wasmer/lib/dynasm-backend/src/codegen_x64.rs

use super::codegen::*;
use super::stack::{ValueInfo, ValueLocation, ValueStack};
use dynasmrt::{
    x64::Assembler, AssemblyOffset, DynamicLabel, DynasmApi, DynasmLabelApi, ExecutableBuffer,
};
use wasmer_runtime_core::{
    backend::{Backend, Compiler, FuncResolver, ProtectedCaller, Token, UserTrapper},
    error::{CompileError, CompileResult, RuntimeError, RuntimeResult},
    module::{ModuleInfo, ModuleInner, StringTable},
    structures::{Map, TypedIndex},
    types::{
        FuncIndex, FuncSig, GlobalIndex, LocalFuncIndex, MemoryIndex, SigIndex, TableIndex, Type,
        Value,
    },
    vm::{self, ImportBacking},
};
use wasmparser::{Operator, Type as WpType};

#[repr(u8)]
#[derive(Copy, Clone, Debug, Eq, PartialEq)]
pub enum Register {
    RAX,
    RCX,
    RDX,
    RBX,
    RSP,
    RBP,
    RSI,
    RDI,
    R8,
    R9,
    R10,
    R11,
    R12,
    R13,
    R14,
    R15,
}

impl Register {
    pub fn from_scratch_reg(id: u8) -> Register {
        use self::Register::*;
        match id {
            0 => RDI,
            1 => RSI,
            2 => RDX,
            3 => RCX,
            4 => R8,
            5 => R9,
            6 => R10,
            7 => R11,
            _ => unreachable!(),
        }
    }
}

#[derive(Default)]
pub struct X64ModuleCodeGenerator {
    functions: Vec<X64FunctionCode>,
}

pub struct X64FunctionCode {
    id: usize,
    begin_label: DynamicLabel,
    begin_offset: AssemblyOffset,
    cleanup_label: DynamicLabel,
    assembler: Option<Assembler>,
    returns: Vec<WpType>,
    locals: Vec<Local>,
    num_params: usize,
    current_stack_offset: usize,
    value_stack: ValueStack,
}

pub struct X64ExecutionContext {
    code: ExecutableBuffer,
    functions: Vec<X64FunctionCode>,
}

impl ProtectedCaller for X64ExecutionContext {
    fn call(
        &self,
        _module: &ModuleInner,
        _func_index: FuncIndex,
        _params: &[Value],
        _import_backing: &ImportBacking,
        _vmctx: *mut vm::Ctx,
        _: Token,
    ) -> RuntimeResult<Vec<Value>> {
        let index = _func_index.index();
        let ptr = self.code.ptr(self.functions[index].begin_offset);
        let return_ty = self.functions[index].returns.last().cloned();

        if self.functions[index].num_params != _params.len() {
            return Err(RuntimeError::User {
                msg: "param count mismatch".into(),
            });
        }

        match self.functions[index].num_params {
            2 => unsafe {
                let ptr: extern "C" fn(i64, i64) -> i64 = ::std::mem::transmute(ptr);
                Ok(vec![Value::I32(
                    ptr(value_to_i64(&_params[0]), value_to_i64(&_params[1])) as i32,
                )])
            },
            _ => unimplemented!(),
        }
    }

    fn get_early_trapper(&self) -> Box<dyn UserTrapper> {
        pub struct Trapper;

        impl UserTrapper for Trapper {
            unsafe fn do_early_trap(&self, msg: String) -> ! {
                panic!("{}", msg);
            }
        }

        Box::new(Trapper)
    }
}

#[derive(Copy, Clone, Debug)]
struct Local {
    ty: WpType,
    stack_offset: usize,
}

impl X64ModuleCodeGenerator {
    pub fn new() -> X64ModuleCodeGenerator {
        X64ModuleCodeGenerator::default()
    }
}

impl ModuleCodeGenerator<X64FunctionCode, X64ExecutionContext> for X64ModuleCodeGenerator {
    fn next_function(&mut self) -> Result<&mut X64FunctionCode, CodegenError> {
        let mut assembler = match self.functions.last_mut() {
            Some(x) => x.assembler.take().unwrap(),
            None => match Assembler::new() {
                Ok(x) => x,
                Err(_) => {
                    return Err(CodegenError {
                        message: "cannot initialize assembler",
                    })
                }
            },
        };
        let begin_label = assembler.new_dynamic_label();
        let begin_offset = assembler.offset();
        dynasm!(
            assembler
            ; => begin_label
            ; push rbp
            ; mov rbp, rsp
        );
        let code = X64FunctionCode {
            id: self.functions.len(),
            begin_label: begin_label,
            begin_offset: begin_offset,
            cleanup_label: assembler.new_dynamic_label(),
            assembler: Some(assembler),
            returns: vec![],
            locals: vec![],
            num_params: 0,
            current_stack_offset: 0,
            value_stack: ValueStack::new(8),
        };
        self.functions.push(code);
        Ok(self.functions.last_mut().unwrap())
    }

