SAV? - SID Step B v1.7303b 2x16LCD

[lemonhorse]

Hi,

ich habe gerade bei einem SID Step B v1.7303b eingespielt - alles scheint zu funktionieren  :)

Jedoch im Menue:

{OSC (oscillators), FIL (filters), LFO (low frequency oscillators), ENV (envelopes), MOD (modulation matrix),WT (wavetables), WMA, 303, SEO, CFG (configuration), SAV (save patch)}

fehlt der Eintrag "SAV" - ich kann somit nicht speichern.

Habe ich etwas übersehen? - kennt jemand das Problem? - oder habe ich den Menuepunkt verloren weil ein 2x16 LCD nicht mehr "erlaubt" ist?

Gruß,

Lemonhorse

[TK.]

Hallo Lemonhorse,

ein 2x16 LCD ist nach wie vor erlaubt, Du musst jedoch in main.asm (bzw. im setup_* File, welches Du verwendest), den Eintrag:

#define CS_MENU_DISPLAYED_ITEMS 5

auf 4 setzen

Gruss,

        Thorsten.

[lemonhorse]

Hallo Thorsten!  :)

;

; Prepared Setup File for 6581 SID

; After this file has been assembled, execute "convert.bat" from a DOS shell

; to generate 4 .syx files for all master/slaves

;

#define SEPERATE_SETUP_FILE 1

;; here you can change the default device ID - if you are using

;; some cores as slave, set:

;;    o DEFAULT_DEVICE_ID 0x01 ; for the first slave

;;    o DEFAULT_DEVICE_ID 0x02 ; for the second slave

;;    o DEFAULT_DEVICE_ID 0x03 ; for the third slave

#define DEFAULT_DEVICE_ID 0x00

;; if this option is enabled (1), the DEFAULT_DEVICE_ID won't be used, but

;; it will be automatically derived from the MIOS Device ID instead

#define AUTO_DEVICE_ID 1

;; this MIDI channel will only be taken when:

;;    - you are using the MBSID standalone (neither as CS Master, nor as CS Slave)

;;    - the control surface is diabled and a BankStick is connected

;; in all other cases, the MIDI channel of the Master or Slave has to be selected

;; from the Control Surface

#define DEFAULT_MIDI_CHANNEL 1

;; select the BankStick type you are using here:

;;    0: "normal" 24LC256 EEPROM (32k), up to 8 EEPROMs can be connected for 8 banks

;;    1: 24LC512 EEPROM (64k), up to 4 EEPROMs can be connected for 8 banks

;;      (it is not possible to mix 32k with 64k EEPROMs, more than 4 64k devices not supported)

#define DEFAULT_BS_TYPE 0

;; select the filter type here:

;;    0: if a 6581 is controlled from the core

;;    1: if a 8580 is controlled from the core

;;    2: 6581 + freely definable scaling (define MIN and MAX value below)

;;    3: 8580 + freely definable scaling (define MIN and MAX value below)

#define DEFAULT_FILTER_TYPE 0

;; only relevant if DEFAULT_FILTER_TYPE is 2 or 3, values between 0 and 2047 are allowed

#define DEFAULT_FILTER_CALI_MIN 20

#define DEFAULT_FILTER_CALI_MAX 1000

;; set this if you want to switch between two different types and Min/Max values

#define DEFAULT_FILTER_TYPE_SWITCH 0

;; and define the used pin here (default: pin RC.3)

#define DEFAULT_FILTER_TYPE_SWITCH_TRIS TRISC

#define DEFAULT_FILTER_TYPE_SWITCH_PORT PORTC

#define DEFAULT_FILTER_TYPE_SWITCH_PIN  3

;; define the type (0-3) and the Min/Max values (for type 2/3) here:

#define DEFAULT_FILTER_TYPE2    1

#define DEFAULT_FILTER_CALI_MIN2 0

#define DEFAULT_FILTER_CALI_MAX2 2047

;; set this to '0' to disable the control surface - this is especially usefull for

;; people who want to program their own CS handler in order to free

;; some memory

;; It's also a good idea to disable the CS if the core is running as SID slave

;; (although this is no requirement!)

#define CS_ENABLED 1

;; if this option is set to "1", the CS will be enabled if the MIOS device ID is 0x00, and

;; it will be disabled if the MIOS device ID is != 0x00

;; in other words: the control surface will only be enabled for the master

;; note that this mechanism doesn't remove the CS code like CS_ENABLED == 0

#define AUTO_CS_ENABLED 1

;; number of visible menu items on LCD

;; use:  4 for 2x16 displays

;;      5 for 2x20 displays

;;      10 for 2x40 displays

#define CS_MENU_DISPLAYED_ITEMS 4

;; NOTE: if CS_MENU_DISPLAYED_ITEMS > 5, you have to adapt the DIN settings

;; in cs_menu_io_tables.inc

;; OLD_STYLE == 1: page scrolls with the cursor

;; OLD_STYLE == 0: page scrolls directly with the datawheel

#define CS_MENU_OLD_STYLE 0

;; Inc/Dec buttons or rotary encoder of data entry?

