Pull out xml loading to assetmanager code

This commit is contained in:
Doyle Thai 2016-08-30 00:11:00 +10:00
parent 1d09bdfa20
commit c93e6ca37c
8 changed files with 768 additions and 676 deletions

View File

@ -18,10 +18,525 @@
#include "Dengine/AssetManager.h"
#include "Dengine/Debug.h"
#include "Dengine/MemoryArena.h"
#include "Dengine/OpenGL.h"
#include "Dengine/Platform.h"
INTERNAL AtlasSubTexture *getAtlasSubTexture(TexAtlas *atlas, char *key)
/*
*********************************
* XML Operations
*********************************
*/
enum XmlTokenType
{
xmltokentype_unknown,
xmltokentype_openArrow,
xmltokentype_closeArrow,
xmltokentype_name,
xmltokentype_value,
xmltokentype_equals,
xmltokentype_quotes,
xmltokentype_backslash,
xmltokentype_count,
};
typedef struct XmlToken
{
// TODO(doyle): Dynamic size string in tokens maybe.
enum XmlTokenType type;
char string[128];
i32 len;
} XmlToken;
INTERNAL XmlToken *tokeniseXmlBuffer(MemoryArena *arena, char *buffer,
i32 bufferSize, int *numTokens)
{
XmlToken *xmlTokens = PLATFORM_MEM_ALLOC(arena, 8192, XmlToken);
i32 tokenIndex = 0;
for (i32 i = 0; i < bufferSize; i++)
{
char c = (CAST(char *) buffer)[i];
switch (c)
{
case '<':
case '>':
case '=':
case '/':
{
enum XmlTokenType type = xmltokentype_unknown;
if (c == '<')
{
type = xmltokentype_openArrow;
}
else if (c == '>')
{
type = xmltokentype_closeArrow;
}
else if (c == '=')
{
type = xmltokentype_equals;
}
else
{
type = xmltokentype_backslash;
}
xmlTokens[tokenIndex].type = type;
xmlTokens[tokenIndex].len = 1;
tokenIndex++;
break;
}
case '"':
{
xmlTokens[tokenIndex].type = xmltokentype_value;
for (i32 j = i + 1; j < bufferSize; j++)
{
char c = (CAST(char *) buffer)[j];
if (c == '"')
{
break;
}
else
{
xmlTokens[tokenIndex].string[xmlTokens[tokenIndex].len++] =
c;
#ifdef DENGINE_DEBUG
ASSERT(xmlTokens[tokenIndex].len <
ARRAY_COUNT(xmlTokens[tokenIndex].string));
#endif
}
}
// NOTE(doyle): +1 to skip the closing quotes
i += (xmlTokens[tokenIndex].len + 1);
tokenIndex++;
break;
}
default:
{
if ((c >= 'a' && c <= 'z') || c >= 'A' && c <= 'Z')
{
xmlTokens[tokenIndex].type = xmltokentype_name;
for (i32 j = i; j < bufferSize; j++)
{
char c = (CAST(char *) buffer)[j];
if (c == ' ' || c == '=' || c == '>' || c == '<' ||
c == '\\')
{
break;
}
else
{
xmlTokens[tokenIndex]
.string[xmlTokens[tokenIndex].len++] = c;
#ifdef DENGINE_DEBUG
ASSERT(xmlTokens[tokenIndex].len <
ARRAY_COUNT(xmlTokens[tokenIndex].string));
#endif
}
}
i += xmlTokens[tokenIndex].len;
tokenIndex++;
}
break;
}
}
}
// TODO(doyle): Dynamic token allocation
*numTokens = 8192;
return xmlTokens;
}
INTERNAL XmlNode *buildXmlTree(MemoryArena *arena, XmlToken *xmlTokens,
i32 numTokens)
{
XmlNode *root = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
if (!root) return NULL;
XmlNode *node = root;
node->parent = node;
// NOTE(doyle): Used for when closing a node with many children. We
// automatically assign the next child after each child close within
// a group. Hence on the last child, we open another node but the next
// token indicates the group is closing- we need to set the last child's
// next reference to NULL
XmlNode *prevNode = NULL;
for (i32 i = 0; i < numTokens; i++)
{
XmlToken *token = &xmlTokens[i];
switch (token->type)
{
case xmltokentype_openArrow:
{
/* Open arrows indicate closing parent node or new node name */
XmlToken *nextToken = &xmlTokens[++i];
if (nextToken->type == xmltokentype_backslash)
{
nextToken = &xmlTokens[++i];
if (common_strcmp(nextToken->string, node->parent->name) == 0)
{
node->parent->isClosed = TRUE;
if (prevNode)
{
prevNode->next = NULL;
}
XmlNode *parent = node->parent;
PLATFORM_MEM_FREE(arena, node, sizeof(XmlNode));
node = node->parent;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG(
"Closing xml node name does not match parent name");
#endif
}
}
else if (nextToken->type == xmltokentype_name)
{
node->name = nextToken->string;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unexpected token type after open arrow");
#endif
}
token = nextToken;
break;
}
case xmltokentype_name:
{
// TODO(doyle): Store latest attribute pointer so we aren't always
// chasing the linked list each iteration. Do the same for children
// node
/* Xml Attributes are a linked list, get first free entry */
XmlAttribute *attribute = &node->attribute;
if (attribute->init)
{
while (attribute->next)
attribute = attribute->next;
attribute->next = PLATFORM_MEM_ALLOC(arena, 1, XmlAttribute);
attribute = attribute->next;
}
/* Just plain text is a node attribute name */
attribute->name = token->string;
/* Followed by the value */
