Additional debug string rendering infrastructure

Separate notion of rendering a static string, i.e. for debug display that
is absolutely positioned, and rendering of a regular string that moves
with the game camera.
This commit is contained in:
Doyle Thai 2016-07-12 18:11:31 +10:00
parent d82afe49d0
commit b1875077b7
6 changed files with 149 additions and 55 deletions

View File

@ -48,6 +48,15 @@ const i32 asset_loadTextureImage(AssetManager *assetManager,
u8 *image = u8 *image =
stbi_load(path, &imgWidth, &imgHeight, &bytesPerPixel, 0); stbi_load(path, &imgWidth, &imgHeight, &bytesPerPixel, 0);
#ifdef DENGINE_DEBUG
if (imgWidth != imgHeight)
{
printf(
"worldTraveller_gameInit() warning: Sprite sheet is not square: "
"%dx%dpx\n", imgWidth, imgHeight);
}
#endif
if (!image) if (!image)
{ {
printf("stdbi_load() failed: %s\n", stbi_failure_reason()); printf("stdbi_load() failed: %s\n", stbi_failure_reason());

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@ -58,7 +58,7 @@ void debug_stringUpdateAndRender(Renderer *renderer, Font *font, f32 dt)
{ {
f32 rotate = 0; f32 rotate = 0;
v4 color = V4(0, 0, 0, 1); v4 color = V4(0, 0, 0, 1);
renderer_string(renderer, font, GLOBAL_debugState.debugStrings[i], renderer_staticString(renderer, font, GLOBAL_debugState.debugStrings[i],
GLOBAL_debugState.stringPos, rotate, color); GLOBAL_debugState.stringPos, rotate, color);
GLOBAL_debugState.stringPos.y -= GLOBAL_debugState.stringPos.y -=
(0.9f * GLOBAL_debugState.stringLineGap); (0.9f * GLOBAL_debugState.stringLineGap);

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@ -18,18 +18,33 @@ INTERNAL void updateBufferObject(Renderer *const renderer,
glBindBuffer(GL_ARRAY_BUFFER, 0); glBindBuffer(GL_ARRAY_BUFFER, 0);
} }
void renderer_string(Renderer *const renderer, Font *const font, void renderer_string(Renderer *const renderer, v4 cameraBounds,
const char *const string, v2 pos, f32 rotate, Font *const font, const char *const string, v2 pos,
v4 color) f32 rotate, v4 color)
{ {
i32 quadIndex = 0;
i32 strLen = common_strlen(string); i32 strLen = common_strlen(string);
// TODO(doyle): Slightly incorrect string length in pixels calculation,
// because we use the advance metric of each character for length not
// maximum character size in rendering
v2 rightAlignedP =
v2_add(pos, V2((CAST(f32) font->maxSize.w * CAST(f32) strLen),
CAST(f32) font->maxSize.h));
v2 leftAlignedP = pos;
if ((leftAlignedP.x < cameraBounds.z && rightAlignedP.x >= cameraBounds.x) &&
(leftAlignedP.y < cameraBounds.y && rightAlignedP.y >= cameraBounds.w))
{
i32 quadIndex = 0;
RenderQuad *stringQuads = PLATFORM_MEM_ALLOC(strLen, RenderQuad); RenderQuad *stringQuads = PLATFORM_MEM_ALLOC(strLen, RenderQuad);
v2 offsetFromCamOrigin = V2(cameraBounds.x, cameraBounds.w);
v2 entityRelativeToCamera = v2_sub(pos, offsetFromCamOrigin);
pos = entityRelativeToCamera;
f32 baseline = pos.y; f32 baseline = pos.y;
for (i32 i = 0; i < strLen; i++) for (i32 i = 0; i < strLen; i++)
{ {
// NOTE(doyle): Atlas packs fonts tightly, so offset the codepoint to // NOTE(doyle): Atlas packs fonts tightly, so offset the codepoint
// to
// its actual atlas index, i.e. we skip the first 31 glyphs // its actual atlas index, i.e. we skip the first 31 glyphs
i32 codepoint = string[i]; i32 codepoint = string[i];
i32 relativeIndex = codepoint - font->codepointRange.x; i32 relativeIndex = codepoint - font->codepointRange.x;
@ -45,8 +60,8 @@ void renderer_string(Renderer *const renderer, Font *const font,
v4 charTexRect = font->atlas->texRect[relativeIndex]; v4 charTexRect = font->atlas->texRect[relativeIndex];
renderer_flipTexCoord(&charTexRect, FALSE, TRUE); renderer_flipTexCoord(&charTexRect, FALSE, TRUE);
RenderQuad charQuad = renderer_createQuad(renderer, charRectOnScreen, RenderQuad charQuad = renderer_createQuad(
charTexRect, font->tex); renderer, charRectOnScreen, charTexRect, font->tex);
stringQuads[quadIndex++] = charQuad; stringQuads[quadIndex++] = charQuad;
} }
@ -57,11 +72,11 @@ void renderer_string(Renderer *const renderer, Font *const font,
renderer_object(renderer, V2(0.0f, 0.0f), renderer->size, rotate, color, renderer_object(renderer, V2(0.0f, 0.0f), renderer->size, rotate, color,
font->tex); font->tex);
PLATFORM_MEM_FREE(stringQuads, strLen * sizeof(RenderQuad)); PLATFORM_MEM_FREE(stringQuads, strLen * sizeof(RenderQuad));
}
} }
void renderer_entity(Renderer *renderer, v4 cameraBounds, Entity *entity, f32 dt, f32 rotate, void renderer_entity(Renderer *renderer, v4 cameraBounds, Entity *entity,
v4 color) f32 dt, f32 rotate, v4 color)
{ {
// TODO(doyle): Batch into render groups // TODO(doyle): Batch into render groups
@ -101,7 +116,6 @@ void renderer_entity(Renderer *renderer, v4 cameraBounds, Entity *entity, f32 dt
renderer_object(renderer, entityRelativeToCamera, entity->size, rotate, renderer_object(renderer, entityRelativeToCamera, entity->size, rotate,
color, entity->tex); color, entity->tex);
} }
} }
void renderer_object(Renderer *renderer, v2 pos, v2 size, f32 rotate, v4 color, void renderer_object(Renderer *renderer, v2 pos, v2 size, f32 rotate, v4 color,

