rust/src/primval.rs

#![allow(unknown_lints)]
#![allow(float_cmp)]

use rustc::mir::repr as mir;

use error::{EvalError, EvalResult};
use memory::Pointer;

#[derive(Clone, Copy, Debug, PartialEq)]
pub enum PrimVal {
    Bool(bool),
    I8(i8), I16(i16), I32(i32), I64(i64),
    U8(u8), U16(u16), U32(u32), U64(u64),

    Ptr(Pointer),
    FnPtr(Pointer),
    IntegerPtr(u64),
    Char(char),

    F32(f32), F64(f64),
}

macro_rules! declare_expect_fn {
    ($name:ident, $variant:ident, $t:ty) => (
        pub fn $name(self, error_msg: &str) -> $t {
            match self {
                PrimVal::$variant(x) => x,
                _ => bug!("{}", error_msg),
            }
        }
    );
}

impl PrimVal {
    declare_expect_fn!(expect_bool, Bool, bool);
    declare_expect_fn!(expect_fn_ptr, FnPtr, Pointer);

    pub fn expect_uint(self, error_msg: &str) -> u64 {
        use self::PrimVal::*;
        match self {
            U8(u)  => u as u64,
            U16(u) => u as u64,
            U32(u) => u as u64,
            U64(u) => u,
            _ => bug!("{}", error_msg),
        }
    }
}

/// returns the result of the operation and whether the operation overflowed
pub fn binary_op<'tcx>(bin_op: mir::BinOp, left: PrimVal, right: PrimVal) -> EvalResult<'tcx, (PrimVal, bool)> {
    use rustc::mir::repr::BinOp::*;
    use self::PrimVal::*;

    macro_rules! overflow {
        ($v:ident, $v2:ident, $l:ident, $op:ident, $r:ident) => ({
            let (val, of) = $l.$op($r);
            if of {
                return Ok(($v(val), true));
            } else {
                $v(val)
            }
        })
    }

    macro_rules! int_binops {
        ($v:ident, $l:ident, $r:ident) => ({
            match bin_op {
                Add    => overflow!($v, $v, $l, overflowing_add, $r),
                Sub    => overflow!($v, $v, $l, overflowing_sub, $r),
                Mul    => overflow!($v, $v, $l, overflowing_mul, $r),
                Div    => overflow!($v, $v, $l, overflowing_div, $r),
                Rem    => overflow!($v, $v, $l, overflowing_rem, $r),
                BitXor => $v($l ^ $r),
                BitAnd => $v($l & $r),
                BitOr  => $v($l | $r),

                // these have already been handled
                Shl | Shr => bug!("`{}` operation should already have been handled", bin_op.to_hir_binop().as_str()),

                Eq => Bool($l == $r),
                Ne => Bool($l != $r),
                Lt => Bool($l < $r),
                Le => Bool($l <= $r),
                Gt => Bool($l > $r),
                Ge => Bool($l >= $r),
            }
        })
    }

    macro_rules! float_binops {
        ($v:ident, $l:ident, $r:ident) => ({
            match bin_op {
                Add    => $v($l + $r),
                Sub    => $v($l - $r),
                Mul    => $v($l * $r),
                Div    => $v($l / $r),
                Rem    => $v($l % $r),

                // invalid float ops
                BitXor | BitAnd | BitOr |
                Shl | Shr => bug!("`{}` is not a valid operation on floats", bin_op.to_hir_binop().as_str()),

