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Silkworm/src/Silkworm.c

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/* Silkworm - Verlet cloth physics in C
*
* Copyright (c) 2021 Evan Hemsley
*
* This software is provided 'as-is', without any express or implied warranty.
* In no event will the authors be held liable for any damages arising from
* the use of this software.
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software. If you use this software in a
* product, an acknowledgment in the product documentation would be
* appreciated but is not required.
*
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
*
* 3. This notice may not be removed or altered from any source distribution.
*
* Evan "cosmonaut" Hemsley <evan@moonside.games>
*
*/
#include "Silkworm.h"
#include <stdlib.h>
#include <string.h>
typedef struct Silkworm_Color
{
uint8_t r;
uint8_t g;
uint8_t b;
uint8_t a;
} Silkworm_Color;
typedef struct Silkworm_Context
{
Silkworm_Node** nodes;
uint32_t nodeCount;
Silkworm_Link** links;
uint32_t linkCount;
Silkworm_Cloth** cloths;
uint32_t clothCount;
uint32_t clothCapacity;
uint64_t* nodeIndexStack;
uint32_t nodeIndexStackCount;
uint32_t nodeIndexStackCapacity;
uint64_t* linkIndexStack;
uint32_t linkIndexStackCount;
uint32_t linkIndexStackCapacity;
uint64_t* clothIndexStack;
uint32_t clothIndexStackCount;
uint32_t clothIndexStackCapacity;
float gravity;
float xBound;
float yBound;
uint32_t clothDensity;
uint8_t* currentBufferAddress; /* GM doesnt let you pass more than 4 arguments with different types lol */
} Silkworm_Context;
static Silkworm_Context *context = NULL;
#define CONSTRAINT_ITERATION_COUNT 3 /* TODO: make this a parameter? */
void Silkworm_Init()
{
context = malloc(sizeof(Silkworm_Context));
context->nodes = NULL;
context->nodeCount = 0;
context->links = NULL;
context->linkCount = 0;
context->cloths = NULL;
context->clothCount = 0;
context->nodeIndexStackCapacity = 16;
context->nodeIndexStack = malloc(sizeof(uint64_t) * context->nodeIndexStackCapacity);
context->nodeIndexStackCount = 0;
context->linkIndexStackCapacity = 16;
context->linkIndexStack = malloc(sizeof(uint64_t) * context->linkIndexStackCapacity);
context->linkIndexStackCount = 0;
context->clothIndexStackCapacity = 16;
context->clothIndexStack = malloc(sizeof(uint64_t) * context->clothIndexStackCapacity);
context->clothIndexStackCount = 0;
context->gravity = 200;
context->xBound = 1000;
context->yBound = 1000;
context->clothDensity = 4;
}
static inline Silkworm_Node* LookupNode(uint64_t nodeId)
{
return context->nodes[nodeId];
}
static inline Silkworm_Link* LookupLink(uint64_t linkId)
{
return context->links[linkId];
}
static inline Silkworm_Cloth* LookupCloth(uint64_t clothId)
{
return context->cloths[clothId];
}
/* we defer actual destruction to Update to avoid issues with NULL */
void Silkworm_DestroyNode(double nodeId)
{
uint32_t i;
Silkworm_Node* node = LookupNode((uint64_t)nodeId);
if (node != NULL)
{
node->markedForDestroy = true;
for (i = 0; i < node->linkCount; i += 1)
{
if (node->links[i] != NULL)
{
node->links[i]->markedForDestroy = true;
}
}
}
}
void Silkworm_Internal_DestroyLink(Silkworm_Link* link)
{
link->markedForDestroy = true;
}
void Silkworm_DestroyLink(double linkId)
{
Silkworm_Internal_DestroyLink(LookupLink((uint64_t)linkId));
}
void Silkworm_Internal_DestroyCloth(Silkworm_Cloth* cloth)
{
uint32_t i, j;
context->cloths[cloth->id] = NULL;
for (i = 0; i < cloth->horizontalNodeCount; i += 1)
{
for (j = 0; j < cloth->verticalNodeCount; j += 1)
{
Silkworm_DestroyNode((double)cloth->nodeIndices[i][j]);
}
free(cloth->nodeIndices[i]);
}
free(cloth->nodeIndices);
free(cloth);
if (context->clothIndexStackCount >= context->clothIndexStackCapacity)
