/* * OpenSCAD (www.openscad.at) * Copyright (C) 2009 Clifford Wolf * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA * */ #define INCLUDE_ABSTRACT_NODE_DETAILS #include "openscad.h" enum control_type_e { ECHO, ASSIGN, FOR, IF }; class ControlModule : public AbstractModule { public: control_type_e type; ControlModule(control_type_e type) : type(type) { } virtual AbstractNode *evaluate(const Context *ctx, const QVector &call_argnames, const QVector &call_argvalues, const QVector arg_children, const Context *arg_context) const; }; void for_eval(AbstractNode *node, int l, const QVector &call_argnames, const QVector &call_argvalues, const QVector arg_children, const Context *arg_context) { if (call_argnames.size() > l) { QString it_name = call_argnames[l]; Value it_values = call_argvalues[l]; Context c(arg_context); if (it_values.type == Value::RANGE) { double range_begin = it_values.range_begin; double range_end = it_values.range_end; double range_step = it_values.range_step; if (range_end < range_begin) { double t = range_begin; range_begin = range_end; range_end = t; } if (range_step > 0 && (range_begin-range_end)/range_step < 10000) { for (double i = range_begin; i <= range_end; i += range_step) { c.set_variable(it_name, Value(i)); for_eval(node, l+1, call_argnames, call_argvalues, arg_children, &c); } } } else if (it_values.type == Value::VECTOR) { for (int i = 0; i < it_values.vec.size(); i++) { c.set_variable(it_name, *it_values.vec[i]); for_eval(node, l+1, call_argnames, call_argvalues, arg_children, &c); } } else { for_eval(node, l+1, call_argnames, call_argvalues, arg_children, &c); } } else { foreach (ModuleInstanciation *v, arg_children) { AbstractNode *n = v->evaluate(arg_context); if (n != NULL) node->children.append(n); } } } AbstractNode *ControlModule::evaluate(const Context*, const QVector &call_argnames, const QVector &call_argvalues, const QVector arg_children, const Context *arg_context) const { AbstractNode *node = new AbstractNode(); if (type == ECHO) { QString msg = QString("ECHO: "); for (int i = 0; i < call_argnames.size(); i++) { if (i > 0) msg += QString(", "); if (!call_argnames[i].isEmpty()) msg += call_argnames[i] + QString(" = "); msg += call_argvalues[i].dump(); } PRINT(msg); } if (type == ASSIGN) { Context c(arg_context); for (int i = 0; i < call_argnames.size(); i++) { if (!call_argnames[i].isEmpty()) c.set_variable(call_argnames[i], call_argvalues[i]); } foreach (ModuleInstanciation *v, arg_children) { AbstractNode *n = v->evaluate(&c); if (n != NULL) node->children.append(n); } } if (type == FOR) { for_eval(node, 0, call_argnames, call_argvalues, arg_children, arg_context); } if (type == IF) { if (call_argvalues.size() > 0 && call_argvalues[0].type == Value::BOOL && call_argvalues[0].b) foreach (ModuleInstanciation *v, arg_children) { AbstractNode *n = v->evaluate(arg_context); if (n != NULL) node->children.append(n); } } return node; } void register_builtin_control() { builtin_modules["echo"] = new ControlModule(ECHO); builtin_modules["assign"] = new ControlModule(ASSIGN); builtin_modules["for"] = new ControlModule(FOR); builtin_modules["if"] = new ControlModule(IF); }