token = &xmlTokens[++i];
attribute->value = token->string;
attribute->init = TRUE;
break;
}
case xmltokentype_closeArrow:
{
XmlToken prevToken = xmlTokens[i - 1];
prevNode = node;
/* Closed node means we can return to parent */
if (prevToken.type == xmltokentype_backslash)
{
node->isClosed = TRUE;
node = node->parent;
}
if (!node->isClosed)
{
/* Unclosed node means next fields will be children of node */
/* If the first child is free allocate, otherwise we have to
* iterate through the child's next node(s) */
if (!node->child)
{
// TODO(doyle): Mem alloc error checking
node->child = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
node->child->parent = node;
node = node->child;
}
else
{
XmlNode *nodeToCheck = node->child;
while (nodeToCheck->next)
nodeToCheck = nodeToCheck->next;
nodeToCheck->next = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
nodeToCheck->next->parent = node;
node = nodeToCheck->next;
}
}
break;
}
default:
{
break;
}
}
}
return root;
}
INTERNAL void parseXmlTreeToGame(AssetManager *assetManager, MemoryArena *arena,
XmlNode *root)
{
XmlNode *node = root;
while (node)
{
if (common_strcmp(node->name, "TextureAtlas") == 0)
{
XmlNode *atlasXmlNode = node;
TexAtlas *atlasEntry = NULL;
if (common_strcmp(node->attribute.name, "imagePath") == 0)
{
char *imageName = atlasXmlNode->attribute.value;
atlasEntry = asset_makeTexAtlas(assetManager, arena, imageName);
char *dataDir = "data/textures/WorldTraveller/";
char imagePath[512] = {0};
common_strncat(imagePath, dataDir, common_strlen(dataDir));
common_strncat(imagePath, imageName, common_strlen(imageName));
asset_loadTextureImage(assetManager, arena, imagePath,
imageName);
atlasEntry->key = PLATFORM_MEM_ALLOC(
arena, common_strlen(imageName) + 1, char);
common_strncpy(atlasEntry->key, imageName,
common_strlen(imageName));
atlasEntry->tex = asset_getTex(assetManager, imageName);
XmlNode *atlasChildNode = atlasXmlNode->child;
while (atlasChildNode)
{
if (common_strcmp(atlasChildNode->name, "SubTexture") == 0)
{
XmlAttribute *subTextureAttrib =
&atlasChildNode->attribute;
AtlasSubTexture newSubTexEntry = {0};
while (subTextureAttrib)
{
// TODO(doyle): Work around for now in xml reading,
// reading the last node closing node not being
// merged to the parent
if (!subTextureAttrib->name) continue;
if (common_strcmp(subTextureAttrib->name, "name") ==
0)
{
char *value = subTextureAttrib->value;
newSubTexEntry.key = value;
}
else if (common_strcmp(subTextureAttrib->name,
"x") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.pos.x = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"y") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.pos.y = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"width") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.size.w = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"height") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.size.h = CAST(f32) intValue;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG(
"Unsupported xml attribute in SubTexture");
#endif
}
subTextureAttrib = subTextureAttrib->next;
}
// TODO(doyle): XML specifies 0,0 top left, we
// prefer 0,0 bottom right, so offset by size since 0,0
// is top left and size creates a bounding box below it
newSubTexEntry.rect.pos.y =
1024 - newSubTexEntry.rect.pos.y;
newSubTexEntry.rect.pos.y -= newSubTexEntry.rect.size.h;
#ifdef DENGINE_DEBUG
ASSERT(newSubTexEntry.key)
#endif
u32 subTexHashIndex = common_murmurHash2(
newSubTexEntry.key,
common_strlen(newSubTexEntry.key), 0xDEADBEEF);
subTexHashIndex =
subTexHashIndex % ARRAY_COUNT(atlasEntry->subTex);
// NOTE(doyle): Hash collision
AtlasSubTexture *subTexEntry =
&atlasEntry->subTex[subTexHashIndex];
if (subTexEntry->key)
{
#ifdef DENGINE_DEBUG
// NOTE(doyle): Two textures have the same access
// name
ASSERT(common_strcmp(subTexEntry->key,
newSubTexEntry.key) != 0);
#endif
while (subTexEntry->next)
subTexEntry = subTexEntry->next;
subTexEntry->next =
PLATFORM_MEM_ALLOC(arena, 1, AtlasSubTexture);
subTexEntry = subTexEntry->next;
}
*subTexEntry = newSubTexEntry;
i32 keyLen = common_strlen(newSubTexEntry.key);
subTexEntry->key =
PLATFORM_MEM_ALLOC(arena, keyLen + 1, char);
common_strncpy(subTexEntry->key, newSubTexEntry.key,
keyLen);
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node name not parsed");
#endif
}
atlasChildNode = atlasChildNode->next;
}
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node");
#endif
}
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node name not parsed");
#endif
}
node = node->next;
}
}
INTERNAL void recursiveFreeXmlTree(MemoryArena *arena, XmlNode *node)
