mirror of
https://github.com/krgamestudios/Toy.git
synced 2026-04-15 14:54:07 +10:00
225 lines
7.0 KiB
C
225 lines
7.0 KiB
C
#include "compiler.h"
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#include "memory.h"
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#include <stdio.h>
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void initCompiler(Compiler* compiler) {
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initLiteralArray(&compiler->literalCache);
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compiler->bytecode = NULL;
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compiler->capacity = 0;
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compiler->count = 0;
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//default atomic literals
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Literal n = TO_NULL_LITERAL;
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Literal t = TO_BOOLEAN_LITERAL(true);
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Literal f = TO_BOOLEAN_LITERAL(false);
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pushLiteralArray(&compiler->literalCache, n);
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pushLiteralArray(&compiler->literalCache, t);
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pushLiteralArray(&compiler->literalCache, f);
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}
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void writeCompiler(Compiler* compiler, Node* node) {
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//grow if the bytecode space is too small
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if (compiler->capacity < compiler->count + 1) {
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int oldCapacity = compiler->capacity;
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compiler->capacity = GROW_CAPACITY(oldCapacity);
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compiler->bytecode = GROW_ARRAY(unsigned char, compiler->bytecode, oldCapacity, compiler->capacity);
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}
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//determine node type
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switch(node->type) {
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//TODO: more types, like variables, etc.
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case NODE_ERROR: {
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printf("[internal] NODE_ERROR encountered in writeCompiler()");
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compiler->bytecode[compiler->count++] = OP_EOF; //1 byte
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}
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break;
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case NODE_LITERAL: {
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//ensure the literal is in the cache
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int index = findLiteralIndex(&compiler->literalCache, node->atomic.literal);
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if (index < 0) {
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index = pushLiteralArray(&compiler->literalCache, node->atomic.literal);
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}
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//push the node opcode to the bytecode
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if (index >= 256) {
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//push a "long" index
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compiler->bytecode[compiler->count++] = OP_LITERAL_LONG; //1 byte
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*((unsigned short*)(compiler->bytecode + compiler->count)) = (unsigned short)index; //2 bytes
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compiler->count += sizeof(unsigned short);
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}
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else {
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//push the index
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compiler->bytecode[compiler->count++] = OP_LITERAL; //1 byte
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compiler->bytecode[compiler->count++] = (unsigned char)index; //1 byte
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}
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}
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break;
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case NODE_UNARY:
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//pass to the child node, then embed the unary command (print, negate, etc.)
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writeCompiler(compiler, node->unary.child);
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compiler->bytecode[compiler->count++] = (unsigned char)node->unary.opcode; //1 byte
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break;
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case NODE_BINARY:
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//pass to the child nodes, then embed the binary command (math, etc.)
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writeCompiler(compiler, node->binary.left);
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writeCompiler(compiler, node->binary.right);
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compiler->bytecode[compiler->count++] = (unsigned char)node->binary.opcode; //1 byte
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break;
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case NODE_GROUPING:
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compiler->bytecode[compiler->count++] = (unsigned char)OP_GROUPING_BEGIN; //1 byte
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writeCompiler(compiler, node->grouping.child);
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compiler->bytecode[compiler->count++] = (unsigned char)OP_GROUPING_END; //1 byte
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break;
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//TODO: conditional
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}
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}
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void freeCompiler(Compiler* compiler) {
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freeLiteralArray(&compiler->literalCache);
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FREE(unsigned char, compiler->bytecode);
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compiler->bytecode = NULL;
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compiler->capacity = 0;
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compiler->count = 0;
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}
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static void emitByte(unsigned char** collationPtr, int* capacityPtr, int* countPtr, unsigned char byte) {
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//grow the array
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if (*countPtr + 1 > *capacityPtr) {
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int oldCapacity = *capacityPtr;
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*capacityPtr = GROW_CAPACITY(*capacityPtr);
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*collationPtr = GROW_ARRAY(unsigned char, *collationPtr, oldCapacity, *capacityPtr);
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}
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//append to the collation