    fn finalize(mut self) -> Result<X64ExecutionContext, CodegenError> {
        let mut assembler = match self.functions.last_mut() {
            Some(x) => x.assembler.take().unwrap(),
            None => {
                return Err(CodegenError {
                    message: "no function",
                })
            }
        };
        let output = assembler.finalize().unwrap();
        Ok(X64ExecutionContext {
            code: output,
            functions: self.functions,
        })
    }
}

impl X64FunctionCode {
    fn gen_rt_pop(assembler: &mut Assembler, info: &ValueInfo) -> Result<(), CodegenError> {
        match info.location {
            ValueLocation::Register(_) => {}
            ValueLocation::Stack => {
                let size = get_size_of_type(&info.ty)?;
                dynasm!(
                    assembler
                    ; add rsp, size as i32
                );
            }
        }
        Ok(())
    }
}

impl FunctionCodeGenerator for X64FunctionCode {
    fn feed_return(&mut self, ty: WpType) -> Result<(), CodegenError> {
        self.returns.push(ty);
        Ok(())
    }

    fn feed_param(&mut self, ty: WpType) -> Result<(), CodegenError> {
        let assembler = self.assembler.as_mut().unwrap();
        let size = get_size_of_type(&ty)?;

        self.current_stack_offset += size;
        self.locals.push(Local {
            ty: ty,
            stack_offset: self.current_stack_offset,
        });

        let param_reg = match self.num_params {
            0 => Register::RDI,
            1 => Register::RSI,
            2 => Register::RDX,
            3 => Register::RCX,
            4 => Register::R8,
            5 => Register::R9,
            _ => {
                return Err(CodegenError {
                    message: "more than 6 function parameters is not yet supported",
                })
            }
        };
        self.num_params += 1;

        if is_dword(size) {
            dynasm!(
                assembler
                ; sub rsp, 4
                ; mov [rsp], Rd(param_reg as u8)
            );
        } else {
            dynasm!(
                assembler
                ; sub rsp, 8
                ; mov [rsp], Rq(param_reg as u8)
            );
        }

        Ok(())
    }

    fn feed_local(&mut self, ty: WpType, n: usize) -> Result<(), CodegenError> {
        let assembler = self.assembler.as_mut().unwrap();
        let size = get_size_of_type(&ty)?;
        for _ in 0..n {
            // FIXME: check range of n
            self.current_stack_offset += size;
            self.locals.push(Local {
                ty: ty,
                stack_offset: self.current_stack_offset,
            });
            match size {
                4 => dynasm!(
                    assembler
                    ; sub rsp, 4
                    ; mov DWORD [rsp], 0
                ),
                8 => dynasm!(
                    assembler
                    ; sub rsp, 8
                    ; mov QWORD [rsp], 0
                ),
                _ => unreachable!(),
            }
        }
        Ok(())
    }
    fn begin_body(&mut self) -> Result<(), CodegenError> {
        Ok(())
    }
    fn feed_opcode(&mut self, op: Operator) -> Result<(), CodegenError> {
        let assembler = self.assembler.as_mut().unwrap();
        match op {
            Operator::GetLocal { local_index } => {
                let local_index = local_index as usize;
                if local_index >= self.locals.len() {
                    return Err(CodegenError {
                        message: "local out of bounds",
                    });
                }
                let local = self.locals[local_index];
                let location = self.value_stack.push(local.ty);
                let size = get_size_of_type(&local.ty)?;