{
if (!node)
{
return;
} else
{
// NOTE(doyle): First attribute is statically allocated, only if there's
// more attributes do we dynamically allocate
XmlAttribute *attrib = node->attribute.next;
while (attrib)
{
XmlAttribute *next = attrib->next;
attrib->name = NULL;
attrib->value = NULL;
PLATFORM_MEM_FREE(arena, attrib, sizeof(XmlAttribute));
attrib = next;
}
recursiveFreeXmlTree(arena, node->child);
recursiveFreeXmlTree(arena, node->next);
node->name = NULL;
node->isClosed = FALSE;
PLATFORM_MEM_FREE(arena, node, sizeof(XmlNode));
}
}
INTERNAL void freeXmlData(MemoryArena *arena, XmlToken *tokens, i32 numTokens,
XmlNode *tree)
{
if (tree) recursiveFreeXmlTree(arena, tree);
if (tokens) PLATFORM_MEM_FREE(arena, tokens, numTokens * sizeof(XmlToken));
}
i32 asset_loadXmlFile(AssetManager *assetManager, MemoryArena *arena,
PlatformFileRead *fileRead)
{
i32 result = 0;
/* Tokenise buffer */
i32 numTokens = 0;
XmlToken *xmlTokens =
tokeniseXmlBuffer(arena, fileRead->buffer, fileRead->size, &numTokens);
/* Build XML tree from tokens */
XmlNode *xmlTree = buildXmlTree(arena, xmlTokens, numTokens);
if (xmlTree)
{
/* Parse XML tree to game structures */
parseXmlTreeToGame(assetManager, arena, xmlTree);
}
else
{
result = -1;
}
/* Free data */
freeXmlData(arena, xmlTokens, numTokens, xmlTree);
return result;
}
/*
*********************************
* Texture Operations
*********************************
*/
INTERNAL AtlasSubTexture *getAtlasSubTex(TexAtlas *atlas, char *key)
{
u32 hashIndex = common_getHashIndex(key, ARRAY_COUNT(atlas->subTex));
AtlasSubTexture *result = &atlas->subTex[hashIndex];
@ -34,7 +549,7 @@ INTERNAL AtlasSubTexture *getAtlasSubTexture(TexAtlas *atlas, char *key)
return result;
}
INTERNAL AtlasSubTexture *makeAtlasSubTexture(TexAtlas *atlas,
INTERNAL AtlasSubTexture *getFreeAtlasSubTexSlot(TexAtlas *atlas,
MemoryArena *arena, char *key)
{
u32 hashIndex = common_getHashIndex(key, ARRAY_COUNT(atlas->subTex));
@ -59,7 +574,7 @@ INTERNAL AtlasSubTexture *makeAtlasSubTexture(TexAtlas *atlas,
return result;
}
INTERNAL Animation *getFreeAnimSlot(Animation *table, u32 tableSize,
INTERNAL Animation *getFreeAnimationSlot(Animation *table, u32 tableSize,
MemoryArena *arena, char *key)
{
u32 hashIndex = common_getHashIndex(key, tableSize);
@ -84,9 +599,9 @@ INTERNAL Animation *getFreeAnimSlot(Animation *table, u32 tableSize,
return result;
}
Rect asset_getAtlasSubTexRect(TexAtlas *atlas, char *key)
Rect asset_getSubTexRect(TexAtlas *atlas, char *key)
{
AtlasSubTexture *subTex = getAtlasSubTexture(atlas, key);
AtlasSubTexture *subTex = getAtlasSubTex(atlas, key);
Rect result = subTex->rect;
return result;
}
@ -527,7 +1042,7 @@ const i32 asset_loadTTFont(AssetManager *assetManager, MemoryArena *arena,
char charTmp[2] = {0};
charTmp[0] = charToEncode;
AtlasSubTexture *subTex =
makeAtlasSubTexture(fontAtlas, arena, charTmp);
getFreeAtlasSubTexSlot(fontAtlas, arena, charTmp);
subTex->key = PLATFORM_MEM_ALLOC(arena, 1, char);
subTex->key[0] = charToEncode;
@ -615,7 +1130,7 @@ void asset_addAnimation(AssetManager *assetManager, MemoryArena *arena,
char *animName, TexAtlas *atlas, char **subTextureNames,
i32 numSubTextures, f32 frameDuration)
{
Animation *anim = getFreeAnimSlot(
Animation *anim = getFreeAnimationSlot(
assetManager->anims, ARRAY_COUNT(assetManager->anims), arena, animName);
anim->atlas = atlas;
@ -629,7 +1144,7 @@ void asset_addAnimation(AssetManager *assetManager, MemoryArena *arena,
anim->frameList = PLATFORM_MEM_ALLOC(arena, numSubTextures, char*);
for (i32 i = 0; i < numSubTextures; i++)
{
AtlasSubTexture *subTex = getAtlasSubTexture(atlas, subTextureNames[i]);
AtlasSubTexture *subTex = getAtlasSubTex(atlas, subTextureNames[i]);
anim->frameList[i] = subTex->key;
}
@ -656,3 +1171,29 @@ v2 asset_stringDimInPixels(const Font *const font, const char *const string)
return stringDim;
}
void asset_unitTest(MemoryArena *arena)
{
PlatformFileRead xmlFileRead = {0};
i32 result = platform_readFileToBuffer(
arena, "data/textures/WorldTraveller/ClaudeSprite.xml", &xmlFileRead);
if (result)
{
DEBUG_LOG(
"unitTest() error: Could not load XML file for memory free test");
}
else
{
/* Tokenise buffer */
i32 memBefore = arena->bytesAllocated;
i32 numTokens = 0;
XmlToken *xmlTokens = tokeniseXmlBuffer(arena, xmlFileRead.buffer,
xmlFileRead.size, &numTokens);
/* Build XML tree from tokens */
XmlNode *xmlTree = buildXmlTree(arena, xmlTokens, numTokens);
freeXmlData(arena, xmlTokens, numTokens, xmlTree);
i32 memAfter = arena->bytesAllocated;
ASSERT(memBefore == memAfter);
}
}

