# Rule for making rules lua block ".." |compiler:defmacro("rule %spec = %body", function(compiler, vars, kind) | if kind == "Expression" then | compiler:error("Cannot use rule definitions as an expression.") | end | local spec = compiler:get_invocations_from_definition(vars.spec.value, vars) | return ("compiler:def("..compiler.utils.repr(spec,true)..", "..compiler:tree_to_lua(vars.body, vars)..")"), true |end) rule: help %invocation ..=: lua block ".." |local fn_info = compiler.defs[vars.invocation] |if not fn_info then | compiler:writeln("Function not found: "..compiler.utils.repr(vars.invocation, true)) |else | compiler:writeln("rule "..compiler.utils.repr(fn_info.invocations).." ="..(fn_info.src or ":\\n ")) |end # Macros lua block ".." |local add_macro = function(compiler, vars, kind) | local spec = compiler:get_invocations_from_definition(vars.spec.value, vars) | local fn = compiler:tree_to_value(vars.body, vars) | compiler:defmacro(spec, fn, vars.body.src) | return "", true |end |compiler:defmacro("macro %spec = %body", add_macro) | |local add_macro_block = function(compiler, vars, kind) | local spec = compiler:get_invocations_from_definition(vars.spec.value, vars) | local fn = compiler:tree_to_value(vars.body, vars) | local wrapper = function(compiler, vars, kind) | if kind == "Expression" then | compiler:error("Macro: "..spec.." was defined to be a block, but is being used as an expression.") | end | return ("do\\n"..fn(compiler, vars, kind).."\\nend"), true | end | compiler:defmacro(spec, wrapper, vars.body.src) | return "", true |end |compiler:defmacro("macro block %spec = %body", add_macro_block) # Compiler tools rule: eval %code run %code ..=: lua expr "compiler:run(vars.code)" rule: source code from tree %tree ..=: lua block ".." |local _,_,leading_space = vars.tree.src:find("\\n(%s*)%S") |if leading_space then | local chunk1, chunk2 = vars.tree.src:match(":%s*([^\\n]*)(\\n.*)") | chunk2 = chunk2:gsub("\\n"..leading_space, "\\n") | vars.source = chunk1..chunk2.."\\n" |else | vars.source = vars.tree.src:match(":%s*(%S.*)").."\\n" |end %source macro: source code %body ..=: repr (source code from tree %body) rule: run file %filename ..=: lua block ".." |local file = io.open(vars.filename) |return compiler:run(file:read("*a")) # Error functions rule: error! ..=: lua block ".." |table.remove(compiler.callstack) |compiler:error() rule: error %msg ..=: lua block ".." |table.remove(compiler.callstack) |compiler:error(vars.msg) # TODO: Make useful macro: as lua %block ..=: lua expr "compiler.utils.repr(compiler:tree_to_lua(vars.block.value.value, 'Statement'), true)" macro block: show generated lua %block ..=: ".."|compiler:writeln(\lua expr "compiler.utils.repr(compiler:tree_to_lua(vars.block.value.value, 'Statement'), true)"\) # Macro helper functions rule: %tree as value ..=: lua expr ".." |compiler:tree_to_value(vars.tree, vars) rule: %tree as lua block ..=: lua block ".." |return compiler:tree_to_lua(vars.tree, 'Statement'), true rule: %tree as lua expr ..=: lua expr ".." |compiler:tree_to_lua(vars.tree, 'Expression') # Moonscript! macro block: moonscript block %moonscript_code ..=: lua block ".." |local parse, compile = require('moonscript.parse'), require('moonscript.compile') |local moon_code = compiler:tree_to_value(vars.moonscript_code, vars) |local tree, err = parse.string(moon_code) |if not tree then | compiler:error("Failed to parse moonscript: "..err) |end |local lua_code, err, pos = compile.tree(tree) |if not lua_code then | compiler:error(compile.format_error(err, pos, moon_code)) |end |return "do\\n"..lua_code.."