mirror of
https://github.com/eried/portapack-mayhem.git
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2073 lines
54 KiB
C++
2073 lines
54 KiB
C++
/*
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## Copyright 2021, zooxo/deetee
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All rights reserverd
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## The 3-Clause BSD License
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Redistribution and use in source and binary forms, with or without modification,
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are permitted provided that the following conditions are met:
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1. Redistributions of source code must retain the above copyright notice, this
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list of conditions and the following disclaimer.
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2. Redistributions in binary form must reproduce the above copyright notice,
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this list of conditions and the following disclaimer in the documentation
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and/or other materials provided with the distribution.
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3. Neither the name of the copyright holder nor the names of its contributors
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may be used to endorse or promote products derived from this software without
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specific prior written permission.
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THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
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ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
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WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
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DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR
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ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
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LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON
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ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
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SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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IVT (IVEE-TINY) - A FORTH-programable Scientific RPN Calculator
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that fits in 8 kilobytes (Arduino, ATTINY85)
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____________________
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PREAMBLE
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____________________
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IVT (IVEE-TINY) is the smallest member of the IV-calculator series (FORTH-like
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programable calculators). The name Ivee or IV stands for the roman number 4,
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which was the basis for naming FORTH (4th generation programming language).
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The hardware is simple:
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- AVR ATTINY85 microcontroller (8192/512/512 bytes of FLASH/RAM/EEPROM)
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- OLED-display (128x32, I2C, SSD1306)
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- 16 keys touch sensitive keypad (TTP229-BSF, 2-wire)
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- CR2032 battery
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IVT was made without making compromises to offer a complete FORTH-like
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programming environment and a maximum of mathematical functions (mostly
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written in FORTH itself). And it's amazing, how much calculating power fits
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into 8 kilobytes:
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- 80 intrinsic functions based on FORTH
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- A wide range of mathematical and scientific commands
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(DUP DROP SWAP ROT OVER / * - + PI SQRT POWER INV INT
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EXP LN SIN COS TAN ASIN ACOS ATAN GAMMA P>R R>P nPr nCr)
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- Statistics, line best fit and normal distibution (CDF/PDF)
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- Present value calculations
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- Programming: Up to 16 user definable programs with a total of 440 steps
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(< = <> > IF ELSE THEN BEGIN UNTIL)
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- A solver to find roots of user defined functions
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- A dictionary of all commands, words and programs
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- An user definable menu for fast access to all commands, words and programs
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- Storing of 10 numbers/constants (permanently)
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- Adjustable brightness of the display
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Have fun!
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deetee
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____________________
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COMPILING
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As IVT consumes 8190 bytes of flash memory (maximal 8192 bytes possible)
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compiling with proper settings is essential. Use the Arduino IDE, load the
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right library for the ATTINY85 and use the following settings:
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- Library: "attiny by Davis A. Mellis"
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- Board: "ATtiny25/45/85 (No bootloader)"
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- Chip: "ATtiny85"
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- Clock: "8 MHz (internal)"
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- B.O.D. Level: B.O.D. Disabled
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- Save EEPROM: "EEPROM retained"
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- Timer 1 Clock: "CPU (CPU frequency)"
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- LTO: "Enabled"
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- millis()/micros(): "Disabled"
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____________________
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KEYBOARD
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____________________
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F(MENU) 7(SUM+) 8(PRG) 9(/)
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E(SWAP) 4(DICT) 5(USR) 6(*)
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N(ROT) 1(RCL) 2(STO) 3(-)
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C(CA) 0(PI) .(INT) D(+)
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____________________
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LIMITS
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____________________
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As a microprocessor is primarily not made to do such complex things like
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performing a powerful calculator there are some limits in performance and
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resources.
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Most obvious is the limited precision of the intrinsic float format (IEEE
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754, 32 bit). As four bytes only are used to represent a float respective
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double number the decimal digits of precision are limited to 6...7.
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In addition the resources of a microcontroller are limited like the FLASH
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memory (holds the executable program code), the RAM memory (holds variables
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and data while running) and the EEPROM (holds permanent data like settings
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or user programs). Due to the target of maximal calculating power IVT lacks
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on many "features of comfort". For example there is no error control - a
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division by zero results in a "non interpretable" display.
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However IVT tries to offer a maximum of features, comfort and performance
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with a minimum of required resources.
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LIMITS:
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24 ... Maximal data stack size
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7 ... Maximum number of displayed significant digits of a number
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10 ... Maximal amount of numbers saved permanently (0~9)
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16 ... Maximal number of user programs
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440 ... Maximal size (steps) of all user programs
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32 ... Maximal definable command slots of user menu
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____________________
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BROWSING MENUS
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____________________
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To navigate through the menu of some functions (MENU, DICT or USR)
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all selectable items are divided into four sections. Every section has its
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own up and down key (section I: E/N, section II: 4/1, section III: 5/2 and
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section IV: 6/3).
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To select one of the four presented items use the appropriate function key
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(F/7/8/9) or escape the menu with "C".
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There is some kind of hidden feature: If you leave the menu with the D-key
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the brightness of the display will be set (0~255, not permanent!).
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____________________
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COMMANDS
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____________________
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BASIC KEYS:
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0~9. ... Digits and decimal point
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EE N ... 10-exponent (actually Y*10^X) and negate (change sign)
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D ... DUP (push stack) or complete number input
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C ... DROP top of stack or clear entry when in number input
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F ... Shift to select function keys or double press for user menu
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FUNCTION KEYS:
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+ - * / ... Basic operations
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MENU ... Browse (and select) the user menu
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SUM+ ... Enter X-data for statistics or X,Y-data for linear regression
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PRG ... Edit program (00~15) - enter program number first
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SWAP ... Swap the two top numbers of stack (1 2 -> 2 1)
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DICT ... Browse (and select) the complete dictionary
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USR ... Set dictionary entry to user menu
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ROT ... Rotate stack (1 2 3 -> 2 3 1)
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STO RCL ... Store/recall number - enter memory number first (0~9)
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CA ... Clear stack and memories for statistics (5~7)
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PI ... Push PI to stack
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INT ... Integer value
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DICTIONARY (4 sections):
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F 7 8 9 ... F-key, numbers
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EE 4 5 6 ... 10-exponent, numbers
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N 1 2 3 ... NEGATE, numbers
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C 0 . D ... Clear/DROP, number, dot, DUP
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M S+ PR / ... MENU, SUM+, PRG edit, divide
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>< DC US * ... SWAP, DICT, set USER menu, multiply
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RT RC ST - ... ROT, RCL, STO, subtract
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CA PI IN + ... CA (clear all), PI, INT, add
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IF EL TH PC ... IF, ELSE, THEN, nPr/nCr
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< = <> > ... LESSTHAN, EQUAL, NOTEQUAL, GREATERTHAN
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BE UN SO I ... BEGIN, UNTIL, SOLVE, INV (1/X)
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c t- E LN ... COS, ATAN, EXP, LN
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s t s- c- ... SIN, TAN, ASIN, ACOS
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OV SQ yx !L ... OVER, SQRT, POW (y^x), ln(GAMMA)
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PV ND P> R> ... Present value, normal distribution, P->R, R->P
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S+ Sc x- LR ... SUM+, SUMclr (clears memories 5~9), MEAN/STDEV, L.R.
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00 01 02 03 ... User programs
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04 05 06 07 ... User programs
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08 09 10 11 ... User programs
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12 13 14 15 ... User programs
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____________________
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PV, ND, P<>R, STAT
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____________________
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PV ... Present value of given interest rate (ie. 0.08) and periods
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ND ... PDF (X) and CDF (Y) of standard normal distribution
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P> R> ... Polar/Rectangular conversion
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STAT ... Mean value (X) and standard deviation (Y).
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Note that the memories 5~9 (see RCL/STO) are used as statistic
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registers (Sxx, Sxy, n, Sx, Sy).
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LR ... Line best fit (y = X * x + Y)
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____________________
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PROGRAMMING
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____________________
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IVT is able to deal with up to 16 user programs (named 00~15) with a total
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number of 440 steps/commands. The maximal size per user program rises from
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20 steps (program 00) to 35 steps (program 15).
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To edit a program, enter the program number (00~15) followed by PRG (F-8).
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The display shows P (for program), the program number (00~15), the program
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step number (vary with cursor keys E and N) and the command of this step.
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To insert a program step
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- press a key (number or DUP),
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- press a shifted key (press F twice to toggle) or
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- press DICT (F-4) to select a command from the dictionary.
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To delete a program step press ".".
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Leave and save the program with "C".
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To execute a program select the appropriate program number/name from DICT.
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Please note that the first user program (00) will be used by the solver.
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____________________
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SOLVER
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____________________
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To find a root of a function (programmed in user program 00) enter an
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appropriate start value and select the command SO from the dictionary.
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____________________
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POWER CONSUMPTION
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____________________
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As IVT provides a maximum of calculating power there where less resources
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for a good power management (i.e. idle, screen saver, auto power off) left.
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Merely the not needed timer1 and AD-convertes are set off to save
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approximately 0.9 mA.
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The power consumption of IVT depends mainly on the usage of the display.
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That's why per default the brightness of the display is set to minimum.
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Please note that you can (not permanently) set the brightness of the display
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with pressing D when in any menu (takes brightness value from stack).
