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//
// PerformImplementation.hpp
// Clock Signal
//
// Created by Thomas Harte on 28/04/2022.
// Copyright © 2022 Thomas Harte. All rights reserved.
//
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# pragma once
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# include "../../../Numeric/Carry.hpp"
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# include "../ExceptionVectors.hpp"
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# include <algorithm>
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# include <cassert>
# include <cmath>
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namespace InstructionSet : : M68k {
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/// Sign-extend @c x to 32 bits and return as an unsigned 32-bit int.
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inline uint32_t u_extend16 ( const uint16_t x ) { return uint32_t ( int16_t ( x ) ) ; }
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/// Sign-extend @c x to 32 bits and return as a signed 32-bit int.
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inline int32_t s_extend16 ( const uint16_t x ) { return int32_t ( int16_t ( x ) ) ; }
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namespace Primitive {
/// Performs an add or subtract (as per @c is_add) between @c source and @c destination,
/// updating @c status. @c is_extend indicates whether this is an extend operation (e.g. ADDX)
/// or a plain one (e.g. ADD).
template < bool is_add , bool is_extend , typename IntT >
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static void add_sub ( const IntT source , IntT & destination , Status & status ) {
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static_assert ( ! std : : numeric_limits < IntT > : : is_signed ) ;
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IntT result = is_add ?
destination + source :
destination - source ;
status . carry_flag = is_add ? result < destination : result > destination ;
// If this is an extend operation, there's a second opportunity to create carry,
// which requires a second test.
if ( is_extend & & status . extend_flag ) {
if constexpr ( is_add ) {
+ + result ;
status . carry_flag | = result = = 0 ;
} else {
status . carry_flag | = result = = 0 ;
- - result ;
}
}
status . extend_flag = status . carry_flag ;
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// Extend operations can reset the zero flag only; non-extend operations
// can either set it or reset it. Which in the reverse-logic world of
// zero_result means ORing or storing.
if constexpr ( is_extend ) {
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status . zero_result | = Status : : FlagT ( result ) ;
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} else {
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status . zero_result = Status : : FlagT ( result ) ;
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}
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status . set_negative ( result ) ;
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status . overflow_flag = Numeric : : overflow < is_add > ( destination , source , result ) ;
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destination = result ;
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}
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/// Perform an SBCD of @c lhs - @c rhs, storing the result to @c destination and updating @c status.
///
/// @discussion The slightly awkward abandonment of source, destination permits the use of this for both
/// SBCD and NBCD.
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inline void sbcd ( const uint8_t rhs , const uint8_t lhs , uint8_t & destination , Status & status ) {
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const int extend = ( status . extend_flag ? 1 : 0 ) ;
const int unadjusted_result = lhs - rhs - extend ;
const int top = ( lhs & 0xf0 ) - ( rhs & 0xf0 ) - ( 0x60 & ( unadjusted_result > > 4 ) ) ;
int result = ( lhs & 0xf ) - ( rhs & 0xf ) - extend ;
const int low_adjustment = 0x06 & ( result > > 4 ) ;
status . extend_flag = status . carry_flag = Status : : FlagT (
( unadjusted_result - low_adjustment ) & 0x300
) ;
result = result + top - low_adjustment ;
/* Store the result. */
destination = uint8_t ( result ) ;
/* Set all remaining flags essentially as if this were normal subtraction. */
status . zero_result | = destination ;
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status . set_negative ( destination ) ;
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status . overflow_flag = unadjusted_result & ~ result & 0x80 ;
}
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/// Perform the bitwise operation defined by @c operation on @c source and @c destination and update @c status.
/// Bitwise operations are any of the byte, word or long versions of AND, OR and EOR.
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template < Operation operation , typename IntT >
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void bitwise ( const IntT source , IntT & destination , Status & status ) {
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static_assert (
operation = = Operation : : ANDb | | operation = = Operation : : ANDw | | operation = = Operation : : ANDl | |
operation = = Operation : : ORb | | operation = = Operation : : ORw | | operation = = Operation : : ORl | |
operation = = Operation : : EORb | | operation = = Operation : : EORw | | operation = = Operation : : EORl
) ;
switch ( operation ) {
case Operation : : ANDb : case Operation : : ANDw : case Operation : : ANDl :
destination & = source ;
break ;
case Operation : : ORb : case Operation : : ORw : case Operation : : ORl :
destination | = source ;
break ;
case Operation : : EORb : case Operation : : EORw : case Operation : : EORl :
destination ^ = source ;
break ;
}
status . overflow_flag = status . carry_flag = 0 ;
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status . set_neg_zero ( destination ) ;
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}
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/// Compare of @c source to @c destination, setting zero, carry, negative and overflow flags.
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template < typename IntT >
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void compare ( const IntT source , const IntT destination , Status & status ) {
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const IntT result = destination - source ;
status . carry_flag = result > destination ;
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status . set_neg_zero ( result ) ;
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status . overflow_flag = Numeric : : overflow < false > ( destination , source , result ) ;
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}
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/// @returns the name of the bit to be used as a mask for BCLR, BCHG, BSET or BTST for
/// @c instruction given @c source.
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inline uint32_t mask_bit ( const Preinstruction & instruction , const uint32_t source ) {
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return source & ( instruction . mode < 1 > ( ) = = AddressingMode : : DataRegisterDirect ? 31 : 7 ) ;
}
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/// Perform a BCLR, BCHG or BSET as specified by @c operation and described by @c instruction, @c source and @c destination, updating @c destination and @c status.
