#include "../SDL_internal.h"
#include "SDL_hints.h"
#include "SDL_render.h"
#include "SDL_timer.h"
#include "SDL_sysrender.h"
#include "software/SDL_render_sw_c.h"
#include "../video/SDL_pixels_c.h"
#if defined(__ANDROID__)
# include "../core/android/SDL_android.h"
#endif
#if defined(__IPHONEOS__) || defined(__TVOS__) || defined(__ANDROID__)
#define DONT_DRAW_WHILE_HIDDEN 1
#else
#define DONT_DRAW_WHILE_HIDDEN 0
#endif
#define SDL_WINDOWRENDERDATA "_SDL_WindowRenderData"
#define CHECK_RENDERER_MAGIC(renderer, retval) \
if (!renderer || renderer->magic != &renderer_magic) { \
SDL_InvalidParamError("renderer"); \
return retval; \
}
#define CHECK_TEXTURE_MAGIC(texture, retval) \
if (!texture || texture->magic != &texture_magic) { \
SDL_InvalidParamError("texture"); \
return retval; \
}
#define SDL_COMPOSE_BLENDMODE(srcColorFactor, dstColorFactor, colorOperation, \
srcAlphaFactor, dstAlphaFactor, alphaOperation) \
(SDL_BlendMode)(((Uint32)colorOperation << 0) | \
((Uint32)srcColorFactor << 4) | \
((Uint32)dstColorFactor << 8) | \
((Uint32)alphaOperation << 16) | \
((Uint32)srcAlphaFactor << 20) | \
((Uint32)dstAlphaFactor << 24))
#define SDL_BLENDMODE_NONE_FULL \
SDL_COMPOSE_BLENDMODE(SDL_BLENDFACTOR_ONE, SDL_BLENDFACTOR_ZERO, SDL_BLENDOPERATION_ADD, \
SDL_BLENDFACTOR_ONE, SDL_BLENDFACTOR_ZERO, SDL_BLENDOPERATION_ADD)
#define SDL_BLENDMODE_BLEND_FULL \
SDL_COMPOSE_BLENDMODE(SDL_BLENDFACTOR_SRC_ALPHA, SDL_BLENDFACTOR_ONE_MINUS_SRC_ALPHA, SDL_BLENDOPERATION_ADD, \
SDL_BLENDFACTOR_ONE, SDL_BLENDFACTOR_ONE_MINUS_SRC_ALPHA, SDL_BLENDOPERATION_ADD)
#define SDL_BLENDMODE_ADD_FULL \
SDL_COMPOSE_BLENDMODE(SDL_BLENDFACTOR_SRC_ALPHA, SDL_BLENDFACTOR_ONE, SDL_BLENDOPERATION_ADD, \
SDL_BLENDFACTOR_ZERO, SDL_BLENDFACTOR_ONE, SDL_BLENDOPERATION_ADD)
#define SDL_BLENDMODE_MOD_FULL \
SDL_COMPOSE_BLENDMODE(SDL_BLENDFACTOR_ZERO, SDL_BLENDFACTOR_SRC_COLOR, SDL_BLENDOPERATION_ADD, \
SDL_BLENDFACTOR_ZERO, SDL_BLENDFACTOR_ONE, SDL_BLENDOPERATION_ADD)
#define SDL_BLENDMODE_MUL_FULL \
SDL_COMPOSE_BLENDMODE(SDL_BLENDFACTOR_DST_COLOR, SDL_BLENDFACTOR_ONE_MINUS_SRC_ALPHA, SDL_BLENDOPERATION_ADD, \
SDL_BLENDFACTOR_DST_ALPHA, SDL_BLENDFACTOR_ONE_MINUS_SRC_ALPHA, SDL_BLENDOPERATION_ADD)
#if !SDL_RENDER_DISABLED
static const SDL_RenderDriver *render_drivers[] = {
#if SDL_VIDEO_RENDER_D3D
&D3D_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_D3D11
&D3D11_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_D3D12
&D3D12_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_METAL
&METAL_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_OGL
&GL_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_OGL_ES2
&GLES2_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_OGL_ES
&GLES_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_DIRECTFB
&DirectFB_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_PS2 && !SDL_RENDER_DISABLED
&PS2_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_PSP
&PSP_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_VITA_GXM
&VITA_GXM_RenderDriver,
#endif
#if SDL_VIDEO_RENDER_SW
&SW_RenderDriver
#endif
};
#endif
static char renderer_magic;
static char texture_magic;
static SDL_INLINE void
DebugLogRenderCommands(const SDL_RenderCommand *cmd)
{
#if 0#endif
}
static int
FlushRenderCommands(SDL_Renderer *renderer)
{
int retval;
SDL_assert((renderer->render_commands == NULL) == (renderer->render_commands_tail == NULL));
if (renderer->render_commands == NULL) {
SDL_assert(renderer->vertex_data_used == 0);
return 0;
}
DebugLogRenderCommands(renderer->render_commands);
retval = renderer->RunCommandQueue(renderer, renderer->render_commands, renderer->vertex_data, renderer->vertex_data_used);
if (renderer->render_commands_tail != NULL) {
renderer->render_commands_tail->next = renderer->render_commands_pool;
renderer->render_commands_pool = renderer->render_commands;
renderer->render_commands_tail = NULL;
renderer->render_commands = NULL;
}
renderer->vertex_data_used = 0;
renderer->render_command_generation++;
renderer->color_queued = SDL_FALSE;
renderer->viewport_queued = SDL_FALSE;
renderer->cliprect_queued = SDL_FALSE;
return retval;
}
static int
FlushRenderCommandsIfTextureNeeded(SDL_Texture *texture)
{
SDL_Renderer *renderer = texture->renderer;
if (texture->last_command_generation == renderer->render_command_generation) {
return FlushRenderCommands(renderer);
}
return 0;
}
static SDL_INLINE int
FlushRenderCommandsIfNotBatching(SDL_Renderer *renderer)
{
return renderer->batching ? 0 : FlushRenderCommands(renderer);
}
int
SDL_RenderFlush(SDL_Renderer * renderer)
{
return FlushRenderCommands(renderer);
}
void *
SDL_AllocateRenderVertices(SDL_Renderer *renderer, const size_t numbytes, const size_t alignment, size_t *offset)
{
const size_t needed = renderer->vertex_data_used + numbytes + alignment;
const size_t current_offset = renderer->vertex_data_used;
const size_t aligner = (alignment && ((current_offset & (alignment - 1)) != 0)) ? (alignment - (current_offset & (alignment - 1))) : 0;
const size_t aligned = current_offset + aligner;
if (renderer->vertex_data_allocation < needed) {
const size_t current_allocation = renderer->vertex_data ? renderer->vertex_data_allocation : 1024;
size_t newsize = current_allocation * 2;
void *ptr;
while (newsize < needed) {
newsize *= 2;
}
ptr = SDL_realloc(renderer->vertex_data, newsize);
if (ptr == NULL) {
SDL_OutOfMemory();
return NULL;
}
renderer->vertex_data = ptr;
renderer->vertex_data_allocation = newsize;
}
if (offset) {
*offset = aligned;
}
renderer->vertex_data_used += aligner + numbytes;
return ((Uint8 *) renderer->vertex_data) + aligned;
}
static SDL_RenderCommand *
AllocateRenderCommand(SDL_Renderer *renderer)
{
SDL_RenderCommand *retval = NULL;
retval = renderer->render_commands_pool;
if (retval != NULL) {
renderer->render_commands_pool = retval->next;
retval->next = NULL;
} else {
retval = SDL_calloc(1, sizeof (*retval));
if (!retval) {
SDL_OutOfMemory();
return NULL;
}
}
SDL_assert((renderer->render_commands == NULL) == (renderer->render_commands_tail == NULL));
if (renderer->render_commands_tail != NULL) {
renderer->render_commands_tail->next = retval;
} else {
renderer->render_commands = retval;
}
renderer->render_commands_tail = retval;
return retval;
}
static int
QueueCmdSetViewport(SDL_Renderer *renderer)
{
int retval = 0;
if (!renderer->viewport_queued || (SDL_memcmp(&renderer->viewport, &renderer->last_queued_viewport, sizeof (SDL_DRect)) != 0)) {
SDL_RenderCommand *cmd = AllocateRenderCommand(renderer);
retval = -1;
if (cmd != NULL) {
cmd->command = SDL_RENDERCMD_SETVIEWPORT;
cmd->data.viewport.first = 0;
cmd->data.viewport.rect.x = (int)SDL_floor(renderer->viewport.x);
cmd->data.viewport.rect.y = (int)SDL_floor(renderer->viewport.y);
cmd->data.viewport.rect.w = (int)SDL_floor(renderer->viewport.w);
cmd->data.viewport.rect.h = (int)SDL_floor(renderer->viewport.h);
retval = renderer->QueueSetViewport(renderer, cmd);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
} else {
SDL_copyp(&renderer->last_queued_viewport, &renderer->viewport);
renderer->viewport_queued = SDL_TRUE;
}
}
}
return retval;
}
static int
QueueCmdSetClipRect(SDL_Renderer *renderer)
{
int retval = 0;
if ((!renderer->cliprect_queued) ||
(renderer->clipping_enabled != renderer->last_queued_cliprect_enabled) ||
(SDL_memcmp(&renderer->clip_rect, &renderer->last_queued_cliprect, sizeof (SDL_DRect)) != 0)) {
SDL_RenderCommand *cmd = AllocateRenderCommand(renderer);
if (cmd == NULL) {
retval = -1;
} else {
cmd->command = SDL_RENDERCMD_SETCLIPRECT;
cmd->data.cliprect.enabled = renderer->clipping_enabled;
cmd->data.cliprect.rect.x = (int)SDL_floor(renderer->clip_rect.x);
cmd->data.cliprect.rect.y = (int)SDL_floor(renderer->clip_rect.y);
cmd->data.cliprect.rect.w = (int)SDL_floor(renderer->clip_rect.w);
cmd->data.cliprect.rect.h = (int)SDL_floor(renderer->clip_rect.h);
SDL_copyp(&renderer->last_queued_cliprect, &renderer->clip_rect);
renderer->last_queued_cliprect_enabled = renderer->clipping_enabled;
renderer->cliprect_queued = SDL_TRUE;
}
}
return retval;
}
static int
QueueCmdSetDrawColor(SDL_Renderer *renderer, SDL_Color *col)
{
const Uint32 color = (((Uint32)col->a << 24) | (col->r << 16) | (col->g << 8) | col->b);
int retval = 0;
if (!renderer->color_queued || (color != renderer->last_queued_color)) {
SDL_RenderCommand *cmd = AllocateRenderCommand(renderer);
retval = -1;
if (cmd != NULL) {
cmd->command = SDL_RENDERCMD_SETDRAWCOLOR;
cmd->data.color.first = 0;
cmd->data.color.r = col->r;
cmd->data.color.g = col->g;
cmd->data.color.b = col->b;
cmd->data.color.a = col->a;
retval = renderer->QueueSetDrawColor(renderer, cmd);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
} else {
renderer->last_queued_color = color;
renderer->color_queued = SDL_TRUE;
}
}
}
return retval;
}
static int
QueueCmdClear(SDL_Renderer *renderer)
{
SDL_RenderCommand *cmd = AllocateRenderCommand(renderer);
if (cmd == NULL) {
return -1;
}
cmd->command = SDL_RENDERCMD_CLEAR;
cmd->data.color.first = 0;
cmd->data.color.r = renderer->color.r;
cmd->data.color.g = renderer->color.g;
cmd->data.color.b = renderer->color.b;
cmd->data.color.a = renderer->color.a;
return 0;
}
static SDL_RenderCommand *
PrepQueueCmdDraw(SDL_Renderer *renderer, const SDL_RenderCommandType cmdtype, SDL_Texture *texture)
{
SDL_RenderCommand *cmd = NULL;
int retval = 0;
SDL_Color *color;
SDL_BlendMode blendMode;
if (texture) {
color = &texture->color;
blendMode = texture->blendMode;
} else {
color = &renderer->color;
blendMode = renderer->blendMode;
}
if (cmdtype != SDL_RENDERCMD_GEOMETRY) {
retval = QueueCmdSetDrawColor(renderer, color);
}
if (retval == 0 && !renderer->viewport_queued) {
retval = QueueCmdSetViewport(renderer);
}
if (retval == 0 && !renderer->cliprect_queued) {
retval = QueueCmdSetClipRect(renderer);
}
if (retval == 0) {
cmd = AllocateRenderCommand(renderer);
if (cmd != NULL) {
cmd->command = cmdtype;
cmd->data.draw.first = 0;
cmd->data.draw.count = 0;
cmd->data.draw.r = color->r;
cmd->data.draw.g = color->g;
cmd->data.draw.b = color->b;
cmd->data.draw.a = color->a;
cmd->data.draw.blend = blendMode;
cmd->data.draw.texture = texture;
}
}
return cmd;
}
static int
QueueCmdDrawPoints(SDL_Renderer *renderer, const SDL_FPoint * points, const int count)
{
SDL_RenderCommand *cmd = PrepQueueCmdDraw(renderer, SDL_RENDERCMD_DRAW_POINTS, NULL);
int retval = -1;
if (cmd != NULL) {
retval = renderer->QueueDrawPoints(renderer, cmd, points, count);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
return retval;
}
static int
QueueCmdDrawLines(SDL_Renderer *renderer, const SDL_FPoint * points, const int count)
{
SDL_RenderCommand *cmd = PrepQueueCmdDraw(renderer, SDL_RENDERCMD_DRAW_LINES, NULL);
int retval = -1;
if (cmd != NULL) {
retval = renderer->QueueDrawLines(renderer, cmd, points, count);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
return retval;
}
static int
QueueCmdFillRects(SDL_Renderer *renderer, const SDL_FRect * rects, const int count)
{
SDL_RenderCommand *cmd;
int retval = -1;
const int use_rendergeometry = (renderer->QueueFillRects == NULL);
cmd = PrepQueueCmdDraw(renderer, (use_rendergeometry ? SDL_RENDERCMD_GEOMETRY : SDL_RENDERCMD_FILL_RECTS), NULL);
if (cmd != NULL) {
if (use_rendergeometry) {
SDL_bool isstack1;
SDL_bool isstack2;
float *xy = SDL_small_alloc(float, 4 * 2 * count, &isstack1);
int *indices = SDL_small_alloc(int, 6 * count, &isstack2);
if (xy && indices) {
int i;
float *ptr_xy = xy;
int *ptr_indices = indices;
const int xy_stride = 2 * sizeof (float);
const int num_vertices = 4 * count;
const int num_indices = 6 * count;
const int size_indices = 4;
int cur_index = 0;
const int *rect_index_order = renderer->rect_index_order;
for (i = 0; i < count; ++i) {
float minx, miny, maxx, maxy;
minx = rects[i].x;
miny = rects[i].y;
maxx = rects[i].x + rects[i].w;
maxy = rects[i].y + rects[i].h;
*ptr_xy++ = minx;
*ptr_xy++ = miny;
*ptr_xy++ = maxx;
*ptr_xy++ = miny;
*ptr_xy++ = maxx;
*ptr_xy++ = maxy;
*ptr_xy++ = minx;
*ptr_xy++ = maxy;
*ptr_indices++ = cur_index + rect_index_order[0];
*ptr_indices++ = cur_index + rect_index_order[1];
*ptr_indices++ = cur_index + rect_index_order[2];
*ptr_indices++ = cur_index + rect_index_order[3];
*ptr_indices++ = cur_index + rect_index_order[4];
*ptr_indices++ = cur_index + rect_index_order[5];
cur_index += 4;
}
retval = renderer->QueueGeometry(renderer, cmd, NULL,
xy, xy_stride, &renderer->color, 0 , NULL, 0,
num_vertices, indices, num_indices, size_indices,
1.0f, 1.0f);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
SDL_small_free(xy, isstack1);
