C conversions.
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"triangle-inequality.png",
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"triangle-inequality.png",
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"triangle-inequality-degenerate.png",
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"triangle-inequality-degenerate.png",
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"adj-list-representation.png",
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"adj-list-representation.png",
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"adj-matrix-representation.png"
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"adj-matrix-representation.png",
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"church-rosser.png"
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],
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],
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"File Hashes": {
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"File Hashes": {
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"algorithms/index.md": "3ac071354e55242919cc574eb43de6f8",
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@ -315,9 +316,9 @@
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||||||
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@ -382,7 +383,7 @@
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@ -509,7 +510,7 @@
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@ -544,7 +545,7 @@
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@ -597,7 +598,7 @@
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"set/functions.md": "6716f8a32af73e5a4d1b2cbf6987b60f",
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"set/functions.md": "6716f8a32af73e5a4d1b2cbf6987b60f",
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||||||
"_journal/2024-06-15.md": "92cb8dc5c98e10832fb70c0e3ab3cec4",
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"_journal/2024-06-15.md": "92cb8dc5c98e10832fb70c0e3ab3cec4",
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||||||
"_journal/2024-06/2024-06-14.md": "5d12bc272238ac985a1d35d3d63ea307",
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"_journal/2024-06/2024-06-14.md": "5d12bc272238ac985a1d35d3d63ea307",
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||||||
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"_journal/2024-06-16.md": "ded6ab660ecc7c3dce3afd2e88e5a725",
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@ -641,7 +642,7 @@
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||||||
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@ -736,7 +737,7 @@
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||||||
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@ -760,7 +761,7 @@
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||||||
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@ -779,15 +780,28 @@
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},
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},
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"fields_dict": {
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"fields_dict": {
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"Basic": [
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"Basic": [
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---
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title: "2024-08-26"
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---
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- [x] Anki Flashcards
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---
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title: "2024-08-27"
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---
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- [x] Anki Flashcards
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- [ ] Sheet Music (10 min.)
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* Notes on C's [[conversions#Usual Arithmetic Conversions|usual arithmetic conversions]].
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---
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title: "2024-08-28"
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---
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- [x] Anki Flashcards
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- [x] KoL
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- [x] OGS
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- [ ] Sheet Music (10 min.)
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- [ ] Korean (Read 1 Story)
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---
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title: "2024-08-29"
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---
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- [x] Anki Flashcards
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- [x] KoL
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- [x] OGS
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- [ ] Sheet Music (10 min.)
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- [ ] Korean (Read 1 Story)
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---
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title: "2024-08-30"
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---
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- [x] Anki Flashcards
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- [x] KoL
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- [x] OGS
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- [ ] Sheet Music (10 min.)
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- [ ] Korean (Read 1 Story)
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---
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title: "2024-08-31"
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---
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- [x] Anki Flashcards
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- [x] KoL
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- [x] OGS
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- [ ] Sheet Music (10 min.)
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- [ ] Korean (Read 1 Story)
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---
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title: "2024-09-01"
|
||||||
|
---
|
||||||
|
|
||||||
|
- [x] Anki Flashcards
|
||||||
|
- [x] KoL
|
||||||
|
- [ ] OGS
|
||||||
|
- [ ] Sheet Music (10 min.)
|
||||||
|
- [ ] Korean (Read 1 Story)
|
||||||
|
|
||||||
|
* Notes on C [[c17/declarations#Initializers|initializers]].
|
|
@ -0,0 +1,9 @@
|
||||||
|
---
|
||||||
|
title: "2024-09-01"
|
||||||
|
---
|
||||||
|
|
||||||
|
- [x] Anki Flashcards
|
||||||
|
- [x] KoL
|
||||||
|
- [ ] OGS
|
||||||
|
- [ ] Sheet Music (10 min.)
|
||||||
|
- [ ] Korean (Read 1 Story)
|
|
@ -0,0 +1,9 @@
|
||||||
|
---
|
||||||
|
title: "2024-09-01"
|
||||||
|
---
|
||||||
|
|
||||||
|
- [x] Anki Flashcards
|
||||||
|
- [x] KoL
|
||||||
|
- [ ] OGS
|
||||||
|
- [ ] Sheet Music (10 min.)
