From: David Kerkeslager Date: Thu, 18 Jul 2019 03:10:29 +0000 (-0400) Subject: Add crossplatform IR generation for if/else statements X-Git-Url: https://code.kerkeslager.com/?a=commitdiff_plain;h=03d34fcbb6814e64480f0165e56a91e5ba7b7ee0;p=fur Add crossplatform IR generation for if/else statements --- diff --git a/crossplatform_ir_generation.py b/crossplatform_ir_generation.py index d753103..92b2adb 100644 --- a/crossplatform_ir_generation.py +++ b/crossplatform_ir_generation.py @@ -2,6 +2,9 @@ import collections import conversion +def flatten(xses): + return tuple(x for xs in xses for x in xs) + CIRProgram = collections.namedtuple( 'CIRProgram', ( @@ -9,11 +12,10 @@ CIRProgram = collections.namedtuple( ), ) -CIREntry = collections.namedtuple( - 'CIREntry', +CIRLabel = collections.namedtuple( + 'CIRLabel', ( - 'name', - 'instruction_list', + 'label', ), ) @@ -75,7 +77,7 @@ def generate_expression(expression): conversion.CPSVariableExpression: generate_variable_expression, }[type(expression)](expression) -def generate_expression_statement(statement): +def generate_expression_statement(counters, statement): return ( (), generate_expression(statement.expression) + ( @@ -86,10 +88,49 @@ def generate_expression_statement(statement): ), ) -def generate_if_else_statement(statement): - import ipdb; ipdb.set_trace() +def generate_if_else_statement(counters, statement): + if_counter = counters['if'] + counters['if'] += 1 + + referenced_entry_list_list = [] + + if_instruction_list_list = [] + for if_statement in statement.if_statement_list: + referenced_entry_list, instruction_list = generate_statement(counters, if_statement) + referenced_entry_list_list.append(referenced_entry_list) + if_instruction_list_list.append(instruction_list) + + else_instruction_list_list = [] + + for else_statement in statement.else_statement_list: + referenced_entry_list, instruction_list = generate_statement(counters, else_statement) + referenced_entry_list_list.append(referenced_entry_list) + else_instruction_list_list.append(instruction_list) + + if_label = '__if${}__'.format(if_counter) + else_label = '__else${}__'.format(if_counter) + endif_label = '__endif${}__'.format(if_counter) + + return ( + referenced_entry_list_list, + generate_expression(statement.condition_expression) + ( + CIRInstruction( + instruction='jump_if_false', + argument=else_label, + ), + CIRLabel(label=if_label), + ) + flatten(if_instruction_list_list) + ( + CIRInstruction( + instruction='jump', + argument=endif_label, + ), + CIRLabel(label=else_label), + ) + flatten(else_instruction_list_list) + ( + CIRLabel(label=endif_label), + ), + ) -def generate_assignment_statement(statement): +def generate_assignment_statement(counters, statement): return ( (), generate_expression(statement.expression) + ( @@ -100,13 +141,13 @@ def generate_assignment_statement(statement): ), ) -def generate_push_statement(statement): +def generate_push_statement(counters, statement): return ( (), generate_expression(statement.expression), ) -def generate_variable_initialization_statement(statement): +def generate_variable_initialization_statement(counters, statement): return ( (), generate_expression(statement.expression) + ( @@ -117,54 +158,61 @@ def generate_variable_initialization_statement(statement): ), ) -def generate_statement(statement): +def generate_variable_reassignment_statement(counter, statement): + return ( + (), + generate_expression(statement.expression) + ( + CIRInstruction( + instruction='pop', + argument=generate_symbol_literal(statement.variable), + ), + ), + ) + +def generate_statement(counters, statement): return { conversion.CPSAssignmentStatement: generate_assignment_statement, conversion.CPSExpressionStatement: generate_expression_statement, conversion.CPSIfElseStatement: generate_if_else_statement, conversion.CPSPushStatement: generate_push_statement, conversion.CPSVariableInitializationStatement: generate_variable_initialization_statement, - }[type(statement)](statement) + conversion.CPSVariableReassignmentStatement: generate_variable_reassignment_statement, + }[type(statement)](counters, statement) def generate(converted): referenced_entry_list_list = [] instruction_list_list = [] + counters = { + 'if': 0, + } for statement in converted.statement_list: - referenced_entry_list, instruction_list = generate_statement(statement) + referenced_entry_list, instruction_list = generate_statement(counters, statement) referenced_entry_list_list.append(referenced_entry_list) instruction_list_list.append(instruction_list) return CIRProgram( - entry_list=tuple( - entry + entry_list=( + CIRLabel(label='__main__'), + ) + tuple( + referenced_entry for referenced_entry_list in referenced_entry_list_list - for entry in referenced_entry_list - ) + (CIREntry( - name='__main__', - instruction_list=tuple( - instruction - for instruction_list in instruction_list_list - for instruction in instruction_list - ), - ),), + for referenced_entry in referenced_entry_list + ) + tuple( + instruction + for instruction_list in instruction_list_list + for instruction in instruction_list + ), ) def output(program): - entry_outputs = [] + lines = [] for entry in program.entry_list: - statement_outputs = [] - - for instruction in entry.instruction_list: - statement_outputs.append(' {} {}'.format( - instruction.instruction, - instruction.argument, - )) + if isinstance(entry, CIRInstruction): + lines.append(' {} {}'.format(entry.instruction, entry.argument)) - entry_outputs.append('{}:\n{}'.format( - entry.name, - '\n'.join(statement_outputs), - )) + if isinstance(entry, CIRLabel): + lines.append('\n{}:'.format(entry.label)) - return '\n\n'.join(entry_outputs) + return '\n'.join(lines).lstrip()