2010-11-30 20:41:35 +00:00
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/*****************/
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/* am_param.h */
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/*****************/
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/*
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* This program source code file is part of KICAD, a free EDA CAD application.
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*
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* Copyright (C) 1992-2010 Jean-Pierre Charras <jean-pierre.charras@gipsa-lab.inpg.fr>
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* Copyright (C) 2010 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
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* Copyright (C) 1992-2010 Kicad Developers, see change_log.txt for contributors.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License
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* as published by the Free Software Foundation; either version 2
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* of the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, you may find one here:
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* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
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* or you may search the http://www.gnu.org website for the version 2 license,
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* or you may write to the Free Software Foundation, Inc.,
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* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
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*/
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#ifndef _AM_PARAM_H_
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#define _AM_PARAM_H_
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/*
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2010-11-30 20:45:35 +00:00
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* An aperture macro defines a complex shape and is a list of aperture primitives.
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* Each aperture primitive defines a simple shape (circle, rect, regular polygon...)
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* Inside a given aperture primitive, a fixed list of parameters defines info
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* about the shape: size, thickness, number of vertex ...
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*
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* Each parameter can be an immediate value or a defered value.
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* When value is defered, it is defined when the aperture macro is instancied by
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* an ADD macro command
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*
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* Actual values of a parameter can also be the result of an arithmetic operation.
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*
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* Here is some examples:
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* An immediate value:
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* 3.5
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* A deferend value:
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* $2 means: replace me by the second value given in the ADD command
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* Actual value as arithmetic calculation:
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* $2/2+1
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*
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* Note also a defered parameter can be defined in aperture macro,
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* but outside aperture primitives. Example
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* %AMRECTHERM*
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* $4=$3/2* parameter $4 is half value of parameter $3
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* 21,1,$1-$3,$2-$3,0-$1/2-$4,0-$2/2-$4,0*
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* For the aperture primitive, parameters $1 to $3 will be defined in ADD command,
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* and $4 is defined inside the macro
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*
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* Some examples of aperture macro definition
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* A simple definition, no parameters:
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* %AMMOIRE10*
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* 6,0,0,0.350000,0.005,0.050,3,0.005,0.400000,0.0*%
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* Example of instanciation:
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* %ADD19THERM19*%
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*
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* A simple definition, one parameter:
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* %AMCIRCLE*
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* 1,1,$1,0,0*
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* Example of instanciation:
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* %ADD11CIRCLE,.5*%
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*
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* A definition, with parameters and arithmetic operations:
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* %AMVECTOR*
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* 2,1,$1,0,0,$2+1,$3,-135*%
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* Example of instanciation:
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* %ADD12VECTOR,0.05X0X0*%
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*
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* A more complicated aperture macro definition, with parameters and arihmetic operations:
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* %AMRNDREC*
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* 0 this is a comment*
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* 21,1,$1+$1,$2+$2-$3-$3,0,0,0*
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* 21,1,$1+$1-$3-$3,$2+$2,0,0,0*
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* 1,1,$3+$3,$1-$3,$2-$3*
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* 1,1,$3+$3,$3-$1,$2-$3*
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* 1,1,$3+$3,$1-$3,$3-$2*
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* 1,1,$3+$3,$3-$1,$3-$2*%
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* Example of instanciation:
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*
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* A more complicated sample of aperture macro definition:
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* G04 Rectangular Thermal Macro, params: W/2, H/2, T/2 *
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* %AMRECTHERM*
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* $4=$3/2*
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* 21,1,$1-$3,$2-$3,0-$1/2-$4,0-$2/2-$4,0*
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* 21,1,$1-$3,$2-$3,0-$1/2-$4,$2/2+$4,0*
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* 21,1,$1-$3,$2-$3,$1/2+$4,0-$2/2-$4,0*
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* 21,1,$1-$3,$2-$3,$1/2+$4,$2/2+$4,0*%
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* Example of instanciation:
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* %ADD28RECTHERM,0.035591X0.041496X0.005000*%
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*/
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#include <vector>
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#include "dcode.h"
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/*
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Values of a parameter can be the result of an arithmetic operation,
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between immediate values and defered value.
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From an idea found in Gerbv, here is the way to evaluate a parameter.
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a AM_PARAM_ITEM holds info about operands and operators in a parameter definition
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( a AM_PARAM ) like $2+$2-$3-$3/2
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There is no precedence defined in gerber RS274X, so actual value is calculated step to step.
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Parameter definition is described by a very primitive assembler.
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This "program "should describe how to calculate the parameter.
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The assembler consist of 8 instruction intended for a stackbased machine.
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The instructions are:
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NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, EQUATE
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The instructions
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----------------
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NOP : The no operation. This is the default instruction and are
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added as a security measure.