|
||||||
|
- [ ] Korean (Read 1 Story)
|
|
@ -0,0 +1,9 @@
|
||||||
|
---
|
||||||
|
title: "2024-09-01"
|
||||||
|
---
|
||||||
|
|
||||||
|
- [x] Anki Flashcards
|
||||||
|
- [x] KoL
|
||||||
|
- [ ] OGS
|
||||||
|
- [ ] Sheet Music (10 min.)
|
||||||
|
- [ ] Korean (Read 1 Story)
|
|
@ -0,0 +1,9 @@
|
||||||
|
---
|
||||||
|
title: "2024-09-05"
|
||||||
|
---
|
||||||
|
|
||||||
|
- [x] Anki Flashcards
|
||||||
|
- [x] KoL
|
||||||
|
- [x] OGS
|
||||||
|
- [ ] Sheet Music (10 min.)
|
||||||
|
- [ ] Korean (Read 1 Story)
|
|
@ -55,7 +55,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What C logical operator corresponds to $\land$?
|
What C logical operator corresponds to $\land$?
|
||||||
Back: N/A
|
Back: N/A.
|
||||||
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
||||||
Tags: c17
|
Tags: c17
|
||||||
<!--ID: 1706994861327-->
|
<!--ID: 1706994861327-->
|
||||||
|
@ -64,7 +64,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What C logical operator corresponds to $\lor$?
|
What C logical operator corresponds to $\lor$?
|
||||||
Back: N/A
|
Back: N/A.
|
||||||
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
||||||
Tags: c17
|
Tags: c17
|
||||||
<!--ID: 1706994861329-->
|
<!--ID: 1706994861329-->
|
||||||
|
@ -73,7 +73,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What C logical operator corresponds to $\Rightarrow$?
|
What C logical operator corresponds to $\Rightarrow$?
|
||||||
Back: N/A
|
Back: N/A.
|
||||||
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
Reference: Gries, David. *The Science of Programming*. Texts and Monographs in Computer Science. New York: Springer-Verlag, 1981.
|
||||||
Tags: c17
|
Tags: c17
|
||||||
<!--ID: 1706994861331-->
|
<!--ID: 1706994861331-->
|
||||||
|
|
|
@ -323,8 +323,99 @@ Reference: Van der Linden, Peter. _Expert C Programming: Deep C Secrets_. Progra
|
||||||
<!--ID: 1722786892125-->
|
<!--ID: 1722786892125-->
|
||||||
END%%
|
END%%
|
||||||
|
|
||||||
|
## Initializers
|
||||||
|
|
||||||
|
An **initializer** is an expression that gives an object a value at time of declaration. Only variable-length arrays (VLAs) do not allow for an initializer. The default initializer looks like `{0}`.
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Which part of the following are initializers?
|
||||||
|
```c
|
||||||
|
int a = 3;
|
||||||
|
```
|
||||||
|
Back: `3`
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021580-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Which part of the following are initializers?
|
||||||
|
```c
|
||||||
|
double a = { 7.0 };
|
||||||
|
```
|
||||||
|
Back: `{ 7.0 }`
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021585-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Which part of the following are initializers?
|
||||||
|
```c
|
||||||
|
double a = { 7.0 };
|
||||||
|
```
|
||||||
|
Back: `{ 7.0 }`
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
How is the following updated to include initializers `1` and `2` for `a` and `b` respectively?
|
||||||
|
```c
|
||||||
|
int a, b;
|
||||||
|
```
|
||||||
|
Back:
|
||||||
|
```c
|
||||||
|
int a = 1, b = 2;
|
||||||
|
```
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021590-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What object types allow initializers?
|
||||||
|
Back: All but VLAs.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021576-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What object types do not allow initializers?
|
||||||
|
Back: Just variable-length arrays.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021596-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the default initializer?
|
||||||
|
Back: `{0}`
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196290195-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
`{0}` is a valid initializer for what object types?
|
||||||
|
Back: All but VLAs.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196290203-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
`{0}` is not a valid initializer for what object types?
|
||||||
|
Back: Just variable-length arrays.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196290208-->
|
||||||
|
END%%
|
||||||
|
|
||||||
## Bibliography
|
## Bibliography
|
||||||
|
|
||||||
* Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
* Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
* “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
* “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
* Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
* Van der Linden, Peter. _Expert C Programming: Deep C Secrets_. Programming Languages / C. Mountain View, Cal.: SunSoft Pr, 1994.