SDL_small_free(indices, isstack2);
} else {
retval = renderer->QueueFillRects(renderer, cmd, rects, count);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
}
return retval;
}
static int
QueueCmdCopy(SDL_Renderer *renderer, SDL_Texture * texture, const SDL_Rect * srcrect, const SDL_FRect * dstrect)
{
SDL_RenderCommand *cmd = PrepQueueCmdDraw(renderer, SDL_RENDERCMD_COPY, texture);
int retval = -1;
if (cmd != NULL) {
retval = renderer->QueueCopy(renderer, cmd, texture, srcrect, dstrect);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
return retval;
}
static int
QueueCmdCopyEx(SDL_Renderer *renderer, SDL_Texture * texture,
const SDL_Rect * srcquad, const SDL_FRect * dstrect,
const double angle, const SDL_FPoint *center, const SDL_RendererFlip flip, float scale_x, float scale_y)
{
SDL_RenderCommand *cmd = PrepQueueCmdDraw(renderer, SDL_RENDERCMD_COPY_EX, texture);
int retval = -1;
if (cmd != NULL) {
retval = renderer->QueueCopyEx(renderer, cmd, texture, srcquad, dstrect, angle, center, flip, scale_x, scale_y);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
return retval;
}
static int
QueueCmdGeometry(SDL_Renderer *renderer, SDL_Texture *texture,
const float *xy, int xy_stride,
const SDL_Color *color, int color_stride,
const float *uv, int uv_stride,
int num_vertices,
const void *indices, int num_indices, int size_indices,
float scale_x, float scale_y)
{
SDL_RenderCommand *cmd;
int retval = -1;
cmd = PrepQueueCmdDraw(renderer, SDL_RENDERCMD_GEOMETRY, texture);
if (cmd != NULL) {
retval = renderer->QueueGeometry(renderer, cmd, texture,
xy, xy_stride,
color, color_stride, uv, uv_stride,
num_vertices, indices, num_indices, size_indices,
scale_x, scale_y);
if (retval < 0) {
cmd->command = SDL_RENDERCMD_NO_OP;
}
}
return retval;
}
static int UpdateLogicalSize(SDL_Renderer *renderer, SDL_bool flush_viewport_cmd);
int
SDL_GetNumRenderDrivers(void)
{
#if !SDL_RENDER_DISABLED
return SDL_arraysize(render_drivers);
#else
return 0;
#endif
}
int
SDL_GetRenderDriverInfo(int index, SDL_RendererInfo * info)
{
#if !SDL_RENDER_DISABLED
if (index < 0 || index >= SDL_GetNumRenderDrivers()) {
return SDL_SetError("index must be in the range of 0 - %d",
SDL_GetNumRenderDrivers() - 1);
}
*info = render_drivers[index]->info;
return 0;
#else
return SDL_SetError("SDL not built with rendering support");
#endif
}
static void GetWindowViewportValues(SDL_Renderer *renderer, int *logical_w, int *logical_h, SDL_DRect *viewport, SDL_FPoint *scale)
{
SDL_LockMutex(renderer->target_mutex);
*logical_w = renderer->target ? renderer->logical_w_backup : renderer->logical_w;
*logical_h = renderer->target ? renderer->logical_h_backup : renderer->logical_h;
*viewport = renderer->target ? renderer->viewport_backup : renderer->viewport;
*scale = renderer->target ? renderer->scale_backup : renderer->scale;
SDL_UnlockMutex(renderer->target_mutex);
}
static int SDLCALL
SDL_RendererEventWatch(void *userdata, SDL_Event *event)
{
SDL_Renderer *renderer = (SDL_Renderer *)userdata;
if (event->type == SDL_WINDOWEVENT) {
SDL_Window *window = SDL_GetWindowFromID(event->window.windowID);
if (window == renderer->window) {
if (renderer->WindowEvent) {
renderer->WindowEvent(renderer, &event->window);
}
if (event->window.event == SDL_WINDOWEVENT_SIZE_CHANGED ||
event->window.event == SDL_WINDOWEVENT_DISPLAY_CHANGED) {
SDL_Texture *saved_target = SDL_GetRenderTarget(renderer);
if (saved_target) {
SDL_SetRenderTarget(renderer, NULL);
}
if (window && renderer->GetOutputSize) {
int window_w, window_h;
int output_w, output_h;
if (renderer->GetOutputSize(renderer, &output_w, &output_h) == 0) {
SDL_GetWindowSize(renderer->window, &window_w, &window_h);
renderer->dpi_scale.x = (float)window_w / output_w;
renderer->dpi_scale.y = (float)window_h / output_h;
}
}
if (renderer->logical_w) {
#if defined(__ANDROID__)
SDL_bool flush_viewport_cmd = SDL_FALSE;
#else
SDL_bool flush_viewport_cmd = SDL_TRUE;
#endif
UpdateLogicalSize(renderer, flush_viewport_cmd);
} else {
int w, h;
if (renderer->GetOutputSize) {
renderer->GetOutputSize(renderer, &w, &h);
} else {
SDL_GetWindowSize(renderer->window, &w, &h);
}
renderer->viewport.x = (double)0;
renderer->viewport.y = (double)0;
renderer->viewport.w = (double)w;
renderer->viewport.h = (double)h;
QueueCmdSetViewport(renderer);
#if defined(__ANDROID__)
#else
FlushRenderCommandsIfNotBatching(renderer);
#endif
}
if (saved_target) {
SDL_SetRenderTarget(renderer, saved_target);
}
} else if (event->window.event == SDL_WINDOWEVENT_HIDDEN) {
renderer->hidden = SDL_TRUE;
} else if (event->window.event == SDL_WINDOWEVENT_SHOWN) {
if (!(SDL_GetWindowFlags(window) & SDL_WINDOW_MINIMIZED)) {
renderer->hidden = SDL_FALSE;
}
} else if (event->window.event == SDL_WINDOWEVENT_MINIMIZED) {
renderer->hidden = SDL_TRUE;
} else if (event->window.event == SDL_WINDOWEVENT_RESTORED ||
event->window.event == SDL_WINDOWEVENT_MAXIMIZED) {
if (!(SDL_GetWindowFlags(window) & SDL_WINDOW_HIDDEN)) {
renderer->hidden = SDL_FALSE;
}
}
}
} else if (event->type == SDL_MOUSEMOTION) {
SDL_Window *window = SDL_GetWindowFromID(event->motion.windowID);
if (window == renderer->window) {
int logical_w, logical_h;
SDL_DRect viewport;
SDL_FPoint scale;
GetWindowViewportValues(renderer, &logical_w, &logical_h, &viewport, &scale);
if (logical_w) {
event->motion.x -= (int)(viewport.x * renderer->dpi_scale.x);
event->motion.y -= (int)(viewport.y * renderer->dpi_scale.y);
event->motion.x = (int)(event->motion.x / (scale.x * renderer->dpi_scale.x));
event->motion.y = (int)(event->motion.y / (scale.y * renderer->dpi_scale.y));
if (event->motion.xrel != 0 && renderer->relative_scaling) {
float rel = renderer->xrel + event->motion.xrel / (scale.x * renderer->dpi_scale.x);
float truncated = SDL_truncf(rel);
renderer->xrel = rel - truncated;
event->motion.xrel = (Sint32) truncated;
}
if (event->motion.yrel != 0 && renderer->relative_scaling) {
float rel = renderer->yrel + event->motion.yrel / (scale.y * renderer->dpi_scale.y);
float truncated = SDL_truncf(rel);
renderer->yrel = rel - truncated;
event->motion.yrel = (Sint32) truncated;
}
}
}
} else if (event->type == SDL_MOUSEBUTTONDOWN ||
event->type == SDL_MOUSEBUTTONUP) {
SDL_Window *window = SDL_GetWindowFromID(event->button.windowID);
if (window == renderer->window) {
int logical_w, logical_h;
SDL_DRect viewport;
SDL_FPoint scale;
GetWindowViewportValues(renderer, &logical_w, &logical_h, &viewport, &scale);
if (logical_w) {
event->button.x -= (int)(viewport.x * renderer->dpi_scale.x);
event->button.y -= (int)(viewport.y * renderer->dpi_scale.y);
event->button.x = (int)(event->button.x / (scale.x * renderer->dpi_scale.x));
event->button.y = (int)(event->button.y / (scale.y * renderer->dpi_scale.y));
}
}
} else if (event->type == SDL_FINGERDOWN ||
event->type == SDL_FINGERUP ||
event->type == SDL_FINGERMOTION) {
int logical_w, logical_h;
float physical_w, physical_h;
SDL_DRect viewport;
SDL_FPoint scale;
GetWindowViewportValues(renderer, &logical_w, &logical_h, &viewport, &scale);
if (renderer->GetOutputSize) {
int w, h;
renderer->GetOutputSize(renderer, &w, &h);
physical_w = (float) w;
physical_h = (float) h;
} else {
int w, h;
SDL_GetWindowSize(renderer->window, &w, &h);
physical_w = ((float) w) * renderer->dpi_scale.x;
physical_h = ((float) h) * renderer->dpi_scale.y;
}
if (physical_w == 0.0f) {
event->tfinger.x = 0.5f;
} else {
const float normalized_viewport_x = ((float) viewport.x) / physical_w;
const float normalized_viewport_w = ((float) viewport.w) / physical_w;
if (event->tfinger.x <= normalized_viewport_x) {
event->tfinger.x = 0.0f;
} else if (event->tfinger.x >= (normalized_viewport_x + normalized_viewport_w)) {
event->tfinger.x = 1.0f;
} else {
event->tfinger.x = (event->tfinger.x - normalized_viewport_x) / normalized_viewport_w;
}
}
if (physical_h == 0.0f) {
event->tfinger.y = 0.5f;
} else {
const float normalized_viewport_y = ((float) viewport.y) / physical_h;
const float normalized_viewport_h = ((float) viewport.h) / physical_h;
if (event->tfinger.y <= normalized_viewport_y) {
event->tfinger.y = 0.0f;
} else if (event->tfinger.y >= (normalized_viewport_y + normalized_viewport_h)) {
event->tfinger.y = 1.0f;
} else {
event->tfinger.y = (event->tfinger.y - normalized_viewport_y) / normalized_viewport_h;
}
}
}
return 0;
}
int
SDL_CreateWindowAndRenderer(int width, int height, Uint32 window_flags,
SDL_Window **window, SDL_Renderer **renderer)
{
*window = SDL_CreateWindow(NULL, SDL_WINDOWPOS_UNDEFINED,
SDL_WINDOWPOS_UNDEFINED,
width, height, window_flags);
if (!*window) {
*renderer = NULL;
return -1;
}
*renderer = SDL_CreateRenderer(*window, -1, 0);
if (!*renderer) {
return -1;
}
return 0;
}
#if !SDL_RENDER_DISABLED
static SDL_INLINE
void VerifyDrawQueueFunctions(const SDL_Renderer *renderer)
{
SDL_assert(renderer->QueueSetViewport != NULL);
SDL_assert(renderer->QueueSetDrawColor != NULL);
SDL_assert(renderer->QueueDrawPoints != NULL);
SDL_assert(renderer->QueueDrawLines != NULL || renderer->QueueGeometry != NULL);
SDL_assert(renderer->QueueFillRects != NULL || renderer->QueueGeometry != NULL);
SDL_assert(renderer->QueueCopy != NULL || renderer->QueueGeometry != NULL);
SDL_assert(renderer->RunCommandQueue != NULL);
}
static SDL_RenderLineMethod SDL_GetRenderLineMethod()
{
const char *hint = SDL_GetHint(SDL_HINT_RENDER_LINE_METHOD);
int method = 0;
if (hint) {
method = SDL_atoi(hint);
}
switch (method) {
case 1:
return SDL_RENDERLINEMETHOD_POINTS;
case 2:
return SDL_RENDERLINEMETHOD_LINES;
case 3:
return SDL_RENDERLINEMETHOD_GEOMETRY;
default:
return SDL_RENDERLINEMETHOD_POINTS;
}
}
static void SDL_CalculateSimulatedVSyncInterval(SDL_Renderer *renderer, SDL_Window *window)
{
int refresh_rate = 0;
int display_index = SDL_GetWindowDisplayIndex(window);
SDL_DisplayMode mode;
if (display_index < 0) {
display_index = 0;
}
if (SDL_GetDesktopDisplayMode(display_index, &mode) == 0) {
refresh_rate = mode.refresh_rate;
}
if (!refresh_rate) {
refresh_rate = 60;
}
renderer->simulate_vsync_interval = (1000 / refresh_rate);
}
#endif
SDL_Renderer *
SDL_CreateRenderer(SDL_Window * window, int index, Uint32 flags)
{
#if !SDL_RENDER_DISABLED
SDL_Renderer *renderer = NULL;
int n = SDL_GetNumRenderDrivers();
SDL_bool batching = SDL_TRUE;
const char *hint;
#if defined(__ANDROID__)
Android_ActivityMutex_Lock_Running();
#endif
if (!window) {
SDL_InvalidParamError("window");
goto error;
}
if (SDL_GetRenderer(window)) {
SDL_SetError("Renderer already associated with window");
goto error;
}
hint = SDL_GetHint(SDL_HINT_RENDER_VSYNC);
if (hint && *hint) {
if (SDL_GetHintBoolean(SDL_HINT_RENDER_VSYNC, SDL_TRUE)) {
flags |= SDL_RENDERER_PRESENTVSYNC;
} else {
flags &= ~SDL_RENDERER_PRESENTVSYNC;
}
}
if (index < 0) {
hint = SDL_GetHint(SDL_HINT_RENDER_DRIVER);
if (hint) {
for (index = 0; index < n; ++index) {
const SDL_RenderDriver *driver = render_drivers[index];
if (SDL_strcasecmp(hint, driver->info.name) == 0) {
renderer = driver->CreateRenderer(window, flags);
if (renderer) {
batching = SDL_FALSE;
}
break;
}
}
}
if (!renderer) {
for (index = 0; index < n; ++index) {
const SDL_RenderDriver *driver = render_drivers[index];
if ((driver->info.flags & flags) == flags) {
renderer = driver->CreateRenderer(window, flags);
if (renderer) {
break;
}
}
}
}
if (!renderer) {
SDL_SetError("Couldn't find matching render driver");
goto error;
}
} else {
if (index >= n) {
SDL_SetError("index must be -1 or in the range of 0 - %d",
n - 1);
goto error;
}
renderer = render_drivers[index]->CreateRenderer(window, flags);
batching = SDL_FALSE;
if (!renderer) {
goto error;
}
}
if ((flags & SDL_RENDERER_PRESENTVSYNC) != 0) {
renderer->wanted_vsync = SDL_TRUE;
if ((renderer->info.flags & SDL_RENDERER_PRESENTVSYNC) == 0) {
renderer->simulate_vsync = SDL_TRUE;
renderer->info.flags |= SDL_RENDERER_PRESENTVSYNC;
}
}
SDL_CalculateSimulatedVSyncInterval(renderer, window);
VerifyDrawQueueFunctions(renderer);
if (renderer->always_batch) {
batching = SDL_TRUE;
} else if (SDL_GetHint(SDL_HINT_RENDER_BATCHING)) {
batching = SDL_GetHintBoolean(SDL_HINT_RENDER_BATCHING, SDL_TRUE);
}
renderer->batching = batching;
renderer->magic = &renderer_magic;
renderer->window = window;
renderer->target_mutex = SDL_CreateMutex();
renderer->scale.x = 1.0f;
renderer->scale.y = 1.0f;
renderer->dpi_scale.x = 1.0f;
renderer->dpi_scale.y = 1.0f;
if (renderer->rect_index_order[0] == 0 && renderer->rect_index_order[1] == 0) {
renderer->rect_index_order[0] = 0;
renderer->rect_index_order[1] = 1;
renderer->rect_index_order[2] = 2;
renderer->rect_index_order[3] = 0;
renderer->rect_index_order[4] = 2;
renderer->rect_index_order[5] = 3;