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In total IVT consumes approximately 9 mA - so a a single battery (CR2032)
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which has a capacity of approximately 200 mAh should theoretically work at
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least 20 hours.
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Electrical current drawn by device (approximately):
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- ATTINY85 ... 5 mA
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- Keypad ... 2 mA
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- Display ... 1~4 mA (promt ~ display full of 8's)
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____________________
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PROGRAM EXAMPLES
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____________________
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ABS: DUP 0 LT IF NEG THEN
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FRAC: DUP INT -
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SINH: EXP DUP INV NEG + 2 / ... sinh=(exp(x)-exp(-x))/2
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COSH: EXP DUP INV + 2 / ... cosh=(exp(x)+exp(-x))/2
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TANH: 2 * EXP DUP 1 - SWAP 1 + / ... tanh=(exp(2*x)-1)/(exp(2*x)+1)
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ASINH: DUP DUP * 1 + SQRT + LN ... asinh(x)=ln(x+sqrt(x*x+1))
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ACOSH: DUP DUP * 1 - SQRT + LN ... acosh(x)=ln(x+sqrt(x*x-1))
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ATANH: DUP 1 + SWAP NEG 1 + / SQRT LN ... atanh(x)=ln(sqrt((1+x)/(1-x)))
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POW10: 1 SWAP EE
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LOG: LN 1 0 LN / ... log(x)=ln(x)/ln(10)
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%: OVER / 1 0 0 * ... %=x/B*100%
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CHG%: OVER - OVER / 1 0 0 * ... chg%=(x-B)/B*100%
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QE: OVER 2 / DUP * SWAP - SQRT SWAP 2 / NEG
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SWAP OVER OVER - ROT ROT + ... x12=-p/2+-sqrt(p*p/4-q)
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DEG<>RAD: DUP PI * 1 8 0 / SWAP 1 8 0-* PI /
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C<>F: DUP 1 . 8 * 3 2 + SWAP 3 2 - 1 . 8 /
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KM<>MI: DUP 1 . 6 0 9 3 4 4 DUP DUP ROT SWAP / ROT ROT *
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M<>FT: DUP 3 . 3 7 0 0 7 9 DUP DUP ROT * ROT ROT /
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CM<>IN: DUP 2 . 5 4 DUP DUP ROT SWAP / ROT ROT *
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KG<>LBS: DUP 2 . 2 0 4 6 2 3 DUP DUP ROT * ROT ROT /
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L<>GAL: DUP 3. 7 8 5 4 1 2 DUP DUP ROT SWAP / ROT ROT *
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HMS2H: DOT 0 0 0 0 0 1 ADD // Round up to prevent leaps
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DUP DUP INT SWAP OVER - 1 0 0 * INT // hh mm
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ROT 3 PICK SUB 1 0 0 MULT OVER SUB 1 0 0 MULT, // ss
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3 6 0 0 / SWAP 6 0 / + + // ->s ->h
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H2HMS: DUP 3 6 0 0 * DUP ROT INT // h->s
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SWAP OVER 3 6 0 0 * - 60 DIV INT, // hh mm
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ROT OVER 6 0 MULT SUB 3 PICK 3 6 0 0 * - // ss
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1 0 0 0 0 / SWAP 1 0 0 / + + // hh.mmss
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nPr = n!/(n-r)! : OVER ROT ROT - 1 ROT ROT SWAP
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BEGIN SWAP ROT 1 ROT + DUP ROT * SWAP ROT OVER OVER SWAP LT UNTIL DROP DROP
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nCr = n!/(n-r)!/r! = nPr/r! : DUP ROT SWAP PERM 1 ROT
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BEGIN ROT ROT DUP ROT SWAP / ROT ROT 1 + SWAP OVER 1 - OVER SWAP LT UNTIL DROP DROP
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____________________
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ATTINY85 PINS
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____________________
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_____
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Analog0/Reset P5 H1|* U |H8 Vcc
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Analog2 P3 H2| |H7 P2 SCK/Analog1
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Analog3 P4 H3| |H6 P1 PWM1/MISO
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GND H4|_____|H5 P0 PWM0/AREF/SDA/MOSI
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____________________
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CIRCUIT DIAGRAM
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____________________
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_________________
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| OLED-DISPLAY |
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| 128x32 SSD1306 |
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|_GND_VCC_SCK_SDA_|
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__|___|___|___|__
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| GND VCC P2 P0 |
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| AVR ATTINY85 |
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|_________P3__P1__|
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__|___|___|___|__
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| VCC GND SCL SDO |
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|Keypad TTP229-BSF|
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|-----------------|
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| O O O O |
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| O O O O |
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| O O O O |
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| | |... Solder to enable
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| O O O O | 16-key-mode (TP2=0)
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*/
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// ***** I N C L U D E S
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// #include <TinyWireM.h> // I2C wire communication with display
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// #include <avr/power.h> // Needed for (simple) power management
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// #include <EEPROM.h> // For saving data to EEPROM
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// ***** F O N T (4x8)
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// Compatibility
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#define PROGMEM
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typedef uint8_t byte;
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typedef bool boolean;
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uint8_t dummy = 0;
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class A {
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public:
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void write(uint32_t ee, uint8_t p) {
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(void)ee;
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(void)p;
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}
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uint8_t read(uint32_t ee) {
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(void)ee;
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return 0;
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}
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uint8_t& operator[](uint32_t ee) {
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(void)ee;
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return dummy;
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}
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size_t length() {
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return 0;
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}
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} EEPROM;
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static void _keyf(void);
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static void _num(void);
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static void _e(void);
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static void _neg(void);
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static void _drop(void);
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static void _dot(void);
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static void _dup(void);
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static void _menu(void);
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static void _sumadd(void);
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static void _prgedit(void);
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static void _div(void); // 16 F-keys
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static void _swap(void);
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static void _dict(void);
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static void _usrset(void);
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static void _mul(void);
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static void _rot(void);
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static void _mrcl(void);
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static void _msto(void);
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static void _sub(void);
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static void _clr(void);
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static void _pi(void);
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static void _int(void);
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static void _add(void);
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static void _condif(void);
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static void _condelse(void);
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static void _condthen(void);
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static void _permcomb(void); // 32 Intrinsic functions
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static void _condlt(void);
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static void _condeq(void);
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static void _condne(void);
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static void _condgt(void);
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static void _begin(void);
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static void _until(void);
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static void _solve(void);
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static void _inv(void);
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static void _cos(void);
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static void _atan(void);
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static void _exp(void);
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static void _ln(void);
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static void _sin(void);
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static void _tan(void);
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static void _asin(void);
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static void _acos(void); // 48 Builtin functions
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static void _over(void);
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static void _sqrt(void);
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static void _pow(void);
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static void _gammaln(void);
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static void _pv(void);
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static void _nd(void);
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static void _pol2rect(void);
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static void _rect2pol(void);
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static void _sumadd(void);
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static void _sumclr(void);
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static void _sumstat(void);
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static void _sumlr(void);
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#undef __I
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#undef __N
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#undef __O
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#undef __P
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#define PI 3.141592653589793
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static void _numinput(byte k);
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static double dpush(double d);
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static double dpop(void);
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static void seekmem(byte n);
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static double dpush(double d);
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static void apush(int addr);
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static int apop(void);
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static void _condseek(void);
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static int eeudist(byte i);
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static void _mstorcl(boolean issto);
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template <class T>
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void EEwrite(int ee, const T& value);
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template <class T>
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void EEread(int ee, T& value);
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#define pgm_read_byte(_x) (*(_x))
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// Font table
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#define __0 0
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#define __1 1
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#define __2 2
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#define __3 3
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#define __4 4
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#define __5 5
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#define __6 6
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#define __7 7
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#define __8 8
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#define __9 9
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#define __A 10
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#define __B 11
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#define __C 12
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#define __D 13
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#define __E 14
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#define __F 15
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#define __H 16
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#define __I 17
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#define __L 18
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#define __M 19
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#define __N 20
|
|
#define __O 21
|
|
#define __P 22
|
|
#define __R 23
|
|
#define __S 24
|
|
#define __T 25
|
|
#define __U 26
|
|
#define __V 27
|
|
#define __c 28
|
|
#define __s 29
|
|
#define __t 30
|
|
#define ___ 31 // space
|
|
#define __DOT 32
|
|
#define __MULT 33
|
|
#define __ADD 34
|
|
#define __SUB 35
|
|
#define __DIV 36
|
|
#define __EM 37 // !
