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<!DOCTYPE html> <html> <!-- This is an automatically generated file. Do not edit. This file is part of RGBDS. Copyright (c) 2017-2018, Antonio Nino Diaz and RGBDS contributors. SPDX-License-Identifier: MIT --> <head> <meta name="viewport" content="width=device-width, initial-scale=1"> <meta charset="utf-8"/> <link rel="stylesheet" href="mandoc.css" type="text/css" media="all"/> <link rel="stylesheet" href="rgbds.css" type="text/css" media="all"/> <title>GBZ80(7)</title> </head> <body> <table class="head"> <tr> <td class="head-ltitle">GBZ80(7)</td> <td class="head-vol">Miscellaneous Information Manual</td> <td class="head-rtitle">GBZ80(7)</td> </tr> </table> <div class="manual-text"> <section class="Sh"> <h1 class="Sh" id="NAME"><a class="permalink" href="#NAME">NAME</a></h1> <code class="Nm">gbz80</code> — <span class="Nd">CPU opcode reference</span> </section> <section class="Sh"> <h1 class="Sh" id="DESCRIPTION"><a class="permalink" href="#DESCRIPTION">DESCRIPTION</a></h1> This is the list of opcodes supported by <a class="Xr" href="rgbasm.1.html">rgbasm(1)</a>, including a short description, the number of bytes needed to encode them and the number of CPU cycles at 1MHz (or 2MHz in GBC dual speed mode) needed to complete them. <p class="Pp">Note: All arithmetic/logic operations that use register <b class="Sy">A</b> as destination can omit the destination as it is assumed to be register <b class="Sy">A</b> by default. The following two lines have the same effect:</p> <div class="Bd Pp Bd-indent"> <pre> OR A,B OR B </pre> </div> </section> <section class="Sh"> <h1 class="Sh" id="LEGEND"><a class="permalink" href="#LEGEND">LEGEND</a></h1> List of abbreviations used in this document. <dl class="Bl-tag"> <dt><var class="Ar">r8</var></dt> <dd>Any of the 8-bit registers (<b class="Sy">A</b>, <b class="Sy">B</b>, <b class="Sy">C</b>, <b class="Sy">D</b>, <b class="Sy">E</b>, <b class="Sy">H</b>, <b class="Sy">L</b>).</dd> <dt><var class="Ar">r16</var></dt> <dd>Any of the general-purpose 16-bit registers (<b class="Sy">BC</b>, <b class="Sy">DE</b>, <b class="Sy">HL</b>).</dd> <dt><var class="Ar">n8</var></dt> <dd>8-bit integer constant.</dd> <dt><var class="Ar">n16</var></dt> <dd>16-bit integer constant.</dd> <dt><var class="Ar">e8</var></dt> <dd>8-bit offset (<b class="Sy">-128</b> to <b class="Sy">127</b>).</dd> <dt><var class="Ar">u3</var></dt> <dd>3-bit unsigned integer constant (<b class="Sy">0</b> to <b class="Sy">7</b>).</dd> <dt><var class="Ar">cc</var></dt> <dd>Condition codes: <dl class="Bl-tag Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Execute if Z is set.</dd> <dt><b class="Sy">NZ</b></dt> <dd>Execute if Z is not set.</dd> <dt><b class="Sy">C</b></dt> <dd>Execute if C is set.</dd> <dt><b class="Sy">NC</b></dt> <dd>Execute if C is not set.</dd> </dl> </dd> <dt><var class="Ar">vec</var></dt> <dd>One of the <b class="Sy">RST</b> vectors (<b class="Sy">0x00</b>, <b class="Sy">0x08</b>, <b class="Sy">0x10</b>, <b class="Sy">0x18</b>, <b class="Sy">0x20</b>, <b class="Sy">0x28</b>, <b class="Sy">0x30</b> and <b class="Sy">0x38</b>).</dd> </dl> </section> <section class="Sh"> <h1 class="Sh" id="INSTRUCTION_OVERVIEW"><a class="permalink" href="#INSTRUCTION_OVERVIEW">INSTRUCTION OVERVIEW</a></h1> <section class="Ss"> <h2 class="Ss" id="8-bit_Arithmetic_and_Logic_Instructions"><a class="permalink" href="#8-bit_Arithmetic_and_Logic_Instructions">8-bit Arithmetic and Logic Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#ADC_A,r8">ADC A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#ADC_A,_HL_">ADC A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#ADC_A,n8">ADC A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#ADD_A,r8">ADD A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#ADD_A,_HL_">ADD A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#ADD_A,n8">ADD A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#AND_A,r8">AND A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#AND_A,_HL_">AND A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#AND_A,n8">AND A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#CP_A,r8">CP A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#CP_A,_HL_">CP A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#CP_A,n8">CP A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#DEC_r8">DEC r8</a></dt> <dd></dd> <dt><a class="Sx" href="#DEC__HL_">DEC [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#INC_r8">INC r8</a></dt> <dd></dd> <dt><a class="Sx" href="#INC__HL_">INC [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#OR_A,r8">OR A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#OR_A,_HL_">OR A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#OR_A,n8">OR A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#SBC_A,r8">SBC A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SBC_A,_HL_">SBC A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SBC_A,n8">SBC A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#SUB_A,r8">SUB A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SUB_A,_HL_">SUB A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SUB_A,n8">SUB A,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#XOR_A,r8">XOR A,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#XOR_A,_HL_">XOR A,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#XOR_A,n8">XOR