View File

@ -103,6 +103,36 @@ void debug_init(MemoryArena *arena, v2 windowSize, Font font)
GLOBAL_debug.initialConsoleP = V2(consoleXPos, consoleYPos);
}
void debug_recursivePrintXmlTree(XmlNode *root, i32 levelsDeep)
{
if (!root)
{
return;
}
else
{
for (i32 i = 0; i < levelsDeep; i++)
{
printf("-");
}
printf("%s ", root->name);
XmlAttribute *attribute = &root->attribute;
printf("| %s = %s", attribute->name, attribute->value);
while (attribute->next)
{
attribute = attribute->next;
printf("| %s = %04s", attribute->name, attribute->value);
}
printf("\n");
debug_recursivePrintXmlTree(root->child, levelsDeep+1);
debug_recursivePrintXmlTree(root->next, levelsDeep);
}
}
void debug_callCountIncrement(i32 id)
{
ASSERT(id < debugcallcount_num);

View File

@ -56,7 +56,7 @@ void entity_updateAnim(Entity *entity, f32 dt)
case entitytype_npc:
char *frameName = anim->frameList[currEntityAnim->currFrame];
Rect texRect =
asset_getAtlasSubTexRect(anim->atlas, frameName);
asset_getSubTexRect(anim->atlas, frameName);
entity->renderSize = texRect.size;
default:
break;

View File

@ -211,7 +211,7 @@ void renderer_string(Renderer *const renderer, MemoryArena *arena, Rect camera,
/* Get texture out */
Rect charTexRect =
asset_getAtlasSubTexRect(font->atlas, &CAST(char)codepoint);
asset_getSubTexRect(font->atlas, &CAST(char)codepoint);
v4 deprecatedTexRect = {0};
deprecatedTexRect.vec2[0] = charTexRect.pos;
@ -251,7 +251,7 @@ void renderer_entity(Renderer *renderer, Rect camera, Entity *entity,
EntityAnim *entityAnim = &entity->animList[entity->currAnimId];
Animation *anim = entityAnim->anim;
char *frameName = anim->frameList[entityAnim->currFrame];
Rect animRect = asset_getAtlasSubTexRect(anim->atlas, frameName);
Rect animRect = asset_getSubTexRect(anim->atlas, frameName);
// TODO(doyle): Switch to rect
v4 animTexRect = {0};