\\nend" macro: moonscript %moonscript_code ..=: lua block ".." |local parse, compile = require('moonscript.parse'), require('moonscript.compile') |local moon_code = compiler:tree_to_value(vars.moonscript_code, vars) |local tree, err = parse.string(moon_code) |if not tree then | compiler:error("Failed to parse moonscript: "..err) |end |local lua_code, err, pos = compile.tree(tree) |if not lua_code then | compiler:error(compile.format_error(err, pos, moon_code)) |end |return "(function(compiler, vars)\\n"..lua_code.."\\nend)(compiler, vars)" # String functions rule: join %strs ..=: lua block ".." |local str_bits = {} |for i,bit in ipairs(vars.strs) do str_bits[i] = compiler.utils.repr(bit) end |return table.concat(str_bits) rule: join %strs with glue %glue ..=: lua block ".." |local str_bits = {} |for i,bit in ipairs(vars.strs) do str_bits[i] = compiler.utils.repr(bit) end |return table.concat(str_bits, vars.glue) rule: capitalize %str %str capitalized ..=: lua expr ".."|vars.str:gsub("%l", string.upper, 1) # Variable assignment #.. macro block: %var = %value ..=: lua block ".." |if vars.var.value.type ~= "Var" then | compiler:error("Assignment operation has the wrong type for the left hand side. " | .."Expected Var, but got: "..vars.var.value.type) |end ".."|\%var as lua expr\ = \%value as lua expr\ lua block ".." |local function helper(callback) | return function(compiler, vars, kind) | if kind == "Expression" then | compiler:error("Cannot use an assignment operation as an expression value.") | end | if vars.var.value.type ~= "Var" then | compiler:error("Assignment operation has the wrong type for the left hand side. " | .."Expected Var, but got: "..vars.var.value.type) | end | if vars.value.value.type ~= "Thunk" then | compiler:error("Assignment operation has the wrong type for the right hand side. " | .."Expected Thunk, but got: "..vars.value.value.type.."\\nMaybe you used '=' instead of '=:'?") | end | local ret = "do\\n local ret" | ret = ret .. "\\n "..compiler:tree_to_lua(vars.value.value.value, "Statement") | ret = ret .. "\\n "..callback(compiler:tree_to_lua(vars.var, "Expression")) | return (ret.."\\nend"), true | end |end |compiler:defmacro("%var = %value", helper(function(var) return var.." = ret" end)) |compiler:defmacro("%var += %value", helper(function(var) return var.." = "..var.." + ret" end)) |compiler:defmacro("%var -= %value", helper(function(var) return var.." = "..var.." - ret" end)) |compiler:defmacro("%var *= %value", helper(function(var) return var.." = "..var.." * ret" end)) |compiler:defmacro("%var /= %value", helper(function(var) return var.." = "..var.." / ret" end)) |compiler:defmacro("%var ^= %value", helper(function(var) return var.." = "..var.." ^ ret" end)) |compiler:defmacro("%var and= %value", helper(function(var) return var.." = "..var.." and ret" end)) |compiler:defmacro("%var or= %value", helper(function(var) return var.." = "..var.." or ret" end)) |compiler:defmacro("%var concat= %value", helper(function(var) return var.." = "..var.." .. ret" end)) |compiler:defmacro("%var mod= %value", helper(function(var) return var.." = "..var.." % ret" end)) # Operators macro: true yes ..=: "true" macro: false no ..=: "false" macro: nil null ..=: "nil" macro block: nop pass ..=: "" macro: %a + %b ..=: ".."