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Merge branch 'master' into fix-vulkan-codegen-arrays-as-proc-args

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This commit is contained in:
Tadeo hepperle
2024-06-26 19:31:00 +02:00
parent 18dadd94e3 8d1827838f
commit 67e69f7196
15 changed files with 466 additions and 197 deletions
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6
base/runtime/heap_allocator.odin
View File

@@ -97,14 +97,14 @@ heap_allocator_proc :: proc(allocator_data: rawptr, mode: Allocator_Mode,
}
heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
heap_alloc :: proc "contextless" (size: int, zero_memory := true) -> rawptr {
return _heap_alloc(size, zero_memory)
}
heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
heap_resize :: proc "contextless" (ptr: rawptr, new_size: int) -> rawptr {
return _heap_resize(ptr, new_size)
}
heap_free :: proc(ptr: rawptr) {
heap_free :: proc "contextless" (ptr: rawptr) {
_heap_free(ptr)
}

6
base/runtime/heap_allocator_orca.odin
View File

@@ -9,7 +9,7 @@ foreign {
@(link_name="realloc") _orca_realloc :: proc "c" (ptr: rawptr, size: int) -> rawptr ---
}
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
_heap_alloc :: proc "contextless" (size: int, zero_memory := true) -> rawptr {
if size <= 0 {
return nil
}
@@ -20,10 +20,10 @@ _heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
}
}
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
_heap_resize :: proc "contextless" (ptr: rawptr, new_size: int) -> rawptr {
return _orca_realloc(ptr, new_size)
}
_heap_free :: proc(ptr: rawptr) {
_heap_free :: proc "contextless" (ptr: rawptr) {
_orca_free(ptr)
}

6
base/runtime/heap_allocator_other.odin
View File

@@ -2,14 +2,14 @@
//+private
package runtime
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
_heap_alloc :: proc "contextless" (size: int, zero_memory := true) -> rawptr {
unimplemented("base:runtime 'heap_alloc' procedure is not supported on this platform")
}
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
_heap_resize :: proc "contextless" (ptr: rawptr, new_size: int) -> rawptr {
unimplemented("base:runtime 'heap_resize' procedure is not supported on this platform")
}
_heap_free :: proc(ptr: rawptr) {
_heap_free :: proc "contextless" (ptr: rawptr) {
unimplemented("base:runtime 'heap_free' procedure is not supported on this platform")
}

6
base/runtime/heap_allocator_unix.odin
View File

@@ -16,7 +16,7 @@ foreign libc {
@(link_name="realloc") _unix_realloc :: proc(ptr: rawptr, size: int) -> rawptr ---
}
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
_heap_alloc :: proc "contextless" (size: int, zero_memory := true) -> rawptr {
if size <= 0 {
return nil
}
@@ -27,12 +27,12 @@ _heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
}
}
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
_heap_resize :: proc "contextless" (ptr: rawptr, new_size: int) -> rawptr {
// NOTE: _unix_realloc doesn't guarantee new memory will be zeroed on
// POSIX platforms. Ensure your caller takes this into account.
return _unix_realloc(ptr, new_size)
}
_heap_free :: proc(ptr: rawptr) {
_heap_free :: proc "contextless" (ptr: rawptr) {
_unix_free(ptr)
}

6
base/runtime/heap_allocator_windows.odin
View File

@@ -14,11 +14,11 @@ foreign kernel32 {
HeapFree :: proc(hHeap: rawptr, dwFlags: u32, lpMem: rawptr) -> b32 ---
}
_heap_alloc :: proc(size: int, zero_memory := true) -> rawptr {
_heap_alloc :: proc "contextless" (size: int, zero_memory := true) -> rawptr {
HEAP_ZERO_MEMORY :: 0x00000008
return HeapAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY if zero_memory else 0, uint(size))
}
_heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
_heap_resize :: proc "contextless" (ptr: rawptr, new_size: int) -> rawptr {
if new_size == 0 {
_heap_free(ptr)
return nil
@@ -30,7 +30,7 @@ _heap_resize :: proc(ptr: rawptr, new_size: int) -> rawptr {
HEAP_ZERO_MEMORY :: 0x00000008
return HeapReAlloc(GetProcessHeap(), HEAP_ZERO_MEMORY, ptr, uint(new_size))
}
_heap_free :: proc(ptr: rawptr) {
_heap_free :: proc "contextless" (ptr: rawptr) {
if ptr == nil {
return
}

6
core/encoding/csv/reader.odin
View File

@@ -138,7 +138,9 @@ iterator_next :: proc(r: ^Reader) -> (record: []string, idx: int, err: Error, mo
return record, r.line_count - 1, r.last_iterator_error, r.last_iterator_error == nil
}
// Get last error if we the iterator
// Get last CSV parse error if we ignored it in the iterator loop
//
// for record, row_idx in csv.iterator_next(&r) { ... }
iterator_last_error :: proc(r: Reader) -> (err: Error) {
return r.last_iterator_error
}
@@ -169,7 +171,7 @@ is_io_error :: proc(err: Error, io_err: io.Error) -> bool {
// read_all reads all the remaining records from r.
// Each record is a slice of fields.
// read_all is defined to read until an EOF, and does not treat, and does not treat EOF as an error
// read_all is defined to read until an EOF, and does not treat EOF as an error
@(require_results)
read_all :: proc(r: ^Reader, allocator := context.allocator) -> ([][]string, Error) {
context.allocator = allocator