View File

@ -111,541 +111,6 @@ INTERNAL void rendererInit(GameState *state, v2 windowSize)
#endif
}
typedef struct XmlAttribute
{
b32 init;
char *name;
char *value;
struct XmlAttribute *next;
} XmlAttribute;
typedef struct XmlNode
{
char *name;
XmlAttribute attribute;
// NOTE(doyle): Track if node has more children
b32 isClosed;
// NOTE(doyle): Direct child/parent
struct XmlNode *parent;
struct XmlNode *child;
// NOTE(doyle): Else all other nodes
struct XmlNode *next;
} XmlNode;
enum XmlTokenType
{
xmltokentype_unknown,
xmltokentype_openArrow,
xmltokentype_closeArrow,
xmltokentype_name,
xmltokentype_value,
xmltokentype_equals,
xmltokentype_quotes,
xmltokentype_backslash,
xmltokentype_count,
};
typedef struct XmlToken
{
// TODO(doyle): Dynamic size string in tokens maybe.
enum XmlTokenType type;
char string[128];
i32 len;
} XmlToken;
#define DEBUG_RECURSIVE_PRINT_XML_TREE(sig) debug_recursivePrintXmlTree(sig, 1)
INTERNAL void debug_recursivePrintXmlTree(XmlNode *root, i32 levelsDeep)
{
if (!root)
{
return;
}
else
{
for (i32 i = 0; i < levelsDeep; i++)
{
printf("-");
}
printf("%s ", root->name);
XmlAttribute *attribute = &root->attribute;
printf("| %s = %s", attribute->name, attribute->value);
while (attribute->next)
{
attribute = attribute->next;
printf("| %s = %04s", attribute->name, attribute->value);
}
printf("\n");
debug_recursivePrintXmlTree(root->child, levelsDeep+1);
debug_recursivePrintXmlTree(root->next, levelsDeep);
}
}
INTERNAL XmlToken *tokeniseXmlBuffer(MemoryArena *arena, char *buffer,
i32 bufferSize, int *numTokens)
{
/*
**********************
* Tokenise XML Buffer
**********************
*/
XmlToken *xmlTokens = PLATFORM_MEM_ALLOC(arena, 8192, XmlToken);
i32 tokenIndex = 0;
for (i32 i = 0; i < bufferSize; i++)
{
char c = (CAST(char *) buffer)[i];
switch (c)
{
case '<':
case '>':
case '=':
case '/':
{
enum XmlTokenType type = xmltokentype_unknown;
if (c == '<')
{
type = xmltokentype_openArrow;
}
else if (c == '>')
{
type = xmltokentype_closeArrow;
}
else if (c == '=')
{
type = xmltokentype_equals;
}
else
{
type = xmltokentype_backslash;
}
xmlTokens[tokenIndex].type = type;
xmlTokens[tokenIndex].len = 1;
tokenIndex++;
break;
}
case '"':
{
xmlTokens[tokenIndex].type = xmltokentype_value;
for (i32 j = i + 1; j < bufferSize; j++)
{
char c = (CAST(char *) buffer)[j];
if (c == '"')
{
break;
}
else
{
xmlTokens[tokenIndex].string[xmlTokens[tokenIndex].len++] =
c;
#ifdef DENGINE_DEBUG
ASSERT(xmlTokens[tokenIndex].len <
ARRAY_COUNT(xmlTokens[tokenIndex].string));
#endif
}
}
// NOTE(doyle): +1 to skip the closing quotes
i += (xmlTokens[tokenIndex].len + 1);
tokenIndex++;
break;
}
default:
{
if ((c >= 'a' && c <= 'z') || c >= 'A' && c <= 'Z')
{
xmlTokens[tokenIndex].type = xmltokentype_name;
for (i32 j = i; j < bufferSize; j++)
{
char c = (CAST(char *) buffer)[j];
if (c == ' ' || c == '=' || c == '>' || c == '<' ||
c == '\\')
{
break;
}
else
{
xmlTokens[tokenIndex]
.string[xmlTokens[tokenIndex].len++] = c;
#ifdef DENGINE_DEBUG
ASSERT(xmlTokens[tokenIndex].len <
ARRAY_COUNT(xmlTokens[tokenIndex].string));
#endif
}
}
i += xmlTokens[tokenIndex].len;
tokenIndex++;
}
break;
}
}
}
// TODO(doyle): Dynamic token allocation
*numTokens = 8192;
return xmlTokens;
}
INTERNAL XmlNode *buildXmlTree(MemoryArena *arena, XmlToken *xmlTokens,
i32 numTokens)
{
XmlNode *root = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
XmlNode *node = root;
node->parent = node;
// NOTE(doyle): Used for when closing a node with many children. We
// automatically assign the next child after each child close within
// a group. Hence on the last child, we open another node but the next
// token indicates the group is closing- we need to set the last child's
// next reference to NULL
XmlNode *prevNode = NULL;
for (i32 i = 0; i < numTokens; i++)
{
XmlToken *token = &xmlTokens[i];
switch (token->type)
{
case xmltokentype_openArrow:
{
/* Open arrows indicate closing parent node or new node name */
XmlToken *nextToken = &xmlTokens[++i];
if (nextToken->type == xmltokentype_backslash)
{
nextToken = &xmlTokens[++i];
if (common_strcmp(nextToken->string, node->parent->name) == 0)
{
node->parent->isClosed = TRUE;
if (prevNode)
{
prevNode->next = NULL;
}
XmlNode *parent = node->parent;
PLATFORM_MEM_FREE(arena, node, sizeof(XmlNode));
node = node->parent;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG(
"Closing xml node name does not match parent name");
#endif
}
}
else if (nextToken->type == xmltokentype_name)
{
node->name = nextToken->string;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unexpected token type after open arrow");
#endif
}
token = nextToken;
break;
}
case xmltokentype_name:
{
// TODO(doyle): Store latest attribute pointer so we aren't always
// chasing the linked list each iteration. Do the same for children
// node
/* Xml Attributes are a linked list, get first free entry */
XmlAttribute *attribute = &node->attribute;
if (attribute->init)
{
while (attribute->next)
attribute = attribute->next;
attribute->next = PLATFORM_MEM_ALLOC(arena, 1, XmlAttribute);
attribute = attribute->next;
}
/* Just plain text is a node attribute name */
attribute->name = token->string;
/* Followed by the value */
token = &xmlTokens[++i];
attribute->value = token->string;
attribute->init = TRUE;
break;
}
case xmltokentype_closeArrow:
{
XmlToken prevToken = xmlTokens[i - 1];
prevNode = node;
/* Closed node means we can return to parent */
if (prevToken.type == xmltokentype_backslash)
{
