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android_development/tools/emulator/opengl/system/GLESv2_enc/GL2Encoder.cpp
Stas Gurtovoy d6f18cdf80 opengl emulator: Added gl error tracking on the guest (encoder) 
Sometimes we need to check parameter values before encoding
to prevent crashes, for example:
glDeleteBufferes(-1, ptr); - would crash
For that we need to check some gl errors on the guest.

The change adds error state to the encoder and also
adds new feature to emugen which allows to insert
parameter check code into the attribute file.
Added such parameter check code in the appropiate
gl functions in gl.attrib and gl2.attrib

Change-Id: I7f317df52ac8fbd96979100a1031cf023a0b49d3
2011-07-07 16:35:16 +03:00

364 lines
12 KiB
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#include "GL2Encoder.h"
#include <assert.h>
static GLubyte *gVendorString= (GLubyte *) "Android";
static GLubyte *gRendererString= (GLubyte *) "Android HW-GLES 2.0";
static GLubyte *gVersionString= (GLubyte *) "OpenGL ES 2.0";
static GLubyte *gExtensionsString= (GLubyte *) ""; // no extensions at this point;
GL2Encoder::GL2Encoder(IOStream *stream) : gl2_encoder_context_t(stream)
{
m_initialized = false;
m_state = NULL;
m_error = GL_NO_ERROR;
m_num_compressedTextureFormats = 0;
m_compressedTextureFormats = NULL;
//overrides
m_glFlush_enc = set_glFlush(s_glFlush);
m_glPixelStorei_enc = set_glPixelStorei(s_glPixelStorei);
m_glGetString_enc = set_glGetString(s_glGetString);
m_glBindBuffer_enc = set_glBindBuffer(s_glBindBuffer);
m_glDrawArrays_enc = set_glDrawArrays(s_glDrawArrays);
m_glDrawElements_enc = set_glDrawElements(s_glDrawElements);
m_glGetIntegerv_enc = set_glGetIntegerv(s_glGetIntegerv);
m_glGetFloatv_enc = set_glGetFloatv(s_glGetFloatv);
m_glGetBooleanv_enc = set_glGetBooleanv(s_glGetBooleanv);
m_glVertexAttribPointer_enc = set_glVertexAttribPointer(s_glVertexAtrribPointer);
m_glEnableVertexAttribArray_enc = set_glEnableVertexAttribArray(s_glEnableVertexAttribArray);
m_glDisableVertexAttribArray_enc = set_glDisableVertexAttribArray(s_glDisableVertexAttribArray);
m_glGetVertexAttribiv_enc = set_glGetVertexAttribiv(s_glGetVertexAttribiv);
m_glGetVertexAttribfv_enc = set_glGetVertexAttribfv(s_glGetVertexAttribfv);
m_glGetVertexAttribPointerv = set_glGetVertexAttribPointerv(s_glGetVertexAttribPointerv);
set_glShaderSource(s_glShaderSource);
set_glFinish(s_glFinish);
m_glGetError_enc = set_glGetError(s_glGetError);
}
GL2Encoder::~GL2Encoder()
{
delete m_compressedTextureFormats;
}
GLenum GL2Encoder::s_glGetError(void * self)
{
GL2Encoder *ctx = (GL2Encoder *)self;
GLenum err = ctx->getError();
if(err != GL_NO_ERROR) {
ctx->setError(GL_NO_ERROR);
return err;
}
return ctx->m_glGetError_enc(self);
}
void GL2Encoder::s_glFlush(void *self)
{
GL2Encoder *ctx = (GL2Encoder *) self;
ctx->m_glFlush_enc(self);
ctx->m_stream->flush();
}
const GLubyte *GL2Encoder::s_glGetString(void *self, GLenum name)
{
GLubyte *retval = (GLubyte *) "";
switch(name) {
case GL_VENDOR:
retval = gVendorString;
break;
case GL_RENDERER:
retval = gRendererString;
break;
case GL_VERSION:
retval = gVersionString;
break;
case GL_EXTENSIONS:
retval = gExtensionsString;
break;
}
return retval;
}
void GL2Encoder::s_glPixelStorei(void *self, GLenum param, GLint value)
{
GL2Encoder *ctx = (GL2Encoder *)self;
ctx->m_glPixelStorei_enc(ctx, param, value);
assert(ctx->m_state != NULL);
ctx->m_state->setPixelStore(param, value);
}
void GL2Encoder::s_glBindBuffer(void *self, GLenum target, GLuint id)
{
GL2Encoder *ctx = (GL2Encoder *) self;
assert(ctx->m_state != NULL);
ctx->m_state->bindBuffer(target, id);
// TODO set error state if needed;
ctx->m_glBindBuffer_enc(self, target, id);
}
void GL2Encoder::s_glVertexAtrribPointer(void *self, GLuint indx, GLint size, GLenum type, GLboolean normalized, GLsizei stride, const GLvoid * ptr)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state != NULL);