19
core/fmt/fmt.odin
View File

@@ -368,6 +368,25 @@ caprintf :: proc(format: string, args: ..any, newline := false) -> cstring {
caprintfln :: proc(format: string, args: ..any) -> cstring {
return caprintf(format, ..args, newline=true)
}
// Creates a formatted C string
//
// *Allocates Using Context's Temporary Allocator*
//
// Inputs:
// - args: A variadic list of arguments to be formatted.
// - sep: An optional separator string (default is a single space).
//
// Returns: A formatted C string.
//
@(require_results)
ctprint :: proc(args: ..any, sep := " ") -> cstring {
str: strings.Builder
strings.builder_init(&str, context.temp_allocator)
sbprint(&str, ..args, sep=sep)
strings.write_byte(&str, 0)
s := strings.to_string(str)
return cstring(raw_data(s))
}
// Creates a formatted C string
//
// *Allocates Using Context's Temporary Allocator*

2
core/odin/parser/parser.odin
View File

@@ -1438,7 +1438,7 @@ parse_stmt :: proc(p: ^Parser) -> ^ast.Stmt {
case: error(p, stmt.pos, "#partial can only be applied to a switch statement")
}
return stmt
case "assert", "panic", "warning":
case "assert", "panic":
bd := ast.new(ast.Basic_Directive, tok.pos, end_pos(tag))
bd.tok = tok
bd.name = name

2
core/sys/windows/shell32.odin
View File

@@ -5,7 +5,7 @@ foreign import shell32 "system:Shell32.lib"
@(default_calling_convention="system")
foreign shell32 {
CommandLineToArgvW :: proc(cmd_list: wstring, num_args: ^c_int) -> ^wstring ---
CommandLineToArgvW :: proc(cmd_list: wstring, num_args: ^c_int) -> [^]wstring ---
ShellExecuteW :: proc(
hwnd: HWND,
lpOperation: LPCWSTR,