                Eq => Bool($l == $r),
                Ne => Bool($l != $r),
                Lt => Bool($l < $r),
                Le => Bool($l <= $r),
                Gt => Bool($l > $r),
                Ge => Bool($l >= $r),
            }
        })
    }

    fn unrelated_ptr_ops<'tcx>(bin_op: mir::BinOp) -> EvalResult<'tcx, PrimVal> {
        use rustc::mir::repr::BinOp::*;
        match bin_op {
            Eq => Ok(Bool(false)),
            Ne => Ok(Bool(true)),
            Lt | Le | Gt | Ge => Err(EvalError::InvalidPointerMath),
            _ => unimplemented!(),
        }
    }

    match bin_op {
        // can have rhs with a different numeric type
        Shl | Shr => {
            // these numbers are the maximum number a bitshift rhs could possibly have
            // e.g. u16 can be bitshifted by 0..16, so masking with 0b1111 (16 - 1) will ensure we are in that range
            let type_bits: u32 = match left {
                I8(_) | U8(_) => 8,
                I16(_) | U16(_) => 16,
                I32(_) | U32(_) => 32,
                I64(_) | U64(_) => 64,
                _ => bug!("bad MIR: bitshift lhs is not integral"),
            };
            assert!(type_bits.is_power_of_two());
            // turn into `u32` because `overflowing_sh{l,r}` only take `u32`
            let r = match right {
                I8(i) => i as u32,
                I16(i) => i as u32,
                I32(i) => i as u32,
                I64(i) => i as u32,
                U8(i) => i as u32,
                U16(i) => i as u32,
                U32(i) => i as u32,
                U64(i) => i as u32,
                _ => bug!("bad MIR: bitshift rhs is not integral"),
            };
            // apply mask
            let r = r & (type_bits - 1);
            macro_rules! shift {
                ($v:ident, $l:ident, $r:ident) => ({
                    match bin_op {
                        Shl => overflow!($v, U32, $l, overflowing_shl, $r),
                        Shr => overflow!($v, U32, $l, overflowing_shr, $r),
                        _ => bug!("it has already been checked that this is a shift op"),
                    }
                })
            }
            let val = match left {
                I8(l) => shift!(I8, l, r),
                I16(l) => shift!(I16, l, r),
                I32(l) => shift!(I32, l, r),
                I64(l) => shift!(I64, l, r),
                U8(l) => shift!(U8, l, r),
                U16(l) => shift!(U16, l, r),
                U32(l) => shift!(U32, l, r),
                U64(l) => shift!(U64, l, r),
                _ => bug!("bad MIR: bitshift lhs is not integral (should already have been checked)"),
            };
            return Ok((val, false));
        },
        _ => {},
    }

    let val = match (left, right) {
        (I8(l),  I8(r))  => int_binops!(I8, l, r),
        (I16(l), I16(r)) => int_binops!(I16, l, r),
        (I32(l), I32(r)) => int_binops!(I32, l, r),
        (I64(l), I64(r)) => int_binops!(I64, l, r),
        (U8(l),  U8(r))  => int_binops!(U8, l, r),
        (U16(l), U16(r)) => int_binops!(U16, l, r),
        (U32(l), U32(r)) => int_binops!(U32, l, r),
        (U64(l), U64(r)) => int_binops!(U64, l, r),
        (F32(l), F32(r)) => float_binops!(F32, l, r),
        (F64(l), F64(r)) => float_binops!(F64, l, r),
        (Char(l), Char(r)) => match bin_op {
            Eq => Bool(l == r),
            Ne => Bool(l != r),
            Lt => Bool(l < r),
            Le => Bool(l <= r),
            Gt => Bool(l > r),
            Ge => Bool(l >= r),
            _ => bug!("invalid char op: {:?}", bin_op),
        },

        (Bool(l), Bool(r)) => {
            Bool(match bin_op {
                Eq => l == r,
                Ne => l != r,
                Lt => l < r,
                Le => l <= r,
                Gt => l > r,
                Ge => l >= r,
                BitOr => l | r,
                BitXor => l ^ r,
                BitAnd => l & r,
                Add | Sub | Mul | Div | Rem | Shl | Shr => return Err(EvalError::InvalidBoolOp(bin_op)),
            })
        }

        (IntegerPtr(l), IntegerPtr(r)) => int_binops!(IntegerPtr, l, r),

        (Ptr(_), IntegerPtr(_)) |
        (IntegerPtr(_), Ptr(_)) |
        (FnPtr(_), Ptr(_)) |
        (Ptr(_), FnPtr(_)) |
        (FnPtr(_), IntegerPtr(_)) |
        (IntegerPtr(_), FnPtr(_)) =>
            unrelated_ptr_ops(bin_op)?,