|(\%a as lua expr\ + \%b as lua expr\) macro: %a + %b + %c ..=: ".."|(\%a as lua expr\ + \%b as lua expr\ + \%c as lua expr\) macro: %a + %b + %c + %d ..=: ".."|(\%a as lua expr\ + \%b as lua expr\ + \%c as lua expr\ + \%d as lua expr\) macro: %a - %b ..=: ".."|(\%a as lua expr\ - \%b as lua expr\) macro: %a * %b ..=: ".."|(\%a as lua expr\ * \%b as lua expr\) macro: %a * %b * %c ..=: ".."|(\%a as lua expr\ * \%b as lua expr\ * \%c as lua expr\) macro: %a * %b * %c * %d ..=: ".."|(\%a as lua expr\ * \%b as lua expr\ * \%c as lua expr\ * \%d as lua expr\) macro: %a / %b ..=: ".."|(\%a as lua expr\ / \%b as lua expr\) macro: %a === %b ..=: ".."|(\%a as lua expr\ == \%b as lua expr\) macro: %a !== %b ..=: ".."|(\%a as lua expr\ ~= \%b as lua expr\) macro: %a < %b ..=: ".."|(\%a as lua expr\ < \%b as lua expr\) macro: %a < %b < %c ..=: ".."|((\%a as lua expr\ < \%b as lua expr\) and (\%b as lua expr\ < \%c as lua expr\)) macro: %a <= %b < %c ..=: ".."|((\%a as lua expr\ <= \%b as lua expr\) and (\%b as lua expr\ < \%c as lua expr\)) macro: %a <= %b <= %c ..=: ".."|((\%a as lua expr\ <= \%b as lua expr\) and (\%b as lua expr\ <= \%c as lua expr\)) macro: %a < %b <= %c ..=: ".."|((\%a as lua expr\ < \%b as lua expr\) and (\%b as lua expr\ <= \%c as lua expr\)) macro: %a > %b > %c ..=: ".."|((\%a as lua expr\ > \%b as lua expr\) and (\%b as lua expr\ > \%c as lua expr\)) macro: %a >= %b > %c ..=: ".."|((\%a as lua expr\ >= \%b as lua expr\) and (\%b as lua expr\ > \%c as lua expr\)) macro: %a >= %b >= %c ..=: ".."|((\%a as lua expr\ >= \%b as lua expr\) and (\%b as lua expr\ >= \%c as lua expr\)) macro: %a > %b >= %c ..=: ".."|((\%a as lua expr\ > \%b as lua expr\) and (\%b as lua expr\ >= \%c as lua expr\)) macro: %a <= %b ..=: ".."|(\%a as lua expr\ <= \%b as lua expr\) macro: %a > %b ..=: ".."|(\%a as lua expr\ > \%b as lua expr\) macro: %a >= %b ..=: ".."|(\%a as lua expr\ >= \%b as lua expr\) macro: %a ^ %b ..=: ".."|(\%a as lua expr\ ^ \%b as lua expr\) macro: %a and %b ..=: ".."|(\%a as lua expr\ and \%b as lua expr\) macro: %a and %b and %c ..=: ".."|(\%a as lua expr\ and \%b as lua expr\ and \%c as lua expr\) macro: %a and %b and %c and %d ..=: ".."|(\%a as lua expr\ and \%b as lua expr\ and \%c as lua expr\ and \%d as lua expr\) macro: %a or %b ..=: ".."|(\%a as lua expr\ or \%b as lua expr\) macro: %a or %b or %c ..=: ".."|(\%a as lua expr\ or \%b as lua expr\ or \%c as lua expr\) macro: %a or %b or %c or %d ..=: ".."|(\%a as lua expr\ or \%b as lua expr\ or \%c as lua expr\ or \%d as lua expr\) macro: %a mod %b ..=: ".."|(\%a as lua expr\ mod \%b as lua expr\) macro: - %a ..=: ".."|-(\%a as lua expr\) macro: not %a ..=: ".."|not (\%a as lua expr\) rule: %a == %b ..=: lua expr "((vars.a == vars.b) or compiler.utils.equivalent(vars.a, vars.b))" rule: %a != %b ..=: lua expr "((vars.a ~= vars.b) or not compiler.utils.equivalent(vars.a, vars.b))" macro: repr %obj ..=: ".."|compiler.utils.repr(\%obj as lua expr\, true) macro: say %str ..=: ".."|compiler:writeln(compiler.utils.repr(\%str as lua expr\)) # Control flow rule: do %action ..=: lua expr "vars.action(compiler, setmetatable({}, {__index=vars}))" macro block: return %return_value ..=: lua block ".." |if vars.return_value.value.type ~= "Thunk" then | compiler:error("Assignment operation has the wrong type for the right hand side. " | .."Expected Thunk, but got: "..vars.return_value.value.type.."\\nMaybe you used '=' instead of '=:'?") |end ".."