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/// Also makes an appropriate notification to the @c flow_controller.
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template < Operation operation , typename FlowController >
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void bit_manipulate ( const Preinstruction & instruction , const uint32_t source , uint32_t & destination , Status & status , FlowController & flow_controller ) {
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static_assert (
operation = = Operation : : BCLR | |
operation = = Operation : : BCHG | |
operation = = Operation : : BSET ) ;
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const auto bit = mask_bit ( instruction , source ) ;
status . zero_result = destination & ( 1 < < bit ) ;
switch ( operation ) {
case Operation : : BCLR : destination & = ~ ( 1 < < bit ) ; break ;
case Operation : : BCHG : destination ^ = ( 1 < < bit ) ; break ;
case Operation : : BSET : destination | = ( 1 < < bit ) ; break ;
}
flow_controller . did_bit_op ( int ( bit ) ) ;
}
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/// Sets @c destination to 0, clears the overflow, carry and negative flags, sets the zero flag.
template < typename IntT > void clear ( IntT & destination , Status & status ) {
destination = 0 ;
status . negative_flag = status . overflow_flag = status . carry_flag = status . zero_result = 0 ;
}
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/// Perform an ANDI, EORI or ORI to either SR or CCR, notifying @c flow_controller if appropriate.
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template < Operation operation , typename FlowController >
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void apply_sr_ccr ( const uint16_t source , Status & status , FlowController & flow_controller ) {
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static_assert (
operation = = Operation : : ANDItoSR | | operation = = Operation : : ANDItoCCR | |
operation = = Operation : : EORItoSR | | operation = = Operation : : EORItoCCR | |
operation = = Operation : : ORItoSR | | operation = = Operation : : ORItoCCR
) ;
auto sr = status . status ( ) ;
switch ( operation ) {
case Operation : : ANDItoSR : case Operation : : ANDItoCCR :
sr & = source ;
break ;
case Operation : : EORItoSR : case Operation : : EORItoCCR :
sr ^ = source ;
break ;
case Operation : : ORItoSR : case Operation : : ORItoCCR :
sr | = source ;
break ;
}
switch ( operation ) {
case Operation : : ANDItoSR :
case Operation : : EORItoSR :
case Operation : : ORItoSR :
status . set_status ( sr ) ;
flow_controller . did_update_status ( ) ;
break ;
case Operation : : ANDItoCCR :
case Operation : : EORItoCCR :
case Operation : : ORItoCCR :
status . set_ccr ( sr ) ;
break ;
}
}
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/// Perform a MULU or MULS between @c source and @c destination, updating @c status and notifying @c flow_controller.
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template < bool is_mulu , typename FlowController >
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void multiply ( const uint16_t source , uint32_t & destination , Status & status , FlowController & flow_controller ) {
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if constexpr ( is_mulu ) {
destination = source * uint16_t ( destination ) ;
} else {
destination = u_extend16 ( source ) * u_extend16 ( uint16_t ( destination ) ) ;
}
status . carry_flag = status . overflow_flag = 0 ;
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status . set_neg_zero ( destination ) ;
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if constexpr ( is_mulu ) {
flow_controller . did_mulu ( source ) ;
} else {
flow_controller . did_muls ( source ) ;
}
}
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/// Announce a DIVU or DIVS to @c flow_controller.
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template < bool is_divu , bool did_overflow , typename IntT , typename FlowController >
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void did_divide ( const IntT dividend , const IntT divisor , FlowController & flow_controller ) {
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if constexpr ( is_divu ) {
flow_controller . template did_divu < did_overflow > ( dividend , divisor ) ;
} else {
flow_controller . template did_divs < did_overflow > ( dividend , divisor ) ;
}
}
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/// Perform a DIVU or DIVS between @c source and @c destination, updating @c status and notifying @c flow_controller.
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template < bool is_divu , typename Int16 , typename Int32 , typename FlowController >
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void divide ( const uint16_t source , uint32_t & destination , Status & status , FlowController & flow_controller ) {
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status . carry_flag = 0 ;
const auto dividend = Int32 ( destination ) ;
const auto divisor = Int32 ( Int16 ( source ) ) ;
if ( ! divisor ) {
status . negative_flag = status . overflow_flag = 0 ;
status . zero_result = 1 ;
flow_controller . raise_exception ( Exception : : IntegerDivideByZero ) ;
did_divide < is_divu , false > ( dividend , divisor , flow_controller ) ;
return ;
}
const auto quotient = int64_t ( dividend ) / int64_t ( divisor ) ;
if ( quotient ! = Int32 ( Int16 ( quotient ) ) ) {
status . overflow_flag = 1 ;
did_divide < is_divu , true > ( dividend , divisor , flow_controller ) ;
return ;
}
const auto remainder = Int16 ( dividend % divisor ) ;
destination = uint32_t ( ( uint32_t ( remainder ) < < 16 ) | uint16_t ( quotient ) ) ;
status . overflow_flag = 0 ;
status . zero_result = Status : : FlagT ( quotient ) ;
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status . set_negative ( uint16_t ( quotient ) ) ;
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did_divide < is_divu , false > ( dividend , divisor , flow_controller ) ;
}
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/// Move @c source to @c destination, updating @c status.
