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- open Printf
- open Lexing
- open Types
- let rec repeat s n = if n < 1 then "" else s ^ (repeat s (n - 1))
- let expand n text = text ^ repeat " " (n - String.length text)
- (* Logging functions *)
- let hline = "-----------------------------------------------------------------"
- let prt_line = prerr_endline
- let prt_node node = prt_line (Stringify.node2str node)
- let log_plain_line verbosity line =
- if args.verbose >= verbosity then prt_line line
- let log_line verbosity line =
- log_plain_line verbosity (repeat " " 13 ^ line)
- let log_node verbosity node =
- if args.verbose >= verbosity then prt_node node
- (* Variable generation *)
- let var_counter = ref 0
- let fresh_var prefix =
- var_counter := !var_counter + 1;
- prefix ^ "$" ^ string_of_int !var_counter
- (* Constants are marked by a double $$ for recognition during constant
- * propagation *)
- let fresh_const prefix = fresh_var (prefix ^ "$")
- let loc_from_lexpos pstart pend =
- let (fname, ystart, yend, xstart, xend) = (
- pstart.pos_fname,
- pstart.pos_lnum,
- pend.pos_lnum,
- (pstart.pos_cnum - pstart.pos_bol + 1),
- (pend.pos_cnum - pend.pos_bol)
- ) in
- if ystart = yend && xend < xstart then
- (fname, ystart, yend, xstart, xstart)
- else
- (fname, ystart, yend, xstart, xend)
- let rec flatten_blocks lst =
- let flatten = flatten_blocks in
- let rec trav = function
- | Block body ->
- Block (flatten body)
- | FunDef (export, ret_type, name, params, body, ann) ->
- FunDef (export, ret_type, name, flatten params, trav body, ann)
- | If (cond, body, ann) ->
- If (cond, trav body, ann)
- | IfElse (cond, tbody, fbody, ann) ->
- IfElse (cond, trav tbody, trav fbody, ann)
- | While (cond, body, ann) ->
- While (cond, trav body, ann)
- | DoWhile (cond, body, ann) ->
- DoWhile (cond, trav body, ann)
- | For (counter, start, stop, step, body, ann) ->
- For (counter, start, stop, step, trav body, ann)
- | VarDecs decs ->
- VarDecs (flatten decs)
- | LocalFuns decs ->
- LocalFuns (flatten decs)
- | node -> node
- in
- match lst with
- | [] -> []
- | Block nodes :: tl -> flatten nodes @ (flatten tl)
- | DummyNode :: tl -> flatten tl
- | hd :: tl -> trav hd :: (flatten tl)
- (* Default tree transformation
- * (node -> node) -> node -> node *)
- let transform_children trav node =
- let trav_all nodes = List.map trav nodes in
- match node with
- | Program (decls, ann) ->
- Program (flatten_blocks (trav_all decls), ann)
- | FunDec (ret_type, name, params, ann) ->
- FunDec (ret_type, name, trav_all params, ann)
- | FunDef (export, ret_type, name, params, body, ann) ->
- FunDef (export, ret_type, name, trav_all params, trav body, ann)
- | GlobalDec (ctype, name, ann) ->
- GlobalDec (ctype, name, ann)
- | GlobalDef (export, ctype, name, Some init, ann) ->
- GlobalDef (export, ctype, name, Some (trav init), ann)
- | VarDec (ctype, name, Some init, ann) ->
- VarDec (ctype, name, Some (trav init), ann)
- | Assign (name, None, value, ann) ->
- Assign (name, None, trav value, ann)
- | Assign (name, Some dims, value, ann) ->
- Assign (name, Some (trav_all dims), trav value, ann)
- | VarLet (dec, None, value, ann) ->
- VarLet (dec, None, trav value, ann)
- | VarLet (dec, Some dims, value, ann) ->
- VarLet (dec, Some (trav_all dims), trav value, ann)
- | Return (value, ann) ->
- Return (trav value, ann)
- | If (cond, body, ann) ->
- If (trav cond, trav body, ann)
- | IfElse (cond, true_body, false_body, ann) ->
- IfElse (trav cond, trav true_body, trav false_body, ann)
- | While (cond, body, ann) ->
- While (trav cond, trav body, ann)
- | DoWhile (cond, body, ann) ->
- DoWhile (trav cond, trav body, ann)
- | For (counter, start, stop, step, body, ann) ->
- For (counter, trav start, trav stop, trav step, trav body, ann)
- | Allocate (dec, dims, ann) ->