264
core/text/table/doc.odin
View File

@@ -1,18 +1,27 @@
/*
The package `table` implements ASCII/markdown/HTML/custom rendering of tables.
The package `table` implements plain-text/markdown/HTML/custom rendering of tables.
**Custom rendering example:**
tbl := init(&Table{})
padding(tbl, 0, 1)
row(tbl, "A_LONG_ENUM", "= 54,", "// A comment about A_LONG_ENUM")
row(tbl, "AN_EVEN_LONGER_ENUM", "= 1,", "// A comment about AN_EVEN_LONGER_ENUM")
build(tbl)
for row in 0..<tbl.nr_rows {
for col in 0..<tbl.nr_cols {
write_table_cell(stdio_writer(), tbl, row, col)
package main
import "core:io"
import "core:text/table"
main :: proc() {
stdout := table.stdio_writer()
tbl := table.init(&table.Table{})
table.padding(tbl, 0, 1)
table.row(tbl, "A_LONG_ENUM", "= 54,", "// A comment about A_LONG_ENUM")
table.row(tbl, "AN_EVEN_LONGER_ENUM", "= 1,", "// A comment about AN_EVEN_LONGER_ENUM")
table.build(tbl, table.unicode_width_proc)
for row in 0..<tbl.nr_rows {
for col in 0..<tbl.nr_cols {
table.write_table_cell(stdout, tbl, row, col)
}
io.write_byte(stdout, '\n')
}
io.write_byte(stdio_writer(), '\n')
}
This outputs:
@@ -20,47 +29,57 @@ This outputs:
A_LONG_ENUM = 54, // A comment about A_LONG_ENUM
AN_EVEN_LONGER_ENUM = 1, // A comment about AN_EVEN_LONGER_ENUM
**ASCII rendering example:**
**Plain-text rendering example:**
tbl := init(&Table{})
defer destroy(tbl)
package main
caption(tbl, "This is a table caption and it is very long")
import "core:fmt"
import "core:io"
import "core:text/table"
padding(tbl, 1, 1) // Left/right padding of cells
main :: proc() {
stdout := table.stdio_writer()
header(tbl, "AAAAAAAAA", "B")
header(tbl, "C") // Appends to previous header row. Same as if done header("AAAAAAAAA", "B", "C") from start.
tbl := table.init(&table.Table{})
defer table.destroy(tbl)
// Create a row with two values. Since there are three columns the third
// value will become the empty string.
//
// NOTE: header() is not allowed anymore after this.
row(tbl, 123, "foo")
table.caption(tbl, "This is a table caption and it is very long")
// Use `format()` if you need custom formatting. This will allocate into
// the arena specified at init.
row(tbl,
format(tbl, "%09d", 5),
format(tbl, "%.6f", 6.28318530717958647692528676655900576))
table.padding(tbl, 1, 1) // Left/right padding of cells
// A row with zero values is allowed as long as a previous row or header
// exist. The value and alignment of each cell can then be set
// individually.
row(tbl)
set_cell_value_and_alignment(tbl, last_row(tbl), 0, "a", .Center)
set_cell_value(tbl, last_row(tbl), 1, "bbb")
set_cell_value(tbl, last_row(tbl), 2, "c")
table.header(tbl, "AAAAAAAAA", "B")
table.header(tbl, "C") // Appends to previous header row. Same as if done header("AAAAAAAAA", "B", "C") from start.
// Headers are regular cells, too. Use header_row() as row index to modify
// header cells.
set_cell_alignment(tbl, header_row(tbl), 1, .Center) // Sets alignment of 'B' column to Center.
set_cell_alignment(tbl, header_row(tbl), 2, .Right) // Sets alignment of 'C' column to Right.
// Create a row with two values. Since there are three columns the third
// value will become the empty string.
//
// NOTE: table.header() is not allowed anymore after this.
table.row(tbl, 123, "foo")
build(tbl)
// Use `format()` if you need custom formatting. This will allocate into
// the arena specified at init.
table.row(tbl,
table.format(tbl, "%09d", 5),
table.format(tbl, "%.6f", 6.28318530717958647692528676655900576))
write_ascii_table(stdio_writer(), tbl)
write_markdown_table(stdio_writer(), tbl)
// A row with zero values is allowed as long as a previous row or header
// exist. The value and alignment of each cell can then be set
// individually.
table.row(tbl)
table.set_cell_value_and_alignment(tbl, table.last_row(tbl), 0, "a", .Center)
table.set_cell_value(tbl, table.last_row(tbl), 1, "bbb")
table.set_cell_value(tbl, table.last_row(tbl), 2, "c")
// Headers are regular cells, too. Use header_row() as row index to modify
// header cells.
table.set_cell_alignment(tbl, table.header_row(tbl), 1, .Center) // Sets alignment of 'B' column to Center.
table.set_cell_alignment(tbl, table.header_row(tbl), 2, .Right) // Sets alignment of 'C' column to Right.
table.write_plain_table(stdout, tbl)
fmt.println()
table.write_markdown_table(stdout, tbl)
}
This outputs:
@@ -83,5 +102,168 @@ and
| a | bbb | c |
respectively.
Additionally, if you want to set the alignment and values in-line while
constructing a table, you can use `aligned_row_of_values` or
`row_of_aligned_values` like so:
table.aligned_row_of_values(tbl, .Center, "Foo", "Bar")
table.row_of_aligned_values(tbl, {{.Center, "Foo"}, {.Right, "Bar"}})
**Caching Results:**
If you only need to build a table once but display it potentially many times,
it may be more efficient to cache the results of your write into a string.
Here's an example of how you can do that:
package main
import "core:fmt"
import "core:strings"
import "core:text/table"
main :: proc() {
string_buffer := strings.builder_make()
defer strings.builder_destroy(&string_buffer)
{
tbl: table.Table
table.init(&tbl)
defer table.destroy(&tbl)
table.caption(&tbl, "Hellope!")
table.row(&tbl, "Hellope", "World")
