150 lines
4.2 KiB
C
150 lines
4.2 KiB
C
/* ctc.c V1.1.0
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*
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* Z80 CTC emulering for TIKI-100_emul
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* Copyright (C) Asbjørn Djupdal 2000-2001
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*/
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#include "TIKI-100_emul.h"
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#include "protos.h"
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/* data for en seriekanal */
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struct ctcParams {
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boolean interrupt; /* om interrupt skal genereres */
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boolean enable; /* om teller av på eller av */
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int in; /* inngang - ant. sykler mellom hver inn-puls */
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int out; /* utgang - ant. sykler mellom hver ut-puls */
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boolean use4MHz; /* om klokke skal brukes i stedet for inngang */
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int count; /* sykler igjen til neste ut-puls */
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boolean writeTk; /* skriv tidskonstant neste gang */
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byte timeConst; /* tidskonstant */
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int scale; /* skaleringsfaktor */
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};
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/* protos */
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static void writeCtc (byte value, struct ctcParams *params);
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static void recalcCtc (void);
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/* variabler */
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extern Z80 cpu;
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static struct ctcParams params0 = {FALSE, FALSE, 2, FALSE, 0, FALSE, 0, 0};
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static struct ctcParams params1 = {FALSE, FALSE, 2, FALSE, 0, FALSE, 0, 0};
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static struct ctcParams params2 = {FALSE, FALSE, 1, FALSE, 0, FALSE, 0, 0};
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static struct ctcParams params3 = {FALSE, FALSE, 1, FALSE, 0, FALSE, 0, 0};
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/*****************************************************************************/
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/* skriv til ctc0-register */
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void writeCtc0 (byte value) {
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writeCtc (value, ¶ms0);
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}
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/* skriv til ctc1-register */
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void writeCtc1 (byte value) {
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writeCtc (value, ¶ms1);
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}
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/* skriv til ctc2-register */
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void writeCtc2 (byte value) {
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writeCtc (value, ¶ms2);
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}
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/* skriv til ctc3-register */
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void writeCtc3 (byte value) {
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writeCtc (value, ¶ms3);
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}
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/* setter data til gitt seriekanal */
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static void writeCtc (byte value, struct ctcParams *params) {
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if (params->writeTk) {
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params->writeTk = FALSE;
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params->timeConst = value;
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params->enable = TRUE;
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} else {
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params->interrupt = value & 128;
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if (value & 64) {
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params->use4MHz = FALSE;
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params->scale = 1;
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} else {
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params->use4MHz = TRUE;
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params->scale = value & 32 ? 256 : 16;
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}
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params->writeTk = value & 4;
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params->enable = !(value & 2);
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}
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recalcCtc();
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}
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/* rekalkulerer frekvenser for tellerkanalene */
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static void recalcCtc (void) {
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params2.in = params0.out;
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params3.in = params2.out;
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params0.out = params0.timeConst * params0.scale * (params0.use4MHz ? 1 : params0.in);
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params1.out = params1.timeConst * params1.scale * (params1.use4MHz ? 1 : params1.in);
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params2.out = params2.timeConst * params2.scale * (params2.use4MHz ? 1 : params2.in);
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params3.out = params3.timeConst * params3.scale * (params3.use4MHz ? 1 : params3.in);
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params0.count = params0.out; /* dette er ikke helt riktig, men bra nok */
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params1.count = params1.out;
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params2.count = params2.out;
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params3.count = params3.out;
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recalcBaud();
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}
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/* les ctc0-register */
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byte readCtc0 (void) {
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return params0.count / params0.in;
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}
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/* les ctc1-register */
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byte readCtc1 (void) {
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return params1.count / params1.in;
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}
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/* les ctc2-register */
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byte readCtc2 (void) {
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return params2.count / params2.in;
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}
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/* les ctc3-register */
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byte readCtc3 (void) {
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return params3.count / params3.in;
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}
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/* må kalles regelmessig for å oppdatere tellere og sjekke om interrupt skal genereres */
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void updateCTC (int cycles) {
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if (params0.enable) params0.count -= cycles;
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if (params1.enable) params1.count -= cycles;
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if (params2.enable) params2.count -= cycles;
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if (params3.enable) params3.count -= cycles;
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if (params0.count <= 0) {
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params0.count += params0.out;
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if (params0.interrupt) {
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IntZ80 (&cpu, 0x10);
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}
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}
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if (params1.count <= 0) {
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params1.count += params1.out;
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if (params1.interrupt) {
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IntZ80 (&cpu, 0x12);
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}
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}
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if (params2.count <= 0) {
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params2.count += params2.out;
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if (params2.interrupt) {
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IntZ80 (&cpu, 0x14);
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}
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}
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if (params3.count <= 0) {
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params3.count += params3.out;
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if (params3.interrupt) {
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IntZ80 (&cpu, 0x16);
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}
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}
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}
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/* returnerer antall sykler mellom hver ut puls på gitt ctc-kanal */
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int getCtc (int c) {
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switch (c) {
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case 0: return params0.out;
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case 1: return params1.out;
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case 2: return params2.out;
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case 3: return params3.out;
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}
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return 0;
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}
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