// BCAE3.bcpl - BCPL Compiler -- Part 3 of CAE.
// Copyright Xerox Corporation 1980
// Last modified on Sun 15 Oct 72 1929.16 by jec.
// Swinehart, 5-10-77: docase exp
// Rdef Read a definition, returning the node thus produced.
// Rcom Read a command.
// Rselect Read a switchon block.
get "bcaex"
let Rdef() = valof
[ let A, B = 0, 0
and Thisline = LinePtr()
let N = Rnamelist()
let M = 0
switchon Symb into // What comes after the name list?
[ case RBRA: // A name. It is a function or routine definition.
unless (H1!N & TypeMask) eq LOCAL do
[ CAEskip(15); goto DefErr ]
H1!N = (H1!N & NameMask) + LABEL
Nextsymb()
if Symb eq NAME % Symb eq NIL do A = Rnamelist() // Formal params
if Symb eq SEMICOLON do Nextsymb()
if Symb ne RKET do
[ unless Symb eq NUMARGS do
[ CAEskip(15); goto DefErr ]
Nextsymb()
M = Rnamelist()
unless (H1!M & TypeMask) eq LOCAL do
[ CAEskip(15); goto DefErr ]
]
unless Symb eq RKET do
[ CAEskip(15); goto DefErr ]
Nextsymb()
if Symb eq BE do // It"s a routine definition.
[ Nextsymb()
B = Rcom(Rcom)
A = List7(RTDEF, N, A, B, 0, 0, M)
endcase
]
if Symb eq ASS do // It"s a function definition.
[ Nextsymb()
B = Rexp(0)
A = List7(FNDEF, N, A, B, 0, 0, M)
endcase
]
CAEskip(15)
DefErr:
B = Rcom(Rcom)
A = List6(RTDEF, N, A, B, 0, 0)
endcase
case ASS:
Nextsymb()
A = Rexp(0)
A = List4(VALDEF, N, A, 0) // Extra cell to hold count in Trans.
endcase
default:
CAEskip(17)
]
A = List3(LINE, Thisline, A)
while Symb eq SEMICOLON do Nextsymb()
if Symb eq AND do
[ Nextsymb()
if Symb eq LET do Nextsymb()
B = Rdef()
resultis List3(AND, A, B)
]
resultis A
]
and Rcom(Nextfn) = valof
[ let A, B, C, Op = nil, nil, nil, nil
let Thisline = LinePtr()
switchon Symb into
[ default:
resultis 0
case NAME: case NUMBER: case STRINGCONST: case CHARCONST:
case NOT:
case SELECTON:
case NIL: case TRUE: case FALSE:
case LV: case RV:
case RBRA: case VALOF: case PLUS: case MINUS:
case OFFSET: case SIZE:
// these are all the symbols which can start an expression
A = Rexp(0)
if Symb eq ASS do
[ Nextsymb()
B = Rexp(0)
A = List3(ASS, A, B)
endcase
]
if Symb eq COLON do
[ unless (A & NameBit) ne 0 do CAEreport(18)
A = List2((A & NameMask) + LABEL, 0)
Nextsymb()
B = Nextfn(Nextfn)
A = List5(COLON, A, B, 0, 0) // Last cells hold label numbers
endcase
]
if H1!A eq FNAP do
[ H1!A = RTAP; endcase ]
CAEskip(19)
endcase
case GOTO:
case RESULTIS:
case DOCASE:
Op = Symb
Nextsymb()
A = Rexp(0)
A = List2(Op, A)
endcase
case IF: case UNLESS:
case WHILE: case UNTIL:
Op = Symb
Nextsymb()
A = Rexp(0)
while Symb eq SEMICOLON do Nextsymb()
test Symb eq DO
then Nextsymb()
or CAEskip(20)
B = Rcom(Rcom)
A = List3(Op, A, B)
endcase
case TEST:
Nextsymb()
A = Rexp(0)
while Symb eq SEMICOLON do Nextsymb()
test Symb eq IFNOT
then
[ Nextsymb()
C = Rcom(Rcom)
while Symb eq SEMICOLON do Nextsymb()