ctx->m_state->setState(indx, size, type, normalized, stride, ptr);
}
void GL2Encoder::s_glGetIntegerv(void *self, GLenum param, GLint *params)
{
GL2Encoder *ctx = (GL2Encoder *) self;
assert(ctx->m_state != NULL);
if (param == GL_NUM_SHADER_BINARY_FORMATS) {
*params = 0;
} else if (param == GL_SHADER_BINARY_FORMATS) {
// do nothing
} else if (param == GL_COMPRESSED_TEXTURE_FORMATS) {
GLint *compressedTextureFormats = ctx->getCompressedTextureFormats();
if (ctx->m_num_compressedTextureFormats > 0 && compressedTextureFormats != NULL) {
memcpy(params, compressedTextureFormats, ctx->m_num_compressedTextureFormats * sizeof(GLint));
}
} else if (!ctx->m_state->getClientStateParameter<GLint>(param, params)) {
ctx->m_glGetIntegerv_enc(self, param, params);
}
}
void GL2Encoder::s_glGetFloatv(void *self, GLenum param, GLfloat *ptr)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state != NULL);
if (param == GL_NUM_SHADER_BINARY_FORMATS) {
*ptr = 0;
} else if (param == GL_SHADER_BINARY_FORMATS) {
// do nothing;
} else if (param == GL_COMPRESSED_TEXTURE_FORMATS) {
GLint * compressedTextureFormats = ctx->getCompressedTextureFormats();
if (ctx->m_num_compressedTextureFormats > 0 && compressedTextureFormats != NULL) {
for (int i = 0; i < ctx->m_num_compressedTextureFormats; i++) {
ptr[i] = (GLfloat) compressedTextureFormats[i];
}
}
}
else if (!ctx->m_state->getClientStateParameter<GLfloat>(param,ptr)) {
ctx->m_glGetFloatv_enc(self, param, ptr);
}
}
void GL2Encoder::s_glGetBooleanv(void *self, GLenum param, GLboolean *ptr)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state != NULL);
if (param == GL_COMPRESSED_TEXTURE_FORMATS) {
// ignore the command, although we should have generated a GLerror;
}
else if (!ctx->m_state->getClientStateParameter<GLboolean>(param,ptr)) {
ctx->m_glGetBooleanv_enc(self, param, ptr);
}
}
void GL2Encoder::s_glEnableVertexAttribArray(void *self, GLuint index)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state);
ctx->m_state->enable(index, 1);
}
void GL2Encoder::s_glDisableVertexAttribArray(void *self, GLuint index)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state);
ctx->m_state->enable(index, 0);
}
void GL2Encoder::s_glGetVertexAttribiv(void *self, GLuint index, GLenum pname, GLint *params)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state);
if (!ctx->m_state->getVertexAttribParameter<GLint>(index, pname, params)) {
ctx->m_glGetVertexAttribiv_enc(self, index, pname, params);
}
}
void GL2Encoder::s_glGetVertexAttribfv(void *self, GLuint index, GLenum pname, GLfloat *params)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state);
if (!ctx->m_state->getVertexAttribParameter<GLfloat>(index, pname, params)) {
ctx->m_glGetVertexAttribfv_enc(self, index, pname, params);
}
}
void GL2Encoder::s_glGetVertexAttribPointerv(void *self, GLuint index, GLenum pname, GLvoid **pointer)
{
GL2Encoder *ctx = (GL2Encoder *)self;
if (ctx->m_state == NULL) return;
const GLClientState::VertexAttribState *va_state = ctx->m_state->getState(index);
if (va_state != NULL) {
*pointer = va_state->data;
}
}
void GL2Encoder::sendVertexAttributes(GLint first, GLsizei count)
{
assert(m_state);
for (int i = 0; i < m_state->nLocations(); i++) {
bool enableDirty;
const GLClientState::VertexAttribState *state = m_state->getStateAndEnableDirty(i, &enableDirty);
if (!state) {
continue;
}
if (!enableDirty && !state->enabled) {
continue;
}
if (state->enabled) {
m_glEnableVertexAttribArray_enc(this, i);
unsigned int datalen = state->elementSize * count;
int stride = state->stride == 0 ? state->elementSize : state->stride;
int firstIndex = stride * first;
if (state->bufferObject == 0) {
this->glVertexAttribPointerData(this, i, state->size, state->type, state->normalized, state->stride,
(unsigned char *)state->data + firstIndex, datalen);