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PUSHVALUE : Pushes an arithmetical value on the stack. This machine only works with floats
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on the stack.
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PUSHPARM: Pushes a defered parameter onto the stack. Gerber aperture macros accepts
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parameters to be set when later declared, so the same macro can
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be used at several instances. Which parameter to be set is an integer
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and starts with 1. definition is like $1 or $3
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ADD : The mathematical operation +. Takes the two uppermost values on the
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the stack, adds them and pushes the result back onto the stack.
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SUB : Same as ADD, but with -.
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MUL : Same as ADD, but with *.
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DIV : Same as ADD, but with /.
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POPVALUE : used when evaluate the expression: store current calculated value
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*/
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enum parm_item_type
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{
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NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, POPVALUE
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};
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/**
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* Class AM_PARAM
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* holds an operand for an AM_PARAM as defined within
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* standard RS274X. The \a value field can be a constant, i.e. "immediate"
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* parameter or it may not be used if this param is going to defer to the
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* referencing aperture macro. In that case, the \a index field is an index
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* into the aperture macro's parameters.
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*/
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class AM_PARAM_ITEM
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{
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private:
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parm_item_type m_type; // the type of item
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double m_dvalue; // the value, for PUSHVALUE type item
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int m_ivalue; // the integer value, for PUSHPARM type item
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public:
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AM_PARAM_ITEM( parm_item_type aType = NOP, double aValue = 0.0)
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{
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m_type = aType;
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m_dvalue = aValue;
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m_ivalue = 0;
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}
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AM_PARAM_ITEM( parm_item_type aType = NOP, int aValue = 0)
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{
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m_type = aType;
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m_dvalue = 0.0;
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m_ivalue = aValue;
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}
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void SetValue( double aValue )
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{
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m_dvalue = aValue;
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}
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double GetValue( ) const
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{
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return m_dvalue;
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}
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parm_item_type GetType() const
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{
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return m_type;
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}
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unsigned GetIndex() const
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{
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return (unsigned) m_ivalue;
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}
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bool IsOperator() const
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{
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return m_type == ADD || m_type == SUB || m_type == MUL || m_type == DIV;
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}
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bool IsOperand() const
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{
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return m_type == PUSHVALUE || m_type == PUSHPARM;
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}
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bool IsDefered() const
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{
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return m_type == PUSHPARM;
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}
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};
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/**
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* Class AM_PARAM
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* holds a parameter value for an "aperture macro" as defined within
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* standard RS274X. The parameter can be a constant, i.e. "immediate" parameter,
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* or depend on some defered values, defined in a D_CODE, by the ADD command.
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* Note the actual value could need an evaluation from an arithmetical expression
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* items in the expression are stored in .
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* A simple definition is just a value stored in one item in m_paramStack
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*/
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class AM_PARAM
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{
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private:
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int m_index; // has meaning to define parameter local to an aperture macro
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std::vector<AM_PARAM_ITEM> m_paramStack; // list of operands/operators to evalutate the actual value
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// if a par def is $3/2, there are 3 items in stack:
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// 3 (type PUSHPARM) , / (type DIV), 2 (type PUSHVALUE)
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public:
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AM_PARAM();
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/**
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* function PushOperator
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* add an operator/operand to the current stack
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* @param aType = the type of item (NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, EQUATE)
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* @param aValue = the item value, double for PUSHVALUE or int for PUSHPARM type.
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*/
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void PushOperator( parm_item_type aType, double aValue );
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void PushOperator( parm_item_type aType, int aValue = 0);
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double GetValue( const D_CODE* aDcode ) const;
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/**
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* Function IsImmediate
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* tests if this AM_PARAM holds an immediate parameter or is a pointer
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* into a parameter held by an owning D_CODE.
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* @return true if the value is immediate, i.e. no defered value in operands used in its definition
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*/
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bool IsImmediate() const;
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unsigned GetIndex() const
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{
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return (unsigned) m_index;
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}
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void SetIndex( int aIndex )
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{
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m_index = aIndex;
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}
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/**
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* Function ReadParam
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* Read one aperture macro parameter
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* a parameter can be:
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* a number
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* a reference to an aperture definition parameter value: $1 ot $3 ...
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* a parameter definition can be complex and have operators between numbers and/or other parameter
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* like $1+3 or $2x2..
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* Parameters are separated by a comma ( of finish by *)
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* @param aText = pointer to the parameter to read. Will be modified to point to the next field
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* @return true if a param is read, or false
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*/
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bool ReadParam( char*& aText );
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};
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typedef std::vector<AM_PARAM> AM_PARAMS;
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#endif // _AM_PARAM_H_
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