/* * PicoDrive * (C) notaz, 2009,2010,2013 * * This work is licensed under the terms of MAME license. * See COPYING file in the top-level directory. */ #include "../pico_int.h" static int pwm_cycles; static int pwm_mult; static int pwm_ptr; static int timer_cycles[2]; static int timer_tick_cycles[2]; // timers. This includes PWM timer in 32x and internal SH2 timers void p32x_timers_recalc(void) { int cycles = Pico32x.regs[0x32 / 2]; int tmp, i; cycles = (cycles - 1) & 0x0fff; pwm_cycles = cycles; pwm_mult = 0x10000 / cycles; // SH2 timer step for (i = 0; i < 2; i++) { tmp = PREG8(Pico32xMem->sh2_peri_regs[i], 0x80) & 7; // Sclk cycles per timer tick if (tmp) cycles = 0x20 << tmp; else cycles = 2; timer_tick_cycles[i] = cycles; elprintf(EL_32X, "WDT cycles[%d] = %d", i, cycles); } } #define consume_fifo(cycles) { \ int cycles_diff = (cycles) - Pico32x.pwm_cycle_p; \ if (cycles_diff >= pwm_cycles) \ consume_fifo_do((cycles), cycles_diff); \ } static void consume_fifo_do(unsigned int cycles, int cycles_diff) { if (pwm_cycles == 0) return; elprintf(EL_PWM, "pwm: %u: consume %d/%d, %d,%d ptr %d", cycles, cycles_diff, cycles_diff / pwm_cycles, Pico32x.pwm_p[0], Pico32x.pwm_p[1], pwm_ptr); if (cycles_diff > pwm_cycles * 9) { // silence/skip Pico32x.pwm_cycle_p = cycles; Pico32x.pwm_p[0] = Pico32x.pwm_p[1] = 0; return; } for (; cycles_diff >= pwm_cycles; cycles_diff -= pwm_cycles) { struct Pico32xMem *mem = Pico32xMem; short *fifo_l = mem->pwm_fifo[0]; short *fifo_r = mem->pwm_fifo[1]; if (Pico32x.pwm_p[0] > 0) { fifo_l[0] = fifo_l[1]; fifo_l[1] = fifo_l[2]; fifo_l[2] = fifo_l[3]; Pico32x.pwm_p[0]--; } if (Pico32x.pwm_p[1] > 0) { fifo_r[0] = fifo_r[1]; fifo_r[1] = fifo_r[2]; fifo_r[2] = fifo_r[3]; Pico32x.pwm_p[1]--; } mem->pwm[pwm_ptr * 2 ] = fifo_l[0]; mem->pwm[pwm_ptr * 2 + 1] = fifo_r[0]; pwm_ptr = (pwm_ptr + 1) & (PWM_BUFF_LEN - 1); } Pico32x.pwm_cycle_p = cycles - cycles_diff; } void p32x_timers_do(unsigned int m68k_now, unsigned int m68k_slice) { unsigned int cycles = m68k_slice * 3; int cnt, i; consume_fifo(m68k_now * 3); // WDT timers for (i = 0; i < 2; i++) { void *pregs = Pico32xMem->sh2_peri_regs[i]; if (PREG8(pregs, 0x80) & 0x20) { // TME timer_cycles[i] += cycles; cnt = PREG8(pregs, 0x81); while (timer_cycles[i] >= timer_tick_cycles[i]) { timer_cycles[i] -= timer_tick_cycles[i]; cnt++; } if (cnt >= 0x100) { int level = PREG8(pregs, 0xe3) >> 4; int vector = PREG8(pregs, 0xe4) & 0x7f; elprintf(EL_32X, "%csh2 WDT irq (%d, %d)", i ? 's' : 'm', level, vector); sh2_internal_irq(&sh2s[i], level, vector); cnt &= 0xff; } PREG8(pregs, 0x81) = cnt; } } } static int p32x_pwm_schedule_(void) { int tm; if (Pico32x.emu_flags & P32XF_PWM_PEND) return 0; // already scheduled if (Pico32x.sh2irqs & P32XI_PWM) return 0; // previous not acked if (!