        (FnPtr(l_ptr), FnPtr(r_ptr)) => match bin_op {
            Eq => Bool(l_ptr == r_ptr),
            Ne => Bool(l_ptr != r_ptr),
            _ => return Err(EvalError::Unimplemented(format!("unimplemented fn ptr comparison: {:?}", bin_op))),
        },

        (Ptr(l_ptr), Ptr(r_ptr)) => {
            if l_ptr.alloc_id != r_ptr.alloc_id {
                return Ok((unrelated_ptr_ops(bin_op)?, false));
            }

            let l = l_ptr.offset;
            let r = r_ptr.offset;

            match bin_op {
                Eq => Bool(l == r),
                Ne => Bool(l != r),
                Lt => Bool(l < r),
                Le => Bool(l <= r),
                Gt => Bool(l > r),
                Ge => Bool(l >= r),
                _ => return Err(EvalError::Unimplemented(format!("unimplemented ptr op: {:?}", bin_op))),
            }
        }

        (l, r) => return Err(EvalError::Unimplemented(format!("unimplemented binary op: {:?}, {:?}, {:?}", l, r, bin_op))),
    };

    Ok((val, false))
}

pub fn unary_op<'tcx>(un_op: mir::UnOp, val: PrimVal) -> EvalResult<'tcx, PrimVal> {
    use rustc::mir::repr::UnOp::*;
    use self::PrimVal::*;
    match (un_op, val) {
        (Not, Bool(b)) => Ok(Bool(!b)),
        (Not, I8(n))  => Ok(I8(!n)),
        (Neg, I8(n))  => Ok(I8(-n)),
        (Not, I16(n)) => Ok(I16(!n)),
        (Neg, I16(n)) => Ok(I16(-n)),
        (Not, I32(n)) => Ok(I32(!n)),
        (Neg, I32(n)) => Ok(I32(-n)),
        (Not, I64(n)) => Ok(I64(!n)),
        (Neg, I64(n)) => Ok(I64(-n)),
        (Not, U8(n))  => Ok(U8(!n)),
        (Not, U16(n)) => Ok(U16(!n)),
        (Not, U32(n)) => Ok(U32(!n)),
        (Not, U64(n)) => Ok(U64(!n)),

        (Neg, F64(n)) => Ok(F64(-n)),
        (Neg, F32(n)) => Ok(F32(-n)),
        _ => Err(EvalError::Unimplemented(format!("unimplemented unary op: {:?}, {:?}", un_op, val))),
    }
}
clippy 2016-07-07 06:19:17 -05:00			`#![allow(unknown_lints)]`
			`#![allow(float_cmp)]`

Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`use rustc::mir::repr as mir;`

Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`use error::{EvalError, EvalResult};`
			`use memory::Pointer;`

Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`#[derive(Clone, Copy, Debug, PartialEq)]`
			`pub enum PrimVal {`
			`Bool(bool),`
Add unsigned integers. 2016-03-15 00:03:31 -05:00			`I8(i8), I16(i16), I32(i32), I64(i64),`
			`U8(u8), U16(u16), U32(u32), U64(u64),`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00
Rename AbstractPtr to Ptr. 2016-09-22 00:23:50 -05:00			`Ptr(Pointer),`
fix comparing of function pointers 2016-06-20 03:35:15 -05:00			`FnPtr(Pointer),`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`IntegerPtr(u64),`
implement char handling 2016-06-20 05:29:45 -05:00			`Char(char),`
implement floats by running the ops on the host architecture 2016-07-05 02:08:24 -05:00
			`F32(f32), F64(f64),`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`}`