builder_writer := strings.to_writer(&string_buffer)
// The written table will be cached into the string builder after this call.
table.write_plain_table(builder_writer, &tbl)
}
// The table is inaccessible, now that we're back in the first-level scope.
// But now the results are stored in the string builder, which can be converted to a string.
my_table_string := strings.to_string(string_buffer)
// Remember that the string's allocated backing data lives in the
// builder and must still be freed.
//
// The deferred call to `builder_destroy` will take care of that for us
// in this simple example.
fmt.println(my_table_string)
}
**Regarding `Width_Procs`:**
If you know ahead of time that all the text you're parsing is ASCII, instead of
Unicode, it is more efficient to use `table.ascii_width_proc` instead of the
default `unicode_width_proc`, as that procedure has to perform in-depth lookups
to determine multiple Unicode characteristics of the codepoints parsed in order
to get the proper alignment for a variety of different scripts.
For example, you may do this instead:
table.write_plain_table(stdout, tbl, table.ascii_width_proc)
table.write_markdown_table(stdout, tbl, table.ascii_width_proc)
The output will still be the same, but the preprocessing is much faster.
You may also supply your own `Width_Proc`s, if you know more about how the text
is structured than what we can assume.
simple_cjk_width_proc :: proc(str: string) -> (result: int) {
for r in str {
result += 2
}
return
}
table.write_plain_table(stdout, tbl, simple_cjk_width_proc)
This procedure will output 2 times the number of UTF-8 runes in a string, a
simple heuristic for CJK-only wide text.
**Unicode Support:**
This package makes use of the `grapheme_count` procedure from the
`core:unicode/utf8` package. It is a complete, standards-compliant
implementation for counting graphemes and calculating visual width of a Unicode
grapheme cluster in monospace cells.
Here is a full example of how well-supported Unicode is with this package:
package main
import "core:fmt"
import "core:io"
import "core:os"
import "core:text/table"
scripts :: proc(w: io.Writer) {
t: table.Table
table.init(&t)
table.caption(&t, "Tést Suite")
table.padding(&t, 1, 3)
table.header_of_aligned_values(&t, {{.Left, "Script"}, {.Center, "Sample"}})
table.row(&t, "Latin", "At vero eos et accusamus et iusto odio dignissimos ducimus,")
table.row(&t, "Cyrillic", "Ру́сский язы́к язык восточнославянской группы славянской")
table.row(&t, "Greek", "Η ελληνική γλώσσα ανήκει στην ινδοευρωπαϊκή οικογένεια")
table.row(&t, "Younger Futhark", " ")
table.row(&t, "Chinese hanzi", "西")
table.row(&t, "Japanese kana", "")
table.row(&t, "Korean hangul", ", , ")
table.row(&t, "Thai", " -")
table.row(&t, "Georgian", " . ,")
table.row(&t, "Armenian", "Իր շուրջ հինգհազարամյա գոյության ընթացքում հայերենը շփվել է տարբեր")
table.row(&t)
table.row_of_aligned_values(&t, {{.Left, "Arabic"}, {.Right, "ٱللُّغَةُ ٱلْعَرَبِيَّة هي أكثر اللغات السامية تحدثًا، وإحدى أكثر"}})
table.row_of_aligned_values(&t, {{.Left, "Hebrew"}, {.Right, "עִבְרִית היא שפה שמית, ממשפחת השפות האפרו-אסייתיות, הידועה"}})
table.row(&t)
table.row(&t, "Swedish", "Växjö [ˈvɛkːˌɧøː] är en tätort i södra Smålands inland samt centralort i Växjö kommun")
table.row(&t, "Saxon", "Hwæt! We Gardena in geardagum, þeodcyninga, þrym gefrunon, hu ða æþelingas ellen fremedon.")
table.row(&t)
table.aligned_row_of_values(&t, .Center, "Emoji (Single codepoints)", "\U0001f4ae \U0001F600 \U0001F201 \U0001F21A")
table.row(&t, "Excessive Diacritics", "H̷e̶l̵l̸o̴p̵e̷ ̸w̶o̸r̵l̶d̵!̴")
table.write_plain_table(w, &t)
fmt.println()
}
main :: proc() {
stdout := os.stream_from_handle(os.stdout)
scripts(stdout)
}
This will print out:
+----------------------------------------------------------------------------------------------------------------------------+
| Tést Suite |
+-----------------------------+----------------------------------------------------------------------------------------------+
| Script | Sample |
+-----------------------------+----------------------------------------------------------------------------------------------+
| Latin | At vero eos et accusamus et iusto odio dignissimos ducimus, |
| Cyrillic | Ру́сский язы́к язык восточнославянской группы славянской |
| Greek | Η ελληνική γλώσσα ανήκει στην ινδοευρωπαϊκή οικογένεια |
| Younger Futhark | |
| Chinese hanzi | 西 |
| Japanese kana | |
| Korean hangul | , , |
| Thai | - |
| Georgian | . , |
| Armenian | Իր շուրջ հինգհազարամյա գոյության ընթացքում հայերենը շփվել է տարբեր |
| | |
| Arabic | ٱللُّغَةُ ٱلْعَرَبِيَّة هي أكثر اللغات السامية تحدثًا، وإحدى أكثر |
| Hebrew | עִבְרִית היא שפה שמית, ממשפחת השפות האפרו-אסייתיות, הידועה |
| | |
| Swedish | Växjö [ˈvɛkːˌɧøː] är en tätort i södra Smålands inland samt centralort i Växjö kommun |
| Saxon | Hwæt! We Gardena in geardagum, þeodcyninga, þrym gefrunon, hu ða æþelingas ellen fremedon. |
| | |
| Emoji (Single codepoints) | 💮 😀 🈁 🈚 |
| Excessive Diacritics | H̷e̶l̵l̸o̴p̵e̷ ̸w̶o̸r̵l̶d̵!̴ |
+-----------------------------+----------------------------------------------------------------------------------------------+
*/
package text_table

