kicad/gerbview/class_am_param.h

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/**
* @file class_am_param.h
*/
/*
* This program source code file is part of KiCad, a free EDA CAD application.
*
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* Copyright (C) 1992-2015 Jean-Pierre Charras <jean-pierre.charras@gipsa-lab.inpg.fr>
* Copyright (C) 2010 SoftPLC Corporation, Dick Hollenbeck <dick@softplc.com>
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* Copyright (C) 1992-2015 KiCad Developers, see change_log.txt for contributors.
*
* 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, you may find one here:
* http://www.gnu.org/licenses/old-licenses/gpl-2.0.html
* or you may search the http://www.gnu.org website for the version 2 license,
* or you may write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
*/
#ifndef _AM_PARAM_H_
#define _AM_PARAM_H_
/*
* An aperture macro defines a complex shape and is a list of aperture primitives.
* Each aperture primitive defines a simple shape (circle, rect, regular polygon...)
* Inside a given aperture primitive, a fixed list of parameters defines info
* about the shape: size, thickness, number of vertex ...
*
* Each parameter can be an immediate value or a defered value.
* When value is defered, it is defined when the aperture macro is instancied by
* an ADD macro command
*
* Actual values of a parameter can also be the result of an arithmetic operation.
*
* Here is some examples:
* An immediate value:
* 3.5
* A deferend value:
* $2 means: replace me by the second value given in the ADD command
* Actual value as arithmetic calculation:
* $2/2+1
*
* Note also a defered parameter can be defined in aperture macro,
* but outside aperture primitives. Example
* %AMRECTHERM*
* $4=$3/2* parameter $4 is half value of parameter $3
* 21,1,$1-$3,$2-$3,0-$1/2-$4,0-$2/2-$4,0*
* For the aperture primitive, parameters $1 to $3 will be defined in ADD command,
* and $4 is defined inside the macro
*
* Some examples of aperture macro definition
* A simple definition, no parameters:
* %AMMOIRE10*
* 6,0,0,0.350000,0.005,0.050,3,0.005,0.400000,0.0*%
* Example of instanciation:
* %ADD19THERM19*%
*
* A simple definition, one parameter:
* %AMCIRCLE*
* 1,1,$1,0,0*
* Example of instanciation:
* %ADD11CIRCLE,.5*%
*
* A definition, with parameters and arithmetic operations:
* %AMVECTOR*
* 2,1,$1,0,0,$2+1,$3,-135*%
* Example of instanciation:
* %ADD12VECTOR,0.05X0X0*%
*
* A more complicated aperture macro definition, with parameters and arihmetic operations:
* %AMRNDREC*
* 0 this is a comment*
* 21,1,$1+$1,$2+$2-$3-$3,0,0,0*
* 21,1,$1+$1-$3-$3,$2+$2,0,0,0*
* 1,1,$3+$3,$1-$3,$2-$3*
* 1,1,$3+$3,$3-$1,$2-$3*
* 1,1,$3+$3,$1-$3,$3-$2*
* 1,1,$3+$3,$3-$1,$3-$2*%
* Example of instanciation:
*
* A more complicated sample of aperture macro definition:
* G04 Rectangular Thermal Macro, params: W/2, H/2, T/2 *
* %AMRECTHERM*
* $4=$3/2*
* 21,1,$1-$3,$2-$3,0-$1/2-$4,0-$2/2-$4,0*
* 21,1,$1-$3,$2-$3,0-$1/2-$4,$2/2+$4,0*
* 21,1,$1-$3,$2-$3,$1/2+$4,0-$2/2-$4,0*
* 21,1,$1-$3,$2-$3,$1/2+$4,$2/2+$4,0*%
* Example of instanciation:
* %ADD28RECTHERM,0.035591X0.041496X0.005000*%
*/
#include <vector>
#include <dcode.h>
/*
Values of a parameter can be the result of an arithmetic operation,
between immediate values and defered value.
From an idea found in Gerbv, here is the way to evaluate a parameter.
a AM_PARAM_ITEM holds info about operands and operators in a parameter definition
( a AM_PARAM ) like $2+$2-$3-$3/2
There is no precedence defined in gerber RS274X, so actual value is calculated step to step.
Parameter definition is described by a very primitive assembler.
This "program "should describe how to calculate the parameter.
The assembler consist of 8 instruction intended for a stackbased machine.