Remove a few instances of eval_operand_to_ptr. 2016-09-19 20:01:28 -05:00			`macro_rules! declare_expect_fn {`
			`($name:ident, $variant:ident, $t:ty) => (`
			`pub fn $name(self, error_msg: &str) -> $t {`
			`match self {`
			`PrimVal::$variant(x) => x,`
			`_ => bug!("{}", error_msg),`
			`}`
			`}`
			`);`
			`}`

Replace const_to_ptr with const_to_value. This reduces the number of allocations Miri makes drastically. The `const_to_ptr` function was a lame hack that allocated for every since simple constant, and all of those are avoided now, except for one extra allocation each for string and bytestring literals which will be fixed in a followup commit. There are a number of hacks such as `eval_operand_to_ptr` left over from this commit, which will also be fixed in followup commits. 2016-09-19 03:19:31 -05:00			`impl PrimVal {`
Remove a few instances of eval_operand_to_ptr. 2016-09-19 20:01:28 -05:00			`declare_expect_fn!(expect_bool, Bool, bool);`
			`declare_expect_fn!(expect_fn_ptr, FnPtr, Pointer);`

			`pub fn expect_uint(self, error_msg: &str) -> u64 {`
			`use self::PrimVal::*;`
Replace const_to_ptr with const_to_value. This reduces the number of allocations Miri makes drastically. The `const_to_ptr` function was a lame hack that allocated for every since simple constant, and all of those are avoided now, except for one extra allocation each for string and bytestring literals which will be fixed in a followup commit. There are a number of hacks such as `eval_operand_to_ptr` left over from this commit, which will also be fixed in followup commits. 2016-09-19 03:19:31 -05:00			`match self {`
Remove a few instances of eval_operand_to_ptr. 2016-09-19 20:01:28 -05:00			`U8(u) => u as u64,`
			`U16(u) => u as u64,`
			`U32(u) => u as u64,`
			`U64(u) => u,`
Replace const_to_ptr with const_to_value. This reduces the number of allocations Miri makes drastically. The `const_to_ptr` function was a lame hack that allocated for every since simple constant, and all of those are avoided now, except for one extra allocation each for string and bytestring literals which will be fixed in a followup commit. There are a number of hacks such as `eval_operand_to_ptr` left over from this commit, which will also be fixed in followup commits. 2016-09-19 03:19:31 -05:00			`_ => bug!("{}", error_msg),`
			`}`
			`}`
			`}`

rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`/// returns the result of the operation and whether the operation overflowed`
			`pub fn binary_op<'tcx>(bin_op: mir::BinOp, left: PrimVal, right: PrimVal) -> EvalResult<'tcx, (PrimVal, bool)> {`
Implement boolean binops. 2016-04-23 01:39:38 -05:00			`use rustc::mir::repr::BinOp::*;`
			`use self::PrimVal::*;`

implement overflowing ops 2016-06-17 06:09:20 -05:00			`macro_rules! overflow {`
			`($v:ident, $v2:ident, $l:ident, $op:ident, $r:ident) => ({`
			`let (val, of) = $l.$op($r);`
			`if of {`
rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`return Ok(($v(val), true));`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`} else {`
			`$v(val)`
			`}`
			`})`
			`}`

Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`macro_rules! int_binops {`
			`($v:ident, $l:ident, $r:ident) => ({`
			`match bin_op {`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`Add => overflow!($v, $v, $l, overflowing_add, $r),`
			`Sub => overflow!($v, $v, $l, overflowing_sub, $r),`
			`Mul => overflow!($v, $v, $l, overflowing_mul, $r),`
			`Div => overflow!($v, $v, $l, overflowing_div, $r),`
			`Rem => overflow!($v, $v, $l, overflowing_rem, $r),`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`BitXor => $v($l ^ $r),`
			`BitAnd => $v($l & $r),`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`BitOr => $v($l \| $r),`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00
implement overflowing ops 2016-06-17 06:09:20 -05:00			`// these have already been handled`
forgot to insert a {} into the format string 2016-09-07 03:43:13 -05:00			Shl \| Shr => bug!("`{}` operation should already have been handled", bin_op.to_hir_binop().as_str()),
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00
			`Eq => Bool($l == $r),`
			`Ne => Bool($l != $r),`
			`Lt => Bool($l < $r),`
			`Le => Bool($l <= $r),`
			`Gt => Bool($l > $r),`
			`Ge => Bool($l >= $r),`
			`}`
			`})`
			`}`

