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| author | Quentin Carbonneaux <quentin@c9x.me> | 2017-04-08 21:50:45 -0400 |
|---|---|---|
| committer | Quentin Carbonneaux <quentin@c9x.me> | 2017-04-08 22:10:02 -0400 |
| commit | 6fd78ec78f1ef3f50afe9d6d9654351e59653244 (patch) | |
| tree | 9fd6a4678156304f687330e735ac339169d498f4 /doc | |
| parent | 37064c646804e8b3190d2c0126e7357a7b817a13 (diff) | |
| download | roux-6fd78ec78f1ef3f50afe9d6d9654351e59653244.tar.gz | |
nits in the documentation
Diffstat (limited to 'doc')
| -rw-r--r-- | doc/il.txt | 20 |
1 files changed, 10 insertions, 10 deletions
diff --git a/doc/il.txt b/doc/il.txt index aa7e7e4..35b023d 100644 --- a/doc/il.txt +++ b/doc/il.txt @@ -50,7 +50,7 @@ Usually, one file is generated per each compilation unit of the frontend input language. An IL file is a sequence of <@ Definitions > for data, functions, and types. Once processed by QBE, the resulting file can be assembled and -linked using a standard toolchain (e.g. GNU binutils). +linked using a standard toolchain (e.g., GNU binutils). Here is a complete "Hello World" IL file, it defines a function that prints to the screen. Since the string is @@ -123,11 +123,11 @@ and `d` (double), they stand respectively for 32-bit and 64-bit integers, and 32-bit and 64-bit floating-point numbers. There are no pointer types available; pointers are typed by an integer type sufficiently wide to represent all memory -addresses (e.g. `l` on x64). Temporaries in the IL can only -have a basic type. +addresses (e.g., `l` on 64-bit architectures). Temporaries +in the IL can only have a basic type. Extended types contain base types plus `b` (byte) and `h` -(half word), respectively for 8 bits and 16 bits integers. +(half word), respectively for 8-bit and 16-bit integers. They are used in <@ Aggregate Types> and <@ Data> definitions. For C interfacing, the IL also provides user-defined aggregate @@ -175,7 +175,7 @@ They are always parsed as 64-bit blobs. Depending on the context surrounding a constant, only some of its bits are used. For example, in the program below, the two variables defined have the same value since the first -operand of the substraction is a word (32 bits) context. +operand of the substraction is a word (32-bit) context. %x =w sub -1, 0 %y =w sub 4294967295, 0 @@ -290,14 +290,14 @@ or zero-initialize big arrays. Here are various examples of data definitions. - # Three 32 bits values 1, 2, and 3 + # Three 32-bit values 1, 2, and 3 # followed by a 0 byte. data $a = { w 1 2 3, b 0 } # A thousand bytes 0 initialized. data $b = { z 1000 } - # An object containing two 64 bits + # An object containing two 64-bit # fields, one with all bits sets and the # other containing a pointer to the # object itself. @@ -482,7 +482,7 @@ The following abbreviations are used. * `I` stands for `wl` * `F` stands for `sd` * `m` stands for the type of pointers on the target, on - x64 it is the same as `l` + 64-bit architectures it is the same as `l` For example, consider the type string `wl(F)`, it mentions that the instruction has only one argument and that if the @@ -654,7 +654,7 @@ returns 1 when the first argument is smaller than the second one. Conversion operations allow to change the representation of a value, possibly modifying it if the target type cannot hold the value of the source type. Conversions can extend the -precision of a temporary (e.g. from signed 8 bits to 32 bits), +precision of a temporary (e.g., from signed 8-bit to 32-bit), or convert a floating point into an integer and vice versa. * `extsw`, `extuw` -- `l(w)` @@ -720,7 +720,7 @@ The call instruction is special in many ways. It is not a three-address instruction and requires the type of all its arguments to be given. Also, the return type can be either a base type or an aggregate type. These specificities -are required to compile calls with C compatibility (i.e. +are required to compile calls with C compatibility (i.e., to respect the ABI). When an aggregate type is used as argument type or return |