Datasets:

Fraser
/

dream-coder

	#napsPrimitives.py
	from dreamcoder.program import Primitive, prettyProgram
	from dreamcoder.grammar import Grammar
	from dreamcoder.type import tlist, tint, arrow, baseType #, t0, t1, t2

	#from functools import reduce


	#types
	PROGRAM = baseType("PROGRAM")

	RECORD = baseType("RECORD")
	FUNC = baseType("FUNC")

	VAR = baseType("VAR")
	STMT = baseType("STMT")
	EXPR = baseType("EXPR")
	ASSIGN = baseType("ASSIGN")
	LHS = baseType("LHS")
	IF = baseType("IF")
	FOREACH = baseType("FOREACH")
	WHILE = baseType("WHILE")
	BREAK = baseType("BREAK")
	CONTINUE = baseType("CONTINUE")
	RETURN = baseType("RETURN")
	NOOP = baseType("NOOP")
	FIELD = baseType("FIELD")
	CONSTANT = baseType("CONSTANT")
	INVOKE = baseType("INVOKE")
	TERNARY = baseType("TERNARY")
	CAST = baseType("CAST")
	TYPE = baseType("TYPE")

	#other types
	function_name = baseType("function_name")
	field_name = baseType("field_name")
	name = baseType("name") # for records and functions
	value = baseType("value")

	# definitions:

	def _program(records): return lambda funcs: {'types': records, 'funcs': funcs}
	# record
	def _func(string): return lambda tp: lambda name: lambda vars1: lambda vars2: lambda stmts: [string, tp, name, vars1, vars2, stmts]
	def _var(tp): return lambda name: ['var', tp, name]
	# stmt
	# expr
	def _assign(tp): return lambda lhs: lambda expr: ['assign', tp, lhs, expr]
	# lhs
	def _if(tp): return lambda expr: lambda stmts1: lambda stmts2: ['if', tp, expr, stmts1, stmts2] # TODO
	def _foreach(tp): return lambda var: lambda expr: lambda stmts: ['foreach', tp, expr, stmts] # TODO
	def _while(tp): return lambda expr: lambda stmts1: lambda stmts1: ['while', tp, expr, stmts1, stmts2] # or: ['while', tp, expr, [stmts1], [stmts2]] #TODO
	# break
	# continue
	def _return(tp): return lambda expr: ['return', tp, expr]
	# noop
	def _field(tp): return lambda expr: lambda field_name: ['field', tp, expr, field_name]
	def _constant(tp): return lambda value: ['val', tp, value] #TODO deal with value
	def _invoke(tp): return lambda function_name: lambda exprs: ['invoke', tp, function_name, exprs] # TODO, deal with fn_name and lists
	def _ternary(tp): return lambda expr1: lambda expr2: lambda expr3: ['?:', tp, expr1, expr2, expr3]
	def _cast(tp): return lambda expr: ['cast', tp, expr]