|
* Van der Linden, Peter. _Expert C Programming: Deep C Secrets_. Programming Languages / C. Mountain View, Cal.: SunSoft Pr, 1994.
|
||||||
|
|
|
@ -107,7 +107,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Why are lvalues named the way they are?
|
Why are lvalues named the way they are?
|
||||||
Back: The name is an acronym for **l**ocator **value**.
|
Back: The name is an acronym for **l**ocator **value** (or **l**eft **value**).
|
||||||
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
<!--ID: 1723510994878-->
|
<!--ID: 1723510994878-->
|
||||||
END%%
|
END%%
|
||||||
|
|
|
@ -0,0 +1,302 @@
|
||||||
|
---
|
||||||
|
title: Conversions
|
||||||
|
TARGET DECK: Obsidian::STEM
|
||||||
|
FILE TAGS: c17::type
|
||||||
|
tags:
|
||||||
|
- c17
|
||||||
|
---
|
||||||
|
|
||||||
|
## Overview
|
||||||
|
|
||||||
|
> Several operators convert operand values from one type to another automatically.
|
||||||
|
|
||||||
|
The above quote refers to **implicit conversions**. Alternatively, we can use cast operations to perform **explicit conversions**.
|
||||||
|
|
||||||
|
## Usual Arithmetic Conversions
|
||||||
|
|
||||||
|
As a general rule, the result of an operation has the type of the operand with wider range. The usual arithmetic conversions behave according to the following pattern:
|
||||||
|
|
||||||
|
1. Determine a **common real type** for the operands and result.
|
||||||
|
2. Convert each operand, without change of type domain, to a type with real type matching the common real type.
|
||||||
|
3. Unless explicitly stated otherwise, the common real type is the corresponding real type of the result, whose type domain is that of the operands if they are the same and complex otherwise.
|
||||||
|
|
||||||
|
Common real types are prioritized in the following order:
|
||||||
|
|
||||||
|
1. `long double`
|
||||||
|
2. `double`
|
||||||
|
3. `float`
|
||||||
|
4. If both operands have the same signedness, the higher ranked type.
|
||||||
|
5. If the unsigned operand has rank $\geq$ than that of the other, the unsigned type.
|
||||||
|
6. If the signed operand's includes that of the other, the signed type.
|
||||||
|
7. The unsigned integer type corresponding to that of the signed integer type.
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
long double a;
|
||||||
|
long double complex b;
|
||||||
|
```
|
||||||
|
Back: `long double`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203391-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
long double a;
|
||||||
|
long complex b;
|
||||||
|
```
|
||||||
|
Back: `long double`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203395-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
long double a;
|
||||||
|
long complex b;
|
||||||
|
```
|
||||||
|
Back: Complex.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203398-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
double complex a;
|
||||||
|
long b;
|
||||||
|
```
|
||||||
|
Back: `double`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203402-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
long double a;
|
||||||
|
long complex b;
|
||||||
|
```
|
||||||
|
Back: Complex.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
float a;
|
||||||
|
double b;
|
||||||
|
```
|
||||||
|
Back: `double`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203405-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
long long a;
|
||||||
|
float b;
|
||||||
|
```
|
||||||
|
Back: `float`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203408-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
long long a;
|
||||||
|
float b;
|
||||||
|
```
|
||||||
|
Back: Real.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203419-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
*Why* is the common real type of `a` and `b` equal to `float`?
|
||||||
|
```c
|
||||||
|
long long a;
|
||||||
|
float b;
|
||||||
|
```
|
||||||
|
Back: Because floating-point types have priority over integer types.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203427-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
long long a;
|
||||||
|
long long b;
|
||||||
|
```
|
||||||
|
Back: Real.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203431-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
long long a;
|
||||||
|
long long b;
|
||||||
|
```
|
||||||
|
Back: `long long`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203436-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
unsigned int a;
|
||||||
|
signed short b;
|
||||||
|
```
|
||||||
|
Back: `unsigned int`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203440-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the common real type of `a` and `b`?
|
||||||
|
```c
|
||||||
|
unsigned a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: `unsigned`
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203445-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
*Why* is the common real type of `a` and `b` equal to `unsigned`?