|
|
#define __LT 38
|
|
#define __EQ 39
|
|
#define __GT 40
|
|
#define __ARROW 41
|
|
#define __FINV 42
|
|
#define __POW1 43
|
|
#define __PI 44
|
|
#define __SQRT 45
|
|
#define __MEAN 46
|
|
#define __SWAP 47
|
|
|
|
#define FONTWIDTH 4 // Font width
|
|
const byte font[] PROGMEM = {
|
|
0xff, 0x81, 0x81, 0xff, // 0
|
|
0x00, 0x02, 0xff, 0x00, // 1
|
|
0xf9, 0x89, 0x89, 0x8f, // 2
|
|
0x81, 0x89, 0x89, 0xff, // 3
|
|
0x0f, 0x08, 0x08, 0xff, // 4
|
|
0x8f, 0x89, 0x89, 0xf9, // 5
|
|
0xff, 0x89, 0x89, 0xf8, // 6
|
|
0x03, 0x01, 0x01, 0xff, // 7
|
|
0xff, 0x89, 0x89, 0xff, // 8
|
|
0x0f, 0x89, 0x89, 0xff, // 9
|
|
0xff, 0x09, 0x09, 0xff, // A
|
|
0xff, 0x89, 0x8f, 0xf8, // B
|
|
0xff, 0x81, 0x81, 0x80, // C
|
|
0x81, 0xfF, 0x81, 0xfF, // D
|
|
0xfF, 0x89, 0x89, 0x81, // E
|
|
0xfF, 0x09, 0x09, 0x01, // F
|
|
0xfF, 0x08, 0x08, 0xfF, // H
|
|
0x81, 0xff, 0x81, 0x80, // I
|
|
0xfF, 0x80, 0x80, 0x80, // L
|
|
0xfF, 0x06, 0x06, 0xfF, // M
|
|
0xfF, 0x0c, 0x18, 0xfF, // N
|
|
0xff, 0x81, 0x81, 0xff, // O
|
|
0xfF, 0x09, 0x09, 0x0f, // P
|
|
0xfF, 0x09, 0xf9, 0x8f, // R
|
|
0x8f, 0x89, 0x89, 0xf8, // S
|
|
0x01, 0xff, 0x01, 0x01, // T
|
|
0xfF, 0x80, 0x80, 0xfF, // U
|
|
0x1F, 0xf0, 0xf0, 0x1F, // V
|
|
0xfc, 0x84, 0x84, 0x84, // c
|
|
0x9c, 0x94, 0x94, 0xf4, // s
|
|
0x04, 0xff, 0x84, 0x80, // t
|
|
0x00, 0x00, 0x00, 0x00, // space
|
|
0xc0, 0xc0, 0x00, 0x00, // .
|
|
0x24, 0x18, 0x18, 0x24, // *
|
|
0x10, 0x38, 0x10, 0x00, // +
|
|
0x08, 0x08, 0x08, 0x08, // -
|
|
0xc0, 0x30, 0x0c, 0x03, // /
|
|
0x00, 0xbf, 0x00, 0x00, // !
|
|
0x08, 0x14, 0x22, 0x41, // <
|
|
0x14, 0x14, 0x14, 0x14, // =
|
|
0x41, 0x22, 0x14, 0x08, // >
|
|
0x7f, 0x3e, 0x1c, 0x08, // arrow
|
|
0xff, 0xc1, 0xf5, 0xff, // inverted F
|
|
0x08, 0x08, 0x02, 0x1f, // ^-1
|
|
0x0c, 0xfc, 0x04, 0xfc, // PI
|
|
0x10, 0xff, 0x01, 0x01, // sqrt
|
|
0xda, 0x22, 0x22, 0xda, // mean
|
|
0x22, 0x72, 0x27, 0x22, // swap
|
|
};
|
|
|
|
// ***** D I S P L A Y
|
|
|
|
// DEFINES
|
|
#define CONTRAST 0x00 // Initial contrast/brightness
|
|
#define DADDRESS 0x3C // I2C slave address
|
|
#define DPAGES 4 // Lines of screen
|
|
#define DCOMMAND 0x00 // Command byte
|
|
#define DDATA 0x40 // Data byte
|
|
#define SCREENWIDTH 128 // Screen width in pixel
|
|
#define MAXSTRBUF 10 // Maximal length of string buffer sbuf[]
|
|
#define CHARW 3 // Character width (3 x FONTWIDTH)
|
|
#define CHARH 4 // Character height (4 lines)
|
|
#define DIGITS 8 // Number of digits when printing a number
|
|
#define ALMOSTZERO 1e-37 // Limits to decide if sci or fix
|
|
#define FIXMIN 1e-3 // Limits for fix display guarantee maximal
|
|
#define FIXMAX 1e7 // number of significant digits
|
|
#define PRINTNUMBER 9 // Digits to print number (small space for '.') - printsbuf
|
|
#define PRINTMENU 8 // Digits to print menu (pairs of two) - printsbuf
|
|
|
|
// VARIABLES
|
|
// static byte renderram = 0xB0, drawram = 0x40; // Masks to address GDDRAM of display
|
|
static byte sbuf[MAXSTRBUF]; // Holds string to print
|
|
static boolean isnewnumber = true; // True if stack has to be lifted before entering a new number
|
|
static byte decimals = 0; // Number of decimals entered (input after decimal dot)
|
|
static boolean isdot = false; // True if dot was pressed and decimals will be entered
|
|
|
|
// MACROS
|
|
#define _abs(x) ((x < 0) ? (-x) : (x)) // abs()-substitute macro
|
|
#define _ones(x) ((x) % 10) // Calculates ones unit
|
|
#define _tens(x) (((x) / 10) % 10) // Calculates tens unit
|
|
#define _huns(x) (((x) / 100) % 10) // Calculates hundreds unit
|
|
#define _tsds(x) (((x) / 1000) % 10) // Calculates thousands unit
|
|
|
|
// SUBPROGRAMS
|
|
// static void dbegin(void) { // Initialize communication
|
|
// TinyWireM.begin();
|
|
// }
|
|
// static void dsendstart(void) { // Start communication
|
|
// TinyWireM.beginTransmission(DADDRESS);
|
|
// }
|
|
// static bool dsendbyte(byte b) { // Send byte
|
|
// return (TinyWireM.write(b));
|
|
// }
|
|
// static void dsendstop(void) { // Stop communication
|
|
// TinyWireM.endTransmission();
|
|
// }
|
|
// static void dsenddatastart(void) { // Start data transfer
|
|
// dsendstart();
|
|
// dsendbyte(DDATA);
|
|
// }
|
|
// static void dsenddatabyte(byte b) { // Send data byte
|
|
// if (!dsendbyte(b)) {
|
|
// dsendstop();
|
|
// dsenddatastart();
|
|
// dsendbyte(b);
|
|
// }
|
|
// }
|
|
// static void dsendcmdstart(void) { // Start command transfer
|
|
// dsendstart();
|
|
// dsendbyte(DCOMMAND);
|
|
// }
|
|
// static void dsendcmd(byte cmd) { // Send command
|
|
// dsendcmdstart();
|
|
// dsendbyte(cmd);
|
|
// dsendstop();
|
|
// }
|
|
|
|
// static const byte initscreen[] PROGMEM = {
|
|
// // Initialization sequence
|
|
// 0xC8, // Set scan direction (C0 scan from COM0 to COM[N-1] or C8 mirroring)
|
|
// 0xA1, // Set segment remap (A0 regular or A1 flip)
|
|
// 0xA8, 0x1F, // Set mux ratio (N+1) where: 14<N<64 ... 3F or 1F
|
|
// 0xDA, 0x02, // COM config pin mapping: right/left left/right
|
|
// // // sequential 02 22
|
|
// // // alternate 12 32
|
|
// 0x20, 0x00, // Horizontal addressing mode (line feed after EOL)
|
|
// 0x8D, 0x14, // Charge pump (0x14 enable or 0x10 disable)
|
|
// 0x81, CONTRAST, // Set contrast (0...minimal)
|
|
// 0xAF // Display on
|
|
// };
|
|
// static void dinit(void) { // Run initialization sequence
|
|
// dbegin();
|
|
// dsendstart();
|
|
// dsendbyte(DCOMMAND);
|
|
// for (byte i = 0; i < sizeof(initscreen); i++) dsendbyte(pgm_read_byte(&initscreen[i]));
|
|
// dsendstop();
|
|
// }
|
|
|
|
// void dcontrast(byte c) { // Set contrast
|
|
// dsendcmdstart();
|
|
// dsendbyte(0x81);
|
|
// dsendbyte(c);
|
|
// dsendstop();
|
|
// }
|
|
/*static void don(void) { // Display on
|
|
dsendcmd(0xAF);
|
|
}
|
|
static void doff(void) { // Display off
|
|
dsendcmd(0xAE);
|
|
}*/
|
|
|
|
// static void drender(void) { // Render current half of GDDRAM to oled display
|
|
// renderram ^= 0x04;
|
|
// }
|
|
// static void ddisplay(void) { // Swap GDDRAM to other half and render
|
|
// drawram ^= 0x20;
|
|
// dsendcmd(drawram);
|
|
// drender();
|
|
// }
|
|
|
|
// static void dsetcursor(byte x, byte y) { // Set cursor to position (x|y)
|
|
// dsendcmdstart();
|
|
// dsendbyte(renderram | (y & 0x07));
|
|
// dsendbyte(0x10 | (x >> 4));
|
|
// dsendbyte(x & 0x0f);
|
|
// dsendstop();
|
|
// }
|
|
// static void dfill(byte b) { // Fill screen with byte/pattern b
|
|
// dsetcursor(0, 0);
|
|
// dsenddatastart();
|
|
// for (int i = 0; i < SCREENWIDTH * DPAGES; i++) dsenddatabyte(b);
|
|
// dsendstop();
|
|
// }
|
|
|
|
// static byte expand2bit(byte b) { // Expand 2 bits 000000ab
|
|
// b = (b | (b << 3)) & 0x11; // 000a000b
|
|
// for (byte i = 0; i < 3; i++) b |= (b << 1); // aaaabbbb
|
|
// return (b);
|
|
// }
|
|
|
|
static double pow10(int8_t e) { // Calculates 10 raised to the power of e
|
|
double f = 1.0F;
|
|
if (e > 0)
|
|
while (e--) f *= 10.0F;
|
|
else
|
|
while (e++) f /= 10.0F;
|
|
return (f);
|
|
}
|
|
|
|
// static void printcat(byte c, byte x) { // Print char c at position x
|
|
// for (byte y = 0; y < CHARH; y++) { // Lines (4)
|
|
// dsetcursor(x, y); // Set cursor
|
|
// for (byte j = 0; j < FONTWIDTH; j++) { // Fontbyte - shifted one pixel down
|
|
// byte bits = pgm_read_byte(&font[FONTWIDTH * c + j]); // Fontbyte
|
|
// bits = expand2bit((bits >> (y * 2)) & 0x03); // Expand 000000ab
|
|
// dsenddatastart();
|
|
// for (byte i = 0; i < CHARW; i++) dsenddatabyte(bits);
|
|
// dsendstop();
|
|
// }
|
|
// }
|
|
// }
|
|
|
|
static void printsbuf(byte digits) { // Print "digits" elements of sbuf[] (shrink ".")