}
renderer->render_command_generation = 1;
if (renderer->GetOutputSize) {
int window_w, window_h;
int output_w, output_h;
if (renderer->GetOutputSize(renderer, &output_w, &output_h) == 0) {
SDL_GetWindowSize(renderer->window, &window_w, &window_h);
renderer->dpi_scale.x = (float)window_w / output_w;
renderer->dpi_scale.y = (float)window_h / output_h;
}
}
renderer->relative_scaling = SDL_GetHintBoolean(SDL_HINT_MOUSE_RELATIVE_SCALING, SDL_TRUE);
renderer->line_method = SDL_GetRenderLineMethod();
if (SDL_GetWindowFlags(window) & (SDL_WINDOW_HIDDEN|SDL_WINDOW_MINIMIZED)) {
renderer->hidden = SDL_TRUE;
} else {
renderer->hidden = SDL_FALSE;
}
SDL_SetWindowData(window, SDL_WINDOWRENDERDATA, renderer);
SDL_RenderSetViewport(renderer, NULL);
SDL_AddEventWatch(SDL_RendererEventWatch, renderer);
SDL_LogInfo(SDL_LOG_CATEGORY_RENDER,
"Created renderer: %s", renderer->info.name);
#if defined(__ANDROID__)
Android_ActivityMutex_Unlock();
#endif
return renderer;
error:
#if defined(__ANDROID__)
Android_ActivityMutex_Unlock();
#endif
return NULL;
#else
SDL_SetError("SDL not built with rendering support");
return NULL;
#endif
}
SDL_Renderer *
SDL_CreateSoftwareRenderer(SDL_Surface * surface)
{
#if !SDL_RENDER_DISABLED && SDL_VIDEO_RENDER_SW
SDL_Renderer *renderer;
renderer = SW_CreateRendererForSurface(surface);
if (renderer) {
VerifyDrawQueueFunctions(renderer);
renderer->magic = &renderer_magic;
renderer->target_mutex = SDL_CreateMutex();
renderer->scale.x = 1.0f;
renderer->scale.y = 1.0f;
renderer->render_command_generation = 1;
renderer->line_method = SDL_RENDERLINEMETHOD_LINES;
SDL_RenderSetViewport(renderer, NULL);
}
return renderer;
#else
SDL_SetError("SDL not built with rendering support");
return NULL;
#endif
}
SDL_Renderer *
SDL_GetRenderer(SDL_Window * window)
{
return (SDL_Renderer *)SDL_GetWindowData(window, SDL_WINDOWRENDERDATA);
}
SDL_Window *
SDL_RenderGetWindow(SDL_Renderer *renderer)
{
CHECK_RENDERER_MAGIC(renderer, NULL);
return renderer->window;
}
int
SDL_GetRendererInfo(SDL_Renderer * renderer, SDL_RendererInfo * info)
{
CHECK_RENDERER_MAGIC(renderer, -1);
*info = renderer->info;
return 0;
}
int
SDL_GetRendererOutputSize(SDL_Renderer * renderer, int *w, int *h)
{
CHECK_RENDERER_MAGIC(renderer, -1);
if (renderer->target) {
return SDL_QueryTexture(renderer->target, NULL, NULL, w, h);
} else if (renderer->GetOutputSize) {
return renderer->GetOutputSize(renderer, w, h);
} else if (renderer->window) {
SDL_GetWindowSize(renderer->window, w, h);
return 0;
} else {
SDL_assert(0 && "This should never happen");
return SDL_SetError("Renderer doesn't support querying output size");
}
}
static SDL_bool
IsSupportedBlendMode(SDL_Renderer * renderer, SDL_BlendMode blendMode)
{
switch (blendMode)
{
case SDL_BLENDMODE_NONE:
case SDL_BLENDMODE_BLEND:
case SDL_BLENDMODE_ADD:
case SDL_BLENDMODE_MOD:
case SDL_BLENDMODE_MUL:
return SDL_TRUE;
default:
return renderer->SupportsBlendMode && renderer->SupportsBlendMode(renderer, blendMode);
}
}
static SDL_bool
IsSupportedFormat(SDL_Renderer * renderer, Uint32 format)
{
Uint32 i;
for (i = 0; i < renderer->info.num_texture_formats; ++i) {
if (renderer->info.texture_formats[i] == format) {
return SDL_TRUE;
}
}
return SDL_FALSE;
}
static Uint32
GetClosestSupportedFormat(SDL_Renderer * renderer, Uint32 format)
{
Uint32 i;
if (SDL_ISPIXELFORMAT_FOURCC(format)) {
for (i = 0; i < renderer->info.num_texture_formats; ++i) {
if (renderer->info.texture_formats[i] == format) {
return renderer->info.texture_formats[i];
}
}
} else {
SDL_bool hasAlpha = SDL_ISPIXELFORMAT_ALPHA(format);
for (i = 0; i < renderer->info.num_texture_formats; ++i) {
if (!SDL_ISPIXELFORMAT_FOURCC(renderer->info.texture_formats[i]) &&
SDL_ISPIXELFORMAT_ALPHA(renderer->info.texture_formats[i]) == hasAlpha) {
return renderer->info.texture_formats[i];
}
}
}
return renderer->info.texture_formats[0];
}
static SDL_ScaleMode SDL_GetScaleMode(void)
{
const char *hint = SDL_GetHint(SDL_HINT_RENDER_SCALE_QUALITY);
if (!hint || SDL_strcasecmp(hint, "nearest") == 0) {
return SDL_ScaleModeNearest;
} else if (SDL_strcasecmp(hint, "linear") == 0) {
return SDL_ScaleModeLinear;
} else if (SDL_strcasecmp(hint, "best") == 0) {
return SDL_ScaleModeBest;
} else {
return (SDL_ScaleMode)SDL_atoi(hint);
}
}
SDL_Texture *
SDL_CreateTexture(SDL_Renderer * renderer, Uint32 format, int access, int w, int h)
{
SDL_Texture *texture;
SDL_bool texture_is_fourcc_and_target;
CHECK_RENDERER_MAGIC(renderer, NULL);
if (!format) {
format = renderer->info.texture_formats[0];
}
if (SDL_BYTESPERPIXEL(format) == 0) {
SDL_SetError("Invalid texture format");
return NULL;
}
if (SDL_ISPIXELFORMAT_INDEXED(format)) {
if (!IsSupportedFormat(renderer, format)) {
SDL_SetError("Palettized textures are not supported");
return NULL;
}
}
if (w <= 0 || h <= 0) {
SDL_SetError("Texture dimensions can't be 0");
return NULL;
}
if ((renderer->info.max_texture_width && w > renderer->info.max_texture_width) ||
(renderer->info.max_texture_height && h > renderer->info.max_texture_height)) {
SDL_SetError("Texture dimensions are limited to %dx%d", renderer->info.max_texture_width, renderer->info.max_texture_height);
return NULL;
}
texture = (SDL_Texture *) SDL_calloc(1, sizeof(*texture));
if (!texture) {
SDL_OutOfMemory();
return NULL;
}
texture->magic = &texture_magic;
texture->format = format;
texture->access = access;
texture->w = w;
texture->h = h;
texture->color.r = 255;
texture->color.g = 255;
texture->color.b = 255;
texture->color.a = 255;
texture->scaleMode = SDL_GetScaleMode();
texture->renderer = renderer;
texture->next = renderer->textures;
if (renderer->textures) {
renderer->textures->prev = texture;
}
renderer->textures = texture;
texture_is_fourcc_and_target = (access == SDL_TEXTUREACCESS_TARGET && SDL_ISPIXELFORMAT_FOURCC(texture->format));
if (texture_is_fourcc_and_target == SDL_FALSE && IsSupportedFormat(renderer, format)) {
if (renderer->CreateTexture(renderer, texture) < 0) {
SDL_DestroyTexture(texture);
return NULL;
}
} else {
int closest_format;
if (texture_is_fourcc_and_target == SDL_FALSE) {
closest_format = GetClosestSupportedFormat(renderer, format);
} else {
closest_format = renderer->info.texture_formats[0];
}
texture->native = SDL_CreateTexture(renderer, closest_format, access, w, h);
if (!texture->native) {
SDL_DestroyTexture(texture);
return NULL;
}
texture->native->next = texture->next;
if (texture->native->next) {
texture->native->next->prev = texture->native;
}
texture->prev = texture->native->prev;
if (texture->prev) {
texture->prev->next = texture;
}
texture->native->prev = texture;
texture->next = texture->native;
renderer->textures = texture;
if (SDL_ISPIXELFORMAT_FOURCC(texture->format)) {
#if SDL_HAVE_YUV
texture->yuv = SDL_SW_CreateYUVTexture(format, w, h);
#else
SDL_SetError("SDL not built with YUV support");
#endif
if (!texture->yuv) {
SDL_DestroyTexture(texture);
return NULL;
}
} else if (access == SDL_TEXTUREACCESS_STREAMING) {
texture->pitch = (((w * SDL_BYTESPERPIXEL(format)) + 3) & ~3);
texture->pixels = SDL_calloc(1, texture->pitch * h);
if (!texture->pixels) {
SDL_DestroyTexture(texture);
return NULL;
}
}
}
return texture;
}
SDL_Texture *
SDL_CreateTextureFromSurface(SDL_Renderer * renderer, SDL_Surface * surface)
{
const SDL_PixelFormat *fmt;
SDL_bool needAlpha;
SDL_bool direct_update;
int i;
Uint32 format = SDL_PIXELFORMAT_UNKNOWN;
SDL_Texture *texture;
CHECK_RENDERER_MAGIC(renderer, NULL);
if (!surface) {
SDL_InvalidParamError("SDL_CreateTextureFromSurface(): surface");
return NULL;
}
fmt = surface->format;
if (fmt->Amask || SDL_HasColorKey(surface)) {
needAlpha = SDL_TRUE;
} else {
needAlpha = SDL_FALSE;
}
if (fmt->palette) {
SDL_bool is_opaque, has_alpha_channel;
SDL_DetectPalette(fmt->palette, &is_opaque, &has_alpha_channel);
if (!is_opaque) {
needAlpha = SDL_TRUE;
}
}
if (!fmt->Amask && SDL_HasColorKey(surface)) {
if (fmt->format == SDL_PIXELFORMAT_RGB888) {
for (i = 0; i < (int)renderer->info.num_texture_formats; ++i) {
if (renderer->info.texture_formats[i] == SDL_PIXELFORMAT_ARGB8888) {
format = SDL_PIXELFORMAT_ARGB8888;
break;
}
}
} else if (fmt->format == SDL_PIXELFORMAT_BGR888) {
for (i = 0; i < (int)renderer->info.num_texture_formats; ++i) {
if (renderer->info.texture_formats[i] == SDL_PIXELFORMAT_ABGR8888) {
format = SDL_PIXELFORMAT_ABGR8888;
break;
}
}
}
} else {
for (i = 0; i < (int)renderer->info.num_texture_formats; ++i) {
if (renderer->info.texture_formats[i] == fmt->format) {
format = fmt->format;
break;
}
}
}
if (format == SDL_PIXELFORMAT_UNKNOWN) {
format = renderer->info.texture_formats[0];
for (i = 0; i < (int)renderer->info.num_texture_formats; ++i) {
if (!SDL_ISPIXELFORMAT_FOURCC(renderer->info.texture_formats[i]) &&
SDL_ISPIXELFORMAT_ALPHA(renderer->info.texture_formats[i]) == needAlpha) {
format = renderer->info.texture_formats[i];
break;
}
}
}
texture = SDL_CreateTexture(renderer, format, SDL_TEXTUREACCESS_STATIC,
surface->w, surface->h);
if (!texture) {
return NULL;
}
if (format == surface->format->format) {
if (surface->format->Amask && SDL_HasColorKey(surface)) {
direct_update = SDL_FALSE;
} else {
direct_update = SDL_TRUE;
}
} else {
direct_update = SDL_FALSE;
}
if (direct_update) {
if (SDL_MUSTLOCK(surface)) {
SDL_LockSurface(surface);
SDL_UpdateTexture(texture, NULL, surface->pixels, surface->pitch);
SDL_UnlockSurface(surface);
} else {
SDL_UpdateTexture(texture, NULL, surface->pixels, surface->pitch);
}
#if SDL_VIDEO_RENDER_DIRECTFB
if (SDL_ISPIXELFORMAT_INDEXED(format)) {
if (SDL_strcasecmp(renderer->info.name, "directfb") == 0) {
extern void DirectFB_SetTexturePalette(SDL_Renderer *renderer, SDL_Texture *texture, SDL_Palette *pal);
DirectFB_SetTexturePalette(renderer, texture, surface->format->palette);
}
}
#endif
} else {
SDL_PixelFormat *dst_fmt;
SDL_Surface *temp = NULL;
dst_fmt = SDL_AllocFormat(format);
if (!dst_fmt) {
SDL_DestroyTexture(texture);
return NULL;
}
temp = SDL_ConvertSurface(surface, dst_fmt, 0);
SDL_FreeFormat(dst_fmt);
if (temp) {
SDL_UpdateTexture(texture, NULL, temp->pixels, temp->pitch);
SDL_FreeSurface(temp);
} else {
SDL_DestroyTexture(texture);
return NULL;
}
}
{
Uint8 r, g, b, a;
SDL_BlendMode blendMode;
SDL_GetSurfaceColorMod(surface, &r, &g, &b);
SDL_SetTextureColorMod(texture, r, g, b);
SDL_GetSurfaceAlphaMod(surface, &a);
SDL_SetTextureAlphaMod(texture, a);
if (SDL_HasColorKey(surface)) {
SDL_SetTextureBlendMode(texture, SDL_BLENDMODE_BLEND);
} else {
SDL_GetSurfaceBlendMode(surface, &blendMode);
SDL_SetTextureBlendMode(texture, blendMode);
}
}
return texture;
}
int
SDL_QueryTexture(SDL_Texture * texture, Uint32 * format, int *access,
int *w, int *h)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (format) {
*format = texture->format;
}
if (access) {
*access = texture->access;
}
if (w) {
*w = texture->w;
}
if (h) {
*h = texture->h;
}
return 0;
}
int
SDL_SetTextureColorMod(SDL_Texture * texture, Uint8 r, Uint8 g, Uint8 b)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (r < 255 || g < 255 || b < 255) {
texture->modMode |= SDL_TEXTUREMODULATE_COLOR;
} else {
texture->modMode &= ~SDL_TEXTUREMODULATE_COLOR;
}
texture->color.r = r;
texture->color.g = g;
texture->color.b = b;
if (texture->native) {
return SDL_SetTextureColorMod(texture->native, r, g, b);
}
return 0;
}
int
SDL_GetTextureColorMod(SDL_Texture * texture, Uint8 * r, Uint8 * g,
Uint8 * b)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (r) {
*r = texture->color.r;
}
if (g) {
*g = texture->color.g;
}
if (b) {
*b = texture->color.b;
}
return 0;
}
int
SDL_SetTextureAlphaMod(SDL_Texture * texture, Uint8 alpha)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (alpha < 255) {
texture->modMode |= SDL_TEXTUREMODULATE_ALPHA;
} else {
texture->modMode &= ~SDL_TEXTUREMODULATE_ALPHA;
}
texture->color.a = alpha;
if (texture->native) {
return SDL_SetTextureAlphaMod(texture->native, alpha);
}
return 0;
}
int
SDL_GetTextureAlphaMod(SDL_Texture * texture, Uint8 * alpha)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (alpha) {
*alpha = texture->color.a;
}
return 0;
}
int
SDL_SetTextureBlendMode(SDL_Texture * texture, SDL_BlendMode blendMode)
{
SDL_Renderer *renderer;
CHECK_TEXTURE_MAGIC(texture, -1);
renderer = texture->renderer;
if (!IsSupportedBlendMode(renderer, blendMode)) {
return SDL_Unsupported();
}
texture->blendMode = blendMode;
if (texture->native) {
return SDL_SetTextureBlendMode(texture->native, blendMode);
}
return 0;
}
int
SDL_GetTextureBlendMode(SDL_Texture * texture, SDL_BlendMode *blendMode)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (blendMode) {