- Allocate (dec, trav_all dims, ann)
- | Expr value ->
- Expr (trav value)
- | Block (body) ->
- Block (trav_all body)
- | Monop (op, value, ann) ->
- Monop (op, trav value, ann)
- | Binop (op, left, right, ann) ->
- Binop (op, trav left, trav right, ann)
- | Cond (cond, true_expr, false_expr, ann) ->
- Cond (trav cond, trav true_expr, trav false_expr, ann)
- | TypeCast (ctype, value, ann) ->
- TypeCast (ctype, trav value, ann)
- | FunCall (name, args, ann) ->
- FunCall (name, trav_all args, ann)
- | Arg value ->
- Arg (trav value)
- | ArrayInit (value, dims) ->
- ArrayInit (trav value, dims)
- | ArrayScalar value ->
- ArrayScalar (trav value)
- | Var (dec, Some dims, ann) ->
- Var (dec, Some (trav_all dims), ann)
- | VarUse (dec, Some dims, ann) ->
- VarUse (dec, Some (trav_all dims), ann)
- | FunUse (dec, params, ann) ->
- FunUse (dec, trav_all params, ann)
- | VarDecs decs ->
- VarDecs (trav_all decs)
- | LocalFuns funs ->
- LocalFuns (trav_all funs)
- | _ -> node
- let annotate a = function
- | Program (decls, ann) ->
- Program (decls, a :: ann)
- | FunDec (ret_type, name, params, ann) ->
- FunDec (ret_type, name, params, a :: ann)
- | FunDef (export, ret_type, name, params, body, ann) ->
- FunDef (export, ret_type, name, params, body, a :: ann)
- | GlobalDec (ctype, name, ann) ->
- GlobalDec (ctype, name, a :: ann)
- | GlobalDef (export, ctype, name, init, ann) ->
- GlobalDef (export, ctype, name, init, a :: ann)
- | VarDec (ctype, name, init, ann) ->
- VarDec (ctype, name, init, a :: ann)
- | Assign (name, dims, value, ann) ->
- Assign (name, dims, value, a :: ann)
- | VarLet (dec, dims, value, ann) ->
- VarLet (dec, dims, value, a :: ann)
- | Return (value, ann) ->
- Return (value, a :: ann)
- | If (cond, body, ann) ->
- If (cond, body, a :: ann)
- | IfElse (cond, true_body, false_body, ann) ->
- IfElse (cond, true_body, false_body, a :: ann)
- | While (cond, body, ann) ->
- While (cond, body, a :: ann)
- | DoWhile (cond, body, ann) ->
- DoWhile (cond, body, a :: ann)
- | For (counter, start, stop, step, body, ann) ->
- For (counter, start, stop, step, body, a :: ann)
- | Allocate (dec, dims, ann) ->
- Allocate (dec, dims, a :: ann)
- | Monop (op, value, ann) ->
- Monop (op, value, a :: ann)
- | Binop (op, left, right, ann) ->
- Binop (op, left, right, a :: ann)
- | Cond (cond, true_expr, false_expr, ann) ->
- Cond (cond, true_expr, false_expr, a :: ann)
- | TypeCast (ctype, value, ann) ->
- TypeCast (ctype, value, a :: ann)
- | FunCall (name, args, ann) ->
- FunCall (name, args, a :: ann)
- | Arg value ->
- Arg (value)
- | Var (dec, dims, ann) ->
- Var (dec, dims, a :: ann)
- | VarUse (dec, dims, ann) ->
- VarUse (dec, dims, a :: ann)
- | FunUse (dec, params, ann) ->
- FunUse (dec, params, a :: ann)
- | Const (BoolVal value, ann) ->
- Const (BoolVal value, a :: ann)
- | Const (IntVal value, ann) ->
- Const (IntVal value, a :: ann)
- | Const (FloatVal value, ann) ->
- Const (FloatVal value, a :: ann)
- | ArrayConst (value, ann) ->
- ArrayConst (value, a :: ann)
- | Param (ctype, name, ann) ->
- Param (ctype, name, a :: ann)
- | Dim (name, ann) ->
- Dim (name, a :: ann)
- | _ -> raise InvalidNode
- let rec annof = function
- | Program (_, ann)
- | Param (_, _, ann)
- | Dim (_, ann)
- | FunDec (_, _, _, ann)
- | FunDef (_, _, _, _, _, ann)
- | GlobalDec (_, _, ann)
- | GlobalDef (_, _, _, _, ann)
- | VarDec (_, _, _, ann)
- | Assign (_, _, _, ann)
- | VarLet (_, _, _, ann)
- | Return (_, ann)
- | If (_, _, ann)
- | IfElse (_, _, _, ann)
- | While (_, _, ann)
- | DoWhile (_, _, ann)
- | For (_, _, _, _, _, ann)
- | Allocate (_, _, ann)
- | Const (BoolVal _, ann)
- | Const (IntVal _, ann)
- | Const (FloatVal _, ann)
- | ArrayConst (_, ann)
- | Var (_, _, ann)
- | Monop (_, _, ann)
- | Binop (_, _, _, ann)
