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abdelrahman/wizapp-stdlib:main abdelrahman/wizapp-stdlib:growing_arena abdelrahman/wizapp-stdlib:mem_context_and_allocator
abdelrahman/wizapp-stdlib:v2.0.0 abdelrahman/wizapp-stdlib:v1.2.0 abdelrahman/wizapp-stdlib:v1.1.2 abdelrahman/wizapp-stdlib:v1.1.1 abdelrahman/wizapp-stdlib:v1.1.0 abdelrahman/wizapp-stdlib:v1.0.4 abdelrahman/wizapp-stdlib:v1.0.3 abdelrahman/wizapp-stdlib:v1.0.2 abdelrahman/wizapp-stdlib:v1.0.1 abdelrahman/wizapp-stdlib:v1.0.0
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compare: abdelrahman/wizapp-stdlib:d79e7615a1c213718175e52bf887f93eeebe71bf
Branches Tags
abdelrahman/wizapp-stdlib:main abdelrahman/wizapp-stdlib:growing_arena abdelrahman/wizapp-stdlib:mem_context_and_allocator
abdelrahman/wizapp-stdlib:v2.0.0 abdelrahman/wizapp-stdlib:v1.2.0 abdelrahman/wizapp-stdlib:v1.1.2 abdelrahman/wizapp-stdlib:v1.1.1 abdelrahman/wizapp-stdlib:v1.1.0 abdelrahman/wizapp-stdlib:v1.0.4 abdelrahman/wizapp-stdlib:v1.0.3 abdelrahman/wizapp-stdlib:v1.0.2 abdelrahman/wizapp-stdlib:v1.0.1 abdelrahman/wizapp-stdlib:v1.0.0

6 Commits
v2.0.0 .. d79e7615a1

Author SHA1 Message Date
abdelrahman d79e7615a1 Update dbl list C++ tests 2025-12-17 03:37:56 +00:00
abdelrahman 80d79fca53 Update C++ version of wapp_str8_node_from_str8 2025-12-17 03:37:29 +00:00
abdelrahman e90901406e Update dbl list C tests 2025-12-17 02:52:29 +00:00
abdelrahman 80308172ec Add generic no codegen dbl list API 2025-12-17 02:52:15 +00:00
abdelrahman 4805b183e8 Rename Array to GenericArray to avoid name clashes 2025-12-17 02:50:53 +00:00
abdelrahman d36812e632 Remove codegen 2025-12-17 02:49:48 +00:00
110 changed files with 7109 additions and 7155 deletions
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.gitea/workflows/release.yml
-81
View File
@@ -1,81 +0,0 @@
name: Release
on:
push:
branches:
- main # or your default branch
jobs:
release:
runs-on: self-hosted
steps:
- name: Checkout repository
uses: actions/checkout@v4
with:
fetch-depth: 0 # fetch full history
tags: true # fetch all tags
- name: Check/Create Tag
id: tag
run: |
VERSION=$(cat VERSION | tr -d '[:space:]') # read version and trim whitespace
echo "Version: $VERSION"
if git rev-parse "v$VERSION" >/dev/null 2>&1; then
echo "Tag v$VERSION already exists. Skipping release."
exit 0
fi
# Tag does not exist → create it
echo "Creating tag v$VERSION"
git tag "v$VERSION"
git push origin "v$VERSION"
echo "version=$VERSION" >> $GITHUB_OUTPUT
- name: Build Artifacts
if: steps.tag.outputs.version
run: |
chmod +x ./package
./package
ls -l dist/
- name: Create Release
if: steps.tag.outputs.version
id: create_release
run: |
VERSION="${{ steps.tag.outputs.version }}"
RESPONSE=$(curl -s -X POST \
-H "Authorization: token ${{ secrets.GITEA_TOKEN }}" \
-H "Content-Type: application/json" \
"https://git.thewizardapprentice.com/api/v1/repos/${{ gitea.repository }}/releases" \
-d '{
"tag_name": "v'"$VERSION"'",
"name": "wapp-v'"$VERSION"'",
"body": "Automated release for wapp-v'"$VERSION"'",
"draft": false,
"prerelease": false
}')
echo "$RESPONSE"
RELEASE_ID=$(echo $RESPONSE | jq -r '.id')
echo "release_id=$RELEASE_ID" >> $GITHUB_OUTPUT
- name: Upload Artifacts
if: steps.tag.outputs.version
run: |
RELEASE_ID="${{ steps.create_release.outputs.release_id }}"
for FILE in dist/*; do
FILENAME=$(basename "$FILE")
echo "Uploading $FILENAME"
curl -X POST \
-H "Authorization: token ${{ secrets.GITEA_TOKEN }}" \
-H "Content-Type: application/octet-stream" \
--data-binary @"$FILE" \
"https://git.thewizardapprentice.com/api/v1/repos/${{ gitea.repository }}/releases/$RELEASE_ID/assets?name=$FILENAME"
done
- name: Cleanup
if: steps.tag.outputs.version
run: rm -rf dist/*
LICENSE
-201
View File
@@ -1,201 +0,0 @@
Apache License
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http://www.apache.org/licenses/
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END OF TERMS AND CONDITIONS
APPENDIX: How to apply the Apache License to your work.
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Copyright [2026] [Abdelrahman Said]
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
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Unless required by applicable law or agreed to in writing, software
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WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
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Makefile
+14 -14
View File
@@ -1,4 +1,4 @@
.PHONY: help full base os prng testing uuid all clean builddir build-test run-test install build-lib
.PHONY: help full base os prng testing uuid all clean builddir build-test run-test install build-lib ccodegen
# External variables
CC = clang
@@ -21,22 +21,21 @@ override TEST_INCLUDE := -Isrc $(shell find tests -type d | xargs -I{} ech
override TEST_SRC := $(shell find tests -type f -name "*.c" | xargs -I{} echo -n "{} ")
override TEST_C_SRC := src/wapp.c $(TEST_SRC)
override TEST_CXX_SRC := $(shell find tests -type f -name "*.cc" | xargs -I{} echo -n "{} ")
override LIB_BASENAME := wapp
override OBJ_OUT := $(BUILD_DIR)/$(LIB_BASENAME).o
override LIB_STATIC_NAME := lib$(LIB_BASENAME).a
override LIB_OUT := $(BUILD_DIR)/$(LIB_STATIC_NAME)
override LIB_NAME := wapp
override OBJ_OUT := $(BUILD_DIR)/$(LIB_NAME).o
override LIB_OUT := $(BUILD_DIR)/lib$(LIB_NAME).a
override TEST_C_OUT := $(BUILD_DIR)/wapptest
override TEST_CXX_OUT := $(BUILD_DIR)/wapptestcc
override ABS_INSTALL_PREFIX := $(shell mkdir -p $(INSTALL_PREFIX) && realpath $(INSTALL_PREFIX))
override INCLUDE_INSTALL := $(ABS_INSTALL_PREFIX)/include/$(LIB_BASENAME)
override INCLUDE_INSTALL := $(ABS_INSTALL_PREFIX)/include/$(LIB_NAME)
override LIB_INSTALL := $(ABS_INSTALL_PREFIX)/lib
override HEADER_INSTALL_CMD := scripts/header_install.sh
ifeq ($(origin BUILD_FLAGS), undefined)
ifeq ($(BUILD_TYPE),Debug)
BUILD_FLAGS += -g -fsanitize=address,undefined -DWP_DEBUG_ASSERT
BUILD_FLAGS += -g -fsanitize=address,undefined -DWAPP_DEBUG_ASSERT
else ifeq ($(BUILD_TYPE),RelWithDebInfo)
BUILD_FLAGS += -g -O2 -fsanitize=address,undefined -DWP_DEBUG_ASSERT
BUILD_FLAGS += -g -O2 -fsanitize=address,undefined -DWAPP_DEBUG_ASSERT
else ifeq ($(BUILD_TYPE),Release)
BUILD_FLAGS += -O3
else
@@ -46,7 +45,7 @@ endif
# Disable runtime asserts
ifeq ($(RUNTIME_ASSERT), false)
override BUILD_FLAGS += -DWP_NO_RUNTIME_ASSERT
override BUILD_FLAGS += WAPP_NO_RUNTIME_ASSERT
endif
ifeq ($(CC),gcc)
@@ -146,14 +145,12 @@ uuid: install
clean:
@rm -rf "$(BUILD_DIR)"
@rm -rf "$(INCLUDE_INSTALL)"
@rm -f "$(LIB_INSTALL)/$(LIB_STATIC_NAME)"
builddir:
@mkdir -p "$(BUILD_DIR)"
build-c-test:
bear -- $(CC) $(CSTD) $(CFLAGS) $(BUILD_FLAGS) $(TEST_INCLUDE) $(TEST_C_SRC) -o "$(TEST_C_OUT)"
$(CC) $(CSTD) $(CFLAGS) $(BUILD_FLAGS) $(TEST_INCLUDE) $(TEST_C_SRC) -o "$(TEST_C_OUT)"
run-c-test: build-c-test
@echo -e "\n\033[34;1mRUNNING C TESTS\033[0m"
@@ -161,7 +158,7 @@ run-c-test: build-c-test
@rm "$(TEST_C_OUT)"
build-cc-test:
bear -a -- $(CXX) $(CXXSTD) $(CFLAGS) $(BUILD_FLAGS) $(TEST_INCLUDE) $(TEST_CXX_SRC) "$(LIB_OUT)" -o "$(TEST_CXX_OUT)"
$(CXX) $(CXXSTD) $(CFLAGS) $(BUILD_FLAGS) $(TEST_INCLUDE) $(TEST_CXX_SRC) "$(LIB_OUT)" -o "$(TEST_CXX_OUT)"
run-cc-test: build-cc-test
@echo -e "\n\033[34;1mRUNNING C++ TESTS\033[0m"
@@ -175,6 +172,9 @@ install: build-lib
@bash $(HEADER_INSTALL_CMD) $(LIB_SRC) "$(INCLUDE_INSTALL)" $(INCLUDES)
build-lib: builddir
bear -a -- $(CC) -c $(CSTD) $(CFLAGS) $(BUILD_FLAGS) $(LIBFLAGS) $(LIB_SRC) -o "$(OBJ_OUT)"
$(CC) -c $(CSTD) $(CFLAGS) $(BUILD_FLAGS) $(LIBFLAGS) $(LIB_SRC) -o "$(OBJ_OUT)"
$(AR) r "$(LIB_OUT)" "$(OBJ_OUT)"
@rm "$(OBJ_OUT)"
ccodegen:
$(CC) $(CSTD) $(CFLAGS) $(BUILD_FLAGS) $(LIBFLAGS) -Isrc/os src/os/wapp_os.c ccodegen/*.c -o ccgen
README.md
+1 -3
View File
@@ -1,5 +1,3 @@
# Wizard Apprentice Standard Library
**Wizard Apprentice Standard Library** (`wapp`) is a lightweight collection of reusable utilities for **C and C++** projects.
For more information about the library and how to use it, check the [wiki](https://git.thewizardapprentice.com/abdelrahman/wizapp-stdlib/wiki).
A base layer for C/C++ projects
VERSION
-1
View File
@@ -1 +0,0 @@
2.0.0
build
+1 -1
View File
@@ -55,4 +55,4 @@ if ! contains ${BUILD_TYPE} "${ACCEPTED_BUILD_TYPES[@]}"; then
exit 1
fi
make BUILD_TYPE=$BUILD_TYPE $ARGS
bear -- make BUILD_TYPE=$BUILD_TYPE $ARGS
build.ps1
+3
View File
@@ -52,6 +52,9 @@ mkdir -p $ObjDir > $null
mkdir -p $OutDir > $null
mkdir -p $TestsDir > $null
# Run code generation
Invoke-Expression "python -m codegen"
# Build and run C tests
Invoke-Expression "$Compiler $GeneralFlags $CStd $IncludeDirs $TestIncludeDirs $SrcFiles $TestCSrcFiles $TestCOutputFlags" -ErrorAction Stop
Invoke-Expression "$TestsDir/$TestCOutputBasename.exe"
ccgen
Executable
BIN
View File
Binary file not shown.
ccodegen/datatypes.c
+522
View File
@@ -0,0 +1,522 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "datatypes.h"
#include "dbl_list.h"
#include "type_enums.h"
#include "wapp_core.h"
#define ERR_MSG "Not enough capacity in dst buffer"
#define CFILE_DISCLAIMER "/**\n" \
" * THIS FILE IS AUTOMATICALLY GENERATED. ANY MODIFICATIONS TO IT WILL BE OVERWRITTEN.\n" \
" */\n\n"
void cobject_to_string(Str8 *dst, const CObject *object) {
wapp_debug_assert(dst != NULL && object != NULL, "`allocator`, `dst` and `object` should not be NULL");
switch (object->kind) {
case COBJECT_CTYPE:
ctype_to_string(dst, object->object.c_type);
break;
case COBJECT_CQUALIFIER:
cqualifier_to_string(dst, object->object.c_qualifier);
break;
case COBJECT_CPOINTERTYPE:
cpointertype_to_string(dst, object->object.c_pointertype);
break;
case COBJECT_CPOINTER:
cpointer_to_string(dst, &(object->object.c_pointer));
break;
case COBJECT_CENUMVAL:
cenumval_to_string(dst, &(object->object.c_enumval));
break;
case COBJECT_CENUM:
cenum_to_string(dst, &(object->object.c_enum));
break;
case COBJECT_CMACRO:
cmacro_to_string(dst, &(object->object.c_macro));
break;
case COBJECT_CSTRUCT:
cstruct_to_string(dst, &(object->object.c_struct));
break;
case COBJECT_CUSERTYPE:
cusertype_to_string(dst, &(object->object.c_usertype));
break;
case COBJECT_CDATATYPE:
cdatatype_to_string(dst, &(object->object.c_datatype));
break;
case COBJECT_CARG:
carg_to_string(dst, &(object->object.c_arg));
break;
case COBJECT_CFUNC:
cfunc_to_string(dst, &(object->object.c_func));
break;
case COBJECT_CINCULDE:
cinclude_to_string(dst, &(object->object.c_include));
break;
case COBJECT_CHEADER:
cheader_to_string(dst, &(object->object.c_header));
break;
case COBJECT_CSOURCE:
csource_to_string(dst, &(object->object.c_source));
break;
default:
break;
}
}
void ctype_to_string(Str8 *dst, CType ctype) {
wapp_runtime_assert(ctypes[ctype].size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, &ctypes[ctype]);
}
void cqualifier_to_string(Str8 *dst, CQualifier cqualifier) {
wapp_runtime_assert(cqualifiers[cqualifier].size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, &cqualifiers[cqualifier]);
}
void cpointertype_to_string(Str8 *dst, CPointerType cpointertype) {
wapp_runtime_assert(cpointertypes[cpointertype].size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, &cpointertypes[cpointertype]);
}
void cpointer_to_string(Str8 *dst, const CPointer *cpointer) {
wapp_debug_assert(dst != NULL && cpointer != NULL, "`dst` and `cpointer` should not be NULL");
u64 total_size = cpointertypes[cpointer->type].size + cqualifiers[cpointer->qualifier].size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(cpointertypes[cpointer->type]),
wapp_str8_varg(cqualifiers[cpointer->qualifier]));
}
void cenumval_to_string(Str8 *dst, const CEnumVal *cenumval) {
wapp_debug_assert(dst != NULL && cenumval != NULL, "`dst` and `cenumval` should not be NULL");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_TINY);
u64 tmp_size = 0;
if (cenumval->value != NULL) {
wapp_str8_format(&tmp, " = %d", *(cenumval->value));
tmp_size = tmp.size;
}
u64 total_size = cenumval->name.size + tmp_size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(cenumval->name),
wapp_str8_varg(tmp));
}
void cenum_to_string(Str8 *dst, const CEnum *cenum) {
wapp_debug_assert(dst != NULL && cenum != NULL, "`dst` and `cenum` should not be NULL");
Str8 header = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 values = wapp_str8_buf(CCGEN_BUF_MAX);
Str8 footer = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 tmp = wapp_str8_buf(CCGEN_BUF_LARGE);
if (cenum->add_typedef) {
wapp_str8_copy_cstr_capped(&header, "typedef enum {\n");
wapp_str8_format(&footer, "} " WAPP_STR8_SPEC ";\n", wapp_str8_varg(cenum->name));
} else {
wapp_str8_format(&header, "enum " WAPP_STR8_SPEC " {\n", wapp_str8_varg(cenum->name));
wapp_str8_copy_cstr_capped(&footer, "};\n");
}
for (u64 i = 0; i < cenum->values.node_count; ++i) {
cenumval_to_string(&tmp, wapp_cenumval_list_get(&(cenum->values), i)->item);
// Add 4 for extra characters
wapp_runtime_assert(tmp.size + 4 <= values.capacity - values.size, ERR_MSG);
wapp_str8_concat_capped(&values, &wapp_str8_lit_ro(" "));
wapp_str8_concat_capped(&values, &tmp);
wapp_str8_concat_capped(&values, &wapp_str8_lit_ro(",\n"));
}
u64 total_size = header.size + values.size + footer.size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(header),
wapp_str8_varg(values),
wapp_str8_varg(footer));
}
void cmacro_to_string(Str8 *dst, const CMacro *cmacro) {
wapp_debug_assert(dst != NULL && cmacro != NULL, "`dst` and `cmacro` should not be NULL");
Str8 def = wapp_str8_lit("#define ");
u64 total_size = def.size + cmacro->name.size + cmacro->value.size + 1; // Add 1 for newline
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC " " WAPP_STR8_SPEC "\n",
wapp_str8_varg(def),
wapp_str8_varg(cmacro->name),
wapp_str8_varg(cmacro->value));
}
void cstruct_to_string(Str8 *dst, const CStruct *cstruct) {
wapp_debug_assert(dst != NULL && cstruct != NULL, "`dst` and `cstruct` should not be NULL");
Str8 declaration = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 definition = wapp_str8_buf(CCGEN_BUF_MAX);
declare_cstruct(&declaration, cstruct);
define_cstruct(&definition, cstruct);
u64 total_size = declaration.size + definition.size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst, WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(declaration), wapp_str8_varg(definition));
}
void declare_cstruct(Str8 *dst, const CStruct *cstruct) {
wapp_debug_assert(dst != NULL && cstruct != NULL, "`dst` and `cstruct` should not be NULL");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MAX);
wapp_str8_format(&tmp,
"typedef struct " WAPP_STR8_SPEC " " WAPP_STR8_SPEC ";\n",
wapp_str8_varg(cstruct->name),
wapp_str8_varg(cstruct->typedef_name.size > 0 ? cstruct->typedef_name : cstruct->name));
wapp_runtime_assert(tmp.size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, &tmp);
}
void define_cstruct(Str8 *dst, const CStruct *cstruct) {
wapp_debug_assert(dst != NULL && cstruct != NULL, "`dst` and `cstruct` should not be NULL");
Str8 definition = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 args = wapp_str8_buf(CCGEN_BUF_MAX);
Str8 footer = wapp_str8_lit_ro("};\n");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MEDIUM);
wapp_str8_format(&definition, "struct " WAPP_STR8_SPEC " {\n", wapp_str8_varg(cstruct->name));
for (u64 i = 0; i < cstruct->args.node_count; ++i) {
carg_to_string(&tmp, wapp_carg_list_get(&(cstruct->args), i)->item);
// Add 4 for extra characters
wapp_runtime_assert(tmp.size + 4 <= args.capacity - args.size, ERR_MSG);
wapp_str8_concat_capped(&args, &wapp_str8_lit_ro(" "));
wapp_str8_concat_capped(&args, &tmp);
wapp_str8_concat_capped(&args, &wapp_str8_lit_ro(";\n"));
}
u64 total_size = definition.size + args.size + footer.size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(definition),
wapp_str8_varg(args),
wapp_str8_varg(footer));
}
void cusertype_to_string(Str8 *dst, const CUserType *cusertype) {
wapp_debug_assert(dst != NULL && cusertype != NULL, "`dst` and `cusertype` should not be NULL");
switch (cusertype->kind) {
case CUSERTYPE_CENUM:
cenum_to_string(dst, &(cusertype->type.c_enum));
break;
case CUSERTYPE_CSTRUCT:
cstruct_to_string(dst, &(cusertype->type.c_struct));
break;
default:
break;
}
}
void cdatatype_to_string(Str8 *dst, const CDataType *cdatatype) {
wapp_debug_assert(dst != NULL && cdatatype != NULL, "`dst` and `cdatatype` should not be NULL");
switch (cdatatype->kind) {
case CDATATYPE_CTYPE:
ctype_to_string(dst, cdatatype->type.c_type);
break;
case CDATATYPE_CUSERTYPE:
cusertype_to_string(dst, &(cdatatype->type.c_usertype));
break;
case CDATATYPE_STR:
wapp_runtime_assert(cdatatype->type.str.size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, &(cdatatype->type.str));
break;
default:
break;
}
}
void carg_to_string(Str8 *dst, const CArg *carg) {
wapp_debug_assert(dst != NULL && carg != NULL, "`dst` and `carg` should not be NULL");
Str8 qualifier = wapp_str8_buf(CCGEN_BUF_MEDIUM);
Str8 type = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 pointer = wapp_str8_buf(CCGEN_BUF_MEDIUM);
Str8 array = wapp_str8_buf(CCGEN_BUF_MEDIUM);
cqualifier_to_string(&qualifier, carg->qualifier);
cdatatype_to_string(&type, &(carg->type));
wapp_str8_concat_capped(&type, &wapp_str8_lit_ro(" "));
cpointer_to_string(&pointer, &(carg->pointer));
if (carg->is_array) { wapp_str8_copy_cstr_capped(&array, "[]"); }
u64 total_size = qualifier.size + type.size + pointer.size + array.size + carg->name.size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst, WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC,
wapp_str8_varg(qualifier), wapp_str8_varg(type), wapp_str8_varg(pointer),
wapp_str8_varg(carg->name), wapp_str8_varg(array));
}
void cfunc_to_string(Str8 *dst, const CFunc *cfunc) {
wapp_debug_assert(dst != NULL && cfunc != NULL, "`dst` and `cfunc` should not be NULL");
Str8 qualifiers = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 args = wapp_str8_buf(CCGEN_BUF_LARGE);
Str8 ret_type = wapp_str8_buf(CCGEN_BUF_SMALL);
Str8 pointer = wapp_str8_buf(CCGEN_BUF_SMALL);
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MEDIUM);
CQualifier *qf = NULL;
CArg *arg = NULL;
for (u64 i = 0; i < cfunc->qualifiers.node_count; ++i) {
qf = wapp_cqualifier_list_get(&(cfunc->qualifiers), i)->item;
if (*qf == CQUALIFIER_NONE) { continue; }
cqualifier_to_string(&tmp, *qf);
wapp_runtime_assert(tmp.size + 1 <= qualifiers.capacity - qualifiers.size, ERR_MSG);
if (qualifiers.size > 0) { wapp_str8_concat_capped(&qualifiers, &wapp_str8_lit_ro(" ")); }
wapp_str8_concat_capped(&qualifiers, &tmp);
}
for (u64 i = 0; i < cfunc->args.node_count; ++i) {
arg = wapp_carg_list_get(&(cfunc->args), i)->item;
carg_to_string(&tmp, arg);
wapp_runtime_assert(tmp.size + 2 <= args.capacity - args.size, ERR_MSG);
wapp_str8_concat_capped(&args, &tmp);
if (i + 1 < cfunc->args.node_count) { wapp_str8_concat_capped(&args, &wapp_str8_lit_ro(", ")); }
}
cdatatype_to_string(&ret_type, &(cfunc->ret_type));
cpointer_to_string(&pointer, &(cfunc->pointer));
u64 total_size = cfunc->name.size + qualifiers.size + args.size + ret_type.size + pointer.size + 4;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC " " WAPP_STR8_SPEC WAPP_STR8_SPEC "(" WAPP_STR8_SPEC ")",
wapp_str8_varg(qualifiers),
wapp_str8_varg(ret_type),
wapp_str8_varg(pointer),
wapp_str8_varg(cfunc->name),
wapp_str8_varg(args));
}
void declare_cfunc(Str8 *dst, const CFunc *cfunc) {
wapp_debug_assert(dst != NULL && cfunc != NULL, "`dst` and `cfunc` should not be NULL");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MAX);
cfunc_to_string(&tmp, cfunc);
wapp_runtime_assert(tmp.size + 2 <= dst->capacity, ERR_MSG);
wapp_str8_format(dst, WAPP_STR8_SPEC ";\n", wapp_str8_varg(tmp));
}
void define_cfunc(Str8 *dst, const CFunc *cfunc) {
wapp_debug_assert(dst != NULL && cfunc != NULL, "`dst` and `cfunc` should not be NULL");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MAX);
cfunc_to_string(&tmp, cfunc);
wapp_runtime_assert(tmp.size + cfunc->body.size + 8 <= dst->capacity, ERR_MSG);
wapp_str8_format(dst, WAPP_STR8_SPEC " {\n" WAPP_STR8_SPEC "\n}\n\n",
wapp_str8_varg(tmp), wapp_str8_varg(cfunc->body));
}
void cinclude_to_string(Str8 *dst, const CInclude *cinclude) {
wapp_debug_assert(dst != NULL && cinclude != NULL, "`dst` and `cinclude` should not be NULL");
Str8 header_str = wapp_str8_buf(CCGEN_BUF_LARGE);
if (!cheaderinclude_to_string(&header_str, &(cinclude->header))) { return; }
Str8 inc = wapp_str8_lit("#include ");
Str8 open_symbol = wapp_str8_buf(CCGEN_BUF_MIN);
Str8 close_symbol = wapp_str8_buf(CCGEN_BUF_MIN);
if (cinclude->is_local) {
wapp_str8_concat_capped(&open_symbol, &wapp_str8_lit_ro("\""));
wapp_str8_concat_capped(&close_symbol, &wapp_str8_lit_ro("\""));
if (cinclude->same_dir) { wapp_str8_concat_capped(&open_symbol, &wapp_str8_lit_ro("./")); }
} else {
wapp_str8_concat_capped(&open_symbol, &wapp_str8_lit_ro("<"));
wapp_str8_concat_capped(&close_symbol, &wapp_str8_lit_ro(">"));
}
u64 total_size = header_str.size + inc.size + open_symbol.size + close_symbol.size;
wapp_runtime_assert(total_size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst,
WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC WAPP_STR8_SPEC "\n",
wapp_str8_varg(inc),
wapp_str8_varg(open_symbol),
wapp_str8_varg(header_str),
wapp_str8_varg(close_symbol));
}
void cheader_to_string(Str8 *dst, const CHeader *cheader) {
wapp_debug_assert(dst != NULL && cheader != NULL, "`dst` and `cheader` should not be NULL");
Allocator arena = wapp_mem_arena_allocator_init(MB(64));
Str8 *output = wapp_str8_alloc_buf(&arena, KB(32));
wapp_runtime_assert(output != NULL, "Failed to allocate buffer");
Str8 header_guard_name = wapp_str8_buf(CCGEN_BUF_SMALL);
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MAX);
// ADD HEADER GUARD AND START C LINKAGE
wapp_str8_to_upper(&header_guard_name, &(cheader->name));
wapp_str8_concat_capped(&header_guard_name, &wapp_str8_lit_ro("_H"));
wapp_str8_format(&tmp, "#ifndef " WAPP_STR8_SPEC "\n#define " WAPP_STR8_SPEC "\n\n"
"#ifdef WAPP_PLATFORM_CPP\nBEGIN_C_LINKAGE\n#endif // !WAPP_PLATFORM_CPP\n\n",
wapp_str8_varg(header_guard_name), wapp_str8_varg(header_guard_name));
wapp_str8_alloc_concat(&arena, output, &tmp);
for (u64 i = 0; i < cheader->includes.node_count; ++i) {
cinclude_to_string(&tmp, wapp_cinclude_list_get(&(cheader->includes), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (cheader->includes.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < cheader->macros.node_count; ++i) {
cmacro_to_string(&tmp, wapp_cmacro_list_get(&(cheader->macros), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (cheader->macros.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
if (cheader->cpp_macros.node_count > 0) {
wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("#ifdef WAPP_PLATFORM_CPP\n"));
for (u64 i = 0; i < cheader->cpp_macros.node_count; ++i) {
cmacro_to_string(&tmp, wapp_cmacro_list_get(&(cheader->cpp_macros), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("#else\n"));
for (u64 i = 0; i < cheader->c_macros.node_count; ++i) {
cmacro_to_string(&tmp, wapp_cmacro_list_get(&(cheader->c_macros), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("#endif // !WAPP_PLATFORM_CPP\n\n"));
}
for (u64 i = 0; i < cheader->decl_types.node_count; ++i) {
declare_cstruct(&tmp, wapp_cstruct_list_get(&(cheader->decl_types), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (cheader->decl_types.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < cheader->types.node_count; ++i) {
cusertype_to_string(&tmp, wapp_cusertype_list_get(&(cheader->types), i)->item);
wapp_str8_concat_capped(&tmp, &wapp_str8_lit_ro("\n"));
wapp_str8_alloc_concat(&arena, output, &tmp);
}
for (u64 i = 0; i < cheader->funcs.node_count; ++i) {
declare_cfunc(&tmp, wapp_cfunc_list_get(&(cheader->funcs), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
// END C LINKAGE AND CLOSE HEADER GUARD
wapp_str8_format(&tmp, "\n#ifdef WAPP_PLATFORM_CPP\nEND_C_LINKAGE\n#endif // !WAPP_PLATFORM_CPP\n\n"
"#endif // !" WAPP_STR8_SPEC "\n", wapp_str8_varg(header_guard_name));
wapp_str8_alloc_concat(&arena, output, &tmp);
wapp_runtime_assert(output->size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, output);
wapp_mem_arena_allocator_destroy(&arena);
}
void csource_to_string(Str8 *dst, const CSource *csource) {
wapp_debug_assert(dst != NULL && csource != NULL, "`dst` and `csource` should not be NULL");
Allocator arena = wapp_mem_arena_allocator_init(MB(64));
Str8 *output = wapp_str8_alloc_buf(&arena, KB(32));
Str8 *internal_funcs_def = wapp_str8_alloc_buf(&arena, KB(16));
wapp_runtime_assert(output != NULL && internal_funcs_def != NULL, "Failed to allocate buffer");
Str8 tmp = wapp_str8_buf(CCGEN_BUF_MAX);
for (u64 i = 0; i < csource->includes.node_count; ++i) {
cinclude_to_string(&tmp, wapp_cinclude_list_get(&(csource->includes), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (csource->includes.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < csource->macros.node_count; ++i) {
cmacro_to_string(&tmp, wapp_cmacro_list_get(&(csource->macros), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (csource->macros.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < csource->decl_types.node_count; ++i) {
declare_cstruct(&tmp, wapp_cstruct_list_get(&(csource->decl_types), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
if (csource->decl_types.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < csource->types.node_count; ++i) {
cusertype_to_string(&tmp, wapp_cusertype_list_get(&(csource->types), i)->item);
wapp_str8_concat_capped(&tmp, &wapp_str8_lit_ro("\n"));
wapp_str8_alloc_concat(&arena, output, &tmp);
}
Str8RO _wapp_intern = wapp_str8_lit_ro("wapp_intern ");
for (u64 i = 0; i < csource->internal_funcs.node_count; ++i) {
declare_cfunc(&tmp, wapp_cfunc_list_get(&(csource->internal_funcs), i)->item);
wapp_str8_alloc_concat(&arena, output, &_internal);
wapp_str8_alloc_concat(&arena, output, &tmp);
define_cfunc(&tmp, wapp_cfunc_list_get(&(csource->internal_funcs), i)->item);
wapp_str8_alloc_concat(&arena, internal_funcs_def, &_internal);
wapp_str8_alloc_concat(&arena, internal_funcs_def, &tmp);
}
if (csource->internal_funcs.node_count > 0) { wapp_str8_alloc_concat(&arena, output, &wapp_str8_lit_ro("\n")); }
for (u64 i = 0; i < csource->funcs.node_count; ++i) {
define_cfunc(&tmp, wapp_cfunc_list_get(&(csource->funcs), i)->item);
wapp_str8_alloc_concat(&arena, output, &tmp);
}
wapp_runtime_assert(output->size + internal_funcs_def->size <= dst->capacity, ERR_MSG);
wapp_str8_copy_str8_capped(dst, output);
wapp_str8_concat_capped(dst, internal_funcs_def);
wapp_mem_arena_allocator_destroy(&arena);
}
b8 cheaderinclude_to_string(Str8 *dst, const CHeaderInclude *cheaderinclude) {
wapp_debug_assert(dst != NULL && cheaderinclude != NULL, "`dst` and `cheaderinclude` should not be NULL");
switch (cheaderinclude->kind) {
case C_HEADER_INCLUDE_STR:
wapp_runtime_assert(cheaderinclude->header.name.size <= dst->capacity, ERR_MSG);
wapp_str8_format(dst, WAPP_STR8_SPEC, wapp_str8_varg(cheaderinclude->header.name));
return true;
case C_HEADER_INCLUDE_HEADER:
// Take extension into account
wapp_runtime_assert(cheaderinclude->header.header.name.size + 2 <= dst->capacity, ERR_MSG);
wapp_str8_format(
dst,
WAPP_STR8_SPEC ".%s",
wapp_str8_varg(cheaderinclude->header.header.name),
cheaderinclude->header.header.extension == CFILE_EXT_H ? "h" : "c"
);
return true;
default:
return false;
}
return false;
}
ccodegen/datatypes.h
+280
View File
@@ -0,0 +1,280 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef DATATYPES_H
#define DATATYPES_H
#include "wapp_core.h"
#include "dbl_list.h"
#include "type_enums.h"
#ifndef CCGEN_BUF_MIN
#define CCGEN_BUF_MIN 16
#endif // !CCGEN_BUF_MIN
#ifndef CCGEN_BUF_TINY
#define CCGEN_BUF_TINY 32
#endif // !CCGEN_BUF_TINY
#ifndef CCGEN_BUF_SMALL
#define CCGEN_BUF_SMALL 512
#endif // !CCGEN_BUF_SMALL
#ifndef CCGEN_BUF_MEDIUM
#define CCGEN_BUF_MEDIUM 1024
#endif // !CCGEN_BUF_MEDIUM
#ifndef CCGEN_BUF_LARGE
#define CCGEN_BUF_LARGE 4096
#endif // !CCGEN_BUF_LARGE
#ifndef CCGEN_BUF_MAX
#define CCGEN_BUF_MAX 8192
#endif // !CCGEN_BUF_MAX
#define CENUM(NAME, VALUES, TYPEDEF) ((CEnum){ .name = (NAME), .values = (VALUES), .add_typedef = (TYPEDEF) })
#define CSTRUCT(NAME, ARGS, TYPEDEF_NAME_PTR) ((CStruct){ .name = (NAME), .args = (ARGS), .typedef_name = (TYPEDEF_NAME_PTR) })
#define CUSERTYPE_ENUM(ENUM) ((CUserType){ .kind = CUSERTYPE_CENUM, .type.c_enum = ENUM })
#define CUSERTYPE_STRUCT(STRUCT) ((CUserType){ .kind = CUSERTYPE_CSTRUCT, .type.c_struct = STRUCT })
#define CDATATYPE_CTYPE(VALUE) ((CDataType){ .kind = CDATATYPE_CTYPE, .type.c_type = (VALUE) })
#define CDATATYPE_USERTYPE(USERTYPE) ((CDataType){ .kind = CDATATYPE_CUSERTYPE, .type.c_usertype = (USERTYPE) })
#define CDATATYPE_STR(STR) ((CDataType){ .kind = CDATATYPE_STR, .type.str = (STR) })
#define CHEADERINCLUDE_STR(NAME) ((CHeaderInclude){ .kind = C_HEADER_INCLUDE_STR, .header.name = (NAME) })
#define CHEADERINCLUDE_CHEADER(CHEADER) ((CHeaderInclude){ .kind = C_HEADER_INCLUDE_HEADER, .header.header = (CHEADER) })
#define COBJECT_TYPE(VALUE) \
((CObject){ .kind = COBJECT_CTYPE, .object.c_type = (VALUE) })
#define COBJECT_QUALIFIER(VALUE) \
((CObject){ .kind = COBJECT_CQUALIFIER, .object.c_qualifier = (VALUE) })
#define COBJECT_POINTERTYPE(VALUE) \
((CObject){ .kind = COBJECT_CPOINTERTYPE, .object.c_pointertype = (VALUE) })
#define COBJECT_POINTER(CPOINTER) \
((CObject){ .kind = COBJECT_CPOINTER, .object.c_pointer = (CPOINTER) })
#define COBJECT_ENUMVAL(CENUMVAL) \
((CObject){ .kind = COBJECT_CENUMVAL, .object.c_enumval = (CENUMVAL) })
#define COBJECT_ENUM(ENUM) \
((CObject){ .kind = COBJECT_CENUM, .object.c_enum = (ENUM) })
#define COBJECT_MACRO(CMACRO) \
((CObject){ .kind = COBJECT_CMACRO, .object.c_macro = (CMACRO) })
#define COBJECT_STRUCT(STRUCT) \
((CObject){ .kind = COBJECT_CSTRUCT, .object.c_struct = STRUCT })
#define COBJECT_USERTYPE(USERTYPE) \
((CObject){ .kind = COBJECT_CUSERTYPE, .object.c_usertype = (USERTYPE) })
#define COBJECT_DATATYPE(DATATYPE) \
((CObject){ .kind = COBJECT_CDATATYPE, .object.c_datatype = (DATATYPE) })
#define COBJECT_ARG(CARG) \
((CObject){ .kind = COBJECT_CARG, .object.c_arg = (CARG) })
#define COBJECT_FUNC(CFUNC) \
((CObject){ .kind = COBJECT_CFUNC, .object.c_func = (CFUNC) })
#define COBJECT_INCULDE(CINCLUDE) \
((CObject){ .kind = COBJECT_CINCULDE, .object.c_include = (CINCLUDE) })
#define COBJECT_HEADER(CHEADER) \
((CObject){ .kind = COBJECT_CHEADER, .object.c_header = (CHEADER) })
#define COBJECT_SOURCE(CSOURCE) \
((CObject){ .kind = COBJECT_CSOURCE, .object.c_source = (CSOURCE) })
typedef enum {
CUSERTYPE_CENUM,
CUSERTYPE_CSTRUCT,
COUNT_CUSERTYPEKIND,
} CUserTypeKind;
typedef enum {
CDATATYPE_CTYPE,
CDATATYPE_CUSERTYPE,
CDATATYPE_STR,
COUNT_CDATATYPEKIND,
} CDataTypeKind;
typedef enum {
CFILE_EXT_H,
CFILE_EXT_C,
COUNT_CFILE_EXT,
} CFileExtension;
typedef enum {
C_HEADER_INCLUDE_STR,
C_HEADER_INCLUDE_HEADER,
COUNT_CHEADERINCLUDEKIND,
} CHeaderIncludeKind;
typedef enum {
COBJECT_CTYPE,
COBJECT_CQUALIFIER,
COBJECT_CPOINTERTYPE,
COBJECT_CPOINTER,
COBJECT_CENUMVAL,
COBJECT_CENUM,
COBJECT_CMACRO,
COBJECT_CSTRUCT,
COBJECT_CUSERTYPE,
COBJECT_CDATATYPE,
COBJECT_CARG,
COBJECT_CFUNC,
COBJECT_CINCULDE,
COBJECT_CHEADER,
COBJECT_CSOURCE,
COUNT_COBJECTKIND,
} CObjectKind;
typedef struct cpointer CPointer;
typedef struct cenumval CEnumVal;
typedef struct cenum CEnum;
typedef struct cmacro CMacro;
typedef struct cstruct CStruct;
typedef struct cusertype CUserType;
typedef struct cdatatype CDataType;
typedef struct carg CArg;
typedef struct cfunc CFunc;
typedef struct cheader_include CHeaderInclude;
typedef struct cinclude CInclude;
typedef struct cheader CHeader;
typedef struct csource CSource;
typedef struct cobject CObject;
struct cpointer {
CPointerType type;
CQualifier qualifier;
};
struct cenumval {
Str8 name;
i32 *value;
};
struct cenum {
Str8 name;
CEnumValList values;
b8 add_typedef;
};
struct cmacro {
Str8 name;
Str8 value;
};
struct cstruct {
Str8 name;
CArgList args;
Str8 typedef_name;
};
struct cusertype {
CUserTypeKind kind;
union {
CEnum c_enum;
CStruct c_struct;
} type;
};
struct cdatatype {
CDataTypeKind kind;
union {
CType c_type;
CUserType c_usertype;
Str8 str;
} type;
};
struct carg {
Str8 name;
CDataType type;
CPointer pointer;
CQualifier qualifier;
b8 is_array;
};
struct cfunc {
Str8 name;
CDataType ret_type;
CArgList args;
Str8 body;
CPointer pointer;
CQualifierList qualifiers;
};
#define CFILE_ARGS \
Str8 name; \
CFileExtension extension; \
CIncludeList includes; \
CUserTypeList types; \
CFuncList funcs; \
CStructList decl_types; \
CMacroList macros; \
CMacroList c_macros; \
CMacroList cpp_macros \
struct cheader {
CFILE_ARGS;
};
struct csource {
CFILE_ARGS;
CFuncList internal_funcs;
};
struct cheader_include {
CHeaderIncludeKind kind;
union {
Str8 name;
CHeader header;
} header;
};
struct cinclude {
CHeaderInclude header;
b8 is_local;
b8 same_dir;
};
struct cobject {
CObjectKind kind;
union {
CType c_type;
CQualifier c_qualifier;
CPointerType c_pointertype;
CPointer c_pointer;
CEnumVal c_enumval;
CEnum c_enum;
CMacro c_macro;
CStruct c_struct;
CUserType c_usertype;
CDataType c_datatype;
CArg c_arg;
CFunc c_func;
CInclude c_include;
CHeader c_header;
CSource c_source;
} object;
};
void cobject_to_string(Str8 *dst, const CObject *object);
void ctype_to_string(Str8 *dst, CType ctype);
void cqualifier_to_string(Str8 *dst, CQualifier cqualifier);
void cpointertype_to_string(Str8 *dst, CPointerType cpointertype);
void cpointer_to_string(Str8 *dst, const CPointer *cpointer);
void cenumval_to_string(Str8 *dst, const CEnumVal *cenumval);
void cenum_to_string(Str8 *dst, const CEnum *cenum);
void cmacro_to_string(Str8 *dst, const CMacro *cmacro);
void cstruct_to_string(Str8 *dst, const CStruct *cstruct);
void declare_cstruct(Str8 *dst, const CStruct *cstruct);
void define_cstruct(Str8 *dst, const CStruct *cstruct);
void cusertype_to_string(Str8 *dst, const CUserType *cusertype);
void cdatatype_to_string(Str8 *dst, const CDataType *cdatatype);
void carg_to_string(Str8 *dst, const CArg *carg);
void cfunc_to_string(Str8 *dst, const CFunc *cfunc);
void declare_cfunc(Str8 *dst, const CFunc *cfunc);
void define_cfunc(Str8 *dst, const CFunc *cfunc);
void cinclude_to_string(Str8 *dst, const CInclude *cinclude);
void cheader_to_string(Str8 *dst, const CHeader *cheader);
void csource_to_string(Str8 *dst, const CSource *csource);
b8 cheaderinclude_to_string(Str8 *dst, const CHeaderInclude *cheaderinclude);
#endif // !DATATYPES_H
ccodegen/dbl_list.c
+1526
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ccodegen/dbl_list.h
+222
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@@ -0,0 +1,222 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef CCGEN_DBL_LIST_H
#define CCGEN_DBL_LIST_H
#include "wapp_core.h"
#include "type_enums.h"
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WAPP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
#define wapp_cenumval_list_node(ITEM_PTR) CEnumValNode{ITEM_PTR, nullptr, nullptr}
#define wapp_carg_list_node(ITEM_PTR) CArgNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cqualifier_list_node(ITEM_PTR) CQualifierNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cinclude_list_node(ITEM_PTR) CIncludeNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cusertype_list_node(ITEM_PTR) CUserTypeNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cfunc_list_node(ITEM_PTR) CFuncNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cstruct_list_node(ITEM_PTR) CStructNode{ITEM_PTR, nullptr, nullptr}
#define wapp_cmacro_list_node(ITEM_PTR) CMacroNode{ITEM_PTR, nullptr, nullptr}
#else
#define wapp_cenumval_list_node(ITEM_PTR) ((CEnumValNode){.item = ITEM_PTR})
#define wapp_carg_list_node(ITEM_PTR) ((CArgNode){.item = ITEM_PTR})
#define wapp_cqualifier_list_node(ITEM_PTR) ((CQualifierNode){.item = ITEM_PTR})
#define wapp_cinclude_list_node(ITEM_PTR) ((CIncludeNode){.item = ITEM_PTR})
#define wapp_cusertype_list_node(ITEM_PTR) ((CUserTypeNode){.item = ITEM_PTR})
#define wapp_cfunc_list_node(ITEM_PTR) ((CFuncNode){.item = ITEM_PTR})
#define wapp_cstruct_list_node(ITEM_PTR) ((CStructNode){.item = ITEM_PTR})
#define wapp_cmacro_list_node(ITEM_PTR) ((CMacroNode){.item = ITEM_PTR})
#endif // !WAPP_PLATFORM_CPP
typedef struct cenumval CEnumVal;
typedef struct carg CArg;
typedef struct cinclude CInclude;
typedef struct cusertype CUserType;
typedef struct cfunc CFunc;
typedef struct cstruct CStruct;
typedef struct cmacro CMacro;
typedef struct CEnumValNode CEnumValNode;
struct CEnumValNode {
CEnumVal *item;
CEnumValNode *prev;
CEnumValNode *next;
};
typedef struct CEnumValList CEnumValList;
struct CEnumValList {
CEnumValNode *first;
CEnumValNode *last;
u64 node_count;
};
typedef struct CArgNode CArgNode;
struct CArgNode {
CArg *item;
CArgNode *prev;
CArgNode *next;
};
typedef struct CArgList CArgList;
struct CArgList {
CArgNode *first;
CArgNode *last;
u64 node_count;
};
typedef struct CQualifierNode CQualifierNode;
struct CQualifierNode {
CQualifier *item;
CQualifierNode *prev;
CQualifierNode *next;
};
typedef struct CQualifierList CQualifierList;
struct CQualifierList {
CQualifierNode *first;
CQualifierNode *last;
u64 node_count;
};
typedef struct CIncludeNode CIncludeNode;
struct CIncludeNode {
CInclude *item;
CIncludeNode *prev;
CIncludeNode *next;
};
typedef struct CIncludeList CIncludeList;
struct CIncludeList {
CIncludeNode *first;
CIncludeNode *last;
u64 node_count;
};
typedef struct CUserTypeNode CUserTypeNode;
struct CUserTypeNode {
CUserType *item;
CUserTypeNode *prev;
CUserTypeNode *next;
};
typedef struct CUserTypeList CUserTypeList;
struct CUserTypeList {
CUserTypeNode *first;
CUserTypeNode *last;
u64 node_count;
};
typedef struct CFuncNode CFuncNode;
struct CFuncNode {
CFunc *item;
CFuncNode *prev;
CFuncNode *next;
};
typedef struct CFuncList CFuncList;
struct CFuncList {
CFuncNode *first;
CFuncNode *last;
u64 node_count;
};
typedef struct CStructNode CStructNode;
struct CStructNode {
CStruct *item;
CStructNode *prev;
CStructNode *next;
};
typedef struct CStructList CStructList;
struct CStructList {
CStructNode *first;
CStructNode *last;
u64 node_count;
};
typedef struct CMacroNode CMacroNode;
struct CMacroNode {
CMacro *item;
CMacroNode *prev;
CMacroNode *next;
};
typedef struct CMacroList CMacroList;
struct CMacroList {
CMacroNode *first;
CMacroNode *last;
u64 node_count;
};
CEnumValNode *wapp_cenumval_list_get(const CEnumValList *list, u64 index);
void wapp_cenumval_list_push_front(CEnumValList *list, CEnumValNode *node);
void wapp_cenumval_list_push_back(CEnumValList *list, CEnumValNode *node);
void wapp_cenumval_list_insert(CEnumValList *list, CEnumValNode *node, u64 index);
CEnumValNode *wapp_cenumval_list_pop_front(CEnumValList *list);
CEnumValNode *wapp_cenumval_list_pop_back(CEnumValList *list);
CEnumValNode *wapp_cenumval_list_remove(CEnumValList *list, u64 index);
void wapp_cenumval_list_empty(CEnumValList *list);
CArgNode *wapp_carg_list_get(const CArgList *list, u64 index);
void wapp_carg_list_push_front(CArgList *list, CArgNode *node);
void wapp_carg_list_push_back(CArgList *list, CArgNode *node);
void wapp_carg_list_insert(CArgList *list, CArgNode *node, u64 index);
CArgNode *wapp_carg_list_pop_front(CArgList *list);
CArgNode *wapp_carg_list_pop_back(CArgList *list);
CArgNode *wapp_carg_list_remove(CArgList *list, u64 index);
void wapp_carg_list_empty(CArgList *list);
CQualifierNode *wapp_cqualifier_list_get(const CQualifierList *list, u64 index);
void wapp_cqualifier_list_push_front(CQualifierList *list, CQualifierNode *node);
void wapp_cqualifier_list_push_back(CQualifierList *list, CQualifierNode *node);
void wapp_cqualifier_list_insert(CQualifierList *list, CQualifierNode *node, u64 index);
CQualifierNode *wapp_cqualifier_list_pop_front(CQualifierList *list);
CQualifierNode *wapp_cqualifier_list_pop_back(CQualifierList *list);
CQualifierNode *wapp_cqualifier_list_remove(CQualifierList *list, u64 index);
void wapp_cqualifier_list_empty(CQualifierList *list);
CIncludeNode *wapp_cinclude_list_get(const CIncludeList *list, u64 index);
void wapp_cinclude_list_push_front(CIncludeList *list, CIncludeNode *node);
void wapp_cinclude_list_push_back(CIncludeList *list, CIncludeNode *node);
void wapp_cinclude_list_insert(CIncludeList *list, CIncludeNode *node, u64 index);
CIncludeNode *wapp_cinclude_list_pop_front(CIncludeList *list);
CIncludeNode *wapp_cinclude_list_pop_back(CIncludeList *list);
CIncludeNode *wapp_cinclude_list_remove(CIncludeList *list, u64 index);
void wapp_cinclude_list_empty(CIncludeList *list);
CUserTypeNode *wapp_cusertype_list_get(const CUserTypeList *list, u64 index);
void wapp_cusertype_list_push_front(CUserTypeList *list, CUserTypeNode *node);
void wapp_cusertype_list_push_back(CUserTypeList *list, CUserTypeNode *node);
void wapp_cusertype_list_insert(CUserTypeList *list, CUserTypeNode *node, u64 index);
CUserTypeNode *wapp_cusertype_list_pop_front(CUserTypeList *list);
CUserTypeNode *wapp_cusertype_list_pop_back(CUserTypeList *list);
CUserTypeNode *wapp_cusertype_list_remove(CUserTypeList *list, u64 index);
void wapp_cusertype_list_empty(CUserTypeList *list);
CFuncNode *wapp_cfunc_list_get(const CFuncList *list, u64 index);
void wapp_cfunc_list_push_front(CFuncList *list, CFuncNode *node);
void wapp_cfunc_list_push_back(CFuncList *list, CFuncNode *node);
void wapp_cfunc_list_insert(CFuncList *list, CFuncNode *node, u64 index);
CFuncNode *wapp_cfunc_list_pop_front(CFuncList *list);
CFuncNode *wapp_cfunc_list_pop_back(CFuncList *list);
CFuncNode *wapp_cfunc_list_remove(CFuncList *list, u64 index);
void wapp_cfunc_list_empty(CFuncList *list);
CStructNode *wapp_cstruct_list_get(const CStructList *list, u64 index);
void wapp_cstruct_list_push_front(CStructList *list, CStructNode *node);
void wapp_cstruct_list_push_back(CStructList *list, CStructNode *node);
void wapp_cstruct_list_insert(CStructList *list, CStructNode *node, u64 index);
CStructNode *wapp_cstruct_list_pop_front(CStructList *list);
CStructNode *wapp_cstruct_list_pop_back(CStructList *list);
CStructNode *wapp_cstruct_list_remove(CStructList *list, u64 index);
void wapp_cstruct_list_empty(CStructList *list);
CMacroNode *wapp_cmacro_list_get(const CMacroList *list, u64 index);
void wapp_cmacro_list_push_front(CMacroList *list, CMacroNode *node);
void wapp_cmacro_list_push_back(CMacroList *list, CMacroNode *node);
void wapp_cmacro_list_insert(CMacroList *list, CMacroNode *node, u64 index);
CMacroNode *wapp_cmacro_list_pop_front(CMacroList *list);
CMacroNode *wapp_cmacro_list_pop_back(CMacroList *list);
CMacroNode *wapp_cmacro_list_remove(CMacroList *list, u64 index);
void wapp_cmacro_list_empty(CMacroList *list);
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WAPP_PLATFORM_CPP
#endif // !DBL_LIST_H
ccodegen/main.c
+10
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@@ -0,0 +1,10 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "datatypes.h"
#include "type_enums.h"
#include "wapp_core.h"
#include <stdio.h>
int main(void) {
return 0;
}
ccodegen/type_enums.h
+84
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@@ -0,0 +1,84 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef TYPE_ENUMS_H
#define TYPE_ENUMS_H
#include "wapp_core.h"
typedef enum {
CTYPE_VOID,
CTYPE_B8,
CTYPE_CHAR,
CTYPE_C8,
CTYPE_C16,
CTYPE_C32,
CTYPE_I8,
CTYPE_I16,
CTYPE_I32,
CTYPE_I64,
CTYPE_U8,
CTYPE_U16,
CTYPE_U32,
CTYPE_U64,
CTYPE_F32,
CTYPE_F64,
CTYPE_F128,
CTYPE_IPTR,
CTYPE_UPTR,
COUNT_CTYPE,
} CType;
wapp_intern Str8RO ctypes[COUNT_CTYPE] = {
[CTYPE_VOID] = wapp_str8_lit_ro("void"),
[CTYPE_B8] = wapp_str8_lit_ro("b8"),
[CTYPE_CHAR] = wapp_str8_lit_ro("char"),
[CTYPE_C8] = wapp_str8_lit_ro("c8"),
[CTYPE_C16] = wapp_str8_lit_ro("c16"),
[CTYPE_C32] = wapp_str8_lit_ro("c32"),
[CTYPE_I8] = wapp_str8_lit_ro("i8"),
[CTYPE_I16] = wapp_str8_lit_ro("i16"),
[CTYPE_I32] = wapp_str8_lit_ro("i32"),
[CTYPE_I64] = wapp_str8_lit_ro("i64"),
[CTYPE_U8] = wapp_str8_lit_ro("u8"),
[CTYPE_U16] = wapp_str8_lit_ro("u16"),
[CTYPE_U32] = wapp_str8_lit_ro("u32"),
[CTYPE_U64] = wapp_str8_lit_ro("u64"),
[CTYPE_F32] = wapp_str8_lit_ro("f32"),
[CTYPE_F64] = wapp_str8_lit_ro("f64"),
[CTYPE_F128] = wapp_str8_lit_ro("f128"),
[CTYPE_IPTR] = wapp_str8_lit_ro("iptr"),
[CTYPE_UPTR] = wapp_str8_lit_ro("uptr"),
};
typedef enum {
CQUALIFIER_NONE,
CQUALIFIER_CONST,
CQUALIFIER_EXTERNAL,
CQUALIFIER_INTERNAL,
CQUALIFIER_PERSISTENT,
COUNT_CQUALIFIER,
} CQualifier;
wapp_intern Str8RO cqualifiers[COUNT_CQUALIFIER] = {
[CQUALIFIER_NONE] = wapp_str8_lit_ro(""),
[CQUALIFIER_CONST] = wapp_str8_lit_ro("const "),
[CQUALIFIER_EXTERNAL] = wapp_str8_lit_ro("wapp_extern "),
[CQUALIFIER_INTERNAL] = wapp_str8_lit_ro("wapp_intern "),
[CQUALIFIER_PERSISTENT] = wapp_str8_lit_ro("wapp_persist "),
};
typedef enum {
CPOINTERTYPE_NONE,
CPOINTERTYPE_SINGLE,
CPOINTERTYPE_DOUBLE,
COUNT_CPOINTERTYPE,
} CPointerType;
wapp_intern Str8RO cpointertypes[COUNT_CPOINTERTYPE] = {
[CPOINTERTYPE_NONE] = wapp_str8_lit_ro(""),
[CPOINTERTYPE_SINGLE] = wapp_str8_lit_ro("*"),
[CPOINTERTYPE_DOUBLE] = wapp_str8_lit_ro("**"),
};
#endif // !TYPE_ENUMS_H
package
-11
View File
@@ -1,11 +0,0 @@