|
||||||
|
```c
|
||||||
|
unsigned a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: Because `unsigned` has rank $\geq$ that of `signed int`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203450-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
unsigned a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: Real.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203454-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What is the type domain of `a + b`?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: Indeterminate.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203469-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
*Why* is the type domain of `a + b` indeterminate?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
int b;
|
||||||
|
```
|
||||||
|
Back: Because the rank of `unsigned short` is $<$ that of `int`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203475-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
What *might* the type domain of `a + b` be?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: `signed int` or `unsigned int`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203479-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
When is the type domain of `a + b` equal to `signed int`?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: When `signed int` can represent all the values of `unsigned short`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203484-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
When is the type domain of `a + b` equal to `unsigned int`?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: When `signed int` cannot represent all the values of `unsigned short`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203488-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
When is the type domain of `a + b` equal to `unsigned short`?
|
||||||
|
```c
|
||||||
|
unsigned short a;
|
||||||
|
signed int b;
|
||||||
|
```
|
||||||
|
Back: N/A. It never is.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203492-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Suppose `a` and `b` has signed and unsigned types. When is `a + b` signed?
|
||||||
|
Back: When `b`'s type has lower rank and the range of `b` is included in the range of `a`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203460-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Suppose `a` and `b` has signed and unsigned types. When is `a + b` unsigned?
|
||||||
|
Back: When `b`'s type has higher rank or the range of `a` cannot fit the range of `b`.
|
||||||
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
<!--ID: 1724762203465-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
## Bibliography
|
||||||
|
|
||||||
|
* “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
|
@ -124,6 +124,39 @@ Reference: ISO: Programming Languages - C,” April 12, 2011, [https://port70.ne
|
||||||
<!--ID: 1723510995023-->
|
<!--ID: 1723510995023-->
|
||||||
END%%
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Does `x` have complete or incomplete object type in the following?
|
||||||
|
```c
|
||||||
|
double x[];
|
||||||
|
```
|
||||||
|
Back: Incomplete.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021563-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Does `x` have complete or incomplete object type in the following?
|
||||||
|
```c
|
||||||
|
double x[] = { 1, 2, };
|
||||||
|
```
|
||||||
|
Back: Incomplete.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021568-->
|
||||||
|
END%%
|
||||||
|
|
||||||
|
%%ANKI
|
||||||
|
Basic
|
||||||
|
Does `x` have complete or incomplete object type in the following?
|
||||||
|
```c
|
||||||
|
double x[2] = { 1, 2, };
|
||||||
|
```
|
||||||
|
Back: Complete.
|
||||||
|
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
||||||
|
<!--ID: 1725196021572-->
|
||||||
|
END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What object type can an lvalue *not* have?
|
What object type can an lvalue *not* have?
|
||||||
|
@ -199,7 +232,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
The integer types consist of what simple types?
|
The integer types consist of what simple types?
|
||||||
Back: `char`, signed/unsigned integer types, and `enum`s.
|
Back: `char`, (un)signed integer types, and `enum`s.
|
||||||
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
<!--ID: 1724546734436-->
|
<!--ID: 1724546734436-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -255,7 +288,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Which types are considered both basic types and integer types?
|
Which types are considered both basic types and integer types?
|
||||||
Back: `char` and the signed/unsigned integer types.
|
Back: `char` and the (un)signed integer types.
|
||||||
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
Reference: “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
<!--ID: 1724546734469-->
|
<!--ID: 1724546734469-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -393,3 +426,4 @@ END%%
|
||||||
## Bibliography
|
## Bibliography
|
||||||
|
|
||||||
* “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
* “ISO: Programming Languages - C,” April 12, 2011, [https://port70.net/~nsz/c/c11/n1570.pdf](https://port70.net/~nsz/c/c11/n1570.pdf).
|
||||||
|
* Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
|
@ -452,14 +452,6 @@ Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co
|
||||||
<!--ID: 1723937852091-->
|
<!--ID: 1723937852091-->
|
||||||
END%%
|
END%%
|
||||||
|
|
||||||
%%ANKI
|
|
||||||
Basic
|
|
||||||
The first fit rule excludes what subcategory of integer types?
|
|
||||||
Back: The narrow integers.
|
|
||||||
Reference: Jens Gustedt, _Modern C_ (Shelter Island, NY: Manning Publications Co, 2020).