                match location {
                    ValueLocation::Register(id) => {
                        if is_dword(size) {
                            dynasm!(
                                assembler
                                ; mov Rd(Register::from_scratch_reg(id) as u8), [rbp - (local.stack_offset as i32)]
                            );
                        } else {
                            dynasm!(
                                assembler
                                ; mov Rq(Register::from_scratch_reg(id) as u8), [rbp - (local.stack_offset as i32)]
                            );
                        }
                    }
                    ValueLocation::Stack => {
                        if is_dword(size) {
                            dynasm!(
                                assembler
                                ; mov eax, [rbp - (local.stack_offset as i32)]
                                ; sub rsp, 4
                                ; mov [rsp], eax
                            );
                        } else {
                            dynasm!(
                                assembler
                                ; mov rax, [rbp - (local.stack_offset as i32)]
                                ; sub rsp, 8
                                ; mov [rsp], rax
                            );
                        }
                    }
                }
            }
            Operator::I32Add => {
                let (a, b) = self.value_stack.pop2()?;
                if a.ty != WpType::I32 || b.ty != WpType::I32 {
                    return Err(CodegenError {
                        message: "I32Add type mismatch",
                    });
                }
                Self::gen_rt_pop(assembler, &b)?;
                Self::gen_rt_pop(assembler, &a)?;

                self.value_stack.push(WpType::I32);

                if a.location.is_register() && b.location.is_register() {
                    let (a_reg, b_reg) = (
                        Register::from_scratch_reg(a.location.get_register()?),
                        Register::from_scratch_reg(b.location.get_register()?),
                    );
                    // output is in a_reg.
                    dynasm!(
                        assembler
                        ; add Rd(a_reg as u8), Rd(b_reg as u8)
                    );
                } else {
                    unimplemented!();
                }
            }
            Operator::Drop => {
                let info = self.value_stack.pop()?;
                Self::gen_rt_pop(assembler, &info)?;
            }
            Operator::Return => match self.returns.len() {
                0 => {}
                1 => {
                    let val = self.value_stack.pop()?;
                    let ty = self.returns[0];
                    let reg = val.location.get_register()?;
                    if is_dword(get_size_of_type(&ty)?) {
                        dynasm!(
                            assembler
                            ; mov eax, Rd(Register::from_scratch_reg(reg) as u8)
                            ; jmp =>self.cleanup_label
                        );
                    } else {
                        dynasm!(
                            assembler
                            ; mov rax, Rq(Register::from_scratch_reg(reg) as u8)
                            ; jmp =>self.cleanup_label
                        );
                    }
                }
                _ => {
                    return Err(CodegenError {
                        message: "multiple return values is not yet supported",
                    })
                }
            },
            Operator::End => {
                // todo
            }
            _ => unimplemented!(),
        }
        Ok(())
    }
    fn finalize(&mut self) -> Result<(), CodegenError> {
        let assembler = self.assembler.as_mut().unwrap();
        dynasm!(
            assembler
            ; ud2
            ; => self.cleanup_label
            ; mov rsp, rbp
            ; pop rbp
            ; ret
        );
        Ok(())
    }
}

fn get_size_of_type(ty: &WpType) -> Result<usize, CodegenError> {
    match *ty {
        WpType::I32 | WpType::F32 => Ok(4),
        WpType::I64 | WpType::F64 => Ok(8),
        _ => Err(CodegenError {
            message: "unknown type",
        }),
    }
}

fn is_dword(n: usize) -> bool {
    n == 4
}

fn value_to_i64(v: &Value) -> i64 {
    match *v {
        Value::F32(x) => x.to_bits() as u64 as i64,
        Value::F64(x) => x.to_bits() as u64 as i64,
        Value::I32(x) => x as u64 as i64,
        Value::I64(x) => x as u64 as i64,
    }
}
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`use super::codegen::*;`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`use super::stack::{ValueInfo, ValueLocation, ValueStack};`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`use dynasmrt::{`
			`x64::Assembler, AssemblyOffset, DynamicLabel, DynasmApi, DynasmLabelApi, ExecutableBuffer,`
			`};`
			`use wasmer_runtime_core::{`
			`backend::{Backend, Compiler, FuncResolver, ProtectedCaller, Token, UserTrapper},`
			`error::{CompileError, CompileResult, RuntimeError, RuntimeResult},`
			`module::{ModuleInfo, ModuleInner, StringTable},`
			`structures::{Map, TypedIndex},`
			`types::{`
			`FuncIndex, FuncSig, GlobalIndex, LocalFuncIndex, MemoryIndex, SigIndex, TableIndex, Type,`
			`Value,`
			`},`
			`vm::{self, ImportBacking},`
			`};`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`use wasmparser::{Operator, Type as WpType};`

Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`#[repr(u8)]`
			`#[derive(Copy, Clone, Debug, Eq, PartialEq)]`
			`pub enum Register {`
			`RAX,`
			`RCX,`
			`RDX,`
			`RBX,`
			`RSP,`
			`RBP,`
			`RSI,`
			`RDI,`
			`R8,`
			`R9,`
			`R10,`
			`R11,`
			`R12,`
			`R13,`
			`R14,`
			`R15,`
			`}`

			`impl Register {`
			`pub fn from_scratch_reg(id: u8) -> Register {`
			`use self::Register::*;`
			`match id {`
			`0 => RDI,`
			`1 => RSI,`
			`2 => RDX,`
			`3 => RCX,`
			`4 => R8,`
			`5 => R9,`
			`6 => R10,`
			`7 => R11,`
			`_ => unreachable!(),`
			`}`
			`}`
			`}`

Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`#[derive(Default)]`
			`pub struct X64ModuleCodeGenerator {`
			`functions: Vec<X64FunctionCode>,`
			`}`

			`pub struct X64FunctionCode {`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`id: usize,`
			`begin_label: DynamicLabel,`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`begin_offset: AssemblyOffset,`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`cleanup_label: DynamicLabel,`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`assembler: Option<Assembler>,`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`returns: Vec<WpType>,`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`locals: Vec<Local>,`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`num_params: usize,`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`current_stack_offset: usize,`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`value_stack: ValueStack,`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`}`

Now we can run `add`! 2019-02-15 02:21:52 +08:00			`pub struct X64ExecutionContext {`
			`code: ExecutableBuffer,`
			`functions: Vec<X64FunctionCode>,`
			`}`

			`impl ProtectedCaller for X64ExecutionContext {`
			`fn call(`
			`&self,`
			`_module: &ModuleInner,`
			`_func_index: FuncIndex,`
			`_params: &[Value],`
			`_import_backing: &ImportBacking,`
			`_vmctx: *mut vm::Ctx,`
			`_: Token,`
			`) -> RuntimeResult<Vec<Value>> {`
			`let index = _func_index.index();`
			`let ptr = self.code.ptr(self.functions[index].begin_offset);`
			`let return_ty = self.functions[index].returns.last().cloned();`

			`if self.functions[index].num_params != _params.len() {`
			`return Err(RuntimeError::User {`
			`msg: "param count mismatch".into(),`
			`});`
			`}`

			`match self.functions[index].num_params {`
			`2 => unsafe {`
			`let ptr: extern "C" fn(i64, i64) -> i64 = ::std::mem::transmute(ptr);`
			`Ok(vec![Value::I32(`
			`ptr(value_to_i64(&_params[0]), value_to_i64(&_params[1])) as i32,`
			`)])`
			`},`
			`_ => unimplemented!(),`
			`}`
			`}`

			`fn get_early_trapper(&self) -> Box<dyn UserTrapper> {`
			`pub struct Trapper;`

			`impl UserTrapper for Trapper {`
			`unsafe fn do_early_trap(&self, msg: String) -> ! {`
			`panic!("{}", msg);`
			`}`
			`}`

			`Box::new(Trapper)`
			`}`
			`}`

Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`#[derive(Copy, Clone, Debug)]`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`struct Local {`
			`ty: WpType,`
			`stack_offset: usize,`
			`}`

			`impl X64ModuleCodeGenerator {`
			`pub fn new() -> X64ModuleCodeGenerator {`
			`X64ModuleCodeGenerator::default()`
			`}`
			`}`

Now we can run `add`! 2019-02-15 02:21:52 +08:00			`impl ModuleCodeGenerator<X64FunctionCode, X64ExecutionContext> for X64ModuleCodeGenerator {`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`fn next_function(&mut self) -> Result<&mut X64FunctionCode, CodegenError> {`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`let mut assembler = match self.functions.last_mut() {`
			`Some(x) => x.assembler.take().unwrap(),`
			`None => match Assembler::new() {`
			`Ok(x) => x,`
			`Err(_) => {`
			`return Err(CodegenError {`
			`message: "cannot initialize assembler",`
			`})`
			`}`
			`},`
			`};`
			`let begin_label = assembler.new_dynamic_label();`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`let begin_offset = assembler.offset();`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`dynasm!(`
			`assembler`
			`; => begin_label`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`; push rbp`
			`; mov rbp, rsp`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`);`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`let code = X64FunctionCode {`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`id: self.functions.len(),`
			`begin_label: begin_label,`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`begin_offset: begin_offset,`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`cleanup_label: assembler.new_dynamic_label(),`
			`assembler: Some(assembler),`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`returns: vec![],`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`locals: vec![],`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`num_params: 0,`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`current_stack_offset: 0,`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`value_stack: ValueStack::new(8),`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`};`
			`self.functions.push(code);`
			`Ok(self.functions.last_mut().unwrap())`
			`}`
codegen: More opcodes 2019-02-14 00:53:06 +08:00
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`fn finalize(mut self) -> Result<X64ExecutionContext, CodegenError> {`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`let mut assembler = match self.functions.last_mut() {`
			`Some(x) => x.assembler.take().unwrap(),`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`None => {`
			`return Err(CodegenError {`
			`message: "no function",`
			`})`
			`}`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`};`
			`let output = assembler.finalize().unwrap();`
Now we can run `add`! 2019-02-15 02:21:52 +08:00			`Ok(X64ExecutionContext {`
			`code: output,`
			`functions: self.functions,`
			`})`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`}`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`}`

Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`impl X64FunctionCode {`
			`fn gen_rt_pop(assembler: &mut Assembler, info: &ValueInfo) -> Result<(), CodegenError> {`
			`match info.location {`
			`ValueLocation::Register(_) => {}`
			`ValueLocation::Stack => {`
			`let size = get_size_of_type(&info.ty)?;`
			`dynasm!(`
			`assembler`
			`; add rsp, size as i32`
			`);`
			`}`
			`}`
			`Ok(())`
			`}`
			`}`

Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`impl FunctionCodeGenerator for X64FunctionCode {`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`fn feed_return(&mut self, ty: WpType) -> Result<(), CodegenError> {`
			`self.returns.push(ty);`
			`Ok(())`
			`}`

Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`fn feed_param(&mut self, ty: WpType) -> Result<(), CodegenError> {`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`let assembler = self.assembler.as_mut().unwrap();`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`let size = get_size_of_type(&ty)?;`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`self.current_stack_offset += size;`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`self.locals.push(Local {`
			`ty: ty,`
			`stack_offset: self.current_stack_offset,`
			`});`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
			`let param_reg = match self.num_params {`
			`0 => Register::RDI,`
			`1 => Register::RSI,`
			`2 => Register::RDX,`
			`3 => Register::RCX,`
			`4 => Register::R8,`
			`5 => Register::R9,`
			`_ => {`
			`return Err(CodegenError {`
			`message: "more than 6 function parameters is not yet supported",`
			`})`
			`}`
			`};`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`self.num_params += 1;`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
			`if is_dword(size) {`
			`dynasm!(`
			`assembler`
			`; sub rsp, 4`
			`; mov [rsp], Rd(param_reg as u8)`
			`);`
			`} else {`
			`dynasm!(`
			`assembler`
			`; sub rsp, 8`
			`; mov [rsp], Rq(param_reg as u8)`
			`);`
			`}`

Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`Ok(())`
			`}`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`fn feed_local(&mut self, ty: WpType, n: usize) -> Result<(), CodegenError> {`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`let assembler = self.assembler.as_mut().unwrap();`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`let size = get_size_of_type(&ty)?;`
			`for _ in 0..n {`
			`// FIXME: check range of n`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`self.current_stack_offset += size;`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`self.locals.push(Local {`
			`ty: ty,`
			`stack_offset: self.current_stack_offset,`
			`});`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`match size {`
			`4 => dynasm!(`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`assembler`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`; sub rsp, 4`
			`; mov DWORD [rsp], 0`
			`),`
			`8 => dynasm!(`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`assembler`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`; sub rsp, 8`
			`; mov QWORD [rsp], 0`
			`),`
			`_ => unreachable!(),`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`}`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`}`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`Ok(())`
			`}`
			`fn begin_body(&mut self) -> Result<(), CodegenError> {`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`Ok(())`
			`}`
			`fn feed_opcode(&mut self, op: Operator) -> Result<(), CodegenError> {`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`let assembler = self.assembler.as_mut().unwrap();`
			`match op {`
			`Operator::GetLocal { local_index } => {`
			`let local_index = local_index as usize;`
			`if local_index >= self.locals.len() {`
			`return Err(CodegenError {`
			`message: "local out of bounds",`
			`});`
			`}`
			`let local = self.locals[local_index];`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00			`let location = self.value_stack.push(local.ty);`
			`let size = get_size_of_type(&local.ty)?;`