|
|
int8_t dotx = 0;
|
|
for (byte i = 0; i < digits; i++) {
|
|
printcat(sbuf[i], /*(FONTWIDTH + 1) * CHARW * i + dotx*/ i);
|
|
if (digits == PRINTMENU) {
|
|
if (i != 0 && i % 2) dotx += 3; // Menu - group in pairs
|
|
} else if (sbuf[i] == __DOT)
|
|
dotx = -6; // Number - small space for dot
|
|
}
|
|
}
|
|
|
|
static void sbufclr(void) { // Clear sbuf
|
|
for (byte i = 0; i < sizeof(sbuf); i++) sbuf[i] = ___;
|
|
}
|
|
|
|
static void printnum(double f) { // Print number
|
|
int8_t ee = 0; // Fixed format
|
|
int8_t e = 1; // Exponent
|
|
long m; // Mantissa
|
|
sbufclr();
|
|
if (f < 0.0F) { // # Manage sign
|
|
f = -f;
|
|
sbuf[0] = __SUB;
|
|
}
|
|
if (f >= ALMOSTZERO && (f < FIXMIN || f >= FIXMAX)) { // # SCI format
|
|
ee = log10(f); // Exponent
|
|
if (ee < 0) ee--;
|
|
f /= pow10(ee);
|
|
}
|
|
if (f >= 1.0F) e = log10(f) + 1; // Calculate new exponent if (f !< 1)
|
|
double a = pow10(7 - e); // # Calculate pre dot
|
|
double d = (f * a + 0.5) / a; // Rounding
|
|
m = d;
|
|
for (byte i = e; i > 0; i--) {
|
|
sbuf[i] = _ones(m);
|
|
m /= 10;
|
|
}
|
|
sbuf[e + 1] = __DOT;
|
|
if ((long)f >= (long)d) d = f; // # Calculate after dot (and suppress trailing zeros)
|
|
m = (d - (long)d) * a + 0.5;
|
|
boolean istrail = true;
|
|
for (byte i = DIGITS; i > e + 1; i--) {
|
|
byte one = _ones(m);
|
|
if (!istrail || ((isnewnumber || i - e - 1 <= decimals) && (!isnewnumber || one != 0))) {
|
|
sbuf[i] = one; // Assign digit
|
|
istrail = false; // End of trailing zeros
|
|
}
|
|
m /= 10L;
|
|
}
|
|
if (ee) { // # Scientific exponent if applicable
|
|
sbuf[6] = (ee < 0) ? __SUB : ___;
|
|
if (ee < 0) ee = -ee;
|
|
sbuf[8] = _ones(ee);
|
|
sbuf[7] = _tens(ee);
|
|
}
|
|
printsbuf(PRINTNUMBER);
|
|
}
|
|
|
|
// ***** K E Y B O A R D
|
|
|
|
// Defines
|
|
#define KCLOCK 3 // SCL - Keyboard clock pin
|
|
#define KDATA 1 // SDO - Keyboard data pin
|
|
|
|
#define PREENDKEY 254 // Only evaluate keys smaller
|
|
#define ENDKEY 255 // Evaluate keys smaller
|
|
|
|
// Variables
|
|
static byte key = PREENDKEY, oldkey = PREENDKEY; // Holds entered and old key (prevent keyrepeat)
|
|
|
|
// static byte getkey(void) { // Read keypad (TTP229-BSF)
|
|
// byte k;
|
|
// for (byte i = 0; i < 16; i++) {
|
|
// digitalWrite(KCLOCK, LOW);
|
|
// k = digitalRead(KDATA);
|
|
// digitalWrite(KCLOCK, HIGH);
|
|
// if (!k) return (i);
|
|
// }
|
|
// return (ENDKEY);
|
|
// }
|
|
|
|
static byte key2nr(byte k) { // Convert key to number on keypad
|
|
if (k >= 1 && k <= 3)
|
|
return (k + 6);
|
|
else if (k >= 5 && k <= 7)
|
|
return (k - 1);
|
|
else if (k >= 9 && k <= 11)
|
|
return (k - 8);
|
|
else
|
|
return (0);
|
|
}
|
|
|
|
// ***** A P P L I C A T I O N
|
|
|
|
#define RAD (180.0F / PI) // 180/PI ... used for _atan and _cos
|
|
#define MAXCMDI 48 // Number of commands of intrinsic functions
|
|
#define MAXCMDB 64 // 120 End of builtin commands
|
|
#define MAXCMDU 80 // 160 End of user commands
|
|
#define ISF 1 // F-key demanded
|
|
#define MAXPRG 16 // Maximal number of user programs
|
|
#define MAXPRGBUF 36 // Maximal size of prgbuf
|
|
#define MEDIMENU 2 // Number of menu entry lines
|
|
#define MEDIDICT 5 // Number of dict entry lines
|
|
|
|
// EEPROM dimensions and addresses
|
|
#define MEMSTO 10 // Number of memories
|
|
#define EESTO 0 // Memories (MEMSTOx4 bytes)
|
|
#define MENUITEMS 32 // Number of selectable user menu items
|
|
#define EEMENU 40 // User menu (MENUITEMS bytes)
|
|
#define EEUSTART 72 // User programs
|
|
#define EEUEND EEPROM.length()
|
|
#define EEU (EEUEND - EEUSTART) // Available user memory
|
|
#define UL0 20 // Length of first user program
|
|
#define UN 16 // Number of user programs
|
|
|
|
// VARIABLES
|
|
static boolean isprintscreen = true; // True, if screen should be printed
|
|
// static unsigned int mp; // MEMPOINTER (builtin and user functions)
|
|
static byte setfgm = 0; // F-key variables
|
|
static byte select; // Selected options
|
|
static byte medi = 0; // MEnu and DIctionary
|
|
|
|
static boolean issetusr = false; // True if dict is used for setting usr menu
|
|
static boolean isprgdict = false; // To select dict entry for program
|
|
static byte setusrselect; // Stores selected cmd value to store
|
|
static boolean isprgedit = false; // True, if program is edited
|
|
static byte prgnr; // Number of program edited
|
|
static int prgaddr; // Address of recent program in EEPROM (includes EEUSTART)
|
|
static byte prgpos; // Position in edited program
|
|
static byte prglength; // Size of program in program buffer
|
|
static byte prgbuf[MAXPRGBUF]; // Program buffer
|
|
|
|
#define DELTAX 1E-4 // Delta for solver
|
|
static byte runs; // Solver cycle runs
|
|
static boolean issolve = false; // True if solving is demanded
|
|
|
|
#define DATASTACKSIZE 24 // DATA STACK
|
|
double ds[DATASTACKSIZE];
|
|
static byte dp = 0;
|
|
|
|
#define ADDRSTACKSIZE 24 // ADDRESS STACK
|
|
static int as[ADDRSTACKSIZE];
|
|
static byte ap = 0;
|
|
|
|
byte cl = 0; // CONDITIONAL LEVEL
|
|
|
|
// Command code defines
|
|
#define _7 1 // Intrinsic commands
|
|
#define _8 2
|
|
#define _9 3
|
|
#define _4 5
|
|
#define _5 6
|
|