- | Cond (_, _, _, ann)
- | TypeCast (_, _, ann)
- | VarUse (_, _, ann)
- | FunUse (_, _, ann)
- | FunCall (_, _, ann) -> ann
- | ArrayInit (value, _)
- | ArrayScalar value
- | Expr value
- | Arg value -> annof value
- | _ -> raise InvalidNode
- let locof node =
- let rec trav = function
- | [] -> noloc
- | Loc loc :: _ -> loc
- | _ :: tl -> trav tl
- in trav (annof node)
- let depthof node =
- let rec trav = function
- | [] ->
- prerr_string "cannot get depth for: ";
- prt_node node;
- raise InvalidNode
- | Depth depth :: _ -> depth
- | _ :: tl -> trav tl
- in trav (annof node)
- let indexof node =
- let rec trav = function
- | [] ->
- prerr_string "cannot get index for: ";
- prt_node node;
- raise InvalidNode
- | Index index :: _ -> index
- | _ :: tl -> trav tl
- in trav (annof node)
- let typeof = function
- (* Some nodes have their type as property *)
- | VarDec (ctype, _, _, _)
- | Param (ctype, _, _)
- | FunDec (ctype, _, _, _)
- | FunDef (_, ctype, _, _, _, _)
- | GlobalDec (ctype, _, _)
- | GlobalDef (_, ctype, _, _, _)
- | TypeCast (ctype, _, _)
- -> ctype
- (* Other nodes must be annotated during typechecking *)
- | node ->
- let rec trav = function
- | [] ->
- prerr_string "cannot get type for: ";
- prt_node node;
- raise InvalidNode
- | Type t :: _ -> t
- | _ :: tl -> trav tl
- in trav (annof node)
- let labelof node =
- let rec trav = function
- | [] ->
- prerr_string "cannot get label for: ";
- prt_node node;
- raise InvalidNode
- | LabelName label :: _ -> label
- | _ :: tl -> trav tl
- in trav (annof node)
- let const_type = function
- | BoolVal _ -> Bool
- | IntVal _ -> Int
- | FloatVal _ -> Float
- let prerr_loc (fname, ystart, yend, xstart, xend) =
- let file = open_in fname in
- (* skip lines until the first matched line *)
- for i = 1 to ystart - 1 do let _ = input_line file in () done;
- (* for each line in `loc`, print the source line with an underline *)
- for l = ystart to yend do
- let line = input_line file in
- let linewidth = String.length line in
- let left = if l = ystart then xstart else 1 in
- let right = if l = yend then xend else linewidth in
- if linewidth > 0 then (
- prerr_endline line;
- for i = 1 to left - 1 do prerr_char ' ' done;
- for i = left to right do prerr_char '^' done;
- prerr_endline "";
- )
- done;
- ()
- let prerr_loc_msg loc msg =
- if args.verbose >= 1 then (
- let (fname, ystart, yend, xstart, xend) = loc in
- if loc != noloc then (
- let line_s = if yend != ystart
- then sprintf "lines %d-%d" ystart yend
- else sprintf "line %d" ystart
- in
- let char_s = if xend != xstart || yend != ystart
- then sprintf "characters %d-%d" xstart xend
- else sprintf "character %d" xstart
- in
- eprintf "File \"%s\", %s, %s:\n" fname line_s char_s;
- );
- eprintf "%s\n" msg;
- if args.verbose >= 2 && loc != noloc then prerr_loc loc
- );
- ()
- let block_body = function
- | Block nodes -> nodes
- | _ -> raise InvalidNode
- let rec list_size = function
- | [] -> 0
- | hd :: tl -> 1 + (list_size tl)
- let basetypeof node = match typeof node with
- | Array (ctype, _)
- | FlatArray ctype
- | ctype -> ctype
- let array_depth = function
- | Array (_, dims) -> list_size dims
- | _ -> raise InvalidNode
- let nameof = function
- | GlobalDec (_, name, _)
- | GlobalDef (_, _, name, _, _)
- | FunDec (_, name, _, _)
- | FunDef (_, _, name, _, _, _)
- | VarDec (_, name, _, _)
- | Param (_, name, _)
- | Dim (name, _) -> name
- | _ -> raise InvalidNode
- let optmap f = function
- | None -> None
- | Some lst -> Some (List.map f lst)
- let optmapl f = function
- | None -> []
- | Some lst -> List.map f lst
- let mapi f lst =
- let rec trav i = function
- | [] -> []
- | hd :: tl -> f i hd :: (trav (i + 1) tl)
- in trav 0 lst
- let is_immediate_const const =
- if args.optimize then List.mem const immediate_consts else false
|