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template < typename IntT > void move ( const IntT source , IntT & destination , Status & status ) {
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destination = source ;
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status . set_neg_zero ( destination ) ;
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status . overflow_flag = status . carry_flag = 0 ;
}
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/// Perform NEG.[b/l/w] on @c source, updating @c status.
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template < bool is_extend , typename IntT > void negative ( IntT & source , Status & status ) {
const IntT result = - source - ( is_extend & & status . extend_flag ? 1 : 0 ) ;
if constexpr ( is_extend ) {
status . zero_result | = result ;
} else {
status . zero_result = result ;
}
status . extend_flag = status . carry_flag = result ; // i.e. any value other than 0 will result in carry.
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status . set_negative ( result ) ;
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status . overflow_flag = Numeric : : overflow < false > ( IntT ( 0 ) , source , result ) ;
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source = result ;
}
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/// Perform TST.[b/l/w] with @c source, updating @c status.
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template < typename IntT > void test ( const IntT source , Status & status ) {
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status . carry_flag = status . overflow_flag = 0 ;
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status . set_neg_zero ( source ) ;
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}
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/// Decodes the proper shift distance from @c source, notifying the @c flow_controller.
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template < typename IntT , typename FlowController > int shift_count ( const uint8_t source , FlowController & flow_controller ) {
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const int count = source & 63 ;
flow_controller . template did_shift < IntT > ( count ) ;
return count ;
}
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/// Perform an arithmetic or logical shift, i.e. any of LSL, LSR, ASL or ASR.
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template < Operation operation , typename IntT , typename FlowController > void shift ( const uint32_t source , IntT & destination , Status & status , FlowController & flow_controller ) {
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static_assert (
operation = = Operation : : ASLb | | operation = = Operation : : ASLw | | operation = = Operation : : ASLl | |
operation = = Operation : : ASRb | | operation = = Operation : : ASRw | | operation = = Operation : : ASRl | |
operation = = Operation : : LSLb | | operation = = Operation : : LSLw | | operation = = Operation : : LSLl | |
operation = = Operation : : LSRb | | operation = = Operation : : LSRw | | operation = = Operation : : LSRl
) ;
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constexpr auto size = Numeric : : bit_size < IntT > ( ) ;
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const auto shift = shift_count < IntT > ( uint8_t ( source ) , flow_controller ) ;
if ( ! shift ) {
status . carry_flag = status . overflow_flag = 0 ;
} else {
enum class Type {
ASL , LSL , ASR , LSR
} type ;
switch ( operation ) {
case Operation : : ASLb : case Operation : : ASLw : case Operation : : ASLl :
type = Type : : ASL ;
break ;
case Operation : : LSLb : case Operation : : LSLw : case Operation : : LSLl :
type = Type : : LSL ;
break ;
case Operation : : ASRb : case Operation : : ASRw : case Operation : : ASRl :
type = Type : : ASR ;
break ;
case Operation : : LSRb : case Operation : : LSRw : case Operation : : LSRl :
type = Type : : LSR ;
break ;
}
switch ( type ) {
case Type : : ASL :
case Type : : LSL :
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if ( shift > size ) {
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status . carry_flag = status . extend_flag = 0 ;
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} else {
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status . carry_flag = status . extend_flag = ( destination < < ( shift - 1 ) ) & Numeric : : top_bit < IntT > ( ) ;
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}
if ( type = = Type : : LSL ) {
status . overflow_flag = 0 ;
} else {
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// Overflow records whether the top bit changed at any point during the operation.
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if ( shift > = size ) {
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// The result is going to be all bits evacuated through the top giving a net
// result of 0, so overflow is set if any bit was originally set.
status . overflow_flag = destination ;
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} else {
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// For a shift of n places, overflow will be set if the top n+1 bits were not
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// all the same value.
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const auto affected_bits = IntT (
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~ ( ( Numeric : : top_bit < IntT > ( ) > > shift ) - 1 )
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) ; // e.g. shift = 1 => ~((0x80 >> 1) - 1) = ~(0x40 - 1) = ~0x3f = 0xc0, i.e. if shift is
// 1 then the top two bits are relevant to whether there was overflow. If they have the
// same value, i.e. are both 0 or are both 1, then there wasn't. Otherwise there was.
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status . overflow_flag = ( destination & affected_bits ) & & ( destination & affected_bits ) ! = affected_bits ;
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}
}
if ( shift > = size ) {
destination = 0 ;
} else {
destination < < = shift ;
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}
break ;
case Type : : ASR :
case Type : : LSR : {
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if ( shift > size ) {
status . carry_flag = status . extend_flag = 0 ;
} else {
status . carry_flag = status . extend_flag = ( destination > > ( shift - 1 ) ) & 1 ;
}
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status . overflow_flag = 0 ; // The top bit can't change during an ASR, and LSR always clears overflow.
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const IntT sign_word =
type = = Type : : LSR ?
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0 : ( destination & Numeric : : top_bit < IntT > ( ) ? IntT ( ~ 0 ) : 0 ) ;
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if ( shift > = size ) {
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destination = sign_word ;
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} else {
destination = IntT ( ( destination > > shift ) | ( sign_word < < ( size - shift ) ) ) ;
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}
} break ;
}
}
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status . set_neg_zero ( destination ) ;
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}
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/// Perform a rotate without extend, i.e. any of RO[L/R].[b/w/l].
