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cc65/include/gamate.h
2022-04-02 23:47:36 +02:00

210 lines
7.6 KiB
C

/*****************************************************************************/
/* */
/* gamate.h */
/* */
/* Gamate system specific definitions */
/* */
/* */
/* */
/* (w) 2015 Groepaz/Hitmen (groepaz@gmx.net) */
/* based on technical reference by PeT (mess@utanet.at) */
/* */
/* This software is provided 'as-is', without any expressed or implied */
/* warranty. In no event will the authors be held liable for any damages */
/* arising from the use of this software. */
/* */
/* Permission is granted to anyone to use this software for any purpose, */
/* including commercial applications, and to alter it and redistribute it */
/* freely, subject to the following restrictions: */
/* */
/* 1. The origin of this software must not be misrepresented; you must not */
/* claim that you wrote the original software. If you use this software */
/* in a product, an acknowledgment in the product documentation would be */
/* appreciated but is not required. */
/* 2. Altered source versions must be plainly marked as such, and must not */
/* be misrepresented as being the original software. */
/* 3. This notice may not be removed or altered from any source */
/* distribution. */
/* */
/*****************************************************************************/
#ifndef _GAMATE_H
#define _GAMATE_H
/* Check for errors */
#if !defined(__GAMATE__)
# error This module may only be used when compiling for the Gamate!
#endif
#define AUDIO_BASE 0x4000
/*
base clock cpu clock/32 ?
0/1: 1. channel(right): 12 bit frequency: right frequency 0 nothing, 1 high;
3 23khz; 4 17,3; 10 6,9; 15 4.6; $60 720hz; $eff 18,0; $fff 16,9 hz)
(delay clock/32)
2/3: 2. channel(left): 12 bit frequency
4/5: 3. channel(both): 12 bit frequency
6: 0..5 noise frequency 0 fast 1f slow (about 500us) 15.6ns--> clock/32 counts
7 control (hinibble right)
bit 0: right channel high (full cycle, else square pulse/tone)
bit 1: left channel high
bit 2: both channel high
bit 3: set right tone (else noise)
bit 4: set left channel normal
bit 5: set both normal
bits 30: 11 high, 10 square, 01 noise, 00 noise only when square high
noise means switches channel to ad converter based noise algorithmen
(white noise shift register 17bit wide, repeats after about 130000 cycles)
probably out=!bit16, bit0=bit16 xor bit13; runs through, so start value anything than 0
8: 1st volume: 0..3 square volume; bit 4 envelope (higher priority)
9: 2nd volume
10: 3rd volume
11/12: envelope delay time 0 fast, 0xffff slow/nearly no effect (2 22us, 4 56us)
frequency $800, envelope $10 2 times in pulse high time (4*16*16)
13: envelope control
0-3 one time falling
4-7 one time rising
8 falling
9 one time falling
a starts with down falling, rising; same falling time, but double/longer cycle
b one time falling, on
c rising
d one time rising, on
e rising, falling (double cycle before restart)
f one time rising
bit 0: once only
bit 1: full tone
bit 2: start rising (else falling)
bit 3:
*/
/* LCD
resolution 160x152 in 4 greys/greens
2 256x256 sized bitplanes (2x 8kbyte ram)
*/
#define LCD_BASE 0x5000
#define LCD_MODE 0x5001
/*
bit 3..0 (from zeropage 15)
bit 0 set no normal screen display, seldom scrolling effects on screen;
bytes written to somewhat actual display refresh position!?
bytes read "random"
bit 1,2,3 no effect
bit 4 swaps plane intensity
bit 5 ? display effect
bit 6 on y auto increment (else auto x increment), reading
bit 7 ? lcd flickering
*/
#define LCD_MODE_INC_Y 0x40
#define LCD_XPOS 0x5002 /* smooth scrolling X */
#define LCD_YPOS 0x5003 /* smooth scrolling Y */
/*
smooth scrolling until $c8 with 200 limit
after 200 display if ((value & 0xf) < 8) display of (value & 0xf) - 8
chaos lines from value + current line from plane 2 only then lines starting
with zero (problematic 200 limit/overrun implementation!?)