#define _6 7
|
|
#define _NEG 8
|
|
#define _1 9
|
|
#define _2 10
|
|
#define _3 11
|
|
#define _DROP 12
|
|
#define _0 13
|
|
#define _DOT 14
|
|
#define _DUP 15
|
|
#define _DIV 19
|
|
#define _SWAP 20
|
|
#define _MULT 23
|
|
#define _RCL 25
|
|
#define _STO 26
|
|
#define _ROT 24
|
|
#define _SUB 27
|
|
#define _PI 29
|
|
#define _ADD 31
|
|
#define _IF 32
|
|
#define _ELSE 33
|
|
#define _THEN 34
|
|
#define _LT 36
|
|
#define _NE 38
|
|
#define _INV 43
|
|
#define _BEGIN 40
|
|
#define _UNTIL 41
|
|
#define _COS 44
|
|
#define _ATAN 45
|
|
#define _EXP 46
|
|
#define _LN 47
|
|
#define _SIN MAXCMDI + 0 // Builtin commands (mem)
|
|
#define _TAN MAXCMDI + 1
|
|
#define _ASIN MAXCMDI + 2
|
|
#define _ACOS MAXCMDI + 3
|
|
#define _OVER MAXCMDI + 4
|
|
#define _SQRT MAXCMDI + 5
|
|
#define _POW MAXCMDI + 6
|
|
#define _PV MAXCMDI + 7
|
|
#define _SUMADD MAXCMDI + 8
|
|
#define _SUMCLR MAXCMDI + 9
|
|
#define _SUMLR MAXCMDI + 10
|
|
#define _SUMSTAT MAXCMDI + 11
|
|
#define _GAMMALN MAXCMDI + 12
|
|
#define _POL2RECT MAXCMDI + 13
|
|
#define _RECT2POL MAXCMDI + 14
|
|
#define _ND MAXCMDI + 15
|
|
#define _PERMCOMB MAXCMDI + 16
|
|
#define _END 255 // Function delimiter
|
|
|
|
// Builtin functions (mem)
|
|
const byte mem[] PROGMEM = {
|
|
_END, // Necessary to prevent function starting with mp = 0
|
|
_9,
|
|
_0,
|
|
_SWAP,
|
|
_SUB,
|
|
_COS,
|
|
_END, // 0 SIN =cos(90-x)
|
|
_DUP,
|
|
_SIN,
|
|
_SWAP,
|
|
_COS,
|
|
_DIV,
|
|
_END, // 1 TAN =sin/cos
|
|
_DUP,
|
|
_MULT,
|
|
_INV,
|
|
_1,
|
|
_SUB,
|
|
_SQRT,
|
|
_INV,
|
|
_ATAN,
|
|
_END, // 2 ASIN =atan(1/(sqrt(1/x/x-1))
|
|
_DUP,
|
|
_MULT,
|
|
_INV,
|
|
_1,
|
|
_SUB,
|
|
_SQRT,
|
|
_ATAN,
|
|
_END, // 3 ACOS =atan(sqrt(1/x/x-1))
|
|
_SWAP,
|
|
_DUP,
|
|
_ROT,
|
|
_ROT,
|
|
_END, // 4 OVER
|
|
_DUP,
|
|
_0,
|
|
_NE,
|
|
_IF,
|
|
_LN,
|
|
_2,
|
|
_DIV,
|
|
_EXP,
|
|
_THEN,
|
|
_END, // 5 SQRT =exp(ln(x)/2)
|
|
_SWAP,
|
|
_LN,
|
|
_MULT,
|
|
_EXP,
|
|
_END, // 6 POW a^b=exp(b*ln(a))
|
|
_OVER,
|
|
_1,
|
|
_ADD,
|
|
_SWAP,
|
|
_POW,
|
|
_DUP,
|
|
_1,
|
|
_SUB,
|
|
_SWAP,
|
|
_DIV,
|
|
_SWAP,
|
|
_DIV,
|
|
_END, // 7 PV PV(i,n)=((1+i)^n-1)/(1+i)^n/i
|
|
|
|
_7,
|
|
_RCL,
|
|
_1,
|
|
_ADD,
|
|
_7,
|
|
_STO, // 8 SUMADD - n
|
|
_DUP,
|
|
_8,
|
|
_RCL,
|
|
_ADD,
|
|
_8,
|
|
_STO, // X
|
|
_DUP,
|
|
_DUP,
|
|
_MULT,
|
|
_5,
|
|
_RCL,
|
|
_ADD,
|
|
_5,
|
|
_STO, // XX
|
|
_OVER,
|
|
_MULT,
|
|
_6,
|
|
_RCL,
|
|
_ADD,
|
|
_6,
|
|
_STO, // XY
|
|
_9,
|
|
_RCL,
|
|
_ADD,
|
|
_9,
|
|
_STO,
|
|
_7,
|
|
_RCL,
|
|
_END, // Y push(n)
|
|
|
|
_0,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP, // 9 CLRSUMCLR
|
|
_5,
|
|
_STO,
|
|
_6,
|
|
_STO,
|
|
_7,
|
|
_STO,
|
|
_8,
|
|
_STO,
|
|
_9,
|
|
_STO,
|
|
_END,
|
|
|
|
_6,
|
|
_RCL,
|
|
_7,
|
|
_RCL,
|
|
_MULT,
|
|
_8,
|
|
_RCL,
|
|
_9,
|
|
_RCL,
|
|
_MULT,
|
|
_SUB, // 10 SUMLR - a
|
|
_5,
|
|
_RCL,
|
|
_7,
|
|
_RCL,
|
|
_MULT,
|
|
_8,
|
|
_RCL,
|
|
_DUP,
|
|
_MULT,
|
|
_SUB,
|
|
_DIV,
|
|
_DUP,
|
|
_8,
|
|
_RCL,
|
|
_MULT,
|
|
_NEG,
|
|
_9,
|
|
_RCL,
|
|
_ADD,
|
|
_7,
|
|
_RCL,
|
|
_DIV,
|
|
_SWAP,
|
|
_END, // b
|
|
|
|
_8,
|
|
_RCL,
|
|
_7,
|
|
_RCL,
|
|
_DIV, // 11 STAT - mean (X/n)
|
|
_DUP,
|
|
_DUP,
|
|
_MULT,
|
|
_7,
|
|
_RCL,
|
|
_MULT,
|
|
_NEG,
|
|
_5,
|
|
_RCL,
|
|
_ADD, // stddev (XX-n*m^2)/(n-1)
|
|
_7,
|
|
_RCL,
|
|
_1,
|
|
_SUB,
|
|
_DIV,
|
|
_SQRT,
|
|
_SWAP,
|
|
_END,
|
|
|
|
_1,
|
|
_ADD,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_1,
|
|
_2,
|
|
_MULT, // 12 GAMMALN: ln!=(ln(2*PI)-ln(x))/2+x*(ln(x+1/(12*x-1/10/x))-1)
|
|
_SWAP,
|
|
_1,
|
|
_0,
|
|
_MULT,
|
|
_INV,
|
|
_SUB,
|
|
_INV,
|
|
_ADD,
|
|
_LN,
|
|
_1,
|
|
_SUB,
|
|
_MULT,
|
|
_SWAP,
|
|
_LN,
|
|
_NEG,
|
|
_2,
|
|
_PI,
|
|
_MULT,
|
|
_LN,
|
|
_ADD,
|
|
_2,
|
|
_DIV,
|
|
_ADD,
|
|
_END,
|
|
|
|
_DUP,
|
|
_ROT,
|
|
_DUP,
|
|
_COS,
|
|
_SWAP,
|
|
_SIN,
|
|
_ROT,
|
|
_MULT,
|
|
_ROT,
|
|
_ROT,
|
|
_MULT,
|
|
_END, // 13 P>R y=r*sin(a) x=r*cos(a)
|
|
|
|
_DUP,
|
|
_MULT,
|
|
_SWAP,
|
|
_DUP,
|
|
_MULT,
|
|
_DUP,
|
|
_ROT,
|
|
_DUP,
|
|
_ROT,
|
|
_ADD,
|
|
_SQRT, // 14 R>P r=sqrt(x*x+y*y) a=atan(y/x)
|
|
_ROT,
|
|
_ROT,
|
|
_DIV,
|
|
_SQRT,
|
|
_ATAN,
|
|
_SWAP,
|
|
_END,
|
|
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_DUP,
|
|
_MULT,
|
|
_MULT,
|
|
_DOT,
|
|
_0,
|
|
_7,
|
|
_MULT, // 15 ND
|
|
_SWAP,
|
|
_1,
|
|
_DOT,
|
|
_6,
|
|
_MULT,
|
|
_NEG,
|
|
_ADD,
|
|
_EXP,
|
|
_1,
|
|
_ADD,
|
|
_INV,
|
|
_SWAP, // CDF ~ 1/(1+exp(-0.07*x^3-1.6*x))
|
|
_DUP,
|
|
_MULT,
|
|
_NEG,
|
|
_2,
|
|
_DIV,
|
|
_EXP,
|
|
_2,
|
|
_PI,
|
|
_MULT,
|
|
_SQRT,
|
|
_INV,
|
|
_MULT,
|
|
_END, // PDF = exp(-x*x/2)/sqrt(2*PI)
|
|
|
|
_DUP,
|
|
_ROT,
|
|
_SWAP, // 16 PERM COMB
|
|
_OVER,
|
|
_ROT,
|
|
_ROT,
|
|
_SUB,
|
|
_1,
|
|
_ROT,
|
|
_ROT,
|
|
_SWAP, // PERM
|
|
_BEGIN,
|
|
_SWAP,
|
|
_ROT,
|
|
_1,
|
|
_ROT,
|
|
_ADD,
|
|
_DUP,
|
|
_ROT,
|
|
_MULT,
|
|
_SWAP,
|
|
_ROT,
|
|
_OVER,
|
|
_OVER,
|
|
_SWAP,
|
|
_LT,
|
|
_UNTIL,
|
|
_DROP,
|
|
_DROP,
|
|
_DUP,
|
|
_ROT,
|
|
_1,
|
|
_SWAP, // COMB
|
|
_BEGIN,
|
|
_ROT,
|
|
_ROT,
|
|
_DUP,
|
|
_ROT,
|
|
_SWAP,
|
|
_DIV,
|
|
_ROT,
|
|
_ROT,
|
|
_1,
|
|
_ADD,
|
|
_SWAP,
|
|
_OVER,
|
|
_1,
|
|
_SUB,
|
|
_OVER,
|
|
_SWAP,
|
|
_LT,
|
|
_UNTIL,
|
|