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template < Operation operation , typename IntT , typename FlowController > void rotate ( const uint32_t source , IntT & destination , Status & status , FlowController & flow_controller ) {
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static_assert (
operation = = Operation : : ROLb | | operation = = Operation : : ROLw | | operation = = Operation : : ROLl | |
operation = = Operation : : RORb | | operation = = Operation : : RORw | | operation = = Operation : : RORl
) ;
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constexpr auto size = Numeric : : bit_size < IntT > ( ) ;
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auto shift = shift_count < IntT > ( uint8_t ( source ) , flow_controller ) ;
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if ( ! shift ) {
status . carry_flag = 0 ;
} else {
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shift & = size - 1 ;
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switch ( operation ) {
case Operation : : ROLb : case Operation : : ROLw : case Operation : : ROLl :
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if ( shift ) {
destination = IntT (
( destination < < shift ) |
( destination > > ( size - shift ) )
) ;
}
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status . carry_flag = Status : : FlagT ( destination & 1 ) ;
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break ;
case Operation : : RORb : case Operation : : RORw : case Operation : : RORl :
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if ( shift ) {
destination = IntT (
( destination > > shift ) |
( destination < < ( size - shift ) )
) ;
}
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status . carry_flag = Status : : FlagT ( destination & Numeric : : top_bit < IntT > ( ) ) ;
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break ;
}
}
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status . set_neg_zero ( destination ) ;
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status . overflow_flag = 0 ;
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}
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/// Perform a rotate-through-extend, i.e. any of ROX[L/R].[b/w/l].
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template < Operation operation , typename IntT , typename FlowController > void rox ( const uint32_t source , IntT & destination , Status & status , FlowController & flow_controller ) {
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static_assert (
operation = = Operation : : ROXLb | | operation = = Operation : : ROXLw | | operation = = Operation : : ROXLl | |
operation = = Operation : : ROXRb | | operation = = Operation : : ROXRw | | operation = = Operation : : ROXRl
) ;
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constexpr auto size = Numeric : : bit_size < IntT > ( ) ;
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auto shift = shift_count < IntT > ( uint8_t ( source ) , flow_controller ) % ( size + 1 ) ;
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if ( ! shift ) {
// When shift is zero, extend is unaffected but is copied to carry.
status . carry_flag = status . extend_flag ;
} else {
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switch ( operation ) {
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case Operation : : ROXLb : case Operation : : ROXLw : case Operation : : ROXLl :
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status . carry_flag = Status : : FlagT ( ( destination > > ( size - shift ) ) & 1 ) ;
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if ( shift = = Numeric : : bit_size < IntT > ( ) ) {
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destination = IntT (
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( status . extend_flag ? Numeric : : top_bit < IntT > ( ) : 0 ) |
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( destination > > 1 )
) ;
} else if ( shift = = 1 ) {
destination = IntT (
( destination < < 1 ) |
IntT ( status . extend_flag ? 1 : 0 )
) ;
} else {
destination = IntT (
( destination < < shift ) |
( IntT ( status . extend_flag ? 1 : 0 ) < < ( shift - 1 ) ) |
( destination > > ( size + 1 - shift ) )
) ;
}
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status . extend_flag = status . carry_flag ;
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break ;
case Operation : : ROXRb : case Operation : : ROXRw : case Operation : : ROXRl :
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status . carry_flag = Status : : FlagT ( destination & ( 1 < < ( shift - 1 ) ) ) ;
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if ( shift = = Numeric : : bit_size < IntT > ( ) ) {
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destination = IntT (
( status . extend_flag ? 1 : 0 ) |
( destination < < 1 )
) ;
} else if ( shift = = 1 ) {
destination = IntT (
( destination > > 1 ) |
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( status . extend_flag ? Numeric : : top_bit < IntT > ( ) : 0 )
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) ;
} else {
destination = IntT (
( destination > > shift ) |
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( ( status . extend_flag ? Numeric : : top_bit < IntT > ( ) : 0 ) > > ( shift - 1 ) ) |
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( destination < < ( size + 1 - shift ) )
) ;
}
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status . extend_flag = status . carry_flag ;
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break ;
}
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}
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status . set_neg_zero ( destination ) ;
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status . overflow_flag = 0 ;
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}
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}
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template <
Model model ,
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typename FlowController ,
Operation operation = Operation : : Undefined
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> void perform ( const Preinstruction instruction , CPU : : SlicedInt32 & src , CPU : : SlicedInt32 & dest , Status & status , FlowController & flow_controller ) {
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switch ( ( operation ! = Operation : : Undefined ) ? operation : instruction . operation ) {
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/*
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ABCD adds the lowest bytes from the source and destination using BCD arithmetic ,
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obeying the extend flag .
*/
case Operation : : ABCD : {
// Pull out the two halves, for simplicity.
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const uint8_t source = src . b ;
const uint8_t destination = dest . b ;
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const int extend = ( status . extend_flag ? 1 : 0 ) ;
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// Perform the BCD add by evaluating the two nibbles separately.
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const int unadjusted_result = destination + source + extend ;
int result = ( destination & 0xf ) + ( source & 0xf ) + extend ;
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result + =
( destination & 0xf0 ) +
( source & 0xf0 ) +
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( ( ( 9 - result ) > > 4 ) & 0x06 ) ; // i.e. ((result > 0x09) ? 0x06 : 0x00)
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result + = ( ( 0x9f - result ) > > 4 ) & 0x60 ; // i.e. ((result > 0x9f) ? 0x60 : 0x00)
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// Set all flags essentially as if this were normal addition.