|do | local ret | \lua expr "compiler:tree_to_lua(vars.return_value.value.value, 'Statement')"\ | return ret |end macro block: return ..=: "return nil" # Conditionals macro block: if %condition %if_body ..=: ".."|if \%condition as lua expr\ then | \(lua expr "vars.if_body.value.value") as lua block\ |end macro block: if %condition %if_body else %else_body ..=: ".."|if \%condition as lua expr\ then | \(lua expr "vars.if_body.value.value") as lua block\ |else | \(lua expr "vars.else_body.value.value") as lua block\ |end # Ternary operator macro: %if_expr if %condition else %else_expr ..=: ".."|(function(compiler, vars) | if \%condition as lua expr\ then | return \%if_expr as lua expr\ | else | return \%else_expr as lua expr\ | end |end)(compiler, vars) # Loop control flow macro block: break ..=: "break" macro block: continue ..=: "continue" # TODO: add labeled break/continue? # GOTOs lua block ".." |local function lua_label(label) | if label.type ~= "Var" then | compiler:error("Goto label has the wrong type for the label. Expected Var, but got: "..label.type) | end | local bits = "abcdefghijklmnop" | local lua_identifier = "label_" | for i=1,#label.value do | local byte = string.byte(label.value, i) | local low = byte % 16 | local high = (byte - low) / 16 | lua_identifier = lua_identifier .. bits:sub(low+1,low+1) .. bits:sub(high+1,high+1) | end | return lua_identifier |end | |compiler:defmacro("-> %label", function(compiler, vars, kind) | return "::"..lua_label(vars.label.value).."::", true |end) |compiler:defmacro("go to %label", function(compiler, vars, kind) | return "goto "..lua_label(vars.label.value), true |end) # While loops macro block: repeat %body ..=: ".."|while true do | \(lua expr "vars.body.value.value") as lua block\ |end macro block: repeat while %condition %body ..=: ".."|while \%condition as lua expr\ do | \(lua expr "vars.body.value.value") as lua block\ |end macro block: repeat until %condition %body ..=: ".."|while not (\%condition as lua expr\) do | \(lua expr "vars.body.value.value") as lua block\ |end # For loops macro block: for %var in %iterable %body ..=: %var-type =: lua expr "vars.var.value.type" if (%var-type != "Var"): error ".." |For loop has the wrong type for the loop variable. Expected Var, but got: \%var-type\ %var-code =: %var as lua expr ".."|local old_loopval = \%var-code\ |for i,value in ipairs(\%iterable as lua expr\) do | \%var-code\ = value | \(lua expr "vars.body.value.value") as lua block\ |end |\%var-code\ = old_loopval macro block: for all %iterable %body ..=: ".."|local old_loopval = vars.it |for i,value in ipairs(\%iterable as lua expr\) do | vars.it = value | \(lua expr "vars.body.value.value") as lua block\ |end |vars.it = old_loopval # List Comprehension # TODO: maybe make this lazy, or a lazy version? macro: %expression for %var in %iterable ..=: %var-type =: lua expr "vars.var.value.type" if (%var-type != "Var"): error ".." |List comprehension has the wrong type for the loop variable. Expected Var, but got: \%var-type\ %var-code =: %var as lua expr ".."|(function(game, vars) | local comprehension = {} | for i,value in ipairs(\%iterable as lua expr\) do | \%var-code\ = value | comprehension[i] = \%expression as lua expr\ | end | return comprehension |end)(game, setmetatable({}, {__index=vars})) macro: %expression for all %iterable ..=: ".."