#!/bin/bash
cp -r src wapp
mkdir -p dist
ARCHIVE_NAME="wapp-v$(cat VERSION)"
tar -czvf dist/$ARCHIVE_NAME.tar.gz wapp
zip -r dist/$ARCHIVE_NAME.zip wapp
rm -rf wapp
src/base/array/array.c
+114 -205
View File
@@ -7,260 +7,169 @@
#include "../../common/aliases/aliases.h"
#include <stddef.h>
#define _array_header(ARRAY) (WpArrayHeader *)(wpMiscUtilsOffsetPointer(ARRAY, (i64)sizeof(WpArrayHeader) * -1))
#define _offset_pointer(PTR, OFFSET) ((void *)((uptr)(PTR) + (OFFSET)))
wp_persist inline void _array_validate(const WpArray array, u64 item_size);
void *_array_get(GenericArray *array, u64 index, u64 item_size) {
wapp_runtime_assert(array != NULL, "`array` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == array->magic, "`array` is not a valid wapp array");
wapp_runtime_assert(item_size == array->item_size, "Invalid item type provided");
wapp_runtime_assert(index < array->count, "`index` is out of bounds");
u64 _arrayCount(WpArray array) {
wpDebugAssert(array != NULL, "`array` should not be NULL");
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(WP_ARRAY_MAGIC == header->magic, "`array` is not a valid wapp array");
return header->count;
return _offset_pointer(array->items, array->item_size * index);
}
u64 _arrayCapacity(WpArray array) {
wpDebugAssert(array != NULL, "`array` should not be NULL");
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(WP_ARRAY_MAGIC == header->magic, "`array` is not a valid wapp array");
return header->capacity;
void _array_set(GenericArray *array, u64 index, void *value, u64 item_size) {
void *item = _array_get(array, index, item_size);
memcpy(item, value, array->item_size);
}
u64 _arrayItemSize(WpArray array) {
wpDebugAssert(array != NULL, "`array` should not be NULL");
void _array_append_capped(GenericArray *array, void *value, u64 item_size) {
wapp_runtime_assert(array != NULL, "`array` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == array->magic, "`array` is not a valid wapp array");
wapp_runtime_assert(item_size == array->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(WP_ARRAY_MAGIC == header->magic, "`array` is not a valid wapp array");
if (array->count >= array->capacity) { return; }
return header->item_size;
u64 index = (array->count)++;
_array_set(array, index, value, item_size);
}
void _arraySetCount(WpArray array, u64 count) {
wpDebugAssert(array != NULL, "`array` should not be NULL");
void _array_extend_capped(GenericArray *dst, const GenericArray *src, u64 item_size) {
wapp_runtime_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == dst->magic, "`dst` is not a valid wapp array");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == src->magic, "`src` is not a valid wapp array");
wapp_runtime_assert(item_size == dst->item_size && item_size == src->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(WP_ARRAY_MAGIC == header->magic, "`array` is not a valid wapp array");
u64 remaining_capacity = dst->capacity - dst->count;
header->count = count;
u64 copy_count = src->count < remaining_capacity ? src->count : remaining_capacity;
void *dst_ptr = _offset_pointer(dst->items, dst->count * dst->item_size);
memcpy(dst_ptr, src->items, copy_count * src->item_size);
dst->count += copy_count;
}
void *_arrayGet(WpArray array, u64 index, u64 item_size) {
wpRuntimeAssert(array != NULL, "`array` should not be NULL");
_array_validate(array, item_size);
void _array_copy_capped(GenericArray *dst, const GenericArray *src, u64 item_size) {
wapp_runtime_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == dst->magic, "`dst` is not a valid wapp array");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == src->magic, "`src` is not a valid wapp array");
wapp_runtime_assert(item_size == dst->item_size && item_size == src->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(index < header->count, "`index` is out of bounds");
return wpMiscUtilsOffsetPointer(array, header->item_size * index);
_array_clear(dst, item_size);
u64 copy_count = src->count < dst->capacity ? src->count : dst->capacity;
memcpy(dst->items, src->items, copy_count * src->item_size);
dst->count = copy_count;
}
void _arraySet(WpArray array, u64 index, void *value, u64 item_size) {
void *item = _arrayGet(array, index, item_size);
GenericArray *_array_append_alloc(const Allocator *allocator, GenericArray *array, void *value, u64 item_size) {
wapp_runtime_assert(allocator != NULL && array != NULL, "`allocator` and `array` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == array->magic, "`array` is not a valid wapp array");
wapp_runtime_assert(item_size == array->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
memcpy(item, value, header->item_size);
}
GenericArray *output = array;
void _arrayAppendCapped(WpArray array, void *value, u64 item_size) {
wpRuntimeAssert(array != NULL, "`array` should not be NULL");
_array_validate(array, item_size);
if (array->count >= array->capacity) {
u64 new_capacity = wapp_misc_utils_u64_round_up_pow2(array->capacity * 2);
output = (GenericArray *)_array_alloc_capacity(allocator, new_capacity, array->item_size);
if (!output) {
output = array;
goto RETURN_ARRAY_APPEND_ALLOC;
}
_array_copy_capped(output, array, item_size);
}
WpArrayHeader *header = _array_header(array);
if (header->count >= header->capacity) { return; }
u64 index = (header->count)++;
_arraySet(array, index, value, item_size);
}
void _arrayExtendCappend(WpArray dst, const WpArray src, u64 item_size) {
wpRuntimeAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
_array_validate(dst, item_size);
_array_validate(src, item_size);
WpArrayHeader *src_header = _array_header(src);
WpArrayHeader *dst_header = _array_header(dst);
u64 remaining_capacity = dst_header->capacity - dst_header->count;
u64 copy_count = src_header->count < remaining_capacity ? src_header->count : remaining_capacity;
void *dst_ptr = wpMiscUtilsOffsetPointer(dst, dst_header->count * dst_header->item_size);
memcpy(dst_ptr, src, copy_count * src_header->item_size);
dst_header->count += copy_count;
}
void _arrayCopyCapped(WpArray dst, const WpArray src, u64 item_size) {
wpRuntimeAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
_array_validate(dst, item_size);
_array_validate(src, item_size);
_arrayClear(dst, item_size);
WpArrayHeader *src_header = _array_header(src);
WpArrayHeader *dst_header = _array_header(dst);
u64 copy_count = src_header->count < dst_header->capacity ? src_header->count : dst_header->capacity;
memcpy((void *)dst, (void *)src, copy_count * src_header->item_size);
dst_header->count = copy_count;
}
WpArray _arrayAppendAlloc(const WpAllocator *allocator, WpArray array, void *value,
WpArrayInitFlags flags, u64 item_size) {
wpRuntimeAssert(allocator != NULL && array != NULL, "`allocator` and `array` should not be NULL");
_array_validate(array, item_size);
WpArray output = array;
WpArrayHeader *header = _array_header(array);
if (header->count >= header->capacity) {
u64 new_capacity = wpMiscUtilsU64RoundUpPow2(header->capacity * 2);
output = (WpArray )_arrayAllocCapacity(allocator, new_capacity, flags,
header->item_size);
if (!output) {
output = array;
goto RETURN_ARRAY_APPEND_ALLOC;
}
_arrayCopyCapped(output, array, item_size);
}
_arrayAppendCapped(output, value, item_size);
if ((flags & WP_ARRAY_INIT_FILLED) == WP_ARRAY_INIT_FILLED) {
_arraySetCount(output, _arrayCapacity(output));
}
_array_append_capped(output, value, item_size);
RETURN_ARRAY_APPEND_ALLOC:
return output;
return output;
}
WpArray _arrayExtendAlloc(const WpAllocator *allocator, WpArray dst, const WpArray src,
WpArrayInitFlags flags, u64 item_size) {
wpRuntimeAssert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
_array_validate(dst, item_size);
_array_validate(src, item_size);
GenericArray *_array_extend_alloc(const Allocator *allocator, GenericArray *dst, const GenericArray *src, u64 item_size) {
wapp_runtime_assert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == dst->magic, "`dst` is not a valid wapp array");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == src->magic, "`src` is not a valid wapp array");
wapp_runtime_assert(item_size == dst->item_size && item_size == src->item_size, "Invalid item type provided");
WpArray output = dst;
GenericArray *output = dst;
WpArrayHeader *src_header = _array_header(src);
WpArrayHeader *dst_header = _array_header(dst);
u64 remaining_capacity = dst_header->capacity - dst_header->count;
if (src_header->count >= remaining_capacity) {
u64 new_capacity = wpMiscUtilsU64RoundUpPow2(dst_header->capacity * 2);
output = (WpArray )_arrayAllocCapacity(allocator, new_capacity,
flags, dst_header->item_size);
if (!output) {
output = dst;
goto RETURN_ARRAY_EXTEND_ALLOC;
}
_arrayCopyCapped(output, dst, item_size);
}
u64 remaining_capacity = dst->capacity - dst->count;
if (src->count >= remaining_capacity) {
u64 new_capacity = wapp_misc_utils_u64_round_up_pow2(dst->capacity * 2);
output = (GenericArray *)_array_alloc_capacity(allocator, new_capacity, dst->item_size);
if (!output) {
output = dst;
goto RETURN_ARRAY_EXTEND_ALLOC;
}
_array_copy_capped(output, dst, item_size);
}
_arrayExtendCappend(output, src, item_size);
if ((flags & WP_ARRAY_INIT_FILLED) == WP_ARRAY_INIT_FILLED) {
_arraySetCount(output, _arrayCapacity(output));
}
_array_extend_capped(output, src, item_size);
RETURN_ARRAY_EXTEND_ALLOC:
return output;
return output;
}
WpArray _arrayCopyAlloc(const WpAllocator *allocator, WpArray dst, const WpArray src,
WpArrayInitFlags flags, u64 item_size) {
wpRuntimeAssert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
_array_validate(dst, item_size);
_array_validate(src, item_size);
GenericArray *_array_copy_alloc(const Allocator *allocator, GenericArray *dst, const GenericArray *src, u64 item_size) {
wapp_runtime_assert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == dst->magic, "`dst` is not a valid wapp array");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == src->magic, "`src` is not a valid wapp array");
wapp_runtime_assert(item_size == dst->item_size && item_size == src->item_size, "Invalid item type provided");
WpArray output = dst;
GenericArray *output = dst;
WpArrayHeader *src_header = _array_header(src);
WpArrayHeader *dst_header = _array_header(dst);
if (src_header->count >= dst_header->capacity) {
u64 new_capacity = wpMiscUtilsU64RoundUpPow2(dst_header->capacity * 2);
output = (WpArray )_arrayAllocCapacity(allocator, new_capacity,
flags, src_header->item_size);
if (!output) {
output = dst;
goto RETURN_ARRAY_COPY_ALLOC;
}
}
if (src->count >= dst->capacity) {
u64 new_capacity = wapp_misc_utils_u64_round_up_pow2(dst->capacity * 2);
output = (GenericArray *)_array_alloc_capacity(allocator, new_capacity, src->item_size);
if (!output) {
output = dst;
goto RETURN_ARRAY_COPY_ALLOC;
}
}
_arrayCopyCapped(output, src, item_size);
if ((flags & WP_ARRAY_INIT_FILLED) == WP_ARRAY_INIT_FILLED) {
_arraySetCount(output, _arrayCapacity(output));
}
_array_copy_capped(output, src, item_size);
RETURN_ARRAY_COPY_ALLOC:
return output;
return output;
}
void *_arrayPop(WpArray array, u64 item_size) {
wpRuntimeAssert(array != NULL, "`array` should not be NULL");
_array_validate(array, item_size);
void *_array_pop(GenericArray *array, u64 item_size) {
wapp_runtime_assert(array != NULL, "`array` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == array->magic, "`array` is not a valid wapp array");
wapp_runtime_assert(item_size == array->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
if (header->count == 0) { return NULL; }
if (array->count == 0) { return NULL; }
u64 index = header->count - 1;
void *out = _arrayGet(array, index, item_size);
--(header->count);
return out;
u64 index = array->count - 1;
void *out = _array_get(array, index, item_size);
--(array->count);
return out;
}
void _arrayClear(WpArray array, u64 item_size) {
wpRuntimeAssert(array != NULL, "`array` should not be NULL");
_array_validate(array, item_size);
void _array_clear(GenericArray *array, u64 item_size) {
wapp_runtime_assert(array != NULL, "`array` should not be NULL");
wapp_runtime_assert(WAPP_ARRAY_MAGIC == array->magic, "`array` is not a valid wapp array");
wapp_runtime_assert(item_size == array->item_size, "Invalid item type provided");
WpArrayHeader *header = _array_header(array);
header->count = 0;
array->count = 0;
}
u64 _arrayCalcAllocSize(u64 capacity, u64 item_size) {
return sizeof(WpArrayHeader) + item_size * capacity;
}
GenericArray *_array_alloc_capacity(const Allocator *allocator, u64 capacity, u64 item_size) {
wapp_runtime_assert(allocator != NULL, "`allocator` should not be NULL");
WpArray _arrayAllocCapacity(const WpAllocator *allocator, u64 capacity, WpArrayInitFlags flags,
u64 item_size) {
wpRuntimeAssert(allocator != NULL, "`allocator` should not be NULL");
GenericArray *output = NULL;
WpArray output = NULL;
u64 allocation_size = sizeof(GenericArray) + item_size * capacity;
u64 allocation_size = _arrayCalcAllocSize(capacity, item_size);
void *buffer = wpMemAllocatorAlloc(allocator, allocation_size);
if (!buffer) {
goto RETURN_ARRAY_ALLOC;
}
output = wapp_mem_allocator_alloc(allocator, allocation_size);
if (!output) {
goto RETURN_ARRAY_ALLOC;
}
output = _arrayFromPreallocatedBuffer(buffer, allocation_size, flags, item_size);
output->magic = WAPP_ARRAY_MAGIC;
output->count = 0;
output->capacity = capacity;
output->item_size = item_size;
output->items = (void *)(output + 1);
RETURN_ARRAY_ALLOC:
return output;
}
WpArray _arrayFromPreallocatedBuffer(void *buffer, u64 buffer_size, WpArrayInitFlags flags,
u64 item_size) {
wpRuntimeAssert(buffer != NULL, "`buffer` should not be NULL");
i64 data_buffer_size = (i64)buffer_size - (i64)(sizeof(WpArrayHeader));
if (data_buffer_size <= 0) {
return NULL;
}
u64 item_capacity = (u64)data_buffer_size / item_size;
WpArrayHeader *header = (WpArrayHeader *)buffer;
WpArray output = (u8 *)(header + 1);
header->magic = WP_ARRAY_MAGIC;
header->count = flags & WP_ARRAY_INIT_FILLED ? item_capacity : 0;
header->capacity = item_capacity;
header->item_size = item_size;
return output;
}
wp_persist inline void _array_validate(const WpArray array, u64 item_size) {
WpArrayHeader *header = _array_header(array);
wpRuntimeAssert(WP_ARRAY_MAGIC == header->magic, "`array` is not a valid wapp array");
wpRuntimeAssert(item_size == header->item_size, "Invalid item type provided");
return output;
}
src/base/array/array.h
+135 -188
View File
@@ -8,209 +8,156 @@
#include "../../common/aliases/aliases.h"
#include "../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define WP_ARRAY_MAGIC (u64)0x57415f415252
#define WAPP_ARRAY_MAGIC (u64)0x57415f415252
#define _calcArrayCount(TYPE, ...) wpMiscUtilsVaArgsCount(TYPE, __VA_ARGS__)
#define _calcArrayCapacity(TYPE, ...) wpMiscUtilsU64RoundUpPow2(_calcArrayCount(TYPE, __VA_ARGS__) * 2)
#define _calc_array_count(TYPE, ...) wapp_misc_utils_va_args_count(TYPE, __VA_ARGS__)
#define _calc_array_capacity(TYPE, ...) wapp_misc_utils_u64_round_up_pow2(_calc_array_count(TYPE, __VA_ARGS__) * 2)
typedef struct WpStr8 WpStr8;
#define wapp_array_alloc_capacity(ELEM_TYPE, ARRAY_TYPE, ALLOCATOR_PTR, CAPACITY) \
((ARRAY_TYPE *)_array_alloc_capacity(ALLOCATOR_PTR, CAPACITY, sizeof(ELEM_TYPE)))
// NOTE (Abdelrahman): Typedefs to distinguish arrays from regular pointers
typedef void *WpArray;
typedef void **WpVoidPtrArray;
typedef c8 *WpC8Array;
typedef c16 *WpC16Array;
typedef c32 *WpC32Array;
typedef u8 *WpU8Array;
typedef u16 *WpU16Array;
typedef u32 *WpU32Array;
typedef u64 *WpU64Array;
typedef b8 *WpB8Array;
typedef i8 *WpI8Array;
typedef i16 *WpI16Array;
typedef i32 *WpI32Array;
typedef i64 *WpI64Array;
typedef f32 *WpF32Array;
typedef f64 *WpF64Array;
typedef f128 *WpF128Array;
typedef uptr *WpUptrArray;
typedef iptr *WpIptrArray;
typedef WpStr8 *WpStr8Array;
#define WAPP_DEF_ARRAY_TYPE(T, NAME) \
typedef struct { \
u64 magic; \
u64 count; \
u64 capacity; \
u64 item_size; \
T *items; \
} NAME
typedef enum {
WP_ARRAY_INIT_NONE = 0,
WP_ARRAY_INIT_FILLED = 1 << 1,
} WpArrayInitFlags;
#ifdef WP_PLATFORM_CPP
#define wpArray(TYPE, ...) ([&]() { \
u64 capacity = _calcArrayCapacity(TYPE, __VA_ARGS__); \
\
TYPE items[_calcArrayCapacity(TYPE, __VA_ARGS__)] = {__VA_ARGS__}; \
\
wp_persist u8 array[ \
sizeof(WpArrayHeader) + _calcArrayCapacity(TYPE, __VA_ARGS__) * sizeof(TYPE) \
] = {0}; \
WpArrayHeader *header = (WpArrayHeader *)array; \
header->magic = WP_ARRAY_MAGIC; \
header->count = _calcArrayCount(TYPE, __VA_ARGS__); \
header->capacity = _calcArrayCapacity(TYPE, __VA_ARGS__); \
header->item_size = sizeof(TYPE); \
\
u8 *buf = (u8 *)(header + 1); \
memcpy(buf, items, capacity * sizeof(TYPE)); \
return (TYPE *)buf; \
#ifdef WAPP_PLATFORM_CPP
#define wapp_array(ELEM_TYPE, ARRAY_TYPE, ...) ([&]() { \
wapp_persist ELEM_TYPE items[sizeof(ELEM_TYPE) == sizeof(*((ARRAY_TYPE{}).items)) ? \
_calc_array_capacity(ELEM_TYPE, __VA_ARGS__) : -1 \
] = {__VA_ARGS__}; \
\
return ARRAY_TYPE{ \
WAPP_ARRAY_MAGIC, \
_calc_array_count(ELEM_TYPE, __VA_ARGS__), \
_calc_array_capacity(ELEM_TYPE, __VA_ARGS__), \
sizeof(ELEM_TYPE), \
items, \
}; \
}())
#define wpArrayWithCapacity(TYPE, CAPACITY, FLAGS) ([&]() { \
wp_persist u8 array[ \
sizeof(WpArrayHeader) + CAPACITY * sizeof(TYPE) \
] = {0}; \
WpArrayHeader *header = (WpArrayHeader *)array; \
header->magic = WP_ARRAY_MAGIC; \
header->count = (FLAGS & WP_ARRAY_INIT_FILLED) ? CAPACITY : 0; \
header->capacity = CAPACITY; \
header->item_size = sizeof(TYPE); \
\
return (TYPE *)(header + 1); \
#define wapp_array_with_capacity(ELEM_TYPE, ARRAY_TYPE, CAPACITY) ([&]() { \
wapp_persist ELEM_TYPE items[sizeof(ELEM_TYPE) == sizeof(*((ARRAY_TYPE{}).items)) ? \
CAPACITY : -1] = {}; \
\
return ARRAY_TYPE{ \
WAPP_ARRAY_MAGIC, \
0, \
CAPACITY, \
sizeof(ELEM_TYPE), \
items, \
}; \
}())
#define wpArrayPop(TYPE, ARRAY) ([&]() { \
if (ARRAY == NULL || _arrayCount((WpArray)ARRAY) == 0) { \
TYPE result{}; \
return result; \
} \
\
return *((TYPE *)_arrayPop((WpArray)ARRAY, sizeof(TYPE))); \
#define wapp_array_pop(ELEM_TYPE, ARRAY_PTR) ([&]() { \
if (ARRAY_PTR == NULL || (ARRAY_PTR)->count == 0) { \
ELEM_TYPE result{}; \
return result; \
} \
\
return *((ELEM_TYPE *)_array_pop((GenericArray *)ARRAY_PTR, sizeof(ELEM_TYPE))); \
}())
#else
#define _stackArray(TYPE, SIZE) struct {WpArrayHeader header; \
TYPE items[SIZE]; \
wpMiscUtilsReservePadding(sizeof(WpArrayHeader) + \
sizeof(TYPE) * SIZE);}
#define wpArray(TYPE, ...) \
((TYPE *)( \
(_stackArray(TYPE, _calcArrayCapacity(TYPE, __VA_ARGS__))){ \
.header = { \
.magic = WP_ARRAY_MAGIC, \
.count = _calcArrayCount(TYPE, __VA_ARGS__), \
.capacity = _calcArrayCapacity(TYPE, __VA_ARGS__), \
.item_size = sizeof(TYPE), \
}, \
.items = {__VA_ARGS__}, \
}.items \
))
#define wpArrayWithCapacity(TYPE, CAPACITY, FLAGS) \
((TYPE *)( \
(_stackArray(TYPE, CAPACITY)){ \
.header = { \
.magic = WP_ARRAY_MAGIC, \
.count = (FLAGS & WP_ARRAY_INIT_FILLED) ? CAPACITY : 0, \
.capacity = CAPACITY, \
.item_size = sizeof(TYPE), \
}, \
.items = {0}, \
}.items \
))
#define wpArrayPop(TYPE, ARRAY) \
(ARRAY == NULL || _arrayCount((WpArray)ARRAY) == 0 ? \
(TYPE){0} : \
*((TYPE *)_arrayPop((WpArray)ARRAY, sizeof(TYPE))) \
)
#endif // !WP_PLATFORM_CPP
#define wapp_array(ELEM_TYPE, ARRAY_TYPE, ...) \
((ARRAY_TYPE){ \
.magic = WAPP_ARRAY_MAGIC, \
.count = _calc_array_count(ELEM_TYPE, __VA_ARGS__), \
.capacity = _calc_array_capacity(ELEM_TYPE, __VA_ARGS__), \
.item_size = sizeof(ELEM_TYPE), \
.items = (ELEM_TYPE[sizeof(ELEM_TYPE) == sizeof(*((ARRAY_TYPE){0}.items)) ? \
_calc_array_capacity(ELEM_TYPE, __VA_ARGS__) : \
-1]){__VA_ARGS__} \
})
#define wapp_array_with_capacity(ELEM_TYPE, ARRAY_TYPE, CAPACITY) \
((ARRAY_TYPE){ \
.magic = WAPP_ARRAY_MAGIC, \
.count = 0, \
.capacity = CAPACITY, \
.item_size = sizeof(ELEM_TYPE), \
.items = (ELEM_TYPE[sizeof(ELEM_TYPE) == sizeof(*((ARRAY_TYPE){0}.items)) ? \
CAPACITY : -1]){0} \
})
#define wapp_array_pop(ELEM_TYPE, ARRAY_PTR) \
(ARRAY_PTR != NULL && (ARRAY_PTR)->count > 0 ? \
*((ELEM_TYPE *)_array_pop((GenericArray *)ARRAY_PTR, sizeof(ELEM_TYPE))) : \
(ELEM_TYPE){0} \
)
#endif // !WAPP_PLATFORM_CPP
#define wpArrayCount(ARRAY) \
(_arrayCount((WpArray)ARRAY))
#define wpArrayCapacity(ARRAY) \
(_arrayCapacity((WpArray)ARRAY))
#define wpArrayItemSize(ARRAY) \
(_arrayItemSize((WpArray)ARRAY))
#define wpArraySetCount(ARRAY, COUNT) \
(_arraySetCount((WpArray)ARRAY, COUNT))
#define wpArrayGet(TYPE, ARRAY, INDEX) \
((TYPE *)_arrayGet((WpArray)ARRAY, \
INDEX, \
sizeof(TYPE)))
#define wpArraySet(TYPE, ARRAY, INDEX, VALUE_PTR) \
(_arraySet((WpArray)ARRAY, \
INDEX, \
(u8 *)VALUE_PTR, \
sizeof(TYPE)))
#define wpArrayAppendCapped(TYPE, ARRAY, VALUE_PTR) \
(_arrayAppendCapped((WpArray)ARRAY, \
(u8 *)VALUE_PTR, \
sizeof(TYPE)))
#define wpArrayExtendCapped(TYPE, DST_ARRAY, SRC_ARRAY) \
(_arrayExtendCappend((WpArray)DST_ARRAY, \
(WpArray)SRC_ARRAY, \
sizeof(TYPE)))
#define wpArrayCopyCapped(TYPE, DST_ARRAY, SRC_ARRAY) \
(_arrayCopyCapped((WpArray)DST_ARRAY, \
(WpArray)SRC_ARRAY, \
sizeof(TYPE)))
#define wpArrayAppendAlloc(TYPE, ALLOCATOR_PTR, ARRAY, VALUE_PTR, FLAGS) \
((TYPE *)_arrayAppendAlloc(ALLOCATOR_PTR, \
(WpArray)ARRAY, \
(u8 *)VALUE_PTR, \
FLAGS, \
sizeof(TYPE)))
#define wpArrayExtendAlloc(TYPE, ALLOCATOR_PTR, DST_ARRAY, SRC_ARRAY, FLAGS) \
((TYPE *)_arrayExtendAlloc(ALLOCATOR_PTR, \
(WpArray)DST_ARRAY, \
(WpArray)SRC_ARRAY, \
FLAGS, \
sizeof(TYPE)))
#define wpArrayCopyAlloc(TYPE, ALLOCATOR_PTR, DST_ARRAY, SRC_ARRAY, FLAGS) \
((TYPE *)_arrayCopyAlloc(ALLOCATOR_PTR, \
(WpArray)DST_ARRAY, \
(WpArray)SRC_ARRAY, \
FLAGS, \
sizeof(TYPE)))
#define wpArrayClear(TYPE, ARRAY) \
(_arrayClear((WpArray)ARRAY, \
sizeof(TYPE)))
#define wpArrayCalcAllocSize(TYPE, CAPACITY) _arrayCalcAllocSize(CAPACITY, sizeof(TYPE))
#define wpArrayAllocCapacity(TYPE, ALLOCATOR_PTR, CAPACITY, FLAGS) \
((TYPE *)_arrayAllocCapacity(ALLOCATOR_PTR, CAPACITY, FLAGS, sizeof(TYPE)))
#define wpArrayFromPreallcatedBuffer(TYPE, BUFFER, BUFFER_SIZE) \
((TYPE *)_array_from_preallcated_buffer(BUFFER, BUFFER_SIZE, sizeof(TYPE)))
#define wapp_array_get(ELEM_TYPE, ARRAY_PTR, INDEX) \
((ELEM_TYPE *)_array_get((GenericArray *)ARRAY_PTR, INDEX, sizeof(ELEM_TYPE)))
#define wapp_array_set(ELEM_TYPE, ARRAY_PTR, INDEX, VALUE_PTR) \
_array_set((GenericArray *)ARRAY_PTR, INDEX, (void *)VALUE_PTR, sizeof(ELEM_TYPE))
#define wapp_array_append_capped(ELEM_TYPE, ARRAY_PTR, VALUE_PTR) \
_array_append_capped((GenericArray *)ARRAY_PTR, (void *)VALUE_PTR, sizeof(ELEM_TYPE))
#define wapp_array_extend_capped(ELEM_TYPE, DST_ARRAY_PTR, SRC_ARRAY_PTR) \
_array_extend_capped( \
(GenericArray *)DST_ARRAY_PTR, (GenericArray *)SRC_ARRAY_PTR, sizeof(ELEM_TYPE) \
)
#define wapp_array_copy_capped(ELEM_TYPE, DST_ARRAY_PTR, SRC_ARRAY_PTR) \
_array_copy_capped( \
(GenericArray *)DST_ARRAY_PTR, (GenericArray *)SRC_ARRAY_PTR, sizeof(ELEM_TYPE) \
)
#define wapp_array_append_alloc(ELEM_TYPE, ARRAY_TYPE, ALLOCATOR_PTR, ARRAY_PTR, VALUE_PTR) \
(ARRAY_TYPE *)_array_append_alloc( \
ALLOCATOR_PTR, (GenericArray *)ARRAY_PTR, (void *)VALUE_PTR, sizeof(ELEM_TYPE) \
)
#define wapp_array_extend_alloc(ELEM_TYPE, ARRAY_TYPE, ALLOCATOR_PTR, DST_ARRAY_PTR, SRC_ARRAY_PTR) \
(ARRAY_TYPE *)_array_extend_alloc( \
ALLOCATOR_PTR, (GenericArray *)DST_ARRAY_PTR, (GenericArray *)SRC_ARRAY_PTR, sizeof(ELEM_TYPE) \
)
#define wapp_array_copy_alloc(ELEM_TYPE, ARRAY_TYPE, ALLOCATOR_PTR, DST_ARRAY_PTR, SRC_ARRAY_PTR) \
(ARRAY_TYPE *)_array_copy_alloc( \
ALLOCATOR_PTR, (GenericArray *)DST_ARRAY_PTR, (GenericArray *)SRC_ARRAY_PTR, sizeof(ELEM_TYPE) \
)
#define wapp_array_clear(ELEM_TYPE, ARRAY_PTR) \
_array_clear((GenericArray *)ARRAY_PTR, sizeof(ELEM_TYPE))
WAPP_DEF_ARRAY_TYPE(void, GenericArray);
typedef struct WpArrayHeader WpArrayHeader;
struct WpArrayHeader {
u64 magic;
u64 count;
u64 capacity;
u64 item_size;
};
void *_array_get(GenericArray *array, u64 index, u64 item_size);
void _array_set(GenericArray *array, u64 index, void *value, u64 item_size);
void _array_append_capped(GenericArray *array, void *value, u64 item_size);
void _array_extend_capped(GenericArray *dst, const GenericArray *src, u64 item_size);
void _array_copy_capped(GenericArray *dst, const GenericArray *src, u64 item_size);
GenericArray *_array_append_alloc(const Allocator *allocator, GenericArray *array, void *value, u64 item_size);
GenericArray *_array_extend_alloc(const Allocator *allocator, GenericArray *dst, const GenericArray *src, u64 item_size);
GenericArray *_array_copy_alloc(const Allocator *allocator, GenericArray *dst, const GenericArray *src, u64 item_size);
void *_array_pop(GenericArray *array, u64 item_size);
void _array_clear(GenericArray *array, u64 item_size);
GenericArray *_array_alloc_capacity(const Allocator *allocator, u64 capacity, u64 item_size);
u64 _arrayCount(WpArray array);
u64 _arrayCapacity(WpArray array);
u64 _arrayItemSize(WpArray array);
void _arraySetCount(WpArray array, u64 count);
void *_arrayGet(WpArray array, u64 index, u64 item_size);
void _arraySet(WpArray array, u64 index, void *value, u64 item_size);
void _arrayAppendCapped(WpArray array, void *value, u64 item_size);
void _arrayExtendCappend(WpArray dst, const WpArray src, u64 item_size);
void _arrayCopyCapped(WpArray dst, const WpArray src, u64 item_size);
WpArray _arrayAppendAlloc(const WpAllocator *allocator, WpArray array, void *value,
WpArrayInitFlags flags, u64 item_size);
WpArray _arrayExtendAlloc(const WpAllocator *allocator, WpArray dst, const WpArray src,
WpArrayInitFlags flags, u64 item_size);
WpArray _arrayCopyAlloc(const WpAllocator *allocator, WpArray dst, const WpArray src,
WpArrayInitFlags flags, u64 item_size);
void *_arrayPop(WpArray array, u64 item_size);
void _arrayClear(WpArray array, u64 item_size);
u64 _arrayCalcAllocSize(u64 capacity, u64 item_size);
WpArray _arrayAllocCapacity(const WpAllocator *allocator, u64 capacity, WpArrayInitFlags flags,
u64 item_size);
WpArray _arrayFromPreallocatedBuffer(void *buffer, u64 buffer_size, WpArrayInitFlags flags,
u64 item_size);
// Base array types
typedef struct str8 Str8;
#ifdef WP_PLATFORM_CPP
WAPP_DEF_ARRAY_TYPE(void *, VoidPtrArray);
WAPP_DEF_ARRAY_TYPE(c8 , C8Array);
WAPP_DEF_ARRAY_TYPE(c16 , C16Array);
WAPP_DEF_ARRAY_TYPE(c32 , C32Array);
WAPP_DEF_ARRAY_TYPE(u8 , U8Array);
WAPP_DEF_ARRAY_TYPE(u16 , U16Array);
WAPP_DEF_ARRAY_TYPE(u32 , U32Array);
WAPP_DEF_ARRAY_TYPE(u64 , U64Array);
WAPP_DEF_ARRAY_TYPE(b8 , B8Array);
WAPP_DEF_ARRAY_TYPE(i8 , I8Array);
WAPP_DEF_ARRAY_TYPE(i16 , I16Array);
WAPP_DEF_ARRAY_TYPE(i32 , I32Array);
WAPP_DEF_ARRAY_TYPE(i64 , I64Array);
WAPP_DEF_ARRAY_TYPE(f32 , F32Array);
WAPP_DEF_ARRAY_TYPE(f64 , F64Array);
WAPP_DEF_ARRAY_TYPE(f128 , F128Array);
WAPP_DEF_ARRAY_TYPE(uptr , UptrArray);
WAPP_DEF_ARRAY_TYPE(iptr , IptrArray);
WAPP_DEF_ARRAY_TYPE(Str8 , Str8Array);
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !ARRAY_H
src/base/dbl_list/dbl_list.c
+169 -173
View File
@@ -1,5 +1,3 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "./dbl_list.h"
#include "../mem/allocator/mem_allocator.h"
#include "../../common/assert/assert.h"
@@ -7,253 +5,251 @@
#include "../../common/platform/platform.h"
#include <stddef.h>
wp_intern WpDblList _node_to_list(WpDblNode *node, u64 item_size);
wp_intern inline void _dblListValidate(const WpDblList *list, u64 item_size);
wp_intern inline void _dblListNodeValidate(const WpDblList *list, const WpDblNode *node, u64 item_size);
wapp_intern GenericList _node_to_list(GenericNode *node, u64 item_size);
wapp_intern void _dbl_list_validate(const GenericList *list, u64 item_size);
wapp_intern void _dbl_list_node_validate(const GenericNode *node, u64 item_size);
WpDblList *_dblListAlloc(const WpAllocator *allocator, u64 item_size) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
GenericList *_dbl_list_alloc(const Allocator *allocator, u64 item_size) {
wapp_debug_assert(allocator != NULL, "`allocator` should not be NULL");
WpDblList *list = wpMemAllocatorAlloc(allocator, sizeof(WpDblList));
if (!list) { goto DBL_LIST_ALLOC_RETURN; }
GenericList *list = wapp_mem_allocator_alloc(allocator, sizeof(GenericList));
if (!list) { goto DBL_LIST_ALLOC_RETURN; }
memset((void *)list, 0, sizeof(WpDblList));
list->magic = WP_DBL_LIST_MAGIC;
list->item_size = item_size;
memset((void *)list, 0, sizeof(GenericList));
list->magic = WAPP_DBL_LIST_MAGIC;
list->item_size = item_size;
DBL_LIST_ALLOC_RETURN:
return list;
return list;
}
WpDblNode *_dblListNodeAlloc(const WpAllocator *allocator, void *item, u64 item_size) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
GenericNode *_dbl_list_node_alloc(const Allocator *allocator, u64 item_size) {
wapp_debug_assert(allocator != NULL, "`allocator` should not be NULL");
WpDblNode *node = wpMemAllocatorAlloc(allocator, sizeof(WpDblNode));
if (!node) { goto DBL_LIST_NODE_ALLOC_RETURN; }
GenericNode *node = wapp_mem_allocator_alloc(allocator, sizeof(GenericNode));
if (!node) { goto DBL_LIST_NODE_ALLOC_RETURN; }
memset((void *)node, 0, sizeof(WpDblNode));
node->item = item;
node->header.magic = WP_DBL_NODE_MAGIC;
node->header.item_size = item_size;
memset((void *)node, 0, sizeof(GenericNode));
node->magic = WAPP_DBL_NODE_MAGIC;
node->item_size = item_size;
DBL_LIST_NODE_ALLOC_RETURN:
return node;
return node;
}
WpDblNode *_dblListGet(const WpDblList *list, u64 index, u64 item_size) {
wpDebugAssert(list != NULL, "`list` should not be NULL");
_dblListValidate(list, item_size);
wpRuntimeAssert(index < list->node_count, "`index` is out of bounds");
GenericNode *_dbl_list_get(const GenericList *list, u64 index, u64 item_size) {
wapp_debug_assert(list != NULL, "`list` should not be NULL");
_dbl_list_validate(list, item_size);
wapp_runtime_assert(index < list->node_count, "`index` is out of bounds");
WpDblNode *output = NULL;
WpDblNode *current = list->first;
for (u64 i = 1; i <= index; ++i) {
current = current->header.next;
}
GenericNode *output = NULL;
GenericNode *current = list->first;
for (u64 i = 1; i <= index; ++i) {
current = current->next;
}
output = current;
output = current;
return output;
return output;
}
void _dblListPushFront(WpDblList *list, WpDblNode *node, u64 item_size) {
wpDebugAssert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dblListValidate(list, item_size);
_dblListNodeValidate(list, node, item_size);
void _dbl_list_push_front(GenericList *list, GenericNode *node, u64 item_size) {
wapp_debug_assert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dbl_list_validate(list, item_size);
_dbl_list_node_validate(node, item_size);
WpDblList node_list = _node_to_list(node, item_size);
GenericList node_list = _node_to_list(node, item_size);
if (list->node_count == 0) {
*list = node_list;
return;
}
if (list->node_count == 0) {
*list = node_list;
return;
}
list->node_count += node_list.node_count;
list->node_count += node_list.node_count;
WpDblNode *first = list->first;
if (first) {
first->header.prev = node_list.last;
}
GenericNode *first = list->first;
if (first) {
first->prev = node_list.last;
}
list->first = node_list.first;
node_list.last->header.next = first;
list->first = node_list.first;
node_list.last->next = first;
}
void _dblListPushBack(WpDblList *list, WpDblNode *node, u64 item_size) {
wpDebugAssert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dblListValidate(list, item_size);
_dblListNodeValidate(list, node, item_size);
void _dbl_list_push_back(GenericList *list, GenericNode *node, u64 item_size) {
wapp_debug_assert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dbl_list_validate(list, item_size);
_dbl_list_node_validate(node, item_size);
WpDblList node_list = _node_to_list(node, item_size);
GenericList node_list = _node_to_list(node, item_size);
if (list->node_count == 0) {
*list = node_list;
return;
}
if (list->node_count == 0) {
*list = node_list;
return;
}
list->node_count += node_list.node_count;
list->node_count += node_list.node_count;
WpDblNode *last = list->last;
if (last) {
last->header.next = node_list.first;
}
GenericNode *last = list->last;
if (last) {
last->next = node_list.first;
}
list->last = node_list.last;
node_list.first->header.prev = last;
list->last = node_list.last;
node_list.first->prev = last;
}
void _dblListInsert(WpDblList *list, WpDblNode *node, u64 index, u64 item_size) {
wpDebugAssert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dblListValidate(list, item_size);
_dblListNodeValidate(list, node, item_size);
void _dbl_list_insert(GenericList *list, GenericNode *node, u64 index, u64 item_size) {
wapp_debug_assert(list != NULL && node != NULL && (node->item) != NULL, "`list`, `node` and `node->item` should not be NULL");
_dbl_list_validate(list, item_size);
_dbl_list_node_validate(node, item_size);
if (index == 0) {
_dblListPushFront(list, node, item_size);
return;
} else if (index == list->node_count) {
_dblListPushBack(list, node, item_size);
return;
}
if (index == 0) {
_dbl_list_push_front(list, node, item_size);
return;
} else if (index == list->node_count) {
_dbl_list_push_back(list, node, item_size);
return;
}
WpDblNode *dst_node = _dblListGet(list, index, item_size);
if (!dst_node) {
return;
}
GenericNode *dst_node = _dbl_list_get(list, index, item_size);
if (!dst_node) {
return;
}
WpDblList node_list = _node_to_list(node, item_size);
GenericList node_list = _node_to_list(node, item_size);
list->node_count += node_list.node_count;
list->node_count += node_list.node_count;
WpDblNode *prev = dst_node->header.prev;
GenericNode *prev = dst_node->prev;
dst_node->header.prev = node_list.last;
prev->header.next = node_list.first;
dst_node->prev = node_list.last;
prev->next = node_list.first;
node_list.first->header.prev = prev;
node_list.last->header.next = dst_node;
node_list.first->prev = prev;
node_list.last->next = dst_node;
}
WpDblNode *_dblListPopFront(WpDblList *list, u64 item_size) {
wpDebugAssert(list != NULL, "`list` should not be NULL");
_dblListValidate(list, item_size);
GenericNode *_dbl_list_pop_front(GenericList *list, u64 item_size) {
wapp_debug_assert(list != NULL, "`list` should not be NULL");
_dbl_list_validate(list, item_size);
WpDblNode *output = NULL;
GenericNode *output = NULL;
if (list->node_count == 0) {
goto RETURN_LIST_POP_FRONT;
}
if (list->node_count == 0) {
goto RETURN_I32_LIST_POP_FRONT;
}
output = list->first;
output = list->first;
if (list->node_count == 1) {
*list = (WpDblList){.magic = WP_DBL_LIST_MAGIC, .item_size = item_size};
goto RETURN_LIST_POP_FRONT;
}
if (list->node_count == 1) {
*list = (GenericList){0};
goto RETURN_I32_LIST_POP_FRONT;
}
--(list->node_count);
list->first = output->header.next;
--(list->node_count);
list->first = output->next;
output->header.prev = output->header.next = NULL;
output->prev = output->next = NULL;
RETURN_LIST_POP_FRONT:
return output;
RETURN_I32_LIST_POP_FRONT:
return output;
}
WpDblNode *_dblListPopBack(WpDblList *list, u64 item_size) {
wpDebugAssert(list != NULL, "`list` should not be NULL");
_dblListValidate(list, item_size);
GenericNode *_dbl_list_pop_back(GenericList *list, u64 item_size) {
wapp_debug_assert(list != NULL, "`list` should not be NULL");
_dbl_list_validate(list, item_size);
WpDblNode *output = NULL;
GenericNode *output = NULL;
if (list->node_count == 0) {
goto RETURN_LIST_POP_BACK;
}
if (list->node_count == 0) {
goto RETURN_I32_LIST_POP_BACK;
}
output = list->last;
output = list->last;
if (list->node_count == 1) {
*list = (WpDblList){.magic = WP_DBL_LIST_MAGIC, .item_size = item_size};
goto RETURN_LIST_POP_BACK;
}
if (list->node_count == 1) {
*list = (GenericList){.magic = WAPP_DBL_LIST_MAGIC, .item_size = item_size};
goto RETURN_I32_LIST_POP_BACK;
}
--(list->node_count);
list->last = output->header.prev;
--(list->node_count);
list->last = output->prev;
output->header.prev = output->header.next = NULL;
output->prev = output->next = NULL;
RETURN_LIST_POP_BACK:
return output;
RETURN_I32_LIST_POP_BACK:
return output;
}
WpDblNode *_dblListRemove(WpDblList *list, u64 index, u64 item_size) {
wpDebugAssert(list != NULL, "`list` should not be NULL");
_dblListValidate(list, item_size);
GenericNode *_dbl_list_remove(GenericList *list, u64 index, u64 item_size) {
wapp_debug_assert(list != NULL, "`list` should not be NULL");
_dbl_list_validate(list, item_size);
WpDblNode *output = NULL;
GenericNode *output = NULL;
if (index == 0) {
output = _dblListPopFront(list, item_size);
goto RETURN_LIST_REMOVE;
} else if (index == list->node_count) {
output = _dblListPopBack(list, item_size);
goto RETURN_LIST_REMOVE;
}
if (index == 0) {
output = _dbl_list_pop_front(list, item_size);
goto RETURN_I32_LIST_REMOVE;
} else if (index == list->node_count) {
output = _dbl_list_pop_back(list, item_size);
goto RETURN_I32_LIST_REMOVE;
}
output = _dblListGet(list, index, item_size);
if (!output) {
goto RETURN_LIST_REMOVE;
}
output = _dbl_list_get(list, index, item_size);
if (!output) {
goto RETURN_I32_LIST_REMOVE;
}
output->header.prev->header.next = output->header.next;
output->header.next->header.prev = output->header.prev;
output->prev->next = output->next;
output->next->prev = output->prev;
--(list->node_count);
--(list->node_count);
output->header.prev = output->header.next = NULL;
output->prev = output->next = NULL;
RETURN_LIST_REMOVE:
return output;
RETURN_I32_LIST_REMOVE:
return output;
}
void _dblListEmpty(WpDblList *list, u64 item_size) {
wpDebugAssert(list != NULL, "`list` should not be NULL");
_dblListValidate(list, item_size);
void _dbl_list_empty(GenericList *list, u64 item_size) {
wapp_debug_assert(list != NULL, "`list` should not be NULL");
_dbl_list_validate(list, item_size);
u64 count = list->node_count;
for (u64 i = 0; i < count; ++i) {
_dblListPopBack(list, item_size);
}
u64 count = list->node_count;
for (u64 i = 0; i < count; ++i) {
_dbl_list_pop_back(list, item_size);
}
}
wp_intern WpDblList _node_to_list(WpDblNode *node, u64 item_size) {
WpDblList output = {
.magic = WP_DBL_LIST_MAGIC,
.first = node,
.last = node,
.node_count = 1,
.item_size = item_size,
};
wapp_intern GenericList _node_to_list(GenericNode *node, u64 item_size) {
GenericList output = {
.magic = WAPP_DBL_LIST_MAGIC,
.first = node,
.last = node,
.node_count = 1,
.item_size = item_size,
};
while (output.first->header.prev != NULL) {
output.first = output.first->header.prev;
++(output.node_count);
}
while (output.first->prev != NULL) {
output.first = output.first->prev;
++(output.node_count);
}
while (output.last->header.next != NULL) {
output.last = output.last->header.next;
++(output.node_count);
}
while (output.last->next != NULL) {
output.last = output.last->next;
++(output.node_count);
}
return output;
return output;
}
wp_intern inline void _dblListValidate(const WpDblList *list, u64 item_size) {
wpRuntimeAssert(list->magic == WP_DBL_LIST_MAGIC, "`list` isn't a valid wp list type");
wpRuntimeAssert(list->item_size == item_size, "Invalid item provided");
wapp_intern void _dbl_list_validate(const GenericList *list, u64 item_size) {
wapp_runtime_assert(list->magic == WAPP_DBL_LIST_MAGIC, "`list` isn't a valid wapp list type");
wapp_runtime_assert(list->item_size == item_size, "Invalid item provided");
}
wp_intern inline void _dblListNodeValidate(const WpDblList *list, const WpDblNode *node, u64 item_size) {
wpRuntimeAssert(node->header.magic == WP_DBL_NODE_MAGIC, "`node` isn't a valid wp node type");
wpRuntimeAssert(list->item_size == node->header.item_size, "Mismatched `list` and `node` types");
wpRuntimeAssert(node->header.item_size == item_size, "Invalid item provided");
wapp_intern void _dbl_list_node_validate(const GenericNode *node, u64 item_size) {
wapp_runtime_assert(node->magic == WAPP_DBL_NODE_MAGIC, "`node` isn't a valid wapp node type");
wapp_runtime_assert(node->item_size == item_size, "Invalid item provided");
}
src/base/dbl_list/dbl_list.h
+88 -164
View File
@@ -1,5 +1,3 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef DBL_LIST_H
#define DBL_LIST_H
@@ -7,178 +5,104 @@
#include "../../common/aliases/aliases.h"
#include "../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define WP_DBL_LIST_MAGIC (u64)0x57415f444c5354
#define WP_DBL_NODE_MAGIC (u64)0x57415f444e44
#define WAPP_DBL_LIST_MAGIC (u64)0x57415f444c5354
#define WAPP_DBL_NODE_MAGIC (u64)0x57415f444e44
typedef struct WpDblNode WpDblNode;
#define WAPP_DEF_DBL_LIST_TYPE(T, NODE_NAME, LIST_NAME) \
typedef struct NODE_NAME NODE_NAME; \
struct NODE_NAME { \
u64 magic; \
T *item; \
NODE_NAME *prev; \
NODE_NAME *next; \
u64 item_size; \
}; \
\
typedef struct { \
u64 magic; \
NODE_NAME *first; \
NODE_NAME *last; \
u64 node_count; \
u64 item_size; \
} LIST_NAME
typedef struct {
u64 magic;
u64 item_size;
WpDblNode *prev;
WpDblNode *next;
} WpDblNodeHeader;
struct WpDblNode {
WpDblNodeHeader header;
void *item;
};
typedef struct {
u64 magic;
u64 node_count;
u64 item_size;
WpDblNode *first;
WpDblNode *last;
} WpDblList;
// NOTE (Abdelrahman): WpDblList typedefs for readability
typedef WpDblList WpVoidPtrList;
typedef WpDblList WpC8List;
typedef WpDblList WpC16List;
typedef WpDblList WpC32List;
typedef WpDblList WpU8List;
typedef WpDblList WpU16List;
typedef WpDblList WpU32List;
typedef WpDblList WpU64List;
typedef WpDblList WpB8List;
typedef WpDblList WpI8List;
typedef WpDblList WpI16List;
typedef WpDblList WpI32List;
typedef WpDblList WpI64List;
typedef WpDblList WpF32List;
typedef WpDblList WpF64List;
typedef WpDblList WpF128List;
typedef WpDblList WpUptrList;
typedef WpDblList WpIptrList;
typedef WpDblList WpStr8List;
// NOTE (Abdelrahman): WpDblNode typedefs for readability
typedef WpDblNode WpVoidPtrNode;
typedef WpDblNode WpC8Node;
typedef WpDblNode WpC16Node;
typedef WpDblNode WpC32Node;
typedef WpDblNode WpU8Node;
typedef WpDblNode WpU16Node;
typedef WpDblNode WpU32Node;
typedef WpDblNode WpU64Node;
typedef WpDblNode WpB8Node;
typedef WpDblNode WpI8Node;
typedef WpDblNode WpI16Node;
typedef WpDblNode WpI32Node;
typedef WpDblNode WpI64Node;
typedef WpDblNode WpF32Node;
typedef WpDblNode WpF64Node;
typedef WpDblNode WpF128Node;
typedef WpDblNode WpUptrNode;
typedef WpDblNode WpIptrNode;
typedef WpDblNode WpStr8Node;
#ifdef WP_PLATFORM_CPP
#define wpDblList(TYPE) \
WpDblList{WP_DBL_LIST_MAGIC, 0, sizeof(TYPE), nullptr, nullptr}
#define _dblListNode(TYPE, ITEM_PTR) ([&]() { \
wp_persist WpDblNode node = { \
WpDblNodeHeader{WP_DBL_NODE_MAGIC, sizeof(TYPE), nullptr, nullptr}, \
ITEM_PTR, \
}; \
\
return &node; \
}())
#ifdef WAPP_PLATFORM_CPP
#define wapp_dbl_list(ELEM_TYPE, LIST_TYPE) \
LIST_TYPE{WAPP_DBL_LIST_MAGIC, nullptr, nullptr, 0, sizeof(ELEM_TYPE)}
#define wapp_dbl_list_node(ELEM_TYPE, NODE_TYPE, ELEM_PTR) \
NODE_TYPE{WAPP_DBL_NODE_MAGIC, ELEM_PTR, nullptr, nullptr, sizeof(ELEM_TYPE)}
#else
#define wpDblList(TYPE) ( \
(WpDblList){.magic = WP_DBL_LIST_MAGIC, .item_size = sizeof(TYPE)} \
#define wapp_dbl_list(ELEM_TYPE, LIST_TYPE) ( \
(LIST_TYPE){.magic = WAPP_DBL_LIST_MAGIC, .item_size = sizeof(ELEM_TYPE)} \
)
#define _dblListNode(TYPE, ITEM_PTR) ( \
&((WpDblNode){.header = {.magic = WP_DBL_NODE_MAGIC, .item_size = sizeof(TYPE)}, \
.item = ITEM_PTR}) \
#define wapp_dbl_list_node(ELEM_TYPE, NODE_TYPE, ELEM_PTR) ( \
(NODE_TYPE){.magic = WAPP_DBL_NODE_MAGIC, .item = ELEM_PTR, .item_size = sizeof(ELEM_TYPE)} \
)
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define wpDblListAlloc(TYPE, ALLOCATOR) \
(_dblListAlloc(ALLOCATOR, sizeof(TYPE)))
#define wpDblListGet(TYPE, LIST_PTR, ITEM_INDEX) \
((TYPE *)(_dblListGet(LIST_PTR, ITEM_INDEX, sizeof(TYPE))->item))
#define wpDblListGetNode(TYPE, LIST_PTR, ITEM_INDEX) \
(_dblListGet(LIST_PTR, ITEM_INDEX, sizeof(TYPE)))
#define wpDblListGetNodeItem(TYPE, NODE_PTR) \
((TYPE *)( \
(NODE_PTR == NULL) ? \
NULL : \
(NODE_PTR)->item \
))
#define wpDblListPushFront(TYPE, LIST_PTR, ITEM_PTR) \
(_dblListPushFront(LIST_PTR, _dblListNode(TYPE, ITEM_PTR), sizeof(TYPE)))
#define wpDblListPushBack(TYPE, LIST_PTR, ITEM_PTR) \
(_dblListPushBack(LIST_PTR, _dblListNode(TYPE, ITEM_PTR), sizeof(TYPE)))
#define wpDblListInsert(TYPE, LIST_PTR, ITEM_PTR, ITEM_INDEX) \
(_dblListInsert(LIST_PTR, _dblListNode(TYPE, ITEM_PTR), \
ITEM_INDEX, sizeof(TYPE)))
#define wpDblListPushFrontAlloc(TYPE, ALLOCATOR, LIST_PTR, ITEM_PTR) \
(_dblListPushFront(LIST_PTR, _dblListNodeAlloc(ALLOCATOR, ITEM_PTR, sizeof(TYPE)), \
sizeof(TYPE)))
#define wpDblListPushBackAlloc(TYPE, ALLOCATOR, LIST_PTR, ITEM_PTR) \
(_dblListPushBack(LIST_PTR, _dblListNodeAlloc(ALLOCATOR, ITEM_PTR, sizeof(TYPE)), \
sizeof(TYPE)))
#define wpDblListInsertAlloc(TYPE, ALLOCATOR, LIST_PTR, ITEM_PTR, ITEM_INDEX) \
(_dblListInsert(LIST_PTR, _dblListNodeAlloc(ALLOCATOR, ITEM_PTR, sizeof(TYPE)), \
ITEM_INDEX, sizeof(TYPE)))
#define wpDblListPopFront(TYPE, LIST_PTR) \
((TYPE *)( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0) ? \
NULL : \
_dblListPopFront(LIST_PTR, sizeof(TYPE))->item \
))
#define wpDblListPopBack(TYPE, LIST_PTR) \
((TYPE *)( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0) ? \
NULL : \
_dblListPopBack(LIST_PTR, sizeof(TYPE))->item \
))
#define wpDblListRemove(TYPE, LIST_PTR, ITEM_INDEX) \
((TYPE *)( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0 || ITEM_INDEX >= (LIST_PTR)->node_count) ? \
NULL : \
_dblListRemove(LIST_PTR, ITEM_INDEX, sizeof(TYPE))->item \
))
#define wpDblListPopFrontNode(TYPE, LIST_PTR) \
( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0) ? \
NULL : \
_dblListPopFront(LIST_PTR, sizeof(TYPE)) \
)
#define wpDblListPopBackNode(TYPE, LIST_PTR) \
( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0) ? \
NULL : \
_dblListPopBack(LIST_PTR, sizeof(TYPE)) \
)
#define wpDblListRemoveNode(TYPE, LIST_PTR, ITEM_INDEX) \
( \
(LIST_PTR == NULL || (LIST_PTR)->node_count == 0 || ITEM_INDEX >= (LIST_PTR)->node_count) ? \
NULL : \
_dblListRemove(LIST_PTR, ITEM_INDEX, sizeof(TYPE)) \
)
#define wpDblListEmpty(TYPE, LIST_PTR) \
(_dblListEmpty(LIST_PTR, sizeof(TYPE)))
#define wapp_dbl_list_alloc(ELEM_TYPE, LIST_TYPE, ALLOCATOR) \
(LIST_TYPE *)_dbl_list_alloc(ALLOCATOR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_node_alloc(ELEM_TYPE, NODE_TYPE, ALLOCATOR) \
(NODE_TYPE *)_dbl_list_node_alloc(ALLOCATOR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_get(ELEM_TYPE, NODE_TYPE, LIST_PTR, ELEM_INDEX) \
(NODE_TYPE *)_dbl_list_get((GenericList *)LIST_PTR, ELEM_INDEX, sizeof(ELEM_TYPE))
#define wapp_dbl_list_push_front(ELEM_TYPE, LIST_PTR, NODE_PTR) \
_dbl_list_push_front((GenericList *)LIST_PTR, (GenericNode *)NODE_PTR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_push_back(ELEM_TYPE, LIST_PTR, NODE_PTR) \
_dbl_list_push_back((GenericList *)LIST_PTR, (GenericNode *)NODE_PTR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_insert(ELEM_TYPE, LIST_PTR, NODE_PTR, ELEM_INDEX) \
_dbl_list_insert((GenericList *)LIST_PTR, (GenericNode *)NODE_PTR, ELEM_INDEX, sizeof(ELEM_TYPE))
#define wapp_dbl_list_pop_front(ELEM_TYPE, NODE_TYPE, LIST_PTR) \
(NODE_TYPE *)_dbl_list_pop_front((GenericList *)LIST_PTR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_pop_back(ELEM_TYPE, NODE_TYPE, LIST_PTR) \
(NODE_TYPE *)_dbl_list_pop_back((GenericList *)LIST_PTR, sizeof(ELEM_TYPE))
#define wapp_dbl_list_remove(ELEM_TYPE, NODE_TYPE, LIST_PTR, ELEM_INDEX) \
(NODE_TYPE *)_dbl_list_remove((GenericList *)LIST_PTR, ELEM_INDEX, sizeof(ELEM_TYPE))
#define wapp_dbl_list_empty(ELEM_TYPE, LIST_PTR) \
_dbl_list_empty((GenericList *)LIST_PTR, sizeof(ELEM_TYPE))
WpDblList *_dblListAlloc(const WpAllocator *allocator, u64 item_size);
WpDblNode *_dblListNodeAlloc(const WpAllocator *allocator, void *item, u64 item_size);
WpDblNode *_dblListGet(const WpDblList *list, u64 index, u64 item_size);
void _dblListPushFront(WpDblList *list, WpDblNode *node, u64 item_size);
void _dblListPushBack(WpDblList *list, WpDblNode *node, u64 item_size);
void _dblListInsert(WpDblList *list, WpDblNode *node, u64 index, u64 item_size);
WpDblNode *_dblListPopFront(WpDblList *list, u64 item_size);
WpDblNode *_dblListPopBack(WpDblList *list, u64 item_size);
WpDblNode *_dblListRemove(WpDblList *list, u64 index, u64 item_size);
void _dblListEmpty(WpDblList *list, u64 item_size);
WAPP_DEF_DBL_LIST_TYPE(void, GenericNode, GenericList);
#ifdef WP_PLATFORM_CPP
GenericList *_dbl_list_alloc(const Allocator *allocator, u64 item_size);
GenericNode *_dbl_list_node_alloc(const Allocator *allocator, u64 item_size);
GenericNode *_dbl_list_get(const GenericList *list, u64 index, u64 item_size);
void _dbl_list_push_front(GenericList *list, GenericNode *node, u64 item_size);
void _dbl_list_push_back(GenericList *list, GenericNode *node, u64 item_size);
void _dbl_list_insert(GenericList *list, GenericNode *node, u64 index, u64 item_size);
GenericNode *_dbl_list_pop_front(GenericList *list, u64 item_size);
GenericNode *_dbl_list_pop_back(GenericList *list, u64 item_size);
GenericNode *_dbl_list_remove(GenericList *list, u64 index, u64 item_size);
void _dbl_list_empty(GenericList *list, u64 item_size);
// Base list types
typedef struct str8 Str8;
WAPP_DEF_DBL_LIST_TYPE(void *, VoidPtrNode, VoidPtrList);
WAPP_DEF_DBL_LIST_TYPE(c8 , C8Node , C8List);
WAPP_DEF_DBL_LIST_TYPE(c16 , C16Node , C16List);
WAPP_DEF_DBL_LIST_TYPE(c32 , C32Node , C32List);
WAPP_DEF_DBL_LIST_TYPE(u8 , U8Node , U8List);
WAPP_DEF_DBL_LIST_TYPE(u16 , U16Node , U16List);
WAPP_DEF_DBL_LIST_TYPE(u32 , U32Node , U32List);
WAPP_DEF_DBL_LIST_TYPE(u64 , U64Node , U64List);
WAPP_DEF_DBL_LIST_TYPE(b8 , B8Node , B8List);
WAPP_DEF_DBL_LIST_TYPE(i8 , I8Node , I8List);
WAPP_DEF_DBL_LIST_TYPE(i16 , I16Node , I16List);
WAPP_DEF_DBL_LIST_TYPE(i32 , I32Node , I32List);
WAPP_DEF_DBL_LIST_TYPE(i64 , I64Node , I64List);
WAPP_DEF_DBL_LIST_TYPE(f32 , F32Node , F32List);
WAPP_DEF_DBL_LIST_TYPE(f64 , F64Node , F64List);
WAPP_DEF_DBL_LIST_TYPE(f128 , F128Node , F128List);
WAPP_DEF_DBL_LIST_TYPE(uptr , UptrNode , UptrList);
WAPP_DEF_DBL_LIST_TYPE(iptr , IptrNode , IptrList);
WAPP_DEF_DBL_LIST_TYPE(Str8 , Str8Node , Str8List);
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !DBL_LIST_H
src/base/mem/allocator/mem_allocator.c
+17 -17
View File
@@ -5,31 +5,31 @@
#include "../../../common/assert/assert.h"
#include <stdlib.h>
void *wpMemAllocatorAlloc(const WpAllocator *allocator, u64 size) {
wpDebugAssert(allocator != NULL && (allocator->alloc) != NULL, "`allocator` and `allocator->alloc` should not be NULL");
return allocator->alloc(size, allocator->obj);
void *wapp_mem_allocator_alloc(const Allocator *allocator, u64 size) {
wapp_debug_assert(allocator != NULL && (allocator->alloc) != NULL, "`allocator` and `allocator->alloc` should not be NULL");
return allocator->alloc(size, allocator->obj);
}
void *wpMemAllocatorAllocAligned(const WpAllocator *allocator, u64 size, u64 alignment) {
wpDebugAssert(allocator != NULL && (allocator->alloc_aligned) != NULL, "`allocator` and `allocator->alloc_aligned` should not be NULL");
return allocator->alloc_aligned(size, alignment, allocator->obj);
void *wapp_mem_allocator_alloc_aligned(const Allocator *allocator, u64 size, u64 alignment) {
wapp_debug_assert(allocator != NULL && (allocator->alloc_aligned) != NULL, "`allocator` and `allocator->alloc_aligned` should not be NULL");
return allocator->alloc_aligned(size, alignment, allocator->obj);
}
void *wpMemAllocatorRealloc(const WpAllocator *allocator, void *ptr, u64 old_size, u64 new_size) {
wpDebugAssert(allocator != NULL && (allocator->realloc) != NULL, "`allocator` and `allocator->realloc` should not be NULL");
return allocator->realloc(ptr, old_size, new_size, allocator->obj);
void *wapp_mem_allocator_realloc(const Allocator *allocator, void *ptr, u64 old_size, u64 new_size) {
wapp_debug_assert(allocator != NULL && (allocator->realloc) != NULL, "`allocator` and `allocator->realloc` should not be NULL");
return allocator->realloc(ptr, old_size, new_size, allocator->obj);
}
void *wpMemAllocatorReallocAligned(const WpAllocator *allocator, void *ptr, u64 old_size,
void *wapp_mem_allocator_realloc_aligned(const Allocator *allocator, void *ptr, u64 old_size,
u64 new_size, u64 alignment) {
wpDebugAssert(allocator != NULL && (allocator->realloc_aligned) != NULL, "`allocator` and `allocator->realloc_aligned` should not be NULL");
return allocator->realloc_aligned(ptr, old_size, new_size, alignment, allocator->obj);
wapp_debug_assert(allocator != NULL && (allocator->realloc_aligned) != NULL, "`allocator` and `allocator->realloc_aligned` should not be NULL");
return allocator->realloc_aligned(ptr, old_size, new_size, alignment, allocator->obj);
}
void wpMemAllocatorFree(const WpAllocator *allocator, void **ptr, u64 size) {
if (!allocator || !(allocator->free)) {
return;
}
void wapp_mem_allocator_free(const Allocator *allocator, void **ptr, u64 size) {
if (!allocator || !(allocator->free)) {
return;
}
allocator->free(ptr, size, allocator->obj);
allocator->free(ptr, size, allocator->obj);
}
src/base/mem/allocator/mem_allocator.h
+28 -28
View File
@@ -7,44 +7,44 @@
#include "../../../common/platform/platform.h"
#include <string.h>
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef void *(WpMemAllocFunc)(u64 size, void *alloc_obj);
typedef void *(WpMemAllocAlignedFunc)(u64 size, u64 alignment, void *alloc_obj);
typedef void *(WpMemReallocFunc)(void *ptr, u64 old_size, u64 new_size, void *alloc_obj);
typedef void *(WpMemReallocAlignedFunc)(void *ptr, u64 old_size, u64 new_size, u64 alignment, void *alloc_obj);
typedef void (WpMemFreeFunc)(void **ptr, u64 size, void *alloc_obj);
typedef void *(MemAllocFunc)(u64 size, void *alloc_obj);
typedef void *(MemAllocAlignedFunc)(u64 size, u64 alignment, void *alloc_obj);
typedef void *(MemReallocFunc)(void *ptr, u64 old_size, u64 new_size, void *alloc_obj);
typedef void *(MemReallocAlignedFunc)(void *ptr, u64 old_size, u64 new_size, u64 alignment, void *alloc_obj);
typedef void (MemFreeFunc)(void **ptr, u64 size, void *alloc_obj);
typedef struct WpAllocator WpAllocator;
struct WpAllocator {
void *obj;
WpMemAllocFunc *alloc;
WpMemAllocAlignedFunc *alloc_aligned;
WpMemReallocFunc *realloc;
WpMemReallocAlignedFunc *realloc_aligned;
WpMemFreeFunc *free;
typedef struct allocator Allocator;
struct allocator {
void *obj;
MemAllocFunc *alloc;
MemAllocAlignedFunc *alloc_aligned;
MemReallocFunc *realloc;
MemReallocAlignedFunc *realloc_aligned;
MemFreeFunc *free;
};
#ifdef WP_PLATFORM_CPP
#define wpMemAllocatorInvalid(ALLOCATOR) ([&]() { \
WpAllocator alloc{}; \
return memcmp(ALLOCATOR, &alloc, sizeof(WpAllocator)) == 0; \
#ifdef WAPP_PLATFORM_CPP
#define wapp_mem_allocator_invalid(ALLOCATOR) ([&]() { \
Allocator alloc{}; \
return memcmp(ALLOCATOR, &alloc, sizeof(Allocator)) == 0; \
}())
#else
#define wpMemAllocatorInvalid(ALLOCATOR) (memcmp(ALLOCATOR, &((WpAllocator){0}), sizeof(WpAllocator)) == 0)
#endif // !WP_PLATFORM_CPP
#define wapp_mem_allocator_invalid(ALLOCATOR) (memcmp(ALLOCATOR, &((Allocator){0}), sizeof(Allocator)) == 0)
#endif // !WAPP_PLATFORM_CPP
void *wpMemAllocatorAlloc(const WpAllocator *allocator, u64 size);
void *wpMemAllocatorAllocAligned(const WpAllocator *allocator, u64 size, u64 alignment);
void *wpMemAllocatorRealloc(const WpAllocator *allocator, void *ptr, u64 old_size, u64 new_size);
void *wpMemAllocatorReallocAligned(const WpAllocator *allocator, void *ptr, u64 old_size,
void *wapp_mem_allocator_alloc(const Allocator *allocator, u64 size);
void *wapp_mem_allocator_alloc_aligned(const Allocator *allocator, u64 size, u64 alignment);
void *wapp_mem_allocator_realloc(const Allocator *allocator, void *ptr, u64 old_size, u64 new_size);
void *wapp_mem_allocator_realloc_aligned(const Allocator *allocator, void *ptr, u64 old_size,
u64 new_size, u64 alignment);
void wpMemAllocatorFree(const WpAllocator *allocator, void **ptr, u64 size);
void wapp_mem_allocator_free(const Allocator *allocator, void **ptr, u64 size);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_ALLOCATOR_H
src/base/mem/utils/mem_utils.c
+14 -13
View File
@@ -3,23 +3,24 @@
#include "mem_utils.h"
#include "../../../common/aliases/aliases.h"
#include "../../../common/assert/assert.h"
#include "../../../common/misc/misc_utils.h"
#include <stddef.h>
void *wpMemUtilAlignForward(void *ptr, u64 alignment) {
wpDebugAssert(ptr != NULL, "`ptr` should not be NULL");
wpRuntimeAssert(wpMiscUtilsIsPowerOfTwo(alignment), "`alignment` value is not a power of two");
wapp_intern b8 is_power_of_two(u64 num) { return (num & (num - 1)) == 0; }
uptr p = (uptr)ptr;
uptr align = (uptr)alignment;
void *wapp_mem_util_align_forward(void *ptr, u64 alignment) {
wapp_debug_assert(ptr != NULL, "`ptr` should not be NULL");
wapp_runtime_assert(is_power_of_two(alignment), "`alignment` value is not a power of two");
// Similar to p % align, but it's a faster implementation that works fine
// because align is guaranteed to be a power of 2
uptr modulo = p & (align - 1);
uptr p = (uptr)ptr;
uptr align = (uptr)alignment;
if (modulo != 0) {
p += align - modulo;
}
// Similar to p % align, but it's a faster implementation that works fine
// because align is guaranteed to be a power of 2
uptr modulo = p & (align - 1);
return (void *)p;
if (modulo != 0) {
p += align - modulo;
}
return (void *)p;
}
src/base/mem/utils/mem_utils.h
+5 -5
View File
@@ -6,14 +6,14 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
void *wpMemUtilAlignForward(void *ptr, u64 alignment);
void *wapp_mem_util_align_forward(void *ptr, u64 alignment);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_UTILS_H
src/base/queue/queue.c
-108
View File
@@ -1,108 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "queue.h"
#include "../array/array.h"
#include "../../common/assert/assert.h"
#include "../../common/misc/misc_utils.h"
#include <string.h>
void _queuePush(WpQueue *queue, void *item, u64 item_size) {
wpDebugAssert(queue != NULL, "`queue` should not be NULL");
wpRuntimeAssert(item_size == wpArrayItemSize(queue->items), "Invalid type");
u64 capacity = wpArrayCapacity(queue->items);
if (queue->count >= capacity) { return; }
u64 index = (queue->back)++;
_arraySet(queue->items, index, item, item_size);
++(queue->count);
if (queue->back >= capacity) {
queue->back = 0;
}
}
WpQueue *_queuePushAlloc(const WpAllocator *allocator, WpQueue *queue, void *item, u64 item_size) {
wpDebugAssert(allocator != NULL && queue != NULL && item != NULL,
"`allocator`, `queue` and `item` should not be NULL");
wpRuntimeAssert(item_size == wpArrayItemSize(queue->items), "Invalid type");
WpQueue *output = queue;
u64 capacity = wpArrayCapacity(queue->items);
// NOTE (Abdelrahman): Extracted into variable to fix MSVC error
b8 queue_full = queue->count >= capacity;
if (queue_full) {
u64 new_capacity = wpMiscUtilsU64RoundUpPow2(capacity * 2);
u64 array_size = _arrayCalcAllocSize(new_capacity, item_size);
u64 alloc_size = sizeof(WpQueue) + array_size;
void *buffer = wpMemAllocatorAlloc(allocator, alloc_size);
if (!buffer) {
goto RETURN_QUEUE_PUSH_ALLOC;
}
memset((void *)buffer, 0, alloc_size);
output = (WpQueue *)buffer;
output->items = _arrayFromPreallocatedBuffer((void *)(output + 1), array_size, WP_ARRAY_INIT_FILLED, item_size);
// NOTE (Abdelrahman): When the queue is full, the front and back indices should
// always be the same
u64 front_count = capacity - queue->front;
u64 back_count = queue->back;
void *copy_boundary = (void *)((uptr)(queue->items) + (queue->front * item_size));
memcpy(output->items, copy_boundary, front_count * item_size);
/**
* NOTE (Abdelrahman): Since this is a ring buffer, the elements at the beginning of the array
* aren't always the ones at the front of the queue. When that's the case, the memcpy above
* will only copy a subset of the elements. This is why we need to copy the remaining ones.
*
* Example: Take a queue that looks like this with a capacity of 5 elements
*
* 0 1 | 2 3 4
* ---------------|-----------------------
* | * | * | * | * | * |
* ---------------|-----------------------
* |
* queue_front = 2
* queue_back = 2
*
* In this case, the first memcpy will only copy elements 2-4. The memcpy below will be
* responsible for copying elements 0-1.
*/
b8 items_left_to_copy = back_count > 0;
if (items_left_to_copy) {
void *back_copy_dst = (void *)((uptr)(output->items) + (front_count * item_size));
memcpy(back_copy_dst, queue->items, back_count * item_size);
}
output->front = 0;
output->back = front_count + back_count;
output->count = queue->count;
}
_queuePush(output, item, item_size);
RETURN_QUEUE_PUSH_ALLOC:
return output;
}
void *_queuePop(WpQueue *queue, u64 item_size) {
wpDebugAssert(queue != NULL, "`queue` should not be NULL");
wpRuntimeAssert(item_size == wpArrayItemSize(queue->items), "Invalid type");
if (queue->count == 0) { return NULL; }
u64 index = (queue->front)++;
--(queue->count);
u64 capacity = wpArrayCapacity(queue->items);
if (queue->front >= capacity) {
queue->front = 0;
}
return _arrayGet(queue->items, index, item_size);
}
src/base/queue/queue.h
-100
View File
@@ -1,100 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef QUEUE_H
#define QUEUE_H
#include "../array/array.h"
#include "../mem/allocator/mem_allocator.h"
#include "../../common/aliases/aliases.h"
#include "../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
typedef struct {
WpArray items;
u64 front;
u64 back;
u64 count;
} WpQueue;
// NOTE (Abdelrahman): WpQueue typedefs for readability
typedef WpQueue WpVoidPtrQueue;
typedef WpQueue WpC8Queue;
typedef WpQueue WpC16Queue;
typedef WpQueue WpC32Queue;
typedef WpQueue WpU8Queue;
typedef WpQueue WpU16Queue;
typedef WpQueue WpU32Queue;
typedef WpQueue WpU64Queue;
typedef WpQueue WpB8Queue;
typedef WpQueue WpI8Queue;
typedef WpQueue WpI16Queue;
typedef WpQueue WpI32Queue;
typedef WpQueue WpI64Queue;
typedef WpQueue WpF32Queue;
typedef WpQueue WpF64Queue;
typedef WpQueue WpF128Queue;
typedef WpQueue WpUptrQueue;
typedef WpQueue WpIptrQueue;
typedef WpQueue WpStr8Queue;
#ifdef WP_PLATFORM_CPP
#define wpQueue(TYPE, CAPACITY) ([&]() { \
wp_persist WpArray arr = wpArrayWithCapacity(TYPE, CAPACITY, WP_ARRAY_INIT_FILLED); \
wp_persist WpQueue queue = { \
arr, \
0, \
0, \
0, \
}; \
\
return queue; \
}())
#define wpQueueAlloc(TYPE, ALLOCATOR_PTR, CAPACITY) ([&]() { \
wp_persist WpQueue queue = { \
wpArrayAllocCapacity(TYPE, ALLOCATOR_PTR, CAPACITY, WP_ARRAY_INIT_FILLED), \
0, \
0, \
0, \
}; \
\
return queue; \
}())
#else
#define wpQueue(TYPE, CAPACITY) ((WpQueue){ \
.items = wpArrayWithCapacity(TYPE, CAPACITY, WP_ARRAY_INIT_FILLED), \
.front = 0, \
.back = 0, \
.count = 0, \
})
#define wpQueueAlloc(TYPE, ALLOCATOR_PTR, CAPACITY) ((WpQueue){ \
.items = wpArrayAllocCapacity(TYPE, ALLOCATOR_PTR, CAPACITY, WP_ARRAY_INIT_FILLED), \
.front = 0, \
.back = 0, \
.count = 0, \
})
#endif // !WP_PLATFORM_CPP
#define wpQueueCapacity(QUEUE_PTR) (wpArrayCapacity((QUEUE_PTR)->items))
#define wpQueueItemSize(QUEUE_PTR) (wpArrayItemSize((QUEUE_PTR)->items))
#define wpQueuePush(TYPE, QUEUE_PTR, VALUE_PTR) ( \
_queuePush(QUEUE_PTR, VALUE_PTR, sizeof(TYPE)) \
)
#define wpQueuePushAlloc(TYPE, ALLOCATOR_PTR, QUEUE_PTR, VALUE_PTR) ( \
_queuePushAlloc(ALLOCATOR_PTR, QUEUE_PTR, VALUE_PTR, sizeof(TYPE)) \
)
#define wpQueuePop(TYPE, QUEUE_PTR) ( \
(TYPE *)_queuePop(QUEUE_PTR, sizeof(TYPE)) \
)
void _queuePush(WpQueue *queue, void *item, u64 item_size);
WpQueue *_queuePushAlloc(const WpAllocator *allocator, WpQueue *queue, void *item, u64 item_size);
void *_queuePop(WpQueue *queue, u64 item_size);
#ifdef WP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !QUEUE_H
src/base/strings/str8/str8.c
+334 -322
View File
@@ -11,470 +11,482 @@
#include <stdio.h>
#include <string.h>
#define STR8_BUF_ALLOC_SIZE(CAPACITY) (sizeof(WpStr8) + sizeof(c8) * CAPACITY)
#define STR8_BUF_ALLOC_SIZE(CAPACITY) (sizeof(Str8) + sizeof(c8) * CAPACITY)
WpStr8 *wpStr8AllocBuf(const WpAllocator *allocator, u64 capacity) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
Str8 *wapp_str8_alloc_buf(const Allocator *allocator, u64 capacity) {
wapp_debug_assert(allocator != NULL, "`allocator` should not be NULL");
WpStr8 *str = wpMemAllocatorAlloc(allocator, STR8_BUF_ALLOC_SIZE(capacity));
if (!str) {
goto RETURN_STR8;
}
Str8 *str = wapp_mem_allocator_alloc(allocator, STR8_BUF_ALLOC_SIZE(capacity));
if (!str) {
goto RETURN_STR8;
}
str->buf = (u8 *)str + sizeof(WpStr8);
str->size = 0;
str->capacity = capacity;
str->buf = (u8 *)str + sizeof(Str8);
str->size = 0;
str->capacity = capacity;
RETURN_STR8:
return str;
return str;
}
WpStr8 *wpStr8AllocAndFillBuf(const WpAllocator *allocator, u64 capacity) {
WpStr8 *out = wpStr8AllocBuf(allocator, capacity);
if (out) {
memset(out->buf, 0, capacity);
out->size = capacity;
}
return out;
Str8 *wapp_str8_alloc_and_fill_buf(const Allocator *allocator, u64 capacity) {
Str8 *out = wapp_str8_alloc_buf(allocator, capacity);
if (out) {
memset(out->buf, 0, capacity);
out->size = capacity;
}
return out;
}
WpStr8 *wpStr8AllocCstr(const WpAllocator *allocator, const char *str) {
wpDebugAssert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
Str8 *wapp_str8_alloc_cstr(const Allocator *allocator, const char *str) {
wapp_debug_assert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
u64 length = strlen(str);
WpStr8 *output = wpStr8AllocBuf(allocator, length * 2);
if (!output) {
goto RETURN_ALLOC_CSTR;
}
u64 length = strlen(str);
Str8 *output = wapp_str8_alloc_buf(allocator, length * 2);
if (!output) {
goto RETURN_ALLOC_CSTR;
}
output->size = length;
memcpy(output->buf, str, length);
output->size = length;
memcpy(output->buf, str, length);
RETURN_ALLOC_CSTR:
return output;
return output;
}
WpStr8 *wpStr8AllocStr8(const WpAllocator *allocator, WpStr8RO *str) {
wpDebugAssert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
Str8 *wapp_str8_alloc_str8(const Allocator *allocator, Str8RO *str) {
wapp_debug_assert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
WpStr8 *output = wpStr8AllocBuf(allocator, str->capacity);
if (!output) {
goto RETURN_ALLOC_STR8;
}
Str8 *output = wapp_str8_alloc_buf(allocator, str->capacity);
if (!output) {
goto RETURN_ALLOC_STR8;
}
output->size = str->size;
memcpy(output->buf, str->buf, str->size);
output->size = str->size;
memcpy(output->buf, str->buf, str->size);
RETURN_ALLOC_STR8:
return output;
return output;
}
WpStr8 *wpStr8AllocSubstr(const WpAllocator *allocator, WpStr8RO *str, u64 start, u64 end) {
wpDebugAssert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
Str8 *wapp_str8_alloc_substr(const Allocator *allocator, Str8RO *str, u64 start, u64 end) {
wapp_debug_assert(allocator != NULL && str != NULL, "`allocator` and `str` should not be NULL");
WpStr8 *output = NULL;
Str8 *output = NULL;
if (start >= str->size || start >= end) {
goto RETURN_ALLOC_SUBSTR;
}
if (start >= str->size || start >= end) {
goto RETURN_ALLOC_SUBSTR;
}
if (end > str->size) {
end = str->size;
}
if (end > str->size) {
end = str->size;
}
output = wpStr8AllocBuf(allocator, str->capacity);
if (!output) {
goto RETURN_ALLOC_SUBSTR;
}
output = wapp_str8_alloc_buf(allocator, str->capacity);
if (!output) {
goto RETURN_ALLOC_SUBSTR;
}
output->size = end - start;
memcpy(output->buf, str->buf + start, output->size);
output->size = end - start;
memcpy(output->buf, str->buf + start, output->size);
RETURN_ALLOC_SUBSTR:
return output;
return output;
}
void wpStr8DeallocBuf(const WpAllocator *allocator, WpStr8 **str) {
wpDebugAssert(allocator != NULL && str != NULL && (*str) != NULL, "Either `allocator` is NULL or `str` is an invalid double pointer");
wpMemAllocatorFree(allocator, (void **)str, STR8_BUF_ALLOC_SIZE((*str)->capacity));
void wapp_str8_dealloc_buf(const Allocator *allocator, Str8 **str) {
wapp_debug_assert(allocator != NULL && str != NULL && (*str) != NULL, "Either `allocator` is NULL or `str` is an invalid double pointer");
wapp_mem_allocator_free(allocator, (void **)str, STR8_BUF_ALLOC_SIZE((*str)->capacity));
}
c8 wpStr8Get(const WpStr8 *str, u64 index) {
if (index >= str->size) {
return '\0';
}
c8 wapp_str8_get(const Str8 *str, u64 index) {
if (index >= str->size) {
return '\0';
}
return str->buf[index];
return str->buf[index];
}
void wpStr8Set(WpStr8 *str, u64 index, c8 c) {
if (index >= str->size) {
return;
}
void wapp_str8_set(Str8 *str, u64 index, c8 c) {
if (index >= str->size) {
return;
}
str->buf[index] = c;
str->buf[index] = c;
}
void wpStr8PushBack(WpStr8 *str, c8 c) {
if (!(str->size < str->capacity)) {
return;
}
void wapp_str8_push_back(Str8 *str, c8 c) {
if (!(str->size < str->capacity)) {
return;
}
u64 index = (str->size)++;
wpStr8Set(str, index, c);
u64 index = (str->size)++;
wapp_str8_set(str, index, c);
}
b8 wpStr8Equal(WpStr8RO *s1, WpStr8RO *s2) {
if (s1->size != s2->size) {
return false;
}
b8 wapp_str8_equal(Str8RO *s1, Str8RO *s2) {
if (s1->size != s2->size) {
return false;
}
return wpStr8EqualToCount(s1, s2, s1->size);
return wapp_str8_equal_to_count(s1, s2, s1->size);
}
b8 wpStr8EqualToCount(WpStr8RO* s1, WpStr8RO* s2, u64 count) {
if (!s1 || !s2) {
return false;
}
b8 wapp_str8_equal_to_count(Str8RO* s1, Str8RO* s2, u64 count) {
if (!s1 || !s2) {
return false;
}
return memcmp(s1->buf, s2->buf, count) == 0;
return memcmp(s1->buf, s2->buf, count) == 0;
}
WpStr8 wpStr8Slice(WpStr8RO *str, u64 start, u64 end) {
if (start >= str->size || start >= end) {
start = str->size;
end = str->size;
}
Str8 wapp_str8_slice(Str8RO *str, u64 start, u64 end) {
if (start >= str->size || start >= end) {
start = str->size;
end = str->size;
}
if (end > str->size) {
end = str->size;
}
if (end > str->size) {
end = str->size;
}
return (WpStr8RO){
.capacity = end - start,
.size = end - start,
.buf = str->buf + start,
};
return (Str8RO){
.capacity = end - start,
.size = end - start,
.buf = str->buf + start,
};
}
WpStr8 *wpStr8AllocConcat(const WpAllocator *allocator, WpStr8 *dst, WpStr8RO *src) {
wpDebugAssert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
Str8 *wapp_str8_alloc_concat(const Allocator *allocator, Str8 *dst, Str8RO *src) {
wapp_debug_assert(allocator != NULL && dst != NULL && src != NULL, "`allocator`, `dst` and `src` should not be NULL");
WpStr8 *output = NULL;
u64 remaining = dst->capacity - dst->size;
if (src->size <= remaining) {
output = dst;
goto SOURCE_STRING_STR8_CONCAT;
}
Str8 *output = NULL;
u64 remaining = dst->capacity - dst->size;
if (src->size <= remaining) {
output = dst;
goto SOURCE_STRING_STR8_CONCAT;
}
u64 capacity = dst->capacity + src->size;
u64 capacity = dst->capacity + src->size;
output = wpStr8AllocBuf(allocator, capacity);
if (!output) {
goto RETURN_STR8_CONCAT;
}
output = wapp_str8_alloc_buf(allocator, capacity);
if (!output) {
goto RETURN_STR8_CONCAT;
}
wpStr8ConcatCapped(output, dst);
wapp_str8_concat_capped(output, dst);
SOURCE_STRING_STR8_CONCAT:
wpStr8ConcatCapped(output, src);
wapp_str8_concat_capped(output, src);
RETURN_STR8_CONCAT:
return output;
return output;
}
void wpStr8ConcatCapped(WpStr8 *dst, WpStr8RO *src) {
wpDebugAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
void wapp_str8_concat_capped(Str8 *dst, Str8RO *src) {
wapp_debug_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
u64 remaining = dst->capacity - dst->size;
u64 to_copy = remaining < src->size ? remaining : src->size;
u64 remaining = dst->capacity - dst->size;
u64 to_copy = remaining < src->size ? remaining : src->size;
memcpy(dst->buf + dst->size, src->buf, to_copy);
dst->size += to_copy;
memcpy(dst->buf + dst->size, src->buf, to_copy);
dst->size += to_copy;
}
void wpStr8CopyCstrCapped(WpStr8 *dst, const char *src) {
wpDebugAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
void wapp_str8_copy_cstr_capped(Str8 *dst, const char *src) {
wapp_debug_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
u64 length = strlen(src);
u64 to_copy = length <= dst->capacity ? length : dst->capacity;
u64 length = strlen(src);
u64 to_copy = length <= dst->capacity ? length : dst->capacity;
memset(dst->buf, 0, dst->size);
memcpy(dst->buf, src, to_copy);
dst->size = to_copy;
memset(dst->buf, 0, dst->size);
memcpy(dst->buf, src, to_copy);
dst->size = to_copy;
}
void wpStr8CopyStr8Capped(WpStr8 *dst, WpStr8RO *src) {
wpDebugAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
void wapp_str8_copy_str8_capped(Str8 *dst, Str8RO *src) {
wapp_debug_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
u64 to_copy = src->size <= dst->capacity ? src->size : dst->capacity;
u64 to_copy = src->size <= dst->capacity ? src->size : dst->capacity;
memset(dst->buf, 0, dst->size);
memcpy(dst->buf, src->buf, to_copy);
dst->size = to_copy;
memset(dst->buf, 0, dst->size);
memcpy(dst->buf, src->buf, to_copy);
dst->size = to_copy;
}
void wpStr8CopyToCstr(char *dst, WpStr8RO *src, u64 dst_capacity) {
wpDebugAssert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
void wapp_str8_copy_to_cstr(char *dst, Str8RO *src, u64 dst_capacity) {
wapp_debug_assert(dst != NULL && src != NULL, "`dst` and `src` should not be NULL");
u64 to_copy = src->size < dst_capacity ? src->size : dst_capacity - 1;
u64 to_copy = src->size < dst_capacity ? src->size : dst_capacity - 1;
memset(dst, 0, dst_capacity);
memcpy(dst, src->buf, to_copy);
memset(dst, 0, dst_capacity);
memcpy(dst, src->buf, to_copy);
}
void wpStr8Format(WpStr8 *dst, const char *format, ...) {
wpDebugAssert(dst != NULL && format != NULL, "`dst` and `format` should not be NULL");
void wapp_str8_format(Str8 *dst, const char *format, ...) {
wapp_debug_assert(dst != NULL && format != NULL, "`dst` and `format` should not be NULL");
va_list args1;
va_list args2;
va_list args1;
va_list args2;
va_start(args1, format);
va_copy(args2, args1);
va_start(args1, format);
va_copy(args2, args1);
u64 total_size = vsnprintf(NULL, 0, format, args1);
dst->size = total_size <= dst->capacity ? total_size : dst->capacity;
u64 total_size = vsnprintf(NULL, 0, format, args1);
dst->size = total_size <= dst->capacity ? total_size : dst->capacity;
vsnprintf((char *)(dst->buf), dst->capacity, format, args2);
vsnprintf((char *)(dst->buf), dst->capacity, format, args2);
va_end(args1);
va_end(args2);
va_end(args1);
va_end(args2);
}
void wpStr8ToLower(WpStr8 *dst, WpStr8RO *src) {
wpDebugAssert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
wpDebugAssert(dst->capacity >= src->capacity, "`dst` does not have enough capacity");
void wapp_str8_to_lower(Str8 *dst, Str8RO *src) {
wapp_debug_assert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
wapp_debug_assert(dst->capacity >= src->capacity, "`dst` does not have enough capacity");
dst->size = src->size;
dst->size = src->size;
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
wpStr8Set(dst, index, (u8)tolower(wpStr8Get(src, index)));
++index;
running = index < src->size;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
wapp_str8_set(dst, index, (u8)tolower(wapp_str8_get(src, index)));
++index;
running = index < src->size;
}
}
void wpStr8ToUpper(WpStr8 *dst, WpStr8RO *src) {
wpDebugAssert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
wpDebugAssert(dst->capacity >= src->capacity, "`dst` does not have enough capacity");
void wapp_str8_to_upper(Str8 *dst, Str8RO *src) {
wapp_debug_assert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
wapp_debug_assert(dst->capacity >= src->capacity, "`dst` does not have enough capacity");
dst->size = src->size;
dst->size = src->size;
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
wpStr8Set(dst, index, (u8)toupper(wpStr8Get(src, index)));
++index;
running = index < src->size;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
wapp_str8_set(dst, index, (u8)toupper(wapp_str8_get(src, index)));
++index;
running = index < src->size;
}
}
void wpStr8FromBytes(WpStr8 *dst, const WpU8Array src) {
wpDebugAssert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
void wapp_str8_from_bytes(Str8 *dst, const U8Array *src) {
wapp_debug_assert(src != NULL && dst != NULL, "`dst` and `src` should not be NULL");
u64 size = wpArrayCount(src) * wpArrayItemSize(src);
u64 size = src->count * src->item_size;
wpDebugAssert(dst->capacity >= size, "`dst` does not have enough capacity");
wapp_debug_assert(dst->capacity >= size, "`dst` does not have enough capacity");
dst->size = size;
memcpy(dst->buf, src, size);
dst->size = size;
memcpy(dst->buf, src->items, size);
}
i64 wpStr8Find(WpStr8RO *str, WpStr8RO substr) {
if (!str || substr.size > str->size) {
return -1;
}
i64 wapp_str8_find(Str8RO *str, Str8RO substr) {
if (!str || substr.size > str->size) {
return -1;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 char_index = 0;
b8 running = char_index < str->size;
while (running) {
const c8 *sub = str->buf + char_index;
if (memcmp(sub, substr.buf, substr.size) == 0) {
return char_index;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 char_index = 0;
b8 running = char_index < str->size;
while (running) {
const c8 *sub = str->buf + char_index;
if (memcmp(sub, substr.buf, substr.size) == 0) {
return char_index;
}
++char_index;
running = char_index < str->size;
}
++char_index;
running = char_index < str->size;
}
return -1;
return -1;
}
i64 wpStr8Rfind(WpStr8RO *str, WpStr8RO substr) {
if (!str || substr.size > str->size) {
return -1;
}
i64 wapp_str8_rfind(Str8RO *str, Str8RO substr) {
if (!str || substr.size > str->size) {
return -1;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
i64 char_index = str->size - substr.size;
b8 running = char_index >= 0;
while (running) {
const c8 *sub = str->buf + char_index;
if (memcmp(sub, substr.buf, substr.size) == 0) {
return char_index;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
i64 char_index = str->size - substr.size;
b8 running = char_index >= 0;
while (running) {
const c8 *sub = str->buf + char_index;
if (memcmp(sub, substr.buf, substr.size) == 0) {
return char_index;
}
--char_index;
running = char_index >= 0;
}
--char_index;
running = char_index >= 0;
}
return -1;
return -1;
}
WpStr8List *wpStr8SplitWithMax(const WpAllocator *allocator, WpStr8RO *str, WpStr8RO *delimiter, i64 max_splits) {
wpDebugAssert(allocator != NULL && str != NULL && delimiter != NULL, "`allocator`, `str` and `delimiter` should not be NULL");
Str8List *wapp_str8_split_with_max(const Allocator *allocator, Str8RO *str, Str8RO *delimiter, i64 max_splits) {
wapp_debug_assert(allocator != NULL && str != NULL && delimiter != NULL, "`allocator`, `str` and `delimiter` should not be NULL");
WpStr8List *output = wpDblListAlloc(WpStr8, allocator);
Str8List *output = wapp_dbl_list_alloc(Str8, Str8List, allocator);
if (delimiter->size > str->size) {
WpStr8 *full = wpStr8AllocStr8(allocator, str);
if (full) {
wpDblListPushBackAlloc(WpStr8, allocator, output, full);
}
if (delimiter->size > str->size) {
Str8 *full = wapp_str8_alloc_str8(allocator, str);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node) {
node->item = full;
wapp_dbl_list_push_back(Str8, output, node);
}
goto RETURN_STR8_SPLIT;
}
goto RETURN_STR8_SPLIT;
}
i64 start = 0;
i64 end = 0;
i64 splits = 0;
WpStr8 *rest = wpStr8AllocStr8(allocator, str);
WpStr8 *before_str;
i64 start = 0;
i64 end = 0;
i64 splits = 0;
Str8 *rest = wapp_str8_alloc_str8(allocator, str);
Str8 *before_str;
while ((end = wpStr8Find(rest, *delimiter)) != -1) {
if (max_splits > 0 && splits >= max_splits) {
break;
}
while ((end = wapp_str8_find(rest, *delimiter)) != -1) {
if (max_splits > 0 && splits >= max_splits) {
break;
}
before_str = wpStr8AllocSubstr(allocator, str, start, start + end);
if (before_str) {
wpDblListPushBackAlloc(WpStr8, allocator, output, before_str);
}
before_str = wapp_str8_alloc_substr(allocator, str, start, start + end);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node && before_str) {
node->item = before_str;
wapp_dbl_list_push_back(Str8, output, node);
}
wpMemAllocatorFree(allocator, (void **)&rest, sizeof(WpStr8));
rest = wpStr8AllocSubstr(allocator, str, start + end + delimiter->size, str->size);
start += end + delimiter->size;
wapp_mem_allocator_free(allocator, (void **)&rest, sizeof(Str8));
rest = wapp_str8_alloc_substr(allocator, str, start + end + delimiter->size, str->size);
start += end + delimiter->size;
++splits;
}
++splits;
}
// Ensure the last part of the string after the delimiter is added to the list
rest = wpStr8AllocSubstr(allocator, str, start, str->size);
if (rest) {
wpDblListPushBackAlloc(WpStr8, allocator, output, rest);
}
// Ensure the last part of the string after the delimiter is added to the list
rest = wapp_str8_alloc_substr(allocator, str, start, str->size);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node && rest) {
node->item = rest;
wapp_dbl_list_push_back(Str8, output, node);
}
RETURN_STR8_SPLIT:
return output;
return output;
}
WpStr8List *wpStr8RsplitWithMax(const WpAllocator *allocator, WpStr8RO *str, WpStr8RO *delimiter, i64 max_splits) {
wpDebugAssert(allocator != NULL && str != NULL && delimiter != NULL, "`allocator`, `str` and `delimiter` should not be NULL");
Str8List *wapp_str8_rsplit_with_max(const Allocator *allocator, Str8RO *str, Str8RO *delimiter, i64 max_splits) {
wapp_debug_assert(allocator != NULL && str != NULL && delimiter != NULL, "`allocator`, `str` and `delimiter` should not be NULL");
WpStr8List *output = wpDblListAlloc(WpStr8, allocator);
Str8List *output = wapp_dbl_list_alloc(Str8, Str8List, allocator);
if (delimiter->size > str->size) {
WpStr8 *full = wpStr8AllocStr8(allocator, str);
if (full) {
wpDblListPushBackAlloc(WpStr8, allocator, output, full);
}
if (delimiter->size > str->size) {
Str8 *full = wapp_str8_alloc_str8(allocator, str);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node && full) {
node->item = full;
wapp_dbl_list_push_back(Str8, output, node);
}
goto RETURN_STR8_SPLIT;
}
goto RETURN_STR8_SPLIT;
}
i64 end = 0;
i64 splits = 0;
WpStr8 *rest = wpStr8AllocStr8(allocator, str);
WpStr8 *after_str;
i64 end = 0;
i64 splits = 0;
Str8 *rest = wapp_str8_alloc_str8(allocator, str);
Str8 *after_str;
while ((end = wpStr8Rfind(rest, *delimiter)) != -1) {
if (max_splits > 0 && splits >= max_splits) {
break;
}
while ((end = wapp_str8_rfind(rest, *delimiter)) != -1) {
if (max_splits > 0 && splits >= max_splits) {
break;
}
after_str = wpStr8AllocSubstr(allocator, rest, end + delimiter->size, str->size);
if (after_str) {
wpDblListPushFrontAlloc(WpStr8, allocator, output, after_str);
}
after_str = wapp_str8_alloc_substr(allocator, rest, end + delimiter->size, str->size);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node) {
node->item = after_str;
wapp_dbl_list_push_front(Str8, output, node);
}
wpMemAllocatorFree(allocator, (void **)&rest, sizeof(WpStr8));
rest = wpStr8AllocSubstr(allocator, rest, 0, end);
wapp_mem_allocator_free(allocator, (void **)&rest, sizeof(Str8));
rest = wapp_str8_alloc_substr(allocator, rest, 0, end);
++splits;
}
++splits;
}
rest = wpStr8AllocSubstr(allocator, str, 0, rest->size);
if (rest) {
wpDblListPushFrontAlloc(WpStr8, allocator, output, rest);
}
rest = wapp_str8_alloc_substr(allocator, str, 0, rest->size);
Str8Node *node = wapp_dbl_list_node_alloc(Str8, Str8Node, allocator);
if (node && rest) {
node->item = rest;
wapp_dbl_list_push_front(Str8, output, node);
}
RETURN_STR8_SPLIT:
return output;
return output;
}
WpStr8 *wpStr8Join(const WpAllocator *allocator, const WpStr8List *list, WpStr8RO *delimiter) {
wpDebugAssert(allocator != NULL && list != NULL && delimiter != NULL, "`allocator`, `list` and `delimiter` should not be NULL");
Str8 *wapp_str8_join(const Allocator *allocator, const Str8List *list, Str8RO *delimiter) {
wapp_debug_assert(allocator != NULL && list != NULL && delimiter != NULL, "`allocator`, `list` and `delimiter` should not be NULL");
u64 capacity = wpStr8ListTotalSize(list) + (delimiter->size * (list->node_count - 1));
WpStr8 *output = wpStr8AllocBuf(allocator, capacity * 2);
u64 capacity = wapp_str8_list_total_size(list) + (delimiter->size * (list->node_count - 1));
Str8 *output = wapp_str8_alloc_buf(allocator, capacity * 2);
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
WpStr8 *node;
u64 node_index = 0;
b8 running = node_index < list->node_count;
while (running) {
node = wpDblListGet(WpStr8, list, node_index);
if (!node) {
break;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
Str8Node *node;
u64 node_index = 0;
b8 running = node_index < list->node_count;
while (running) {
node = wapp_dbl_list_get(Str8, Str8Node, list, node_index);
if (!node) {
break;
}
wpStr8ConcatCapped(output, node);
wapp_str8_concat_capped(output, node->item);
// NOTE (Abdelrahman): Comparison extracted to variable to silence
// MSVC Spectre mitigation warnings
b8 not_last = node_index + 1 < list->node_count;
if (not_last) {
wpStr8ConcatCapped(output, delimiter);
}
// NOTE (Abdelrahman): Comparison extracted to variable to silence
// MSVC Spectre mitigation warnings
b8 not_last = node_index + 1 < list->node_count;
if (not_last) {
wapp_str8_concat_capped(output, delimiter);
}
++node_index;
running = node_index < list->node_count;
}
++node_index;
running = node_index < list->node_count;
}
return output;
return output;
}
u64 wpStr8ListTotalSize(const WpStr8List *list) {
if (!list) {
return 0;
}
u64 wapp_str8_list_total_size(const Str8List *list) {
if (!list) {
return 0;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
WpStr8 *node;
u64 node_index = 0;
u64 output = 0;
b8 running = node_index < list->node_count;
while (running) {
node = wpDblListGet(WpStr8, list, node_index);
if (!node) {
break;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
Str8Node* node;
u64 node_index = 0;
u64 output = 0;
b8 running = node_index < list->node_count;
while (running) {
node = wapp_dbl_list_get(Str8, Str8Node, list, node_index);
if (!node) {
break;
}
output += node->size;
++node_index;
running = node_index < list->node_count;
}
output += node->item->size;
++node_index;
running = node_index < list->node_count;
}
return output;
return output;
}
src/base/strings/str8/str8.h
+92 -73
View File
@@ -11,120 +11,139 @@
#include "../../mem/allocator/mem_allocator.h"
#include <string.h>
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef struct WpStr8 WpStr8;
struct WpStr8 {
u64 capacity;
u64 size;
c8 *buf;
typedef struct str8 Str8;
struct str8 {
u64 capacity;
u64 size;
c8 *buf;
};
typedef const WpStr8 WpStr8RO;
typedef const Str8 Str8RO;
/**
* Utilities to be used with printf functions
*/
#define WP_STR8_SPEC "%.*s"
#define wpStr8Varg(STRING) (int)((STRING).size), (STRING).buf
#define WAPP_STR8_SPEC "%.*s"
#define wapp_str8_varg(STRING) (int)((STRING).size), (STRING).buf
/**
* WpStr8 stack buffers
* Str8 stack buffers
*/
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
// Uses a lambda to achieve the same behaviour achieved by the C macro
#define wpStr8Buf(CAPACITY) ([&](){ \
wp_persist c8 buf[CAPACITY] = {}; \
memset(buf, 0, CAPACITY); \
return WpStr8{CAPACITY, 0, buf}; \
#define wapp_str8_buf(CAPACITY) ([&](){ \
wapp_persist c8 buf[CAPACITY] = {}; \
memset(buf, 0, CAPACITY); \
return Str8{CAPACITY, 0, buf}; \
}())
// Uses a lambda to achieve the same behaviour achieved by the C macro
#define wpStr8Lit(STRING) ([&]() { \
wp_persist c8 buf[sizeof(STRING) * 2] = {}; \
memcpy(buf, STRING, sizeof(STRING)); \
return WpStr8{(sizeof(STRING) - 1) * 2, sizeof(STRING) - 1, buf}; \
#define wapp_str8_lit(STRING) ([&]() { \
wapp_persist c8 buf[sizeof(STRING) * 2] = {}; \
memcpy(buf, STRING, sizeof(STRING)); \
return Str8{(sizeof(STRING) - 1) * 2, sizeof(STRING) - 1, buf}; \
}())
#define wpStr8LitRo(STRING) WpStr8RO{sizeof(STRING) - 1, sizeof(STRING) - 1, (c8 *)STRING}
#define wpStr8LitRoInitialiserList(STRING) {sizeof(STRING) - 1, sizeof(STRING) - 1, (c8 *)STRING}
#define wapp_str8_lit_ro(STRING) Str8RO{sizeof(STRING) - 1, sizeof(STRING) - 1, (c8 *)STRING}
#define wapp_str8_lit_ro_initialiser_list(STRING) {sizeof(STRING) - 1, sizeof(STRING) - 1, (c8 *)STRING}
#else
#define wpStr8Buf(CAPACITY) ((WpStr8){.capacity = CAPACITY, .size = 0, .buf = (c8[CAPACITY]){0}})
#define wapp_str8_buf(CAPACITY) ((Str8){.capacity = CAPACITY, .size = 0, .buf = (c8[CAPACITY]){0}})
// Utilises the fact that memcpy returns pointer to dest buffer and that getting
// address of compound literals is valid in C to create a string on the stack
#define wpStr8Lit(STRING) ((WpStr8){.capacity = (sizeof(STRING) - 1) * 2, \
.size = sizeof(STRING) - 1, \
.buf = memcpy(&((c8 [sizeof(STRING) * 2]){0}), \
STRING, \
sizeof(STRING))})
#define wpStr8LitRo(STRING) ((WpStr8RO){.capacity = sizeof(STRING) - 1, \
.size = sizeof(STRING) - 1, \
.buf = (c8 *)STRING})
#define wapp_str8_lit(STRING) ((Str8){.capacity = (sizeof(STRING) - 1) * 2, \
.size = sizeof(STRING) - 1, \
.buf = memcpy(&((c8 [sizeof(STRING) * 2]){0}), STRING, sizeof(STRING))})
#define wapp_str8_lit_ro(STRING) ((Str8RO){.capacity = sizeof(STRING) - 1, \
.size = sizeof(STRING) - 1, \
.buf = (c8 *)STRING})
// To be used only when initialising a static storage variable in compilers that don't support
// initialisers with the syntax of wpStr8LitRo (e.g. gcc). Should only be used when necessary
// and only be assigned to a WpStr8RO variable to avoid any attempt at modifying the string
#define wpStr8LitRoInitialiserList(STRING) {.capacity = sizeof(STRING) - 1, \
.size = sizeof(STRING) - 1, \
.buf = (c8 *)STRING}
#endif // !WP_PLATFORM_CPP
// initialisers with the syntax of wapp_str8_lit_ro (e.g. gcc). Should only be used when necessary
// and only be assigned to a Str8RO variable to avoid any attempt at modifying the string
#define wapp_str8_lit_ro_initialiser_list(STRING) {.capacity = sizeof(STRING) - 1, \
.size = sizeof(STRING) - 1, \
.buf = (c8 *)STRING}
#endif // !WAPP_PLATFORM_CPP
/**
* WpStr8 allocated buffers
* Str8 allocated buffers
*/
WpStr8 *wpStr8AllocBuf(const WpAllocator *allocator, u64 capacity);
WpStr8 *wpStr8AllocAndFillBuf(const WpAllocator *allocator, u64 capacity);
WpStr8 *wpStr8AllocCstr(const WpAllocator *allocator, const char *str);
WpStr8 *wpStr8AllocStr8(const WpAllocator *allocator, WpStr8RO *str);
WpStr8 *wpStr8AllocSubstr(const WpAllocator *allocator, WpStr8RO *str, u64 start, u64 end);
WpStr8 *wpStr8AllocConcat(const WpAllocator *allocator, WpStr8 *dst, WpStr8RO *src);
Str8 *wapp_str8_alloc_buf(const Allocator *allocator, u64 capacity);
Str8 *wapp_str8_alloc_and_fill_buf(const Allocator *allocator, u64 capacity);
Str8 *wapp_str8_alloc_cstr(const Allocator *allocator, const char *str);
Str8 *wapp_str8_alloc_str8(const Allocator *allocator, Str8RO *str);
Str8 *wapp_str8_alloc_substr(const Allocator *allocator, Str8RO *str, u64 start, u64 end);
Str8 *wapp_str8_alloc_concat(const Allocator *allocator, Str8 *dst, Str8RO *src);
// Only needed for allocators like malloc where each allocation has to be freed on its own.