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status . zero_result | = result & 0xff ;
status . extend_flag = status . carry_flag = uint_fast32_t ( result & ~ 0xff ) ;
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status . set_negative ( uint8_t ( result ) ) ;
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status . overflow_flag = ~ unadjusted_result & result & 0x80 ;
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// Store the result.
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dest . b = uint8_t ( result ) ;
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} break ;
// ADD and ADDA add two quantities, the latter sign extending and without setting any flags;
// ADDQ and SUBQ act as ADD and SUB, but taking the second argument from the instruction code.
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case Operation : : ADDb : Primitive : : add_sub < true , false > ( src . b , dest . b , status ) ; break ;
case Operation : : SUBb : Primitive : : add_sub < false , false > ( src . b , dest . b , status ) ; break ;
case Operation : : ADDXb : Primitive : : add_sub < true , true > ( src . b , dest . b , status ) ; break ;
case Operation : : SUBXb : Primitive : : add_sub < false , true > ( src . b , dest . b , status ) ; break ;
case Operation : : ADDw : Primitive : : add_sub < true , false > ( src . w , dest . w , status ) ; break ;
case Operation : : SUBw : Primitive : : add_sub < false , false > ( src . w , dest . w , status ) ; break ;
case Operation : : ADDXw : Primitive : : add_sub < true , true > ( src . w , dest . w , status ) ; break ;
case Operation : : SUBXw : Primitive : : add_sub < false , true > ( src . w , dest . w , status ) ; break ;
case Operation : : ADDl : Primitive : : add_sub < true , false > ( src . l , dest . l , status ) ; break ;
case Operation : : SUBl : Primitive : : add_sub < false , false > ( src . l , dest . l , status ) ; break ;
case Operation : : ADDXl : Primitive : : add_sub < true , true > ( src . l , dest . l , status ) ; break ;
case Operation : : SUBXl : Primitive : : add_sub < false , true > ( src . l , dest . l , status ) ; break ;
case Operation : : ADDAw : dest . l + = u_extend16 ( src . w ) ; break ;
case Operation : : ADDAl : dest . l + = src . l ; break ;
case Operation : : SUBAw : dest . l - = u_extend16 ( src . w ) ; break ;
case Operation : : SUBAl : dest . l - = src . l ; break ;
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// BTST/BCLR/etc: modulo for the mask depends on whether memory or a data register is the target.
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case Operation : : BTST :
status . zero_result = dest . l & ( 1 < < Primitive : : mask_bit ( instruction , src . l ) ) ;
break ;
case Operation : : BCLR : Primitive : : bit_manipulate < Operation : : BCLR > ( instruction , src . l , dest . l , status , flow_controller ) ; break ;
case Operation : : BCHG : Primitive : : bit_manipulate < Operation : : BCHG > ( instruction , src . l , dest . l , status , flow_controller ) ; break ;
case Operation : : BSET : Primitive : : bit_manipulate < Operation : : BSET > ( instruction , src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : Bccb :
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flow_controller . template complete_bcc < int8_t > (
status . evaluate_condition ( instruction . condition ( ) ) ,
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int8_t ( src . b ) ) ;
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break ;
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case Operation : : Bccw :
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flow_controller . template complete_bcc < int16_t > (
status . evaluate_condition ( instruction . condition ( ) ) ,
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int16_t ( src . w ) ) ;
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break ;
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case Operation : : Bccl :
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flow_controller . template complete_bcc < int32_t > (
status . evaluate_condition ( instruction . condition ( ) ) ,
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int32_t ( src . l ) ) ;
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break ;
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case Operation : : BSRb :
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flow_controller . bsr ( uint32_t ( int8_t ( src . b ) ) ) ;
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break ;
case Operation : : BSRw :
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flow_controller . bsr ( uint32_t ( int16_t ( src . w ) ) ) ;
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break ;
case Operation : : BSRl :
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flow_controller . bsr ( src . l ) ;
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break ;
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case Operation : : DBcc : {
const bool matched_condition = status . evaluate_condition ( instruction . condition ( ) ) ;
bool overflowed = false ;
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// Classify the dbcc.
if ( ! matched_condition ) {
- - src . w ;
overflowed = src . w = = 0xffff ;
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}
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// Take the branch.
flow_controller . complete_dbcc (
matched_condition ,
overflowed ,
int16_t ( dest . w ) ) ;
} break ;
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case Operation : : Scc : {
const bool condition = status . evaluate_condition ( instruction . condition ( ) ) ;
src . b = condition ? 0xff : 0x00 ;
flow_controller . did_scc ( condition ) ;
} break ;
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/*
CLRs : store 0 to the destination , set the zero flag , and clear
negative , overflow and carry .
*/
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case Operation : : CLRb : Primitive : : clear ( src . b , status ) ; break ;
case Operation : : CLRw : Primitive : : clear ( src . w , status ) ; break ;
case Operation : : CLRl : Primitive : : clear ( src . l , status ) ; break ;
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/*
CMP . b , CMP . l and CMP . w : sets the condition flags ( other than extend ) based on a subtraction
of the source from the destination ; the result of the subtraction is not stored .