300
core/text/table/table.odin
View File

@@ -4,18 +4,22 @@
List of contributors:
oskarnp: Initial implementation.
Feoramund: Unicode support.
*/
package text_table
import "core:io"
import "core:fmt"
import "core:log"
import "core:mem"
import "core:mem/virtual"
import "core:unicode/utf8"
import "base:runtime"
Cell :: struct {
text: string,
width: int,
alignment: Cell_Alignment,
}
@@ -25,6 +29,14 @@ Cell_Alignment :: enum {
Right,
}
Aligned_Value :: struct {
alignment: Cell_Alignment,
value: any,
}
// Determines the width of a string used in the table for alignment purposes.
Width_Proc :: #type proc(str: string) -> int
Table :: struct {
lpad, rpad: int, // Cell padding (left/right)
cells: [dynamic]Cell,
@@ -34,13 +46,20 @@ Table :: struct {
table_allocator: runtime.Allocator, // Used for allocating cells/colw
format_allocator: runtime.Allocator, // Used for allocating Cell.text when applicable
dirty: bool, // True if build() needs to be called before rendering
// The following are computed on build()
colw: [dynamic]int, // Width of each column (including padding, excluding borders)
colw: [dynamic]int, // Width of each column (excluding padding and borders)
tblw: int, // Width of entire table (including padding, excluding borders)
}
ascii_width_proc :: proc(str: string) -> int {
return len(str)
}
unicode_width_proc :: proc(str: string) -> (width: int) {
_, _, width = #force_inline utf8.grapheme_count(str)
return
}
init :: proc{init_with_allocator, init_with_virtual_arena, init_with_mem_arena}
init_with_allocator :: proc(tbl: ^Table, format_allocator := context.temp_allocator, table_allocator := context.allocator) -> ^Table {
@@ -65,13 +84,11 @@ destroy :: proc(tbl: ^Table) {
caption :: proc(tbl: ^Table, value: string) {
tbl.caption = value
tbl.dirty = true
}
padding :: proc(tbl: ^Table, lpad, rpad: int) {
tbl.lpad = lpad
tbl.rpad = rpad
tbl.dirty = true
}
get_cell :: proc(tbl: ^Table, row, col: int, loc := #caller_location) -> ^Cell {
@@ -81,43 +98,47 @@ get_cell :: proc(tbl: ^Table, row, col: int, loc := #caller_location) -> ^Cell {
return &tbl.cells[row*tbl.nr_cols + col]
}
set_cell_value_and_alignment :: proc(tbl: ^Table, row, col: int, value: string, alignment: Cell_Alignment) {
cell := get_cell(tbl, row, col)
cell.text = format(tbl, "%v", value)
cell.alignment = alignment
tbl.dirty = true
@private
to_string :: #force_inline proc(tbl: ^Table, value: any, loc := #caller_location) -> (result: string) {
switch val in value {
case nil:
result = ""
case string:
result = val
case cstring:
result = cast(string)val
case:
result = format(tbl, "%v", val)
if result == "" {
log.error("text/table.format() resulted in empty string (arena out of memory?)", location = loc)
}
}
return
}
set_cell_value :: proc(tbl: ^Table, row, col: int, value: any, loc := #caller_location) {
cell := get_cell(tbl, row, col, loc)
switch val in value {
case nil:
cell.text = ""
case string:
cell.text = string(val)
case cstring:
cell.text = string(val)
case:
cell.text = format(tbl, "%v", val)
if cell.text == "" {
fmt.eprintf("{} text/table: format() resulted in empty string (arena out of memory?)\n", loc)
}
}
tbl.dirty = true
cell.text = to_string(tbl, value, loc)
}
set_cell_alignment :: proc(tbl: ^Table, row, col: int, alignment: Cell_Alignment, loc := #caller_location) {
cell := get_cell(tbl, row, col, loc)
cell.alignment = alignment
tbl.dirty = true
}
format :: proc(tbl: ^Table, _fmt: string, args: ..any, loc := #caller_location) -> string {
set_cell_value_and_alignment :: proc(tbl: ^Table, row, col: int, value: any, alignment: Cell_Alignment, loc := #caller_location) {
cell := get_cell(tbl, row, col, loc)
cell.text = to_string(tbl, value, loc)
cell.alignment = alignment
}
format :: proc(tbl: ^Table, _fmt: string, args: ..any) -> string {
context.allocator = tbl.format_allocator
return fmt.aprintf(_fmt, ..args)
}
header :: proc(tbl: ^Table, values: ..any, loc := #caller_location) {
header :: header_of_values
header_of_values :: proc(tbl: ^Table, values: ..any, loc := #caller_location) {
if (tbl.has_header_row && tbl.nr_rows != 1) || (!tbl.has_header_row && tbl.nr_rows != 0) {
panic("Cannot add headers after rows have been added", loc)
}
@@ -133,26 +154,108 @@ header :: proc(tbl: ^Table, values: ..any, loc := #caller_location) {
set_cell_value(tbl, header_row(tbl), col, val, loc)
col += 1
}
tbl.dirty = true
}
row :: proc(tbl: ^Table, values: ..any, loc := #caller_location) {
aligned_header_of_values :: proc(tbl: ^Table, alignment: Cell_Alignment, values: ..any, loc := #caller_location) {
if (tbl.has_header_row && tbl.nr_rows != 1) || (!tbl.has_header_row && tbl.nr_rows != 0) {
panic("Cannot add headers after rows have been added", loc)