// No need to use it for allocators like Arena.
void wpStr8DeallocBuf(const WpAllocator *allocator, WpStr8 **str);
void wapp_str8_dealloc_buf(const Allocator *allocator, Str8 **str);
/**
* WpStr8 utilities
* Str8 utilities
*/
c8 wpStr8Get(WpStr8RO *str, u64 index);
void wpStr8Set(WpStr8 *str, u64 index, c8 c);
void wpStr8PushBack(WpStr8 *str, c8 c);
b8 wpStr8Equal(WpStr8RO *s1, WpStr8RO *s2);
b8 wpStr8EqualToCount(WpStr8RO* s1, WpStr8RO* s2, u64 count);
WpStr8 wpStr8Slice(WpStr8RO *str, u64 start, u64 end);
void wpStr8ConcatCapped(WpStr8 *dst, WpStr8RO *src);
void wpStr8CopyCstrCapped(WpStr8 *dst, const char *src);
void wpStr8CopyStr8Capped(WpStr8 *dst, WpStr8RO *src);
void wpStr8CopyToCstr(char *dst, WpStr8RO *src, u64 dst_capacity);
void wpStr8Format(WpStr8 *dst, const char *format, ...);
void wpStr8ToLower(WpStr8 *dst, WpStr8RO *src);
void wpStr8ToUpper(WpStr8 *dst, WpStr8RO *src);
void wpStr8FromBytes(WpStr8 *dst, const WpU8Array src);
c8 wapp_str8_get(Str8RO *str, u64 index);
void wapp_str8_set(Str8 *str, u64 index, c8 c);
void wapp_str8_push_back(Str8 *str, c8 c);
b8 wapp_str8_equal(Str8RO *s1, Str8RO *s2);
b8 wapp_str8_equal_to_count(Str8RO* s1, Str8RO* s2, u64 count);
Str8 wapp_str8_slice(Str8RO *str, u64 start, u64 end);
void wapp_str8_concat_capped(Str8 *dst, Str8RO *src);
void wapp_str8_copy_cstr_capped(Str8 *dst, const char *src);
void wapp_str8_copy_str8_capped(Str8 *dst, Str8RO *src);
void wapp_str8_copy_to_cstr(char *dst, Str8RO *src, u64 dst_capacity);
void wapp_str8_format(Str8 *dst, const char *format, ...);
void wapp_str8_to_lower(Str8 *dst, Str8RO *src);
void wapp_str8_to_upper(Str8 *dst, Str8RO *src);
void wapp_str8_from_bytes(Str8 *dst, const U8Array *src);
/**
* WpStr8 find functions
* Str8 find functions
*/
i64 wpStr8Find(WpStr8RO *str, WpStr8RO substr);
i64 wpStr8Rfind(WpStr8RO *str, WpStr8RO substr);
i64 wapp_str8_find(Str8RO *str, Str8RO substr);
i64 wapp_str8_rfind(Str8RO *str, Str8RO substr);
/**
* WpStr8 split and join
* Str8 split and join
*/
#define wpStr8Split(ALLOCATOR, STR, DELIMITER) wpStr8SplitWithMax(ALLOCATOR, STR, DELIMITER, -1)
#define wpStr8Rsplit(ALLOCATOR, STR, DELIMITER) wpStr8RsplitWithMax(ALLOCATOR, STR, DELIMITER, -1)
WpStr8List *wpStr8SplitWithMax(const WpAllocator *allocator, WpStr8RO *str, WpStr8RO *delimiter, i64 max_splits);
WpStr8List *wpStr8RsplitWithMax(const WpAllocator *allocator, WpStr8RO *str, WpStr8RO *delimiter, i64 max_splits);
WpStr8 *wpStr8Join(const WpAllocator *allocator, const WpStr8List *list, WpStr8RO *delimiter);
#define wapp_str8_split(ALLOCATOR, STR, DELIMITER) wapp_str8_split_with_max(ALLOCATOR, STR, DELIMITER, -1)
#define wapp_str8_rsplit(ALLOCATOR, STR, DELIMITER) wapp_str8_rsplit_with_max(ALLOCATOR, STR, DELIMITER, -1)
Str8List *wapp_str8_split_with_max(const Allocator *allocator, Str8RO *str, Str8RO *delimiter, i64 max_splits);
Str8List *wapp_str8_rsplit_with_max(const Allocator *allocator, Str8RO *str, Str8RO *delimiter, i64 max_splits);
Str8 *wapp_str8_join(const Allocator *allocator, const Str8List *list, Str8RO *delimiter);
/**
* WpStr8 list utilities
* Str8 list utilities
*/
u64 wpStr8ListTotalSize(const WpStr8List *list);
u64 wapp_str8_list_total_size(const Str8List *list);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#include <type_traits>
template <typename T>
constexpr bool is_lvalue(T&&) {
return std::is_lvalue_reference<T>{};
}
#define wapp_str8_node_from_cstr(STRING) wapp_dbl_list_node(Str8, Str8Node, [&]() { \
wapp_persist Str8 str = wapp_str8_lit(STRING); \
return &str; \
}())
#define wapp_str8_node_from_str8(STRING) wapp_dbl_list_node(Str8, Str8Node, [&]() { \
if (is_lvalue(STRING)) { return &STRING; } \
\
wapp_persist Str8 str = STRING; \
return &str; \
}())
#else
#define wapp_str8_node_from_cstr(STRING) wapp_dbl_list_node(Str8, Str8Node, &wapp_str8_lit(STRING))
#define wapp_str8_node_from_str8(STRING) wapp_dbl_list_node(Str8, Str8Node, &(STRING))
#endif // !WAPP_PLATFORM_CPP
#endif // !STR8_H
src/base/wapp_base.c
-1
View File
@@ -6,7 +6,6 @@
#include "wapp_base.h"
#include "array/array.c"
#include "dbl_list/dbl_list.c"
#include "queue/queue.c"
#include "mem/allocator/mem_allocator.c"
#include "mem/utils/mem_utils.c"
#include "strings/str8/str8.c"
src/base/wapp_base.h
+1 -2
View File
@@ -3,9 +3,8 @@
#ifndef WAPP_BASE_H
#define WAPP_BASE_H
#include "array/array.h"
#include "dbl_list/dbl_list.h"
#include "queue/queue.h"
#include "array/array.h"
#include "mem/allocator/mem_allocator.h"
#include "mem/utils/mem_utils.h"
#include "strings/str8/str8.h"
src/common/aliases/aliases.h
+36 -36
View File
@@ -6,31 +6,31 @@
#include "../platform/platform.h"
#include <stdint.h>
#if defined(WP_PLATFORM_C) && WP_PLATFORM_C_VERSION >= WP_PLATFORM_C11_VERSION && !defined(WP_PLATFORM_APPLE)
#include <uchar.h>
#if defined(WAPP_PLATFORM_C) && WAPP_PLATFORM_C_VERSION >= WAPP_PLATFORM_C11_VERSION && !defined(WAPP_PLATFORM_APPLE)
#include <uchar.h>
#if WP_PLATFORM_C_VERSION >= WP_PLATFORM_C23_VERSION
typedef char8_t c8;
#else
typedef uint8_t c8;
#endif // !WP_PLATFORM_C23_VERSION
#if WAPP_PLATFORM_C_VERSION >= WAPP_PLATFORM_C23_VERSION
#define c8 char8_t
#else
#define c8 uint8_t
#endif // !WAPP_PLATFORM_C23_VERSION
typedef char16_t c16;
typedef char32_t c32;
#define c16 char16_t
#define c32 char32_t
#else
typedef uint8_t c8;
typedef uint16_t c16;
typedef uint32_t c32;
#endif // !WP_PLATFORM_C
#define c8 uint8_t
#define c16 uint16_t
#define c32 uint32_t
#endif // !WAPP_PLATFORM_C
typedef uint8_t u8;
typedef uint16_t u16;
typedef uint32_t u32;
typedef uint64_t u64;
#define u8 uint8_t
#define u16 uint16_t
#define u32 uint32_t
#define u64 uint64_t
typedef uint8_t b8;
#define b8 uint8_t
#ifndef WP_PLATFORM_CPP
#ifndef WAPP_PLATFORM_CPP
#ifndef false
#define false (b8)0
@@ -40,28 +40,28 @@ typedef uint8_t b8;
#define true (b8)1
#endif // !true
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef int8_t i8;
typedef int16_t i16;
typedef int32_t i32;
typedef int64_t i64;
#define i8 int8_t
#define i16 int16_t
#define i32 int32_t
#define i64 int64_t
typedef float f32;
typedef double f64;
typedef long double f128;
#define f32 float
#define f64 double
#define f128 long double
typedef uintptr_t uptr;
typedef intptr_t iptr;
#define uptr uintptr_t
#define iptr intptr_t
#define wp_extern extern
#define wp_intern static
#define wp_persist static
#define wapp_extern extern
#define wapp_intern static
#define wapp_persist static
#ifdef WP_PLATFORM_CPP
#define wp_class_mem static
#define BEGIN_C_LINKAGE wp_extern "C" {
#ifdef WAPP_PLATFORM_CPP
#define wapp_class_mem static
#define BEGIN_C_LINKAGE extern "C" {
#define END_C_LINKAGE }
#endif // WP_PLATFORM_CPP
#endif // WAPP_PLATFORM_CPP
#endif // !ALIASES_H
src/common/assert/assert.h
+32 -32
View File
@@ -9,53 +9,53 @@
#include <stdlib.h>
#include <inttypes.h>
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define wpStaticAssert(EXPR, MSG) wp_extern char ASSERTION_FAILED[EXPR ? 1 : -1]
#define wapp_static_assert(EXPR, MSG) extern char ASSERTION_FAILED[EXPR ? 1 : -1]
#ifndef WP_NO_RUNTIME_ASSERT
#define wpRuntimeAssert(EXPR, MSG) _runtimeAssert(EXPR, MSG)
#ifndef WAPP_NO_RUNTIME_ASSERT
#define wapp_runtime_assert(EXPR, MSG) __wapp_runtime_assert(EXPR, MSG)
#else
#define wpRuntimeAssert(EXPR, MSG)
#define wapp_runtime_assert(EXPR, MSG)
#endif
#ifdef WP_DEBUG_ASSERT
#define wpDebugAssert(EXPR, MSG) wpRuntimeAssert(EXPR, MSG)
#ifdef WAPP_DEBUG_ASSERT
#define wapp_debug_assert(EXPR, MSG) wapp_runtime_assert(EXPR, MSG)
#else
#define wpDebugAssert(EXPR, MSG)
#define wapp_debug_assert(EXPR, MSG)
#endif
#ifdef WP_PLATFORM_WINDOWS
#define _runtimeAssert(EXPR, MSG) do { \
__pragma(warning(push)) \
__pragma(warning(disable:4127)) \
if (!(EXPR)) { \
__pragma(warning(pop)) \
_runtimeAssertFailed(EXPR, MSG); \
} \
#ifdef WAPP_PLATFORM_WINDOWS
#define __wapp_runtime_assert(EXPR, MSG) do { \
__pragma(warning(push)) \
__pragma(warning(disable:4127)) \
if (!(EXPR)) { \
__pragma(warning(pop)) \
__runtime_assert_failed(EXPR, MSG); \
} \
} while(false)
#else
#define _runtimeAssert(EXPR, MSG) do { \
if (!(EXPR)) { \
_runtimeAssertFailed(EXPR, MSG); \
} \
#define __wapp_runtime_assert(EXPR, MSG) do { \
if (!(EXPR)) { \
__runtime_assert_failed(EXPR, MSG); \
} \
} while(false)
#endif // !WP_PLATFORM_WINDOWS
#endif // !WAPP_PLATFORM_WINDOWS
#define _runtimeAssertFailed(EXPR, MSG) do { \
fprintf( \
stderr, \
"%s:%d (In function `%s`): Assertion failed (%" PRIu32 ")\nDiagnostic: %s\n\n", \
__FILE__, __LINE__, __func__, \
EXPR, MSG \
); \
abort(); \
#define __runtime_assert_failed(EXPR, MSG) do { \
fprintf( \
stderr, \
"%s:%d (In function `%s`): Assertion failed (%" PRIu32 ")\nDiagnostic: %s\n\n", \
__FILE__, __LINE__, __func__, \
EXPR, MSG \
); \
abort(); \
} while(false)
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !WAPP_ASSERT_H
src/common/misc/misc_utils.h
+27 -39
View File
@@ -5,59 +5,47 @@
#include "../aliases/aliases.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define KiB(SIZE) (((u64)SIZE) << 10)
#define MiB(SIZE) (((u64)SIZE) << 20)
#define GiB(SIZE) (((u64)SIZE) << 30)
#define TiB(SIZE) (((u64)SIZE) << 40)
#define PiB(SIZE) (((u64)SIZE) << 50)
#define EiB(SIZE) (((u64)SIZE) << 60)
#define KB(SIZE) (SIZE * 1024ull)
#define MB(SIZE) (KB(SIZE) * 1024)
#define GB(SIZE) (MB(SIZE) * 1024)
#define TB(SIZE) (GB(SIZE) * 1024)
#define KB(SIZE) (((u64)SIZE) * 1000llu)
#define MB(SIZE) (KB(SIZE) * 1000llu)
#define GB(SIZE) (MB(SIZE) * 1000llu)
#define TB(SIZE) (GB(SIZE) * 1000llu)
#define PB(SIZE) (TB(SIZE) * 1000llu)
#define EB(SIZE) (PB(SIZE) * 1000llu)
#define wpMiscUtilsReservePadding(SIZE) u8 reserved_padding[sizeof(void *) - ((SIZE) % sizeof(void *))]
#define wapp_misc_utils_padding_size(SIZE) u8 reserved_padding[sizeof(void *) - ((SIZE) % sizeof(void *))]
#define U64_RSHIFT_OR_1(X) (((u64)X) | (((u64)X) >> 1))
#define U64_RSHIFT_OR_2(X) (((u64)X) | (((u64)X) >> 2))
#define U64_RSHIFT_OR_4(X) (((u64)X) | (((u64)X) >> 4))
#define U64_RSHIFT_OR_8(X) (((u64)X) | (((u64)X) >> 8))
#define U64_RSHIFT_OR_16(X) (((u64)X) | (((u64)X) >> 16))
#define U64_RSHIFT_OR_32(X) (((u64)X) | (((u64)X) >> 32))
#define wpMiscUtilsU64RoundUpPow2(X) ( \
( \
U64_RSHIFT_OR_32( \
U64_RSHIFT_OR_16( \
U64_RSHIFT_OR_8( \
U64_RSHIFT_OR_4( \
U64_RSHIFT_OR_2( \
U64_RSHIFT_OR_1(X - 1) \
) \
) \
) \
) \
) \
) + 1 \
#define U64_RSHIFT_OR_16(X) (((u64)X) | (((u64)X) >> 16))
#define U64_RSHIFT_OR_32(X) (((u64)X) | (((u64)X) >> 32))
#define wapp_misc_utils_u64_round_up_pow2(X) ( \
( \
U64_RSHIFT_OR_32( \
U64_RSHIFT_OR_16( \
U64_RSHIFT_OR_8( \
U64_RSHIFT_OR_4( \
U64_RSHIFT_OR_2( \
U64_RSHIFT_OR_1(X - 1) \
) \
) \
) \
) \
) \
) + 1 \
)
#define wpMiscUtilsIsPowerOfTwo(NUM) ((NUM & (NUM - 1)) == 0)
#define wpMiscUtilsOffsetPointer(PTR, OFFSET) ((void *)((uptr)(PTR) + (OFFSET)))
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#include <tuple>
#define wpMiscUtilsVaArgsCount(T, ...) (std::tuple_size<decltype(std::make_tuple(__VA_ARGS__))>::value)
#define wapp_misc_utils_va_args_count(T, ...) (std::tuple_size<decltype(std::make_tuple(__VA_ARGS__))>::value)
#else
#define wpMiscUtilsVaArgsCount(T, ...) (sizeof((T[]){__VA_ARGS__})/sizeof(T))
#endif // !WP_PLATFORM_CPP
#define wapp_misc_utils_va_args_count(T, ...) (sizeof((T[]){__VA_ARGS__})/sizeof(T))
#endif // !WAPP_PLATFORM_CPP
#endif // !MISC_UTILS_H
src/common/platform/platform.h
+85 -85
View File
@@ -4,111 +4,111 @@
#define PLATFORM_H
#if defined(__ANDROID__)
#define WP_PLATFORM_ANDROID
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_ANDROID
#define WAPP_PLATFORM_POSIX
#elif defined(__FreeBSD__)
#define WP_PLATFORM_FREE_BSD
#define WP_PLATFORM_BSD
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_FREE_BSD
#define WAPP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX
#elif defined(__NetBSD__)
#define WP_PLATFORM_NET_BSD
#define WP_PLATFORM_BSD
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_NET_BSD
#define WAPP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX
#elif defined(__OpenBSD__)
#define WP_PLATFORM_OPEN_BSD
#define WP_PLATFORM_BSD
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_OPEN_BSD
#define WAPP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX
#elif defined(__DragonFly__)
#define WP_PLATFORM_DRAGON_FLY
#define WP_PLATFORM_BSD
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_DRAGON_FLY
#define WAPP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX
#elif defined(__bsdi__)
#define WP_PLATFORM_BSD
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX
#elif defined(__linux__) || defined(linux) || defined(__linux) || defined(__gnu_linux__)
#define WP_PLATFORM_LINUX
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_LINUX
#define WAPP_PLATFORM_POSIX
#elif defined(__GNU__) || defined(__gnu_hurd__)
#define WP_PLATFORM_GNU
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_GNU
#define WAPP_PLATFORM_POSIX
#elif defined(__APPLE__) || defined(__MACH__)
#include <TargetConditionals.h>
#if TARGET_OS_IPHONE
#define WP_PLATFORM_IOS
#define WP_PLATFORM_APPLE
#define WP_PLATFORM_POSIX
#elif TARGET_OS_MAC
#define WP_PLATFORM_MACOS
#define WP_PLATFORM_APPLE
#define WP_PLATFORM_POSIX
#else
#error "Unrecognised Apple platform"
#endif
#include <TargetConditionals.h>
#if TARGET_OS_IPHONE
#define WAPP_PLATFORM_IOS
#define WAPP_PLATFORM_APPLE
#define WAPP_PLATFORM_POSIX
#elif TARGET_OS_MAC
#define WAPP_PLATFORM_MACOS
#define WAPP_PLATFORM_APPLE
#define WAPP_PLATFORM_POSIX
#else
#error "Unrecognised Apple platform"
#endif
#elif defined(_WIN64)
#define WP_PLATFORM_WINDOWS64
#define WP_PLATFORM_WINDOWS
#define WAPP_PLATFORM_WINDOWS64
#define WAPP_PLATFORM_WINDOWS
#elif defined(_WIN32)
#define WP_PLATFORM_WINDOWS32
#define WP_PLATFORM_WINDOWS
#define WAPP_PLATFORM_WINDOWS32
#define WAPP_PLATFORM_WINDOWS
#elif defined(__CYGWIN__)
#define WP_PLATFORM_CYGWIN
#define WP_PLATFORM_WINDOWS
#define WAPP_PLATFORM_CYGWIN
#define WAPP_PLATFORM_WINDOWS
#elif defined(__unix__) || defined(__unix)
#define WP_PLATFORM_UNIX
#define WP_PLATFORM_POSIX
#define WAPP_PLATFORM_UNIX
#define WAPP_PLATFORM_POSIX
#else
#error "Unrecognised platform"
#error "Unrecognised platform"
#endif
#ifdef __cplusplus
#define WP_PLATFORM_CPP
#define WP_PLATFORM_CPP_VERSION __cplusplus
#define WP_PLATFORM_CPP98_VERSION 199711L
#define WP_PLATFORM_CPP11_VERSION 201103L
#define WP_PLATFORM_CPP14_VERSION 201402L
#define WP_PLATFORM_CPP17_VERSION 201703L
#define WP_PLATFORM_CPP20_VERSION 202002L
#define WP_PLATFORM_CPP23_VERSION 202302L
#define WAPP_PLATFORM_CPP
#define WAPP_PLATFORM_CPP_VERSION __cplusplus
#define WAPP_PLATFORM_CPP98_VERSION 199711L
#define WAPP_PLATFORM_CPP11_VERSION 201103L
#define WAPP_PLATFORM_CPP14_VERSION 201402L
#define WAPP_PLATFORM_CPP17_VERSION 201703L
#define WAPP_PLATFORM_CPP20_VERSION 202002L
#define WAPP_PLATFORM_CPP23_VERSION 202302L
#if WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP98_VERSION
#define WP_PLATFORM_CPP98
#elif WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP11_VERSION
#define WP_PLATFORM_CPP11
#elif WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP14_VERSION
#define WP_PLATFORM_CPP14
#elif WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP17_VERSION
#define WP_PLATFORM_CPP17
#elif WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP20_VERSION
#define WP_PLATFORM_CPP20
#elif WP_PLATFORM_CPP_VERSION == WP_PLATFORM_CPP23_VERSION
#define WP_PLATFORM_CPP23
#else
#error "Unrecognised C++ version"
#endif
#if WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP98_VERSION
#define WAPP_PLATFORM_CPP98
#elif WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP11_VERSION
#define WAPP_PLATFORM_CPP11
#elif WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP14_VERSION
#define WAPP_PLATFORM_CPP14
#elif WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP17_VERSION
#define WAPP_PLATFORM_CPP17
#elif WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP20_VERSION
#define WAPP_PLATFORM_CPP20
#elif WAPP_PLATFORM_CPP_VERSION == WAPP_PLATFORM_CPP23_VERSION
#define WAPP_PLATFORM_CPP23
#else
#error "Unrecognised C++ version"
#endif
#else
#define WP_PLATFORM_C
#define WAPP_PLATFORM_C
#if defined(__STDC_VERSION__)
#define WP_PLATFORM_C_VERSION __STDC_VERSION__
#define WP_PLATFORM_C99_VERSION 199901L
#define WP_PLATFORM_C11_VERSION 201112L
#define WP_PLATFORM_C17_VERSION 201710L
#define WP_PLATFORM_C23_VERSION 202311L
#if defined(__STDC_VERSION__)
#define WAPP_PLATFORM_C_VERSION __STDC_VERSION__
#define WAPP_PLATFORM_C99_VERSION 199901L
#define WAPP_PLATFORM_C11_VERSION 201112L
#define WAPP_PLATFORM_C17_VERSION 201710L
#define WAPP_PLATFORM_C23_VERSION 202311L
#if WP_PLATFORM_C_VERSION == WP_PLATFORM_C99_VERSION
#define WP_PLATFORM_C99
#elif WP_PLATFORM_C_VERSION == WP_PLATFORM_C11_VERSION
#define WP_PLATFORM_C11
#elif WP_PLATFORM_C_VERSION == WP_PLATFORM_C17_VERSION
#define WP_PLATFORM_C17
#elif WP_PLATFORM_C_VERSION == WP_PLATFORM_C23_VERSION
#define WP_PLATFORM_C23
#else
#error "Unrecognised C version"
#endif
#else
#define WP_PLATFORM_C89
#endif
#if WAPP_PLATFORM_C_VERSION == WAPP_PLATFORM_C99_VERSION
#define WAPP_PLATFORM_C99
#elif WAPP_PLATFORM_C_VERSION == WAPP_PLATFORM_C11_VERSION
#define WAPP_PLATFORM_C11
#elif WAPP_PLATFORM_C_VERSION == WAPP_PLATFORM_C17_VERSION
#define WAPP_PLATFORM_C17
#elif WAPP_PLATFORM_C_VERSION == WAPP_PLATFORM_C23_VERSION
#define WAPP_PLATFORM_C23
#else
#error "Unrecognised C version"
#endif
#else
#define WAPP_PLATFORM_C89
#endif
#endif // !__cplusplus
#endif // !PLATFORM_H
src/log/log.c
-137
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@@ -1,137 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "log.h"
#include "../base/strings/str8/str8.h"
#include "../common/aliases/aliases.h"
#include "../common/assert/assert.h"
#include "../common/misc/misc_utils.h"
#include "../os/file/file.h"
#include <time.h>
#define MIN_LOG_MSG_LENGTH 32
#define TIME_BUF_CAPACITY 70
wp_intern WpStr8RO L_BRACKET = wpStr8LitRo("[");
wp_intern WpStr8RO R_BRACKET_SPACE = wpStr8LitRo("] ");
wp_intern WpStr8RO R_BRACKET_NEWLINE = wpStr8LitRo("]\n");
typedef struct {
WpFile *outlog;
WpFile *errlog;
WpLogLevel level;
wpMiscUtilsReservePadding(2 * sizeof(WpFile *) + sizeof(WpLogLevel));
} LogConfig;
wp_intern LogConfig LOG_CONFIG = {
.level = WP_LOG_LEVEL_DEBUG,
};
wp_intern WpStr8RO LOG_LEVEL_STRINGS[COUNT_LOG_LEVEL] = {
[WP_LOG_LEVEL_FATAL] = wpStr8LitRoInitialiserList("fatal "),
[WP_LOG_LEVEL_CRITICAL] = wpStr8LitRoInitialiserList("critical "),
[WP_LOG_LEVEL_ERROR] = wpStr8LitRoInitialiserList("error "),
[WP_LOG_LEVEL_WARNING] = wpStr8LitRoInitialiserList("warning "),
[WP_LOG_LEVEL_INFO] = wpStr8LitRoInitialiserList("info "),
[WP_LOG_LEVEL_DEBUG] = wpStr8LitRoInitialiserList("debug "),
};
wp_intern void _get_current_time_string(WpStr8 *dst);
wp_intern void _write_log_line(WpFile *fp, const WpLogger *logger, WpStr8 msg, WpLogLevel level);
void wpLogSetLevel(WpLogLevel level) {
LOG_CONFIG.level = level;
}
void wpLogConfigure(WpFile *outlog, WpFile *errlog, WpLogLevel level) {
LOG_CONFIG.outlog = outlog;
LOG_CONFIG.errlog = errlog;
LOG_CONFIG.level = level;
}
WpLogger wpLogMakeLogger(WpStr8 name) {
return (WpLogger){ .name = name };
}
void wpLogDebug(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_DEBUG) { return; }
WpFile *fp = LOG_CONFIG.outlog != NULL ? LOG_CONFIG.outlog : wpFileStdout();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_DEBUG);
}
void wpLogInfo(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_INFO) { return; }
WpFile *fp = LOG_CONFIG.outlog != NULL ? LOG_CONFIG.outlog : wpFileStdout();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_INFO);
}
void wpLogWarning(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_WARNING) { return; }
WpFile *fp = LOG_CONFIG.outlog != NULL ? LOG_CONFIG.outlog : wpFileStdout();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_WARNING);
}
void wpLogError(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_ERROR) { return; }
WpFile *fp = LOG_CONFIG.errlog != NULL ? LOG_CONFIG.errlog : wpFileStderr();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_ERROR);
}
void wpLogCritical(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_CRITICAL) { return; }
WpFile *fp = LOG_CONFIG.errlog != NULL ? LOG_CONFIG.errlog : wpFileStderr();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_CRITICAL);
}
void wpLogFatal(const WpLogger *logger, WpStr8 msg) {
wpDebugAssert(logger != NULL, "`logger` should not be NULL");
if (LOG_CONFIG.level < WP_LOG_LEVEL_FATAL) { return; }
WpFile *fp = LOG_CONFIG.errlog != NULL ? LOG_CONFIG.errlog : wpFileStderr();
_write_log_line(fp, logger, msg, WP_LOG_LEVEL_FATAL);
}
wp_intern void _get_current_time_string(WpStr8 *dst) {
// TODO (Abdelrahman): Replace with proper date/time utilities
char buf[TIME_BUF_CAPACITY];
time_t now = time(NULL);
struct tm utc;
gmtime_r(&now, &utc);
strftime(buf, sizeof(buf), "%FT%TZ ", &utc);
wpStr8CopyCstrCapped(dst, buf);
}
wp_intern void _write_log_line(WpFile *fp, const WpLogger *logger, WpStr8 msg, WpLogLevel level) {
WpStr8 padding = wpStr8Buf(MIN_LOG_MSG_LENGTH);
u32 padding_size = msg.size < MIN_LOG_MSG_LENGTH ? MIN_LOG_MSG_LENGTH - msg.size + 1 : 0;
wpStr8Format(&padding, "%-*s", padding_size, " ");
WpStr8 time_str = wpStr8Buf(TIME_BUF_CAPACITY);
_get_current_time_string(&time_str);
WpStr8RO **strings = wpArray(
WpStr8RO *,
&time_str,
&L_BRACKET,
&LOG_LEVEL_STRINGS[level],
&R_BRACKET_SPACE,
&msg,
&padding,
&L_BRACKET,
&logger->name,
&R_BRACKET_NEWLINE
);
for (u64 i = 0; i < wpArrayCount(strings); ++i) {
wpFileWriteStr8(strings[i], fp);
}
}
src/log/log.h
-34
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@@ -1,34 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef LOG_H
#define LOG_H
#include "../os/file/file.h"
#include "../base/strings/str8/str8.h"
typedef enum {
WP_LOG_LEVEL_FATAL,
WP_LOG_LEVEL_CRITICAL,
WP_LOG_LEVEL_ERROR,
WP_LOG_LEVEL_WARNING,
WP_LOG_LEVEL_INFO,
WP_LOG_LEVEL_DEBUG,
COUNT_LOG_LEVEL,
} WpLogLevel;
typedef struct {
WpStr8 name;
} WpLogger;
void wpLogSetLevel(WpLogLevel level);
void wpLogConfigure(WpFile *outlog, WpFile *errlog, WpLogLevel level);
WpLogger wpLogMakeLogger(WpStr8 name);
void wpLogDebug(const WpLogger *logger, WpStr8 msg);
void wpLogInfo(const WpLogger *logger, WpStr8 msg);
void wpLogWarning(const WpLogger *logger, WpStr8 msg);
void wpLogError(const WpLogger *logger, WpStr8 msg);
void wpLogCritical(const WpLogger *logger, WpStr8 msg);
void wpLogFatal(const WpLogger *logger, WpStr8 msg);
#endif // !LOG_H
src/log/wapp_log.c
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@@ -1,10 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef WAPP_LOG_C
#define WAPP_LOG_C
#include "log.c"
#include "../base/wapp_base.c"
#include "../os/wapp_os.c"
#endif // !WAPP_LOG_C
src/log/wapp_log.h
-11
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@@ -1,11 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef WAPP_LOG_H
#define WAPP_LOG_H
#include "log.h"
#include "../common/wapp_common.h"
#include "../base/wapp_base.h"
#include "../os/wapp_os.h"
#endif // !WAPP_LOG_H
src/oldnames.h
-597
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@@ -1,597 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
//
// oldnames.h — backward-compatible #define mappings for renames in the
// wizapp-stdlib naming-conventions branch.
//
// Every public API symbol that was renamed is mapped from its old name to
// its new name so that existing code continues to compile without changes.