			`match location {`
			`ValueLocation::Register(id) => {`
			`if is_dword(size) {`
			`dynasm!(`
			`assembler`
			`; mov Rd(Register::from_scratch_reg(id) as u8), [rbp - (local.stack_offset as i32)]`
			`);`
			`} else {`
			`dynasm!(`
			`assembler`
			`; mov Rq(Register::from_scratch_reg(id) as u8), [rbp - (local.stack_offset as i32)]`
			`);`
			`}`
			`}`
			`ValueLocation::Stack => {`
			`if is_dword(size) {`
			`dynasm!(`
			`assembler`
			`; mov eax, [rbp - (local.stack_offset as i32)]`
			`; sub rsp, 4`
			`; mov [rsp], eax`
			`);`
			`} else {`
			`dynasm!(`
			`assembler`
			`; mov rax, [rbp - (local.stack_offset as i32)]`
			`; sub rsp, 8`
			`; mov [rsp], rax`
			`);`
			`}`
			`}`
			`}`
			`}`
			`Operator::I32Add => {`
			`let (a, b) = self.value_stack.pop2()?;`
			`if a.ty != WpType::I32 \|\| b.ty != WpType::I32 {`
			`return Err(CodegenError {`
			`message: "I32Add type mismatch",`
			`});`
			`}`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`Self::gen_rt_pop(assembler, &b)?;`
			`Self::gen_rt_pop(assembler, &a)?;`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
			`self.value_stack.push(WpType::I32);`

			`if a.location.is_register() && b.location.is_register() {`
			`let (a_reg, b_reg) = (`
			`Register::from_scratch_reg(a.location.get_register()?),`
			`Register::from_scratch_reg(b.location.get_register()?),`
			`);`
			`// output is in a_reg.`
			`dynasm!(`
			`assembler`
			`; add Rd(a_reg as u8), Rd(b_reg as u8)`
			`);`
			`} else {`
			`unimplemented!();`
			`}`
			`}`
			`Operator::Drop => {`
			`let info = self.value_stack.pop()?;`
			`Self::gen_rt_pop(assembler, &info)?;`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`}`
codegen: More opcodes 2019-02-14 00:53:06 +08:00			`Operator::Return => match self.returns.len() {`
			`0 => {}`
			`1 => {`
			`let val = self.value_stack.pop()?;`
			`let ty = self.returns[0];`
			`let reg = val.location.get_register()?;`
			`if is_dword(get_size_of_type(&ty)?) {`
			`dynasm!(`
			`assembler`
			`; mov eax, Rd(Register::from_scratch_reg(reg) as u8)`
			`; jmp =>self.cleanup_label`
			`);`
			`} else {`
			`dynasm!(`
			`assembler`
			`; mov rax, Rq(Register::from_scratch_reg(reg) as u8)`
			`; jmp =>self.cleanup_label`
			`);`
			`}`
			`}`
			`_ => {`
			`return Err(CodegenError {`
			`message: "multiple return values is not yet supported",`
			`})`
			`}`
			`},`
			`Operator::End => {`
			`// todo`
			`}`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`_ => unimplemented!(),`
			`}`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`Ok(())`
			`}`
			`fn finalize(&mut self) -> Result<(), CodegenError> {`
Calling conventions, value stack, and runtime stack layout. 2019-02-12 23:15:57 +08:00			`let assembler = self.assembler.as_mut().unwrap();`
			`dynasm!(`
			`assembler`
			`; ud2`
			`; => self.cleanup_label`
			`; mov rsp, rbp`
			`; pop rbp`
			`; ret`
			`);`
Codegen backend for x64. 2019-02-12 00:52:17 +08:00			`Ok(())`
			`}`
			`}`

			`fn get_size_of_type(ty: &WpType) -> Result<usize, CodegenError> {`
			`match *ty {`
			`WpType::I32 \| WpType::F32 => Ok(4),`
			`WpType::I64 \| WpType::F64 => Ok(8),`
			`_ => Err(CodegenError {`
			`message: "unknown type",`
			`}),`
			`}`
			`}`
Use System V calling convention and implement a few opcodes. 2019-02-13 20:04:10 +08:00
			`fn is_dword(n: usize) -> bool {`
			`n == 4`
			`}`
Now we can run `add`! 2019-02-15 02:21:52 +08:00
			`fn value_to_i64(v: &Value) -> i64 {`
			`match *v {`
			`Value::F32(x) => x.to_bits() as u64 as i64,`
			`Value::F64(x) => x.to_bits() as u64 as i64,`
			`Value::I32(x) => x as u64 as i64,`
			`Value::I64(x) => x as u64 as i64,`
			`}`
			`}`