}
if tbl.nr_rows == 0 {
tbl.nr_rows += 1
tbl.has_header_row = true
}
col := tbl.nr_cols
tbl.nr_cols += len(values)
for val in values {
set_cell_value_and_alignment(tbl, header_row(tbl), col, val, alignment, loc)
col += 1
}
}
header_of_aligned_values :: proc(tbl: ^Table, aligned_values: []Aligned_Value, loc := #caller_location) {
if (tbl.has_header_row && tbl.nr_rows != 1) || (!tbl.has_header_row && tbl.nr_rows != 0) {
panic("Cannot add headers after rows have been added", loc)
}
if tbl.nr_rows == 0 {
tbl.nr_rows += 1
tbl.has_header_row = true
}
col := tbl.nr_cols
tbl.nr_cols += len(aligned_values)
for av in aligned_values {
set_cell_value_and_alignment(tbl, header_row(tbl), col, av.value, av.alignment, loc)
col += 1
}
}
row :: row_of_values
row_of_values :: proc(tbl: ^Table, values: ..any, loc := #caller_location) {
if tbl.nr_cols == 0 {
if len(values) == 0 {
panic("Cannot create row without values unless knowing amount of columns in advance")
panic("Cannot create empty row unless the number of columns is known in advance")
} else {
tbl.nr_cols = len(values)
}
}
tbl.nr_rows += 1
for col in 0..<tbl.nr_cols {
val := values[col] if col < len(values) else nil
set_cell_value(tbl, last_row(tbl), col, val)
set_cell_value(tbl, last_row(tbl), col, val, loc)
}
tbl.dirty = true
}
aligned_row_of_values :: proc(tbl: ^Table, alignment: Cell_Alignment, values: ..any, loc := #caller_location) {
if tbl.nr_cols == 0 {
if len(values) == 0 {
panic("Cannot create empty row unless the number of columns is known in advance")
} else {
tbl.nr_cols = len(values)
}
}
tbl.nr_rows += 1
for col in 0..<tbl.nr_cols {
val := values[col] if col < len(values) else nil
set_cell_value_and_alignment(tbl, last_row(tbl), col, val, alignment, loc)
}
}
row_of_aligned_values :: proc(tbl: ^Table, aligned_values: []Aligned_Value, loc := #caller_location) {
if tbl.nr_cols == 0 {
if len(aligned_values) == 0 {
panic("Cannot create empty row unless the number of columns is known in advance")
} else {
tbl.nr_cols = len(aligned_values)
}
}
tbl.nr_rows += 1
for col in 0..<tbl.nr_cols {
if col < len(aligned_values) {
val := aligned_values[col].value
alignment := aligned_values[col].alignment
set_cell_value_and_alignment(tbl, last_row(tbl), col, val, alignment, loc)
} else {
set_cell_value_and_alignment(tbl, last_row(tbl), col, "", .Left, loc)
}
}
}
// TODO: This should work correctly when #3262 is fixed.
// row :: proc {
// row_of_values,
// aligned_row_of_values,
// row_of_aligned_values,
// }
last_row :: proc(tbl: ^Table) -> int {
return tbl.nr_rows - 1
}
@@ -165,27 +268,24 @@ first_row :: proc(tbl: ^Table) -> int {
return header_row(tbl)+1 if tbl.has_header_row else 0
}
build :: proc(tbl: ^Table) {
tbl.dirty = false
build :: proc(tbl: ^Table, width_proc: Width_Proc) {
resize(&tbl.colw, tbl.nr_cols)
mem.zero_slice(tbl.colw[:])
for row in 0..<tbl.nr_rows {
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, row, col)
if w := len(cell.text) + tbl.lpad + tbl.rpad; w > tbl.colw[col] {
tbl.colw[col] = w
}
cell.width = width_proc(cell.text)
tbl.colw[col] = max(tbl.colw[col], cell.width)
}
}
colw_sum := 0
for v in tbl.colw {
colw_sum += v
colw_sum += v + tbl.lpad + tbl.rpad
}
tbl.tblw = max(colw_sum, len(tbl.caption) + tbl.lpad + tbl.rpad)
tbl.tblw = max(colw_sum, width_proc(tbl.caption) + tbl.lpad + tbl.rpad)
// Resize columns to match total width of table
remain := tbl.tblw-colw_sum
@@ -198,13 +298,9 @@ build :: proc(tbl: ^Table) {
}
write_html_table :: proc(w: io.Writer, tbl: ^Table) {
if tbl.dirty {
build(tbl)
}
io.write_string(w, "<table>\n")
if tbl.caption != "" {
io.write_string(w, "<caption>")
io.write_string(w, "\t<caption>")
io.write_string(w, tbl.caption)
io.write_string(w, "</caption>\n")
}
@@ -219,45 +315,43 @@ write_html_table :: proc(w: io.Writer, tbl: ^Table) {
}
if tbl.has_header_row {
io.write_string(w, "<thead>\n")
io.write_string(w, " <tr>\n")
io.write_string(w, "\t<thead>\n")
io.write_string(w, "\t\t<tr>\n")
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, header_row(tbl), col)
io.write_string(w, " <th")
io.write_string(w, "\t\t\t<th")
io.write_string(w, align_attribute(cell))
io.write_string(w, ">")
io.write_string(w, cell.text)
io.write_string(w, "</th>\n")
}
io.write_string(w, " </tr>\n")
io.write_string(w, "</thead>\n")
io.write_string(w, "\t\t</tr>\n")
io.write_string(w, "\t</thead>\n")
}
io.write_string(w, "<tbody>\n")
io.write_string(w, "\t<tbody>\n")
for row in 0..<tbl.nr_rows {
if tbl.has_header_row && row == header_row(tbl) {
continue
}
io.write_string(w, " <tr>\n")
io.write_string(w, "\t\t<tr>\n")
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, row, col)