*/
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case Operation : : CMPb : Primitive : : compare ( src . b , dest . b , status ) ; break ;
case Operation : : CMPw : Primitive : : compare ( src . w , dest . w , status ) ; break ;
case Operation : : CMPAw : Primitive : : compare ( u_extend16 ( src . w ) , dest . l , status ) ; break ;
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case Operation : : CMPAl :
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case Operation : : CMPl : Primitive : : compare ( src . l , dest . l , status ) ; break ;
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// JMP: copies EA(0) to the program counter.
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case Operation : : JMP :
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flow_controller . jmp ( src . l ) ;
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break ;
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// JSR: jump to EA(0), pushing the current PC to the stack.
case Operation : : JSR :
flow_controller . jsr ( src . l ) ;
break ;
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/*
MOVE . b , MOVE . l and MOVE . w : move the least significant byte or word , or the entire long word ,
and set negative , zero , overflow and carry as appropriate .
*/
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case Operation : : MOVEb : Primitive : : move ( src . b , dest . b , status ) ; break ;
case Operation : : MOVEw : Primitive : : move ( src . w , dest . w , status ) ; break ;
case Operation : : MOVEl : Primitive : : move ( src . l , dest . l , status ) ; break ;
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/*
MOVEA . l : move the entire long word ;
MOVEA . w : move the least significant word and sign extend it .
Neither sets any flags .
*/
case Operation : : MOVEAw :
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dest . l = u_extend16 ( src . w ) ;
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break ;
case Operation : : MOVEAl :
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dest . l = src . l ;
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break ;
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case Operation : : LEA :
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dest . l = src . l ;
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break ;
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case Operation : : PEA :
flow_controller . pea ( src . l ) ;
break ;
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/*
Status word moves and manipulations .
*/
case Operation : : MOVEtoSR :
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status . set_status ( src . w ) ;
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flow_controller . did_update_status ( ) ;
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break ;
case Operation : : MOVEfromSR :
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src . w = status . status ( ) ;
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break ;
case Operation : : MOVEtoCCR :
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status . set_ccr ( src . w ) ;
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break ;
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case Operation : : MOVEtoUSP :
flow_controller . move_to_usp ( src . l ) ;
break ;
case Operation : : MOVEfromUSP :
flow_controller . move_from_usp ( src . l ) ;
break ;
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case Operation : : EXTbtow :
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src . w = uint16_t ( int8_t ( src . b ) ) ;
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status . overflow_flag = status . carry_flag = 0 ;
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status . set_neg_zero ( src . w ) ;
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break ;
case Operation : : EXTwtol :
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src . l = u_extend16 ( src . w ) ;
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status . overflow_flag = status . carry_flag = 0 ;
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status . set_neg_zero ( src . l ) ;
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break ;
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case Operation : : ANDItoSR : Primitive : : apply_sr_ccr < Operation : : ANDItoSR > ( src . w , status , flow_controller ) ; break ;
case Operation : : EORItoSR : Primitive : : apply_sr_ccr < Operation : : EORItoSR > ( src . w , status , flow_controller ) ; break ;
case Operation : : ORItoSR : Primitive : : apply_sr_ccr < Operation : : ORItoSR > ( src . w , status , flow_controller ) ; break ;
case Operation : : ANDItoCCR : Primitive : : apply_sr_ccr < Operation : : ANDItoCCR > ( src . w , status , flow_controller ) ; break ;
case Operation : : EORItoCCR : Primitive : : apply_sr_ccr < Operation : : EORItoCCR > ( src . w , status , flow_controller ) ; break ;
case Operation : : ORItoCCR : Primitive : : apply_sr_ccr < Operation : : ORItoCCR > ( src . w , status , flow_controller ) ; break ;
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/*
Multiplications .
*/
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case Operation : : MULUw : Primitive : : multiply < true > ( src . w , dest . l , status , flow_controller ) ; break ;
case Operation : : MULSw : Primitive : : multiply < false > ( src . w , dest . l , status , flow_controller ) ; break ;
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/*
Divisions .
*/
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case Operation : : DIVUw : Primitive : : divide < true , uint16_t , uint32_t > ( src . w , dest . l , status , flow_controller ) ; break ;
case Operation : : DIVSw : Primitive : : divide < false , int16_t , int32_t > ( src . w , dest . l , status , flow_controller ) ; break ;
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// TRAP, which is a nicer form of ILLEGAL.
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case Operation : : TRAP :
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flow_controller . template raise_exception < false > ( int ( src . l + Exception : : TrapBase ) ) ;
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break ;
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case Operation : : TRAPV : {
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if ( status . overflow_flag ) {
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flow_controller . template raise_exception < false > ( Exception : : TRAPV ) ;
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}
} break ;
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case Operation : : CHKw : {
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const bool is_under = s_extend16 ( dest . w ) < 0 ;
const bool is_over = s_extend16 ( dest . w ) > s_extend16 ( src . w ) ;
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status . overflow_flag = status . carry_flag = 0 ;
status . zero_result = dest . w ;
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// Test applied for N:
//
// if Dn < 0, set negative flag;
// otherwise, if Dn > <ea>, reset negative flag.
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if ( is_over ) status . negative_flag = 0 ;
if ( is_under ) status . negative_flag = 1 ;
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// No exception is the default course of action; deviate only if an
// exception is necessary.