|
|
||||||
<!--ID: 1724506993429-->
|
|
||||||
END%%
|
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the signedness of a decimal integer literal?
|
What is the signedness of a decimal integer literal?
|
||||||
|
|
|
@ -111,7 +111,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the maximum element of interval $[0, 1] \subseteq \mathbb{R}$?
|
What is the maximum element of interval $[0, 1] \subseteq \mathbb{R}$?
|
||||||
Back: $1$.
|
Back: $1$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115133094-->
|
<!--ID: 1724115133094-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -143,7 +143,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the minimum element of interval $[0, 1] \subseteq \mathbb{R}$?
|
What is the minimum element of interval $[0, 1] \subseteq \mathbb{R}$?
|
||||||
Back: $0$.
|
Back: $0$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115133106-->
|
<!--ID: 1724115133106-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -203,7 +203,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What distinguishes a supremum from a least upper bound?
|
What distinguishes a supremum from a least upper bound?
|
||||||
Back: They are synonyms of one another.
|
Back: N/A. They are synonyms of one another.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953346-->
|
<!--ID: 1724115953346-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -219,7 +219,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the least upper bound of interval $[0, 1] \subseteq \mathbb{R}$?
|
What is the least upper bound of interval $[0, 1] \subseteq \mathbb{R}$?
|
||||||
Back: $1$.
|
Back: $1$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953358-->
|
<!--ID: 1724115953358-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -227,7 +227,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the supremum of interval $(0, 1) \subseteq \mathbb{R}$?
|
What is the supremum of interval $(0, 1) \subseteq \mathbb{R}$?
|
||||||
Back: $1$.
|
Back: $1$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953364-->
|
<!--ID: 1724115953364-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -307,7 +307,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Let $A, B \subseteq \mathbb{R}$. When is $\mathop{\text{sup}} \,\{a + b \mid a \in A, b \in B\}$ defined?
|
Let $A, B \subseteq \mathbb{R}$. When is $\mathop{\text{sup}} \,\{a + b \mid a \in A, b \in B\}$ defined?
|
||||||
Back: When $A$ and $B$ both have a supremum.
|
Back: When $A$ and $B$ both have supremums.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724523640377-->
|
<!--ID: 1724523640377-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -315,7 +315,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Let $A, B \subseteq \mathbb{R}$. When is $\mathop{\text{inf}} \,\{a + b \mid a \in A, b \in B\}$ defined?
|
Let $A, B \subseteq \mathbb{R}$. When is $\mathop{\text{inf}} \,\{a + b \mid a \in A, b \in B\}$ defined?
|
||||||
Back: When $A$ and $B$ both have an infimum.
|
Back: When $A$ and $B$ both have infimums.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724523640378-->
|
<!--ID: 1724523640378-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -383,7 +383,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Consider $\varnothing \subseteq \mathbb{R}$. Why doesn't the completeness axiom of real numbers apply?
|
Consider $\varnothing \subseteq \mathbb{R}$. Why doesn't the completeness axiom of real numbers apply?
|
||||||
Back: It only applies to nonempty sets.
|
Back: $\varnothing$ is not a nonempty set.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724116323044-->
|
<!--ID: 1724116323044-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -399,7 +399,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Consider $\mathbb{R}^+$. Why doesn't the completeness axiom apply?
|
Consider $\mathbb{R}^+$. Why doesn't the completeness axiom apply?
|
||||||
Back: It only applies to nonempty sets that are bounded above.
|
Back: $\mathbb{R}^+$ is not bounded above.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724116323049-->
|
<!--ID: 1724116323049-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -426,7 +426,7 @@ A number $B$ is called a **greatest lower bound** (or **infimum**) of a nonempty
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Let $\varnothing \subset S \subseteq \mathbb{R}$. What is a greatest upper bound of $S$?
|
Let $\varnothing \subset S \subseteq \mathbb{R}$. What is a greatest lower bound of $S$?
|
||||||
Back: A lower bound $B$ for $S$ such that no number greater than $B$ is also a lower bound for $S$.
|
Back: A lower bound $B$ for $S$ such that no number greater than $B$ is also a lower bound for $S$.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953392-->
|
<!--ID: 1724115953392-->
|
||||||
|
@ -459,7 +459,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What distinguishes a greatest lower bound from an infimum?
|
What distinguishes a greatest lower bound from an infimum?
|
||||||
Back: They are synonyms of one another.
|
Back: N/A. They are synonyms of one another.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953417-->
|
<!--ID: 1724115953417-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -467,7 +467,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What distinguishes an infimum from a minimum?
|
What distinguishes an infimum from a minimum?
|
||||||
Back: A supremum is not necessarily a member of the reference set.
|
Back: An infimum is not necessarily a member of the reference set.
