269 lines
10 KiB
Markdown
269 lines
10 KiB
Markdown
---
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title: Registers
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TARGET DECK: Obsidian::STEM
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FILE TAGS: x86-64
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tags:
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- x86-64
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---
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## Overview
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An x86-64 CPU contains a set of 16 general-purpose registers storing 64-bit values. They are used to store integers and pointers.
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1 Byte | 2 Bytes | 4 Bytes | 8 Bytes | Purpose
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------- | ------- | ------- | ------- | -------
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`%al` | `%ax` | `%eax` | `%rax` | Return value
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`%bl` | `%bx` | `%ebx` | `%rbx` | Callee saved
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`%cl` | `%cx` | `%ecx` | `%rcx` | 4th argument
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`%dl` | `%dx` | `%edx` | `%rdx` | 3rd argument
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`%sil` | `%si` | `%esi` | `%rsi` | 2nd argument
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`%dil` | `%di` | `%edi` | `%rdi` | 1st argument
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`%bpl` | `%bp` | `%ebp` | `%rbp` | Callee saved
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`%spl` | `%sp` | `%esp` | `%rsp` | Stack pointer
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`%r8b` | `%r8w` | `%r8d` | `%r8` | 5th argument
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`%r9b` | `%r9w` | `%r9d` | `%r9` | 6th argument
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`%r10b` | `%r10w` | `%r10d` | `%r10` | Caller saved
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`%r11b` | `%r11w` | `%r11d` | `%r11` | Caller saved
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`%r12b` | `%r12w` | `%r12d` | `%r12` | Callee saved
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`%r13b` | `%r13w` | `%r13d` | `%r13` | Callee saved
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`%r14b` | `%r14w` | `%r14d` | `%r14` | Callee saved
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`%r15b` | `%r15w` | `%r15d` | `%r15` | Callee saved
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%%ANKI
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Basic
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How many general-purpose registers are available to x86-64 instructions?
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Back: 16
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889856-->
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END%%
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%%ANKI
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Cloze
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The x86 64-bit registers all start with prefix {`%r`}.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889861-->
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END%%
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%%ANKI
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Cloze
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The x86 32-bit registers all start with prefix {`%e`}.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889864-->
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END%%
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%%ANKI
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Basic
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Instructions that generate 1-byte quantities do what to the remaining bytes of a register?
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Back: Leaves them alone.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889866-->
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END%%
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%%ANKI
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Basic
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Instructions that generate 2-byte quantities do what to the remaining bytes of a register?
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Back: Leaves them alone.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889869-->
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END%%
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%%ANKI
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Basic
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Instructions that generate 4-byte quantities do what to the remaining bytes of a register?
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Back: Zeroes them out.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889872-->
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END%%
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%%ANKI
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Basic
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Instructions that generate 8-byte quantities do what to the remaining bytes of a register?
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Back: N/A
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1713212889874-->
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END%%
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The CPU also maintains a set of single-bit **condition code** registers describing attributes of the most recent arithmetic or logical operation.
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Code | Name | Description
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-----| ------------- | -----------
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`CF` | Carry flag | The most recent operation generated a carry out of the most significant bit.
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`ZF` | Zero flag | The most recent operation yielded zero.
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`SF` | Sign flag | The most recent operation yielded a negative value.
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`OF` | Overflow flag | The most recent operation caused a two's-complement overflow.
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%%ANKI
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Basic
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Condition code registers describe attributes of what kind of operations?
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Back: Arithmetic and logical.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416520-->
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END%%
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%%ANKI
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Cloze
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{Condition code} registers describe attributes of the most recent arithmetic/logical operation.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416525-->
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END%%
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%%ANKI
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Basic
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How large is a condition code register?
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Back: A single bit.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416529-->
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END%%
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%%ANKI
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Basic
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`CF` and `SF` are examples of what?
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Back: Condition codes.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416534-->
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END%%
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%%ANKI
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Basic
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Condition code `CF` is an acronym for what?
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Back: **C**arry **f**lag.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416539-->
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END%%
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%%ANKI
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Basic
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Condition code `ZF` is an acronym for what?
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Back: **Z**ero **f**lag.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416543-->
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END%%
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%%ANKI
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Basic
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When is the `ZF` condition code set?
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Back: When the most recent operation yielded a zero.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416548-->
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END%%
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%%ANKI
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Basic
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Condition code `SF` is an acronym for what?
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Back: **S**ign **f**lag.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416552-->
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END%%
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%%ANKI
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Basic
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When is the `SF` condition code set?
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Back: When the most recent operation yielded a negative value.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416558-->
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END%%
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%%ANKI
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Basic
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Condition code `OF` is an acronym for what?
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Back: **O**verflow **f**lag.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416565-->
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END%%
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%%ANKI
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Basic
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Which condition code is checked for unsigned overflow?
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Back: `CF`
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416572-->
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END%%
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%%ANKI
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Basic
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When is the `CF` condition code set?
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Back: When the most recent operation generated a carry out of the most significant bit.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416578-->
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END%%
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%%ANKI
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Basic
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Which condition code is checked for two's-complement positive overflow?
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Back: `OF`
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416584-->
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END%%
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%%ANKI
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Basic
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When is the `OF` condition code set?
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Back: When the most recent operation caused a two's-complement overflow.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416588-->
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END%%
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%%ANKI
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Basic
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Which condition code is checked for two's-complement negative overflow?
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Back: `OF`
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416592-->
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END%%
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%%ANKI
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Basic
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Evaluate `int t = a + b` for `int` `a` and `b`. When is `CF` set?
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Back: When `(unsigned) t < (unsigned) a`.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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Tags: c17
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<!--ID: 1717941416597-->
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END%%
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%%ANKI
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Basic
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Evaluate `int t = a + b` for `int` `a` and `b`. When is `ZF` set?
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Back: When `t == 0`.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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Tags: c17
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<!--ID: 1717941416601-->
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END%%
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%%ANKI
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Basic
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Evaluate `int t = a + b` for `int` `a` and `b`. When is `SF` set?
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Back: When `t < 0`.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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Tags: c17
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<!--ID: 1717941416605-->
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END%%
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%%ANKI
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Basic
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Evaluate `int t = a + b` for `int` `a` and `b`. When is `OF` set?
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Back: When `(t <= 0 && a > 0 && b > 0) || (t >= 0 && a < 0 && b < 0)`.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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Tags: c17
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<!--ID: 1717941416609-->
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END%%
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%%ANKI
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Basic
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Which "arithmetic" instruction does not alter condition codes?
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Back: `leaq`
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416613-->
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END%%
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%%ANKI
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Basic
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*Why* doesn't `leaq` alter condition codes?
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Back: It is intended for address computation.
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Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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<!--ID: 1717941416617-->
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END%%
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## Bibliography
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* Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
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