io.write_string(w, " <td")
io.write_string(w, "\t\t\t<td")
io.write_string(w, align_attribute(cell))
io.write_string(w, ">")
io.write_string(w, cell.text)
io.write_string(w, "</td>\n")
}
io.write_string(w, " </tr>\n")
io.write_string(w, "\t\t</tr>\n")
}
io.write_string(w, " </tbody>\n")
io.write_string(w, "\t</tbody>\n")
io.write_string(w, "</table>\n")
}
write_ascii_table :: proc(w: io.Writer, tbl: ^Table) {
if tbl.dirty {
build(tbl)
}
write_plain_table :: proc(w: io.Writer, tbl: ^Table, width_proc: Width_Proc = unicode_width_proc) {
build(tbl, width_proc)
write_caption_separator :: proc(w: io.Writer, tbl: ^Table) {
io.write_byte(w, '+')
@@ -271,7 +365,7 @@ write_ascii_table :: proc(w: io.Writer, tbl: ^Table) {
if col == 0 {
io.write_byte(w, '+')
}
write_byte_repeat(w, tbl.colw[col], '-')
write_byte_repeat(w, tbl.colw[col] + tbl.lpad + tbl.rpad, '-')
io.write_byte(w, '+')
}
io.write_byte(w, '\n')
@@ -280,8 +374,8 @@ write_ascii_table :: proc(w: io.Writer, tbl: ^Table) {
if tbl.caption != "" {
write_caption_separator(w, tbl)
io.write_byte(w, '|')
write_text_align(w, tbl.tblw - tbl.lpad - tbl.rpad + tbl.nr_cols - 1,
tbl.lpad, tbl.rpad, tbl.caption, .Center)
write_text_align(w, tbl.caption, .Center,
tbl.lpad, tbl.rpad, tbl.tblw + tbl.nr_cols - 1 - width_proc(tbl.caption) - tbl.lpad - tbl.rpad)
io.write_byte(w, '|')
io.write_byte(w, '\n')
}
@@ -304,47 +398,56 @@ write_ascii_table :: proc(w: io.Writer, tbl: ^Table) {
}
// Renders table according to GitHub Flavored Markdown (GFM) specification
write_markdown_table :: proc(w: io.Writer, tbl: ^Table) {
write_markdown_table :: proc(w: io.Writer, tbl: ^Table, width_proc: Width_Proc = unicode_width_proc) {
// NOTE(oskar): Captions or colspans are not supported by GFM as far as I can tell.
build(tbl, width_proc)
if tbl.dirty {
build(tbl)
}
for row in 0..<tbl.nr_rows {
write_row :: proc(w: io.Writer, tbl: ^Table, row: int, alignment: Cell_Alignment = .Left) {
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, row, col)
if col == 0 {
io.write_byte(w, '|')
}
write_text_align(w, tbl.colw[col] - tbl.lpad - tbl.rpad, tbl.lpad, tbl.rpad, cell.text,
.Center if tbl.has_header_row && row == header_row(tbl) else .Left)
write_text_align(w, cell.text, alignment, tbl.lpad, tbl.rpad, tbl.colw[col] - cell.width)
io.write_string(w, "|")
}
io.write_byte(w, '\n')
}
if tbl.has_header_row && row == header_row(tbl) {
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, row, col)
if col == 0 {
io.write_byte(w, '|')
}
switch cell.alignment {
case .Left:
io.write_byte(w, ':')
write_byte_repeat(w, max(1, tbl.colw[col]-1), '-')
case .Center:
io.write_byte(w, ':')
write_byte_repeat(w, max(1, tbl.colw[col]-2), '-')
io.write_byte(w, ':')
case .Right:
write_byte_repeat(w, max(1, tbl.colw[col]-1), '-')
io.write_byte(w, ':')
}
start := 0
if tbl.has_header_row {
row := header_row(tbl)
write_row(w, tbl, row, .Center)
for col in 0..<tbl.nr_cols {
cell := get_cell(tbl, row, col)
if col == 0 {
io.write_byte(w, '|')
}
io.write_byte(w, '\n')
divider_width := tbl.colw[col] + tbl.lpad + tbl.rpad - 1
switch cell.alignment {
case .Left:
io.write_byte(w, ':')
write_byte_repeat(w, max(1, divider_width), '-')
case .Center:
io.write_byte(w, ':')
write_byte_repeat(w, max(1, divider_width - 1), '-')
io.write_byte(w, ':')
case .Right:
write_byte_repeat(w, max(1, divider_width), '-')
io.write_byte(w, ':')
}
io.write_byte(w, '|')
}
io.write_byte(w, '\n')
start += row + 1
}
for row in start..<tbl.nr_rows {
write_row(w, tbl, row)
}
}
@@ -355,27 +458,22 @@ write_byte_repeat :: proc(w: io.Writer, n: int, b: byte) {
}
write_table_cell :: proc(w: io.Writer, tbl: ^Table, row, col: int) {
if tbl.dirty {
build(tbl)
}
cell := get_cell(tbl, row, col)
write_text_align(w, tbl.colw[col]-tbl.lpad-tbl.rpad, tbl.lpad, tbl.rpad, cell.text, cell.alignment)
write_text_align(w, cell.text, cell.alignment, tbl.lpad, tbl.rpad, tbl.colw[col] - cell.width)
}
write_text_align :: proc(w: io.Writer, colw, lpad, rpad: int, text: string, alignment: Cell_Alignment) {
write_text_align :: proc(w: io.Writer, text: string, alignment: Cell_Alignment, lpad, rpad, space: int) {
write_byte_repeat(w, lpad, ' ')
switch alignment {
case .Left:
io.write_string(w, text)
write_byte_repeat(w, colw - len(text), ' ')
write_byte_repeat(w, space, ' ')
case .Center:
pad := colw - len(text)
odd := pad & 1 != 0
write_byte_repeat(w, pad/2, ' ')
write_byte_repeat(w, space/2, ' ')
io.write_string(w, text)
write_byte_repeat(w, pad/2 + 1 if odd else pad/2, ' ')
write_byte_repeat(w, space/2 + space & 1, ' ')
case .Right:
write_byte_repeat(w, colw - len(text), ' ')
write_byte_repeat(w, space, ' ')
io.write_string(w, text)
}
write_byte_repeat(w, rpad, ' ')