node->isClosed = TRUE;
node = node->parent;
}
if (!node->isClosed)
{
/* Unclosed node means next fields will be children of node */
/* If the first child is free allocate, otherwise we have to
* iterate through the child's next node(s) */
if (!node->child)
{
node->child = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
node->child->parent = node;
node = node->child;
}
else
{
XmlNode *nodeToCheck = node->child;
while (nodeToCheck->next)
nodeToCheck = nodeToCheck->next;
nodeToCheck->next = PLATFORM_MEM_ALLOC(arena, 1, XmlNode);
nodeToCheck->next->parent = node;
node = nodeToCheck->next;
}
}
break;
}
default:
{
break;
}
}
}
return root;
}
INTERNAL void parseXmlTreeToGame(AssetManager *assetManager, MemoryArena *arena,
XmlNode *root)
{
XmlNode *node = root;
while (node)
{
if (common_strcmp(node->name, "TextureAtlas") == 0)
{
XmlNode *atlasXmlNode = node;
TexAtlas *atlasEntry = NULL;
if (common_strcmp(node->attribute.name, "imagePath") == 0)
{
char *imageName = atlasXmlNode->attribute.value;
atlasEntry = asset_makeTexAtlas(assetManager, arena, imageName);
char *dataDir = "data/textures/WorldTraveller/";
char imagePath[512] = {0};
common_strncat(imagePath, dataDir, common_strlen(dataDir));
common_strncat(imagePath, imageName, common_strlen(imageName));
asset_loadTextureImage(assetManager, arena, imagePath,
imageName);
atlasEntry->key = PLATFORM_MEM_ALLOC(
arena, common_strlen(imageName) + 1, char);
common_strncpy(atlasEntry->key, imageName,
common_strlen(imageName));
atlasEntry->tex = asset_getTex(assetManager, imageName);
XmlNode *atlasChildNode = atlasXmlNode->child;
while (atlasChildNode)
{
if (common_strcmp(atlasChildNode->name, "SubTexture") == 0)
{
XmlAttribute *subTextureAttrib =
&atlasChildNode->attribute;
AtlasSubTexture newSubTexEntry = {0};
while (subTextureAttrib)
{
// TODO(doyle): Work around for now in xml reading,
// reading the last node closing node not being
// merged to the parent
if (!subTextureAttrib->name) continue;
if (common_strcmp(subTextureAttrib->name, "name") ==
0)
{
char *value = subTextureAttrib->value;
newSubTexEntry.key = value;
}
else if (common_strcmp(subTextureAttrib->name,
"x") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.pos.x = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"y") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.pos.y = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"width") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.size.w = CAST(f32) intValue;
}
else if (common_strcmp(subTextureAttrib->name,
"height") == 0)
{
char *value = subTextureAttrib->value;
i32 valueLen = common_strlen(value);
i32 intValue = common_atoi(value, valueLen);
newSubTexEntry.rect.size.h = CAST(f32) intValue;
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG(
"Unsupported xml attribute in SubTexture");
#endif
}
subTextureAttrib = subTextureAttrib->next;
}
// TODO(doyle): XML specifies 0,0 top left, we
// prefer 0,0 bottom right, so offset by size since 0,0
// is top left and size creates a bounding box below it
newSubTexEntry.rect.pos.y =
1024 - newSubTexEntry.rect.pos.y;
newSubTexEntry.rect.pos.y -= newSubTexEntry.rect.size.h;
#ifdef DENGINE_DEBUG
ASSERT(newSubTexEntry.key)
#endif
u32 subTexHashIndex = common_murmurHash2(
newSubTexEntry.key,
common_strlen(newSubTexEntry.key), 0xDEADBEEF);
subTexHashIndex =
subTexHashIndex % ARRAY_COUNT(atlasEntry->subTex);
// NOTE(doyle): Hash collision
AtlasSubTexture *subTexEntry =
&atlasEntry->subTex[subTexHashIndex];
if (subTexEntry->key)
{
#ifdef DENGINE_DEBUG
// NOTE(doyle): Two textures have the same access
// name
ASSERT(common_strcmp(subTexEntry->key,
newSubTexEntry.key) != 0);
#endif
while (subTexEntry->next)
subTexEntry = subTexEntry->next;
subTexEntry->next =
PLATFORM_MEM_ALLOC(arena, 1, AtlasSubTexture);
subTexEntry = subTexEntry->next;
}
*subTexEntry = newSubTexEntry;
i32 keyLen = common_strlen(newSubTexEntry.key);
subTexEntry->key =
PLATFORM_MEM_ALLOC(arena, keyLen + 1, char);
common_strncpy(subTexEntry->key, newSubTexEntry.key,
keyLen);
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node name not parsed");
#endif
}
atlasChildNode = atlasChildNode->next;
}
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node");
#endif
}
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Unsupported xml node name not parsed");
#endif
}
node = node->next;
}
}
INTERNAL void recursiveFreeXmlTree(MemoryArena *arena, XmlNode *node)
{
if (!node)
{
return;
} else
{
// NOTE(doyle): First attribute is statically allocated, only if there's
// more attributes do we dynamically allocate
XmlAttribute *attrib = node->attribute.next;
while (attrib)
{
XmlAttribute *next = attrib->next;
attrib->name = NULL;
attrib->value = NULL;
PLATFORM_MEM_FREE(arena, attrib, sizeof(XmlAttribute));
attrib = next;
}
recursiveFreeXmlTree(arena, node->child);
recursiveFreeXmlTree(arena, node->next);
node->name = NULL;
node->isClosed = FALSE;
PLATFORM_MEM_FREE(arena, node, sizeof(XmlNode));
}
}
INTERNAL void freeXmlData(MemoryArena *arena, XmlToken *tokens, i32 numTokens,
XmlNode *tree)
{
if (tree) recursiveFreeXmlTree(arena, tree);
if (tokens) PLATFORM_MEM_FREE(arena, tokens, numTokens * sizeof(XmlToken));
}
INTERNAL void assetInit(GameState *state)
{
AssetManager *assetManager = &state->assetManager;
@ -656,40 +121,51 @@ INTERNAL void assetInit(GameState *state)
Texture *tex = asset_getAndAllocFreeTexSlot(assetManager, arena, "nullTex");
*tex = texture_gen(1, 1, 4, CAST(u8 *)(&bitmap));