implement floats by running the ops on the host architecture 2016-07-05 02:08:24 -05:00			`macro_rules! float_binops {`
			`($v:ident, $l:ident, $r:ident) => ({`
			`match bin_op {`
			`Add => $v($l + $r),`
			`Sub => $v($l - $r),`
			`Mul => $v($l * $r),`
			`Div => $v($l / $r),`
			`Rem => $v($l % $r),`

			`// invalid float ops`
DRY 2016-09-07 03:30:49 -05:00			`BitXor \| BitAnd \| BitOr \|`
			Shl \| Shr => bug!("`{}` is not a valid operation on floats", bin_op.to_hir_binop().as_str()),
implement floats by running the ops on the host architecture 2016-07-05 02:08:24 -05:00
			`Eq => Bool($l == $r),`
			`Ne => Bool($l != $r),`
			`Lt => Bool($l < $r),`
			`Le => Bool($l <= $r),`
			`Gt => Bool($l > $r),`
			`Ge => Bool($l >= $r),`
			`}`
			`})`
			`}`

forbid calling functions through pointers of a different type 2016-06-14 03:34:54 -05:00			`fn unrelated_ptr_ops<'tcx>(bin_op: mir::BinOp) -> EvalResult<'tcx, PrimVal> {`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`use rustc::mir::repr::BinOp::*;`
			`match bin_op {`
			`Eq => Ok(Bool(false)),`
			`Ne => Ok(Bool(true)),`
			`Lt \| Le \| Gt \| Ge => Err(EvalError::InvalidPointerMath),`
			`_ => unimplemented!(),`
			`}`
			`}`

implement overflowing ops 2016-06-17 06:09:20 -05:00			`match bin_op {`
			`// can have rhs with a different numeric type`
			`Shl \| Shr => {`
simplify even more 2016-06-20 11:15:33 -05:00			`// these numbers are the maximum number a bitshift rhs could possibly have`
			`// e.g. u16 can be bitshifted by 0..16, so masking with 0b1111 (16 - 1) will ensure we are in that range`
			`let type_bits: u32 = match left {`
			`I8(_) \| U8(_) => 8,`
			`I16(_) \| U16(_) => 16,`
			`I32(_) \| U32(_) => 32,`
			`I64(_) \| U64(_) => 64,`
replace all `unreachable!` and `panic!` calls with `bug!` 2016-09-06 09:16:49 -05:00			`_ => bug!("bad MIR: bitshift lhs is not integral"),`
implement bit masks as the compiler would translate them 2016-06-20 10:16:45 -05:00			`};`
simplify even more 2016-06-20 11:15:33 -05:00			`assert!(type_bits.is_power_of_two());`
			// turn into `u32` because `overflowing_sh{l,r}` only take `u32`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`let r = match right {`
simplify even more 2016-06-20 11:15:33 -05:00			`I8(i) => i as u32,`
			`I16(i) => i as u32,`
			`I32(i) => i as u32,`
			`I64(i) => i as u32,`
			`U8(i) => i as u32,`
			`U16(i) => i as u32,`
			`U32(i) => i as u32,`
			`U64(i) => i as u32,`
replace all `unreachable!` and `panic!` calls with `bug!` 2016-09-06 09:16:49 -05:00			`_ => bug!("bad MIR: bitshift rhs is not integral"),`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`};`
simplify even more 2016-06-20 11:15:33 -05:00			`// apply mask`
			`let r = r & (type_bits - 1);`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`macro_rules! shift {`
			`($v:ident, $l:ident, $r:ident) => ({`
			`match bin_op {`
			`Shl => overflow!($v, U32, $l, overflowing_shl, $r),`
			`Shr => overflow!($v, U32, $l, overflowing_shr, $r),`
replace all `unreachable!` and `panic!` calls with `bug!` 2016-09-06 09:16:49 -05:00			`_ => bug!("it has already been checked that this is a shift op"),`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`}`
			`})`
			`}`
			`let val = match left {`
			`I8(l) => shift!(I8, l, r),`
			`I16(l) => shift!(I16, l, r),`
			`I32(l) => shift!(I32, l, r),`
			`I64(l) => shift!(I64, l, r),`
			`U8(l) => shift!(U8, l, r),`
			`U16(l) => shift!(U16, l, r),`
			`U32(l) => shift!(U32, l, r),`
			`U64(l) => shift!(U64, l, r),`
replace all `unreachable!` and `panic!` calls with `bug!` 2016-09-06 09:16:49 -05:00			`_ => bug!("bad MIR: bitshift lhs is not integral (should already have been checked)"),`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`};`
rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`return Ok((val, false));`
implement overflowing ops 2016-06-17 06:09:20 -05:00			`},`
			`_ => {},`
			`}`

Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`let val = match (left, right) {`
Add unsigned integers. 2016-03-15 00:03:31 -05:00			`(I8(l), I8(r)) => int_binops!(I8, l, r),`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`(I16(l), I16(r)) => int_binops!(I16, l, r),`
			`(I32(l), I32(r)) => int_binops!(I32, l, r),`
			`(I64(l), I64(r)) => int_binops!(I64, l, r),`
Add unsigned integers. 2016-03-15 00:03:31 -05:00			`(U8(l), U8(r)) => int_binops!(U8, l, r),`
			`(U16(l), U16(r)) => int_binops!(U16, l, r),`
			`(U32(l), U32(r)) => int_binops!(U32, l, r),`
			`(U64(l), U64(r)) => int_binops!(U64, l, r),`
implement floats by running the ops on the host architecture 2016-07-05 02:08:24 -05:00			`(F32(l), F32(r)) => float_binops!(F32, l, r),`
			`(F64(l), F64(r)) => float_binops!(F64, l, r),`
implement char handling 2016-06-20 05:29:45 -05:00			`(Char(l), Char(r)) => match bin_op {`
			`Eq => Bool(l == r),`
			`Ne => Bool(l != r),`
			`Lt => Bool(l < r),`
			`Le => Bool(l <= r),`
			`Gt => Bool(l > r),`
			`Ge => Bool(l >= r),`
replace all `unreachable!` and `panic!` calls with `bug!` 2016-09-06 09:16:49 -05:00			`_ => bug!("invalid char op: {:?}", bin_op),`
implement char handling 2016-06-20 05:29:45 -05:00			`},`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00
Implement boolean binops. 2016-04-23 01:39:38 -05:00			`(Bool(l), Bool(r)) => {`
			`Bool(match bin_op {`
			`Eq => l == r,`
			`Ne => l != r,`
			`Lt => l < r,`
			`Le => l <= r,`
			`Gt => l > r,`
			`Ge => l >= r,`
Add missing boolean binops. 2016-04-23 21:13:00 -05:00			`BitOr => l \| r,`
			`BitXor => l ^ r,`
			`BitAnd => l & r,`
replace `panic!`s with `Result` 2016-05-30 08:27:52 -05:00			`Add \| Sub \| Mul \| Div \| Rem \| Shl \| Shr => return Err(EvalError::InvalidBoolOp(bin_op)),`
Implement boolean binops. 2016-04-23 01:39:38 -05:00			`})`
			`}`

Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`(IntegerPtr(l), IntegerPtr(r)) => int_binops!(IntegerPtr, l, r),`