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953422-->
|
<!--ID: 1724115953422-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -475,7 +475,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the infimum of interval $[0, 1] \subseteq \mathbb{R}$?
|
What is the infimum of interval $[0, 1] \subseteq \mathbb{R}$?
|
||||||
Back: $0$.
|
Back: $0$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953428-->
|
<!--ID: 1724115953428-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -483,7 +483,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What is the greatest lower bound of interval $(0, 1) \subseteq \mathbb{R}$?
|
What is the greatest lower bound of interval $(0, 1) \subseteq \mathbb{R}$?
|
||||||
Back: $0$.
|
Back: $0$
|
||||||
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
Reference: Tom M. Apostol, _Calculus, Vol. 1: One-Variable Calculus, with an Introduction to Linear Algebra_, 2nd ed. (New York: Wiley, 1980).
|
||||||
<!--ID: 1724115953433-->
|
<!--ID: 1724115953433-->
|
||||||
END%%
|
END%%
|
||||||
|
|
|
@ -132,7 +132,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Consider a B-tree of order $7$. How many children $c$ can each non-root node have?
|
Consider a B-tree of order $7$. How many children $c$ can each internal non-root node have?
|
||||||
Back: $4 \leq c \leq 7$
|
Back: $4 \leq c \leq 7$
|
||||||
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
||||||
<!--ID: 1723211542063-->
|
<!--ID: 1723211542063-->
|
||||||
|
@ -141,14 +141,14 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Consider a B-tree of order $7$. How many children $c$ can the root have?
|
Consider a B-tree of order $7$. How many children $c$ can the root have?
|
||||||
Back: $1 \leq c \leq 7$
|
Back: $0 \leq c \leq 7$
|
||||||
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
||||||
<!--ID: 1723211542069-->
|
<!--ID: 1723211542069-->
|
||||||
END%%
|
END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Consider a B-tree of order $7$. How many keys $k$ can each non-root node have?
|
Consider a B-tree of order $7$. How many keys $k$ can each internal non-root node have?
|
||||||
Back: $3 \leq k < 7$
|
Back: $3 \leq k < 7$
|
||||||
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
Reference: Donald Ervin Knuth, _Art of Computer Programming, 3: Sorting and Searching_, 2. ed., 34. (Reading, Mass: Addison-Wesley, 1995).
|
||||||
<!--ID: 1723211542076-->
|
<!--ID: 1723211542076-->
|
||||||
|
|
|
@ -689,7 +689,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
What does the Church-Rosser theorem state in terms of confluence?
|
What does the Church-Rosser theorem of $\,\triangleright_\beta\,$ state in terms of confluence?
|
||||||
Back: $\beta$-reduction is confluent.
|
Back: $\beta$-reduction is confluent.
|
||||||
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. [https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf](https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf).
|
Reference: Hindley, J Roger, and Jonathan P Seldin. “Lambda-Calculus and Combinators, an Introduction,” n.d. [https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf](https://www.cin.ufpe.br/~djo/files/Lambda-Calculus%20and%20Combinators.pdf).
|
||||||
<!--ID: 1719577152613-->
|
<!--ID: 1719577152613-->
|
||||||
|
|
|
@ -116,7 +116,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Do all multisets correspond to sets?
|
Is every multiset a set?
|
||||||
Back: No.
|
Back: No.
|
||||||
Reference: “Multiset,” in _Wikipedia_, April 4, 2024, [https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725](https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725).
|
Reference: “Multiset,” in _Wikipedia_, April 4, 2024, [https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725](https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725).
|
||||||
<!--ID: 1720360266867-->
|
<!--ID: 1720360266867-->
|
||||||
|
@ -124,7 +124,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
Do all sets correspond to multisets?
|
Is every set a multiset?
|
||||||
Back: Yes.