*blendMode = texture->blendMode;
}
return 0;
}
int
SDL_SetTextureScaleMode(SDL_Texture * texture, SDL_ScaleMode scaleMode)
{
SDL_Renderer *renderer;
CHECK_TEXTURE_MAGIC(texture, -1);
renderer = texture->renderer;
texture->scaleMode = scaleMode;
if (texture->native) {
return SDL_SetTextureScaleMode(texture->native, scaleMode);
} else {
renderer->SetTextureScaleMode(renderer, texture, scaleMode);
}
return 0;
}
int
SDL_GetTextureScaleMode(SDL_Texture * texture, SDL_ScaleMode *scaleMode)
{
CHECK_TEXTURE_MAGIC(texture, -1);
if (scaleMode) {
*scaleMode = texture->scaleMode;
}
return 0;
}
int
SDL_SetTextureUserData(SDL_Texture * texture, void *userdata)
{
CHECK_TEXTURE_MAGIC(texture, -1);
texture->userdata = userdata;
return 0;
}
void *
SDL_GetTextureUserData(SDL_Texture * texture)
{
CHECK_TEXTURE_MAGIC(texture, NULL);
return texture->userdata;
}
#if SDL_HAVE_YUV
static int
SDL_UpdateTextureYUV(SDL_Texture * texture, const SDL_Rect * rect,
const void *pixels, int pitch)
{
SDL_Texture *native = texture->native;
SDL_Rect full_rect;
if (SDL_SW_UpdateYUVTexture(texture->yuv, rect, pixels, pitch) < 0) {
return -1;
}
full_rect.x = 0;
full_rect.y = 0;
full_rect.w = texture->w;
full_rect.h = texture->h;
rect = &full_rect;
if (texture->access == SDL_TEXTUREACCESS_STREAMING) {
void *native_pixels = NULL;
int native_pitch = 0;
if (SDL_LockTexture(native, rect, &native_pixels, &native_pitch) < 0) {
return -1;
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, native_pixels, native_pitch);
SDL_UnlockTexture(native);
} else {
const int temp_pitch = (((rect->w * SDL_BYTESPERPIXEL(native->format)) + 3) & ~3);
const size_t alloclen = rect->h * temp_pitch;
if (alloclen > 0) {
void *temp_pixels = SDL_malloc(alloclen);
if (!temp_pixels) {
return SDL_OutOfMemory();
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, temp_pixels, temp_pitch);
SDL_UpdateTexture(native, rect, temp_pixels, temp_pitch);
SDL_free(temp_pixels);
}
}
return 0;
}
#endif
static int
SDL_UpdateTextureNative(SDL_Texture * texture, const SDL_Rect * rect,
const void *pixels, int pitch)
{
SDL_Texture *native = texture->native;
if (!rect->w || !rect->h) {
return 0;
}
if (texture->access == SDL_TEXTUREACCESS_STREAMING) {
void *native_pixels = NULL;
int native_pitch = 0;
if (SDL_LockTexture(native, rect, &native_pixels, &native_pitch) < 0) {
return -1;
}
SDL_ConvertPixels(rect->w, rect->h,
texture->format, pixels, pitch,
native->format, native_pixels, native_pitch);
SDL_UnlockTexture(native);
} else {
const int temp_pitch = (((rect->w * SDL_BYTESPERPIXEL(native->format)) + 3) & ~3);
const size_t alloclen = rect->h * temp_pitch;
if (alloclen > 0) {
void *temp_pixels = SDL_malloc(alloclen);
if (!temp_pixels) {
return SDL_OutOfMemory();
}
SDL_ConvertPixels(rect->w, rect->h,
texture->format, pixels, pitch,
native->format, temp_pixels, temp_pitch);
SDL_UpdateTexture(native, rect, temp_pixels, temp_pitch);
SDL_free(temp_pixels);
}
}
return 0;
}
int
SDL_UpdateTexture(SDL_Texture * texture, const SDL_Rect * rect,
const void *pixels, int pitch)
{
SDL_Rect real_rect;
CHECK_TEXTURE_MAGIC(texture, -1);
if (!pixels) {
return SDL_InvalidParamError("pixels");
}
if (!pitch) {
return SDL_InvalidParamError("pitch");
}
real_rect.x = 0;
real_rect.y = 0;
real_rect.w = texture->w;
real_rect.h = texture->h;
if (rect) {
if (!SDL_IntersectRect(rect, &real_rect, &real_rect)) {
return 0;
}
}
if (real_rect.w == 0 || real_rect.h == 0) {
return 0;
#if SDL_HAVE_YUV
} else if (texture->yuv) {
return SDL_UpdateTextureYUV(texture, &real_rect, pixels, pitch);
#endif
} else if (texture->native) {
return SDL_UpdateTextureNative(texture, &real_rect, pixels, pitch);
} else {
SDL_Renderer *renderer = texture->renderer;
if (FlushRenderCommandsIfTextureNeeded(texture) < 0) {
return -1;
}
return renderer->UpdateTexture(renderer, texture, &real_rect, pixels, pitch);
}
}
#if SDL_HAVE_YUV
static int
SDL_UpdateTextureYUVPlanar(SDL_Texture * texture, const SDL_Rect * rect,
const Uint8 *Yplane, int Ypitch,
const Uint8 *Uplane, int Upitch,
const Uint8 *Vplane, int Vpitch)
{
SDL_Texture *native = texture->native;
SDL_Rect full_rect;
if (SDL_SW_UpdateYUVTexturePlanar(texture->yuv, rect, Yplane, Ypitch, Uplane, Upitch, Vplane, Vpitch) < 0) {
return -1;
}
full_rect.x = 0;
full_rect.y = 0;
full_rect.w = texture->w;
full_rect.h = texture->h;
rect = &full_rect;
if (!rect->w || !rect->h) {
return 0;
}
if (texture->access == SDL_TEXTUREACCESS_STREAMING) {
void *native_pixels = NULL;
int native_pitch = 0;
if (SDL_LockTexture(native, rect, &native_pixels, &native_pitch) < 0) {
return -1;
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, native_pixels, native_pitch);
SDL_UnlockTexture(native);
} else {
const int temp_pitch = (((rect->w * SDL_BYTESPERPIXEL(native->format)) + 3) & ~3);
const size_t alloclen = rect->h * temp_pitch;
if (alloclen > 0) {
void *temp_pixels = SDL_malloc(alloclen);
if (!temp_pixels) {
return SDL_OutOfMemory();
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, temp_pixels, temp_pitch);
SDL_UpdateTexture(native, rect, temp_pixels, temp_pitch);
SDL_free(temp_pixels);
}
}
return 0;
}
static int
SDL_UpdateTextureNVPlanar(SDL_Texture * texture, const SDL_Rect * rect,
const Uint8 *Yplane, int Ypitch,
const Uint8 *UVplane, int UVpitch)
{
SDL_Texture *native = texture->native;
SDL_Rect full_rect;
if (SDL_SW_UpdateNVTexturePlanar(texture->yuv, rect, Yplane, Ypitch, UVplane, UVpitch) < 0) {
return -1;
}
full_rect.x = 0;
full_rect.y = 0;
full_rect.w = texture->w;
full_rect.h = texture->h;
rect = &full_rect;
if (!rect->w || !rect->h) {
return 0;
}
if (texture->access == SDL_TEXTUREACCESS_STREAMING) {
void *native_pixels = NULL;
int native_pitch = 0;
if (SDL_LockTexture(native, rect, &native_pixels, &native_pitch) < 0) {
return -1;
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, native_pixels, native_pitch);
SDL_UnlockTexture(native);
} else {
const int temp_pitch = (((rect->w * SDL_BYTESPERPIXEL(native->format)) + 3) & ~3);
const size_t alloclen = rect->h * temp_pitch;
if (alloclen > 0) {
void *temp_pixels = SDL_malloc(alloclen);
if (!temp_pixels) {
return SDL_OutOfMemory();
}
SDL_SW_CopyYUVToRGB(texture->yuv, rect, native->format,
rect->w, rect->h, temp_pixels, temp_pitch);
SDL_UpdateTexture(native, rect, temp_pixels, temp_pitch);
SDL_free(temp_pixels);
}
}
return 0;
}
#endif
int SDL_UpdateYUVTexture(SDL_Texture * texture, const SDL_Rect * rect,
const Uint8 *Yplane, int Ypitch,
const Uint8 *Uplane, int Upitch,
const Uint8 *Vplane, int Vpitch)
{
#if SDL_HAVE_YUV
SDL_Renderer *renderer;
SDL_Rect real_rect;
CHECK_TEXTURE_MAGIC(texture, -1);
if (!Yplane) {
return SDL_InvalidParamError("Yplane");
}
if (!Ypitch) {
return SDL_InvalidParamError("Ypitch");
}
if (!Uplane) {
return SDL_InvalidParamError("Uplane");
}
if (!Upitch) {
return SDL_InvalidParamError("Upitch");
}
if (!Vplane) {
return SDL_InvalidParamError("Vplane");
}
if (!Vpitch) {
return SDL_InvalidParamError("Vpitch");
}
if (texture->format != SDL_PIXELFORMAT_YV12 &&
texture->format != SDL_PIXELFORMAT_IYUV) {
return SDL_SetError("Texture format must by YV12 or IYUV");
}
real_rect.x = 0;
real_rect.y = 0;
real_rect.w = texture->w;
real_rect.h = texture->h;
if (rect) {
SDL_IntersectRect(rect, &real_rect, &real_rect);
}
if (real_rect.w == 0 || real_rect.h == 0) {
return 0;
}
if (texture->yuv) {
return SDL_UpdateTextureYUVPlanar(texture, &real_rect, Yplane, Ypitch, Uplane, Upitch, Vplane, Vpitch);
} else {
SDL_assert(!texture->native);
renderer = texture->renderer;
SDL_assert(renderer->UpdateTextureYUV);
if (renderer->UpdateTextureYUV) {
if (FlushRenderCommandsIfTextureNeeded(texture) < 0) {
return -1;
}
return renderer->UpdateTextureYUV(renderer, texture, &real_rect, Yplane, Ypitch, Uplane, Upitch, Vplane, Vpitch);
} else {
return SDL_Unsupported();
}
}
#else
return -1;
#endif
}
int SDL_UpdateNVTexture(SDL_Texture * texture, const SDL_Rect * rect,
const Uint8 *Yplane, int Ypitch,
const Uint8 *UVplane, int UVpitch)
{
#if SDL_HAVE_YUV
SDL_Renderer *renderer;
SDL_Rect real_rect;
CHECK_TEXTURE_MAGIC(texture, -1);
if (!Yplane) {
return SDL_InvalidParamError("Yplane");
}
if (!Ypitch) {
return SDL_InvalidParamError("Ypitch");
}
if (!UVplane) {
return SDL_InvalidParamError("UVplane");
}
if (!UVpitch) {
return SDL_InvalidParamError("UVpitch");
}
if (texture->format != SDL_PIXELFORMAT_NV12 &&
texture->format != SDL_PIXELFORMAT_NV21) {
return SDL_SetError("Texture format must by NV12 or NV21");
}
real_rect.x = 0;
real_rect.y = 0;
real_rect.w = texture->w;
real_rect.h = texture->h;
if (rect) {
SDL_IntersectRect(rect, &real_rect, &real_rect);
}
if (real_rect.w == 0 || real_rect.h == 0) {
return 0;
}
if (texture->yuv) {
return SDL_UpdateTextureNVPlanar(texture, &real_rect, Yplane, Ypitch, UVplane, UVpitch);
} else {
SDL_assert(!texture->native);
renderer = texture->renderer;
SDL_assert(renderer->UpdateTextureNV);
if (renderer->UpdateTextureNV) {
if (FlushRenderCommandsIfTextureNeeded(texture) < 0) {
return -1;
}
return renderer->UpdateTextureNV(renderer, texture, &real_rect, Yplane, Ypitch, UVplane, UVpitch);
} else {
return SDL_Unsupported();
}
}
#else
return -1;
#endif
}
#if SDL_HAVE_YUV
static int
SDL_LockTextureYUV(SDL_Texture * texture, const SDL_Rect * rect,
void **pixels, int *pitch)
{
return SDL_SW_LockYUVTexture(texture->yuv, rect, pixels, pitch);
}
#endif
static int
SDL_LockTextureNative(SDL_Texture * texture, const SDL_Rect * rect,
void **pixels, int *pitch)
{
texture->locked_rect = *rect;
*pixels = (void *) ((Uint8 *) texture->pixels +
rect->y * texture->pitch +
rect->x * SDL_BYTESPERPIXEL(texture->format));
*pitch = texture->pitch;
return 0;
}
int
SDL_LockTexture(SDL_Texture * texture, const SDL_Rect * rect,
void **pixels, int *pitch)
{
SDL_Rect full_rect;
CHECK_TEXTURE_MAGIC(texture, -1);
if (texture->access != SDL_TEXTUREACCESS_STREAMING) {
return SDL_SetError("SDL_LockTexture(): texture must be streaming");
}
if (!rect) {
full_rect.x = 0;
full_rect.y = 0;
full_rect.w = texture->w;
full_rect.h = texture->h;
rect = &full_rect;
}
#if SDL_HAVE_YUV
if (texture->yuv) {
if (FlushRenderCommandsIfTextureNeeded(texture) < 0) {
return -1;
}
return SDL_LockTextureYUV(texture, rect, pixels, pitch);
} else
#endif
if (texture->native) {
return SDL_LockTextureNative(texture, rect, pixels, pitch);
} else {
SDL_Renderer *renderer = texture->renderer;
if (FlushRenderCommandsIfTextureNeeded(texture) < 0) {
return -1;
}
return renderer->LockTexture(renderer, texture, rect, pixels, pitch);
}
}
int
SDL_LockTextureToSurface(SDL_Texture *texture, const SDL_Rect *rect,
SDL_Surface **surface)
{
SDL_Rect real_rect;
void *pixels = NULL;
int pitch = 0;
int ret;
if (texture == NULL || surface == NULL) {
return -1;
}
real_rect.x = 0;
real_rect.y = 0;
real_rect.w = texture->w;
real_rect.h = texture->h;
if (rect) {
SDL_IntersectRect(rect, &real_rect, &real_rect);
}
ret = SDL_LockTexture(texture, &real_rect, &pixels, &pitch);
if (ret < 0) {
return ret;
}
texture->locked_surface = SDL_CreateRGBSurfaceWithFormatFrom(pixels, real_rect.w, real_rect.h, 0, pitch, texture->format);
if (texture->locked_surface == NULL) {
SDL_UnlockTexture(texture);
return -1;
}
*surface = texture->locked_surface;
return 0;
}
#if SDL_HAVE_YUV
static void
SDL_UnlockTextureYUV(SDL_Texture * texture)
{
SDL_Texture *native = texture->native;
void *native_pixels = NULL;
int native_pitch = 0;
SDL_Rect rect;
rect.x = 0;
rect.y = 0;
rect.w = texture->w;
rect.h = texture->h;
if (SDL_LockTexture(native, &rect, &native_pixels, &native_pitch) < 0) {
return;
}
SDL_SW_CopyYUVToRGB(texture->yuv, &rect, native->format,
rect.w, rect.h, native_pixels, native_pitch);
SDL_UnlockTexture(native);
}
#endif
static void
SDL_UnlockTextureNative(SDL_Texture * texture)
{
SDL_Texture *native = texture->native;
void *native_pixels = NULL;
int native_pitch = 0;
const SDL_Rect *rect = &texture->locked_rect;
const void* pixels = (void *) ((Uint8 *) texture->pixels +
rect->y * texture->pitch +
rect->x * SDL_BYTESPERPIXEL(texture->format));
int pitch = texture->pitch;
if (SDL_LockTexture(native, rect, &native_pixels, &native_pitch) < 0) {
return;
}
SDL_ConvertPixels(rect->w, rect->h,
texture->format, pixels, pitch,
native->format, native_pixels, native_pitch);
SDL_UnlockTexture(native);
}
void
SDL_UnlockTexture(SDL_Texture * texture)
{
CHECK_TEXTURE_MAGIC(texture, );
if (texture->access != SDL_TEXTUREACCESS_STREAMING) {
return;
}
#if SDL_HAVE_YUV
if (texture->yuv) {
SDL_UnlockTextureYUV(texture);
} else
#endif
if (texture->native) {
SDL_UnlockTextureNative(texture);
} else {
SDL_Renderer *renderer = texture->renderer;
renderer->UnlockTexture(renderer, texture);