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(*collationPtr)[(*countPtr)++] = byte;
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}
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static void emitShort(unsigned char** collationPtr, int* capacityPtr, int* countPtr, unsigned short bytes) {
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char* ptr = (char*)&bytes;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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}
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static void emitInt(unsigned char** collationPtr, int* capacityPtr, int* countPtr, int bytes) {
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char* ptr = (char*)&bytes;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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}
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static void emitFloat(unsigned char** collationPtr, int* capacityPtr, int* countPtr, float bytes) {
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char* ptr = (char*)&bytes;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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ptr++;
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emitByte(collationPtr, capacityPtr, countPtr, *ptr);
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}
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//return the result
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unsigned char* collateCompiler(Compiler* compiler, int* size) {
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int capacity = GROW_CAPACITY(0);
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int count = 0;
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unsigned char* collation = ALLOCATE(unsigned char, capacity);
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//embed the header with version information
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emitByte(&collation, &capacity, &count, TOY_VERSION_MAJOR);
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emitByte(&collation, &capacity, &count, TOY_VERSION_MINOR);
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emitByte(&collation, &capacity, &count, TOY_VERSION_PATCH);
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//embed the build info
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if (strlen(TOY_VERSION_BUILD) + count + 1 > capacity) {
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int oldCapacity = capacity;
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capacity = strlen(TOY_VERSION_BUILD) + count + 1; //full header size
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collation = GROW_ARRAY(unsigned char, collation, oldCapacity, capacity);
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}
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memcpy(&collation[count], TOY_VERSION_BUILD, strlen(TOY_VERSION_BUILD));
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count += strlen(TOY_VERSION_BUILD);
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collation[count++] = '\0'; //terminate the build string
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emitByte(&collation, &capacity, &count, OP_SECTION_END); //terminate header
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//embed the data section (first short is the number of literals)
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emitShort(&collation, &capacity, &count, compiler->literalCache.count);
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//emit each literal by type
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for (int i = 0; i < compiler->literalCache.count; i++) {
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//literal Opcode
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// emitShort(&collation, &capacity, &count, OP_LITERAL); //This isn't needed
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//literal type, followed by literal value
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switch(compiler->literalCache.literals[i].type) {
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case LITERAL_NULL:
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emitByte(&collation, &capacity, &count, LITERAL_NULL);
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//null has no following value
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break;
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case LITERAL_BOOLEAN:
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emitByte(&collation, &capacity, &count, LITERAL_BOOLEAN);
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emitByte(&collation, &capacity, &count, AS_BOOLEAN(compiler->literalCache.literals[i]));
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break;
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case LITERAL_INTEGER:
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emitByte(&collation, &capacity, &count, LITERAL_INTEGER);
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emitInt(&collation, &capacity, &count, AS_INTEGER(compiler->literalCache.literals[i]));
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break;
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case LITERAL_FLOAT:
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emitByte(&collation, &capacity, &count, LITERAL_FLOAT);
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emitFloat(&collation, &capacity, &count, AS_FLOAT(compiler->literalCache.literals[i]));
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break;
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case LITERAL_STRING: {
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emitByte(&collation, &capacity, &count, LITERAL_STRING);
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Literal str = compiler->literalCache.literals[i];
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for (int c = 0; c < STRLEN(str); c++) {
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emitByte(&collation, &capacity, &count, AS_STRING(str)[c]);
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}
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emitByte(&collation, &capacity, &count, '\0'); //terminate the string
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}
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break;
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}
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}
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emitByte(&collation, &capacity, &count, OP_SECTION_END); //terminate data
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//code section
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for (int i = 0; i < compiler->count; i++) {
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emitByte(&collation, &capacity, &count, compiler->bytecode[i]);
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}
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emitByte(&collation, &capacity, &count, OP_SECTION_END); //terminate code
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emitByte(&collation, &capacity, &count, OP_EOF); //terminate bytecode
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//finalize
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SHRINK_ARRAY(unsigned char, collation, capacity, count);
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*size = count;
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return collation;
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} |