((Pico32x.sh2irq_mask[0] | Pico32x.sh2irq_mask[1]) & 1)) return 0; // masked by everyone Pico32x.emu_flags |= P32XF_PWM_PEND; tm = (Pico32x.regs[0x30 / 2] & 0x0f00) >> 8; tm = ((tm - 1) & 0x0f) + 1; return pwm_cycles * tm / 3; } void p32x_pwm_schedule(unsigned int now) { int after = p32x_pwm_schedule_(); if (after != 0) p32x_event_schedule(now, P32X_EVENT_PWM, after); } void p32x_pwm_schedule_sh2(SH2 *sh2) { int after = p32x_pwm_schedule_(); if (after != 0) p32x_event_schedule_sh2(sh2, P32X_EVENT_PWM, after); } unsigned int p32x_pwm_read16(unsigned int a, unsigned int cycles) { unsigned int d = 0; consume_fifo(cycles); a &= 0x0e; switch (a) { case 0: // control case 2: // cycle d = Pico32x.regs[(0x30 + a) / 2]; break; case 4: // L ch if (Pico32x.pwm_p[0] == 3) d |= P32XP_FULL; else if (Pico32x.pwm_p[0] == 0) d |= P32XP_EMPTY; break; case 6: // R ch case 8: // MONO if (Pico32x.pwm_p[1] == 3) d |= P32XP_FULL; else if (Pico32x.pwm_p[1] == 0) d |= P32XP_EMPTY; break; } elprintf(EL_PWM, "pwm: read %02x %04x (p %d %d), c %u", a, d, Pico32x.pwm_p[0], Pico32x.pwm_p[1], cycles); return d; } void p32x_pwm_write16(unsigned int a, unsigned int d, unsigned int cycles) { consume_fifo(cycles); a &= 0x0e; if (a == 0) { // control // supposedly we should stop FIFO when xMd is 0, // but mars test disagrees Pico32x.regs[0x30 / 2] = d; } else if (a == 2) { // cycle Pico32x.regs[0x32 / 2] = d & 0x0fff; p32x_timers_recalc(); Pico32x.pwm_irq_sample_cnt = 0; // resets? } else if (a <= 8) { d = (d - 1) & 0x0fff; if (d > pwm_cycles) d = pwm_cycles; d = (d - pwm_cycles / 2) * pwm_mult; if (a == 4 || a == 8) { // L ch or MONO short *fifo = Pico32xMem->pwm_fifo[0]; if (Pico32x.pwm_p[0] < 3) Pico32x.pwm_p[0]++; else { fifo[1] = fifo[2]; fifo[2] = fifo[3]; } fifo[Pico32x.pwm_p[0]] = d; } if (a == 6 || a == 8) { // R ch or MONO short *fifo = Pico32xMem->pwm_fifo[1]; if (Pico32x.pwm_p[1] < 3) Pico32x.pwm_p[1]++; else { fifo[1] = fifo[2]; fifo[2] = fifo[3]; } fifo[Pico32x.pwm_p[1]] = d; } } } void p32x_pwm_update(int *buf32, int length, int stereo) { short *pwmb; int step; int p = 0; int xmd; xmd = Pico32x.regs[0x30 / 2] & 0x0f; if ((xmd != 0x05 && xmd != 0x0a) || pwm_ptr <= 16) goto out; step = (pwm_ptr << 16) / length; // FIXME: division.. pwmb = Pico32xMem->pwm; if (stereo) { if (xmd == 0x0a) { // channel swap while (length-- > 0) { *buf32++ += pwmb[1]; *buf32++ += pwmb[0]; p += step; pwmb += (p >> 16) * 2; p &= 0xffff; } } else { while (length-- > 0) { *buf32++ += pwmb[0]; *buf32++ += pwmb[1]; p += step; pwmb += (p >> 16) * 2; p &= 0xffff; } } } else { while (length-- > 0) { *buf32++ += pwmb[0]; p += step; pwmb += (p >> 16) * 2; p &= 0xffff; } } elprintf(EL_PWM, "pwm_update: pwm_ptr %d, len %d, step %04x, done %d", pwm_ptr, length, step, (pwmb - Pico32xMem->pwm) / 2); out: pwm_ptr = 0; } // vim:shiftwidth=2:ts=2:expandtab