}
SDL_FreeSurface(texture->locked_surface);
texture->locked_surface = NULL;
}
SDL_bool
SDL_RenderTargetSupported(SDL_Renderer *renderer)
{
if (!renderer || !renderer->SetRenderTarget) {
return SDL_FALSE;
}
return (renderer->info.flags & SDL_RENDERER_TARGETTEXTURE) != 0;
}
int
SDL_SetRenderTarget(SDL_Renderer *renderer, SDL_Texture *texture)
{
if (!SDL_RenderTargetSupported(renderer)) {
return SDL_Unsupported();
}
if (texture) {
CHECK_TEXTURE_MAGIC(texture, -1);
if (renderer != texture->renderer) {
return SDL_SetError("Texture was not created with this renderer");
}
if (texture->access != SDL_TEXTUREACCESS_TARGET) {
return SDL_SetError("Texture not created with SDL_TEXTUREACCESS_TARGET");
}
if (texture->native) {
texture = texture->native;
}
}
if (texture == renderer->target) {
return 0;
}
FlushRenderCommands(renderer);
SDL_LockMutex(renderer->target_mutex);
if (texture && !renderer->target) {
renderer->viewport_backup = renderer->viewport;
renderer->clip_rect_backup = renderer->clip_rect;
renderer->clipping_enabled_backup = renderer->clipping_enabled;
renderer->scale_backup = renderer->scale;
renderer->logical_w_backup = renderer->logical_w;
renderer->logical_h_backup = renderer->logical_h;
}
renderer->target = texture;
if (renderer->SetRenderTarget(renderer, texture) < 0) {
SDL_UnlockMutex(renderer->target_mutex);
return -1;
}
if (texture) {
renderer->viewport.x = (double)0;
renderer->viewport.y = (double)0;
renderer->viewport.w = (double)texture->w;
renderer->viewport.h = (double)texture->h;
SDL_zero(renderer->clip_rect);
renderer->clipping_enabled = SDL_FALSE;
renderer->scale.x = 1.0f;
renderer->scale.y = 1.0f;
renderer->logical_w = texture->w;
renderer->logical_h = texture->h;
} else {
renderer->viewport = renderer->viewport_backup;
renderer->clip_rect = renderer->clip_rect_backup;
renderer->clipping_enabled = renderer->clipping_enabled_backup;
renderer->scale = renderer->scale_backup;
renderer->logical_w = renderer->logical_w_backup;
renderer->logical_h = renderer->logical_h_backup;
}
SDL_UnlockMutex(renderer->target_mutex);
if (QueueCmdSetViewport(renderer) < 0) {
return -1;
}
if (QueueCmdSetClipRect(renderer) < 0) {
return -1;
}
return FlushRenderCommandsIfNotBatching(renderer);
}
SDL_Texture *
SDL_GetRenderTarget(SDL_Renderer *renderer)
{
CHECK_RENDERER_MAGIC(renderer, NULL);
return renderer->target;
}
static int
UpdateLogicalSize(SDL_Renderer *renderer, SDL_bool flush_viewport_cmd)
{
int w = 1, h = 1;
float want_aspect;
float real_aspect;
float scale;
SDL_Rect viewport;
int scale_policy = 0;
const char *hint;
if (!renderer->logical_w || !renderer->logical_h) {
return 0;
}
if (SDL_GetRendererOutputSize(renderer, &w, &h) < 0) {
return -1;
}
hint = SDL_GetHint(SDL_HINT_RENDER_LOGICAL_SIZE_MODE);
if (hint && (*hint == '1' || SDL_strcasecmp(hint, "overscan") == 0)) {
#if SDL_VIDEO_RENDER_D3D
SDL_bool overscan_supported = SDL_TRUE;
if (SDL_strcasecmp(SDL_GetCurrentVideoDriver(), "direct3d") == 0) {
overscan_supported = SDL_FALSE;
}
if (overscan_supported) {
scale_policy = 1;
}
#else
scale_policy = 1;
#endif
}
want_aspect = (float)renderer->logical_w / renderer->logical_h;
real_aspect = (float)w / h;
SDL_RenderSetScale(renderer, 1.0f, 1.0f);
if (renderer->integer_scale) {
if (want_aspect > real_aspect) {
scale = (float)(w / renderer->logical_w);
} else {
scale = (float)(h / renderer->logical_h);
}
if (scale < 1.0f) {
scale = 1.0f;
}
viewport.w = (int)SDL_floor(renderer->logical_w * scale);
viewport.x = (w - viewport.w) / 2;
viewport.h = (int)SDL_floor(renderer->logical_h * scale);
viewport.y = (h - viewport.h) / 2;
} else if (SDL_fabs(want_aspect-real_aspect) < 0.0001) {
scale = (float)w / renderer->logical_w;
SDL_zero(viewport);
SDL_GetRendererOutputSize(renderer, &viewport.w, &viewport.h);
} else if (want_aspect > real_aspect) {
if (scale_policy == 1) {
scale = (float)h / renderer->logical_h;
viewport.y = 0;
viewport.h = h;
viewport.w = (int)SDL_floor(renderer->logical_w * scale);
viewport.x = (w - viewport.w) / 2;
} else {
scale = (float)w / renderer->logical_w;
viewport.x = 0;
viewport.w = w;
viewport.h = (int)SDL_floor(renderer->logical_h * scale);
viewport.y = (h - viewport.h) / 2;
}
} else {
if (scale_policy == 1) {
scale = (float)w / renderer->logical_w;
viewport.x = 0;
viewport.w = w;
viewport.h = (int)SDL_floor(renderer->logical_h * scale);
viewport.y = (h - viewport.h) / 2;
} else {
scale = (float)h / renderer->logical_h;
viewport.y = 0;
viewport.h = h;
viewport.w = (int)SDL_floor(renderer->logical_w * scale);
viewport.x = (w - viewport.w) / 2;
}
}
renderer->viewport.x = (double)viewport.x * renderer->scale.x;
renderer->viewport.y = (double)viewport.y * renderer->scale.y;
renderer->viewport.w = (double)viewport.w * renderer->scale.x;
renderer->viewport.h = (double)viewport.h * renderer->scale.y;
QueueCmdSetViewport(renderer);
if (flush_viewport_cmd) {
FlushRenderCommandsIfNotBatching(renderer);
}
SDL_RenderSetScale(renderer, scale, scale);
return 0;
}
int
SDL_RenderSetLogicalSize(SDL_Renderer * renderer, int w, int h)
{
CHECK_RENDERER_MAGIC(renderer, -1);
if (!w || !h) {
renderer->logical_w = 0;
renderer->logical_h = 0;
SDL_RenderSetViewport(renderer, NULL);
SDL_RenderSetScale(renderer, 1.0f, 1.0f);
return 0;
}
renderer->logical_w = w;
renderer->logical_h = h;
return UpdateLogicalSize(renderer, SDL_TRUE);
}
void
SDL_RenderGetLogicalSize(SDL_Renderer * renderer, int *w, int *h)
{
CHECK_RENDERER_MAGIC(renderer, );
if (w) {
*w = renderer->logical_w;
}
if (h) {
*h = renderer->logical_h;
}
}
int
SDL_RenderSetIntegerScale(SDL_Renderer * renderer, SDL_bool enable)
{
CHECK_RENDERER_MAGIC(renderer, -1);
renderer->integer_scale = enable;
return UpdateLogicalSize(renderer, SDL_TRUE);
}
SDL_bool
SDLCALL SDL_RenderGetIntegerScale(SDL_Renderer * renderer)
{
CHECK_RENDERER_MAGIC(renderer, SDL_FALSE);
return renderer->integer_scale;
}
int
SDL_RenderSetViewport(SDL_Renderer * renderer, const SDL_Rect * rect)
{
int retval;
CHECK_RENDERER_MAGIC(renderer, -1);
if (rect) {
renderer->viewport.x = (double)rect->x * renderer->scale.x;
renderer->viewport.y = (double)rect->y * renderer->scale.y;
renderer->viewport.w = (double)rect->w * renderer->scale.x;
renderer->viewport.h = (double)rect->h * renderer->scale.y;
} else {
int w, h;
if (SDL_GetRendererOutputSize(renderer, &w, &h) < 0) {
return -1;
}
renderer->viewport.x = (double)0;
renderer->viewport.y = (double)0;
renderer->viewport.w = (double)w;
renderer->viewport.h = (double)h;
}
retval = QueueCmdSetViewport(renderer);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
void
SDL_RenderGetViewport(SDL_Renderer * renderer, SDL_Rect * rect)
{
CHECK_RENDERER_MAGIC(renderer, );
if (rect) {
rect->x = (int)SDL_floor(renderer->viewport.x / renderer->scale.x);
rect->y = (int)SDL_floor(renderer->viewport.y / renderer->scale.y);
rect->w = (int)SDL_floor(renderer->viewport.w / renderer->scale.x);
rect->h = (int)SDL_floor(renderer->viewport.h / renderer->scale.y);
}
}
static void
RenderGetViewportSize(SDL_Renderer * renderer, SDL_FRect * rect)
{
rect->x = 0.0f;
rect->y = 0.0f;
rect->w = (float)(renderer->viewport.w / renderer->scale.x);
rect->h = (float)(renderer->viewport.h / renderer->scale.y);
}
int
SDL_RenderSetClipRect(SDL_Renderer * renderer, const SDL_Rect * rect)
{
int retval;
CHECK_RENDERER_MAGIC(renderer, -1)
if (rect) {
renderer->clipping_enabled = SDL_TRUE;
renderer->clip_rect.x = (double)rect->x * renderer->scale.x;
renderer->clip_rect.y = (double)rect->y * renderer->scale.y;
renderer->clip_rect.w = (double)rect->w * renderer->scale.x;
renderer->clip_rect.h = (double)rect->h * renderer->scale.y;
} else {
renderer->clipping_enabled = SDL_FALSE;
SDL_zero(renderer->clip_rect);
}
retval = QueueCmdSetClipRect(renderer);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
void
SDL_RenderGetClipRect(SDL_Renderer * renderer, SDL_Rect * rect)
{
CHECK_RENDERER_MAGIC(renderer, )
if (rect) {
rect->x = (int)SDL_floor(renderer->clip_rect.x / renderer->scale.x);
rect->y = (int)SDL_floor(renderer->clip_rect.y / renderer->scale.y);
rect->w = (int)SDL_floor(renderer->clip_rect.w / renderer->scale.x);
rect->h = (int)SDL_floor(renderer->clip_rect.h / renderer->scale.y);
}
}
SDL_bool
SDL_RenderIsClipEnabled(SDL_Renderer * renderer)
{
CHECK_RENDERER_MAGIC(renderer, SDL_FALSE)
return renderer->clipping_enabled;
}
int
SDL_RenderSetScale(SDL_Renderer * renderer, float scaleX, float scaleY)
{
CHECK_RENDERER_MAGIC(renderer, -1);
renderer->scale.x = scaleX;
renderer->scale.y = scaleY;
return 0;
}
void
SDL_RenderGetScale(SDL_Renderer * renderer, float *scaleX, float *scaleY)
{
CHECK_RENDERER_MAGIC(renderer, );
if (scaleX) {
*scaleX = renderer->scale.x;
}
if (scaleY) {
*scaleY = renderer->scale.y;
}
}
void
SDL_RenderWindowToLogical(SDL_Renderer * renderer, int windowX, int windowY, float *logicalX, float *logicalY)
{
float window_physical_x, window_physical_y;
CHECK_RENDERER_MAGIC(renderer, );
window_physical_x = ((float) windowX) / renderer->dpi_scale.x;
window_physical_y = ((float) windowY) / renderer->dpi_scale.y;
if (logicalX) {
*logicalX = (float)((window_physical_x - renderer->viewport.x) / renderer->scale.x);
}
if (logicalY) {
*logicalY = (float)((window_physical_y - renderer->viewport.y) / renderer->scale.y);
}
}
void
SDL_RenderLogicalToWindow(SDL_Renderer * renderer, float logicalX, float logicalY, int *windowX, int *windowY)
{
float window_physical_x, window_physical_y;
CHECK_RENDERER_MAGIC(renderer, );
window_physical_x = (float)((logicalX * renderer->scale.x) + renderer->viewport.x);
window_physical_y = (float)((logicalY * renderer->scale.y) + renderer->viewport.y);
if (windowX) {
*windowX = (int)(window_physical_x * renderer->dpi_scale.x);
}
if (windowY) {
*windowY = (int)(window_physical_y * renderer->dpi_scale.y);
}
}
int
SDL_SetRenderDrawColor(SDL_Renderer * renderer,
Uint8 r, Uint8 g, Uint8 b, Uint8 a)
{
CHECK_RENDERER_MAGIC(renderer, -1);
renderer->color.r = r;
renderer->color.g = g;
renderer->color.b = b;
renderer->color.a = a;
return 0;
}
int
SDL_GetRenderDrawColor(SDL_Renderer * renderer,
Uint8 * r, Uint8 * g, Uint8 * b, Uint8 * a)
{
CHECK_RENDERER_MAGIC(renderer, -1);
if (r) {
*r = renderer->color.r;
}
if (g) {
*g = renderer->color.g;
}
if (b) {
*b = renderer->color.b;
}
if (a) {
*a = renderer->color.a;
}
return 0;
}
int
SDL_SetRenderDrawBlendMode(SDL_Renderer * renderer, SDL_BlendMode blendMode)
{
CHECK_RENDERER_MAGIC(renderer, -1);
if (!IsSupportedBlendMode(renderer, blendMode)) {
return SDL_Unsupported();
}
renderer->blendMode = blendMode;
return 0;
}
int
SDL_GetRenderDrawBlendMode(SDL_Renderer * renderer, SDL_BlendMode *blendMode)
{
CHECK_RENDERER_MAGIC(renderer, -1);
*blendMode = renderer->blendMode;
return 0;
}
int
SDL_RenderClear(SDL_Renderer * renderer)
{
int retval;
CHECK_RENDERER_MAGIC(renderer, -1);
retval = QueueCmdClear(renderer);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderDrawPoint(SDL_Renderer * renderer, int x, int y)
{
SDL_FPoint fpoint;
fpoint.x = (float) x;
fpoint.y = (float) y;
return SDL_RenderDrawPointsF(renderer, &fpoint, 1);
}
int
SDL_RenderDrawPointF(SDL_Renderer * renderer, float x, float y)
{
SDL_FPoint fpoint;
fpoint.x = x;
fpoint.y = y;
return SDL_RenderDrawPointsF(renderer, &fpoint, 1);
}
static int
RenderDrawPointsWithRects(SDL_Renderer * renderer,
const SDL_Point * points, const int count)
{
int retval;
SDL_bool isstack;
SDL_FRect *frects;
int i;
if (count < 1) {
return 0;
}
frects = SDL_small_alloc(SDL_FRect, count, &isstack);
if (!frects) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
frects[i].x = points[i].x * renderer->scale.x;
frects[i].y = points[i].y * renderer->scale.y;
frects[i].w = renderer->scale.x;
frects[i].h = renderer->scale.y;
}
retval = QueueCmdFillRects(renderer, frects, count);
SDL_small_free(frects, isstack);
return retval;
}
int
SDL_RenderDrawPoints(SDL_Renderer * renderer,
const SDL_Point * points, int count)
{
SDL_FPoint *fpoints;
int i;
int retval;
SDL_bool isstack;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!points) {
return SDL_InvalidParamError("SDL_RenderDrawPoints(): points");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
if (renderer->scale.x != 1.0f || renderer->scale.y != 1.0f) {
retval = RenderDrawPointsWithRects(renderer, points, count);
} else {
fpoints = SDL_small_alloc(SDL_FPoint, count, &isstack);
if (!fpoints) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
fpoints[i].x = (float) points[i].x;
fpoints[i].y = (float) points[i].y;
}
retval = QueueCmdDrawPoints(renderer, fpoints, count);
SDL_small_free(fpoints, isstack);
}
