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Toy/tests/cases/test_ast.c
Kayne Ruse 7b453bc35f Reworked generic structures, read more 
The following structures are now more independant:

- Toy_Array
- Toy_Stack
- Toy_Bucket
- Toy_String

I reworked a lot of the memory allocation, so now there are more direct
calls to malloc() or realloc(), rather than relying on the macros from
toy_memory.h.

I've also split toy_memory into proper array and bucket files, because
it makes more sense this way, rather than having them both jammed into
one file. This means the eventual hashtable structure can also stand on
its own.

Toy_Array is a new wrapper around raw array pointers, and all of the
structures have their metadata embedded into their allocated memory now,
using variable length array members.

A lot of 'capacity' and 'count' variables were changed to 'size_t'
types, but this doesn't seem to be a problem anywhere.

If the workflow fails, then I'll leave it for tonight - I'm too tired,
and I don't want to overdo myself.
2024-10-01 20:38:06 +10:00

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#include "toy_ast.h"
#include "toy_console_colors.h"
#include <stdio.h>
int test_sizeof_ast_64bit() {
#define TEST_SIZEOF(type, size) \
if (sizeof(type) != size) { \
fprintf(stderr, TOY_CC_ERROR "ERROR: sizeof(" #type ") is %d, expected %d\n" TOY_CC_RESET, (int)sizeof(type), size); \
++err; \
}
//count errors
int err = 0;
//run for each type
TEST_SIZEOF(Toy_AstType, 4);
TEST_SIZEOF(Toy_AstBlock, 32);
TEST_SIZEOF(Toy_AstValue, 12);
TEST_SIZEOF(Toy_AstUnary, 16);
TEST_SIZEOF(Toy_AstBinary, 24);
TEST_SIZEOF(Toy_AstGroup, 16);
TEST_SIZEOF(Toy_AstPass, 4);
TEST_SIZEOF(Toy_AstError, 4);
TEST_SIZEOF(Toy_AstEnd, 4);
TEST_SIZEOF(Toy_Ast, 32);
#undef TEST_SIZEOF
return -err;
}
int test_sizeof_ast_32bit() {
#define TEST_SIZEOF(type, size) \
if (sizeof(type) != size) { \
fprintf(stderr, TOY_CC_ERROR "ERROR: sizeof(" #type ") is %d, expected %d\n" TOY_CC_RESET, (int)sizeof(type), size); \
++err; \
}
//count errors
int err = 0;
//run for each type
TEST_SIZEOF(Toy_AstType, 4);
TEST_SIZEOF(Toy_AstBlock, 16);
TEST_SIZEOF(Toy_AstValue, 12);
TEST_SIZEOF(Toy_AstUnary, 12);
TEST_SIZEOF(Toy_AstBinary, 16);
TEST_SIZEOF(Toy_AstGroup, 8);
TEST_SIZEOF(Toy_AstPass, 4);
TEST_SIZEOF(Toy_AstError, 4);
TEST_SIZEOF(Toy_AstEnd, 4);
TEST_SIZEOF(Toy_Ast, 16);
#undef TEST_SIZEOF
return -err;
}
int test_type_emission(Toy_Bucket** bucket) {
//emit value
{
//emit to an AST
Toy_Ast* ast = NULL;
Toy_private_emitAstValue(bucket, &ast, TOY_VALUE_TO_INTEGER(42));
//check if it worked
if (
ast == NULL ||
ast->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->value.value) != 42)
{
fprintf(stderr, TOY_CC_ERROR "ERROR: failed to emit a value as 'Toy_Ast', state unknown\n" TOY_CC_RESET);
return -1;
}
}
//emit unary
{
//build the AST
Toy_Ast* ast = NULL;
Toy_private_emitAstValue(bucket, &ast, TOY_VALUE_TO_INTEGER(42));
Toy_private_emitAstUnary(bucket, &ast, TOY_AST_FLAG_NEGATE);
//check if it worked
if (
ast == NULL ||
ast->type != TOY_AST_UNARY ||
ast->unary.flag != TOY_AST_FLAG_NEGATE ||
ast->unary.child->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->unary.child->value.value) != 42)
{
fprintf(stderr, TOY_CC_ERROR "ERROR: failed to emit a unary as 'Toy_Ast', state unknown\n" TOY_CC_RESET);
return -1;
}
}
//emit binary
{
//build the AST
Toy_Ast* ast = NULL;
Toy_Ast* right = NULL;
Toy_private_emitAstValue(bucket, &ast, TOY_VALUE_TO_INTEGER(42));
Toy_private_emitAstValue(bucket, &right, TOY_VALUE_TO_INTEGER(69));
Toy_private_emitAstBinary(bucket, &ast, TOY_AST_FLAG_ADD, right);