{
context->clothIndexStackCapacity *= 2;
context->nodeIndexStack = realloc(context->nodeIndexStack, sizeof(uint64_t) * context->nodeIndexStackCapacity);
}
context->clothIndexStack[context->clothIndexStackCount] = cloth->id;
context->clothIndexStackCount += 1;
}
void Silkworm_DestroyCloth(double clothId)
{
Silkworm_Internal_DestroyCloth(LookupCloth((uint64_t)clothId));
}
void Silkworm_PerformDestroys()
{
uint32_t i, j;
for (i = 0; i < context->linkCount; i += 1)
{
if (context->links[i] != NULL && context->links[i]->markedForDestroy)
{
for (j = 0; j < context->links[i]->a->linkCount; j += 1)
{
if (context->links[i]->a->links[j] == context->links[i])
{
context->links[i]->a->links[j] = NULL;
}
}
for (j = 0; j < context->links[i]->b->linkCount; j += 1)
{
if (context->links[i]->b->links[j] == context->links[i])
{
context->links[i]->b->links[j] = NULL;
}
}
free(context->links[i]);
context->links[i] = NULL;
if (context->linkIndexStackCount >= context->linkIndexStackCapacity)
{
context->linkIndexStackCapacity *= 2;
context->linkIndexStack = realloc(context->linkIndexStack, sizeof(uint64_t) * context->linkIndexStackCapacity);
}
context->linkIndexStack[context->linkIndexStackCount] = i;
context->linkIndexStackCount += 1;
}
}
for (i = 0; i < context->nodeCount; i += 1)
{
if (context->nodes[i] != NULL && context->nodes[i]->markedForDestroy)
{
free(context->nodes[i]->links);
free(context->nodes[i]);
context->nodes[i] = NULL;
if (context->nodeIndexStackCount >= context->nodeIndexStackCapacity)
{
context->nodeIndexStackCapacity *= 2;
context->nodeIndexStack = realloc(context->nodeIndexStack, sizeof(uint64_t) * context->nodeIndexStackCapacity);
}
context->nodeIndexStack[context->nodeIndexStackCount] = i;
context->nodeIndexStackCount += 1;
}
}
}
void Silkworm_Update(double deltaTime)
{
uint32_t i, j;
Silkworm_Link *link;
Silkworm_Node *node;
float delta = (float)deltaTime;
for (i = 0; i < CONSTRAINT_ITERATION_COUNT; i += 1)
{
for (j = 0; j < context->linkCount; j += 1)
{
link = context->links[j];
if (link != NULL)
{
float diffX = link->a->position.x - link->b->position.x;
float diffY = link->a->position.y - link->b->position.y;
float d = (float)sqrt(diffX * diffX + diffY * diffY);
float difference = (link->distance - d) / d;
float translateX = diffX * 0.5f * difference;
float translateY = diffY * 0.5f * difference;
float distanceMoved = (float)sqrt(translateX * translateX + translateY * translateY);
if (distanceMoved > link->tearThreshold)
{
Silkworm_DestroyLink((double)link->id);
}
else
{
if (!link->a->pinned)
{
link->a->position.x += translateX;
link->a->position.y += translateY;
}
if (!link->b->pinned)
{
link->b->position.x -= translateX;
link->b->position.y -= translateY;
}
}
}
}
}
for (j = 0; j < context->nodeCount; j += 1)
{
node = context->nodes[j];
if (node != NULL)
{
if (!node->pinned)
{
float velocityX = (node->position.x - node->previousPosition.x) * node->friction;
float velocityY = (node->position.y - node->previousPosition.y) * node->friction;
float accelerationX = node->acceleration.x * delta * delta;
float accelerationY = (node->acceleration.y + node->mass * context->gravity) * delta * delta;
node->previousPosition.x = node->position.x;
node->previousPosition.y = node->position.y;
node->position.x += velocityX + accelerationX;
node->position.y += velocityY + accelerationY;
node->velocity.x = velocityX * delta;
node->velocity.y = velocityY * delta;
if (fabs(node->position.x) > context->xBound || fabs(node->position.x) > context->yBound)
{
Silkworm_DestroyNode((double)node->id);
}
}
}
}
Silkworm_PerformDestroys();
}
double Silkworm_CreateNode(double xPosition, double yPosition, double mass, double friction, double radius, double pushFactor)
{