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flow_controller . did_chk ( is_under , is_over ) ;
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if ( is_under | | is_over ) {
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flow_controller . template raise_exception < false > ( Exception : : CHK ) ;
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}
} break ;
/*
NEGs : negatives the destination , setting the zero ,
negative , overflow and carry flags appropriate , and extend .
NB : since the same logic as SUB is used to calculate overflow ,
and SUB calculates ` destination - source ` , the NEGs deliberately
label ' source ' and ' destination ' differently from Motorola .
*/
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case Operation : : NEGb : Primitive : : negative < false > ( src . b , status ) ; break ;
case Operation : : NEGw : Primitive : : negative < false > ( src . w , status ) ; break ;
case Operation : : NEGl : Primitive : : negative < false > ( src . l , status ) ; break ;
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/*
NEGXs : NEG , with extend .
*/
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case Operation : : NEGXb : Primitive : : negative < true > ( src . b , status ) ; break ;
case Operation : : NEGXw : Primitive : : negative < true > ( src . w , status ) ; break ;
case Operation : : NEGXl : Primitive : : negative < true > ( src . l , status ) ; break ;
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/*
The no - op .
*/
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case Operation : : NOP : break ;
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/*
LINK and UNLINK help with stack frames , allowing a certain
amount of stack space to be allocated or deallocated .
*/
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case Operation : : LINKw :
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flow_controller . link ( instruction , uint32_t ( int16_t ( dest . w ) ) ) ;
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break ;
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case Operation : : UNLINK :
flow_controller . unlink ( src . l ) ;
break ;
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/*
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TAS : requiring a specialised bus cycle , just kick this out to the flow controller .
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*/
case Operation : : TAS :
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flow_controller . tas ( instruction , src . l ) ;
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break ;
/*
Bitwise operators : AND , OR and EOR . All three clear the overflow and carry flags ,
and set zero and negative appropriately .
*/
2022-10-17 19:21:54 +00:00
case Operation : : ANDb : Primitive : : bitwise < Operation : : ANDb > ( src . b , dest . b , status ) ; break ;
case Operation : : ANDw : Primitive : : bitwise < Operation : : ANDw > ( src . w , dest . w , status ) ; break ;
case Operation : : ANDl : Primitive : : bitwise < Operation : : ANDl > ( src . l , dest . l , status ) ; break ;
case Operation : : ORb : Primitive : : bitwise < Operation : : ORb > ( src . b , dest . b , status ) ; break ;
case Operation : : ORw : Primitive : : bitwise < Operation : : ORw > ( src . w , dest . w , status ) ; break ;
case Operation : : ORl : Primitive : : bitwise < Operation : : ORl > ( src . l , dest . l , status ) ; break ;
case Operation : : EORb : Primitive : : bitwise < Operation : : EORb > ( src . b , dest . b , status ) ; break ;
case Operation : : EORw : Primitive : : bitwise < Operation : : EORw > ( src . w , dest . w , status ) ; break ;
case Operation : : EORl : Primitive : : bitwise < Operation : : EORl > ( src . l , dest . l , status ) ; break ;
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case Operation : : NOTb : Primitive : : bitwise < Operation : : EORb > ( uint8_t ( ~ 0 ) , src . b , status ) ; break ;
case Operation : : NOTw : Primitive : : bitwise < Operation : : EORw > ( uint16_t ( ~ 0 ) , src . w , status ) ; break ;
case Operation : : NOTl : Primitive : : bitwise < Operation : : EORl > ( uint32_t ( ~ 0 ) , src . l , status ) ; break ;
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/*
SBCD subtracts the lowest byte of the source from that of the destination using
BCD arithmetic , obeying the extend flag .
*/
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case Operation : : SBCD :
Primitive : : sbcd ( src . b , dest . b , dest . b , status ) ;
break ;
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/*
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NBCD is like SBCD except that the result is 0 - source rather than
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destination - source .
*/
2022-10-17 19:12:38 +00:00
case Operation : : NBCD :
Primitive : : sbcd ( src . b , 0 , src . b , status ) ;
break ;
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// EXG and SWAP exchange/swap words or long words.
case Operation : : EXG : {
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const auto temporary = src . l ;
src . l = dest . l ;
dest . l = temporary ;
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} break ;
case Operation : : SWAP : {
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uint16_t * const words = reinterpret_cast < uint16_t * > ( & src . l ) ;
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std : : swap ( words [ 0 ] , words [ 1 ] ) ;
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status . set_neg_zero ( src . l ) ;
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status . overflow_flag = status . carry_flag = 0 ;
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} break ;
/*
Shifts and rotates .