20
src/check_builtin.cpp
View File

@@ -1714,26 +1714,6 @@ gb_internal bool check_builtin_procedure_directive(CheckerContext *c, Operand *o
operand->type = t_untyped_bool;
operand->mode = Addressing_Constant;
} else if (name == "warning") {
ERROR_BLOCK();
if (ce->args.count != 1) {
error(call, "'#warning' expects 1 argument, got %td", ce->args.count);
return false;
}
if (!is_type_string(operand->type) && operand->mode != Addressing_Constant) {
gbString str = expr_to_string(ce->args[0]);
error(call, "'%s' is not a constant string", str);
gb_string_free(str);
return false;
}
warning(call, "%.*s", LIT(operand->value.value_string));
if (c->proc_name != "") {
gbString str = type_to_string(c->curr_proc_sig);
error_line("\tCalled within '%.*s' :: %s\n", LIT(c->proc_name), str);
gb_string_free(str);
}
operand->type = t_invalid;
operand->mode = Addressing_NoValue;
} else if (name == "panic") {
ERROR_BLOCK();
if (ce->args.count != 1) {

14
src/checker.cpp
View File

@@ -3493,20 +3493,6 @@ gb_internal DECL_ATTRIBUTE_PROC(proc_decl_attribute) {
error(elem, "Expected a string value for '%.*s'", LIT(name));
}
return true;
} else if (name == "warning") {
ExactValue ev = check_decl_attribute_value(c, value);
if (ev.kind == ExactValue_String) {
String msg = ev.value_string;
if (msg.len == 0) {
error(elem, "Warning message cannot be an empty string");
} else {
ac->warning_message = msg;
}
} else {
error(elem, "Expected a string value for '%.*s'", LIT(name));
}
return true;
} else if (name == "require_results") {
if (value != nullptr) {
error(elem, "Expected no value for '%.*s'", LIT(name));

2
src/parser.cpp
View File

@@ -5167,7 +5167,7 @@ gb_internal Ast *parse_stmt(AstFile *f) {
break;
}
return s;
} else if (tag == "assert" || tag == "panic" || tag == "warning") {
} else if (tag == "assert" || tag == "panic") {
Ast *t = ast_basic_directive(f, hash_token, name);
Ast *stmt = ast_expr_stmt(f, parse_call_expr(f, t));
expect_semicolon(f);

4
vendor/wgpu/wgpu.odin vendored
View File

@@ -25,6 +25,8 @@ when ODIN_OS == .Windows {
"system:ntdll.lib",
"system:opengl32.lib",
"system:advapi32.lib",
"system:user32.lib",
"system:gdi32.lib",
}
} else when ODIN_OS == .Darwin {
@(private) ARCH :: "x86_64" when ODIN_ARCH == .amd64 else "aarch64" when ODIN_ARCH == .arm64 else #panic("unsupported WGPU Native architecture")
@@ -52,7 +54,7 @@ when ODIN_OS == .Windows {
foreign import libwgpu {
LIB,
"system:ld",
"system:dl",
"system:m",
}
} else when ODIN_OS == .JS {