//check if it worked
if (
ast == NULL ||
ast->type != TOY_AST_BINARY ||
ast->binary.flag != TOY_AST_FLAG_ADD ||
ast->binary.left->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->binary.left->value.value) != 42 ||
ast->binary.right->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->binary.right->value.value) != 69)
{
fprintf(stderr, TOY_CC_ERROR "ERROR: failed to emit a binary as 'Toy_Ast', state unknown\n" TOY_CC_RESET);
return -1;
}
}
//emit group
{
//build the AST
Toy_Ast* ast = NULL;
Toy_Ast* right = NULL;
Toy_private_emitAstValue(bucket, &ast, TOY_VALUE_TO_INTEGER(42));
Toy_private_emitAstValue(bucket, &right, TOY_VALUE_TO_INTEGER(69));
Toy_private_emitAstBinary(bucket, &ast, TOY_AST_FLAG_ADD, right);
Toy_private_emitAstGroup(bucket, &ast);
//check if it worked
if (
ast == NULL ||
ast->type != TOY_AST_GROUP ||
ast->group.child == NULL ||
ast->group.child->type != TOY_AST_BINARY ||
ast->group.child->binary.flag != TOY_AST_FLAG_ADD ||
ast->group.child->binary.left->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->group.child->binary.left->value.value) != 42 ||
ast->group.child->binary.right->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(ast->group.child->binary.right->value.value) != 69)
{
fprintf(stderr, TOY_CC_ERROR "ERROR: failed to emit a group as 'Toy_Ast', state unknown\n" TOY_CC_RESET);
return -1;
}
}
//emit and append blocks of code
{
//initialize the root block
Toy_Ast* block = NULL;
Toy_private_initAstBlock(bucket, &block);
//loop over the ast emissions, appending each one as you go
for (int i = 0; i < 5; i++) {
//build the AST
Toy_Ast* ast = NULL;
Toy_Ast* right = NULL;
Toy_private_emitAstValue(bucket, &ast, TOY_VALUE_TO_INTEGER(42));
Toy_private_emitAstValue(bucket, &right, TOY_VALUE_TO_INTEGER(69));
Toy_private_emitAstBinary(bucket, &ast, TOY_AST_FLAG_ADD, right);
Toy_private_emitAstGroup(bucket, &ast);
Toy_private_appendAstBlock(bucket, block, ast);
}
//check if it worked
Toy_Ast* iter = block;
while(iter != NULL) {
if (
iter->type != TOY_AST_BLOCK ||
iter->block.child == NULL ||
iter->block.child->type != TOY_AST_GROUP ||
iter->block.child->group.child == NULL ||
iter->block.child->group.child->type != TOY_AST_BINARY ||
iter->block.child->group.child->binary.flag != TOY_AST_FLAG_ADD ||
iter->block.child->group.child->binary.left->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(iter->block.child->group.child->binary.left->value.value) != 42 ||
iter->block.child->group.child->binary.right->type != TOY_AST_VALUE ||
TOY_VALUE_AS_INTEGER(iter->block.child->group.child->binary.right->value.value) != 69)
{
fprintf(stderr, TOY_CC_ERROR "ERROR: failed to emit a block as 'Toy_Ast', state unknown\n" TOY_CC_RESET);
return -1;
}
iter = iter->block.next;
}
}
return 0;
}
int main() {
//run each test set, returning the total errors given
int total = 0, res = 0;
#if TOY_BITNESS == 64
res = test_sizeof_ast_64bit();
total += res;
if (res == 0) {
printf(TOY_CC_NOTICE "All good\n" TOY_CC_RESET);
}
#elif TOY_BITNESS == 32
res = test_sizeof_ast_32bit();
total += res;
if (res == 0) {
printf(TOY_CC_NOTICE "All good\n" TOY_CC_RESET);
}
#else
fprintf(stderr, TOY_CC_WARN "WARNING: Skipping test_sizeof_ast_*bit(); Can't determine the 'bitness' of this platform (seems to be %d)\n" TOY_CC_RESET, TOY_BITNESS);
#endif
{
Toy_Bucket* bucket = Toy_allocateBucket(sizeof(Toy_Ast) * 32);
res = test_type_emission(&bucket);
Toy_freeBucket(&bucket);
if (res == 0) {
printf(TOY_CC_NOTICE "All good\n" TOY_CC_RESET);
}
total += res;
}
return total;
}
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