*/
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case Operation : : ASLm :
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status . extend_flag = status . carry_flag = src . w & Numeric : : top_bit < uint16_t > ( ) ;
status . overflow_flag = ( src . w ^ ( src . w < < 1 ) ) & Numeric : : top_bit < uint16_t > ( ) ;
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src . w < < = 1 ;
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status . set_neg_zero ( src . w ) ;
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break ;
case Operation : : LSLm :
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status . extend_flag = status . carry_flag = src . w & Numeric : : top_bit < uint16_t > ( ) ;
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status . overflow_flag = 0 ;
src . w < < = 1 ;
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status . set_neg_zero ( src . w ) ;
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break ;
case Operation : : ASRm :
status . extend_flag = status . carry_flag = src . w & 1 ;
status . overflow_flag = 0 ;
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src . w = ( src . w & Numeric : : top_bit < uint16_t > ( ) ) | ( src . w > > 1 ) ;
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status . set_neg_zero ( src . w ) ;
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break ;
case Operation : : LSRm :
status . extend_flag = status . carry_flag = src . w & 1 ;
status . overflow_flag = 0 ;
src . w > > = 1 ;
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status . set_neg_zero ( src . w ) ;
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break ;
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case Operation : : ROLm :
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src . w = uint16_t ( ( src . w < < 1 ) | ( src . w > > 15 ) ) ;
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status . carry_flag = src . w & 0x0001 ;
status . overflow_flag = 0 ;
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status . set_neg_zero ( src . w ) ;
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break ;
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case Operation : : RORm :
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src . w = uint16_t ( ( src . w > > 1 ) | ( src . w < < 15 ) ) ;
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status . carry_flag = src . w & Numeric : : top_bit < uint16_t > ( ) ;
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status . overflow_flag = 0 ;
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status . set_neg_zero ( src . w ) ;
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break ;
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case Operation : : ROXLm :
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status . carry_flag = src . w & Numeric : : top_bit < uint16_t > ( ) ;
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src . w = uint16_t ( ( src . w < < 1 ) | ( status . extend_flag ? 0x0001 : 0x0000 ) ) ;
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status . extend_flag = status . carry_flag ;
status . overflow_flag = 0 ;
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status . set_neg_zero ( src . w ) ;
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break ;
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case Operation : : ROXRm :
status . carry_flag = src . w & 0x0001 ;
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src . w = uint16_t ( ( src . w > > 1 ) | ( status . extend_flag ? 0x8000 : 0x0000 ) ) ;
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status . extend_flag = status . carry_flag ;
status . overflow_flag = 0 ;
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status . set_neg_zero ( src . w ) ;
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break ;
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case Operation : : ASLb : Primitive : : shift < Operation : : ASLb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : ASLw : Primitive : : shift < Operation : : ASLw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : ASLl : Primitive : : shift < Operation : : ASLl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : ASRb : Primitive : : shift < Operation : : ASRb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : ASRw : Primitive : : shift < Operation : : ASRw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : ASRl : Primitive : : shift < Operation : : ASRl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : LSLb : Primitive : : shift < Operation : : LSLb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : LSLw : Primitive : : shift < Operation : : LSLw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : LSLl : Primitive : : shift < Operation : : LSLl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : LSRb : Primitive : : shift < Operation : : LSRb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : LSRw : Primitive : : shift < Operation : : LSRw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : LSRl : Primitive : : shift < Operation : : LSRl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : ROLb : Primitive : : rotate < Operation : : ROLb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : ROLw : Primitive : : rotate < Operation : : ROLw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : ROLl : Primitive : : rotate < Operation : : ROLl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : RORb : Primitive : : rotate < Operation : : RORb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : RORw : Primitive : : rotate < Operation : : RORw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : RORl : Primitive : : rotate < Operation : : RORl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : ROXLb : Primitive : : rox < Operation : : ROXLb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : ROXLw : Primitive : : rox < Operation : : ROXLw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : ROXLl : Primitive : : rox < Operation : : ROXLl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : ROXRb : Primitive : : rox < Operation : : ROXRb > ( src . l , dest . b , status , flow_controller ) ; break ;
case Operation : : ROXRw : Primitive : : rox < Operation : : ROXRw > ( src . l , dest . w , status , flow_controller ) ; break ;
case Operation : : ROXRl : Primitive : : rox < Operation : : ROXRl > ( src . l , dest . l , status , flow_controller ) ; break ;
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case Operation : : MOVEPl :
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flow_controller . template movep < uint32_t > ( instruction , src . l , dest . l ) ;
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break ;
case Operation : : MOVEPw :
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flow_controller . template movep < uint16_t > ( instruction , src . l , dest . l ) ;
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break ;
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case Operation : : MOVEMtoRl :
flow_controller . template movem_toR < uint32_t > ( instruction , src . l , dest . l ) ;
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break ;
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case Operation : : MOVEMtoMl :
flow_controller . template movem_toM < uint32_t > ( instruction , src . l , dest . l ) ;
break ;
case Operation : : MOVEMtoRw :
flow_controller . template movem_toR < uint16_t > ( instruction , src . l , dest . l ) ;
break ;
case Operation : : MOVEMtoMw :
flow_controller . template movem_toM < uint16_t > ( instruction , src . l , dest . l ) ;
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break ;
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/*
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RTE , RTR and RTS defer to the flow controller .
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*/
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case Operation : : RTR : flow_controller . rtr ( ) ; break ;
case Operation : : RTE : flow_controller . rte ( ) ; break ;
case Operation : : RTS : flow_controller . rts ( ) ; break ;
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/*
TSTs : compare to zero .
*/
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case Operation : : TSTb : Primitive : : test ( src . b , status ) ; break ;
case Operation : : TSTw : Primitive : : test ( src . w , status ) ; break ;
case Operation : : TSTl : Primitive : : test ( src . l , status ) ; break ;
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case Operation : : STOP :
status . set_status ( src . w ) ;
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flow_controller . did_update_status ( ) ;
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flow_controller . stop ( ) ;
break ;
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case Operation : : RESET :
flow_controller . reset ( ) ;
break ;
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/*
Development period debugging .
*/
default :
assert ( false ) ;
break ;
}
}
}