "C" fn __udivmoddi4(n: u64, d: u64, rem: Option<&mut u64>) -> u64 {`
			`udivmod_inner!(n, d, rem, u64)`
			`}`

			`#[win64_128bit_abi_hack]`
			/// Returns `n / d` and sets `*rem = n % d`
			`pub extern "C" fn __udivmodti4(n: u128,`
			`d: u128,`
			`rem: Option<&mut u128>) -> u128 {`
			`udivmod_inner!(n, d, rem, u128)`
			`}`
			`}`
Implement all the 128-bit operator lang items from rust PR 46093 2017-11-25 20:21:05 +08:00
Fix nightly CI Currently we're getting lots of errors about duplicate lang items so deal with this by `#[cfg_attr]`'ing off the lang item attribute in tests. 2017-12-09 00:19:28 +08:00			`u128_lang_items! {`
			`#[lang = "u128_div"]`
			`pub fn rust_u128_div(a: u128, b: u128) -> u128 {`
			`__udivti3(a, b)`
			`}`
			`#[lang = "u128_rem"]`
			`pub fn rust_u128_rem(a: u128, b: u128) -> u128 {`
			`__umodti3(a, b)`
			`}`
Implement all the 128-bit operator lang items from rust PR 46093 2017-11-25 20:21:05 +08:00			`}`