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Diffstat (limited to 'src/emu/sound/disc_flt.h')
-rw-r--r--src/emu/sound/disc_flt.h180
1 files changed, 90 insertions, 90 deletions
diff --git a/src/emu/sound/disc_flt.h b/src/emu/sound/disc_flt.h
index 3a62857a8b7..a3a69a0fe7f 100644
--- a/src/emu/sound/disc_flt.h
+++ b/src/emu/sound/disc_flt.h
@@ -23,10 +23,10 @@
struct discrete_filter_coeff
{
- double x1, x2; /* x[k-1], x[k-2], previous 2 input values */
- double y1, y2; /* y[k-1], y[k-2], previous 2 output values */
- double a1, a2; /* digital filter coefficients, denominator */
- double b0, b1, b2; /* digital filter coefficients, numerator */
+ double x1, x2; /* x[k-1], x[k-2], previous 2 input values */
+ double y1, y2; /* y[k-1], y[k-2], previous 2 output values */
+ double a1, a2; /* digital filter coefficients, denominator */
+ double b0, b1, b2; /* digital filter coefficients, numerator */
};
@@ -44,134 +44,134 @@ DISCRETE_CLASS_STEP_RESET(dst_sallen_key, 1,
);
DISCRETE_CLASS_STEP_RESET(dst_crfilter, 1,
- double m_vCap;
- double m_rc;
- double m_exponent;
- UINT8 m_has_rc_nodes;
- UINT8 m_is_fast;
+ double m_vCap;
+ double m_rc;
+ double m_exponent;
+ UINT8 m_has_rc_nodes;
+ UINT8 m_is_fast;
);
DISCRETE_CLASS_STEP_RESET(dst_op_amp_filt, 1,
- int m_type; /* What kind of filter */
- int m_is_norton; /* 1 = Norton op-amps */
- double m_vRef;
- double m_vP;
- double m_vN;
- double m_rTotal; /* All input resistance in parallel. */
- double m_iFixed; /* Current supplied by r3 & r4 if used. */
- double m_exponentC1;
- double m_exponentC2;
- double m_exponentC3;
- double m_rRatio; /* divide ratio of resistance network */
- double m_vC1; /* Charge on C1 */
- double m_vC1b; /* Charge on C1, part of C1 charge if needed */
- double m_vC2; /* Charge on C2 */
- double m_vC3; /* Charge on C2 */
- double m_gain; /* Gain of the filter */
+ int m_type; /* What kind of filter */
+ int m_is_norton; /* 1 = Norton op-amps */
+ double m_vRef;
+ double m_vP;
+ double m_vN;
+ double m_rTotal; /* All input resistance in parallel. */
+ double m_iFixed; /* Current supplied by r3 & r4 if used. */
+ double m_exponentC1;
+ double m_exponentC2;
+ double m_exponentC3;
+ double m_rRatio; /* divide ratio of resistance network */
+ double m_vC1; /* Charge on C1 */
+ double m_vC1b; /* Charge on C1, part of C1 charge if needed */
+ double m_vC2; /* Charge on C2 */
+ double m_vC3; /* Charge on C2 */
+ double m_gain; /* Gain of the filter */
struct discrete_filter_coeff m_fc;
);
DISCRETE_CLASS_STEP_RESET(dst_rc_circuit_1, 1,
- double m_v_cap;
- double m_v_charge_1_2;
- double m_v_drop;
- double m_exp_1;
- double m_exp_1_2;
- double m_exp_2;
+ double m_v_cap;
+ double m_v_charge_1_2;
+ double m_v_drop;
+ double m_exp_1;
+ double m_exp_1_2;
+ double m_exp_2;
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc, 1,
- int m_state;
- double m_t; /* time */
- double m_exponent0;
+ int m_state;
+ double m_t; /* time */
+ double m_exponent0;
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc2, 1,
- int m_state;
- double m_v_out;
- double m_t; /* time */
- double m_exponent0;
- double m_exponent1;