_DROP,
|
|
_DROP,
|
|
_END,
|
|
|
|
};
|
|
|
|
// Command names
|
|
static const byte cmd[] PROGMEM = {
|
|
__FINV,
|
|
___,
|
|
___,
|
|
__7,
|
|
___,
|
|
__8,
|
|
___,
|
|
__9, // 0 Primary keys
|
|
__E,
|
|
__E,
|
|
___,
|
|
__4,
|
|
___,
|
|
__5,
|
|
___,
|
|
__6,
|
|
__N,
|
|
___,
|
|
___,
|
|
__1,
|
|
___,
|
|
__2,
|
|
___,
|
|
__3,
|
|
__C,
|
|
___,
|
|
___,
|
|
__0,
|
|
___,
|
|
__DOT,
|
|
___,
|
|
__D,
|
|
__M,
|
|
___,
|
|
__S,
|
|
__ADD,
|
|
__P,
|
|
__R,
|
|
___,
|
|
__DIV, // 16 F-keys
|
|
|
|
__SWAP,
|
|
___,
|
|
__D,
|
|
__C,
|
|
__U,
|
|
__S,
|
|
___,
|
|
__MULT,
|
|
__R,
|
|
__T,
|
|
__R,
|
|
__C,
|
|
__S,
|
|
__T,
|
|
___,
|
|
__SUB,
|
|
__C,
|
|
__A,
|
|
__PI,
|
|
___,
|
|
__I,
|
|
__N,
|
|
___,
|
|
__ADD,
|
|
__I,
|
|
__F,
|
|
__E,
|
|
__L,
|
|
__T,
|
|
__H,
|
|
__P,
|
|
__C, // 32 Intrinsic functions
|
|
__LT,
|
|
___,
|
|
__EQ,
|
|
___,
|
|
__LT,
|
|
__GT,
|
|
___,
|
|
__GT,
|
|
|
|
__B,
|
|
__E,
|
|
__U,
|
|
__N,
|
|
__S,
|
|
__O,
|
|
__I,
|
|
___,
|
|
__c,
|
|
___,
|
|
__t,
|
|
__POW1,
|
|
__E,
|
|
___,
|
|
__L,
|
|
__N,
|
|
__s,
|
|
___,
|
|
__t,
|
|
___,
|
|
__s,
|
|
__POW1,
|
|
__c,
|
|
__POW1, // 48 Builtin functions
|
|
__O,
|
|
__V,
|
|
__SQRT,
|
|
___,
|
|
__P,
|
|
___,
|
|
__EM,
|
|
__L,
|
|
__P,
|
|
__V,
|
|
__N,
|
|
__D,
|
|
__P,
|
|
__ARROW,
|
|
__R,
|
|
__ARROW,
|
|
|
|
__S,
|
|
__ADD,
|
|
__S,
|
|
__c,
|
|
__MEAN,
|
|
___,
|
|
__L,
|
|
__R,
|
|
__0,
|
|
__0,
|
|
__0,
|
|
__1,
|
|
__0,
|
|
__2,
|
|
__0,
|
|
__3, // 64 User functions
|
|
__0,
|
|
__4,
|
|
__0,
|
|
__5,
|
|
__0,
|
|
__6,
|
|
__0,
|
|
__7,
|
|
__0,
|
|
__8,
|
|
__0,
|
|
__9,
|
|
__1,
|
|
__0,
|
|
__1,
|
|
__1,
|
|
__1,
|
|
__2,
|
|
__1,
|
|
__3,
|
|
__1,
|
|
__4,
|
|
__1,
|
|
__5,
|
|
};
|
|
|
|
// FUNCTION POINTER ARRAY
|
|
static void (*dispatch[])(void) = {
|
|
// Function pointer array
|
|
&_keyf,
|
|
&_num,
|
|
&_num,
|
|
&_num, // 00 Primary keys
|
|
&_e,
|
|
&_num,
|
|
&_num,
|
|
&_num,
|
|
&_neg,
|
|
&_num,
|
|
&_num,
|
|
&_num,
|
|
&_drop,
|
|
&_num,
|
|
&_dot,
|
|
&_dup,
|
|
&_menu,
|
|
&_sumadd,
|
|
&_prgedit,
|
|
&_div, // 16 F-keys
|
|
|
|
&_swap,
|
|
&_dict,
|
|
&_usrset,
|
|
&_mul,
|
|
&_rot,
|
|
&_mrcl,
|
|
&_msto,
|
|
&_sub,
|
|
&_clr,
|
|
&_pi,
|
|
&_int,
|
|
&_add,
|
|
&_condif,
|
|
&_condelse,
|
|
&_condthen,
|
|
&_permcomb, // 32 Intrinsic functions
|
|
&_condlt,
|
|
&_condeq,
|
|
&_condne,
|
|
&_condgt,
|
|
|
|
&_begin,
|
|
&_until,
|
|
&_solve,
|
|
&_inv,
|
|
&_cos,
|
|
&_atan,
|
|
&_exp,
|
|
&_ln,
|
|
&_sin,
|
|
&_tan,
|
|
&_asin,
|
|
&_acos, // 48 Builtin functions
|
|
&_over,
|
|
&_sqrt,
|
|
&_pow,
|
|
&_gammaln,
|
|
&_pv,
|
|
&_nd,
|
|
&_pol2rect,
|
|
&_rect2pol,
|
|
|
|
&_sumadd,
|
|
&_sumclr,
|
|
&_sumstat,
|
|
&_sumlr,
|
|
};
|
|
// static void _nop(void) {} // NOP - no operation
|
|
static void _num(void) { // Insert number
|
|
_numinput(key2nr(key));
|
|
}
|
|
static void _add(void) { // ADD +
|
|
dpush(dpop() + dpop());
|
|
}
|
|
static void _acos(void) { // ACOS
|
|
seekmem(_ACOS);
|
|
}
|
|
static void _asin(void) { // ASIN
|
|
seekmem(_ASIN);
|
|
}
|
|
static void _atan(void) { // ATAN
|
|
dpush(atan(dpop()) * RAD);
|
|
}
|
|
static void _begin(void) { // BEGIN
|
|
apush(mp);
|
|
}
|
|
static void _ce(void) { // CE
|
|
if (isdot) {
|
|
if (decimals) {
|
|
decimals--;
|
|
double a = pow10(decimals);
|
|
dpush(((long)(dpop() * a) / a));
|
|
} else
|
|
isdot = false;
|
|
} else {
|
|
long a = dpop() / 10.0F;
|
|
if (!a)
|
|
isnewnumber = true;
|
|
else
|
|
dpush(a);
|
|
}
|
|
}
|
|
static void _clr(void) { // CLR
|
|
dp = 0;
|
|
_sumclr();
|
|
}
|
|
static void _condelse(void) { // CONDITION ELSE
|
|
_condseek(); // Seek next THEN
|
|
cl--;
|
|
}
|
|
static void _condeq(void) { // CONDITION =
|
|
dpush(dpop() == dpop());
|
|
}
|
|
static void _condgt(void) { // CONDITION >
|
|
dpush(dpop() < dpop());
|
|
}
|
|
static void _condif(void) { // CONDITION IF
|
|
cl++; // Increment conditional level
|
|
if (!dpop()) _condseek(); // FALSE-Clause - seek next ELSE or THEN
|
|
}
|
|
static void _condlt(void) { // CONDITION <
|
|
_condgt();
|
|
dpush(!dpop());
|
|
}
|
|
static void _condne(void) { // CONDITION <>
|
|
_condeq();
|
|
dpush(!dpop());
|
|
}
|
|
static void _condseek(void) { // CONDITION - seek next ELSE or THEN
|
|
boolean isloop = true;
|
|
byte cltmp = 0; // Local conditional level
|
|
while (isloop) {
|
|
byte c = 0;
|
|
if (mp < sizeof(mem))
|
|
c = pgm_read_byte(mem + mp++); // Builtin
|
|
else if (mp < sizeof(mem) + EEU)
|
|
c = EEPROM[mp++ - sizeof(mem) + EEUSTART];
|
|
if (mp >= sizeof(mem) + EEU)
|
|
isloop = false; // No corresponding ELSE or THEN
|
|
else if (c == _IF)
|
|
cltmp++; // Nested IF found
|
|
else if (cltmp && c == _THEN)
|
|
cltmp--; // Nested IF ended
|
|
else if (!cltmp && (c == _ELSE || c == _THEN))
|
|
isloop = false;
|
|
}
|
|
}
|
|
static void _condthen(void) { // CONDITION THEN
|
|
cl--; // Decrement conditional level
|
|
}
|
|
static void _cos(void) { // COS
|
|
dpush(cos(dpop() / RAD));
|
|
}
|
|
static void _dict(void) { // DICT
|
|
select = 0;
|
|
medi = MEDIDICT;
|
|
}
|
|
static void _div(void) { // DIV /
|
|
_inv();
|
|
_mul();
|
|
}
|
|
static void _dot(void) { // DOT .