	# types:

	# TODO: deal with lists - x
	# TODO: deal with names
	# TODO: deal with values - x

	# TODO: deal with the program/record __main__ and __globals__ stuff



	def napsPrimitives():
	return [
	Primitive("program", arrow(tlist(RECORD), tlist(FUNC), PROGRAM), _program), # TODO
	# RECORD
	Primitive("func", arrow(TYPE, name, tlist(VAR), tlist(VAR), tlist(VAR), tlist(STMT)), _func('func')), # TODO
	Primitive("ctor", arrow(TYPE, name, tlist(VAR), tlist(VAR), tlist(VAR), tlist(STMT)), _func('ctor')),
	Primitive("var", arrow(TYPE, name, VAR), _var)
	] + [
	# STMT ::= EXPR \| IF \| FOREACH \| WHILE \| BREAK \| CONTINUE \| RETURN \| NOOP
	Primitive("stmt_expr", arrow(EXPR, STMT), lambda x: x),
	Primitive("stmt_if", arrow(IF, STMT), lambda x: x),
	Primitive("stmt_foreach", arrow(FOREACH, STMT), lambda x: x),
	Primitive("stmt_while", arrow(WHILE, STMT), lambda x: x),
	Primitive("stmt_break", arrow(BREAK, STMT), lambda x: x),
	Primitive("stmt_continue", arrow(CONTINUE, STMT), lambda x: x),
	Primitive("stmt_return", arrow(RETURN, STMT), lambda x: x),
	Primitive("stmt_noop", arrow(NOOP, STMT), lambda x: x)
	] + [
	# EXPR ::= ASSIGN \| VAR \| FIELD \| CONSTANT \| INVOKE \| TERNARY \| CAST
	Primitive("expr_assign", arrow(ASSIGN, EXPR), lambda x: x),
	Primitive("expr_var", arrow(VAR, EXPR), lambda x: x),
	Primitive("expr_field", arrow(FIELD, EXPR), lambda x: x),
	Primitive("expr_constant", arrow(CONSTANT, EXPR), lambda x: x),
	Primitive("expr_invoke", arrow(INVOKE, EXPR), lambda x: x),
	Primitive("expr_ternary", arrow(TERNARY, EXPR), lambda x: x),
	Primitive("expr_cast", arrow(CAST, EXPR), lambda x: x)
	] + [
	Primitive("assign", arrow(TYPE, LHS, EXPR, ASSIGN), _assign)
	] + [
	# LHS ::= VAR \| FIELD \| INVOKE
	Primitive("lhs_var", arrow(VAR, LHS), lambda x: x),
	Primitive("lhs_field", arrow(FIELD, LHS), lambda x: x),
	Primitive("lhs_invoke", arrow(INVOKE, LHS), lambda x: x)
	] + [
	Primitive("if", arrow(TYPE, EXPR, tlist(STMT), tlist(STMT), IF), _if),
	Primitive("foreach", arrow(TYPE, VAR, EXPR, tlist(STMT), FOREACH), _foreach),
	Primitive("while", arrow(TYPE, EXPR, tlist(STMT), tlist(STMT), WHILE), _while),
	Primitive("break", arrow(TYPE, BREAK), lambda tp: ['break', tp]),
	Primitive("continue", arrow(TYPE, CONTINUE), lambda tp: ['continue', tp]),
	Primitive("return", arrow(TYPE, EXPR, RETURN), _return),
	Primitive("noop", NOOP, ['noop']),
	Primitive("field", arrow(TYPE, EXPR, field_name, FIELD), _field), # TODO
	Primitive("constant", arrow(TYPE, value, CONSTANT), _constant),
	Primitive("invoke", arrow(TYPE, function_name, tlist(EXPR), INVOKE), _invoke), # TODO
	Primitive("ternary", arrow(TYPE, EXPR, EXPR, EXPR, TERNARY), _ternary),
	Primitive("cast", arrow(TYPE, EXPR, CAST), _cast)
	] + [
	# below are TYPE:
	Primitive("bool", TYPE, 'bool'),
	Primitive("char", TYPE, 'char'),
	Primitive("char", TYPE, 'char'),
	Primitive("int", TYPE, 'int'),
	Primitive("real", TYPE, 'real'),
	Primitive("array", arrow(TYPE, TYPE), lambda tp: tp + '*'),
	Primitive("set", arrow(TYPE, TYPE), lambda tp: tp + '%'),
	Primitive("map", arrow(TYPE, TYPE, TYPE), lambda tp1: lambda tp2: '<'+tp1+'\|'+tp2+'>'),
	Primitive("record_name", TYPE, 'record_name#') # TODO
	] + [
	#stuff about lists:
	# STMTs, EXPRs, VARs, maybe Funcs and records
	Primitive('list_init_stmt', arrow(STMT, tlist(STMT)), lambda stmt: [stmt]),
	Primitive('list_add_stmt', arrow(STMT, tlist(STMT), tlist(STMT)), lambda stmt: lambda stmts: stmts + [stmt]),
	Primitive('list_init_expr', arrow(EXPR, tlist(EXPR)), lambda expr: [expr]),
	Primitive('list_add_expr', arrow(EXPR, tlist(EXPR), tlist(EXPR)), lambda expr: lambda exprs: exprs + [expr]),
	Primitive('list_init_var', arrow(VAR, tlist(VAR)), lambda var: [var]),
	Primitive('list_add_var', arrow(VAR, tlist(VAR), tlist(VAR)), lambda var: lambda _vars: _vars + [var])
	] + [
	# value
	Primitive('0', value, 0),
	Primitive("1", value, "1"),
	Primitive("-1", value, "-1")
	# ...
	] + [
	# function_name:
	Primitive('+', function_name, '+'),
	Primitive('&&', function_name, "&&"),
	Primitive("!", function_name, "!"),
	Primitive("!=", function_name, "!="),
	Primitive("string_find", function_name,"string_find")
	# ...
	] + [
	# field_name:
	Primitive('', field_name, '')
	# ...
	] + [
	#
	Primitive(f'var{str(i)}', name, f'var{str(i)}') for i in range(12)
	]


	#for first pass, can just hard code vars and maps n stuff

	def ec_prog_to_uast(prog): # TODO
	# ideally, just evaluate and then parse
	uast = prog.evaluate([])
	return uast

	def deepcoderProductions():
	return [(0.0, prim) for prim in deepcoderPrimitives()]

	# def flatten_program(p):
	# string = p.show(False)
	# num_inputs = string.count('lambda')
	# string = string.replace('lambda', '')
	# string = string.replace('(', '')
	# string = string.replace(')', '')
	# #remove '_fn' (optional)
	# for i in range(num_inputs):
	# string = string.replace('$' + str(num_inputs-i-1),'input_' + str(i))
	# string = string.split(' ')
	# string = list(filter(lambda x: x is not '', string))
	# return string

	if __name__ == "__main__":
	#g = Grammar.uniform(deepcoderPrimitives())
	g = Grammar.fromProductions(deepcoderProductions(), logVariable=.9)
	request = arrow(tlist(tint), tint, tint)
	p = g.sample(request)
	print("request:", request)
	print("program:")
	print(prettyProgram(p))
	print("flattened_program:")
	flat = flatten_program(p)
	print(flat)