Silkworm_Node* node = malloc(sizeof(Silkworm_Node));
uint64_t id;
if (context->nodeIndexStackCount > 0)
{
id = context->nodeIndexStack[context->nodeIndexStackCount - 1];
context->nodeIndexStackCount -= 1;
}
else
{
id = context->nodeCount;
context->nodes = realloc(context->nodes, sizeof(Silkworm_Node*) * (context->nodeCount + 1));
context->nodeCount += 1;
}
context->nodes[id] = node;
node->id = id;
node->position.x = (float)xPosition;
node->position.y = (float)yPosition;
node->previousPosition.x = (float)xPosition;
node->previousPosition.y = (float)yPosition;
node->velocity.x = 0;
node->velocity.y = 0;
node->acceleration.x = 0;
node->acceleration.y = 0;
node->mass = (float)mass;
node->friction = (float)friction;
node->radius = (float)radius;
node->pushFactor = (float)pushFactor;
node->pinned = false;
node->destroyable = false;
node->markedForDestroy = false;
node->links = NULL;
node->linkCount = 0;
return (double)node->id;
}
void Silkworm_NodeSetVelocity(double nodeId, double xVelocity, double yVelocity)
{
LookupNode(nodeId)->velocity.x = (float)xVelocity;
LookupNode(nodeId)->velocity.y = (float)yVelocity;
}
void Silkworm_NodeSetAcceleration(double nodeId, double xAcceleration, double yAcceleration)
{
LookupNode(nodeId)->acceleration.x = (float)xAcceleration;
LookupNode(nodeId)->acceleration.y = (float)yAcceleration;
}
void Silkworm_NodeSetDestroyable(double nodeId)
{
LookupNode(nodeId)->destroyable = true;
}
void Silkworm_ClothNodePin(double clothId, double i, double j)
{
Silkworm_Cloth* cloth = LookupCloth(clothId);
context->nodes[cloth->nodeIndices[(uint64_t)i][(uint64_t)j]]->pinned = true;
}
void Silkworm_ClothNodeUnpin(double clothId, double i, double j)
{
Silkworm_Cloth* cloth = LookupCloth(clothId);
context->nodes[cloth->nodeIndices[(uint64_t)i][(uint64_t)j]]->pinned = false;
}
void Silkworm_ClothNodeDestroy(double clothId, double i, double j)
{
uint32_t iterator;
Silkworm_Cloth* cloth = LookupCloth(clothId);
uint64_t nodeIndex = cloth->nodeIndices[(uint64_t)i][(uint64_t)j];
Silkworm_Node* node = context->nodes[nodeIndex];
Silkworm_DestroyNode(nodeIndex);
/* fixme: this should be hashed */
for (iterator = 0; iterator < cloth->triangleCount; iterator += 1)
{
if (cloth->triangles[iterator] != NULL)
{
if (cloth->triangles[iterator]->a == node || cloth->triangles[iterator]->b == node || cloth->triangles[iterator]->c == node)
{
free(cloth->triangles[iterator]);
cloth->triangles[iterator] = NULL;
}
}
}
}
double Silkworm_CreateLink(double aId, double bId, double distance, double tearThreshold)
{
Silkworm_Node *nodeA = LookupNode(aId);
Silkworm_Node *nodeB = LookupNode(bId);
uint64_t id;
Silkworm_Link* link = malloc(sizeof(Silkworm_Link));
if (context->linkIndexStackCount > 0)
{
id = context->linkIndexStack[context->linkIndexStackCount - 1];
context->linkIndexStackCount -= 1;
}
else
{
id = context->linkCount;
context->links = realloc(context->links, sizeof(Silkworm_Link*) * (context->linkCount + 1));
context->linkCount += 1;
}
context->links[id] = link;
link->id = id;
link->a = nodeA;
link->b = nodeB;
link->distance = (float)distance;
link->tearThreshold = (float)tearThreshold;
link->markedForDestroy = false;
link->a->links = realloc(link->a->links, sizeof(Silkworm_Link*) * (link->a->linkCount + 1));
link->a->links[link->a->linkCount] = link;
link->a->linkCount += 1;
link->b->links = realloc(link->b->links, sizeof(Silkworm_Link*) * (link->b->linkCount + 1));
link->b->links[link->b->linkCount] = link;
link->b->linkCount += 1;
return (double)link->id;
}
double Silkworm_CreateCloth(double xPosition, double yPosition, double horizontalNodeCount, double verticalNodeCount, double mass, double friction, double windFactor, double tearThreshold)
{
int32_t i, j;
