module forth
+import Base.REPLCompletions
+
# VM mem size
size_mem = 1000000 # 1 mega-int
# Memory arrays
mem = Array{Int64,1}(size_mem)
primitives = Array{Function,1}()
-primNames = Array{ASCIIString,1}()
+primNames = Array{AbstractString,1}()
-# Built-in variables
+# Memory geography and built-in variables
nextVarAddr = 1
-H = nextVarAddr; nextVarAddr += 1 # Next free memory address
-FORTH = nextVarAddr; nextVarAddr += 1 # LFA of latest word in system dict
-CURRENT = nextVarAddr; nextVarAddr += 1 # Current compilation dict
+H = nextVarAddr; nextVarAddr += 1 # Next free memory address
+FORTH_LATEST = nextVarAddr; nextVarAddr += 1 # FORTH dict latest
+CURRENT = nextVarAddr; nextVarAddr += 1 # Current compilation dict
RSP0 = nextVarAddr # bottom of RS
PSP0 = RSP0 + size_RS # bottom of PS
TIB = PSP0 + size_PS # address of terminal input buffer
mem[H] = TIB + size_TIB # location of bottom of dictionary
-mem[FORTH] = 0 # no previous definition
-mem[CURRENT] = FORTH # Compile words to system dict initially
+mem[FORTH_LATEST] = 0 # zero FORTH dict latest (no previous def)
+mem[CURRENT] = FORTH_LATEST-1 # Compile words to system dict initially
DICT = mem[H] # Save bottom of dictionary as constant
# Handy functions for adding/retrieving strings to/from memory.
-getString(addr::Int64, len::Int64) = ASCIIString([Char(c) for c in mem[addr:(addr+len-1)]])
+getString(addr::Int64, len::Int64) = AbstractString([Char(c) for c in mem[addr:(addr+len-1)]])
-function putString(str::ASCIIString, addr::Int64)
- mem[addr:(addr+length(str)-1)] = [Int64(c) for c in str]
+function putString(str::AbstractString, addr::Int64, maxLen::Int64)
+ len = min(length(str), maxLen)
+ mem[addr:(addr+len-1)] = [Int64(c) for c in str]
end
+stringAsInts(str::AbstractString) = [Int(c) for c in collect(str)]
+
# Primitive creation and calling functions
function defPrim(f::Function; name="nameless")
mem[H] += length(ints)
end
dictWrite(int::Int64) = dictWrite([int])
-dictWriteString(string::ASCIIString) = dictWrite([Int64(c) for c in string])
+dictWriteString(string::AbstractString) = dictWrite([Int64(c) for c in string])
function createHeader(name::AbstractString, flags::Int64)
- mem[mem[H]] = mem[mem[CURRENT]]
- mem[mem[CURRENT]] = mem[H]
+ mem[mem[H]] = mem[mem[CURRENT]+1]
+ mem[mem[CURRENT]+1] = mem[H]
mem[H] += 1
dictWrite(length(name) | flags | NFA_MARK)
# Dictionary entries for core built-in variables, constants
H_CFA = defExistingVar("H", H)
-FORTH_CFA = defExistingVar("FORTH", FORTH)
-CURRENT_CFA = defExistingVar("CURRENT", CURRENT)
PSP0_CFA = defConst("PSP0", PSP0)
RSP0_CFA = defConst("RSP0", RSP0)
sources = Array{Any,1}()
currentSource() = sources[length(sources)]
+CLOSEFILES_CFA = defPrimWord("CLOSEFILES", () -> begin
+ while currentSource() != STDIN
+ close(pop!(sources))
+ end
+
+ return NEXT
+end)
+
EOF_CFA = defPrimWord("\x04", () -> begin
if currentSource() != STDIN
close(pop!(sources))
end)
function getLineFromSTDIN()
+
+ function getFrag(s)
+ chars = collect(s)
+ slashIdx = findlast(chars, '\\')
+
+ if slashIdx > 0
+ return join(chars[slashIdx:length(chars)])
+ else
+ return nothing
+ end
+ end
+
+ function backspaceStr(s, bsCount)
+ oldLen = length(s)
+ newLen = max(0, oldLen - bsCount)
+ return join(collect(s)[1:newLen])
+ end
+
line = ""
while true
key = Char(getKey())
if key == '\n'
print(" ")
- return ASCIIString(line)
+ return AbstractString(line)
elseif key == '\x04'
if isempty(line)
elseif key == '\b'
if !isempty(line)
- line = line[1:length(line)-1]
- print("\b \b")
+ print("\b\033[K")
+ line = backspaceStr(line, 1)
end
elseif key == '\e'
end
end
+ elseif key == '\t'
+ # Currently do nothing
+
+ frag = getFrag(line)
+ if frag != nothing
+ if haskey(REPLCompletions.latex_symbols, frag)
+ print(repeat("\b", length(frag)))
+ print("\033[K")
+ comp = REPLCompletions.latex_symbols[frag]
+ line = string(backspaceStr(line, length(frag)), comp)
+ print(comp)