A,n8</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="16-bit_Arithmetic_Instructions"><a class="permalink" href="#16-bit_Arithmetic_Instructions">16-bit Arithmetic Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#ADD_HL,r16">ADD HL,r16</a></dt> <dd></dd> <dt><a class="Sx" href="#DEC_r16">DEC r16</a></dt> <dd></dd> <dt><a class="Sx" href="#INC_r16">INC r16</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Bit_Operations_Instructions"><a class="permalink" href="#Bit_Operations_Instructions">Bit Operations Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#BIT_u3,r8">BIT u3,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#BIT_u3,_HL_">BIT u3,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#RES_u3,r8">RES u3,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#RES_u3,_HL_">RES u3,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SET_u3,r8">SET u3,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SET_u3,_HL_">SET u3,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SWAP_r8">SWAP r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SWAP__HL_">SWAP [HL]</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Bit_Shift_Instructions"><a class="permalink" href="#Bit_Shift_Instructions">Bit Shift Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#RL_r8">RL r8</a></dt> <dd></dd> <dt><a class="Sx" href="#RL__HL_">RL [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#RLA">RLA</a></dt> <dd></dd> <dt><a class="Sx" href="#RLC_r8">RLC r8</a></dt> <dd></dd> <dt><a class="Sx" href="#RLC__HL_">RLC [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#RLCA">RLCA</a></dt> <dd></dd> <dt><a class="Sx" href="#RR_r8">RR r8</a></dt> <dd></dd> <dt><a class="Sx" href="#RR__HL_">RR [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#RRA">RRA</a></dt> <dd></dd> <dt><a class="Sx" href="#RRC_r8">RRC r8</a></dt> <dd></dd> <dt><a class="Sx" href="#RRC__HL_">RRC [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#RRCA">RRCA</a></dt> <dd></dd> <dt><a class="Sx" href="#SLA_r8">SLA r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SLA__HL_">SLA [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SRA_r8">SRA r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SRA__HL_">SRA [HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#SRL_r8">SRL r8</a></dt> <dd></dd> <dt><a class="Sx" href="#SRL__HL_">SRL [HL]</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Load_Instructions"><a class="permalink" href="#Load_Instructions">Load Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#LD_r8,r8">LD r8,r8</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_r8,n8">LD r8,n8</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_r16,n16">LD r16,n16</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__HL_,r8">LD [HL],r8</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__HL_,n8">LD [HL],n8</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_r8,_HL_">LD r8,[HL]</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__r16_,A">LD [r16],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__n16_,A">LD [n16],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LDH__n16_,A">LDH [n16],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LDH__C_,A">LDH [C],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_A,_r16_">LD A,[r16]</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_A,_n16_">LD A,[n16]</a></dt> <dd></dd> <dt><a class="Sx" href="#LDH_A,_n16_">LDH A,[n16]</a></dt> <dd></dd> <dt><a class="Sx" href="#LDH_A,_C_">LDH A,[C]</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__HLI_,A">LD [HLI],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__HLD_,A">LD [HLD],A</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_A,_HLI_">LD A,[HLI]</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_A,_HLD_">LD A,[HLD]</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Jumps_and_Subroutines"><a class="permalink" href="#Jumps_and_Subroutines">Jumps and Subroutines</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#CALL_n16">CALL n16</a></dt> <dd></dd> <dt><a class="Sx" href="#CALL_cc,n16">CALL cc,n16</a></dt> <dd></dd> <dt><a class="Sx" href="#JP_HL">JP HL</a></dt> <dd></dd> <dt><a class="Sx" href="#JP_n16">JP n16</a></dt> <dd></dd> <dt><a class="Sx" href="#JP_cc,n16">JP cc,n16</a></dt> <dd></dd> <dt><a class="Sx" href="#JR_e8">JR e8</a></dt> <dd></dd> <dt><a class="Sx" href="#JR_cc,e8">JR cc,e8</a></dt> <dd></dd> <dt><a class="Sx" href="#RET_cc">RET cc</a></dt> <dd></dd> <dt><a class="Sx" href="#RET">RET</a></dt> <dd></dd> <dt><a class="Sx" href="#RETI">RETI</a></dt> <dd></dd> <dt><a class="Sx" href="#RST_vec">RST vec</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Stack_Operations_Instructions"><a class="permalink" href="#Stack_Operations_Instructions">Stack Operations Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#ADD_HL,SP">ADD HL,SP</a></dt> <dd></dd> <dt><a class="Sx" href="#ADD_SP,e8">ADD SP,e8</a></dt> <dd></dd> <dt><a class="Sx" href="#DEC_SP">DEC SP</a></dt> <dd></dd> <dt><a class="Sx" href="#INC_SP">INC SP</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_SP,n16">LD SP,n16</a></dt> <dd></dd> <dt><a class="Sx" href="#LD__n16_,SP">LD [n16],SP</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_HL,SP+e8">LD HL,SP+e8</a></dt> <dd></dd> <dt><a class="Sx" href="#LD_SP,HL">LD SP,HL</a></dt> <dd></dd> <dt><a class="Sx" href="#POP_AF">POP AF</a></dt> <dd></dd> <dt><a class="Sx" href="#POP_r16">POP