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@ -201,23 +201,13 @@ void worldTraveller_gameInit(GameState *state, v2i windowSize)
heroWalkRects[2] = V4(849.0f, 1018.0f, 904.0f, 920.0f); heroWalkRects[2] = V4(849.0f, 1018.0f, 904.0f, 920.0f);
addAnim(hero, heroWalkRects, numRects, duration); addAnim(hero, heroWalkRects, numRects, duration);
Texture *heroSheet = hero->tex;
v2 sheetSize = V2(CAST(f32) heroSheet->width, CAST(f32) heroSheet->height);
if (sheetSize.x != sheetSize.y)
{
printf(
"worldTraveller_gameInit() warning: Sprite sheet is not square: "
"%dx%dpx\n",
CAST(i32) sheetSize.w, CAST(i32) sheetSize.h);
}
/* Create a NPC */ /* Create a NPC */
pos = V2(300.0f, 300.0f); pos = V2((renderer->size.w / 3.0f), CAST(f32) state->tileSize);
size = hero->size; size = hero->size;
type = entitytype_hero; type = entitytype_npc;
dir = direction_null; dir = direction_null;
tex = hero->tex; tex = hero->tex;
collides = TRUE; collides = FALSE;
Entity *npc = addEntity(world, pos, size, type, dir, tex, collides); Entity *npc = addEntity(world, pos, size, type, dir, tex, collides);
/* Add npc waving animation */ /* Add npc waving animation */
@ -228,6 +218,32 @@ void worldTraveller_gameInit(GameState *state, v2i windowSize)
npcWavingRects[1] = V4(944.0f, 812.0f, 1010.0f, 710.0f); npcWavingRects[1] = V4(944.0f, 812.0f, 1010.0f, 710.0f);
addAnim(npc, npcWavingRects, numRects, duration); addAnim(npc, npcWavingRects, numRects, duration);
/* Create a Mob */
pos = V2(renderer->size.w - (renderer->size.w / 3.0f),
CAST(f32) state->tileSize);
size = hero->size;
type = entitytype_mob;
dir = direction_west;
tex = hero->tex;
collides = TRUE;
Entity *mob = addEntity(world, pos, size, type, dir, tex, collides);
/* Add mob idle animation */
duration = 1.0f;
numRects = 1;
v4 *mobIdleRects = PLATFORM_MEM_ALLOC(numRects, v4);
mobIdleRects[0] = heroIdleRects[0];
addAnim(mob, mobIdleRects, numRects, duration);
/* Add mob walking animation */
duration = 0.10f;
numRects = 3;
v4 *mobWalkRects = PLATFORM_MEM_ALLOC(numRects, v4);
mobWalkRects[0] = heroWalkRects[0];
mobWalkRects[1] = heroWalkRects[1];
mobWalkRects[2] = heroWalkRects[2];
addAnim(mob, mobWalkRects, numRects, duration);
} }
INTERNAL void parseInput(GameState *state, const f32 dt) INTERNAL void parseInput(GameState *state, const f32 dt)
@ -406,18 +422,63 @@ void worldTraveller_gameUpdateAndRender(GameState *state, const f32 dt)
if (cameraBounds.w <= world->bounds.w) cameraBounds.w = world->bounds.w; if (cameraBounds.w <= world->bounds.w) cameraBounds.w = world->bounds.w;
Font *font = &assetManager->font;
for (i32 i = 0; i < world->freeEntityIndex; i++) for (i32 i = 0; i < world->freeEntityIndex; i++)
{ {
Entity *const entity = &world->entities[i]; Entity *const entity = &world->entities[i];
renderer_entity(&state->renderer, cameraBounds, entity, dt, 0.0f, renderer_entity(&state->renderer, cameraBounds, entity, dt, 0.0f,