test Symb eq IFSO
then Nextsymb()
or CAEskip(20)
B = Rcom(Rcom)
]
or test Symb eq DO % Symb eq IFSO
then
[ Nextsymb()
B = Rcom(Rcom)
while Symb eq SEMICOLON do Nextsymb()
test Symb eq OR % Symb eq IFNOT
then Nextsymb()
or CAEskip(20)
C = Rcom(Rcom)
]
or [ CAEskip(20)
A, B = 0, 0
]
A = List4(TEST, A, B, C)
endcase
case FOR:
[ Nextsymb()
A, B = 0, 0
let L, U, S = 0, 0, 0
unless Symb eq NAME do
[ CAEskip(21); goto ForErr ]
A = List2(V!0 + LOCAL, 0)
Nextsymb()
unless Symb eq ASS do
[ CAEskip(21); goto ForErr ]
Nextsymb()
L = Rexp(0)
test Symb eq BY
then
[ Nextsymb()
S = Rexp(0)
unless Symb eq TO do
[ CAEskip(22); goto ForErr ]
Nextsymb()
U = Rexp(0)
]
or
[ unless Symb eq TO do
[ CAEskip(22); goto ForErr ]
Nextsymb()
U = Rexp(0)
if Symb eq BY do [ Nextsymb(); S = Rexp(0) ]
]
ForErr:
while Symb eq SEMICOLON do Nextsymb()
test Symb eq DO
then Nextsymb()
or CAEskip(20)
B = Rcom(Rcom)
A = List6(FOR, A, L, U, S, B)
endcase
]
case ENDCASE:
case LOOP: case BREAK:
case FINISH: case ABORT:
case RETURN:
A = List1(Symb)
Nextsymb()
endcase
case SWITCHON:
Op = Symb
Nextsymb()
A = Rexp(0)
while Symb eq SEMICOLON do Nextsymb()
test Symb eq INTO
then Nextsymb()
or CAEskip(11)
while Symb eq SEMICOLON do Nextsymb()
unless Symb eq SECTBRA do CAEskip(12)
B = Rblock()
A = List3(Op, A, B)
endcase
case CASE:
Nextsymb()
A = Rexp(0)
test Symb eq TO // Case label with limits?
then [ Nextsymb(); C = Rexp(0) ]
or C = 0
test Symb eq COLON
then Nextsymb()
or CAEskip(23)
B = Nextfn(Nextfn)
A = C eq 0 ? List4(CASE, A, B, Thisline), List5(CASETO, A, C, B, Thisline)
endcase
case DEFAULT:
Nextsymb()
test Symb eq COLON
then Nextsymb()
or CAEskip(23)
A = Nextfn(Nextfn)
A = List2(DEFAULT, A)
endcase
case SECTBRA:
A = Rblock()
endcase
case DO: case OR:
case IFSO: case IFNOT:
case INTO:
CAEreport(25)
Nextsymb()
A = Nextfn(Nextfn)
endcase
]
L:
switchon Symb into
[ default:
resultis List3(LINE, Thisline, A)
case REPEAT:
Nextsymb()
A = List2(REPEAT, A)
goto L
case REPEATWHILE:
case REPEATUNTIL:
[ Op = Symb
Nextsymb()
B = Rexp(0)
A = List3(Op, A, B)
goto L
]
]
]
and Rselect(ExpOK) = valof
[ let a, b = nil, nil
let ThisLine = LinePtr()
if Symb eq DEFAULT do
[ Nextsymb()
test Symb eq COLON
then Nextsymb()
or CAEskip(23)
a = Rselect(true)
resultis List3(LINE, ThisLine, List2(DEFAULT, a))
]
if Symb eq CASE do
[ let c = 0
Nextsymb()
a = Rexp(0)
if Symb eq TO do [ Nextsymb(); c = Rexp(0) ] // Case label with limits.
test Symb eq COLON
then Nextsymb()
or CAEskip(23)
b = Rselect(true)
a = c eq 0 ? List4(CASE, a, b, ThisLine), List5(CASETO, a, c, b, ThisLine)
resultis List3(LINE, ThisLine, a)
]
unless ExpOK do CAEreport(24)
a = Rexp(0)
a = List2(RESULTIS, a)
unless Symb eq SEMICOLON resultis List3(LINE, ThisLine, a)
Nextsymb()
b = Rselect(false)
a = List3(SEQ, a, b)
resultis List3(LINE, ThisLine, a)
]