//
// Rename patterns applied across all modules:
// wapp_xxx() → wpXxx()
// WAPP_XXX → WP_XXX
// GenericXxx → WpXxx
// SHELL_XXX → WP_SHELL_XXX
// _xxx_yyy() → _xxxYyy()
//
// Sections: Constants → Types → Functions
#ifndef OLDNAMES_H
#define OLDNAMES_H
// ============================================================================
// ===== Constants =====
// ============================================================================
// --- Aliases ---
#define WAPP_PLATFORM_CPP WP_PLATFORM_CPP
#define WAPP_PLATFORM_C WP_PLATFORM_C
// --- Arena ---
#define WAPP_MEM_ALLOC_RESERVE WP_MEM_ALLOC_RESERVE
#define WAPP_MEM_ALLOC_COMMIT WP_MEM_ALLOC_COMMIT
// --- Array ---
#define WAPP_ARRAY_MAGIC WP_ARRAY_MAGIC
#define ARRAY_INIT_NONE WP_ARRAY_INIT_NONE
#define ARRAY_INIT_FILLED WP_ARRAY_INIT_FILLED
// --- Assert ---
#define WAPP_NO_RUNTIME_ASSERT WP_NO_RUNTIME_ASSERT
#define WAPP_DEBUG_ASSERT WP_DEBUG_ASSERT
// --- CPath ---
#define WAPP_PATH_SEP WP_PATH_SEP
#define WAPP_PATH_MAX WP_PATH_MAX
#define CPATH_JOIN_SUCCESS WP_CPATH_JOIN_RESULT_SUCCESS
#define CPATH_JOIN_INVALID_ARGS WP_CPATH_JOIN_RESULT_INVALID_ARGS
#define CPATH_JOIN_EMPTY_PARTS WP_CPATH_JOIN_RESULT_EMPTY_PARTS
#define CPATH_JOIN_INSUFFICIENT_DST_CAPACITY WP_CPATH_JOIN_RESULT_INSUFFICIENT_DST_CAPACITY
// --- DblList ---
#define WAPP_DBL_LIST_MAGIC WP_DBL_LIST_MAGIC
#define WAPP_DBL_NODE_MAGIC WP_DBL_NODE_MAGIC
// --- File ---
#define WAPP_ACCESS_READ WP_ACCESS_READ
#define WAPP_ACCESS_WRITE WP_ACCESS_WRITE
#define WAPP_ACCESS_APPEND WP_ACCESS_APPEND
#define WAPP_ACCESS_READ_EX WP_ACCESS_READ_EX
#define WAPP_ACCESS_WRITE_EX WP_ACCESS_WRITE_EX
#define WAPP_ACCESS_APPEND_EX WP_ACCESS_APPEND_EX
#define WAPP_ACCESS_WRITE_FAIL_ON_EXIST WP_ACCESS_WRITE_FAIL_ON_EXIST
#define WAPP_ACCESS_WRITE_FAIL_ON_EXIST_EX WP_ACCESS_WRITE_FAIL_ON_EXIST_EX
#define WAPP_SEEK_START WP_SEEK_START
#define WAPP_SEEK_CURRENT WP_SEEK_CURRENT
#define WAPP_SEEK_END WP_SEEK_END
#define END_OF_LINE WP_END_OF_LINE
// --- Log ---
#define WAPP_LOG_FATAL WP_LOG_LEVEL_FATAL
#define WAPP_LOG_CRITICAL WP_LOG_LEVEL_CRITICAL
#define WAPP_LOG_ERROR WP_LOG_LEVEL_ERROR
#define WAPP_LOG_WARNING WP_LOG_LEVEL_WARNING
#define WAPP_LOG_INFO WP_LOG_LEVEL_INFO
#define WAPP_LOG_DEBUG WP_LOG_LEVEL_DEBUG
// --- Mem Os ---
#define WAPP_MEM_ACCESS_NONE WP_MEM_ACCESS_NONE
#define WAPP_MEM_ACCESS_READ_ONLY WP_MEM_ACCESS_READ_ONLY
#define WAPP_MEM_ACCESS_EXEC_ONLY WP_MEM_ACCESS_EXEC_ONLY
#define WAPP_MEM_ACCESS_READ_WRITE WP_MEM_ACCESS_READ_WRITE
#define WAPP_MEM_ACCESS_READ_EXEC WP_MEM_ACCESS_READ_EXEC
#define WAPP_MEM_ACCESS_READ_WRITE_EXEC WP_MEM_ACCESS_READ_WRITE_EXEC
#define WAPP_MEM_INIT_UNINITIALISED WP_MEM_INIT_UNINITIALISED
#define WAPP_MEM_INIT_INITIALISED WP_MEM_INIT_INITIALISED
// --- Platform ---
#define WAPP_PLATFORM_ANDROID WP_PLATFORM_ANDROID
#define WAPP_PLATFORM_FREE_BSD WP_PLATFORM_FREE_BSD
#define WAPP_PLATFORM_NET_BSD WP_PLATFORM_NET_BSD
#define WAPP_PLATFORM_OPEN_BSD WP_PLATFORM_OPEN_BSD
#define WAPP_PLATFORM_DRAGON_FLY WP_PLATFORM_DRAGON_FLY
#define WAPP_PLATFORM_BSD WP_PLATFORM_BSD
#define WAPP_PLATFORM_POSIX WP_PLATFORM_POSIX
#define WAPP_PLATFORM_LINUX WP_PLATFORM_LINUX
#define WAPP_PLATFORM_GNU WP_PLATFORM_GNU
#define WAPP_PLATFORM_IOS WP_PLATFORM_IOS
#define WAPP_PLATFORM_APPLE WP_PLATFORM_APPLE
#define WAPP_PLATFORM_MACOS WP_PLATFORM_MACOS
#define WAPP_PLATFORM_WINDOWS64 WP_PLATFORM_WINDOWS64
#define WAPP_PLATFORM_WINDOWS32 WP_PLATFORM_WINDOWS32
#define WAPP_PLATFORM_WINDOWS WP_PLATFORM_WINDOWS
#define WAPP_PLATFORM_CYGWIN WP_PLATFORM_CYGWIN
#define WAPP_PLATFORM_UNIX WP_PLATFORM_UNIX
#define WAPP_PLATFORM_CPP_VERSION WP_PLATFORM_CPP_VERSION
#define WAPP_PLATFORM_CPP98_VERSION WP_PLATFORM_CPP98_VERSION
#define WAPP_PLATFORM_CPP11_VERSION WP_PLATFORM_CPP11_VERSION
#define WAPP_PLATFORM_CPP14_VERSION WP_PLATFORM_CPP14_VERSION
#define WAPP_PLATFORM_CPP17_VERSION WP_PLATFORM_CPP17_VERSION
#define WAPP_PLATFORM_CPP20_VERSION WP_PLATFORM_CPP20_VERSION
#define WAPP_PLATFORM_CPP23_VERSION WP_PLATFORM_CPP23_VERSION
#define WAPP_PLATFORM_CPP98 WP_PLATFORM_CPP98
#define WAPP_PLATFORM_CPP11 WP_PLATFORM_CPP11
#define WAPP_PLATFORM_CPP14 WP_PLATFORM_CPP14
#define WAPP_PLATFORM_CPP17 WP_PLATFORM_CPP17
#define WAPP_PLATFORM_CPP20 WP_PLATFORM_CPP20
#define WAPP_PLATFORM_CPP23 WP_PLATFORM_CPP23
#define WAPP_PLATFORM_C_VERSION WP_PLATFORM_C_VERSION
#define WAPP_PLATFORM_C99_VERSION WP_PLATFORM_C99_VERSION
#define WAPP_PLATFORM_C11_VERSION WP_PLATFORM_C11_VERSION
#define WAPP_PLATFORM_C17_VERSION WP_PLATFORM_C17_VERSION
#define WAPP_PLATFORM_C23_VERSION WP_PLATFORM_C23_VERSION
#define WAPP_PLATFORM_C99 WP_PLATFORM_C99
#define WAPP_PLATFORM_C11 WP_PLATFORM_C11
#define WAPP_PLATFORM_C17 WP_PLATFORM_C17
#define WAPP_PLATFORM_C23 WP_PLATFORM_C23
#define WAPP_PLATFORM_C89 WP_PLATFORM_C89
// --- Shell Commander ---
#define SHELL_OUTPUT_DISCARD WP_SHELL_OUTPUT_DISCARD
#define SHELL_OUTPUT_PRINT WP_SHELL_OUTPUT_PRINT
#define SHELL_OUTPUT_CAPTURE WP_SHELL_OUTPUT_CAPTURE
#define SHELL_ERR_NO_ERROR WP_SHELL_ERR_NO_ERROR
#define SHELL_ERR_INVALID_ARGS WP_SHELL_ERR_INVALID_ARGS
#define SHELL_ERR_ALLOCATION_FAIL WP_SHELL_ERR_ALLOCATION_FAIL
#define SHELL_ERR_PROC_START_FAIL WP_SHELL_ERR_PROC_START_FAIL
#define SHELL_ERR_OUT_BUF_FULL WP_SHELL_ERR_OUT_BUF_FULL
#define SHELL_ERR_PROC_EXIT_FAIL WP_SHELL_ERR_PROC_EXIT_FAIL
// --- Shell Termcolour ---
#define WAPP_TERM_COLOUR_FG_BLACK WP_TERM_COLOUR_FG_BLACK
#define WAPP_TERM_COLOUR_FG_RED WP_TERM_COLOUR_FG_RED
#define WAPP_TERM_COLOUR_FG_GREEN WP_TERM_COLOUR_FG_GREEN
#define WAPP_TERM_COLOUR_FG_BLUE WP_TERM_COLOUR_FG_BLUE
#define WAPP_TERM_COLOUR_FG_CYAN WP_TERM_COLOUR_FG_CYAN
#define WAPP_TERM_COLOUR_FG_MAGENTA WP_TERM_COLOUR_FG_MAGENTA
#define WAPP_TERM_COLOUR_FG_YELLOW WP_TERM_COLOUR_FG_YELLOW
#define WAPP_TERM_COLOUR_FG_WHITE WP_TERM_COLOUR_FG_WHITE
#define WAPP_TERM_COLOUR_FG_BR_BLACK WP_TERM_COLOUR_FG_BR_BLACK
#define WAPP_TERM_COLOUR_FG_BR_RED WP_TERM_COLOUR_FG_BR_RED
#define WAPP_TERM_COLOUR_FG_BR_GREEN WP_TERM_COLOUR_FG_BR_GREEN
#define WAPP_TERM_COLOUR_FG_BR_BLUE WP_TERM_COLOUR_FG_BR_BLUE
#define WAPP_TERM_COLOUR_FG_BR_CYAN WP_TERM_COLOUR_FG_BR_CYAN
#define WAPP_TERM_COLOUR_FG_BR_MAGENTA WP_TERM_COLOUR_FG_BR_MAGENTA
#define WAPP_TERM_COLOUR_FG_BR_YELLOW WP_TERM_COLOUR_FG_BR_YELLOW
#define WAPP_TERM_COLOUR_FG_BR_WHITE WP_TERM_COLOUR_FG_BR_WHITE
#define WAPP_TERM_COLOUR_CLEAR WP_TERM_COLOUR_CLEAR
// --- Str8 ---
#define WAPP_STR8_SPEC WP_STR8_SPEC
// --- UUID ---
#define UUID_BUF_LENGTH WP_UUID_BUF_LENGTH
#define WAPP_UUID_SPEC WP_UUID_SPEC
// ============================================================================
// ===== Types =====
// ============================================================================
// --- Aliases ---
#define wapp_extern wp_extern
#define wapp_intern wp_intern
#define wapp_persist wp_persist
#define wapp_class_mem wp_class_mem
// --- Arena ---
#define Arena WpArena
// --- Array ---
#define GenericArray WpArray
#define VoidPtrArray WpVoidPtrArray
#define C8Array WpC8Array
#define C16Array WpC16Array
#define C32Array WpC32Array
#define U8Array WpU8Array
#define U16Array WpU16Array
#define U32Array WpU32Array
#define U64Array WpU64Array
#define B8Array WpB8Array
#define I8Array WpI8Array
#define I16Array WpI16Array
#define I32Array WpI32Array
#define I64Array WpI64Array
#define F32Array WpF32Array
#define F64Array WpF64Array
#define F128Array WpF128Array
#define UptrArray WpUptrArray
#define IptrArray WpIptrArray
#define Str8Array WpStr8Array
#define ArrayHeader WpArrayHeader
#define ArrayInitFlags WpArrayInitFlags
// --- DblList ---
#define GenericNode WpDblNode
#define NodeHeader WpDblNodeHeader
#define GenericList WpDblList
#define VoidPtrList WpVoidPtrList
#define C8List WpC8List
#define C16List WpC16List
#define C32List WpC32List
#define U8List WpU8List
#define U16List WpU16List
#define U32List WpU32List
#define U64List WpU64List
#define B8List WpB8List
#define I8List WpI8List
#define I16List WpI16List
#define I32List WpI32List
#define I64List WpI64List
#define F32List WpF32List
#define F64List WpF64List
#define F128List WpF128List
#define UptrList WpUptrList
#define IptrList WpIptrList
#define Str8List WpStr8List
#define VoidPtrNode WpVoidPtrNode
#define C8Node WpC8Node
#define C16Node WpC16Node
#define C32Node WpC32Node
#define U8Node WpU8Node
#define U16Node WpU16Node
#define U32Node WpU32Node
#define U64Node WpU64Node
#define B8Node WpB8Node
#define I8Node WpI8Node
#define I16Node WpI16Node
#define I32Node WpI32Node
#define I64Node WpI64Node
#define F32Node WpF32Node
#define F64Node WpF64Node
#define F128Node WpF128Node
#define UptrNode WpUptrNode
#define IptrNode WpIptrNode
#define Str8Node WpStr8Node
// --- File ---
#define WFile WpFile
#define FileAccessMode WpFileAccessMode
#define FileSeekOrigin WpFileSeekOrigin
// --- Log ---
#define LogLevel WpLogLevel
#define Logger WpLogger
// --- Mem Allocator ---
#define Allocator WpAllocator
#define MemAllocFunc WpMemAllocFunc
#define MemAllocAlignedFunc WpMemAllocAlignedFunc
#define MemReallocFunc WpMemReallocFunc
#define MemReallocAlignedFunc WpMemReallocAlignedFunc
#define MemFreeFunc WpMemFreeFunc
// --- Mem Os ---
#define MemAccess WpMemAccess
#define MemInitType WpMemInitType
#define MemAllocFlags WpMemAllocFlags
// --- PRNG Xorshift ---
#define XOR256State WpXor256State
// --- Queue ---
#define GenericQueue WpQueue
#define VoidPtrQueue WpVoidPtrQueue
#define C8Queue WpC8Queue
#define C16Queue WpC16Queue
#define C32Queue WpC32Queue
#define U8Queue WpU8Queue
#define U16Queue WpU16Queue
#define U32Queue WpU32Queue
#define U64Queue WpU64Queue
#define B8Queue WpB8Queue
#define I8Queue WpI8Queue
#define I16Queue WpI16Queue
#define I32Queue WpI32Queue
#define I64Queue WpI64Queue
#define F32Queue WpF32Queue
#define F64Queue WpF64Queue
#define F128Queue WpF128Queue
#define UptrQueue WpUptrQueue
#define IptrQueue WpIptrQueue
#define Str8Queue WpStr8Queue
// --- Shell Commander ---
#define CMDResult WpCmdResult
#define CMDOutHandling WpCmdOutHandling
#define CMDError WpCmdError
// --- Shell Termcolour ---
#define TerminalColour WpTerminalColour
// --- Str8 ---
#define Str8 WpStr8
#define Str8RO WpStr8RO
// --- Tester ---
#define TestFuncResult WpTestFuncResult
#define TestFunc WpTestFunc
// --- UUID ---
#define WUUID WpUuid
// ============================================================================
// ===== Functions =====
// ============================================================================
// --- Arena ---
#define wapp_mem_arena_init_allocated wpMemArenaInitAllocated
#define wapp_mem_arena_init_allocated_commit wpMemArenaInitAllocatedCommit
#define wapp_mem_arena_init_allocated_zero wpMemArenaInitAllocatedZero
#define wapp_mem_arena_init_allocated_commit_and_zero wpMemArenaInitAllocatedCommitAndZero
#define wapp_mem_arena_init_allocated_custom wpMemArenaInitAllocatedCustom
#define wapp_mem_arena_init_buffer wpMemArenaInitBuffer
#define wapp_mem_arena_alloc wpMemArenaAlloc
#define wapp_mem_arena_alloc_aligned wpMemArenaAllocAligned
#define wapp_mem_arena_realloc wpMemArenaRealloc
#define wapp_mem_arena_realloc_aligned wpMemArenaReallocAligned
#define wapp_mem_arena_temp_begin wpMemArenaTempBegin
#define wapp_mem_arena_temp_end wpMemArenaTempEnd
#define wapp_mem_arena_clear wpMemArenaClear
#define wapp_mem_arena_destroy wpMemArenaDestroy
#define wapp_mem_arena_allocator_init wpMemArenaAllocatorInit
#define wapp_mem_arena_allocator_init_commit wpMemArenaAllocatorInitCommit
#define wapp_mem_arena_allocator_init_zero wpMemArenaAllocatorInitZero
#define wapp_mem_arena_allocator_init_commit_and_zero wpMemArenaAllocatorInitCommitAndZero
#define wapp_mem_arena_allocator_init_custom wpMemArenaAllocatorInitCustom
#define wapp_mem_arena_allocator_init_with_buffer wpMemArenaAllocatorInitWithBuffer
#define wapp_mem_arena_allocator_temp_begin wpMemArenaAllocatorTempBegin
#define wapp_mem_arena_allocator_temp_end wpMemArenaAllocatorTempEnd
#define wapp_mem_arena_allocator_clear wpMemArenaAllocatorClear
#define wapp_mem_arena_allocator_destroy wpMemArenaAllocatorDestroy
// --- Array ---
#define wapp_array wpArray
#define wapp_array_with_capacity wpArrayWithCapacity
#define wapp_array_pop wpArrayPop
#define wapp_array_count wpArrayCount
#define wapp_array_capacity wpArrayCapacity
#define wapp_array_item_size wpArrayItemSize
#define wapp_array_set_count wpArraySetCount
#define wapp_array_get wpArrayGet
#define wapp_array_set wpArraySet
#define wapp_array_append_capped wpArrayAppendCapped
#define wapp_array_extend_capped wpArrayExtendCapped
#define wapp_array_copy_capped wpArrayCopyCapped
#define wapp_array_append_alloc wpArrayAppendAlloc
#define wapp_array_extend_alloc wpArrayExtendAlloc
#define wapp_array_copy_alloc wpArrayCopyAlloc
#define wapp_array_clear wpArrayClear
#define wapp_array_calc_alloc_size wpArrayCalcAllocSize
#define wapp_array_alloc_capacity wpArrayAllocCapacity
#define wapp_array_from_preallcated_buffer wpArrayFromPreallcatedBuffer
// --- Assert ---
#define wapp_static_assert wpStaticAssert
#define wapp_runtime_assert wpRuntimeAssert
#define wapp_debug_assert wpDebugAssert
// --- CPath ---
#define wapp_cpath_dirname wpCpathDirname
#define wapp_cpath_dirup wpCpathDirup
#define wapp_cpath_join_path wpCpathJoinPath
#define dirup _dirup
// --- DblList ---
#define wapp_dbl_list wpDblList
#define wapp_dbl_list_alloc wpDblListAlloc
#define wapp_dbl_list_get wpDblListGet
#define wapp_dbl_list_get_node wpDblListGetNode
#define wapp_dbl_list_get_node_item wpDblListGetNodeItem
#define wapp_dbl_list_push_front wpDblListPushFront
#define wapp_dbl_list_push_back wpDblListPushBack
#define wapp_dbl_list_insert wpDblListInsert
#define wapp_dbl_list_push_front_alloc wpDblListPushFrontAlloc
#define wapp_dbl_list_push_back_alloc wpDblListPushBackAlloc
#define wapp_dbl_list_insert_alloc wpDblListInsertAlloc
#define wapp_dbl_list_pop_front wpDblListPopFront
#define wapp_dbl_list_pop_back wpDblListPopBack
#define wapp_dbl_list_remove wpDblListRemove
#define wapp_dbl_list_pop_front_node wpDblListPopFrontNode
#define wapp_dbl_list_pop_back_node wpDblListPopBackNode
#define wapp_dbl_list_remove_node wpDblListRemoveNode
#define wapp_dbl_list_empty wpDblListEmpty
#define _dbl_list_alloc _dblListAlloc
#define _dbl_list_node_alloc _dblListNodeAlloc
#define _dbl_list_get _dblListGet
#define _dbl_list_push_front _dblListPushFront
#define _dbl_list_push_back _dblListPushBack
#define _dbl_list_insert _dblListInsert
#define _dbl_list_pop_front _dblListPopFront
#define _dbl_list_pop_back _dblListPopBack
#define _dbl_list_remove _dblListRemove
#define _dbl_list_empty _dblListEmpty
// --- File ---
#define wapp_file_stdin wpFileStdin
#define wapp_file_stdout wpFileStdout
#define wapp_file_stderr wpFileStderr
#define wapp_file_open wpFileOpen
#define wapp_file_get_current_position wpFileGetCurrentPosition
#define wapp_file_seek wpFileSeek
#define wapp_file_get_length wpFileGetLength
#define wapp_file_read wpFileRead
#define wapp_file_write wpFileWrite
#define wapp_file_read_str8 wpFileReadStr8
#define wapp_file_write_str8 wpFileWriteStr8
#define wapp_file_read_array wpFileReadArray
#define wapp_file_write_array wpFileWriteArray
#define wapp_file_flush wpFileFlush
#define wapp_file_close wpFileClose
#define wapp_file_rename wpFileRename
#define wapp_file_remove wpFileRemove
#define _file_open _fileOpen
#define _file_seek _fileSeek
#define _file_read _fileRead
#define _file_write _fileWrite
#define _file_flush _fileFlush
#define _file_close _fileClose
#define _file_rename _fileRename
#define _file_remove _fileRemove
// --- Log ---
#define wapp_log_set_level wpLogSetLevel
#define wapp_log_configure wpLogConfigure
#define wapp_log_make_logger wpLogMakeLogger
#define wapp_log_debug wpLogDebug
#define wapp_log_info wpLogInfo
#define wapp_log_warning wpLogWarning
#define wapp_log_error wpLogError
#define wapp_log_critical wpLogCritical
#define wapp_log_fatal wpLogFatal
// --- Mem Allocator ---
#define wapp_mem_allocator_invalid wpMemAllocatorInvalid
#define wapp_mem_allocator_alloc wpMemAllocatorAlloc
#define wapp_mem_allocator_alloc_aligned wpMemAllocatorAllocAligned
#define wapp_mem_allocator_realloc wpMemAllocatorRealloc
#define wapp_mem_allocator_realloc_aligned wpMemAllocatorReallocAligned
#define wapp_mem_allocator_free wpMemAllocatorFree
// --- Mem Os ---
#define wapp_os_mem_alloc wpOsMemAlloc
#define wapp_os_mem_free wpOsMemFree
#define os_mem_allocate _osMemAllocate
#define os_mem_free _osMemFree
// --- Mem Utils ---
#define wapp_mem_util_align_forward wpMemUtilAlignForward
// --- Misc Utils ---
#define wapp_misc_utils_reserve_padding wpMiscUtilsReservePadding
#define wapp_misc_utils_u64_round_up_pow2 wpMiscUtilsU64RoundUpPow2
#define wapp_is_power_of_two wpMiscUtilsIsPowerOfTwo
#define wapp_pointer_offset wpMiscUtilsOffsetPointer
#define wapp_misc_utils_va_args_count wpMiscUtilsVaArgsCount
// --- PRNG Xorshift ---
#define wapp_prng_xorshift_init_state wpPrngXorshiftInit
#define wapp_prng_xorshift_256 wpPrngXorshift256
#define wapp_prng_xorshift_256ss wpPrngXorshift256ss
#define wapp_prng_xorshift_256p wpPrngXorshift256p
// --- Queue ---
#define wapp_queue wpQueue
#define wapp_queue_alloc wpQueueAlloc
#define wapp_queue_capacity wpQueueCapacity
#define wapp_queue_item_size wpQueueItemSize
#define wapp_queue_push wpQueuePush
#define wapp_queue_push_alloc wpQueuePushAlloc
#define wapp_queue_pop wpQueuePop
#define _queue_push _queuePush
#define _queue_push_alloc _queuePushAlloc
#define _queue_pop _queuePop
// --- Shell Commander ---
#define CMD_NO_EXIT wpCmdNoExit
#define wapp_shell_commander_execute wpShellCommanderExecute
#define get_output_status _getOutputStatus
// --- Shell Termcolour ---
#define wapp_shell_termcolour_print_text wpShellTermcolourPrintText
#define wapp_shell_termcolour_clear_colour wpShellTermcolourClearColour
#define print_coloured_text _printColouredText
// --- Shell Utils ---
#define wapp_shell_utils_popen wpShellUtilsPopen
#define wapp_shell_utils_pclose wpShellUtilsPclose
// --- Str8 ---
#define wapp_str8_varg wpStr8Varg
#define wapp_str8_buf wpStr8Buf
#define wapp_str8_lit wpStr8Lit
#define wapp_str8_lit_ro wpStr8LitRo
#define wapp_str8_lit_ro_initialiser_list wpStr8LitRoInitialiserList
#define wapp_str8_alloc_buf wpStr8AllocBuf
#define wapp_str8_alloc_and_fill_buf wpStr8AllocAndFillBuf
#define wapp_str8_alloc_cstr wpStr8AllocCstr
#define wapp_str8_alloc_str8 wpStr8AllocStr8
#define wapp_str8_alloc_substr wpStr8AllocSubstr
#define wapp_str8_alloc_concat wpStr8AllocConcat
#define wapp_str8_dealloc_buf wpStr8DeallocBuf
#define wapp_str8_get wpStr8Get
#define wapp_str8_set wpStr8Set
#define wapp_str8_push_back wpStr8PushBack
#define wapp_str8_equal wpStr8Equal
#define wapp_str8_equal_to_count wpStr8EqualToCount
#define wapp_str8_slice wpStr8Slice
#define wapp_str8_concat_capped wpStr8ConcatCapped
#define wapp_str8_copy_cstr_capped wpStr8CopyCstrCapped
#define wapp_str8_copy_str8_capped wpStr8CopyStr8Capped
#define wapp_str8_copy_to_cstr wpStr8CopyToCstr
#define wapp_str8_format wpStr8Format
#define wapp_str8_to_lower wpStr8ToLower
#define wapp_str8_to_upper wpStr8ToUpper
#define wapp_str8_from_bytes wpStr8FromBytes
#define wapp_str8_find wpStr8Find
#define wapp_str8_rfind wpStr8Rfind
#define wapp_str8_split wpStr8Split
#define wapp_str8_rsplit wpStr8Rsplit
#define wapp_str8_split_with_max wpStr8SplitWithMax
#define wapp_str8_rsplit_with_max wpStr8RsplitWithMax
#define wapp_str8_join wpStr8Join
#define wapp_str8_list_total_size wpStr8ListTotalSize
// --- Tester ---
#define wapp_tester_result wpTesterResult
#define wapp_tester_run wpTesterRun
#define run_tests _runTests
// --- UUID ---
#define wapp_uuid_varg wpUuidVarg
#define wapp_uuid_gen_uuid4 wpUuidGenUuid4
#define wapp_uuid_create wpUuidCreate
#define wapp_uuid_init_uuid4 wpUuidInitUuid4
#endif // !OLDNAMES_H
src/os/allocators/arena/mem_arena.c
+101 -147
View File
@@ -6,6 +6,7 @@
#include "../../../common/assert/assert.h"
#include "../../../common/misc/misc_utils.h"
#include "../../../base/mem/utils/mem_utils.h"
#include <stdlib.h>
#include <string.h>
#ifndef DEFAULT_ALIGNMENT
@@ -14,179 +15,132 @@
#define DEFAULT_ALIGNMENT (2 * sizeof(void *))
#endif /* ifndef DEFAULT_ALIGNMENT */
#define ARENA_MINIMUM_CAPACITY KiB(16) // Allocate minimum of 4 pages
#define ARENA_MINIMUM_CAPACITY KB(16) // Allocate minimum of 4 pages
typedef enum {
ARENA_STORAGE_TYPE_ALLOCATED,
ARENA_STORAGE_TYPE_BUFFER,
} ArenaStorageType;
struct arena {
u8 *buf;
u8 *offset;
u64 capacity;
b8 committed;
struct WpArena {
u8 *buf;
u8 *offset;
u8 *prev_offset;
u64 capacity;
ArenaStorageType type;
b8 committed;
wpMiscUtilsReservePadding(sizeof(u8 *) * 3 + sizeof(u64) + sizeof(ArenaStorageType) + sizeof(b8));
#ifdef WAPP_PLATFORM_WINDOWS
wapp_misc_utils_padding_size(sizeof(u8 *) * 2 + sizeof(u64) + sizeof(b8));
#endif // ifdef WAPP_PLATFORM_WINDOWS
};
b8 wpMemArenaInitBuffer(WpArena **arena, u8 *buffer, u64 buffer_size) {
if (!arena || *arena || buffer_size < sizeof(WpArena)) {
return false;
}
b8 wapp_mem_arena_init_custom(Arena **arena, u64 base_capacity, MemAllocFlags flags, b8 zero_buffer) {
if (!arena || *arena || base_capacity == 0) {
return false;
}
*arena = (WpArena *)buffer;
WpArena *arena_ptr = *arena;
*arena = (Arena *)calloc(1, sizeof(Arena));
Arena *arena_ptr = *arena;
if (!arena_ptr) {
return false;
}
arena_ptr->buf = (u8 *)(arena_ptr + 1);
arena_ptr->offset = arena_ptr->buf;
arena_ptr->prev_offset = NULL;
arena_ptr->capacity = buffer_size - sizeof(WpArena);
arena_ptr->type = ARENA_STORAGE_TYPE_BUFFER;
arena_ptr->committed = true;
u64 arena_capacity = wapp_misc_utils_u64_round_up_pow2(
base_capacity >= ARENA_MINIMUM_CAPACITY ?
base_capacity :
ARENA_MINIMUM_CAPACITY
);
return true;
arena_ptr->buf = (u8 *)wapp_mem_util_alloc(NULL, arena_capacity, WAPP_MEM_ACCESS_READ_WRITE, flags,
zero_buffer ? WAPP_MEM_INIT_INITIALISED : WAPP_MEM_INIT_UNINITIALISED);
if (!(arena_ptr->buf)) {
wapp_mem_arena_destroy(arena);
return false;
}
arena_ptr->capacity = arena_capacity;
arena_ptr->offset = arena_ptr->buf;
arena_ptr->committed = (flags & WAPP_MEM_ALLOC_COMMIT) == WAPP_MEM_ALLOC_COMMIT;
return true;
}
b8 wpMemArenaInitAllocatedCustom(WpArena **arena, u64 base_capacity, WpMemAllocFlags flags, b8 zero_buffer) {
if (!arena || *arena || base_capacity == 0) {
return false;
}
u64 size = sizeof(WpArena) + (base_capacity >= ARENA_MINIMUM_CAPACITY ? base_capacity : ARENA_MINIMUM_CAPACITY);
u64 alloc_size = wpMiscUtilsU64RoundUpPow2(size);
u8 *allocated = (u8 *)wpOsMemAlloc(NULL, alloc_size, WP_MEM_ACCESS_READ_WRITE, flags,
zero_buffer ? WP_MEM_INIT_INITIALISED : WP_MEM_INIT_UNINITIALISED);
if (!allocated) {
return false;
}
b8 committed = (flags & WP_MEM_ALLOC_COMMIT) == WP_MEM_ALLOC_COMMIT;
#ifdef WP_PLATFORM_WINDOWS
if (!committed) {
wpOsMemAlloc(allocated, sizeof(WpArena), WP_MEM_ACCESS_READ_WRITE, WP_MEM_ALLOC_COMMIT,
WP_MEM_INIT_INITIALISED);
}
#endif // ifdef WP_PLATFORM_WINDOWS
if (!wpMemArenaInitBuffer(arena, allocated, alloc_size)) {
wpMemArenaDestroy(arena);
return false;
}
WpArena *arena_ptr = *arena;
arena_ptr->type = ARENA_STORAGE_TYPE_ALLOCATED;
arena_ptr->committed = committed;
return true;
void *wapp_mem_arena_alloc(Arena *arena, u64 size) {
return wapp_mem_arena_alloc_aligned(arena, size, DEFAULT_ALIGNMENT);
}
void *wpMemArenaAlloc(WpArena *arena, u64 size) {
return wpMemArenaAllocAligned(arena, size, DEFAULT_ALIGNMENT);
void *wapp_mem_arena_alloc_aligned(Arena *arena, u64 size, u64 alignment) {
wapp_debug_assert(arena != NULL, "`arena` should not be NULL");
u8 *alloc_start = arena->offset;
u8 *output = wapp_mem_util_align_forward((void *)alloc_start, alignment);
if (output + size >= arena->buf + arena->capacity) {
return NULL;
}
arena->offset = output + size;
#ifdef WAPP_PLATFORM_WINDOWS
if (!(arena->committed)) {
wapp_mem_util_alloc(alloc_start, (uptr)(arena->offset) - (uptr)(alloc_start),
WAPP_MEM_ACCESS_READ_WRITE, WAPP_MEM_ALLOC_COMMIT,
WAPP_MEM_INIT_UNINITIALISED);
}
#endif // ifdef WAPP_PLATFORM_WINDOWS
memset(output, 0, size);
return (void *)output;
}
void *wpMemArenaAllocAligned(WpArena *arena, u64 size, u64 alignment) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
void *wapp_mem_arena_realloc(Arena *arena, void *ptr, u64 old_size, u64 new_size) {
if ((u8*)ptr < arena->buf || (u8*)ptr > arena->offset ||
arena->offset + new_size >= arena->buf + arena->capacity) {
return NULL;
}
u8 *alloc_start = arena->offset;
void *new_ptr = wapp_mem_arena_alloc(arena, new_size);
if (!new_ptr) {
return NULL;
}
u8 *output = wpMemUtilAlignForward((void *)alloc_start, alignment);
if (output + size >= arena->buf + arena->capacity) {
return NULL;
}
u64 copy_size = new_size <= old_size ? new_size : old_size;
memcpy(new_ptr, ptr, copy_size);
arena->offset = output + size;
#ifdef WP_PLATFORM_WINDOWS
if (arena->type == ARENA_STORAGE_TYPE_ALLOCATED && !(arena->committed)) {
wpOsMemAlloc(alloc_start, (uptr)(arena->offset) - (uptr)(alloc_start),
WP_MEM_ACCESS_READ_WRITE, WP_MEM_ALLOC_COMMIT,
WP_MEM_INIT_UNINITIALISED);
}
#endif // ifdef WP_PLATFORM_WINDOWS
memset(output, 0, size);
return (void *)output;
return new_ptr;
}
void *wpMemArenaRealloc(WpArena *arena, void *ptr, u64 old_size, u64 new_size) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
void *wapp_mem_arena_realloc_aligned(Arena *arena, void *ptr, u64 old_size, u64 new_size, u64 alignment) {
if ((u8*)ptr < arena->buf || (u8*)ptr > arena->offset ||
arena->offset + new_size >= arena->buf + arena->capacity) {
return NULL;
}
if ((u8*)ptr < arena->buf || (u8*)ptr > arena->offset ||
arena->offset + new_size >= arena->buf + arena->capacity) {
return NULL;
}
void *new_ptr = wapp_mem_arena_alloc_aligned(arena, new_size, alignment);
if (!new_ptr) {
return NULL;
}
void *new_ptr = wpMemArenaAlloc(arena, new_size);
if (!new_ptr) {
return NULL;
}
u64 copy_size = new_size <= old_size ? new_size : old_size;
memcpy(new_ptr, ptr, copy_size);
u64 copy_size = new_size <= old_size ? new_size : old_size;
memcpy(new_ptr, ptr, copy_size);
return new_ptr;
return new_ptr;
}
void *wpMemArenaReallocAligned(WpArena *arena, void *ptr, u64 old_size, u64 new_size, u64 alignment) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
void wapp_mem_arena_clear(Arena *arena) {
wapp_debug_assert(arena != NULL, "`arena` should not be NULL");
if ((u8*)ptr < arena->buf || (u8*)ptr > arena->offset ||
arena->offset + new_size >= arena->buf + arena->capacity) {
return NULL;
}
void *new_ptr = wpMemArenaAllocAligned(arena, new_size, alignment);
if (!new_ptr) {
return NULL;
}
u64 copy_size = new_size <= old_size ? new_size : old_size;
memcpy(new_ptr, ptr, copy_size);
return new_ptr;
memset(arena->buf, 0, arena->offset - arena->buf);
arena->offset = arena->buf;
}
void wpMemArenaTempBegin(WpArena *arena) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
void wapp_mem_arena_destroy(Arena **arena) {
wapp_debug_assert(arena != NULL && (*arena) != NULL, "`arena` double pointer is not valid");
if (arena->prev_offset != NULL) {
return;
}
Arena *arena_ptr = *arena;
if (arena_ptr->buf) {
wapp_mem_util_free(arena_ptr->buf, arena_ptr->capacity);
}
arena->prev_offset = arena->offset;
}
void wpMemArenaTempEnd(WpArena *arena) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
if (arena->prev_offset == NULL) {
return;
}
arena->offset = arena->prev_offset;
arena->prev_offset = NULL;
}
void wpMemArenaClear(WpArena *arena) {
wpDebugAssert(arena != NULL, "`arena` should not be NULL");
memset(arena->buf, 0, arena->offset - arena->buf);
arena->offset = arena->buf;
}
void wpMemArenaDestroy(WpArena **arena) {
wpDebugAssert(arena != NULL && (*arena) != NULL, "`arena` double pointer is not valid");
WpArena *arena_ptr = *arena;
if (arena_ptr->type == ARENA_STORAGE_TYPE_ALLOCATED) {
wpOsMemFree(*arena, sizeof(WpArena) + arena_ptr->capacity);
}
*arena = NULL;
arena_ptr->buf = arena_ptr->offset = NULL;
arena_ptr->capacity = 0;
free(*arena);
*arena = NULL;
}
src/os/allocators/arena/mem_arena.h
+22 -25
View File
@@ -7,39 +7,36 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef struct WpArena WpArena;
typedef struct arena Arena;
#define wpMemArenaInitAllocated(arena_dptr, base_capacity) \
(wpMemArenaInitAllocatedCustom(arena_dptr, base_capacity, WP_MEM_ALLOC_RESERVE, false))
#define wpMemArenaInitAllocatedCommit(arena_dptr, base_capacity) \
(wpMemArenaInitAllocatedCustom(arena_dptr, base_capacity, WP_MEM_ALLOC_RESERVE | WP_MEM_ALLOC_COMMIT, false))
#define wpMemArenaInitAllocatedZero(arena_dptr, base_capacity) \
(wpMemArenaInitAllocatedCustom(arena_dptr, base_capacity, WP_MEM_ALLOC_RESERVE, true))
#define wpMemArenaInitAllocatedCommitAndZero(arena_dptr, base_capacity) \
(wpMemArenaInitAllocatedCustom(arena_dptr, base_capacity, WP_MEM_ALLOC_RESERVE | WP_MEM_ALLOC_COMMIT, true))
#define wapp_mem_arena_init(arena_dptr, base_capacity) \
(wapp_mem_arena_init_custom(arena_dptr, base_capacity, WAPP_MEM_ALLOC_RESERVE, false))
#define wapp_mem_arena_init_commit(arena_dptr, base_capacity) \
(wapp_mem_arena_init_custom(arena_dptr, base_capacity, WAPP_MEM_ALLOC_RESERVE | WAPP_MEM_ALLOC_COMMIT, false))
#define wapp_mem_arena_init_zero(arena_dptr, base_capacity) \
(wapp_mem_arena_init_custom(arena_dptr, base_capacity, WAPP_MEM_ALLOC_RESERVE, true))
#define wapp_mem_arena_init_commit_and_zero(arena_dptr, base_capacity) \
(wapp_mem_arena_init_custom(arena_dptr, base_capacity, WAPP_MEM_ALLOC_RESERVE | WAPP_MEM_ALLOC_COMMIT, true))
/**
* WpArena initialisation function. `wpMemArenaInitAllocatedCustom` provides the most
* control over how the WpArena is initialised. Wrapper macros are provided for
* Arena initialisation function. `wapp_mem_arena_init_custom` provides the most
* control over how the Arena is initialised. Wrapper macros are provided for
* easier use.
*/
b8 wpMemArenaInitAllocatedCustom(WpArena **arena, u64 base_capacity, WpMemAllocFlags flags, b8 zero_buffer);
b8 wpMemArenaInitBuffer(WpArena **arena, u8 *buffer, u64 buffer_size);
void *wpMemArenaAlloc(WpArena *arena, u64 size);
void *wpMemArenaAllocAligned(WpArena *arena, u64 size, u64 alignment);
void *wpMemArenaRealloc(WpArena *arena, void *ptr, u64 old_size, u64 new_size);
void *wpMemArenaReallocAligned(WpArena *arena, void *ptr, u64 old_size, u64 new_size, u64 alignment);
void wpMemArenaTempBegin(WpArena *arena);
void wpMemArenaTempEnd(WpArena *arena);
void wpMemArenaClear(WpArena *arena);
void wpMemArenaDestroy(WpArena **arena);
b8 wapp_mem_arena_init_custom(Arena **arena, u64 base_capacity, MemAllocFlags flags, b8 zero_buffer);
void *wapp_mem_arena_alloc(Arena *arena, u64 size);
void *wapp_mem_arena_alloc_aligned(Arena *arena, u64 size, u64 alignment);
void *wapp_mem_arena_realloc(Arena *arena, void *ptr, u64 old_size, u64 new_size);
void *wapp_mem_arena_realloc_aligned(Arena *arena, void *ptr, u64 old_size, u64 new_size, u64 alignment);
void wapp_mem_arena_clear(Arena *arena);
void wapp_mem_arena_destroy(Arena **arena);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_ARENA_H
src/os/allocators/arena/mem_arena_allocator.c
+36 -64
View File
@@ -4,84 +4,56 @@
#include "mem_arena.h"
#include "../../mem/mem_os.h"
#include "../../../common/aliases/aliases.h"
#include "../../../common/assert/assert.h"
wp_intern void initialise_arena_allocator(WpAllocator *allocator);
wp_intern void *mem_arena_alloc(u64 size, void *alloc_obj);
wp_intern void *mem_arena_alloc_aligned(u64 size, u64 alignment, void *alloc_obj);
wp_intern void *mem_arena_realloc(void *ptr, u64 old_size, u64 new_size, void *alloc_obj);
wp_intern void *mem_arena_realloc_aligned(void *ptr, u64 old_size, u64 new_size, u64 alignment,
void *alloc_obj);
wapp_intern inline void *mem_arena_alloc(u64 size, void *alloc_obj);
wapp_intern inline void *mem_arena_alloc_aligned(u64 size, u64 alignment, void *alloc_obj);
wapp_intern inline void *mem_arena_realloc(void *ptr, u64 old_size, u64 new_size, void *alloc_obj);
wapp_intern inline void *mem_arena_realloc_aligned(void *ptr, u64 old_size, u64 new_size, u64 alignment,
void *alloc_obj);
WpAllocator wpMemArenaAllocatorInitWithBuffer(u8 *buffer, u64 buffer_size) {
WpAllocator allocator = {0};
b8 initialised = wpMemArenaInitBuffer((WpArena **)(&allocator.obj), buffer, buffer_size);
if (!initialised) {
return allocator;
}
initialise_arena_allocator(&allocator);
Allocator wapp_mem_arena_allocator_init_custom(u64 base_capacity, MemAllocFlags flags, b8 zero_buffer) {
Allocator allocator = {0};
b8 initialised = wapp_mem_arena_init_custom((Arena **)(&allocator.obj), base_capacity, flags, zero_buffer);
if (!initialised) {
return allocator;
}
return allocator;
allocator.alloc = mem_arena_alloc;
allocator.alloc_aligned = mem_arena_alloc_aligned;
allocator.realloc = mem_arena_realloc;
allocator.realloc_aligned = mem_arena_realloc_aligned;
return allocator;
}
WpAllocator wpMemArenaAllocatorInitCustom(u64 base_capacity, WpMemAllocFlags flags, b8 zero_buffer) {
WpAllocator allocator = {0};
b8 initialised = wpMemArenaInitAllocatedCustom((WpArena **)(&allocator.obj), base_capacity, flags, zero_buffer);
if (!initialised) {
return allocator;
}
initialise_arena_allocator(&allocator);
return allocator;
void wapp_mem_arena_allocator_clear(Allocator *allocator) {
wapp_mem_arena_clear((Arena *)(allocator->obj));
}
void wpMemArenaAllocatorTempBegin(const WpAllocator *allocator) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
wpMemArenaTempBegin((WpArena *)(allocator->obj));
void wapp_mem_arena_allocator_destroy(Allocator *allocator) {
wapp_mem_arena_destroy((Arena **)(&(allocator->obj)));
*allocator = (Allocator){0};
}
void wpMemArenaAllocatorTempEnd(const WpAllocator *allocator) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
wpMemArenaTempEnd((WpArena *)(allocator->obj));
wapp_intern inline void *mem_arena_alloc(u64 size, void *alloc_obj) {
Arena *arena = (Arena *)alloc_obj;
return wapp_mem_arena_alloc(arena, size);
}
void wpMemArenaAllocatorClear(WpAllocator *allocator) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
wpMemArenaClear((WpArena *)(allocator->obj));
wapp_intern inline void *mem_arena_alloc_aligned(u64 size, u64 alignment, void *alloc_obj) {
Arena *arena = (Arena *)alloc_obj;
return wapp_mem_arena_alloc_aligned(arena, size, alignment);
}
void wpMemArenaAllocatorDestroy(WpAllocator *allocator) {
wpDebugAssert(allocator != NULL, "`allocator` should not be NULL");
wpMemArenaDestroy((WpArena **)(&(allocator->obj)));
*allocator = (WpAllocator){0};
wapp_intern inline void *mem_arena_realloc(void *ptr, u64 old_size, u64 new_size, void *alloc_obj) {
Arena *arena = (Arena *)alloc_obj;
return wapp_mem_arena_realloc(arena, ptr, old_size, new_size);
}
wp_intern void initialise_arena_allocator(WpAllocator *allocator) {
allocator->alloc = mem_arena_alloc;
allocator->alloc_aligned = mem_arena_alloc_aligned;
allocator->realloc = mem_arena_realloc;
allocator->realloc_aligned = mem_arena_realloc_aligned;
}
wp_intern void *mem_arena_alloc(u64 size, void *alloc_obj) {
WpArena *arena = (WpArena *)alloc_obj;
return wpMemArenaAlloc(arena, size);
}
wp_intern void *mem_arena_alloc_aligned(u64 size, u64 alignment, void *alloc_obj) {
WpArena *arena = (WpArena *)alloc_obj;
return wpMemArenaAllocAligned(arena, size, alignment);
}
wp_intern void *mem_arena_realloc(void *ptr, u64 old_size, u64 new_size, void *alloc_obj) {
WpArena *arena = (WpArena *)alloc_obj;
return wpMemArenaRealloc(arena, ptr, old_size, new_size);
}
wp_intern void *mem_arena_realloc_aligned(void *ptr, u64 old_size, u64 new_size, u64 alignment,
void *alloc_obj) {
WpArena *arena = (WpArena *)alloc_obj;
return wpMemArenaReallocAligned(arena, ptr, old_size, new_size, alignment);
wapp_intern inline void *mem_arena_realloc_aligned(void *ptr, u64 old_size, u64 new_size, u64 alignment,
void *alloc_obj) {
Arena *arena = (Arena *)alloc_obj;
return wapp_mem_arena_realloc_aligned(arena, ptr, old_size, new_size, alignment);
}
src/os/allocators/arena/mem_arena_allocator.h
+20 -23
View File
@@ -8,39 +8,36 @@
#include "../../../common/platform/platform.h"
#include "../../../base/mem/allocator/mem_allocator.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define wpMemArenaAllocatorInit(base_capacity) \
(wpMemArenaAllocatorInitCustom(base_capacity, WP_MEM_ALLOC_RESERVE, false))
#define wpMemArenaAllocatorInitCommit(base_capacity) \
(wpMemArenaAllocatorInitCustom(base_capacity, WP_MEM_ALLOC_RESERVE | WP_MEM_ALLOC_COMMIT, false))
#define wpMemArenaAllocatorInitZero(base_capacity) \
(wpMemArenaAllocatorInitCustom(base_capacity, WP_MEM_ALLOC_RESERVE, true))
#define wpMemArenaAllocatorInitCommitAndZero(base_capacity) \
(wpMemArenaAllocatorInitCustom(base_capacity, WP_MEM_ALLOC_RESERVE | WP_MEM_ALLOC_COMMIT, true))
#define wapp_mem_arena_allocator_init(base_capacity) \
(wapp_mem_arena_allocator_init_custom(base_capacity, WAPP_MEM_ALLOC_RESERVE, false))
#define wapp_mem_arena_allocator_init_commit(base_capacity) \
(wapp_mem_arena_allocator_init_custom(base_capacity, WAPP_MEM_ALLOC_RESERVE | WAPP_MEM_ALLOC_COMMIT, false))
#define wapp_mem_arena_allocator_init_zero(base_capacity) \
(wapp_mem_arena_allocator_init_custom(base_capacity, WAPP_MEM_ALLOC_RESERVE, true))
#define wapp_mem_arena_allocator_init_commit_and_zero(base_capacity) \
(wapp_mem_arena_allocator_init_custom(base_capacity, WAPP_MEM_ALLOC_RESERVE | WAPP_MEM_ALLOC_COMMIT, true))
/**
* Wraps a WpArena in a WpAllocator object. It attempts to initialise the WpArena
* Wraps an Arena in an Allocator object. It attempts to initialise the Arena
* and, if successful, defines the operations supported by it to be used by the
* WpAllocator.
* Allocator.
*
* An WpArena allocator only supports normal allocation and aligned allocation.
* An Arena allocator only supports normal allocation and aligned allocation.
* Reallocation, aligned reallocation and freeing aren't implemented.
*
* The `wpMemArenaAllocatorInitCustom` provides the most control over how
* the WpArena is initialised. Wrapper macros are provided for easier use.
* The `wapp_mem_arena_allocator_init_custom` provides the most control over how
* the Arena is initialised. Wrapper macros are provided for easier use.
*/
WpAllocator wpMemArenaAllocatorInitCustom(u64 base_capacity, WpMemAllocFlags flags, b8 zero_buffer);
WpAllocator wpMemArenaAllocatorInitWithBuffer(u8 *buffer, u64 buffer_size);
void wpMemArenaAllocatorTempBegin(const WpAllocator *allocator);
void wpMemArenaAllocatorTempEnd(const WpAllocator *allocator);
void wpMemArenaAllocatorClear(WpAllocator *allocator);
void wpMemArenaAllocatorDestroy(WpAllocator *allocator);
Allocator wapp_mem_arena_allocator_init_custom(u64 base_capacity, MemAllocFlags flags, b8 zero_buffer);
void wapp_mem_arena_allocator_clear(Allocator *allocator);
void wapp_mem_arena_allocator_destroy(Allocator *allocator);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_ARENA_ALLOCATOR_H
src/os/cpath/cpath.c
+97 -96
View File
@@ -8,127 +8,128 @@
#include "../../base/mem/allocator/mem_allocator.h"
#include "../../base/strings/str8/str8.h"
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
u32 wpCpathJoinPath(WpStr8 *dst, const WpStr8List *parts) {
if (!dst || !parts) {
return WP_CPATH_JOIN_RESULT_INVALID_ARGS;
}
u32 wapp_cpath_join_path(Str8 *dst, const Str8List *parts) {
if (!dst || !parts) {
return CPATH_JOIN_INVALID_ARGS;
}
if (parts->node_count == 0) {
return WP_CPATH_JOIN_RESULT_EMPTY_PARTS;
}
if (parts->node_count == 0) {
return CPATH_JOIN_EMPTY_PARTS;
}
WpStr8 separator = wpStr8Buf(4);
wpStr8PushBack(&separator, WP_PATH_SEP);
Str8 separator = wapp_str8_buf(4);
wapp_str8_push_back(&separator, WAPP_PATH_SEP);
u64 required_capacity = parts->node_count * separator.size + wpStr8ListTotalSize(parts);
if (dst->capacity < required_capacity) {
return WP_CPATH_JOIN_RESULT_INSUFFICIENT_DST_CAPACITY;
}
u64 required_capacity = parts->node_count * separator.size + wapp_str8_list_total_size(parts);
if (dst->capacity < required_capacity) {
return CPATH_JOIN_INSUFFICIENT_DST_CAPACITY;
}
// Handle first node
WpStr8 *first_node = wpDblListGet(WpStr8, parts, 0);
wpStr8CopyStr8Capped(dst, first_node);
// Handle first node
const Str8Node *first_node = wapp_dbl_list_get(Str8, Str8Node, parts, 0);
wapp_str8_copy_str8_capped(dst, first_node->item);
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
WpStr8 *node = first_node;
u64 node_index = 1;
b8 running = node_index < parts->node_count;
while (running) {
node = wpDblListGet(WpStr8, parts, node_index);
if (node->size == 0) {
goto CPATH_JOIN_LOOP_END;
}
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
const Str8Node *node = first_node;