//assetManager->texAtlas.type = hashtabletype_textureAtlas;
/*
*********************************
* Load terrain texture atlas data
*********************************
*/
PlatformFileRead terrainXml = {0};
i32 result = platform_readFileToBuffer(
arena, "data/textures/WorldTraveller/terrain.xml", &terrainXml);
if (result)
{
DEBUG_LOG("Failed to read sprite sheet xml");
}
else
{
/* Tokenise buffer */
i32 numTokens = 0;
XmlToken *xmlTokens = tokeniseXmlBuffer(arena, terrainXml.buffer,
terrainXml.size, &numTokens);
result = asset_loadXmlFile(assetManager, arena, &terrainXml);
/* Build XML tree from tokens */
XmlNode *xmlTree = buildXmlTree(arena, xmlTokens, numTokens);
/* Parse XML tree to game structures */
parseXmlTreeToGame(assetManager, arena, xmlTree);
/* Free data */
freeXmlData(arena, xmlTokens, numTokens, xmlTree);
platform_closeFileRead(arena, &terrainXml);
TexAtlas *terrainAtlas = asset_getTexAtlas(assetManager, "terrain.png");
if (!result)
{
TexAtlas *terrainAtlas =
asset_getTexAtlas(assetManager, "terrain.png");
i32 numSubTextures = 1;
f32 duration = 1.0f;
char *grassTerrain[1] = {"grass.png"};
asset_addAnimation(assetManager, arena, "terrainGrass", terrainAtlas,
grassTerrain, numSubTextures, duration);
asset_addAnimation(assetManager, arena, "terrainGrass",
terrainAtlas, grassTerrain, numSubTextures,
duration);
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Failed to load terrain sprite xml data");
#endif
}
platform_closeFileRead(arena, &terrainXml);
}
/*
*********************************
* Load Claude texture atlas data
*********************************
*/
PlatformFileRead claudeXml = {0};
result = platform_readFileToBuffer(
arena, "data/textures/WorldTraveller/ClaudeSprite.xml", &claudeXml);
@ -700,21 +176,10 @@ INTERNAL void assetInit(GameState *state)
}
else
{
/* Tokenise buffer */
i32 numTokens = 0;
XmlToken *xmlTokens = tokeniseXmlBuffer(arena, claudeXml.buffer,
claudeXml.size, &numTokens);
/* Build XML tree from tokens */
XmlNode *xmlTree = buildXmlTree(arena, xmlTokens, numTokens);
/* Parse XML tree to game structures */
parseXmlTreeToGame(assetManager, arena, xmlTree);
/* Free data */
freeXmlData(arena, xmlTokens, numTokens, xmlTree);
platform_closeFileRead(arena, &claudeXml);
result = asset_loadXmlFile(assetManager, arena, &claudeXml);
if (!result)
{
TexAtlas *claudeAtlas =
asset_getTexAtlas(assetManager, "ClaudeSprite.png");
@ -740,8 +205,9 @@ INTERNAL void assetInit(GameState *state)
"ClaudeSprite_BattleIdle_Left_03"};
numRects = ARRAY_COUNT(claudeBattleIdle);
duration = 0.2f;
asset_addAnimation(assetManager, arena, "claudeBattleIdle", claudeAtlas,
claudeBattleIdle, numRects, duration);
asset_addAnimation(assetManager, arena, "claudeBattleIdle",
claudeAtlas, claudeBattleIdle, numRects,
duration);
// Attack Left animation
char *claudeAttack[6] = {
@ -754,20 +220,34 @@ INTERNAL void assetInit(GameState *state)
claudeAttack, numRects, duration);
// Victory animation
char *claudeVictory[8] = {
"ClaudeSprite_Battle_Victory_01", "ClaudeSprite_Battle_Victory_02",
"ClaudeSprite_Battle_Victory_03", "ClaudeSprite_Battle_Victory_04",
"ClaudeSprite_Battle_Victory_05", "ClaudeSprite_Battle_Victory_06",
"ClaudeSprite_Battle_Victory_07", "ClaudeSprite_Battle_Victory_08"};
char *claudeVictory[8] = {"ClaudeSprite_Battle_Victory_01",
"ClaudeSprite_Battle_Victory_02",
"ClaudeSprite_Battle_Victory_03",
"ClaudeSprite_Battle_Victory_04",
"ClaudeSprite_Battle_Victory_05",
"ClaudeSprite_Battle_Victory_06",
"ClaudeSprite_Battle_Victory_07",
"ClaudeSprite_Battle_Victory_08"};
numRects = ARRAY_COUNT(claudeVictory);
duration = 0.1f;
asset_addAnimation(assetManager, arena, "claudeVictory", claudeAtlas,
claudeVictory, numRects, duration);
asset_addAnimation(assetManager, arena, "claudeVictory",
claudeAtlas, claudeVictory, numRects, duration);
}
else
{
#ifdef DENGINE_DEBUG
DEBUG_LOG("Failed to load claude sprite xml data");
#endif
}
platform_closeFileRead(arena, &claudeXml);
}
#ifdef DENGINE_DEBUG
DEBUG_LOG("Animations created");
#endif
}
/* Load shaders */
asset_loadShaderFiles(assetManager, arena, "data/shaders/sprite.vert.glsl",
@ -981,30 +461,7 @@ INTERNAL void unitTest(MemoryArena *arena)
ASSERT(common_atoi(" 32", common_strlen(" 32")) == -1);
ASSERT(common_atoi("+32", common_strlen("+32")) == 32);
ASSERT(common_atoi("+ 32", common_strlen("+ 32")) == 0);
PlatformFileRead xmlFileRead = {0};
i32 result = platform_readFileToBuffer(
arena, "data/textures/WorldTraveller/ClaudeSprite.xml", &xmlFileRead);
if (result)
{
DEBUG_LOG(
"unitTest() error: Could not load XML file for memory free test");
}
else
{
/* Tokenise buffer */
i32 memBefore = arena->bytesAllocated;
i32 numTokens = 0;
XmlToken *xmlTokens = tokeniseXmlBuffer(arena, xmlFileRead.buffer,
xmlFileRead.size, &numTokens);
/* Build XML tree from tokens */
XmlNode *xmlTree = buildXmlTree(arena, xmlTokens, numTokens);
freeXmlData(arena, xmlTokens, numTokens, xmlTree);
i32 memAfter = arena->bytesAllocated;
ASSERT(memBefore == memAfter);
}
asset_unitTest(arena);
}
// TODO(doyle): Remove and implement own random generator!
@ -2172,7 +1629,7 @@ void worldTraveller_gameUpdateAndRender(GameState *state, f32 dt)
TexAtlas *heroAtlas =
asset_getTexAtlas(assetManager, "ClaudeSprite.png");
Rect heroAvatarRect =
asset_getAtlasSubTexRect(heroAtlas, "ClaudeSprite_Avatar_01");
asset_getSubTexRect(heroAtlas, "ClaudeSprite_Avatar_01");
v2 heroAvatarP =
V2(10.0f, (renderer->size.h * 0.5f) - (0.5f * heroAvatarRect.size.h));