r16</a></dt> <dd></dd> <dt><a class="Sx" href="#PUSH_AF">PUSH AF</a></dt> <dd></dd> <dt><a class="Sx" href="#PUSH_r16">PUSH r16</a></dt> <dd></dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="Miscellaneous_Instructions"><a class="permalink" href="#Miscellaneous_Instructions">Miscellaneous Instructions</a></h2> <dl class="Bl-inset Bl-compact"> <dt><a class="Sx" href="#CCF">CCF</a></dt> <dd></dd> <dt><a class="Sx" href="#CPL">CPL</a></dt> <dd></dd> <dt><a class="Sx" href="#DAA">DAA</a></dt> <dd></dd> <dt><a class="Sx" href="#DI">DI</a></dt> <dd></dd> <dt><a class="Sx" href="#EI">EI</a></dt> <dd></dd> <dt><a class="Sx" href="#HALT">HALT</a></dt> <dd></dd> <dt><a class="Sx" href="#NOP">NOP</a></dt> <dd></dd> <dt><a class="Sx" href="#SCF">SCF</a></dt> <dd></dd> <dt><a class="Sx" href="#STOP">STOP</a></dt> <dd></dd> </dl> </section> </section> <section class="Sh"> <h1 class="Sh" id="INSTRUCTION_REFERENCE"><a class="permalink" href="#INSTRUCTION_REFERENCE">INSTRUCTION REFERENCE</a></h1> <section class="Ss"> <h2 class="Ss" id="ADC_A,r8"><a class="permalink" href="#ADC_A,r8">ADC A,r8</a></h2> Add the value in <var class="Ar">r8</var> plus the carry flag to <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 3.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if overflow from bit 7.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="ADC_A,_HL_"><a class="permalink" href="#ADC_A,_HL_">ADC A,[HL]</a></h2> Add the byte pointed to by <b class="Sy">HL</b> plus the carry flag to <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#ADC_A,r8">ADC A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="ADC_A,n8"><a class="permalink" href="#ADC_A,n8">ADC A,n8</a></h2> Add the value <var class="Ar">n8</var> plus the carry flag to <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#ADC_A,r8">ADC A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="ADD_A,r8"><a class="permalink" href="#ADD_A,r8">ADD A,r8</a></h2> Add the value in <var class="Ar">r8</var> to <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 3.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if overflow from bit 7.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="ADD_A,_HL_"><a class="permalink" href="#ADD_A,_HL_">ADD A,[HL]</a></h2> Add the byte pointed to by <b class="Sy">HL</b> to <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#ADD_A,r8">ADD A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="ADD_A,n8"><a class="permalink" href="#ADD_A,n8">ADD A,n8</a></h2> Add the value <var class="Ar">n8</var> to <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#ADD_A,r8">ADD A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="ADD_HL,r16"><a class="permalink" href="#ADD_HL,r16">ADD HL,r16</a></h2> Add the value in <var class="Ar">r16</var> to <b class="Sy">HL</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 11.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if overflow from bit 15.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="ADD_HL,SP"><a class="permalink" href="#ADD_HL,SP">ADD HL,SP</a></h2> Add the value in <b class="Sy">SP</b> to <b class="Sy">HL</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#ADD_HL,r16">ADD HL,r16</a></p> </section> <section class="Ss"> <h2 class="Ss" id="ADD_SP,e8"><a class="permalink" href="#ADD_SP,e8">ADD SP,e8</a></h2> Add the signed value <var class="Ar">e8</var> to <b class="Sy">SP</b>. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 3.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if overflow from bit 7.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="AND_A,r8"><a class="permalink" href="#AND_A,r8">AND A,r8</a></h2> Bitwise AND between the value in <var class="Ar">r8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>1</dd> <dt><b class="Sy">C</b></dt> <dd>0</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="AND_A,_HL_"><a class="permalink" href="#AND_A,_HL_">AND A,[HL]</a></h2> Bitwise AND between the byte pointed to by <b class="Sy">HL</b> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#AND_A,r8">AND A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="AND_A,n8"><a class="permalink" href="#AND_A,n8">AND A,n8</a></h2> Bitwise AND between the value in <var class="Ar">n8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#AND_A,r8">AND A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="BIT_u3,r8"><a class="permalink" href="#BIT_u3,r8">BIT u3,r8</a></h2> Test bit <var class="Ar">u3</var> in register <var class="Ar">r8</var>, set the zero flag if bit not set. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if the selected bit is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>1</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="BIT_u3,_HL_"><a class="permalink" href="#BIT_u3,_HL_">BIT u3,[HL]</a></h2> Test bit <var class="Ar">u3</var> in the byte pointed by <b class="Sy">HL</b>, set the zero flag if bit not set. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#BIT_u3,r8">BIT u3,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="CALL_n16"><a class="permalink" href="#CALL_n16">CALL n16</a></h2> Call address <var class="Ar">n16</var>. This pushes the address of the instruction after the <b class="Sy">CALL</b> on the stack, such that <a class="Sx" href="#RET">RET</a> can pop it later; then, it executes an implicit <a class="Sx" href="#JP_n16">JP n16</a>. <p class="Pp">Cycles: 6</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="CALL_cc,n16"><a class="permalink" href="#CALL_cc,n16">CALL cc,n16</a></h2> Call address <var class="Ar">n16</var> if condition <var class="Ar">cc</var> is met. <p class="Pp">Cycles: 6 taken / 3 untaken</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="CCF"><a class="permalink" href="#CCF">CCF</a></h2> Complement Carry Flag. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Inverted.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="CP_A,r8"><a class="permalink" href="#CP_A,r8">CP A,r8</a></h2> Subtract the value in <var class="Ar">r8</var> from <b class="Sy">A</b> and set flags accordingly, but don't store the result. This is useful for ComParing values. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>1</dd> <dt><b class="Sy">H</b></dt> <dd>Set if borrow from bit 4.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if borrow (i.e. if <var class="Ar">r8</var> > <b class="Sy">A</b>).</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="CP_A,_HL_"><a class="permalink" href="#CP_A,_HL_">CP A,[HL]</a></h2> Subtract the byte pointed to by <b class="Sy">HL</b> from <b class="Sy">A</b> and set flags accordingly, but don't store the result. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#CP_A,r8">CP A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="CP_A,n8"><a class="permalink" href="#CP_A,n8">CP A,n8</a></h2> Subtract the value <var class="Ar">n8</var> from <b class="Sy">A</b> and set flags accordingly, but don't store the result. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#CP_A,r8">CP A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="CPL"><a class="permalink" href="#CPL">CPL</a></h2> ComPLement accumulator (<b class="Sy">A</b> = <b class="Sy">~A</b>). <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">N</b></dt> <dd>1</dd> <dt><b class="Sy">H</b></dt> <dd>1</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="DAA"><a class="permalink" href="#DAA">DAA</a></h2> Decimal Adjust Accumulator to get a correct BCD representation after an arithmetic instruction. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set or reset depending on the operation.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="DEC_r8"><a class="permalink" href="#DEC_r8">DEC r8</a></h2> Decrement value in register <var class="Ar">r8</var> by 1. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>1</dd> <dt><b class="Sy">H</b></dt> <dd>Set if borrow from bit 4.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="DEC__HL_"><a class="permalink" href="#DEC__HL_">DEC [HL]</a></h2> Decrement the byte pointed to by <b class="Sy">HL</b> by 1. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#DEC_r8">DEC r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="DEC_r16"><a class="permalink" href="#DEC_r16">DEC r16</a></h2> Decrement value in register <var class="Ar">r16</var> by 1. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="DEC_SP"><a class="permalink" href="#DEC_SP">DEC SP</a></h2> Decrement value in register <b class="Sy">SP</b> by 1. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="DI"><a class="permalink" href="#DI">DI</a></h2> Disable Interrupts by clearing the <b class="Sy">IME</b> flag. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="EI"><a class="permalink" href="#EI">EI</a></h2> Enable Interrupts by setting the <b class="Sy">IME</b> flag. The flag is only set <i class="Em">after</i> the instruction following <b class="Sy">EI</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="HALT"><a class="permalink" href="#HALT">HALT</a></h2> Enter CPU low-power consumption mode until an interrupt occurs. The exact behavior of this instruction depends on the state of the <b class="Sy">IME</b> flag. <dl class="Bl-tag"> <dt><b class="Sy">IME</b> <span class="No">set</span></dt> <dd>The CPU enters low-power mode until <i class="Em">after</i> an interrupt is about to be serviced. The handler is executed normally, and the CPU resumes execution after the <code class="Ic">HALT</code> when that returns.</dd> <dt><b class="Sy">IME</b> <span class="No">not set</span></dt> <dd>The behavior depends on whether an interrupt is pending (i.e. ‘<code class="Li">[IE] & [IF]</code>’ is non-zero). <dl class="Bl-tag"> <dt>None pending</dt> <dd>As soon as an interrupt becomes pending, the CPU resumes execution. This is like the above, except that the handler is <i class="Em">not</i> called.</dd> <dt>Some pending</dt> <dd>The CPU continues execution after the <code class="Ic">HALT</code>, but the byte after it is read twice in a row (<b class="Sy">PC</b> is not incremented, due to a hardware bug).</dd> </dl> </dd> </dl> <p class="Pp">Cycles: -</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="INC_r8"><a class="permalink" href="#INC_r8">INC r8</a></h2> Increment value in register <var class="Ar">r8</var> by 1. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 3.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="INC__HL_"><a class="permalink" href="#INC__HL_">INC [HL]</a></h2> Increment the byte pointed to by <b class="Sy">HL</b> by 1. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#INC_r8">INC r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="INC_r16"><a class="permalink" href="#INC_r16">INC r16</a></h2> Increment value in register <var class="Ar">r16</var> by 1. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="INC_SP"><a class="permalink" href="#INC_SP">INC SP</a></h2> Increment value in register <b class="Sy">SP</b> by 1. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="JP_n16"><a class="permalink" href="#JP_n16">JP n16</a></h2> Jump to address <var class="Ar">n16</var>; effectively, store <var class="Ar">n16</var> into <b class="Sy">PC</b>. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="JP_cc,n16"><a class="permalink" href="#JP_cc,n16">JP cc,n16</a></h2> Jump to address <var class="Ar">n16</var> if condition <var class="Ar">cc</var> is met. <p class="Pp">Cycles: 4 taken / 3 untaken</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="JP_HL"><a class="permalink" href="#JP_HL">JP HL</a></h2> Jump to address in <b class="Sy">HL</b>; effectively, load <b class="Sy">PC</b> with value in register <b class="Sy">HL</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="JR_e8"><a class="permalink" href="#JR_e8">JR e8</a></h2> Relative Jump by adding <var class="Ar">e8</var> to the address of the instruction following the <b class="Sy">JR</b>. To clarify, an operand of 0 is equivalent to no jumping. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="JR_cc,e8"><a class="permalink" href="#JR_cc,e8">JR cc,e8</a></h2> Relative Jump by adding <var class="Ar">e8</var> to the current address if condition <var class="Ar">cc</var> is met. <p class="Pp">Cycles: 3 taken / 2 untaken</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_r8,r8"><a class="permalink" href="#LD_r8,r8">LD r8,r8</a></h2> Load (copy) value in register on the right into register on the left. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_r8,n8"><a class="permalink" href="#LD_r8,n8">LD r8,n8</a></h2> Load value <var class="Ar">n8</var> into register <var class="Ar">r8</var>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_r16,n16"><a class="permalink" href="#LD_r16,n16">LD r16,n16</a></h2> Load value <var class="Ar">n16</var> into register <var class="Ar">r16</var>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__HL_,r8"><a class="permalink" href="#LD__HL_,r8">LD [HL],r8</a></h2> Store value in register <var class="Ar">r8</var> into byte pointed to by register <b class="Sy">HL</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__HL_,n8"><a class="permalink" href="#LD__HL_,n8">LD [HL],n8</a></h2> Store value <var class="Ar">n8</var> into byte pointed to by register <b class="Sy">HL</b>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_r8,_HL_"><a class="permalink" href="#LD_r8,_HL_">LD r8,[HL]</a></h2> Load value into register <var class="Ar">r8</var> from byte pointed to by register <b class="Sy">HL</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__r16_,A"><a class="permalink" href="#LD__r16_,A">LD [r16],A</a></h2> Store value in register <b class="Sy">A</b> into byte pointed to by register <var class="Ar">r16</var>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__n16_,A"><a class="permalink" href="#LD__n16_,A">LD [n16],A</a></h2> Store value in register <b class="Sy">A</b> into byte at address <var class="Ar">n16</var>. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LDH__n16_,A"><a class="permalink" href="#LDH__n16_,A">LDH [n16],A</a></h2> Store value in register <b class="Sy">A</b> into byte at address <var class="Ar">n16</var>, provided it is between <span class="Ad">$FF00</span> and <span class="Ad">$FFFF</span>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> <p class="Pp">This is sometimes written as ‘<code class="Li">ldio [n16], a</code>’, or ‘<code class="Li">ld [$ff00+n8], a</code>’.</p> </section> <section class="Ss"> <h2 class="Ss" id="LDH__C_,A"><a class="permalink" href="#LDH__C_,A">LDH [C],A</a></h2> Store value in register <b class="Sy">A</b> into byte at address <span class="Ad">$FF00+C</span>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> <p class="Pp">This is sometimes written as ‘<code class="Li">ldio [c], a</code>’, or ‘<code class="Li">ld [$ff00+c], a</code>’.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_A,_r16_"><a class="permalink" href="#LD_A,_r16_">LD A,[r16]</a></h2> Load value in register <b class="Sy">A</b> from byte pointed to by register <var class="Ar">r16</var>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_A,_n16_"><a class="permalink" href="#LD_A,_n16_">LD A,[n16]</a></h2> Load value in register <b class="Sy">A</b> from byte at address <var class="Ar">n16</var>. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LDH_A,_n16_"><a class="permalink" href="#LDH_A,_n16_">LDH A,[n16]</a></h2> Load value in register <b class="Sy">A</b> from byte at address <var class="Ar">n16</var>, provided it is between <span class="Ad">$FF00</span> and <span class="Ad">$FFFF</span>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> <p class="Pp">This is sometimes written as ‘<code class="Li">ldio a, [n16]</code>’, or ‘<code class="Li">ld a, [$ff00+n8]</code>’.</p> </section> <section class="Ss"> <h2 class="Ss" id="LDH_A,_C_"><a class="permalink" href="#LDH_A,_C_">LDH A,[C]</a></h2> Load value in register <b class="Sy">A</b> from byte at address <span class="Ad">$FF00+c</span>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> <p class="Pp">This is sometimes written as ‘<code class="Li">ldio a, [c]</code>’, or ‘<code class="Li">ld a, [$ff00+c]</code>’.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__HLI_,A"><a class="permalink" href="#LD__HLI_,A">LD [HLI],A</a></h2> Store value in register <b class="Sy">A</b> into byte pointed by <b class="Sy">HL</b> and increment <b class="Sy">HL</b> afterwards. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__HLD_,A"><a class="permalink" href="#LD__HLD_,A">LD [HLD],A</a></h2> Store value in register <b class="Sy">A</b> into byte pointed by <b class="Sy">HL</b> and decrement <b class="Sy">HL</b> afterwards. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_A,_HLD_"><a class="permalink" href="#LD_A,_HLD_">LD A,[HLD]</a></h2> Load value into register <b class="Sy">A</b> from byte pointed by <b class="Sy">HL</b> and decrement <b class="Sy">HL</b> afterwards. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_A,_HLI_"><a class="permalink" href="#LD_A,_HLI_">LD A,[HLI]</a></h2> Load value into register <b class="Sy">A</b> from byte pointed by <b class="Sy">HL</b> and increment <b class="Sy">HL</b> afterwards. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_SP,n16"><a class="permalink" href="#LD_SP,n16">LD SP,n16</a></h2> Load value <var class="Ar">n16</var> into register <b class="Sy">SP</b>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD__n16_,SP"><a class="permalink" href="#LD__n16_,SP">LD [n16],SP</a></h2> Store <b class="Sy">SP & $FF</b> at address <var class="Ar">n16</var> and <b class="Sy">SP >> 8</b> at address <var class="Ar">n16</var> + 1. <p class="Pp">Cycles: 5</p> <p class="Pp">Bytes: 3</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="LD_HL,SP+e8"><a class="permalink" href="#LD_HL,SP+e8">LD HL,SP+e8</a></h2> Add the signed value <var class="Ar">e8</var> to <b class="Sy">SP</b> and store the result in <b class="Sy">HL</b>. <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>Set if overflow from bit 3.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if overflow from bit 7.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="LD_SP,HL"><a class="permalink" href="#LD_SP,HL">LD SP,HL</a></h2> Load register <b class="Sy">HL</b> into register <b class="Sy">SP</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="NOP"><a class="permalink" href="#NOP">NOP</a></h2> No OPeration. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="OR_A,r8"><a class="permalink" href="#OR_A,r8">OR A,r8</a></h2> Store into <b class="Sy">A</b> the bitwise OR of the value in <var class="Ar">r8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>0</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="OR_A,_HL_"><a class="permalink" href="#OR_A,_HL_">OR A,[HL]</a></h2> Store into <b class="Sy">A</b> the bitwise OR of the byte pointed to by <b class="Sy">HL</b> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#OR_A,r8">OR A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="OR_A,n8"><a class="permalink" href="#OR_A,n8">OR A,n8</a></h2> Store into <b class="Sy">A</b> the bitwise OR of <var class="Ar">n8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#OR_A,r8">OR A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="POP_AF"><a class="permalink" href="#POP_AF">POP AF</a></h2> Pop register <b class="Sy">AF</b> from the stack. This is roughly equivalent to the following <i class="Em">imaginary</i> instructions: <div class="Bd Pp Bd-indent"> <pre> inc sp ld a, [sp] inc sp ld f, [sp] ; See below for individual flags </pre> </div> <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set from bit 7 of the popped low byte.</dd> <dt><b class="Sy">N</b></dt> <dd>Set from bit 6 of the popped low byte.</dd> <dt><b class="Sy">H</b></dt> <dd>Set from bit 5 of the popped low byte.</dd> <dt><b class="Sy">C</b></dt> <dd>Set from bit 4 of the popped low byte.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="POP_r16"><a class="permalink" href="#POP_r16">POP r16</a></h2> Pop register <var class="Ar">r16</var> from the stack. This is roughly equivalent to the following <i class="Em">imaginary</i> instructions: <div class="Bd Pp Bd-indent"> <pre> ld LOW(r16), [sp] ; C, E or L inc sp ld HIGH(r16), [sp] ; B, D or H inc sp </pre> </div> <p class="Pp">Cycles: 3</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="PUSH_AF"><a class="permalink" href="#PUSH_AF">PUSH AF</a></h2> Push register <b class="Sy">AF</b> into the stack. This is roughly equivalent to the following <i class="Em">imaginary</i> instructions: <div class="Bd Pp Bd-indent"> <pre> dec sp ld [sp], a dec sp ld [sp], flag_Z << 7 | flag_N << 6 | flag_H << 5 | flag_C << 4 </pre> </div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="PUSH_r16"><a class="permalink" href="#PUSH_r16">PUSH r16</a></h2> Push register <var class="Ar">r16</var> into the stack. This is roughly equivalent to the following <i class="Em">imaginary</i> instructions: <div class="Bd Pp Bd-indent"> <pre> dec sp ld [sp], HIGH(r16) ; B, D or H dec sp ld [sp], LOW(r16) ; C, E or L </pre> </div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RES_u3,r8"><a class="permalink" href="#RES_u3,r8">RES u3,r8</a></h2> Set bit <var class="Ar">u3</var> in register <var class="Ar">r8</var> to 0. Bit 0 is the rightmost one, bit 7 the leftmost one. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RES_u3,_HL_"><a class="permalink" href="#RES_u3,_HL_">RES u3,[HL]</a></h2> Set bit <var class="Ar">u3</var> in the byte pointed by <b class="Sy">HL</b> to 0. Bit 0 is the rightmost one, bit 7 the leftmost one. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RET"><a class="permalink" href="#RET">RET</a></h2> Return from subroutine. This is basically a <b class="Sy">POP PC</b> (if such an instruction existed). See <a class="Sx" href="#POP_r16">POP r16</a> for an explanation of how <b class="Sy">POP</b> works. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RET_cc"><a class="permalink" href="#RET_cc">RET cc</a></h2> Return from subroutine if condition <var class="Ar">cc</var> is met. <p class="Pp">Cycles: 5 taken / 2 untaken</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RETI"><a class="permalink" href="#RETI">RETI</a></h2> Return from subroutine and enable interrupts. This is basically equivalent to executing <a class="Sx" href="#EI">EI</a> then <a class="Sx" href="#RET">RET</a>, meaning that <b class="Sy">IME</b> is set right after this instruction. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="RL_r8"><a class="permalink" href="#RL_r8">RL r8</a></h2> Rotate bits in register <var class="Ar">r8</var> left through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- C</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RL__HL_"><a class="permalink" href="#RL__HL_">RL [HL]</a></h2> Rotate byte pointed to by <b class="Sy">HL</b> left through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- C</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#RL_r8">RL r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="RLA"><a class="permalink" href="#RLA">RLA</a></h2> Rotate register <b class="Sy">A</b> left through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- C</div> <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RLC_r8"><a class="permalink" href="#RLC_r8">RLC r8</a></h2> Rotate register <var class="Ar">r8</var> left. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- [7]</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RLC__HL_"><a class="permalink" href="#RLC__HL_">RLC [HL]</a></h2> Rotate byte pointed to by <b class="Sy">HL</b> left. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- [7]</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#RLC_r8">RLC r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="RLCA"><a class="permalink" href="#RLCA">RLCA</a></h2> Rotate register <b class="Sy">A</b> left. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- [7]</div> <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RR_r8"><a class="permalink" href="#RR_r8">RR r8</a></h2> Rotate register <var class="Ar">r8</var> right through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RR__HL_"><a class="permalink" href="#RR__HL_">RR [HL]</a></h2> Rotate byte pointed to by <b class="Sy">HL</b> right through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#RR_r8">RR r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="RRA"><a class="permalink" href="#RRA">RRA</a></h2> Rotate register <b class="Sy">A</b> right through carry. <p class="Pp"></p> <div class="Bd Bd-indent">C -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RRC_r8"><a class="permalink" href="#RRC_r8">RRC r8</a></h2> Rotate register <var class="Ar">r8</var> right. <p class="Pp"></p> <div class="Bd Bd-indent">[0] -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RRC__HL_"><a class="permalink" href="#RRC__HL_">RRC [HL]</a></h2> Rotate byte pointed to by <b class="Sy">HL</b> right. <p class="Pp"></p> <div class="Bd Bd-indent">[0] -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#RRC_r8">RRC r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="RRCA"><a class="permalink" href="#RRCA">RRCA</a></h2> Rotate register <b class="Sy">A</b> right. <p class="Pp"></p> <div class="Bd Bd-indent">[0] -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>0</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="RST_vec"><a class="permalink" href="#RST_vec">RST vec</a></h2> Call address <var class="Ar">vec</var>. This is a shorter and faster equivalent to <a class="Sx" href="#CALL">CALL</a> for suitable values of <var class="Ar">vec</var>. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="SBC_A,r8"><a class="permalink" href="#SBC_A,r8">SBC A,r8</a></h2> Subtract the value in <var class="Ar">r8</var> and the carry flag from <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>1</dd> <dt><b class="Sy">H</b></dt> <dd>Set if borrow from bit 4.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if borrow (i.e. if (<var class="Ar">r8</var> + carry) > <b class="Sy">A</b>).</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SBC_A,_HL_"><a class="permalink" href="#SBC_A,_HL_">SBC A,[HL]</a></h2> Subtract the byte pointed to by <b class="Sy">HL</b> and the carry flag from <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#SBC_A,r8">SBC A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SBC_A,n8"><a class="permalink" href="#SBC_A,n8">SBC A,n8</a></h2> Subtract the value <var class="Ar">n8</var> and the carry flag from <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SBC_A,r8">SBC A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SCF"><a class="permalink" href="#SCF">SCF</a></h2> Set Carry Flag. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>1</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SET_u3,r8"><a class="permalink" href="#SET_u3,r8">SET u3,r8</a></h2> Set bit <var class="Ar">u3</var> in register <var class="Ar">r8</var> to 1. Bit 0 is the rightmost one, bit 7 the leftmost one. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="SET_u3,_HL_"><a class="permalink" href="#SET_u3,_HL_">SET u3,[HL]</a></h2> Set bit <var class="Ar">u3</var> in the byte pointed by <b class="Sy">HL</b> to 1. Bit 0 is the rightmost one, bit 7 the leftmost one. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="SLA_r8"><a class="permalink" href="#SLA_r8">SLA r8</a></h2> Shift Left Arithmetic register <var class="Ar">r8</var>. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- 0</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SLA__HL_"><a class="permalink" href="#SLA__HL_">SLA [HL]</a></h2> Shift Left Arithmetic byte pointed to by <b class="Sy">HL</b>. <p class="Pp"></p> <div class="Bd Bd-indent">C <- [7 <- 0] <- 0</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SLA_r8">SLA r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SRA_r8"><a class="permalink" href="#SRA_r8">SRA r8</a></h2> Shift Right Arithmetic register <var class="Ar">r8</var>. <p class="Pp"></p> <div class="Bd Bd-indent">[7] -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SRA__HL_"><a class="permalink" href="#SRA__HL_">SRA [HL]</a></h2> Shift Right Arithmetic byte pointed to by <b class="Sy">HL</b>. <p class="Pp"></p> <div class="Bd Bd-indent">[7] -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SRA_r8">SRA r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SRL_r8"><a class="permalink" href="#SRL_r8">SRL r8</a></h2> Shift Right Logic register <var class="Ar">r8</var>. <p class="Pp"></p> <div class="Bd Bd-indent">0 -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>Set according to result.</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SRL__HL_"><a class="permalink" href="#SRL__HL_">SRL [HL]</a></h2> Shift Right Logic byte pointed to by <b class="Sy">HL</b>. <p class="Pp"></p> <div class="Bd Bd-indent">0 -> [7 -> 0] -> C</div> <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SRA_r8">SRA r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="STOP"><a class="permalink" href="#STOP">STOP</a></h2> Enter CPU very low power mode. Also used to switch between double and normal speed CPU modes in GBC. <p class="Pp">Cycles: -</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: None affected.</p> </section> <section class="Ss"> <h2 class="Ss" id="SUB_A,r8"><a class="permalink" href="#SUB_A,r8">SUB A,r8</a></h2> Subtract the value in <var class="Ar">r8</var> from <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>1</dd> <dt><b class="Sy">H</b></dt> <dd>Set if borrow from bit 4.</dd> <dt><b class="Sy">C</b></dt> <dd>Set if borrow (set if <var class="Ar">r8</var> > <b class="Sy">A</b>).</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SUB_A,_HL_"><a class="permalink" href="#SUB_A,_HL_">SUB A,[HL]</a></h2> Subtract the byte pointed to by <b class="Sy">HL</b> from <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#SUB_A,r8">SUB A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SUB_A,n8"><a class="permalink" href="#SUB_A,n8">SUB A,n8</a></h2> Subtract the value <var class="Ar">n8</var> from <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SUB_A,r8">SUB A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="SWAP_r8"><a class="permalink" href="#SWAP_r8">SWAP r8</a></h2> Swap upper 4 bits in register <var class="Ar">r8</var> and the lower 4 ones. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>0</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="SWAP__HL_"><a class="permalink" href="#SWAP__HL_">SWAP [HL]</a></h2> Swap upper 4 bits in the byte pointed by <b class="Sy">HL</b> and the lower 4 ones. <p class="Pp">Cycles: 4</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#SWAP_r8">SWAP r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="XOR_A,r8"><a class="permalink" href="#XOR_A,r8">XOR A,r8</a></h2> Bitwise XOR between the value in <var class="Ar">r8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 1</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags:</p> <dl class="Bl-hang Bl-compact"> <dt><b class="Sy">Z</b></dt> <dd>Set if result is 0.</dd> <dt><b class="Sy">N</b></dt> <dd>0</dd> <dt><b class="Sy">H</b></dt> <dd>0</dd> <dt><b class="Sy">C</b></dt> <dd>0</dd> </dl> </section> <section class="Ss"> <h2 class="Ss" id="XOR_A,_HL_"><a class="permalink" href="#XOR_A,_HL_">XOR A,[HL]</a></h2> Bitwise XOR between the byte pointed to by <b class="Sy">HL</b> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 1</p> <p class="Pp">Flags: See <a class="Sx" href="#XOR_A,r8">XOR A,r8</a></p> </section> <section class="Ss"> <h2 class="Ss" id="XOR_A,n8"><a class="permalink" href="#XOR_A,n8">XOR A,n8</a></h2> Bitwise XOR between the value in <var class="Ar">n8</var> and <b class="Sy">A</b>. <p class="Pp">Cycles: 2</p> <p class="Pp">Bytes: 2</p> <p class="Pp">Flags: See <a class="Sx" href="#XOR_A,r8">XOR A,r8</a></p> </section> </section> <section class="Sh"> <h1 class="Sh" id="SEE_ALSO"><a class="permalink" href="#SEE_ALSO">SEE ALSO</a></h1> <a class="Xr" href="rgbasm.1.html">rgbasm(1)</a>, <a class="Xr" href="rgbds.7.html">rgbds(7)</a> </section> <section class="Sh"> <h1 class="Sh" id="HISTORY"><a class="permalink" href="#HISTORY">HISTORY</a></h1> <code class="Nm">rgbds</code> was originally written by Carsten Sørensen as part of the ASMotor package, and was later packaged in RGBDS by Justin Lloyd. It is now maintained by a number of contributors at <a class="Lk" href="https://github.com/rednex/rgbds">https://github.com/rednex/rgbds</a>. </section> </div> <table class="foot"> <tr> <td class="foot-date">February 23, 2018</td> <td class="foot-os">General</td> </tr> </table> </body> </html>