} else {
this->glBindBuffer(this, GL_ARRAY_BUFFER, state->bufferObject);
this->glVertexAttribPointerOffset(this, i, state->size, state->type, state->normalized, state->stride,
(GLuint) state->data + firstIndex);
}
} else {
this->m_glDisableVertexAttribArray_enc(this, i);
}
}
}
void GL2Encoder::s_glDrawArrays(void *self, GLenum mode, GLint first, GLsizei count)
{
GL2Encoder *ctx = (GL2Encoder *)self;
ctx->sendVertexAttributes(first, count);
ctx->m_glDrawArrays_enc(ctx, mode, 0, count);
}
void GL2Encoder::s_glDrawElements(void *self, GLenum mode, GLsizei count, GLenum type, const void *indices)
{
GL2Encoder *ctx = (GL2Encoder *)self;
assert(ctx->m_state != NULL);
bool has_immediate_arrays = false;
bool has_indirect_arrays = false;
int nLocations = ctx->m_state->nLocations();
for (int i = 0; i < nLocations; i++) {
const GLClientState::VertexAttribState *state = ctx->m_state->getState(i);
if (state->enabled) {
if (state->bufferObject != 0) {
has_indirect_arrays = true;
} else {
has_immediate_arrays = true;
}
}
}
if (!has_immediate_arrays && !has_indirect_arrays) {
LOGE("glDrawElements: no data bound to the command - ignoring\n");
return;
}
if (ctx->m_state->currentIndexVbo() != 0) {
if (!has_immediate_arrays) {
ctx->sendVertexAttributes(0, count);
ctx->glDrawElementsOffset(ctx, mode, count, type, (GLuint)indices);
} else {
LOGE("glDrawElements: indirect index arrays, with immidate-mode data array is not supported\n");
}
} else {
void *adjustedIndices = (void*)indices;
int minIndex = 0, maxIndex = 0;
switch(type) {
case GL_BYTE:
case GL_UNSIGNED_BYTE:
GLUtils::minmax<unsigned char>((unsigned char *)indices, count, &minIndex, &maxIndex);
if (minIndex != 0) {
adjustedIndices = ctx->m_fixedBuffer.alloc(glSizeof(type) * count);
GLUtils::shiftIndices<unsigned char>((unsigned char *)indices,
(unsigned char *)adjustedIndices,
count, -minIndex);
}
break;
case GL_SHORT:
case GL_UNSIGNED_SHORT:
GLUtils::minmax<unsigned short>((unsigned short *)indices, count, &minIndex, &maxIndex);
if (minIndex != 0) {
adjustedIndices = ctx->m_fixedBuffer.alloc(glSizeof(type) * count);
GLUtils::shiftIndices<unsigned short>((unsigned short *)indices,
(unsigned short *)adjustedIndices,
count, -minIndex);
}
break;
default:
LOGE("unsupported index buffer type %d\n", type);
}
if (has_indirect_arrays || 1) {
ctx->sendVertexAttributes(minIndex, maxIndex - minIndex + 1);
ctx->glDrawElementsData(ctx, mode, count, type, adjustedIndices,
count * glSizeof(type));
// XXX - OPTIMIZATION (see the other else branch) should be implemented
if(!has_indirect_arrays) {
//LOGD("unoptimized drawelements !!!\n");
}
} else {
// we are all direct arrays and immidate mode index array -
// rebuild the arrays and the index array;
LOGE("glDrawElements: direct index & direct buffer data - will be implemented in later versions;\n");
}
}
}
GLint * GL2Encoder::getCompressedTextureFormats()
{
if (m_compressedTextureFormats == NULL) {
this->glGetIntegerv(this, GL_NUM_COMPRESSED_TEXTURE_FORMATS,
&m_num_compressedTextureFormats);
if (m_num_compressedTextureFormats > 0) {
// get number of texture formats;
m_compressedTextureFormats = new GLint[m_num_compressedTextureFormats];
this->glGetCompressedTextureFormats(this, m_num_compressedTextureFormats, m_compressedTextureFormats);
}
}
return m_compressedTextureFormats;
}
void GL2Encoder::s_glShaderSource(void *self, GLuint shader, GLsizei count, const GLchar **string, const GLint *length)
{
int len = glUtilsCalcShaderSourceLen((char**)string, (GLint*)length, count);
char *str = new char[len + 1];
glUtilsPackStrings(str, (char**)string, (GLint*)length, count);
GL2Encoder *ctx = (GL2Encoder *)self;
ctx->glShaderString(ctx, shader, str, len + 1);
delete str;
}
void GL2Encoder::s_glFinish(void *self)
{
GL2Encoder *ctx = (GL2Encoder *)self;
ctx->glFinishRoundTrip(self);
}
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