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
static int
RenderDrawPointsWithRectsF(SDL_Renderer * renderer,
const SDL_FPoint * fpoints, const int count)
{
int retval;
SDL_bool isstack;
SDL_FRect *frects;
int i;
if (count < 1) {
return 0;
}
frects = SDL_small_alloc(SDL_FRect, count, &isstack);
if (!frects) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
frects[i].x = fpoints[i].x * renderer->scale.x;
frects[i].y = fpoints[i].y * renderer->scale.y;
frects[i].w = renderer->scale.x;
frects[i].h = renderer->scale.y;
}
retval = QueueCmdFillRects(renderer, frects, count);
SDL_small_free(frects, isstack);
return retval;
}
int
SDL_RenderDrawPointsF(SDL_Renderer * renderer,
const SDL_FPoint * points, int count)
{
int retval;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!points) {
return SDL_InvalidParamError("SDL_RenderDrawPointsF(): points");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
if (renderer->scale.x != 1.0f || renderer->scale.y != 1.0f) {
retval = RenderDrawPointsWithRectsF(renderer, points, count);
} else {
retval = QueueCmdDrawPoints(renderer, points, count);
}
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderDrawLine(SDL_Renderer * renderer, int x1, int y1, int x2, int y2)
{
SDL_FPoint points[2];
points[0].x = (float) x1;
points[0].y = (float) y1;
points[1].x = (float) x2;
points[1].y = (float) y2;
return SDL_RenderDrawLinesF(renderer, points, 2);
}
int
SDL_RenderDrawLineF(SDL_Renderer * renderer, float x1, float y1, float x2, float y2)
{
SDL_FPoint points[2];
points[0].x = x1;
points[0].y = y1;
points[1].x = x2;
points[1].y = y2;
return SDL_RenderDrawLinesF(renderer, points, 2);
}
static int RenderDrawLineBresenham(SDL_Renderer *renderer, int x1, int y1, int x2, int y2, SDL_bool draw_last)
{
int i, deltax, deltay, numpixels;
int d, dinc1, dinc2;
int x, xinc1, xinc2;
int y, yinc1, yinc2;
int retval;
SDL_bool isstack;
SDL_FPoint *points;
deltax = SDL_abs(x2 - x1);
deltay = SDL_abs(y2 - y1);
if (deltax >= deltay) {
numpixels = deltax + 1;
d = (2 * deltay) - deltax;
dinc1 = deltay * 2;
dinc2 = (deltay - deltax) * 2;
xinc1 = 1;
xinc2 = 1;
yinc1 = 0;
yinc2 = 1;
} else {
numpixels = deltay + 1;
d = (2 * deltax) - deltay;
dinc1 = deltax * 2;
dinc2 = (deltax - deltay) * 2;
xinc1 = 0;
xinc2 = 1;
yinc1 = 1;
yinc2 = 1;
}
if (x1 > x2) {
xinc1 = -xinc1;
xinc2 = -xinc2;
}
if (y1 > y2) {
yinc1 = -yinc1;
yinc2 = -yinc2;
}
x = x1;
y = y1;
if (!draw_last) {
--numpixels;
}
points = SDL_small_alloc(SDL_FPoint, numpixels, &isstack);
if (!points) {
return SDL_OutOfMemory();
}
for (i = 0; i < numpixels; ++i) {
points[i].x = (float)x;
points[i].y = (float)y;
if (d < 0) {
d += dinc1;
x += xinc1;
y += yinc1;
} else {
d += dinc2;
x += xinc2;
y += yinc2;
}
}
if (renderer->scale.x != 1.0f || renderer->scale.y != 1.0f) {
retval = RenderDrawPointsWithRectsF(renderer, points, numpixels);
} else {
retval = QueueCmdDrawPoints(renderer, points, numpixels);
}
SDL_small_free(points, isstack);
return retval;
}
static int
RenderDrawLinesWithRectsF(SDL_Renderer * renderer,
const SDL_FPoint * points, const int count)
{
const float scale_x = renderer->scale.x;
const float scale_y = renderer->scale.y;
SDL_FRect *frect;
SDL_FRect *frects;
int i, nrects = 0;
int retval = 0;
SDL_bool isstack;
SDL_bool drew_line = SDL_FALSE;
SDL_bool draw_last = SDL_FALSE;
frects = SDL_small_alloc(SDL_FRect, count-1, &isstack);
if (!frects) {
return SDL_OutOfMemory();
}
for (i = 0; i < count-1; ++i) {
SDL_bool same_x = (points[i].x == points[i+1].x);
SDL_bool same_y = (points[i].y == points[i+1].y);
if (i == (count - 2)) {
if (!drew_line || points[i+1].x != points[0].x || points[i+1].y != points[0].y) {
draw_last = SDL_TRUE;
}
} else {
if (same_x && same_y) {
continue;
}
}
if (same_x) {
const float minY = SDL_min(points[i].y, points[i+1].y);
const float maxY = SDL_max(points[i].y, points[i+1].y);
frect = &frects[nrects++];
frect->x = points[i].x * scale_x;
frect->y = minY * scale_y;
frect->w = scale_x;
frect->h = (maxY - minY + draw_last) * scale_y;
if (!draw_last && points[i+1].y < points[i].y) {
frect->y += scale_y;
}
} else if (same_y) {
const float minX = SDL_min(points[i].x, points[i+1].x);
const float maxX = SDL_max(points[i].x, points[i+1].x);
frect = &frects[nrects++];
frect->x = minX * scale_x;
frect->y = points[i].y * scale_y;
frect->w = (maxX - minX + draw_last) * scale_x;
frect->h = scale_y;
if (!draw_last && points[i+1].x < points[i].x) {
frect->x += scale_x;
}
} else {
retval += RenderDrawLineBresenham(renderer, (int)SDL_roundf(points[i].x), (int)SDL_roundf(points[i].y),
(int)SDL_roundf(points[i+1].x), (int)SDL_roundf(points[i+1].y), draw_last);
}
drew_line = SDL_TRUE;
}
if (nrects) {
retval += QueueCmdFillRects(renderer, frects, nrects);
}
SDL_small_free(frects, isstack);
if (retval < 0) {
retval = -1;
}
return retval;
}
int
SDL_RenderDrawLines(SDL_Renderer * renderer,
const SDL_Point * points, int count)
{
SDL_FPoint *fpoints;
int i;
int retval;
SDL_bool isstack;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!points) {
return SDL_InvalidParamError("SDL_RenderDrawLines(): points");
}
if (count < 2) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
fpoints = SDL_small_alloc(SDL_FPoint, count, &isstack);
if (!fpoints) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
fpoints[i].x = (float) points[i].x;
fpoints[i].y = (float) points[i].y;
}
retval = SDL_RenderDrawLinesF(renderer, fpoints, count);
SDL_small_free(fpoints, isstack);
return retval;
}
int
SDL_RenderDrawLinesF(SDL_Renderer * renderer,
const SDL_FPoint * points, int count)
{
int retval = 0;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!points) {
return SDL_InvalidParamError("SDL_RenderDrawLinesF(): points");
}
if (count < 2) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
if (renderer->line_method == SDL_RENDERLINEMETHOD_POINTS) {
retval = RenderDrawLinesWithRectsF(renderer, points, count);
} else if (renderer->line_method == SDL_RENDERLINEMETHOD_GEOMETRY) {
SDL_bool isstack1;
SDL_bool isstack2;
const float scale_x = renderer->scale.x;
const float scale_y = renderer->scale.y;
float *xy = SDL_small_alloc(float, 4 * 2 * count, &isstack1);
int *indices = SDL_small_alloc(int,
(4) * 3 * (count - 1)
+ (2) * 3 * (count)
, &isstack2);
if (xy && indices) {
int i;
float *ptr_xy = xy;
int *ptr_indices = indices;
const int xy_stride = 2 * sizeof (float);
int num_vertices = 4 * count;
int num_indices = 0;
const int size_indices = 4;
int cur_index = -4;
const int is_looping = (points[0].x == points[count - 1].x && points[0].y == points[count - 1].y);
SDL_FPoint p;
p.x = p.y = 0.0f;
for (i = 0; i < count; ++i) {
SDL_FPoint q = points[i];
q.x *= scale_x;
q.y *= scale_y;
*ptr_xy++ = q.x;
*ptr_xy++ = q.y;
*ptr_xy++ = q.x + scale_x;
*ptr_xy++ = q.y;
*ptr_xy++ = q.x + scale_x;
*ptr_xy++ = q.y + scale_y;
*ptr_xy++ = q.x;
*ptr_xy++ = q.y + scale_y;
#define ADD_TRIANGLE(i1, i2, i3) \
*ptr_indices++ = cur_index + i1; \
*ptr_indices++ = cur_index + i2; \
*ptr_indices++ = cur_index + i3; \
num_indices += 3; \
if (i || is_looping == 0) {
ADD_TRIANGLE(4, 5, 6)
ADD_TRIANGLE(4, 6, 7)
}
if (i == 0) {
p = q;
cur_index += 4;
continue;
}
if (p.y == q.y) {
if (p.x < q.x) {
ADD_TRIANGLE(1, 4, 7)
ADD_TRIANGLE(1, 7, 2)
} else {
ADD_TRIANGLE(5, 0, 3)
ADD_TRIANGLE(5, 3, 6)
}
} else if (p.x == q.x) {
if (p.y < q.y) {
ADD_TRIANGLE(2, 5, 4)
ADD_TRIANGLE(2, 4, 3)
} else {
ADD_TRIANGLE(6, 1, 0)
ADD_TRIANGLE(6, 0, 7)
}
} else {
if (p.y < q.y) {
if (p.x < q.x) {
ADD_TRIANGLE(1, 5, 4)
ADD_TRIANGLE(1, 4, 2)
ADD_TRIANGLE(2, 4, 7)
ADD_TRIANGLE(2, 7, 3)
} else {
ADD_TRIANGLE(4, 0, 5)
ADD_TRIANGLE(5, 0, 3)
ADD_TRIANGLE(5, 3, 6)
ADD_TRIANGLE(6, 3, 2)
}
} else {
if (p.x < q.x) {
ADD_TRIANGLE(0, 4, 7)
ADD_TRIANGLE(0, 7, 1)
ADD_TRIANGLE(1, 7, 6)
ADD_TRIANGLE(1, 6, 2)
} else {
ADD_TRIANGLE(6, 5, 1)
ADD_TRIANGLE(6, 1, 0)
ADD_TRIANGLE(7, 6, 0)
ADD_TRIANGLE(7, 0, 3)
}
}
}
p = q;
cur_index += 4;
}
retval = QueueCmdGeometry(renderer, NULL,
xy, xy_stride, &renderer->color, 0 , NULL, 0,
num_vertices, indices, num_indices, size_indices,
1.0f, 1.0f);
}
SDL_small_free(xy, isstack1);
SDL_small_free(indices, isstack2);
} else if (renderer->scale.x != 1.0f || renderer->scale.y != 1.0f) {
retval = RenderDrawLinesWithRectsF(renderer, points, count);
} else {
retval = QueueCmdDrawLines(renderer, points, count);
}
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderDrawRect(SDL_Renderer * renderer, const SDL_Rect * rect)
{
SDL_FRect frect;
SDL_FRect *prect = NULL;
if (rect) {
frect.x = (float) rect->x;
frect.y = (float) rect->y;
frect.w = (float) rect->w;
frect.h = (float) rect->h;
prect = &frect;
}
return SDL_RenderDrawRectF(renderer, prect);
}
int
SDL_RenderDrawRectF(SDL_Renderer * renderer, const SDL_FRect * rect)
{
SDL_FRect frect;
SDL_FPoint points[5];
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rect) {
RenderGetViewportSize(renderer, &frect);
rect = &frect;
}
points[0].x = rect->x;
points[0].y = rect->y;
points[1].x = rect->x+rect->w-1;
points[1].y = rect->y;
points[2].x = rect->x+rect->w-1;
points[2].y = rect->y+rect->h-1;
points[3].x = rect->x;
points[3].y = rect->y+rect->h-1;
points[4].x = rect->x;
points[4].y = rect->y;
return SDL_RenderDrawLinesF(renderer, points, 5);
}
int
SDL_RenderDrawRects(SDL_Renderer * renderer,
const SDL_Rect * rects, int count)
{
int i;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rects) {
return SDL_InvalidParamError("SDL_RenderDrawRects(): rects");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
for (i = 0; i < count; ++i) {
if (SDL_RenderDrawRect(renderer, &rects[i]) < 0) {
return -1;
}
}
return 0;
}
int
SDL_RenderDrawRectsF(SDL_Renderer * renderer,
const SDL_FRect * rects, int count)
{
int i;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rects) {
return SDL_InvalidParamError("SDL_RenderDrawRectsF(): rects");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
for (i = 0; i < count; ++i) {
if (SDL_RenderDrawRectF(renderer, &rects[i]) < 0) {
return -1;
}
}
return 0;
}
int
SDL_RenderFillRect(SDL_Renderer * renderer, const SDL_Rect * rect)
{
SDL_FRect frect;
CHECK_RENDERER_MAGIC(renderer, -1);
if (rect) {
frect.x = (float) rect->x;
frect.y = (float) rect->y;
frect.w = (float) rect->w;
frect.h = (float) rect->h;
} else {
RenderGetViewportSize(renderer, &frect);
}
return SDL_RenderFillRectsF(renderer, &frect, 1);
}
int
SDL_RenderFillRectF(SDL_Renderer * renderer, const SDL_FRect * rect)
{
SDL_FRect frect;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rect) {
RenderGetViewportSize(renderer, &frect);
rect = &frect;
}
return SDL_RenderFillRectsF(renderer, rect, 1);
}
int
SDL_RenderFillRects(SDL_Renderer * renderer,
const SDL_Rect * rects, int count)
{
SDL_FRect *frects;
int i;
int retval;
SDL_bool isstack;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rects) {
return SDL_InvalidParamError("SDL_RenderFillRects(): rects");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
frects = SDL_small_alloc(SDL_FRect, count, &isstack);
if (!frects) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
frects[i].x = rects[i].x * renderer->scale.x;
frects[i].y = rects[i].y * renderer->scale.y;
frects[i].w = rects[i].w * renderer->scale.x;
frects[i].h = rects[i].h * renderer->scale.y;
}
retval = QueueCmdFillRects(renderer, frects, count);
SDL_small_free(frects, isstack);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderFillRectsF(SDL_Renderer * renderer,
const SDL_FRect * rects, int count)
{
SDL_FRect *frects;
int i;
int retval;
SDL_bool isstack;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!rects) {
return SDL_InvalidParamError("SDL_RenderFillRectsF(): rects");
}
if (count < 1) {
return 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
frects = SDL_small_alloc(SDL_FRect, count, &isstack);
if (!frects) {
return SDL_OutOfMemory();
}
for (i = 0; i < count; ++i) {
frects[i].x = rects[i].x * renderer->scale.x;
frects[i].y = rects[i].y * renderer->scale.y;
frects[i].w = rects[i].w * renderer->scale.x;
frects[i].h = rects[i].h * renderer->scale.y;
}
retval = QueueCmdFillRects(renderer, frects, count);
SDL_small_free(frects, isstack);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderCopy(SDL_Renderer * renderer, SDL_Texture * texture,
const SDL_Rect * srcrect, const SDL_Rect * dstrect)
{
SDL_FRect dstfrect;
SDL_FRect *pdstfrect = NULL;
if (dstrect) {
dstfrect.x = (float) dstrect->x;
dstfrect.y = (float) dstrect->y;
dstfrect.w = (float) dstrect->w;
dstfrect.h = (float) dstrect->h;
pdstfrect = &dstfrect;
}
return SDL_RenderCopyF(renderer, texture, srcrect, pdstfrect);
}
int
SDL_RenderCopyF(SDL_Renderer * renderer, SDL_Texture * texture,