|(function(game, vars) | local comprehension = {} | for i,value in ipairs(\%iterable as lua expr\) do | vars.it = value | comprehension[i] = \%expression as lua expr\ | end | return comprehension |end)(game, setmetatable({}, {__index=vars})) # Dict comprehension macro: %key -> %value for %var in %iterable ..=: %var-type =: lua expr "vars.var.value.type" if (%var-type != "Var"): error ".." |Dict comprehension has the wrong type for the loop variable. Expected Var, but got: \%var-type\ %var-code =: %var as lua expr ".."|(function(game, vars) | local comprehension = {} | for i,value in ipairs(\%iterable as lua expr\) do | \%var-code\ = value | comprehension[\%key as lua expr\] = \%value as lua expr\ | end | return comprehension |end)(game, setmetatable({}, {__index=vars})) macro: %key -> %value for all %iterable ..=: ".."|(function(game, vars) | local comprehension = {} | for i,value in ipairs(\%iterable as lua expr\) do | vars.it = value | comprehension[\%key as lua expr\] = \%value as lua expr\ | end | return comprehension |end)(game, setmetatable({}, {__index=vars})) # Number ranges rule: %start up to %stop ..=: lua expr "compiler.utils.range(vars.start,vars.stop-1)" rule: %start thru %stop %start through %stop ..=: lua expr "compiler.utils.range(vars.start,vars.stop)" rule: %start down to %stop ..=: lua expr "compiler.utils.range(vars.start,vars.stop+1,-1)" rule: %start down thru %stop %start down through %stop ..=: lua expr "compiler.utils.range(vars.start,vars.stop,-1)" rule: %start up to %stop via %step ..=: lua expr "compiler.utils.range(vars.start,vars.stop-1,vars.step)" rule: %start thru %stop via %step %start through %stop via %step ..=: lua expr "compiler.utils.range(vars.start,vars.stop,vars.step)" rule: %start down to %stop via %step ..=: lua expr "compiler.utils.range(vars.start,vars.stop+1,-vars.step)" rule: %start down thru %stop via %step %start down through %stop via %step ..=: lua expr "compiler.utils.range(vars.start,vars.stop,-vars.step)" # Common utility functions rule: random number ..=: lua expr "math.random()" rule: sum of %items ..=: lua expr "compiler.utils.sum(vars.items)" rule: product of %items ..=: lua expr "compiler.utils.product(vars.items)" rule: all of %items ..=: lua expr "compiler.utils.all(vars.items)" rule: any of %items ..=: lua expr "compiler.utils.any(vars.items)" rule: avg of %items average of %items ..=: lua expr "(compiler.utils.sum(vars.items)/#vars.items)" rule: min of %items smallest of %items lowest of %items ..=: lua expr "compiler.utils.min(vars.items)" rule: max of %items biggest of %items largest of %items highest of %items ..=: lua expr "compiler.utils.min(vars.items)" rule: min of %items with respect to %keys ..=: lua expr "compiler.utils.min(vars.items, vars.keys)" rule: max of %items with respect to %keys ..=: lua expr "compiler.utils.max(vars.items, vars.keys)" # List/dict functions macro: %list's %index %index st in %list %index nd in %list %index rd in %list %index th in %list %index in %list %list -> %index ..=: ".."|\%list as lua expr\[\%index as lua expr\] macro block: %list's %index = %value %index st in %list = %value %index nd in %list = %value %index rd in %list = %value %index th in %list = %value %index in %list = %value %list -> %index = %value ..=: lua block ".." |if vars.value.value.type ~= "Thunk" then | compiler:error("Dict assignment operation has the wrong type for the right hand side. " | .."Expected Thunk, but got: "..vars.value.value.type.."\\nMaybe you used '=' instead of '=:'?") |end ".."