V4(1, 1, 1, 1)); V4(1, 1, 1, 1));
#ifdef DENGINE_DEBUG
v4 color = V4(1, 1, 1, 1);
char *debugString = NULL;
switch(entity->type)
{
case entitytype_mob:
color = V4(1, 0, 0, 1);
debugString = "MOB";
break;
case entitytype_hero:
color = V4(0, 0, 1.0f, 1);
debugString = "HERO";
break;
case entitytype_npc:
color = V4(0, 1.0f, 0, 1);
debugString = "NPC";
break;
default:
break;
}
if (debugString)
{
v2 strPos = v2_add(entity->pos, entity->size);
i32 indexOfLowerAInMetrics = 'a' - font->codepointRange.x;
strPos.y += font->charMetrics[indexOfLowerAInMetrics].offset.y;
renderer_string(&state->renderer, cameraBounds, font, debugString,
strPos, 0, color);
f32 stringLineGap = 1.1f * asset_getVFontSpacing(font->metrics);
strPos.y -= GLOBAL_debugState.stringLineGap;
char entityPosStr[256];
snprintf(entityPosStr, ARRAY_COUNT(entityPosStr), "%06.2f, %06.2f",
entity->pos.x, entity->pos.y);
renderer_string(&state->renderer, cameraBounds, font, entityPosStr,
strPos, 0, color);
}
#endif
} }
// TODO(doyle): Clean up lines // TODO(doyle): Clean up lines
// Renderer::~Renderer() { glDeleteVertexArrays(1, &this->quadVAO); } // Renderer::~Renderer() { glDeleteVertexArrays(1, &this->quadVAO); }
#ifdef DENGINE_DEBUG #ifdef DENGINE_DEBUG
Font *font = &assetManager->font;
Entity *hero = &world->entities[world->heroIndex]; Entity *hero = &world->entities[world->heroIndex];
DEBUG_PUSH_STRING("Hero Pos: %06.2f, %06.2f", &hero->pos, "v2"); DEBUG_PUSH_STRING("Hero Pos: %06.2f, %06.2f", &hero->pos, "v2");
DEBUG_PUSH_STRING("Hero dPos: %06.2f, %06.2f", &hero->dPos, "v2"); DEBUG_PUSH_STRING("Hero dPos: %06.2f, %06.2f", &hero->dPos, "v2");

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@ -19,6 +19,7 @@ enum EntityType
entitytype_null, entitytype_null,
entitytype_hero, entitytype_hero,
entitytype_npc, entitytype_npc,
entitytype_mob,
entitytype_tile, entitytype_tile,
entitytype_count, entitytype_count,
}; };

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@ -19,8 +19,17 @@ typedef struct RenderQuad
v4 vertex[4]; v4 vertex[4];
} RenderQuad; } RenderQuad;
void renderer_string(Renderer *const renderer, Font *const font, void renderer_string(Renderer *const renderer, v4 cameraBounds,
const char *const string, v2 pos, f32 rotate, v4 color); Font *const font, const char *const string, v2 pos,
f32 rotate, v4 color);
inline void renderer_staticString(Renderer *const renderer, Font *const font,
const char *const string, v2 pos, f32 rotate,
v4 color)
{
renderer_string(renderer, V4(0, renderer->size.h, renderer->size.w, 0),
font, string, pos, rotate, color);
}
void renderer_entity(Renderer *renderer, v4 cameraBounds, Entity *entity, void renderer_entity(Renderer *renderer, v4 cameraBounds, Entity *entity,
f32 dt, f32 rotate, v4 color); f32 dt, f32 rotate, v4 color);