Rename AbstractPtr to Ptr. 2016-09-22 00:23:50 -05:00			`(Ptr(_), IntegerPtr(_)) \|`
			`(IntegerPtr(_), Ptr(_)) \|`
			`(FnPtr(_), Ptr(_)) \|`
			`(Ptr(_), FnPtr(_)) \|`
fix comparing of function pointers 2016-06-20 03:35:15 -05:00			`(FnPtr(_), IntegerPtr(_)) \|`
			`(IntegerPtr(_), FnPtr(_)) =>`
rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`unrelated_ptr_ops(bin_op)?,`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00
fix comparing of function pointers 2016-06-20 03:35:15 -05:00			`(FnPtr(l_ptr), FnPtr(r_ptr)) => match bin_op {`
			`Eq => Bool(l_ptr == r_ptr),`
			`Ne => Bool(l_ptr != r_ptr),`
			`_ => return Err(EvalError::Unimplemented(format!("unimplemented fn ptr comparison: {:?}", bin_op))),`
			`},`

Rename AbstractPtr to Ptr. 2016-09-22 00:23:50 -05:00			`(Ptr(l_ptr), Ptr(r_ptr)) => {`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`if l_ptr.alloc_id != r_ptr.alloc_id {`
rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`return Ok((unrelated_ptr_ops(bin_op)?, false));`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`}`

			`let l = l_ptr.offset;`
			`let r = r_ptr.offset;`

			`match bin_op {`
			`Eq => Bool(l == r),`
			`Ne => Bool(l != r),`
			`Lt => Bool(l < r),`
			`Le => Bool(l <= r),`
			`Gt => Bool(l > r),`
			`Ge => Bool(l >= r),`
replace `panic!`s with `Result` 2016-05-30 08:27:52 -05:00			`_ => return Err(EvalError::Unimplemented(format!("unimplemented ptr op: {:?}", bin_op))),`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`}`
			`}`

replace `panic!`s with `Result` 2016-05-30 08:27:52 -05:00			`(l, r) => return Err(EvalError::Unimplemented(format!("unimplemented binary op: {:?}, {:?}, {:?}", l, r, bin_op))),`
Implement pointer primvals and comparison ops on them. 2016-03-19 00:03:46 -05:00			`};`

rustc does overflow checking for us, don't duplicate it. 2016-06-20 09:52:43 -05:00			`Ok((val, false))`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`}`

forbid calling functions through pointers of a different type 2016-06-14 03:34:54 -05:00			`pub fn unary_op<'tcx>(un_op: mir::UnOp, val: PrimVal) -> EvalResult<'tcx, PrimVal> {`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`use rustc::mir::repr::UnOp::*;`
			`use self::PrimVal::*;`
			`match (un_op, val) {`
replace `panic!`s with `Result` 2016-05-30 08:27:52 -05:00			`(Not, Bool(b)) => Ok(Bool(!b)),`
			`(Not, I8(n)) => Ok(I8(!n)),`
			`(Neg, I8(n)) => Ok(I8(-n)),`
			`(Not, I16(n)) => Ok(I16(!n)),`
			`(Neg, I16(n)) => Ok(I16(-n)),`
			`(Not, I32(n)) => Ok(I32(!n)),`
			`(Neg, I32(n)) => Ok(I32(-n)),`
			`(Not, I64(n)) => Ok(I64(!n)),`
			`(Neg, I64(n)) => Ok(I64(-n)),`
			`(Not, U8(n)) => Ok(U8(!n)),`
			`(Not, U16(n)) => Ok(U16(!n)),`
			`(Not, U32(n)) => Ok(U32(!n)),`
			`(Not, U64(n)) => Ok(U64(!n)),`
implement floats by running the ops on the host architecture 2016-07-05 02:08:24 -05:00
			`(Neg, F64(n)) => Ok(F64(-n)),`
			`(Neg, F32(n)) => Ok(F32(-n)),`
replace `panic!`s with `Result` 2016-05-30 08:27:52 -05:00			`_ => Err(EvalError::Unimplemented(format!("unimplemented unary op: {:?}, {:?}", un_op, val))),`
Add support for smaller signed integers. 2016-03-13 01:43:28 -06:00			`}`
			`}`