+ int m_state;
+ double m_v_out;
+ double m_t; /* time */
+ double m_exponent0;
+ double m_exponent1;
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc3, 1,
- int m_state;
- double m_v_out;
- double m_t; /* time */
- double m_exponent0;
- double m_exponent1;
- double m_v_diode; /* rcdisc3 */
+ int m_state;
+ double m_v_out;
+ double m_t; /* time */
+ double m_exponent0;
+ double m_exponent1;
+ double m_v_diode; /* rcdisc3 */
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc4, 1,
- int m_type;
- double m_max_out;
- double m_vC1;
- double m_v[2];
- double m_exp[2];
+ int m_type;
+ double m_max_out;
+ double m_vC1;
+ double m_v[2];
+ double m_exp[2];
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc5, 1,
- int m_state;
- double m_t; /* time */
- double m_exponent0;
- double m_v_cap; /* rcdisc5 */
+ int m_state;
+ double m_t; /* time */
+ double m_exponent0;
+ double m_v_cap; /* rcdisc5 */
);
DISCRETE_CLASS_STEP_RESET(dst_rcintegrate, 1,
- int m_type;
- double m_gain_r1_r2;
- double m_f; /* r2,r3 gain */
- double m_vCap;
- double m_vCE;
- double m_exponent0;
- double m_exponent1;
- double m_exp_exponent0;
- double m_exp_exponent1;
- double m_c_exp0;
- double m_c_exp1;
- double m_EM_IC_0_7;
+ int m_type;
+ double m_gain_r1_r2;
+ double m_f; /* r2,r3 gain */
+ double m_vCap;
+ double m_vCE;
+ double m_exponent0;
+ double m_exponent1;
+ double m_exp_exponent0;
+ double m_exp_exponent1;
+ double m_c_exp0;
+ double m_c_exp1;
+ double m_EM_IC_0_7;
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc_mod, 1,
- double m_v_cap;
- double m_exp_low[2];
- double m_exp_high[4];
- double m_gain[2];
- double m_vd_gain[4];
+ double m_v_cap;
+ double m_exp_low[2];
+ double m_exp_high[4];
+ double m_gain[2];
+ double m_vd_gain[4];
);
DISCRETE_CLASS_STEP_RESET(dst_rcfilter, 1,
- double m_v_out;
- double m_vCap;
- double m_rc;
- double m_exponent;
- UINT8 m_has_rc_nodes;
- UINT8 m_is_fast;
+ double m_v_out;
+ double m_vCap;
+ double m_rc;
+ double m_exponent;
+ UINT8 m_has_rc_nodes;
+ UINT8 m_is_fast;
);
DISCRETE_CLASS_STEP_RESET(dst_rcfilter_sw, 1,
- double m_vCap[4];
- double m_exp[4];
- double m_exp0; /* fast case bit 0 */
- double m_exp1; /* fast case bit 1 */
- double m_factor; /* fast case */
- double m_f1[16];
- double m_f2[16];
+ double m_vCap[4];
+ double m_exp[4];
+ double m_exp0; /* fast case bit 0 */
+ double m_exp1; /* fast case bit 1 */
+ double m_factor; /* fast case */
+ double m_f1[16];
+ double m_f2[16];
);
DISCRETE_CLASS_STEP_RESET(dst_rcdiscN, 1,
- double m_x1; /* x[k-1], previous input value */
- double m_y1; /* y[k-1], previous output value */
- double m_a1; /* digital filter coefficients, denominator */
- double m_b[2]; /* digital filter coefficients, numerator */
+ double m_x1; /* x[k-1], previous input value */
+ double m_y1; /* y[k-1], previous output value */
+ double m_a1; /* digital filter coefficients, denominator */
+ double m_b[2]; /* digital filter coefficients, numerator */
);
DISCRETE_CLASS_STEP_RESET(dst_rcdisc2N, 1,
struct discrete_filter_coeff m_fc0;
struct discrete_filter_coeff m_fc1;
- double m_x1;
- double m_y1;
+ double m_x1;
+ double m_y1;
);