+ end
+ end
+
else
print(key)
line = string(line, key)
end
mem[SPAN] = min(length(line), maxLen)
- putString(line[1:mem[SPAN]], addr)
+ putString(line, addr, maxLen)
return NEXT
end)
# Dictionary searches
-LFATOCFA_CFA = defPrimWord("LFA>CFA", () -> begin
+FROMLINK_CFA = defPrimWord("LINK>", () -> begin
addr = popPS()
lenAndFlags = mem[addr+1]
return NEXT
end)
-TOBODY_CFA = defWord(">BODY", [INCR_CFA, EXIT_CFA])
-
-CONTEXT, CONTEXT_CFA = defNewVar("CONTEXT", zeros(Int64, 100))
-mem[CONTEXT] = FORTH_CFA
NUMCONTEXT, NUMCONTEXT_CFA = defNewVar("#CONTEXT", 1)
-FIND_CFA = defPrimWord("FIND", () -> begin
+createHeader("FORTH", 0)
+FORTH_CFA = mem[H]
+dictWrite(defPrim(() -> begin
+ mem[CONTEXT + mem[NUMCONTEXT] - 1] = reg.W
+ return NEXT
+end, name="FORTH"))
+dictWrite(0) # cell for latest
+
+CURRENT_CFA = defExistingVar("CURRENT", CURRENT)
+
+# Switch to new FORTH vocabulary cfa
+mem[FORTH_CFA+1] = mem[mem[CURRENT]+1]
+mem[CURRENT] = FORTH_CFA
+CONTEXT, CONTEXT_CFA = defNewVar("CONTEXT", zeros(Int64, 10))
+mem[CONTEXT] = FORTH_CFA
+
+FINDVOCAB_CFA = defPrimWord("FINDVOCAB", () -> begin
+ vocabCFA = popPS()
countedAddr = popPS()
+
wordAddr = countedAddr + 1
wordLen = mem[countedAddr]
word = lowercase(getString(wordAddr, wordLen))
- context = mem[CONTEXT:(CONTEXT+mem[NUMCONTEXT]-1)]
-
+ lfa = vocabCFA+1
lenAndFlags = 0
- lfa = 0
-
- for vocabCFA in reverse(context)
- callPrim(mem[vocabCFA])
- lfa = popPS()
- while (lfa = mem[lfa]) > 0
+ while (lfa = mem[lfa]) > 0
- lenAndFlags = mem[lfa+1]
- len = lenAndFlags & F_LENMASK
- hidden = (lenAndFlags & F_HIDDEN) == F_HIDDEN
+ lenAndFlags = mem[lfa+1]
+ len = lenAndFlags & F_LENMASK
+ hidden = (lenAndFlags & F_HIDDEN) == F_HIDDEN
- if hidden || len != wordLen
- continue
- end
-
- thisWord = lowercase(getString(lfa+2, len))
-
- if thisWord == word
- break
- end
+ if hidden || len != wordLen
+ continue
end
- if lfa>0
+ thisWord = lowercase(getString(lfa+2, len))
+
+ if thisWord == word
break
end
end
if lfa > 0
pushPS(lfa)
- callPrim(mem[LFATOCFA_CFA])
+ callPrim(mem[FROMLINK_CFA])
if (lenAndFlags & F_IMMED) == F_IMMED
pushPS(1)
else
return NEXT
end)
+FIND_CFA = defPrimWord("FIND", () -> begin
+
+ countedAddr = popPS()
+ context = mem[CONTEXT:(CONTEXT+mem[NUMCONTEXT]-1)]
+
+ for vocabCFA in reverse(context)
+ pushPS(countedAddr)
+ pushPS(vocabCFA)
+ callPrim(mem[FINDVOCAB_CFA])
+
+ callPrim(mem[DUP_CFA])
+ if popPS() != 0
+ return NEXT
+ else
+ popPS()
+ popPS()
+ end
+ end
+
+ pushPS(countedAddr)
+ pushPS(0)
+
+ return NEXT
+end)
+
# Branching
DOES_HELPER_CFA = defPrimWord("(DOES>)", () -> begin
- pushPS(mem[mem[CURRENT]])
- callPrim(mem[LFATOCFA_CFA])
+ pushPS(mem[mem[CURRENT]+1])
+ callPrim(mem[FROMLINK_CFA])
cfa = popPS()
runtimeAddr = popPS()
end)), name="doesPrim")
return NEXT
-end, flags=F_IMMED)
+end, flags=F_IMMED | F_HIDDEN)
DOES_CFA = defWord("DOES>",
[LIT_CFA, LIT_CFA, COMMA_CFA, HERE_CFA, LIT_CFA, 3, ADD_CFA, COMMA_CFA,
end, flags=F_IMMED)
HIDDEN_CFA = defPrimWord("HIDDEN", () -> begin
- lenAndFlagsAddr = mem[mem[CURRENT]] + 1
+ lenAndFlagsAddr = mem[mem[CURRENT]+1] + 1
mem[lenAndFlagsAddr] = mem[lenAndFlagsAddr] $ F_HIDDEN
return NEXT
end)
EXIT_CFA], flags=F_IMMED)
IMMEDIATE_CFA = defPrimWord("IMMEDIATE", () -> begin
- lenAndFlagsAddr = mem[mem[CURRENT]] + 1
+ lenAndFlagsAddr = mem[mem[CURRENT]+1] + 1
mem[lenAndFlagsAddr] = mem[lenAndFlagsAddr] $ F_IMMED
return NEXT
end, flags=F_IMMED)
EXIT_CFA])
PROMPT_CFA = defPrimWord("PROMPT", () -> begin
- if (mem[STATE] == 0 && currentSource() == STDIN)
- println(" ok")
+ if currentSource() == STDIN
+ if mem[STATE] == 0
+ print(" ok")
+ end
+ println()
end
return NEXT
BRANCH_CFA,-4])
ABORT_CFA = defWord("ABORT",
- [PSP0_CFA, PSPSTORE_CFA, QUIT_CFA])
+ [CLOSEFILES_CFA, PSP0_CFA, PSPSTORE_CFA, QUIT_CFA])
BYE_CFA = defPrimWord("BYE", () -> begin
println("\nBye!")
i += 1
end
- println("\t", ASCIIString(chars))
+ println("\t", AbstractString(chars))
end
end