The instructions are:
NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, EQUATE
The instructions
----------------
NOP : The no operation. This is the default instruction and are
added as a security measure.
PUSHVALUE : Pushes an arithmetical value on the stack. This machine only works with floats
on the stack.
PUSHPARM: Pushes a defered parameter onto the stack. Gerber aperture macros accepts
parameters to be set when later declared, so the same macro can
be used at several instances. Which parameter to be set is an integer
and starts with 1. definition is like $1 or $3
ADD : The mathematical operation +. Takes the two uppermost values on the
the stack, adds them and pushes the result back onto the stack.
SUB : Same as ADD, but with -.
MUL : Same as ADD, but with *.
DIV : Same as ADD, but with /.
POPVALUE : used when evaluate the expression: store current calculated value
*/
enum parm_item_type
{
NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, POPVALUE
};
/**
* Class AM_PARAM
* holds an operand for an AM_PARAM as defined within
* standard RS274X. The \a value field can be a constant, i.e. "immediate"
* parameter or it may not be used if this param is going to defer to the
* referencing aperture macro. In that case, the \a index field is an index
* into the aperture macro's parameters.
*/
class AM_PARAM_ITEM
{
private:
parm_item_type m_type; // the type of item
double m_dvalue; // the value, for PUSHVALUE type item
int m_ivalue; // the integer value, for PUSHPARM type item
public:
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AM_PARAM_ITEM( parm_item_type aType, double aValue )
{
m_type = aType;
m_dvalue = aValue;
m_ivalue = 0;
}
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AM_PARAM_ITEM( parm_item_type aType, int aValue )
{
m_type = aType;
m_dvalue = 0.0;
m_ivalue = aValue;
}
void SetValue( double aValue )
{
m_dvalue = aValue;
}
double GetValue( ) const
{
return m_dvalue;
}
parm_item_type GetType() const
{
return m_type;
}
unsigned GetIndex() const
{
return (unsigned) m_ivalue;
}
bool IsOperator() const
{
return m_type == ADD || m_type == SUB || m_type == MUL || m_type == DIV;
}
bool IsOperand() const
{
return m_type == PUSHVALUE || m_type == PUSHPARM;
}
bool IsDefered() const
{
return m_type == PUSHPARM;
}
};
/**
* Class AM_PARAM
* holds a parameter value for an "aperture macro" as defined within
* standard RS274X. The parameter can be a constant, i.e. "immediate" parameter,
* or depend on some defered values, defined in a D_CODE, by the ADD command.
* Note the actual value could need an evaluation from an arithmetical expression
* items in the expression are stored in .
* A simple definition is just a value stored in one item in m_paramStack
*/
class AM_PARAM
{
private:
int m_index; // has meaning to define parameter local to an aperture macro
std::vector<AM_PARAM_ITEM> m_paramStack; // list of operands/operators to evalutate the actual value
// if a par def is $3/2, there are 3 items in stack:
// 3 (type PUSHPARM) , / (type DIV), 2 (type PUSHVALUE)
public:
AM_PARAM();
/**
* function PushOperator
* add an operator/operand to the current stack
* @param aType = the type of item (NOP, PUSHVALUE, PUSHPARM, ADD, SUB, MUL, DIV, EQUATE)
* @param aValue = the item value, double for PUSHVALUE or int for PUSHPARM type.
*/
void PushOperator( parm_item_type aType, double aValue );
void PushOperator( parm_item_type aType, int aValue = 0);
double GetValue( const D_CODE* aDcode ) const;
/**
* Function IsImmediate
* tests if this AM_PARAM holds an immediate parameter or is a pointer
* into a parameter held by an owning D_CODE.
* @return true if the value is immediate, i.e. no defered value in operands used in its definition
*/
bool IsImmediate() const;
unsigned GetIndex() const
{
return (unsigned) m_index;
}
void SetIndex( int aIndex )
{
m_index = aIndex;
}
/**
* Function ReadParam
* Read one aperture macro parameter
* a parameter can be:
* a number
* a reference to an aperture definition parameter value: $1 ot $3 ...
* a parameter definition can be complex and have operators between numbers and/or other parameter
* like $1+3 or $2x2..
* Parameters are separated by a comma ( of finish by *)
* @param aText = pointer to the parameter to read. Will be modified to point to the next field
* @return true if a param is read, or false
*/
bool ReadParam( char*& aText );
};
typedef std::vector<AM_PARAM> AM_PARAMS;
#endif // _AM_PARAM_H_