Silkworm_Cloth* cloth = malloc(sizeof(Silkworm_Cloth));
cloth->windFactor = (float)windFactor;
cloth->horizontalNodeCount = (uint32_t) horizontalNodeCount;
cloth->verticalNodeCount = (uint32_t) verticalNodeCount;
cloth->nodeIndices = malloc(sizeof(uint64_t*) * cloth->horizontalNodeCount);
uint64_t id;
if (context->clothIndexStackCount > 0)
{
id = context->clothIndexStack[context->clothIndexStackCount - 1];
context->clothIndexStackCount -= 1;
context->cloths[id] = cloth;
}
else
{
id = context->clothCount;
context->cloths = realloc(context->cloths, sizeof(Silkworm_Cloth*) * (context->clothCount + 1));
context->cloths[id] = cloth;
context->clothCount += 1;
}
cloth->id = id;
for (i = 0; i < horizontalNodeCount; i += 1)
{
cloth->nodeIndices[i] = malloc(sizeof(uint64_t) * cloth->verticalNodeCount);
for (j = 0; j < verticalNodeCount; j += 1)
{
uint64_t nodeId = (uint64_t) Silkworm_CreateNode(xPosition + i * context->clothDensity, yPosition + j * context->clothDensity, mass, friction, 1, 0.5);
cloth->nodeIndices[i][j] = nodeId;
if (j == 0)
{
Silkworm_ClothNodePin((double)cloth->id, (double)i, (double)j);
}
Silkworm_NodeSetDestroyable((double)nodeId);
}
}
cloth->triangles = malloc(sizeof(Silkworm_Triangle*) * cloth->horizontalNodeCount * cloth->verticalNodeCount * 2);
uint32_t triangleIndex = 0;
for (i = 0; i < horizontalNodeCount; i += 1)
{
for (j = 0; j < verticalNodeCount; j += 1)
{
if (i + 1 < horizontalNodeCount && j + 1 < verticalNodeCount)
{
cloth->triangles[triangleIndex] = malloc(sizeof(Silkworm_Triangle));
cloth->triangles[triangleIndex]->a = context->nodes[cloth->nodeIndices[i][j]];
cloth->triangles[triangleIndex]->b = context->nodes[cloth->nodeIndices[i + 1][j]];
cloth->triangles[triangleIndex]->c = context->nodes[cloth->nodeIndices[i][j + 1]];
cloth->triangles[triangleIndex]->orientation = UpperLeft;
cloth->triangles[triangleIndex]->aHorizontalIndex = i;
cloth->triangles[triangleIndex]->aVerticalIndex = j;
cloth->triangles[triangleIndex]->bHorizontalIndex = i + 1;
cloth->triangles[triangleIndex]->bVerticalIndex = j;
cloth->triangles[triangleIndex]->cHorizontalIndex = i;
cloth->triangles[triangleIndex]->cVerticalIndex = j + 1;
triangleIndex += 1;
}
if (i - 1 >= 0 && j - 1 >= 0)
{
cloth->triangles[triangleIndex] = malloc(sizeof(Silkworm_Triangle));
cloth->triangles[triangleIndex]->a = context->nodes[cloth->nodeIndices[i][j]];
cloth->triangles[triangleIndex]->b = context->nodes[cloth->nodeIndices[i - 1][j]];
cloth->triangles[triangleIndex]->c = context->nodes[cloth->nodeIndices[i][j - 1]];
cloth->triangles[triangleIndex]->orientation = BottomRight;
cloth->triangles[triangleIndex]->aHorizontalIndex = i;
cloth->triangles[triangleIndex]->aVerticalIndex = j;
cloth->triangles[triangleIndex]->bHorizontalIndex = i - 1;
cloth->triangles[triangleIndex]->bVerticalIndex = j;
cloth->triangles[triangleIndex]->cHorizontalIndex = i;
cloth->triangles[triangleIndex]->cVerticalIndex = j - 1;
triangleIndex += 1;
}
}
}
cloth->triangleCount = triangleIndex;
for (i = 0; i < horizontalNodeCount; i += 1)
{
for (j = 0; j < verticalNodeCount; j += 1)
{
if (i - 1 >= 0)
{
Silkworm_CreateLink((double)cloth->nodeIndices[i - 1][j], (double)cloth->nodeIndices[i][j], context->clothDensity, tearThreshold);
}
if (j - 1 >= 0)
{
Silkworm_CreateLink((double)cloth->nodeIndices[i][j - 1], (double)cloth->nodeIndices[i][j], context->clothDensity, tearThreshold);
}
}
}
return (double)cloth->id;
}
void Silkworm_ApplyWind(double xSpeed, double ySpeed)
{
uint32_t i, j, k;
Silkworm_Cloth* cloth;
Silkworm_Node* node;
for (i = 0; i < context->clothCount; i += 1)
{
if (context->cloths[i] != NULL)
{
cloth = context->cloths[i];
for (j = 0; j < cloth->horizontalNodeCount; j += 1)
{