u64 node_index = 1;
b8 running = node_index < parts->node_count;
while (running && node->next) {
node = node->next;
if (node->item->size == 0) {
continue;
}
if (dst->size > 0) {
char dst_last = wpStr8Get(dst, dst->size - 1);
char node_start = wpStr8Get(node, 0);
b8 add_path_sep = dst_last != WP_PATH_SEP && node_start != WP_PATH_SEP;
if (dst->size > 0) {
char dst_last = wapp_str8_get(dst, dst->size - 1);
char node_start = wapp_str8_get(node->item, 0);
b8 add_path_sep = dst_last != WAPP_PATH_SEP && node_start != WAPP_PATH_SEP;
if (add_path_sep) {
wpStr8ConcatCapped(dst, &separator);
}
}
if (add_path_sep) {
wapp_str8_concat_capped(dst, &separator);
}
}
wpStr8ConcatCapped(dst, node);
wapp_str8_concat_capped(dst, node->item);
CPATH_JOIN_LOOP_END:
++node_index;
running = node_index < parts->node_count;
}
++node_index;
running = node_index < parts->node_count;
}
return WP_CPATH_JOIN_RESULT_SUCCESS;
return CPATH_JOIN_SUCCESS;
}
WpStr8 *_dirup(const WpAllocator *allocator, WpStr8RO *path, u64 levels) {
WpStr8 *output = NULL;
if (!allocator || !path) {
goto RETURN_DIRUP;
}
Str8 *dirup(const Allocator *allocator, Str8RO *path, u64 levels) {
Str8 *output = NULL;
if (!allocator || !path) {
goto RETURN_DIRUP;
}
b8 absolute = wpStr8Get(path, 0) == WP_PATH_SEP;
WpStr8 separator = wpStr8Buf(4);
wpStr8PushBack(&separator, WP_PATH_SEP);
b8 absolute = wapp_str8_get(path, 0) == WAPP_PATH_SEP;
Str8 separator = wapp_str8_buf(4);
wapp_str8_push_back(&separator, WAPP_PATH_SEP);
if (path->size == 0) {
output = wpStr8AllocBuf(allocator, 16);
if (!output) {
goto RETURN_DIRUP;
}
if (path->size == 0) {
output = wapp_str8_alloc_buf(allocator, 16);
if (!output) {
goto RETURN_DIRUP;
}
wpStr8PushBack(output, absolute ? WP_PATH_SEP : '.');
goto RETURN_DIRUP;
}
wapp_str8_push_back(output, absolute ? WAPP_PATH_SEP : '.');
goto RETURN_DIRUP;
}
if (levels < 1) {
output = wpStr8AllocStr8(allocator, path);
goto RETURN_DIRUP;
}
if (levels < 1) {
output = wapp_str8_alloc_str8(allocator, path);
goto RETURN_DIRUP;
}
WpAllocator tmp_arena = wpMemArenaAllocatorInit(MiB(8));
if (wpMemAllocatorInvalid(&tmp_arena)) {
goto RETURN_DIRUP;
}
Allocator tmp_arena = wapp_mem_arena_allocator_init(MB(8));
if (wapp_mem_allocator_invalid(&tmp_arena)) {
goto RETURN_DIRUP;
}
WpStr8List *parts = wpStr8Split(&tmp_arena, path, &separator);
if (!parts) {
goto RETURN_DIRUP;
}
Str8List *parts = wapp_str8_split(&tmp_arena, path, &separator);
if (!parts) {
goto RETURN_DIRUP;
}
if (levels >= parts->node_count) {
output = wpStr8AllocBuf(allocator, 16);
if (!output) {
goto LIST_CLEANUP_DIRUP;
}
if (levels >= parts->node_count) {
output = wapp_str8_alloc_buf(allocator, 16);
if (!output) {
goto LIST_CLEANUP_DIRUP;
}
wpStr8PushBack(output, absolute ? WP_PATH_SEP : '.');
} else {
for (u64 i = 0; i < levels; ++i) {
wpDblListPopBack(WpStr8, parts);
}
u64 alignment = sizeof(void *) * 2;
u64 alloc_size = wpStr8ListTotalSize(parts) + parts->node_count * separator.size;
u64 modulo = alloc_size & (alignment - 1);
alloc_size += alignment - modulo;
wapp_str8_push_back(output, absolute ? WAPP_PATH_SEP : '.');
} else {
for (u64 i = 0; i < levels; ++i) {
wapp_dbl_list_pop_back(Str8, Str8Node, parts);
}
u64 alignment = sizeof(void *) * 2;
u64 alloc_size = wapp_str8_list_total_size(parts) + parts->node_count * separator.size;
u64 modulo = alloc_size & (alignment - 1);
alloc_size += alignment - modulo;
output = wpStr8AllocBuf(allocator, alloc_size);
if (output) {
if (absolute) {
wpStr8PushBack(output, WP_PATH_SEP);
}
output = wapp_str8_alloc_buf(allocator, alloc_size);
if (output) {
if (absolute) {
wapp_str8_push_back(output, WAPP_PATH_SEP);
}
WpStr8 *joined = wpStr8Join(&tmp_arena, parts, &separator);
if (joined) {
wpStr8ConcatCapped(output, joined);
}
}
}
Str8 *joined = wapp_str8_join(&tmp_arena, parts, &separator);
if (joined) {
wapp_str8_concat_capped(output, joined);
}
}
}
LIST_CLEANUP_DIRUP:
wpMemArenaAllocatorDestroy(&tmp_arena);
wapp_mem_arena_allocator_destroy(&tmp_arena);
RETURN_DIRUP:
return output;
return output;
}
src/os/cpath/cpath.h
+21 -21
View File
@@ -8,38 +8,38 @@
#include "../../base/mem/allocator/mem_allocator.h"
#include "../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#ifdef WP_PLATFORM_POSIX
#ifdef WAPP_PLATFORM_POSIX
#include <limits.h>
#define WP_PATH_SEP '/'
#define WP_PATH_MAX PATH_MAX
#elif defined(WP_PLATFORM_WINDOWS)
#define WAPP_PATH_SEP '/'
#define WAPP_PATH_MAX PATH_MAX
#elif defined(WAPP_PLATFORM_WINDOWS)
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#define WP_PATH_SEP '\\'
#define WP_PATH_MAX MAX_PATH
#include <windows.h>
#define WAPP_PATH_SEP '\\'
#define WAPP_PATH_MAX MAX_PATH
#else
#error "Unrecognised platform"
#endif
#define wpCpathDirname(ALLOCATOR, PATH) _dirup(ALLOCATOR, PATH, 1)
#define wpCpathDirup(ALLOCATOR, PATH, COUNT) _dirup(ALLOCATOR, PATH, COUNT)
#define wapp_cpath_dirname(ALLOCATOR, PATH) dirup(ALLOCATOR, PATH, 1)
#define wapp_cpath_dirup(ALLOCATOR, PATH, COUNT) dirup(ALLOCATOR, PATH, COUNT)
typedef enum {
WP_CPATH_JOIN_RESULT_SUCCESS = 0,
WP_CPATH_JOIN_RESULT_INVALID_ARGS,
WP_CPATH_JOIN_RESULT_EMPTY_PARTS,
WP_CPATH_JOIN_RESULT_INSUFFICIENT_DST_CAPACITY,
} WpCpathJoinResult;
enum {
CPATH_JOIN_SUCCESS = 0,
CPATH_JOIN_INVALID_ARGS,
CPATH_JOIN_EMPTY_PARTS,
CPATH_JOIN_INSUFFICIENT_DST_CAPACITY,
};
WpCpathJoinResult wpCpathJoinPath(WpStr8 *dst, const WpStr8List *parts);
WpStr8 *_dirup(const WpAllocator *allocator, WpStr8RO *path, u64 levels);
u32 wapp_cpath_join_path(Str8 *dst, const Str8List *parts);
Str8 *dirup(const Allocator *allocator, Str8RO *path, u64 levels);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !CPATH_H
src/os/file/file.c
+78 -108
View File
@@ -6,134 +6,104 @@
#include "../../common/aliases/aliases.h"
#include "../../base/array/array.h"
#include "../../base/strings/str8/str8.h"
#include <stdio.h>
WpFile *wpFileOpen(const WpAllocator *allocator, WpStr8RO *filepath, WpFileAccessMode mode) {
wpDebugAssert(allocator != NULL && filepath != NULL, "`allocator` and `filepath` should not be NULL");
wpDebugAssert(filepath->size < WP_PATH_MAX, "`filepath` exceeds max path limit.");
return _fileOpen(allocator, filepath, mode);
File *wapp_file_open(Str8RO *filepath, FileAccessMode mode) {
wapp_persist const char *modes[FILE_ACCESS_MODE_COUNT] = {
[WAPP_FA_MODE_R] = "r",
[WAPP_FA_MODE_W] = "w",
[WAPP_FA_MODE_A] = "a",
[WAPP_FA_MODE_R_EX] = "r+",
[WAPP_FA_MODE_W_EX] = "w+",
[WAPP_FA_MODE_A_EX] = "a+",
[WAPP_FA_MODE_RB] = "rb",
[WAPP_FA_MODE_WB] = "wb",
[WAPP_FA_MODE_AB] = "ab",
[WAPP_FA_MODE_RB_EX] = "rb+",
[WAPP_FA_MODE_WB_EX] = "wb+",
[WAPP_FA_MODE_AB_EX] = "ab+",
[WAPP_FA_MODE_WX] = "wx",
[WAPP_FA_MODE_WX_EX] = "wx+",
[WAPP_FA_MODE_WBX] = "wbx",
[WAPP_FA_MODE_WBX_EX] = "wbx+",
};
wapp_persist c8 tmp[WAPP_PATH_MAX] = {0};
wapp_debug_assert(filepath->size < WAPP_PATH_MAX, "`filepath` exceeds max path limit.");
memset(tmp, 0, WAPP_PATH_MAX);
memcpy(tmp, filepath->buf, filepath->size);
return fopen((const char *)tmp, modes[mode]);
}
i64 wpFileGetCurrentPosition(WpFile *file) {
wpDebugAssert(file != NULL, "`file` should not be NULL.");
return _fileSeek(file, 0, WP_SEEK_CURRENT);
u64 wapp_file_get_current_position(File *file) {
wapp_debug_assert(file != NULL, "`file` should not be NULL.");
return (u64)ftell(file);
}
i64 wpFileSeek(WpFile *file, i64 offset, WpFileSeekOrigin origin) {
wpDebugAssert(file != NULL, "`file` should not be NULL.");
return _fileSeek(file, offset, origin);
i32 wapp_file_seek(File *file, u64 offset, FileSeekOrigin origin) {
wapp_debug_assert(file != NULL, "`file` should not be NULL.");
// TODO (Abdelrahman): Revisit conversion to long
return fseek(file, (long)offset, origin);
}
i64 wpFileGetLength(WpFile *file) {
wpDebugAssert(file != NULL, "`file` should not be NULL.");
u64 wapp_file_get_length(File *file) {
wapp_debug_assert(file != NULL, "`file` should not be NULL.");
i64 current = wpFileGetCurrentPosition(file);
u64 current = wapp_file_get_current_position(file);
_fileSeek(file, 0, WP_SEEK_END);
wapp_file_seek(file, 0, WAPP_SEEK_END);
i64 output = wpFileGetCurrentPosition(file);
u64 output = ftell(file);
// Restore position
_fileSeek(file, current, WP_SEEK_START);
// Restore position
wapp_file_seek(file, current, WAPP_SEEK_START);
return output;
return output;
}
u64 wpFileRead(void *dst_buf, WpFile *file, u64 byte_count) {
wpDebugAssert(dst_buf != NULL && file != NULL,
"`dst_buf` and `file` should not be NULL.");
u64 wapp_file_read(GenericArray *dst_buf, File *file, u64 item_count) {
wapp_debug_assert(dst_buf != NULL && file != NULL,
"`dst_buf` and `file` should not be NULL.");
i64 file_length = wpFileGetLength(file);
if (file_length < 0) {
return 0;
}
u64 file_length = wapp_file_get_length(file);
u64 item_size = dst_buf->item_size;
u64 dst_byte_capacity = dst_buf->capacity * item_size;
u64 req_byte_count = item_count * item_size;
u64 copy_byte_count = 0;
return _fileRead(dst_buf, byte_count, file, file_length);
if (req_byte_count <= file_length && req_byte_count <= dst_byte_capacity) {
copy_byte_count = req_byte_count;
} else {
copy_byte_count = file_length <= dst_byte_capacity ? file_length : dst_byte_capacity;
}
u64 count = fread(dst_buf->items, sizeof(u8), copy_byte_count, file);
if (ferror(file)) { return 0; }
dst_buf->count = count / item_size;
return dst_buf->count;
}
i64 wpFileWrite(const void *src_buf, WpFile *file, u64 byte_count) {
wpDebugAssert(src_buf != NULL && file != NULL,
"`src_buf` and `file` should not be NULL.");
return _fileWrite(src_buf, file, byte_count);
u64 wapp_file_write(const GenericArray *src_buf, File *file, u64 item_count) {
wapp_debug_assert(src_buf != NULL && file != NULL,
"`src_buf` and `file` should not be NULL.");
u64 item_size = src_buf->item_size;
u64 src_byte_count = src_buf->count * item_size;
u64 req_byte_count = item_count * item_size;
u64 to_copy = req_byte_count <= src_byte_count ? req_byte_count : src_byte_count;
return fwrite(src_buf->items, sizeof(u8), to_copy, file);
}
u64 wpFileReadStr8(WpStr8 *str, WpFile *file) {
wpDebugAssert(str != NULL, "`str` should not be NULL.");
return wpFileRead((void *)(str->buf), file, str->size);
i32 wapp_file_flush(File *file) {
wapp_debug_assert(file != NULL, "`file` should not be NULL.");
return fflush(file);
}
i64 wpFileWriteStr8(WpStr8RO *str, WpFile *file) {
wpDebugAssert(str != NULL, "`str` should not be NULL.");
return wpFileWrite((void *)(str->buf), file, str->size);
}
u64 wpFileReadArray(WpArray dst_buf, WpFile *file, u64 item_count) {
wpDebugAssert(dst_buf != NULL && file != NULL,
"`dst_buf` and `file` should not be NULL.");
i64 _file_length = wpFileGetLength(file);
if (_file_length < 0) {
return 0;
}
u64 file_length = (u64)_file_length;
u64 item_size = wpArrayItemSize(dst_buf);
u64 dst_byte_capacity = wpArrayCapacity(dst_buf) * item_size;
u64 req_byte_count = item_count * item_size;
u64 copy_byte_count = 0;
if (req_byte_count <= file_length && req_byte_count <= dst_byte_capacity) {
copy_byte_count = req_byte_count;
} else {
copy_byte_count = file_length <= dst_byte_capacity ? file_length : dst_byte_capacity;
}
u64 byte_count = _fileRead(dst_buf, copy_byte_count, file, file_length);
if (byte_count == 0) {
return 0;
}
wpArraySetCount(dst_buf, byte_count / item_size);
return wpArrayCount(dst_buf);
}
i64 wpFileWriteArray(const WpArray src_buf, WpFile *file, u64 item_count) {
wpDebugAssert(src_buf != NULL && file != NULL,
"`src_buf` and `file` should not be NULL.");
u64 item_size = wpArrayItemSize(src_buf);
u64 src_byte_count = wpArrayCount(src_buf) * item_size;
u64 req_byte_count = item_count * item_size;
u64 to_copy = req_byte_count <= src_byte_count ? req_byte_count : src_byte_count;
i64 bytes_written = _fileWrite(src_buf, file, to_copy);
if (bytes_written < 0) {
return 0;
}
return (u64)bytes_written / item_size;
}
i32 wpFileFlush(WpFile *file) {
wpDebugAssert(file != NULL, "`file` should not be NULL.");
return _fileFlush(file);
}
i32 wpFileClose(WpFile *file) {
wpDebugAssert(file != NULL, "`file` should not be NULL.");
return _fileClose(file);
}
i32 wpFileRename(WpStr8RO *old_filepath, WpStr8RO *new_filepath) {
wpDebugAssert(old_filepath != NULL && new_filepath != NULL,
"`old_filepath` and `new_filepath` should not be NULL");
wpDebugAssert(old_filepath->size < WP_PATH_MAX, "`old_filepath` exceeds max path limit.");
wpDebugAssert(new_filepath->size < WP_PATH_MAX, "`new_filepath` exceeds max path limit.");
return _fileRename(old_filepath, new_filepath);
}
i32 wpFileRemove(WpStr8RO *filepath) {
wpDebugAssert(filepath != NULL, "`filepath` should not be NULL");
wpDebugAssert(filepath->size < WP_PATH_MAX, "`filepath` exceeds max path limit.");
return _fileRemove(filepath);
i32 wapp_file_close(File *file) {
wapp_debug_assert(file != NULL, "`file` should not be NULL.");
return fclose(file);
}
src/os/file/file.h
+36 -57
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@@ -3,75 +3,54 @@
#ifndef FILE_H
#define FILE_H
#include "../../base/mem/allocator/mem_allocator.h"
#include "../../common/aliases/aliases.h"
#include "../../base/strings/str8/str8.h"
#include <stdio.h>
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef struct WpFile WpFile;
typedef FILE File;
typedef enum {
WP_ACCESS_READ, // Equivalent to r
WP_ACCESS_WRITE, // Equivalent to w
WP_ACCESS_APPEND, // Equivalent to a
WP_ACCESS_READ_EX, // Equivalent to r+
WP_ACCESS_WRITE_EX, // Equivalent to w+
WP_ACCESS_APPEND_EX, // Equivalent to a+
WP_ACCESS_WRITE_FAIL_ON_EXIST, // Equivalent to wx
WP_ACCESS_WRITE_FAIL_ON_EXIST_EX, // Equivalent to wx+
WAPP_FA_MODE_R, // Equivalent to r
WAPP_FA_MODE_W, // Equivalent to w
WAPP_FA_MODE_A, // Equivalent to a
WAPP_FA_MODE_R_EX, // Equivalent to r+
WAPP_FA_MODE_W_EX, // Equivalent to w+
WAPP_FA_MODE_A_EX, // Equivalent to a+
WAPP_FA_MODE_RB, // Equivalent to rb
WAPP_FA_MODE_WB, // Equivalent to wb
WAPP_FA_MODE_AB, // Equivalent to ab
WAPP_FA_MODE_RB_EX, // Equivalent to rb+
WAPP_FA_MODE_WB_EX, // Equivalent to wb+
WAPP_FA_MODE_AB_EX, // Equivalent to ab+
WAPP_FA_MODE_WX, // Equivalent to wx
WAPP_FA_MODE_WX_EX, // Equivalent to wx+
WAPP_FA_MODE_WBX, // Equivalent to wbx
WAPP_FA_MODE_WBX_EX, // Equivalent to wbx+
COUNT_FILE_ACCESS_MODE,
} WpFileAccessMode;
FILE_ACCESS_MODE_COUNT,
} FileAccessMode;
typedef enum {
WP_SEEK_START,
WP_SEEK_CURRENT,
WP_SEEK_END,
WAPP_SEEK_START = SEEK_SET,
WAPP_SEEK_CURRENT = SEEK_CUR,
WAPP_SEEK_END = SEEK_END,
} FileSeekOrigin;
COUNT_FILE_SEEK_ORIGIN,
} WpFileSeekOrigin;
File *wapp_file_open(Str8RO *filename, FileAccessMode mode);
u64 wapp_file_get_current_position(File *file);
i32 wapp_file_seek(File *file, u64 offset, FileSeekOrigin origin);
u64 wapp_file_get_length(File *file);
u64 wapp_file_read(GenericArray *dst_buf, File *file, u64 item_count);
u64 wapp_file_write(const GenericArray *src_buf, File *file, u64 item_count);
i32 wapp_file_flush(File *file);
i32 wapp_file_close(File *file);
// Return value should not be cached as it's not guaranteed to remain the same. Always call
// wpFileStdin to get the standard input stream
wp_extern WpFile *wpFileStdin(void);
// Return value should not be cached as it's not guaranteed to remain the same. Always call
// wpFileStdout to get the standard output stream
wp_extern WpFile *wpFileStdout(void);
// Return value should not be cached as it's not guaranteed to remain the same. Always call
// wpFileStderr to get the standard error stream
wp_extern WpFile *wpFileStderr(void);
WpFile *wpFileOpen(const WpAllocator *allocator, WpStr8RO *filepath, WpFileAccessMode mode);
i64 wpFileGetCurrentPosition(WpFile *file);
i64 wpFileSeek(WpFile *file, i64 offset, WpFileSeekOrigin origin);
i64 wpFileGetLength(WpFile *file);
u64 wpFileRead(void *dst_buf, WpFile *file, u64 byte_count);
i64 wpFileWrite(const void *src_buf, WpFile *file, u64 byte_count);
u64 wpFileReadStr8(WpStr8 *str, WpFile *file);
i64 wpFileWriteStr8(WpStr8RO *str, WpFile *file);
u64 wpFileReadArray(WpArray dst_buf, WpFile *file, u64 item_count);
i64 wpFileWriteArray(const WpArray src_buf, WpFile *file, u64 item_count);
i32 wpFileFlush(WpFile *file);
i32 wpFileClose(WpFile *file);
i32 wpFileRename(WpStr8RO *old_filepath, WpStr8RO *new_filepath);
i32 wpFileRemove(WpStr8RO *filepath);
wp_extern WpFile *_fileOpen(const WpAllocator *allocator, WpStr8RO *filepath, WpFileAccessMode mode);
wp_extern i64 _fileSeek(WpFile *file, i64 offset, WpFileSeekOrigin origin);
wp_extern u64 _fileRead(void *dst_buf, u64 byte_count, WpFile *file, u64 file_length);
wp_extern i64 _fileWrite(const void *src_buf, WpFile *file, u64 byte_count);
wp_extern i32 _fileFlush(WpFile *file);
wp_extern i32 _fileClose(WpFile *file);
wp_extern i32 _fileRename(WpStr8RO *old_filepath, WpStr8RO *new_filepath);
wp_extern i32 _fileRemove(WpStr8RO *filepath);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !FILE_H
src/os/file/posix/file_posix.c
-134
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@@ -1,134 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "file_posix.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_POSIX
#include "../file.h"
#include "../../cpath/cpath.h"
#include "../../../common/aliases/aliases.h"
#include "../../../base/array/array.h"
#include "../../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_APPLE
#define _FILE_OFFSET_BITS 64
#define lseek64 lseek
#endif // !WP_PLATFORM_APPLE
#define __USE_LARGEFILE64
#include <fcntl.h>
#include <unistd.h>
#include <sys/types.h>
wp_intern i32 file_flags[COUNT_FILE_ACCESS_MODE] = {
[WP_ACCESS_READ] = O_RDONLY,
[WP_ACCESS_WRITE] = O_WRONLY | O_CREAT,
[WP_ACCESS_APPEND] = O_WRONLY | O_APPEND | O_CREAT,
[WP_ACCESS_READ_EX] = O_RDWR,
[WP_ACCESS_WRITE_EX] = O_RDWR | O_CREAT,
[WP_ACCESS_APPEND_EX] = O_RDWR | O_APPEND | O_CREAT,
[WP_ACCESS_WRITE_FAIL_ON_EXIST] = O_WRONLY | O_CREAT | O_EXCL,
[WP_ACCESS_WRITE_FAIL_ON_EXIST_EX] = O_RDWR | O_CREAT | O_EXCL,
};
wp_intern mode_t file_modes[COUNT_FILE_ACCESS_MODE] = {
[WP_ACCESS_READ] = 0,
[WP_ACCESS_WRITE] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
[WP_ACCESS_APPEND] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
[WP_ACCESS_READ_EX] = 0,
[WP_ACCESS_WRITE_EX] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
[WP_ACCESS_APPEND_EX] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
[WP_ACCESS_WRITE_FAIL_ON_EXIST] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
[WP_ACCESS_WRITE_FAIL_ON_EXIST_EX] = S_IRUSR | S_IWUSR | S_IRGRP | S_IWGRP,
};
wp_intern i32 file_seek_origins[COUNT_FILE_SEEK_ORIGIN] = {
[WP_SEEK_START] = SEEK_SET,
[WP_SEEK_CURRENT] = SEEK_CUR,
[WP_SEEK_END] = SEEK_END,
};
WpFile *wpFileStdin(void) {
wp_persist WpFile _stdin = { .fd = STDIN_FILENO };
return &_stdin;
}
WpFile *wpFileStdout(void) {
wp_persist WpFile _stdout = { .fd = STDOUT_FILENO };
return &_stdout;
}
WpFile *wpFileStderr(void) {
wp_persist WpFile _stderr = { .fd = STDERR_FILENO };
return &_stderr;
}
WpFile *_fileOpen(const WpAllocator *allocator, WpStr8RO *filepath, WpFileAccessMode mode) {
wp_persist c8 tmp[WP_PATH_MAX] = {0};
memset(tmp, 0, WP_PATH_MAX);
memcpy(tmp, filepath->buf, filepath->size);
i32 fd = open((const char *)tmp, file_flags[mode], file_modes[mode]);
if (fd < 0) {
return NULL;
}
WpFile *output = wpMemAllocatorAlloc(allocator, sizeof(WpFile));
if (output) {
output->fd = fd;
}
return output;
}
i64 _fileSeek(WpFile *file, i64 offset, WpFileSeekOrigin origin) {
return lseek64(file->fd, offset, file_seek_origins[origin]);
}
u64 _fileRead(void *dst_buf, u64 byte_count, WpFile *file, u64 file_length) {
u64 copy_byte_count = file_length <= byte_count ? file_length : byte_count;
i64 count = read(file->fd, dst_buf, copy_byte_count);
if (count < 0) { return 0; }
return count;
}
i64 _fileWrite(const void *src_buf, WpFile *file, u64 byte_count) {
return write(file->fd, src_buf, byte_count);
}
i32 _fileFlush(WpFile *file) {
return fsync(file->fd);
}
i32 _fileClose(WpFile *file) {
return close(file->fd);
}
i32 _fileRename(WpStr8RO *old_filepath, WpStr8RO *new_filepath) {
wp_persist c8 old_tmp[WP_PATH_MAX] = {0};
wp_persist c8 new_tmp[WP_PATH_MAX] = {0};
memset(old_tmp, 0, WP_PATH_MAX);
memcpy(old_tmp, old_filepath->buf, old_filepath->size);
memset(new_tmp, 0, WP_PATH_MAX);
memcpy(new_tmp, new_filepath->buf, new_filepath->size);
i32 link_result = link((const char *)old_tmp, (const char *)new_tmp);
if (link_result == 0) {
_fileRemove(old_filepath);
}
return link_result;
}
i32 _fileRemove(WpStr8RO *filepath) {
wp_persist c8 tmp[WP_PATH_MAX] = {0};
memset(tmp, 0, WP_PATH_MAX);
memcpy(tmp, filepath->buf, filepath->size);
return unlink((const char *)tmp);
}
#endif // !WP_PLATFORM_POSIX
src/os/file/posix/file_posix.h
-27
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@@ -1,27 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef FILE_POSIX_H
#define FILE_POSIX_H
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#ifdef WP_PLATFORM_POSIX
#define WP_END_OF_LINE "\n"
struct WpFile {
i32 fd;
};
#endif // !WP_PLATFORM_POSIX
#ifdef WP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !FILE_POSIX_H
src/os/file/win/file_win.c
-177
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@@ -1,177 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "file_win.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_WINDOWS
#include "../file.h"
#include "../../cpath/cpath.h"
#include "../../../common/aliases/aliases.h"
#include "../../../base/array/array.h"
#include "../../../base/strings/str8/str8.h"
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#include <fileapi.h>
#include <intsafe.h>
wp_intern DWORD file_accesses[COUNT_FILE_ACCESS_MODE] = {
[WP_ACCESS_READ] = FILE_READ_DATA,
[WP_ACCESS_WRITE] = FILE_WRITE_DATA,
[WP_ACCESS_APPEND] = FILE_APPEND_DATA,
[WP_ACCESS_READ_EX] = FILE_READ_DATA | FILE_WRITE_DATA,
[WP_ACCESS_WRITE_EX] = FILE_READ_DATA | FILE_WRITE_DATA,
[WP_ACCESS_APPEND_EX] = FILE_READ_DATA | FILE_APPEND_DATA,
[WP_ACCESS_WRITE_FAIL_ON_EXIST] = FILE_WRITE_DATA,
[WP_ACCESS_WRITE_FAIL_ON_EXIST_EX] = FILE_READ_DATA | FILE_WRITE_DATA,
};
wp_intern DWORD creation_dispositions[COUNT_FILE_ACCESS_MODE] = {
[WP_ACCESS_READ] = OPEN_EXISTING,
[WP_ACCESS_WRITE] = CREATE_ALWAYS,
[WP_ACCESS_APPEND] = OPEN_ALWAYS,
[WP_ACCESS_READ_EX] = OPEN_EXISTING,
[WP_ACCESS_WRITE_EX] = CREATE_ALWAYS,
[WP_ACCESS_APPEND_EX] = OPEN_ALWAYS,
[WP_ACCESS_WRITE_FAIL_ON_EXIST] = CREATE_NEW,
[WP_ACCESS_WRITE_FAIL_ON_EXIST_EX] = CREATE_NEW,
};
wp_intern DWORD sharing_modes[COUNT_FILE_ACCESS_MODE] = {
[WP_ACCESS_READ] = FILE_SHARE_READ | FILE_SHARE_WRITE,
[WP_ACCESS_WRITE] = FILE_SHARE_READ,
[WP_ACCESS_APPEND] = FILE_SHARE_READ,
[WP_ACCESS_READ_EX] = FILE_SHARE_READ | FILE_SHARE_WRITE,
[WP_ACCESS_WRITE_EX] = FILE_SHARE_READ,
[WP_ACCESS_APPEND_EX] = FILE_SHARE_READ,
[WP_ACCESS_WRITE_FAIL_ON_EXIST] = FILE_SHARE_READ,
[WP_ACCESS_WRITE_FAIL_ON_EXIST_EX] = FILE_SHARE_READ,
};
wp_intern DWORD file_seek_origins[COUNT_FILE_SEEK_ORIGIN] = {
[WP_SEEK_START] = FILE_BEGIN,
[WP_SEEK_CURRENT] = FILE_CURRENT,
[WP_SEEK_END] = FILE_END,
};
WpFile *wpFileStdin(void) {
wp_persist WpFile _stdin = { .fh = INVALID_HANDLE_VALUE };
_stdin.fh = GetStdHandle(STD_INPUT_HANDLE);
return &_stdin;
}
WpFile *wpFileStdout(void) {
wp_persist WpFile _stdout = { .fh = INVALID_HANDLE_VALUE };
_stdout.fh = GetStdHandle(STD_OUTPUT_HANDLE);
return &_stdout;
}
WpFile *wpFileStderr(void) {
wp_persist WpFile _stderr = { .fh = INVALID_HANDLE_VALUE };
_stderr.fh = GetStdHandle(STD_ERROR_HANDLE);
return &_stderr;
}
WpFile *_fileOpen(const WpAllocator *allocator, WpStr8RO *filepath, WpFileAccessMode mode) {
wp_persist c8 tmp[WP_PATH_MAX] = {0};
memset(tmp, 0, WP_PATH_MAX);
memcpy(tmp, filepath->buf, filepath->size);
HANDLE fh = CreateFileA((LPCSTR)tmp,
file_accesses[mode],
sharing_modes[mode],
NULL,
creation_dispositions[mode],
FILE_ATTRIBUTE_NORMAL,
NULL);
if (fh == INVALID_HANDLE_VALUE) {
return NULL;
}
WpFile *output = wpMemAllocatorAlloc(allocator, sizeof(WpFile));
if (output) {
output->fh = fh;
}
return output;
}
i64 _fileSeek(WpFile *file, i64 offset, WpFileSeekOrigin origin) {
LARGE_INTEGER distance = {0};
LARGE_INTEGER output = {0};
distance.QuadPart = offset;
if (!SetFilePointerEx(file->fh, distance, &output, file_seek_origins[origin])) {
return -1;
}
return output.QuadPart;
}
u64 _fileRead(void* dst_buf, u64 byte_count, WpFile* file, u64 file_length) {
u64 copy_byte_count = file_length <= byte_count ? file_length : byte_count;
wpDebugAssert(copy_byte_count <= DWORD_MAX, "Attempting to read large number of bytes at once");
DWORD read_count = 0;
if (!ReadFile(file->fh, dst_buf, (DWORD)copy_byte_count, &read_count, NULL)) {
return 0;
}
return (u64)read_count;
}
i64 _fileWrite(const void *src_buf, WpFile *file, u64 byte_count) {
wpDebugAssert(byte_count <= DWORD_MAX, "Attempting to write large number of bytes at once");
DWORD write_count = 0;
if (!WriteFile(file->fh, src_buf, (DWORD)byte_count, &write_count, NULL)) {
return 0;
}
return (i64)write_count;
}
i32 _fileFlush(WpFile *file) {
if (!FlushFileBuffers(file->fh)) {
return -1;
}
return 0;
}
i32 _fileClose(WpFile *file) {
if (!CloseHandle(file->fh)) {
return -1;
}
return 0;
}
i32 _fileRename(WpStr8RO *old_filepath, WpStr8RO *new_filepath) {
wp_persist c8 old_tmp[WP_PATH_MAX] = {0};
wp_persist c8 new_tmp[WP_PATH_MAX] = {0};
memset(old_tmp, 0, WP_PATH_MAX);
memcpy(old_tmp, old_filepath->buf, old_filepath->size);
memset(new_tmp, 0, WP_PATH_MAX);
memcpy(new_tmp, new_filepath->buf, new_filepath->size);
if (!MoveFile((LPCSTR)old_tmp, (LPCSTR)new_tmp)) {
return -1;
}
return 0;
}
i32 _fileRemove(WpStr8RO *filepath) {
wp_persist c8 tmp[WP_PATH_MAX] = {0};
memset(tmp, 0, WP_PATH_MAX);
memcpy(tmp, filepath->buf, filepath->size);
if (!DeleteFile((LPCSTR)tmp)) {
return -1;
}
return 0;
}
#endif // !WP_PLATFORM_WINDOWS
src/os/file/win/file_win.h
-31
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@@ -1,31 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef FILE_WIN_H
#define FILE_WIN_H
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#ifdef WP_PLATFORM_WINDOWS
#define WP_END_OF_LINE "\r\n"
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#include <fileapi.h>
struct WpFile {
HANDLE fh;
};
#endif // !WP_PLATFORM_WINDOWS
#ifdef WP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !FILE_WIN_H
src/os/mem/mem_os.c
+10 -10
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@@ -7,24 +7,24 @@
#include <assert.h>
#include <string.h>
#if defined(WP_PLATFORM_WINDOWS)
#if defined(WAPP_PLATFORM_WINDOWS)
#include "win/mem_os_win.h"
#elif defined(WP_PLATFORM_POSIX)
#elif defined(WAPP_PLATFORM_POSIX)
#include "posix/mem_os_posix.h"
#else
#error "Unrecognised platform"
#endif
void *wpOsMemAlloc(void *addr, u64 size, WpMemAccess access, WpMemAllocFlags flags, WpMemInitType type) {
void *output = _osMemAllocate(addr, size, access, flags, type);
void *wapp_mem_util_alloc(void *addr, u64 size, MemAccess access, MemAllocFlags flags, MemInitType type) {
void *output = mem_util_allocate(addr, size, access, flags, type);
if (type == WP_MEM_INIT_INITIALISED) {
memset(output, 0, size);
}
if (type == WAPP_MEM_INIT_INITIALISED) {
memset(output, 0, size);
}
return output;
return output;
}
void wpOsMemFree(void *ptr, u64 size) {
_osMemFree(ptr, size);
void wapp_mem_util_free(void *ptr, u64 size) {
mem_util_free(ptr, size);
}
src/os/mem/mem_os.h
+10 -10
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@@ -8,26 +8,26 @@
#include "mem_os_ops.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#if defined(WP_PLATFORM_WINDOWS)
#if defined(WAPP_PLATFORM_WINDOWS)
#include "win/mem_os_win.h"
#elif defined(WP_PLATFORM_POSIX)
#elif defined(WAPP_PLATFORM_POSIX)
#include "posix/mem_os_posix.h"
#else
#error "Unrecognised platform"
#endif
void *wpOsMemAlloc(void *addr, u64 size, WpMemAccess access, WpMemAllocFlags flags, WpMemInitType type);
void wpOsMemFree(void *ptr, u64 size);
void *wapp_mem_util_alloc(void *addr, u64 size, MemAccess access, MemAllocFlags flags, MemInitType type);
void wapp_mem_util_free(void *ptr, u64 size);
wp_extern void *_osMemAllocate(void *addr, u64 size, WpMemAccess access, WpMemAllocFlags flags, WpMemInitType type);
wp_extern void _osMemFree(void *ptr, u64 size);
wapp_extern void *mem_util_allocate(void *addr, u64 size, MemAccess access, MemAllocFlags flags, MemInitType type);
wapp_extern void mem_util_free(void *ptr, u64 size);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_OS_H
src/os/mem/mem_os_ops.h
+16 -16
View File
@@ -5,26 +5,26 @@
#include "../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef enum {
WP_MEM_ACCESS_NONE,
WP_MEM_ACCESS_READ_ONLY,
WP_MEM_ACCESS_EXEC_ONLY,
WP_MEM_ACCESS_READ_WRITE,
WP_MEM_ACCESS_READ_EXEC,
WP_MEM_ACCESS_READ_WRITE_EXEC,
} WpMemAccess;
typedef enum mem_access {
WAPP_MEM_ACCESS_NONE,
WAPP_MEM_ACCESS_READ_ONLY,
WAPP_MEM_ACCESS_EXEC_ONLY,
WAPP_MEM_ACCESS_READ_WRITE,
WAPP_MEM_ACCESS_READ_EXEC,
WAPP_MEM_ACCESS_READ_WRITE_EXEC,
} MemAccess;
typedef enum {
WP_MEM_INIT_UNINITIALISED,
WP_MEM_INIT_INITIALISED,
} WpMemInitType;
typedef enum mem_init_type {
WAPP_MEM_INIT_UNINITIALISED,
WAPP_MEM_INIT_INITIALISED,
} MemInitType;
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_OS_OPS_H
src/os/mem/posix/mem_os_posix.c
+17 -17
View File
@@ -3,34 +3,34 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_POSIX
#ifdef WAPP_PLATFORM_POSIX
#include "mem_os_posix.h"
#include "../mem_os_ops.h"
#include <sys/mman.h>
wp_intern const i32 access_types[] = {
[WP_MEM_ACCESS_NONE] = PROT_NONE,
[WP_MEM_ACCESS_READ_ONLY] = PROT_READ,
[WP_MEM_ACCESS_EXEC_ONLY] = PROT_EXEC,
[WP_MEM_ACCESS_READ_WRITE] = PROT_READ | PROT_WRITE,
[WP_MEM_ACCESS_READ_EXEC] = PROT_READ | PROT_EXEC,
[WP_MEM_ACCESS_READ_WRITE_EXEC] = PROT_READ | PROT_WRITE | PROT_EXEC,
wapp_intern const i32 access_types[] = {
[WAPP_MEM_ACCESS_NONE] = PROT_NONE,
[WAPP_MEM_ACCESS_READ_ONLY] = PROT_READ,
[WAPP_MEM_ACCESS_EXEC_ONLY] = PROT_EXEC,
[WAPP_MEM_ACCESS_READ_WRITE] = PROT_READ | PROT_WRITE,
[WAPP_MEM_ACCESS_READ_EXEC] = PROT_READ | PROT_EXEC,
[WAPP_MEM_ACCESS_READ_WRITE_EXEC] = PROT_READ | PROT_WRITE | PROT_EXEC,
};
void *_osMemAllocate(void *addr, u64 size, WpMemAccess access, WpMemAllocFlags flags, WpMemInitType type) {
(void)type;
i32 alloc_flags = flags | MAP_ANON | MAP_PRIVATE;
void *mem_util_allocate(void *addr, u64 size, MemAccess access, MemAllocFlags flags, MemInitType type) {
(void)type;
i32 alloc_flags = flags | MAP_ANON | MAP_PRIVATE;
#if defined(WP_PLATFORM_LINUX) || defined(WP_PLATFORM_GNU) || defined(WP_PLATFORM_NET_BSD)
alloc_flags |= MAP_NORESERVE;
#if defined(WAPP_PLATFORM_LINUX) || defined(WAPP_PLATFORM_GNU) || defined(WAPP_PLATFORM_NET_BSD)
alloc_flags |= MAP_NORESERVE;
#endif
return mmap(addr, size, access_types[access], alloc_flags, -1, 0);
return mmap(addr, size, access_types[access], alloc_flags, -1, 0);
}
void _osMemFree(void *ptr, u64 size) {
munmap(ptr, size);
void mem_util_free(void *ptr, u64 size) {
munmap(ptr, size);
}
#endif // !WP_PLATFORM_POSIX
#endif // !WAPP_PLATFORM_POSIX
src/os/mem/posix/mem_os_posix.h
+17 -17
View File
@@ -5,31 +5,31 @@
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#ifdef WP_PLATFORM_POSIX
#ifdef WAPP_PLATFORM_POSIX
#include <sys/mman.h>
typedef enum {
#if defined(WP_PLATFORM_LINUX) || defined(WP_PLATFORM_GNU)
WP_MEM_ALLOC_RESERVE = 0,
WP_MEM_ALLOC_COMMIT = MAP_POPULATE,
#elif defined(WP_PLATFORM_FREE_BSD)
WP_MEM_ALLOC_RESERVE = 0,
WP_MEM_ALLOC_COMMIT = MAP_PREFAULT_READ,
#elif defined(WP_PLATFORM_BSD) || defined(WP_PLATFORM_UNIX) || defined(WP_PLATFORM_APPLE)
WP_MEM_ALLOC_RESERVE = 0,
WP_MEM_ALLOC_COMMIT = 0,
typedef enum mem_alloc_flags {
#if defined(WAPP_PLATFORM_LINUX) || defined(WAPP_PLATFORM_GNU)
WAPP_MEM_ALLOC_RESERVE = 0,
WAPP_MEM_ALLOC_COMMIT = MAP_POPULATE,
#elif defined(WAPP_PLATFORM_FREE_BSD)
WAPP_MEM_ALLOC_RESERVE = 0,
WAPP_MEM_ALLOC_COMMIT = MAP_PREFAULT_READ,
#elif defined(WAPP_PLATFORM_BSD) || defined(WAPP_PLATFORM_UNIX) || defined(WAPP_PLATFORM_APPLE)
WAPP_MEM_ALLOC_RESERVE = 0,
WAPP_MEM_ALLOC_COMMIT = 0,
#endif
} WpMemAllocFlags;
} MemAllocFlags;
#endif // !WP_PLATFORM_POSIX
#endif // !WAPP_PLATFORM_POSIX
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_OS_POSIX_H
src/os/mem/win/mem_os_win.c
+17 -17
View File
@@ -3,7 +3,7 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_WINDOWS
#ifdef WAPP_PLATFORM_WINDOWS
#include "mem_os_win.h"
#include "../mem_os_ops.h"
@@ -12,26 +12,26 @@
#include <Windows.h>
#include <memoryapi.h>
wp_intern const i32 access_types[] = {
[WP_MEM_ACCESS_NONE] = PAGE_NOACCESS,
[WP_MEM_ACCESS_READ_ONLY] = PAGE_READONLY,
[WP_MEM_ACCESS_EXEC_ONLY] = PAGE_EXECUTE,
[WP_MEM_ACCESS_READ_WRITE] = PAGE_READWRITE,
[WP_MEM_ACCESS_READ_EXEC] = PAGE_EXECUTE_READ,
[WP_MEM_ACCESS_READ_WRITE_EXEC] = PAGE_EXECUTE_READWRITE,
wapp_intern const i32 access_types[] = {
[WAPP_MEM_ACCESS_NONE] = PAGE_NOACCESS,
[WAPP_MEM_ACCESS_READ_ONLY] = PAGE_READONLY,
[WAPP_MEM_ACCESS_EXEC_ONLY] = PAGE_EXECUTE,
[WAPP_MEM_ACCESS_READ_WRITE] = PAGE_READWRITE,
[WAPP_MEM_ACCESS_READ_EXEC] = PAGE_EXECUTE_READ,
[WAPP_MEM_ACCESS_READ_WRITE_EXEC] = PAGE_EXECUTE_READWRITE,
};
void *_osMemAllocate(void *addr, u64 size, WpMemAccess access, WpMemAllocFlags flags, WpMemInitType type) {
// Ensure memory is committed if it's meant to be initialised
if (type == WP_MEM_INIT_INITIALISED) {
flags |= WP_MEM_ALLOC_COMMIT;
}
void *mem_util_allocate(void *addr, u64 size, MemAccess access, MemAllocFlags flags, MemInitType type) {
// Ensure memory is committed if it's meant to be initialised
if (type == WAPP_MEM_INIT_INITIALISED) {
flags |= WAPP_MEM_ALLOC_COMMIT;
}
return VirtualAlloc(addr, (SIZE_T)size, flags, access_types[access]);
return VirtualAlloc(addr, (SIZE_T)size, flags, access_types[access]);
}
void _osMemFree(void *ptr, u64 size) {
VirtualFree(ptr, size, MEM_RELEASE);
void mem_util_free(void *ptr, u64 size) {
VirtualFree(ptr, size, MEM_RELEASE);
}
#endif // !WP_PLATFORM_WINDOWS
#endif // !WAPP_PLATFORM_WINDOWS
src/os/mem/win/mem_os_win.h
+10 -10
View File
@@ -5,25 +5,25 @@
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#ifdef WP_PLATFORM_WINDOWS
#ifdef WAPP_PLATFORM_WINDOWS
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
#include <memoryapi.h>
typedef enum {
WP_MEM_ALLOC_RESERVE = MEM_RESERVE,
WP_MEM_ALLOC_COMMIT = MEM_COMMIT,
} WpMemAllocFlags;
typedef enum mem_alloc_flags {
WAPP_MEM_ALLOC_RESERVE = MEM_RESERVE,
WAPP_MEM_ALLOC_COMMIT = MEM_COMMIT,
} MemAllocFlags;
#endif // !WP_PLATFORM_WINDOWS
#endif // !WAPP_PLATFORM_WINDOWS
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !MEM_OS_WIN_H
src/os/shell/commander/commander.c
+60 -60
View File
@@ -17,85 +17,85 @@
#define CMD_BUF_LEN 8192
#define OUT_BUF_LEN 4096
wp_intern WpCmdResult executeCommand(WpStr8RO *cmd, WpCmdOutHandling out_handling, WpStr8 *out_buf);
wp_intern WpCmdError getCommandOutput(FILE *fp, WpCmdOutHandling out_handling, WpStr8 *out_buf);
wapp_intern inline CMDResult execute_command(Str8RO *cmd, CMDOutHandling out_handling, Str8 *out_buf);
wapp_intern inline CMDError get_command_output(FILE *fp, CMDOutHandling out_handling, Str8 *out_buf);
WpCmdResult wpShellCommanderExecute(WpCmdOutHandling out_handling, WpStr8 *out_buf, const WpStr8List *cmd) {
if (!cmd) {
return wpCmdNoExit(WP_SHELL_ERR_INVALID_ARGS);
}
CMDResult wapp_shell_commander_execute(CMDOutHandling out_handling, Str8 *out_buf, const Str8List *cmd) {
if (!cmd) {
return CMD_NO_EXIT(SHELL_ERR_INVALID_ARGS);
}
WpAllocator arena = wpMemArenaAllocatorInit(KiB(500));
Allocator arena = wapp_mem_arena_allocator_init(KB(500));
WpStr8 *cmd_str = wpStr8Join(&arena, cmd, &wpStr8LitRo(" "));
if (!cmd_str) {
wpMemArenaAllocatorDestroy(&arena);
return wpCmdNoExit(WP_SHELL_ERR_ALLOCATION_FAIL);
}
Str8 *cmd_str = wapp_str8_join(&arena, cmd, &wapp_str8_lit_ro(" "));
if (!cmd_str) {
wapp_mem_arena_allocator_destroy(&arena);
return CMD_NO_EXIT(SHELL_ERR_ALLOCATION_FAIL);
}
// Redirect output
cmd_str = wpStr8AllocConcat(&arena, cmd_str, &wpStr8LitRo(" 2>&1"));
// Redirect output
cmd_str = wapp_str8_alloc_concat(&arena, cmd_str, &wapp_str8_lit_ro(" 2>&1"));
WpCmdResult output = executeCommand(cmd_str, out_handling, out_buf);
CMDResult output = execute_command(cmd_str, out_handling, out_buf);
wpMemArenaAllocatorDestroy(&arena);
wapp_mem_arena_allocator_destroy(&arena);
return output;
return output;
}
wp_intern WpCmdResult executeCommand(WpStr8RO *cmd, WpCmdOutHandling out_handling, WpStr8 *out_buf) {
char cmd_buf[CMD_BUF_LEN] = {0};
wpStr8CopyToCstr(cmd_buf, cmd, CMD_BUF_LEN);
wapp_intern inline CMDResult execute_command(Str8RO *cmd, CMDOutHandling out_handling, Str8 *out_buf) {
char cmd_buf[CMD_BUF_LEN] = {0};
wapp_str8_copy_to_cstr(cmd_buf, cmd, CMD_BUF_LEN);
FILE *fp = wpShellUtilsPopen(cmd_buf, "r");
if (!fp) {
return wpCmdNoExit(WP_SHELL_ERR_PROC_START_FAIL);
}
FILE *fp = wapp_shell_utils_popen(cmd_buf, "r");
if (!fp) {
return CMD_NO_EXIT(SHELL_ERR_PROC_START_FAIL);
}
WpCmdResult output;
CMDResult output;
WpCmdError err = getCommandOutput(fp, out_handling, out_buf);
if (err > WP_SHELL_ERR_NO_ERROR) {
output = wpCmdNoExit(err);
goto executeCommand_CLOSE;
}
CMDError err = get_command_output(fp, out_handling, out_buf);
if (err > SHELL_ERR_NO_ERROR) {
output = CMD_NO_EXIT(err);
goto EXECUTE_COMMAND_CLOSE;
}
i32 st = EXIT_SUCCESS;
err = _getOutputStatus(fp, &st);
if (err > WP_SHELL_ERR_NO_ERROR) {
output = wpCmdNoExit(err);
goto executeCommand_CLOSE;
}
i32 st = EXIT_SUCCESS;
err = get_output_status(fp, &st);
if (err > SHELL_ERR_NO_ERROR) {
output = CMD_NO_EXIT(err);
goto EXECUTE_COMMAND_CLOSE;
}
// Process is already closed in _getOutputStatus
fp = NULL;
// Process is already closed in get_output_status
fp = NULL;
output = (WpCmdResult){
.exited = true,
.exit_code = st,
.error = WP_SHELL_ERR_NO_ERROR,
};
output = (CMDResult){
.exited = true,
.exit_code = st,
.error = SHELL_ERR_NO_ERROR,
};
executeCommand_CLOSE:
if (fp) {
wpShellUtilsPclose(fp);
}
return output;
EXECUTE_COMMAND_CLOSE:
if (fp) {
wapp_shell_utils_pclose(fp);
}
return output;
}
wp_intern WpCmdError getCommandOutput(FILE *fp, WpCmdOutHandling out_handling, WpStr8 *out_buf) {
WpStr8 out = wpStr8Buf(OUT_BUF_LEN);
wapp_intern inline CMDError get_command_output(FILE *fp, CMDOutHandling out_handling, Str8 *out_buf) {
Str8 out = wapp_str8_buf(OUT_BUF_LEN);
out.size = fread((void *)out.buf, sizeof(c8), out.capacity, fp);
if (out_handling == WP_SHELL_OUTPUT_CAPTURE && out_buf != NULL) {
if (out.size >= out_buf->capacity) {
return WP_SHELL_ERR_OUT_BUF_FULL;
}
out.size = fread((void *)out.buf, sizeof(u8), out.capacity, fp);
if (out_handling == SHELL_OUTPUT_CAPTURE && out_buf != NULL) {
if (out.size >= out_buf->capacity) {
return SHELL_ERR_OUT_BUF_FULL;
}
wpStr8ConcatCapped(out_buf, &out);
} else if (out_handling == WP_SHELL_OUTPUT_PRINT) {
printf(WP_STR8_SPEC, wpStr8Varg(out));
}
wapp_str8_concat_capped(out_buf, &out);
} else if (out_handling == SHELL_OUTPUT_PRINT) {
printf(WAPP_STR8_SPEC, wapp_str8_varg(out));
}
return WP_SHELL_ERR_NO_ERROR;
return SHELL_ERR_NO_ERROR;
}
src/os/shell/commander/commander.h
+7 -9
View File
@@ -10,20 +10,18 @@
#include <stdio.h>
#include <stdlib.h>
// TODO (Abdelrahman): This module needs rethinking
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define wpCmdNoExit(ERR) ((WpCmdResult){.exited = false, .exit_code = EXIT_FAILURE, .error = ERR})
#define CMD_NO_EXIT(ERR) ((CMDResult){.exited = false, .exit_code = EXIT_FAILURE, .error = ERR})
WpCmdResult wpShellCommanderExecute(WpCmdOutHandling out_handling, WpStr8 *out_buf, const WpStr8List *cmd);
CMDResult wapp_shell_commander_execute(CMDOutHandling out_handling, Str8 *out_buf, const Str8List *cmd);
wp_extern WpCmdError _getOutputStatus(FILE *fp, i32 *status_out);
wapp_extern CMDError get_output_status(FILE *fp, i32 *status_out);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !COMMANDER_H
src/os/shell/commander/commander_output.h
+24 -22
View File
@@ -5,38 +5,40 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#include "../../../common/misc/misc_utils.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef enum {
WP_SHELL_OUTPUT_DISCARD,
WP_SHELL_OUTPUT_PRINT,
WP_SHELL_OUTPUT_CAPTURE,
} WpCmdOutHandling;
SHELL_OUTPUT_DISCARD,
SHELL_OUTPUT_PRINT,
SHELL_OUTPUT_CAPTURE,
} CMDOutHandling;
typedef enum {
WP_SHELL_ERR_NO_ERROR,
WP_SHELL_ERR_INVALID_ARGS,
WP_SHELL_ERR_ALLOCATION_FAIL,
WP_SHELL_ERR_PROC_START_FAIL,
WP_SHELL_ERR_OUT_BUF_FULL,
WP_SHELL_ERR_PROC_EXIT_FAIL,
} WpCmdError;
SHELL_ERR_NO_ERROR,
SHELL_ERR_INVALID_ARGS,
SHELL_ERR_ALLOCATION_FAIL,
SHELL_ERR_PROC_START_FAIL,
SHELL_ERR_OUT_BUF_FULL,
SHELL_ERR_PROC_EXIT_FAIL,
} CMDError;
typedef struct WpCmdResult WpCmdResult;
struct WpCmdResult {
i32 exit_code;
WpCmdError error;
b8 exited;
typedef struct commander_result CMDResult;