|
|
if (isnewnumber) {
|
|
dpush(0.0F); // Start new number with 0
|
|
decimals = 0;
|
|
isnewnumber = false;
|
|
}
|
|
isdot = true;
|
|
}
|
|
static void _drop(void) { // DROP
|
|
if (!isnewnumber)
|
|
_ce(); // Clear entry
|
|
else if (dp)
|
|
dp--; // Clear TOS
|
|
}
|
|
static void _dup(void) { // DUP
|
|
if (isnewnumber && dp) dpush(ds[dp - 1]);
|
|
}
|
|
static void _e(void) { // E
|
|
dpush(pow10(dpop()));
|
|
_mul();
|
|
}
|
|
static void _exp(void) { // EXP
|
|
boolean isneg = false; // True for negative x
|
|
if (dpush(dpop()) < 0.0F) { // Taylor series ist weak for negative x ... calculate exp(-x)=1/exp(x)
|
|
_neg();
|
|
isneg = true;
|
|
}
|
|
dpush(1.0F); // Stack: x res
|
|
for (byte i = 255; i; i--) {
|
|
_swap();
|
|
_dup();
|
|
_rot(); // Duplicate x (TOS-1)
|
|
dpush(i);
|
|
_div();
|
|
_mul();
|
|
dpush(1.0F);
|
|
_add(); // res = 1.0 + x * res / i;
|
|
}
|
|
if (isneg) _inv(); // Negative argument
|
|
_swap();
|
|
_drop(); // Remove x (TOS-1)
|
|
}
|
|
static void _gammaln(void) { // GAMMALN
|
|
seekmem(_GAMMALN);
|
|
}
|
|
static void _int(void) { // INT
|
|
dpush((long)dpop());
|
|
}
|
|
static void _inv(void) { // INV
|
|
dpush(1.0F / dpop());
|
|
}
|
|
static void _keyf(void) { // KEY-F
|
|
fgm = ISF;
|
|
setfgm = 0;
|
|
}
|
|
static void _ln(void) { // LN
|
|
dpush(log(dpop()));
|
|
}
|
|
static void _menu(void) { // MENU
|
|
select = 0;
|
|
medi = MEDIMENU;
|
|
}
|
|
static void _mrcl(void) { // MRCL
|
|
_mstorcl(false);
|
|
}
|
|
static void _msto(void) { // MSTO
|
|
_mstorcl(true);
|
|
}
|
|
static void _mstorcl(boolean issto) { // MRCL
|
|
byte nr = dpop();
|
|
byte addr = EESTO + nr * sizeof(double); // Has to be <255 (byte)
|
|
if (nr < MEMSTO) {
|
|
if (issto)
|
|
EEwrite(addr, dpop());
|
|
else {
|
|
double a;
|
|
EEread(addr, a);
|
|
dpush(a);
|
|
}
|
|
}
|
|
}
|
|
static void _mul(void) { // MULT *
|
|
dpush(dpop() * dpop());
|
|
}
|
|
/*static void _nand(void) { // NAND
|
|
long b = dpop();
|
|
dpush(~((long)dpop() & b));
|
|
}*/
|
|
static void _nd(void) { // ND
|
|
seekmem(_ND);
|
|
}
|
|
static void _neg(void) { // NEGATE
|
|
dpush(-dpop());
|
|
}
|
|
static void _numinput(byte k) { // NUM Numeric input (0...9)
|
|
if (isdot) { // Append decimal
|
|
dpush(k);
|
|
dpush(pow10(++decimals));
|
|
_div();
|
|
_add();
|
|
} else if (isnewnumber)
|
|
dpush((double)k); // Push new numeral
|
|
else { // Append numeral
|
|
dpush(10.0F);
|
|
_mul();
|
|
dpush(k);
|
|
_add();
|
|
}
|
|
isnewnumber = false;
|
|
}
|
|
static void _over(void) { // OVER
|
|
seekmem(_OVER);
|
|
}
|
|
void _permcomb(void) { // PERM COMB
|
|
seekmem(_PERMCOMB);
|
|
}
|
|
static void _pi(void) { // PI
|
|
dpush(PI);
|
|
}
|
|
void _pol2rect(void) { // POL2RECT
|
|
seekmem(_POL2RECT);
|
|
}
|
|
void _pow(void) { // POWER
|
|
seekmem(_POW);
|
|
}
|
|
void _pv(void) { // PRESENT VALUE
|
|
seekmem(_PV);
|
|
}
|
|
static void _prgedit(void) { // PRGEDIT
|
|
isprgedit = true;
|
|
if ((prgnr = dpop()) >= MAXPRG) prgnr = 0;
|
|
prgpos = prglength = 0;
|
|
prgaddr = EEUSTART + eeudist(prgnr);
|
|
byte len = prgnr + UL0, prgstep = EEPROM[prgaddr]; // Max program length and first step
|
|
while (prglength < len && prgstep != _END) {
|
|
prgbuf[prglength] = prgstep; // Load step from EEPROM to prgbuf
|
|
prgstep = EEPROM[prgaddr + ++prglength]; // Next step
|
|
}
|
|
}
|
|
void _rect2pol(void) { // RECT2POL
|
|
seekmem(_RECT2POL);
|
|
}
|
|
static void _rot(void) { // ROT
|
|
if (dp > 2) {
|
|
double a = dpop(), b = dpop(), c = dpop();
|
|
dpush(b);
|
|
dpush(a);
|
|
dpush(c);
|
|
}
|
|
}
|
|
static void _sin(void) { // SIN
|
|
seekmem(_SIN);
|
|
}
|
|
static void _solve(void) { // SOLVE
|
|
_dup();
|
|
_dup(); // 3 x0 on stack
|
|
runs = 0;
|
|
issolve = true;
|
|
}
|
|
static void _sqrt(void) { // SQRT
|
|
seekmem(_SQRT);
|
|
}
|
|
static void _sub(void) { // SUB -
|
|
_neg();
|
|
_add();
|
|
}
|
|
static void _sumadd(void) { // SUM+
|
|
seekmem(_SUMADD);
|
|
}
|
|
static void _sumclr(void) { // SUMclr
|
|
seekmem(_SUMCLR);
|
|
}
|
|
static void _sumlr(void) { // SUM LR
|
|
seekmem(_SUMLR);
|
|
}
|
|
static void _sumstat(void) { // SUM STAT
|
|
seekmem(_SUMSTAT);
|
|
}
|
|
static void _swap(void) { // SWAP
|
|
if (dp > 1) {
|
|
double a = dpop(), b = dpop();
|
|
dpush(a);
|
|
dpush(b);
|
|
}
|
|
}
|
|
static void _tan(void) { // TAN
|
|
seekmem(_TAN);
|
|
}
|
|
static void _until(void) { // UNTIL
|
|
if (!ap)
|
|
; // No BEGIN for this UNTIL
|
|
else if (dpop())
|
|
apop(); // Go on (delete return address)
|
|
else
|
|
apush(mp = apop()); // Go back to BEGIN
|
|
}
|
|
static void _usrset(void) { // USR
|
|
select = 0;
|
|
medi = MEDIDICT;
|
|
issetusr = true;
|
|
}
|
|
|
|
// SUBPROGRAMS
|
|
|
|
static void delayshort(byte ms) { // Delay in ms (8MHz)
|
|
for (long k = 0; k < ms * 8000L; k++) __asm__ __volatile__("nop\n\t");
|
|
}
|
|
|
|
static int eeudist(byte i) { // Distance of user program number i from EEUSTART
|
|
return ((2 * UL0 + i - 1) * i / 2);
|
|
}
|
|
|
|
static void execute(byte cmd) { // Execute command
|
|
if (cmd < MAXCMDB)
|
|
(*dispatch[cmd])(); // Dispatch intrinsic/builtin command
|
|
else if (cmd < MAXCMDU)
|
|
mp = eeudist(cmd - MAXCMDB) + sizeof(mem); // Execute user command
|
|
if ((cmd % 4 == 0 && cmd != 12) || cmd > 14) { // New number - except: 0-9. DROP
|
|
decimals = 0;
|
|
isdot = false;
|
|
isnewnumber = true;
|
|
}
|
|
if (fgm && setfgm) fgm = setfgm = 0; // Hold demanded F-key status one cycle
|
|
setfgm = 1;
|
|
}
|
|
|
|
static void prgstepins(byte c) { // Insert step (character c in prgbuf at prgeditstart)
|
|
for (byte i = prglength; i > prgpos; i--) prgbuf[i] = prgbuf[i - 1];
|
|
prgbuf[prgpos + 1] = c;
|
|
prglength++;
|
|
prgpos++;
|
|
}
|
|
|
|
template <class T>
|
|
void EEwrite(int ee, const T& value) { // Write any datatype to EEPROM
|
|
const byte* p = (const byte*)(const void*)&value;
|
|
for (byte i = 0; i < sizeof(value); i++) EEPROM.write(ee++, *p++);
|
|
}
|
|
template <class T>
|
|
void EEread(int ee, T& value) { // Read any datatype from EEPROM
|
|
byte* p = (byte*)(void*)&value;
|
|
for (byte i = 0; i < sizeof(value); i++) *p++ = EEPROM.read(ee++);
|
|
}
|
|
|
|
static void upn(byte n, byte l) { // Selection up l lines
|
|
if (select > n * l && select <= (n + 1) * l - 1)
|
|
select--;
|
|
else
|
|
select = (n + 1) * l - 1;
|
|
}
|
|
static void downn(byte n, byte l) { // Selection down l lines
|
|
if (select >= n * l && select < (n + 1) * l - 1)
|
|
select++;
|
|
else
|
|
select = n * l;
|
|
}
|
|