const SDL_Rect * srcrect, const SDL_FRect * dstrect)
{
SDL_Rect real_srcrect;
SDL_FRect real_dstrect;
int retval;
int use_rendergeometry;
CHECK_RENDERER_MAGIC(renderer, -1);
CHECK_TEXTURE_MAGIC(texture, -1);
if (renderer != texture->renderer) {
return SDL_SetError("Texture was not created with this renderer");
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
use_rendergeometry = (renderer->QueueCopy == NULL);
real_srcrect.x = 0;
real_srcrect.y = 0;
real_srcrect.w = texture->w;
real_srcrect.h = texture->h;
if (srcrect) {
if (!SDL_IntersectRect(srcrect, &real_srcrect, &real_srcrect)) {
return 0;
}
}
RenderGetViewportSize(renderer, &real_dstrect);
if (dstrect) {
if (!SDL_HasIntersectionF(dstrect, &real_dstrect)) {
return 0;
}
real_dstrect = *dstrect;
}
if (texture->native) {
texture = texture->native;
}
texture->last_command_generation = renderer->render_command_generation;
if (use_rendergeometry) {
float xy[8];
const int xy_stride = 2 * sizeof (float);
float uv[8];
const int uv_stride = 2 * sizeof (float);
const int num_vertices = 4;
const int *indices = renderer->rect_index_order;
const int num_indices = 6;
const int size_indices = 4;
float minu, minv, maxu, maxv;
float minx, miny, maxx, maxy;
minu = (float) (real_srcrect.x) / (float) texture->w;
minv = (float) (real_srcrect.y) / (float) texture->h;
maxu = (float) (real_srcrect.x + real_srcrect.w) / (float) texture->w;
maxv = (float) (real_srcrect.y + real_srcrect.h) / (float) texture->h;
minx = real_dstrect.x;
miny = real_dstrect.y;
maxx = real_dstrect.x + real_dstrect.w;
maxy = real_dstrect.y + real_dstrect.h;
uv[0] = minu;
uv[1] = minv;
uv[2] = maxu;
uv[3] = minv;
uv[4] = maxu;
uv[5] = maxv;
uv[6] = minu;
uv[7] = maxv;
xy[0] = minx;
xy[1] = miny;
xy[2] = maxx;
xy[3] = miny;
xy[4] = maxx;
xy[5] = maxy;
xy[6] = minx;
xy[7] = maxy;
retval = QueueCmdGeometry(renderer, texture,
xy, xy_stride, &texture->color, 0 , uv, uv_stride,
num_vertices,
indices, num_indices, size_indices,
renderer->scale.x, renderer->scale.y);
} else {
real_dstrect.x *= renderer->scale.x;
real_dstrect.y *= renderer->scale.y;
real_dstrect.w *= renderer->scale.x;
real_dstrect.h *= renderer->scale.y;
retval = QueueCmdCopy(renderer, texture, &real_srcrect, &real_dstrect);
}
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderCopyEx(SDL_Renderer * renderer, SDL_Texture * texture,
const SDL_Rect * srcrect, const SDL_Rect * dstrect,
const double angle, const SDL_Point *center, const SDL_RendererFlip flip)
{
SDL_FRect dstfrect;
SDL_FRect *pdstfrect = NULL;
SDL_FPoint fcenter;
SDL_FPoint *pfcenter = NULL;
if (dstrect) {
dstfrect.x = (float) dstrect->x;
dstfrect.y = (float) dstrect->y;
dstfrect.w = (float) dstrect->w;
dstfrect.h = (float) dstrect->h;
pdstfrect = &dstfrect;
}
if (center) {
fcenter.x = (float) center->x;
fcenter.y = (float) center->y;
pfcenter = &fcenter;
}
return SDL_RenderCopyExF(renderer, texture, srcrect, pdstfrect, angle, pfcenter, flip);
}
int
SDL_RenderCopyExF(SDL_Renderer * renderer, SDL_Texture * texture,
const SDL_Rect * srcrect, const SDL_FRect * dstrect,
const double angle, const SDL_FPoint *center, const SDL_RendererFlip flip)
{
SDL_Rect real_srcrect;
SDL_FRect real_dstrect;
SDL_FPoint real_center;
int retval;
int use_rendergeometry;
if (flip == SDL_FLIP_NONE && (int)(angle/360) == angle/360) {
return SDL_RenderCopyF(renderer, texture, srcrect, dstrect);
}
CHECK_RENDERER_MAGIC(renderer, -1);
CHECK_TEXTURE_MAGIC(texture, -1);
if (renderer != texture->renderer) {
return SDL_SetError("Texture was not created with this renderer");
}
if (!renderer->QueueCopyEx && !renderer->QueueGeometry) {
return SDL_SetError("Renderer does not support RenderCopyEx");
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
use_rendergeometry = (renderer->QueueCopyEx == NULL);
real_srcrect.x = 0;
real_srcrect.y = 0;
real_srcrect.w = texture->w;
real_srcrect.h = texture->h;
if (srcrect) {
if (!SDL_IntersectRect(srcrect, &real_srcrect, &real_srcrect)) {
return 0;
}
}
if (dstrect) {
real_dstrect = *dstrect;
} else {
RenderGetViewportSize(renderer, &real_dstrect);
}
if (texture->native) {
texture = texture->native;
}
if (center) {
real_center = *center;
} else {
real_center.x = real_dstrect.w / 2.0f;
real_center.y = real_dstrect.h / 2.0f;
}
texture->last_command_generation = renderer->render_command_generation;
if (use_rendergeometry) {
float xy[8];
const int xy_stride = 2 * sizeof (float);
float uv[8];
const int uv_stride = 2 * sizeof (float);
const int num_vertices = 4;
const int *indices = renderer->rect_index_order;
const int num_indices = 6;
const int size_indices = 4;
float minu, minv, maxu, maxv;
float minx, miny, maxx, maxy;
float centerx, centery;
float s_minx, s_miny, s_maxx, s_maxy;
float c_minx, c_miny, c_maxx, c_maxy;
const float radian_angle = (float)((M_PI * angle) / 180.0);
const float s = SDL_sinf(radian_angle);
const float c = SDL_cosf(radian_angle);
minu = (float) (real_srcrect.x) / (float) texture->w;
minv = (float) (real_srcrect.y) / (float) texture->h;
maxu = (float) (real_srcrect.x + real_srcrect.w) / (float) texture->w;
maxv = (float) (real_srcrect.y + real_srcrect.h) / (float) texture->h;
centerx = real_center.x + real_dstrect.x;
centery = real_center.y + real_dstrect.y;
if (flip & SDL_FLIP_HORIZONTAL) {
minx = real_dstrect.x + real_dstrect.w;
maxx = real_dstrect.x;
} else {
minx = real_dstrect.x;
maxx = real_dstrect.x + real_dstrect.w;
}
if (flip & SDL_FLIP_VERTICAL) {
miny = real_dstrect.y + real_dstrect.h;
maxy = real_dstrect.y;
} else {
miny = real_dstrect.y;
maxy = real_dstrect.y + real_dstrect.h;
}
uv[0] = minu;
uv[1] = minv;
uv[2] = maxu;
uv[3] = minv;
uv[4] = maxu;
uv[5] = maxv;
uv[6] = minu;
uv[7] = maxv;
s_minx = s * (minx - centerx);
s_miny = s * (miny - centery);
s_maxx = s * (maxx - centerx);
s_maxy = s * (maxy - centery);
c_minx = c * (minx - centerx);
c_miny = c * (miny - centery);
c_maxx = c * (maxx - centerx);
c_maxy = c * (maxy - centery);
xy[0] = (c_minx - s_miny) + centerx;
xy[1] = (s_minx + c_miny) + centery;
xy[2] = (c_maxx - s_miny) + centerx;
xy[3] = (s_maxx + c_miny) + centery;
xy[4] = (c_maxx - s_maxy) + centerx;
xy[5] = (s_maxx + c_maxy) + centery;
xy[6] = (c_minx - s_maxy) + centerx;
xy[7] = (s_minx + c_maxy) + centery;
retval = QueueCmdGeometry(renderer, texture,
xy, xy_stride, &texture->color, 0 , uv, uv_stride,
num_vertices,
indices, num_indices, size_indices,
renderer->scale.x, renderer->scale.y);
} else {
retval = QueueCmdCopyEx(renderer, texture, &real_srcrect, &real_dstrect, angle, &real_center, flip, renderer->scale.x, renderer->scale.y);
}
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderGeometry(SDL_Renderer *renderer,
SDL_Texture *texture,
const SDL_Vertex *vertices, int num_vertices,
const int *indices, int num_indices)
{
if (vertices) {
const float *xy = &vertices->position.x;
int xy_stride = sizeof (SDL_Vertex);
const SDL_Color *color = &vertices->color;
int color_stride = sizeof (SDL_Vertex);
const float *uv = &vertices->tex_coord.x;
int uv_stride = sizeof (SDL_Vertex);
int size_indices = 4;
return SDL_RenderGeometryRaw(renderer, texture, xy, xy_stride, color, color_stride, uv, uv_stride, num_vertices, indices, num_indices, size_indices);
} else {
return SDL_InvalidParamError("vertices");
}
}
static int
remap_one_indice(
int prev,
int k,
SDL_Texture *texture,
const float *xy, int xy_stride,
const SDL_Color *color, int color_stride,
const float *uv, int uv_stride)
{
const float *xy0_, *xy1_, *uv0_, *uv1_;
int col0_, col1_;
xy0_ = (const float *)((const char*)xy + prev * xy_stride);
xy1_ = (const float *)((const char*)xy + k * xy_stride);
if (xy0_[0] != xy1_[0]) {
return k;
}
if (xy0_[1] != xy1_[1]) {
return k;
}
if (texture) {
uv0_ = (const float *)((const char*)uv + prev * uv_stride);
uv1_ = (const float *)((const char*)uv + k * uv_stride);
if (uv0_[0] != uv1_[0]) {
return k;
}
if (uv0_[1] != uv1_[1]) {
return k;
}
}
col0_ = *(const int *)((const char*)color + prev * color_stride);
col1_ = *(const int *)((const char*)color + k * color_stride);
if (col0_ != col1_) {
return k;
}
return prev;
}
static int
remap_indices(
int prev[3],
int k,
SDL_Texture *texture,
const float *xy, int xy_stride,
const SDL_Color *color, int color_stride,
const float *uv, int uv_stride)
{
int i;
if (prev[0] == -1) {
return k;
}
for (i = 0; i < 3; i++) {
int new_k = remap_one_indice(prev[i], k, texture, xy, xy_stride, color, color_stride, uv, uv_stride);
if (new_k != k) {
return new_k;
}
}
return k;
}
#define DEBUG_SW_RENDER_GEOMETRY 0
static int SDLCALL
SDL_SW_RenderGeometryRaw(SDL_Renderer *renderer,
SDL_Texture *texture,
const float *xy, int xy_stride,
const SDL_Color *color, int color_stride,
const float *uv, int uv_stride,
int num_vertices,
const void *indices, int num_indices, int size_indices)
{
int i;
int retval = 0;
int count = indices ? num_indices : num_vertices;
int prev[3];
int texw = 0, texh = 0;
SDL_BlendMode blendMode = SDL_BLENDMODE_NONE;
Uint8 r = 0, g = 0, b = 0, a = 0;
SDL_GetRenderDrawBlendMode(renderer, &blendMode);
SDL_GetRenderDrawColor(renderer, &r, &g, &b, &a);
if (texture) {
SDL_QueryTexture(texture, NULL, NULL, &texw, &texh);
}
prev[0] = -1; prev[1] = -1; prev[2] = -1;
size_indices = indices ? size_indices : 0;
for (i = 0; i < count; i += 3) {
int k0, k1, k2;
int is_quad = 1;
#if DEBUG_SW_RENDER_GEOMETRY
int is_uniform = 1;
int is_rectangle = 1;
#endif
int A = -1;
int B = -1;
int C = -1;
int C2 = -1;
if (size_indices == 4) {
k0 = ((const Uint32 *)indices)[i];
k1 = ((const Uint32 *)indices)[i + 1];
k2 = ((const Uint32 *)indices)[i + 2];
} else if (size_indices == 2) {
k0 = ((const Uint16 *)indices)[i];
k1 = ((const Uint16 *)indices)[i + 1];
k2 = ((const Uint16 *)indices)[i + 2];
} else if (size_indices == 1) {
k0 = ((const Uint8 *)indices)[i];
k1 = ((const Uint8 *)indices)[i + 1];
k2 = ((const Uint8 *)indices)[i + 2];
} else {
k0 = remap_indices(prev, i, texture, xy, xy_stride, color, color_stride, uv, uv_stride);
k1 = remap_indices(prev, i + 1, texture, xy, xy_stride, color, color_stride, uv, uv_stride);
k2 = remap_indices(prev, i + 2, texture, xy, xy_stride, color, color_stride, uv, uv_stride);
}
if (prev[0] == -1) {
prev[0] = k0;
prev[1] = k1;
prev[2] = k2;
continue;
}
{
int cnt = 0, j = 3;
while (j--) {
int p = prev[j];
if (p == k0 || p == k1 || p == k2) {
cnt++;
}
}
is_quad = (cnt == 2);
}
if (is_quad) {
const float *xy0_, *xy1_, *xy2_;
float x0, x1, x2;
float y0, y1, y2;
xy0_ = (const float *)((const char*)xy + k0 * xy_stride);
xy1_ = (const float *)((const char*)xy + k1 * xy_stride);
xy2_ = (const float *)((const char*)xy + k2 * xy_stride);
x0 = xy0_[0]; y0 = xy0_[1];
x1 = xy1_[0]; y1 = xy1_[1];
x2 = xy2_[0]; y2 = xy2_[1];
if (x0 <= x1 && y0 <= y1) {
if (x0 <= x2 && y0 <= y2) {
A = k0;
} else {
A = k2;
}
} else {
if (x1 <= x2 && y1 <= y2) {
A = k1;
} else {
A = k2;
}
}
if (x0 >= x1 && y0 >= y1) {
if (x0 >= x2 && y0 >= y2) {
B = k0;
} else {
B = k2;
}
} else {
if (x1 >= x2 && y1 >= y2) {
B = k1;
} else {
B = k2;
}
}
if (k0 != A && k0 != B) {
C = k0;
} else if (k1 != A && k1 != B) {
C = k1;
} else {
C = k2;
}
if (prev[0] != A && prev[0] != B) {
C2 = prev[0];
} else if (prev[1] != A && prev[1] != B) {
C2 = prev[1];
} else {
C2 = prev[2];
}
xy0_ = (const float *)((const char*)xy + A * xy_stride);
xy1_ = (const float *)((const char*)xy + B * xy_stride);
xy2_ = (const float *)((const char*)xy + C * xy_stride);
x0 = xy0_[0]; y0 = xy0_[1];
x1 = xy1_[0]; y1 = xy1_[1];
x2 = xy2_[0]; y2 = xy2_[1];
if ((x0 == x2 && y1 == y2) || (y0 == y2 && x1 == x2)){
} else {
is_quad = 0;
#if DEBUG_SW_RENDER_GEOMETRY
is_rectangle = 0;
#endif
}
xy2_ = (const float *)((const char*)xy + C2 * xy_stride);
x2 = xy2_[0]; y2 = xy2_[1];
if ((x0 == x2 && y1 == y2) || (y0 == y2 && x1 == x2)){
} else {
is_quad = 0;
#if DEBUG_SW_RENDER_GEOMETRY
is_rectangle = 0;
#endif
}
}
if (is_quad) {
const int col0_ = *(const int *)((const char*)color + A * color_stride);
const int col1_ = *(const int *)((const char*)color + B * color_stride);
const int col2_ = *(const int *)((const char*)color + C * color_stride);
const int col3_ = *(const int *)((const char*)color + C2 * color_stride);
if (col0_ == col1_ && col0_ == col2_ && col0_ == col3_) {
} else {
is_quad = 0;
#if DEBUG_SW_RENDER_GEOMETRY
is_uniform = 0;
#endif
}
}
if (is_quad) {
SDL_Rect s;
SDL_FRect d;
const float *xy0_, *xy1_, *uv0_, *uv1_;
SDL_Color col0_ = *(const SDL_Color *)((const char*)color + k0 * color_stride);
xy0_ = (const float *)((const char*)xy + A * xy_stride);
xy1_ = (const float *)((const char*)xy + B * xy_stride);
if (texture) {
uv0_ = (const float *)((const char*)uv + A * uv_stride);
