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assert-gooder/Parser.lua

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Lua
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---- Algorithm
local DEFAULT_ASSOC = 'left'
local DEFAULT_ARITY = 2
local function greater_than (a, b)
assert(type(a) == 'number', a)
assert(type(b) == 'number', b)
return a > b
end
local function greater_than_or_equal (a, b)
assert(type(a) == 'number', a)
assert(type(b) == 'number', b)
return a >= b
end
local function shunting_yard (tokens, lang, num_arity_to_token)
-- Implementation of the shunting yard algorithm, for transforming
-- infix notation math to postfix notation math.
--
-- Features extension for variadic first-class functions, which
-- results in slightly complicated output.
-- Whenever a function is called, the output will be formatted
-- like: <function-identifier> <arguments...> <num-args>
-- <call-operator>
--
-- For example: f(1, 2, 3)
-- Output: "f" 1 2 3 3 $
--
-- The exact behavior can be customized.
--
assert(type(tokens) == 'table' and #tokens > 0)
assert(type(lang) == 'function')
local pop_i = 1
local stack, output, call_stack = {}, {}, {}
local prev_info = nil
for _, val in ipairs(tokens) do
local t_info = lang(val, prev_info)
assert(type(t_info) == 'table' and t_info.val ~= nil)
if t_info.type == 'imm' then
output[#output+1] = t_info
-- Binary operators
elseif t_info.type == 'op' then
-- Determine associativity
t_info.associativity = t_info.associativity or DEFAULT_ASSOC
t_info.arity = t_info.arity or DEFAULT_ARITY
assert(type(t_info.precedence) == 'number')
assert(t_info.associativity == 'left' or t_info.associativity == 'right')
assert(t_info.arity == 1 or t_info.arity == 2)
local test = t_info.associativity == 'left' and greater_than_or_equal or greater_than
-- Pop operations with higher precedence from the stack
if t_info.arity == 1 and t_info.associativity == 'right' then
-- Do not pop operations from the stack
elseif t_info.arity == 2 then
while #stack > 0 and stack[#stack].type == 'op' and test(stack[#stack].precedence, t_info.precedence) do
output[#output+1], stack[#stack] = stack[#stack], nil
end
else
assert(false)
end
-- Add this operation to the stack
stack[#stack+1] = t_info
-- Enclosures
elseif t_info.type == 'bracket' then
-- Determine opening and closing brackets
assert(t_info.open ~= nil and t_info.close ~= nil and t_info.open ~= t_info.close)
-- Are we opening or closing?
if t_info.val == t_info.open then
while #stack > 0 and stack[#stack].type == 'op' and stack[#stack].precedence >= t_info.precedence do
output[#output+1], stack[#stack] = stack[#stack], nil
end
if t_info.on_end_call_op and prev_info and prev_info.type ~= 'op' then
call_stack[#call_stack+1] = { arity = 1, bracket = t_info }
stack[#stack+1] = t_info.on_end_call_op
end
stack[#stack+1] = t_info
elseif t_info.val == t_info.close then
-- If closing, pop from stack into output
while #stack > 0 and stack[#stack].val ~= t_info.open do
output[#output+1], stack[#stack] = stack[#stack], nil
end
-- Remove remaining bracket.
-- Brackets are not needed in postfix notation.
assert(#stack > 0 and stack[#stack].val == t_info.open)
stack[#stack] = nil
-- If top of stack is a function, we should pop it
if #stack > 0 and stack[#stack].call_op then
assert(#call_stack > 0)
if prev_info.type == 'bracket' and prev_info.open == prev_info.val and t_info.open == prev_info.val then
-- No arguments for this function
call_stack[#call_stack].arity = 0
end
-- Pop from stacks and construct output
output[#output+1], call_stack[#call_stack] = num_arity_to_token(call_stack[#call_stack].arity), nil
output[#output+1], stack[#stack] = stack[#stack], nil
end
else
assert(false, require'pretty'(t_info))
end
elseif t_info.type == 'arg-sep' then
-- Ensure that we are in a call
assert(#call_stack > 0 and call_stack[#call_stack].bracket.open == t_info.open)
-- Pop from stack
while #stack > 0 and stack[#stack].val ~= t_info.open do
output[#output+1], stack[#stack] = stack[#stack], nil
end
-- Ensure open is on the stack
assert(#stack > 0 and stack[#stack].val == t_info.open)
-- Increment arity in call-stack
call_stack[#call_stack].arity = call_stack[#call_stack].arity + 1
else
assert(false, 'Unknown type: '..tostring(t_info.type))
end
prev_info = t_info
end
-- Pop remaining from stack onto output
while #stack > 0 do
output[#output+1], stack[#stack] = stack[#stack], nil
end
-- Find value for all tokens on the stack
for i = 1, #output do
assert(output[i].val and output[i].type ~= 'bracket', require'pretty'(output[i]))
output[i] = output[i].val
end
-- Post asserts
--assert(type(output) == 'table' and #output <= #tokens)
assert(#stack == 0)
--
return output
end
return shunting_yard