ref: 19c85a7c2e2063f2d42cff9a5b1a8ce0c660c61e
dir: /src/asm/charmap.c/
/* * This file is part of RGBDS. * * Copyright (c) 2013-2018, stag019 and RGBDS contributors. * * SPDX-License-Identifier: MIT */ #include <errno.h> #include <stdbool.h> #include <stdint.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include "asm/charmap.h" #include "asm/main.h" #include "asm/output.h" #include "asm/util.h" #include "asm/warning.h" #include "hashmap.h" /* * Charmaps are stored using a structure known as "trie". * Essentially a tree, where each nodes stores a single character's worth of info: * whether there exists a mapping that ends at the current character, */ struct Charnode { bool isTerminal; /* Whether there exists a mapping that ends here */ uint8_t value; /* If the above is true, its corresponding value */ /* This MUST be indexes and not pointers, because pointers get invalidated by `realloc`!! */ size_t next[255]; /* Indexes of where to go next, 0 = nowhere */ }; #define INITIAL_CAPACITY 32 struct Charmap { char *name; size_t usedNodes; /* How many nodes are being used */ size_t capacity; /* How many nodes have been allocated */ struct Charnode nodes[]; /* first node is reserved for the root node */ }; static HashMap charmaps; /* * Store pointers to hashmap nodes, so that there is only one pointer to the memory block * that gets reallocated. */ static struct Charmap **currentCharmap; struct CharmapStackEntry { struct Charmap **charmap; struct CharmapStackEntry *next; }; struct CharmapStackEntry *charmapStack; static struct Charmap *charmap_Get(char const *name) { return hash_GetElement(charmaps, name); } static void resizeCharmap(struct Charmap **map, size_t capacity) { *map = realloc(*map, sizeof(**map) + sizeof(*(*map)->nodes) * capacity); if (!*map) fatalerror("Failed to %s charmap: %s\n", *map ? "create" : "resize", strerror(errno)); (**map).capacity = capacity; } static void initNode(struct Charnode *node) { node->isTerminal = false; memset(node->next, 0, sizeof(node->next)); } struct Charmap *charmap_New(char const *name, char const *baseName) { struct Charmap *base = NULL; if (baseName != NULL) { base = charmap_Get(baseName); if (base == NULL) error("Base charmap '%s' doesn't exist\n", baseName); } struct Charmap *charmap = charmap_Get(name); if (charmap) { error("Charmap '%s' already exists\n", name); return charmap; } /* Init the new charmap's fields */ if (base) { resizeCharmap(&charmap, base->capacity); charmap->usedNodes = base->usedNodes; memcpy(charmap->nodes, base->nodes, sizeof(base->nodes[0]) * charmap->usedNodes); } else { resizeCharmap(&charmap, INITIAL_CAPACITY); charmap->usedNodes = 1; initNode(&charmap->nodes[0]); /* Init the root node */ } charmap->name = strdup(name); currentCharmap = (struct Charmap **)hash_AddElement(charmaps, charmap->name, charmap); return charmap; } void charmap_Delete(struct Charmap *charmap) { free(charmap->name); free(charmap); } void charmap_Set(char const *name) { struct Charmap **charmap = (struct Charmap **)hash_GetNode(charmaps, name); if (charmap == NULL) error("Charmap '%s' doesn't exist\n", name); else currentCharmap = charmap; } void charmap_Push(void) { struct CharmapStackEntry *stackEntry; stackEntry = malloc(sizeof(*stackEntry)); if (stackEntry == NULL) fatalerror("Failed to alloc charmap stack entry: %s\n", strerror(errno)); stackEntry->charmap = currentCharmap; stackEntry->next = charmapStack; charmapStack = stackEntry; } void charmap_Pop(void) { if (charmapStack == NULL) { error("No entries in the charmap stack\n"); return; } struct CharmapStackEntry *top = charmapStack; currentCharmap = top->charmap; charmapStack = top->next; free(top); } void charmap_Add(char *mapping, uint8_t value) { struct Charmap *charmap = *currentCharmap; struct Charnode *node = &charmap->nodes[0]; for (uint8_t c; *mapping; mapping++) { c = *mapping - 1; if (node->next[c]) { node = &charmap->nodes[node->next[c]]; } else { /* Register next available node */ node->next[c] = charmap->usedNodes; /* If no more nodes are available, get new ones */ if (charmap->usedNodes == charmap->capacity) { charmap->capacity *= 2; resizeCharmap(currentCharmap, charmap->capacity); charmap = *currentCharmap; } /* Switch to and init new node */ node = &charmap->nodes[charmap->usedNodes++]; initNode(node); } } if (node->isTerminal) warning(WARNING_CHARMAP_REDEF, "Overriding charmap mapping\n"); node->isTerminal = true; node->value = value; } size_t charmap_Convert(char const *input, uint8_t *output) { uint8_t *start = output; while (charmap_ConvertNext(&input, &output)) ; return output - start; } size_t charmap_ConvertNext(char const **input, uint8_t **output) { /* * The goal is to match the longest mapping possible. * For that, advance through the trie with each character read. * If that would lead to a dead end, rewind characters until the last match, and output. * If no match, read a UTF-8 codepoint and output that. */ struct Charmap const *charmap = *currentCharmap; struct Charnode const *node = &charmap->nodes[0]; struct Charnode const *match = NULL; size_t rewindDistance = 0; for (;;) { uint8_t c = **input - 1; if (**input && node->next[c]) { // Consume that char (*input)++; rewindDistance++; // Advance to next node (index starts at 1) node = &charmap->nodes[node->next[c]]; if (node->isTerminal) { // This node matches, register it match = node; rewindDistance = 0; // If no longer match is found, rewind here } } else { // We are at a dead end (either because we reached the end of input, or of // the trie), so rewind up to the last match, and output. *input -= rewindDistance; // This will rewind all the way if no match found if (match) { // A match was found, use it if (output) *(*output)++ = match->value; return 1; } else if (**input) { // No match found, but there is some input left // This will write the codepoint's value to `output`, little-endian size_t codepointLen = readUTF8Char(output ? *output : NULL, *input); if (codepointLen == 0) error("Input string is not valid UTF-8!\n"); // OK because UTF-8 has no NUL in multi-byte chars *input += codepointLen; if (output) *output += codepointLen; return codepointLen; } else { // End of input return 0; } } } }