*/
#define LCD_X 0x5004 /* x-addr */
/*
bit 5,6 no effect
bit 7 0 1st/1 2nd bitplane
*/
#define LCD_XPOS_PLANE1 0x00
#define LCD_XPOS_PLANE2 0x80
#define LCD_Y 0x5005 /* y-addr */
#define LCD_READ 0x5006 /* read from RAM (no auto inc?) */
#define LCD_DATA 0x5007 /* write to RAM */
/* BIOS zeropage usage */
/* locations 0x0a-0x0c, 0x0e-0x11 and 0xe8 are in use by the BIOS IRQ/NMI handlers */
#define ZP_NMI_4800 0x0a /* content of I/O reg 4800 gets copied here each NMI */
#define ZP_IRQ_COUNT 0x0b /* increments once per IRQ, used elsewhere in the
BIOS for synchronisation purposes */
#define ZP_IRQ_CTRL 0x0c /* if 0 then cartridge irq stubs will not get called */
/* each of the following 4 increments by 1 per IRQ - it is _not_ a 32bit
counter (see code at $ffa6 in BIOS)
these are not used elsewhere in the bios and can be (re)set as needed by
the user.
*/
#define ZP_IRQ_CNT1 0x0e
#define ZP_IRQ_CNT2 0x0f
#define ZP_IRQ_CNT3 0x10
#define ZP_IRQ_CNT4 0x11
#define ZP_NMI_FLAG 0xe8 /* set to 0xff each NMI */
/* constants for the conio implementation */
#define COLOR_BLACK 0x03
#define COLOR_GRAY2 0x02
#define COLOR_GRAY1 0x01
#define COLOR_WHITE 0x00
#define CH_HLINE 1
#define CH_VLINE 2
#define CH_CROSS 3
#define CH_ULCORNER 4
#define CH_URCORNER 5
#define CH_LLCORNER 6
#define CH_LRCORNER 7
#define CH_TTEE 8
#define CH_BTEE 9
#define CH_RTEE 11
#define CH_LTEE 12
#define CH_ENTER 13
#define CH_PI 18
#define TV_NTSC 0
#define TV_PAL 1
#define TV_OTHER 2
/* No support for dynamically loadable drivers */
#define DYN_DRV 0
#define JOY_DATA 0x4400 /* hw register to read the pad bits from */
/* Masks for joy_read */
#define JOY_UP_MASK 0x01
#define JOY_DOWN_MASK 0x02
#define JOY_LEFT_MASK 0x04
#define JOY_RIGHT_MASK 0x08
#define JOY_BTN_1_MASK 0x10
#define JOY_BTN_2_MASK 0x20
#define JOY_BTN_3_MASK 0x40
#define JOY_BTN_4_MASK 0x80
#define JOY_BTN_A_MASK JOY_BTN_1_MASK
#define JOY_BTN_B_MASk JOY_BTN_2_MASK
#define JOY_START_MASK JOY_BTN_3_MASK
#define JOY_SELECT_MASK JOY_BTN_4_MASK
#define JOY_BTN_A(v) ((v) & JOY_BTN_A_MASK)
#define JOY_BTN_B(v) ((v) & JOY_BTN_B_MASK)
#define JOY_START(v) ((v) & JOY_START_MASK)
#define JOY_SELECT(v) ((v) & JOY_SELECT_MASK)
/* The addresses of the static drivers */
extern void gamate_stdjoy_joy[]; /* Referred to by joy_static_stddrv[] */
void waitvsync (void);
/* Wait for start of next frame */
/* NOTE: all Gamate are "NTSC" */
#define get_tv() TV_NTSC
/* Return the video mode the machine is using. */
/* End of gamate.h */
#endif