uv1_ = (const float *)((const char*)uv + B * uv_stride);
s.x = (int) (uv0_[0] * texw);
s.y = (int) (uv0_[1] * texh);
s.w = (int) (uv1_[0] * texw - s.x);
s.h = (int) (uv1_[1] * texh - s.y);
}
d.x = xy0_[0];
d.y = xy0_[1];
d.w = xy1_[0] - d.x;
d.h = xy1_[1] - d.y;
if (texture && s.w != 0 && s.h != 0) {
SDL_SetTextureAlphaMod(texture, col0_.a);
SDL_SetTextureColorMod(texture, col0_.r, col0_.g, col0_.b);
if (s.w > 0 && s.h > 0) {
SDL_RenderCopyF(renderer, texture, &s, &d);
} else {
int flags = 0;
if (s.w < 0) {
flags |= SDL_FLIP_HORIZONTAL;
s.w *= -1;
s.x -= s.w;
}
if (s.h < 0) {
flags |= SDL_FLIP_VERTICAL;
s.h *= -1;
s.y -= s.h;
}
SDL_RenderCopyExF(renderer, texture, &s, &d, 0, NULL, flags);
}
#if DEBUG_SW_RENDER_GEOMETRY
SDL_Log("Rect-COPY: RGB %d %d %d - Alpha:%d - texture=%p: src=(%d,%d, %d x %d) dst (%f, %f, %f x %f)", col0_.r, col0_.g, col0_.b, col0_.a,
(void *)texture, s.x, s.y, s.w, s.h, d.x, d.y, d.w, d.h);
#endif
} else if (d.w != 0.0f && d.h != 0.0f) {
SDL_SetRenderDrawBlendMode(renderer, SDL_BLENDMODE_BLEND);
SDL_SetRenderDrawColor(renderer, col0_.r, col0_.g, col0_.b, col0_.a);
SDL_RenderFillRectF(renderer, &d);
#if DEBUG_SW_RENDER_GEOMETRY
SDL_Log("Rect-FILL: RGB %d %d %d - Alpha:%d - texture=%p: dst (%f, %f, %f x %f)", col0_.r, col0_.g, col0_.b, col0_.a,
(void *)texture, d.x, d.y, d.w, d.h);
} else {
SDL_Log("Rect-DISMISS: RGB %d %d %d - Alpha:%d - texture=%p: src=(%d,%d, %d x %d) dst (%f, %f, %f x %f)", col0_.r, col0_.g, col0_.b, col0_.a,
(void *)texture, s.x, s.y, s.w, s.h, d.x, d.y, d.w, d.h);
#endif
}
prev[0] = -1;
} else {
if (prev[0] != -1) {
#if DEBUG_SW_RENDER_GEOMETRY
SDL_Log("Triangle %d %d %d - is_uniform:%d is_rectangle:%d", prev[0], prev[1], prev[2], is_uniform, is_rectangle);
#endif
retval = QueueCmdGeometry(renderer, texture,
xy, xy_stride, color, color_stride, uv, uv_stride,
num_vertices, prev, 3, 4, renderer->scale.x, renderer->scale.y);
if (retval < 0) {
goto end;
} else {
FlushRenderCommandsIfNotBatching(renderer);
}
}
prev[0] = k0;
prev[1] = k1;
prev[2] = k2;
}
}
if (prev[0] != -1) {
#if DEBUG_SW_RENDER_GEOMETRY
SDL_Log("Last triangle %d %d %d", prev[0], prev[1], prev[2]);
#endif
retval = QueueCmdGeometry(renderer, texture,
xy, xy_stride, color, color_stride, uv, uv_stride,
num_vertices, prev, 3, 4, renderer->scale.x, renderer->scale.y);
if (retval < 0) {
goto end;
} else {
FlushRenderCommandsIfNotBatching(renderer);
}
}
end:
SDL_SetRenderDrawBlendMode(renderer, blendMode);
SDL_SetRenderDrawColor(renderer, r, g, b, a);
return retval;
}
int
SDL_RenderGeometryRaw(SDL_Renderer *renderer,
SDL_Texture *texture,
const float *xy, int xy_stride,
const SDL_Color *color, int color_stride,
const float *uv, int uv_stride,
int num_vertices,
const void *indices, int num_indices, int size_indices)
{
int i;
int retval = 0;
int count = indices ? num_indices : num_vertices;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!renderer->QueueGeometry) {
return SDL_Unsupported();
}
if (texture) {
CHECK_TEXTURE_MAGIC(texture, -1);
if (renderer != texture->renderer) {
return SDL_SetError("Texture was not created with this renderer");
}
}
if (!xy) {
return SDL_InvalidParamError("xy");
}
if (!color) {
return SDL_InvalidParamError("color");
}
if (texture && !uv) {
return SDL_InvalidParamError("uv");
}
if (count % 3 != 0) {
return SDL_InvalidParamError(indices ? "num_indices" : "num_vertices");
}
if (indices) {
if (size_indices != 1 && size_indices != 2 && size_indices != 4) {
return SDL_InvalidParamError("size_indices");
}
} else {
size_indices = 0;
}
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
return 0;
}
#endif
if (num_vertices < 3) {
return 0;
}
if (texture && texture->native) {
texture = texture->native;
}
if (texture) {
for (i = 0; i < num_vertices; ++i) {
const float *uv_ = (const float *)((const char*)uv + i * uv_stride);
float u = uv_[0];
float v = uv_[1];
if (u < 0.0f || v < 0.0f || u > 1.0f || v > 1.0f) {
return SDL_SetError("Values of 'uv' out of bounds %f %f at %d/%d", u, v, i, num_vertices);
}
}
}
if (indices) {
for (i = 0; i < num_indices; ++i) {
int j;
if (size_indices == 4) {
j = ((const Uint32 *)indices)[i];
} else if (size_indices == 2) {
j = ((const Uint16 *)indices)[i];
} else {
j = ((const Uint8 *)indices)[i];
}
if (j < 0 || j >= num_vertices) {
return SDL_SetError("Values of 'indices' out of bounds");
}
}
}
if (texture) {
texture->last_command_generation = renderer->render_command_generation;
}
if (renderer->info.flags & SDL_RENDERER_SOFTWARE) {
return SDL_SW_RenderGeometryRaw(renderer, texture,
xy, xy_stride, color, color_stride, uv, uv_stride, num_vertices,
indices, num_indices, size_indices);
}
retval = QueueCmdGeometry(renderer, texture,
xy, xy_stride, color, color_stride, uv, uv_stride,
num_vertices,
indices, num_indices, size_indices,
renderer->scale.x, renderer->scale.y);
return retval < 0 ? retval : FlushRenderCommandsIfNotBatching(renderer);
}
int
SDL_RenderReadPixels(SDL_Renderer * renderer, const SDL_Rect * rect,
Uint32 format, void * pixels, int pitch)
{
SDL_Rect real_rect;
CHECK_RENDERER_MAGIC(renderer, -1);
if (!renderer->RenderReadPixels) {
return SDL_Unsupported();
}
FlushRenderCommands(renderer);
if (!format) {
if (renderer->target == NULL) {
format = SDL_GetWindowPixelFormat(renderer->window);
} else {
format = renderer->target->format;
}
}
real_rect.x = (int)SDL_floor(renderer->viewport.x);
real_rect.y = (int)SDL_floor(renderer->viewport.y);
real_rect.w = (int)SDL_floor(renderer->viewport.w);
real_rect.h = (int)SDL_floor(renderer->viewport.h);
if (rect) {
if (!SDL_IntersectRect(rect, &real_rect, &real_rect)) {
return 0;
}
if (real_rect.y > rect->y) {
pixels = (Uint8 *)pixels + pitch * (real_rect.y - rect->y);
}
if (real_rect.x > rect->x) {
int bpp = SDL_BYTESPERPIXEL(format);
pixels = (Uint8 *)pixels + bpp * (real_rect.x - rect->x);
}
}
return renderer->RenderReadPixels(renderer, &real_rect,
format, pixels, pitch);
}
static void
SDL_RenderSimulateVSync(SDL_Renderer * renderer)
{
Uint32 now, elapsed;
const Uint32 interval = renderer->simulate_vsync_interval;
if (!interval) {
return;
}
now = SDL_GetTicks();
elapsed = (now - renderer->last_present);
if (elapsed < interval) {
Uint32 duration = (interval - elapsed);
SDL_Delay(duration);
now = SDL_GetTicks();
}
elapsed = (now - renderer->last_present);
if (!renderer->last_present || elapsed > 1000) {
renderer->last_present = now;
} else {
renderer->last_present += (elapsed / interval) * interval;
}
}
void
SDL_RenderPresent(SDL_Renderer * renderer)
{
SDL_bool presented = SDL_TRUE;
CHECK_RENDERER_MAGIC(renderer, );
FlushRenderCommands(renderer);
#if DONT_DRAW_WHILE_HIDDEN
if (renderer->hidden) {
presented = SDL_FALSE;
} else
#endif
if (renderer->RenderPresent(renderer) < 0) {
presented = SDL_FALSE;
}
if (renderer->simulate_vsync ||
(!presented && renderer->wanted_vsync)) {
SDL_RenderSimulateVSync(renderer);
}
}
void
SDL_DestroyTexture(SDL_Texture * texture)
{
SDL_Renderer *renderer;
CHECK_TEXTURE_MAGIC(texture, );
renderer = texture->renderer;
if (texture == renderer->target) {
SDL_SetRenderTarget(renderer, NULL);
} else {
FlushRenderCommandsIfTextureNeeded(texture);
}
texture->magic = NULL;
if (texture->next) {
texture->next->prev = texture->prev;
}
if (texture->prev) {
texture->prev->next = texture->next;
} else {
renderer->textures = texture->next;
}
if (texture->native) {
SDL_DestroyTexture(texture->native);
}
#if SDL_HAVE_YUV
if (texture->yuv) {
SDL_SW_DestroyYUVTexture(texture->yuv);
}
#endif
SDL_free(texture->pixels);
renderer->DestroyTexture(renderer, texture);
SDL_FreeSurface(texture->locked_surface);
texture->locked_surface = NULL;
SDL_free(texture);
}
void
SDL_DestroyRenderer(SDL_Renderer * renderer)
{
SDL_RenderCommand *cmd;
CHECK_RENDERER_MAGIC(renderer, );
SDL_DelEventWatch(SDL_RendererEventWatch, renderer);
if (renderer->render_commands_tail != NULL) {
renderer->render_commands_tail->next = renderer->render_commands_pool;
cmd = renderer->render_commands;
} else {
cmd = renderer->render_commands_pool;
}
renderer->render_commands_pool = NULL;
renderer->render_commands_tail = NULL;
renderer->render_commands = NULL;
while (cmd != NULL) {
SDL_RenderCommand *next = cmd->next;
SDL_free(cmd);
cmd = next;
}
SDL_free(renderer->vertex_data);
while (renderer->textures) {
SDL_Texture *tex = renderer->textures; (void) tex;
SDL_DestroyTexture(renderer->textures);
SDL_assert(tex != renderer->textures);
}
if (renderer->window) {
SDL_SetWindowData(renderer->window, SDL_WINDOWRENDERDATA, NULL);
}
renderer->magic = NULL;
SDL_DestroyMutex(renderer->target_mutex);
renderer->target_mutex = NULL;
renderer->DestroyRenderer(renderer);
}
int SDL_GL_BindTexture(SDL_Texture *texture, float *texw, float *texh)
{
SDL_Renderer *renderer;
CHECK_TEXTURE_MAGIC(texture, -1);
renderer = texture->renderer;
if (texture->native) {
return SDL_GL_BindTexture(texture->native, texw, texh);
} else if (renderer && renderer->GL_BindTexture) {
FlushRenderCommandsIfTextureNeeded(texture);
return renderer->GL_BindTexture(renderer, texture, texw, texh);
} else {
return SDL_Unsupported();
}
}
int SDL_GL_UnbindTexture(SDL_Texture *texture)
{
SDL_Renderer *renderer;
CHECK_TEXTURE_MAGIC(texture, -1);
renderer = texture->renderer;
if (texture->native) {
return SDL_GL_UnbindTexture(texture->native);
} else if (renderer && renderer->GL_UnbindTexture) {
FlushRenderCommandsIfTextureNeeded(texture);
return renderer->GL_UnbindTexture(renderer, texture);
}
return SDL_Unsupported();
}
void *
SDL_RenderGetMetalLayer(SDL_Renderer * renderer)
{
CHECK_RENDERER_MAGIC(renderer, NULL);
if (renderer->GetMetalLayer) {
FlushRenderCommands(renderer);
return renderer->GetMetalLayer(renderer);
}
return NULL;
}
void *
SDL_RenderGetMetalCommandEncoder(SDL_Renderer * renderer)
{
CHECK_RENDERER_MAGIC(renderer, NULL);
if (renderer->GetMetalCommandEncoder) {
FlushRenderCommands(renderer);
return renderer->GetMetalCommandEncoder(renderer);
}
return NULL;
}
static SDL_BlendMode
SDL_GetShortBlendMode(SDL_BlendMode blendMode)
{
if (blendMode == SDL_BLENDMODE_NONE_FULL) {
return SDL_BLENDMODE_NONE;
}
if (blendMode == SDL_BLENDMODE_BLEND_FULL) {
return SDL_BLENDMODE_BLEND;
}
if (blendMode == SDL_BLENDMODE_ADD_FULL) {
return SDL_BLENDMODE_ADD;
}
if (blendMode == SDL_BLENDMODE_MOD_FULL) {
return SDL_BLENDMODE_MOD;
}
if (blendMode == SDL_BLENDMODE_MUL_FULL) {
return SDL_BLENDMODE_MUL;
}
return blendMode;
}
static SDL_BlendMode
SDL_GetLongBlendMode(SDL_BlendMode blendMode)
{
if (blendMode == SDL_BLENDMODE_NONE) {
return SDL_BLENDMODE_NONE_FULL;
}
if (blendMode == SDL_BLENDMODE_BLEND) {
return SDL_BLENDMODE_BLEND_FULL;
}
if (blendMode == SDL_BLENDMODE_ADD) {
return SDL_BLENDMODE_ADD_FULL;
}
if (blendMode == SDL_BLENDMODE_MOD) {
return SDL_BLENDMODE_MOD_FULL;
}
if (blendMode == SDL_BLENDMODE_MUL) {
return SDL_BLENDMODE_MUL_FULL;
}
return blendMode;
}
SDL_BlendMode
SDL_ComposeCustomBlendMode(SDL_BlendFactor srcColorFactor, SDL_BlendFactor dstColorFactor,
SDL_BlendOperation colorOperation,
SDL_BlendFactor srcAlphaFactor, SDL_BlendFactor dstAlphaFactor,
SDL_BlendOperation alphaOperation)
{
SDL_BlendMode blendMode = SDL_COMPOSE_BLENDMODE(srcColorFactor, dstColorFactor, colorOperation,
srcAlphaFactor, dstAlphaFactor, alphaOperation);
return SDL_GetShortBlendMode(blendMode);
}
SDL_BlendFactor
SDL_GetBlendModeSrcColorFactor(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendFactor)(((Uint32)blendMode >> 4) & 0xF);
}
SDL_BlendFactor
SDL_GetBlendModeDstColorFactor(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendFactor)(((Uint32)blendMode >> 8) & 0xF);
}
SDL_BlendOperation
SDL_GetBlendModeColorOperation(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendOperation)(((Uint32)blendMode >> 0) & 0xF);
}
SDL_BlendFactor
SDL_GetBlendModeSrcAlphaFactor(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendFactor)(((Uint32)blendMode >> 20) & 0xF);
}
SDL_BlendFactor
SDL_GetBlendModeDstAlphaFactor(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendFactor)(((Uint32)blendMode >> 24) & 0xF);
}
SDL_BlendOperation
SDL_GetBlendModeAlphaOperation(SDL_BlendMode blendMode)
{
blendMode = SDL_GetLongBlendMode(blendMode);
return (SDL_BlendOperation)(((Uint32)blendMode >> 16) & 0xF);
}
int
SDL_RenderSetVSync(SDL_Renderer * renderer, int vsync)
{
CHECK_RENDERER_MAGIC(renderer, -1);
if (vsync != 0 && vsync != 1) {
return SDL_Unsupported();
}
renderer->wanted_vsync = vsync ? SDL_TRUE : SDL_FALSE;
if (!renderer->SetVSync ||
renderer->SetVSync(renderer, vsync) < 0) {
renderer->simulate_vsync = vsync ? SDL_TRUE : SDL_FALSE;
} else {
renderer->simulate_vsync = SDL_FALSE;
}
return 0;
}