static byte menuselect(byte lines) { // Selection (1 line = 16 items)
|
|
char k = key;
|
|
if (k <= 3)
|
|
return (select * 4 + k); // Execute
|
|
else if (k >= 4 && k <= 7)
|
|
upn(k - 4, lines); // # Up
|
|
else if (k >= 8 && k <= 11)
|
|
downn(k - 8, lines); // # Down0
|
|
if (k == 12) return (ENDKEY); // Escape
|
|
/*if (k == 13) { // Hidden feature: Display off
|
|
doff();
|
|
return (ENDKEY);
|
|
}*/
|
|
if (k == 15) { // Hidden feature: Set contrast
|
|
// dcontrast(dpop());
|
|
return (ENDKEY);
|
|
}
|
|
return (PREENDKEY);
|
|
}
|
|
|
|
// *** S T A C K
|
|
|
|
static void floatstack() {
|
|
memmove(ds, &ds[1], (DATASTACKSIZE - 1) * sizeof(double));
|
|
dp--;
|
|
}
|
|
|
|
static double dpush(double d) { // Push complex number to data-stack
|
|
if (dp >= DATASTACKSIZE) floatstack(); // Float stack
|
|
return (ds[dp++] = d);
|
|
}
|
|
static double dpop(void) { // Pop real number from data-stack
|
|
return (dp ? ds[--dp] : 0.0F);
|
|
}
|
|
|
|
static void apush(int addr) { // Push address (int) to address-stack
|
|
as[ap++] = addr;
|
|
}
|
|
static int apop(void) { // Pop address (int) from address-stack
|
|
return (ap ? as[--ap] : NULL);
|
|
}
|
|
|
|
static void seekmem(byte n) { // Find run-address (mp) of n-th builtin function
|
|
mp = 0;
|
|
while (n + 1 - MAXCMDI)
|
|
if (pgm_read_byte(&mem[mp++]) == _END) n--;
|
|
}
|
|
|
|
// ***** P R I N T I N G
|
|
|
|
static boolean printscreen(void) { // Print screen due to state
|
|
// dfill(0x00);
|
|
|
|
if (medi) { // MEnu or DIct
|
|
for (byte i = 0; i < 4; i++) {
|
|
byte nr = select * 4 + i;
|
|
if (medi == MEDIMENU) nr = EEPROM[EEMENU + nr];
|
|
for (byte j = 0; j < 2; j++) sbuf[2 * i + j] = pgm_read_byte(&cmd[2 * nr + j]);
|
|
}
|
|
printsbuf(PRINTMENU);
|
|
}
|
|
|
|
else if (isprgedit) { // # Edit program
|
|
sbuf[0] = ___;
|
|
sbuf[1] = __P;
|
|
sbuf[3] = _ones(prgnr);
|
|
sbuf[2] = _tens(prgnr); // Program number
|
|
sbuf[5] = _ones(prgpos);
|
|
sbuf[4] = _tens(prgpos); // Program pos
|
|
for (byte i = 0; i < 2; i++) sbuf[6 + i] = pgm_read_byte(&cmd[2 * prgbuf[prgpos] + i]); // Command
|
|
printsbuf(PRINTMENU);
|
|
}
|
|
|
|
else if (dp)
|
|
printnum(ds[dp - 1]); // Stack
|
|
|
|
else
|
|
printcat(__ARROW, 0); // Empty stack prompt
|
|
|
|
if (!isnewnumber) printcat(__ARROW, 0); // Num input indicator
|
|
|
|
if (fgm) printcat(__FINV, 0); // F indicator
|
|
|
|
// ddisplay();
|
|
return (false); // To determine isprintscreen
|
|
}
|
|
|
|
// ***** S E T U P A N D L O O P
|
|
|
|
// void setup() {
|
|
// dinit(); // Init display
|
|
// drender(); // Render current half of GDDRAM
|
|
// pinMode(KCLOCK, OUTPUT);
|
|
// pinMode(KDATA, INPUT); // Init keyboard pins
|
|
// // power_timer0_disable(); // Power off timer0 (saves 0.1 mA)
|
|
// power_timer1_disable(); // Power off timer1 (saves 0.6 mA)
|
|
// ADCSRA &= ~bit(ADEN); // Power off AD converter (saves 0.4 mA)
|
|
// }
|
|
|
|
void loop() {
|
|
if (isprintscreen) isprintscreen = printscreen(); // Print screen
|
|
|
|
if (mp) { // *** Execute/run code
|
|
if (mp < sizeof(mem))
|
|
key = pgm_read_byte(&mem[mp++]); // Builtin
|
|
else if (mp < sizeof(mem) + EEU)
|
|
key = EEPROM[mp++ - sizeof(mem) + EEUSTART]; // User
|
|
else
|
|
mp = 0; // cmd > MAXCMDU
|
|
if (key >= MAXCMDI && key != _END) apush(mp); // Subroutine detected - branch
|
|
if (key == _END) { // _END reached
|
|
if (ap)
|
|
mp = apop(); // End of subroutine - return
|
|
else { // End of run
|
|
mp = 0;
|
|
if (!issolve) isprintscreen = true; // Print screen if not in solver
|
|
}
|
|
} else
|
|
execute(key);
|
|
}
|
|
|
|
else { // *** No run - get key
|
|
key = getkey(); // READ KEY
|
|
delayshort(1); // Give keypad some time to settle
|
|
|
|
if (issolve) { // # SOLVE
|
|
if (++runs < 3) {
|
|
if (runs == 2) { // Second run - f(x0+dx)
|
|
_swap();
|
|
dpush(DELTAX);
|
|
_add(); // x0+DELTAX ... Prepare new x-value
|
|
}
|
|
execute(MAXCMDB); // Execute first user program
|
|
} else { // Third run - x1
|
|
_swap();
|
|
_div();
|
|
dpush(-1.0);
|
|
_add(); // f1/f0-1
|
|
dpush(DELTAX);
|
|
_swap();
|
|
_div(); // diffx=DELTAX/(f1/f0-1)
|
|
double diffx = dpush(dpop()); // Rescue diffx for exit condition
|
|
_sub(); // x1=x0-diffx ... improved x-value
|
|
runs = 0;
|
|
if (diffx < DELTAX && diffx > -DELTAX) { // Exit
|
|
isnewnumber = isprintscreen = true;
|
|
issolve = false;
|
|
} else { // 3 x1 on stack
|
|
_dup();
|
|
_dup();
|
|
}
|
|
}
|
|
}
|
|
|
|
if (key != oldkey) {
|
|
oldkey = key; // New valid key is old key
|
|
if (key < ENDKEY) {
|
|
// don(); // Wake up display (in case of doff)
|
|
|
|
if (medi) { // ### Menu or Dict
|
|
byte sel = menuselect(medi);
|
|
if (sel < PREENDKEY) { // Item selected
|
|
if (medi == MEDIMENU) { // # MENU
|
|
if (issetusr) { // Save user menu entry
|
|
EEPROM[EEMENU + sel] = setusrselect;
|
|
issetusr = false;
|
|
} else
|
|
execute(EEPROM[EEMENU + sel]); // Execute selected command
|
|
medi = 0;
|
|
} else { // # DICT
|
|
if (issetusr) { // Go on to menu
|
|
setusrselect = sel;
|
|
select = 0;
|
|
medi = MEDIMENU;
|
|
} else if (isprgdict) { // Go back to prgedit
|
|
prgstepins(sel);
|
|
isprgdict = false;
|
|
isprgedit = true;
|
|
medi = 0;
|
|
} else {
|
|
execute(sel); // Execute command directly
|
|
medi = 0;
|
|
}
|
|
}
|
|
} else if (sel == ENDKEY) {
|
|
issetusr = false; // Escape
|
|
medi = 0;
|
|
}
|
|
}
|
|
|
|
else if (isprgedit) { // ### Program edit
|
|
if (key == 0)
|
|
fgm = fgm ? 0 : ISF; // # F-key toggle
|
|
else if (key == 5 && fgm == ISF) { // # F-4 ... insert step via dict
|
|
select = fgm = 0;
|
|
medi = MEDIDICT;
|
|
isprgdict = true;
|
|
isprgedit = false;
|
|
} else if (fgm == ISF) { // # Insert F-shifted key
|
|
prgstepins(key + fgm * 16);
|
|
fgm = 0;
|
|
} else if (key == 4) { // # Up
|
|
if (prgpos) prgpos--; /// else if (prglength) prgpos = prglength - 1;
|
|
} else if (key == 8) { // # Down
|
|
if (prgpos < prglength - 1) prgpos++; /// else prgpos = 0;
|
|
} else if (key == 12) { // # Escape and save program to EEPROM
|
|
for (byte i = 0; i < prglength; i++) EEPROM[prgaddr + i] = prgbuf[i];
|
|
EEPROM[prgaddr + prglength] = _END;
|
|
isprgedit = false;
|
|
} else if (key == 14) { // # Dot - Delete step
|
|
if (prglength) {
|
|
for (byte i = prgpos; i < prglength; i++) prgbuf[i] = prgbuf[i + 1];
|
|
prglength--;
|
|
}
|
|
} else
|
|
prgstepins(key); // # Insert direct key
|
|
}
|
|
|
|
else
|
|
execute(key + fgm * 16); // ### Execute key
|
|
|
|
isprintscreen = true;
|
|
}
|
|
}
|
|
} // End of evaluating key
|
|
}
|