|do | local ret | \lua expr "compiler:tree_to_lua(vars.value.value.value, 'Statement')"\ | \%list as lua expr\[\%index as lua expr\] = ret |end macro: append %item to %list add %item to %list ..=: ".."|table.insert(\%list as lua expr\, \%item as lua expr\) rule: flatten %lists ..=: %flat =: [] for %list in %lists: for %item in %list: add %item to %flat %flat macro: %item is in %list %list contains %item ..=: ".."|(\%list as lua expr\[\%index as lua expr\] ~= nil) macro: length of %list size of %list number of %list ..=: ".."|#(\%list as lua expr\) rule: dict %items ..=: %dict =: [] for %pair in %items: lua block "vars.dict[vars.pair[1]] = vars.pair[2]" return: %dict rule: entries in %dict ..=: lua block ".." |local items = {} |for k,v in pairs(vars.dict) do | table.insert(items, {key=k,value=v}) |end |return items # Permission functions rule: restrict %fn to within %whitelist ..=: lua block ".." |local fns = compiler:get_invocations(vars.fn) |local whitelist = compiler:get_invocations(vars.whitelist) |local whiteset = {} |for _,w in ipairs(whitelist) do | if not compiler.defs[w] then | compiler:error("Undefined function: "..tostring(w)) | else whiteset[w] = true | end |end |for _,fn in ipairs(fns) do | local fn_info = compiler.defs[fn] | if fn_info == nil then | compiler:error("Undefined function: "..tostring(fn)) | elseif not compiler:check_permission(fn) then | compiler:writeln("You do not have permission to restrict function: "..tostring(fn)) | else | compiler.defs[fn].whiteset = whiteset | end |end rule: allow %whitelist to use %fn ..=: lua block ".." |local fns = compiler:get_invocations(vars.fn) |local whitelist = compiler:get_invocations(vars.whitelist) |for _,w in ipairs(whitelist) do | if not compiler.defs[w] then | compiler:error("Undefined function: "..tostring(w)) | end |end |for _,fn in ipairs(fns) do | local fn_info = compiler.defs[fn] | if fn_info == nil then | compiler:error("Undefined function: "..tostring(fn)) | elseif fn_info.whiteset == nil then | compiler:writeln("Function is already allowed by everyone: "..tostring(fn)) | elseif not compiler:check_permission(fn) then | compiler:writeln("You do not have permission to grant permissions for function: "..tostring(fn)) | else | for _,w in ipairs(whitelist) do | fn_info.whiteset[w] = true | end | end |end rule: forbid %blacklist to use %fn ..=: lua block ".." |local fns = compiler:get_invocations(vars.fn) |local blacklist = compiler:get_invocations(vars.blacklist) |for _,b in ipairs(blacklist) do | if not compiler.defs[b] then | compiler:error("Undefined function: "..tostring(b)) | end |end |for _,fn in ipairs(fns) do | local fn_info = compiler.defs[fn] | if fn_info == nil then | compiler:error("Undefined function: "..tostring(fn)) | elseif fn_info.whiteset == nil then | compiler:writeln("Cannot remove items from a whitelist when there is no whitelist on function: "..tostring(fn)) | elseif not compiler:check_permission(fn) then | compiler:writeln("You do not have permission to restrict function: "..tostring(fn)) | else | for _,b in ipairs(blacklist) do fn_info.whiteset[b] = nil end | end |end # For unit testing macro block: test %code yields %expected ..=: %generated =: lua expr "compiler.utils.repr(compiler:stringify_tree(vars.code.value.value), true)" %expected =: %expected as lua expr if (%generated != %expected): say "Test failed!" say "Expected:" say %expected say "But got:" say %generated error! return: ""