struct commander_result {
i32 exit_code;
CMDError error;
b8 exited;
wpMiscUtilsReservePadding(sizeof(b8) + sizeof(i32) + sizeof(WpCmdError));
#ifdef WAPP_PLATFORM_WINDOWS
#include "../../../../common/misc/misc_utils.h"
wapp_misc_utils_padding_size(sizeof(b8) + sizeof(i32) + sizeof(CMDError));
#endif // !WAPP_PLATFORM_WINDOWS
};
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !COMMANDER_OUTPUT_H
src/os/shell/commander/posix/commander_posix.c
+9 -9
View File
@@ -3,23 +3,23 @@
#include "../../../../common/aliases/aliases.h"
#include "../../../../common/platform/platform.h"
#ifdef WP_PLATFORM_POSIX
#ifdef WAPP_PLATFORM_POSIX
#include "../commander_output.h"
#include "../../utils/shell_utils.h"
#include <stdio.h>
#include <stdlib.h>
WpCmdError _getOutputStatus(FILE *fp, i32 *status_out) {
*status_out = wpShellUtilsPclose(fp);
CMDError get_output_status(FILE *fp, i32 *status_out) {
*status_out = wapp_shell_utils_pclose(fp);
if (!WIFEXITED(*status_out)) {
return WP_SHELL_ERR_PROC_EXIT_FAIL;
}
if (!WIFEXITED(*status_out)) {
return SHELL_ERR_PROC_EXIT_FAIL;
}
*status_out = WEXITSTATUS(*status_out);
*status_out = WEXITSTATUS(*status_out);
return WP_SHELL_ERR_NO_ERROR;
return SHELL_ERR_NO_ERROR;
}
#endif // !WP_PLATFORM_POSIX
#endif // !WAPP_PLATFORM_POSIX
src/os/shell/commander/win/commander_win.c
+10 -10
View File
@@ -3,22 +3,22 @@
#include "../../../../common/aliases/aliases.h"
#include "../../../../common/platform/platform.h"
#ifdef WP_PLATFORM_WINDOWS
#ifdef WAPP_PLATFORM_WINDOWS
#include "../commander_output.h"
#include "../../utils/shell_utils.h"
#include <stdio.h>
WpCmdError _getOutputStatus(FILE *fp, i32 *status_out) {
if (!feof(fp)) {
// Ensure process is closed on failure
wpShellUtilsPclose(fp);
return WP_SHELL_ERR_PROC_EXIT_FAIL;
}
CMDError get_output_status(FILE *fp, i32 *status_out) {
if (!feof(fp)) {
// Ensure process is closed on failure
wapp_shell_utils_pclose(fp);
return SHELL_ERR_PROC_EXIT_FAIL;
}
*status_out = wpShellUtilsPclose(fp);
*status_out = wapp_shell_utils_pclose(fp);
return WP_SHELL_ERR_NO_ERROR;
return SHELL_ERR_NO_ERROR;
}
#endif // !WP_PLATFORM_WINDOWS
#endif // !WAPP_PLATFORM_WINDOWS
src/os/shell/termcolour/posix/termcolour_posix.c
+22 -22
View File
@@ -4,33 +4,33 @@
#include "../../../../common/platform/platform.h"
#include "../../../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_POSIX
#ifdef WAPP_PLATFORM_POSIX
#include "../terminal_colours.h"
#include <stdio.h>
wp_intern WpStr8RO colours[COUNT_TERM_COLOUR] = {
[WP_TERM_COLOUR_FG_BLACK] = wpStr8LitRoInitialiserList("\033[30m"),
[WP_TERM_COLOUR_FG_RED] = wpStr8LitRoInitialiserList("\033[31m"),
[WP_TERM_COLOUR_FG_GREEN] = wpStr8LitRoInitialiserList("\033[32m"),
[WP_TERM_COLOUR_FG_BLUE] = wpStr8LitRoInitialiserList("\033[34m"),
[WP_TERM_COLOUR_FG_CYAN] = wpStr8LitRoInitialiserList("\033[36m"),
[WP_TERM_COLOUR_FG_MAGENTA] = wpStr8LitRoInitialiserList("\033[35m"),
[WP_TERM_COLOUR_FG_YELLOW] = wpStr8LitRoInitialiserList("\033[33m"),
[WP_TERM_COLOUR_FG_WHITE] = wpStr8LitRoInitialiserList("\033[37m"),
[WP_TERM_COLOUR_FG_BR_BLACK] = wpStr8LitRoInitialiserList("\033[90m"),
[WP_TERM_COLOUR_FG_BR_RED] = wpStr8LitRoInitialiserList("\033[91m"),
[WP_TERM_COLOUR_FG_BR_GREEN] = wpStr8LitRoInitialiserList("\033[92m"),
[WP_TERM_COLOUR_FG_BR_BLUE] = wpStr8LitRoInitialiserList("\033[94m"),
[WP_TERM_COLOUR_FG_BR_CYAN] = wpStr8LitRoInitialiserList("\033[96m"),
[WP_TERM_COLOUR_FG_BR_MAGENTA] = wpStr8LitRoInitialiserList("\033[95m"),
[WP_TERM_COLOUR_FG_BR_YELLOW] = wpStr8LitRoInitialiserList("\033[93m"),
[WP_TERM_COLOUR_FG_BR_WHITE] = wpStr8LitRoInitialiserList("\033[97m"),
[WP_TERM_COLOUR_CLEAR] = wpStr8LitRoInitialiserList("\033[0m"),
wapp_intern Str8RO colours[COUNT_TERM_COLOUR] = {
[WAPP_TERM_COLOUR_FG_BLACK] = wapp_str8_lit_ro_initialiser_list("\033[30m"),
[WAPP_TERM_COLOUR_FG_RED] = wapp_str8_lit_ro_initialiser_list("\033[31m"),
[WAPP_TERM_COLOUR_FG_GREEN] = wapp_str8_lit_ro_initialiser_list("\033[32m"),
[WAPP_TERM_COLOUR_FG_BLUE] = wapp_str8_lit_ro_initialiser_list("\033[34m"),
[WAPP_TERM_COLOUR_FG_CYAN] = wapp_str8_lit_ro_initialiser_list("\033[36m"),
[WAPP_TERM_COLOUR_FG_MAGENTA] = wapp_str8_lit_ro_initialiser_list("\033[35m"),
[WAPP_TERM_COLOUR_FG_YELLOW] = wapp_str8_lit_ro_initialiser_list("\033[33m"),
[WAPP_TERM_COLOUR_FG_WHITE] = wapp_str8_lit_ro_initialiser_list("\033[37m"),
[WAPP_TERM_COLOUR_FG_BR_BLACK] = wapp_str8_lit_ro_initialiser_list("\033[90m"),
[WAPP_TERM_COLOUR_FG_BR_RED] = wapp_str8_lit_ro_initialiser_list("\033[91m"),
[WAPP_TERM_COLOUR_FG_BR_GREEN] = wapp_str8_lit_ro_initialiser_list("\033[92m"),
[WAPP_TERM_COLOUR_FG_BR_BLUE] = wapp_str8_lit_ro_initialiser_list("\033[94m"),
[WAPP_TERM_COLOUR_FG_BR_CYAN] = wapp_str8_lit_ro_initialiser_list("\033[96m"),
[WAPP_TERM_COLOUR_FG_BR_MAGENTA] = wapp_str8_lit_ro_initialiser_list("\033[95m"),
[WAPP_TERM_COLOUR_FG_BR_YELLOW] = wapp_str8_lit_ro_initialiser_list("\033[93m"),
[WAPP_TERM_COLOUR_FG_BR_WHITE] = wapp_str8_lit_ro_initialiser_list("\033[97m"),
[WAPP_TERM_COLOUR_CLEAR] = wapp_str8_lit_ro_initialiser_list("\033[0m"),
};
void _printColouredText(WpStr8RO *text, WpTerminalColour colour) {
printf(WP_STR8_SPEC WP_STR8_SPEC, wpStr8Varg(colours[colour]), wpStr8Varg((*text)));
void print_coloured_text(Str8RO *text, TerminalColour colour) {
printf(WAPP_STR8_SPEC WAPP_STR8_SPEC, wapp_str8_varg(colours[colour]), wapp_str8_varg((*text)));
}
#endif // !WP_PLATFORM_POSIX
#endif // !WAPP_PLATFORM_POSIX
src/os/shell/termcolour/termcolour.c
+8 -8
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@@ -4,15 +4,15 @@
#include "terminal_colours.h"
#include "../../../base/strings/str8/str8.h"
void wpShellTermcolourPrintText(WpStr8RO *text, WpTerminalColour colour) {
if (colour < WP_TERM_COLOUR_FG_BLACK || colour > WP_TERM_COLOUR_FG_BR_WHITE) {
return;
}
void wapp_shell_termcolour_print_text(Str8RO *text, TerminalColour colour) {
if (colour < WAPP_TERM_COLOUR_FG_BLACK || colour > WAPP_TERM_COLOUR_FG_BR_WHITE) {
return;
}
_printColouredText(text, colour);
print_coloured_text(text, colour);
}
void wpShellTermcolourClearColour(void) {
WpStr8RO empty = wpStr8LitRo("");
_printColouredText(&empty, WP_TERM_COLOUR_CLEAR);
void wapp_shell_termcolour_clear_colour(void) {
Str8RO empty = wapp_str8_lit_ro("");
print_coloured_text(&empty, WAPP_TERM_COLOUR_CLEAR);
}
src/os/shell/termcolour/termcolour.h
+7 -9
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@@ -8,19 +8,17 @@
#include "../../../common/platform/platform.h"
#include "../../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
// TODO (Abdelrahman): Look into moving away from stdio in the implementation
void wapp_shell_termcolour_print_text(Str8RO *text, TerminalColour colour);
void wapp_shell_termcolour_clear_colour(void);
void wpShellTermcolourPrintText(WpStr8RO *text, WpTerminalColour colour);
void wpShellTermcolourClearColour(void);
wapp_extern void print_coloured_text(Str8RO *text, TerminalColour colour);
wp_extern void _printColouredText(WpStr8RO *text, WpTerminalColour colour);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !TERM_COLOUR_H
src/os/shell/termcolour/terminal_colours.h
+23 -23
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@@ -6,34 +6,34 @@
#include "../../../common/aliases/aliases.h"
#include "../../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef enum {
WP_TERM_COLOUR_FG_BLACK,
WP_TERM_COLOUR_FG_RED,
WP_TERM_COLOUR_FG_GREEN,
WP_TERM_COLOUR_FG_BLUE,
WP_TERM_COLOUR_FG_CYAN,
WP_TERM_COLOUR_FG_MAGENTA,
WP_TERM_COLOUR_FG_YELLOW,
WP_TERM_COLOUR_FG_WHITE,
WP_TERM_COLOUR_FG_BR_BLACK,
WP_TERM_COLOUR_FG_BR_RED,
WP_TERM_COLOUR_FG_BR_GREEN,
WP_TERM_COLOUR_FG_BR_BLUE,
WP_TERM_COLOUR_FG_BR_CYAN,
WP_TERM_COLOUR_FG_BR_MAGENTA,
WP_TERM_COLOUR_FG_BR_YELLOW,
WP_TERM_COLOUR_FG_BR_WHITE,
WP_TERM_COLOUR_CLEAR,
WAPP_TERM_COLOUR_FG_BLACK,
WAPP_TERM_COLOUR_FG_RED,
WAPP_TERM_COLOUR_FG_GREEN,
WAPP_TERM_COLOUR_FG_BLUE,
WAPP_TERM_COLOUR_FG_CYAN,
WAPP_TERM_COLOUR_FG_MAGENTA,
WAPP_TERM_COLOUR_FG_YELLOW,
WAPP_TERM_COLOUR_FG_WHITE,
WAPP_TERM_COLOUR_FG_BR_BLACK,
WAPP_TERM_COLOUR_FG_BR_RED,
WAPP_TERM_COLOUR_FG_BR_GREEN,
WAPP_TERM_COLOUR_FG_BR_BLUE,
WAPP_TERM_COLOUR_FG_BR_CYAN,
WAPP_TERM_COLOUR_FG_BR_MAGENTA,
WAPP_TERM_COLOUR_FG_BR_YELLOW,
WAPP_TERM_COLOUR_FG_BR_WHITE,
WAPP_TERM_COLOUR_CLEAR,
COUNT_TERM_COLOUR,
} WpTerminalColour;
COUNT_TERM_COLOUR,
} TerminalColour;
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !TERMINAL_COLOURS_H
src/os/shell/termcolour/win/termcolour_win.c
+47 -47
View File
@@ -4,70 +4,70 @@
#include "../../../../common/platform/platform.h"
#include "../../../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_WINDOWS
#ifdef WAPP_PLATFORM_WINDOWS
#include "../terminal_colours.h"
#include "../../../../common/misc/misc_utils.h"
#include "../../../../../common/misc/misc_utils.h"
#include <stdio.h>
#define WIN32_LEAN_AND_MEAN
#include <Windows.h>
typedef struct TermcolourData TermcolourData;
struct TermcolourData {
HANDLE handle;
WORD default_colour;
WORD current_colour;
typedef struct termcolour_data TermcolourData;
struct termcolour_data {
HANDLE handle;
WORD default_colour;
WORD current_colour;
wpMiscUtilsReservePadding(sizeof(HANDLE) + sizeof(WORD) + sizeof(WORD));
wapp_misc_utils_padding_size(sizeof(HANDLE) + sizeof(WORD) + sizeof(WORD));
};
wp_intern void init_data(TermcolourData *data);
wapp_intern void init_data(TermcolourData *data);
wp_intern WORD colours[COUNT_TERM_COLOUR] = {
[WP_TERM_COLOUR_FG_BLACK] = 0,
[WP_TERM_COLOUR_FG_RED] = FOREGROUND_RED,
[WP_TERM_COLOUR_FG_GREEN] = FOREGROUND_GREEN,
[WP_TERM_COLOUR_FG_BLUE] = FOREGROUND_BLUE,
[WP_TERM_COLOUR_FG_CYAN] = FOREGROUND_GREEN | FOREGROUND_BLUE,
[WP_TERM_COLOUR_FG_MAGENTA] = FOREGROUND_RED | FOREGROUND_BLUE,
[WP_TERM_COLOUR_FG_YELLOW] = FOREGROUND_RED | FOREGROUND_GREEN,
[WP_TERM_COLOUR_FG_WHITE] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE,
[WP_TERM_COLOUR_FG_BR_BLACK] = FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_RED] = FOREGROUND_RED | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_GREEN] = FOREGROUND_GREEN | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_BLUE] = FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_CYAN] = FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_MAGENTA] = FOREGROUND_RED | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_YELLOW] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_INTENSITY,
[WP_TERM_COLOUR_FG_BR_WHITE] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
wapp_intern WORD colours[COUNT_TERM_COLOUR] = {
[WAPP_TERM_COLOUR_FG_BLACK] = 0,
[WAPP_TERM_COLOUR_FG_RED] = FOREGROUND_RED,
[WAPP_TERM_COLOUR_FG_GREEN] = FOREGROUND_GREEN,
[WAPP_TERM_COLOUR_FG_BLUE] = FOREGROUND_BLUE,
[WAPP_TERM_COLOUR_FG_CYAN] = FOREGROUND_GREEN | FOREGROUND_BLUE,
[WAPP_TERM_COLOUR_FG_MAGENTA] = FOREGROUND_RED | FOREGROUND_BLUE,
[WAPP_TERM_COLOUR_FG_YELLOW] = FOREGROUND_RED | FOREGROUND_GREEN,
[WAPP_TERM_COLOUR_FG_WHITE] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE,
[WAPP_TERM_COLOUR_FG_BR_BLACK] = FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_RED] = FOREGROUND_RED | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_GREEN] = FOREGROUND_GREEN | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_BLUE] = FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_CYAN] = FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_MAGENTA] = FOREGROUND_RED | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_YELLOW] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_INTENSITY,
[WAPP_TERM_COLOUR_FG_BR_WHITE] = FOREGROUND_RED | FOREGROUND_GREEN | FOREGROUND_BLUE | FOREGROUND_INTENSITY,
};
void _printColouredText(WpStr8RO *text, WpTerminalColour colour) {
wp_persist TermcolourData data = {0};
if (data.handle == 0) {
init_data(&data);
}
void print_coloured_text(Str8RO *text, TerminalColour colour) {
wapp_persist TermcolourData data = {0};
if (data.handle == 0) {
init_data(&data);
}
if (colour == WP_TERM_COLOUR_CLEAR) {
data.current_colour = data.default_colour;
} else {
data.current_colour = colours[colour];
}
if (colour == WAPP_TERM_COLOUR_CLEAR) {
data.current_colour = data.default_colour;
} else {
data.current_colour = colours[colour];
}
SetConsoleTextAttribute(data.handle, data.current_colour);
printf(WP_STR8_SPEC, wpStr8Varg((*text)));
SetConsoleTextAttribute(data.handle, data.current_colour);
printf(WAPP_STR8_SPEC, wapp_str8_varg((*text)));
}
wp_intern void init_data(TermcolourData *data) {
// create handle
data->handle = GetStdHandle(STD_OUTPUT_HANDLE);
wapp_intern void init_data(TermcolourData *data) {
// create handle
data->handle = GetStdHandle(STD_OUTPUT_HANDLE);
// get console colour information
CONSOLE_SCREEN_BUFFER_INFO csbi;
GetConsoleScreenBufferInfo(data->handle, &csbi);
data->default_colour = csbi.wAttributes;
data->current_colour = data->default_colour;
// get console colour information
CONSOLE_SCREEN_BUFFER_INFO csbi;
GetConsoleScreenBufferInfo(data->handle, &csbi);
data->default_colour = csbi.wAttributes;
data->current_colour = data->default_colour;
}
#endif // !WP_PLATFORM_WINDOWS
#endif // !WAPP_PLATFORM_WINDOWS
src/os/shell/utils/shell_utils.h
+10 -10
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@@ -7,20 +7,20 @@
#include "../../../common/platform/platform.h"
#include <stdio.h>
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#ifdef WP_PLATFORM_WINDOWS
#define wpShellUtilsPopen _popen
#define wpShellUtilsPclose _pclose
#ifdef WAPP_PLATFORM_WINDOWS
#define wapp_shell_utils_popen _popen
#define wapp_shell_utils_pclose _pclose
#else
#define wpShellUtilsPopen popen
#define wpShellUtilsPclose pclose
#endif /* ifdef WP_PLATFORM_WINDOWS */
#define wapp_shell_utils_popen popen
#define wapp_shell_utils_pclose pclose
#endif /* ifdef WAPP_PLATFORM_WINDOWS */
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !SHELL_UTILS_H
src/os/wapp_os.c
-2
View File
@@ -5,8 +5,6 @@
#include "wapp_os.h"
#include "file/file.c"
#include "file/posix/file_posix.c"
#include "file/win/file_win.c"
#include "shell/termcolour/posix/termcolour_posix.c"
#include "shell/termcolour/win/termcolour_win.c"
#include "shell/termcolour/termcolour.c"
src/os/wapp_os.h
-2
View File
@@ -4,8 +4,6 @@
#define WAPP_CORE_H
#include "file/file.h"
#include "file/posix/file_posix.h"
#include "file/win/file_win.h"
#include "shell/termcolour/termcolour.h"
#include "shell/termcolour/terminal_colours.h"
#include "shell/commander/commander.h"
src/prng/xorshift/xorshift.c
+83 -83
View File
@@ -7,129 +7,129 @@
#include <stdlib.h>
#include <time.h>
typedef struct SplitMix64State SplitMix64State;
struct SplitMix64State {
u64 seed;
typedef struct split_mix_64_state SplitMix64State;
struct split_mix_64_state {
u64 seed;
};
wp_intern u64 rol64(u64 x, u64 bits);
wp_intern u64 split_mix_64(SplitMix64State *state);
wp_intern void seed_os_generator(void);
wp_intern u64 generate_random_number(void);
wapp_intern u64 rol64(u64 x, u64 bits);
wapp_intern u64 split_mix_64(SplitMix64State *state);
wapp_intern void seed_os_generator(void);
wapp_intern u64 generate_random_number(void);
WpXor256State wpPrngXorshiftInit(void) {
wp_persist b8 seeded = false;
if (!seeded) {
seeded = true;
seed_os_generator();
}
XOR256State wapp_prng_xorshift_init_state(void) {
wapp_persist b8 seeded = false;
if (!seeded) {
seeded = true;
seed_os_generator();
}
SplitMix64State sm64 = {.seed = generate_random_number()};
SplitMix64State sm64 = {.seed = generate_random_number()};
return (WpXor256State){
.x = split_mix_64(&sm64),
.y = split_mix_64(&sm64),
.z = split_mix_64(&sm64),
.w = split_mix_64(&sm64),
};
return (XOR256State){
.x = split_mix_64(&sm64),
.y = split_mix_64(&sm64),
.z = split_mix_64(&sm64),
.w = split_mix_64(&sm64),
};
}
u64 wpPrngXorshift256(WpXor256State *state) {
u64 t = state->x ^ (state->x << 11);
u64 wapp_prng_xorshift_256(XOR256State *state) {
u64 t = state->x ^ (state->x << 11);
state->x = state->y;
state->y = state->z;
state->z = state->w;
state->w = (state->w ^ (state->w >> 19)) ^ (t ^ (t >> 8));
state->x = state->y;
state->y = state->z;
state->z = state->w;
state->w = (state->w ^ (state->w >> 19)) ^ (t ^ (t >> 8));
return state->w;
return state->w;
}
u64 wpPrngXorshift256ss(WpXor256State *state) {
const u64 result = rol64(state->z * 5, 7) * 9;
const u64 t = state->z << 17;
u64 wapp_prng_xorshift_256ss(XOR256State *state) {
const u64 result = rol64(state->z * 5, 7) * 9;
const u64 t = state->z << 17;
state->y ^= state->w;
state->x ^= state->z;
state->z ^= state->y;
state->w ^= state->x;
state->y ^= state->w;
state->x ^= state->z;
state->z ^= state->y;
state->w ^= state->x;
state->y ^= t;
state->x = rol64(state->x, 45);
state->y ^= t;
state->x = rol64(state->x, 45);
return result;
return result;
}
u64 wpPrngXorshift256p(WpXor256State *state) {
const u64 result = state->w + state->x;
const u64 t = state->z << 17;
u64 wapp_prng_xorshift_256p(XOR256State *state) {
const u64 result = state->w + state->x;
const u64 t = state->z << 17;
state->y ^= state->w;
state->x ^= state->z;
state->z ^= state->y;
state->w ^= state->x;
state->y ^= state->w;
state->x ^= state->z;
state->z ^= state->y;
state->w ^= state->x;
state->y ^= t;
state->x = rol64(state->x, 45);
state->y ^= t;
state->x = rol64(state->x, 45);
return result;
return result;
}
wp_intern u64 rol64(u64 x, u64 bits) {
return (x << bits) | (x >> (64 - bits));
wapp_intern u64 rol64(u64 x, u64 bits) {
return (x << bits) | (x >> (64 - bits));
}
wp_intern u64 split_mix_64(SplitMix64State *state) {
state->seed += 0x9E3779B97f4A7C15;
wapp_intern u64 split_mix_64(SplitMix64State *state) {
state->seed += 0x9E3779B97f4A7C15;
u64 result = state->seed;
result = (result ^ (result >> 30)) * 0xBF58476D1CE4E5B9;
result = (result ^ (result >> 27)) * 0x94D049BB133111EB;
u64 result = state->seed;
result = (result ^ (result >> 30)) * 0xBF58476D1CE4E5B9;
result = (result ^ (result >> 27)) * 0x94D049BB133111EB;
return result ^ (result >> 31);
return result ^ (result >> 31);
}
#if defined(WP_PLATFORM_C) && WP_PLATFORM_C_VERSION >= WP_PLATFORM_C11_VERSION
#ifdef WP_PLATFORM_POSIX
wp_intern void seed_os_generator(void) {
struct timespec ts = {0};
int result = clock_gettime(CLOCK_MONOTONIC_RAW, &ts);
wpRuntimeAssert(result == 0, "Invalid seed value");
#if defined(WAPP_PLATFORM_C) && WAPP_PLATFORM_C_VERSION >= WAPP_PLATFORM_C11_VERSION
#ifdef WAPP_PLATFORM_POSIX
wapp_intern void seed_os_generator(void) {
struct timespec ts = {0};
int result = clock_gettime(CLOCK_MONOTONIC_RAW, &ts);
wapp_runtime_assert(result == 0, "Invalid seed value");
srand48(ts.tv_nsec);
srand48(ts.tv_nsec);
}
wp_intern u64 generate_random_number(void) {
return lrand48();
wapp_intern u64 generate_random_number(void) {
return lrand48();
}
#else
wp_intern void seed_os_generator(void) {
struct timespec ts = {0};
int result = timespec_get(&ts, TIME_UTC);
wpRuntimeAssert(result != 0, "Invalid seed value");
wapp_intern void seed_os_generator(void) {
struct timespec ts = {0};
int result = timespec_get(&ts, TIME_UTC);
wapp_runtime_assert(result != 0, "Invalid seed value");
srand(ts.tv_nsec);
srand(ts.tv_nsec);
}
wp_intern u64 generate_random_number(void) {
i32 n1 = rand();
i32 n2 = rand();
wapp_intern u64 generate_random_number(void) {
i32 n1 = rand();
i32 n2 = rand();
return (((u64)n1) << 32 | (u64)n2);
return (((u64)n1) << 32 | (u64)n2);
}
#endif // !WP_PLATFORM_POSIX
#endif // !WAPP_PLATFORM_POSIX
#else
wp_intern void seed_os_generator(void) {
time_t result = time(NULL);
wpRuntimeAssert(result != (time_t)(-1), "Invalid seed value");
wapp_intern void seed_os_generator(void) {
time_t result = time(NULL);
wapp_runtime_assert(result != (time_t)(-1), "Invalid seed value");
srand(result);
srand(result);
}
wp_intern u64 generate_random_number(void) {
i32 n1 = rand();
i32 n2 = rand();
wapp_intern u64 generate_random_number(void) {
i32 n1 = rand();
i32 n2 = rand();
return (((u64)n1) << 32 | (u64)n2);
return (((u64)n1) << 32 | (u64)n2);
}
#endif // !WP_PLATFORM_C
#endif // !WAPP_PLATFORM_C
src/prng/xorshift/xorshift.h
+14 -14
View File
@@ -6,25 +6,25 @@
#include "../../common/aliases/aliases.h"
#include "../../common/platform/platform.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
typedef struct WpXor256State WpXor256State;
struct WpXor256State {
u64 x;
u64 y;
u64 z;
u64 w;
typedef struct xor_256_state XOR256State;
struct xor_256_state {
u64 x;
u64 y;
u64 z;
u64 w;
};
WpXor256State wpPrngXorshiftInit(void);
u64 wpPrngXorshift256(WpXor256State *state);
u64 wpPrngXorshift256ss(WpXor256State *state);
u64 wpPrngXorshift256p(WpXor256State *state);
XOR256State wapp_prng_xorshift_init_state(void);
u64 wapp_prng_xorshift_256(XOR256State *state);
u64 wapp_prng_xorshift_256ss(XOR256State *state);
u64 wapp_prng_xorshift_256p(XOR256State *state);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !XORSHIFT_H
src/testing/tester/tester.c
+31 -31
View File
@@ -8,48 +8,48 @@
#include <stdio.h>
#include <stdlib.h>
wp_intern void handleTestResult(WpTestFuncResult result);
wapp_intern void handle_test_result(TestFuncResult result);
void _runTests(WpTestFunc *func1, ...) {
printf("\n");
void run_tests(TestFunc *func1, ...) {
printf("\n");
handleTestResult(func1());
handle_test_result(func1());
va_list args;
va_start(args, func1);
va_list args;
va_start(args, func1);
WpTestFunc *func = va_arg(args, WpTestFunc *);
TestFunc *func = va_arg(args, TestFunc *);
while (func) {
WpTestFuncResult result = func();
handleTestResult(result);
while (func) {
TestFuncResult result = func();
handle_test_result(result);
func = va_arg(args, WpTestFunc *);
}
func = va_arg(args, TestFunc *);
}
va_end(args);
va_end(args);
printf("\n");
printf("\n");
}
wp_intern void handleTestResult(WpTestFuncResult result) {
WpTerminalColour colour;
WpStr8 result_text = wpStr8Buf(64);
wapp_intern void handle_test_result(TestFuncResult result) {
TerminalColour colour;
Str8 result_text = wapp_str8_buf(64);
if (result.passed) {
colour = WP_TERM_COLOUR_FG_BR_GREEN;
wpStr8CopyCstrCapped(&result_text, "PASSED");
} else {
colour = WP_TERM_COLOUR_FG_BR_RED;
wpStr8CopyCstrCapped(&result_text, "FAILED");
}
if (result.passed) {
colour = WAPP_TERM_COLOUR_FG_BR_GREEN;
wapp_str8_copy_cstr_capped(&result_text, "PASSED");
} else {
colour = WAPP_TERM_COLOUR_FG_BR_RED;
wapp_str8_copy_cstr_capped(&result_text, "FAILED");
}
printf("[");
wpShellTermcolourPrintText(&result_text, colour);
wpShellTermcolourClearColour();
printf("] " WP_STR8_SPEC "\n", wpStr8Varg(result.name));
printf("[");
wapp_shell_termcolour_print_text(&result_text, colour);
wapp_shell_termcolour_clear_colour();
printf("] " WAPP_STR8_SPEC "\n", wapp_str8_varg(result.name));
if (!result.passed) {
exit(EXIT_FAILURE);
}
if (!result.passed) {
exit(EXIT_FAILURE);
}
}
src/testing/tester/tester.h
+16 -14
View File
@@ -7,30 +7,32 @@
#include "../../common/platform/platform.h"
#include "../../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#define wpTesterResult(PASSED) (WpTestFuncResult{wpStr8LitRo(__func__), PASSED, {}})
#define wapp_tester_result(PASSED) (TestFuncResult{wapp_str8_lit_ro(__func__), PASSED})
#else
#define wpTesterResult(PASSED) ((WpTestFuncResult){.name = wpStr8LitRo(__func__), .passed = PASSED})
#endif // !WP_PLATFORM_CPP
#define wapp_tester_result(PASSED) ((TestFuncResult){.name = wapp_str8_lit_ro(__func__), .passed = PASSED})
#endif // !WAPP_PLATFORM_CPP
#define wpTesterRun(...) _runTests(__VA_ARGS__, NULL)
#define wapp_tester_run_tests(...) run_tests(__VA_ARGS__, NULL)
typedef struct WpTestFuncResult WpTestFuncResult;
struct WpTestFuncResult {
WpStr8 name;
b8 passed;
typedef struct test_func_result TestFuncResult;
struct test_func_result {
Str8 name;
b8 passed;
wpMiscUtilsReservePadding(sizeof(WpStr8) + sizeof(b8));
#ifdef WAPP_PLATFORM_WINDOWS
wapp_misc_utils_padding_size(sizeof(Str8RO) + sizeof(b8));
#endif // WAPP_PLATFORM_WINDOWS
};
typedef WpTestFuncResult(WpTestFunc)(void);
typedef TestFuncResult(TestFunc)(void);
void _runTests(WpTestFunc *func1, ...);
void run_tests(TestFunc *func1, ...);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !TESTER_H
src/uuid/uuid.c
+32 -32
View File
@@ -9,50 +9,50 @@
#define UUID_STR_FORMAT ("%.8" PRIx64 "-%.4" PRIx64 "-%.4" PRIx64 "-%.4" PRIx64 "-%.12" PRIx64)
typedef struct UUID4 UUID4;
struct UUID4 {
u64 high;
u64 low;
typedef struct uuid4 UUID4;
struct uuid4 {
u64 high;
u64 low;
};
wp_intern UUID4 generate_uuid4(void);
wp_intern void uuid4_to_uuid(const UUID4* uuid4, WpUuid *uuid);
wapp_intern UUID4 generate_uuid4(void);
wapp_intern void uuid4_to_uuid(const UUID4* uuid4, WUUID *uuid);
WpUuid *wpUuidInitUuid4(WpUuid *uuid) {
wpDebugAssert(uuid != NULL, "`uuid` should not be NULL");
WUUID *wapp_uuid_init_uuid4(WUUID *uuid) {
wapp_debug_assert(uuid != NULL, "`uuid` should not be NULL");
UUID4 uuid4 = generate_uuid4();
uuid4_to_uuid(&uuid4, uuid);
UUID4 uuid4 = generate_uuid4();
uuid4_to_uuid(&uuid4, uuid);
return uuid;
return uuid;
}
wp_intern UUID4 generate_uuid4(void) {
wp_persist WpXor256State state = {0};
wp_persist b8 initialised = false;
wapp_intern UUID4 generate_uuid4(void) {
wapp_persist XOR256State state = {0};
wapp_persist b8 initialised = false;
if (!initialised) {
initialised = true;
state = wpPrngXorshiftInit();
}
if (!initialised) {
initialised = true;
state = wapp_prng_xorshift_init_state();
}
UUID4 uuid = (UUID4){
.high = wpPrngXorshift256(&state),
.low = wpPrngXorshift256(&state),
};
UUID4 uuid = (UUID4){
.high = wapp_prng_xorshift_256(&state),
.low = wapp_prng_xorshift_256(&state),
};
uuid.high = (uuid.high & 0xffffffffffff0fff) | 0x0000000000004000;
uuid.low = (uuid.low & 0x3fffffffffffffff) | 0x8000000000000000;
uuid.high = (uuid.high & 0xffffffffffff0fff) | 0x0000000000004000;
uuid.low = (uuid.low & 0x3fffffffffffffff) | 0x8000000000000000;
return uuid;
return uuid;
}
wp_intern void uuid4_to_uuid(const UUID4* uuid4, WpUuid *uuid) {
u64 group1 = uuid4->high >> 32;
u64 group2 = (uuid4->high << 32) >> 48;
u64 group3 = (uuid4->high << 48) >> 48;
u64 group4 = uuid4->low >> 48;
u64 group5 = (uuid4->low << 16) >> 16;
wapp_intern void uuid4_to_uuid(const UUID4* uuid4, WUUID *uuid) {
u64 group1 = uuid4->high >> 32;
u64 group2 = (uuid4->high << 32) >> 48;
u64 group3 = (uuid4->high << 48) >> 48;
u64 group4 = uuid4->low >> 48;
u64 group5 = (uuid4->low << 16) >> 16;
wpStr8Format(&(uuid->uuid), UUID_STR_FORMAT, group1, group2, group3, group4, group5);
wapp_str8_format(&(uuid->uuid), UUID_STR_FORMAT, group1, group2, group3, group4, group5);
}
src/uuid/uuid.h
+13 -26
View File
@@ -7,44 +7,31 @@
#include "../common/platform/platform.h"
#include "../base/strings/str8/str8.h"
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
BEGIN_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#define WP_UUID_BUF_LENGTH 48
#define WP_UUID_SPEC WP_STR8_SPEC
#define wpUuidVarg(WpUuid) wpStr8Varg((WpUuid).uuid)
#define UUID_BUF_LENGTH 48
#define WAPP_UUID_SPEC WAPP_STR8_SPEC
#define wapp_uuid_varg(WUUID) wapp_str8_varg((WUUID).uuid)
typedef struct WpUuid WpUuid;
struct WpUuid {
WpStr8 uuid;
typedef struct wapp_uuid WUUID;
struct wapp_uuid {
Str8 uuid;
};
// TODO (Abdelrahman): Update UUID implementation to work properly with C++ and tests for validation
#ifdef WP_PLATFORM_CPP
#define wpUuidGenUuid4() ([&](){ \
wp_persist WpUuid uuid = wpUuidCreate(); \
return *(wpUuidInitUuid4(&uuid)); \
}())
#else
#define wpUuidGenUuid4() *(wpUuidInitUuid4(&wpUuidCreate()))
#endif
#define wapp_uuid_gen_uuid4() *(wapp_uuid_init_uuid4(&wapp_uuid_create()))
/* Low level UUID API */
#ifdef WP_PLATFORM_CPP
#define wpUuidCreate() ([&](){ return WpUuid{wpStr8Buf(WP_UUID_BUF_LENGTH)}; }())
#else
#define wpUuidCreate() ((WpUuid){.uuid = wpStr8Buf(WP_UUID_BUF_LENGTH)})
#endif
#define wapp_uuid_create() ((WUUID){.uuid = wapp_str8_buf(UUID_BUF_LENGTH)})
// Just returns the same pointer that was passed in with the UUID initialised.
// Fails when passed a NULL pointer.
WpUuid *wpUuidInitUuid4(WpUuid *uuid);
WUUID *wapp_uuid_init_uuid4(WUUID *uuid);
#ifdef WP_PLATFORM_CPP
#ifdef WAPP_PLATFORM_CPP
END_C_LINKAGE
#endif // !WP_PLATFORM_CPP
#endif // !WAPP_PLATFORM_CPP
#endif // !UUID_H
src/wapp.c
+1 -2
View File
@@ -6,9 +6,8 @@
#include "wapp.h"
#include "base/wapp_base.c"
#include "os/wapp_os.c"
#include "log/wapp_log.c"
#include "prng/wapp_prng.c"
#include "uuid/wapp_uuid.c"
#include "uuid/uuid.c"
#include "testing/wapp_testing.c"
#endif // !WAPP_C
src/wapp.h
-1
View File
@@ -6,7 +6,6 @@
#include "common/wapp_common.h"
#include "base/wapp_base.h"
#include "os/wapp_os.h"
#include "log/wapp_log.h"
#include "prng/wapp_prng.h"
#include "uuid/wapp_uuid.h"
#include "testing/wapp_testing.h"
tests/allocator/test_allocator.c
+10 -60
View File
@@ -2,66 +2,16 @@
#include "wapp.h"
#include <stdlib.h>
// NOTE (Abdelrahman): Cannot query size of Arena here so it's hardcoded. Similarly, since arena
// allocation are aligned to power of 2 boundaries, the number of i32 values needed is hardcoded.
#define TEMP_BUF_SIZE (40 + sizeof(i32) * 8)
TestFuncResult test_arena_allocator(void) {
Allocator allocator = wapp_mem_arena_allocator_init(4096);
b8 result = allocator.obj != NULL && allocator.alloc != NULL &&
allocator.alloc_aligned != NULL &&
allocator.realloc != NULL && allocator.realloc_aligned != NULL &&
allocator.free == NULL;
void *ptr = wapp_mem_allocator_alloc(&allocator, 20);
result = result && (ptr != NULL);
wp_intern u8 temp_buf[TEMP_BUF_SIZE] = {0};
wp_intern WpAllocator temp_allocator = {0};
wapp_mem_arena_allocator_destroy(&allocator);
WpTestFuncResult test_arena_allocator(void) {
WpAllocator allocator = wpMemArenaAllocatorInit(4096);
b8 result = allocator.obj != NULL && allocator.alloc != NULL &&
allocator.alloc_aligned != NULL &&
allocator.realloc != NULL && allocator.realloc_aligned != NULL &&
allocator.free == NULL;
void *ptr = wpMemAllocatorAlloc(&allocator, 20);
result = result && (ptr != NULL);
wpMemArenaAllocatorDestroy(&allocator);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_with_buffer(void) {
u8 buffer[KiB(4)] = {0};
WpAllocator allocator = wpMemArenaAllocatorInitWithBuffer(buffer, KiB(4));
b8 result = allocator.obj != NULL && allocator.alloc != NULL &&
allocator.alloc_aligned != NULL &&
allocator.realloc != NULL && allocator.realloc_aligned != NULL &&
allocator.free == NULL;
void *ptr = wpMemAllocatorAlloc(&allocator, 20);
result = result && (ptr != NULL);
wpMemArenaAllocatorDestroy(&allocator);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_temp_begin(void) {
temp_allocator = wpMemArenaAllocatorInitWithBuffer(temp_buf, TEMP_BUF_SIZE);
i32 *num1 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
b8 result = num1 != NULL;
wpMemArenaAllocatorTempBegin(&temp_allocator);
i32 *num2 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num2 != NULL;
i32 *num3 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num3 == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_temp_end(void) {
wpMemArenaAllocatorTempEnd(&temp_allocator);
i32 *num1 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
b8 result = num1 != NULL;
i32 *num2 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num2 == NULL;
wpMemArenaAllocatorDestroy(&temp_allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/allocator/test_allocator.cc
+10 -60
View File
@@ -2,66 +2,16 @@
#include "wapp.h"
#include <stdlib.h>
// NOTE (Abdelrahman): Cannot query size of Arena here so it's hardcoded. Similarly, since arena
// allocation are aligned to power of 2 boundaries, the number of i32 values needed is hardcoded.
#define TEMP_BUF_SIZE (40 + sizeof(i32) * 8)
TestFuncResult test_arena_allocator(void) {
Allocator allocator = wapp_mem_arena_allocator_init(4096);
b8 result = allocator.obj != nullptr && allocator.alloc != nullptr &&
allocator.alloc_aligned != nullptr &&
allocator.realloc != nullptr && allocator.realloc_aligned != nullptr &&
allocator.free == nullptr;
void *ptr = wapp_mem_allocator_alloc(&allocator, 20);
result = result && (ptr != nullptr);
wp_intern u8 temp_buf[TEMP_BUF_SIZE] = {};
wp_intern WpAllocator temp_allocator = {};
wapp_mem_arena_allocator_destroy(&allocator);
WpTestFuncResult test_arena_allocator(void) {
WpAllocator allocator = wpMemArenaAllocatorInit(4096);
b8 result = allocator.obj != nullptr && allocator.alloc != nullptr &&
allocator.alloc_aligned != nullptr &&
allocator.realloc != nullptr && allocator.realloc_aligned != nullptr &&
allocator.free == nullptr;
void *ptr = wpMemAllocatorAlloc(&allocator, 20);
result = result && (ptr != nullptr);
wpMemArenaAllocatorDestroy(&allocator);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_with_buffer(void) {
u8 buffer[KiB(4)] = {0};
WpAllocator allocator = wpMemArenaAllocatorInitWithBuffer(buffer, KiB(4));
b8 result = allocator.obj != NULL && allocator.alloc != NULL &&
allocator.alloc_aligned != NULL &&
allocator.realloc != NULL && allocator.realloc_aligned != NULL &&
allocator.free == NULL;
void *ptr = wpMemAllocatorAlloc(&allocator, 20);
result = result && (ptr != NULL);
wpMemArenaAllocatorDestroy(&allocator);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_temp_begin(void) {
temp_allocator = wpMemArenaAllocatorInitWithBuffer(temp_buf, TEMP_BUF_SIZE);
i32 *num1 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
b8 result = num1 != NULL;
wpMemArenaAllocatorTempBegin(&temp_allocator);
i32 *num2 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num2 != NULL;
i32 *num3 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num3 == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_allocator_temp_end(void) {
wpMemArenaAllocatorTempEnd(&temp_allocator);
i32 *num1 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
b8 result = num1 != NULL;
i32 *num2 = (i32 *)wpMemAllocatorAlloc(&temp_allocator, sizeof(i32));
result = result && num2 == NULL;
wpMemArenaAllocatorDestroy(&temp_allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/allocator/test_allocator.h
+1 -4
View File
@@ -3,9 +3,6 @@
#include "wapp.h"
WpTestFuncResult test_arena_allocator(void);
WpTestFuncResult test_arena_allocator_with_buffer(void);
WpTestFuncResult test_arena_allocator_temp_begin(void);
WpTestFuncResult test_arena_allocator_temp_end(void);
TestFuncResult test_arena_allocator(void);
#endif // !TEST_ALLOCATOR_H
tests/arena/test_arena.c
+81 -138
View File
@@ -2,167 +2,110 @@
#include "wapp.h"
#include <stdlib.h>
#define ARENA_CAPACITY KiB(16)
#define ARENA_BUF_SIZE KiB(4)
// NOTE (Abdelrahman): Cannot query size of WpArena here so it's hardcoded. Similarly, since arena
// allocation are aligned to power of 2 boundaries, the number of i32 values needed is hardcoded.
#define TEMP_BUF_SIZE (40 + sizeof(i32) * 8)
#define ARENA_CAPACITY KB(16)
wp_intern WpArena *arena = NULL;
wp_intern i32 count = 20;
wp_intern i32 *array = NULL;
wp_intern WpArena *buf_arena = NULL;
wp_intern u8 buf[ARENA_BUF_SIZE] = {0};
wp_intern WpArena *temp_arena = NULL;
wp_intern u8 temp_buf[TEMP_BUF_SIZE] = {0};
wapp_intern Arena *arena = NULL;
wapp_intern i32 count = 20;
wapp_intern i32 *array = NULL;
WpTestFuncResult test_arena_init_buffer(void) {
b8 result = wpMemArenaInitBuffer(&buf_arena, buf, ARENA_BUF_SIZE);
return wpTesterResult(result);
TestFuncResult test_arena_init(void) {
b8 result = wapp_mem_arena_init(&arena, ARENA_CAPACITY);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_init_allocated(void) {
b8 result = wpMemArenaInitAllocated(&arena, ARENA_CAPACITY);
TestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void) {
Arena *large_arena = NULL;
u64 capacity = GB(512);
b8 result = wapp_mem_arena_init(&large_arena, capacity);
if (result) {
wapp_mem_arena_destroy(&large_arena);
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void) {
WpArena *large_arena = NULL;
u64 capacity = GiB(512);
b8 result = wpMemArenaInitAllocated(&large_arena, capacity);
if (result) {
wpMemArenaDestroy(&large_arena);
}
TestFuncResult test_arena_alloc_succeeds_when_within_capacity(void) {
array = wapp_mem_arena_alloc(arena, count * sizeof(i32));
b8 result = array != NULL;
return wpTesterResult(result);
for (i32 i = 0; i < count; ++i) {
array[i] = i * 10;
}
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_alloc_with_buffer(void) {
i32 *arr = (i32 *)wpMemArenaAlloc(arena, count * sizeof(i32));
b8 result = arr != NULL;
TestFuncResult test_arena_alloc_fails_when_over_capacity(void) {
u8 *bytes = wapp_mem_arena_alloc(arena, ARENA_CAPACITY * 2);
b8 result = bytes == NULL;
for (i32 i = 0; i < count; ++i) {
arr[i] = i * 10;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_alloc_succeeds_when_within_capacity(void) {
array = wpMemArenaAlloc(arena, count * sizeof(i32));
b8 result = array != NULL;
TestFuncResult test_arena_realloc_bigger_size(void) {
u64 old_count = 10;
u64 new_count = 20;
i32 *bytes = wapp_mem_arena_alloc(arena, old_count * sizeof(i32));
for (i32 i = 0; i < count; ++i) {
array[i] = i * 10;
}
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
return wpTesterResult(result);
i32 *new_bytes = wapp_mem_arena_realloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wapp_tester_result(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < old_count && new_bytes[i] != bytes[i]) {
return wapp_tester_result(false);
}
}
return wapp_tester_result(true);
}
WpTestFuncResult test_arena_alloc_fails_when_over_capacity(void) {
u8 *bytes = wpMemArenaAlloc(arena, ARENA_CAPACITY * 2);
b8 result = bytes == NULL;
TestFuncResult test_arena_realloc_smaller_size(void) {
u64 old_count = 10;
u64 new_count = 5;
i32 *bytes = wapp_mem_arena_alloc(arena, old_count * sizeof(i32));
return wpTesterResult(result);
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
i32 *new_bytes = wapp_mem_arena_realloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wapp_tester_result(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < new_count && new_bytes[i] != bytes[i]) {
return wapp_tester_result(false);
}
}
return wapp_tester_result(true);
}
WpTestFuncResult test_arena_realloc_bigger_size(void) {
u64 old_count = 10;
u64 new_count = 20;
i32 *bytes = wpMemArenaAlloc(arena, old_count * sizeof(i32));
TestFuncResult test_arena_clear(void) {
wapp_mem_arena_clear(arena);
b8 result = true;
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
for (i32 i = 0; i < count; ++i) {
if (array[i] != 0) {
result = false;
break;
}
}
i32 *new_bytes = wpMemArenaRealloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wpTesterResult(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < old_count && new_bytes[i] != bytes[i]) {
return wpTesterResult(false);
}
}
return wpTesterResult(true);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_realloc_smaller_size(void) {
u64 old_count = 10;
u64 new_count = 5;
i32 *bytes = wpMemArenaAlloc(arena, old_count * sizeof(i32));
TestFuncResult test_arena_destroy(void) {
wapp_mem_arena_destroy(&arena);
b8 result = arena == NULL;
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
i32 *new_bytes = wpMemArenaRealloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wpTesterResult(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < new_count && new_bytes[i] != bytes[i]) {
return wpTesterResult(false);
}
}
return wpTesterResult(true);
}
WpTestFuncResult test_arena_temp_begin(void) {
b8 result = wpMemArenaInitBuffer(&temp_arena, temp_buf, TEMP_BUF_SIZE);
i32 *num1 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num1 != NULL;
wpMemArenaTempBegin(temp_arena);
i32 *num2 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num2 != NULL;
i32 *num3 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num3 == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_temp_end(void) {
wpMemArenaTempEnd(temp_arena);
i32 *num1 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
b8 result = num1 != NULL;
i32 *num2 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num2 == NULL;
wpMemArenaDestroy(&temp_arena);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_clear(void) {
wpMemArenaClear(arena);
b8 result = true;
for (i32 i = 0; i < count; ++i) {
if (array[i] != 0) {
result = false;
break;
}
}
return wpTesterResult(result);
}
WpTestFuncResult test_arena_destroy_buffer(void) {
wpMemArenaDestroy(&buf_arena);
b8 result = buf_arena == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_destroy_allocated(void) {
wpMemArenaDestroy(&arena);
b8 result = arena == NULL;
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/arena/test_arena.cc
+81 -138
View File
@@ -2,167 +2,110 @@
#include "wapp.h"
#include <stdlib.h>
#define ARENA_CAPACITY KiB(16)
#define ARENA_BUF_SIZE KiB(4)
// NOTE (Abdelrahman): Cannot query size of WpArena here so it's hardcoded. Similarly, since arena
// allocation are aligned to power of 2 boundaries, the number of i32 values needed is hardcoded.