;; use:  0 if rotary encoder should be used

;;        (pins of encoder are defined in mios_tables.inc)

;;      1 if buttons should be used instead

#define CS_MENU_USE_INCDEC_BUTTONS 0

;; use:  0 if a non-detented encoder is used to select the menu items

;;      1 if a detented encoder is used to select the menu items

;; the CS_MENU_EncSpeedSet function in "cs_menu.inc" sets the speed

;; depending on this value

#define CS_MENU_USE_DETENTED_ENCODER 1

;; the speed value for the additional encoders (#2-#15) is defined here

;; Hint: for non-detented encoders try the following: in mios_tables.inc

;; set the type of all encoders to "MIOS_ENC_MODE_DETENTED2" in order to

;; reduce the resolution (e.g. 24 ticks per revolution for a ALPS STEC16B),

;; set the speed value to 3 --- result: so long as the encoder is moved

;; slow, the parameter can be changed very precisely. By moving the encoder

;; faster, it is possible to sweep over the whole value range with a single turn

;; ("Progressive Mode")

#define CS_MENU_ENC_SPEED_VALUE 3

;; set this define to 1 of the link to slave SIDs should be enabled by default

#define CS_MENU_DEFAULT_LINK 0

;; if 0: OSC button selects also combined modes (7 states, combined OSCs)

;; if 1: OSC button selects only one of three OSCs (faster handling)

#define CS_MENU_OSC_BUTTON_BEHAVIOUR 1

;; use PORTA and PORTE (J5 of the core module) as output

;; you can address these pins in cs_menu_io_tables.inc as "shift register" #0

#define ENABLE_J5 0

;; set this to '1' if the modulation matrix (8x7 LEDs) is connected to the DOUT chain

#define MOD_MATRIX_ENABLE 0

;; define the shift registers (note: HERE the shift register begin with 0: 1st SR is 0, 2nd is 1, 3rd is 2, ...)

#define MOD_MATRIX_ANODES 6 ; shift register with anodes (HERE: 7th shift register in the chain)

#define MOD_MATRIX_CATHODES 7 ; shift register with cathodes (HERE: 8th shift register in the chain)

; For MIDI activity monitor: define the DOUT pins for the Rx and Tx LED:

#define MIDI_RXTX_USE_J5      0 ; if 0: MIDI Rx/Tx LEDs are assigned to the DOUT chain, pin 0x00-0x7f

; if 1: MIDI Rx/Tx LEDs are assigned to J5 DOUT, pin 0x00-0x07

;      (in this case ENABLE_J5 has to be set to 1!)

#define DEFAULT_MIDI_MONITOR_ENABLED 1  ; if 1, the Tx/Rx LEDs are enabled

#define DEFAULT_MIDI_RX_LED 0x41 ; DOUT SR#9, pin D1

#define DEFAULT_MIDI_TX_LED 0x42 ; DOUT SR#9, pin D2

;; enable access to the AOUT module via Port J6

;; (status: experimental)

#define ENABLE_AOUT 0

;; enable the 6th LFO waveform (analog inputs)

#define ENABLE_AIN_LFO_WAVEFORM 1

;; sets the default display mode for the LED matrix

;;    0: shows modulation assignments after power-on

;;    1: shows modulation meters after power-on

;; the mode can be toggled by pressing two mod target buttons at the same time (e.g. O1 and O2 Pitch)

#define DEFAULT_LEDMATRIX_MODE 0

#include "main.asm"

Der Eintrag war bereits auf 4...

???

[TK.]

Hallo Lemonhorse,

irgendetwas ist mit Deiner Datenhaltung nicht in Ordnung - in der offiziellen Release steht der Eintrag auf 5. Ich habe gerade den Wert 4 ausprobiert - funktioniert.

Ich kann mich erinnern, dass es in irgendeiner Beta Version schonmal Probleme mit diesem Setting gab, doch die sind schon laengst gefixed...

Gruss,

        Thorsten.

[lemonhorse]

Sorry TK,

vermutlich liegst Du richtig :-\

Anbei ein visueller Gruß von (m)einer MidiBox an seinen "Vater"  ;)

 

[lemonhorse]

Der Feher lag in dem MPLAB Projekt (falsche bzw. veraltete Path-Einstellung!).

Jetzt kann ich wieder SAVen  8)

+ Gleich mal die neuen Optionen testen  :)

Danke für den Tip TK.

Gruß,

Lemonhorse

[TK.]

Dein Gehaeusedesign ist wirklich sehr individuell! :)

Gruss,

        Thorsten.