View File

@ -7,59 +7,94 @@
/* Forward declaration */
typedef struct MemoryArena MemoryArena;
typedef struct PlatformFileRead PlatformFileRead;
enum HashTableType
{
hashtabletype_unknown,
hashtabletype_texture,
hashtabletype_textureAtlas,
hashtabletype_animation,
hashtabletype_count,
};
typedef struct HashTableEntry
{
void *data;
char *key;
void *next;
} HashTableEntry;
typedef struct HashTable
{
HashTableEntry *entries;
i32 size;
enum HashTableType type;
} HashTable;
typedef struct AssetManager
{
/* Hash Tables */
TexAtlas texAtlas[8];
Texture textures[32];
Shader shaders[32];
Animation anims[1024];
/* Primitive Array */
Shader shaders[32];
AudioVorbis audio[32];
Font font;
TexAtlas texAtlas[8];
} AssetManager;
#define MAX_TEXTURE_SIZE 1024
Rect asset_getAtlasSubTexRect(TexAtlas *atlas, char *key);
AudioVorbis *asset_getVorbis(AssetManager *assetManager,
const enum AudioList type);
/*
*********************************
* Texture Asset Managing
*********************************
*/
Rect asset_getSubTexRect(TexAtlas *atlas, char *key);
Texture *asset_getTex(AssetManager *const assetManager, const char *const key);
TexAtlas *asset_makeTexAtlas(AssetManager *const assetManager,
MemoryArena *arena, const char *const key);
Shader *asset_getShader(AssetManager *assetManager, const enum ShaderList type);
TexAtlas *asset_getTexAtlas(AssetManager *const assetManager,
const char *const key);
Texture *asset_getAndAllocFreeTexSlot(AssetManager *assetManager,
MemoryArena *arena,
const char *const key);
Animation *asset_getAnim(AssetManager *assetManager, char *key);
const i32 asset_loadVorbis(AssetManager *assetManager, MemoryArena *arena,
const char *const path, const enum AudioList type);
const i32 asset_loadTextureImage(AssetManager *assetManager, MemoryArena *arena,
const char *const path,
const char *const key);
/*
*********************************
* Animation Asset Managing
*********************************
*/
void asset_addAnimation(AssetManager *assetManager, MemoryArena *arena,
char *animName, TexAtlas *atlas, char **subTextureNames,
i32 numSubTextures, f32 frameDuration);
Animation *asset_getAnim(AssetManager *assetManager, char *key);
/*
*********************************
* Everything else
*********************************
*/
i32 asset_loadXmlFile(AssetManager *assetManager, MemoryArena *arena,
PlatformFileRead *fileRead);
AudioVorbis *asset_getVorbis(AssetManager *assetManager,
const enum AudioList type);
Shader *asset_getShader(AssetManager *assetManager, const enum ShaderList type);
const i32 asset_loadVorbis(AssetManager *assetManager, MemoryArena *arena,
const char *const path, const enum AudioList type);
const i32 asset_loadShaderFiles(AssetManager *assetManager, MemoryArena *arena,
const char *const vertexPath,
const char *const fragmentPath,
const enum ShaderList type);
const i32 asset_loadTTFont(AssetManager *assetManager, MemoryArena *arena,
const char *filePath);
void asset_addAnimation(AssetManager *assetManager, MemoryArena *arena,
char *animName, TexAtlas *atlas, char **subTextureNames,
i32 numSubTextures, f32 frameDuration);
v2 asset_stringDimInPixels(const Font *const font, const char *const string);
void asset_unitTest(MemoryArena *arena);
#endif

View File

@ -10,6 +10,32 @@
/* Forward Declaration */
typedef struct Texture Texture;
typedef struct XmlAttribute
{
b32 init;
char *name;
char *value;
struct XmlAttribute *next;
} XmlAttribute;
typedef struct XmlNode
{
char *name;
XmlAttribute attribute;
// NOTE(doyle): Track if node has more children
b32 isClosed;
// NOTE(doyle): Direct child/parent
struct XmlNode *parent;
struct XmlNode *child;
// NOTE(doyle): Else all other nodes
struct XmlNode *next;
} XmlNode;
enum TexList
{
texlist_empty,

View File

@ -18,6 +18,9 @@ enum DebugCallCount
void debug_init(MemoryArena *arena, v2 windowSize, Font font);
#define DEBUG_RECURSIVE_PRINT_XML_TREE(sig) debug_recursivePrintXmlTree(sig, 1)
void debug_recursivePrintXmlTree(XmlNode *root, i32 levelsDeep);
void debug_callCountIncrement(enum DebugCallCount id);
void debug_clearCallCounter();
#define DEBUG_LOG(string) debug_consoleLog(string, __FILE__, __LINE__);