#define TEMP_BUF_SIZE (40 + sizeof(i32) * 8)
#define ARENA_CAPACITY KB(16)
wp_intern WpArena *arena = NULL;
wp_intern i32 count = 20;
wp_intern i32 *array = NULL;
wp_intern WpArena *buf_arena = NULL;
wp_intern u8 buf[ARENA_BUF_SIZE] = {};
wp_intern WpArena *temp_arena = NULL;
wp_intern u8 temp_buf[TEMP_BUF_SIZE] = {};
wapp_intern Arena *arena = nullptr;
wapp_intern i32 count = 20;
wapp_intern i32 *array = nullptr;
WpTestFuncResult test_arena_init_buffer(void) {
b8 result = wpMemArenaInitBuffer(&buf_arena, buf, ARENA_BUF_SIZE);
return wpTesterResult(result);
TestFuncResult test_arena_init(void) {
b8 result = wapp_mem_arena_init(&arena, ARENA_CAPACITY);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_init_allocated(void) {
b8 result = wpMemArenaInitAllocated(&arena, ARENA_CAPACITY);
TestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void) {
Arena *large_arena = nullptr;
u64 capacity = GB(512);
b8 result = wapp_mem_arena_init(&large_arena, capacity);
if (result) {
wapp_mem_arena_destroy(&large_arena);
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void) {
WpArena *large_arena = nullptr;
u64 capacity = GiB(512);
b8 result = wpMemArenaInitAllocated(&large_arena, capacity);
if (result) {
wpMemArenaDestroy(&large_arena);
}
TestFuncResult test_arena_alloc_succeeds_when_within_capacity(void) {
array = (i32 *)wapp_mem_arena_alloc(arena, count * sizeof(i32));
b8 result = array != nullptr;
return wpTesterResult(result);
for (i32 i = 0; i < count; ++i) {
array[i] = i * 10;
}
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_alloc_with_buffer(void) {
i32 *arr = (i32 *)wpMemArenaAlloc(arena, count * sizeof(i32));
b8 result = arr != NULL;
TestFuncResult test_arena_alloc_fails_when_over_capacity(void) {
u8 *bytes = (u8 *)wapp_mem_arena_alloc(arena, ARENA_CAPACITY * 2);
b8 result = bytes == nullptr;
for (i32 i = 0; i < count; ++i) {
arr[i] = i * 10;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_alloc_succeeds_when_within_capacity(void) {
array = (i32 *)wpMemArenaAlloc(arena, count * sizeof(i32));
b8 result = array != nullptr;
TestFuncResult test_arena_realloc_bigger_size(void) {
u64 old_count = 10;
u64 new_count = 20;
i32 *bytes = (i32 *)wapp_mem_arena_alloc(arena, old_count * sizeof(i32));
for (i32 i = 0; i < count; ++i) {
array[i] = i * 10;
}
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
return wpTesterResult(result);
i32 *new_bytes = (i32 *)wapp_mem_arena_realloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wapp_tester_result(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < old_count && new_bytes[i] != bytes[i]) {
return wapp_tester_result(false);
}
}
return wapp_tester_result(true);
}
WpTestFuncResult test_arena_alloc_fails_when_over_capacity(void) {
u8 *bytes = (u8 *)wpMemArenaAlloc(arena, ARENA_CAPACITY * 2);
b8 result = bytes == nullptr;
TestFuncResult test_arena_realloc_smaller_size(void) {
u64 old_count = 10;
u64 new_count = 5;
i32 *bytes = (i32 *)wapp_mem_arena_alloc(arena, old_count * sizeof(i32));
return wpTesterResult(result);
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
i32 *new_bytes = (i32 *)wapp_mem_arena_realloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wapp_tester_result(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < new_count && new_bytes[i] != bytes[i]) {
return wapp_tester_result(false);
}
}
return wapp_tester_result(true);
}
WpTestFuncResult test_arena_realloc_bigger_size(void) {
u64 old_count = 10;
u64 new_count = 20;
i32 *bytes = (i32 *)wpMemArenaAlloc(arena, old_count * sizeof(i32));
TestFuncResult test_arena_clear(void) {
wapp_mem_arena_clear(arena);
b8 result = true;
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
for (i32 i = 0; i < count; ++i) {
if (array[i] != 0) {
result = false;
break;
}
}
i32 *new_bytes = (i32 *)wpMemArenaRealloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wpTesterResult(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < old_count && new_bytes[i] != bytes[i]) {
return wpTesterResult(false);
}
}
return wpTesterResult(true);
return wapp_tester_result(result);
}
WpTestFuncResult test_arena_realloc_smaller_size(void) {
u64 old_count = 10;
u64 new_count = 5;
i32 *bytes = (i32 *)wpMemArenaAlloc(arena, old_count * sizeof(i32));
TestFuncResult test_arena_destroy(void) {
wapp_mem_arena_destroy(&arena);
b8 result = arena == nullptr;
for (u64 i = 0; i < old_count; ++i) {
bytes[i] = (i32)i;
}
i32 *new_bytes = (i32 *)wpMemArenaRealloc(arena, bytes, old_count * sizeof(i32), new_count * sizeof(i32));
if (!new_bytes) {
return wpTesterResult(false);
}
for (u64 i = 0; i < new_count; ++i) {
if (i < new_count && new_bytes[i] != bytes[i]) {
return wpTesterResult(false);
}
}
return wpTesterResult(true);
}
WpTestFuncResult test_arena_temp_begin(void) {
b8 result = wpMemArenaInitBuffer(&temp_arena, temp_buf, TEMP_BUF_SIZE);
i32 *num1 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num1 != NULL;
wpMemArenaTempBegin(temp_arena);
i32 *num2 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num2 != NULL;
i32 *num3 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num3 == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_temp_end(void) {
wpMemArenaTempEnd(temp_arena);
i32 *num1 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
b8 result = num1 != NULL;
i32 *num2 = (i32 *)wpMemArenaAlloc(temp_arena, sizeof(i32));
result = result && num2 == NULL;
wpMemArenaDestroy(&temp_arena);
return wpTesterResult(result);
}
WpTestFuncResult test_arena_clear(void) {
wpMemArenaClear(arena);
b8 result = true;
for (i32 i = 0; i < count; ++i) {
if (array[i] != 0) {
result = false;
break;
}
}
return wpTesterResult(result);
}
WpTestFuncResult test_arena_destroy_buffer(void) {
wpMemArenaDestroy(&buf_arena);
b8 result = buf_arena == NULL;
return wpTesterResult(result);
}
WpTestFuncResult test_arena_destroy_allocated(void) {
wpMemArenaDestroy(&arena);
b8 result = arena == nullptr;
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/arena/test_arena.h
+8 -13
View File
@@ -3,18 +3,13 @@
#include "wapp.h"
WpTestFuncResult test_arena_init_buffer(void);
WpTestFuncResult test_arena_init_allocated(void);
WpTestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void);
WpTestFuncResult test_arena_alloc_with_buffer(void);
WpTestFuncResult test_arena_alloc_succeeds_when_within_capacity(void);
WpTestFuncResult test_arena_alloc_fails_when_over_capacity(void);
WpTestFuncResult test_arena_realloc_bigger_size(void);
WpTestFuncResult test_arena_realloc_smaller_size(void);
WpTestFuncResult test_arena_clear(void);
WpTestFuncResult test_arena_temp_begin(void);
WpTestFuncResult test_arena_temp_end(void);
WpTestFuncResult test_arena_destroy_buffer(void);
WpTestFuncResult test_arena_destroy_allocated(void);
TestFuncResult test_arena_init(void);
TestFuncResult test_arena_init_succeeds_when_reserving_very_large_size(void);
TestFuncResult test_arena_alloc_succeeds_when_within_capacity(void);
TestFuncResult test_arena_alloc_fails_when_over_capacity(void);
TestFuncResult test_arena_realloc_bigger_size(void);
TestFuncResult test_arena_realloc_smaller_size(void);
TestFuncResult test_arena_clear(void);
TestFuncResult test_arena_destroy(void);
#endif // !TEST_ARENA_H
tests/array/test_i32_array.c
+178 -181
View File
@@ -1,273 +1,270 @@
#include "test_i32_array.h"
#include "wapp.h"
WpTestFuncResult test_i32_array(void) {
b8 result;
TestFuncResult test_i32_array(void) {
b8 result;
WpI32Array array = wpArray(i32, 1, 2, 3, 4, 5, 6, 7);
result = wpArrayCount(array) == 7 && wpArrayCapacity(array) == 16;
I32Array array = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7);
result = array.count == 7 && array.capacity == 16;
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(i32, array, index);
result = result && item && *item == (i32)(index + 1);
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(i32, &array, index);
result = result && item && *item == (i32)(index + 1);
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_with_capacity(void) {
b8 result;
TestFuncResult test_i32_array_with_capacity(void) {
b8 result;
WpI32Array array1 = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_NONE);
result = wpArrayCount(array1) == 0 && wpArrayCapacity(array1) == 64;
I32Array array = wapp_array_with_capacity(i32, I32Array, 64);
result = array.count == 0 && array.capacity == 64;
WpI32Array array2 = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_FILLED);
result = wpArrayCount(array2) == 64 && wpArrayCapacity(array2) == 64;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_get(void) {
b8 result = true;
TestFuncResult test_i32_array_get(void) {
b8 result = true;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(i32, array, index);
result = result && item && *item == (i32)index;
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(i32, &array, index);
result = result && item && *item == (i32)index;
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_set(void) {
b8 result = true;
TestFuncResult test_i32_array_set(void) {
b8 result = true;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)(index * 2);
wpArraySet(i32, array, index, &num);
item = wpArrayGet(i32, array, index);
result = result && item && *item == (i32)(index * 2);
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)(index * 2);
wapp_array_set(i32, &array, index, &num);
item = wapp_array_get(i32, &array, index);
result = result && item && *item == (i32)(index * 2);
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_append_capped(void) {
b8 result;
TestFuncResult test_i32_array_append_capped(void) {
b8 result;
WpI32Array array = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_NONE);
wpArrayAppendCapped(i32, array, &((i32){10}));
I32Array array = wapp_array_with_capacity(i32, I32Array, 64);
wapp_array_append_capped(i32, &array, &((i32){10}));
result = wpArrayCount(array) == 1;
i32 *item = wpArrayGet(i32, array, 0);
result = result && item && *item == 10;
result = array.count == 1;
i32 *item = wapp_array_get(i32, &array, 0);
result = result && item && *item == 10;
array = wpArray(i32, 1);
wpArrayAppendCapped(i32, array, &((i32){10}));
array = wapp_array(i32, I32Array, 1);
wapp_array_append_capped(i32, &array, &((i32){10}));
result = result && wpArrayCount(array) == 2;
result = result && array.count == 2;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_extend_capped(void) {
b8 result;
TestFuncResult test_i32_array_extend_capped(void) {
b8 result;
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4);
WpI32Array array2 = wpArray(i32, 10, 20);
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4);
I32Array array2 = wapp_array(i32, I32Array, 10, 20);
result = wpArrayCount(array1) == 4 && wpArrayCount(array2) == 2;
result = array1.count == 4 && array2.count == 2;
wpArrayExtendCapped(i32, array1, array2);
wapp_array_extend_capped(i32, &array1, &array2);
result = result && wpArrayCount(array1) == 6;
result = result && array1.count == 6;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_copy_capped(void) {
b8 result;
TestFuncResult test_i32_array_copy_capped(void) {
b8 result;
WpI32Array src = wpArray(i32, 1, 2, 3, 4, 5);
WpI32Array dst1 = wpArray(i32, 1, 2, 3, 4, 5, 6);
WpI32Array dst2 = wpArray(i32, 1, 2);
I32Array src = wapp_array(i32, I32Array, 1, 2, 3, 4, 5);
I32Array dst1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6);
I32Array dst2 = wapp_array(i32, I32Array, 1, 2);
u64 expected_count = 5;
wpArrayCopyCapped(i32, dst1, src);
result = wpArrayCount(dst1) == expected_count;
u64 expected_count = 5;
wapp_array_copy_capped(i32, &dst1, &src);
result = dst1.count == expected_count;
u64 index = 0;
b8 running = true;
while (running) {
result = result && *wpArrayGet(i32, src, index) == *wpArrayGet(i32, dst1, index);
u64 index = 0;
b8 running = true;
while (running) {
result = result && *wapp_array_get(i32, &src, index) == *wapp_array_get(i32, &dst1, index);
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
expected_count = 4;
wpArrayCopyCapped(i32, dst2, src);
result = result && wpArrayCount(dst2) == expected_count;
expected_count = 4;
wapp_array_copy_capped(i32, &dst2, &src);
result = result && dst2.count == expected_count;
index = 0;
running = true;
while (running) {
result = result && *wpArrayGet(i32, src, index) == *wpArrayGet(i32, dst2, index);
index = 0;
running = true;
while (running) {
result = result && *wapp_array_get(i32, &src, index) == *wapp_array_get(i32, &dst2, index);
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_alloc_capacity(void) {
b8 result;
TestFuncResult test_i32_array_alloc_capacity(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
u64 capacity = 32;
WpI32Array array = wpArrayAllocCapacity(i32, &allocator, capacity, WP_ARRAY_INIT_NONE);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
u64 capacity = 32;
I32Array *array = wapp_array_alloc_capacity(i32, I32Array, &allocator, capacity);
result = array && wpArrayCapacity(array) == capacity;
result = array && array->capacity == capacity;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_append_alloc(void) {
b8 result;
TestFuncResult test_i32_array_append_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArray(i32, 1, 2);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array(i32, I32Array, 1, 2);
WpI32Array arr_ptr = wpArrayAppendAlloc(i32, &allocator, array1, &((i32){10}), WP_ARRAY_INIT_NONE);
result = arr_ptr == array1;
I32Array *arr_ptr = wapp_array_append_alloc(i32, I32Array, &allocator, &array1, &((i32){10}));
result = arr_ptr == &array1;
u64 count = 4;
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)index;
arr_ptr = wpArrayAppendAlloc(i32, &allocator, array2, &num, WP_ARRAY_INIT_NONE);
u64 count = 4;
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)index;
arr_ptr = wapp_array_append_alloc(i32, I32Array, &allocator, &array2, &num);
++index;
running = index < count;
}
result = result && arr_ptr != array2;
++index;
running = index < count;
}
result = result && arr_ptr != &array2;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_extend_alloc(void) {
b8 result;
TestFuncResult test_i32_array_extend_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArray(i32, 1, 2);
WpI32Array array3 = wpArray(i32, 1, 2, 3, 4);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array(i32, I32Array, 1, 2);
I32Array array3 = wapp_array(i32, I32Array, 1, 2, 3, 4);
WpI32Array arr_ptr = wpArrayExtendAlloc(i32, &allocator, array1, array3, WP_ARRAY_INIT_NONE);
result = arr_ptr == array1;
I32Array *arr_ptr = wapp_array_extend_alloc(i32, I32Array, &allocator, &array1, &array3);
result = arr_ptr == &array1;
arr_ptr = wpArrayExtendAlloc(i32, &allocator, array2, array3, WP_ARRAY_INIT_NONE);
result = result && arr_ptr != array2;
arr_ptr = wapp_array_extend_alloc(i32, I32Array, &allocator, &array2, &array3);
result = result && arr_ptr != &array2;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_copy_alloc(void) {
b8 result;
TestFuncResult test_i32_array_copy_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array src = wpArray(i32, 1, 2, 3, 4, 5);
WpI32Array dst1 = wpArray(i32, 1, 2, 3, 4, 5, 6);
WpI32Array dst2 = wpArray(i32, 1, 2);
WpI32Array array = NULL;
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array src = wapp_array(i32, I32Array, 1, 2, 3, 4, 5);
I32Array dst1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6);
I32Array dst2 = wapp_array(i32, I32Array, 1, 2);
I32Array *array_ptr = NULL;
u64 expected_count = 5;
array = wpArrayCopyAlloc(i32, &allocator, dst1, src, WP_ARRAY_INIT_NONE);
result = wpArrayCount(array) == expected_count && array == dst1;
u64 expected_count = 5;
array_ptr = wapp_array_copy_alloc(i32, I32Array, &allocator, &dst1, &src);
result = array_ptr->count == expected_count && array_ptr == &dst1;
u64 index = 0;
b8 running = true;
while (running) {
result = result && *wpArrayGet(i32, src, index) == *wpArrayGet(i32, array, index);
u64 index = 0;
b8 running = true;
while (running) {
result = result && *wapp_array_get(i32, &src, index) == *wapp_array_get(i32, array_ptr, index);
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
expected_count = 5;
array = wpArrayCopyAlloc(i32, &allocator, dst2, src, WP_ARRAY_INIT_NONE);
result = result && wpArrayCount(array) == expected_count && array != dst2;
expected_count = 5;
array_ptr = wapp_array_copy_alloc(i32, I32Array, &allocator, &dst2, &src);
result = result && array_ptr->count == expected_count && array_ptr != &dst2;
index = 0;
running = true;
while (running) {
result = result && *wpArrayGet(i32, src, index) == *wpArrayGet(i32, array, index);
index = 0;
running = true;
while (running) {
result = result && *wapp_array_get(i32, &src, index) == *wapp_array_get(i32, array_ptr, index);
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_pop(void) {
b8 result;
TestFuncResult test_i32_array_pop(void) {
b8 result;
WpI32Array array1 = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArrayWithCapacity(i32, 32, WP_ARRAY_INIT_NONE);
I32Array array1 = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array_with_capacity(i32, I32Array, 32);
i32 item1 = wpArrayPop(i32, array1);
i32 item2 = wpArrayPop(i32, array2);
i32 item1 = wapp_array_pop(i32, &array1);
i32 item2 = wapp_array_pop(i32, &array2);
result = item1 == 8 && item2 == 0;
result = item1 == 8 && item2 == 0;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_clear(void) {
b8 result;
TestFuncResult test_i32_array_clear(void) {
b8 result;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
result = wpArrayCount(array) == 9;
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
result = array.count == 9;
wpArrayClear(i32, array);
wapp_array_clear(i32, &array);
result = result && wpArrayCount(array) == 0;
result = result && array.count == 0;
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/array/test_i32_array.cc
+181 -184
View File
@@ -1,276 +1,273 @@
#include "test_i32_array.h"
#include "wapp.h"
WpTestFuncResult test_i32_array(void) {
b8 result;
TestFuncResult test_i32_array(void) {
b8 result;
WpI32Array array = wpArray(i32, 1, 2, 3, 4, 5, 6, 7);
result = wpArrayCount(array) == 7 && wpArrayCapacity(array) == 16;
I32Array array = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7);
result = array.count == 7 && array.capacity == 16;
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(i32, array, index);
result = result && item && (*item == (i32)(index + 1));
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(i32, &array, index);
result = result && item && (*item == (i32)(index + 1));
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_with_capacity(void) {
b8 result;
TestFuncResult test_i32_array_with_capacity(void) {
b8 result;
WpI32Array array1 = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_NONE);
result = wpArrayCount(array1) == 0 && wpArrayCapacity(array1) == 64;
I32Array array = wapp_array_with_capacity(i32, I32Array, 64);
result = array.count == 0 && array.capacity == 64;
WpI32Array array2 = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_FILLED);
result = wpArrayCount(array2) == 64 && wpArrayCapacity(array2) == 64;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_get(void) {
b8 result = true;
TestFuncResult test_i32_array_get(void) {
b8 result = true;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(i32, array, index);
result = result && item && (*item == (i32)index);
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(i32, &array, index);
result = result && item && (*item == (i32)index);
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_set(void) {
b8 result = true;
TestFuncResult test_i32_array_set(void) {
b8 result = true;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
i32 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)(index * 2);
wpArraySet(i32, array, index, &num);
item = wpArrayGet(i32, array, index);
result = result && item && (*item == (i32)(index * 2));
i32 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
i32 num = (i32)(index * 2);
wapp_array_set(i32, &array, index, &num);
item = wapp_array_get(i32, &array, index);
result = result && item && (*item == (i32)(index * 2));
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_append_capped(void) {
b8 result;
TestFuncResult test_i32_array_append_capped(void) {
b8 result;
WpI32Array array = wpArrayWithCapacity(i32, 64, WP_ARRAY_INIT_NONE);
i32 item1 = 10;
wpArrayAppendCapped(i32, array, &item1);
I32Array array = wapp_array_with_capacity(i32, I32Array, 64);
i32 item1 = 10;
wapp_array_append_capped(i32, &array, &item1);
result = wpArrayCount(array) == 1;
i32 *item = wpArrayGet(i32, array, 0);
result = result && item && *item == 10;
result = array.count == 1;
i32 *item = wapp_array_get(i32, &array, 0);
result = result && item && *item == 10;
array = wpArray(i32, 1);
i32 item2 = 10;
wpArrayAppendCapped(i32, array, &item2);
array = wapp_array(i32, I32Array, 1);
i32 item2 = 10;
wapp_array_append_capped(i32, &array, &item2);
result = result && wpArrayCount(array) == 2;
result = result && array.count == 2;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_extend_capped(void) {
b8 result;
TestFuncResult test_i32_array_extend_capped(void) {
b8 result;
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4);
WpI32Array array2 = wpArray(i32, 10, 20);
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4);
I32Array array2 = wapp_array(i32, I32Array, 10, 20);
result = wpArrayCount(array1) == 4 && wpArrayCount(array2) == 2;
result = array1.count == 4 && array2.count == 2;
wpArrayExtendCapped(i32, array1, array2);
wapp_array_extend_capped(i32, &array1, &array2);
result = result && wpArrayCount(array1) == 6;
result = result && array1.count == 6;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_copy_capped(void) {
b8 result;
TestFuncResult test_i32_array_copy_capped(void) {
b8 result;
WpI32Array src = wpArray(i32, 1, 2, 3, 4, 5);
WpI32Array dst1 = wpArray(i32, 1, 2, 3, 4, 5, 6);
WpI32Array dst2 = wpArray(i32, 1, 2);
I32Array src = wapp_array(i32, I32Array, 1, 2, 3, 4, 5);
I32Array dst1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6);
I32Array dst2 = wapp_array(i32, I32Array, 1, 2);
u64 expected_count = 5;
wpArrayCopyCapped(i32, dst1, src);
result = wpArrayCount(dst1) == expected_count;
u64 expected_count = 5;
wapp_array_copy_capped(i32, &dst1, &src);
result = dst1.count == expected_count;
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wpArrayGet(i32, src, index) == *wpArrayGet(i32, dst1, index));
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wapp_array_get(i32, &src, index) == *wapp_array_get(i32, &dst1, index));
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
expected_count = 4;
wpArrayCopyCapped(i32, dst2, src);
result = result && wpArrayCount(dst2) == expected_count;
expected_count = 4;
wapp_array_copy_capped(i32, &dst2, &src);
result = result && dst2.count == expected_count;
index = 0;
running = true;
while (running) {
result = result && (*wpArrayGet(i32, src, index) == *wpArrayGet(i32, dst2, index));
index = 0;
running = true;
while (running) {
result = result && (*wapp_array_get(i32, &src, index) == *wapp_array_get(i32, &dst2, index));
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_alloc_capacity(void) {
b8 result;
TestFuncResult test_i32_array_alloc_capacity(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
u64 capacity = 32;
WpI32Array array = wpArrayAllocCapacity(i32, &allocator, capacity, WP_ARRAY_INIT_NONE);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
u64 capacity = 32;
I32Array *array = wapp_array_alloc_capacity(i32, I32Array, &allocator, capacity);
result = array && wpArrayCapacity(array) == capacity;
result = array && array->capacity == capacity;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_append_alloc(void) {
b8 result;
TestFuncResult test_i32_array_append_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArray(i32, 1, 2);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array(i32, I32Array, 1, 2);
i32 num = 10;
WpI32Array arr_ptr = wpArrayAppendAlloc(i32, &allocator, array1, &num, WP_ARRAY_INIT_NONE);
result = arr_ptr == array1;
i32 num = 10;
I32Array *arr_ptr = wapp_array_append_alloc(i32, I32Array, &allocator, &array1, &num);
result = arr_ptr == &array1;
u64 count = 4;
u64 index = 0;
b8 running = true;
while (running) {
num = (i32)index;
arr_ptr = wpArrayAppendAlloc(i32, &allocator, array2, &num, WP_ARRAY_INIT_NONE);
u64 count = 4;
u64 index = 0;
b8 running = true;
while (running) {
num = (i32)index;
arr_ptr = wapp_array_append_alloc(i32, I32Array, &allocator, &array2, &num);
++index;
running = index < count;
}
result = result && arr_ptr != array2;
++index;
running = index < count;
}
result = result && arr_ptr != &array2;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_extend_alloc(void) {
b8 result;
TestFuncResult test_i32_array_extend_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array array1 = wpArray(i32, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArray(i32, 1, 2);
WpI32Array array3 = wpArray(i32, 1, 2, 3, 4);
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array array1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array(i32, I32Array, 1, 2);
I32Array array3 = wapp_array(i32, I32Array, 1, 2, 3, 4);
WpI32Array array = wpArrayExtendAlloc(i32, &allocator, array1, array3, WP_ARRAY_INIT_NONE);
result = array == array1;
I32Array *arr_ptr = wapp_array_extend_alloc(i32, I32Array, &allocator, &array1, &array3);
result = arr_ptr == &array1;
array = wpArrayExtendAlloc(i32, &allocator, array2, array3, WP_ARRAY_INIT_NONE);
result = result && array != array2;
arr_ptr = wapp_array_extend_alloc(i32, I32Array, &allocator, &array2, &array3);
result = result && arr_ptr != &array2;
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_copy_alloc(void) {
b8 result;
TestFuncResult test_i32_array_copy_alloc(void) {
b8 result;
WpAllocator allocator = wpMemArenaAllocatorInit(MiB(4));
WpI32Array src = wpArray(i32, 1, 2, 3, 4, 5);
WpI32Array dst1 = wpArray(i32, 1, 2, 3, 4, 5, 6);
WpI32Array dst2 = wpArray(i32, 1, 2);
WpI32Array array = nullptr;
Allocator allocator = wapp_mem_arena_allocator_init(MB(4));
I32Array src = wapp_array(i32, I32Array, 1, 2, 3, 4, 5);
I32Array dst1 = wapp_array(i32, I32Array, 1, 2, 3, 4, 5, 6);
I32Array dst2 = wapp_array(i32, I32Array, 1, 2);
I32Array *array_ptr = nullptr;
u64 expected_count = 5;
array = wpArrayCopyAlloc(i32, &allocator, dst1, src, WP_ARRAY_INIT_NONE);
result = wpArrayCount(array) == expected_count && array == dst1;
u64 expected_count = 5;
array_ptr = wapp_array_copy_alloc(i32, I32Array, &allocator, &dst1, &src);
result = array_ptr->count == expected_count && array_ptr == &dst1;
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wpArrayGet(i32, src, index) == *wpArrayGet(i32, array, index));
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wapp_array_get(i32, &src, index) == *wapp_array_get(i32, array_ptr, index));
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
expected_count = 5;
array = wpArrayCopyAlloc(i32, &allocator, dst2, src, WP_ARRAY_INIT_NONE);
result = result && wpArrayCount(array) == expected_count && array != dst2;
expected_count = 5;
array_ptr = wapp_array_copy_alloc(i32, I32Array, &allocator, &dst2, &src);
result = result && array_ptr->count == expected_count && array_ptr != &dst2;
index = 0;
running = true;
while (running) {
result = result && (*wpArrayGet(i32, src, index) == *wpArrayGet(i32, array, index));
index = 0;
running = true;
while (running) {
result = result && (*wapp_array_get(i32, &src, index) == *wapp_array_get(i32, array_ptr, index));
++index;
running = index < expected_count;
}
++index;
running = index < expected_count;
}
wpMemArenaAllocatorDestroy(&allocator);
wapp_mem_arena_allocator_destroy(&allocator);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_clear(void) {
b8 result;
TestFuncResult test_i32_array_clear(void) {
b8 result;
WpI32Array array = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
result = wpArrayCount(array) == 9;
I32Array array = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
result = array.count == 9;
wpArrayClear(i32, array);
wapp_array_clear(i32, &array);
result = result && wpArrayCount(array) == 0;
result = result && array.count == 0;
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_i32_array_pop(void) {
b8 result;
TestFuncResult test_i32_array_pop(void) {
b8 result;
WpI32Array array1 = wpArray(i32, 0, 1, 2, 3, 4, 5, 6, 7, 8);
WpI32Array array2 = wpArrayWithCapacity(i32, 32, WP_ARRAY_INIT_NONE);
I32Array array1 = wapp_array(i32, I32Array, 0, 1, 2, 3, 4, 5, 6, 7, 8);
I32Array array2 = wapp_array_with_capacity(i32, I32Array, 32);
i32 item1 = wpArrayPop(i32, array1);
i32 item2 = wpArrayPop(i32, array2);
i32 item1 = wapp_array_pop(i32, &array1);
i32 item2 = wapp_array_pop(i32, &array2);
result = item1 == 8 && item2 == 0;
result = item1 == 8 && item2 == 0;
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/array/test_i32_array.h
+13 -13
View File
@@ -3,18 +3,18 @@
#include "wapp.h"
WpTestFuncResult test_i32_array(void);
WpTestFuncResult test_i32_array_with_capacity(void);
WpTestFuncResult test_i32_array_get(void);
WpTestFuncResult test_i32_array_set(void);
WpTestFuncResult test_i32_array_append_capped(void);
WpTestFuncResult test_i32_array_extend_capped(void);
WpTestFuncResult test_i32_array_copy_capped(void);
WpTestFuncResult test_i32_array_alloc_capacity(void);
WpTestFuncResult test_i32_array_append_alloc(void);
WpTestFuncResult test_i32_array_extend_alloc(void);
WpTestFuncResult test_i32_array_copy_alloc(void);
WpTestFuncResult test_i32_array_pop(void);
WpTestFuncResult test_i32_array_clear(void);
TestFuncResult test_i32_array(void);
TestFuncResult test_i32_array_with_capacity(void);
TestFuncResult test_i32_array_get(void);
TestFuncResult test_i32_array_set(void);
TestFuncResult test_i32_array_append_capped(void);
TestFuncResult test_i32_array_extend_capped(void);
TestFuncResult test_i32_array_copy_capped(void);
TestFuncResult test_i32_array_alloc_capacity(void);
TestFuncResult test_i32_array_append_alloc(void);
TestFuncResult test_i32_array_extend_alloc(void);
TestFuncResult test_i32_array_copy_alloc(void);
TestFuncResult test_i32_array_pop(void);
TestFuncResult test_i32_array_clear(void);
#endif // !TEST_INT_ARRAY_H
tests/array/test_str8_array.c
+16 -16
View File
@@ -2,24 +2,24 @@
#include "test_str8_array.h"
WpTestFuncResult test_str8_array(void) {
b8 result;
TestFuncResult test_str8_array(void) {
b8 result;
WpStr8 expected[] = {wpStr8Lit("Hello"), wpStr8Lit("Hi"), wpStr8Lit("Bye")};
WpStr8Array array = wpArray(WpStr8, wpStr8Lit("Hello"), wpStr8Lit("Hi"), wpStr8Lit("Bye"));
result = wpArrayCount(array) == 3 && wpArrayCapacity(array) == 8;
Str8 expected[] = {wapp_str8_lit("Hello"), wapp_str8_lit("Hi"), wapp_str8_lit("Bye")};
Str8Array array = wapp_array(Str8, Str8Array, wapp_str8_lit("Hello"), wapp_str8_lit("Hi"), wapp_str8_lit("Bye"));
result = array.count == 3 && array.capacity == 8;
WpStr8 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(WpStr8, array, index);
result = result && item && (wpStr8Equal(item, &expected[index]));
Str8 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(Str8, &array, index);
result = result && item && (wapp_str8_equal(item, &expected[index]));
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/array/test_str8_array.cc
+19 -19
View File
@@ -2,29 +2,29 @@
#include "test_str8_array.h"
WpTestFuncResult test_str8_array(void) {
b8 result;
TestFuncResult test_str8_array(void) {
b8 result;
WpStr8 expected[] = {wpStr8Lit("Hello"), wpStr8Lit("Hi"), wpStr8Lit("Bye")};
Str8 expected[] = {wapp_str8_lit("Hello"), wapp_str8_lit("Hi"), wapp_str8_lit("Bye")};
WpStr8 str1 = wpStr8Lit("Hello");
WpStr8 str2 = wpStr8Lit("Hi");
WpStr8 str3 = wpStr8Lit("Bye");
WpStr8Array array = wpArray(WpStr8, str1, str2, str3);
Str8 str1 = wapp_str8_lit("Hello");
Str8 str2 = wapp_str8_lit("Hi");
Str8 str3 = wapp_str8_lit("Bye");
Str8Array array = wapp_array(Str8, Str8Array, str1, str2, str3);
result = wpArrayCount(array) == 3 && wpArrayCapacity(array) == 8;
result = array.count == 3 && array.capacity == 8;
WpStr8 *item;
u64 count = wpArrayCount(array);
u64 index = 0;
b8 running = true;
while (running) {
item = wpArrayGet(WpStr8, array, index);
result = result && item && (wpStr8Equal(item, &expected[index]));
Str8 *item;
u64 count = array.count;
u64 index = 0;
b8 running = true;
while (running) {
item = wapp_array_get(Str8, &array, index);
result = result && item && (wapp_str8_equal(item, &expected[index]));
++index;
running = index < count;
}
++index;
running = index < count;
}
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/array/test_str8_array.h
+1 -1
View File
@@ -5,6 +5,6 @@
#include "wapp.h"
WpTestFuncResult test_str8_array(void);
TestFuncResult test_str8_array(void);
#endif // !TEST_STR8_ARRAY_H
tests/cpath/test_cpath.c
+117 -117
View File
@@ -6,176 +6,176 @@
#define MAIN_BUF_SIZE 4096
#define TMP_BUF_SIZE 1024
WpTestFuncResult test_cpath_join_path(void) {
b8 result;
TestFuncResult test_cpath_join_path(void) {
b8 result;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 out = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 out = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
wpStr8Format(&expected, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wapp_str8_format(&expected, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
WpStr8List parts = wpDblList(WpStr8);
wpDblListPushBack(WpStr8, &parts, &tmp);
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit("home"));
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit("abdelrahman"));
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit("Documents"));
Str8List parts = wapp_dbl_list(Str8, Str8List);
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_str8(tmp));
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr("home"));
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr("abdelrahman"));
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr("Documents"));
wpCpathJoinPath(&out, &parts);
result = wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = wapp_str8_equal(&out, &expected);
wpDblListPopFront(WpStr8, &parts);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wpStr8Format(&expected, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpStr8ConcatCapped(&tmp, &wpStr8LitRo("home"));
wpDblListPopFront(WpStr8, &parts);
wpDblListPushFront(WpStr8, &parts, &tmp);
wapp_str8_concat_capped(&tmp, &wapp_str8_lit_ro("home"));
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wapp_dbl_list_push_front(Str8, &parts, &wapp_str8_node_from_str8(tmp));
wpStr8Format(&expected, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpStr8Format(&tmp, "home%c", WP_PATH_SEP);
wpDblListPopFront(WpStr8, &parts);
wpDblListPushFront(WpStr8, &parts, &wpStr8Lit("home"));
wapp_str8_format(&tmp, "home%c", WAPP_PATH_SEP);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wapp_dbl_list_push_front(Str8, &parts, &wapp_str8_node_from_cstr("home"));
wpStr8Format(&expected, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListEmpty(WpStr8, &parts);
wapp_dbl_list_empty(Str8, &parts);
wpStr8Format(&tmp, "%chome", WP_PATH_SEP);
wpDblListPushBack(WpStr8, &parts, &tmp);
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit(""));
wapp_str8_format(&tmp, "%chome", WAPP_PATH_SEP);
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_str8(tmp));
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr(""));
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListPopFront(WpStr8, &parts);
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit(""));
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr(""));
wpStr8Format(&expected, "%s", "");
wapp_str8_format(&expected, "%s", "");
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListPopBack(WpStr8, &parts);
wpDblListPushBack(WpStr8, &parts, &wpStr8Lit("home"));
wapp_dbl_list_pop_back(Str8, Str8Node, &parts);
wapp_dbl_list_push_back(Str8, &parts, &wapp_str8_node_from_cstr("home"));
wpStr8CopyCstrCapped(&expected, "home");
wapp_str8_copy_cstr_capped(&expected, "home");
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_cpath_dirname(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(8));
if (wpMemAllocatorInvalid(&arena)) {
return wpTesterResult(false);
}
TestFuncResult test_cpath_dirname(void) {
Allocator arena = wapp_mem_arena_allocator_init(MB(8));
if (wapp_mem_allocator_invalid(&arena)) {
return wapp_tester_result(false);
}
b8 result;
WpStr8 *output = NULL;
b8 result;
Str8 *output = NULL;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
// CASE 1
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 1
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = output != NULL && wapp_str8_equal(output, &expected);
// CASE 2
wpStr8Format(&expected, "%s", ".");
// CASE 2
wapp_str8_format(&expected, "%s", ".");
output = wpCpathDirname(&arena, &wpStr8Lit("home"));
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &wapp_str8_lit("home"));
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 3
output = wpCpathDirname(&arena, &wpStr8Lit(""));
result = result && output != NULL && wpStr8Equal(output, &expected);
// CASE 3
output = wapp_cpath_dirname(&arena, &wapp_str8_lit(""));
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 4
wpStr8Format(&tmp, "%chome%ctest", WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 4
wapp_str8_format(&tmp, "%chome%ctest", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 5
wpStr8Format(&tmp, "%chome%ctest%c", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 5
wapp_str8_format(&tmp, "%chome%ctest%c", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = result && output != NULL && wapp_str8_equal(output, &expected);
wpMemArenaAllocatorDestroy(&arena);
wapp_mem_arena_allocator_destroy(&arena);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_cpath_dirup(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(8));
if (wpMemAllocatorInvalid(&arena)) {
return wpTesterResult(false);
}
TestFuncResult test_cpath_dirup(void) {
Allocator arena = wapp_mem_arena_allocator_init(MB(8));
if (wapp_mem_allocator_invalid(&arena)) {
return wapp_tester_result(false);
}
b8 result;
WpStr8 *output = NULL;
b8 result;
Str8 *output = NULL;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
// CASE 1
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 1
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 3);
result = output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = output != NULL && wapp_str8_equal(output, &expected);
// CASE 2
wpStr8Format(&tmp, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 2
wapp_str8_format(&tmp, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 3);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 3
wpStr8Format(&tmp, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wpStr8CopyCstrCapped(&expected, ".");
// CASE 3
wapp_str8_format(&tmp, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_copy_cstr_capped(&expected, ".");
output = wpCpathDirup(&arena, &tmp, 3);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 4
wpStr8Format(&tmp, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 4
wapp_str8_format(&tmp, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 2);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 2);
result = result && output != NULL && wapp_str8_equal(output, &expected);
// CASE 5
wpStr8Format(&tmp, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wpStr8CopyCstrCapped(&expected, "home");
// CASE 5
wapp_str8_format(&tmp, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_copy_cstr_capped(&expected, "home");
output = wpCpathDirup(&arena, &tmp, 2);
result = result && output != NULL && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 2);
result = result && output != NULL && wapp_str8_equal(output, &expected);
wpMemArenaAllocatorDestroy(&arena);
wapp_mem_arena_allocator_destroy(&arena);
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/cpath/test_cpath.cc
+130 -127
View File
@@ -6,196 +6,199 @@
#define MAIN_BUF_SIZE 4096
#define TMP_BUF_SIZE 1024
WpTestFuncResult test_cpath_join_path(void) {
b8 result;
TestFuncResult test_cpath_join_path(void) {
b8 result;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 out = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 out = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
wpStr8Format(&expected, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wapp_str8_format(&expected, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
WpStr8List parts = wpDblList(WpStr8);
Str8List parts = wapp_dbl_list(Str8, Str8List);
wpDblListPushBack(WpStr8, &parts, &tmp);
Str8Node tmp_node = wapp_str8_node_from_str8(tmp);
wapp_dbl_list_push_back(Str8, &parts, &tmp_node);
WpStr8 home = wpStr8Lit("home");
wpDblListPushBack(WpStr8, &parts, &home);
Str8Node home_node = wapp_str8_node_from_cstr("home");
wapp_dbl_list_push_back(Str8, &parts, &home_node);
WpStr8 user = wpStr8Lit("abdelrahman");
wpDblListPushBack(WpStr8, &parts, &user);
Str8Node user_node = wapp_str8_node_from_cstr("abdelrahman");
wapp_dbl_list_push_back(Str8, &parts, &user_node);
WpStr8 docs = wpStr8Lit("Documents");
wpDblListPushBack(WpStr8, &parts, &docs);
Str8Node docs_node = wapp_str8_node_from_cstr("Documents");
wapp_dbl_list_push_back(Str8, &parts, &docs_node);
wpCpathJoinPath(&out, &parts);
result = wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = wapp_str8_equal(&out, &expected);
wpDblListPopFront(WpStr8, &parts);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wpStr8Format(&expected, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
WpStr8RO str = wpStr8LitRo("home");
wpStr8ConcatCapped(&tmp, &str);
wpDblListPopFront(WpStr8, &parts);
Str8RO str = wapp_str8_lit_ro("home");
wapp_str8_concat_capped(&tmp, &str);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
wpDblListPushFront(WpStr8, &parts, &tmp);
Str8Node tmp_node_2 = wapp_str8_node_from_str8(tmp);
wapp_dbl_list_push_front(Str8, &parts, &tmp_node_2);
wpStr8Format(&expected, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpStr8Format(&tmp, "home%c", WP_PATH_SEP);
wpDblListPopFront(WpStr8, &parts);
wapp_str8_format(&tmp, "home%c", WAPP_PATH_SEP);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
WpStr8 home_2 = wpStr8Lit("home");
wpDblListPushFront(WpStr8, &parts, &home_2);
Str8Node home_node_2 = wapp_str8_node_from_cstr("home");
wapp_dbl_list_push_front(Str8, &parts, &home_node_2);
wpStr8Format(&expected, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wapp_str8_format(&expected, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListEmpty(WpStr8, &parts);
wapp_dbl_list_empty(Str8, &parts);
wpStr8Format(&tmp, "%chome", WP_PATH_SEP);
wapp_str8_format(&tmp, "%chome", WAPP_PATH_SEP);
wpDblListPushBack(WpStr8, &parts, &tmp);
Str8Node tmp_node_3 = wapp_str8_node_from_str8(tmp);
wapp_dbl_list_push_back(Str8, &parts, &tmp_node_3);
WpStr8 empty = wpStr8Lit("");
wpDblListPushBack(WpStr8, &parts, &empty);
Str8Node empty_node = wapp_str8_node_from_cstr("");
wapp_dbl_list_push_back(Str8, &parts, &empty_node);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListPopFront(WpStr8, &parts);
wapp_dbl_list_pop_front(Str8, Str8Node, &parts);
WpStr8 empty_2 = wpStr8Lit("");
wpDblListPushBack(WpStr8, &parts, &empty_2);
Str8Node empty_node_2 = wapp_str8_node_from_cstr("");
wapp_dbl_list_push_back(Str8, &parts, &empty_node_2);
wpStr8Format(&expected, "%s", "");
wapp_str8_format(&expected, "%s", "");
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
wpDblListPopBack(WpStr8, &parts);
wapp_dbl_list_pop_back(Str8, Str8Node, &parts);
WpStr8 home_3 = wpStr8Lit("home");
wpDblListPushBack(WpStr8, &parts, &home_3);
Str8Node home_node_3 = wapp_str8_node_from_cstr("home");
wapp_dbl_list_push_back(Str8, &parts, &home_node_3);
wpStr8CopyCstrCapped(&expected, "home");
wapp_str8_copy_cstr_capped(&expected, "home");
wpCpathJoinPath(&out, &parts);
result = result && wpStr8Equal(&out, &expected);
wapp_cpath_join_path(&out, &parts);
result = result && wapp_str8_equal(&out, &expected);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_cpath_dirname(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(8));
if (wpMemAllocatorInvalid(&arena)) {
return wpTesterResult(false);
}
TestFuncResult test_cpath_dirname(void) {
Allocator arena = wapp_mem_arena_allocator_init(MB(8));
if (wapp_mem_allocator_invalid(&arena)) {
return wapp_tester_result(false);
}
b8 result;
WpStr8 *output = nullptr;
b8 result;
Str8 *output = nullptr;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
// CASE 1
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 1
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = output != nullptr && wapp_str8_equal(output, &expected);
// CASE 2
wpStr8Format(&expected, "%s", ".");
// CASE 2
wapp_str8_format(&expected, "%s", ".");
WpStr8 path = wpStr8Lit("home");
output = wpCpathDirname(&arena, &path);
result = result && output != nullptr && wpStr8Equal(output, &expected);
Str8 path = wapp_str8_lit("home");
output = wapp_cpath_dirname(&arena, &path);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 3
path = wpStr8Lit("");
output = wpCpathDirname(&arena, &path);
result = result && output != nullptr && wpStr8Equal(output, &expected);
// CASE 3
path = wapp_str8_lit("");
output = wapp_cpath_dirname(&arena, &path);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 4
wpStr8Format(&tmp, "%chome%ctest", WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 4
wapp_str8_format(&tmp, "%chome%ctest", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 5
wpStr8Format(&tmp, "%chome%ctest%c", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 5
wapp_str8_format(&tmp, "%chome%ctest%c", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirname(&arena, &tmp);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirname(&arena, &tmp);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
wpMemArenaAllocatorDestroy(&arena);
wapp_mem_arena_allocator_destroy(&arena);
return wpTesterResult(result);
return wapp_tester_result(result);
}
WpTestFuncResult test_cpath_dirup(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(8));
if (wpMemAllocatorInvalid(&arena)) {
return wpTesterResult(false);
}
TestFuncResult test_cpath_dirup(void) {
Allocator arena = wapp_mem_arena_allocator_init(MB(8));
if (wapp_mem_allocator_invalid(&arena)) {
return wapp_tester_result(false);
}
b8 result;
WpStr8 *output = nullptr;
b8 result;
Str8 *output = nullptr;
WpStr8 expected = wpStr8Buf(MAIN_BUF_SIZE);
WpStr8 tmp = wpStr8Buf(TMP_BUF_SIZE);
Str8 expected = wapp_str8_buf(MAIN_BUF_SIZE);
Str8 tmp = wapp_str8_buf(TMP_BUF_SIZE);
// CASE 1
wpStr8Format(&tmp, "%c", WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 1
wapp_str8_format(&tmp, "%c", WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 3);
result = output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = output != nullptr && wapp_str8_equal(output, &expected);
// CASE 2
wpStr8Format(&tmp, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%c", WP_PATH_SEP);
// CASE 2
wapp_str8_format(&tmp, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%c", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 3);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 3
wpStr8Format(&tmp, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wpStr8CopyCstrCapped(&expected, ".");
// CASE 3
wapp_str8_format(&tmp, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_copy_cstr_capped(&expected, ".");
output = wpCpathDirup(&arena, &tmp, 3);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 3);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 4
wpStr8Format(&tmp, "%chome%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP, WP_PATH_SEP);
wpStr8Format(&expected, "%chome", WP_PATH_SEP);
// CASE 4
wapp_str8_format(&tmp, "%chome%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_format(&expected, "%chome", WAPP_PATH_SEP);
output = wpCpathDirup(&arena, &tmp, 2);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 2);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
// CASE 5
wpStr8Format(&tmp, "home%cabdelrahman%cDocuments", WP_PATH_SEP, WP_PATH_SEP);
wpStr8CopyCstrCapped(&expected, "home");
// CASE 5
wapp_str8_format(&tmp, "home%cabdelrahman%cDocuments", WAPP_PATH_SEP, WAPP_PATH_SEP);
wapp_str8_copy_cstr_capped(&expected, "home");
output = wpCpathDirup(&arena, &tmp, 2);
result = result && output != nullptr && wpStr8Equal(output, &expected);
output = wapp_cpath_dirup(&arena, &tmp, 2);
result = result && output != nullptr && wapp_str8_equal(output, &expected);
wpMemArenaAllocatorDestroy(&arena);
wapp_mem_arena_allocator_destroy(&arena);
return wpTesterResult(result);
return wapp_tester_result(result);
}
tests/cpath/test_cpath.h
+3 -3
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@@ -3,8 +3,8 @@
#include "wapp.h"
WpTestFuncResult test_cpath_join_path(void);
WpTestFuncResult test_cpath_dirname(void);
WpTestFuncResult test_cpath_dirup(void);
TestFuncResult test_cpath_join_path(void);
TestFuncResult test_cpath_dirname(void);
TestFuncResult test_cpath_dirup(void);
#endif // !TEST_CPATH_H
tests/file/test_file.c
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// vim:fileencoding=utf-8:foldmethod=marker
#include "test_file.h"
#define DST_CAPACITY 5
wp_intern WpAllocator arena = {0};
wp_intern WpStr8RO test_filename = wpStr8LitRoInitialiserList("wapptest.bin");
wp_intern WpStr8RO new_filename = wpStr8LitRoInitialiserList("wapptest2.bin");
wp_intern WpFile *test_fp = NULL;
wp_intern WpI32Array src_array1 = wpArray(i32, 0, 1, 2, 3, 4);
wp_intern WpI32Array src_array2 = wpArray(i32, 5, 6, 7, 8, 9);
wp_intern WpI32Array src_array3 = wpArray(i32, 10, 11, 12, 13, 14);
wp_intern WpI32Array dst_array = wpArrayWithCapacity(i32, DST_CAPACITY, false);
wp_intern i32 dst_buf[DST_CAPACITY] = {0};
WpTestFuncResult test_wapp_file_open(void) {
arena = wpMemArenaAllocatorInit(KiB(16));
test_fp = wpFileOpen(&arena, &test_filename, WP_ACCESS_WRITE_EX);
return wpTesterResult(test_fp != NULL);
}
WpTestFuncResult test_wapp_file_get_current_position(void) {
i64 pos = wpFileGetCurrentPosition(test_fp);
return wpTesterResult(pos == 0);
}
WpTestFuncResult test_wapp_file_seek(void) {
wpFileWriteArray((WpArray)src_array1, test_fp, wpArrayCount(src_array1));
i64 seek_result = wpFileSeek(test_fp, 0, WP_SEEK_END);
b8 result = seek_result == (i64)(wpArrayCount(src_array1) * wpArrayItemSize(src_array1));
wpFileSeek(test_fp, 0, WP_SEEK_START);
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_get_length(void) {
i64 length = wpFileGetLength(test_fp);
return wpTesterResult(length == (i64)(wpArrayCount(src_array1) * wpArrayItemSize(src_array1)));
}
WpTestFuncResult test_wapp_file_read(void) {
wpFileSeek(test_fp, 0, WP_SEEK_START);
u64 byte_count = DST_CAPACITY * sizeof(i32);
u64 count = wpFileRead((void *)dst_buf, test_fp, byte_count);
b8 result = count == byte_count;
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
result = result && (dst_buf[index] == *wpArrayGet(i32, src_array1, index));
++index;
running = index < DST_CAPACITY;
}
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_write(void) {
wpFileSeek(test_fp, 0, WP_SEEK_END);
u64 expected_count = wpArrayCount(src_array2) * wpArrayItemSize(src_array2);
i64 count = wpFileWrite((void *)src_array2, test_fp, expected_count);
return wpTesterResult(count >= 0 && (u64)count == expected_count);
}
WpTestFuncResult test_wapp_file_read_array(void) {
wpFileSeek(test_fp, 0, WP_SEEK_START);
u64 count = wpFileReadArray((WpArray)dst_array, test_fp, wpArrayCount(src_array1));
b8 result = count == wpArrayCount(src_array1) &&
wpArrayCount(dst_array) == wpArrayCount(src_array1);
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wpArrayGet(i32, dst_array, index) == *wpArrayGet(i32, src_array1, index));
++index;
running = index < wpArrayCount(dst_array);
}
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_write_array(void) {
wpFileSeek(test_fp, 0, WP_SEEK_END);
i64 count = wpFileWriteArray((WpArray)src_array3, test_fp, wpArrayCount(src_array3));
return wpTesterResult(count >= 0 && (u64)count == wpArrayCount(src_array3));
}
WpTestFuncResult test_wapp_file_flush(void) {
i32 flush_result = wpFileFlush(test_fp);
return wpTesterResult(flush_result == 0);
}
WpTestFuncResult test_wapp_file_close(void) {
i32 close_result = wpFileClose(test_fp);
return wpTesterResult(close_result == 0);
}
WpTestFuncResult test_wapp_file_rename(void) {
i32 rename_result = wpFileRename(&test_filename, &new_filename);
return wpTesterResult(rename_result == 0);
}
WpTestFuncResult test_wapp_file_remove(void) {
i32 remove_result = wpFileRemove(&new_filename);
return wpTesterResult(remove_result == 0);
}
tests/file/test_file.cc
-122
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// vim:fileencoding=utf-8:foldmethod=marker
#include "test_file.h"
#define DST_CAPACITY 5
wp_intern WpAllocator arena = {};
wp_intern WpStr8RO test_filename = wpStr8LitRoInitialiserList("wapptest.bin");
wp_intern WpStr8RO new_filename = wpStr8LitRoInitialiserList("wapptest2.bin");
wp_intern WpFile *test_fp = NULL;
wp_intern i32 dst_buf[DST_CAPACITY] = {0};
wp_intern WpI32Array src_array1;
wp_intern WpI32Array src_array2;
wp_intern WpI32Array src_array3;
wp_intern WpI32Array dst_array ;
WpTestFuncResult test_wapp_file_open(void) {
arena = wpMemArenaAllocatorInit(KiB(16));
src_array1 = wpArray(i32, 0, 1, 2, 3, 4);
src_array2 = wpArray(i32, 5, 6, 7, 8, 9);
src_array3 = wpArray(i32, 10, 11, 12, 13, 14);
dst_array = wpArrayWithCapacity(i32, DST_CAPACITY, false);
test_fp = wpFileOpen(&arena, &test_filename, WP_ACCESS_WRITE_EX);
return wpTesterResult(test_fp != NULL);
}
WpTestFuncResult test_wapp_file_get_current_position(void) {
i64 pos = wpFileGetCurrentPosition(test_fp);
return wpTesterResult(pos == 0);
}
WpTestFuncResult test_wapp_file_seek(void) {
wpFileWriteArray((WpArray)src_array1, test_fp, wpArrayCount(src_array1));
i64 seek_result = wpFileSeek(test_fp, 0, WP_SEEK_END);
b8 result = seek_result == (i64)(wpArrayCount(src_array1) * wpArrayItemSize(src_array1));
wpFileSeek(test_fp, 0, WP_SEEK_START);
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_get_length(void) {
i64 length = wpFileGetLength(test_fp);
return wpTesterResult(length == (i64)(wpArrayCount(src_array1) * wpArrayItemSize(src_array1)));
}
WpTestFuncResult test_wapp_file_read(void) {
wpFileSeek(test_fp, 0, WP_SEEK_START);
u64 byte_count = DST_CAPACITY * sizeof(i32);
u64 count = wpFileRead((void *)dst_buf, test_fp, byte_count);
b8 result = count == byte_count;
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
result = result && (dst_buf[index] == *wpArrayGet(i32, src_array1, index));
++index;
running = index < DST_CAPACITY;
}
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_write(void) {
wpFileSeek(test_fp, 0, WP_SEEK_END);
u64 expected_count = wpArrayCount(src_array2) * wpArrayItemSize(src_array2);
i64 count = wpFileWrite((void *)src_array2, test_fp, expected_count);
return wpTesterResult(count >= 0 && (u64)count == expected_count);
}
WpTestFuncResult test_wapp_file_read_array(void) {
wpFileSeek(test_fp, 0, WP_SEEK_START);
u64 count = wpFileReadArray((WpArray)dst_array, test_fp, wpArrayCount(src_array1));
b8 result = count == wpArrayCount(src_array1) &&
wpArrayCount(dst_array) == wpArrayCount(src_array1);
// NOTE (Abdelrahman): Uses a while loop instead of a for loop to get rid of
// MSVC Spectre mitigation warnings
u64 index = 0;
b8 running = true;
while (running) {
result = result && (*wpArrayGet(i32, dst_array, index) == *wpArrayGet(i32, src_array1, index));
++index;
running = index < wpArrayCount(dst_array);
}
return wpTesterResult(result);
}
WpTestFuncResult test_wapp_file_write_array(void) {
wpFileSeek(test_fp, 0, WP_SEEK_END);
i64 count = wpFileWriteArray((WpArray)src_array3, test_fp, wpArrayCount(src_array3));
return wpTesterResult(count >= 0 && (u64)count == wpArrayCount(src_array3));
}
WpTestFuncResult test_wapp_file_flush(void) {
i32 flush_result = wpFileFlush(test_fp);
return wpTesterResult(flush_result == 0);
}
WpTestFuncResult test_wapp_file_close(void) {
i32 close_result = wpFileClose(test_fp);
return wpTesterResult(close_result == 0);
}
WpTestFuncResult test_wapp_file_rename(void) {
i32 rename_result = wpFileRename(&test_filename, &new_filename);
return wpTesterResult(rename_result == 0);
}
WpTestFuncResult test_wapp_file_remove(void) {
i32 remove_result = wpFileRemove(&new_filename);
return wpTesterResult(remove_result == 0);
}
tests/file/test_file.h
-21
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@@ -1,21 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef TEST_FILE_H
#define TEST_FILE_H
#include "wapp.h"
WpTestFuncResult test_wapp_file_open(void);
WpTestFuncResult test_wapp_file_get_current_position(void);
WpTestFuncResult test_wapp_file_seek(void);
WpTestFuncResult test_wapp_file_get_length(void);
WpTestFuncResult test_wapp_file_read(void);
WpTestFuncResult test_wapp_file_write(void);
WpTestFuncResult test_wapp_file_read_array(void);
WpTestFuncResult test_wapp_file_write_array(void);
WpTestFuncResult test_wapp_file_flush(void);
WpTestFuncResult test_wapp_file_close(void);
WpTestFuncResult test_wapp_file_rename(void);
WpTestFuncResult test_wapp_file_remove(void);
#endif // !TEST_FILE_H
tests/queue/test_queue.c
-98
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@@ -1,98 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#include "wapp.h"
#include "test_queue.h"
#define CAPACITY 8
WpTestFuncResult test_queue_push(void) {
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
for (u64 i = 0; i < CAPACITY; ++i) {
i32 *value = ((i32 *)(queue.items)) + i;
result = result && value != NULL && *value == (i32)i;
}
return wpTesterResult(result);
}
WpTestFuncResult test_queue_push_alloc(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(64));
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
i32 item = 8;
u64 new_capacity = CAPACITY * 2;
WpI32Queue *new_queue = wpQueuePushAlloc(i32, &arena, &queue, &item);
if (new_queue && new_queue != &queue) {
queue = *new_queue;
}
u64 capacity = wpQueueCapacity(&queue);
result = result && capacity == new_capacity;
for (u64 i = 0; i < 2; ++i) {
wpQueuePop(i32, &queue);
}
u64 remaining = wpQueueCapacity(&queue) - queue.count;
for (u64 i = 0; i < remaining; ++i) {
item = (i32)(remaining + i);
wpQueuePush(i32, &queue, &item);
}
++item;
new_queue = wpQueuePushAlloc(i32, &arena, &queue, &item);
if (new_queue && new_queue != &queue) {
queue = *new_queue;
}
result = result && wpQueueCapacity(&queue) == new_capacity * 2;
i32 *arr = (i32 *)queue.items;
for (u64 i = 0; i < queue.count; ++i) {
// NOTE (Abdelrahman): First queue value is currently 2
result = result && arr[i] == (i32)(2 + i);
}
wpMemArenaAllocatorDestroy(&arena);
return wpTesterResult(result);
}
WpTestFuncResult test_queue_pop(void) {
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
u64 half_count = queue.count / 2;
for (u64 i = 0; i < half_count; ++i) {
i32 *value = wpQueuePop(i32, &queue);
result = result && value != NULL && *value == (i32)i;
}
for (u64 i = 0; i < half_count; ++i) {
i32 item = (i32)i + CAPACITY;
wpQueuePush(i32, &queue, &item);
}
for (u64 i = 0; i < CAPACITY; ++i) {
i32 *value = wpQueuePop(i32, &queue);
result = result && value != NULL && *value == (i32)half_count + (i32)i;
}
return wpTesterResult(result);
}
tests/queue/test_queue.cc
-96
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@@ -1,96 +0,0 @@
#include "wapp.h"
#include "test_queue.h"
#define CAPACITY 8
WpTestFuncResult test_queue_push(void) {
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
for (u64 i = 0; i < CAPACITY; ++i) {
i32 *value = ((i32 *)(queue.items)) + i;
result = result && value != NULL && *value == (i32)i;
}
return wpTesterResult(result);
}
WpTestFuncResult test_queue_push_alloc(void) {
WpAllocator arena = wpMemArenaAllocatorInit(MiB(64));
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
i32 item = 8;
u64 new_capacity = CAPACITY * 2;
WpI32Queue *new_queue = wpQueuePushAlloc(i32, &arena, &queue, &item);
if (new_queue && new_queue != &queue) {
queue = *new_queue;
}
u64 capacity = wpQueueCapacity(&queue);
result = result && capacity == new_capacity;
for (u64 i = 0; i < 2; ++i) {
wpQueuePop(i32, &queue);
}
u64 remaining = wpQueueCapacity(&queue) - queue.count;
for (u64 i = 0; i < remaining; ++i) {
item = (i32)(remaining + i);
wpQueuePush(i32, &queue, &item);
}
++item;
new_queue = wpQueuePushAlloc(i32, &arena, &queue, &item);
if (new_queue && new_queue != &queue) {
queue = *new_queue;
}
result = result && wpQueueCapacity(&queue) == new_capacity * 2;
i32 *arr = (i32 *)queue.items;
for (u64 i = 0; i < queue.count; ++i) {
// NOTE (Abdelrahman): First queue value is currently 2
result = result && arr[i] == (i32)(2 + i);
}
wpMemArenaAllocatorDestroy(&arena);
return wpTesterResult(result);
}
WpTestFuncResult test_queue_pop(void) {
WpI32Queue queue = wpQueue(i32, CAPACITY);
for (u64 i = 0; i < CAPACITY; ++i) {
i32 item = (i32)i;
wpQueuePush(i32, &queue, &item);
}
b8 result = true;
u64 half_count = queue.count / 2;
for (u64 i = 0; i < half_count; ++i) {
i32 *value = wpQueuePop(i32, &queue);
result = result && value != NULL && *value == (i32)i;
}
for (u64 i = 0; i < half_count; ++i) {
i32 item = (i32)i + CAPACITY;
wpQueuePush(i32, &queue, &item);
}
for (u64 i = 0; i < CAPACITY; ++i) {
i32 *value = wpQueuePop(i32, &queue);
result = result && value != NULL && *value == (i32)half_count + (i32)i;
}
return wpTesterResult(result);
}
tests/queue/test_queue.h
-12
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@@ -1,12 +0,0 @@
// vim:fileencoding=utf-8:foldmethod=marker
#ifndef TEST_QUEUE_H
#define TEST_QUEUE_H
#include "wapp.h"
WpTestFuncResult test_queue_push(void);
WpTestFuncResult test_queue_push_alloc(void);
WpTestFuncResult test_queue_pop(void);
#endif // !TEST_QUEUE_H
tests/shell_commander/test_shell_commander.c
+39 -39
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@@ -4,59 +4,59 @@
#include <stdlib.h>
#include <string.h>
WpTestFuncResult test_commander_cmd_success(void) {
WpStr8List cmd = wpDblList(WpStr8);
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit("echo"));
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit("hello world"));
TestFuncResult test_commander_cmd_success(void) {
Str8List cmd = wapp_dbl_list(Str8, Str8List);
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr("echo"));
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr("hello world"));
WpCmdResult result = wpShellCommanderExecute(WP_SHELL_OUTPUT_DISCARD, NULL, &cmd);
b8 succeeded = result.exited && result.exit_code == EXIT_SUCCESS &&
result.error == WP_SHELL_ERR_NO_ERROR;
CMDResult result = wapp_shell_commander_execute(SHELL_OUTPUT_DISCARD, NULL, &cmd);
b8 succeeded = result.exited && result.exit_code == EXIT_SUCCESS &&
result.error == SHELL_ERR_NO_ERROR;
return wpTesterResult(succeeded);
return wapp_tester_result(succeeded);
}
WpTestFuncResult test_commander_cmd_failure(void) {
WpStr8List cmd = wpDblList(WpStr8);
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit("grep"));
TestFuncResult test_commander_cmd_failure(void) {
Str8List cmd = wapp_dbl_list(Str8, Str8List);
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr("grep"));
WpCmdResult result = wpShellCommanderExecute(WP_SHELL_OUTPUT_DISCARD, NULL, &cmd);
b8 failed = result.exited && result.exit_code != EXIT_SUCCESS &&
result.error == WP_SHELL_ERR_NO_ERROR;
CMDResult result = wapp_shell_commander_execute(SHELL_OUTPUT_DISCARD, NULL, &cmd);
b8 failed = result.exited && result.exit_code != EXIT_SUCCESS &&
result.error == SHELL_ERR_NO_ERROR;
return wpTesterResult(failed);
return wapp_tester_result(failed);
}
WpTestFuncResult test_commander_cmd_out_buf_success(void) {
WpStr8 buf = wpStr8Buf(64);
WpStr8 expected = wpStr8Buf(64);
char msg[] = "hello world";
wpStr8CopyCstrCapped(&expected, msg);
TestFuncResult test_commander_cmd_out_buf_success(void) {
Str8 buf = wapp_str8_buf(64);
Str8 expected = wapp_str8_buf(64);
char msg[] = "hello world";
wapp_str8_copy_cstr_capped(&expected, msg);
WpStr8List cmd = wpDblList(WpStr8);
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit("echo"));
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit(msg));
Str8List cmd = wapp_dbl_list(Str8, Str8List);
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr("echo"));
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr(msg));
WpCmdResult result = wpShellCommanderExecute(WP_SHELL_OUTPUT_CAPTURE, &buf, &cmd);
b8 succeeded = result.exited && result.exit_code == EXIT_SUCCESS &&
result.error == WP_SHELL_ERR_NO_ERROR && wpStr8EqualToCount(&buf, &expected, strlen(msg));
CMDResult result = wapp_shell_commander_execute(SHELL_OUTPUT_CAPTURE, &buf, &cmd);
b8 succeeded = result.exited && result.exit_code == EXIT_SUCCESS &&
result.error == SHELL_ERR_NO_ERROR && wapp_str8_equal_to_count(&buf, &expected, strlen(msg));
return wpTesterResult(succeeded);
return wapp_tester_result(succeeded);
}
WpTestFuncResult test_commander_cmd_out_buf_failure(void) {
WpStr8 buf = wpStr8Buf(4);
WpStr8 expected = wpStr8Buf(64);
char msg[] = "hello world";
wpStr8CopyCstrCapped(&expected, msg);
TestFuncResult test_commander_cmd_out_buf_failure(void) {
Str8 buf = wapp_str8_buf(4);
Str8 expected = wapp_str8_buf(64);
char msg[] = "hello world";
wapp_str8_copy_cstr_capped(&expected, msg);
WpStr8List cmd = wpDblList(WpStr8);
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit("echo"));
wpDblListPushBack(WpStr8, &cmd, &wpStr8Lit(msg));
Str8List cmd = wapp_dbl_list(Str8, Str8List);
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr("echo"));
wapp_dbl_list_push_back(Str8, &cmd, &wapp_str8_node_from_cstr(msg));
WpCmdResult result = wpShellCommanderExecute(WP_SHELL_OUTPUT_CAPTURE, &buf, &cmd);
b8 failed = !result.exited && result.exit_code != EXIT_SUCCESS &&
result.error == WP_SHELL_ERR_OUT_BUF_FULL && !wpStr8Equal(&buf, &expected);
CMDResult result = wapp_shell_commander_execute(SHELL_OUTPUT_CAPTURE, &buf, &cmd);
b8 failed = !result.exited && result.exit_code != EXIT_SUCCESS &&
result.error == SHELL_ERR_OUT_BUF_FULL && !wapp_str8_equal(&buf, &expected);
return wpTesterResult(failed);
return wapp_tester_result(failed);
}

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