for (k = 0; k < cloth->verticalNodeCount; k += 1)
{
node = context->nodes[cloth->nodeIndices[j][k]];
if (node != NULL && !node->pinned)
{
node->position.x += (float)xSpeed * 0.05f * cloth->windFactor;
node->position.y += (float)ySpeed * 0.05f * cloth->windFactor;
}
}
}
}
}
}
void Silkworm_SetTriangleBuffer(const char* bufferId)
{
context->currentBufferAddress = (uint8_t*)bufferId;
}
/* pattern is x, y position then color + alpha then UV position */
double Silkworm_ClothFillTriangleBuffer(double clothId, double leftUV, double widthUV, double topUV, double heightUV)
{
uint32_t i, triangleCount;
uint8_t* bufferAddress = context->currentBufferAddress;
Silkworm_Cloth* cloth = LookupCloth(clothId);
Silkworm_Color color;
color.r = 255;
color.g = 255;
color.b = 255;
color.a = 255;
triangleCount = 0;
for (i = 0; i < cloth->triangleCount; i += 1)
{
if (cloth->triangles[i] != NULL)
{
if (cloth->triangles[i]->orientation == UpperLeft)
{
float left = (float)leftUV + (float)widthUV * ((float)cloth->triangles[i]->aHorizontalIndex / (cloth->horizontalNodeCount - 1));
float right = (float)leftUV + (float)widthUV * ((float)cloth->triangles[i]->bHorizontalIndex / (cloth->horizontalNodeCount - 1));
float top = (float)topUV + (float)heightUV * ((float)cloth->triangles[i]->aVerticalIndex / (cloth->verticalNodeCount - 1));
float bottom = (float)topUV + (float)heightUV * ((float)cloth->triangles[i]->cVerticalIndex / (cloth->verticalNodeCount - 1));
memcpy(bufferAddress, &cloth->triangles[i]->a->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &left, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &top, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &cloth->triangles[i]->b->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &right, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &top, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &cloth->triangles[i]->c->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &left, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &bottom, sizeof(float));
bufferAddress += sizeof(float);
triangleCount += 1;
}
else if (cloth->triangles[i]->orientation == BottomRight)
{
float left = (float)leftUV + (float)widthUV * ((float)cloth->triangles[i]->bHorizontalIndex / (cloth->horizontalNodeCount - 1));
float right = (float)leftUV + (float)widthUV * ((float)cloth->triangles[i]->aHorizontalIndex / (cloth->horizontalNodeCount - 1));
float top = (float)topUV + (float)heightUV * ((float)cloth->triangles[i]->cVerticalIndex / (cloth->verticalNodeCount - 1));
float bottom = (float)topUV + (float)heightUV * ((float)cloth->triangles[i]->aVerticalIndex / (cloth->verticalNodeCount - 1));
memcpy(bufferAddress, &cloth->triangles[i]->a->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &right, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &bottom, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &cloth->triangles[i]->b->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &left, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &bottom, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &cloth->triangles[i]->c->position, sizeof(Silkworm_Vector2));
bufferAddress += sizeof(Silkworm_Vector2);
memcpy(bufferAddress, &color, sizeof(Silkworm_Color));
bufferAddress += sizeof(Silkworm_Color);
memcpy(bufferAddress, &right, sizeof(float));
bufferAddress += sizeof(float);
memcpy(bufferAddress, &top, sizeof(float));
bufferAddress += sizeof(float);
triangleCount += 1;
}
}
}
return (double)triangleCount;
}
void Silkworm_ClearAll()
{
uint32_t i;
for (i = 0; i < context->clothCount; i += 1)
{
if (context->cloths[i] != NULL)
{
Silkworm_Internal_DestroyCloth(context->cloths[i]);
}
}
Silkworm_PerformDestroys();
}
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