|
Back: Yes.
|
||||||
Reference: “Multiset,” in _Wikipedia_, April 4, 2024, [https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725](https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725).
|
Reference: “Multiset,” in _Wikipedia_, April 4, 2024, [https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725](https://en.wikipedia.org/w/index.php?title=Multiset&oldid=1217165725).
|
||||||
<!--ID: 1720360266873-->
|
<!--ID: 1720360266873-->
|
||||||
|
|
|
@ -276,7 +276,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Cloze
|
Cloze
|
||||||
$\exists u \in A, uFx$ is equivalently written as $x \in$ {$\{v \mid \exists u \in A, uFv\}$}.
|
$\exists u \in A, uFx$ is equivalently written as $x \in$ {$F[\![A]\!]$}.
|
||||||
Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
|
Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
|
||||||
<!--ID: 1720369624735-->
|
<!--ID: 1720369624735-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -1129,7 +1129,7 @@ END%%
|
||||||
|
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Cloze
|
Cloze
|
||||||
The {infinity axiom} asserts the existence of an {inductive set}.
|
The {infinity} axiom asserts the existence of an {inductive set}.
|
||||||
Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
|
Reference: Herbert B. Enderton, *Elements of Set Theory* (New York: Academic Press, 1977).
|
||||||
<!--ID: 1724486269581-->
|
<!--ID: 1724486269581-->
|
||||||
END%%
|
END%%
|
||||||
|
|
|
@ -86,7 +86,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%rax` register?
|
How many bytes make up the `%rax` register?
|
||||||
Back: $8$.
|
Back: $8$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420029-->
|
<!--ID: 1724119420029-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -94,7 +94,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%ax` register?
|
How many bytes make up the `%ax` register?
|
||||||
Back: $2$.
|
Back: $2$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420032-->
|
<!--ID: 1724119420032-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -102,7 +102,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%al` register?
|
How many bytes make up the `%al` register?
|
||||||
Back: $1$.
|
Back: $1$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420035-->
|
<!--ID: 1724119420035-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -110,7 +110,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%eax` register?
|
How many bytes make up the `%eax` register?
|
||||||
Back: $4$.
|
Back: $4$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420039-->
|
<!--ID: 1724119420039-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -163,7 +163,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%rsp` register?
|
How many bytes make up the `%rsp` register?
|
||||||
Back: $8$.
|
Back: $8$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420068-->
|
<!--ID: 1724119420068-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -171,7 +171,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%sp` register?
|
How many bytes make up the `%sp` register?
|
||||||
Back: $2$.
|
Back: $2$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420071-->
|
<!--ID: 1724119420071-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -179,7 +179,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%spl` register?
|
How many bytes make up the `%spl` register?
|
||||||
Back: $1$.
|
Back: $1$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420075-->
|
<!--ID: 1724119420075-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -187,7 +187,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
How many bytes make up the `%esp` register?
|
How many bytes make up the `%esp` register?
|
||||||
Back: $4$.
|
Back: $4$
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420079-->
|
<!--ID: 1724119420079-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -272,7 +272,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
From smallest to largest, list the four "return value" registers.
|
From smallest to largest, list the four "return value" registers.
|
||||||
Back: `%al`, `%ax`, `%eax`, and `$rax`.
|
Back: `%al`, `%ax`, `%eax`, and `%rax`.
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420117-->
|
<!--ID: 1724119420117-->
|
||||||
END%%
|
END%%
|
||||||
|
@ -280,7 +280,7 @@ END%%
|
||||||
%%ANKI
|
%%ANKI
|
||||||
Basic
|
Basic
|
||||||
From smallest to largest, list the four "stack pointer" registers.
|
From smallest to largest, list the four "stack pointer" registers.
|
||||||
Back: `%spl`, `%sp`, `%esp`, and `$rsp`.
|
Back: `%spl`, `%sp`, `%esp`, and `%rsp`.
|
||||||
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
Reference: Bryant, Randal E., and David O'Hallaron. *Computer Systems: A Programmer's Perspective*. Third edition, Global edition. Always Learning. Pearson, 2016.
|
||||||
<!--ID: 1724119420122-->
|
<!--ID: 1724119420122-->
|
||||||
END%%
|
END%%
|
||||||
|
|
Loading…
Reference in New Issue